diff --git a/bsp/zynqmp-r5-axu4ev/.config b/bsp/zynqmp-r5-axu4ev/.config index 629096a979..1f215d3c25 100644 --- a/bsp/zynqmp-r5-axu4ev/.config +++ b/bsp/zynqmp-r5-axu4ev/.config @@ -23,6 +23,12 @@ CONFIG_IDLE_THREAD_STACK_SIZE=512 CONFIG_RT_USING_TIMER_SOFT=y CONFIG_RT_TIMER_THREAD_PRIO=4 CONFIG_RT_TIMER_THREAD_STACK_SIZE=512 + +# +# kservice optimization +# +# CONFIG_RT_KSERVICE_USING_STDLIB is not set +# CONFIG_RT_KSERVICE_USING_TINY_SIZE is not set CONFIG_RT_DEBUG=y # CONFIG_RT_DEBUG_COLOR is not set # CONFIG_RT_DEBUG_INIT_CONFIG is not set @@ -52,8 +58,9 @@ CONFIG_RT_USING_MESSAGEQUEUE=y CONFIG_RT_USING_MEMPOOL=y # CONFIG_RT_USING_MEMHEAP is not set # CONFIG_RT_USING_NOHEAP is not set -CONFIG_RT_USING_SMALL_MEM=y -# CONFIG_RT_USING_SLAB is not set +# CONFIG_RT_USING_SMALL_MEM is not set +CONFIG_RT_USING_SLAB=y +# CONFIG_RT_USING_USERHEAP is not set # CONFIG_RT_USING_MEMTRACE is not set CONFIG_RT_USING_HEAP=y @@ -66,7 +73,7 @@ CONFIG_RT_USING_DEVICE=y CONFIG_RT_USING_CONSOLE=y CONFIG_RT_CONSOLEBUF_SIZE=128 CONFIG_RT_CONSOLE_DEVICE_NAME="uart0" -CONFIG_RT_VER_NUM=0x40003 +CONFIG_RT_VER_NUM=0x40004 # CONFIG_RT_USING_CPU_FFS is not set # CONFIG_ARCH_CPU_STACK_GROWS_UPWARD is not set @@ -123,6 +130,11 @@ CONFIG_RT_DFS_ELM_WORD_ACCESS=y # CONFIG_RT_DFS_ELM_USE_LFN_2 is not set CONFIG_RT_DFS_ELM_USE_LFN_3=y CONFIG_RT_DFS_ELM_USE_LFN=3 +CONFIG_RT_DFS_ELM_LFN_UNICODE_0=y +# CONFIG_RT_DFS_ELM_LFN_UNICODE_1 is not set +# CONFIG_RT_DFS_ELM_LFN_UNICODE_2 is not set +# CONFIG_RT_DFS_ELM_LFN_UNICODE_3 is not set +CONFIG_RT_DFS_ELM_LFN_UNICODE=0 CONFIG_RT_DFS_ELM_MAX_LFN=255 CONFIG_RT_DFS_ELM_DRIVES=2 CONFIG_RT_DFS_ELM_MAX_SECTOR_SIZE=512 @@ -131,15 +143,16 @@ CONFIG_RT_DFS_ELM_REENTRANT=y CONFIG_RT_USING_DFS_DEVFS=y # CONFIG_RT_USING_DFS_ROMFS is not set # CONFIG_RT_USING_DFS_RAMFS is not set -# CONFIG_RT_USING_DFS_UFFS is not set -# CONFIG_RT_USING_DFS_JFFS2 is not set +# CONFIG_RT_USING_DFS_NFS is not set # # Device Drivers # CONFIG_RT_USING_DEVICE_IPC=y CONFIG_RT_PIPE_BUFSZ=512 -# CONFIG_RT_USING_SYSTEM_WORKQUEUE is not set +CONFIG_RT_USING_SYSTEM_WORKQUEUE=y +CONFIG_RT_SYSTEM_WORKQUEUE_STACKSIZE=2048 +CONFIG_RT_SYSTEM_WORKQUEUE_PRIORITY=23 CONFIG_RT_USING_SERIAL=y CONFIG_RT_SERIAL_USING_DMA=y CONFIG_RT_SERIAL_RB_BUFSZ=64 @@ -147,6 +160,7 @@ CONFIG_RT_SERIAL_RB_BUFSZ=64 # CONFIG_RT_USING_HWTIMER is not set # CONFIG_RT_USING_CPUTIME is not set # CONFIG_RT_USING_I2C is not set +# CONFIG_RT_USING_PHY is not set CONFIG_RT_USING_PIN=y # CONFIG_RT_USING_ADC is not set # CONFIG_RT_USING_DAC is not set @@ -172,11 +186,6 @@ CONFIG_RT_USING_PIN=y # CONFIG_RT_USING_USB_HOST is not set # CONFIG_RT_USING_USB_DEVICE is not set -# -# Using RapidIO -# -# CONFIG_RT_USING_RAPIDIO is not set - # # POSIX layer and C standard library # @@ -188,6 +197,7 @@ CONFIG_RT_USING_POSIX=y # CONFIG_RT_USING_POSIX_GETLINE is not set # CONFIG_RT_USING_POSIX_AIO is not set # CONFIG_RT_USING_MODULE is not set +CONFIG_RT_LIBC_FIXED_TIMEZONE=8 # # Network @@ -196,22 +206,91 @@ CONFIG_RT_USING_POSIX=y # # Socket abstraction layer # -# CONFIG_RT_USING_SAL is not set +CONFIG_RT_USING_SAL=y +CONFIG_SAL_INTERNET_CHECK=y + +# +# protocol stack implement +# +CONFIG_SAL_USING_LWIP=y +CONFIG_SAL_USING_POSIX=y # # Network interface device # -# CONFIG_RT_USING_NETDEV is not set +CONFIG_RT_USING_NETDEV=y +CONFIG_NETDEV_USING_IFCONFIG=y +CONFIG_NETDEV_USING_PING=y +CONFIG_NETDEV_USING_NETSTAT=y +CONFIG_NETDEV_USING_AUTO_DEFAULT=y +# CONFIG_NETDEV_USING_IPV6 is not set +CONFIG_NETDEV_IPV4=1 +CONFIG_NETDEV_IPV6=0 +# CONFIG_NETDEV_IPV6_SCOPES is not set # # light weight TCP/IP stack # -# CONFIG_RT_USING_LWIP is not set +CONFIG_RT_USING_LWIP=y +# CONFIG_RT_USING_LWIP141 is not set +CONFIG_RT_USING_LWIP202=y +# CONFIG_RT_USING_LWIP212 is not set +# CONFIG_RT_USING_LWIP_IPV6 is not set +CONFIG_RT_LWIP_MEM_ALIGNMENT=32 +CONFIG_RT_LWIP_IGMP=y +CONFIG_RT_LWIP_ICMP=y +# CONFIG_RT_LWIP_SNMP is not set +CONFIG_RT_LWIP_DNS=y +CONFIG_RT_LWIP_DHCP=y +CONFIG_IP_SOF_BROADCAST=1 +CONFIG_IP_SOF_BROADCAST_RECV=1 + +# +# Static IPv4 Address +# +CONFIG_RT_LWIP_IPADDR="192.168.1.30" +CONFIG_RT_LWIP_GWADDR="192.168.1.1" +CONFIG_RT_LWIP_MSKADDR="255.255.255.0" +CONFIG_RT_LWIP_UDP=y +CONFIG_RT_LWIP_TCP=y +CONFIG_RT_LWIP_RAW=y +# CONFIG_RT_LWIP_PPP is not set +CONFIG_RT_MEMP_NUM_NETCONN=8 +CONFIG_RT_LWIP_PBUF_NUM=256 +CONFIG_RT_LWIP_RAW_PCB_NUM=4 +CONFIG_RT_LWIP_UDP_PCB_NUM=4 +CONFIG_RT_LWIP_TCP_PCB_NUM=4 +CONFIG_RT_LWIP_TCP_SEG_NUM=40 +CONFIG_RT_LWIP_TCP_SND_BUF=8196 +CONFIG_RT_LWIP_TCP_WND=8196 +CONFIG_RT_LWIP_TCPTHREAD_PRIORITY=10 +CONFIG_RT_LWIP_TCPTHREAD_MBOX_SIZE=8 +CONFIG_RT_LWIP_TCPTHREAD_STACKSIZE=2048 +# CONFIG_LWIP_NO_RX_THREAD is not set +# CONFIG_LWIP_NO_TX_THREAD is not set +CONFIG_RT_LWIP_ETHTHREAD_PRIORITY=12 +CONFIG_RT_LWIP_ETHTHREAD_STACKSIZE=1024 +CONFIG_RT_LWIP_ETHTHREAD_MBOX_SIZE=8 +# CONFIG_RT_LWIP_REASSEMBLY_FRAG is not set +CONFIG_LWIP_NETIF_STATUS_CALLBACK=1 +CONFIG_LWIP_NETIF_LINK_CALLBACK=1 +CONFIG_SO_REUSE=1 +CONFIG_LWIP_SO_RCVTIMEO=1 +CONFIG_LWIP_SO_SNDTIMEO=1 +CONFIG_LWIP_SO_RCVBUF=1 +CONFIG_LWIP_SO_LINGER=0 +# CONFIG_RT_LWIP_NETIF_LOOPBACK is not set +CONFIG_LWIP_NETIF_LOOPBACK=0 +# CONFIG_RT_LWIP_STATS is not set +# CONFIG_RT_LWIP_USING_HW_CHECKSUM is not set +CONFIG_RT_LWIP_USING_PING=y +# CONFIG_RT_LWIP_DEBUG is not set # # AT commands # # CONFIG_RT_USING_AT is not set +# CONFIG_LWIP_USING_DHCPD is not set # # VBUS(Virtual Software BUS) @@ -225,6 +304,11 @@ CONFIG_RT_USING_POSIX=y # CONFIG_RT_USING_ULOG is not set # CONFIG_RT_USING_UTEST is not set +# +# RT-Thread Utestcases +# +# CONFIG_RT_USING_UTESTCASES is not set + # # RT-Thread online packages # @@ -292,8 +376,6 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_LIBRWS is not set # CONFIG_PKG_USING_TCPSERVER is not set # CONFIG_PKG_USING_PROTOBUF_C is not set -# CONFIG_PKG_USING_ONNX_PARSER is not set -# CONFIG_PKG_USING_ONNX_BACKEND is not set # CONFIG_PKG_USING_DLT645 is not set # CONFIG_PKG_USING_QXWZ is not set # CONFIG_PKG_USING_SMTP_CLIENT is not set @@ -307,6 +389,13 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_PDULIB is not set # CONFIG_PKG_USING_BTSTACK is not set # CONFIG_PKG_USING_LORAWAN_ED_STACK is not set +# CONFIG_PKG_USING_WAYZ_IOTKIT is not set +# CONFIG_PKG_USING_MAVLINK is not set +# CONFIG_PKG_USING_RAPIDJSON is not set +# CONFIG_PKG_USING_BSAL is not set +# CONFIG_PKG_USING_AGILE_MODBUS is not set +# CONFIG_PKG_USING_AGILE_FTP is not set +# CONFIG_PKG_USING_EMBEDDEDPROTO is not set # # security packages @@ -332,8 +421,11 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_STEMWIN is not set # CONFIG_PKG_USING_WAVPLAYER is not set # CONFIG_PKG_USING_TJPGD is not set +# CONFIG_PKG_USING_PDFGEN is not set # CONFIG_PKG_USING_HELIX is not set # CONFIG_PKG_USING_AZUREGUIX is not set +# CONFIG_PKG_USING_TOUCHGFX2RTT is not set +# CONFIG_PKG_USING_NUEMWIN is not set # # tools packages @@ -345,6 +437,8 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_RDB is not set # CONFIG_PKG_USING_QRCODE is not set # CONFIG_PKG_USING_ULOG_EASYFLASH is not set +# CONFIG_PKG_USING_ULOG_FILE is not set +# CONFIG_PKG_USING_LOGMGR is not set # CONFIG_PKG_USING_ADBD is not set # CONFIG_PKG_USING_COREMARK is not set # CONFIG_PKG_USING_DHRYSTONE is not set @@ -357,6 +451,22 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_URLENCODE is not set # CONFIG_PKG_USING_UMCN is not set # CONFIG_PKG_USING_LWRB2RTT is not set +# CONFIG_PKG_USING_CPU_USAGE is not set +# CONFIG_PKG_USING_GBK2UTF8 is not set +# CONFIG_PKG_USING_VCONSOLE is not set +# CONFIG_PKG_USING_KDB is not set +# CONFIG_PKG_USING_WAMR is not set +# CONFIG_PKG_USING_MICRO_XRCE_DDS_CLIENT is not set +# CONFIG_PKG_USING_LWLOG is not set +# CONFIG_PKG_USING_ANV_TRACE is not set +# CONFIG_PKG_USING_ANV_MEMLEAK is not set +# CONFIG_PKG_USING_ANV_TESTSUIT is not set +# CONFIG_PKG_USING_ANV_BENCH is not set +# CONFIG_PKG_USING_DEVMEM is not set +# CONFIG_PKG_USING_REGEX is not set +# CONFIG_PKG_USING_MEM_SANDBOX is not set +# CONFIG_PKG_USING_SOLAR_TERMS is not set +# CONFIG_PKG_USING_GAN_ZHI is not set # # system packages @@ -364,7 +474,6 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_GUIENGINE is not set # CONFIG_PKG_USING_CAIRO is not set # CONFIG_PKG_USING_PIXMAN is not set -# CONFIG_PKG_USING_LWEXT4 is not set # CONFIG_PKG_USING_PARTITION is not set # CONFIG_PKG_USING_FAL is not set # CONFIG_PKG_USING_FLASHDB is not set @@ -374,6 +483,9 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_CMSIS is not set # CONFIG_PKG_USING_DFS_YAFFS is not set # CONFIG_PKG_USING_LITTLEFS is not set +# CONFIG_PKG_USING_DFS_JFFS2 is not set +# CONFIG_PKG_USING_DFS_UFFS is not set +# CONFIG_PKG_USING_LWEXT4 is not set # CONFIG_PKG_USING_THREAD_POOL is not set # CONFIG_PKG_USING_ROBOTS is not set # CONFIG_PKG_USING_EV is not set @@ -388,11 +500,21 @@ CONFIG_RT_USING_POSIX=y # Micrium: Micrium software products porting for RT-Thread # # CONFIG_PKG_USING_UCOSIII_WRAPPER is not set +# CONFIG_PKG_USING_UCOSII_WRAPPER is not set # CONFIG_PKG_USING_UC_CRC is not set # CONFIG_PKG_USING_UC_CLK is not set # CONFIG_PKG_USING_UC_COMMON is not set # CONFIG_PKG_USING_UC_MODBUS is not set # CONFIG_PKG_USING_PPOOL is not set +# CONFIG_PKG_USING_OPENAMP is not set +# CONFIG_PKG_USING_RT_KPRINTF_THREADSAFE is not set +# CONFIG_PKG_USING_RT_MEMCPY_CM is not set +# CONFIG_PKG_USING_QFPLIB_M0_FULL is not set +# CONFIG_PKG_USING_QFPLIB_M0_TINY is not set +# CONFIG_PKG_USING_QFPLIB_M3 is not set +# CONFIG_PKG_USING_LPM is not set +# CONFIG_PKG_USING_TLSF is not set +# CONFIG_PKG_USING_EVENT_RECORDER is not set # # peripheral libraries and drivers @@ -401,6 +523,7 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_REALTEK_AMEBA is not set # CONFIG_PKG_USING_SHT2X is not set # CONFIG_PKG_USING_SHT3X is not set +# CONFIG_PKG_USING_AS7341 is not set # CONFIG_PKG_USING_STM32_SDIO is not set # CONFIG_PKG_USING_ICM20608 is not set # CONFIG_PKG_USING_U8G2 is not set @@ -449,6 +572,30 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_DM9051 is not set # CONFIG_PKG_USING_SSD1306 is not set # CONFIG_PKG_USING_QKEY is not set +# CONFIG_PKG_USING_RS485 is not set +# CONFIG_PKG_USING_NES is not set +# CONFIG_PKG_USING_VIRTUAL_SENSOR is not set +# CONFIG_PKG_USING_VDEVICE is not set +# CONFIG_PKG_USING_SGM706 is not set +# CONFIG_PKG_USING_STM32WB55_SDK is not set +# CONFIG_PKG_USING_RDA58XX is not set +# CONFIG_PKG_USING_LIBNFC is not set +# CONFIG_PKG_USING_MFOC is not set +# CONFIG_PKG_USING_TMC51XX is not set +# CONFIG_PKG_USING_TCA9534 is not set + +# +# AI packages +# +# CONFIG_PKG_USING_LIBANN is not set +# CONFIG_PKG_USING_NNOM is not set +# CONFIG_PKG_USING_ONNX_BACKEND is not set +# CONFIG_PKG_USING_ONNX_PARSER is not set +# CONFIG_PKG_USING_TENSORFLOWLITEMICRO is not set +# CONFIG_PKG_USING_ELAPACK is not set +# CONFIG_PKG_USING_ULAPACK is not set +# CONFIG_PKG_USING_QUEST is not set +# CONFIG_PKG_USING_NAXOS is not set # # miscellaneous packages @@ -458,6 +605,7 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_FASTLZ is not set # CONFIG_PKG_USING_MINILZO is not set # CONFIG_PKG_USING_QUICKLZ is not set +# CONFIG_PKG_USING_LZMA is not set # CONFIG_PKG_USING_MULTIBUTTON is not set # CONFIG_PKG_USING_FLEXIBLE_BUTTON is not set # CONFIG_PKG_USING_CANFESTIVAL is not set @@ -479,19 +627,24 @@ CONFIG_RT_USING_POSIX=y # CONFIG_PKG_USING_HELLO is not set # CONFIG_PKG_USING_VI is not set # CONFIG_PKG_USING_KI is not set -# CONFIG_PKG_USING_NNOM is not set -# CONFIG_PKG_USING_LIBANN is not set -# CONFIG_PKG_USING_ELAPACK is not set # CONFIG_PKG_USING_ARMv7M_DWT is not set # CONFIG_PKG_USING_VT100 is not set -# CONFIG_PKG_USING_TETRIS is not set -# CONFIG_PKG_USING_ULAPACK is not set # CONFIG_PKG_USING_UKAL is not set # CONFIG_PKG_USING_CRCLIB is not set + +# +# entertainment: terminal games and other interesting software packages +# # CONFIG_PKG_USING_THREES is not set # CONFIG_PKG_USING_2048 is not set +# CONFIG_PKG_USING_SNAKE is not set +# CONFIG_PKG_USING_TETRIS is not set +# CONFIG_PKG_USING_DONUT is not set +# CONFIG_PKG_USING_ACLOCK is not set # CONFIG_PKG_USING_LWGPS is not set -# CONFIG_PKG_USING_TENSORFLOWLITEMICRO is not set +# CONFIG_PKG_USING_STATE_MACHINE is not set +# CONFIG_PKG_USING_MCURSES is not set +# CONFIG_PKG_USING_COWSAY is not set CONFIG_SOC_ZYNQMP_R5=y # @@ -510,6 +663,16 @@ CONFIG_BSP_USING_UART0=y CONFIG_BSP_USING_SDIO=y CONFIG_BSP_USING_SD0=y +# +# Please set RT_LWIP_PBUF_NUM is at least 256 if Enable Ethernet! +# + +# +# Please set RT_LWIP_MEM_ALIGNMENT is at 32 if Enable Ethernet! +# +CONFIG_BSP_USING_ETH=y +CONFIG_RT_LWIP_PBUF_POOL_BUFSIZE=1700 + # # Board extended module Drivers # diff --git a/bsp/zynqmp-r5-axu4ev/README.md b/bsp/zynqmp-r5-axu4ev/README.md index a67c9c86ee..8b8cfe2b7b 100644 --- a/bsp/zynqmp-r5-axu4ev/README.md +++ b/bsp/zynqmp-r5-axu4ev/README.md @@ -35,6 +35,7 @@ Each peripheral supporting condition for this BSP is as follows: | UART | Support | UART0 | | TIMER | Support | TTC0 provides system clock | | EMMC | Support | SD0 Controller | +| EMAC | Support | e0 Net Interface | ## Execution Instruction @@ -99,14 +100,31 @@ msh /> This BSP enables EMMC driver and DFS file system by default. If you need to use a file system, you can format and mount it by yourself. +This BSP is enabled and configured with net interface driver and LwIP protocol stack by default, and note the following configuration: + +1. Note that `RT_LWIP_PBUF_NUM` is set to at least 256 + +2. Note that `RT_ LWIP_ MEM_ Alignment` is set to 32. If the version other than lwip 2.0.2 in RTT is used, the `MEM_ALIGNMENT` in `lwipopts.h` needs to be modified manually because the macro is not used in other versions. + ## BSP Migration If you need to ported the BSP to another development board of Xilinx Zynq UltraScale+ MPSOC development platform, it is also convenient. The main modifications are as follows: -1. Memory: `psu_r5_ddr_0_MEM_0` in `zynqmp-r5.ld` (if DDR memory is less than 2G) +1. Memory: `psu_r5_ddr_0_MEM_0` in `zynqmp-r5.ld` and `HEAP_END` in `board.h ` (if DDR memory is less than 2G) 2. Main Frequency: `XPAR_CPU_CORTEXR5_0_CPU_CLK_FREQ_HZ` in `zynqmp-r5.h` 3. Pin and Frequency of Serial Port: `rxmio`, `txmio` and `XPAR_PSU_UART_0_UART_CLK_FREQ_HZ` in `drv_uart.c` 4. Timer Frequency: `XPAR_PSU_TTC_0_TTC_CLK_FREQ_HZ` in `drv_timer.c` 5. SD Controller: Block device driver initialization in `drv_sdcard.c` +6. Net interface: If the PHY chip used is not in the range of driver support, it may be necessary to realize the rate identification function of the corresponding chip in `xemacpsif_physpeed.c`. You can refer to the corresponding tutorial of Alinx. The parameter macro definition in `xparameters.h` does not need to be modified manually. You can directly copy the `xparameters.h` file of the development board generated in Xilinx Vitis. + +## Attention + +-None + +## Contact + +Maintainer: + +- [Wang Huachen](https://github.com/Wang-Huachen/) \ No newline at end of file diff --git a/bsp/zynqmp-r5-axu4ev/README_zh.md b/bsp/zynqmp-r5-axu4ev/README_zh.md index 2735f9a353..f3c9582dd7 100644 --- a/bsp/zynqmp-r5-axu4ev/README_zh.md +++ b/bsp/zynqmp-r5-axu4ev/README_zh.md @@ -32,6 +32,7 @@ AXU4EV-E 开发板是 芯驿电子科技(上海)有限公司 推出的一款 | UART | 支持 | UART0 | | TIMER | 支持 | TTC0提供系统时钟 | | EMMC | 支持 | SD0控制器 | +| EMAC | 支持 | e0网卡 | ## 使用说明 @@ -107,16 +108,22 @@ msh /> 此 BSP 默认开启了 EMMC 驱动和 DFS 文件系统,如果需要使用文件系统可以自行格式化并挂载。 +此 BSP 默认开启并配置了网卡驱动及lwip协议栈,相关配置需要注意如下几点: + +1. 注意将`RT_LWIP_PBUF_NUM`至少设置为256 +2. 注意将`RT_LWIP_MEM_ALIGNMENT`设置为32。若使用RTT中lwip 2.0.2以外的版本时,由于其他版本未使用该宏,需要手动修改`lwipopts.h`中的`MEM_ALIGNMENT`宏。 + ## 板级移植 如果需要将BSP移植到其他 XILINX Zynq UltraScale+ MPSoCs 开发平台的开发板上也比较方便,主要修改的地方有以下几点: -1. 内存: 如果 DDR memory 小于 2G,需要修改`zynqmp-r5.ld`链接文件中的`psu_r5_ddr_0_MEM_0` +1. 内存: 如果 DDR memory 小于 2G,需要修改`zynqmp-r5.ld`链接文件中的`psu_r5_ddr_0_MEM_0` 以及`board.h`中的`HEAP_END` 2. 主频: `xparameters.h`中的`XPAR_CPU_CORTEXR5_0_CPU_CLK_FREQ_HZ` 3. 串口引脚和频率:`drv_uart.c`中的`rxmio`, `txmio` 和`xparameters.h`中的`XPAR_PSU_UART_0_UART_CLK_FREQ_HZ` 4. 定时器频率:`xparameters.h`中的`XPAR_PSU_TTC_0_TTC_CLK_FREQ_HZ` 5. SD控制器:`drv_sdcard.c`中的块设备驱动初始化 +6. 网卡驱动:若使用的PHY芯片不在驱动支持范围内,可能需要在`xemacpsif_physpeed.c`中实现相应芯片的速率识别函数,可参考ALINX的相应教程。 以上需要修改的`xparameters.h`中的参数宏定义不需要手动修改,可以直接将Xilinx Vitis中产生的开发板的`xparameters.h`文件复制过来即可。 diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Kconfig b/bsp/zynqmp-r5-axu4ev/drivers/Kconfig index fd16c490f9..5461f7ecf5 100644 --- a/bsp/zynqmp-r5-axu4ev/drivers/Kconfig +++ b/bsp/zynqmp-r5-axu4ev/drivers/Kconfig @@ -24,6 +24,19 @@ menu "Hardware Drivers Config" bool "Enable SD0 EMMC" default y endif + comment "Please set RT_LWIP_PBUF_NUM is at least 256 if Enable Ethernet!" + comment "Please set RT_LWIP_MEM_ALIGNMENT is at 32 if Enable Ethernet!" + menuconfig BSP_USING_ETH + bool "Enable Ethernet" + default n + select RT_USING_NETDEV + select RT_USING_LWIP + if BSP_USING_ETH + config RT_LWIP_PBUF_POOL_BUFSIZE + int "The size of each pbuf in the pbuf pool" + range 1500 2000 + default 1700 + endif endmenu diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/SConscript b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/SConscript index 03f0e5d26d..58a8169357 100644 --- a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/SConscript +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/SConscript @@ -11,6 +11,9 @@ if GetDepend('BSP_USING_SDIO'): objs = objs + SConscript('sdps_v3_9/SConscript') if GetDepend('RT_USING_PIN'): objs = objs + SConscript('gpiops_v3_7/SConscript') +if GetDepend('BSP_USING_ETH'): + objs = objs + SConscript('emacps_v3_11/SConscript') + objs = objs + SConscript('xemacpsif/SConscript') objs = objs + group diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/SConscript b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/SConscript new file mode 100644 index 0000000000..8e5fc7069e --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/SConscript @@ -0,0 +1,15 @@ +import rtconfig +from building import * + +# get current directory +cwd = GetCurrentDir() +CPPPATH = [cwd] + +# The set of source files associated with this SConscript file. + +src = Glob('*.c') +path = cwd + +group = DefineGroup('ZYNQMP_HAL', src, depend = [''], CPPPATH = CPPPATH) + +Return('group') \ No newline at end of file diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.c new file mode 100644 index 0000000000..fb4a6483e9 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.c @@ -0,0 +1,480 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps.c +* @addtogroup emacps_v3_11 +* @{ +* +* The XEmacPs driver. Functions in this file are the minimum required functions +* for this driver. See xemacps.h for a detailed description of the driver. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 First release
+* 2.1  srt  07/15/14 Add support for Zynq Ultrascale Mp GEM specification and
+*		      64-bit changes.
+* 3.00 kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 3.0  hk   02/20/15 Added support for jumbo frames. Increase AHB burst.
+*                    Disable extended mode. Perform all 64 bit changes under
+*                    check for arch64.
+* 3.1  hk   08/10/15 Update upper 32 bit tx and rx queue ptr registers
+* 3.5  hk   08/14/17 Update cache coherency information of the interface in
+*                    its config structure.
+* 3.8  hk   09/17/18 Cleanup stale comments.
+* 3.8  mus  11/05/18 Support 64 bit DMA addresses for Microblaze-X platform.
+* 3.10 hk   05/16/19 Clear status registers properly in reset
+* 3.11 sd   02/14/20 Add clock support
+*
+* 
+******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xemacps.h" + +/************************** Constant Definitions *****************************/ + + +/**************************** Type Definitions *******************************/ + + +/***************** Macros (Inline Functions) Definitions *********************/ + + +/************************** Function Prototypes ******************************/ + +void XEmacPs_StubHandler(void); /* Default handler routine */ + +/************************** Variable Definitions *****************************/ + + +/*****************************************************************************/ +/** +* Initialize a specific XEmacPs instance/driver. The initialization entails: +* - Initialize fields of the XEmacPs instance structure +* - Reset hardware and apply default options +* - Configure the DMA channels +* +* The PHY is setup independently from the device. Use the MII or whatever other +* interface may be present for setup. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param CfgPtr is the device configuration structure containing required +* hardware build data. +* @param EffectiveAddress is the base address of the device. If address +* translation is not utilized, this parameter can be passed in using +* CfgPtr->Config.BaseAddress to specify the physical base address. +* +* @return +* - XST_SUCCESS if initialization was successful +* +******************************************************************************/ +LONG XEmacPs_CfgInitialize(XEmacPs *InstancePtr, XEmacPs_Config * CfgPtr, + UINTPTR EffectiveAddress) +{ + /* Verify arguments */ + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(CfgPtr != NULL); + + /* Set device base address and ID */ + InstancePtr->Config.DeviceId = CfgPtr->DeviceId; + InstancePtr->Config.BaseAddress = EffectiveAddress; + InstancePtr->Config.IsCacheCoherent = CfgPtr->IsCacheCoherent; +#if defined (XCLOCKING) + InstancePtr->Config.RefClk = CfgPtr->RefClk; +#endif + + /* Set callbacks to an initial stub routine */ + InstancePtr->SendHandler = ((XEmacPs_Handler)((void*)XEmacPs_StubHandler)); + InstancePtr->RecvHandler = ((XEmacPs_Handler)(void*)XEmacPs_StubHandler); + InstancePtr->ErrorHandler = ((XEmacPs_ErrHandler)(void*)XEmacPs_StubHandler); + + /* Reset the hardware and set default options */ + InstancePtr->IsReady = XIL_COMPONENT_IS_READY; + XEmacPs_Reset(InstancePtr); + + return (LONG)(XST_SUCCESS); +} + + +/*****************************************************************************/ +/** +* Start the Ethernet controller as follows: +* - Enable transmitter if XTE_TRANSMIT_ENABLE_OPTION is set +* - Enable receiver if XTE_RECEIVER_ENABLE_OPTION is set +* - Start the SG DMA send and receive channels and enable the device +* interrupt +* +* @param InstancePtr is a pointer to the instance to be worked on. +* +* @return N/A +* +* @note +* Hardware is configured with scatter-gather DMA, the driver expects to start +* the scatter-gather channels and expects that the user has previously set up +* the buffer descriptor lists. +* +* This function makes use of internal resources that are shared between the +* Start, Stop, and Set/ClearOptions functions. So if one task might be setting +* device options while another is trying to start the device, the user is +* required to provide protection of this shared data (typically using a +* semaphore). +* +* This function must not be preempted by an interrupt that may service the +* device. +* +******************************************************************************/ +void XEmacPs_Start(XEmacPs *InstancePtr) +{ + u32 Reg; + + /* Assert bad arguments and conditions */ + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + +#if defined (XCLOCKING) + if (InstancePtr->IsStarted != (u32)XIL_COMPONENT_IS_STARTED) { + Xil_ClockEnable(InstancePtr->Config.RefClk); + } +#endif + + /* Start DMA */ + /* When starting the DMA channels, both transmit and receive sides + * need an initialized BD list. + */ + if (InstancePtr->Version == 2) { + Xil_AssertVoid(InstancePtr->RxBdRing.BaseBdAddr != 0); + Xil_AssertVoid(InstancePtr->TxBdRing.BaseBdAddr != 0); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXQBASE_OFFSET, + InstancePtr->RxBdRing.BaseBdAddr); + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXQBASE_OFFSET, + InstancePtr->TxBdRing.BaseBdAddr); + } + + /* clear any existed int status */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_ISR_OFFSET, + XEMACPS_IXR_ALL_MASK); + + /* Enable transmitter if not already enabled */ + if ((InstancePtr->Options & (u32)XEMACPS_TRANSMITTER_ENABLE_OPTION)!=0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + if ((!(Reg & XEMACPS_NWCTRL_TXEN_MASK))==TRUE) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, + Reg | (u32)XEMACPS_NWCTRL_TXEN_MASK); + } + } + + /* Enable receiver if not already enabled */ + if ((InstancePtr->Options & XEMACPS_RECEIVER_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + if ((!(Reg & XEMACPS_NWCTRL_RXEN_MASK))==TRUE) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, + Reg | (u32)XEMACPS_NWCTRL_RXEN_MASK); + } + } + + /* Enable TX and RX interrupts */ + XEmacPs_IntEnable(InstancePtr, (XEMACPS_IXR_TX_ERR_MASK | + XEMACPS_IXR_RX_ERR_MASK | (u32)XEMACPS_IXR_FRAMERX_MASK | + (u32)XEMACPS_IXR_TXCOMPL_MASK)); + + /* Enable TX Q1 Interrupts */ + if (InstancePtr->Version > 2) + XEmacPs_IntQ1Enable(InstancePtr, XEMACPS_INTQ1_IXR_ALL_MASK); + + /* Mark as started */ + InstancePtr->IsStarted = XIL_COMPONENT_IS_STARTED; + + return; +} + + +/*****************************************************************************/ +/** +* Gracefully stop the Ethernet MAC as follows: +* - Disable all interrupts from this device +* - Stop DMA channels +* - Disable the tansmitter and receiver +* +* Device options currently in effect are not changed. +* +* This function will disable all interrupts. Default interrupts settings that +* had been enabled will be restored when XEmacPs_Start() is called. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* +* @note +* This function makes use of internal resources that are shared between the +* Start, Stop, SetOptions, and ClearOptions functions. So if one task might be +* setting device options while another is trying to start the device, the user +* is required to provide protection of this shared data (typically using a +* semaphore). +* +* Stopping the DMA channels causes this function to block until the DMA +* operation is complete. +* +******************************************************************************/ +void XEmacPs_Stop(XEmacPs *InstancePtr) +{ + u32 Reg; + + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Disable all interrupts */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_IDR_OFFSET, + XEMACPS_IXR_ALL_MASK); + + /* Disable the receiver & transmitter */ + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg &= (u32)(~XEMACPS_NWCTRL_RXEN_MASK); + Reg &= (u32)(~XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + + /* Mark as stopped */ + InstancePtr->IsStarted = 0U; +#if defined (XCLOCKING) + Xil_ClockDisable(InstancePtr->Config.RefClk); +#endif +} + + +/*****************************************************************************/ +/** +* Perform a graceful reset of the Ethernet MAC. Resets the DMA channels, the +* transmitter, and the receiver. +* +* Steps to reset +* - Stops transmit and receive channels +* - Stops DMA +* - Configure transmit and receive buffer size to default +* - Clear transmit and receive status register and counters +* - Clear all interrupt sources +* - Clear phy (if there is any previously detected) address +* - Clear MAC addresses (1-4) as well as Type IDs and hash value +* +* All options are placed in their default state. Any frames in the +* descriptor lists will remain in the lists. The side effect of doing +* this is that after a reset and following a restart of the device, frames +* were in the list before the reset may be transmitted or received. +* +* The upper layer software is responsible for re-configuring (if necessary) +* and restarting the MAC after the reset. Note also that driver statistics +* are not cleared on reset. It is up to the upper layer software to clear the +* statistics if needed. +* +* When a reset is required, the driver notifies the upper layer software of +* this need through the ErrorHandler callback and specific status codes. +* The upper layer software is responsible for calling this Reset function +* and then re-configuring the device. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* +******************************************************************************/ +void XEmacPs_Reset(XEmacPs *InstancePtr) +{ + u32 Reg; + u8 i; + s8 EmacPs_zero_MAC[6] = { 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }; + + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Stop the device and reset hardware */ + XEmacPs_Stop(InstancePtr); + InstancePtr->Options = XEMACPS_DEFAULT_OPTIONS; + + InstancePtr->Version = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, 0xFC); + + InstancePtr->Version = (InstancePtr->Version >> 16) & 0xFFF; + + InstancePtr->MaxMtuSize = XEMACPS_MTU; + InstancePtr->MaxFrameSize = XEMACPS_MTU + XEMACPS_HDR_SIZE + + XEMACPS_TRL_SIZE; + InstancePtr->MaxVlanFrameSize = InstancePtr->MaxFrameSize + + XEMACPS_HDR_VLAN_SIZE; + InstancePtr->RxBufMask = XEMACPS_RXBUF_LEN_MASK; + + /* Setup hardware with default values */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, + (XEMACPS_NWCTRL_STATCLR_MASK | + XEMACPS_NWCTRL_MDEN_MASK) & + (u32)(~XEMACPS_NWCTRL_LOOPEN_MASK)); + + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + Reg &= XEMACPS_NWCFG_MDCCLKDIV_MASK; + + Reg = Reg | (u32)XEMACPS_NWCFG_100_MASK | + (u32)XEMACPS_NWCFG_FDEN_MASK | + (u32)XEMACPS_NWCFG_UCASTHASHEN_MASK; + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET, Reg); + if (InstancePtr->Version > 2) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_NWCFG_OFFSET, + (XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, XEMACPS_NWCFG_OFFSET) | + XEMACPS_NWCFG_DWIDTH_64_MASK)); + } + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET, + (((((u32)XEMACPS_RX_BUF_SIZE / (u32)XEMACPS_RX_BUF_UNIT) + + (((((u32)XEMACPS_RX_BUF_SIZE % + (u32)XEMACPS_RX_BUF_UNIT))!=(u32)0) ? 1U : 0U)) << + (u32)(XEMACPS_DMACR_RXBUF_SHIFT)) & + (u32)(XEMACPS_DMACR_RXBUF_MASK)) | + (u32)XEMACPS_DMACR_RXSIZE_MASK | + (u32)XEMACPS_DMACR_TXSIZE_MASK); + + + if (InstancePtr->Version > 2) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_DMACR_OFFSET, + (XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, XEMACPS_DMACR_OFFSET) | +#if defined(__aarch64__) || defined(__arch64__) + (u32)XEMACPS_DMACR_ADDR_WIDTH_64 | +#endif + (u32)XEMACPS_DMACR_INCR16_AHB_BURST)); + } + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXSR_OFFSET, XEMACPS_SR_ALL_MASK); + + XEmacPs_SetQueuePtr(InstancePtr, 0, 0x00U, (u16)XEMACPS_SEND); + if (InstancePtr->Version > 2) + XEmacPs_SetQueuePtr(InstancePtr, 0, 0x01U, (u16)XEMACPS_SEND); + XEmacPs_SetQueuePtr(InstancePtr, 0, 0x00U, (u16)XEMACPS_RECV); + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXSR_OFFSET, XEMACPS_SR_ALL_MASK); + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_IDR_OFFSET, + XEMACPS_IXR_ALL_MASK); + + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_ISR_OFFSET); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_ISR_OFFSET, + Reg); + + XEmacPs_ClearHash(InstancePtr); + + for (i = 1U; i < 5U; i++) { + (void)XEmacPs_SetMacAddress(InstancePtr, EmacPs_zero_MAC, i); + (void)XEmacPs_SetTypeIdCheck(InstancePtr, 0x00000000U, i); + } + + /* clear all counters */ + for (i = 0U; i < (u8)((XEMACPS_LAST_OFFSET - XEMACPS_OCTTXL_OFFSET) / 4U); + i++) { + (void)XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_OCTTXL_OFFSET + (u32)(((u32)i) * ((u32)4))); + } + + /* Disable the receiver */ + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg &= (u32)(~XEMACPS_NWCTRL_RXEN_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + + /* Sync default options with hardware but leave receiver and + * transmitter disabled. They get enabled with XEmacPs_Start() if + * XEMACPS_TRANSMITTER_ENABLE_OPTION and + * XEMACPS_RECEIVER_ENABLE_OPTION are set. + */ + (void)XEmacPs_SetOptions(InstancePtr, InstancePtr->Options & + ~((u32)XEMACPS_TRANSMITTER_ENABLE_OPTION | + (u32)XEMACPS_RECEIVER_ENABLE_OPTION)); + + (void)XEmacPs_ClearOptions(InstancePtr, ~InstancePtr->Options); +} + + +/******************************************************************************/ +/** + * This is a stub for the asynchronous callbacks. The stub is here in case the + * upper layer forgot to set the handler(s). On initialization, all handlers are + * set to this callback. It is considered an error for this handler to be + * invoked. + * + ******************************************************************************/ +void XEmacPs_StubHandler(void) +{ + Xil_AssertVoidAlways(); +} + +/*****************************************************************************/ +/** +* This function sets the start address of the transmit/receive buffer queue. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param QPtr is the address of the Queue to be written +* @param QueueNum is the Buffer Queue Index +* @param Direction indicates Transmit/Receive +* +* @note +* The buffer queue addresses has to be set before starting the transfer, so +* this function has to be called in prior to XEmacPs_Start() +* +******************************************************************************/ +void XEmacPs_SetQueuePtr(XEmacPs *InstancePtr, UINTPTR QPtr, u8 QueueNum, + u16 Direction) +{ + /* Assert bad arguments and conditions */ + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* If already started, then there is nothing to do */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + return; + } + + if (QueueNum == 0x00U) { + if (Direction == XEMACPS_SEND) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXQBASE_OFFSET, + (QPtr & ULONG64_LO_MASK)); + } else { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXQBASE_OFFSET, + (QPtr & ULONG64_LO_MASK)); + } + } + else { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXQ1BASE_OFFSET, + (QPtr & ULONG64_LO_MASK)); + } +#ifdef __aarch64__ + if (Direction == XEMACPS_SEND) { + /* Set the MSB of TX Queue start address */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_MSBBUF_TXQBASE_OFFSET, + (u32)((QPtr & ULONG64_HI_MASK) >> 32U)); + } else { + /* Set the MSB of RX Queue start address */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_MSBBUF_RXQBASE_OFFSET, + (u32)((QPtr & ULONG64_HI_MASK) >> 32U)); + } +#endif +} +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.h new file mode 100644 index 0000000000..d3c5b6349f --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps.h @@ -0,0 +1,836 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/****************************************************************************/ +/** + * + * @file xemacps.h +* @addtogroup emacps_v3_11 +* @{ +* @details + * + * The Xilinx Embedded Processor Block Ethernet driver. + * + * For a full description of XEMACPS features, please see the hardware spec. + * This driver supports the following features: + * - Memory mapped access to host interface registers + * - Statistics counter registers for RMON/MIB + * - API for interrupt driven frame transfers for hardware configured DMA + * - Virtual memory support + * - Unicast, broadcast, and multicast receive address filtering + * - Full and half duplex operation + * - Automatic PAD & FCS insertion and stripping + * - Flow control + * - Support up to four 48bit addresses + * - Address checking for four specific 48bit addresses + * - VLAN frame support + * - Pause frame support + * - Large frame support up to 1536 bytes + * - Checksum offload + * + * Driver Description + * + * The device driver enables higher layer software (e.g., an application) to + * communicate to the XEmacPs. The driver handles transmission and reception + * of Ethernet frames, as well as configuration and control. No pre or post + * processing of frame data is performed. The driver does not validate the + * contents of an incoming frame in addition to what has already occurred in + * hardware. + * A single device driver can support multiple devices even when those devices + * have significantly different configurations. + * + * Initialization & Configuration + * + * The XEmacPs_Config structure is used by the driver to configure itself. + * This configuration structure is typically created by the tool-chain based + * on hardware build properties. + * + * The driver instance can be initialized in + * + * - XEmacPs_CfgInitialize(InstancePtr, CfgPtr, EffectiveAddress): Uses a + * configuration structure provided by the caller. If running in a system + * with address translation, the provided virtual memory base address + * replaces the physical address present in the configuration structure. + * + * The device supports DMA only as current development plan. No FIFO mode is + * supported. The driver expects to start the DMA channels and expects that + * the user has set up the buffer descriptor lists. + * + * Interrupts and Asynchronous Callbacks + * + * The driver has no dependencies on the interrupt controller. When an + * interrupt occurs, the handler will perform a small amount of + * housekeeping work, determine the source of the interrupt, and call the + * appropriate callback function. All callbacks are registered by the user + * level application. + * + * Virtual Memory + * + * All virtual to physical memory mappings must occur prior to accessing the + * driver API. + * + * For DMA transactions, user buffers supplied to the driver must be in terms + * of their physical address. + * + * DMA + * + * The DMA engine uses buffer descriptors (BDs) to describe Ethernet frames. + * These BDs are typically chained together into a list the hardware follows + * when transferring data in and out of the packet buffers. Each BD describes + * a memory region containing either a full or partial Ethernet packet. + * + * Interrupt coalescing is not supported from this built-in DMA engine. + * + * This API requires the user to understand how the DMA operates. The + * following paragraphs provide some explanation, but the user is encouraged + * to read documentation in xemacps_bdring.h as well as study example code + * that accompanies this driver. + * + * The API is designed to get BDs to and from the DMA engine in the most + * efficient means possible. The first step is to establish a memory region + * to contain all BDs for a specific channel. This is done with + * XEmacPs_BdRingCreate(). This function sets up a BD ring that hardware will + * follow as BDs are processed. The ring will consist of a user defined number + * of BDs which will all be partially initialized. For example on the transmit + * channel, the driver will initialize all BDs' so that they are configured + * for transmit. The more fields that can be permanently setup at + * initialization, then the fewer accesses will be needed to each BD while + * the DMA engine is in operation resulting in better throughput and CPU + * utilization. The best case initialization would require the user to set + * only a frame buffer address and length prior to submitting the BD to the + * engine. + * + * BDs move through the engine with the help of functions + * XEmacPs_BdRingAlloc(), XEmacPs_BdRingToHw(), XEmacPs_BdRingFromHw(), + * and XEmacPs_BdRingFree(). + * All these functions handle BDs that are in place. That is, there are no + * copies of BDs kept anywhere and any BD the user interacts with is an actual + * BD from the same ring hardware accesses. + * + * BDs in the ring go through a series of states as follows: + * 1. Idle. The driver controls BDs in this state. + * 2. The user has data to transfer. XEmacPs_BdRingAlloc() is called to + * reserve BD(s). Once allocated, the user may setup the BD(s) with + * frame buffer address, length, and other attributes. The user controls + * BDs in this state. + * 3. The user submits BDs to the DMA engine with XEmacPs_BdRingToHw. BDs + * in this state are either waiting to be processed by hardware, are in + * process, or have been processed. The DMA engine controls BDs in this + * state. + * 4. Processed BDs are retrieved with XEmacEpv_BdRingFromHw() by the + * user. Once retrieved, the user can examine each BD for the outcome of + * the DMA transfer. The user controls BDs in this state. After examining + * the BDs the user calls XEmacPs_BdRingFree() which places the BDs back + * into state 1. + * + * Each of the four BD accessor functions operate on a set of BDs. A set is + * defined as a segment of the BD ring consisting of one or more BDs. The user + * views the set as a pointer to the first BD along with the number of BDs for + * that set. The set can be navigated by using macros XEmacPs_BdNext(). The + * user must exercise extreme caution when changing BDs in a set as there is + * nothing to prevent doing a mBdNext past the end of the set and modifying a + * BD out of bounds. + * + * XEmacPs_BdRingAlloc() + XEmacPs_BdRingToHw(), as well as + * XEmacPs_BdRingFromHw() + XEmacPs_BdRingFree() are designed to be used in + * tandem. The same BD set retrieved with BdRingAlloc should be the same one + * provided to hardware with BdRingToHw. Same goes with BdRingFromHw and + * BdRIngFree. + * + * Alignment & Data Cache Restrictions + * + * Due to the design of the hardware, all RX buffers, BDs need to be 4-byte + * aligned. Please reference xemacps_bd.h for cache related macros. + * + * DMA Tx: + * + * - If frame buffers exist in cached memory, then they must be flushed + * prior to committing them to hardware. + * + * DMA Rx: + * + * - If frame buffers exist in cached memory, then the cache must be + * invalidated for the memory region containing the frame prior to data + * access + * + * Both cache invalidate/flush are taken care of in driver code. + * + * Buffer Copying + * + * The driver is designed for a zero-copy buffer scheme. That is, the driver + * will not copy buffers. This avoids potential throughput bottlenecks within + * the driver. If byte copying is required, then the transfer will take longer + * to complete. + * + * Checksum Offloading + * + * The Embedded Processor Block Ethernet can be configured to perform IP, TCP + * and UDP checksum offloading in both receive and transmit directions. + * + * IP packets contain a 16-bit checksum field, which is the 16-bit 1s + * complement of the 1s complement sum of all 16-bit words in the header. + * TCP and UDP packets contain a 16-bit checksum field, which is the 16-bit + * 1s complement of the 1s complement sum of all 16-bit words in the header, + * the data and a conceptual pseudo header. + * + * To calculate these checksums in software requires each byte of the packet + * to be read. For TCP and UDP this can use a large amount of processing power. + * Offloading the checksum calculation to hardware can result in significant + * performance improvements. + * + * The transmit checksum offload is only available to use DMA in packet buffer + * mode. This is because the complete frame to be transmitted must be read + * into the packet buffer memory before the checksum can be calculated and + * written to the header at the beginning of the frame. + * + * For IP, TCP or UDP receive checksum offload to be useful, the operating + * system containing the protocol stack must be aware that this offload is + * available so that it can make use of the fact that the hardware has verified + * the checksum. + * + * When receive checksum offloading is enabled in the hardware, the IP header + * checksum is checked, where the packet meets the following criteria: + * + * 1. If present, the VLAN header must be four octets long and the CFI bit + * must not be set. + * 2. Encapsulation must be RFC 894 Ethernet Type Encoding or RFC 1042 SNAP + * encoding. + * 3. IP v4 packet. + * 4. IP header is of a valid length. + * 5. Good IP header checksum. + * 6. No IP fragmentation. + * 7. TCP or UDP packet. + * + * When an IP, TCP or UDP frame is received, the receive buffer descriptor + * gives an indication if the hardware was able to verify the checksums. + * There is also an indication if the frame had SNAP encapsulation. These + * indication bits will replace the type ID match indication bits when the + * receive checksum offload is enabled. + * + * If any of the checksums are verified incorrect by the hardware, the packet + * is discarded and the appropriate statistics counter incremented. + * + * PHY Interfaces + * + * RGMII 1.3 is the only interface supported. + * + * Asserts + * + * Asserts are used within all Xilinx drivers to enforce constraints on + * parameters. Asserts can be turned off on a system-wide basis by defining, + * at compile time, the NDEBUG identifier. By default, asserts are turned on + * and it is recommended that users leave asserts on during development. For + * deployment use -DNDEBUG compiler switch to remove assert code. + * + * @note + * + * Xilinx drivers are typically composed of two parts, one is the driver + * and the other is the adapter. The driver is independent of OS and processor + * and is intended to be highly portable. The adapter is OS-specific and + * facilitates communication between the driver and an OS. + * This driver is intended to be RTOS and processor independent. Any needs for + * dynamic memory management, threads or thread mutual exclusion, or cache + * control must be satisfied bythe layer above this driver. + * + *
+ * MODIFICATION HISTORY:
+ *
+ * Ver   Who  Date     Changes
+ * ----- ---- -------- -------------------------------------------------------
+ * 1.00a wsy  01/10/10 First release
+ * 1.00a asa  11/21/11 The function XEmacPs_BdRingFromHwTx in file
+ *		       xemacps_bdring.c is modified. Earlier it was checking for
+ *		       "BdLimit"(passed argument) number of BDs for finding out
+ *		       which BDs are successfully processed. Now one more check
+ *		       is added. It looks for BDs till the current BD pointer
+ *		       reaches HwTail. By doing this processing time is saved.
+ * 1.00a asa  01/24/12 The function XEmacPs_BdRingFromHwTx in file
+ *		       xemacps_bdring.c is modified. Now start of packet is
+ *		       searched for returning the number of BDs processed.
+ * 1.02a asa  11/05/12 Added a new API for deleting an entry from the HASH
+ *		       registers. Added a new API to set the bust length.
+ *		       Added some new hash-defines.
+ * 1.03a asa  01/23/12 Fix for CR #692702 which updates error handling for
+ *		       Rx errors. Under heavy Rx traffic, there will be a large
+ *		       number of errors related to receive buffer not available.
+ *		       Because of a HW bug (SI #692601), under such heavy errors,
+ *		       the Rx data path can become unresponsive. To reduce the
+ *		       probabilities for hitting this HW bug, the SW writes to
+ *		       bit 18 to flush a packet from Rx DPRAM immediately. The
+ *		       changes for it are done in the function
+ *		       XEmacPs_IntrHandler.
+ * 1.05a asa  09/23/13 Cache operations on BDs are not required and hence
+ *		       removed. It is expected that all BDs are allocated in
+ *		       from uncached area.
+ * 1.06a asa  11/02/13 Changed the value for XEMACPS_RXBUF_LEN_MASK from 0x3fff
+ *				to 0x1fff. This fixes the CR#744902.
+ *			  Made changes in example file xemacps_example.h to fix compilation
+ *			  issues with iarcc compiler.
+ * 2.0   adk  10/12/13 Updated as per the New Tcl API's
+ * 2.1   adk  11/08/14 Fixed the CR#811288. Changes are made in the driver tcl file.
+ * 2.1   bss  09/08/14 Modified driver tcl to fix CR#820349 to export phy
+ *		       address in xparameters.h when GMII to RGMII converter
+ *		       is present in hw.
+ * 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp GEM specification and 64-bit
+ *		       changes.
+ * 2.2   adk  29/10/14 Fixed CR#827686 when PCS/PMA core is configured with
+ *                    1000BASE-X mode export proper values to the xparameters.h
+ *                    file. Changes are made in the driver tcl file.
+ * 3.0   adk  08/1/15  Don't include gem in peripheral test when gem is
+ *                    configured with PCS/PMA Core. Changes are made in the
+ *		       test app tcl(CR:827686).
+ * 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+ * 3.0   hk   03/18/15 Added support for jumbo frames. Increase AHB burst.
+ *                     Disable extended mode. Perform all 64 bit changes under
+ *                     check for arch64.
+ *                     Remove "used bit set" from TX error interrupt masks.
+ * 3.1   hk   07/27/15 Do not call error handler with '0' error code when
+ *                     there is no error. CR# 869403
+ *            08/10/15 Update upper 32 bit tx and rx queue ptr registers.
+ * 3.2   hk   02/22/16 Added SGMII support for Zynq Ultrascale+ MPSoC.
+ * 3.4   ms   01/23/17 Modified xil_printf statement in main function for all
+ *                     examples to ensure that "Successfully ran" and "Failed"
+ *                     strings are available in all examples. This is a fix
+ *                     for CR-965028.
+ *       ms   03/17/17 Modified text file in examples folder for doxygen
+ *                     generation.
+ *       ms   04/05/17 Added tabspace for return statements in functions of
+ *                     xemacps_ieee1588_example.c for proper documentation
+ *                     while generating doxygen.
+ * 3.5   hk   08/14/17 Update cache coherency information of the interface in
+ *                     its config structure.
+ * 3.6   rb   09/08/17 HwCnt variable (in XEmacPs_BdRing structure) is
+ *		       changed to volatile.
+ *		       Add API XEmacPs_BdRingPtrReset() to reset pointers
+ * 3.8   hk   07/19/18 Fixed CPP, GCC and doxygen warnings - CR-1006327
+ *	 hk   09/17/18 Fix PTP interrupt masks and cleanup comments.
+ * 3.9   hk   01/23/19 Add RX watermark support
+ * 3.11  sd   02/14/20 Add clock support
+ *
+ * 
+ * + ****************************************************************************/ + +#ifndef XEMACPS_H /* prevent circular inclusions */ +#define XEMACPS_H /* by using protection macros */ + +#ifdef __cplusplus +extern "C" { +#endif + +/***************************** Include Files ********************************/ + +#include "xil_types.h" +#include "xil_assert.h" +#include "xstatus.h" +#include "xemacps_hw.h" +#include "xemacps_bd.h" +#include "xemacps_bdring.h" +#if defined (XCLOCKING) +#include "xil_clocking.h" +#endif + +/************************** Constant Definitions ****************************/ + +/* + * Device information + */ +#define XEMACPS_DEVICE_NAME "xemacps" +#define XEMACPS_DEVICE_DESC "Xilinx PS 10/100/1000 MAC" + + +/** @name Configuration options + * + * Device configuration options. See the XEmacPs_SetOptions(), + * XEmacPs_ClearOptions() and XEmacPs_GetOptions() for information on how to + * use options. + * + * The default state of the options are noted and are what the device and + * driver will be set to after calling XEmacPs_Reset() or + * XEmacPs_Initialize(). + * + * @{ + */ + +#define XEMACPS_PROMISC_OPTION 0x00000001U +/**< Accept all incoming packets. + * This option defaults to disabled (cleared) */ + +#define XEMACPS_FRAME1536_OPTION 0x00000002U +/**< Frame larger than 1516 support for Tx & Rx. + * This option defaults to disabled (cleared) */ + +#define XEMACPS_VLAN_OPTION 0x00000004U +/**< VLAN Rx & Tx frame support. + * This option defaults to disabled (cleared) */ + +#define XEMACPS_FLOW_CONTROL_OPTION 0x00000010U +/**< Enable recognition of flow control frames on Rx + * This option defaults to enabled (set) */ + +#define XEMACPS_FCS_STRIP_OPTION 0x00000020U +/**< Strip FCS and PAD from incoming frames. Note: PAD from VLAN frames is not + * stripped. + * This option defaults to enabled (set) */ + +#define XEMACPS_FCS_INSERT_OPTION 0x00000040U +/**< Generate FCS field and add PAD automatically for outgoing frames. + * This option defaults to disabled (cleared) */ + +#define XEMACPS_LENTYPE_ERR_OPTION 0x00000080U +/**< Enable Length/Type error checking for incoming frames. When this option is + * set, the MAC will filter frames that have a mismatched type/length field + * and if XEMACPS_REPORT_RXERR_OPTION is set, the user is notified when these + * types of frames are encountered. When this option is cleared, the MAC will + * allow these types of frames to be received. + * + * This option defaults to disabled (cleared) */ + +#define XEMACPS_TRANSMITTER_ENABLE_OPTION 0x00000100U +/**< Enable the transmitter. + * This option defaults to enabled (set) */ + +#define XEMACPS_RECEIVER_ENABLE_OPTION 0x00000200U +/**< Enable the receiver + * This option defaults to enabled (set) */ + +#define XEMACPS_BROADCAST_OPTION 0x00000400U +/**< Allow reception of the broadcast address + * This option defaults to enabled (set) */ + +#define XEMACPS_MULTICAST_OPTION 0x00000800U +/**< Allows reception of multicast addresses programmed into hash + * This option defaults to disabled (clear) */ + +#define XEMACPS_RX_CHKSUM_ENABLE_OPTION 0x00001000U +/**< Enable the RX checksum offload + * This option defaults to enabled (set) */ + +#define XEMACPS_TX_CHKSUM_ENABLE_OPTION 0x00002000U +/**< Enable the TX checksum offload + * This option defaults to enabled (set) */ + +#define XEMACPS_JUMBO_ENABLE_OPTION 0x00004000U +#define XEMACPS_SGMII_ENABLE_OPTION 0x00008000U + +#define XEMACPS_DEFAULT_OPTIONS \ + ((u32)XEMACPS_FLOW_CONTROL_OPTION | \ + (u32)XEMACPS_FCS_INSERT_OPTION | \ + (u32)XEMACPS_FCS_STRIP_OPTION | \ + (u32)XEMACPS_BROADCAST_OPTION | \ + (u32)XEMACPS_LENTYPE_ERR_OPTION | \ + (u32)XEMACPS_TRANSMITTER_ENABLE_OPTION | \ + (u32)XEMACPS_RECEIVER_ENABLE_OPTION | \ + (u32)XEMACPS_RX_CHKSUM_ENABLE_OPTION | \ + (u32)XEMACPS_TX_CHKSUM_ENABLE_OPTION) + +/**< Default options set when device is initialized or reset */ +/*@}*/ + +/** @name Callback identifiers + * + * These constants are used as parameters to XEmacPs_SetHandler() + * @{ + */ +#define XEMACPS_HANDLER_DMASEND 1U +#define XEMACPS_HANDLER_DMARECV 2U +#define XEMACPS_HANDLER_ERROR 3U +/*@}*/ + +/* Constants to determine the configuration of the hardware device. They are + * used to allow the driver to verify it can operate with the hardware. + */ +#define XEMACPS_MDIO_DIV_DFT MDC_DIV_32 /**< Default MDIO clock divisor */ + +/* The next few constants help upper layers determine the size of memory + * pools used for Ethernet buffers and descriptor lists. + */ +#define XEMACPS_MAC_ADDR_SIZE 6U /* size of Ethernet header */ + +#define XEMACPS_MTU 1500U /* max MTU size of Ethernet frame */ +#define XEMACPS_MTU_JUMBO 10240U /* max MTU size of jumbo frame */ +#define XEMACPS_HDR_SIZE 14U /* size of Ethernet header */ +#define XEMACPS_HDR_VLAN_SIZE 18U /* size of Ethernet header with VLAN */ +#define XEMACPS_TRL_SIZE 4U /* size of Ethernet trailer (FCS) */ +#define XEMACPS_MAX_FRAME_SIZE (XEMACPS_MTU + XEMACPS_HDR_SIZE + \ + XEMACPS_TRL_SIZE) +#define XEMACPS_MAX_VLAN_FRAME_SIZE (XEMACPS_MTU + XEMACPS_HDR_SIZE + \ + XEMACPS_HDR_VLAN_SIZE + XEMACPS_TRL_SIZE) +#define XEMACPS_MAX_VLAN_FRAME_SIZE_JUMBO (XEMACPS_MTU_JUMBO + XEMACPS_HDR_SIZE + \ + XEMACPS_HDR_VLAN_SIZE + XEMACPS_TRL_SIZE) + +/* DMACR Bust length hash defines */ + +#define XEMACPS_SINGLE_BURST 0x00000001 +#define XEMACPS_4BYTE_BURST 0x00000004 +#define XEMACPS_8BYTE_BURST 0x00000008 +#define XEMACPS_16BYTE_BURST 0x00000010 + + +/**************************** Type Definitions ******************************/ +/** @name Typedefs for callback functions + * + * These callbacks are invoked in interrupt context. + * @{ + */ +/** + * Callback invoked when frame(s) have been sent or received in interrupt + * driven DMA mode. To set the send callback, invoke XEmacPs_SetHandler(). + * + * @param CallBackRef is user data assigned when the callback was set. + * + * @note + * See xemacps_hw.h for bitmasks definitions and the device hardware spec for + * further information on their meaning. + * + */ +typedef void (*XEmacPs_Handler) (void *CallBackRef); + +/** + * Callback when an asynchronous error occurs. To set this callback, invoke + * XEmacPs_SetHandler() with XEMACPS_HANDLER_ERROR in the HandlerType + * parameter. + * + * @param CallBackRef is user data assigned when the callback was set. + * @param Direction defines either receive or transmit error(s) has occurred. + * @param ErrorWord definition varies with Direction + * + */ +typedef void (*XEmacPs_ErrHandler) (void *CallBackRef, u8 Direction, + u32 ErrorWord); + +/*@}*/ + +/** + * This typedef contains configuration information for a device. + */ +typedef struct { + u16 DeviceId; /**< Unique ID of device */ + UINTPTR BaseAddress;/**< Physical base address of IPIF registers */ + u8 IsCacheCoherent; /**< Applicable only to A53 in EL1 mode; + * describes whether Cache Coherent or not */ +#if defined (XCLOCKING) + u32 RefClk; /**< Input clock */ +#endif +} XEmacPs_Config; + + +/** + * The XEmacPs driver instance data. The user is required to allocate a + * structure of this type for every XEmacPs device in the system. A pointer + * to a structure of this type is then passed to the driver API functions. + */ +typedef struct XEmacPs_Instance { + XEmacPs_Config Config; /* Hardware configuration */ + u32 IsStarted; /* Device is currently started */ + u32 IsReady; /* Device is initialized and ready */ + u32 Options; /* Current options word */ + + XEmacPs_BdRing TxBdRing; /* Transmit BD ring */ + XEmacPs_BdRing RxBdRing; /* Receive BD ring */ + + XEmacPs_Handler SendHandler; + XEmacPs_Handler RecvHandler; + void *SendRef; + void *RecvRef; + + XEmacPs_ErrHandler ErrorHandler; + void *ErrorRef; + u32 Version; + u32 RxBufMask; + u32 MaxMtuSize; + u32 MaxFrameSize; + u32 MaxVlanFrameSize; + +} XEmacPs; + + +/***************** Macros (Inline Functions) Definitions ********************/ + +/****************************************************************************/ +/** +* Retrieve the Tx ring object. This object can be used in the various Ring +* API functions. +* +* @param InstancePtr is the DMA channel to operate on. +* +* @return TxBdRing attribute +* +* @note +* C-style signature: +* XEmacPs_BdRing XEmacPs_GetTxRing(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_GetTxRing(InstancePtr) ((InstancePtr)->TxBdRing) + +/****************************************************************************/ +/** +* Retrieve the Rx ring object. This object can be used in the various Ring +* API functions. +* +* @param InstancePtr is the DMA channel to operate on. +* +* @return RxBdRing attribute +* +* @note +* C-style signature: +* XEmacPs_BdRing XEmacPs_GetRxRing(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_GetRxRing(InstancePtr) ((InstancePtr)->RxBdRing) + +/****************************************************************************/ +/** +* +* Enable interrupts specified in Mask. The corresponding interrupt for +* each bit set to 1 in Mask, will be enabled. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param Mask contains a bit mask of interrupts to enable. The mask can +* be formed using a set of bitwise or'd values. +* +* @note +* The state of the transmitter and receiver are not modified by this function. +* C-style signature +* void XEmacPs_IntEnable(XEmacPs *InstancePtr, u32 Mask) +* +*****************************************************************************/ +#define XEmacPs_IntEnable(InstancePtr, Mask) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_IER_OFFSET, \ + ((Mask) & XEMACPS_IXR_ALL_MASK)); + +/****************************************************************************/ +/** +* +* Disable interrupts specified in Mask. The corresponding interrupt for +* each bit set to 1 in Mask, will be enabled. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param Mask contains a bit mask of interrupts to disable. The mask can +* be formed using a set of bitwise or'd values. +* +* @note +* The state of the transmitter and receiver are not modified by this function. +* C-style signature +* void XEmacPs_IntDisable(XEmacPs *InstancePtr, u32 Mask) +* +*****************************************************************************/ +#define XEmacPs_IntDisable(InstancePtr, Mask) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_IDR_OFFSET, \ + ((Mask) & XEMACPS_IXR_ALL_MASK)); + +/****************************************************************************/ +/** +* +* Enable interrupts specified in Mask. The corresponding interrupt for +* each bit set to 1 in Mask, will be enabled. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param Mask contains a bit mask of interrupts to enable. The mask can +* be formed using a set of bitwise or'd values. +* +* @note +* The state of the transmitter and receiver are not modified by this function. +* C-style signature +* void XEmacPs_IntQ1Enable(XEmacPs *InstancePtr, u32 Mask) +* +*****************************************************************************/ +#define XEmacPs_IntQ1Enable(InstancePtr, Mask) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_INTQ1_IER_OFFSET, \ + ((Mask) & XEMACPS_INTQ1_IXR_ALL_MASK)); + +/****************************************************************************/ +/** +* +* Disable interrupts specified in Mask. The corresponding interrupt for +* each bit set to 1 in Mask, will be enabled. +* +* @param InstancePtr is a pointer to the instance to be worked on. +* @param Mask contains a bit mask of interrupts to disable. The mask can +* be formed using a set of bitwise or'd values. +* +* @note +* The state of the transmitter and receiver are not modified by this function. +* C-style signature +* void XEmacPs_IntDisable(XEmacPs *InstancePtr, u32 Mask) +* +*****************************************************************************/ +#define XEmacPs_IntQ1Disable(InstancePtr, Mask) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_INTQ1_IDR_OFFSET, \ + ((Mask) & XEMACPS_INTQ1_IXR_ALL_MASK)); + +/****************************************************************************/ +/** +* +* This macro triggers trasmit circuit to send data currently in TX buffer(s). +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* +* @return +* +* @note +* +* Signature: void XEmacPs_Transmit(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_Transmit(InstancePtr) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_NWCTRL_OFFSET, \ + (XEmacPs_ReadReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_NWCTRL_OFFSET) | XEMACPS_NWCTRL_STARTTX_MASK)) + +/****************************************************************************/ +/** +* +* This macro determines if the device is configured with checksum offloading +* on the receive channel +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* +* @return +* +* Boolean TRUE if the device is configured with checksum offloading, or +* FALSE otherwise. +* +* @note +* +* Signature: u32 XEmacPs_IsRxCsum(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_IsRxCsum(InstancePtr) \ + ((XEmacPs_ReadReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_NWCFG_OFFSET) & XEMACPS_NWCFG_RXCHKSUMEN_MASK) != 0U \ + ? TRUE : FALSE) + +/****************************************************************************/ +/** +* +* This macro determines if the device is configured with checksum offloading +* on the transmit channel +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* +* @return +* +* Boolean TRUE if the device is configured with checksum offloading, or +* FALSE otherwise. +* +* @note +* +* Signature: u32 XEmacPs_IsTxCsum(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_IsTxCsum(InstancePtr) \ + ((XEmacPs_ReadReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_DMACR_OFFSET) & XEMACPS_DMACR_TCPCKSUM_MASK) != 0U \ + ? TRUE : FALSE) + +/************************** Function Prototypes *****************************/ + +/****************************************************************************/ +/** +* +* This macro sets RX watermark register. +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* @param High is the non-zero RX high watermark value. When SRAM fill level +* is above this, a pause frame will be sent. +* @param Low is the non-zero RX low watermark value. When SRAM fill level +* is below this, a zero length pause frame will be sent IF the last +* pause frame sent was non-zero. +* +* @return None +* +* @note +* +* Signature: void XEmacPs_SetRXWatermark(XEmacPs *InstancePtr, u16 High, +* u16 Low) +* +*****************************************************************************/ +#define XEmacPs_SetRXWatermark(InstancePtr, High, Low) \ + XEmacPs_WriteReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_RXWATERMARK_OFFSET, \ + (High & XEMACPS_RXWM_HIGH_MASK) | \ + ((Low << XEMACPS_RXWM_LOW_SHFT_MSK) & XEMACPS_RXWM_LOW_MASK) |) + +/****************************************************************************/ +/** +* +* This macro gets RX watermark register. +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* +* @return RX watermark register value +* +* @note +* +* Signature: void XEmacPs_GetRXWatermark(XEmacPs *InstancePtr) +* +*****************************************************************************/ +#define XEmacPs_GetRXWatermark(InstancePtr) \ + XEmacPs_ReadReg((InstancePtr)->Config.BaseAddress, \ + XEMACPS_RXWATERMARK_OFFSET) +/* + * Initialization functions in xemacps.c + */ +LONG XEmacPs_CfgInitialize(XEmacPs *InstancePtr, XEmacPs_Config *CfgPtr, + UINTPTR EffectiveAddress); +void XEmacPs_Start(XEmacPs *InstancePtr); +void XEmacPs_Stop(XEmacPs *InstancePtr); +void XEmacPs_Reset(XEmacPs *InstancePtr); +void XEmacPs_SetQueuePtr(XEmacPs *InstancePtr, UINTPTR QPtr, u8 QueueNum, + u16 Direction); + +/* + * Lookup configuration in xemacps_sinit.c + */ +XEmacPs_Config *XEmacPs_LookupConfig(u16 DeviceId); + +/* + * Interrupt-related functions in xemacps_intr.c + * DMA only and FIFO is not supported. This DMA does not support coalescing. + */ +LONG XEmacPs_SetHandler(XEmacPs *InstancePtr, u32 HandlerType, + void *FuncPointer, void *CallBackRef); +void XEmacPs_IntrHandler(void *XEmacPsPtr); + +/* + * MAC configuration/control functions in XEmacPs_control.c + */ +LONG XEmacPs_SetOptions(XEmacPs *InstancePtr, u32 Options); +LONG XEmacPs_ClearOptions(XEmacPs *InstancePtr, u32 Options); +u32 XEmacPs_GetOptions(XEmacPs *InstancePtr); + +LONG XEmacPs_SetMacAddress(XEmacPs *InstancePtr, void *AddressPtr, u8 Index); +LONG XEmacPs_DeleteHash(XEmacPs *InstancePtr, void *AddressPtr); +void XEmacPs_GetMacAddress(XEmacPs *InstancePtr, void *AddressPtr, u8 Index); + +LONG XEmacPs_SetHash(XEmacPs *InstancePtr, void *AddressPtr); +void XEmacPs_ClearHash(XEmacPs *InstancePtr); +void XEmacPs_GetHash(XEmacPs *InstancePtr, void *AddressPtr); + +void XEmacPs_SetMdioDivisor(XEmacPs *InstancePtr, + XEmacPs_MdcDiv Divisor); +void XEmacPs_SetOperatingSpeed(XEmacPs *InstancePtr, u16 Speed); +u16 XEmacPs_GetOperatingSpeed(XEmacPs *InstancePtr); +LONG XEmacPs_PhyRead(XEmacPs *InstancePtr, u32 PhyAddress, + u32 RegisterNum, u16 *PhyDataPtr); +LONG XEmacPs_PhyWrite(XEmacPs *InstancePtr, u32 PhyAddress, + u32 RegisterNum, u16 PhyData); +LONG XEmacPs_SetTypeIdCheck(XEmacPs *InstancePtr, u32 Id_Check, u8 Index); + +LONG XEmacPs_SendPausePacket(XEmacPs *InstancePtr); +void XEmacPs_DMABLengthUpdate(XEmacPs *InstancePtr, s32 BLength); + +#ifdef __cplusplus +} +#endif + +#endif /* end of protection macro */ +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bd.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bd.h new file mode 100644 index 0000000000..a757322615 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bd.h @@ -0,0 +1,762 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** + * + * @file xemacps_bd.h +* @addtogroup emacps_v3_11 +* @{ + * + * This header provides operations to manage buffer descriptors in support + * of scatter-gather DMA. + * + * The API exported by this header defines abstracted macros that allow the + * user to read/write specific BD fields. + * + * Buffer Descriptors + * + * A buffer descriptor (BD) defines a DMA transaction. The macros defined by + * this header file allow access to most fields within a BD to tailor a DMA + * transaction according to user and hardware requirements. See the hardware + * IP DMA spec for more information on BD fields and how they affect transfers. + * + * The XEmacPs_Bd structure defines a BD. The organization of this structure + * is driven mainly by the hardware for use in scatter-gather DMA transfers. + * + * Performance + * + * Limiting I/O to BDs can improve overall performance of the DMA channel. + * + *
+ * MODIFICATION HISTORY:
+ *
+ * Ver   Who  Date     Changes
+ * ----- ---- -------- -------------------------------------------------------
+ * 1.00a wsy  01/10/10 First release
+ * 2.1   srt  07/15/14 Add support for Zynq Ultrascale MP GEM specification
+ *                     and 64-bit changes.
+ * 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+ * 3.0   hk   02/20/15 Added support for jumbo frames.
+ *                     Disable extended mode. Perform all 64 bit changes under
+ *                     check for arch64.
+ * 3.2   hk   11/18/15 Change BD typedef and number of words.
+ * 3.8   hk   08/18/18 Remove duplicate definition of XEmacPs_BdSetLength
+ * 3.8   mus  11/05/18 Support 64 bit DMA addresses for Microblaze-X platform.
+ *
+ * 
+ * + * *************************************************************************** + */ + +#ifndef XEMACPS_BD_H /* prevent circular inclusions */ +#define XEMACPS_BD_H /* by using protection macros */ + +#ifdef __cplusplus +extern "C" { +#endif + +/***************************** Include Files *********************************/ + +#include +#include "xil_types.h" +#include "xil_assert.h" + +/************************** Constant Definitions *****************************/ + +/**************************** Type Definitions *******************************/ +#ifdef __aarch64__ +/* Minimum BD alignment */ +#define XEMACPS_DMABD_MINIMUM_ALIGNMENT 64U +#define XEMACPS_BD_NUM_WORDS 4U +#else +/* Minimum BD alignment */ +#define XEMACPS_DMABD_MINIMUM_ALIGNMENT 4U +#define XEMACPS_BD_NUM_WORDS 2U +#endif + +/** + * The XEmacPs_Bd is the type for buffer descriptors (BDs). + */ +typedef u32 XEmacPs_Bd[XEMACPS_BD_NUM_WORDS]; + + +/***************** Macros (Inline Functions) Definitions *********************/ + +/*****************************************************************************/ +/** + * Zero out BD fields + * + * @param BdPtr is the BD pointer to operate on + * + * @return Nothing + * + * @note + * C-style signature: + * void XEmacPs_BdClear(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdClear(BdPtr) \ + memset((BdPtr), 0, sizeof(XEmacPs_Bd)) + +/****************************************************************************/ +/** +* +* Read the given Buffer Descriptor word. +* +* @param BaseAddress is the base address of the BD to read +* @param Offset is the word offset to be read +* +* @return The 32-bit value of the field +* +* @note +* C-style signature: +* u32 XEmacPs_BdRead(UINTPTR BaseAddress, UINTPTR Offset) +* +*****************************************************************************/ +#define XEmacPs_BdRead(BaseAddress, Offset) \ + (*(u32 *)((UINTPTR)((void*)(BaseAddress)) + (u32)(Offset))) + +/****************************************************************************/ +/** +* +* Write the given Buffer Descriptor word. +* +* @param BaseAddress is the base address of the BD to write +* @param Offset is the word offset to be written +* @param Data is the 32-bit value to write to the field +* +* @return None. +* +* @note +* C-style signature: +* void XEmacPs_BdWrite(UINTPTR BaseAddress, UINTPTR Offset, UINTPTR Data) +* +*****************************************************************************/ +#define XEmacPs_BdWrite(BaseAddress, Offset, Data) \ + (*(u32 *)((UINTPTR)(void*)(BaseAddress) + (u32)(Offset)) = (u32)(Data)) + +/*****************************************************************************/ +/** + * Set the BD's Address field (word 0). + * + * @param BdPtr is the BD pointer to operate on + * @param Addr is the value to write to BD's status field. + * + * @note : + * + * C-style signature: + * void XEmacPs_BdSetAddressTx(XEmacPs_Bd* BdPtr, UINTPTR Addr) + * + *****************************************************************************/ +#if defined(__aarch64__) || defined(__arch64__) +#define XEmacPs_BdSetAddressTx(BdPtr, Addr) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, \ + (u32)((Addr) & ULONG64_LO_MASK)); \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_HI_OFFSET, \ + (u32)(((Addr) & ULONG64_HI_MASK) >> 32U)); +#else +#define XEmacPs_BdSetAddressTx(BdPtr, Addr) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, (u32)(Addr)) +#endif + +/*****************************************************************************/ +/** + * Set the BD's Address field (word 0). + * + * @param BdPtr is the BD pointer to operate on + * @param Addr is the value to write to BD's status field. + * + * @note : Due to some bits are mixed within receive BD's address field, + * read-modify-write is performed. + * + * C-style signature: + * void XEmacPs_BdSetAddressRx(XEmacPs_Bd* BdPtr, UINTPTR Addr) + * + *****************************************************************************/ +#ifdef __aarch64__ +#define XEmacPs_BdSetAddressRx(BdPtr, Addr) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) & \ + ~XEMACPS_RXBUF_ADD_MASK) | ((u32)((Addr) & ULONG64_LO_MASK)))); \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_HI_OFFSET, \ + (u32)(((Addr) & ULONG64_HI_MASK) >> 32U)); +#else +#define XEmacPs_BdSetAddressRx(BdPtr, Addr) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) & \ + ~XEMACPS_RXBUF_ADD_MASK) | (UINTPTR)(Addr))) +#endif + +/*****************************************************************************/ +/** + * Set the BD's Status field (word 1). + * + * @param BdPtr is the BD pointer to operate on + * @param Data is the value to write to BD's status field. + * + * @note + * C-style signature: + * void XEmacPs_BdSetStatus(XEmacPs_Bd* BdPtr, UINTPTR Data) + * + *****************************************************************************/ +#define XEmacPs_BdSetStatus(BdPtr, Data) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) | (Data)) + + +/*****************************************************************************/ +/** + * Retrieve the BD's Packet DMA transfer status word (word 1). + * + * @param BdPtr is the BD pointer to operate on + * + * @return Status word + * + * @note + * C-style signature: + * u32 XEmacPs_BdGetStatus(XEmacPs_Bd* BdPtr) + * + * Due to the BD bit layout differences in transmit and receive. User's + * caution is required. + *****************************************************************************/ +#define XEmacPs_BdGetStatus(BdPtr) \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) + + +/*****************************************************************************/ +/** + * Get the address (bits 0..31) of the BD's buffer address (word 0) + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdGetBufAddr(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#if defined(__aarch64__) || defined(__arch64__) +#define XEmacPs_BdGetBufAddr(BdPtr) \ + (XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) | \ + (XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_HI_OFFSET)) << 32U) +#else +#define XEmacPs_BdGetBufAddr(BdPtr) \ + (XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET)) +#endif + +/*****************************************************************************/ +/** + * Set transfer length in bytes for the given BD. The length must be set each + * time a BD is submitted to hardware. + * + * @param BdPtr is the BD pointer to operate on + * @param LenBytes is the number of bytes to transfer. + * + * @note + * C-style signature: + * void XEmacPs_BdSetLength(XEmacPs_Bd* BdPtr, u32 LenBytes) + * + *****************************************************************************/ +#define XEmacPs_BdSetLength(BdPtr, LenBytes) \ + XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + ~XEMACPS_TXBUF_LEN_MASK) | (LenBytes))) + + +/*****************************************************************************/ +/** + * Retrieve the BD length field. + * + * For Tx channels, the returned value is the same as that written with + * XEmacPs_BdSetLength(). + * + * For Rx channels, the returned value is the size of the received packet. + * + * @param BdPtr is the BD pointer to operate on + * + * @return Length field processed by hardware or set by + * XEmacPs_BdSetLength(). + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdGetLength(XEmacPs_Bd* BdPtr) + * XEAMCPS_RXBUF_LEN_MASK is same as XEMACPS_TXBUF_LEN_MASK. + * + *****************************************************************************/ +#define XEmacPs_BdGetLength(BdPtr) \ + (XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_LEN_MASK) + +/*****************************************************************************/ +/** + * Retrieve the RX frame size. + * + * The returned value is the size of the received packet. + * This API supports jumbo frame sizes if enabled. + * + * @param InstancePtr is the pointer to XEmacps instance + * + * @param BdPtr is the BD pointer to operate on + * + * @return Length field processed by hardware or set by + * XEmacPs_BdSetLength(). + * + * @note + * C-style signature: + * UINTPTR XEmacPs_GetRxFrameSize(XEmacPs* InstancePtr, XEmacPs_Bd* BdPtr) + * RxBufMask is dependent on whether jumbo is enabled or not. + * + *****************************************************************************/ +#define XEmacPs_GetRxFrameSize(InstancePtr, BdPtr) \ + (XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + (InstancePtr)->RxBufMask) + +/*****************************************************************************/ +/** + * Test whether the given BD has been marked as the last BD of a packet. + * + * @param BdPtr is the BD pointer to operate on + * + * @return TRUE if BD represents the "Last" BD of a packet, FALSE otherwise + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsLast(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsLast(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_EOF_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Tell the DMA engine that the given transmit BD marks the end of the current + * packet to be processed. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetLast(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdSetLast(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) | \ + XEMACPS_TXBUF_LAST_MASK)) + + +/*****************************************************************************/ +/** + * Tell the DMA engine that the current packet does not end with the given + * BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdClearLast(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdClearLast(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + ~XEMACPS_TXBUF_LAST_MASK)) + + +/*****************************************************************************/ +/** + * Set this bit to mark the last descriptor in the receive buffer descriptor + * list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetRxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +/*#define XEmacPs_BdSetRxWrap(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) | \ + XEMACPS_RXBUF_WRAP_MASK)) +*/ + +/*****************************************************************************/ +/** + * Determine the wrap bit of the receive BD which indicates end of the + * BD list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * u8 XEmacPs_BdIsRxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxWrap(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) & \ + XEMACPS_RXBUF_WRAP_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Sets this bit to mark the last descriptor in the transmit buffer + * descriptor list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetTxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +/*#define XEmacPs_BdSetTxWrap(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) | \ + XEMACPS_TXBUF_WRAP_MASK)) +*/ + +/*****************************************************************************/ +/** + * Determine the wrap bit of the transmit BD which indicates end of the + * BD list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * u8 XEmacPs_BdGetTxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsTxWrap(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_TXBUF_WRAP_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/* + * Must clear this bit to enable the MAC to write data to the receive + * buffer. Hardware sets this bit once it has successfully written a frame to + * memory. Once set, software has to clear the bit before the buffer can be + * used again. This macro clear the new bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdClearRxNew(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdClearRxNew(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_ADDR_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) & \ + ~XEMACPS_RXBUF_NEW_MASK)) + + +/*****************************************************************************/ +/** + * Determine the new bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxNew(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxNew(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_ADDR_OFFSET) & \ + XEMACPS_RXBUF_NEW_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Software sets this bit to disable the buffer to be read by the hardware. + * Hardware sets this bit for the first buffer of a frame once it has been + * successfully transmitted. This macro sets this bit of transmit BD to avoid + * confusion. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetTxUsed(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdSetTxUsed(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) | \ + XEMACPS_TXBUF_USED_MASK)) + + +/*****************************************************************************/ +/** + * Software clears this bit to enable the buffer to be read by the hardware. + * Hardware sets this bit for the first buffer of a frame once it has been + * successfully transmitted. This macro clears this bit of transmit BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdClearTxUsed(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdClearTxUsed(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + ~XEMACPS_TXBUF_USED_MASK)) + + +/*****************************************************************************/ +/** + * Determine the used bit of the transmit BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsTxUsed(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsTxUsed(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_TXBUF_USED_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if a frame fails to be transmitted due to too many retries. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsTxRetry(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsTxRetry(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_TXBUF_RETRY_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if a frame fails to be transmitted due to data can not be + * feteched in time or buffers are exhausted. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsTxUrun(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsTxUrun(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_TXBUF_URUN_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if a frame fails to be transmitted due to buffer is exhausted + * mid-frame. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsTxExh(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsTxExh(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_TXBUF_EXH_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Sets this bit, no CRC will be appended to the current frame. This control + * bit must be set for the first buffer in a frame and will be ignored for + * the subsequent buffers of a frame. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * This bit must be clear when using the transmit checksum generation offload, + * otherwise checksum generation and substitution will not occur. + * + * C-style signature: + * UINTPTR XEmacPs_BdSetTxNoCRC(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdSetTxNoCRC(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) | \ + XEMACPS_TXBUF_NOCRC_MASK)) + + +/*****************************************************************************/ +/** + * Clear this bit, CRC will be appended to the current frame. This control + * bit must be set for the first buffer in a frame and will be ignored for + * the subsequent buffers of a frame. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * This bit must be clear when using the transmit checksum generation offload, + * otherwise checksum generation and substitution will not occur. + * + * C-style signature: + * UINTPTR XEmacPs_BdClearTxNoCRC(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdClearTxNoCRC(BdPtr) \ + (XEmacPs_BdWrite((BdPtr), XEMACPS_BD_STAT_OFFSET, \ + XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + ~XEMACPS_TXBUF_NOCRC_MASK)) + + +/*****************************************************************************/ +/** + * Determine the broadcast bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxBcast(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxBcast(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_BCAST_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine the multicast hash bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxMultiHash(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxMultiHash(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_MULTIHASH_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine the unicast hash bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxUniHash(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxUniHash(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_UNIHASH_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if the received frame is a VLAN Tagged frame. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxVlan(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxVlan(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_VLAN_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if the received frame has Type ID of 8100h and null VLAN + * identifier(Priority tag). + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxPri(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxPri(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_PRI_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine if the received frame's Concatenation Format Indicator (CFI) of + * the frames VLANTCI field was set. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdIsRxCFI(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxCFI(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_CFI_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine the End Of Frame (EOF) bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdGetRxEOF(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxEOF(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_EOF_MASK)!=0U ? TRUE : FALSE) + + +/*****************************************************************************/ +/** + * Determine the Start Of Frame (SOF) bit of the receive BD. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * UINTPTR XEmacPs_BdGetRxSOF(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +#define XEmacPs_BdIsRxSOF(BdPtr) \ + ((XEmacPs_BdRead((BdPtr), XEMACPS_BD_STAT_OFFSET) & \ + XEMACPS_RXBUF_SOF_MASK)!=0U ? TRUE : FALSE) + + +/************************** Function Prototypes ******************************/ + +#ifdef __cplusplus +} +#endif + +#endif /* end of protection macro */ +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.c new file mode 100644 index 0000000000..1225aca42d --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.c @@ -0,0 +1,1076 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_bdring.c +* @addtogroup emacps_v3_11 +* @{ +* +* This file implements buffer descriptor ring related functions. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 First release
+* 1.00a asa  11/21/11 The function XEmacPs_BdRingFromHwTx is modified.
+*		      Earlier it used to search in "BdLimit" number of BDs to
+*		      know which BDs are processed. Now one more check is
+*		      added. It looks for BDs till the current BD pointer
+*		      reaches HwTail. By doing this processing time is saved.
+* 1.00a asa  01/24/12 The function XEmacPs_BdRingFromHwTx in file
+*		      xemacps_bdring.c is modified. Now start of packet is
+*		      searched for returning the number of BDs processed.
+* 1.05a asa  09/23/13 Cache operations on BDs are not required and hence
+*		      removed. It is expected that all BDs are allocated in
+*		      from uncached area. Fix for CR #663885.
+* 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp architecture.
+* 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 3.6   rb   09/08/17 Add XEmacPs_BdRingPtrReset() API to reset BD ring
+* 		      pointers
+*
+* 
+******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xstatus.h" +#include "xil_cache.h" +#include "xemacps_hw.h" +#include "xemacps_bd.h" +#include "xemacps_bdring.h" + +/************************** Constant Definitions *****************************/ + +/**************************** Type Definitions *******************************/ + + +/***************** Macros (Inline Functions) Definitions *********************/ + +/**************************************************************************** + * Compute the virtual address of a descriptor from its physical address + * + * @param BdPtr is the physical address of the BD + * + * @returns Virtual address of BdPtr + * + * @note Assume BdPtr is always a valid BD in the ring + ****************************************************************************/ +#define XEMACPS_PHYS_TO_VIRT(BdPtr) \ + ((UINTPTR)(BdPtr) + (RingPtr->BaseBdAddr - RingPtr->PhysBaseAddr)) + +/**************************************************************************** + * Compute the physical address of a descriptor from its virtual address + * + * @param BdPtr is the physical address of the BD + * + * @returns Physical address of BdPtr + * + * @note Assume BdPtr is always a valid BD in the ring + ****************************************************************************/ +#define XEMACPS_VIRT_TO_PHYS(BdPtr) \ + ((UINTPTR)(BdPtr) - (RingPtr->BaseBdAddr - RingPtr->PhysBaseAddr)) + +/**************************************************************************** + * Move the BdPtr argument ahead an arbitrary number of BDs wrapping around + * to the beginning of the ring if needed. + * + * We know if a wrapaound should occur if the new BdPtr is greater than + * the high address in the ring OR if the new BdPtr crosses over the + * 0xFFFFFFFF to 0 boundary. The latter test is a valid one since we do not + * allow a BD space to span this boundary. + * + * @param RingPtr is the ring BdPtr appears in + * @param BdPtr on input is the starting BD position and on output is the + * final BD position + * @param NumBd is the number of BD spaces to increment + * + ****************************************************************************/ +#define XEMACPS_RING_SEEKAHEAD(RingPtr, BdPtr, NumBd) \ + { \ + UINTPTR Addr = (UINTPTR)(void *)(BdPtr); \ + \ + Addr += ((RingPtr)->Separation * (NumBd)); \ + if ((Addr > (RingPtr)->HighBdAddr) || ((UINTPTR)(void *)(BdPtr) > Addr)) \ + { \ + Addr -= (RingPtr)->Length; \ + } \ + \ + (BdPtr) = (XEmacPs_Bd*)(void *)Addr; \ + } + +/**************************************************************************** + * Move the BdPtr argument backwards an arbitrary number of BDs wrapping + * around to the end of the ring if needed. + * + * We know if a wrapaound should occur if the new BdPtr is less than + * the base address in the ring OR if the new BdPtr crosses over the + * 0xFFFFFFFF to 0 boundary. The latter test is a valid one since we do not + * allow a BD space to span this boundary. + * + * @param RingPtr is the ring BdPtr appears in + * @param BdPtr on input is the starting BD position and on output is the + * final BD position + * @param NumBd is the number of BD spaces to increment + * + ****************************************************************************/ +#define XEMACPS_RING_SEEKBACK(RingPtr, BdPtr, NumBd) \ + { \ + UINTPTR Addr = (UINTPTR)(void *)(BdPtr); \ + \ + Addr -= ((RingPtr)->Separation * (NumBd)); \ + if ((Addr < (RingPtr)->BaseBdAddr) || ((UINTPTR)(void*)(BdPtr) < Addr)) \ + { \ + Addr += (RingPtr)->Length; \ + } \ + \ + (BdPtr) = (XEmacPs_Bd*)(void*)Addr; \ + } + + +/************************** Function Prototypes ******************************/ + +static void XEmacPs_BdSetRxWrap(UINTPTR BdPtr); +static void XEmacPs_BdSetTxWrap(UINTPTR BdPtr); + +/************************** Variable Definitions *****************************/ + +/*****************************************************************************/ +/** + * Using a memory segment allocated by the caller, create and setup the BD list + * for the given DMA channel. + * + * @param RingPtr is the instance to be worked on. + * @param PhysAddr is the physical base address of user memory region. + * @param VirtAddr is the virtual base address of the user memory region. If + * address translation is not being utilized, then VirtAddr should be + * equivalent to PhysAddr. + * @param Alignment governs the byte alignment of individual BDs. This function + * will enforce a minimum alignment of 4 bytes with no maximum as long + * as it is specified as a power of 2. + * @param BdCount is the number of BDs to setup in the user memory region. It + * is assumed the region is large enough to contain the BDs. + * + * @return + * + * - XST_SUCCESS if initialization was successful + * - XST_NO_FEATURE if the provided instance is a non DMA type + * channel. + * - XST_INVALID_PARAM under any of the following conditions: + * 1) PhysAddr and/or VirtAddr are not aligned to the given Alignment + * parameter. + * 2) Alignment parameter does not meet minimum requirements or is not a + * power of 2 value. + * 3) BdCount is 0. + * - XST_DMA_SG_LIST_ERROR if the memory segment containing the list spans + * over address 0x00000000 in virtual address space. + * + * @note + * Make sure to pass in the right alignment value. + *****************************************************************************/ +LONG XEmacPs_BdRingCreate(XEmacPs_BdRing * RingPtr, UINTPTR PhysAddr, + UINTPTR VirtAddr, u32 Alignment, u32 BdCount) +{ + u32 i; + UINTPTR BdVirtAddr; + UINTPTR BdPhyAddr; + UINTPTR VirtAddrLoc = VirtAddr; + + /* In case there is a failure prior to creating list, make sure the + * following attributes are 0 to prevent calls to other functions + * from doing anything. + */ + RingPtr->AllCnt = 0U; + RingPtr->FreeCnt = 0U; + RingPtr->HwCnt = 0U; + RingPtr->PreCnt = 0U; + RingPtr->PostCnt = 0U; + + /* Make sure Alignment parameter meets minimum requirements */ + if (Alignment < (u32)XEMACPS_DMABD_MINIMUM_ALIGNMENT) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Make sure Alignment is a power of 2 */ + if (((Alignment - 0x00000001U) & Alignment)!=0x00000000U) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Make sure PhysAddr and VirtAddr are on same Alignment */ + if (((PhysAddr % Alignment)!=(u32)0) || ((VirtAddrLoc % Alignment)!=(u32)0)) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Is BdCount reasonable? */ + if (BdCount == 0x00000000U) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Figure out how many bytes will be between the start of adjacent BDs */ + RingPtr->Separation = ((u32)sizeof(XEmacPs_Bd)); + + /* Must make sure the ring doesn't span address 0x00000000. If it does, + * then the next/prev BD traversal macros will fail. + */ + if (VirtAddrLoc > ((VirtAddrLoc + (RingPtr->Separation * BdCount)) - (u32)1)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + /* Initial ring setup: + * - Clear the entire space + * - Setup each BD's BDA field with the physical address of the next BD + */ + (void)memset((void *) VirtAddrLoc, 0, (RingPtr->Separation * BdCount)); + + BdVirtAddr = VirtAddrLoc; + BdPhyAddr = PhysAddr + RingPtr->Separation; + for (i = 1U; i < BdCount; i++) { + BdVirtAddr += RingPtr->Separation; + BdPhyAddr += RingPtr->Separation; + } + + /* Setup and initialize pointers and counters */ + RingPtr->RunState = (u32)(XST_DMA_SG_IS_STOPPED); + RingPtr->BaseBdAddr = VirtAddrLoc; + RingPtr->PhysBaseAddr = PhysAddr; + RingPtr->HighBdAddr = BdVirtAddr; + RingPtr->Length = + ((RingPtr->HighBdAddr - RingPtr->BaseBdAddr) + RingPtr->Separation); + RingPtr->AllCnt = (u32)BdCount; + RingPtr->FreeCnt = (u32)BdCount; + RingPtr->FreeHead = (XEmacPs_Bd *)(void *)VirtAddrLoc; + RingPtr->PreHead = (XEmacPs_Bd *)VirtAddrLoc; + RingPtr->HwHead = (XEmacPs_Bd *)VirtAddrLoc; + RingPtr->HwTail = (XEmacPs_Bd *)VirtAddrLoc; + RingPtr->PostHead = (XEmacPs_Bd *)VirtAddrLoc; + RingPtr->BdaRestart = (XEmacPs_Bd *)(void *)PhysAddr; + + return (LONG)(XST_SUCCESS); +} + + +/*****************************************************************************/ +/** + * Clone the given BD into every BD in the list. + * every field of the source BD is replicated in every BD of the list. + * + * This function can be called only when all BDs are in the free group such as + * they are immediately after initialization with XEmacPs_BdRingCreate(). + * This prevents modification of BDs while they are in use by hardware or the + * user. + * + * @param RingPtr is the pointer of BD ring instance to be worked on. + * @param SrcBdPtr is the source BD template to be cloned into the list. This + * BD will be modified. + * @param Direction is either XEMACPS_SEND or XEMACPS_RECV that indicates + * which direction. + * + * @return + * - XST_SUCCESS if the list was modified. + * - XST_DMA_SG_NO_LIST if a list has not been created. + * - XST_DMA_SG_LIST_ERROR if some of the BDs in this channel are under + * hardware or user control. + * - XST_DEVICE_IS_STARTED if the DMA channel has not been stopped. + * + *****************************************************************************/ +LONG XEmacPs_BdRingClone(XEmacPs_BdRing * RingPtr, XEmacPs_Bd * SrcBdPtr, + u8 Direction) +{ + u32 i; + UINTPTR CurBd; + + /* Can't do this function if there isn't a ring */ + if (RingPtr->AllCnt == 0x00000000U) { + return (LONG)(XST_DMA_SG_NO_LIST); + } + + /* Can't do this function with the channel running */ + if (RingPtr->RunState == (u32)XST_DMA_SG_IS_STARTED) { + return (LONG)(XST_DEVICE_IS_STARTED); + } + + /* Can't do this function with some of the BDs in use */ + if (RingPtr->FreeCnt != RingPtr->AllCnt) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + if ((Direction != (u8)XEMACPS_SEND) && (Direction != (u8)XEMACPS_RECV)) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Starting from the top of the ring, save BD.Next, overwrite the entire + * BD with the template, then restore BD.Next + */ + CurBd = RingPtr->BaseBdAddr; + for (i = 0U; i < RingPtr->AllCnt; i++) { + memcpy((void *)CurBd, SrcBdPtr, sizeof(XEmacPs_Bd)); + CurBd += RingPtr->Separation; + } + + CurBd -= RingPtr->Separation; + + if (Direction == XEMACPS_RECV) { + XEmacPs_BdSetRxWrap(CurBd); + } + else { + XEmacPs_BdSetTxWrap(CurBd); + } + + return (LONG)(XST_SUCCESS); +} + + +/*****************************************************************************/ +/** + * Reserve locations in the BD list. The set of returned BDs may be modified + * in preparation for future DMA transaction(s). Once the BDs are ready to be + * submitted to hardware, the user must call XEmacPs_BdRingToHw() in the same + * order which they were allocated here. Example: + * + *
+ *        NumBd = 2,
+ *        Status = XEmacPs_BdRingAlloc(MyRingPtr, NumBd, &MyBdSet),
+ *
+ *        if (Status != XST_SUCCESS)
+ *        {
+ *            *Not enough BDs available for the request*
+ *        }
+ *
+ *        CurBd = MyBdSet,
+ *        for (i=0; i
+ *
+ * A more advanced use of this function may allocate multiple sets of BDs.
+ * They must be allocated and given to hardware in the correct sequence:
+ * 
+ *        * Legal *
+ *        XEmacPs_BdRingAlloc(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingToHw(MyRingPtr, NumBd1, MySet1),
+ *
+ *        * Legal *
+ *        XEmacPs_BdRingAlloc(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingAlloc(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingToHw(MyRingPtr, NumBd1, MySet1),
+ *        XEmacPs_BdRingToHw(MyRingPtr, NumBd2, MySet2),
+ *
+ *        * Not legal *
+ *        XEmacPs_BdRingAlloc(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingAlloc(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingToHw(MyRingPtr, NumBd2, MySet2),
+ *        XEmacPs_BdRingToHw(MyRingPtr, NumBd1, MySet1),
+ * 
+ * + * Use the API defined in xemacps_bd.h to modify individual BDs. Traversal + * of the BD set can be done using XEmacPs_BdRingNext() and + * XEmacPs_BdRingPrev(). + * + * @param RingPtr is a pointer to the BD ring instance to be worked on. + * @param NumBd is the number of BDs to allocate + * @param BdSetPtr is an output parameter, it points to the first BD available + * for modification. + * + * @return + * - XST_SUCCESS if the requested number of BDs was returned in the BdSetPtr + * parameter. + * - XST_FAILURE if there were not enough free BDs to satisfy the request. + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + * @note Do not modify more BDs than the number requested with the NumBd + * parameter. Doing so will lead to data corruption and system + * instability. + * + *****************************************************************************/ +LONG XEmacPs_BdRingAlloc(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd ** BdSetPtr) +{ + LONG Status; + /* Enough free BDs available for the request? */ + if (RingPtr->FreeCnt < NumBd) { + Status = (LONG)(XST_FAILURE); + } else { + /* Set the return argument and move FreeHead forward */ + *BdSetPtr = RingPtr->FreeHead; + XEMACPS_RING_SEEKAHEAD(RingPtr, RingPtr->FreeHead, NumBd); + RingPtr->FreeCnt -= NumBd; + RingPtr->PreCnt += NumBd; + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + +/*****************************************************************************/ +/** + * Fully or partially undo an XEmacPs_BdRingAlloc() operation. Use this + * function if all the BDs allocated by XEmacPs_BdRingAlloc() could not be + * transferred to hardware with XEmacPs_BdRingToHw(). + * + * This function helps out in situations when an unrelated error occurs after + * BDs have been allocated but before they have been given to hardware. + * An example of this type of error would be an OS running out of resources. + * + * This function is not the same as XEmacPs_BdRingFree(). The Free function + * returns BDs to the free list after they have been processed by hardware, + * while UnAlloc returns them before being processed by hardware. + * + * There are two scenarios where this function can be used. Full UnAlloc or + * Partial UnAlloc. A Full UnAlloc means all the BDs Alloc'd will be returned: + * + *
+ *    Status = XEmacPs_BdRingAlloc(MyRingPtr, 10, &BdPtr),
+ *        ...
+ *    if (Error)
+ *    {
+ *        Status = XEmacPs_BdRingUnAlloc(MyRingPtr, 10, &BdPtr),
+ *    }
+ * 
+ * + * A partial UnAlloc means some of the BDs Alloc'd will be returned: + * + *
+ *    Status = XEmacPs_BdRingAlloc(MyRingPtr, 10, &BdPtr),
+ *    BdsLeft = 10,
+ *    CurBdPtr = BdPtr,
+ *
+ *    while (BdsLeft)
+ *    {
+ *       if (Error)
+ *       {
+ *          Status = XEmacPs_BdRingUnAlloc(MyRingPtr, BdsLeft, CurBdPtr),
+ *       }
+ *
+ *       CurBdPtr = XEmacPs_BdRingNext(MyRingPtr, CurBdPtr),
+ *       BdsLeft--,
+ *    }
+ * 
+ * + * A partial UnAlloc must include the last BD in the list that was Alloc'd. + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param NumBd is the number of BDs to allocate + * @param BdSetPtr is an output parameter, it points to the first BD available + * for modification. + * + * @return + * - XST_SUCCESS if the BDs were unallocated. + * - XST_FAILURE if NumBd parameter was greater that the number of BDs in + * the preprocessing state. + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +LONG XEmacPs_BdRingUnAlloc(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr) +{ + LONG Status; + (void) BdSetPtr; + Xil_AssertNonvoid(RingPtr != NULL); + Xil_AssertNonvoid(BdSetPtr != NULL); + + /* Enough BDs in the free state for the request? */ + if (RingPtr->PreCnt < NumBd) { + Status = (LONG)(XST_FAILURE); + } else { + /* Set the return argument and move FreeHead backward */ + XEMACPS_RING_SEEKBACK(RingPtr, (RingPtr->FreeHead), NumBd); + RingPtr->FreeCnt += NumBd; + RingPtr->PreCnt -= NumBd; + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + + +/*****************************************************************************/ +/** + * Enqueue a set of BDs to hardware that were previously allocated by + * XEmacPs_BdRingAlloc(). Once this function returns, the argument BD set goes + * under hardware control. Any changes made to these BDs after this point will + * corrupt the BD list leading to data corruption and system instability. + * + * The set will be rejected if the last BD of the set does not mark the end of + * a packet (see XEmacPs_BdSetLast()). + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param NumBd is the number of BDs in the set. + * @param BdSetPtr is the first BD of the set to commit to hardware. + * + * @return + * - XST_SUCCESS if the set of BDs was accepted and enqueued to hardware. + * - XST_FAILURE if the set of BDs was rejected because the last BD of the set + * did not have its "last" bit set. + * - XST_DMA_SG_LIST_ERROR if this function was called out of sequence with + * XEmacPs_BdRingAlloc(). + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +LONG XEmacPs_BdRingToHw(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr) +{ + XEmacPs_Bd *CurBdPtr; + u32 i; + LONG Status; + /* if no bds to process, simply return. */ + if (0U == NumBd){ + Status = (LONG)(XST_SUCCESS); + } else { + /* Make sure we are in sync with XEmacPs_BdRingAlloc() */ + if ((RingPtr->PreCnt < NumBd) || (RingPtr->PreHead != BdSetPtr)) { + Status = (LONG)(XST_DMA_SG_LIST_ERROR); + } else { + CurBdPtr = BdSetPtr; + for (i = 0U; i < NumBd; i++) { + CurBdPtr = (XEmacPs_Bd *)((void *)XEmacPs_BdRingNext(RingPtr, CurBdPtr)); + } + /* Adjust ring pointers & counters */ + XEMACPS_RING_SEEKAHEAD(RingPtr, RingPtr->PreHead, NumBd); + RingPtr->PreCnt -= NumBd; + RingPtr->HwTail = CurBdPtr; + RingPtr->HwCnt += NumBd; + + Status = (LONG)(XST_SUCCESS); + } + } + return Status; +} + + +/*****************************************************************************/ +/** + * Returns a set of BD(s) that have been processed by hardware. The returned + * BDs may be examined to determine the outcome of the DMA transaction(s). + * Once the BDs have been examined, the user must call XEmacPs_BdRingFree() + * in the same order which they were retrieved here. Example: + * + *
+ *        NumBd = XEmacPs_BdRingFromHwTx(MyRingPtr, MaxBd, &MyBdSet),
+ *        if (NumBd == 0)
+ *        {
+ *           * hardware has nothing ready for us yet*
+ *        }
+ *
+ *        CurBd = MyBdSet,
+ *        for (i=0; i
+ *
+ * A more advanced use of this function may allocate multiple sets of BDs.
+ * They must be retrieved from hardware and freed in the correct sequence:
+ * 
+ *        * Legal *
+ *        XEmacPs_BdRingFromHwTx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ *
+ *        * Legal *
+ *        XEmacPs_BdRingFromHwTx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFromHwTx(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd2, MySet2),
+ *
+ *        * Not legal *
+ *        XEmacPs_BdRingFromHwTx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFromHwTx(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd2, MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ * 
+ * + * If hardware has only partially completed a packet spanning multiple BDs, + * then none of the BDs for that packet will be included in the results. + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param BdLimit is the maximum number of BDs to return in the set. + * @param BdSetPtr is an output parameter, it points to the first BD available + * for examination. + * + * @return + * The number of BDs processed by hardware. A value of 0 indicates that no + * data is available. No more than BdLimit BDs will be returned. + * + * @note Treat BDs returned by this function as read-only. + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +u32 XEmacPs_BdRingFromHwTx(XEmacPs_BdRing * RingPtr, u32 BdLimit, + XEmacPs_Bd ** BdSetPtr) +{ + XEmacPs_Bd *CurBdPtr; + u32 BdStr = 0U; + u32 BdCount; + u32 BdPartialCount; + u32 Sop = 0U; + u32 Status; + u32 BdLimitLoc = BdLimit; + CurBdPtr = RingPtr->HwHead; + BdCount = 0U; + BdPartialCount = 0U; + + /* If no BDs in work group, then there's nothing to search */ + if (RingPtr->HwCnt == 0x00000000U) { + *BdSetPtr = NULL; + Status = 0U; + } else { + + if (BdLimitLoc > RingPtr->HwCnt){ + BdLimitLoc = RingPtr->HwCnt; + } + /* Starting at HwHead, keep moving forward in the list until: + * - A BD is encountered with its new/used bit set which means + * hardware has not completed processing of that BD. + * - RingPtr->HwTail is reached and RingPtr->HwCnt is reached. + * - The number of requested BDs has been processed + */ + while (BdCount < BdLimitLoc) { + /* Read the status */ + if(CurBdPtr != NULL){ + BdStr = XEmacPs_BdRead(CurBdPtr, XEMACPS_BD_STAT_OFFSET); + } + + if ((Sop == 0x00000000U) && ((BdStr & XEMACPS_TXBUF_USED_MASK)!=0x00000000U)){ + Sop = 1U; + } + if (Sop == 0x00000001U) { + BdCount++; + BdPartialCount++; + } + + /* hardware has processed this BD so check the "last" bit. + * If it is clear, then there are more BDs for the current + * packet. Keep a count of these partial packet BDs. + */ + if ((Sop == 0x00000001U) && ((BdStr & XEMACPS_TXBUF_LAST_MASK)!=0x00000000U)) { + Sop = 0U; + BdPartialCount = 0U; + } + + /* Move on to next BD in work group */ + CurBdPtr = XEmacPs_BdRingNext(RingPtr, CurBdPtr); + } + + /* Subtract off any partial packet BDs found */ + BdCount -= BdPartialCount; + + /* If BdCount is non-zero then BDs were found to return. Set return + * parameters, update pointers and counters, return success + */ + if (BdCount > 0x00000000U) { + *BdSetPtr = RingPtr->HwHead; + RingPtr->HwCnt -= BdCount; + RingPtr->PostCnt += BdCount; + XEMACPS_RING_SEEKAHEAD(RingPtr, RingPtr->HwHead, BdCount); + Status = (BdCount); + } else { + *BdSetPtr = NULL; + Status = 0U; + } + } + return Status; +} + + +/*****************************************************************************/ +/** + * Returns a set of BD(s) that have been processed by hardware. The returned + * BDs may be examined to determine the outcome of the DMA transaction(s). + * Once the BDs have been examined, the user must call XEmacPs_BdRingFree() + * in the same order which they were retrieved here. Example: + * + *
+ *        NumBd = XEmacPs_BdRingFromHwRx(MyRingPtr, MaxBd, &MyBdSet),
+ *
+ *        if (NumBd == 0)
+ *        {
+ *           *hardware has nothing ready for us yet*
+ *        }
+ *
+ *        CurBd = MyBdSet,
+ *        for (i=0; i
+ *
+ * A more advanced use of this function may allocate multiple sets of BDs.
+ * They must be retrieved from hardware and freed in the correct sequence:
+ * 
+ *        * Legal *
+ *        XEmacPs_BdRingFromHwRx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ *
+ *        * Legal *
+ *        XEmacPs_BdRingFromHwRx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFromHwRx(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd2, MySet2),
+ *
+ *        * Not legal *
+ *        XEmacPs_BdRingFromHwRx(MyRingPtr, NumBd1, &MySet1),
+ *        XEmacPs_BdRingFromHwRx(MyRingPtr, NumBd2, &MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd2, MySet2),
+ *        XEmacPs_BdRingFree(MyRingPtr, NumBd1, MySet1),
+ * 
+ * + * If hardware has only partially completed a packet spanning multiple BDs, + * then none of the BDs for that packet will be included in the results. + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param BdLimit is the maximum number of BDs to return in the set. + * @param BdSetPtr is an output parameter, it points to the first BD available + * for examination. + * + * @return + * The number of BDs processed by hardware. A value of 0 indicates that no + * data is available. No more than BdLimit BDs will be returned. + * + * @note Treat BDs returned by this function as read-only. + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +u32 XEmacPs_BdRingFromHwRx(XEmacPs_BdRing * RingPtr, u32 BdLimit, + XEmacPs_Bd ** BdSetPtr) +{ + XEmacPs_Bd *CurBdPtr; + u32 BdStr = 0U; + u32 BdCount; + u32 BdPartialCount; + u32 Status; + + CurBdPtr = RingPtr->HwHead; + BdCount = 0U; + BdPartialCount = 0U; + + /* If no BDs in work group, then there's nothing to search */ + if (RingPtr->HwCnt == 0x00000000U) { + *BdSetPtr = NULL; + Status = 0U; + } else { + + /* Starting at HwHead, keep moving forward in the list until: + * - A BD is encountered with its new/used bit set which means + * hardware has completed processing of that BD. + * - RingPtr->HwTail is reached and RingPtr->HwCnt is reached. + * - The number of requested BDs has been processed + */ + while (BdCount < BdLimit) { + + /* Read the status */ + if(CurBdPtr!=NULL){ + BdStr = XEmacPs_BdRead(CurBdPtr, XEMACPS_BD_STAT_OFFSET); + } + if ((!(XEmacPs_BdIsRxNew(CurBdPtr)))==TRUE) { + break; + } + + BdCount++; + + /* hardware has processed this BD so check the "last" bit. If + * it is clear, then there are more BDs for the current packet. + * Keep a count of these partial packet BDs. + */ + if ((BdStr & XEMACPS_RXBUF_EOF_MASK)!=0x00000000U) { + BdPartialCount = 0U; + } else { + BdPartialCount++; + } + + /* Move on to next BD in work group */ + CurBdPtr = XEmacPs_BdRingNext(RingPtr, CurBdPtr); + } + + /* Subtract off any partial packet BDs found */ + BdCount -= BdPartialCount; + + /* If BdCount is non-zero then BDs were found to return. Set return + * parameters, update pointers and counters, return success + */ + if (BdCount > 0x00000000U) { + *BdSetPtr = RingPtr->HwHead; + RingPtr->HwCnt -= BdCount; + RingPtr->PostCnt += BdCount; + XEMACPS_RING_SEEKAHEAD(RingPtr, RingPtr->HwHead, BdCount); + Status = (BdCount); + } + else { + *BdSetPtr = NULL; + Status = 0U; + } +} + return Status; +} + + +/*****************************************************************************/ +/** + * Frees a set of BDs that had been previously retrieved with + * XEmacPs_BdRingFromHw(). + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param NumBd is the number of BDs to free. + * @param BdSetPtr is the head of a list of BDs returned by + * XEmacPs_BdRingFromHw(). + * + * @return + * - XST_SUCCESS if the set of BDs was freed. + * - XST_DMA_SG_LIST_ERROR if this function was called out of sequence with + * XEmacPs_BdRingFromHw(). + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +LONG XEmacPs_BdRingFree(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr) +{ + LONG Status; + /* if no bds to process, simply return. */ + if (0x00000000U == NumBd){ + Status = (LONG)(XST_SUCCESS); + } else { + /* Make sure we are in sync with XEmacPs_BdRingFromHw() */ + if ((RingPtr->PostCnt < NumBd) || (RingPtr->PostHead != BdSetPtr)) { + Status = (LONG)(XST_DMA_SG_LIST_ERROR); + } else { + /* Update pointers and counters */ + RingPtr->FreeCnt += NumBd; + RingPtr->PostCnt -= NumBd; + XEMACPS_RING_SEEKAHEAD(RingPtr, RingPtr->PostHead, NumBd); + Status = (LONG)(XST_SUCCESS); + } + } + return Status; +} + + +/*****************************************************************************/ +/** + * Check the internal data structures of the BD ring for the provided channel. + * The following checks are made: + * + * - Is the BD ring linked correctly in physical address space. + * - Do the internal pointers point to BDs in the ring. + * - Do the internal counters add up. + * + * The channel should be stopped prior to calling this function. + * + * @param RingPtr is a pointer to the instance to be worked on. + * @param Direction is either XEMACPS_SEND or XEMACPS_RECV that indicates + * which direction. + * + * @return + * - XST_SUCCESS if the set of BDs was freed. + * - XST_DMA_SG_NO_LIST if the list has not been created. + * - XST_IS_STARTED if the channel is not stopped. + * - XST_DMA_SG_LIST_ERROR if a problem is found with the internal data + * structures. If this value is returned, the channel should be reset to + * avoid data corruption or system instability. + * + * @note This function should not be preempted by another XEmacPs_Bd function + * call that modifies the BD space. It is the caller's responsibility to + * provide a mutual exclusion mechanism. + * + *****************************************************************************/ +LONG XEmacPs_BdRingCheck(XEmacPs_BdRing * RingPtr, u8 Direction) +{ + UINTPTR AddrV, AddrP; + u32 i; + + if ((Direction != (u8)XEMACPS_SEND) && (Direction != (u8)XEMACPS_RECV)) { + return (LONG)(XST_INVALID_PARAM); + } + + /* Is the list created */ + if (RingPtr->AllCnt == 0x00000000U) { + return (LONG)(XST_DMA_SG_NO_LIST); + } + + /* Can't check if channel is running */ + if (RingPtr->RunState == (u32)XST_DMA_SG_IS_STARTED) { + return (LONG)(XST_IS_STARTED); + } + + /* RunState doesn't make sense */ + if (RingPtr->RunState != (u32)XST_DMA_SG_IS_STOPPED) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + /* Verify internal pointers point to correct memory space */ + AddrV = (UINTPTR) RingPtr->FreeHead; + if ((AddrV < RingPtr->BaseBdAddr) || (AddrV > RingPtr->HighBdAddr)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + AddrV = (UINTPTR) RingPtr->PreHead; + if ((AddrV < RingPtr->BaseBdAddr) || (AddrV > RingPtr->HighBdAddr)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + AddrV = (UINTPTR) RingPtr->HwHead; + if ((AddrV < RingPtr->BaseBdAddr) || (AddrV > RingPtr->HighBdAddr)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + AddrV = (UINTPTR) RingPtr->HwTail; + if ((AddrV < RingPtr->BaseBdAddr) || (AddrV > RingPtr->HighBdAddr)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + AddrV = (UINTPTR) RingPtr->PostHead; + if ((AddrV < RingPtr->BaseBdAddr) || (AddrV > RingPtr->HighBdAddr)) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + /* Verify internal counters add up */ + if ((RingPtr->HwCnt + RingPtr->PreCnt + RingPtr->FreeCnt + + RingPtr->PostCnt) != RingPtr->AllCnt) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + /* Verify BDs are linked correctly */ + AddrV = RingPtr->BaseBdAddr; + AddrP = RingPtr->PhysBaseAddr + RingPtr->Separation; + + for (i = 1U; i < RingPtr->AllCnt; i++) { + /* Check BDA for this BD. It should point to next physical addr */ + if (XEmacPs_BdRead(AddrV, XEMACPS_BD_ADDR_OFFSET) != AddrP) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + + /* Move on to next BD */ + AddrV += RingPtr->Separation; + AddrP += RingPtr->Separation; + } + + /* Last BD should have wrap bit set */ + if (XEMACPS_SEND == Direction) { + if ((!XEmacPs_BdIsTxWrap(AddrV))==TRUE) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + } + else { /* XEMACPS_RECV */ + if ((!XEmacPs_BdIsRxWrap(AddrV))==TRUE) { + return (LONG)(XST_DMA_SG_LIST_ERROR); + } + } + + /* No problems found */ + return (LONG)(XST_SUCCESS); +} + +/*****************************************************************************/ +/** + * Set this bit to mark the last descriptor in the receive buffer descriptor + * list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetRxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +static void XEmacPs_BdSetRxWrap(UINTPTR BdPtr) +{ + u32 DataValueRx; + u32 *TempPtr; + + BdPtr += (u32)(XEMACPS_BD_ADDR_OFFSET); + TempPtr = (u32 *)BdPtr; + if(TempPtr != NULL) { + DataValueRx = *TempPtr; + DataValueRx |= XEMACPS_RXBUF_WRAP_MASK; + *TempPtr = DataValueRx; + } +} + +/*****************************************************************************/ +/** + * Sets this bit to mark the last descriptor in the transmit buffer + * descriptor list. + * + * @param BdPtr is the BD pointer to operate on + * + * @note + * C-style signature: + * void XEmacPs_BdSetTxWrap(XEmacPs_Bd* BdPtr) + * + *****************************************************************************/ +static void XEmacPs_BdSetTxWrap(UINTPTR BdPtr) +{ + u32 DataValueTx; + u32 *TempPtr; + + BdPtr += (u32)(XEMACPS_BD_STAT_OFFSET); + TempPtr = (u32 *)BdPtr; + if(TempPtr != NULL) { + DataValueTx = *TempPtr; + DataValueTx |= XEMACPS_TXBUF_WRAP_MASK; + *TempPtr = DataValueTx; + } +} + +/*****************************************************************************/ +/** + * Reset BD ring head and tail pointers. + * + * @param RingPtr is the instance to be worked on. + * @param virtaddrloc is the virtual base address of the user memory region. + * + * @note + * Should be called after XEmacPs_Stop() + * + * @note + * C-style signature: + * void XEmacPs_BdRingPtrReset(XEmacPs_BdRing * RingPtr, void *virtaddrloc) + * + *****************************************************************************/ +void XEmacPs_BdRingPtrReset(XEmacPs_BdRing * RingPtr, void *virtaddrloc) +{ + RingPtr->FreeHead = virtaddrloc; + RingPtr->PreHead = virtaddrloc; + RingPtr->HwHead = virtaddrloc; + RingPtr->HwTail = virtaddrloc; + RingPtr->PostHead = virtaddrloc; +} + +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.h new file mode 100644 index 0000000000..9d7331d6d9 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_bdring.h @@ -0,0 +1,215 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_bdring.h +* @addtogroup emacps_v3_11 +* @{ +* +* The Xiline EmacPs Buffer Descriptor ring driver. This is part of EmacPs +* DMA functionalities. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 First release
+* 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp architecture.
+* 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 3.6   rb   09/08/17 HwCnt variable (in XEmacPs_BdRing structure) is
+*		      changed to volatile.
+*
+* 
+* +******************************************************************************/ + +#ifndef XEMACPS_BDRING_H /* prevent curcular inclusions */ +#define XEMACPS_BDRING_H /* by using protection macros */ + +#ifdef __cplusplus +extern "C" { +#endif + + +/**************************** Type Definitions *******************************/ + +/** This is an internal structure used to maintain the DMA list */ +typedef struct { + UINTPTR PhysBaseAddr;/**< Physical address of 1st BD in list */ + UINTPTR BaseBdAddr; /**< Virtual address of 1st BD in list */ + UINTPTR HighBdAddr; /**< Virtual address of last BD in the list */ + u32 Length; /**< Total size of ring in bytes */ + u32 RunState; /**< Flag to indicate DMA is started */ + u32 Separation; /**< Number of bytes between the starting address + of adjacent BDs */ + XEmacPs_Bd *FreeHead; + /**< First BD in the free group */ + XEmacPs_Bd *PreHead;/**< First BD in the pre-work group */ + XEmacPs_Bd *HwHead; /**< First BD in the work group */ + XEmacPs_Bd *HwTail; /**< Last BD in the work group */ + XEmacPs_Bd *PostHead; + /**< First BD in the post-work group */ + XEmacPs_Bd *BdaRestart; + /**< BDA to load when channel is started */ + + volatile u32 HwCnt; /**< Number of BDs in work group */ + u32 PreCnt; /**< Number of BDs in pre-work group */ + u32 FreeCnt; /**< Number of allocatable BDs in the free group */ + u32 PostCnt; /**< Number of BDs in post-work group */ + u32 AllCnt; /**< Total Number of BDs for channel */ +} XEmacPs_BdRing; + + +/***************** Macros (Inline Functions) Definitions *********************/ + +/*****************************************************************************/ +/** +* Use this macro at initialization time to determine how many BDs will fit +* in a BD list within the given memory constraints. +* +* The results of this macro can be provided to XEmacPs_BdRingCreate(). +* +* @param Alignment specifies what byte alignment the BDs must fall on and +* must be a power of 2 to get an accurate calculation (32, 64, 128,...) +* @param Bytes is the number of bytes to be used to store BDs. +* +* @return Number of BDs that can fit in the given memory area +* +* @note +* C-style signature: +* u32 XEmacPs_BdRingCntCalc(u32 Alignment, u32 Bytes) +* +******************************************************************************/ +#define XEmacPs_BdRingCntCalc(Alignment, Bytes) \ + (u32)((Bytes) / (sizeof(XEmacPs_Bd))) + +/*****************************************************************************/ +/** +* Use this macro at initialization time to determine how many bytes of memory +* is required to contain a given number of BDs at a given alignment. +* +* @param Alignment specifies what byte alignment the BDs must fall on. This +* parameter must be a power of 2 to get an accurate calculation (32, 64, +* 128,...) +* @param NumBd is the number of BDs to calculate memory size requirements for +* +* @return The number of bytes of memory required to create a BD list with the +* given memory constraints. +* +* @note +* C-style signature: +* u32 XEmacPs_BdRingMemCalc(u32 Alignment, u32 NumBd) +* +******************************************************************************/ +#define XEmacPs_BdRingMemCalc(Alignment, NumBd) \ + (u32)(sizeof(XEmacPs_Bd) * (NumBd)) + +/****************************************************************************/ +/** +* Return the total number of BDs allocated by this channel with +* XEmacPs_BdRingCreate(). +* +* @param RingPtr is the DMA channel to operate on. +* +* @return The total number of BDs allocated for this channel. +* +* @note +* C-style signature: +* u32 XEmacPs_BdRingGetCnt(XEmacPs_BdRing* RingPtr) +* +*****************************************************************************/ +#define XEmacPs_BdRingGetCnt(RingPtr) ((RingPtr)->AllCnt) + +/****************************************************************************/ +/** +* Return the number of BDs allocatable with XEmacPs_BdRingAlloc() for pre- +* processing. +* +* @param RingPtr is the DMA channel to operate on. +* +* @return The number of BDs currently allocatable. +* +* @note +* C-style signature: +* u32 XEmacPs_BdRingGetFreeCnt(XEmacPs_BdRing* RingPtr) +* +*****************************************************************************/ +#define XEmacPs_BdRingGetFreeCnt(RingPtr) ((RingPtr)->FreeCnt) + +/****************************************************************************/ +/** +* Return the next BD from BdPtr in a list. +* +* @param RingPtr is the DMA channel to operate on. +* @param BdPtr is the BD to operate on. +* +* @return The next BD in the list relative to the BdPtr parameter. +* +* @note +* C-style signature: +* XEmacPs_Bd *XEmacPs_BdRingNext(XEmacPs_BdRing* RingPtr, +* XEmacPs_Bd *BdPtr) +* +*****************************************************************************/ +#define XEmacPs_BdRingNext(RingPtr, BdPtr) \ + (((UINTPTR)((void *)(BdPtr)) >= (RingPtr)->HighBdAddr) ? \ + (XEmacPs_Bd*)((void*)(RingPtr)->BaseBdAddr) : \ + (XEmacPs_Bd*)((UINTPTR)((void *)(BdPtr)) + (RingPtr)->Separation)) + +/****************************************************************************/ +/** +* Return the previous BD from BdPtr in the list. +* +* @param RingPtr is the DMA channel to operate on. +* @param BdPtr is the BD to operate on +* +* @return The previous BD in the list relative to the BdPtr parameter. +* +* @note +* C-style signature: +* XEmacPs_Bd *XEmacPs_BdRingPrev(XEmacPs_BdRing* RingPtr, +* XEmacPs_Bd *BdPtr) +* +*****************************************************************************/ +#define XEmacPs_BdRingPrev(RingPtr, BdPtr) \ + (((UINTPTR)(BdPtr) <= (RingPtr)->BaseBdAddr) ? \ + (XEmacPs_Bd*)(RingPtr)->HighBdAddr : \ + (XEmacPs_Bd*)((UINTPTR)(BdPtr) - (RingPtr)->Separation)) + +/************************** Function Prototypes ******************************/ + +/* + * Scatter gather DMA related functions in xemacps_bdring.c + */ +LONG XEmacPs_BdRingCreate(XEmacPs_BdRing * RingPtr, UINTPTR PhysAddr, + UINTPTR VirtAddr, u32 Alignment, u32 BdCount); +LONG XEmacPs_BdRingClone(XEmacPs_BdRing * RingPtr, XEmacPs_Bd * SrcBdPtr, + u8 Direction); +LONG XEmacPs_BdRingAlloc(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd ** BdSetPtr); +LONG XEmacPs_BdRingUnAlloc(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr); +LONG XEmacPs_BdRingToHw(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr); +LONG XEmacPs_BdRingFree(XEmacPs_BdRing * RingPtr, u32 NumBd, + XEmacPs_Bd * BdSetPtr); +u32 XEmacPs_BdRingFromHwTx(XEmacPs_BdRing * RingPtr, u32 BdLimit, + XEmacPs_Bd ** BdSetPtr); +u32 XEmacPs_BdRingFromHwRx(XEmacPs_BdRing * RingPtr, u32 BdLimit, + XEmacPs_Bd ** BdSetPtr); +LONG XEmacPs_BdRingCheck(XEmacPs_BdRing * RingPtr, u8 Direction); + +void XEmacPs_BdRingPtrReset(XEmacPs_BdRing * RingPtr, void *virtaddrloc); + +#ifdef __cplusplus +} +#endif + + +#endif /* end of protection macros */ +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_control.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_control.c new file mode 100644 index 0000000000..b9620c208b --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_control.c @@ -0,0 +1,1133 @@ +/****************************************************************************** +* Copyright (C) 2009 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** + * + * @file xemacps_control.c +* @addtogroup emacps_v3_11 +* @{ + * + * Functions in this file implement general purpose command and control related + * functionality. See xemacps.h for a detailed description of the driver. + * + *
+ * MODIFICATION HISTORY:
+ *
+ * Ver   Who  Date     Changes
+ * ----- ---- -------- -------------------------------------------------------
+ * 1.00a wsy  01/10/10 First release
+ * 1.02a asa  11/05/12 Added a new API for deleting an entry from the HASH
+ *					   register. Added a new API for setting the BURST length
+ *					   in DMACR register.
+ * 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp architecture.
+ * 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+ * 3.0   hk   02/20/15 Added support for jumbo frames.
+ * 3.2   hk   02/22/16 Added SGMII support for Zynq Ultrascale+ MPSoC.
+ * 
+ *****************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xemacps.h" + +/************************** Constant Definitions *****************************/ + + +/**************************** Type Definitions *******************************/ + + +/***************** Macros (Inline Functions) Definitions *********************/ + + +/************************** Function Prototypes ******************************/ + + +/************************** Variable Definitions *****************************/ + + +/*****************************************************************************/ +/** + * Set the MAC address for this driver/device. The address is a 48-bit value. + * The device must be stopped before calling this function. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param AddressPtr is a pointer to a 6-byte MAC address. + * @param Index is a index to which MAC (1-4) address. + * + * @return + * - XST_SUCCESS if the MAC address was set successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * + *****************************************************************************/ +LONG XEmacPs_SetMacAddress(XEmacPs *InstancePtr, void *AddressPtr, u8 Index) +{ + u32 MacAddr; + u8 *Aptr = (u8 *)(void *)AddressPtr; + u8 IndexLoc = Index; + LONG Status; + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(Aptr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + Xil_AssertNonvoid((IndexLoc <= (u8)XEMACPS_MAX_MAC_ADDR) && (IndexLoc > 0x00U)); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } + else{ + /* Index ranges 1 to 4, for offset calculation is 0 to 3. */ + IndexLoc--; + + /* Set the MAC bits [31:0] in BOT */ + MacAddr = *(Aptr); + MacAddr |= ((u32)(*(Aptr+1)) << 8U); + MacAddr |= ((u32)(*(Aptr+2)) << 16U); + MacAddr |= ((u32)(*(Aptr+3)) << 24U); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_LADDR1L_OFFSET + ((u32)IndexLoc * (u32)8)), MacAddr); + + /* There are reserved bits in TOP so don't affect them */ + MacAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_LADDR1H_OFFSET + ((u32)IndexLoc * (u32)8))); + + MacAddr &= (u32)(~XEMACPS_LADDR_MACH_MASK); + + /* Set MAC bits [47:32] in TOP */ + MacAddr |= (u32)(*(Aptr+4)); + MacAddr |= (u32)(*(Aptr+5)) << 8U; + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_LADDR1H_OFFSET + ((u32)IndexLoc * (u32)8)), MacAddr); + + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + + +/*****************************************************************************/ +/** + * Get the MAC address for this driver/device. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param AddressPtr is an output parameter, and is a pointer to a buffer into + * which the current MAC address will be copied. + * @param Index is a index to which MAC (1-4) address. + * + *****************************************************************************/ +void XEmacPs_GetMacAddress(XEmacPs *InstancePtr, void *AddressPtr, u8 Index) +{ + u32 MacAddr; + u8 *Aptr = (u8 *)(void *)AddressPtr; + u8 IndexLoc = Index; + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(Aptr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + Xil_AssertVoid((IndexLoc <= (u8)XEMACPS_MAX_MAC_ADDR) && (IndexLoc > 0x00U)); + + /* Index ranges 1 to 4, for offset calculation is 0 to 3. */ + IndexLoc--; + + MacAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_LADDR1L_OFFSET + ((u32)IndexLoc * (u32)8))); + *Aptr = (u8) MacAddr; + *(Aptr+1) = (u8) (MacAddr >> 8U); + *(Aptr+2) = (u8) (MacAddr >> 16U); + *(Aptr+3) = (u8) (MacAddr >> 24U); + + /* Read MAC bits [47:32] in TOP */ + MacAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_LADDR1H_OFFSET + ((u32)IndexLoc * (u32)8))); + *(Aptr+4) = (u8) MacAddr; + *(Aptr+5) = (u8) (MacAddr >> 8U); +} + + +/*****************************************************************************/ +/** + * Set 48-bit MAC addresses in hash table. + * The device must be stopped before calling this function. + * + * The hash address register is 64 bits long and takes up two locations in + * the memory map. The least significant bits are stored in hash register + * bottom and the most significant bits in hash register top. + * + * The unicast hash enable and the multicast hash enable bits in the network + * configuration register enable the reception of hash matched frames. The + * destination address is reduced to a 6 bit index into the 64 bit hash + * register using the following hash function. The hash function is an XOR + * of every sixth bit of the destination address. + * + *
+ * hash_index[05] = da[05]^da[11]^da[17]^da[23]^da[29]^da[35]^da[41]^da[47]
+ * hash_index[04] = da[04]^da[10]^da[16]^da[22]^da[28]^da[34]^da[40]^da[46]
+ * hash_index[03] = da[03]^da[09]^da[15]^da[21]^da[27]^da[33]^da[39]^da[45]
+ * hash_index[02] = da[02]^da[08]^da[14]^da[20]^da[26]^da[32]^da[38]^da[44]
+ * hash_index[01] = da[01]^da[07]^da[13]^da[19]^da[25]^da[31]^da[37]^da[43]
+ * hash_index[00] = da[00]^da[06]^da[12]^da[18]^da[24]^da[30]^da[36]^da[42]
+ * 
+ * + * da[0] represents the least significant bit of the first byte received, + * that is, the multicast/unicast indicator, and da[47] represents the most + * significant bit of the last byte received. + * + * If the hash index points to a bit that is set in the hash register then + * the frame will be matched according to whether the frame is multicast + * or unicast. + * + * A multicast match will be signaled if the multicast hash enable bit is + * set, da[0] is logic 1 and the hash index points to a bit set in the hash + * register. + * + * A unicast match will be signaled if the unicast hash enable bit is set, + * da[0] is logic 0 and the hash index points to a bit set in the hash + * register. + * + * To receive all multicast frames, the hash register should be set with + * all ones and the multicast hash enable bit should be set in the network + * configuration register. + * + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param AddressPtr is a pointer to a 6-byte MAC address. + * + * @return + * - XST_SUCCESS if the HASH MAC address was set successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * - XST_INVALID_PARAM if the HASH MAC address passed in does not meet + * requirement after calculation + * + * @note + * Having Aptr be unsigned type prevents the following operations from sign + * extending. + *****************************************************************************/ +LONG XEmacPs_SetHash(XEmacPs *InstancePtr, void *AddressPtr) +{ + u32 HashAddr; + u8 *Aptr = (u8 *)(void *)AddressPtr; + u8 Temp1, Temp2, Temp3, Temp4, Temp5, Temp6, Temp7, Temp8; + u32 Result; + LONG Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(AddressPtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } else { + Temp1 = (*(Aptr+0)) & 0x3FU; + Temp2 = ((*(Aptr+0) >> 6U) & 0x03U) | ((*(Aptr+1) & 0x0FU) << 2U); + + Temp3 = ((*(Aptr+1) >> 4U) & 0x0FU) | ((*(Aptr+2) & 0x3U) << 4U); + Temp4 = ((*(Aptr+2) >> 2U) & 0x3FU); + Temp5 = (*(Aptr+3)) & 0x3FU; + Temp6 = ((*(Aptr+3) >> 6U) & 0x03U) | ((*(Aptr+4) & 0x0FU) << 2U); + Temp7 = ((*(Aptr+4) >> 4U) & 0x0FU) | ((*(Aptr+5) & 0x03U) << 4U); + Temp8 = ((*(Aptr+5) >> 2U) & 0x3FU); + + Result = (u32)((u32)Temp1 ^ (u32)Temp2 ^ (u32)Temp3 ^ (u32)Temp4 ^ + (u32)Temp5 ^ (u32)Temp6 ^ (u32)Temp7 ^ (u32)Temp8); + + if (Result >= (u32)XEMACPS_MAX_HASH_BITS) { + Status = (LONG)(XST_INVALID_PARAM); + } else { + + if (Result < (u32)32) { + HashAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET); + HashAddr |= (u32)(0x00000001U << Result); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET, HashAddr); + } else { + HashAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET); + HashAddr |= (u32)(0x00000001U << (u32)(Result - (u32)32)); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET, HashAddr); + } + Status = (LONG)(XST_SUCCESS); + } + } + return Status; +} + +/*****************************************************************************/ +/** + * Delete 48-bit MAC addresses in hash table. + * The device must be stopped before calling this function. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param AddressPtr is a pointer to a 6-byte MAC address. + * + * @return + * - XST_SUCCESS if the HASH MAC address was deleted successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * - XST_INVALID_PARAM if the HASH MAC address passed in does not meet + * requirement after calculation + * + * @note + * Having Aptr be unsigned type prevents the following operations from sign + * extending. + *****************************************************************************/ +LONG XEmacPs_DeleteHash(XEmacPs *InstancePtr, void *AddressPtr) +{ + u32 HashAddr; + u8 *Aptr = (u8 *)(void *)AddressPtr; + u8 Temp1, Temp2, Temp3, Temp4, Temp5, Temp6, Temp7, Temp8; + u32 Result; + LONG Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(Aptr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } else { + Temp1 = (*(Aptr+0)) & 0x3FU; + Temp2 = ((*(Aptr+0) >> 6U) & 0x03U) | ((*(Aptr+1) & 0x0FU) << 2U); + Temp3 = ((*(Aptr+1) >> 4U) & 0x0FU) | ((*(Aptr+2) & 0x03U) << 4U); + Temp4 = ((*(Aptr+2) >> 2U) & 0x3FU); + Temp5 = (*(Aptr+3)) & 0x3FU; + Temp6 = ((*(Aptr+3) >> 6U) & 0x03U) | ((*(Aptr+4) & 0x0FU) << 2U); + Temp7 = ((*(Aptr+4) >> 4U) & 0x0FU) | ((*(Aptr+5) & 0x03U) << 4U); + Temp8 = ((*(Aptr+5) >> 2U) & 0x3FU); + + Result = (u32)((u32)Temp1 ^ (u32)Temp2 ^ (u32)Temp3 ^ (u32)Temp4 ^ + (u32)Temp5 ^ (u32)Temp6 ^ (u32)Temp7 ^ (u32)Temp8); + + if (Result >= (u32)(XEMACPS_MAX_HASH_BITS)) { + Status = (LONG)(XST_INVALID_PARAM); + } else { + if (Result < (u32)32) { + HashAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET); + HashAddr &= (u32)(~(0x00000001U << Result)); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET, HashAddr); + } else { + HashAddr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET); + HashAddr &= (u32)(~(0x00000001U << (u32)(Result - (u32)32))); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET, HashAddr); + } + Status = (LONG)(XST_SUCCESS); + } + } + return Status; +} +/*****************************************************************************/ +/** + * Clear the Hash registers for the mac address pointed by AddressPtr. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * + *****************************************************************************/ +void XEmacPs_ClearHash(XEmacPs *InstancePtr) +{ + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET, 0x0U); + + /* write bits [63:32] in TOP */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET, 0x0U); +} + + +/*****************************************************************************/ +/** + * Get the Hash address for this driver/device. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param AddressPtr is an output parameter, and is a pointer to a buffer into + * which the current HASH MAC address will be copied. + * + *****************************************************************************/ +void XEmacPs_GetHash(XEmacPs *InstancePtr, void *AddressPtr) +{ + u32 *Aptr = (u32 *)(void *)AddressPtr; + + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(AddressPtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + *(Aptr+0) = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHL_OFFSET); + + /* Read Hash bits [63:32] in TOP */ + *(Aptr+1) = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_HASHH_OFFSET); +} + + +/*****************************************************************************/ +/** + * Set the Type ID match for this driver/device. The register is a 32-bit + * value. The device must be stopped before calling this function. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param Id_Check is type ID to be configured. + * @param Index is a index to which Type ID (1-4). + * + * @return + * - XST_SUCCESS if the MAC address was set successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * + *****************************************************************************/ +LONG XEmacPs_SetTypeIdCheck(XEmacPs *InstancePtr, u32 Id_Check, u8 Index) +{ + u8 IndexLoc = Index; + LONG Status; + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + Xil_AssertNonvoid((IndexLoc <= (u8)XEMACPS_MAX_TYPE_ID) && (IndexLoc > 0x00U)); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } else { + + /* Index ranges 1 to 4, for offset calculation is 0 to 3. */ + IndexLoc--; + + /* Set the ID bits in MATCHx register */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + ((u32)XEMACPS_MATCH1_OFFSET + ((u32)IndexLoc * (u32)4)), Id_Check); + + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + +/*****************************************************************************/ +/** + * Set options for the driver/device. The driver should be stopped with + * XEmacPs_Stop() before changing options. + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param Options are the options to set. Multiple options can be set by OR'ing + * XTE_*_OPTIONS constants together. Options not specified are not + * affected. + * + * @return + * - XST_SUCCESS if the options were set successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * + * @note + * See xemacps.h for a description of the available options. + * + *****************************************************************************/ +LONG XEmacPs_SetOptions(XEmacPs *InstancePtr, u32 Options) +{ + u32 Reg; /* Generic register contents */ + u32 RegNetCfg; /* Reflects original contents of NET_CONFIG */ + u32 RegNewNetCfg; /* Reflects new contents of NET_CONFIG */ + LONG Status; + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } else { + + /* Many of these options will change the NET_CONFIG registers. + * To reduce the amount of IO to the device, group these options here + * and change them all at once. + */ + + /* Grab current register contents */ + RegNetCfg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + RegNewNetCfg = RegNetCfg; + + /* + * It is configured to max 1536. + */ + if ((Options & XEMACPS_FRAME1536_OPTION) != 0x00000000U) { + RegNewNetCfg |= (XEMACPS_NWCFG_1536RXEN_MASK); + } + + /* Turn on VLAN packet only, only VLAN tagged will be accepted */ + if ((Options & XEMACPS_VLAN_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_NVLANDISC_MASK; + } + + /* Turn on FCS stripping on receive packets */ + if ((Options & XEMACPS_FCS_STRIP_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_FCSREM_MASK; + } + + /* Turn on length/type field checking on receive packets */ + if ((Options & XEMACPS_LENTYPE_ERR_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_LENERRDSCRD_MASK; + } + + /* Turn on flow control */ + if ((Options & XEMACPS_FLOW_CONTROL_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_PAUSEEN_MASK; + } + + /* Turn on promiscuous frame filtering (all frames are received) */ + if ((Options & XEMACPS_PROMISC_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_COPYALLEN_MASK; + } + + /* Allow broadcast address reception */ + if ((Options & XEMACPS_BROADCAST_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_BCASTDI_MASK); + } + + /* Allow multicast address filtering */ + if ((Options & XEMACPS_MULTICAST_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_MCASTHASHEN_MASK; + } + + /* enable RX checksum offload */ + if ((Options & XEMACPS_RX_CHKSUM_ENABLE_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_RXCHKSUMEN_MASK; + } + + /* Enable jumbo frames */ + if (((Options & XEMACPS_JUMBO_ENABLE_OPTION) != 0x00000000U) && + (InstancePtr->Version > 2)) { + RegNewNetCfg |= XEMACPS_NWCFG_JUMBO_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_JUMBOMAXLEN_OFFSET, XEMACPS_RX_BUF_SIZE_JUMBO); + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + Reg &= ~XEMACPS_DMACR_RXBUF_MASK; + Reg |= (((((u32)XEMACPS_RX_BUF_SIZE_JUMBO / (u32)XEMACPS_RX_BUF_UNIT) + + (((((u32)XEMACPS_RX_BUF_SIZE_JUMBO % + (u32)XEMACPS_RX_BUF_UNIT))!=(u32)0) ? 1U : 0U)) << + (u32)(XEMACPS_DMACR_RXBUF_SHIFT)) & + (u32)(XEMACPS_DMACR_RXBUF_MASK)); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET, Reg); + InstancePtr->MaxMtuSize = XEMACPS_MTU_JUMBO; + InstancePtr->MaxFrameSize = XEMACPS_MTU_JUMBO + + XEMACPS_HDR_SIZE + XEMACPS_TRL_SIZE; + InstancePtr->MaxVlanFrameSize = InstancePtr->MaxFrameSize + + XEMACPS_HDR_VLAN_SIZE; + InstancePtr->RxBufMask = XEMACPS_RXBUF_LEN_JUMBO_MASK; + } + + if (((Options & XEMACPS_SGMII_ENABLE_OPTION) != 0x00000000U) && + (InstancePtr->Version > 2)) { + RegNewNetCfg |= (XEMACPS_NWCFG_SGMIIEN_MASK | + XEMACPS_NWCFG_PCSSEL_MASK); + } + + /* Officially change the NET_CONFIG registers if it needs to be + * modified. + */ + if (RegNetCfg != RegNewNetCfg) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET, RegNewNetCfg); + } + + /* Enable TX checksum offload */ + if ((Options & XEMACPS_TX_CHKSUM_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + Reg |= XEMACPS_DMACR_TCPCKSUM_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET, Reg); + } + + /* Enable transmitter */ + if ((Options & XEMACPS_TRANSMITTER_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg |= XEMACPS_NWCTRL_TXEN_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + } + + /* Enable receiver */ + if ((Options & XEMACPS_RECEIVER_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg |= XEMACPS_NWCTRL_RXEN_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + } + + /* The remaining options not handled here are managed elsewhere in the + * driver. No register modifications are needed at this time. Reflecting + * the option in InstancePtr->Options is good enough for now. + */ + + /* Set options word to its new value */ + InstancePtr->Options |= Options; + + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + + +/*****************************************************************************/ +/** + * Clear options for the driver/device + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param Options are the options to clear. Multiple options can be cleared by + * OR'ing XEMACPS_*_OPTIONS constants together. Options not specified + * are not affected. + * + * @return + * - XST_SUCCESS if the options were set successfully + * - XST_DEVICE_IS_STARTED if the device has not yet been stopped + * + * @note + * See xemacps.h for a description of the available options. + * + *****************************************************************************/ +LONG XEmacPs_ClearOptions(XEmacPs *InstancePtr, u32 Options) +{ + u32 Reg; /* Generic */ + u32 RegNetCfg; /* Reflects original contents of NET_CONFIG */ + u32 RegNewNetCfg; /* Reflects new contents of NET_CONFIG */ + LONG Status; + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Be sure device has been stopped */ + if (InstancePtr->IsStarted == (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STARTED); + } else { + + /* Many of these options will change the NET_CONFIG registers. + * To reduce the amount of IO to the device, group these options here + * and change them all at once. + */ + + /* Grab current register contents */ + RegNetCfg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + RegNewNetCfg = RegNetCfg; + + /* There is only RX configuration!? + * It is configured in two different length, up to 1536 and 10240 bytes + */ + if ((Options & XEMACPS_FRAME1536_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_1536RXEN_MASK); + } + + /* Turn off VLAN packet only */ + if ((Options & XEMACPS_VLAN_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_NVLANDISC_MASK); + } + + /* Turn off FCS stripping on receive packets */ + if ((Options & XEMACPS_FCS_STRIP_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_FCSREM_MASK); + } + + /* Turn off length/type field checking on receive packets */ + if ((Options & XEMACPS_LENTYPE_ERR_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_LENERRDSCRD_MASK); + } + + /* Turn off flow control */ + if ((Options & XEMACPS_FLOW_CONTROL_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_PAUSEEN_MASK); + } + + /* Turn off promiscuous frame filtering (all frames are received) */ + if ((Options & XEMACPS_PROMISC_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_COPYALLEN_MASK); + } + + /* Disallow broadcast address filtering => broadcast reception */ + if ((Options & XEMACPS_BROADCAST_OPTION) != 0x00000000U) { + RegNewNetCfg |= XEMACPS_NWCFG_BCASTDI_MASK; + } + + /* Disallow multicast address filtering */ + if ((Options & XEMACPS_MULTICAST_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_MCASTHASHEN_MASK); + } + + /* Disable RX checksum offload */ + if ((Options & XEMACPS_RX_CHKSUM_ENABLE_OPTION) != 0x00000000U) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_RXCHKSUMEN_MASK); + } + + /* Disable jumbo frames */ + if (((Options & XEMACPS_JUMBO_ENABLE_OPTION) != 0x00000000U) && + (InstancePtr->Version > 2)) { + RegNewNetCfg &= (u32)(~XEMACPS_NWCFG_JUMBO_MASK); + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + Reg &= ~XEMACPS_DMACR_RXBUF_MASK; + Reg |= (((((u32)XEMACPS_RX_BUF_SIZE / (u32)XEMACPS_RX_BUF_UNIT) + + (((((u32)XEMACPS_RX_BUF_SIZE % + (u32)XEMACPS_RX_BUF_UNIT))!=(u32)0) ? 1U : 0U)) << + (u32)(XEMACPS_DMACR_RXBUF_SHIFT)) & + (u32)(XEMACPS_DMACR_RXBUF_MASK)); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET, Reg); + InstancePtr->MaxMtuSize = XEMACPS_MTU; + InstancePtr->MaxFrameSize = XEMACPS_MTU + + XEMACPS_HDR_SIZE + XEMACPS_TRL_SIZE; + InstancePtr->MaxVlanFrameSize = InstancePtr->MaxFrameSize + + XEMACPS_HDR_VLAN_SIZE; + InstancePtr->RxBufMask = XEMACPS_RXBUF_LEN_MASK; + } + + if (((Options & XEMACPS_SGMII_ENABLE_OPTION) != 0x00000000U) && + (InstancePtr->Version > 2)) { + RegNewNetCfg &= (u32)(~(XEMACPS_NWCFG_SGMIIEN_MASK | + XEMACPS_NWCFG_PCSSEL_MASK)); + } + + /* Officially change the NET_CONFIG registers if it needs to be + * modified. + */ + if (RegNetCfg != RegNewNetCfg) { + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET, RegNewNetCfg); + } + + /* Disable TX checksum offload */ + if ((Options & XEMACPS_TX_CHKSUM_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + Reg &= (u32)(~XEMACPS_DMACR_TCPCKSUM_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET, Reg); + } + + /* Disable transmitter */ + if ((Options & XEMACPS_TRANSMITTER_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg &= (u32)(~XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + } + + /* Disable receiver */ + if ((Options & XEMACPS_RECEIVER_ENABLE_OPTION) != 0x00000000U) { + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg &= (u32)(~XEMACPS_NWCTRL_RXEN_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + } + + /* The remaining options not handled here are managed elsewhere in the + * driver. No register modifications are needed at this time. Reflecting + * option in InstancePtr->Options is good enough for now. + */ + + /* Set options word to its new value */ + InstancePtr->Options &= ~Options; + + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + + +/*****************************************************************************/ +/** + * Get current option settings + * + * @param InstancePtr is a pointer to the instance to be worked on. + * + * @return + * A bitmask of XTE_*_OPTION constants. Any bit set to 1 is to be interpreted + * as a set option. + * + * @note + * See xemacps.h for a description of the available options. + * + *****************************************************************************/ +u32 XEmacPs_GetOptions(XEmacPs *InstancePtr) +{ + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + return (InstancePtr->Options); +} + + +/*****************************************************************************/ +/** + * Send a pause packet + * + * @param InstancePtr is a pointer to the instance to be worked on. + * + * @return + * - XST_SUCCESS if pause frame transmission was initiated + * - XST_DEVICE_IS_STOPPED if the device has not been started. + * + *****************************************************************************/ +LONG XEmacPs_SendPausePacket(XEmacPs *InstancePtr) +{ + u32 Reg; + LONG Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* Make sure device is ready for this operation */ + if (InstancePtr->IsStarted != (u32)XIL_COMPONENT_IS_STARTED) { + Status = (LONG)(XST_DEVICE_IS_STOPPED); + } else { + /* Send flow control frame */ + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg |= XEMACPS_NWCTRL_PAUSETX_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + +/*****************************************************************************/ +/** + * XEmacPs_GetOperatingSpeed gets the current operating link speed. This may + * be the value set by XEmacPs_SetOperatingSpeed() or a hardware default. + * + * @param InstancePtr references the TEMAC channel on which to operate. + * + * @return XEmacPs_GetOperatingSpeed returns the link speed in units of + * megabits per second. + * + * @note + * + *****************************************************************************/ +u16 XEmacPs_GetOperatingSpeed(XEmacPs *InstancePtr) +{ + u32 Reg; + u16 Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + + if ((Reg & XEMACPS_NWCFG_1000_MASK) != 0x00000000U) { + Status = (u16)(1000); + } else { + if ((Reg & XEMACPS_NWCFG_100_MASK) != 0x00000000U) { + Status = (u16)(100); + } else { + Status = (u16)(10); + } + } + return Status; +} + + +/*****************************************************************************/ +/** + * XEmacPs_SetOperatingSpeed sets the current operating link speed. For any + * traffic to be passed, this speed must match the current MII/GMII/SGMII/RGMII + * link speed. + * + * @param InstancePtr references the TEMAC channel on which to operate. + * @param Speed is the speed to set in units of Mbps. Valid values are 10, 100, + * or 1000. XEmacPs_SetOperatingSpeed ignores invalid values. + * + * @note + * + *****************************************************************************/ +void XEmacPs_SetOperatingSpeed(XEmacPs *InstancePtr, u16 Speed) +{ + u32 Reg; + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + Xil_AssertVoid((Speed == (u16)10) || (Speed == (u16)100) || (Speed == (u16)1000)); + + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + Reg &= (u32)(~(XEMACPS_NWCFG_1000_MASK | XEMACPS_NWCFG_100_MASK)); + + switch (Speed) { + case (u16)10: + break; + + case (u16)100: + Reg |= XEMACPS_NWCFG_100_MASK; + break; + + case (u16)1000: + Reg |= XEMACPS_NWCFG_1000_MASK; + break; + } + + /* Set register and return */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET, Reg); +} + + +/*****************************************************************************/ +/** + * Set the MDIO clock divisor. + * + * Calculating the divisor: + * + *
+ *              f[HOSTCLK]
+ *   f[MDC] = -----------------
+ *            (1 + Divisor) * 2
+ * 
+ * + * where f[HOSTCLK] is the bus clock frequency in MHz, and f[MDC] is the + * MDIO clock frequency in MHz to the PHY. Typically, f[MDC] should not + * exceed 2.5 MHz. Some PHYs can tolerate faster speeds which means faster + * access. Here is the table to show values to generate MDC, + * + *
+ * 000 : divide pclk by   8 (pclk up to  20 MHz)
+ * 001 : divide pclk by  16 (pclk up to  40 MHz)
+ * 010 : divide pclk by  32 (pclk up to  80 MHz)
+ * 011 : divide pclk by  48 (pclk up to 120 MHz)
+ * 100 : divide pclk by  64 (pclk up to 160 MHz)
+ * 101 : divide pclk by  96 (pclk up to 240 MHz)
+ * 110 : divide pclk by 128 (pclk up to 320 MHz)
+ * 111 : divide pclk by 224 (pclk up to 540 MHz)
+ * 
+ * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param Divisor is the divisor to set. Range is 0b000 to 0b111. + * + *****************************************************************************/ +void XEmacPs_SetMdioDivisor(XEmacPs *InstancePtr, XEmacPs_MdcDiv Divisor) +{ + u32 Reg; + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + Xil_AssertVoid(Divisor <= (XEmacPs_MdcDiv)0x7); /* only last three bits are valid */ + + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET); + /* clear these three bits, could be done with mask */ + Reg &= (u32)(~XEMACPS_NWCFG_MDCCLKDIV_MASK); + + Reg |= ((u32)Divisor << XEMACPS_NWCFG_MDC_SHIFT_MASK); + + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCFG_OFFSET, Reg); +} + + +/*****************************************************************************/ +/** +* Read the current value of the PHY register indicated by the PhyAddress and +* the RegisterNum parameters. The MAC provides the driver with the ability to +* talk to a PHY that adheres to the Media Independent Interface (MII) as +* defined in the IEEE 802.3 standard. +* +* Prior to PHY access with this function, the user should have setup the MDIO +* clock with XEmacPs_SetMdioDivisor(). +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* @param PhyAddress is the address of the PHY to be read (supports multiple +* PHYs) +* @param RegisterNum is the register number, 0-31, of the specific PHY register +* to read +* @param PhyDataPtr is an output parameter, and points to a 16-bit buffer into +* which the current value of the register will be copied. +* +* @return +* +* - XST_SUCCESS if the PHY was read from successfully +* - XST_EMAC_MII_BUSY if there is another PHY operation in progress +* +* @note +* +* This function is not thread-safe. The user must provide mutually exclusive +* access to this function if there are to be multiple threads that can call it. +* +* There is the possibility that this function will not return if the hardware +* is broken (i.e., it never sets the status bit indicating that the read is +* done). If this is of concern to the user, the user should provide a mechanism +* suitable to their needs for recovery. +* +* For the duration of this function, all host interface reads and writes are +* blocked to the current XEmacPs instance. +* +******************************************************************************/ +LONG XEmacPs_PhyRead(XEmacPs *InstancePtr, u32 PhyAddress, + u32 RegisterNum, u16 *PhyDataPtr) +{ + u32 Mgtcr; + volatile u32 Ipisr; + u32 IpReadTemp; + LONG Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + + /* Make sure no other PHY operation is currently in progress */ + if ((!(XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWSR_OFFSET) & + XEMACPS_NWSR_MDIOIDLE_MASK))==TRUE) { + Status = (LONG)(XST_EMAC_MII_BUSY); + } else { + + /* Construct Mgtcr mask for the operation */ + Mgtcr = XEMACPS_PHYMNTNC_OP_MASK | XEMACPS_PHYMNTNC_OP_R_MASK | + (PhyAddress << XEMACPS_PHYMNTNC_PHAD_SHFT_MSK) | + (RegisterNum << XEMACPS_PHYMNTNC_PREG_SHFT_MSK); + + /* Write Mgtcr and wait for completion */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_PHYMNTNC_OFFSET, Mgtcr); + + do { + Ipisr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWSR_OFFSET); + IpReadTemp = Ipisr; + } while ((IpReadTemp & XEMACPS_NWSR_MDIOIDLE_MASK) == 0x00000000U); + + /* Read data */ + *PhyDataPtr = (u16)XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_PHYMNTNC_OFFSET); + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + + +/*****************************************************************************/ +/** +* Write data to the specified PHY register. The Ethernet driver does not +* require the device to be stopped before writing to the PHY. Although it is +* probably a good idea to stop the device, it is the responsibility of the +* application to deem this necessary. The MAC provides the driver with the +* ability to talk to a PHY that adheres to the Media Independent Interface +* (MII) as defined in the IEEE 802.3 standard. +* +* Prior to PHY access with this function, the user should have setup the MDIO +* clock with XEmacPs_SetMdioDivisor(). +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* @param PhyAddress is the address of the PHY to be written (supports multiple +* PHYs) +* @param RegisterNum is the register number, 0-31, of the specific PHY register +* to write +* @param PhyData is the 16-bit value that will be written to the register +* +* @return +* +* - XST_SUCCESS if the PHY was written to successfully. Since there is no error +* status from the MAC on a write, the user should read the PHY to verify the +* write was successful. +* - XST_EMAC_MII_BUSY if there is another PHY operation in progress +* +* @note +* +* This function is not thread-safe. The user must provide mutually exclusive +* access to this function if there are to be multiple threads that can call it. +* +* There is the possibility that this function will not return if the hardware +* is broken (i.e., it never sets the status bit indicating that the write is +* done). If this is of concern to the user, the user should provide a mechanism +* suitable to their needs for recovery. +* +* For the duration of this function, all host interface reads and writes are +* blocked to the current XEmacPs instance. +* +******************************************************************************/ +LONG XEmacPs_PhyWrite(XEmacPs *InstancePtr, u32 PhyAddress, + u32 RegisterNum, u16 PhyData) +{ + u32 Mgtcr; + volatile u32 Ipisr; + u32 IpWriteTemp; + LONG Status; + + Xil_AssertNonvoid(InstancePtr != NULL); + + /* Make sure no other PHY operation is currently in progress */ + if ((!(XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWSR_OFFSET) & + XEMACPS_NWSR_MDIOIDLE_MASK))==TRUE) { + Status = (LONG)(XST_EMAC_MII_BUSY); + } else { + /* Construct Mgtcr mask for the operation */ + Mgtcr = XEMACPS_PHYMNTNC_OP_MASK | XEMACPS_PHYMNTNC_OP_W_MASK | + (PhyAddress << XEMACPS_PHYMNTNC_PHAD_SHFT_MSK) | + (RegisterNum << XEMACPS_PHYMNTNC_PREG_SHFT_MSK) | (u32)PhyData; + + /* Write Mgtcr and wait for completion */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_PHYMNTNC_OFFSET, Mgtcr); + + do { + Ipisr = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWSR_OFFSET); + IpWriteTemp = Ipisr; + } while ((IpWriteTemp & XEMACPS_NWSR_MDIOIDLE_MASK) == 0x00000000U); + + Status = (LONG)(XST_SUCCESS); + } + return Status; +} + +/*****************************************************************************/ +/** +* API to update the Burst length in the DMACR register. +* +* @param InstancePtr is a pointer to the XEmacPs instance to be worked on. +* @param BLength is the length in bytes for the dma burst. +* +* @return None +* +******************************************************************************/ +void XEmacPs_DMABLengthUpdate(XEmacPs *InstancePtr, s32 BLength) +{ + u32 Reg; + u32 RegUpdateVal = 0; + + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid((BLength == XEMACPS_SINGLE_BURST) || + (BLength == XEMACPS_4BYTE_BURST) || + (BLength == XEMACPS_8BYTE_BURST) || + (BLength == XEMACPS_16BYTE_BURST)); + + switch (BLength) { + case XEMACPS_SINGLE_BURST: + RegUpdateVal = XEMACPS_DMACR_SINGLE_AHB_BURST; + break; + + case XEMACPS_4BYTE_BURST: + RegUpdateVal = XEMACPS_DMACR_INCR4_AHB_BURST; + break; + + case XEMACPS_8BYTE_BURST: + RegUpdateVal = XEMACPS_DMACR_INCR8_AHB_BURST; + break; + + case XEMACPS_16BYTE_BURST: + RegUpdateVal = XEMACPS_DMACR_INCR16_AHB_BURST; + break; + } + Reg = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + + Reg &= (u32)(~XEMACPS_DMACR_BLENGTH_MASK); + Reg |= RegUpdateVal; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_DMACR_OFFSET, + Reg); +} +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_g.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_g.c new file mode 100644 index 0000000000..7f725231af --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_g.c @@ -0,0 +1,32 @@ + +/******************************************************************* +* +* CAUTION: This file is automatically generated by HSI. +* Version: 2020.1 +* DO NOT EDIT. +* +* Copyright (C) 2010-2021 Xilinx, Inc. All Rights Reserved. +* SPDX-License-Identifier: MIT + +* +* Description: Driver configuration +* +*******************************************************************/ + +#include "xparameters.h" +#include "xemacps.h" + +/* +* The configuration table for devices +*/ + +XEmacPs_Config XEmacPs_ConfigTable[XPAR_XEMACPS_NUM_INSTANCES] = +{ + { + XPAR_PSU_ETHERNET_3_DEVICE_ID, + XPAR_PSU_ETHERNET_3_BASEADDR, + XPAR_PSU_ETHERNET_3_IS_CACHE_COHERENT + } +}; + + diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.c new file mode 100644 index 0000000000..3fa614b553 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.c @@ -0,0 +1,97 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_hw.c +* @addtogroup emacps_v3_11 +* @{ +* +* This file contains the implementation of the ethernet interface reset sequence +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.05a kpc  28/06/13 First release
+* 3.00  kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 
+* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xemacps_hw.h" +#include "xparameters.h" + +/************************** Constant Definitions *****************************/ + + +/**************************** Type Definitions *******************************/ + + +/***************** Macros (Inline Functions) Definitions *********************/ + + +/************************** Function Prototypes ******************************/ + +/*****************************************************************************/ +/** +* This function perform the reset sequence to the given emacps interface by +* configuring the appropriate control bits in the emacps specific registers. +* the emacps reset sequence involves the following steps +* Disable all the interuupts +* Clear the status registers +* Disable Rx and Tx engines +* Update the Tx and Rx descriptor queue registers with reset values +* Update the other relevant control registers with reset value +* +* @param BaseAddr of the interface +* +* @return N/A +* +* @note +* This function will not modify the slcr registers that are relevant for +* emacps controller +******************************************************************************/ +void XEmacPs_ResetHw(u32 BaseAddr) +{ + u32 RegVal; + + /* Disable the interrupts */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_IDR_OFFSET,0x0U); + + /* Stop transmission,disable loopback and Stop tx and Rx engines */ + RegVal = XEmacPs_ReadReg(BaseAddr,XEMACPS_NWCTRL_OFFSET); + RegVal &= ~((u32)XEMACPS_NWCTRL_TXEN_MASK| + (u32)XEMACPS_NWCTRL_RXEN_MASK| + (u32)XEMACPS_NWCTRL_HALTTX_MASK| + (u32)XEMACPS_NWCTRL_LOOPEN_MASK); + /* Clear the statistic registers, flush the packets in DPRAM*/ + RegVal |= (XEMACPS_NWCTRL_STATCLR_MASK| + XEMACPS_NWCTRL_FLUSH_DPRAM_MASK); + XEmacPs_WriteReg(BaseAddr,XEMACPS_NWCTRL_OFFSET,RegVal); + /* Clear the interrupt status */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_ISR_OFFSET,XEMACPS_IXR_ALL_MASK); + /* Clear the tx status */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_TXSR_OFFSET,(XEMACPS_TXSR_ERROR_MASK| + (u32)XEMACPS_TXSR_TXCOMPL_MASK| + (u32)XEMACPS_TXSR_TXGO_MASK)); + /* Clear the rx status */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_RXSR_OFFSET, + XEMACPS_RXSR_FRAMERX_MASK); + /* Clear the tx base address */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_TXQBASE_OFFSET,0x0U); + /* Clear the rx base address */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_RXQBASE_OFFSET,0x0U); + /* Update the network config register with reset value */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_NWCFG_OFFSET,XEMACPS_NWCFG_RESET_MASK); + /* Update the hash address registers with reset value */ + XEmacPs_WriteReg(BaseAddr,XEMACPS_HASHL_OFFSET,0x0U); + XEmacPs_WriteReg(BaseAddr,XEMACPS_HASHH_OFFSET,0x0U); +} +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.h new file mode 100644 index 0000000000..362acfdb7f --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_hw.h @@ -0,0 +1,646 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_hw.h +* @addtogroup emacps_v3_11 +* @{ +* +* This header file contains identifiers and low-level driver functions (or +* macros) that can be used to access the PS Ethernet MAC (XEmacPs) device. +* High-level driver functions are defined in xemacps.h. +* +* @note +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 First release.
+* 1.02a asa  11/05/12 Added hash defines for DMACR burst length configuration.
+* 1.05a kpc  28/06/13 Added XEmacPs_ResetHw function prototype
+* 1.06a asa  11/02/13 Changed the value for XEMACPS_RXBUF_LEN_MASK from 0x3fff
+*					  to 0x1fff. This fixes the CR#744902.
+* 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp GEM specification.
+* 3.0   kvn  12/16/14 Changed name of XEMACPS_NWCFG_LENGTHERRDSCRD_MASK to
+*					  XEMACPS_NWCFG_LENERRDSCRD_MASK as it exceeds 31 characters.
+* 3.0  kpc   1/23/15  Corrected the extended descriptor macro values.
+* 3.0  kvn   02/13/15 Modified code for MISRA-C:2012 compliance.
+* 3.0  hk   03/18/15 Added support for jumbo frames.
+*                    Remove "used bit set" from TX error interrupt masks.
+* 3.1  hk   08/10/15 Update upper 32 bit tx and rx queue ptr register offsets.
+* 3.2   hk   02/22/16 Added SGMII support for Zynq Ultrascale+ MPSoC.
+* 3.8  hk   09/17/18 Fix PTP interrupt masks.
+* 3.9  hk   01/23/19 Add RX watermark support
+* 3.10 hk   05/16/19 Clear status registers properly in reset
+* 
+* +******************************************************************************/ + +#ifndef XEMACPS_HW_H /* prevent circular inclusions */ +#define XEMACPS_HW_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xil_types.h" +#include "xil_assert.h" +#include "xil_io.h" + +#ifdef __cplusplus +extern "C" { +#endif + +/************************** Constant Definitions *****************************/ + +#define XEMACPS_MAX_MAC_ADDR 4U /**< Maxmum number of mac address + supported */ +#define XEMACPS_MAX_TYPE_ID 4U /**< Maxmum number of type id supported */ + +#ifdef __aarch64__ +#define XEMACPS_BD_ALIGNMENT 64U /**< Minimum buffer descriptor alignment + on the local bus */ +#else + +#define XEMACPS_BD_ALIGNMENT 4U /**< Minimum buffer descriptor alignment + on the local bus */ +#endif +#define XEMACPS_RX_BUF_ALIGNMENT 4U /**< Minimum buffer alignment when using + options that impose alignment + restrictions on the buffer data on + the local bus */ + +/** @name Direction identifiers + * + * These are used by several functions and callbacks that need + * to specify whether an operation specifies a send or receive channel. + * @{ + */ +#define XEMACPS_SEND 1U /**< send direction */ +#define XEMACPS_RECV 2U /**< receive direction */ +/*@}*/ + +/** @name MDC clock division + * currently supporting 8, 16, 32, 48, 64, 96, 128, 224. + * @{ + */ +typedef enum { MDC_DIV_8 = 0U, MDC_DIV_16, MDC_DIV_32, MDC_DIV_48, + MDC_DIV_64, MDC_DIV_96, MDC_DIV_128, MDC_DIV_224 +} XEmacPs_MdcDiv; + +/*@}*/ + +#define XEMACPS_RX_BUF_SIZE 1536U /**< Specify the receive buffer size in + bytes, 64, 128, ... 10240 */ +#define XEMACPS_RX_BUF_SIZE_JUMBO 10240U + +#define XEMACPS_RX_BUF_UNIT 64U /**< Number of receive buffer bytes as a + unit, this is HW setup */ + +#define XEMACPS_MAX_RXBD 128U /**< Size of RX buffer descriptor queues */ +#define XEMACPS_MAX_TXBD 128U /**< Size of TX buffer descriptor queues */ + +#define XEMACPS_MAX_HASH_BITS 64U /**< Maximum value for hash bits. 2**6 */ + +/* Register offset definitions. Unless otherwise noted, register access is + * 32 bit. Names are self explained here. + */ + +#define XEMACPS_NWCTRL_OFFSET 0x00000000U /**< Network Control reg */ +#define XEMACPS_NWCFG_OFFSET 0x00000004U /**< Network Config reg */ +#define XEMACPS_NWSR_OFFSET 0x00000008U /**< Network Status reg */ + +#define XEMACPS_DMACR_OFFSET 0x00000010U /**< DMA Control reg */ +#define XEMACPS_TXSR_OFFSET 0x00000014U /**< TX Status reg */ +#define XEMACPS_RXQBASE_OFFSET 0x00000018U /**< RX Q Base address reg */ +#define XEMACPS_TXQBASE_OFFSET 0x0000001CU /**< TX Q Base address reg */ +#define XEMACPS_RXSR_OFFSET 0x00000020U /**< RX Status reg */ + +#define XEMACPS_ISR_OFFSET 0x00000024U /**< Interrupt Status reg */ +#define XEMACPS_IER_OFFSET 0x00000028U /**< Interrupt Enable reg */ +#define XEMACPS_IDR_OFFSET 0x0000002CU /**< Interrupt Disable reg */ +#define XEMACPS_IMR_OFFSET 0x00000030U /**< Interrupt Mask reg */ + +#define XEMACPS_PHYMNTNC_OFFSET 0x00000034U /**< Phy Maintaince reg */ +#define XEMACPS_RXPAUSE_OFFSET 0x00000038U /**< RX Pause Time reg */ +#define XEMACPS_TXPAUSE_OFFSET 0x0000003CU /**< TX Pause Time reg */ + +#define XEMACPS_JUMBOMAXLEN_OFFSET 0x00000048U /**< Jumbo max length reg */ + +#define XEMACPS_RXWATERMARK_OFFSET 0x0000007CU /**< RX watermark reg */ + +#define XEMACPS_HASHL_OFFSET 0x00000080U /**< Hash Low address reg */ +#define XEMACPS_HASHH_OFFSET 0x00000084U /**< Hash High address reg */ + +#define XEMACPS_LADDR1L_OFFSET 0x00000088U /**< Specific1 addr low reg */ +#define XEMACPS_LADDR1H_OFFSET 0x0000008CU /**< Specific1 addr high reg */ +#define XEMACPS_LADDR2L_OFFSET 0x00000090U /**< Specific2 addr low reg */ +#define XEMACPS_LADDR2H_OFFSET 0x00000094U /**< Specific2 addr high reg */ +#define XEMACPS_LADDR3L_OFFSET 0x00000098U /**< Specific3 addr low reg */ +#define XEMACPS_LADDR3H_OFFSET 0x0000009CU /**< Specific3 addr high reg */ +#define XEMACPS_LADDR4L_OFFSET 0x000000A0U /**< Specific4 addr low reg */ +#define XEMACPS_LADDR4H_OFFSET 0x000000A4U /**< Specific4 addr high reg */ + +#define XEMACPS_MATCH1_OFFSET 0x000000A8U /**< Type ID1 Match reg */ +#define XEMACPS_MATCH2_OFFSET 0x000000ACU /**< Type ID2 Match reg */ +#define XEMACPS_MATCH3_OFFSET 0x000000B0U /**< Type ID3 Match reg */ +#define XEMACPS_MATCH4_OFFSET 0x000000B4U /**< Type ID4 Match reg */ + +#define XEMACPS_STRETCH_OFFSET 0x000000BCU /**< IPG Stretch reg */ + +#define XEMACPS_OCTTXL_OFFSET 0x00000100U /**< Octects transmitted Low + reg */ +#define XEMACPS_OCTTXH_OFFSET 0x00000104U /**< Octects transmitted High + reg */ + +#define XEMACPS_TXCNT_OFFSET 0x00000108U /**< Error-free Frmaes + transmitted counter */ +#define XEMACPS_TXBCCNT_OFFSET 0x0000010CU /**< Error-free Broadcast + Frames counter*/ +#define XEMACPS_TXMCCNT_OFFSET 0x00000110U /**< Error-free Multicast + Frame counter */ +#define XEMACPS_TXPAUSECNT_OFFSET 0x00000114U /**< Pause Frames Transmitted + Counter */ +#define XEMACPS_TX64CNT_OFFSET 0x00000118U /**< Error-free 64 byte Frames + Transmitted counter */ +#define XEMACPS_TX65CNT_OFFSET 0x0000011CU /**< Error-free 65-127 byte + Frames Transmitted + counter */ +#define XEMACPS_TX128CNT_OFFSET 0x00000120U /**< Error-free 128-255 byte + Frames Transmitted + counter*/ +#define XEMACPS_TX256CNT_OFFSET 0x00000124U /**< Error-free 256-511 byte + Frames transmitted + counter */ +#define XEMACPS_TX512CNT_OFFSET 0x00000128U /**< Error-free 512-1023 byte + Frames transmitted + counter */ +#define XEMACPS_TX1024CNT_OFFSET 0x0000012CU /**< Error-free 1024-1518 byte + Frames transmitted + counter */ +#define XEMACPS_TX1519CNT_OFFSET 0x00000130U /**< Error-free larger than + 1519 byte Frames + transmitted counter */ +#define XEMACPS_TXURUNCNT_OFFSET 0x00000134U /**< TX under run error + counter */ + +#define XEMACPS_SNGLCOLLCNT_OFFSET 0x00000138U /**< Single Collision Frame + Counter */ +#define XEMACPS_MULTICOLLCNT_OFFSET 0x0000013CU /**< Multiple Collision Frame + Counter */ +#define XEMACPS_EXCESSCOLLCNT_OFFSET 0x00000140U /**< Excessive Collision Frame + Counter */ +#define XEMACPS_LATECOLLCNT_OFFSET 0x00000144U /**< Late Collision Frame + Counter */ +#define XEMACPS_TXDEFERCNT_OFFSET 0x00000148U /**< Deferred Transmission + Frame Counter */ +#define XEMACPS_TXCSENSECNT_OFFSET 0x0000014CU /**< Transmit Carrier Sense + Error Counter */ + +#define XEMACPS_OCTRXL_OFFSET 0x00000150U /**< Octects Received register + Low */ +#define XEMACPS_OCTRXH_OFFSET 0x00000154U /**< Octects Received register + High */ + +#define XEMACPS_RXCNT_OFFSET 0x00000158U /**< Error-free Frames + Received Counter */ +#define XEMACPS_RXBROADCNT_OFFSET 0x0000015CU /**< Error-free Broadcast + Frames Received Counter */ +#define XEMACPS_RXMULTICNT_OFFSET 0x00000160U /**< Error-free Multicast + Frames Received Counter */ +#define XEMACPS_RXPAUSECNT_OFFSET 0x00000164U /**< Pause Frames + Received Counter */ +#define XEMACPS_RX64CNT_OFFSET 0x00000168U /**< Error-free 64 byte Frames + Received Counter */ +#define XEMACPS_RX65CNT_OFFSET 0x0000016CU /**< Error-free 65-127 byte + Frames Received Counter */ +#define XEMACPS_RX128CNT_OFFSET 0x00000170U /**< Error-free 128-255 byte + Frames Received Counter */ +#define XEMACPS_RX256CNT_OFFSET 0x00000174U /**< Error-free 256-512 byte + Frames Received Counter */ +#define XEMACPS_RX512CNT_OFFSET 0x00000178U /**< Error-free 512-1023 byte + Frames Received Counter */ +#define XEMACPS_RX1024CNT_OFFSET 0x0000017CU /**< Error-free 1024-1518 byte + Frames Received Counter */ +#define XEMACPS_RX1519CNT_OFFSET 0x00000180U /**< Error-free 1519-max byte + Frames Received Counter */ +#define XEMACPS_RXUNDRCNT_OFFSET 0x00000184U /**< Undersize Frames Received + Counter */ +#define XEMACPS_RXOVRCNT_OFFSET 0x00000188U /**< Oversize Frames Received + Counter */ +#define XEMACPS_RXJABCNT_OFFSET 0x0000018CU /**< Jabbers Received + Counter */ +#define XEMACPS_RXFCSCNT_OFFSET 0x00000190U /**< Frame Check Sequence + Error Counter */ +#define XEMACPS_RXLENGTHCNT_OFFSET 0x00000194U /**< Length Field Error + Counter */ +#define XEMACPS_RXSYMBCNT_OFFSET 0x00000198U /**< Symbol Error Counter */ +#define XEMACPS_RXALIGNCNT_OFFSET 0x0000019CU /**< Alignment Error Counter */ +#define XEMACPS_RXRESERRCNT_OFFSET 0x000001A0U /**< Receive Resource Error + Counter */ +#define XEMACPS_RXORCNT_OFFSET 0x000001A4U /**< Receive Overrun Counter */ +#define XEMACPS_RXIPCCNT_OFFSET 0x000001A8U /**< IP header Checksum Error + Counter */ +#define XEMACPS_RXTCPCCNT_OFFSET 0x000001ACU /**< TCP Checksum Error + Counter */ +#define XEMACPS_RXUDPCCNT_OFFSET 0x000001B0U /**< UDP Checksum Error + Counter */ +#define XEMACPS_LAST_OFFSET 0x000001B4U /**< Last statistic counter + offset, for clearing */ + +#define XEMACPS_1588_SEC_OFFSET 0x000001D0U /**< 1588 second counter */ +#define XEMACPS_1588_NANOSEC_OFFSET 0x000001D4U /**< 1588 nanosecond counter */ +#define XEMACPS_1588_ADJ_OFFSET 0x000001D8U /**< 1588 nanosecond + adjustment counter */ +#define XEMACPS_1588_INC_OFFSET 0x000001DCU /**< 1588 nanosecond + increment counter */ +#define XEMACPS_PTP_TXSEC_OFFSET 0x000001E0U /**< 1588 PTP transmit second + counter */ +#define XEMACPS_PTP_TXNANOSEC_OFFSET 0x000001E4U /**< 1588 PTP transmit + nanosecond counter */ +#define XEMACPS_PTP_RXSEC_OFFSET 0x000001E8U /**< 1588 PTP receive second + counter */ +#define XEMACPS_PTP_RXNANOSEC_OFFSET 0x000001ECU /**< 1588 PTP receive + nanosecond counter */ +#define XEMACPS_PTPP_TXSEC_OFFSET 0x000001F0U /**< 1588 PTP peer transmit + second counter */ +#define XEMACPS_PTPP_TXNANOSEC_OFFSET 0x000001F4U /**< 1588 PTP peer transmit + nanosecond counter */ +#define XEMACPS_PTPP_RXSEC_OFFSET 0x000001F8U /**< 1588 PTP peer receive + second counter */ +#define XEMACPS_PTPP_RXNANOSEC_OFFSET 0x000001FCU /**< 1588 PTP peer receive + nanosecond counter */ + +#define XEMACPS_INTQ1_STS_OFFSET 0x00000400U /**< Interrupt Q1 Status + reg */ +#define XEMACPS_TXQ1BASE_OFFSET 0x00000440U /**< TX Q1 Base address + reg */ +#define XEMACPS_RXQ1BASE_OFFSET 0x00000480U /**< RX Q1 Base address + reg */ +#define XEMACPS_MSBBUF_TXQBASE_OFFSET 0x000004C8U /**< MSB Buffer TX Q Base + reg */ +#define XEMACPS_MSBBUF_RXQBASE_OFFSET 0x000004D4U /**< MSB Buffer RX Q Base + reg */ +#define XEMACPS_INTQ1_IER_OFFSET 0x00000600U /**< Interrupt Q1 Enable + reg */ +#define XEMACPS_INTQ1_IDR_OFFSET 0x00000620U /**< Interrupt Q1 Disable + reg */ +#define XEMACPS_INTQ1_IMR_OFFSET 0x00000640U /**< Interrupt Q1 Mask + reg */ + +/* Define some bit positions for registers. */ + +/** @name network control register bit definitions + * @{ + */ +#define XEMACPS_NWCTRL_FLUSH_DPRAM_MASK 0x00040000U /**< Flush a packet from + Rx SRAM */ +#define XEMACPS_NWCTRL_ZEROPAUSETX_MASK 0x00000800U /**< Transmit zero quantum + pause frame */ +#define XEMACPS_NWCTRL_PAUSETX_MASK 0x00000800U /**< Transmit pause frame */ +#define XEMACPS_NWCTRL_HALTTX_MASK 0x00000400U /**< Halt transmission + after current frame */ +#define XEMACPS_NWCTRL_STARTTX_MASK 0x00000200U /**< Start tx (tx_go) */ + +#define XEMACPS_NWCTRL_STATWEN_MASK 0x00000080U /**< Enable writing to + stat counters */ +#define XEMACPS_NWCTRL_STATINC_MASK 0x00000040U /**< Increment statistic + registers */ +#define XEMACPS_NWCTRL_STATCLR_MASK 0x00000020U /**< Clear statistic + registers */ +#define XEMACPS_NWCTRL_MDEN_MASK 0x00000010U /**< Enable MDIO port */ +#define XEMACPS_NWCTRL_TXEN_MASK 0x00000008U /**< Enable transmit */ +#define XEMACPS_NWCTRL_RXEN_MASK 0x00000004U /**< Enable receive */ +#define XEMACPS_NWCTRL_LOOPEN_MASK 0x00000002U /**< local loopback */ +/*@}*/ + +/** @name network configuration register bit definitions + * @{ + */ +#define XEMACPS_NWCFG_BADPREAMBEN_MASK 0x20000000U /**< disable rejection of + non-standard preamble */ +#define XEMACPS_NWCFG_IPDSTRETCH_MASK 0x10000000U /**< enable transmit IPG */ +#define XEMACPS_NWCFG_SGMIIEN_MASK 0x08000000U /**< SGMII Enable */ +#define XEMACPS_NWCFG_FCSIGNORE_MASK 0x04000000U /**< disable rejection of + FCS error */ +#define XEMACPS_NWCFG_HDRXEN_MASK 0x02000000U /**< RX half duplex */ +#define XEMACPS_NWCFG_RXCHKSUMEN_MASK 0x01000000U /**< enable RX checksum + offload */ +#define XEMACPS_NWCFG_PAUSECOPYDI_MASK 0x00800000U /**< Do not copy pause + Frames to memory */ +#define XEMACPS_NWCFG_DWIDTH_64_MASK 0x00200000U /**< 64 bit Data bus width */ +#define XEMACPS_NWCFG_MDC_SHIFT_MASK 18U /**< shift bits for MDC */ +#define XEMACPS_NWCFG_MDCCLKDIV_MASK 0x001C0000U /**< MDC Mask PCLK divisor */ +#define XEMACPS_NWCFG_FCSREM_MASK 0x00020000U /**< Discard FCS from + received frames */ +#define XEMACPS_NWCFG_LENERRDSCRD_MASK 0x00010000U +/**< RX length error discard */ +#define XEMACPS_NWCFG_RXOFFS_MASK 0x0000C000U /**< RX buffer offset */ +#define XEMACPS_NWCFG_PAUSEEN_MASK 0x00002000U /**< Enable pause RX */ +#define XEMACPS_NWCFG_RETRYTESTEN_MASK 0x00001000U /**< Retry test */ +#define XEMACPS_NWCFG_XTADDMACHEN_MASK 0x00000200U +/**< External address match enable */ +#define XEMACPS_NWCFG_PCSSEL_MASK 0x00000800U /**< PCS Select */ +#define XEMACPS_NWCFG_1000_MASK 0x00000400U /**< 1000 Mbps */ +#define XEMACPS_NWCFG_1536RXEN_MASK 0x00000100U /**< Enable 1536 byte + frames reception */ +#define XEMACPS_NWCFG_UCASTHASHEN_MASK 0x00000080U /**< Receive unicast hash + frames */ +#define XEMACPS_NWCFG_MCASTHASHEN_MASK 0x00000040U /**< Receive multicast hash + frames */ +#define XEMACPS_NWCFG_BCASTDI_MASK 0x00000020U /**< Do not receive + broadcast frames */ +#define XEMACPS_NWCFG_COPYALLEN_MASK 0x00000010U /**< Copy all frames */ +#define XEMACPS_NWCFG_JUMBO_MASK 0x00000008U /**< Jumbo frames */ +#define XEMACPS_NWCFG_NVLANDISC_MASK 0x00000004U /**< Receive only VLAN + frames */ +#define XEMACPS_NWCFG_FDEN_MASK 0x00000002U/**< full duplex */ +#define XEMACPS_NWCFG_100_MASK 0x00000001U /**< 100 Mbps */ +#define XEMACPS_NWCFG_RESET_MASK 0x00080000U/**< reset value */ +/*@}*/ + +/** @name network status register bit definitaions + * @{ + */ +#define XEMACPS_NWSR_MDIOIDLE_MASK 0x00000004U /**< PHY management idle */ +#define XEMACPS_NWSR_MDIO_MASK 0x00000002U /**< Status of mdio_in */ +/*@}*/ + + +/** @name MAC address register word 1 mask + * @{ + */ +#define XEMACPS_LADDR_MACH_MASK 0x0000FFFFU /**< Address bits[47:32] + bit[31:0] are in BOTTOM */ +/*@}*/ + + +/** @name DMA control register bit definitions + * @{ + */ +#define XEMACPS_DMACR_ADDR_WIDTH_64 0x40000000U /**< 64 bit address bus */ +#define XEMACPS_DMACR_TXEXTEND_MASK 0x20000000U /**< Tx Extended desc mode */ +#define XEMACPS_DMACR_RXEXTEND_MASK 0x10000000U /**< Rx Extended desc mode */ +#define XEMACPS_DMACR_RXBUF_MASK 0x00FF0000U /**< Mask bit for RX buffer + size */ +#define XEMACPS_DMACR_RXBUF_SHIFT 16U /**< Shift bit for RX buffer + size */ +#define XEMACPS_DMACR_TCPCKSUM_MASK 0x00000800U /**< enable/disable TX + checksum offload */ +#define XEMACPS_DMACR_TXSIZE_MASK 0x00000400U /**< TX buffer memory size */ +#define XEMACPS_DMACR_RXSIZE_MASK 0x00000300U /**< RX buffer memory size */ +#define XEMACPS_DMACR_ENDIAN_MASK 0x00000080U /**< endian configuration */ +#define XEMACPS_DMACR_BLENGTH_MASK 0x0000001FU /**< buffer burst length */ +#define XEMACPS_DMACR_SINGLE_AHB_BURST 0x00000001U /**< single AHB bursts */ +#define XEMACPS_DMACR_INCR4_AHB_BURST 0x00000004U /**< 4 bytes AHB bursts */ +#define XEMACPS_DMACR_INCR8_AHB_BURST 0x00000008U /**< 8 bytes AHB bursts */ +#define XEMACPS_DMACR_INCR16_AHB_BURST 0x00000010U /**< 16 bytes AHB bursts */ +/*@}*/ + +/** @name transmit status register bit definitions + * @{ + */ +#define XEMACPS_TXSR_HRESPNOK_MASK 0x00000100U /**< Transmit hresp not OK */ +#define XEMACPS_TXSR_URUN_MASK 0x00000040U /**< Transmit underrun */ +#define XEMACPS_TXSR_TXCOMPL_MASK 0x00000020U /**< Transmit completed OK */ +#define XEMACPS_TXSR_BUFEXH_MASK 0x00000010U /**< Transmit buffs exhausted + mid frame */ +#define XEMACPS_TXSR_TXGO_MASK 0x00000008U /**< Status of go flag */ +#define XEMACPS_TXSR_RXOVR_MASK 0x00000004U /**< Retry limit exceeded */ +#define XEMACPS_TXSR_FRAMERX_MASK 0x00000002U /**< Collision tx frame */ +#define XEMACPS_TXSR_USEDREAD_MASK 0x00000001U /**< TX buffer used bit set */ + +#define XEMACPS_TXSR_ERROR_MASK ((u32)XEMACPS_TXSR_HRESPNOK_MASK | \ + (u32)XEMACPS_TXSR_URUN_MASK | \ + (u32)XEMACPS_TXSR_BUFEXH_MASK | \ + (u32)XEMACPS_TXSR_RXOVR_MASK | \ + (u32)XEMACPS_TXSR_FRAMERX_MASK | \ + (u32)XEMACPS_TXSR_USEDREAD_MASK) +/*@}*/ + +/** + * @name receive status register bit definitions + * @{ + */ +#define XEMACPS_RXSR_HRESPNOK_MASK 0x00000008U /**< Receive hresp not OK */ +#define XEMACPS_RXSR_RXOVR_MASK 0x00000004U /**< Receive overrun */ +#define XEMACPS_RXSR_FRAMERX_MASK 0x00000002U /**< Frame received OK */ +#define XEMACPS_RXSR_BUFFNA_MASK 0x00000001U /**< RX buffer used bit set */ + +#define XEMACPS_RXSR_ERROR_MASK ((u32)XEMACPS_RXSR_HRESPNOK_MASK | \ + (u32)XEMACPS_RXSR_RXOVR_MASK | \ + (u32)XEMACPS_RXSR_BUFFNA_MASK) + +#define XEMACPS_SR_ALL_MASK 0xFFFFFFFFU /**< Mask for full register */ + +/*@}*/ + +/** + * @name Interrupt Q1 status register bit definitions + * @{ + */ +#define XEMACPS_INTQ1SR_TXCOMPL_MASK 0x00000080U /**< Transmit completed OK */ +#define XEMACPS_INTQ1SR_TXERR_MASK 0x00000040U /**< Transmit AMBA Error */ + +#define XEMACPS_INTQ1_IXR_ALL_MASK ((u32)XEMACPS_INTQ1SR_TXCOMPL_MASK | \ + (u32)XEMACPS_INTQ1SR_TXERR_MASK) + +/*@}*/ + +/** + * @name interrupts bit definitions + * Bits definitions are same in XEMACPS_ISR_OFFSET, + * XEMACPS_IER_OFFSET, XEMACPS_IDR_OFFSET, and XEMACPS_IMR_OFFSET + * @{ + */ +#define XEMACPS_IXR_PTPPSTX_MASK 0x02000000U /**< PTP Pdelay_resp TXed */ +#define XEMACPS_IXR_PTPPDRTX_MASK 0x01000000U /**< PTP Pdelay_req TXed */ +#define XEMACPS_IXR_PTPPSRX_MASK 0x00800000U /**< PTP Pdelay_resp RXed */ +#define XEMACPS_IXR_PTPPDRRX_MASK 0x00400000U /**< PTP Pdelay_req RXed */ + +#define XEMACPS_IXR_PTPSTX_MASK 0x00200000U /**< PTP Sync TXed */ +#define XEMACPS_IXR_PTPDRTX_MASK 0x00100000U /**< PTP Delay_req TXed */ +#define XEMACPS_IXR_PTPSRX_MASK 0x00080000U /**< PTP Sync RXed */ +#define XEMACPS_IXR_PTPDRRX_MASK 0x00040000U /**< PTP Delay_req RXed */ + +#define XEMACPS_IXR_PAUSETX_MASK 0x00004000U /**< Pause frame transmitted */ +#define XEMACPS_IXR_PAUSEZERO_MASK 0x00002000U /**< Pause time has reached + zero */ +#define XEMACPS_IXR_PAUSENZERO_MASK 0x00001000U /**< Pause frame received */ +#define XEMACPS_IXR_HRESPNOK_MASK 0x00000800U /**< hresp not ok */ +#define XEMACPS_IXR_RXOVR_MASK 0x00000400U /**< Receive overrun occurred */ +#define XEMACPS_IXR_TXCOMPL_MASK 0x00000080U /**< Frame transmitted ok */ +#define XEMACPS_IXR_TXEXH_MASK 0x00000040U /**< Transmit err occurred or + no buffers*/ +#define XEMACPS_IXR_RETRY_MASK 0x00000020U /**< Retry limit exceeded */ +#define XEMACPS_IXR_URUN_MASK 0x00000010U /**< Transmit underrun */ +#define XEMACPS_IXR_TXUSED_MASK 0x00000008U /**< Tx buffer used bit read */ +#define XEMACPS_IXR_RXUSED_MASK 0x00000004U /**< Rx buffer used bit read */ +#define XEMACPS_IXR_FRAMERX_MASK 0x00000002U /**< Frame received ok */ +#define XEMACPS_IXR_MGMNT_MASK 0x00000001U /**< PHY management complete */ +#define XEMACPS_IXR_ALL_MASK 0x00007FFFU /**< Everything! */ + +#define XEMACPS_IXR_TX_ERR_MASK ((u32)XEMACPS_IXR_TXEXH_MASK | \ + (u32)XEMACPS_IXR_RETRY_MASK | \ + (u32)XEMACPS_IXR_URUN_MASK) + + +#define XEMACPS_IXR_RX_ERR_MASK ((u32)XEMACPS_IXR_HRESPNOK_MASK | \ + (u32)XEMACPS_IXR_RXUSED_MASK | \ + (u32)XEMACPS_IXR_RXOVR_MASK) + +/*@}*/ + +/** @name PHY Maintenance bit definitions + * @{ + */ +#define XEMACPS_PHYMNTNC_OP_MASK 0x40020000U /**< operation mask bits */ +#define XEMACPS_PHYMNTNC_OP_R_MASK 0x20000000U /**< read operation */ +#define XEMACPS_PHYMNTNC_OP_W_MASK 0x10000000U /**< write operation */ +#define XEMACPS_PHYMNTNC_ADDR_MASK 0x0F800000U /**< Address bits */ +#define XEMACPS_PHYMNTNC_REG_MASK 0x007C0000U /**< register bits */ +#define XEMACPS_PHYMNTNC_DATA_MASK 0x00000FFFU /**< data bits */ +#define XEMACPS_PHYMNTNC_PHAD_SHFT_MSK 23U /**< Shift bits for PHYAD */ +#define XEMACPS_PHYMNTNC_PREG_SHFT_MSK 18U /**< Shift bits for PHREG */ +/*@}*/ + +/** @name RX watermark bit definitions + * @{ + */ +#define XEMACPS_RXWM_HIGH_MASK 0x0000FFFFU /**< RXWM high mask */ +#define XEMACPS_RXWM_LOW_MASK 0xFFFF0000U /**< RXWM low mask */ +#define XEMACPS_RXWM_LOW_SHFT_MSK 16U /**< Shift for RXWM low */ +/*@}*/ + +/* Transmit buffer descriptor status words offset + * @{ + */ +#define XEMACPS_BD_ADDR_OFFSET 0x00000000U /**< word 0/addr of BDs */ +#define XEMACPS_BD_STAT_OFFSET 0x00000004U /**< word 1/status of BDs */ +#define XEMACPS_BD_ADDR_HI_OFFSET 0x00000008U /**< word 2/addr of BDs */ + +/* + * @} + */ + +/* Transmit buffer descriptor status words bit positions. + * Transmit buffer descriptor consists of two 32-bit registers, + * the first - word0 contains a 32-bit address pointing to the location of + * the transmit data. + * The following register - word1, consists of various information to control + * the XEmacPs transmit process. After transmit, this is updated with status + * information, whether the frame was transmitted OK or why it had failed. + * @{ + */ +#define XEMACPS_TXBUF_USED_MASK 0x80000000U /**< Used bit. */ +#define XEMACPS_TXBUF_WRAP_MASK 0x40000000U /**< Wrap bit, last descriptor */ +#define XEMACPS_TXBUF_RETRY_MASK 0x20000000U /**< Retry limit exceeded */ +#define XEMACPS_TXBUF_URUN_MASK 0x10000000U /**< Transmit underrun occurred */ +#define XEMACPS_TXBUF_EXH_MASK 0x08000000U /**< Buffers exhausted */ +#define XEMACPS_TXBUF_TCP_MASK 0x04000000U /**< Late collision. */ +#define XEMACPS_TXBUF_NOCRC_MASK 0x00010000U /**< No CRC */ +#define XEMACPS_TXBUF_LAST_MASK 0x00008000U /**< Last buffer */ +#define XEMACPS_TXBUF_LEN_MASK 0x00003FFFU /**< Mask for length field */ +/* + * @} + */ + +/* Receive buffer descriptor status words bit positions. + * Receive buffer descriptor consists of two 32-bit registers, + * the first - word0 contains a 32-bit word aligned address pointing to the + * address of the buffer. The lower two bits make up the wrap bit indicating + * the last descriptor and the ownership bit to indicate it has been used by + * the XEmacPs. + * The following register - word1, contains status information regarding why + * the frame was received (the filter match condition) as well as other + * useful info. + * @{ + */ +#define XEMACPS_RXBUF_BCAST_MASK 0x80000000U /**< Broadcast frame */ +#define XEMACPS_RXBUF_MULTIHASH_MASK 0x40000000U /**< Multicast hashed frame */ +#define XEMACPS_RXBUF_UNIHASH_MASK 0x20000000U /**< Unicast hashed frame */ +#define XEMACPS_RXBUF_EXH_MASK 0x08000000U /**< buffer exhausted */ +#define XEMACPS_RXBUF_AMATCH_MASK 0x06000000U /**< Specific address + matched */ +#define XEMACPS_RXBUF_IDFOUND_MASK 0x01000000U /**< Type ID matched */ +#define XEMACPS_RXBUF_IDMATCH_MASK 0x00C00000U /**< ID matched mask */ +#define XEMACPS_RXBUF_VLAN_MASK 0x00200000U /**< VLAN tagged */ +#define XEMACPS_RXBUF_PRI_MASK 0x00100000U /**< Priority tagged */ +#define XEMACPS_RXBUF_VPRI_MASK 0x000E0000U /**< Vlan priority */ +#define XEMACPS_RXBUF_CFI_MASK 0x00010000U /**< CFI frame */ +#define XEMACPS_RXBUF_EOF_MASK 0x00008000U /**< End of frame. */ +#define XEMACPS_RXBUF_SOF_MASK 0x00004000U /**< Start of frame. */ +#define XEMACPS_RXBUF_LEN_MASK 0x00001FFFU /**< Mask for length field */ +#define XEMACPS_RXBUF_LEN_JUMBO_MASK 0x00003FFFU /**< Mask for jumbo length */ + +#define XEMACPS_RXBUF_WRAP_MASK 0x00000002U /**< Wrap bit, last BD */ +#define XEMACPS_RXBUF_NEW_MASK 0x00000001U /**< Used bit.. */ +#define XEMACPS_RXBUF_ADD_MASK 0xFFFFFFFCU /**< Mask for address */ +/* + * @} + */ + +/* + * Define appropriate I/O access method to memory mapped I/O or other + * interface if necessary. + */ + +#define XEmacPs_In32 Xil_In32 +#define XEmacPs_Out32 Xil_Out32 + + +/****************************************************************************/ +/** +* +* Read the given register. +* +* @param BaseAddress is the base address of the device +* @param RegOffset is the register offset to be read +* +* @return The 32-bit value of the register +* +* @note +* C-style signature: +* u32 XEmacPs_ReadReg(u32 BaseAddress, u32 RegOffset) +* +*****************************************************************************/ +#define XEmacPs_ReadReg(BaseAddress, RegOffset) \ + XEmacPs_In32((BaseAddress) + (u32)(RegOffset)) + + +/****************************************************************************/ +/** +* +* Write the given register. +* +* @param BaseAddress is the base address of the device +* @param RegOffset is the register offset to be written +* @param Data is the 32-bit value to write to the register +* +* @return None. +* +* @note +* C-style signature: +* void XEmacPs_WriteReg(u32 BaseAddress, u32 RegOffset, +* u32 Data) +* +*****************************************************************************/ +#define XEmacPs_WriteReg(BaseAddress, RegOffset, Data) \ + XEmacPs_Out32((BaseAddress) + (u32)(RegOffset), (u32)(Data)) + +/************************** Function Prototypes *****************************/ +/* + * Perform reset operation to the emacps interface + */ +void XEmacPs_ResetHw(u32 BaseAddr); + +#ifdef __cplusplus + } +#endif + +#endif /* end of protection macro */ +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_intr.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_intr.c new file mode 100644 index 0000000000..cd9335ace6 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_intr.c @@ -0,0 +1,242 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_intr.c +* @addtogroup emacps_v3_11 +* @{ +* +* Functions in this file implement general purpose interrupt processing related +* functionality. See xemacps.h for a detailed description of the driver. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 First release
+* 1.03a asa  01/24/13 Fix for CR #692702 which updates error handling for
+*		      Rx errors. Under heavy Rx traffic, there will be a large
+*		      number of errors related to receive buffer not available.
+*		      Because of a HW bug (SI #692601), under such heavy errors,
+*		      the Rx data path can become unresponsive. To reduce the
+*		      probabilities for hitting this HW bug, the SW writes to
+*		      bit 18 to flush a packet from Rx DPRAM immediately. The
+*		      changes for it are done in the function
+*		      XEmacPs_IntrHandler.
+* 2.1   srt  07/15/14 Add support for Zynq Ultrascale Mp GEM specification
+*		       and 64-bit changes.
+* 3.0   kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 3.1   hk   07/27/15 Do not call error handler with '0' error code when
+*                     there is no error. CR# 869403
+* 
+******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xemacps.h" + +/************************** Constant Definitions *****************************/ + + +/**************************** Type Definitions *******************************/ + + +/***************** Macros (Inline Functions) Definitions *********************/ + + +/************************** Function Prototypes ******************************/ + + +/************************** Variable Definitions *****************************/ + + +/*****************************************************************************/ +/** + * Install an asynchronous handler function for the given HandlerType: + * + * @param InstancePtr is a pointer to the instance to be worked on. + * @param HandlerType indicates what interrupt handler type is. + * XEMACPS_HANDLER_DMASEND, XEMACPS_HANDLER_DMARECV and + * XEMACPS_HANDLER_ERROR. + * @param FuncPointer is the pointer to the callback function + * @param CallBackRef is the upper layer callback reference passed back when + * when the callback function is invoked. + * + * @return + * + * None. + * + * @note + * There is no assert on the CallBackRef since the driver doesn't know what + * it is. + * + *****************************************************************************/ +LONG XEmacPs_SetHandler(XEmacPs *InstancePtr, u32 HandlerType, + void *FuncPointer, void *CallBackRef) +{ + LONG Status; + Xil_AssertNonvoid(InstancePtr != NULL); + Xil_AssertNonvoid(FuncPointer != NULL); + Xil_AssertNonvoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + switch (HandlerType) { + case XEMACPS_HANDLER_DMASEND: + Status = (LONG)(XST_SUCCESS); + InstancePtr->SendHandler = ((XEmacPs_Handler)(void *)FuncPointer); + InstancePtr->SendRef = CallBackRef; + break; + case XEMACPS_HANDLER_DMARECV: + Status = (LONG)(XST_SUCCESS); + InstancePtr->RecvHandler = ((XEmacPs_Handler)(void *)FuncPointer); + InstancePtr->RecvRef = CallBackRef; + break; + case XEMACPS_HANDLER_ERROR: + Status = (LONG)(XST_SUCCESS); + InstancePtr->ErrorHandler = ((XEmacPs_ErrHandler)(void *)FuncPointer); + InstancePtr->ErrorRef = CallBackRef; + break; + default: + Status = (LONG)(XST_INVALID_PARAM); + break; + } + return Status; +} + +/*****************************************************************************/ +/** +* Master interrupt handler for EMAC driver. This routine will query the +* status of the device, bump statistics, and invoke user callbacks. +* +* This routine must be connected to an interrupt controller using OS/BSP +* specific methods. +* +* @param XEmacPsPtr is a pointer to the XEMACPS instance that has caused the +* interrupt. +* +******************************************************************************/ +void XEmacPs_IntrHandler(void *XEmacPsPtr) +{ + u32 RegISR; + u32 RegSR; + u32 RegCtrl; + u32 RegQ1ISR = 0U; + XEmacPs *InstancePtr = (XEmacPs *) XEmacPsPtr; + + Xil_AssertVoid(InstancePtr != NULL); + Xil_AssertVoid(InstancePtr->IsReady == (u32)XIL_COMPONENT_IS_READY); + + /* This ISR will try to handle as many interrupts as it can in a single + * call. However, in most of the places where the user's error handler + * is called, this ISR exits because it is expected that the user will + * reset the device in nearly all instances. + */ + RegISR = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_ISR_OFFSET); + + /* Read Transmit Q1 ISR */ + + if (InstancePtr->Version > 2) + RegQ1ISR = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_INTQ1_STS_OFFSET); + + /* Clear the interrupt status register */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, XEMACPS_ISR_OFFSET, + RegISR); + + /* Receive complete interrupt */ + if ((RegISR & XEMACPS_IXR_FRAMERX_MASK) != 0x00000000U) { + /* Clear RX status register RX complete indication but preserve + * error bits if there is any */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXSR_OFFSET, + ((u32)XEMACPS_RXSR_FRAMERX_MASK | + (u32)XEMACPS_RXSR_BUFFNA_MASK)); + InstancePtr->RecvHandler(InstancePtr->RecvRef); + } + + /* Transmit Q1 complete interrupt */ + if ((InstancePtr->Version > 2) && + ((RegQ1ISR & XEMACPS_INTQ1SR_TXCOMPL_MASK) != 0x00000000U)) { + /* Clear TX status register TX complete indication but preserve + * error bits if there is any */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_INTQ1_STS_OFFSET, + XEMACPS_INTQ1SR_TXCOMPL_MASK); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXSR_OFFSET, + ((u32)XEMACPS_TXSR_TXCOMPL_MASK | + (u32)XEMACPS_TXSR_USEDREAD_MASK)); + InstancePtr->SendHandler(InstancePtr->SendRef); + } + + /* Transmit complete interrupt */ + if ((RegISR & XEMACPS_IXR_TXCOMPL_MASK) != 0x00000000U) { + /* Clear TX status register TX complete indication but preserve + * error bits if there is any */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXSR_OFFSET, + ((u32)XEMACPS_TXSR_TXCOMPL_MASK | + (u32)XEMACPS_TXSR_USEDREAD_MASK)); + InstancePtr->SendHandler(InstancePtr->SendRef); + } + + /* Receive error conditions interrupt */ + if ((RegISR & XEMACPS_IXR_RX_ERR_MASK) != 0x00000000U) { + /* Clear RX status register */ + RegSR = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXSR_OFFSET); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_RXSR_OFFSET, RegSR); + + /* Fix for CR # 692702. Write to bit 18 of net_ctrl + * register to flush a packet out of Rx SRAM upon + * an error for receive buffer not available. */ + if ((RegISR & XEMACPS_IXR_RXUSED_MASK) != 0x00000000U) { + RegCtrl = + XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + RegCtrl |= (u32)XEMACPS_NWCTRL_FLUSH_DPRAM_MASK; + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, RegCtrl); + } + + if(RegSR != 0) { + InstancePtr->ErrorHandler(InstancePtr->ErrorRef, + XEMACPS_RECV, RegSR); + } + } + + /* When XEMACPS_IXR_TXCOMPL_MASK is flagged, XEMACPS_IXR_TXUSED_MASK + * will be asserted the same time. + * Have to distinguish this bit to handle the real error condition. + */ + /* Transmit Q1 error conditions interrupt */ + if ((InstancePtr->Version > 2) && + ((RegQ1ISR & XEMACPS_INTQ1SR_TXERR_MASK) != 0x00000000U) && + ((RegQ1ISR & XEMACPS_INTQ1SR_TXCOMPL_MASK) != 0x00000000U)) { + /* Clear Interrupt Q1 status register */ + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_INTQ1_STS_OFFSET, RegQ1ISR); + InstancePtr->ErrorHandler(InstancePtr->ErrorRef, XEMACPS_SEND, + RegQ1ISR); + } + + /* Transmit error conditions interrupt */ + if (((RegISR & XEMACPS_IXR_TX_ERR_MASK) != 0x00000000U) && + (!(RegISR & XEMACPS_IXR_TXCOMPL_MASK) != 0x00000000U)) { + /* Clear TX status register */ + RegSR = XEmacPs_ReadReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXSR_OFFSET); + XEmacPs_WriteReg(InstancePtr->Config.BaseAddress, + XEMACPS_TXSR_OFFSET, RegSR); + InstancePtr->ErrorHandler(InstancePtr->ErrorRef, XEMACPS_SEND, + RegSR); + } + +} +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_sinit.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_sinit.c new file mode 100644 index 0000000000..a16201e939 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/emacps_v3_11/xemacps_sinit.c @@ -0,0 +1,71 @@ +/****************************************************************************** +* Copyright (C) 2010 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* +* @file xemacps_sinit.c +* @addtogroup emacps_v3_11 +* @{ +* +* This file contains lookup method by device ID when success, it returns +* pointer to config table to be used to initialize the device. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- -------------------------------------------------------
+* 1.00a wsy  01/10/10 New
+* 3.00  kvn  02/13/15 Modified code for MISRA-C:2012 compliance.
+* 
+* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xemacps.h" +#include "xparameters.h" + +/************************** Constant Definitions *****************************/ + + +/**************************** Type Definitions *******************************/ + +/*************************** Variable Definitions *****************************/ +extern XEmacPs_Config XEmacPs_ConfigTable[XPAR_XEMACPS_NUM_INSTANCES]; + +/***************** Macros (Inline Functions) Definitions *********************/ + + +/************************** Function Prototypes ******************************/ + +/*****************************************************************************/ +/** +* Lookup the device configuration based on the unique device ID. The table +* contains the configuration info for each device in the system. +* +* @param DeviceId is the unique device ID of the device being looked up. +* +* @return +* A pointer to the configuration table entry corresponding to the given +* device ID, or NULL if no match is found. +* +******************************************************************************/ +XEmacPs_Config *XEmacPs_LookupConfig(u16 DeviceId) +{ + XEmacPs_Config *CfgPtr = NULL; + u32 i; + + for (i = 0U; i < (u32)XPAR_XEMACPS_NUM_INSTANCES; i++) { + if (XEmacPs_ConfigTable[i].DeviceId == DeviceId) { + CfgPtr = &XEmacPs_ConfigTable[i]; + break; + } + } + + return (XEmacPs_Config *)(CfgPtr); +} +/** @} */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/sleep.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/sleep.h index b49a864dc6..eca569e5b4 100644 --- a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/sleep.h +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/sleep.h @@ -21,7 +21,7 @@ static inline void usleep(unsigned long useconds) static inline void sleep(unsigned int seconds) { - rt_thread_delay(seconds); + rt_thread_delay(seconds*RT_TICK_PER_SECOND); } #ifdef __cplusplus diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/SConscript b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/SConscript new file mode 100644 index 0000000000..8e5fc7069e --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/SConscript @@ -0,0 +1,15 @@ +import rtconfig +from building import * + +# get current directory +cwd = GetCurrentDir() +CPPPATH = [cwd] + +# The set of source files associated with this SConscript file. + +src = Glob('*.c') +path = cwd + +group = DefineGroup('ZYNQMP_HAL', src, depend = [''], CPPPATH = CPPPATH) + +Return('group') \ No newline at end of file diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xadapter.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xadapter.h new file mode 100644 index 0000000000..aaff03e647 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xadapter.h @@ -0,0 +1,94 @@ +/* + * Copyright (C) 2007 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __XADAPTER_H_ +#define __XADAPTER_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +#include "lwipopts.h" + +#if !NO_SYS +#ifdef OS_IS_XILKERNEL +#include "xmk.h" +#endif +#include "lwip/sys.h" +#endif + +#include "lwip/netif.h" +#include "lwip/ip.h" + +#include "netif/xtopology.h" +#include + +struct xemac_s { + enum xemac_types type; + int topology_index; + void *state; +#if 0 + sys_sem_t sem_rx_data_available; +#else + struct eth_device *rt_eth_device; +#endif +#if defined(OS_IS_FREERTOS) && defined(__arm__) && !defined(ARMR5) + TimerHandle_t xTimer; +#endif +}; + +enum ethernet_link_status { + ETH_LINK_UNDEFINED = 0, + ETH_LINK_UP, + ETH_LINK_DOWN, + ETH_LINK_NEGOTIATING +}; + +void eth_link_detect(struct netif *netif); +void lwip_raw_init(); +int xemacif_input(struct netif *netif); +void xemacif_input_thread(struct netif *netif); +struct netif * xemac_add(struct netif *netif, + ip_addr_t *ipaddr, ip_addr_t *netmask, ip_addr_t *gw, + unsigned char *mac_ethernet_address, + unsigned mac_baseaddr); +#if defined (__arm__) || defined (__aarch64__) +void xemacpsif_resetrx_on_no_rxdata(struct netif *netif); +#endif + +/* global lwip debug variable used for debugging */ +extern int lwip_runtime_debug; + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xemacpsif.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xemacpsif.h new file mode 100644 index 0000000000..796cdd7f66 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xemacpsif.h @@ -0,0 +1,163 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __NETIF_XEMACPSIF_H__ +#define __NETIF_XEMACPSIF_H__ + +#ifdef __cplusplus +extern "C" { +#endif + +#include "xlwipconfig.h" +#include "lwip/netif.h" +#include "netif/etharp.h" +#include "lwip/sys.h" +#include "netif/xadapter.h" + +#include "xstatus.h" +#include "sleep.h" +#include "xparameters.h" +#include "xparameters_ps.h" /* defines XPAR values */ +#include "xil_types.h" +#include "xil_assert.h" +#include "xil_io.h" +// #include "xil_exception.h" +// #include "xpseudo_asm.h" +#include "xpseudo_asm_gcc.h" +#include "xil_cache.h" +#include "xil_printf.h" +// #include "xscugic.h" +#include "xemacps.h" /* defines XEmacPs API */ + +#include "netif/xpqueue.h" +#include "xlwipconfig.h" + +#if EL1_NONSECURE +#include "xil_smc.h" +#endif + +#define ZYNQ_EMACPS_0_BASEADDR 0xE000B000 +#define ZYNQ_EMACPS_1_BASEADDR 0xE000C000 + +#define ZYNQMP_EMACPS_0_BASEADDR 0xFF0B0000 +#define ZYNQMP_EMACPS_1_BASEADDR 0xFF0C0000 +#define ZYNQMP_EMACPS_2_BASEADDR 0xFF0D0000 +#define ZYNQMP_EMACPS_3_BASEADDR 0xFF0E0000 + +#define CRL_APB_GEM0_REF_CTRL 0xFF5E0050 +#define CRL_APB_GEM1_REF_CTRL 0xFF5E0054 +#define CRL_APB_GEM2_REF_CTRL 0xFF5E0058 +#define CRL_APB_GEM3_REF_CTRL 0xFF5E005C + +#define CRL_APB_GEM_DIV0_MASK 0x00003F00 +#define CRL_APB_GEM_DIV0_SHIFT 8 +#define CRL_APB_GEM_DIV1_MASK 0x003F0000 +#define CRL_APB_GEM_DIV1_SHIFT 16 + +#define VERSAL_EMACPS_0_BASEADDR 0xFF0C0000 +#define VERSAL_EMACPS_1_BASEADDR 0xFF0D0000 + +#define VERSAL_CRL_GEM0_REF_CTRL 0xFF5E0118 +#define VERSAL_CRL_GEM1_REF_CTRL 0xFF5E011C + +#define VERSAL_CRL_GEM_DIV_MASK 0x0003FF00 +#define VERSAL_CRL_APB_GEM_DIV_SHIFT 8 + +#if defined (ARMR5) || (__aarch64__) || (ARMA53_32) || (__MICROBLAZE__) +#if defined (USE_JUMBO_FRAMES) +#define ZYNQMP_USE_JUMBO +#endif +#endif + +#define GEM_VERSION_ZYNQMP 7 +#define GEM_VERSION_VERSAL 0x107 + +#define MAX_FRAME_SIZE_JUMBO (XEMACPS_MTU_JUMBO + XEMACPS_HDR_SIZE + XEMACPS_TRL_SIZE) + +void xemacpsif_setmac(u32_t index, u8_t *addr); +u8_t* xemacpsif_getmac(u32_t index); +err_t xemacpsif_init(struct netif *netif); +s32_t xemacpsif_input(struct netif *netif); + +/* xaxiemacif_hw.c */ +void xemacps_error_handler(XEmacPs * Temac); + +/* structure within each netif, encapsulating all information required for + * using a particular temac instance + */ +typedef struct { + XEmacPs emacps; + + /* queue to store overflow packets */ + pq_queue_t *recv_q; + pq_queue_t *send_q; + + /* pointers to memory holding buffer descriptors (used only with SDMA) */ + void *rx_bdspace; + void *tx_bdspace; + + unsigned int last_rx_frms_cntr; + +} xemacpsif_s; + +extern xemacpsif_s xemacpsif; + +s32_t is_tx_space_available(xemacpsif_s *emac); + +/* xemacpsif_dma.c */ + +void process_sent_bds(xemacpsif_s *xemacpsif, XEmacPs_BdRing *txring); +u32_t phy_setup_emacps (XEmacPs *xemacpsp, u32_t phy_addr); +void detect_phy(XEmacPs *xemacpsp); +void emacps_send_handler(void *arg); +XStatus emacps_sgsend(xemacpsif_s *xemacpsif, struct pbuf *p); +void emacps_recv_handler(void *arg); +void emacps_error_handler(void *arg,u8 Direction, u32 ErrorWord); +void setup_rx_bds(xemacpsif_s *xemacpsif, XEmacPs_BdRing *rxring); +void HandleTxErrors(struct xemac_s *xemac); +void HandleEmacPsError(struct xemac_s *xemac); +XEmacPs_Config *xemacps_lookup_config(unsigned mac_base); +void init_emacps(xemacpsif_s *xemacps, struct netif *netif); +void setup_isr (struct xemac_s *xemac); +XStatus init_dma(struct xemac_s *xemac); +void start_emacps (xemacpsif_s *xemacps); +void free_txrx_pbufs(xemacpsif_s *xemacpsif); +void free_onlytx_pbufs(xemacpsif_s *xemacpsif); +void init_emacps_on_error (xemacpsif_s *xemacps, struct netif *netif); +void clean_dma_txdescs(struct xemac_s *xemac); +void resetrx_on_no_rxdata(xemacpsif_s *xemacpsif); +void reset_dma(struct xemac_s *xemac); + +#ifdef __cplusplus +} +#endif + +#endif /* __NETIF_XAXIEMACIF_H__ */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xpqueue.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xpqueue.h new file mode 100644 index 0000000000..132f02fb38 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xpqueue.h @@ -0,0 +1,54 @@ +/* + * Copyright (C) 2007 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __LWIP_PBUF_QUEUE_H_ +#define __LWIP_PBUF_QUEUE_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +#define PQ_QUEUE_SIZE 4096 + +typedef struct { + void *data[PQ_QUEUE_SIZE]; + int head, tail, len; +} pq_queue_t; + +pq_queue_t* pq_create_queue(); +int pq_enqueue(pq_queue_t *q, void *p); +void* pq_dequeue(pq_queue_t *q); +int pq_qlength(pq_queue_t *q); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xtopology.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xtopology.h new file mode 100644 index 0000000000..f3474cba7c --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/netif/xtopology.h @@ -0,0 +1,58 @@ +/* + * Copyright (C) 2007 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __XTOPOLOGY_H_ +#define __XTOPOLOGY_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +enum xemac_types { xemac_type_unknown = -1, xemac_type_xps_emaclite, xemac_type_xps_ll_temac, xemac_type_axi_ethernet, xemac_type_emacps }; + +struct xtopology_t { + unsigned emac_baseaddr; + enum xemac_types emac_type; + unsigned intc_baseaddr; + unsigned intc_emac_intr; /* valid only for xemac_type_xps_emaclite */ + unsigned scugic_baseaddr; /* valid only for Zynq */ + unsigned scugic_emac_intr; /* valid only for GEM */ +}; + +extern int xtopology_n_emacs; +extern struct xtopology_t xtopology[]; + +int xtopology_find_index(unsigned base); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xadapter.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xadapter.c new file mode 100644 index 0000000000..a9ed329d58 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xadapter.c @@ -0,0 +1,432 @@ +/* + * Copyright (C) 2007 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#include "lwipopts.h" +#include "xlwipconfig.h" +#include "xemac_ieee_reg.h" + +#if !NO_SYS +#ifdef OS_IS_XILKERNEL +#include "xmk.h" +#include "sys/process.h" +#endif +#endif + +#include "lwip/mem.h" +#include "lwip/stats.h" +#include "lwip/sys.h" +#include "lwip/ip.h" +#include "lwip/tcp.h" +#include "lwip/udp.h" +#include "lwip/priv/tcp_priv.h" + +#include "netif/etharp.h" +#include "netif/xadapter.h" + +#ifdef XLWIP_CONFIG_INCLUDE_EMACLITE +#include "netif/xemacliteif.h" +#endif + +#ifdef XLWIP_CONFIG_INCLUDE_AXI_ETHERNET +#include "netif/xaxiemacif.h" +#endif + +#ifdef XLWIP_CONFIG_INCLUDE_GEM +#include "netif/xemacpsif.h" +#endif + +#if !NO_SYS +#include "lwip/tcpip.h" +#endif + +#ifdef OS_IS_FREERTOS +#define THREAD_STACKSIZE 256 +#define LINK_DETECT_THREAD_INTERVAL 1000 /* one second */ + +void link_detect_thread(void *p); +#endif + +/* global lwip debug variable used for debugging */ +int lwip_runtime_debug = 0; + +enum ethernet_link_status eth_link_status = ETH_LINK_UNDEFINED; +u32_t phyaddrforemac; + +void +lwip_raw_init() +{ + ip_init(); /* Doesn't do much, it should be called to handle future changes. */ +#if LWIP_UDP + udp_init(); /* Clears the UDP PCB list. */ +#endif +#if LWIP_TCP + tcp_init(); /* Clears the TCP PCB list and clears some internal TCP timers. */ + /* Note: you must call tcp_fasttmr() and tcp_slowtmr() at the */ + /* predefined regular intervals after this initialization. */ +#endif +} + +static enum xemac_types +find_mac_type(unsigned base) +{ + int i; + + for (i = 0; i < xtopology_n_emacs; i++) { + if (xtopology[i].emac_baseaddr == base) + return xtopology[i].emac_type; + } + + return xemac_type_unknown; +} + +int +xtopology_find_index(unsigned base) +{ + int i; + + for (i = 0; i < xtopology_n_emacs; i++) { + if (xtopology[i].emac_baseaddr == base) + return i; + } + + return -1; +} + +/* + * xemac_add: this is a wrapper around lwIP's netif_add function. + * The objective is to provide portability between the different Xilinx MAC's + * This function can be used to add both xps_ethernetlite and xps_ll_temac + * based interfaces + */ +struct netif * +xemac_add(struct netif *netif, + ip_addr_t *ipaddr, ip_addr_t *netmask, ip_addr_t *gw, + unsigned char *mac_ethernet_address, + unsigned mac_baseaddr) +{ + int i; + +#ifdef OS_IS_FREERTOS + /* Start thread to detect link periodically for Hot Plug autodetect */ + sys_thread_new("link_detect_thread", link_detect_thread, netif, + THREAD_STACKSIZE, tskIDLE_PRIORITY); +#endif + + /* set mac address */ + netif->hwaddr_len = 6; + for (i = 0; i < 6; i++) + netif->hwaddr[i] = mac_ethernet_address[i]; + + /* initialize based on MAC type */ + switch (find_mac_type(mac_baseaddr)) { + case xemac_type_xps_emaclite: +#ifdef XLWIP_CONFIG_INCLUDE_EMACLITE + return netif_add(netif, ipaddr, netmask, gw, + (void*)(UINTPTR)mac_baseaddr, + xemacliteif_init, +#if NO_SYS + ethernet_input +#else + tcpip_input +#endif + ); +#else + return NULL; +#endif + case xemac_type_axi_ethernet: +#ifdef XLWIP_CONFIG_INCLUDE_AXI_ETHERNET + return netif_add(netif, ipaddr, netmask, gw, + (void*)(UINTPTR)mac_baseaddr, + xaxiemacif_init, +#if NO_SYS + ethernet_input +#else + tcpip_input +#endif + ); +#else + return NULL; +#endif +#if defined (__arm__) || defined (__aarch64__) + case xemac_type_emacps: +#ifdef XLWIP_CONFIG_INCLUDE_GEM + return netif_add(netif, ipaddr, netmask, gw, + (void*)(UINTPTR)mac_baseaddr, + xemacpsif_init, +#if NO_SYS + ethernet_input +#else + tcpip_input +#endif + + ); +#endif +#endif + default: + xil_printf("unable to determine type of EMAC with baseaddress 0x%08x\r\n", + mac_baseaddr); + return NULL; + } +} + +#if 0 +/* + * The input thread calls lwIP to process any received packets. + * This thread waits until a packet is received (sem_rx_data_available), + * and then calls xemacif_input which processes 1 packet at a time. + */ +void +xemacif_input_thread(struct netif *netif) +{ + struct xemac_s *emac = (struct xemac_s *)netif->state; + while (1) { + /* sleep until there are packets to process + * This semaphore is set by the packet receive interrupt + * routine. + */ + sys_sem_wait(&emac->sem_rx_data_available); + + /* move all received packets to lwIP */ + xemacif_input(netif); + } +} +#endif + +int +xemacif_input(struct netif *netif) +{ + struct xemac_s *emac = (struct xemac_s *)netif->state; + + int n_packets = 0; + + switch (emac->type) { + case xemac_type_xps_emaclite: +#ifdef XLWIP_CONFIG_INCLUDE_EMACLITE + n_packets = xemacliteif_input(netif); + break; +#else + // print("incorrect configuration: xps_ethernetlite drivers not present?"); + while(1); + return 0; +#endif + case xemac_type_axi_ethernet: +#ifdef XLWIP_CONFIG_INCLUDE_AXI_ETHERNET + n_packets = xaxiemacif_input(netif); + break; +#else + // print("incorrect configuration: axi_ethernet drivers not present?"); + while(1); + return 0; +#endif +#if defined (__arm__) || defined (__aarch64__) + case xemac_type_emacps: +#ifdef XLWIP_CONFIG_INCLUDE_GEM + n_packets = xemacpsif_input(netif); + break; +#else + xil_printf("incorrect configuration: ps7_ethernet drivers not present?\r\n"); + while(1); + return 0; +#endif +#endif + default: + // print("incorrect configuration: unknown temac type"); + while(1); + return 0; + } + + return n_packets; +} + +#if defined(XLWIP_CONFIG_INCLUDE_GEM) +u32_t phy_link_detect(XEmacPs *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XEmacPs_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XEmacPs_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_LINK_STATUS) + return 1; + return 0; +} +#elif defined(XLWIP_CONFIG_INCLUDE_AXI_ETHERNET) +static u32_t phy_link_detect(XAxiEthernet *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XAxiEthernet_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XAxiEthernet_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_LINK_STATUS) + return 1; + return 0; +} +#elif defined(XLWIP_CONFIG_INCLUDE_EMACLITE) +static u32_t phy_link_detect(XEmacLite *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XEmacLite_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XEmacLite_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_LINK_STATUS) + return 1; + return 0; +} +#endif + +#if defined(XLWIP_CONFIG_INCLUDE_GEM) +u32_t phy_autoneg_status(XEmacPs *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XEmacPs_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XEmacPs_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) + return 1; + return 0; +} +#elif defined(XLWIP_CONFIG_INCLUDE_AXI_ETHERNET) +static u32_t phy_autoneg_status(XAxiEthernet *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XAxiEthernet_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XAxiEthernet_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) + return 1; + return 0; +} +#elif defined(XLWIP_CONFIG_INCLUDE_EMACLITE) +static u32_t phy_autoneg_status(XEmacLite *xemacp, u32_t phy_addr) +{ + u16_t status; + + /* Read Phy Status register twice to get the confirmation of the current + * link status. + */ + XEmacLite_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + XEmacLite_PhyRead(xemacp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + if (status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) + return 1; + return 0; +} +#endif + +void eth_link_detect(struct netif *netif) +{ + u32_t link_speed, phy_link_status; + struct xemac_s *xemac = (struct xemac_s *)(netif->state); + +#if defined(XLWIP_CONFIG_INCLUDE_GEM) + xemacpsif_s *xemacs = (xemacpsif_s *)(xemac->state); + XEmacPs *xemacp = &xemacs->emacps; +#elif defined(XLWIP_CONFIG_INCLUDE_AXI_ETHERNET) + xaxiemacif_s *xemacs = (xaxiemacif_s *)(xemac->state); + XAxiEthernet *xemacp = &xemacs->axi_ethernet; +#elif defined(XLWIP_CONFIG_INCLUDE_EMACLITE) + xemacliteif_s *xemacs = (xemacliteif_s *)(xemac->state); + XEmacLite *xemacp = xemacs->instance; +#endif + + if ((xemacp->IsReady != (u32)XIL_COMPONENT_IS_READY) || + (eth_link_status == ETH_LINK_UNDEFINED)) + return; + + phy_link_status = phy_link_detect(xemacp, phyaddrforemac); + + if ((eth_link_status == ETH_LINK_UP) && (!phy_link_status)) + eth_link_status = ETH_LINK_DOWN; + + switch (eth_link_status) { + case ETH_LINK_UNDEFINED: + case ETH_LINK_UP: + return; + case ETH_LINK_DOWN: + netif_set_link_down(netif); + eth_link_status = ETH_LINK_NEGOTIATING; + xil_printf("Ethernet Link down\r\n"); + break; + case ETH_LINK_NEGOTIATING: + if (phy_link_status && + phy_autoneg_status(xemacp, phyaddrforemac)) { + + /* Initiate Phy setup to get link speed */ +#if defined(XLWIP_CONFIG_INCLUDE_GEM) + link_speed = phy_setup_emacps(xemacp, + phyaddrforemac); + XEmacPs_SetOperatingSpeed(xemacp, link_speed); +#elif defined(XLWIP_CONFIG_INCLUDE_AXI_ETHERNET) + link_speed = phy_setup_axiemac(xemacp); + XAxiEthernet_SetOperatingSpeed(xemacp, + link_speed); +#endif + netif_set_link_up(netif); + eth_link_status = ETH_LINK_UP; + xil_printf("Ethernet Link up\r\n"); + } + break; + } +} + +#ifdef OS_IS_FREERTOS +void link_detect_thread(void *p) +{ + struct netif *netif = (struct netif *) p; + + while (1) { + /* Call eth_link_detect() every second to detect Ethernet link + * change. + */ + eth_link_detect(netif); + vTaskDelay(LINK_DETECT_THREAD_INTERVAL / portTICK_RATE_MS); + } +} +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemac_ieee_reg.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemac_ieee_reg.h new file mode 100644 index 0000000000..4c240a9b7c --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemac_ieee_reg.h @@ -0,0 +1,101 @@ +/* + * Copyright (C) 2018 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __XEMAC_IEEE_REGS_H_ +#define __XEMAC_IEEE_REGS_H_ + +/* Advertisement control register. */ +#define ADVERTISE_10HALF 0x0020 /* Try for 10mbps half-duplex */ +#define ADVERTISE_1000XFULL 0x0020 /* Try for 1000BASE-X full-duplex */ +#define ADVERTISE_10FULL 0x0040 /* Try for 10mbps full-duplex */ +#define ADVERTISE_1000XHALF 0x0040 /* Try for 1000BASE-X half-duplex */ +#define ADVERTISE_100HALF 0x0080 /* Try for 100mbps half-duplex */ +#define ADVERTISE_1000XPAUSE 0x0080 /* Try for 1000BASE-X pause */ +#define ADVERTISE_100FULL 0x0100 /* Try for 100mbps full-duplex */ +#define ADVERTISE_1000XPSE_ASYM 0x0100 /* Try for 1000BASE-X asym pause */ +#define ADVERTISE_100BASE4 0x0200 /* Try for 100mbps 4k packets */ + + +#define ADVERTISE_100_AND_10 (ADVERTISE_10FULL | ADVERTISE_100FULL | \ + ADVERTISE_10HALF | ADVERTISE_100HALF) +#define ADVERTISE_100 (ADVERTISE_100FULL | ADVERTISE_100HALF) +#define ADVERTISE_10 (ADVERTISE_10FULL | ADVERTISE_10HALF) + +#define ADVERTISE_1000 0x0300 + + +#define IEEE_CONTROL_REG_OFFSET 0 +#define IEEE_STATUS_REG_OFFSET 1 +#define IEEE_AUTONEGO_ADVERTISE_REG 4 +#define IEEE_PARTNER_ABILITIES_1_REG_OFFSET 5 +#define IEEE_PARTNER_ABILITIES_2_REG_OFFSET 8 +#define IEEE_PARTNER_ABILITIES_3_REG_OFFSET 10 +#define IEEE_1000_ADVERTISE_REG_OFFSET 9 +#define IEEE_MMD_ACCESS_CONTROL_REG 13 +#define IEEE_MMD_ACCESS_ADDRESS_DATA_REG 14 +#define IEEE_COPPER_SPECIFIC_CONTROL_REG 16 +#define IEEE_SPECIFIC_STATUS_REG 17 +#define IEEE_COPPER_SPECIFIC_STATUS_REG_2 19 +#define IEEE_EXT_PHY_SPECIFIC_CONTROL_REG 20 +#define IEEE_CONTROL_REG_MAC 21 +#define IEEE_PAGE_ADDRESS_REGISTER 22 + +#define IEEE_CTRL_1GBPS_LINKSPEED_MASK 0x2040 +#define IEEE_CTRL_LINKSPEED_MASK 0x0040 +#define IEEE_CTRL_LINKSPEED_1000M 0x0040 +#define IEEE_CTRL_LINKSPEED_100M 0x2000 +#define IEEE_CTRL_LINKSPEED_10M 0x0000 +#define IEEE_CTRL_FULL_DUPLEX 0x100 +#define IEEE_CTRL_RESET_MASK 0x8000 +#define IEEE_CTRL_AUTONEGOTIATE_ENABLE 0x1000 +#define IEEE_STAT_AUTONEGOTIATE_CAPABLE 0x0008 +#define IEEE_STAT_AUTONEGOTIATE_COMPLETE 0x0020 +#define IEEE_STAT_AUTONEGOTIATE_RESTART 0x0200 +#define IEEE_STAT_LINK_STATUS 0x0004 +#define IEEE_STAT_1GBPS_EXTENSIONS 0x0100 +#define IEEE_AN1_ABILITY_MASK 0x1FE0 +#define IEEE_AN3_ABILITY_MASK_1GBPS 0x0C00 +#define IEEE_AN1_ABILITY_MASK_100MBPS 0x0380 +#define IEEE_AN1_ABILITY_MASK_10MBPS 0x0060 +#define IEEE_RGMII_TXRX_CLOCK_DELAYED_MASK 0x0030 + +#define IEEE_SPEED_MASK 0xC000 +#define IEEE_SPEED_1000 0x8000 +#define IEEE_SPEED_100 0x4000 + +#define IEEE_ASYMMETRIC_PAUSE_MASK 0x0800 +#define IEEE_PAUSE_MASK 0x0400 +#define IEEE_AUTONEG_ERROR_MASK 0x8000 + +#define IEEE_MMD_ACCESS_CTRL_DEVAD_MASK 0x1F +#define IEEE_MMD_ACCESS_CTRL_PIDEVAD_MASK 0x801F +#define IEEE_MMD_ACCESS_CTRL_NOPIDEVAD_MASK 0x401F + +#endif /* __XEMAC_IEEE_REGS_H_ */ diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif.c new file mode 100644 index 0000000000..d2aeaba3da --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif.c @@ -0,0 +1,759 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#include +#include + +#include +#include "lwipopts.h" +#include "xlwipconfig.h" +#include "lwip/opt.h" +#include "lwip/def.h" +#include "lwip/mem.h" +#include "lwip/pbuf.h" +#include "lwip/sys.h" +#include "lwip/stats.h" +#include "lwip/igmp.h" + +#include "netif/etharp.h" +#include "netif/xemacpsif.h" +#include "netif/xadapter.h" +#include "netif/xpqueue.h" +#include "xparameters.h" +// #include "xscugic.h" +#include "xemacps.h" + +#if LWIP_IPV6 +#include "lwip/ethip6.h" +#endif + +#ifdef SYS_ARCH_DECL_PROTECT +#undef SYS_ARCH_DECL_PROTECT +#endif +#define SYS_ARCH_DECL_PROTECT(lev) rt_base_t lev; + +#ifdef SYS_ARCH_PROTECT +#undef SYS_ARCH_PROTECT +#endif +#define SYS_ARCH_PROTECT(lev) lev = rt_hw_interrupt_disable(); + +#ifdef SYS_ARCH_UNPROTECT +#undef SYS_ARCH_UNPROTECT +#endif +#define SYS_ARCH_UNPROTECT(lev) rt_hw_interrupt_enable(lev); + +/* Define those to better describe your network interface. */ +#define IFNAME0 't' +#define IFNAME1 'e' + +#if LWIP_IGMP +static err_t xemacpsif_mac_filter_update (struct netif *netif, + ip_addr_t *group, u8_t action); + +static u8_t xemacps_mcast_entry_mask = 0; +#endif + +#if LWIP_IPV6 && LWIP_IPV6_MLD +static err_t xemacpsif_mld6_mac_filter_update (struct netif *netif, + ip_addr_t *group, u8_t action); + +static u8_t xemacps_mld6_mcast_entry_mask; +#endif + +XEmacPs_Config *mac_config; +struct netif *NetIf; + +#if defined(OS_IS_FREERTOS) && defined(__arm__) && !defined(ARMR5) +int32_t lExpireCounter = 0; +#define RESETRXTIMEOUT 10 +#endif + +/* + * this function is always called with interrupts off + * this function also assumes that there are available BD's + */ +err_t _unbuffered_low_level_output(xemacpsif_s *xemacpsif, + struct pbuf *p) +{ + XStatus status = 0; + +#if ETH_PAD_SIZE + pbuf_header(p, -ETH_PAD_SIZE); /* drop the padding word */ +#endif + status = emacps_sgsend(xemacpsif, p); + if (status != XST_SUCCESS) { +#if LINK_STATS + lwip_stats.link.drop++; +#endif + } + +#if ETH_PAD_SIZE + pbuf_header(p, ETH_PAD_SIZE); /* reclaim the padding word */ +#endif + +#if LINK_STATS + lwip_stats.link.xmit++; +#endif /* LINK_STATS */ + + return ERR_OK; + +} + +/* + * low_level_output(): + * + * Should do the actual transmission of the packet. The packet is + * contained in the pbuf that is passed to the function. This pbuf + * might be chained. + * + */ + +static err_t low_level_output(struct netif *netif, struct pbuf *p) +{ + SYS_ARCH_DECL_PROTECT(lev); + err_t err; + s32_t freecnt; + XEmacPs_BdRing *txring; + + struct xemac_s *xemac = (struct xemac_s *)(netif->state); + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + + SYS_ARCH_PROTECT(lev); + + /* check if space is available to send */ + freecnt = is_tx_space_available(xemacpsif); + if (freecnt <= 5) { + txring = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + process_sent_bds(xemacpsif, txring); + } + + if (is_tx_space_available(xemacpsif)) { + _unbuffered_low_level_output(xemacpsif, p); + err = ERR_OK; + } else { +#if LINK_STATS + lwip_stats.link.drop++; +#endif + rt_kprintf("pack dropped, no space\r\n"); + err = ERR_MEM; + } + + SYS_ARCH_UNPROTECT(lev); + return err; +} + +/* + * low_level_input(): + * + * Should allocate a pbuf and transfer the bytes of the incoming + * packet from the interface into the pbuf. + * + */ +static struct pbuf * low_level_input(struct netif *netif) +{ + struct xemac_s *xemac = (struct xemac_s *)(netif->state); + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + struct pbuf *p; + + /* see if there is data to process */ + if (pq_qlength(xemacpsif->recv_q) == 0) + return NULL; + + /* return one packet from receive q */ + p = (struct pbuf *)pq_dequeue(xemacpsif->recv_q); + return p; +} + +/* + * xemacpsif_output(): + * + * This function is called by the TCP/IP stack when an IP packet + * should be sent. It calls the function called low_level_output() to + * do the actual transmission of the packet. + * + */ + +static err_t xemacpsif_output(struct netif *netif, struct pbuf *p, + const ip_addr_t *ipaddr) +{ + /* resolve hardware address, then send (or queue) packet */ + return etharp_output(netif, p, ipaddr); +} + +/* + * xemacpsif_input(): + * + * This function should be called when a packet is ready to be read + * from the interface. It uses the function low_level_input() that + * should handle the actual reception of bytes from the network + * interface. + * + * Returns the number of packets read (max 1 packet on success, + * 0 if there are no packets) + * + */ + +s32_t xemacpsif_input(struct netif *netif) +{ + struct eth_hdr *ethhdr; + struct pbuf *p; + SYS_ARCH_DECL_PROTECT(lev); + +#ifdef OS_IS_FREERTOS + while (1) +#endif + { + /* move received packet into a new pbuf */ + SYS_ARCH_PROTECT(lev); + p = low_level_input(netif); + SYS_ARCH_UNPROTECT(lev); + + /* no packet could be read, silently ignore this */ + if (p == NULL) { + return 0; + } + + /* points to packet payload, which starts with an Ethernet header */ + ethhdr = p->payload; + + #if LINK_STATS + lwip_stats.link.recv++; + #endif /* LINK_STATS */ + + switch (htons(ethhdr->type)) { + /* IP or ARP packet? */ + case ETHTYPE_IP: + case ETHTYPE_ARP: + #if LWIP_IPV6 + /*IPv6 Packet?*/ + case ETHTYPE_IPV6: + #endif + #if PPPOE_SUPPORT + /* PPPoE packet? */ + case ETHTYPE_PPPOEDISC: + case ETHTYPE_PPPOE: + #endif /* PPPOE_SUPPORT */ + /* full packet send to tcpip_thread to process */ + if (netif->input(p, netif) != ERR_OK) { + LWIP_DEBUGF(NETIF_DEBUG, ("xemacpsif_input: IP input error\r\n")); + pbuf_free(p); + p = NULL; + } + break; + + default: + pbuf_free(p); + p = NULL; + break; + } + } + + return 1; +} + + +#if defined(OS_IS_FREERTOS) && defined(__arm__) && !defined(ARMR5) +void vTimerCallback( TimerHandle_t pxTimer ) +{ + /* Do something if the pxTimer parameter is NULL */ + configASSERT(pxTimer); + + lExpireCounter++; + /* If the timer has expired 100 times then reset RX */ + if(lExpireCounter >= RESETRXTIMEOUT) { + lExpireCounter = 0; + xemacpsif_resetrx_on_no_rxdata(NetIf); + } +} + #endif + +static err_t low_level_init(struct netif *netif) +{ + UINTPTR mac_address = (UINTPTR)(netif->state); + struct xemac_s *xemac; + xemacpsif_s *xemacpsif; + u32 dmacrreg; + + s32_t status = XST_SUCCESS; + + NetIf = netif; + + xemacpsif = mem_malloc(sizeof *xemacpsif); + if (xemacpsif == NULL) { + LWIP_DEBUGF(NETIF_DEBUG, ("xemacpsif_init: out of memory\r\n")); + return ERR_MEM; + } + + xemac = mem_malloc(sizeof *xemac); + if (xemac == NULL) { + LWIP_DEBUGF(NETIF_DEBUG, ("xemacpsif_init: out of memory\r\n")); + return ERR_MEM; + } + + xemac->state = (void *)xemacpsif; + xemac->topology_index = xtopology_find_index(mac_address); + xemac->type = xemac_type_emacps; + + xemacpsif->send_q = NULL; + xemacpsif->recv_q = pq_create_queue(); + if (!xemacpsif->recv_q) + return ERR_MEM; + + /* maximum transfer unit */ +#ifdef ZYNQMP_USE_JUMBO + netif->mtu = XEMACPS_MTU_JUMBO - XEMACPS_HDR_SIZE; +#else + netif->mtu = XEMACPS_MTU - XEMACPS_HDR_SIZE; +#endif + +#if LWIP_IGMP + netif->igmp_mac_filter = xemacpsif_mac_filter_update; +#endif + +#if LWIP_IPV6 && LWIP_IPV6_MLD + netif->mld_mac_filter = xemacpsif_mld6_mac_filter_update; +#endif + + netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | + NETIF_FLAG_LINK_UP; + +#if LWIP_IPV6 && LWIP_IPV6_MLD + netif->flags |= NETIF_FLAG_MLD6; +#endif + +#if LWIP_IGMP + netif->flags |= NETIF_FLAG_IGMP; +#endif + +#if 0 + sys_sem_new(&xemac->sem_rx_data_available, 0); +#endif + /* obtain config of this emac */ + mac_config = (XEmacPs_Config *)xemacps_lookup_config((unsigned)(UINTPTR)netif->state); + +#if EL1_NONSECURE + /* Request device to indicate that this library is using it */ + if (mac_config->BaseAddress == VERSAL_EMACPS_0_BASEADDR) { + Xil_Smc(PM_REQUEST_DEVICE_SMC_FID, DEV_GEM_0, 1, 0, 100, 1, 0, 0); + } + if (mac_config->BaseAddress == VERSAL_EMACPS_0_BASEADDR) { + Xil_Smc(PM_REQUEST_DEVICE_SMC_FID, DEV_GEM_1, 1, 0, 100, 1, 0, 0); + } +#endif + + status = XEmacPs_CfgInitialize(&xemacpsif->emacps, mac_config, + mac_config->BaseAddress); + if (status != XST_SUCCESS) { + xil_printf("In %s:EmacPs Configuration Failed....\r\n", __func__); + } + + /* initialize the mac */ + init_emacps(xemacpsif, netif); + + dmacrreg = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + dmacrreg = dmacrreg | (0x00000010); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET, dmacrreg); + +#if defined(OS_IS_FREERTOS) && defined(__arm__) && !defined(ARMR5) + /* Freertos tick is 10ms by default; set period to the same */ + xemac->xTimer = xTimerCreate("Timer", 10, pdTRUE, ( void * ) 1, vTimerCallback); + if (xemac->xTimer == NULL) { + xil_printf("In %s:Timer creation failed....\r\n", __func__); + } else { + if(xTimerStart(xemac->xTimer, 0) != pdPASS) { + xil_printf("In %s:Timer start failed....\r\n", __func__); + } + } +#endif + setup_isr(xemac); + init_dma(xemac); + start_emacps(xemacpsif); + + /* replace the state in netif (currently the emac baseaddress) + * with the mac instance pointer. + */ + netif->state = (void *)xemac; + + return ERR_OK; +} + +void HandleEmacPsError(struct xemac_s *xemac) +{ + xemacpsif_s *xemacpsif; + s32_t status = XST_SUCCESS; + u32 dmacrreg; + + SYS_ARCH_DECL_PROTECT(lev); + SYS_ARCH_PROTECT(lev); + + xemacpsif = (xemacpsif_s *)(xemac->state); + free_txrx_pbufs(xemacpsif); + status = XEmacPs_CfgInitialize(&xemacpsif->emacps, mac_config, + mac_config->BaseAddress); + if (status != XST_SUCCESS) { + xil_printf("In %s:EmacPs Configuration Failed....\r\n", __func__); + } + /* initialize the mac */ + init_emacps_on_error(xemacpsif, NetIf); + dmacrreg = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + dmacrreg = dmacrreg | (0x01000000); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET, dmacrreg); + setup_isr(xemac); + init_dma(xemac); + start_emacps(xemacpsif); + + SYS_ARCH_UNPROTECT(lev); +} + +void HandleTxErrors(struct xemac_s *xemac) +{ + xemacpsif_s *xemacpsif; + u32 netctrlreg; + + SYS_ARCH_DECL_PROTECT(lev); + SYS_ARCH_PROTECT(lev); + xemacpsif = (xemacpsif_s *)(xemac->state); + netctrlreg = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + netctrlreg = netctrlreg & (~XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, netctrlreg); + free_onlytx_pbufs(xemacpsif); + + clean_dma_txdescs(xemac); + netctrlreg = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + netctrlreg = netctrlreg | (XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, netctrlreg); + SYS_ARCH_UNPROTECT(lev); +} + +#if LWIP_IPV6 && LWIP_IPV6_MLD +static u8_t xemacpsif_ip6_addr_ismulticast(ip6_addr_t* ip_addr) +{ + if(ip6_addr_ismulticast_linklocal(ip_addr)|| + ip6_addr_ismulticast_iflocal(ip_addr) || + ip6_addr_ismulticast_adminlocal(ip_addr)|| + ip6_addr_ismulticast_sitelocal(ip_addr) || + ip6_addr_ismulticast_orglocal(ip_addr) || + ip6_addr_ismulticast_global(ip_addr)) { + /*Return TRUE if IPv6 is Multicast type*/ + return TRUE; + } else { + return FALSE; + } +} + +static void xemacpsif_mld6_mac_hash_update (struct netif *netif, u8_t *ip_addr, + u8_t action) +{ + u8_t multicast_mac_addr[6]; + struct xemac_s *xemac = (struct xemac_s *) (netif->state); + xemacpsif_s *xemacpsif = (xemacpsif_s *) (xemac->state); + XEmacPs_BdRing *txring; + txring = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + + multicast_mac_addr[0] = LL_IP6_MULTICAST_ADDR_0; + multicast_mac_addr[1] = LL_IP6_MULTICAST_ADDR_1; + multicast_mac_addr[2] = ip_addr[12]; + multicast_mac_addr[3] = ip_addr[13]; + multicast_mac_addr[4] = ip_addr[14]; + multicast_mac_addr[5] = ip_addr[15]; + + /* Wait till all sent packets are acknowledged from HW */ + while(txring->HwCnt); + + SYS_ARCH_DECL_PROTECT(lev); + + SYS_ARCH_PROTECT(lev); + + /* Stop Ethernet */ + XEmacPs_Stop(&xemacpsif->emacps); + + if (action == NETIF_ADD_MAC_FILTER) { + /* Set Mulitcast mac address in hash table */ + XEmacPs_SetHash(&xemacpsif->emacps, multicast_mac_addr); + + } else if (action == NETIF_DEL_MAC_FILTER) { + /* Remove Mulitcast mac address in hash table */ + XEmacPs_DeleteHash(&xemacpsif->emacps, multicast_mac_addr); + } + + /* Reset DMA */ + reset_dma(xemac); + + /* Start Ethernet */ + XEmacPs_Start(&xemacpsif->emacps); + + SYS_ARCH_UNPROTECT(lev); +} + +static err_t xemacpsif_mld6_mac_filter_update (struct netif *netif, ip_addr_t *group, + u8_t action) +{ + u8_t temp_mask; + unsigned int i; + u8_t * ip_addr = (u8_t *) group; + + if(!(xemacpsif_ip6_addr_ismulticast((ip6_addr_t*) ip_addr))) { + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: The requested MAC address is not a multicast address.\r\n", __func__)); LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast address add operation failure !!\r\n")); + return ERR_ARG; + } + if (action == NETIF_ADD_MAC_FILTER) { + for (i = 0; i < XEMACPS_MAX_MAC_ADDR; i++) { + temp_mask = (0x01) << i; + if ((xemacps_mld6_mcast_entry_mask & temp_mask) == temp_mask) { + continue; + } + xemacps_mld6_mcast_entry_mask |= temp_mask; + + /* Update mac address in hash table */ + xemacpsif_mld6_mac_hash_update(netif, ip_addr, action); + + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: Multicast MAC address successfully added.\r\n", __func__)); + + return ERR_OK; + } + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: No multicast address registers left.\r\n", __func__)); + LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast MAC address add operation failure !!\r\n")); + return ERR_MEM; + } else if (action == NETIF_DEL_MAC_FILTER) { + for (i = 0; i < XEMACPS_MAX_MAC_ADDR; i++) { + temp_mask = (0x01) << i; + if ((xemacps_mld6_mcast_entry_mask & temp_mask) != temp_mask) { + continue; + } + xemacps_mld6_mcast_entry_mask &= (~temp_mask); + + /* Update mac address in hash table */ + xemacpsif_mld6_mac_hash_update(netif, ip_addr, action); + + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: Multicast MAC address successfully removed.\r\n", __func__)); + + return ERR_OK; + } + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: No multicast address registers present with\r\n", __func__)); + LWIP_DEBUGF(NETIF_DEBUG, + ("the requested Multicast MAC address.\r\n")); + LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast MAC address removal failure!!.\r\n")); + return ERR_MEM; + } + return ERR_ARG; +} +#endif + +#if LWIP_IGMP +static void xemacpsif_mac_hash_update (struct netif *netif, u8_t *ip_addr, + u8_t action) +{ + u8_t multicast_mac_addr[6]; + struct xemac_s *xemac = (struct xemac_s *) (netif->state); + xemacpsif_s *xemacpsif = (xemacpsif_s *) (xemac->state); + XEmacPs_BdRing *txring; + txring = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + + multicast_mac_addr[0] = 0x01; + multicast_mac_addr[1] = 0x00; + multicast_mac_addr[2] = 0x5E; + multicast_mac_addr[3] = ip_addr[1] & 0x7F; + multicast_mac_addr[4] = ip_addr[2]; + multicast_mac_addr[5] = ip_addr[3]; + + /* Wait till all sent packets are acknowledged from HW */ + while(txring->HwCnt); + + SYS_ARCH_DECL_PROTECT(lev); + + SYS_ARCH_PROTECT(lev); + + /* Stop Ethernet */ + XEmacPs_Stop(&xemacpsif->emacps); + + if (action == IGMP_ADD_MAC_FILTER) { + /* Set Mulitcast mac address in hash table */ + XEmacPs_SetHash(&xemacpsif->emacps, multicast_mac_addr); + + } else if (action == IGMP_DEL_MAC_FILTER) { + /* Remove Mulitcast mac address in hash table */ + XEmacPs_DeleteHash(&xemacpsif->emacps, multicast_mac_addr); + } + + /* Reset DMA */ + reset_dma(xemac); + + /* Start Ethernet */ + XEmacPs_Start(&xemacpsif->emacps); + + SYS_ARCH_UNPROTECT(lev); +} + +static err_t xemacpsif_mac_filter_update (struct netif *netif, ip_addr_t *group, + u8_t action) +{ + u8_t temp_mask; + unsigned int i; + u8_t * ip_addr = (u8_t *) group; + + if ((ip_addr[0] < 224) && (ip_addr[0] > 239)) { + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: The requested MAC address is not a multicast address.\r\n", __func__)); + LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast address add operation failure !!\r\n")); + + return ERR_ARG; + } + + if (action == IGMP_ADD_MAC_FILTER) { + + for (i = 0; i < XEMACPS_MAX_MAC_ADDR; i++) { + temp_mask = (0x01) << i; + if ((xemacps_mcast_entry_mask & temp_mask) == temp_mask) { + continue; + } + xemacps_mcast_entry_mask |= temp_mask; + + /* Update mac address in hash table */ + xemacpsif_mac_hash_update(netif, ip_addr, action); + + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: Multicast MAC address successfully added.\r\n", __func__)); + + return ERR_OK; + } + if (i == XEMACPS_MAX_MAC_ADDR) { + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: No multicast address registers left.\r\n", __func__)); + LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast MAC address add operation failure !!\r\n")); + + return ERR_MEM; + } + } else if (action == IGMP_DEL_MAC_FILTER) { + for (i = 0; i < XEMACPS_MAX_MAC_ADDR; i++) { + temp_mask = (0x01) << i; + if ((xemacps_mcast_entry_mask & temp_mask) != temp_mask) { + continue; + } + xemacps_mcast_entry_mask &= (~temp_mask); + + /* Update mac address in hash table */ + xemacpsif_mac_hash_update(netif, ip_addr, action); + + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: Multicast MAC address successfully removed.\r\n", __func__)); + + return ERR_OK; + } + if (i == XEMACPS_MAX_MAC_ADDR) { + LWIP_DEBUGF(NETIF_DEBUG, + ("%s: No multicast address registers present with\r\n", __func__)); + LWIP_DEBUGF(NETIF_DEBUG, + ("the requested Multicast MAC address.\r\n")); + LWIP_DEBUGF(NETIF_DEBUG, + ("Multicast MAC address removal failure!!.\r\n")); + + return ERR_MEM; + } + } + return ERR_OK; +} +#endif + +/* + * xemacpsif_init(): + * + * Should be called at the beginning of the program to set up the + * network interface. It calls the function low_level_init() to do the + * actual setup of the hardware. + * + */ + +err_t xemacpsif_init(struct netif *netif) +{ +#if LWIP_SNMP + /* ifType ethernetCsmacd(6) @see RFC1213 */ + netif->link_type = 6; + /* your link speed here */ + netif->link_speed = ; + netif->ts = 0; + netif->ifinoctets = 0; + netif->ifinucastpkts = 0; + netif->ifinnucastpkts = 0; + netif->ifindiscards = 0; + netif->ifoutoctets = 0; + netif->ifoutucastpkts = 0; + netif->ifoutnucastpkts = 0; + netif->ifoutdiscards = 0; +#endif + + netif->name[0] = IFNAME0; + netif->name[1] = IFNAME1; + netif->output = xemacpsif_output; + netif->linkoutput = low_level_output; +#if LWIP_IPV6 + netif->output_ip6 = ethip6_output; +#endif + + low_level_init(netif); + return ERR_OK; +} + +/* + * xemacpsif_resetrx_on_no_rxdata(): + * + * Should be called by the user at regular intervals, typically + * from a timer (100 msecond). This is to provide a SW workaround + * for the HW bug (SI #692601). Please refer to the function header + * for the function resetrx_on_no_rxdata in xemacpsif_dma.c to + * know more about the SI. + * + */ + +void xemacpsif_resetrx_on_no_rxdata(struct netif *netif) +{ + struct xemac_s *xemac = (struct xemac_s *)(netif->state); + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + + resetrx_on_no_rxdata(xemacpsif); +} diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_dma.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_dma.c new file mode 100644 index 0000000000..e52f6da6bb --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_dma.c @@ -0,0 +1,873 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#include "lwipopts.h" +#include "lwip/stats.h" +#include "lwip/sys.h" +#include "lwip/inet_chksum.h" + +#include "netif/xadapter.h" +#include "netif/xemacpsif.h" +#include "xstatus.h" + +#include "xlwipconfig.h" +#include "xparameters.h" +#include "xparameters_ps.h" +// #include "xil_exception.h" +#include "xil_mmu.h" +#if defined (ARMR5) +#include "xreg_cortexr5.h" +#endif +#ifdef CONFIG_XTRACE +#include "xtrace.h" +#endif +#ifdef OS_IS_FREERTOS +#include "FreeRTOS.h" +#include "semphr.h" +#include "timers.h" +#endif + +#include + +#define INTC_BASE_ADDR XPAR_SCUGIC_0_CPU_BASEADDR +#define INTC_DIST_BASE_ADDR XPAR_SCUGIC_0_DIST_BASEADDR + +/* Byte alignment of BDs */ +#define BD_ALIGNMENT (XEMACPS_DMABD_MINIMUM_ALIGNMENT*2) + +/* A max of 4 different ethernet interfaces are supported */ +static UINTPTR tx_pbufs_storage[4*XLWIP_CONFIG_N_TX_DESC]; +static UINTPTR rx_pbufs_storage[4*XLWIP_CONFIG_N_RX_DESC]; + +static s32_t emac_intr_num; + +/****************************************************************************** + * Each BD is of 8 bytes of size and the BDs (BD chain) need to be put + * at uncached memory location. If they are not put at uncached + * locations, the user needs to flush or invalidate for each BD/packet. + * However, the flush or invalidate can happen over a cache line which can + * span multiple BDs. This means a flush or invalidate of one BD can actually + * flush/invalidate multiple BDs adjacent to the targeted BD.Assuming that + * the user and hardware both update the BD fields, this operation from user + * can potentially overwrite the updates done by hardware or user. + * To avoid this, it is always safe to put the BD chains for Rx and tx side + * at uncached memory location. + * + * The Xilinx standalone BSP for Cortex A9 implements only primary page tables. + * Each table entry corresponds to 1 MB of address map. This means, if a memory + * region has to be made uncached, the minimum granularity will be of 1 MB. + * + * The implementation below allocates a 1 MB of u8 array aligned to 1 MB. + * This ensures that this array is put at 1 MB aligned memory (e.g. 0x1200000) + * and accupies memory of 1 MB. The init_dma function then changes 1 MB of this + * region to make it uncached (strongly ordered). + * This increases the bss section of the program significantly and can be a + * wastage of memory. The reason beings, BDs will hardly occupy few KBs of + * memory and the rest of 1 MB of memory will be unused. + * + * If a program uses other peripherals that have DMAs/bus masters and need + * uncached memory, they may also end of following the same approach. This + * definitely aggravates the memory wastage issue. To avoid all this, the user + * can create a new 1 MB section in the linker script and reserve it for such + * use cases that need uncached memory location. They can then have their own + * memory allocation logic in their application that allocates uncached memory + * from this 1 MB location. For such a case, changes need to be done in this + * file and appropriate uncached memory allocated through other means can be + * used. + * + * The present implementation here allocates 1 MB of uncached memory. It + * reserves of 64 KB of memory for each BD chain. 64 KB of memory means 8192 of + * BDs for each BD chain which is more than enough for any application. + * Assuming that both emac0 and emac1 are present, 256 KB of memory is allocated + * for BDs. The rest 768 KB of memory is just unused. + *********************************************************************************/ + +#if defined __aarch64__ +u8_t bd_space[0x200000] __attribute__ ((aligned (0x200000))); +#else +u8_t bd_space[0x100000] __attribute__ ((aligned (0x100000))); +#endif +static volatile u32_t bd_space_index = 0; +static volatile u32_t bd_space_attr_set = 0; + +#ifdef OS_IS_FREERTOS +long xInsideISR = 0; +#endif + +#define XEMACPS_BD_TO_INDEX(ringptr, bdptr) \ + (((UINTPTR)bdptr - (UINTPTR)(ringptr)->BaseBdAddr) / (ringptr)->Separation) + + +s32_t is_tx_space_available(xemacpsif_s *emac) +{ + XEmacPs_BdRing *txring; + s32_t freecnt = 0; + + txring = &(XEmacPs_GetTxRing(&emac->emacps)); + + /* tx space is available as long as there are valid BD's */ + freecnt = XEmacPs_BdRingGetFreeCnt(txring); + return freecnt; +} + + +static inline +u32_t get_base_index_txpbufsstorage (xemacpsif_s *xemacpsif) +{ + u32_t index; +#ifdef XPAR_XEMACPS_0_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_0_BASEADDR) { + index = 0; + } +#endif +#ifdef XPAR_XEMACPS_1_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_1_BASEADDR) { + index = XLWIP_CONFIG_N_TX_DESC; + } +#endif +#ifdef XPAR_XEMACPS_2_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_2_BASEADDR) { + index = 2 * XLWIP_CONFIG_N_TX_DESC; + } +#endif +#ifdef XPAR_XEMACPS_3_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_3_BASEADDR) { + index = 3 * XLWIP_CONFIG_N_TX_DESC; + } +#endif + return index; +} + +static inline +u32_t get_base_index_rxpbufsstorage (xemacpsif_s *xemacpsif) +{ + u32_t index; +#ifdef XPAR_XEMACPS_0_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_0_BASEADDR) { + index = 0; + } +#endif +#ifdef XPAR_XEMACPS_1_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_1_BASEADDR) { + index = XLWIP_CONFIG_N_RX_DESC; + } +#endif +#ifdef XPAR_XEMACPS_2_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_2_BASEADDR) { + index = 2 * XLWIP_CONFIG_N_RX_DESC; + } +#endif +#ifdef XPAR_XEMACPS_3_BASEADDR + if (xemacpsif->emacps.Config.BaseAddress == XPAR_XEMACPS_3_BASEADDR) { + index = 3 * XLWIP_CONFIG_N_RX_DESC; + } +#endif + return index; +} + +void process_sent_bds(xemacpsif_s *xemacpsif, XEmacPs_BdRing *txring) +{ + XEmacPs_Bd *txbdset; + XEmacPs_Bd *curbdpntr; + s32_t n_bds; + XStatus status; + s32_t n_pbufs_freed = 0; + u32_t bdindex; + struct pbuf *p; + u32 *temp; + u32_t index; + + index = get_base_index_txpbufsstorage (xemacpsif); + + while (1) { + /* obtain processed BD's */ + n_bds = XEmacPs_BdRingFromHwTx(txring, + XLWIP_CONFIG_N_TX_DESC, &txbdset); + if (n_bds == 0) { + return; + } + /* free the processed BD's */ + n_pbufs_freed = n_bds; + curbdpntr = txbdset; + while (n_pbufs_freed > 0) { + bdindex = XEMACPS_BD_TO_INDEX(txring, curbdpntr); + temp = (u32 *)curbdpntr; + *temp = 0; + temp++; + if (bdindex == (XLWIP_CONFIG_N_TX_DESC - 1)) { + *temp = 0xC0000000; + } else { + *temp = 0x80000000; + } + dsb(); + p = (struct pbuf *)tx_pbufs_storage[index + bdindex]; + if (p != NULL) { + pbuf_free(p); + } + tx_pbufs_storage[index + bdindex] = 0; + curbdpntr = XEmacPs_BdRingNext(txring, curbdpntr); + n_pbufs_freed--; + dsb(); + } + + status = XEmacPs_BdRingFree(txring, n_bds, txbdset); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("Failure while freeing in Tx Done ISR\r\n")); + } + } + return; +} + +void emacps_send_handler(void *arg) +{ + struct xemac_s *xemac; + xemacpsif_s *xemacpsif; + XEmacPs_BdRing *txringptr; + u32_t regval; +#ifdef OS_IS_FREERTOS + xInsideISR++; +#endif + xemac = (struct xemac_s *)(arg); + xemacpsif = (xemacpsif_s *)(xemac->state); + txringptr = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + regval = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_TXSR_OFFSET); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress,XEMACPS_TXSR_OFFSET, regval); + + /* If Transmit done interrupt is asserted, process completed BD's */ + /* Since RT-Thread does not support freeing memory in interrupts, comment it out */ + // process_sent_bds(xemacpsif, txringptr); +#ifdef OS_IS_FREERTOS + xInsideISR--; +#endif +} + +XStatus emacps_sgsend(xemacpsif_s *xemacpsif, struct pbuf *p) +{ + struct pbuf *q; + s32_t n_pbufs; + XEmacPs_Bd *txbdset, *txbd, *last_txbd = NULL; + XEmacPs_Bd *temp_txbd; + XStatus status; + XEmacPs_BdRing *txring; + u32_t bdindex; + u32_t lev; + u32_t index; + u32_t max_fr_size; + + lev = mfcpsr(); + mtcpsr(lev | 0x000000C0); + + txring = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + + index = get_base_index_txpbufsstorage (xemacpsif); + + /* first count the number of pbufs */ + for (q = p, n_pbufs = 0; q != NULL; q = q->next) + n_pbufs++; + + /* obtain as many BD's */ + status = XEmacPs_BdRingAlloc(txring, n_pbufs, &txbdset); + if (status != XST_SUCCESS) { + mtcpsr(lev); + LWIP_DEBUGF(NETIF_DEBUG, ("sgsend: Error allocating TxBD\r\n")); + return XST_FAILURE; + } + + for(q = p, txbd = txbdset; q != NULL; q = q->next) { + bdindex = XEMACPS_BD_TO_INDEX(txring, txbd); + if (tx_pbufs_storage[index + bdindex] != 0) { + mtcpsr(lev); + LWIP_DEBUGF(NETIF_DEBUG, ("PBUFS not available\r\n")); + return XST_FAILURE; + } + + /* Send the data from the pbuf to the interface, one pbuf at a + time. The size of the data in each pbuf is kept in the ->len + variable. */ + if (xemacpsif->emacps.Config.IsCacheCoherent == 0) { + Xil_DCacheFlushRange((UINTPTR)q->payload, (UINTPTR)q->len); + } + + XEmacPs_BdSetAddressTx(txbd, (UINTPTR)q->payload); + +#ifdef ZYNQMP_USE_JUMBO + max_fr_size = MAX_FRAME_SIZE_JUMBO - 18; +#else + max_fr_size = XEMACPS_MAX_FRAME_SIZE - 18; +#endif + if (q->len > max_fr_size) + XEmacPs_BdSetLength(txbd, max_fr_size & 0x3FFF); + else + XEmacPs_BdSetLength(txbd, q->len & 0x3FFF); + + tx_pbufs_storage[index + bdindex] = (UINTPTR)q; + + pbuf_ref(q); + last_txbd = txbd; + XEmacPs_BdClearLast(txbd); + txbd = XEmacPs_BdRingNext(txring, txbd); + } + XEmacPs_BdSetLast(last_txbd); + /* For fragmented packets, remember the 1st BD allocated for the 1st + packet fragment. The used bit for this BD should be cleared at the end + after clearing out used bits for other fragments. For packets without + just remember the allocated BD. */ + temp_txbd = txbdset; + txbd = txbdset; + txbd = XEmacPs_BdRingNext(txring, txbd); + q = p->next; + for(; q != NULL; q = q->next) { + XEmacPs_BdClearTxUsed(txbd); + dsb(); + txbd = XEmacPs_BdRingNext(txring, txbd); + } + XEmacPs_BdClearTxUsed(temp_txbd); + dsb(); + + status = XEmacPs_BdRingToHw(txring, n_pbufs, txbdset); + if (status != XST_SUCCESS) { + mtcpsr(lev); + LWIP_DEBUGF(NETIF_DEBUG, ("sgsend: Error submitting TxBD\r\n")); + return XST_FAILURE; + } + /* Start transmit */ + XEmacPs_WriteReg((xemacpsif->emacps).Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, + (XEmacPs_ReadReg((xemacpsif->emacps).Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET) | XEMACPS_NWCTRL_STARTTX_MASK)); + + mtcpsr(lev); + return status; +} + +void setup_rx_bds(xemacpsif_s *xemacpsif, XEmacPs_BdRing *rxring) +{ + XEmacPs_Bd *rxbd; + XStatus status; + struct pbuf *p; + u32_t freebds; + u32_t bdindex; + u32 *temp; + u32_t index; + + index = get_base_index_rxpbufsstorage (xemacpsif); + + freebds = XEmacPs_BdRingGetFreeCnt (rxring); + while (freebds > 0) { + freebds--; +#ifdef ZYNQMP_USE_JUMBO + p = pbuf_alloc(PBUF_RAW, MAX_FRAME_SIZE_JUMBO, PBUF_POOL); +#else + p = pbuf_alloc(PBUF_RAW, XEMACPS_MAX_FRAME_SIZE, PBUF_POOL); +#endif + if (!p) { +#if LINK_STATS + lwip_stats.link.memerr++; + lwip_stats.link.drop++; +#endif + rt_kprintf("unable to alloc pbuf in recv_handler\r\n"); + return; + } + status = XEmacPs_BdRingAlloc(rxring, 1, &rxbd); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("setup_rx_bds: Error allocating RxBD\r\n")); + pbuf_free(p); + return; + } + status = XEmacPs_BdRingToHw(rxring, 1, rxbd); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("Error committing RxBD to hardware: ")); + if (status == XST_DMA_SG_LIST_ERROR) { + LWIP_DEBUGF(NETIF_DEBUG, ("XST_DMA_SG_LIST_ERROR: this function was called out of sequence with XEmacPs_BdRingAlloc()\r\n")); + } + else { + LWIP_DEBUGF(NETIF_DEBUG, ("set of BDs was rejected because the first BD did not have its start-of-packet bit set, or the last BD did not have its end-of-packet bit set, or any one of the BD set has 0 as length value\r\n")); + } + + pbuf_free(p); + XEmacPs_BdRingUnAlloc(rxring, 1, rxbd); + return; + } +#ifdef ZYNQMP_USE_JUMBO + if (xemacpsif->emacps.Config.IsCacheCoherent == 0) { + Xil_DCacheInvalidateRange((UINTPTR)p->payload, (UINTPTR)MAX_FRAME_SIZE_JUMBO); + } +#else + if (xemacpsif->emacps.Config.IsCacheCoherent == 0) { + Xil_DCacheInvalidateRange((UINTPTR)p->payload, (UINTPTR)XEMACPS_MAX_FRAME_SIZE); + } +#endif + bdindex = XEMACPS_BD_TO_INDEX(rxring, rxbd); + temp = (u32 *)rxbd; + if (bdindex == (XLWIP_CONFIG_N_RX_DESC - 1)) { + *temp = 0x00000002; + } else { + *temp = 0; + } + temp++; + *temp = 0; + dsb(); + + XEmacPs_BdSetAddressRx(rxbd, (UINTPTR)p->payload); + rx_pbufs_storage[index + bdindex] = (UINTPTR)p; + } +} + +void emacps_recv_handler(void *arg) +{ + struct pbuf *p; + XEmacPs_Bd *rxbdset, *curbdptr; + struct xemac_s *xemac; + xemacpsif_s *xemacpsif; + XEmacPs_BdRing *rxring; + volatile s32_t bd_processed; + s32_t rx_bytes, k; + u32_t bdindex; + u32_t regval; + u32_t index; + u32_t gigeversion; + + xemac = (struct xemac_s *)(arg); + xemacpsif = (xemacpsif_s *)(xemac->state); + rxring = &XEmacPs_GetRxRing(&xemacpsif->emacps); + +#ifdef OS_IS_FREERTOS + xInsideISR++; +#endif + + gigeversion = ((Xil_In32(xemacpsif->emacps.Config.BaseAddress + 0xFC)) >> 16) & 0xFFF; + index = get_base_index_rxpbufsstorage (xemacpsif); + /* + * If Reception done interrupt is asserted, call RX call back function + * to handle the processed BDs and then raise the according flag. + */ + regval = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_RXSR_OFFSET); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_RXSR_OFFSET, regval); + if (gigeversion <= 2) { + resetrx_on_no_rxdata(xemacpsif); + } + + while(1) { + + bd_processed = XEmacPs_BdRingFromHwRx(rxring, XLWIP_CONFIG_N_RX_DESC, &rxbdset); + if (bd_processed <= 0) { + break; + } + for (k = 0, curbdptr=rxbdset; k < bd_processed; k++) { + + bdindex = XEMACPS_BD_TO_INDEX(rxring, curbdptr); + p = (struct pbuf *)rx_pbufs_storage[index + bdindex]; + /* + * Adjust the buffer size to the actual number of bytes received. + */ +#ifdef ZYNQMP_USE_JUMBO + rx_bytes = XEmacPs_GetRxFrameSize(&xemacpsif->emacps, curbdptr); +#else + rx_bytes = XEmacPs_BdGetLength(curbdptr); +#endif + pbuf_realloc(p, rx_bytes); + /* Invalidate RX frame before queuing to handle + * L1 cache prefetch conditions on any architecture. + */ + Xil_DCacheInvalidateRange((UINTPTR)p->payload, rx_bytes); + /* store it in the receive queue, + * where it'll be processed by a different handler + */ + if (pq_enqueue(xemacpsif->recv_q, (void*)p) < 0) { +#if LINK_STATS + lwip_stats.link.memerr++; + lwip_stats.link.drop++; +#endif + pbuf_free(p); + } + curbdptr = XEmacPs_BdRingNext( rxring, curbdptr); + } + /* free up the BD's */ + XEmacPs_BdRingFree(rxring, bd_processed, rxbdset); + setup_rx_bds(xemacpsif, rxring); +#if 0 + sys_sem_signal(&xemac->sem_rx_data_available); +#else + eth_device_ready(xemac->rt_eth_device); +#endif + } + +#ifdef OS_IS_FREERTOS + xInsideISR--; +#endif + return; +} + +void clean_dma_txdescs(struct xemac_s *xemac) +{ + XEmacPs_Bd bdtemplate; + XEmacPs_BdRing *txringptr; + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + + txringptr = &XEmacPs_GetTxRing(&xemacpsif->emacps); + + XEmacPs_BdClear(&bdtemplate); + XEmacPs_BdSetStatus(&bdtemplate, XEMACPS_TXBUF_USED_MASK); + + /* + * Create the TxBD ring + */ + XEmacPs_BdRingCreate(txringptr, (UINTPTR) xemacpsif->tx_bdspace, + (UINTPTR) xemacpsif->tx_bdspace, BD_ALIGNMENT, + XLWIP_CONFIG_N_TX_DESC); + XEmacPs_BdRingClone(txringptr, &bdtemplate, XEMACPS_SEND); +} + +XStatus init_dma(struct xemac_s *xemac) +{ + XEmacPs_Bd bdtemplate; + XEmacPs_BdRing *rxringptr, *txringptr; + XEmacPs_Bd *rxbd; + struct pbuf *p; + XStatus status; + s32_t i; + u32_t bdindex; + volatile UINTPTR tempaddress; + u32_t index; + u32_t gigeversion; + XEmacPs_Bd *bdtxterminate; + XEmacPs_Bd *bdrxterminate; + u32 *temp; + + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + struct xtopology_t *xtopologyp = &xtopology[xemac->topology_index]; + + index = get_base_index_rxpbufsstorage (xemacpsif); + gigeversion = ((Xil_In32(xemacpsif->emacps.Config.BaseAddress + 0xFC)) >> 16) & 0xFFF; + /* + * The BDs need to be allocated in uncached memory. Hence the 1 MB + * address range allocated for Bd_Space is made uncached + * by setting appropriate attributes in the translation table. + * The Bd_Space is aligned to 1MB and has a size of 1 MB. This ensures + * a reserved uncached area used only for BDs. + */ + if (bd_space_attr_set == 0) { +#if defined (ARMR5) + Xil_SetTlbAttributes((s32_t)bd_space, STRONG_ORDERD_SHARED | PRIV_RW_USER_RW); // addr, attr +#else +#if defined __aarch64__ + Xil_SetTlbAttributes((u64)bd_space, NORM_NONCACHE | INNER_SHAREABLE); +#else + Xil_SetTlbAttributes((s32_t)bd_space, DEVICE_MEMORY); // addr, attr +#endif +#endif + bd_space_attr_set = 1; + } + + rxringptr = &XEmacPs_GetRxRing(&xemacpsif->emacps); + txringptr = &XEmacPs_GetTxRing(&xemacpsif->emacps); + LWIP_DEBUGF(NETIF_DEBUG, ("rxringptr: 0x%08x\r\n", rxringptr)); + LWIP_DEBUGF(NETIF_DEBUG, ("txringptr: 0x%08x\r\n", txringptr)); + + /* Allocate 64k for Rx and Tx bds each to take care of extreme cases */ + tempaddress = (UINTPTR)&(bd_space[bd_space_index]); + xemacpsif->rx_bdspace = (void *)tempaddress; + bd_space_index += 0x10000; + tempaddress = (UINTPTR)&(bd_space[bd_space_index]); + xemacpsif->tx_bdspace = (void *)tempaddress; + bd_space_index += 0x10000; + if (gigeversion > 2) { + tempaddress = (UINTPTR)&(bd_space[bd_space_index]); + bdrxterminate = (XEmacPs_Bd *)tempaddress; + bd_space_index += 0x10000; + tempaddress = (UINTPTR)&(bd_space[bd_space_index]); + bdtxterminate = (XEmacPs_Bd *)tempaddress; + bd_space_index += 0x10000; + } + + LWIP_DEBUGF(NETIF_DEBUG, ("rx_bdspace: %p \r\n", xemacpsif->rx_bdspace)); + LWIP_DEBUGF(NETIF_DEBUG, ("tx_bdspace: %p \r\n", xemacpsif->tx_bdspace)); + + if (!xemacpsif->rx_bdspace || !xemacpsif->tx_bdspace) { + xil_printf("%s@%d: Error: Unable to allocate memory for TX/RX buffer descriptors", + __FILE__, __LINE__); + return ERR_IF; + } + + /* + * Setup RxBD space. + * + * Setup a BD template for the Rx channel. This template will be copied to + * every RxBD. We will not have to explicitly set these again. + */ + XEmacPs_BdClear(&bdtemplate); + + /* + * Create the RxBD ring + */ + + status = XEmacPs_BdRingCreate(rxringptr, (UINTPTR) xemacpsif->rx_bdspace, + (UINTPTR) xemacpsif->rx_bdspace, BD_ALIGNMENT, + XLWIP_CONFIG_N_RX_DESC); + + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("Error setting up RxBD space\r\n")); + return ERR_IF; + } + + status = XEmacPs_BdRingClone(rxringptr, &bdtemplate, XEMACPS_RECV); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("Error initializing RxBD space\r\n")); + return ERR_IF; + } + + XEmacPs_BdClear(&bdtemplate); + XEmacPs_BdSetStatus(&bdtemplate, XEMACPS_TXBUF_USED_MASK); + /* + * Create the TxBD ring + */ + status = XEmacPs_BdRingCreate(txringptr, (UINTPTR) xemacpsif->tx_bdspace, + (UINTPTR) xemacpsif->tx_bdspace, BD_ALIGNMENT, + XLWIP_CONFIG_N_TX_DESC); + + if (status != XST_SUCCESS) { + return ERR_IF; + } + + /* We reuse the bd template, as the same one will work for both rx and tx. */ + status = XEmacPs_BdRingClone(txringptr, &bdtemplate, XEMACPS_SEND); + if (status != XST_SUCCESS) { + return ERR_IF; + } + + /* + * Allocate RX descriptors, 1 RxBD at a time. + */ + for (i = 0; i < XLWIP_CONFIG_N_RX_DESC; i++) { +#ifdef ZYNQMP_USE_JUMBO + p = pbuf_alloc(PBUF_RAW, MAX_FRAME_SIZE_JUMBO, PBUF_POOL); +#else + p = pbuf_alloc(PBUF_RAW, XEMACPS_MAX_FRAME_SIZE, PBUF_POOL); +#endif + if (!p) { +#if LINK_STATS + lwip_stats.link.memerr++; + lwip_stats.link.drop++; +#endif + rt_kprintf("unable to alloc pbuf in init_dma\r\n"); + return ERR_IF; + } + status = XEmacPs_BdRingAlloc(rxringptr, 1, &rxbd); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("init_dma: Error allocating RxBD\r\n")); + pbuf_free(p); + return ERR_IF; + } + /* Enqueue to HW */ + status = XEmacPs_BdRingToHw(rxringptr, 1, rxbd); + if (status != XST_SUCCESS) { + LWIP_DEBUGF(NETIF_DEBUG, ("Error: committing RxBD to HW\r\n")); + pbuf_free(p); + XEmacPs_BdRingUnAlloc(rxringptr, 1, rxbd); + return ERR_IF; + } + + bdindex = XEMACPS_BD_TO_INDEX(rxringptr, rxbd); + temp = (u32 *)rxbd; + *temp = 0; + if (bdindex == (XLWIP_CONFIG_N_RX_DESC - 1)) { + *temp = 0x00000002; + } + temp++; + *temp = 0; + dsb(); +#ifdef ZYNQMP_USE_JUMBO + if (xemacpsif->emacps.Config.IsCacheCoherent == 0) { + Xil_DCacheInvalidateRange((UINTPTR)p->payload, (UINTPTR)MAX_FRAME_SIZE_JUMBO); + } +#else + if (xemacpsif->emacps.Config.IsCacheCoherent == 0) { + Xil_DCacheInvalidateRange((UINTPTR)p->payload, (UINTPTR)XEMACPS_MAX_FRAME_SIZE); + } +#endif + XEmacPs_BdSetAddressRx(rxbd, (UINTPTR)p->payload); + + rx_pbufs_storage[index + bdindex] = (UINTPTR)p; + } + XEmacPs_SetQueuePtr(&(xemacpsif->emacps), xemacpsif->emacps.RxBdRing.BaseBdAddr, 0, XEMACPS_RECV); + if (gigeversion > 2) { + XEmacPs_SetQueuePtr(&(xemacpsif->emacps), xemacpsif->emacps.TxBdRing.BaseBdAddr, 1, XEMACPS_SEND); + }else { + XEmacPs_SetQueuePtr(&(xemacpsif->emacps), xemacpsif->emacps.TxBdRing.BaseBdAddr, 0, XEMACPS_SEND); + } + if (gigeversion > 2) + { + /* + * This version of GEM supports priority queuing and the current + * driver is using tx priority queue 1 and normal rx queue for + * packet transmit and receive. The below code ensure that the + * other queue pointers are parked to known state for avoiding + * the controller to malfunction by fetching the descriptors + * from these queues. + */ + XEmacPs_BdClear(bdrxterminate); + XEmacPs_BdSetAddressRx(bdrxterminate, (XEMACPS_RXBUF_NEW_MASK | + XEMACPS_RXBUF_WRAP_MASK)); + XEmacPs_Out32((xemacpsif->emacps.Config.BaseAddress + XEMACPS_RXQ1BASE_OFFSET), + (UINTPTR)bdrxterminate); + XEmacPs_BdClear(bdtxterminate); + XEmacPs_BdSetStatus(bdtxterminate, (XEMACPS_TXBUF_USED_MASK | + XEMACPS_TXBUF_WRAP_MASK)); + XEmacPs_Out32((xemacpsif->emacps.Config.BaseAddress + XEMACPS_TXQBASE_OFFSET), + (UINTPTR)bdtxterminate); + } + + /* + * Connect the device driver handler that will be called when an + * interrupt for the device occurs, the handler defined above performs + * the specific interrupt processing for the device. + */ + // XScuGic_RegisterHandler(INTC_BASE_ADDR, xtopologyp->scugic_emac_intr, + // (Xil_ExceptionHandler)XEmacPs_IntrHandler, + // (void *)&xemacpsif->emacps); + /* + * Enable the interrupt for emacps. + */ + // XScuGic_EnableIntr(INTC_DIST_BASE_ADDR, (u32) xtopologyp->scugic_emac_intr); + emac_intr_num = (u32) xtopologyp->scugic_emac_intr; + return 0; +} + +/* + * resetrx_on_no_rxdata(): + * + * It is called at regular intervals through the API xemacpsif_resetrx_on_no_rxdata + * called by the user. + * The EmacPs has a HW bug (SI# 692601) on the Rx path for heavy Rx traffic. + * Under heavy Rx traffic because of the HW bug there are times when the Rx path + * becomes unresponsive. The workaround for it is to check for the Rx path for + * traffic (by reading the stats registers regularly). If the stats register + * does not increment for sometime (proving no Rx traffic), the function resets + * the Rx data path. + * + */ + +void resetrx_on_no_rxdata(xemacpsif_s *xemacpsif) +{ + u32_t regctrl; + u32_t tempcntr; + u32_t gigeversion; + + gigeversion = ((Xil_In32(xemacpsif->emacps.Config.BaseAddress + 0xFC)) >> 16) & 0xFFF; + if (gigeversion == 2) { + tempcntr = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_RXCNT_OFFSET); + if ((!tempcntr) && (!(xemacpsif->last_rx_frms_cntr))) { + regctrl = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + regctrl &= (~XEMACPS_NWCTRL_RXEN_MASK); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, regctrl); + regctrl = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_NWCTRL_OFFSET); + regctrl |= (XEMACPS_NWCTRL_RXEN_MASK); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, XEMACPS_NWCTRL_OFFSET, regctrl); + } + xemacpsif->last_rx_frms_cntr = tempcntr; + } +} + +void free_txrx_pbufs(xemacpsif_s *xemacpsif) +{ + s32_t index; + s32_t index1; + struct pbuf *p; + + index1 = get_base_index_txpbufsstorage (xemacpsif); + + for (index = index1; index < (index1 + XLWIP_CONFIG_N_TX_DESC); index++) { + if (tx_pbufs_storage[index] != 0) { + p = (struct pbuf *)tx_pbufs_storage[index]; + pbuf_free(p); + tx_pbufs_storage[index] = 0; + } + } + + for (index = index1; index < (index1 + XLWIP_CONFIG_N_TX_DESC); index++) { + p = (struct pbuf *)rx_pbufs_storage[index]; + pbuf_free(p); + + } +} + +void free_onlytx_pbufs(xemacpsif_s *xemacpsif) +{ + s32_t index; + s32_t index1; + struct pbuf *p; + + index1 = get_base_index_txpbufsstorage (xemacpsif); + for (index = index1; index < (index1 + XLWIP_CONFIG_N_TX_DESC); index++) { + if (tx_pbufs_storage[index] != 0) { + p = (struct pbuf *)tx_pbufs_storage[index]; + pbuf_free(p); + tx_pbufs_storage[index] = 0; + } + } +} + +/* reset Tx and Rx DMA pointers after XEmacPs_Stop */ +void reset_dma(struct xemac_s *xemac) +{ + u8 txqueuenum; + u32_t gigeversion; + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + XEmacPs_BdRing *txringptr = &XEmacPs_GetTxRing(&xemacpsif->emacps); + XEmacPs_BdRing *rxringptr = &XEmacPs_GetRxRing(&xemacpsif->emacps); + + XEmacPs_BdRingPtrReset(txringptr, xemacpsif->tx_bdspace); + XEmacPs_BdRingPtrReset(rxringptr, xemacpsif->rx_bdspace); + + gigeversion = ((Xil_In32(xemacpsif->emacps.Config.BaseAddress + 0xFC)) >> 16) & 0xFFF; + if (gigeversion > 2) { + txqueuenum = 1; + } else { + txqueuenum = 0; + } + + XEmacPs_SetQueuePtr(&(xemacpsif->emacps), xemacpsif->emacps.RxBdRing.BaseBdAddr, 0, XEMACPS_RECV); + XEmacPs_SetQueuePtr(&(xemacpsif->emacps), xemacpsif->emacps.TxBdRing.BaseBdAddr, txqueuenum, XEMACPS_SEND); +} + +void emac_disable_intr(void) +{ + // XScuGic_DisableIntr(INTC_DIST_BASE_ADDR, emac_intr_num); + rt_hw_interrupt_mask(emac_intr_num); +} + +void emac_enable_intr(void) +{ + // XScuGic_EnableIntr(INTC_DIST_BASE_ADDR, emac_intr_num); + rt_hw_interrupt_umask(emac_intr_num); +} diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.c new file mode 100644 index 0000000000..a1bef1faa1 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.c @@ -0,0 +1,276 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#include "netif/xemacpsif.h" +#include "lwipopts.h" + +#if XPAR_GIGE_PCS_PMA_1000BASEX_CORE_PRESENT == 1 || \ + XPAR_GIGE_PCS_PMA_SGMII_CORE_PRESENT == 1 +#define PCM_PMA_CORE_PRESENT +#else +#undef PCM_PMA_CORE_PRESENT +#endif + +u32_t link_speed = 100; +extern XEmacPs_Config XEmacPs_ConfigTable[]; +extern u32_t phymapemac0[32]; +extern u32_t phymapemac1[32]; +extern u32_t phyaddrforemac; +extern enum ethernet_link_status eth_link_status; + +#ifdef OS_IS_FREERTOS +extern long xInsideISR; +#endif + +XEmacPs_Config *xemacps_lookup_config(unsigned mac_base) +{ + XEmacPs_Config *cfgptr = NULL; + s32_t i; + + for (i = 0; i < XPAR_XEMACPS_NUM_INSTANCES; i++) { + if (XEmacPs_ConfigTable[i].BaseAddress == mac_base) { + cfgptr = &XEmacPs_ConfigTable[i]; + break; + } + } + + return (cfgptr); +} + +void init_emacps(xemacpsif_s *xemacps, struct netif *netif) +{ + XEmacPs *xemacpsp; + s32_t status = XST_SUCCESS; + u32_t i; + u32_t phyfoundforemac0 = FALSE; + u32_t phyfoundforemac1 = FALSE; + + xemacpsp = &xemacps->emacps; + +#ifdef ZYNQMP_USE_JUMBO + XEmacPs_SetOptions(xemacpsp, XEMACPS_JUMBO_ENABLE_OPTION); +#endif + +#ifdef LWIP_IGMP + XEmacPs_SetOptions(xemacpsp, XEMACPS_MULTICAST_OPTION); +#endif + + /* set mac address */ + status = XEmacPs_SetMacAddress(xemacpsp, (void*)(netif->hwaddr), 1); + if (status != XST_SUCCESS) { + xil_printf("In %s:Emac Mac Address set failed...\r\n",__func__); + } + + XEmacPs_SetMdioDivisor(xemacpsp, MDC_DIV_224); + +/* Please refer to file header comments for the file xemacpsif_physpeed.c + * to know more about the PHY programming sequence. + * For PCS PMA core, phy_setup_emacps is called with the predefined PHY address + * exposed through xaparemeters.h + * For RGMII case, assuming multiple PHYs can be present on the MDIO bus, + * detect_phy is called to get the addresses of the PHY present on + * a particular MDIO bus (emac0 or emac1). This address map is populated + * in phymapemac0 or phymapemac1. + * phy_setup_emacps is then called for each PHY present on the MDIO bus. + */ +#ifdef PCM_PMA_CORE_PRESENT +#ifdef XPAR_GIGE_PCS_PMA_1000BASEX_CORE_PRESENT + link_speed = phy_setup_emacps(xemacpsp, XPAR_PCSPMA_1000BASEX_PHYADDR); +#elif XPAR_GIGE_PCS_PMA_SGMII_CORE_PRESENT + link_speed = phy_setup_emacps(xemacpsp, XPAR_PCSPMA_SGMII_PHYADDR); +#endif +#else + detect_phy(xemacpsp); + for (i = 31; i > 0; i--) { + if (xemacpsp->Config.BaseAddress == XPAR_XEMACPS_0_BASEADDR) { + if (phymapemac0[i] == TRUE) { + link_speed = phy_setup_emacps(xemacpsp, i); + phyfoundforemac0 = TRUE; + phyaddrforemac = i; + } + } else { + if (phymapemac1[i] == TRUE) { + link_speed = phy_setup_emacps(xemacpsp, i); + phyfoundforemac1 = TRUE; + phyaddrforemac = i; + } + } + } + /* If no PHY was detected, use broadcast PHY address of 0 */ + if (xemacpsp->Config.BaseAddress == XPAR_XEMACPS_0_BASEADDR) { + if (phyfoundforemac0 == FALSE) + link_speed = phy_setup_emacps(xemacpsp, 0); + } else { + if (phyfoundforemac1 == FALSE) + link_speed = phy_setup_emacps(xemacpsp, 0); + } +#endif + + if (link_speed == XST_FAILURE) { + eth_link_status = ETH_LINK_DOWN; + xil_printf("Phy setup failure %s \n\r",__func__); + return; + } else { + eth_link_status = ETH_LINK_UP; + } + + XEmacPs_SetOperatingSpeed(xemacpsp, link_speed); + /* Setting the operating speed of the MAC needs a delay. */ + { + volatile s32_t wait; + for (wait=0; wait < 20000; wait++); + } +} + +void init_emacps_on_error (xemacpsif_s *xemacps, struct netif *netif) +{ + XEmacPs *xemacpsp; + s32_t status = XST_SUCCESS; + + xemacpsp = &xemacps->emacps; + + /* set mac address */ + status = XEmacPs_SetMacAddress(xemacpsp, (void*)(netif->hwaddr), 1); + if (status != XST_SUCCESS) { + xil_printf("In %s:Emac Mac Address set failed...\r\n",__func__); + } + + XEmacPs_SetOperatingSpeed(xemacpsp, link_speed); + + /* Setting the operating speed of the MAC needs a delay. */ + { + volatile s32_t wait; + for (wait=0; wait < 20000; wait++); + } +} + +void setup_isr (struct xemac_s *xemac) +{ + xemacpsif_s *xemacpsif; + + xemacpsif = (xemacpsif_s *)(xemac->state); + /* + * Setup callbacks + */ + XEmacPs_SetHandler(&xemacpsif->emacps, XEMACPS_HANDLER_DMASEND, + (void *) emacps_send_handler, + (void *) xemac); + + XEmacPs_SetHandler(&xemacpsif->emacps, XEMACPS_HANDLER_DMARECV, + (void *) emacps_recv_handler, + (void *) xemac); + + XEmacPs_SetHandler(&xemacpsif->emacps, XEMACPS_HANDLER_ERROR, + (void *) emacps_error_handler, + (void *) xemac); +} + +void start_emacps (xemacpsif_s *xemacps) +{ + /* start the temac */ + XEmacPs_Start(&xemacps->emacps); +} + +void restart_emacps_transmitter (xemacpsif_s *xemacps) { + u32_t Reg; + Reg = XEmacPs_ReadReg(xemacps->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg = Reg & (~XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(xemacps->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); + + Reg = XEmacPs_ReadReg(xemacps->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET); + Reg = Reg | (XEMACPS_NWCTRL_TXEN_MASK); + XEmacPs_WriteReg(xemacps->emacps.Config.BaseAddress, + XEMACPS_NWCTRL_OFFSET, Reg); +} + +void emacps_error_handler(void *arg,u8 Direction, u32 ErrorWord) +{ + struct xemac_s *xemac; + xemacpsif_s *xemacpsif; + XEmacPs_BdRing *rxring; + XEmacPs_BdRing *txring; +#ifdef OS_IS_FREERTOS + xInsideISR++; +#endif + + xemac = (struct xemac_s *)(arg); + xemacpsif = (xemacpsif_s *)(xemac->state); + rxring = &XEmacPs_GetRxRing(&xemacpsif->emacps); + txring = &XEmacPs_GetTxRing(&xemacpsif->emacps); + + if (ErrorWord != 0) { + switch (Direction) { + case XEMACPS_RECV: + if (ErrorWord & XEMACPS_RXSR_HRESPNOK_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Receive DMA error\r\n")); + HandleEmacPsError(xemac); + } + if (ErrorWord & XEMACPS_RXSR_RXOVR_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Receive over run\r\n")); + emacps_recv_handler(arg); + setup_rx_bds(xemacpsif, rxring); + } + if (ErrorWord & XEMACPS_RXSR_BUFFNA_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Receive buffer not available\r\n")); + emacps_recv_handler(arg); + setup_rx_bds(xemacpsif, rxring); + } + break; + case XEMACPS_SEND: + if (ErrorWord & XEMACPS_TXSR_HRESPNOK_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Transmit DMA error\r\n")); + HandleEmacPsError(xemac); + } + if (ErrorWord & XEMACPS_TXSR_URUN_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Transmit under run\r\n")); + HandleTxErrors(xemac); + } + if (ErrorWord & XEMACPS_TXSR_BUFEXH_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Transmit buffer exhausted\r\n")); + HandleTxErrors(xemac); + } + if (ErrorWord & XEMACPS_TXSR_RXOVR_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Transmit retry excessed limits\r\n")); + HandleTxErrors(xemac); + } + if (ErrorWord & XEMACPS_TXSR_FRAMERX_MASK) { + LWIP_DEBUGF(NETIF_DEBUG, ("Transmit collision\r\n")); + // process_sent_bds(xemacpsif, txring); + } + break; + } + } +#ifdef OS_IS_FREERTOS + xInsideISR--; +#endif +} diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.h new file mode 100644 index 0000000000..64f7771494 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_hw.h @@ -0,0 +1,49 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#ifndef __XEMACPSIF_HW_H_ +#define __XEMACPSIF_HW_H_ + +#include "netif/xemacpsif.h" +#include "lwip/netif.h" + +#ifdef __cplusplus +extern "C" { +#endif + +XEmacPs_Config * lookup_config(unsigned mac_base); + +void init_emacps(xemacpsif_s *xemacpsif, struct netif *netif); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_physpeed.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_physpeed.c new file mode 100644 index 0000000000..9113e3fecb --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xemacpsif_physpeed.c @@ -0,0 +1,1152 @@ +/* + * Copyright (C) 2010 - 2019 Xilinx, Inc. + * Copyright (C) 2021 WangHuachen. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +/***************************************************************************** +* This file xemacpsif_physpeed.c implements functionalities to: +* - Detect the available PHYs connected to a MAC +* - Negotiate speed +* - Configure speed +* - Configure the SLCR registers for the negotiated speed +* +* In a typical use case, users of the APIs implemented in this file need to +* do the following. +* - Call the API detect_phy. It probes for the available PHYs connected to a MAC. +* The MACs can be Emac0 (XPAR_XEMACPS_0_BASEADDR, 0xE000B000) or Emac1 +* (XPAR_XEMACPS_0_BASEADDR, 0xE000C000). It populates an array to notify +* about the detected PHYs. The array phymapemac0 is used for Emac0 and +* phymapemac1 is for Emac1. +* - The users need to parse the corresponding arrays, phymapemac0 or phymapemac1 +* to know the available PHYs for a MAC. The users then need to call +* phy_setup_emacps to setup the PHYs for proper speed setting. The API +* phy_setup_emacps should be called with the PHY address for which the speed +* needs to be negotiated or configured. In a specific use case, if 2 PHYs are +* connected to Emac0 with addresses of 7 and 11, then users get these address +* details from phymapemac0 (after calling detect_phy) and then call +* phy_setup_emacps twice, with ab address of 7 and 11. +* - Points to note: The MAC can operate at only one speed. If a MAC is connected +* to multiple PHYs, then all PHYs must negotiate and configured for the same +* speed. +* - This file implements static functions to set proper SLCR clocks. As stated +* above, all PHYs connected to a PHY must operate at same speed and the SLCR +* clock will be setup accordingly. +* +* This file implements the following PHY types. +* - The standard RGMII. +* - It provides support for GMII to RGMII converter Xilinx IP. This Xilinx IP +* sits on the MDIO bus with a predefined PHY address. This IP exposes register +* that needs to be programmed with the negotiated speed. +* For example, in a typical design, the Emac0 or Emac1 exposes GMII interface. +* The user can then use the Xilinx IP that converts GMII to RGMII. +* The external PHY (most typically Marvell 88E1116R) negotiates for speed +* with the remote PHY. The implementation in this file then programs the +* Xilinx IP with this negotiated speed. The Xilinx IP has a predefined IP +* address exposed through xparameters.h +* - The SGMII and 1000 BaseX PHY interfaces. +* If the PHY interface is SGMII or 1000 BaseX a separate "get_IEEE_phy_speed" +* is used which is different from standard RGMII "get_IEEE_phy_speed". +* The 1000 BaseX always operates at 1000 Mbps. The SGMII interface can +* negotiate speed accordingly. +* For SGMII or 1000 BaseX interfaces, the detect_phy should not be called. +* The phy addresses for these interfaces are fixed at the design time. +* +* Point to note: +* A MAC can not be connected to PHYs where there is a mix between +* SGMII or 1000 Basex or GMII/MII/RGMII. +* In a typical multiple PHY designs, it is expected that the PHYs connected +* will be RGMII or GMII. +* +* The users can choose not to negotiate speed from lwip settings GUI. +* If they opt to choose a particular PHY speed, then the PHY will hard code +* the speed to operate only at the corresponding speed. It will not advertise +* any other speeds. It is users responsibility to ensure that the remote PHY +* supports the speed programmed through the lwip gui. +* +* The following combination of MDIO/PHY are supported: +* - Multiple PHYs connected to the MDIO bus of a MAC. If Emac0 MDIO is connected +* to single/multiple PHYs, it is supported. Similarly Emac1 MDIO connected to +* single/multiple PHYs is supported. +* - A design where both the interfaces are present and are connected to their own +* MDIO bus is supported. +* +* The following MDIO/PHY setup is not supported: +* - A design has both the MACs present. MDIO bus is available only for one MAC +* (Emac0 or Emac1). This MDIO bus has multiple PHYs available for both the +* MACs. The negotiated speed for PHYs sitting on the MDIO bus of one MAC will +* not be see for the other MAC and hence the speed/SLCR settings of the other +* MAC cannot be programmed. Hence this kind of design will not work for +* this implementation. +* +********************************************************************************/ + +#include "netif/xemacpsif.h" +#include "lwipopts.h" +#include "xparameters_ps.h" +#include "xparameters.h" +#include "xemac_ieee_reg.h" + +#if defined (__aarch64__) +#include "bspconfig.h" +#include "xil_smc.h" +#endif + +#define CONFIG_LINKSPEED_AUTODETECT 1 + +#define PHY_DETECT_REG 1 +#define PHY_IDENTIFIER_1_REG 2 +#define PHY_IDENTIFIER_2_REG 3 +#define PHY_DETECT_MASK 0x1808 +#define PHY_MARVELL_IDENTIFIER 0x0141 +#define PHY_TI_IDENTIFIER 0x2000 +#define PHY_REALTEK_IDENTIFIER 0x001c +#define PHY_XILINX_PCS_PMA_ID1 0x0174 +#define PHY_XILINX_PCS_PMA_ID2 0x0C00 + +#define XEMACPS_GMII2RGMII_SPEED1000_FD 0x140 +#define XEMACPS_GMII2RGMII_SPEED100_FD 0x2100 +#define XEMACPS_GMII2RGMII_SPEED10_FD 0x100 +#define XEMACPS_GMII2RGMII_REG_NUM 0x10 + +#define PHY_REGCR 0x0D +#define PHY_ADDAR 0x0E +#define PHY_RGMIIDCTL 0x86 +#define PHY_RGMIICTL 0x32 +#define PHY_STS 0x11 +#define PHY_TI_CR 0x10 +#define PHY_TI_CFG4 0x31 + +#define MICREL_PHY_IDENTIFIER 0x22 +#define MICREL_PHY_KSZ9031_MODEL 0x220 + +#define PHY_REGCR_ADDR 0x001F +#define PHY_REGCR_DATA 0x401F +#define PHY_TI_CRVAL 0x5048 +#define PHY_TI_CFG4RESVDBIT7 0x80 + +/* Frequency setting */ +#define SLCR_LOCK_ADDR (XPS_SYS_CTRL_BASEADDR + 0x4) +#define SLCR_UNLOCK_ADDR (XPS_SYS_CTRL_BASEADDR + 0x8) +#define SLCR_GEM0_CLK_CTRL_ADDR (XPS_SYS_CTRL_BASEADDR + 0x140) +#define SLCR_GEM1_CLK_CTRL_ADDR (XPS_SYS_CTRL_BASEADDR + 0x144) +#define SLCR_GEM_SRCSEL_EMIO 0x40 +#define SLCR_LOCK_KEY_VALUE 0x767B +#define SLCR_UNLOCK_KEY_VALUE 0xDF0D +#define SLCR_ADDR_GEM_RST_CTRL (XPS_SYS_CTRL_BASEADDR + 0x214) +#define EMACPS_SLCR_DIV_MASK 0xFC0FC0FF + +#if XPAR_GIGE_PCS_PMA_1000BASEX_CORE_PRESENT == 1 || \ + XPAR_GIGE_PCS_PMA_SGMII_CORE_PRESENT == 1 +#define PCM_PMA_CORE_PRESENT +#else +#undef PCM_PMA_CORE_PRESENT +#endif + +#ifdef PCM_PMA_CORE_PRESENT +#define IEEE_CTRL_RESET 0x9140 +#define IEEE_CTRL_ISOLATE_DISABLE 0xFBFF +#endif + +u32_t phymapemac0[32]; +u32_t phymapemac1[32]; + +#if defined (PCM_PMA_CORE_PRESENT) || defined (CONFIG_LINKSPEED_AUTODETECT) +static u32_t get_IEEE_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr); +#endif +static void SetUpSLCRDivisors(u32_t mac_baseaddr, s32_t speed); +#if defined (CONFIG_LINKSPEED1000) || defined (CONFIG_LINKSPEED100) \ + || defined (CONFIG_LINKSPEED10) +static u32_t configure_IEEE_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr, u32_t speed); +#endif + +#ifdef PCM_PMA_CORE_PRESENT +u32_t phy_setup_emacps (XEmacPs *xemacpsp, u32_t phy_addr) +{ + u32_t link_speed; + u16_t regval; + u16_t phy_id; + + if(phy_addr == 0) { + for (phy_addr = 31; phy_addr > 0; phy_addr--) { + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_IDENTIFIER_1_REG, + &phy_id); + + if (phy_id == PHY_XILINX_PCS_PMA_ID1) { + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_IDENTIFIER_2_REG, + &phy_id); + if (phy_id == PHY_XILINX_PCS_PMA_ID2) { + /* Found a valid PHY address */ + LWIP_DEBUGF(NETIF_DEBUG, ("XEmacPs detect_phy: PHY detected at address %d.\r\n", + phy_addr)); + break; + } + } + } + } + + link_speed = get_IEEE_phy_speed(xemacpsp, phy_addr); + if (link_speed == 1000) + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,1000); + else if (link_speed == 100) + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,100); + else + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,10); + + xil_printf("link speed for phy address %d: %d\r\n", phy_addr, link_speed); + return link_speed; +} + +static u32_t get_IEEE_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr) +{ + u16_t temp; + u16_t control; + u16_t status; + u16_t partner_capabilities; + + xil_printf("Start PHY autonegotiation \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_AUTONEGOTIATE_ENABLE; + control |= IEEE_STAT_AUTONEGOTIATE_RESTART; + control &= IEEE_CTRL_ISOLATE_DISABLE; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + xil_printf("Waiting for PHY to complete autonegotiation.\r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + while ( !(status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) ) { + sleep(1); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, + &status); + } + xil_printf("autonegotiation complete \r\n"); + +#if XPAR_GIGE_PCS_PMA_1000BASEX_CORE_PRESENT == 1 + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 1); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_PARTNER_ABILITIES_1_REG_OFFSET, &temp); + if ((temp & 0x0020) == 0x0020) { + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + return 1000; + } + else { + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + xil_printf("Link error, temp = %x\r\n", temp); + return 0; + } +#elif XPAR_GIGE_PCS_PMA_SGMII_CORE_PRESENT == 1 + xil_printf("Waiting for Link to be up; Polling for SGMII core Reg \r\n"); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_PARTNER_ABILITIES_1_REG_OFFSET, &temp); + while(!(temp & 0x8000)) { + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_PARTNER_ABILITIES_1_REG_OFFSET, &temp); + } + if((temp & 0x0C00) == 0x0800) { + return 1000; + } + else if((temp & 0x0C00) == 0x0400) { + return 100; + } + else if((temp & 0x0C00) == 0x0000) { + return 10; + } else { + xil_printf("get_IEEE_phy_speed(): Invalid speed bit value, Defaulting to Speed = 10 Mbps\r\n"); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &temp); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, 0x0100); + return 10; + } +#endif + +} + +#else /*PCM_PMA_CORE_PRESENT not defined, GMII/RGMII case*/ +void detect_phy(XEmacPs *xemacpsp) +{ + u16_t phy_reg; + u32_t phy_addr; + u32_t emacnum; + + if (xemacpsp->Config.BaseAddress == XPAR_XEMACPS_0_BASEADDR) + emacnum = 0; + else + emacnum = 1; + for (phy_addr = 31; phy_addr > 0; phy_addr--) { + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_DETECT_REG, + &phy_reg); + + if ((phy_reg != 0xFFFF) && + ((phy_reg & PHY_DETECT_MASK) == PHY_DETECT_MASK)) { + /* Found a valid PHY address */ + LWIP_DEBUGF(NETIF_DEBUG, ("XEmacPs detect_phy: PHY detected at address %d.\r\n", + phy_addr)); + if (emacnum == 0) + phymapemac0[phy_addr] = TRUE; + else + phymapemac1[phy_addr] = TRUE; + + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_IDENTIFIER_1_REG, + &phy_reg); + if ((phy_reg != PHY_MARVELL_IDENTIFIER) && + (phy_reg != PHY_TI_IDENTIFIER) && + (phy_reg != PHY_REALTEK_IDENTIFIER)) { + xil_printf("WARNING: Not a Marvell or TI or Realtek Ethernet PHY. Please verify the initialization sequence\r\n"); + } + } + } +} + +u32_t phy_setup_emacps (XEmacPs *xemacpsp, u32_t phy_addr) +{ + u32_t link_speed; + u32_t conv_present = 0; + u32_t convspeeddupsetting = 0; + u32_t convphyaddr = 0; + +#ifdef XPAR_GMII2RGMIICON_0N_ETH0_ADDR + convphyaddr = XPAR_GMII2RGMIICON_0N_ETH0_ADDR; + conv_present = 1; +#endif +#ifdef XPAR_GMII2RGMIICON_0N_ETH1_ADDR + convphyaddr = XPAR_GMII2RGMIICON_0N_ETH1_ADDR; + conv_present = 1; +#endif + +#ifdef CONFIG_LINKSPEED_AUTODETECT + link_speed = get_IEEE_phy_speed(xemacpsp, phy_addr); + if (link_speed == 1000) { + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,1000); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED1000_FD; + } else if (link_speed == 100) { + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,100); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED100_FD; + } else if (link_speed != XST_FAILURE){ + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,10); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED10_FD; + } else { + xil_printf("Phy setup error \r\n"); + return XST_FAILURE; + } +#elif defined(CONFIG_LINKSPEED1000) + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,1000); + link_speed = 1000; + configure_IEEE_phy_speed(xemacpsp, phy_addr, link_speed); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED1000_FD; + sleep(1); +#elif defined(CONFIG_LINKSPEED100) + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,100); + link_speed = 100; + configure_IEEE_phy_speed(xemacpsp, phy_addr, link_speed); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED100_FD; + sleep(1); +#elif defined(CONFIG_LINKSPEED10) + SetUpSLCRDivisors(xemacpsp->Config.BaseAddress,10); + link_speed = 10; + configure_IEEE_phy_speed(xemacpsp, phy_addr, link_speed); + convspeeddupsetting = XEMACPS_GMII2RGMII_SPEED10_FD; + sleep(1); +#endif + if (conv_present) { + XEmacPs_PhyWrite(xemacpsp, convphyaddr, + XEMACPS_GMII2RGMII_REG_NUM, convspeeddupsetting); + } + + xil_printf("link speed for phy address %d: %d\r\n", phy_addr, link_speed); + return link_speed; +} + +#if defined CONFIG_LINKSPEED_AUTODETECT +static u32_t get_phy_speed_ksz9031(XEmacPs *xemacpsp, u32_t phy_addr) +{ + static int phy_init_flag = 0; + u16_t temp; + u16_t control; + u16_t status; + u16_t status_speed; + u32_t timeout_counter = 0; + + xil_printf("Start PHY autonegotiation \r\n"); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 2); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, &control); + control |= IEEE_RGMII_TXRX_CLOCK_DELAYED_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, control); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &control); + control |= IEEE_ASYMMETRIC_PAUSE_MASK; + control |= IEEE_PAUSE_MASK; + control |= ADVERTISE_100; + control |= ADVERTISE_10; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + &control); + control |= ADVERTISE_1000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + control); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_COPPER_SPECIFIC_CONTROL_REG, &control); + + control |= (7 << 12); /* max number of gigabit attempts */ + control |= (1 << 11); /* enable downshift */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_COPPER_SPECIFIC_CONTROL_REG, + control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_AUTONEGOTIATE_ENABLE; + control |= IEEE_STAT_AUTONEGOTIATE_RESTART; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_RESET_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + while (1) { + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + if (control & IEEE_CTRL_RESET_MASK) + continue; + else + break; + } + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + xil_printf("Waiting for PHY to complete autonegotiation.\r\n"); + + while (!(status & IEEE_STAT_AUTONEGOTIATE_COMPLETE)) { + sleep(1); + XEmacPs_PhyRead(xemacpsp, phy_addr, + IEEE_COPPER_SPECIFIC_STATUS_REG_2, &temp); + timeout_counter++; + if ((phy_init_flag == 0) && (timeout_counter > 1)) + { + phy_init_flag = 1; + return XST_FAILURE; + } + if (timeout_counter == 30) { + xil_printf("Auto negotiation error \r\n"); + return XST_FAILURE; + } + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + } + xil_printf("autonegotiation complete \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, 0x1f, &status_speed); + + if ((status_speed & 0x40) == 0x40) /* 1000Mbps */ + return 1000; + else if ((status_speed & 0x20) == 0x20) /* 100Mbps */ + return 100; + else if ((status_speed & 0x10) == 0x10) /* 10Mbps */ + return 10; + else + return 0; + return XST_SUCCESS; +} + +static u32_t get_TI_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr) +{ + u16_t control; + u16_t status; + u16_t status_speed; + u32_t timeout_counter = 0; + u32_t phyregtemp; + int i; + u32_t RetStatus; + static int phy_init_flag = 0; + + xil_printf("Start PHY autonegotiation \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, 0x1F, (u16_t *)&phyregtemp); + phyregtemp |= 0x4000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, 0x1F, phyregtemp); + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, 0x1F, (u16_t *)&phyregtemp); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error during sw reset \n\r"); + return XST_FAILURE; + } + + XEmacPs_PhyRead(xemacpsp, phy_addr, 0, (u16_t *)&phyregtemp); + phyregtemp |= 0x8000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, 0, phyregtemp); + + /* + * Delay + */ + for(i=0;i<1000000000;i++); + + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, 0, (u16_t *)&phyregtemp); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error during reset \n\r"); + return XST_FAILURE; + } + + /* FIFO depth */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_TI_CR, PHY_TI_CRVAL); + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_TI_CR, (u16_t *)&phyregtemp); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error writing to 0x10 \n\r"); + return XST_FAILURE; + } + + /* TX/RX tuning */ + /* Write to PHY_RGMIIDCTL */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_RGMIIDCTL); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, 0xA8); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error in tuning"); + return XST_FAILURE; + } + + /* Read PHY_RGMIIDCTL */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_RGMIIDCTL); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_ADDAR, (u16_t *)&phyregtemp); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error in tuning"); + return XST_FAILURE; + } + + /* Write PHY_RGMIICTL */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_RGMIICTL); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, 0xD3); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error in tuning"); + return XST_FAILURE; + } + + /* Read PHY_RGMIICTL */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_RGMIICTL); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_ADDAR, (u16_t *)&phyregtemp); + if (RetStatus != XST_SUCCESS) { + xil_printf("Error in tuning"); + return XST_FAILURE; + } + + /* SW workaround for unstable link when RX_CTRL is not STRAP MODE 3 or 4 */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_TI_CFG4); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_ADDAR, (u16_t *)&phyregtemp); + phyregtemp &= ~(PHY_TI_CFG4RESVDBIT7); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_ADDR); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, PHY_TI_CFG4); + XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_REGCR, PHY_REGCR_DATA); + RetStatus = XEmacPs_PhyWrite(xemacpsp, phy_addr, PHY_ADDAR, phyregtemp); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &control); + control |= IEEE_ASYMMETRIC_PAUSE_MASK; + control |= IEEE_PAUSE_MASK; + control |= ADVERTISE_100; + control |= ADVERTISE_10; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + &control); + control |= ADVERTISE_1000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_AUTONEGOTIATE_ENABLE; + control |= IEEE_STAT_AUTONEGOTIATE_RESTART; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + xil_printf("Waiting for PHY to complete autonegotiation.\r\n"); + + while ( !(status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) ) { + sleep(1); + timeout_counter++; + if ((phy_init_flag == 0) && (timeout_counter > 1)) + { + phy_init_flag = 1; + return XST_FAILURE; + } + if (timeout_counter == 30) { + xil_printf("Auto negotiation error \r\n"); + return XST_FAILURE; + } + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + } + xil_printf("autonegotiation complete \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_STS, &status_speed); + if ((status_speed & 0xC000) == 0x8000) { + return 1000; + } else if ((status_speed & 0xC000) == 0x4000) { + return 100; + } else { + return 10; + } + + return XST_SUCCESS; +} + +static u32_t get_Marvell_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr) +{ + u16_t temp; + u16_t control; + u16_t status; + u16_t status_speed; + u32_t timeout_counter = 0; + u32_t temp_speed; + static int phy_init_flag = 0; + + xil_printf("Start PHY autonegotiation \r\n"); + + XEmacPs_PhyWrite(xemacpsp,phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 2); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, &control); + control |= IEEE_RGMII_TXRX_CLOCK_DELAYED_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, control); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &control); + control |= IEEE_ASYMMETRIC_PAUSE_MASK; + control |= IEEE_PAUSE_MASK; + control |= ADVERTISE_100; + control |= ADVERTISE_10; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + &control); + control |= ADVERTISE_1000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + control); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_COPPER_SPECIFIC_CONTROL_REG, + &control); + control |= (7 << 12); /* max number of gigabit attempts */ + control |= (1 << 11); /* enable downshift */ + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_COPPER_SPECIFIC_CONTROL_REG, + control); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_AUTONEGOTIATE_ENABLE; + control |= IEEE_STAT_AUTONEGOTIATE_RESTART; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_RESET_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + while (1) { + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + if (control & IEEE_CTRL_RESET_MASK) + continue; + else + break; + } + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + xil_printf("Waiting for PHY to complete autonegotiation.\r\n"); + + while ( !(status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) ) { + sleep(1); + XEmacPs_PhyRead(xemacpsp, phy_addr, + IEEE_COPPER_SPECIFIC_STATUS_REG_2, &temp); + timeout_counter++; + if ((phy_init_flag == 0) && (timeout_counter > 1)) + { + phy_init_flag = 1; + return XST_FAILURE; + } + if (timeout_counter == 30) { + xil_printf("Auto negotiation error \r\n"); + return XST_FAILURE; + } + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + } + xil_printf("autonegotiation complete \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr,IEEE_SPECIFIC_STATUS_REG, + &status_speed); + if (status_speed & 0x400) { + temp_speed = status_speed & IEEE_SPEED_MASK; + + if (temp_speed == IEEE_SPEED_1000) + return 1000; + else if(temp_speed == IEEE_SPEED_100) + return 100; + else + return 10; + } + + return XST_SUCCESS; +} + +static u32_t get_Realtek_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr) +{ + u16_t control; + u16_t status; + u16_t status_speed; + u32_t timeout_counter = 0; + u32_t temp_speed; + static int phy_init_flag = 0; + + xil_printf("Start PHY autonegotiation \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &control); + control |= IEEE_ASYMMETRIC_PAUSE_MASK; + control |= IEEE_PAUSE_MASK; + control |= ADVERTISE_100; + control |= ADVERTISE_10; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + &control); + control |= ADVERTISE_1000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, + control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_AUTONEGOTIATE_ENABLE; + control |= IEEE_STAT_AUTONEGOTIATE_RESTART; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control |= IEEE_CTRL_RESET_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, control); + + while (1) { + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + if (control & IEEE_CTRL_RESET_MASK) + continue; + else + break; + } + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + + xil_printf("Waiting for PHY to complete autonegotiation.\r\n"); + + while ( !(status & IEEE_STAT_AUTONEGOTIATE_COMPLETE) ) { + sleep(1); + timeout_counter++; + if ((phy_init_flag == 0) && (timeout_counter > 1)) + { + phy_init_flag = 1; + return XST_FAILURE; + } + if (timeout_counter == 30) { + xil_printf("Auto negotiation error \r\n"); + return XST_FAILURE; + } + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_STATUS_REG_OFFSET, &status); + } + xil_printf("autonegotiation complete \r\n"); + + XEmacPs_PhyRead(xemacpsp, phy_addr,IEEE_SPECIFIC_STATUS_REG, + &status_speed); + if (status_speed & 0x400) { + temp_speed = status_speed & IEEE_SPEED_MASK; + + if (temp_speed == IEEE_SPEED_1000) + return 1000; + else if(temp_speed == IEEE_SPEED_100) + return 100; + else + return 10; + } + + return XST_FAILURE; +} + +static u32_t get_IEEE_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr) +{ + u16_t phy_identity; + u32_t RetStatus; + + XEmacPs_PhyRead(xemacpsp, phy_addr, PHY_IDENTIFIER_1_REG, + &phy_identity); + if(phy_identity == MICREL_PHY_IDENTIFIER){ + RetStatus = get_phy_speed_ksz9031(xemacpsp, phy_addr); + } else if (phy_identity == PHY_TI_IDENTIFIER) { + RetStatus = get_TI_phy_speed(xemacpsp, phy_addr); + } else if (phy_identity == PHY_REALTEK_IDENTIFIER) { + RetStatus = get_Realtek_phy_speed(xemacpsp, phy_addr); + } else { + RetStatus = get_Marvell_phy_speed(xemacpsp, phy_addr); + } + + return RetStatus; +} +#endif + +#if defined (CONFIG_LINKSPEED1000) || defined (CONFIG_LINKSPEED100) \ + || defined (CONFIG_LINKSPEED10) +static u32_t configure_IEEE_phy_speed(XEmacPs *xemacpsp, u32_t phy_addr, u32_t speed) +{ + u16_t control; + u16_t autonereg; + + XEmacPs_PhyWrite(xemacpsp,phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 2); + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, &control); + control |= IEEE_RGMII_TXRX_CLOCK_DELAYED_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_MAC, control); + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_PAGE_ADDRESS_REGISTER, 0); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg |= IEEE_ASYMMETRIC_PAUSE_MASK; + autonereg |= IEEE_PAUSE_MASK; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, &control); + control &= ~IEEE_CTRL_LINKSPEED_1000M; + control &= ~IEEE_CTRL_LINKSPEED_100M; + control &= ~IEEE_CTRL_LINKSPEED_10M; + + if (speed == 1000) { + control |= IEEE_CTRL_LINKSPEED_1000M; + + /* Don't advertise PHY speed of 100 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg &= (~ADVERTISE_100); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + + /* Don't advertise PHY speed of 10 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg &= (~ADVERTISE_10); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + + /* Advertise PHY speed of 1000 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, &autonereg); + autonereg |= ADVERTISE_1000; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, autonereg); + } + + else if (speed == 100) { + control |= IEEE_CTRL_LINKSPEED_100M; + + /* Don't advertise PHY speed of 1000 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, &autonereg); + autonereg &= (~ADVERTISE_1000); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, autonereg); + + /* Don't advertise PHY speed of 10 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg &= (~ADVERTISE_10); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + + /* Advertise PHY speed of 100 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg |= ADVERTISE_100; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + } + + else if (speed == 10) { + control |= IEEE_CTRL_LINKSPEED_10M; + + /* Don't advertise PHY speed of 1000 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, &autonereg); + autonereg &= (~ADVERTISE_1000); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_1000_ADVERTISE_REG_OFFSET, autonereg); + + /* Don't advertise PHY speed of 100 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg &= (~ADVERTISE_100); + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + + /* Advertise PHY speed of 10 Mbps */ + XEmacPs_PhyRead(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, &autonereg); + autonereg |= ADVERTISE_10; + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_AUTONEGO_ADVERTISE_REG, autonereg); + } + + XEmacPs_PhyWrite(xemacpsp, phy_addr, IEEE_CONTROL_REG_OFFSET, + control | IEEE_CTRL_RESET_MASK); + { + volatile s32_t wait; + for (wait=0; wait < 100000; wait++); + } + return 0; +} +#endif +#endif /*PCM_PMA_CORE_PRESENT*/ + +static void SetUpSLCRDivisors(u32_t mac_baseaddr, s32_t speed) +{ + volatile u32_t slcrBaseAddress; + u32_t SlcrDiv0 = 0; + u32_t SlcrDiv1 = 0; + u32_t SlcrTxClkCntrl; + u32_t gigeversion; + volatile u32_t CrlApbBaseAddr; + u32_t CrlApbDiv0 = 0; + u32_t CrlApbDiv1 = 0; + u32_t CrlApbGemCtrl; +#if EL1_NONSECURE + u32_t ClkId; +#endif + + gigeversion = ((Xil_In32(mac_baseaddr + 0xFC)) >> 16) & 0xFFF; + if (gigeversion == 2) { + + *(volatile u32_t *)(SLCR_UNLOCK_ADDR) = SLCR_UNLOCK_KEY_VALUE; + + if (mac_baseaddr == ZYNQ_EMACPS_0_BASEADDR) { + slcrBaseAddress = SLCR_GEM0_CLK_CTRL_ADDR; + } else { + slcrBaseAddress = SLCR_GEM1_CLK_CTRL_ADDR; + } + + if((*(volatile u32_t *)(UINTPTR)(slcrBaseAddress)) & + SLCR_GEM_SRCSEL_EMIO) { + return; + } + + if (speed == 1000) { + if (mac_baseaddr == XPAR_XEMACPS_0_BASEADDR) { +#ifdef XPAR_PS7_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_0_ENET_SLCR_1000MBPS_DIV1; +#endif + } else { +#ifdef XPAR_PS7_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_1_ENET_SLCR_1000MBPS_DIV1; +#endif + } + } else if (speed == 100) { + if (mac_baseaddr == XPAR_XEMACPS_0_BASEADDR) { +#ifdef XPAR_PS7_ETHERNET_0_ENET_SLCR_100MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_0_ENET_SLCR_100MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_0_ENET_SLCR_100MBPS_DIV1; +#endif + } else { +#ifdef XPAR_PS7_ETHERNET_1_ENET_SLCR_100MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_1_ENET_SLCR_100MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_1_ENET_SLCR_100MBPS_DIV1; +#endif + } + } else { + if (mac_baseaddr == XPAR_XEMACPS_0_BASEADDR) { +#ifdef XPAR_PS7_ETHERNET_0_ENET_SLCR_10MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_0_ENET_SLCR_10MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_0_ENET_SLCR_10MBPS_DIV1; +#endif + } else { +#ifdef XPAR_PS7_ETHERNET_1_ENET_SLCR_10MBPS_DIV0 + SlcrDiv0 = XPAR_PS7_ETHERNET_1_ENET_SLCR_10MBPS_DIV0; + SlcrDiv1 = XPAR_PS7_ETHERNET_1_ENET_SLCR_10MBPS_DIV1; +#endif + } + } + + if (SlcrDiv0 != 0 && SlcrDiv1 != 0) { + SlcrTxClkCntrl = *(volatile u32_t *)(UINTPTR)(slcrBaseAddress); + SlcrTxClkCntrl &= EMACPS_SLCR_DIV_MASK; + SlcrTxClkCntrl |= (SlcrDiv1 << 20); + SlcrTxClkCntrl |= (SlcrDiv0 << 8); + *(volatile u32_t *)(UINTPTR)(slcrBaseAddress) = SlcrTxClkCntrl; + *(volatile u32_t *)(SLCR_LOCK_ADDR) = SLCR_LOCK_KEY_VALUE; + } else { + xil_printf("Clock Divisors incorrect - Please check\r\n"); + } + } else if (gigeversion == GEM_VERSION_ZYNQMP) { + /* Setup divisors in CRL_APB for Zynq Ultrascale+ MPSoC */ + if (mac_baseaddr == ZYNQMP_EMACPS_0_BASEADDR) { + CrlApbBaseAddr = CRL_APB_GEM0_REF_CTRL; + } else if (mac_baseaddr == ZYNQMP_EMACPS_1_BASEADDR) { + CrlApbBaseAddr = CRL_APB_GEM1_REF_CTRL; + } else if (mac_baseaddr == ZYNQMP_EMACPS_2_BASEADDR) { + CrlApbBaseAddr = CRL_APB_GEM2_REF_CTRL; + } else if (mac_baseaddr == ZYNQMP_EMACPS_3_BASEADDR) { + CrlApbBaseAddr = CRL_APB_GEM3_REF_CTRL; + } + + if (speed == 1000) { + if (mac_baseaddr == ZYNQMP_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_0_ENET_SLCR_1000MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_1_ENET_SLCR_1000MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_2_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_2_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_2_ENET_SLCR_1000MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_2_ENET_SLCR_1000MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_3_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_3_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_3_ENET_SLCR_1000MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_3_ENET_SLCR_1000MBPS_DIV1; +#endif + } + } else if (speed == 100) { + if (mac_baseaddr == ZYNQMP_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_0_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_0_ENET_SLCR_100MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_0_ENET_SLCR_100MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_1_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_1_ENET_SLCR_100MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_1_ENET_SLCR_100MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_2_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_2_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_2_ENET_SLCR_100MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_2_ENET_SLCR_100MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_3_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_3_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_3_ENET_SLCR_100MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_3_ENET_SLCR_100MBPS_DIV1; +#endif + } + } else { + if (mac_baseaddr == ZYNQMP_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_0_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_0_ENET_SLCR_10MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_0_ENET_SLCR_10MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_1_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_1_ENET_SLCR_10MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_1_ENET_SLCR_10MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_2_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_2_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_2_ENET_SLCR_10MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_2_ENET_SLCR_10MBPS_DIV1; +#endif + } else if (mac_baseaddr == ZYNQMP_EMACPS_3_BASEADDR) { +#ifdef XPAR_PSU_ETHERNET_3_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSU_ETHERNET_3_ENET_SLCR_10MBPS_DIV0; + CrlApbDiv1 = XPAR_PSU_ETHERNET_3_ENET_SLCR_10MBPS_DIV1; +#endif + } + } + + if (CrlApbDiv0 != 0 && CrlApbDiv1 != 0) { + #if EL1_NONSECURE + XSmc_OutVar RegRead; + RegRead = Xil_Smc(MMIO_READ_SMC_FID, (u64)(CrlApbBaseAddr), + 0, 0, 0, 0, 0, 0); + CrlApbGemCtrl = RegRead.Arg0 >> 32; + #else + CrlApbGemCtrl = *(volatile u32_t *)(UINTPTR)(CrlApbBaseAddr); + #endif + CrlApbGemCtrl &= ~CRL_APB_GEM_DIV0_MASK; + CrlApbGemCtrl |= CrlApbDiv0 << CRL_APB_GEM_DIV0_SHIFT; + CrlApbGemCtrl &= ~CRL_APB_GEM_DIV1_MASK; + CrlApbGemCtrl |= CrlApbDiv1 << CRL_APB_GEM_DIV1_SHIFT; + #if EL1_NONSECURE + Xil_Smc(MMIO_WRITE_SMC_FID, (u64)(CrlApbBaseAddr) | ((u64)(0xFFFFFFFF) << 32), + (u64)CrlApbGemCtrl, 0, 0, 0, 0, 0); + do { + RegRead = Xil_Smc(MMIO_READ_SMC_FID, (u64)(CrlApbBaseAddr), + 0, 0, 0, 0, 0, 0); + } while((RegRead.Arg0 >> 32) != CrlApbGemCtrl); + #else + *(volatile u32_t *)(UINTPTR)(CrlApbBaseAddr) = CrlApbGemCtrl; + #endif + } else { + xil_printf("Clock Divisors incorrect - Please check\r\n"); + } + } else if (gigeversion == GEM_VERSION_VERSAL) { + /* Setup divisors in CRL for Versal */ + if (mac_baseaddr == VERSAL_EMACPS_0_BASEADDR) { + CrlApbBaseAddr = VERSAL_CRL_GEM0_REF_CTRL; +#if EL1_NONSECURE + ClkId = CLK_GEM0_REF; +#endif + } else if (mac_baseaddr == VERSAL_EMACPS_1_BASEADDR) { + CrlApbBaseAddr = VERSAL_CRL_GEM1_REF_CTRL; +#if EL1_NONSECURE + ClkId = CLK_GEM1_REF; +#endif + } + + if (speed == 1000) { + if (mac_baseaddr == VERSAL_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0; +#endif + } else if (mac_baseaddr == VERSAL_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_1_ENET_SLCR_1000MBPS_DIV0; +#endif + } + } else if (speed == 100) { + if (mac_baseaddr == VERSAL_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_0_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_0_ENET_SLCR_100MBPS_DIV0; +#endif + } else if (mac_baseaddr == VERSAL_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_1_ENET_SLCR_100MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_1_ENET_SLCR_100MBPS_DIV0; +#endif + } + } else { + if (mac_baseaddr == VERSAL_EMACPS_0_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_0_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_0_ENET_SLCR_10MBPS_DIV0; +#endif + } else if (mac_baseaddr == VERSAL_EMACPS_1_BASEADDR) { +#ifdef XPAR_PSV_ETHERNET_1_ENET_SLCR_10MBPS_DIV0 + CrlApbDiv0 = XPAR_PSV_ETHERNET_1_ENET_SLCR_10MBPS_DIV0; +#endif + } + } + + if (CrlApbDiv0 != 0) { +#if EL1_NONSECURE + Xil_Smc(PM_SET_DIVIDER_SMC_FID, (((u64)CrlApbDiv0 << 32) | ClkId), 0, 0, 0, 0, 0, 0); +#else + CrlApbGemCtrl = Xil_In32((UINTPTR)CrlApbBaseAddr); + CrlApbGemCtrl &= ~VERSAL_CRL_GEM_DIV_MASK; + CrlApbGemCtrl |= CrlApbDiv0 << VERSAL_CRL_APB_GEM_DIV_SHIFT; + + Xil_Out32((UINTPTR)CrlApbBaseAddr, CrlApbGemCtrl); +#endif + } else { + xil_printf("Clock Divisors incorrect - Please check\r\n"); + } + } + + return; +} diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xlwipconfig.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xlwipconfig.h new file mode 100644 index 0000000000..fd114dd5fb --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xlwipconfig.h @@ -0,0 +1,44 @@ +/* + * Copyright (c) 2001, 2002 Swedish Institute of Computer Science. + * Copyright (C) 2007 - 2018 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + * Author: Adam Dunkels + * + */ +#ifndef __XLWIPCONFIG_H_ +#define __XLWIPCONFIG_H_ + + +/* This is a generated file - do not edit */ + +#define XLWIP_CONFIG_INCLUDE_GEM 1 +#define XLWIP_CONFIG_EMAC_NUMBER 0 +#define XLWIP_CONFIG_N_TX_DESC 64 +#define XLWIP_CONFIG_N_RX_DESC 64 + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xpqueue.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xpqueue.c new file mode 100644 index 0000000000..b5a773e29b --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xpqueue.c @@ -0,0 +1,93 @@ +/* + * Copyright (C) 2007 - 2019 Xilinx, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT + * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, + * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT + * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING + * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY + * OF SUCH DAMAGE. + * + * This file is part of the lwIP TCP/IP stack. + * + */ + +#include + +#include "netif/xpqueue.h" +#include "xil_printf.h" + +#define NUM_QUEUES 2 + +pq_queue_t pq_queue[NUM_QUEUES]; + +pq_queue_t * +pq_create_queue() +{ + static int i; + pq_queue_t *q = NULL; + + if (i >= NUM_QUEUES) { + xil_printf("ERR: Max Queues allocated\n\r"); + return q; + } + + q = &pq_queue[i++]; + + if (!q) + return q; + + q->head = q->tail = q->len = 0; + + return q; +} + +int +pq_enqueue(pq_queue_t *q, void *p) +{ + if (q->len == PQ_QUEUE_SIZE) + return -1; + + q->data[q->head] = p; + q->head = (q->head + 1)%PQ_QUEUE_SIZE; + q->len++; + + return 0; +} + +void* +pq_dequeue(pq_queue_t *q) +{ + int ptail; + + if (q->len == 0) + return NULL; + + ptail = q->tail; + q->tail = (q->tail + 1)%PQ_QUEUE_SIZE; + q->len--; + + return q->data[ptail]; +} + +int +pq_qlength(pq_queue_t *q) +{ + return q->len; +} diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xtopology_g.c b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xtopology_g.c new file mode 100644 index 0000000000..9d6fb85f03 --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xemacpsif/xtopology_g.c @@ -0,0 +1,15 @@ +#include "netif/xtopology.h" +#include "xparameters.h" + +struct xtopology_t xtopology[] = { + { + 0xFF0E0000, + xemac_type_emacps, + 0x0, + 0x0, + 0xF8F00100, + XPAR_XEMACPS_3_INTR, + }, +}; + +int xtopology_n_emacs = 1; diff --git a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xil_types.h b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xil_types.h index 3970866971..107f0bd724 100644 --- a/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xil_types.h +++ b/bsp/zynqmp-r5-axu4ev/drivers/Zynq_HAL_Driver/xil_types.h @@ -54,6 +54,9 @@ typedef long LONG; typedef unsigned long ULONG; #endif +#define ULONG64_HI_MASK 0xFFFFFFFF00000000U +#define ULONG64_LO_MASK ~ULONG64_HI_MASK + /** @{ */ /** * This data type defines an interrupt handler for a device. diff --git a/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.c b/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.c new file mode 100644 index 0000000000..758fc138df --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.c @@ -0,0 +1,349 @@ +/* + * Copyright (c) 2021, WangHuachen + * + * SPDX-License-Identifier: MIT + * + * Change Logs: + * Date Author Notes + * 2021-5-10 WangHuachen the first version + */ + + +#include "board.h" +#include +#include "lwipopts.h" +#include "lwip/opt.h" +#include "drv_eth.h" +#include "lwip/netif.h" +#include "netif/xadapter.h" +#include "netif/xemacpsif.h" +#include "xparameters.h" +#include "xemacps.h" + +#define DBG_TAG "drv.emac" +#define DBG_LEVEL DBG_INFO +#include + +#define MAC_BASE_ADDR XPAR_PSU_ETHERNET_3_BASEADDR +#define MAX_ADDR_LEN 6 + +struct rt_zynqmp_eth +{ + /* inherit from ethernet device */ + struct eth_device parent; + + /* interface address info, hw address */ + rt_uint8_t dev_addr[MAX_ADDR_LEN]; + + struct xemac_s *xemac; +}; + +static struct rt_zynqmp_eth zynqmp_eth_device; +extern XEmacPs_Config *mac_config; +extern struct netif *NetIf; + +static void rt_hw_eth_isr(int irqno, void *param) +{ + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)param; + xemacpsif_s *xemacpsif = (xemacpsif_s *)eth_dev->xemac->state; + XEmacPs_IntrHandler(&xemacpsif->emacps); +} + +extern enum ethernet_link_status eth_link_status; +extern u32_t phy_link_detect(XEmacPs *xemacp, u32_t phy_addr); +extern u32_t phy_autoneg_status(XEmacPs *xemacp, u32_t phy_addr); +extern u32_t phyaddrforemac; + +void rt_zynqmp_eth_link_detect(struct rt_zynqmp_eth *eth_dev) +{ + u32_t link_speed, phy_link_status; + struct xemac_s *xemac = eth_dev->xemac; + xemacpsif_s *xemacs = (xemacpsif_s *)(xemac->state); + XEmacPs *xemacp = &xemacs->emacps; + + if ((xemacp->IsReady != (u32)XIL_COMPONENT_IS_READY) || + (eth_link_status == ETH_LINK_UNDEFINED)) + return; + + phy_link_status = phy_link_detect(xemacp, phyaddrforemac); + + if ((eth_link_status == ETH_LINK_UP) && (!phy_link_status)) + eth_link_status = ETH_LINK_DOWN; + + switch (eth_link_status) { + case ETH_LINK_UNDEFINED: + case ETH_LINK_UP: + return; + case ETH_LINK_DOWN: + eth_device_linkchange(&zynqmp_eth_device.parent, RT_FALSE); + eth_link_status = ETH_LINK_NEGOTIATING; + LOG_D("Ethernet Link down"); + break; + case ETH_LINK_NEGOTIATING: + if (phy_link_status && + phy_autoneg_status(xemacp, phyaddrforemac)) { + + /* Initiate Phy setup to get link speed */ + link_speed = phy_setup_emacps(xemacp, + phyaddrforemac); + XEmacPs_SetOperatingSpeed(xemacp, link_speed); + + eth_device_linkchange(&zynqmp_eth_device.parent, RT_TRUE); + eth_link_status = ETH_LINK_UP; + LOG_D("Ethernet Link up"); + } + break; + } +} + +static void phy_monitor_thread(void *parameter) +{ + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)parameter; + + while (1) + { + rt_zynqmp_eth_link_detect(eth_dev); + rt_thread_delay(RT_TICK_PER_SECOND); + } +} + +static rt_err_t rt_zynqmp_eth_init(rt_device_t dev) +{ + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)dev->user_data; + struct netif *netif = eth_dev->parent.netif; + struct xemac_s *xemac; + xemacpsif_s *xemacpsif; + u32 dmacrreg; + s32_t status = XST_SUCCESS; + struct xtopology_t *xtopologyp; + + if (eth_dev->xemac != RT_NULL) + { + LOG_W("rt_zynqmp_eth_init: device has been initialized"); + return -RT_ERROR; + } + + NetIf = netif; + + xemacpsif = rt_malloc(sizeof *xemacpsif); + if (xemacpsif == NULL) + { + LOG_E("rt_zynqmp_eth_init: out of memory"); + return -RT_ENOMEM; + } + + xemac = rt_malloc(sizeof *xemac); + if (xemac == NULL) + { + LOG_E("rt_zynqmp_eth_init: out of memory"); + return -RT_ENOMEM; + } + + xemac->state = (void *)xemacpsif; + xemac->topology_index = xtopology_find_index(MAC_BASE_ADDR); + xemac->type = xemac_type_emacps; + xemac->rt_eth_device = ð_dev->parent; + + xemacpsif->send_q = NULL; + xemacpsif->recv_q = pq_create_queue(); + if (!xemacpsif->recv_q) + return -RT_ENOMEM; + + eth_dev->xemac = xemac; + + /* obtain config of this emac */ + mac_config = (XEmacPs_Config *)xemacps_lookup_config(MAC_BASE_ADDR); + + status = XEmacPs_CfgInitialize(&xemacpsif->emacps, mac_config, + mac_config->BaseAddress); + if (status != XST_SUCCESS) + { + LOG_W("In %s:EmacPs Configuration Failed....", __func__); + return -RT_ERROR; + } + + /* initialize the mac */ + init_emacps(xemacpsif, netif); + + dmacrreg = XEmacPs_ReadReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET); + dmacrreg = dmacrreg | (0x00000010); + XEmacPs_WriteReg(xemacpsif->emacps.Config.BaseAddress, + XEMACPS_DMACR_OFFSET, dmacrreg); + + setup_isr(xemac); + init_dma(xemac); + + xtopologyp = &xtopology[xemac->topology_index]; + /* + * Connect the device driver handler that will be called when an + * interrupt for the device occurs, the handler defined above performs + * the specific interrupt processing for the device. + */ + rt_hw_interrupt_install(xtopologyp->scugic_emac_intr, rt_hw_eth_isr, (void *)eth_dev, "eth"); + /* + * Enable the interrupt for emacps. + */ + rt_hw_interrupt_umask(xtopologyp->scugic_emac_intr); + + start_emacps(xemacpsif); + + if (eth_link_status == ETH_LINK_UP) + eth_device_linkchange(ð_dev->parent, RT_TRUE); + + rt_thread_t tid; + tid = rt_thread_create("phylnk", + phy_monitor_thread, + eth_dev, + 1024, + RT_THREAD_PRIORITY_MAX - 2, + 2); + if (tid != RT_NULL) + rt_thread_startup(tid); + else + return -RT_ERROR; + + return RT_EOK; +} + +static rt_err_t rt_zynqmp_eth_open(rt_device_t dev, rt_uint16_t oflag) +{ + LOG_D("emac open"); + return RT_EOK; +} + +static rt_err_t rt_zynqmp_eth_close(rt_device_t dev) +{ + LOG_D("emac close"); + return RT_EOK; +} + +static rt_size_t rt_zynqmp_eth_read(rt_device_t dev, rt_off_t pos, void *buffer, rt_size_t size) +{ + LOG_D("emac read"); + rt_set_errno(-RT_ENOSYS); + return 0; +} + +static rt_size_t rt_zynqmp_eth_write(rt_device_t dev, rt_off_t pos, const void *buffer, rt_size_t size) +{ + LOG_D("emac write"); + rt_set_errno(-RT_ENOSYS); + return 0; +} + +static rt_err_t rt_zynqmp_eth_control(rt_device_t dev, int cmd, void *args) +{ + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)dev->user_data; + switch (cmd) + { + case NIOCTL_GADDR: + /* get mac address */ + if (args) rt_memcpy(args, eth_dev->dev_addr, 6); + else return -RT_ERROR; + break; + + default : + break; + } + + return RT_EOK; +} + +extern err_t _unbuffered_low_level_output(xemacpsif_s *xemacpsif, struct pbuf *p); +rt_err_t rt_zynqmp_eth_tx(rt_device_t dev, struct pbuf *p) +{ + rt_base_t lev; + rt_err_t err; + XEmacPs_BdRing *txring; + + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)dev->user_data; + struct xemac_s *xemac = eth_dev->xemac; + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + + lev = rt_hw_interrupt_disable(); + + txring = &(XEmacPs_GetTxRing(&xemacpsif->emacps)); + process_sent_bds(xemacpsif, txring); + + if (is_tx_space_available(xemacpsif)) + { + _unbuffered_low_level_output(xemacpsif, p); + err = RT_EOK; + } + else + { +#if LINK_STATS + lwip_stats.link.drop++; +#endif + LOG_D("pack dropped, no space"); + err = -RT_ENOMEM; + } + + rt_hw_interrupt_enable(lev); + + return err; +} + +struct pbuf *rt_zynqmp_eth_rx(rt_device_t dev) +{ + rt_base_t lev; + struct rt_zynqmp_eth *eth_dev = (struct rt_zynqmp_eth *)dev->user_data; + struct xemac_s *xemac = eth_dev->xemac; + xemacpsif_s *xemacpsif = (xemacpsif_s *)(xemac->state); + struct pbuf *p; + + lev = rt_hw_interrupt_disable(); + + /* see if there is data to process */ + if (pq_qlength(xemacpsif->recv_q) == 0) + return NULL; + + /* return one packet from receive q */ + p = (struct pbuf *)pq_dequeue(xemacpsif->recv_q); + + rt_hw_interrupt_enable(lev); + + return p; +} + +static int rt_hw_zynqmp_eth_init(void) +{ + rt_err_t state = RT_EOK; + + zynqmp_eth_device.xemac = RT_NULL; + + zynqmp_eth_device.dev_addr[0] = 0x00; + zynqmp_eth_device.dev_addr[1] = 0x0A; + zynqmp_eth_device.dev_addr[2] = 0x35; + zynqmp_eth_device.dev_addr[3] = 0x00; + zynqmp_eth_device.dev_addr[4] = 0x01; + zynqmp_eth_device.dev_addr[5] = 0x02; + + zynqmp_eth_device.parent.parent.init = rt_zynqmp_eth_init; + zynqmp_eth_device.parent.parent.open = rt_zynqmp_eth_open; + zynqmp_eth_device.parent.parent.close = rt_zynqmp_eth_close; + zynqmp_eth_device.parent.parent.read = rt_zynqmp_eth_read; + zynqmp_eth_device.parent.parent.write = rt_zynqmp_eth_write; + zynqmp_eth_device.parent.parent.control = rt_zynqmp_eth_control; + zynqmp_eth_device.parent.parent.user_data = &zynqmp_eth_device; + + zynqmp_eth_device.parent.eth_rx = rt_zynqmp_eth_rx; + zynqmp_eth_device.parent.eth_tx = rt_zynqmp_eth_tx; + + /* register eth device */ + state = eth_device_init(&(zynqmp_eth_device.parent), "e0"); + if (RT_EOK == state) + { + LOG_D("emac device init success"); + } + else + { + LOG_E("emac device init faild: %d", state); + state = -RT_ERROR; + return state; + } + + return state; +} +INIT_DEVICE_EXPORT(rt_hw_zynqmp_eth_init); \ No newline at end of file diff --git a/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.h b/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.h new file mode 100644 index 0000000000..3d1a5d37cf --- /dev/null +++ b/bsp/zynqmp-r5-axu4ev/drivers/drv_eth.h @@ -0,0 +1,13 @@ +#ifndef __DRV_ETH_H__ +#define __DRV_ETH_H__ + +#ifdef __cplusplus +extern "C" { +#endif + + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/bsp/zynqmp-r5-axu4ev/rtconfig.h b/bsp/zynqmp-r5-axu4ev/rtconfig.h index 95d92ea09d..03ced833bc 100644 --- a/bsp/zynqmp-r5-axu4ev/rtconfig.h +++ b/bsp/zynqmp-r5-axu4ev/rtconfig.h @@ -19,6 +19,9 @@ #define RT_USING_TIMER_SOFT #define RT_TIMER_THREAD_PRIO 4 #define RT_TIMER_THREAD_STACK_SIZE 512 + +/* kservice optimization */ + #define RT_DEBUG /* Inter-Thread communication */ @@ -32,7 +35,7 @@ /* Memory Management */ #define RT_USING_MEMPOOL -#define RT_USING_SMALL_MEM +#define RT_USING_SLAB #define RT_USING_HEAP /* Kernel Device Object */ @@ -41,7 +44,7 @@ #define RT_USING_CONSOLE #define RT_CONSOLEBUF_SIZE 128 #define RT_CONSOLE_DEVICE_NAME "uart0" -#define RT_VER_NUM 0x40003 +#define RT_VER_NUM 0x40004 /* RT-Thread Components */ @@ -83,6 +86,8 @@ #define RT_DFS_ELM_WORD_ACCESS #define RT_DFS_ELM_USE_LFN_3 #define RT_DFS_ELM_USE_LFN 3 +#define RT_DFS_ELM_LFN_UNICODE_0 +#define RT_DFS_ELM_LFN_UNICODE 0 #define RT_DFS_ELM_MAX_LFN 255 #define RT_DFS_ELM_DRIVES 2 #define RT_DFS_ELM_MAX_SECTOR_SIZE 512 @@ -93,6 +98,9 @@ #define RT_USING_DEVICE_IPC #define RT_PIPE_BUFSZ 512 +#define RT_USING_SYSTEM_WORKQUEUE +#define RT_SYSTEM_WORKQUEUE_STACKSIZE 2048 +#define RT_SYSTEM_WORKQUEUE_PRIORITY 23 #define RT_USING_SERIAL #define RT_SERIAL_USING_DMA #define RT_SERIAL_RB_BUFSZ 64 @@ -101,24 +109,77 @@ /* Using USB */ -/* Using RapidIO */ - - /* POSIX layer and C standard library */ #define RT_USING_LIBC #define RT_USING_POSIX +#define RT_LIBC_FIXED_TIMEZONE 8 /* Network */ /* Socket abstraction layer */ +#define RT_USING_SAL +#define SAL_INTERNET_CHECK + +/* protocol stack implement */ + +#define SAL_USING_LWIP +#define SAL_USING_POSIX /* Network interface device */ +#define RT_USING_NETDEV +#define NETDEV_USING_IFCONFIG +#define NETDEV_USING_PING +#define NETDEV_USING_NETSTAT +#define NETDEV_USING_AUTO_DEFAULT +#define NETDEV_IPV4 1 +#define NETDEV_IPV6 0 /* light weight TCP/IP stack */ +#define RT_USING_LWIP +#define RT_USING_LWIP202 +#define RT_LWIP_MEM_ALIGNMENT 32 +#define RT_LWIP_IGMP +#define RT_LWIP_ICMP +#define RT_LWIP_DNS +#define RT_LWIP_DHCP +#define IP_SOF_BROADCAST 1 +#define IP_SOF_BROADCAST_RECV 1 + +/* Static IPv4 Address */ + +#define RT_LWIP_IPADDR "192.168.1.30" +#define RT_LWIP_GWADDR "192.168.1.1" +#define RT_LWIP_MSKADDR "255.255.255.0" +#define RT_LWIP_UDP +#define RT_LWIP_TCP +#define RT_LWIP_RAW +#define RT_MEMP_NUM_NETCONN 8 +#define RT_LWIP_PBUF_NUM 256 +#define RT_LWIP_RAW_PCB_NUM 4 +#define RT_LWIP_UDP_PCB_NUM 4 +#define RT_LWIP_TCP_PCB_NUM 4 +#define RT_LWIP_TCP_SEG_NUM 40 +#define RT_LWIP_TCP_SND_BUF 8196 +#define RT_LWIP_TCP_WND 8196 +#define RT_LWIP_TCPTHREAD_PRIORITY 10 +#define RT_LWIP_TCPTHREAD_MBOX_SIZE 8 +#define RT_LWIP_TCPTHREAD_STACKSIZE 2048 +#define RT_LWIP_ETHTHREAD_PRIORITY 12 +#define RT_LWIP_ETHTHREAD_STACKSIZE 1024 +#define RT_LWIP_ETHTHREAD_MBOX_SIZE 8 +#define LWIP_NETIF_STATUS_CALLBACK 1 +#define LWIP_NETIF_LINK_CALLBACK 1 +#define SO_REUSE 1 +#define LWIP_SO_RCVTIMEO 1 +#define LWIP_SO_SNDTIMEO 1 +#define LWIP_SO_RCVBUF 1 +#define LWIP_SO_LINGER 0 +#define LWIP_NETIF_LOOPBACK 0 +#define RT_LWIP_USING_PING /* AT commands */ @@ -129,6 +190,9 @@ /* Utilities */ +/* RT-Thread Utestcases */ + + /* RT-Thread online packages */ /* IoT - internet of things */ @@ -166,11 +230,17 @@ /* peripheral libraries and drivers */ +/* AI packages */ + + /* miscellaneous packages */ /* samples: kernel and components samples */ + +/* entertainment: terminal games and other interesting software packages */ + #define SOC_ZYNQMP_R5 /* Hardware Drivers Config */ @@ -184,6 +254,13 @@ #define BSP_USING_SDIO #define BSP_USING_SD0 +/* Please set RT_LWIP_PBUF_NUM is at least 256 if Enable Ethernet! */ + +/* Please set RT_LWIP_MEM_ALIGNMENT is at 32 if Enable Ethernet! */ + +#define BSP_USING_ETH +#define RT_LWIP_PBUF_POOL_BUFSIZE 1700 + /* Board extended module Drivers */ diff --git a/libcpu/arm/zynqmp-r5/cache.c b/libcpu/arm/zynqmp-r5/cache.c index d6e7cd2d6d..ed0efa4824 100644 --- a/libcpu/arm/zynqmp-r5/cache.c +++ b/libcpu/arm/zynqmp-r5/cache.c @@ -1,11 +1,13 @@ /* * Copyright (c) 2006-2021, RT-Thread Development Team - * - * SPDX-License-Identifier: Apache-2.0 + * Copyright (c) 2014 - 2020 Xilinx, Inc. All rights reserved. + * Copyright (c) 2021 WangHuachen. All rights reserved. + * SPDX-License-Identifier: MIT * * Change Logs: * Date Author Notes * 2020-03-19 WangHuachen first version + * 2021-05-10 WangHuachen add more functions */ #include #include @@ -44,41 +46,85 @@ typedef rt_uint32_t u32; XREG_CP15_INVAL_IC_LINE_MVA_POU :: "r" (param)) #endif +void Xil_DCacheEnable(void); +void Xil_DCacheDisable(void); +void Xil_DCacheInvalidate(void); +void Xil_DCacheInvalidateRange(INTPTR adr, u32 len); +void Xil_DCacheFlush(void); +void Xil_DCacheFlushRange(INTPTR adr, u32 len); +void Xil_DCacheInvalidateLine(INTPTR adr); +void Xil_DCacheFlushLine(INTPTR adr); +void Xil_DCacheStoreLine(INTPTR adr); +void Xil_ICacheEnable(void); +void Xil_ICacheDisable(void); +void Xil_ICacheInvalidate(void); +void Xil_ICacheInvalidateRange(INTPTR adr, u32 len); +void Xil_ICacheInvalidateLine(INTPTR adr); -void Xil_ICacheInvalidateRange(INTPTR adr, u32 len) +void Xil_DCacheEnable(void) +{ + register u32 CtrlReg; + + /* enable caches only if they are disabled */ +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,CtrlReg); +#endif + if ((CtrlReg & XREG_CP15_CONTROL_C_BIT)==0x00000000U) { + /* invalidate the Data cache */ + Xil_DCacheInvalidate(); + + /* enable the Data cache */ + CtrlReg |= (XREG_CP15_CONTROL_C_BIT); + + mtcp(XREG_CP15_SYS_CONTROL, CtrlReg); + } +} + +void Xil_DCacheDisable(void) +{ + register u32 CtrlReg; + + /* clean and invalidate the Data cache */ + Xil_DCacheFlush(); + + /* disable the Data cache */ +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,CtrlReg); +#endif + + CtrlReg &= ~(XREG_CP15_CONTROL_C_BIT); + + mtcp(XREG_CP15_SYS_CONTROL, CtrlReg); +} + +void Xil_DCacheInvalidate(void) { - u32 LocalAddr = adr; - const u32 cacheline = 32U; - u32 end; u32 currmask; currmask = mfcpsr(); mtcpsr(currmask | IRQ_FIQ_MASK); - if (len != 0x00000000U) { - /* Back the starting address up to the start of a cache line - * perform cache operations until adr+len - */ - end = LocalAddr + len; - LocalAddr = LocalAddr & ~(cacheline - 1U); - /* Select cache L0 I-cache in CSSR */ - mtcp(XREG_CP15_CACHE_SIZE_SEL, 1U); +#if 0 + stack_end = (u32 )&_stack_end; + stack_start = (u32 )&__undef_stack; + stack_size = stack_start-stack_end; - while (LocalAddr < end) { + /* Flush stack memory to save return address */ + Xil_DCacheFlushRange(stack_end, stack_size); +#endif + mtcp(XREG_CP15_CACHE_SIZE_SEL, 0); - /* Invalidate L1 I-cache line */ - asm_inval_ic_line_mva_pou(LocalAddr); + /*invalidate all D cache*/ + mtcp(XREG_CP15_INVAL_DC_ALL, 0); - LocalAddr += cacheline; - } - } - - /* Wait for invalidate to complete */ - dsb(); mtcpsr(currmask); } -void Xil_DCacheFlushLine(INTPTR adr) +void Xil_DCacheInvalidateLine(INTPTR adr) { u32 currmask; @@ -86,11 +132,11 @@ void Xil_DCacheFlushLine(INTPTR adr) mtcpsr(currmask | IRQ_FIQ_MASK); mtcp(XREG_CP15_CACHE_SIZE_SEL, 0); + mtcp(XREG_CP15_INVAL_DC_LINE_MVA_POC, (adr & (~0x1F))); - mtcp(XREG_CP15_CLEAN_INVAL_DC_LINE_MVA_POC, (adr & (~0x1F))); - - /* Wait for flush to complete */ + /* Wait for invalidate to complete */ dsb(); + mtcpsr(currmask); } @@ -135,6 +181,79 @@ void Xil_DCacheInvalidateRange(INTPTR adr, u32 len) mtcpsr(currmask); } +void Xil_DCacheFlush(void) +{ + register u32 CsidReg, C7Reg; + u32 CacheSize, LineSize, NumWays; + u32 Way, WayIndex, Set, SetIndex, NumSet; + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + + /* Select cache level 0 and D cache in CSSR */ + mtcp(XREG_CP15_CACHE_SIZE_SEL, 0); + +#if defined (__GNUC__) + CsidReg = mfcp(XREG_CP15_CACHE_SIZE_ID); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_CACHE_SIZE_ID,CsidReg); +#endif + /* Determine Cache Size */ + + CacheSize = (CsidReg >> 13U) & 0x000001FFU; + CacheSize += 0x00000001U; + CacheSize *= (u32)128; /* to get number of bytes */ + + /* Number of Ways */ + NumWays = (CsidReg & 0x000003ffU) >> 3U; + NumWays += 0x00000001U; + + /* Get the cacheline size, way size, index size from csidr */ + LineSize = (CsidReg & 0x00000007U) + 0x00000004U; + + NumSet = CacheSize/NumWays; + NumSet /= (0x00000001U << LineSize); + + Way = 0U; + Set = 0U; + + /* Invalidate all the cachelines */ + for (WayIndex = 0U; WayIndex < NumWays; WayIndex++) { + for (SetIndex = 0U; SetIndex < NumSet; SetIndex++) { + C7Reg = Way | Set; + /* Flush by Set/Way */ + asm_clean_inval_dc_line_sw(C7Reg); + + Set += (0x00000001U << LineSize); + } + Set = 0U; + Way += 0x40000000U; + } + + /* Wait for flush to complete */ + dsb(); + mtcpsr(currmask); + + mtcpsr(currmask); +} + +void Xil_DCacheFlushLine(INTPTR adr) +{ + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + + mtcp(XREG_CP15_CACHE_SIZE_SEL, 0); + + mtcp(XREG_CP15_CLEAN_INVAL_DC_LINE_MVA_POC, (adr & (~0x1F))); + + /* Wait for flush to complete */ + dsb(); + mtcpsr(currmask); +} + void Xil_DCacheFlushRange(INTPTR adr, u32 len) { u32 LocalAddr = adr; @@ -163,6 +282,130 @@ void Xil_DCacheFlushRange(INTPTR adr, u32 len) mtcpsr(currmask); } +void Xil_DCacheStoreLine(INTPTR adr) +{ + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + + mtcp(XREG_CP15_CACHE_SIZE_SEL, 0); + mtcp(XREG_CP15_CLEAN_DC_LINE_MVA_POC, (adr & (~0x1F))); + + /* Wait for store to complete */ + dsb(); + isb(); + + mtcpsr(currmask); +} + +void Xil_ICacheEnable(void) +{ + register u32 CtrlReg; + + /* enable caches only if they are disabled */ +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL, CtrlReg); +#endif + if ((CtrlReg & XREG_CP15_CONTROL_I_BIT)==0x00000000U) { + /* invalidate the instruction cache */ + mtcp(XREG_CP15_INVAL_IC_POU, 0); + + /* enable the instruction cache */ + CtrlReg |= (XREG_CP15_CONTROL_I_BIT); + + mtcp(XREG_CP15_SYS_CONTROL, CtrlReg); + } +} + +void Xil_ICacheDisable(void) +{ + register u32 CtrlReg; + + dsb(); + + /* invalidate the instruction cache */ + mtcp(XREG_CP15_INVAL_IC_POU, 0); + + /* disable the instruction cache */ +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,CtrlReg); +#endif + + CtrlReg &= ~(XREG_CP15_CONTROL_I_BIT); + + mtcp(XREG_CP15_SYS_CONTROL, CtrlReg); +} + +void Xil_ICacheInvalidate(void) +{ + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + + mtcp(XREG_CP15_CACHE_SIZE_SEL, 1); + + /* invalidate the instruction cache */ + mtcp(XREG_CP15_INVAL_IC_POU, 0); + + /* Wait for invalidate to complete */ + dsb(); + mtcpsr(currmask); +} + +void Xil_ICacheInvalidateLine(INTPTR adr) +{ + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + + mtcp(XREG_CP15_CACHE_SIZE_SEL, 1); + mtcp(XREG_CP15_INVAL_IC_LINE_MVA_POU, (adr & (~0x1F))); + + /* Wait for invalidate to complete */ + dsb(); + mtcpsr(currmask); +} + +void Xil_ICacheInvalidateRange(INTPTR adr, u32 len) +{ + u32 LocalAddr = adr; + const u32 cacheline = 32U; + u32 end; + u32 currmask; + + currmask = mfcpsr(); + mtcpsr(currmask | IRQ_FIQ_MASK); + if (len != 0x00000000U) { + /* Back the starting address up to the start of a cache line + * perform cache operations until adr+len + */ + end = LocalAddr + len; + LocalAddr = LocalAddr & ~(cacheline - 1U); + + /* Select cache L0 I-cache in CSSR */ + mtcp(XREG_CP15_CACHE_SIZE_SEL, 1U); + + while (LocalAddr < end) { + + /* Invalidate L1 I-cache line */ + asm_inval_ic_line_mva_pou(LocalAddr); + + LocalAddr += cacheline; + } + } + + /* Wait for invalidate to complete */ + dsb(); + mtcpsr(currmask); +} + void rt_hw_cpu_icache_ops(int ops, void *addr, int size) { if (ops == RT_HW_CACHE_INVALIDATE) diff --git a/libcpu/arm/zynqmp-r5/start_gcc.S b/libcpu/arm/zynqmp-r5/start_gcc.S index faea0022be..7e99c9e82b 100644 --- a/libcpu/arm/zynqmp-r5/start_gcc.S +++ b/libcpu/arm/zynqmp-r5/start_gcc.S @@ -6,6 +6,9 @@ * Change Logs: * Date Author Notes * 2020-03-19 WangHuachen first version + * 2021-05-11 WangHuachen Added call to Xil_InitializeExistingMPURegConfig to + * initialize the MPU configuration table with the MPU + * configurations already set in Init_Mpu function. */ .equ Mode_USR, 0x10 @@ -234,6 +237,7 @@ ctor_loop: b ctor_loop ctor_end: + bl Xil_InitializeExistingMPURegConfig /* Initialize MPU config */ /* start RT-Thread Kernel */ ldr pc, _entry diff --git a/libcpu/arm/zynqmp-r5/xil_mmu.h b/libcpu/arm/zynqmp-r5/xil_mmu.h new file mode 100644 index 0000000000..99e019c6f5 --- /dev/null +++ b/libcpu/arm/zynqmp-r5/xil_mmu.h @@ -0,0 +1,54 @@ +/****************************************************************************** +* Copyright (c) 2015 - 2020 Xilinx, Inc. All rights reserved. +* SPDX-License-Identifier: MIT +******************************************************************************/ + +/*****************************************************************************/ +/** +* @file xil_mmu.h +* This file only includes xil_mpu.h which contains Xil_SetTlbAttributes API +* defined for MPU in R5. R5 does not have mmu and for usage of similar API +* the file has been created. +* +* +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- ---------------------------------------------------
+* 5.0    pkp  2/12/15 Initial version
+* 
+* +* @note +* +* None. +* +******************************************************************************/ + +#ifndef XIL_MMU_H +#define XIL_MMU_H + +#ifdef __cplusplus +extern "C" { +#endif /* __cplusplus */ + +/***************************** Include Files *********************************/ + +#include "xil_mpu.h" + +/***************** Macros (Inline Functions) Definitions *********************/ + +/**************************** Type Definitions *******************************/ + +/************************** Constant Definitions *****************************/ + +/************************** Variable Definitions *****************************/ + +/************************** Function Prototypes ******************************/ + +#ifdef __cplusplus +} +#endif /* __cplusplus */ + +#endif /* XIL_MMU_H */ diff --git a/libcpu/arm/zynqmp-r5/xil_mpu.c b/libcpu/arm/zynqmp-r5/xil_mpu.c new file mode 100644 index 0000000000..7115bbb0a6 --- /dev/null +++ b/libcpu/arm/zynqmp-r5/xil_mpu.c @@ -0,0 +1,637 @@ +/****************************************************************************** +* +* Copyright (C) 2014 - 2017 Xilinx, Inc. All rights reserved. +* Copyright (C) 2021 WangHuachen. All rights reserved. +* +* Permission is hereby granted, free of charge, to any person obtaining a copy +* of this software and associated documentation files (the "Software"), to deal +* in the Software without restriction, including without limitation the rights +* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +* copies of the Software, and to permit persons to whom the Software is +* furnished to do so, subject to the following conditions: +* +* The above copyright notice and this permission notice shall be included in +* all copies or substantial portions of the Software. +* +* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL +* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +* THE SOFTWARE. +* +* +* +******************************************************************************/ +/*****************************************************************************/ +/** +* @file xil_mpu.c +* +* This file provides APIs for enabling/disabling MPU and setting the memory +* attributes for sections, in the MPU translation table. +* +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- ---------------------------------------------------
+* 5.00  pkp  02/10/14 Initial version
+* 6.2   mus  01/27/17 Updated to support IAR compiler
+* 6.4   asa  08/16/17 Added many APIs for MPU access to make MPU usage
+*                       user-friendly. The APIs added are: Xil_UpdateMPUConfig,
+*                       Xil_GetMPUConfig, Xil_GetNumOfFreeRegions,
+*                       Xil_GetNextMPURegion, Xil_DisableMPURegionByRegNum,
+*                       Xil_GetMPUFreeRegMask, Xil_SetMPURegionByRegNum, and
+*                       Xil_InitializeExistingMPURegConfig.
+*                       Added a new array of structure of type XMpuConfig to
+*                       represent the MPU configuration table.
+* 6.8  aru  07/02/18 Returned the pointer instead of address
+*            of that pointer in Xil_MemMap().
+* 
+* +* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xil_cache.h" +#include "xpseudo_asm_gcc.h" +#include "xil_types.h" +#include "xil_mpu.h" +// #include "xdebug.h" +#include "xreg_cortexr5.h" +#include "xstatus.h" + +#include +#define DBG_TAG "xil_mpu" +#define DBG_LVL DBG_INFO +#include + +extern void Xil_DCacheFlush(void); +extern void Xil_ICacheInvalidate(void); +extern void Xil_DCacheDisable(void); +extern void Xil_ICacheDisable(void); +extern void Xil_DCacheEnable(void); +extern void Xil_ICacheEnable(void); + +/***************** Macros (Inline Functions) Definitions *********************/ + +/**************************** Type Definitions *******************************/ + +/************************** Constant Definitions *****************************/ +#define MPU_REGION_SIZE_MIN 0x20 +/************************** Variable Definitions *****************************/ + +static const struct { + u64 size; + unsigned int encoding; +}region_size[] = { + { 0x20, REGION_32B }, + { 0x40, REGION_64B }, + { 0x80, REGION_128B }, + { 0x100, REGION_256B }, + { 0x200, REGION_512B }, + { 0x400, REGION_1K }, + { 0x800, REGION_2K }, + { 0x1000, REGION_4K }, + { 0x2000, REGION_8K }, + { 0x4000, REGION_16K }, + { 0x8000, REGION_32K }, + { 0x10000, REGION_64K }, + { 0x20000, REGION_128K }, + { 0x40000, REGION_256K }, + { 0x80000, REGION_512K }, + { 0x100000, REGION_1M }, + { 0x200000, REGION_2M }, + { 0x400000, REGION_4M }, + { 0x800000, REGION_8M }, + { 0x1000000, REGION_16M }, + { 0x2000000, REGION_32M }, + { 0x4000000, REGION_64M }, + { 0x8000000, REGION_128M }, + { 0x10000000, REGION_256M }, + { 0x20000000, REGION_512M }, + { 0x40000000, REGION_1G }, + { 0x80000000, REGION_2G }, + { 0x100000000, REGION_4G }, +}; + +XMpu_Config Mpu_Config; + +/************************** Function Prototypes ******************************/ +void Xil_InitializeExistingMPURegConfig(void); +/*****************************************************************************/ +/** +* @brief This function sets the memory attributes for a section covering +* 1MB, of memory in the translation table. +* +* @param Addr: 32-bit address for which memory attributes need to be set. +* @param attrib: Attribute for the given memory region. +* @return None. +* +* +******************************************************************************/ +void Xil_SetTlbAttributes(INTPTR addr, u32 attrib) +{ + INTPTR Localaddr = addr; + Localaddr &= (~(0xFFFFFU)); + /* Setting the MPU region with given attribute with 1MB size */ + Xil_SetMPURegion(Localaddr, 0x100000, attrib); +} + +/*****************************************************************************/ +/** +* @brief Set the memory attributes for a section of memory in the +* translation table. +* +* @param Addr: 32-bit address for which memory attributes need to be set.. +* @param size: size is the size of the region. +* @param attrib: Attribute for the given memory region. +* @return None. +* +* +******************************************************************************/ +u32 Xil_SetMPURegion(INTPTR addr, u64 size, u32 attrib) +{ + u32 Regionsize = 0; + INTPTR Localaddr = addr; + u32 NextAvailableMemRegion; + unsigned int i; + + NextAvailableMemRegion = Xil_GetNextMPURegion(); + if (NextAvailableMemRegion == 0xFF) { + LOG_E("No regions available\r\n"); + return XST_FAILURE; + } + + Xil_DCacheFlush(); + Xil_ICacheInvalidate(); + + mtcp(XREG_CP15_MPU_MEMORY_REG_NUMBER,NextAvailableMemRegion); + isb(); + + /* Lookup the size. */ + for (i = 0; i < sizeof region_size / sizeof region_size[0]; i++) { + if (size <= region_size[i].size) { + Regionsize = region_size[i].encoding; + break; + } + } + + Localaddr &= ~(region_size[i].size - 1); + + Regionsize <<= 1; + Regionsize |= REGION_EN; + dsb(); + mtcp(XREG_CP15_MPU_REG_BASEADDR, Localaddr); /* Set base address of a region */ + mtcp(XREG_CP15_MPU_REG_ACCESS_CTRL, attrib); /* Set the control attribute */ + mtcp(XREG_CP15_MPU_REG_SIZE_EN, Regionsize); /* set the region size and enable it*/ + dsb(); + isb(); + Xil_UpdateMPUConfig(NextAvailableMemRegion, Localaddr, Regionsize, attrib); + return XST_SUCCESS; +} +/*****************************************************************************/ +/** +* @brief Enable MPU for Cortex R5 processor. This function invalidates I +* cache and flush the D Caches, and then enables the MPU. +* +* +* @param None. +* @return None. +* +******************************************************************************/ +void Xil_EnableMPU(void) +{ + u32 CtrlReg, Reg; + s32 DCacheStatus=0, ICacheStatus=0; + /* enable caches only if they are disabled */ +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,CtrlReg); +#endif + if ((CtrlReg & XREG_CP15_CONTROL_C_BIT) != 0x00000000U) { + DCacheStatus=1; + } + if ((CtrlReg & XREG_CP15_CONTROL_I_BIT) != 0x00000000U) { + ICacheStatus=1; + } + + if(DCacheStatus != 0) { + Xil_DCacheDisable(); + } + if(ICacheStatus != 0){ + Xil_ICacheDisable(); + } +#if defined (__GNUC__) + Reg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,Reg); +#endif + Reg |= 0x00000001U; + dsb(); + mtcp(XREG_CP15_SYS_CONTROL, Reg); + isb(); + /* enable caches only if they are disabled in routine*/ + if(DCacheStatus != 0) { + Xil_DCacheEnable(); + } + if(ICacheStatus != 0) { + Xil_ICacheEnable(); + } +} + +/*****************************************************************************/ +/** +* @brief Disable MPU for Cortex R5 processors. This function invalidates I +* cache and flush the D Caches, and then disabes the MPU. +* +* @param None. +* +* @return None. +* +******************************************************************************/ +void Xil_DisableMPU(void) +{ + u32 CtrlReg, Reg; + s32 DCacheStatus=0, ICacheStatus=0; + /* enable caches only if they are disabled */ + +#if defined (__GNUC__) + CtrlReg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,CtrlReg); +#endif + if ((CtrlReg & XREG_CP15_CONTROL_C_BIT) != 0x00000000U) { + DCacheStatus=1; + } + if ((CtrlReg & XREG_CP15_CONTROL_I_BIT) != 0x00000000U) { + ICacheStatus=1; + } + + if(DCacheStatus != 0) { + Xil_DCacheDisable(); + } + if(ICacheStatus != 0){ + Xil_ICacheDisable(); + } + + mtcp(XREG_CP15_INVAL_BRANCH_ARRAY, 0); +#if defined (__GNUC__) + Reg = mfcp(XREG_CP15_SYS_CONTROL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_SYS_CONTROL,Reg); +#endif + Reg &= ~(0x00000001U); + dsb(); + mtcp(XREG_CP15_SYS_CONTROL, Reg); + isb(); + /* enable caches only if they are disabled in routine*/ + if(DCacheStatus != 0) { + Xil_DCacheEnable(); + } + if(ICacheStatus != 0) { + Xil_ICacheEnable(); + } +} + +/*****************************************************************************/ +/** +* @brief Update the MPU configuration for the requested region number in +* the global MPU configuration table. +* +* @param reg_num: The requested region number to be updated information for. +* @param address: 32 bit address for start of the region. +* @param size: Requested size of the region. +* @param attrib: Attribute for the corresponding region. +* @return XST_FAILURE: When the requested region number if 16 or more. +* XST_SUCCESS: When the MPU configuration table is updated. +* +* +******************************************************************************/ +u32 Xil_UpdateMPUConfig(u32 reg_num, INTPTR address, u32 size, u32 attrib) +{ + u32 ReturnVal = XST_SUCCESS; + u32 Tempsize = size; + u32 Index; + + if (reg_num >= MAX_POSSIBLE_MPU_REGS) { + LOG_E("Invalid region number\r\n"); + ReturnVal = XST_FAILURE; + goto exit; + } + + if (size & REGION_EN) { + Mpu_Config[reg_num].RegionStatus = MPU_REG_ENABLED; + Mpu_Config[reg_num].BaseAddress = address; + Tempsize &= (~REGION_EN); + Tempsize >>= 1; + /* Lookup the size. */ + for (Index = 0; Index < + sizeof region_size / sizeof region_size[0]; Index++) { + if (Tempsize <= region_size[Index].encoding) { + Mpu_Config[reg_num].Size = region_size[Index].size; + break; + } + } + Mpu_Config[reg_num].Attribute = attrib; + } else { + Mpu_Config[reg_num].RegionStatus = 0U; + Mpu_Config[reg_num].BaseAddress = 0U; + Mpu_Config[reg_num].Size = 0U; + Mpu_Config[reg_num].Attribute = 0U; + } + +exit: + return ReturnVal; +} + +/*****************************************************************************/ +/** +* @brief The MPU configuration table is passed to the caller. +* +* @param mpuconfig: This is of type XMpu_Config which is an array of +* 16 entries of type structure representing the MPU config table +* @return none +* +* +******************************************************************************/ +void Xil_GetMPUConfig (XMpu_Config mpuconfig) { + u32 Index = 0U; + + while (Index < MAX_POSSIBLE_MPU_REGS) { + mpuconfig[Index].RegionStatus = Mpu_Config[Index].RegionStatus; + mpuconfig[Index].BaseAddress = Mpu_Config[Index].BaseAddress; + mpuconfig[Index].Attribute = Mpu_Config[Index].Attribute; + mpuconfig[Index].Size = Mpu_Config[Index].Size; + Index++; + } +} + +/*****************************************************************************/ +/** +* @brief Returns the total number of free MPU regions available. +* +* @param none +* @return Number of free regions available to users +* +* +******************************************************************************/ +u32 Xil_GetNumOfFreeRegions (void) { + u32 Index = 0U; + int NumofFreeRegs = 0U; + + while (Index < MAX_POSSIBLE_MPU_REGS) { + if (MPU_REG_DISABLED == Mpu_Config[Index].RegionStatus) { + NumofFreeRegs++; + } + Index++; + } + return NumofFreeRegs; +} + +/*****************************************************************************/ +/** +* @brief Returns the total number of free MPU regions available in the form +* of a mask. A bit of 1 in the returned 16 bit value represents the +* corresponding region number to be available. +* For example, if this function returns 0xC0000, this would mean, the +* regions 14 and 15 are available to users. +* +* @param none +* @return The free region mask as a 16 bit value +* +* +******************************************************************************/ +u16 Xil_GetMPUFreeRegMask (void) { + u32 Index = 0U; + u16 FreeRegMask = 0U; + + while (Index < MAX_POSSIBLE_MPU_REGS) { + if (MPU_REG_DISABLED == Mpu_Config[Index].RegionStatus) { + FreeRegMask |= (1U << Index); + } + Index++; + } + return FreeRegMask; +} + +/*****************************************************************************/ +/** +* @brief Disables the corresponding region number as passed by the user. +* +* @param reg_num: The region number to be disabled +* @return XST_SUCCESS: If the region could be disabled successfully +* XST_FAILURE: If the requested region number is 16 or more. +* +* +******************************************************************************/ +u32 Xil_DisableMPURegionByRegNum (u32 reg_num) { + u32 Temp = 0U; + u32 ReturnVal = XST_FAILURE; + + if (reg_num >= 16U) { + LOG_E("Invalid region number\r\n"); + goto exit1; + } + Xil_DCacheFlush(); + Xil_ICacheInvalidate(); + + mtcp(XREG_CP15_MPU_MEMORY_REG_NUMBER,reg_num); +#if defined (__GNUC__) + Temp = mfcp(XREG_CP15_MPU_REG_SIZE_EN); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_MPU_REG_SIZE_EN,Temp); +#endif + Temp &= (~REGION_EN); + dsb(); + mtcp(XREG_CP15_MPU_REG_SIZE_EN,Temp); + dsb(); + isb(); + Xil_UpdateMPUConfig(reg_num, 0U, 0U, 0U); + ReturnVal = XST_SUCCESS; + +exit1: + return ReturnVal; +} + +/*****************************************************************************/ +/** +* @brief Enables the corresponding region number as passed by the user. +* +* @param reg_num: The region number to be enabled +* @param address: 32 bit address for start of the region. +* @param size: Requested size of the region. +* @param attrib: Attribute for the corresponding region. +* @return XST_SUCCESS: If the region could be created successfully +* XST_FAILURE: If the requested region number is 16 or more. +* +* +******************************************************************************/ +u32 Xil_SetMPURegionByRegNum (u32 reg_num, INTPTR addr, u64 size, u32 attrib) +{ + u32 ReturnVal = XST_SUCCESS; + INTPTR Localaddr = addr; + u32 Regionsize = 0; + u32 Index; + + if (reg_num >= 16U) { + LOG_E("Invalid region number\r\n"); + ReturnVal = XST_FAILURE; + goto exit2; + } + + if (Mpu_Config[reg_num].RegionStatus == MPU_REG_ENABLED) { + LOG_E("Region already enabled\r\n"); + ReturnVal = XST_FAILURE; + goto exit2; + } + + Xil_DCacheFlush(); + Xil_ICacheInvalidate(); + mtcp(XREG_CP15_MPU_MEMORY_REG_NUMBER,reg_num); + isb(); + + /* Lookup the size. */ + for (Index = 0; Index < + sizeof region_size / sizeof region_size[0]; Index++) { + if (size <= region_size[Index].size) { + Regionsize = region_size[Index].encoding; + break; + } + } + + Localaddr &= ~(region_size[Index].size - 1); + Regionsize <<= 1; + Regionsize |= REGION_EN; + dsb(); + mtcp(XREG_CP15_MPU_REG_BASEADDR, Localaddr); + mtcp(XREG_CP15_MPU_REG_ACCESS_CTRL, attrib); + mtcp(XREG_CP15_MPU_REG_SIZE_EN, Regionsize); + dsb(); + isb(); + Xil_UpdateMPUConfig(reg_num, Localaddr, Regionsize, attrib); +exit2: + return ReturnVal; + +} + +/*****************************************************************************/ +/** +* @brief Initializes the MPU configuration table that are setup in the +* R5 boot code in the Init_Mpu function called before C main. +* +* @param none +* @return none +* +* +******************************************************************************/ +void Xil_InitializeExistingMPURegConfig(void) +{ + u32 Index = 0U; + u32 Index1 = 0U; + u32 MPURegSize; + INTPTR MPURegBA; + u32 MPURegAttrib; + u32 Tempsize; + + while (Index < MAX_POSSIBLE_MPU_REGS) { + mtcp(XREG_CP15_MPU_MEMORY_REG_NUMBER,Index); +#if defined (__GNUC__) + MPURegSize = mfcp(XREG_CP15_MPU_REG_SIZE_EN); + MPURegBA = mfcp(XREG_CP15_MPU_REG_BASEADDR); + MPURegAttrib = mfcp(XREG_CP15_MPU_REG_ACCESS_CTRL); +#elif defined (__ICCARM__) + mfcp(XREG_CP15_MPU_REG_SIZE_EN,MPURegSize); + mfcp(XREG_CP15_MPU_REG_BASEADDR, MPURegBA); + mfcp(XREG_CP15_MPU_REG_ACCESS_CTRL, MPURegAttrib); +#endif + if (MPURegSize & REGION_EN) { + Mpu_Config[Index].RegionStatus = MPU_REG_ENABLED; + Mpu_Config[Index].BaseAddress = MPURegBA; + Mpu_Config[Index].Attribute = MPURegAttrib; + Tempsize = MPURegSize & (~REGION_EN); + Tempsize >>= 1; + for (Index1 = 0; Index1 < + (sizeof (region_size) / sizeof (region_size[0])); Index1++) { + if (Tempsize <= region_size[Index1].encoding) { + Mpu_Config[Index].Size = region_size[Index1].size; + break; + } + } + } + Index++; + } +} + +/*****************************************************************************/ +/** +* @brief Returns the next available free MPU region +* +* @param none +* @return The free MPU region available +* +* +******************************************************************************/ +u32 Xil_GetNextMPURegion(void) +{ + u32 Index = 0U; + u32 NextAvailableReg = 0xFF; + while (Index < MAX_POSSIBLE_MPU_REGS) { + if (Mpu_Config[Index].RegionStatus != MPU_REG_ENABLED) { + NextAvailableReg = Index; + break; + } + Index++; + } + return NextAvailableReg; +} + +/*****************************************************************************/ +/** +* @brief Memory mapping for Cortex r5. +* +* @param Physaddr is base physical address at which to start mapping. +* NULL in Physaddr masks possible mapping errors. +* @param size of region to be mapped. +* @param flags used to set translation table. +* +* @return Physaddr on success, NULL on error. Ambiguous if Physaddr==NULL +* +* @note: u32overflow() is defined for readability and (for __GNUC__) to +* - force the type of the check to be the same as the first argument +* - hide the otherwise unused third argument of the builtin +* - improve safety by choosing the explicit _uadd_ version. +* Consider __builtin_add_overflow_p() when available. +* Use an alternative (less optimal?) for compilers w/o the builtin. +* +******************************************************************************/ +#ifdef __GNUC__ +#define u32overflow(a, b) ({typeof(a) s; __builtin_uadd_overflow(a, b, &s); }) +#else +#define u32overflow(a, b) ((a) > ((a) + (b))) +#endif /* __GNUC__ */ +void *Xil_MemMap(UINTPTR Physaddr, size_t size, u32 flags) +{ + size_t Regionsize = MPU_REGION_SIZE_MIN; + UINTPTR Basephysaddr = 0, end = Physaddr + size; + + if (!flags) + return (void *)Physaddr; + if (u32overflow(Physaddr, size)) + return NULL; + for ( ; Regionsize != 0; Regionsize <<= 1) { + if (Regionsize >= size) { + Basephysaddr = Physaddr & ~(Regionsize - 1); + if (u32overflow(Basephysaddr, Regionsize)) + break; + if ((Basephysaddr + Regionsize) >= end) + return Xil_SetMPURegion(Basephysaddr, + Regionsize, flags) == XST_SUCCESS ? + (void *)Physaddr : NULL; + } + } + return NULL; +} diff --git a/libcpu/arm/zynqmp-r5/xil_mpu.h b/libcpu/arm/zynqmp-r5/xil_mpu.h new file mode 100644 index 0000000000..1afa6f76f7 --- /dev/null +++ b/libcpu/arm/zynqmp-r5/xil_mpu.h @@ -0,0 +1,129 @@ +/****************************************************************************** +* +* Copyright (C) 2014 - 2017 Xilinx, Inc. All rights reserved. +* +* Permission is hereby granted, free of charge, to any person obtaining a copy +* of this software and associated documentation files (the "Software"), to deal +* in the Software without restriction, including without limitation the rights +* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +* copies of the Software, and to permit persons to whom the Software is +* furnished to do so, subject to the following conditions: +* +* The above copyright notice and this permission notice shall be included in +* all copies or substantial portions of the Software. +* +* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL +* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +* THE SOFTWARE. +* +* +* +******************************************************************************/ +/*****************************************************************************/ +/** +* @file xil_mmu.h +* +* @addtogroup r5_mpu_apis Cortex R5 Processor MPU specific APIs +* +* MPU functions provides access to MPU operations such as enable MPU, disable +* MPU and set attribute for section of memory. +* Boot code invokes Init_MPU function to configure the MPU. A total of 10 MPU +* regions are allocated with another 6 being free for users. Overview of the +* memory attributes for different MPU regions is as given below, +* +*| | Memory Range | Attributes of MPURegion | +*|-----------------------|-------------------------|-----------------------------| +*| DDR | 0x00000000 - 0x7FFFFFFF | Normal write-back Cacheable | +*| PL | 0x80000000 - 0xBFFFFFFF | Strongly Ordered | +*| QSPI | 0xC0000000 - 0xDFFFFFFF | Device Memory | +*| PCIe | 0xE0000000 - 0xEFFFFFFF | Device Memory | +*| STM_CORESIGHT | 0xF8000000 - 0xF8FFFFFF | Device Memory | +*| RPU_R5_GIC | 0xF9000000 - 0xF90FFFFF | Device memory | +*| FPS | 0xFD000000 - 0xFDFFFFFF | Device Memory | +*| LPS | 0xFE000000 - 0xFFFFFFFF | Device Memory | +*| OCM | 0xFFFC0000 - 0xFFFFFFFF | Normal write-back Cacheable | +* +* +* @note +* For a system where DDR is less than 2GB, region after DDR and before PL is +* marked as undefined in translation table. Memory range 0xFE000000-0xFEFFFFFF is +* allocated for upper LPS slaves, where as memory region 0xFF000000-0xFFFFFFFF is +* allocated for lower LPS slaves. +* +* @{ +*
+* MODIFICATION HISTORY:
+*
+* Ver   Who  Date     Changes
+* ----- ---- -------- ---------------------------------------------------
+* 5.00  pkp  02/10/14 Initial version
+* 6.4   asa  08/16/17 Added many APIs for MPU access to make MPU usage
+*                       user-friendly. The APIs added are: Xil_UpdateMPUConfig,
+*                       Xil_GetMPUConfig, Xil_GetNumOfFreeRegions,
+*                       Xil_GetNextMPURegion, Xil_DisableMPURegionByRegNum,
+*                       Xil_GetMPUFreeRegMask, Xil_SetMPURegionByRegNum, and
+*                       Xil_InitializeExistingMPURegConfig.
+*                       Added a new array of structure of type XMpuConfig to
+*                       represent the MPU configuration table.
+* 
+* + +* +* +******************************************************************************/ + +#ifndef XIL_MPU_H +#define XIL_MPU_H + +#ifdef __cplusplus +extern "C" { +#endif /* __cplusplus */ +#include "xil_types.h" +/***************************** Include Files *********************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ +#define MPU_REG_DISABLED 0U +#define MPU_REG_ENABLED 1U +#define MAX_POSSIBLE_MPU_REGS 16U +/**************************** Type Definitions *******************************/ +struct XMpuConfig{ + u32 RegionStatus; /* Enabled or disabled */ + INTPTR BaseAddress;/* MPU region base address */ + u64 Size; /* MPU region size address */ + u32 Attribute; /* MPU region size attribute */ +}; + +typedef struct XMpuConfig XMpu_Config[MAX_POSSIBLE_MPU_REGS]; + +extern XMpu_Config Mpu_Config; +/************************** Constant Definitions *****************************/ + +/************************** Variable Definitions *****************************/ + +/************************** Function Prototypes ******************************/ + +void Xil_SetTlbAttributes(INTPTR Addr, u32 attrib); +void Xil_EnableMPU(void); +void Xil_DisableMPU(void); +u32 Xil_SetMPURegion(INTPTR addr, u64 size, u32 attrib); +u32 Xil_UpdateMPUConfig(u32 reg_num, INTPTR address, u32 size, u32 attrib); +void Xil_GetMPUConfig (XMpu_Config mpuconfig); +u32 Xil_GetNumOfFreeRegions (void); +u32 Xil_GetNextMPURegion(void); +u32 Xil_DisableMPURegionByRegNum (u32 reg_num); +u16 Xil_GetMPUFreeRegMask (void); +u32 Xil_SetMPURegionByRegNum (u32 reg_num, INTPTR addr, u64 size, u32 attrib); +void* Xil_MemMap(UINTPTR Physaddr, size_t size, u32 flags); + +#ifdef __cplusplus +} +#endif /* __cplusplus */ + +#endif /* XIL_MPU_H */ +/** +* @} End of "addtogroup r5_mpu_apis". +*/