//***************************************************************************** // // hw_emac.h - Macros used when accessing the EMAC hardware. // // Copyright (c) 2012-2017 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // 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. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "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 COPYRIGHT // OWNER OR CONTRIBUTORS 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 is part of revision 2.1.4.178 of the Tiva Firmware Development Package. // //***************************************************************************** #ifndef __HW_EMAC_H__ #define __HW_EMAC_H__ //***************************************************************************** // // The following are defines for the EMAC register offsets. // //***************************************************************************** #define EMAC_O_CFG 0x00000000 // Ethernet MAC Configuration #define EMAC_O_FRAMEFLTR 0x00000004 // Ethernet MAC Frame Filter #define EMAC_O_HASHTBLH 0x00000008 // Ethernet MAC Hash Table High #define EMAC_O_HASHTBLL 0x0000000C // Ethernet MAC Hash Table Low #define EMAC_O_MIIADDR 0x00000010 // Ethernet MAC MII Address #define EMAC_O_MIIDATA 0x00000014 // Ethernet MAC MII Data Register #define EMAC_O_FLOWCTL 0x00000018 // Ethernet MAC Flow Control #define EMAC_O_VLANTG 0x0000001C // Ethernet MAC VLAN Tag #define EMAC_O_STATUS 0x00000024 // Ethernet MAC Status #define EMAC_O_RWUFF 0x00000028 // Ethernet MAC Remote Wake-Up // Frame Filter #define EMAC_O_PMTCTLSTAT 0x0000002C // Ethernet MAC PMT Control and // Status Register #define EMAC_O_LPICTLSTAT 0x00000030 // Ethernet MAC Low Power Idle // Control and Status Register #define EMAC_O_LPITIMERCTL 0x00000034 // Ethernet MAC Low Power Idle // Timer Control Register #define EMAC_O_RIS 0x00000038 // Ethernet MAC Raw Interrupt // Status #define EMAC_O_IM 0x0000003C // Ethernet MAC Interrupt Mask #define EMAC_O_ADDR0H 0x00000040 // Ethernet MAC Address 0 High #define EMAC_O_ADDR0L 0x00000044 // Ethernet MAC Address 0 Low // Register #define EMAC_O_ADDR1H 0x00000048 // Ethernet MAC Address 1 High #define EMAC_O_ADDR1L 0x0000004C // Ethernet MAC Address 1 Low #define EMAC_O_ADDR2H 0x00000050 // Ethernet MAC Address 2 High #define EMAC_O_ADDR2L 0x00000054 // Ethernet MAC Address 2 Low #define EMAC_O_ADDR3H 0x00000058 // Ethernet MAC Address 3 High #define EMAC_O_ADDR3L 0x0000005C // Ethernet MAC Address 3 Low #define EMAC_O_WDOGTO 0x000000DC // Ethernet MAC Watchdog Timeout #define EMAC_O_MMCCTRL 0x00000100 // Ethernet MAC MMC Control #define EMAC_O_MMCRXRIS 0x00000104 // Ethernet MAC MMC Receive Raw // Interrupt Status #define EMAC_O_MMCTXRIS 0x00000108 // Ethernet MAC MMC Transmit Raw // Interrupt Status #define EMAC_O_MMCRXIM 0x0000010C // Ethernet MAC MMC Receive // Interrupt Mask #define EMAC_O_MMCTXIM 0x00000110 // Ethernet MAC MMC Transmit // Interrupt Mask #define EMAC_O_TXCNTGB 0x00000118 // Ethernet MAC Transmit Frame // Count for Good and Bad Frames #define EMAC_O_TXCNTSCOL 0x0000014C // Ethernet MAC Transmit Frame // Count for Frames Transmitted // after Single Collision #define EMAC_O_TXCNTMCOL 0x00000150 // Ethernet MAC Transmit Frame // Count for Frames Transmitted // after Multiple Collisions #define EMAC_O_TXOCTCNTG 0x00000164 // Ethernet MAC Transmit Octet // Count Good #define EMAC_O_RXCNTGB 0x00000180 // Ethernet MAC Receive Frame Count // for Good and Bad Frames #define EMAC_O_RXCNTCRCERR 0x00000194 // Ethernet MAC Receive Frame Count // for CRC Error Frames #define EMAC_O_RXCNTALGNERR 0x00000198 // Ethernet MAC Receive Frame Count // for Alignment Error Frames #define EMAC_O_RXCNTGUNI 0x000001C4 // Ethernet MAC Receive Frame Count // for Good Unicast Frames #define EMAC_O_VLNINCREP 0x00000584 // Ethernet MAC VLAN Tag Inclusion // or Replacement #define EMAC_O_VLANHASH 0x00000588 // Ethernet MAC VLAN Hash Table #define EMAC_O_TIMSTCTRL 0x00000700 // Ethernet MAC Timestamp Control #define EMAC_O_SUBSECINC 0x00000704 // Ethernet MAC Sub-Second // Increment #define EMAC_O_TIMSEC 0x00000708 // Ethernet MAC System Time - // Seconds #define EMAC_O_TIMNANO 0x0000070C // Ethernet MAC System Time - // Nanoseconds #define EMAC_O_TIMSECU 0x00000710 // Ethernet MAC System Time - // Seconds Update #define EMAC_O_TIMNANOU 0x00000714 // Ethernet MAC System Time - // Nanoseconds Update #define EMAC_O_TIMADD 0x00000718 // Ethernet MAC Timestamp Addend #define EMAC_O_TARGSEC 0x0000071C // Ethernet MAC Target Time Seconds #define EMAC_O_TARGNANO 0x00000720 // Ethernet MAC Target Time // Nanoseconds #define EMAC_O_HWORDSEC 0x00000724 // Ethernet MAC System Time-Higher // Word Seconds #define EMAC_O_TIMSTAT 0x00000728 // Ethernet MAC Timestamp Status #define EMAC_O_PPSCTRL 0x0000072C // Ethernet MAC PPS Control #define EMAC_O_PPS0INTVL 0x00000760 // Ethernet MAC PPS0 Interval #define EMAC_O_PPS0WIDTH 0x00000764 // Ethernet MAC PPS0 Width #define EMAC_O_DMABUSMOD 0x00000C00 // Ethernet MAC DMA Bus Mode #define EMAC_O_TXPOLLD 0x00000C04 // Ethernet MAC Transmit Poll // Demand #define EMAC_O_RXPOLLD 0x00000C08 // Ethernet MAC Receive Poll Demand #define EMAC_O_RXDLADDR 0x00000C0C // Ethernet MAC Receive Descriptor // List Address #define EMAC_O_TXDLADDR 0x00000C10 // Ethernet MAC Transmit Descriptor // List Address #define EMAC_O_DMARIS 0x00000C14 // Ethernet MAC DMA Interrupt // Status #define EMAC_O_DMAOPMODE 0x00000C18 // Ethernet MAC DMA Operation Mode #define EMAC_O_DMAIM 0x00000C1C // Ethernet MAC DMA Interrupt Mask // Register #define EMAC_O_MFBOC 0x00000C20 // Ethernet MAC Missed Frame and // Buffer Overflow Counter #define EMAC_O_RXINTWDT 0x00000C24 // Ethernet MAC Receive Interrupt // Watchdog Timer #define EMAC_O_HOSTXDESC 0x00000C48 // Ethernet MAC Current Host // Transmit Descriptor #define EMAC_O_HOSRXDESC 0x00000C4C // Ethernet MAC Current Host // Receive Descriptor #define EMAC_O_HOSTXBA 0x00000C50 // Ethernet MAC Current Host // Transmit Buffer Address #define EMAC_O_HOSRXBA 0x00000C54 // Ethernet MAC Current Host // Receive Buffer Address #define EMAC_O_PP 0x00000FC0 // Ethernet MAC Peripheral Property // Register #define EMAC_O_PC 0x00000FC4 // Ethernet MAC Peripheral // Configuration Register #define EMAC_O_CC 0x00000FC8 // Ethernet MAC Clock Configuration // Register #define EMAC_O_EPHYRIS 0x00000FD0 // Ethernet PHY Raw Interrupt // Status #define EMAC_O_EPHYIM 0x00000FD4 // Ethernet PHY Interrupt Mask #define EMAC_O_EPHYMISC 0x00000FD8 // Ethernet PHY Masked Interrupt // Status and Clear //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_CFG register. // //***************************************************************************** #define EMAC_CFG_TWOKPEN 0x08000000 // IEEE 802 #define EMAC_CFG_CST 0x02000000 // CRC Stripping for Type Frames #define EMAC_CFG_WDDIS 0x00800000 // Watchdog Disable #define EMAC_CFG_JD 0x00400000 // Jabber Disable #define EMAC_CFG_JFEN 0x00100000 // Jumbo Frame Enable #define EMAC_CFG_IFG_M 0x000E0000 // Inter-Frame Gap (IFG) #define EMAC_CFG_IFG_96 0x00000000 // 96 bit times #define EMAC_CFG_IFG_88 0x00020000 // 88 bit times #define EMAC_CFG_IFG_80 0x00040000 // 80 bit times #define EMAC_CFG_IFG_72 0x00060000 // 72 bit times #define EMAC_CFG_IFG_64 0x00080000 // 64 bit times #define EMAC_CFG_IFG_56 0x000A0000 // 56 bit times #define EMAC_CFG_IFG_48 0x000C0000 // 48 bit times #define EMAC_CFG_IFG_40 0x000E0000 // 40 bit times #define EMAC_CFG_DISCRS 0x00010000 // Disable Carrier Sense During // Transmission #define EMAC_CFG_PS 0x00008000 // Port Select #define EMAC_CFG_FES 0x00004000 // Speed #define EMAC_CFG_DRO 0x00002000 // Disable Receive Own #define EMAC_CFG_LOOPBM 0x00001000 // Loopback Mode #define EMAC_CFG_DUPM 0x00000800 // Duplex Mode #define EMAC_CFG_IPC 0x00000400 // Checksum Offload #define EMAC_CFG_DR 0x00000200 // Disable Retry #define EMAC_CFG_ACS 0x00000080 // Automatic Pad or CRC Stripping #define EMAC_CFG_BL_M 0x00000060 // Back-Off Limit #define EMAC_CFG_BL_1024 0x00000000 // k = min (n,10) #define EMAC_CFG_BL_256 0x00000020 // k = min (n,8) #define EMAC_CFG_BL_8 0x00000040 // k = min (n,4) #define EMAC_CFG_BL_2 0x00000060 // k = min (n,1) #define EMAC_CFG_DC 0x00000010 // Deferral Check #define EMAC_CFG_TE 0x00000008 // Transmitter Enable #define EMAC_CFG_RE 0x00000004 // Receiver Enable #define EMAC_CFG_PRELEN_M 0x00000003 // Preamble Length for Transmit // Frames #define EMAC_CFG_PRELEN_7 0x00000000 // 7 bytes of preamble #define EMAC_CFG_PRELEN_5 0x00000001 // 5 bytes of preamble #define EMAC_CFG_PRELEN_3 0x00000002 // 3 bytes of preamble //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_FRAMEFLTR // register. // //***************************************************************************** #define EMAC_FRAMEFLTR_RA 0x80000000 // Receive All #define EMAC_FRAMEFLTR_VTFE 0x00010000 // VLAN Tag Filter Enable #define EMAC_FRAMEFLTR_HPF 0x00000400 // Hash or Perfect Filter #define EMAC_FRAMEFLTR_SAF 0x00000200 // Source Address Filter Enable #define EMAC_FRAMEFLTR_SAIF 0x00000100 // Source Address (SA) Inverse // Filtering #define EMAC_FRAMEFLTR_PCF_M 0x000000C0 // Pass Control Frames #define EMAC_FRAMEFLTR_PCF_ALL 0x00000000 // The MAC filters all control // frames from reaching application #define EMAC_FRAMEFLTR_PCF_PAUSE \ 0x00000040 // MAC forwards all control frames // except PAUSE control frames to // application even if they fail // the address filter #define EMAC_FRAMEFLTR_PCF_NONE 0x00000080 // MAC forwards all control frames // to application even if they fail // the address Filter #define EMAC_FRAMEFLTR_PCF_ADDR 0x000000C0 // MAC forwards control frames that // pass the address Filter #define EMAC_FRAMEFLTR_DBF 0x00000020 // Disable Broadcast Frames #define EMAC_FRAMEFLTR_PM 0x00000010 // Pass All Multicast #define EMAC_FRAMEFLTR_DAIF 0x00000008 // Destination Address (DA) Inverse // Filtering #define EMAC_FRAMEFLTR_HMC 0x00000004 // Hash Multicast #define EMAC_FRAMEFLTR_HUC 0x00000002 // Hash Unicast #define EMAC_FRAMEFLTR_PR 0x00000001 // Promiscuous Mode //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HASHTBLH // register. // //***************************************************************************** #define EMAC_HASHTBLH_HTH_M 0xFFFFFFFF // Hash Table High #define EMAC_HASHTBLH_HTH_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HASHTBLL // register. // //***************************************************************************** #define EMAC_HASHTBLL_HTL_M 0xFFFFFFFF // Hash Table Low #define EMAC_HASHTBLL_HTL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MIIADDR register. // //***************************************************************************** #define EMAC_MIIADDR_PLA_M 0x0000F800 // Physical Layer Address #define EMAC_MIIADDR_MII_M 0x000007C0 // MII Register #define EMAC_MIIADDR_CR_M 0x0000003C // Clock Reference Frequency // Selection #define EMAC_MIIADDR_CR_60_100 0x00000000 // The frequency of the System // Clock is 60 to 100 MHz providing // a MDIO clock of SYSCLK/42 #define EMAC_MIIADDR_CR_100_150 0x00000004 // The frequency of the System // Clock is 100 to 150 MHz // providing a MDIO clock of // SYSCLK/62 #define EMAC_MIIADDR_CR_20_35 0x00000008 // The frequency of the System // Clock is 20-35 MHz providing a // MDIO clock of System Clock/16 #define EMAC_MIIADDR_CR_35_60 0x0000000C // The frequency of the System // Clock is 35 to 60 MHz providing // a MDIO clock of System Clock/26 #define EMAC_MIIADDR_MIIW 0x00000002 // MII Write #define EMAC_MIIADDR_MIIB 0x00000001 // MII Busy #define EMAC_MIIADDR_PLA_S 11 #define EMAC_MIIADDR_MII_S 6 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MIIDATA register. // //***************************************************************************** #define EMAC_MIIDATA_DATA_M 0x0000FFFF // MII Data #define EMAC_MIIDATA_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_FLOWCTL register. // //***************************************************************************** #define EMAC_FLOWCTL_PT_M 0xFFFF0000 // Pause Time #define EMAC_FLOWCTL_DZQP 0x00000080 // Disable Zero-Quanta Pause #define EMAC_FLOWCTL_UP 0x00000008 // Unicast Pause Frame Detect #define EMAC_FLOWCTL_RFE 0x00000004 // Receive Flow Control Enable #define EMAC_FLOWCTL_TFE 0x00000002 // Transmit Flow Control Enable #define EMAC_FLOWCTL_FCBBPA 0x00000001 // Flow Control Busy or // Back-pressure Activate #define EMAC_FLOWCTL_PT_S 16 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_VLANTG register. // //***************************************************************************** #define EMAC_VLANTG_VTHM 0x00080000 // VLAN Tag Hash Table Match Enable #define EMAC_VLANTG_ESVL 0x00040000 // Enable S-VLAN #define EMAC_VLANTG_VTIM 0x00020000 // VLAN Tag Inverse Match Enable #define EMAC_VLANTG_ETV 0x00010000 // Enable 12-Bit VLAN Tag // Comparison #define EMAC_VLANTG_VL_M 0x0000FFFF // VLAN Tag Identifier for Receive // Frames #define EMAC_VLANTG_VL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_STATUS register. // //***************************************************************************** #define EMAC_STATUS_TXFF 0x02000000 // TX/RX Controller TX FIFO Full // Status #define EMAC_STATUS_TXFE 0x01000000 // TX/RX Controller TX FIFO Not // Empty Status #define EMAC_STATUS_TWC 0x00400000 // TX/RX Controller TX FIFO Write // Controller Active Status #define EMAC_STATUS_TRC_M 0x00300000 // TX/RX Controller's TX FIFO Read // Controller Status #define EMAC_STATUS_TRC_IDLE 0x00000000 // IDLE state #define EMAC_STATUS_TRC_READ 0x00100000 // READ state (transferring data to // MAC transmitter) #define EMAC_STATUS_TRC_WAIT 0x00200000 // Waiting for TX Status from MAC // transmitter #define EMAC_STATUS_TRC_WRFLUSH 0x00300000 // Writing the received TX Status // or flushing the TX FIFO #define EMAC_STATUS_TXPAUSED 0x00080000 // MAC Transmitter PAUSE #define EMAC_STATUS_TFC_M 0x00060000 // MAC Transmit Frame Controller // Status #define EMAC_STATUS_TFC_IDLE 0x00000000 // IDLE state #define EMAC_STATUS_TFC_STATUS 0x00020000 // Waiting for status of previous // frame or IFG or backoff period // to be over #define EMAC_STATUS_TFC_PAUSE 0x00040000 // Generating and transmitting a // PAUSE control frame (in the // full-duplex mode) #define EMAC_STATUS_TFC_INPUT 0x00060000 // Transferring input frame for // transmission #define EMAC_STATUS_TPE 0x00010000 // MAC MII Transmit Protocol Engine // Status #define EMAC_STATUS_RXF_M 0x00000300 // TX/RX Controller RX FIFO // Fill-level Status #define EMAC_STATUS_RXF_EMPTY 0x00000000 // RX FIFO Empty #define EMAC_STATUS_RXF_BELOW 0x00000100 // RX FIFO fill level is below the // flow-control deactivate // threshold #define EMAC_STATUS_RXF_ABOVE 0x00000200 // RX FIFO fill level is above the // flow-control activate threshold #define EMAC_STATUS_RXF_FULL 0x00000300 // RX FIFO Full #define EMAC_STATUS_RRC_M 0x00000060 // TX/RX Controller Read Controller // State #define EMAC_STATUS_RRC_IDLE 0x00000000 // IDLE state #define EMAC_STATUS_RRC_STATUS 0x00000020 // Reading frame data #define EMAC_STATUS_RRC_DATA 0x00000040 // Reading frame status (or // timestamp) #define EMAC_STATUS_RRC_FLUSH 0x00000060 // Flushing the frame data and // status #define EMAC_STATUS_RWC 0x00000010 // TX/RX Controller RX FIFO Write // Controller Active Status #define EMAC_STATUS_RFCFC_M 0x00000006 // MAC Receive Frame Controller // FIFO Status #define EMAC_STATUS_RPE 0x00000001 // MAC MII Receive Protocol Engine // Status #define EMAC_STATUS_RFCFC_S 1 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RWUFF register. // //***************************************************************************** #define EMAC_RWUFF_WAKEUPFIL_M 0xFFFFFFFF // Remote Wake-Up Frame Filter #define EMAC_RWUFF_WAKEUPFIL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PMTCTLSTAT // register. // //***************************************************************************** #define EMAC_PMTCTLSTAT_WUPFRRST \ 0x80000000 // Wake-Up Frame Filter Register // Pointer Reset #define EMAC_PMTCTLSTAT_RWKPTR_M \ 0x07000000 // Remote Wake-Up FIFO Pointer #define EMAC_PMTCTLSTAT_GLBLUCAST \ 0x00000200 // Global Unicast #define EMAC_PMTCTLSTAT_WUPRX 0x00000040 // Wake-Up Frame Received #define EMAC_PMTCTLSTAT_MGKPRX 0x00000020 // Magic Packet Received #define EMAC_PMTCTLSTAT_WUPFREN 0x00000004 // Wake-Up Frame Enable #define EMAC_PMTCTLSTAT_MGKPKTEN \ 0x00000002 // Magic Packet Enable #define EMAC_PMTCTLSTAT_PWRDWN 0x00000001 // Power Down #define EMAC_PMTCTLSTAT_RWKPTR_S \ 24 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_LPICTLSTAT // register. // //***************************************************************************** #define EMAC_LPICTLSTAT_LPITXA 0x00080000 // LPI TX Automate #define EMAC_LPICTLSTAT_PLSEN 0x00040000 // PHY Link Status Enable #define EMAC_LPICTLSTAT_PLS 0x00020000 // PHY Link Status #define EMAC_LPICTLSTAT_LPIEN 0x00010000 // LPI Enable #define EMAC_LPICTLSTAT_RLPIST 0x00000200 // Receive LPI State #define EMAC_LPICTLSTAT_TLPIST 0x00000100 // Transmit LPI State #define EMAC_LPICTLSTAT_RLPIEX 0x00000008 // Receive LPI Exit #define EMAC_LPICTLSTAT_RLPIEN 0x00000004 // Receive LPI Entry #define EMAC_LPICTLSTAT_TLPIEX 0x00000002 // Transmit LPI Exit #define EMAC_LPICTLSTAT_TLPIEN 0x00000001 // Transmit LPI Entry //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_LPITIMERCTL // register. // //***************************************************************************** #define EMAC_LPITIMERCTL_LST_M 0x03FF0000 // Low Power Idle LS Timer #define EMAC_LPITIMERCTL_LST_S 16 #define EMAC_LPITIMERCTL_TWT_M 0x0000FFFF // Low Power Idle TW Timer #define EMAC_LPITIMERCTL_TWT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RIS register. // //***************************************************************************** #define EMAC_RIS_LPI 0x00000400 // LPI Interrupt Status #define EMAC_RIS_TS 0x00000200 // Timestamp Interrupt Status #define EMAC_RIS_MMCTX 0x00000040 // MMC Transmit Interrupt Status #define EMAC_RIS_MMCRX 0x00000020 // MMC Receive Interrupt Status #define EMAC_RIS_MMC 0x00000010 // MMC Interrupt Status #define EMAC_RIS_PMT 0x00000008 // PMT Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_IM register. // //***************************************************************************** #define EMAC_IM_LPI 0x00000400 // LPI Interrupt Mask #define EMAC_IM_TSI 0x00000200 // Timestamp Interrupt Mask #define EMAC_IM_PMT 0x00000008 // PMT Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR0H register. // //***************************************************************************** #define EMAC_ADDR0H_AE 0x80000000 // Address Enable #define EMAC_ADDR0H_ADDRHI_M 0x0000FFFF // MAC Address0 [47:32] #define EMAC_ADDR0H_ADDRHI_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR0L register. // //***************************************************************************** #define EMAC_ADDR0L_ADDRLO_M 0xFFFFFFFF // MAC Address0 [31:0] #define EMAC_ADDR0L_ADDRLO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR1H register. // //***************************************************************************** #define EMAC_ADDR1H_AE 0x80000000 // Address Enable #define EMAC_ADDR1H_SA 0x40000000 // Source Address #define EMAC_ADDR1H_MBC_M 0x3F000000 // Mask Byte Control #define EMAC_ADDR1H_ADDRHI_M 0x0000FFFF // MAC Address1 [47:32] #define EMAC_ADDR1H_MBC_S 24 #define EMAC_ADDR1H_ADDRHI_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR1L register. // //***************************************************************************** #define EMAC_ADDR1L_ADDRLO_M 0xFFFFFFFF // MAC Address1 [31:0] #define EMAC_ADDR1L_ADDRLO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR2H register. // //***************************************************************************** #define EMAC_ADDR2H_AE 0x80000000 // Address Enable #define EMAC_ADDR2H_SA 0x40000000 // Source Address #define EMAC_ADDR2H_MBC_M 0x3F000000 // Mask Byte Control #define EMAC_ADDR2H_ADDRHI_M 0x0000FFFF // MAC Address2 [47:32] #define EMAC_ADDR2H_MBC_S 24 #define EMAC_ADDR2H_ADDRHI_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR2L register. // //***************************************************************************** #define EMAC_ADDR2L_ADDRLO_M 0xFFFFFFFF // MAC Address2 [31:0] #define EMAC_ADDR2L_ADDRLO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR3H register. // //***************************************************************************** #define EMAC_ADDR3H_AE 0x80000000 // Address Enable #define EMAC_ADDR3H_SA 0x40000000 // Source Address #define EMAC_ADDR3H_MBC_M 0x3F000000 // Mask Byte Control #define EMAC_ADDR3H_ADDRHI_M 0x0000FFFF // MAC Address3 [47:32] #define EMAC_ADDR3H_MBC_S 24 #define EMAC_ADDR3H_ADDRHI_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_ADDR3L register. // //***************************************************************************** #define EMAC_ADDR3L_ADDRLO_M 0xFFFFFFFF // MAC Address3 [31:0] #define EMAC_ADDR3L_ADDRLO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_WDOGTO register. // //***************************************************************************** #define EMAC_WDOGTO_PWE 0x00010000 // Programmable Watchdog Enable #define EMAC_WDOGTO_WTO_M 0x00003FFF // Watchdog Timeout #define EMAC_WDOGTO_WTO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MMCCTRL register. // //***************************************************************************** #define EMAC_MMCCTRL_UCDBC 0x00000100 // Update MMC Counters for Dropped // Broadcast Frames #define EMAC_MMCCTRL_CNTPRSTLVL 0x00000020 // Full/Half Preset Level Value #define EMAC_MMCCTRL_CNTPRST 0x00000010 // Counters Preset #define EMAC_MMCCTRL_CNTFREEZ 0x00000008 // MMC Counter Freeze #define EMAC_MMCCTRL_RSTONRD 0x00000004 // Reset on Read #define EMAC_MMCCTRL_CNTSTPRO 0x00000002 // Counters Stop Rollover #define EMAC_MMCCTRL_CNTRST 0x00000001 // Counters Reset //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MMCRXRIS // register. // //***************************************************************************** #define EMAC_MMCRXRIS_UCGF 0x00020000 // MMC Receive Unicast Good Frame // Counter Interrupt Status #define EMAC_MMCRXRIS_ALGNERR 0x00000040 // MMC Receive Alignment Error // Frame Counter Interrupt Status #define EMAC_MMCRXRIS_CRCERR 0x00000020 // MMC Receive CRC Error Frame // Counter Interrupt Status #define EMAC_MMCRXRIS_GBF 0x00000001 // MMC Receive Good Bad Frame // Counter Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MMCTXRIS // register. // //***************************************************************************** #define EMAC_MMCTXRIS_OCTCNT 0x00100000 // Octet Counter Interrupt Status #define EMAC_MMCTXRIS_MCOLLGF 0x00008000 // MMC Transmit Multiple Collision // Good Frame Counter Interrupt // Status #define EMAC_MMCTXRIS_SCOLLGF 0x00004000 // MMC Transmit Single Collision // Good Frame Counter Interrupt // Status #define EMAC_MMCTXRIS_GBF 0x00000002 // MMC Transmit Good Bad Frame // Counter Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MMCRXIM register. // //***************************************************************************** #define EMAC_MMCRXIM_UCGF 0x00020000 // MMC Receive Unicast Good Frame // Counter Interrupt Mask #define EMAC_MMCRXIM_ALGNERR 0x00000040 // MMC Receive Alignment Error // Frame Counter Interrupt Mask #define EMAC_MMCRXIM_CRCERR 0x00000020 // MMC Receive CRC Error Frame // Counter Interrupt Mask #define EMAC_MMCRXIM_GBF 0x00000001 // MMC Receive Good Bad Frame // Counter Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MMCTXIM register. // //***************************************************************************** #define EMAC_MMCTXIM_OCTCNT 0x00100000 // MMC Transmit Good Octet Counter // Interrupt Mask #define EMAC_MMCTXIM_MCOLLGF 0x00008000 // MMC Transmit Multiple Collision // Good Frame Counter Interrupt // Mask #define EMAC_MMCTXIM_SCOLLGF 0x00004000 // MMC Transmit Single Collision // Good Frame Counter Interrupt // Mask #define EMAC_MMCTXIM_GBF 0x00000002 // MMC Transmit Good Bad Frame // Counter Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXCNTGB register. // //***************************************************************************** #define EMAC_TXCNTGB_TXFRMGB_M 0xFFFFFFFF // This field indicates the number // of good and bad frames // transmitted, exclusive of // retried frames #define EMAC_TXCNTGB_TXFRMGB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXCNTSCOL // register. // //***************************************************************************** #define EMAC_TXCNTSCOL_TXSNGLCOLG_M \ 0xFFFFFFFF // This field indicates the number // of successfully transmitted // frames after a single collision // in the half-duplex mode #define EMAC_TXCNTSCOL_TXSNGLCOLG_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXCNTMCOL // register. // //***************************************************************************** #define EMAC_TXCNTMCOL_TXMULTCOLG_M \ 0xFFFFFFFF // This field indicates the number // of successfully transmitted // frames after multiple collisions // in the half-duplex mode #define EMAC_TXCNTMCOL_TXMULTCOLG_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXOCTCNTG // register. // //***************************************************************************** #define EMAC_TXOCTCNTG_TXOCTG_M 0xFFFFFFFF // This field indicates the number // of bytes transmitted, exclusive // of preamble, in good frames #define EMAC_TXOCTCNTG_TXOCTG_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXCNTGB register. // //***************************************************************************** #define EMAC_RXCNTGB_RXFRMGB_M 0xFFFFFFFF // This field indicates the number // of received good and bad frames #define EMAC_RXCNTGB_RXFRMGB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXCNTCRCERR // register. // //***************************************************************************** #define EMAC_RXCNTCRCERR_RXCRCERR_M \ 0xFFFFFFFF // This field indicates the number // of frames received with CRC // error #define EMAC_RXCNTCRCERR_RXCRCERR_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXCNTALGNERR // register. // //***************************************************************************** #define EMAC_RXCNTALGNERR_RXALGNERR_M \ 0xFFFFFFFF // This field indicates the number // of frames received with // alignment (dribble) error #define EMAC_RXCNTALGNERR_RXALGNERR_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXCNTGUNI // register. // //***************************************************************************** #define EMAC_RXCNTGUNI_RXUCASTG_M \ 0xFFFFFFFF // This field indicates the number // of received good unicast frames #define EMAC_RXCNTGUNI_RXUCASTG_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_VLNINCREP // register. // //***************************************************************************** #define EMAC_VLNINCREP_CSVL 0x00080000 // C-VLAN or S-VLAN #define EMAC_VLNINCREP_VLP 0x00040000 // VLAN Priority Control #define EMAC_VLNINCREP_VLC_M 0x00030000 // VLAN Tag Control in Transmit // Frames #define EMAC_VLNINCREP_VLC_NONE 0x00000000 // No VLAN tag deletion, insertion, // or replacement #define EMAC_VLNINCREP_VLC_TAGDEL \ 0x00010000 // VLAN tag deletion #define EMAC_VLNINCREP_VLC_TAGINS \ 0x00020000 // VLAN tag insertion #define EMAC_VLNINCREP_VLC_TAGREP \ 0x00030000 // VLAN tag replacement #define EMAC_VLNINCREP_VLT_M 0x0000FFFF // VLAN Tag for Transmit Frames #define EMAC_VLNINCREP_VLT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_VLANHASH // register. // //***************************************************************************** #define EMAC_VLANHASH_VLHT_M 0x0000FFFF // VLAN Hash Table #define EMAC_VLANHASH_VLHT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMSTCTRL // register. // //***************************************************************************** #define EMAC_TIMSTCTRL_PTPFLTR 0x00040000 // Enable MAC address for PTP Frame // Filtering #define EMAC_TIMSTCTRL_SELPTP_M 0x00030000 // Select PTP packets for Taking // Snapshots #define EMAC_TIMSTCTRL_TSMAST 0x00008000 // Enable Snapshot for Messages // Relevant to Master #define EMAC_TIMSTCTRL_TSEVNT 0x00004000 // Enable Timestamp Snapshot for // Event Messages #define EMAC_TIMSTCTRL_PTPIPV4 0x00002000 // Enable Processing of PTP Frames // Sent over IPv4-UDP #define EMAC_TIMSTCTRL_PTPIPV6 0x00001000 // Enable Processing of PTP Frames // Sent Over IPv6-UDP #define EMAC_TIMSTCTRL_PTPETH 0x00000800 // Enable Processing of PTP Over // Ethernet Frames #define EMAC_TIMSTCTRL_PTPVER2 0x00000400 // Enable PTP Packet Processing For // Version 2 Format #define EMAC_TIMSTCTRL_DGTLBIN 0x00000200 // Timestamp Digital or Binary // Rollover Control #define EMAC_TIMSTCTRL_ALLF 0x00000100 // Enable Timestamp For All Frames #define EMAC_TIMSTCTRL_ADDREGUP 0x00000020 // Addend Register Update #define EMAC_TIMSTCTRL_INTTRIG 0x00000010 // Timestamp Interrupt Trigger // Enable #define EMAC_TIMSTCTRL_TSUPDT 0x00000008 // Timestamp Update #define EMAC_TIMSTCTRL_TSINIT 0x00000004 // Timestamp Initialize #define EMAC_TIMSTCTRL_TSFCUPDT 0x00000002 // Timestamp Fine or Coarse Update #define EMAC_TIMSTCTRL_TSEN 0x00000001 // Timestamp Enable #define EMAC_TIMSTCTRL_SELPTP_S 16 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_SUBSECINC // register. // //***************************************************************************** #define EMAC_SUBSECINC_SSINC_M 0x000000FF // Sub-second Increment Value #define EMAC_SUBSECINC_SSINC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMSEC register. // //***************************************************************************** #define EMAC_TIMSEC_TSS_M 0xFFFFFFFF // Timestamp Second #define EMAC_TIMSEC_TSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMNANO register. // //***************************************************************************** #define EMAC_TIMNANO_TSSS_M 0x7FFFFFFF // Timestamp Sub-Seconds #define EMAC_TIMNANO_TSSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMSECU register. // //***************************************************************************** #define EMAC_TIMSECU_TSS_M 0xFFFFFFFF // Timestamp Second #define EMAC_TIMSECU_TSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMNANOU // register. // //***************************************************************************** #define EMAC_TIMNANOU_ADDSUB 0x80000000 // Add or subtract time #define EMAC_TIMNANOU_TSSS_M 0x7FFFFFFF // Timestamp Sub-Second #define EMAC_TIMNANOU_TSSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMADD register. // //***************************************************************************** #define EMAC_TIMADD_TSAR_M 0xFFFFFFFF // Timestamp Addend Register #define EMAC_TIMADD_TSAR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TARGSEC register. // //***************************************************************************** #define EMAC_TARGSEC_TSTR_M 0xFFFFFFFF // Target Time Seconds Register #define EMAC_TARGSEC_TSTR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TARGNANO // register. // //***************************************************************************** #define EMAC_TARGNANO_TRGTBUSY 0x80000000 // Target Time Register Busy #define EMAC_TARGNANO_TTSLO_M 0x7FFFFFFF // Target Timestamp Low Register #define EMAC_TARGNANO_TTSLO_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HWORDSEC // register. // //***************************************************************************** #define EMAC_HWORDSEC_TSHWR_M 0x0000FFFF // Target Timestamp Higher Word // Register #define EMAC_HWORDSEC_TSHWR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TIMSTAT register. // //***************************************************************************** #define EMAC_TIMSTAT_TSTARGT 0x00000002 // Timestamp Target Time Reached #define EMAC_TIMSTAT_TSSOVF 0x00000001 // Timestamp Seconds Overflow //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PPSCTRL register. // //***************************************************************************** #define EMAC_PPSCTRL_TRGMODS0_M 0x00000060 // Target Time Register Mode for // PPS0 Output #define EMAC_PPSCTRL_TRGMODS0_INTONLY \ 0x00000000 // Indicates that the Target Time // registers are programmed only // for generating the interrupt // event #define EMAC_PPSCTRL_TRGMODS0_INTPPS0 \ 0x00000040 // Indicates that the Target Time // registers are programmed for // generating the interrupt event // and starting or stopping the // generation of the EN0PPS output // signal #define EMAC_PPSCTRL_TRGMODS0_PPS0ONLY \ 0x00000060 // Indicates that the Target Time // registers are programmed only // for starting or stopping the // generation of the EN0PPS output // signal. No interrupt is asserted #define EMAC_PPSCTRL_PPSEN0 0x00000010 // Flexible PPS Output Mode Enable #define EMAC_PPSCTRL_PPSCTRL_M 0x0000000F // EN0PPS Output Frequency Control // (PPSCTRL) or Command Control // (PPSCMD) //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PPS0INTVL // register. // //***************************************************************************** #define EMAC_PPS0INTVL_PPS0INT_M \ 0xFFFFFFFF // PPS0 Output Signal Interval #define EMAC_PPS0INTVL_PPS0INT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PPS0WIDTH // register. // //***************************************************************************** #define EMAC_PPS0WIDTH_M 0xFFFFFFFF // EN0PPS Output Signal Width #define EMAC_PPS0WIDTH_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_DMABUSMOD // register. // //***************************************************************************** #define EMAC_DMABUSMOD_RIB 0x80000000 // Rebuild Burst #define EMAC_DMABUSMOD_TXPR 0x08000000 // Transmit Priority #define EMAC_DMABUSMOD_MB 0x04000000 // Mixed Burst #define EMAC_DMABUSMOD_AAL 0x02000000 // Address Aligned Beats #define EMAC_DMABUSMOD_8XPBL 0x01000000 // 8 x Programmable Burst Length // (PBL) Mode #define EMAC_DMABUSMOD_USP 0x00800000 // Use Separate Programmable Burst // Length (PBL) #define EMAC_DMABUSMOD_RPBL_M 0x007E0000 // RX DMA Programmable Burst Length // (PBL) #define EMAC_DMABUSMOD_FB 0x00010000 // Fixed Burst #define EMAC_DMABUSMOD_PR_M 0x0000C000 // Priority Ratio #define EMAC_DMABUSMOD_PBL_M 0x00003F00 // Programmable Burst Length #define EMAC_DMABUSMOD_ATDS 0x00000080 // Alternate Descriptor Size #define EMAC_DMABUSMOD_DSL_M 0x0000007C // Descriptor Skip Length #define EMAC_DMABUSMOD_DA 0x00000002 // DMA Arbitration Scheme #define EMAC_DMABUSMOD_SWR 0x00000001 // DMA Software Reset #define EMAC_DMABUSMOD_RPBL_S 17 #define EMAC_DMABUSMOD_PR_S 14 #define EMAC_DMABUSMOD_PBL_S 8 #define EMAC_DMABUSMOD_DSL_S 2 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXPOLLD register. // //***************************************************************************** #define EMAC_TXPOLLD_TPD_M 0xFFFFFFFF // Transmit Poll Demand #define EMAC_TXPOLLD_TPD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXPOLLD register. // //***************************************************************************** #define EMAC_RXPOLLD_RPD_M 0xFFFFFFFF // Receive Poll Demand #define EMAC_RXPOLLD_RPD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXDLADDR // register. // //***************************************************************************** #define EMAC_RXDLADDR_STRXLIST_M \ 0xFFFFFFFC // Start of Receive List #define EMAC_RXDLADDR_STRXLIST_S \ 2 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_TXDLADDR // register. // //***************************************************************************** #define EMAC_TXDLADDR_TXDLADDR_M \ 0xFFFFFFFC // Start of Transmit List Base // Address #define EMAC_TXDLADDR_TXDLADDR_S \ 2 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_DMARIS register. // //***************************************************************************** #define EMAC_DMARIS_LPI 0x40000000 // LPI Trigger Interrupt Status #define EMAC_DMARIS_TT 0x20000000 // Timestamp Trigger Interrupt // Status #define EMAC_DMARIS_PMT 0x10000000 // MAC PMT Interrupt Status #define EMAC_DMARIS_MMC 0x08000000 // MAC MMC Interrupt #define EMAC_DMARIS_AE_M 0x03800000 // Access Error #define EMAC_DMARIS_AE_RXDMAWD 0x00000000 // Error during RX DMA Write Data // Transfer #define EMAC_DMARIS_AE_TXDMARD 0x01800000 // Error during TX DMA Read Data // Transfer #define EMAC_DMARIS_AE_RXDMADW 0x02000000 // Error during RX DMA Descriptor // Write Access #define EMAC_DMARIS_AE_TXDMADW 0x02800000 // Error during TX DMA Descriptor // Write Access #define EMAC_DMARIS_AE_RXDMADR 0x03000000 // Error during RX DMA Descriptor // Read Access #define EMAC_DMARIS_AE_TXDMADR 0x03800000 // Error during TX DMA Descriptor // Read Access #define EMAC_DMARIS_TS_M 0x00700000 // Transmit Process State #define EMAC_DMARIS_TS_STOP 0x00000000 // Stopped; Reset or Stop transmit // command processed #define EMAC_DMARIS_TS_RUNTXTD 0x00100000 // Running; Fetching transmit // transfer descriptor #define EMAC_DMARIS_TS_STATUS 0x00200000 // Running; Waiting for status #define EMAC_DMARIS_TS_RUNTX 0x00300000 // Running; Reading data from host // memory buffer and queuing it to // transmit buffer (TX FIFO) #define EMAC_DMARIS_TS_TSTAMP 0x00400000 // Writing Timestamp #define EMAC_DMARIS_TS_SUSPEND 0x00600000 // Suspended; Transmit descriptor // unavailable or transmit buffer // underflow #define EMAC_DMARIS_TS_RUNCTD 0x00700000 // Running; Closing transmit // descriptor #define EMAC_DMARIS_RS_M 0x000E0000 // Received Process State #define EMAC_DMARIS_RS_STOP 0x00000000 // Stopped: Reset or stop receive // command issued #define EMAC_DMARIS_RS_RUNRXTD 0x00020000 // Running: Fetching receive // transfer descriptor #define EMAC_DMARIS_RS_RUNRXD 0x00060000 // Running: Waiting for receive // packet #define EMAC_DMARIS_RS_SUSPEND 0x00080000 // Suspended: Receive descriptor // unavailable #define EMAC_DMARIS_RS_RUNCRD 0x000A0000 // Running: Closing receive // descriptor #define EMAC_DMARIS_RS_TSWS 0x000C0000 // Writing Timestamp #define EMAC_DMARIS_RS_RUNTXD 0x000E0000 // Running: Transferring the // receive packet data from receive // buffer to host memory #define EMAC_DMARIS_NIS 0x00010000 // Normal Interrupt Summary #define EMAC_DMARIS_AIS 0x00008000 // Abnormal Interrupt Summary #define EMAC_DMARIS_ERI 0x00004000 // Early Receive Interrupt #define EMAC_DMARIS_FBI 0x00002000 // Fatal Bus Error Interrupt #define EMAC_DMARIS_ETI 0x00000400 // Early Transmit Interrupt #define EMAC_DMARIS_RWT 0x00000200 // Receive Watchdog Timeout #define EMAC_DMARIS_RPS 0x00000100 // Receive Process Stopped #define EMAC_DMARIS_RU 0x00000080 // Receive Buffer Unavailable #define EMAC_DMARIS_RI 0x00000040 // Receive Interrupt #define EMAC_DMARIS_UNF 0x00000020 // Transmit Underflow #define EMAC_DMARIS_OVF 0x00000010 // Receive Overflow #define EMAC_DMARIS_TJT 0x00000008 // Transmit Jabber Timeout #define EMAC_DMARIS_TU 0x00000004 // Transmit Buffer Unavailable #define EMAC_DMARIS_TPS 0x00000002 // Transmit Process Stopped #define EMAC_DMARIS_TI 0x00000001 // Transmit Interrupt //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_DMAOPMODE // register. // //***************************************************************************** #define EMAC_DMAOPMODE_DT 0x04000000 // Disable Dropping of TCP/IP // Checksum Error Frames #define EMAC_DMAOPMODE_RSF 0x02000000 // Receive Store and Forward #define EMAC_DMAOPMODE_DFF 0x01000000 // Disable Flushing of Received // Frames #define EMAC_DMAOPMODE_TSF 0x00200000 // Transmit Store and Forward #define EMAC_DMAOPMODE_FTF 0x00100000 // Flush Transmit FIFO #define EMAC_DMAOPMODE_TTC_M 0x0001C000 // Transmit Threshold Control #define EMAC_DMAOPMODE_TTC_64 0x00000000 // 64 bytes #define EMAC_DMAOPMODE_TTC_128 0x00004000 // 128 bytes #define EMAC_DMAOPMODE_TTC_192 0x00008000 // 192 bytes #define EMAC_DMAOPMODE_TTC_256 0x0000C000 // 256 bytes #define EMAC_DMAOPMODE_TTC_40 0x00010000 // 40 bytes #define EMAC_DMAOPMODE_TTC_32 0x00014000 // 32 bytes #define EMAC_DMAOPMODE_TTC_24 0x00018000 // 24 bytes #define EMAC_DMAOPMODE_TTC_16 0x0001C000 // 16 bytes #define EMAC_DMAOPMODE_ST 0x00002000 // Start or Stop Transmission // Command #define EMAC_DMAOPMODE_FEF 0x00000080 // Forward Error Frames #define EMAC_DMAOPMODE_FUF 0x00000040 // Forward Undersized Good Frames #define EMAC_DMAOPMODE_DGF 0x00000020 // Drop Giant Frame Enable #define EMAC_DMAOPMODE_RTC_M 0x00000018 // Receive Threshold Control #define EMAC_DMAOPMODE_RTC_64 0x00000000 // 64 bytes #define EMAC_DMAOPMODE_RTC_32 0x00000008 // 32 bytes #define EMAC_DMAOPMODE_RTC_96 0x00000010 // 96 bytes #define EMAC_DMAOPMODE_RTC_128 0x00000018 // 128 bytes #define EMAC_DMAOPMODE_OSF 0x00000004 // Operate on Second Frame #define EMAC_DMAOPMODE_SR 0x00000002 // Start or Stop Receive //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_DMAIM register. // //***************************************************************************** #define EMAC_DMAIM_NIE 0x00010000 // Normal Interrupt Summary Enable #define EMAC_DMAIM_AIE 0x00008000 // Abnormal Interrupt Summary // Enable #define EMAC_DMAIM_ERE 0x00004000 // Early Receive Interrupt Enable #define EMAC_DMAIM_FBE 0x00002000 // Fatal Bus Error Enable #define EMAC_DMAIM_ETE 0x00000400 // Early Transmit Interrupt Enable #define EMAC_DMAIM_RWE 0x00000200 // Receive Watchdog Timeout Enable #define EMAC_DMAIM_RSE 0x00000100 // Receive Stopped Enable #define EMAC_DMAIM_RUE 0x00000080 // Receive Buffer Unavailable // Enable #define EMAC_DMAIM_RIE 0x00000040 // Receive Interrupt Enable #define EMAC_DMAIM_UNE 0x00000020 // Underflow Interrupt Enable #define EMAC_DMAIM_OVE 0x00000010 // Overflow Interrupt Enable #define EMAC_DMAIM_TJE 0x00000008 // Transmit Jabber Timeout Enable #define EMAC_DMAIM_TUE 0x00000004 // Transmit Buffer Unvailable // Enable #define EMAC_DMAIM_TSE 0x00000002 // Transmit Stopped Enable #define EMAC_DMAIM_TIE 0x00000001 // Transmit Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_MFBOC register. // //***************************************************************************** #define EMAC_MFBOC_OVFCNTOVF 0x10000000 // Overflow Bit for FIFO Overflow // Counter #define EMAC_MFBOC_OVFFRMCNT_M 0x0FFE0000 // Overflow Frame Counter #define EMAC_MFBOC_MISCNTOVF 0x00010000 // Overflow bit for Missed Frame // Counter #define EMAC_MFBOC_MISFRMCNT_M 0x0000FFFF // Missed Frame Counter #define EMAC_MFBOC_OVFFRMCNT_S 17 #define EMAC_MFBOC_MISFRMCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_RXINTWDT // register. // //***************************************************************************** #define EMAC_RXINTWDT_RIWT_M 0x000000FF // Receive Interrupt Watchdog Timer // Count #define EMAC_RXINTWDT_RIWT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HOSTXDESC // register. // //***************************************************************************** #define EMAC_HOSTXDESC_CURTXDESC_M \ 0xFFFFFFFF // Host Transmit Descriptor Address // Pointer #define EMAC_HOSTXDESC_CURTXDESC_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HOSRXDESC // register. // //***************************************************************************** #define EMAC_HOSRXDESC_CURRXDESC_M \ 0xFFFFFFFF // Host Receive Descriptor Address // Pointer #define EMAC_HOSRXDESC_CURRXDESC_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HOSTXBA register. // //***************************************************************************** #define EMAC_HOSTXBA_CURTXBUFA_M \ 0xFFFFFFFF // Host Transmit Buffer Address // Pointer #define EMAC_HOSTXBA_CURTXBUFA_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_HOSRXBA register. // //***************************************************************************** #define EMAC_HOSRXBA_CURRXBUFA_M \ 0xFFFFFFFF // Host Receive Buffer Address // Pointer #define EMAC_HOSRXBA_CURRXBUFA_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PP register. // //***************************************************************************** #define EMAC_PP_MACTYPE_M 0x00000700 // Ethernet MAC Type #define EMAC_PP_MACTYPE_1 0x00000100 // Tiva TM4E129x-class MAC #define EMAC_PP_PHYTYPE_M 0x00000007 // Ethernet PHY Type #define EMAC_PP_PHYTYPE_NONE 0x00000000 // No PHY #define EMAC_PP_PHYTYPE_1 0x00000003 // Snowflake class PHY //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_PC register. // //***************************************************************************** #define EMAC_PC_PHYEXT 0x80000000 // PHY Select #define EMAC_PC_PINTFS_M 0x70000000 // Ethernet Interface Select #define EMAC_PC_PINTFS_IMII 0x00000000 // MII (default) Used for internal // PHY or external PHY connected // via MII #define EMAC_PC_PINTFS_RMII 0x40000000 // RMII: Used for external PHY // connected via RMII #define EMAC_PC_DIGRESTART 0x02000000 // PHY Soft Restart #define EMAC_PC_NIBDETDIS 0x01000000 // Odd Nibble TXER Detection // Disable #define EMAC_PC_RXERIDLE 0x00800000 // RXER Detection During Idle #define EMAC_PC_ISOMIILL 0x00400000 // Isolate MII in Link Loss #define EMAC_PC_LRR 0x00200000 // Link Loss Recovery #define EMAC_PC_TDRRUN 0x00100000 // TDR Auto Run #define EMAC_PC_FASTLDMODE_M 0x000F8000 // Fast Link Down Mode #define EMAC_PC_POLSWAP 0x00004000 // Polarity Swap #define EMAC_PC_MDISWAP 0x00002000 // MDI Swap #define EMAC_PC_RBSTMDIX 0x00001000 // Robust Auto MDI-X #define EMAC_PC_FASTMDIX 0x00000800 // Fast Auto MDI-X #define EMAC_PC_MDIXEN 0x00000400 // MDIX Enable #define EMAC_PC_FASTRXDV 0x00000200 // Fast RXDV Detection #define EMAC_PC_FASTLUPD 0x00000100 // FAST Link-Up in Parallel Detect #define EMAC_PC_EXTFD 0x00000080 // Extended Full Duplex Ability #define EMAC_PC_FASTANEN 0x00000040 // Fast Auto Negotiation Enable #define EMAC_PC_FASTANSEL_M 0x00000030 // Fast Auto Negotiation Select #define EMAC_PC_ANEN 0x00000008 // Auto Negotiation Enable #define EMAC_PC_ANMODE_M 0x00000006 // Auto Negotiation Mode #define EMAC_PC_ANMODE_10HD 0x00000000 // When ANEN = 0x0, the mode is // 10Base-T, Half-Duplex #define EMAC_PC_ANMODE_10FD 0x00000002 // When ANEN = 0x0, the mode is // 10Base-T, Full-Duplex #define EMAC_PC_ANMODE_100HD 0x00000004 // When ANEN = 0x0, the mode is // 100Base-TX, Half-Duplex #define EMAC_PC_ANMODE_100FD 0x00000006 // When ANEN = 0x0, the mode is // 100Base-TX, Full-Duplex #define EMAC_PC_PHYHOLD 0x00000001 // Ethernet PHY Hold #define EMAC_PC_FASTLDMODE_S 15 #define EMAC_PC_FASTANSEL_S 4 //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_CC register. // //***************************************************************************** #define EMAC_CC_PTPCEN 0x00040000 // PTP Clock Reference Enable #define EMAC_CC_POL 0x00020000 // LED Polarity Control #define EMAC_CC_CLKEN 0x00010000 // EN0RREF_CLK Signal Enable //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_EPHYRIS register. // //***************************************************************************** #define EMAC_EPHYRIS_INT 0x00000001 // Ethernet PHY Raw Interrupt // Status //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_EPHYIM register. // //***************************************************************************** #define EMAC_EPHYIM_INT 0x00000001 // Ethernet PHY Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the EMAC_O_EPHYMISC // register. // //***************************************************************************** #define EMAC_EPHYMISC_INT 0x00000001 // Ethernet PHY Status and Clear // register //***************************************************************************** // // The following are defines for the EPHY register offsets. // //***************************************************************************** #define EPHY_BMCR 0x00000000 // Ethernet PHY Basic Mode Control #define EPHY_BMSR 0x00000001 // Ethernet PHY Basic Mode Status #define EPHY_ID1 0x00000002 // Ethernet PHY Identifier Register // 1 #define EPHY_ID2 0x00000003 // Ethernet PHY Identifier Register // 2 #define EPHY_ANA 0x00000004 // Ethernet PHY Auto-Negotiation // Advertisement #define EPHY_ANLPA 0x00000005 // Ethernet PHY Auto-Negotiation // Link Partner Ability #define EPHY_ANER 0x00000006 // Ethernet PHY Auto-Negotiation // Expansion #define EPHY_ANNPTR 0x00000007 // Ethernet PHY Auto-Negotiation // Next Page TX #define EPHY_ANLNPTR 0x00000008 // Ethernet PHY Auto-Negotiation // Link Partner Ability Next Page #define EPHY_CFG1 0x00000009 // Ethernet PHY Configuration 1 #define EPHY_CFG2 0x0000000A // Ethernet PHY Configuration 2 #define EPHY_CFG3 0x0000000B // Ethernet PHY Configuration 3 #define EPHY_REGCTL 0x0000000D // Ethernet PHY Register Control #define EPHY_ADDAR 0x0000000E // Ethernet PHY Address or Data #define EPHY_STS 0x00000010 // Ethernet PHY Status #define EPHY_SCR 0x00000011 // Ethernet PHY Specific Control #define EPHY_MISR1 0x00000012 // Ethernet PHY MII Interrupt // Status 1 #define EPHY_MISR2 0x00000013 // Ethernet PHY MII Interrupt // Status 2 #define EPHY_FCSCR 0x00000014 // Ethernet PHY False Carrier Sense // Counter #define EPHY_RXERCNT 0x00000015 // Ethernet PHY Receive Error Count #define EPHY_BISTCR 0x00000016 // Ethernet PHY BIST Control #define EPHY_LEDCR 0x00000018 // Ethernet PHY LED Control #define EPHY_CTL 0x00000019 // Ethernet PHY Control #define EPHY_10BTSC 0x0000001A // Ethernet PHY 10Base-T // Status/Control - MR26 #define EPHY_BICSR1 0x0000001B // Ethernet PHY BIST Control and // Status 1 #define EPHY_BICSR2 0x0000001C // Ethernet PHY BIST Control and // Status 2 #define EPHY_CDCR 0x0000001E // Ethernet PHY Cable Diagnostic // Control #define EPHY_RCR 0x0000001F // Ethernet PHY Reset Control #define EPHY_LEDCFG 0x00000025 // Ethernet PHY LED Configuration //***************************************************************************** // // The following are defines for the bit fields in the EPHY_BMCR register. // //***************************************************************************** #define EPHY_BMCR_MIIRESET 0x00008000 // MII Register reset #define EPHY_BMCR_MIILOOPBK 0x00004000 // MII Loopback #define EPHY_BMCR_SPEED 0x00002000 // Speed Select #define EPHY_BMCR_ANEN 0x00001000 // Auto-Negotiate Enable #define EPHY_BMCR_PWRDWN 0x00000800 // Power Down #define EPHY_BMCR_ISOLATE 0x00000400 // Port Isolate #define EPHY_BMCR_RESTARTAN 0x00000200 // Restart Auto-Negotiation #define EPHY_BMCR_DUPLEXM 0x00000100 // Duplex Mode #define EPHY_BMCR_COLLTST 0x00000080 // Collision Test //***************************************************************************** // // The following are defines for the bit fields in the EPHY_BMSR register. // //***************************************************************************** #define EPHY_BMSR_100BTXFD 0x00004000 // 100Base-TX Full Duplex Capable #define EPHY_BMSR_100BTXHD 0x00002000 // 100Base-TX Half Duplex Capable #define EPHY_BMSR_10BTFD 0x00001000 // 10 Base-T Full Duplex Capable #define EPHY_BMSR_10BTHD 0x00000800 // 10 Base-T Half Duplex Capable #define EPHY_BMSR_MFPRESUP 0x00000040 // Preamble Suppression Capable #define EPHY_BMSR_ANC 0x00000020 // Auto-Negotiation Complete #define EPHY_BMSR_RFAULT 0x00000010 // Remote Fault #define EPHY_BMSR_ANEN 0x00000008 // Auto Negotiation Enabled #define EPHY_BMSR_LINKSTAT 0x00000004 // Link Status #define EPHY_BMSR_JABBER 0x00000002 // Jabber Detect #define EPHY_BMSR_EXTEN 0x00000001 // Extended Capability Enable //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ID1 register. // //***************************************************************************** #define EPHY_ID1_OUIMSB_M 0x0000FFFF // OUI Most Significant Bits #define EPHY_ID1_OUIMSB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ID2 register. // //***************************************************************************** #define EPHY_ID2_OUILSB_M 0x0000FC00 // OUI Least Significant Bits #define EPHY_ID2_VNDRMDL_M 0x000003F0 // Vendor Model Number #define EPHY_ID2_MDLREV_M 0x0000000F // Model Revision Number #define EPHY_ID2_OUILSB_S 10 #define EPHY_ID2_VNDRMDL_S 4 #define EPHY_ID2_MDLREV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ANA register. // //***************************************************************************** #define EPHY_ANA_NP 0x00008000 // Next Page Indication #define EPHY_ANA_RF 0x00002000 // Remote Fault #define EPHY_ANA_ASMDUP 0x00000800 // Asymmetric PAUSE support for // Full Duplex Links #define EPHY_ANA_PAUSE 0x00000400 // PAUSE Support for Full Duplex // Links #define EPHY_ANA_100BT4 0x00000200 // 100Base-T4 Support #define EPHY_ANA_100BTXFD 0x00000100 // 100Base-TX Full Duplex Support #define EPHY_ANA_100BTX 0x00000080 // 100Base-TX Support #define EPHY_ANA_10BTFD 0x00000040 // 10Base-T Full Duplex Support #define EPHY_ANA_10BT 0x00000020 // 10Base-T Support #define EPHY_ANA_SELECT_M 0x0000001F // Protocol Selection #define EPHY_ANA_SELECT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ANLPA register. // //***************************************************************************** #define EPHY_ANLPA_NP 0x00008000 // Next Page Indication #define EPHY_ANLPA_ACK 0x00004000 // Acknowledge #define EPHY_ANLPA_RF 0x00002000 // Remote Fault #define EPHY_ANLPA_ASMDUP 0x00000800 // Asymmetric PAUSE #define EPHY_ANLPA_PAUSE 0x00000400 // PAUSE #define EPHY_ANLPA_100BT4 0x00000200 // 100Base-T4 Support #define EPHY_ANLPA_100BTXFD 0x00000100 // 100Base-TX Full Duplex Support #define EPHY_ANLPA_100BTX 0x00000080 // 100Base-TX Support #define EPHY_ANLPA_10BTFD 0x00000040 // 10Base-T Full Duplex Support #define EPHY_ANLPA_10BT 0x00000020 // 10Base-T Support #define EPHY_ANLPA_SELECT_M 0x0000001F // Protocol Selection #define EPHY_ANLPA_SELECT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ANER register. // //***************************************************************************** #define EPHY_ANER_PDF 0x00000010 // Parallel Detection Fault #define EPHY_ANER_LPNPABLE 0x00000008 // Link Partner Next Page Able #define EPHY_ANER_NPABLE 0x00000004 // Next Page Able #define EPHY_ANER_PAGERX 0x00000002 // Link Code Word Page Received #define EPHY_ANER_LPANABLE 0x00000001 // Link Partner Auto-Negotiation // Able //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ANNPTR register. // //***************************************************************************** #define EPHY_ANNPTR_NP 0x00008000 // Next Page Indication #define EPHY_ANNPTR_MP 0x00002000 // Message Page #define EPHY_ANNPTR_ACK2 0x00001000 // Acknowledge 2 #define EPHY_ANNPTR_TOGTX 0x00000800 // Toggle #define EPHY_ANNPTR_CODE_M 0x000007FF // Code #define EPHY_ANNPTR_CODE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ANLNPTR register. // //***************************************************************************** #define EPHY_ANLNPTR_NP 0x00008000 // Next Page Indication #define EPHY_ANLNPTR_ACK 0x00004000 // Acknowledge #define EPHY_ANLNPTR_MP 0x00002000 // Message Page #define EPHY_ANLNPTR_ACK2 0x00001000 // Acknowledge 2 #define EPHY_ANLNPTR_TOG 0x00000800 // Toggle #define EPHY_ANLNPTR_CODE_M 0x000007FF // Code #define EPHY_ANLNPTR_CODE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_CFG1 register. // //***************************************************************************** #define EPHY_CFG1_DONE 0x00008000 // Configuration Done #define EPHY_CFG1_TDRAR 0x00000100 // TDR Auto-Run at Link Down #define EPHY_CFG1_LLR 0x00000080 // Link Loss Recovery #define EPHY_CFG1_FAMDIX 0x00000040 // Fast Auto MDI/MDIX #define EPHY_CFG1_RAMDIX 0x00000020 // Robust Auto MDI/MDIX #define EPHY_CFG1_FASTANEN 0x00000010 // Fast Auto Negotiation Enable #define EPHY_CFG1_FANSEL_M 0x0000000C // Fast Auto-Negotiation Select // Configuration #define EPHY_CFG1_FANSEL_BLT80 0x00000000 // Break Link Timer: 80 ms #define EPHY_CFG1_FANSEL_BLT120 0x00000004 // Break Link Timer: 120 ms #define EPHY_CFG1_FANSEL_BLT240 0x00000008 // Break Link Timer: 240 ms #define EPHY_CFG1_FRXDVDET 0x00000002 // FAST RXDV Detection //***************************************************************************** // // The following are defines for the bit fields in the EPHY_CFG2 register. // //***************************************************************************** #define EPHY_CFG2_FLUPPD 0x00000040 // Fast Link-Up in Parallel Detect // Mode #define EPHY_CFG2_EXTFD 0x00000020 // Extended Full-Duplex Ability #define EPHY_CFG2_ENLEDLINK 0x00000010 // Enhanced LED Functionality #define EPHY_CFG2_ISOMIILL 0x00000008 // Isolate MII outputs when // Enhanced Link is not Achievable #define EPHY_CFG2_RXERRIDLE 0x00000004 // Detection of Receive Symbol // Error During IDLE State #define EPHY_CFG2_ODDNDETDIS 0x00000002 // Detection of Transmit Error //***************************************************************************** // // The following are defines for the bit fields in the EPHY_CFG3 register. // //***************************************************************************** #define EPHY_CFG3_POLSWAP 0x00000080 // Polarity Swap #define EPHY_CFG3_MDIMDIXS 0x00000040 // MDI/MDIX Swap #define EPHY_CFG3_FLDWNM_M 0x0000001F // Fast Link Down Modes #define EPHY_CFG3_FLDWNM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_REGCTL register. // //***************************************************************************** #define EPHY_REGCTL_FUNC_M 0x0000C000 // Function #define EPHY_REGCTL_FUNC_ADDR 0x00000000 // Address #define EPHY_REGCTL_FUNC_DATANI 0x00004000 // Data, no post increment #define EPHY_REGCTL_FUNC_DATAPIRW \ 0x00008000 // Data, post increment on read and // write #define EPHY_REGCTL_FUNC_DATAPIWO \ 0x0000C000 // Data, post increment on write // only #define EPHY_REGCTL_DEVAD_M 0x0000001F // Device Address #define EPHY_REGCTL_DEVAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_ADDAR register. // //***************************************************************************** #define EPHY_ADDAR_ADDRDATA_M 0x0000FFFF // Address or Data #define EPHY_ADDAR_ADDRDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_STS register. // //***************************************************************************** #define EPHY_STS_MDIXM 0x00004000 // MDI-X Mode #define EPHY_STS_RXLERR 0x00002000 // Receive Error Latch #define EPHY_STS_POLSTAT 0x00001000 // Polarity Status #define EPHY_STS_FCSL 0x00000800 // False Carrier Sense Latch #define EPHY_STS_SD 0x00000400 // Signal Detect #define EPHY_STS_DL 0x00000200 // Descrambler Lock #define EPHY_STS_PAGERX 0x00000100 // Link Code Page Received #define EPHY_STS_MIIREQ 0x00000080 // MII Interrupt Pending #define EPHY_STS_RF 0x00000040 // Remote Fault #define EPHY_STS_JD 0x00000020 // Jabber Detect #define EPHY_STS_ANS 0x00000010 // Auto-Negotiation Status #define EPHY_STS_MIILB 0x00000008 // MII Loopback Status #define EPHY_STS_DUPLEX 0x00000004 // Duplex Status #define EPHY_STS_SPEED 0x00000002 // Speed Status #define EPHY_STS_LINK 0x00000001 // Link Status //***************************************************************************** // // The following are defines for the bit fields in the EPHY_SCR register. // //***************************************************************************** #define EPHY_SCR_DISCLK 0x00008000 // Disable CLK #define EPHY_SCR_PSEN 0x00004000 // Power Saving Modes Enable #define EPHY_SCR_PSMODE_M 0x00003000 // Power Saving Modes #define EPHY_SCR_PSMODE_NORMAL 0x00000000 // Normal: Normal operation mode. // PHY is fully functional #define EPHY_SCR_PSMODE_LOWPWR 0x00001000 // IEEE Power Down #define EPHY_SCR_PSMODE_ACTWOL 0x00002000 // Active Sleep #define EPHY_SCR_PSMODE_PASWOL 0x00003000 // Passive Sleep #define EPHY_SCR_SBPYASS 0x00000800 // Scrambler Bypass #define EPHY_SCR_LBFIFO_M 0x00000300 // Loopback FIFO Depth #define EPHY_SCR_LBFIFO_4 0x00000000 // Four nibble FIFO #define EPHY_SCR_LBFIFO_5 0x00000100 // Five nibble FIFO #define EPHY_SCR_LBFIFO_6 0x00000200 // Six nibble FIFO #define EPHY_SCR_LBFIFO_8 0x00000300 // Eight nibble FIFO #define EPHY_SCR_COLFDM 0x00000010 // Collision in Full-Duplex Mode #define EPHY_SCR_TINT 0x00000004 // Test Interrupt #define EPHY_SCR_INTEN 0x00000002 // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the EPHY_MISR1 register. // //***************************************************************************** #define EPHY_MISR1_LINKSTAT 0x00002000 // Change of Link Status Interrupt #define EPHY_MISR1_SPEED 0x00001000 // Change of Speed Status Interrupt #define EPHY_MISR1_DUPLEXM 0x00000800 // Change of Duplex Status // Interrupt #define EPHY_MISR1_ANC 0x00000400 // Auto-Negotiation Complete // Interrupt #define EPHY_MISR1_FCHF 0x00000200 // False Carrier Counter Half-Full // Interrupt #define EPHY_MISR1_RXHF 0x00000100 // Receive Error Counter Half-Full // Interrupt #define EPHY_MISR1_LINKSTATEN 0x00000020 // Link Status Interrupt Enable #define EPHY_MISR1_SPEEDEN 0x00000010 // Speed Change Interrupt Enable #define EPHY_MISR1_DUPLEXMEN 0x00000008 // Duplex Status Interrupt Enable #define EPHY_MISR1_ANCEN 0x00000004 // Auto-Negotiation Complete // Interrupt Enable #define EPHY_MISR1_FCHFEN 0x00000002 // False Carrier Counter Register // half-full Interrupt Enable #define EPHY_MISR1_RXHFEN 0x00000001 // Receive Error Counter Register // Half-Full Event Interrupt //***************************************************************************** // // The following are defines for the bit fields in the EPHY_MISR2 register. // //***************************************************************************** #define EPHY_MISR2_ANERR 0x00004000 // Auto-Negotiation Error Interrupt #define EPHY_MISR2_PAGERX 0x00002000 // Page Receive Interrupt #define EPHY_MISR2_LBFIFO 0x00001000 // Loopback FIFO Overflow/Underflow // Event Interrupt #define EPHY_MISR2_MDICO 0x00000800 // MDI/MDIX Crossover Status // Changed Interrupt #define EPHY_MISR2_SLEEP 0x00000400 // Sleep Mode Event Interrupt #define EPHY_MISR2_POLINT 0x00000200 // Polarity Changed Interrupt #define EPHY_MISR2_JABBER 0x00000100 // Jabber Detect Event Interrupt #define EPHY_MISR2_ANERREN 0x00000040 // Auto-Negotiation Error Interrupt // Enable #define EPHY_MISR2_PAGERXEN 0x00000020 // Page Receive Interrupt Enable #define EPHY_MISR2_LBFIFOEN 0x00000010 // Loopback FIFO Overflow/Underflow // Interrupt Enable #define EPHY_MISR2_MDICOEN 0x00000008 // MDI/MDIX Crossover Status // Changed Interrupt Enable #define EPHY_MISR2_SLEEPEN 0x00000004 // Sleep Mode Event Interrupt // Enable #define EPHY_MISR2_POLINTEN 0x00000002 // Polarity Changed Interrupt // Enable #define EPHY_MISR2_JABBEREN 0x00000001 // Jabber Detect Event Interrupt // Enable //***************************************************************************** // // The following are defines for the bit fields in the EPHY_FCSCR register. // //***************************************************************************** #define EPHY_FCSCR_FCSCNT_M 0x000000FF // False Carrier Event Counter #define EPHY_FCSCR_FCSCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_RXERCNT register. // //***************************************************************************** #define EPHY_RXERCNT_RXERRCNT_M 0x0000FFFF // Receive Error Count #define EPHY_RXERCNT_RXERRCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_BISTCR register. // //***************************************************************************** #define EPHY_BISTCR_PRBSM 0x00004000 // PRBS Single/Continuous Mode #define EPHY_BISTCR_PRBSPKT 0x00002000 // Generated PRBS Packets #define EPHY_BISTCR_PKTEN 0x00001000 // Packet Generation Enable #define EPHY_BISTCR_PRBSCHKLK 0x00000800 // PRBS Checker Lock Indication #define EPHY_BISTCR_PRBSCHKSYNC 0x00000400 // PRBS Checker Lock Sync Loss // Indication #define EPHY_BISTCR_PKTGENSTAT 0x00000200 // Packet Generator Status // Indication #define EPHY_BISTCR_PWRMODE 0x00000100 // Power Mode Indication #define EPHY_BISTCR_TXMIILB 0x00000040 // Transmit Data in MII Loopback // Mode #define EPHY_BISTCR_LBMODE_M 0x0000001F // Loopback Mode Select #define EPHY_BISTCR_LBMODE_NPCSIN \ 0x00000001 // Near-end loopback: PCS Input // Loopback #define EPHY_BISTCR_LBMODE_NPCSOUT \ 0x00000002 // Near-end loopback: PCS Output // Loopback (In 100Base-TX only) #define EPHY_BISTCR_LBMODE_NDIG 0x00000004 // Near-end loopback: Digital // Loopback #define EPHY_BISTCR_LBMODE_NANA 0x00000008 // Near-end loopback: Analog // Loopback (requires 100 Ohm // termination) #define EPHY_BISTCR_LBMODE_FREV 0x00000010 // Far-end Loopback: Reverse // Loopback //***************************************************************************** // // The following are defines for the bit fields in the EPHY_LEDCR register. // //***************************************************************************** #define EPHY_LEDCR_BLINKRATE_M 0x00000600 // LED Blinking Rate (ON/OFF // duration): #define EPHY_LEDCR_BLINKRATE_20HZ \ 0x00000000 // 20 Hz (50 ms) #define EPHY_LEDCR_BLINKRATE_10HZ \ 0x00000200 // 10 Hz (100 ms) #define EPHY_LEDCR_BLINKRATE_5HZ \ 0x00000400 // 5 Hz (200 ms) #define EPHY_LEDCR_BLINKRATE_2HZ \ 0x00000600 // 2 Hz (500 ms) //***************************************************************************** // // The following are defines for the bit fields in the EPHY_CTL register. // //***************************************************************************** #define EPHY_CTL_AUTOMDI 0x00008000 // Auto-MDIX Enable #define EPHY_CTL_FORCEMDI 0x00004000 // Force MDIX #define EPHY_CTL_PAUSERX 0x00002000 // Pause Receive Negotiated Status #define EPHY_CTL_PAUSETX 0x00001000 // Pause Transmit Negotiated Status #define EPHY_CTL_MIILNKSTAT 0x00000800 // MII Link Status #define EPHY_CTL_BYPLEDSTRCH 0x00000080 // Bypass LED Stretching //***************************************************************************** // // The following are defines for the bit fields in the EPHY_10BTSC register. // //***************************************************************************** #define EPHY_10BTSC_RXTHEN 0x00002000 // Lower Receiver Threshold Enable #define EPHY_10BTSC_SQUELCH_M 0x00001E00 // Squelch Configuration #define EPHY_10BTSC_NLPDIS 0x00000080 // Normal Link Pulse (NLP) // Transmission Control #define EPHY_10BTSC_POLSTAT 0x00000010 // 10 Mb Polarity Status #define EPHY_10BTSC_JABBERD 0x00000001 // Jabber Disable #define EPHY_10BTSC_SQUELCH_S 9 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_BICSR1 register. // //***************************************************************************** #define EPHY_BICSR1_ERRCNT_M 0x0000FF00 // BIST Error Count #define EPHY_BICSR1_IPGLENGTH_M 0x000000FF // BIST IPG Length #define EPHY_BICSR1_ERRCNT_S 8 #define EPHY_BICSR1_IPGLENGTH_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_BICSR2 register. // //***************************************************************************** #define EPHY_BICSR2_PKTLENGTH_M 0x000007FF // BIST Packet Length #define EPHY_BICSR2_PKTLENGTH_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPHY_CDCR register. // //***************************************************************************** #define EPHY_CDCR_START 0x00008000 // Cable Diagnostic Process Start #define EPHY_CDCR_LINKQUAL_M 0x00000300 // Link Quality Indication #define EPHY_CDCR_LINKQUAL_GOOD 0x00000100 // Good Quality Link Indication #define EPHY_CDCR_LINKQUAL_MILD 0x00000200 // Mid- Quality Link Indication #define EPHY_CDCR_LINKQUAL_POOR 0x00000300 // Poor Quality Link Indication #define EPHY_CDCR_DONE 0x00000002 // Cable Diagnostic Process Done #define EPHY_CDCR_FAIL 0x00000001 // Cable Diagnostic Process Fail //***************************************************************************** // // The following are defines for the bit fields in the EPHY_RCR register. // //***************************************************************************** #define EPHY_RCR_SWRST 0x00008000 // Software Reset #define EPHY_RCR_SWRESTART 0x00004000 // Software Restart //***************************************************************************** // // The following are defines for the bit fields in the EPHY_LEDCFG register. // //***************************************************************************** #define EPHY_LEDCFG_LED2_M 0x00000F00 // LED2 Configuration #define EPHY_LEDCFG_LED2_LINK 0x00000000 // Link OK #define EPHY_LEDCFG_LED2_RXTX 0x00000100 // RX/TX Activity #define EPHY_LEDCFG_LED2_TX 0x00000200 // TX Activity #define EPHY_LEDCFG_LED2_RX 0x00000300 // RX Activity #define EPHY_LEDCFG_LED2_COL 0x00000400 // Collision #define EPHY_LEDCFG_LED2_100BT 0x00000500 // 100-Base TX #define EPHY_LEDCFG_LED2_10BT 0x00000600 // 10-Base TX #define EPHY_LEDCFG_LED2_FD 0x00000700 // Full Duplex #define EPHY_LEDCFG_LED2_LINKTXRX \ 0x00000800 // Link OK/Blink on TX/RX Activity #define EPHY_LEDCFG_LED1_M 0x000000F0 // LED1 Configuration #define EPHY_LEDCFG_LED1_LINK 0x00000000 // Link OK #define EPHY_LEDCFG_LED1_RXTX 0x00000010 // RX/TX Activity #define EPHY_LEDCFG_LED1_TX 0x00000020 // TX Activity #define EPHY_LEDCFG_LED1_RX 0x00000030 // RX Activity #define EPHY_LEDCFG_LED1_COL 0x00000040 // Collision #define EPHY_LEDCFG_LED1_100BT 0x00000050 // 100-Base TX #define EPHY_LEDCFG_LED1_10BT 0x00000060 // 10-Base TX #define EPHY_LEDCFG_LED1_FD 0x00000070 // Full Duplex #define EPHY_LEDCFG_LED1_LINKTXRX \ 0x00000080 // Link OK/Blink on TX/RX Activity #define EPHY_LEDCFG_LED0_M 0x0000000F // LED0 Configuration #define EPHY_LEDCFG_LED0_LINK 0x00000000 // Link OK #define EPHY_LEDCFG_LED0_RXTX 0x00000001 // RX/TX Activity #define EPHY_LEDCFG_LED0_TX 0x00000002 // TX Activity #define EPHY_LEDCFG_LED0_RX 0x00000003 // RX Activity #define EPHY_LEDCFG_LED0_COL 0x00000004 // Collision #define EPHY_LEDCFG_LED0_100BT 0x00000005 // 100-Base TX #define EPHY_LEDCFG_LED0_10BT 0x00000006 // 10-Base TX #define EPHY_LEDCFG_LED0_FD 0x00000007 // Full Duplex #define EPHY_LEDCFG_LED0_LINKTXRX \ 0x00000008 // Link OK/Blink on TX/RX Activity //***************************************************************************** // // The following definitions are deprecated. // //***************************************************************************** #ifndef DEPRECATED //***************************************************************************** // // The following are deprecated defines for the bit fields in the // EMAC_O_PPSCTRL register. // //***************************************************************************** #define EMAC_PPSCTRL_PPSCTRL_1HZ \ 0x00000000 // When the PPSEN0 bit = 0x0, the // EN0PPS signal is 1 pulse of the // PTP reference clock.(of width // clk_ptp_i) every second #define EMAC_PPSCTRL_PPSCTRL_2HZ \ 0x00000001 // When the PPSEN0 bit = 0x0, the // binary rollover is 2 Hz, and the // digital rollover is 1 Hz #define EMAC_PPSCTRL_PPSCTRL_4HZ \ 0x00000002 // When the PPSEN0 bit = 0x0, the // binary rollover is 4 Hz, and the // digital rollover is 2 Hz #define EMAC_PPSCTRL_PPSCTRL_8HZ \ 0x00000003 // When thePPSEN0 bit = 0x0, the // binary rollover is 8 Hz, and the // digital rollover is 4 Hz, #define EMAC_PPSCTRL_PPSCTRL_16HZ \ 0x00000004 // When thePPSEN0 bit = 0x0, the // binary rollover is 16 Hz, and // the digital rollover is 8 Hz #define EMAC_PPSCTRL_PPSCTRL_32HZ \ 0x00000005 // When thePPSEN0 bit = 0x0, the // binary rollover is 32 Hz, and // the digital rollover is 16 Hz #define EMAC_PPSCTRL_PPSCTRL_64HZ \ 0x00000006 // When thePPSEN0 bit = 0x0, the // binary rollover is 64 Hz, and // the digital rollover is 32 Hz #define EMAC_PPSCTRL_PPSCTRL_128HZ \ 0x00000007 // When thePPSEN0 bit = 0x0, the // binary rollover is 128 Hz, and // the digital rollover is 64 Hz #define EMAC_PPSCTRL_PPSCTRL_256HZ \ 0x00000008 // When thePPSEN0 bit = 0x0, the // binary rollover is 256 Hz, and // the digital rollover is 128 Hz #define EMAC_PPSCTRL_PPSCTRL_512HZ \ 0x00000009 // When thePPSEN0 bit = 0x0, the // binary rollover is 512 Hz, and // the digital rollover is 256 Hz #define EMAC_PPSCTRL_PPSCTRL_1024HZ \ 0x0000000A // When the PPSEN0 bit = 0x0, the // binary rollover is 1.024 kHz, // and the digital rollover is 512 // Hz #define EMAC_PPSCTRL_PPSCTRL_2048HZ \ 0x0000000B // When thePPSEN0 bit = 0x0, the // binary rollover is 2.048 kHz, // and the digital rollover is // 1.024 kHz #define EMAC_PPSCTRL_PPSCTRL_4096HZ \ 0x0000000C // When thePPSEN0 bit = 0x0, the // binary rollover is 4.096 kHz, // and the digital rollover is // 2.048 kHz #define EMAC_PPSCTRL_PPSCTRL_8192HZ \ 0x0000000D // When thePPSEN0 bit = 0x0, the // binary rollover is 8.192 kHz, // and the digital rollover is // 4.096 kHz #define EMAC_PPSCTRL_PPSCTRL_16384HZ \ 0x0000000E // When thePPSEN0 bit = 0x0, the // binary rollover is 16.384 kHz, // and the digital rollover is // 8.092 kHz #define EMAC_PPSCTRL_PPSCTRL_32768HZ \ 0x0000000F // When thePPSEN0 bit = 0x0, the // binary rollover is 32.768 KHz, // and the digital rollover is // 16.384 KHz //***************************************************************************** // // The following are deprecated defines for the bit fields in the EMAC_O_CC // register. // //***************************************************************************** #define EMAC_CC_CS_PA7 0x00000001 // GPIO #endif #endif // __HW_EMAC_H__