rt-thread-official/bsp/ck802/libraries/include/drv_eth_mac.h

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2018-06-05 14:36:29 +08:00
/**
* Copyright (C) 2016 CSI Project. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef _CSI_ETH_H_
#define _CSI_ETH_H_
#include "drv_eth.h"
#ifdef __cplusplus
extern "C" {
#endif
typedef void *eth_mac_handle_t;
#define MAX_FRAMELEN 1518 /* (note: maximum ethernet frame length would be 1518) */
#define CSI_ETH_MAC_API_VERSION CSI_DRIVER_VERSION_MAJOR_MINOR(2,1) /* API version */
#define _CSI_Driver_ETH_MAC_(n) Driver_ETH_MAC##n
#define CSI_Driver_ETH_MAC_(n) _CSI_Driver_ETH_MAC_(n)
/****** Ethernet MAC Control Codes *****/
#define CSI_ETH_MAC_CONFIGURE (0x01) ///< Configure MAC; arg = configuration
#define CSI_ETH_MAC_CONTROL_TX (0x02) ///< Transmitter; arg: 0=disabled (default), 1=enabled
#define CSI_ETH_MAC_CONTROL_RX (0x03) ///< Receiver; arg: 0=disabled (default), 1=enabled
#define CSI_ETH_MAC_FLUSH (0x04) ///< Flush buffer; arg = CSI_ETH_MAC_FLUSH_...
#define CSI_ETH_MAC_SLEEP (0x05) ///< Sleep mode; arg: 1=enter and wait for Magic packet, 0=exit
#define CSI_ETH_MAC_VLAN_FILTER (0x06) ///< VLAN Filter for received frames; arg15..0: VLAN Tag; arg16: optional CSI_ETH_MAC_VLAN_FILTER_ID_ONLY; 0=disabled (default)
/*----- Ethernet MAC Configuration -----*/
#define CSI_ETH_MAC_SPEED_Pos 0
#define CSI_ETH_MAC_SPEED_Msk (3UL << CSI_ETH_MAC_SPEED_Pos)
#define CSI_ETH_MAC_SPEED_10M (CSI_ETH_SPEED_10M << CSI_ETH_MAC_SPEED_Pos) ///< 10 Mbps link speed
#define CSI_ETH_MAC_SPEED_100M (CSI_ETH_SPEED_100M << CSI_ETH_MAC_SPEED_Pos) ///< 100 Mbps link speed
#define CSI_ETH_MAC_SPEED_1G (CSI_ETH_SPEED_1G << CSI_ETH_MAC_SPEED_Pos) ///< 1 Gpbs link speed
#define CSI_ETH_MAC_DUPLEX_Pos 2
#define CSI_ETH_MAC_DUPLEX_Msk (1UL << CSI_ETH_MAC_DUPLEX_Pos)
#define CSI_ETH_MAC_DUPLEX_HALF (CSI_ETH_DUPLEX_HALF << CSI_ETH_MAC_DUPLEX_Pos) ///< Half duplex link
#define CSI_ETH_MAC_DUPLEX_FULL (CSI_ETH_DUPLEX_FULL << CSI_ETH_MAC_DUPLEX_Pos) ///< Full duplex link
#define CSI_ETH_MAC_LOOPBACK (1UL << 4) ///< Loop-back test mode
#define CSI_ETH_MAC_CHECKSUM_OFFLOAD_RX (1UL << 5) ///< Receiver Checksum offload
#define CSI_ETH_MAC_CHECKSUM_OFFLOAD_TX (1UL << 6) ///< Transmitter Checksum offload
#define CSI_ETH_MAC_ADDRESS_BROADCAST (1UL << 7) ///< Accept frames with Broadcast address
#define CSI_ETH_MAC_ADDRESS_MULTICAST (1UL << 8) ///< Accept frames with any Multicast address
#define CSI_ETH_MAC_ADDRESS_ALL (1UL << 9) ///< Accept frames with any address (Promiscuous Mode)
/*----- Ethernet MAC Flush Flags -----*/
#define CSI_ETH_MAC_FLUSH_RX (1UL << 0) ///< Flush Receive buffer
#define CSI_ETH_MAC_FLUSH_TX (1UL << 1) ///< Flush Transmit buffer
/*----- Ethernet MAC VLAN Filter Flag -----*/
#define CSI_ETH_MAC_VLAN_FILTER_ID_ONLY (1UL << 16) ///< Compare only the VLAN Identifier (12-bit)
/****** Ethernet MAC Frame Transmit Flags *****/
#define CSI_ETH_MAC_TX_FRAME_FRAGMENT (1UL << 0) ///< Indicate frame fragment
#define CSI_ETH_MAC_TX_FRAME_EVENT (1UL << 1) ///< Generate event when frame is transmitted
#define CSI_ETH_MAC_TX_FRAME_TIMESTAMP (1UL << 2) ///< Capture frame time stamp
/****** Ethernet MAC Timer Control Codes *****/
#define CSI_ETH_MAC_TIMER_GET_TIME (0x01) ///< Get current time
#define CSI_ETH_MAC_TIMER_SET_TIME (0x02) ///< Set new time
#define CSI_ETH_MAC_TIMER_INC_TIME (0x03) ///< Increment current time
#define CSI_ETH_MAC_TIMER_DEC_TIME (0x04) ///< Decrement current time
#define CSI_ETH_MAC_TIMER_SET_ALCSI (0x05) ///< Set alarm time
#define CSI_ETH_MAC_TIMER_ADJUST_CLOCK (0x06) ///< Adjust clock frequency; time->ns: correction factor * 2^31
/**
\brief Ethernet MAC Time
*/
typedef struct eth_mac_time {
uint32_t ns; ///< Nano seconds
uint32_t sec; ///< Seconds
} eth_mac_time_t;
/****** Ethernet MAC Event *****/
#define CSI_ETH_MAC_EVENT_RX_FRAME (1UL << 0) ///< Frame Received
#define CSI_ETH_MAC_EVENT_TX_FRAME (1UL << 1) ///< Frame Transmitted
#define CSI_ETH_MAC_EVENT_WAKEUP (1UL << 2) ///< Wake-up (on Magic Packet)
#define CSI_ETH_MAC_EVENT_TIMER_ALCSI (1UL << 3) ///< Timer Alarm
#define CSI_ETH_MAC_EVENT_LINK_CHANGE (1UL << 4) ///< Link state
typedef void (*eth_event_cb_t)(eth_mac_handle_t handle, uint32_t event); ///< Pointer to \ref eth_event_cb_t : Signal Ethernet Event.
typedef enum
{
FRAME_FILTER_RULE_POSITIVE_MATCHING = 0, /*!< Specifies that a filter should match a given pattern */
FRAME_FILTER_RULE_NEGATIVE_MATCHING = 1, /*!< Specifies that a filter should NOT match a given pattern */
} frame_filter_rule_t;
/**
\brief Ethernet MAC Capabilities
*/
typedef struct eth_capabilities {
uint32_t checksum_offload_rx_ip4 : 1; ///< 1 = IPv4 header checksum verified on receive
uint32_t checksum_offload_rx_ip6 : 1; ///< 1 = IPv6 checksum verification supported on receive
uint32_t checksum_offload_rx_udp : 1; ///< 1 = UDP payload checksum verified on receive
uint32_t checksum_offload_rx_tcp : 1; ///< 1 = TCP payload checksum verified on receive
uint32_t checksum_offload_rx_icmp : 1; ///< 1 = ICMP payload checksum verified on receive
uint32_t checksum_offload_tx_ip4 : 1; ///< 1 = IPv4 header checksum generated on transmit
uint32_t checksum_offload_tx_ip6 : 1; ///< 1 = IPv6 checksum generation supported on transmit
uint32_t checksum_offload_tx_udp : 1; ///< 1 = UDP payload checksum generated on transmit
uint32_t checksum_offload_tx_tcp : 1; ///< 1 = TCP payload checksum generated on transmit
uint32_t checksum_offload_tx_icmp : 1; ///< 1 = ICMP payload checksum generated on transmit
uint32_t media_interface : 2; ///< Ethernet Media Interface type
uint32_t mac_address : 1; ///< 1 = driver provides initial valid MAC address
uint32_t event_rx_frame : 1; ///< 1 = callback event generated
uint32_t event_tx_frame : 1; ///< 1 = callback event generated
uint32_t event_wakeup : 1; ///< 1 = wakeup event generated
uint32_t precision_timer : 1; ///< 1 = Precision Timer supported
uint32_t reserved : 15; ///< Reserved (must be zero)
} eth_capabilities_t;
#if 0
/**
\brief Ethernet Frame filter
*/
typedef struct eth_frame_filter {
struct {
uint32_t and_or : 1; ///< 1 = AND: Packets will be rejected unless all enabled filters accept the packet; 0 = OR: Packets will be accepted unless all enabled filters reject the packet
uint32_t unicast_en : 1; ///< 1 = Packets with a destination address matching the local MAC address will be accepted
uint32_t multicast_en : 1; ///< 1 = Packets which have the Least Significant bit set in the destination address will be accepted
uint32_t broadcast_en : 1; ///< 1 = Packets which have a destination address of FF-FF-FF-FF-FF-FF will be accepted
uint32_t crc_en : 1; ///< 1 = All packets with an invalid CRC will be discarded
uint32_t patten_match_en : 1; ///< 1 = Packets which meet the Pattern Match criteria will be accepted
uint32_t magic_packet_en : 1; ///< 1 = Magic Packets for the local MAC address will be accepted
uint32_t hash_table_en : 1; ///< 1 = Packets which meet the Hash Table criteria will be accepted
} sum; ///< summary
uint32_t patten_match; ///< patten match filter
uint32_t magic_packet; ///< patten match filter
uint32_t hash_table; ///< hash table filter
} eth_frame_filter_t;
#else
/**
* Structure describing a frame filter list item
*/
typedef struct
{
uint32_t id; /*!< Unique identifier for a packet filter item */
frame_filter_rule_t rule; /*!< Filter matches are either POSITIVE or NEGATIVE matching */
uint16_t offset; /*!< Offset in bytes to start filtering (referenced to the start of the ethernet packet) */
uint16_t mask_size; /*!< Size of the mask in bytes */
uint8_t* mask; /*!< Pattern mask bytes to be ANDed with the pattern eg. "\xff00" (must be in network byte order) */
uint8_t* pattern; /*!< Pattern bytes used to filter eg. "\x0800" (must be in network byte order) */
bool enabled_status; /*!< When returned from mhd_get_packet_filters, indicates if the filter is enabled */
} eth_frame_filter_t;
struct eth_frame_filter_list
{
struct eth_frame_filter_list* next;
};
typedef struct eth_frame_filter_list eth_frame_filter_list_t;
#endif
typedef struct {
eth_event_cb_t cb_event;
eth_capabilities_t capabilities;
}eth_mac_priv_t;
/**
\brief Get driver version.
\param[in] handle ethernet handle
\return ethernet version including chip version and driver version
*/
csi_drv_version_t csi_eth_mac_get_version(eth_mac_handle_t handle);
/**
\brief Get driver capabilities.
\param[in] handle ethernet handle
\return ethernet capabilities
*/
eth_capabilities_t csi_eth_mac_get_capabilities(eth_mac_handle_t handle);
/**
\brief This function is used to initialize Ethernet device and related resource, an event callback is registered. It is called when the middleware component like TCPIP starts operation.
\param[in] cb callback to handle ethernet event
\return return ethernet handle if success
*/
eth_mac_handle_t csi_eth_mac_initialize(eth_event_cb_t cb);
/**
\brief This function is used to de-initialize Ethernet device. It is called when the middleware component stops operation and releases the software resources used by the interface.
\param[in] handle ethernet handle
\return error code
*/
int32_t csi_eth_mac_uninitialize(eth_mac_handle_t handle);
/**
\brief Control Ethernet MAC Device Power.
\param[in] handle ethernet handle
\param[in] state Power state
\return error code
*/
int32_t csi_eth_mac_power_control(eth_mac_handle_t handle, eth_power_state_t state);
/**
\brief Get Ethernet MAC Address.
\param[in] handle ethernet handle
\param[in] mac Pointer to address
\return error code
*/
int32_t csi_eth_mac_get_macaddr(eth_mac_handle_t handle, eth_mac_addr_t *mac);
/**
\brief Set Ethernet MAC Address.
\param[in] handle ethernet handle
\param[in] mac Pointer to address
\return error code
*/
int32_t csi_eth_mac_set_macaddr(eth_mac_handle_t handle, const eth_mac_addr_t *mac);
/**
\brief Configure Address Filter.
\param[in] handle ethernet handle
\param[in] addr Pointer to addresses
\param[in] num_addr Number of addresses to configure
\return error code
*/
int32_t csi_eth_mac_set_addrfilter(eth_mac_handle_t handle, const eth_mac_addr_t *addr, uint32_t num_addr);
/**
\brief Send Ethernet frame.
\param[in] handle ethernet handle
\param[in] frame Pointer to frame buffer with data to send
\param[in] len Frame buffer length in bytes
\param[in] flags Frame transmit flags (see CSI_ETH_MAC_TX_FRAME_...)
\return error code
*/
int32_t csi_eth_mac_send_frame(eth_mac_handle_t handle, const uint8_t *frame, uint32_t len, uint32_t flags);
/**
\brief Read data of received Ethernet frame.
\param[in] handle ethernet handle
\param[in] frame Pointer to frame buffer for data to read into
\param[in] len Frame buffer length in bytes
\return number of data bytes read or execution status
- value >= 0: number of data bytes read
- value < 0: error occurred, value is execution status as defined with execution_status
*/
int32_t csi_eth_mac_read_frame(eth_mac_handle_t handle, uint8_t *frame, uint32_t len);
/**
\brief Get size of received Ethernet frame.
\param[in] handle ethernet handle
\return number of bytes in received frame
*/
int32_t csi_eth_mac_get_rx_framesize(eth_mac_handle_t handle);
/**
\brief Get time of received Ethernet frame.
\param[in] handle ethernet handle
\param[in] time Pointer to time structure for data to read into
\return error code
*/
int32_t csi_eth_mac_get_rx_frametime(eth_mac_handle_t handle, eth_mac_time_t *time);
/**
\brief Get time of transmitted Ethernet frame.
\param[in] handle ethernet handle
\param[in] time Pointer to time structure for data to read into
\return error code
*/
int32_t csi_eth_mac_get_tx_frametime(eth_mac_handle_t handle, eth_mac_time_t *time);
/**
\brief Control Ethernet Interface.
\param[in] handle ethernet handle
\param[in] control Operation
\param[in] arg Argument of operation (optional)
\return error code
*/
int32_t csi_eth_mac_control(eth_mac_handle_t handle, uint32_t control, uint32_t arg);
/**
\brief Control Precision Timer.
\param[in] handle ethernet handle
\param[in] control Operation
\param[in] time Pointer to time structure
\return error code
*/
int32_t csi_eth_mac_control_time(eth_mac_handle_t handle, uint32_t control, eth_mac_time_t *time);
/**
\brief Read Ethernet PHY Register through Management Interface.
\param[in] handle ethernet handle
\param[in] phy_addr 5-bit device address
\param[in] reg_addr 5-bit register address
\param[out] data Pointer where the result is written to
\return error code
*/
int32_t csi_eth_mac_phy_read(eth_mac_handle_t handle, uint8_t phy_addr, uint8_t reg_addr, uint16_t *data);
/**
\brief Write Ethernet PHY Register through Management Interface.
\param[in] handle ethernet handle
\param[in] phy_addr 5-bit device address
\param[in] reg_addr 5-bit register address
\param[in] data 16-bit data to write
\return error code
*/
int32_t csi_eth_mac_phy_write(eth_mac_handle_t handle, uint8_t phy_addr, uint8_t reg_addr, uint16_t data);
/**
\brief Callback function that signals a Ethernet Event.
\param[in] handle ethernet handle
\param[in] event event notification mask
\return none
*/
void csi_eth_mac_signal_event(eth_mac_handle_t handle, uint32_t event);
/**
\brief Add Frame Filter Setting with Filter ID.
\param[in] handle ethernet handle
\param[in] filter Pointer to filter setting
\return error code
*/
int32_t csi_eth_mac_add_framefilter(eth_mac_handle_t handle, const eth_frame_filter_t *filter);
/**
\brief Remove Frame Filter Setting.
\param[in] handle ethernet handle
\param[in] filter_id Frame Filter ID
\return error code
*/
int32_t csi_eth_mac_remove_framefilter(eth_mac_handle_t handle, uint32_t filter_id);
/**
\brief Enable/Disable Specified Frame Filter ID.
\param[in] handle ethernet handle
\param[in] filter_id Frame Filter ID
\param[in] en Enable or disable
\return error code
*/
int32_t csi_eth_mac_en_framefilter(eth_mac_handle_t handle, uint32_t filter_id, bool en);
/**
\brief Get frame filter table list.
\param[in] handle ethernet handle
\param[in] list frame filter table list
\param[in] count_out the count of filter setting added
\param[in] max_count max filter setting can be supported
\return error code
*/
int32_t csi_eth_mac_get_framefilter(eth_mac_handle_t handle, eth_frame_filter_list_t* list, uint32_t* count_out, uint32_t max_count);
#ifdef __cplusplus
}
#endif
#endif