/* * SPDX-FileCopyrightText: 2019-2021 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include "driver/gpio.h" #include "driver/spi_master.h" #include "esp_attr.h" #include "esp_log.h" #include "esp_check.h" #include "esp_eth.h" #include "esp_timer.h" #include "esp_system.h" #include "esp_intr_alloc.h" #include "esp_heap_caps.h" #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "freertos/semphr.h" #include "hal/cpu_hal.h" #include "dm9051.h" #include "sdkconfig.h" #include "esp_rom_gpio.h" #include "esp_rom_sys.h" static const char *TAG = "dm9051.mac"; #define DM9051_SPI_LOCK_TIMEOUT_MS (50) #define DM9051_PHY_OPERATION_TIMEOUT_US (1000) typedef struct { uint8_t flag; uint8_t status; uint8_t length_low; uint8_t length_high; } dm9051_rx_header_t; typedef struct { esp_eth_mac_t parent; esp_eth_mediator_t *eth; spi_device_handle_t spi_hdl; SemaphoreHandle_t spi_lock; TaskHandle_t rx_task_hdl; uint32_t sw_reset_timeout_ms; int int_gpio_num; uint8_t addr[6]; bool packets_remain; bool flow_ctrl_enabled; } emac_dm9051_t; static inline bool dm9051_lock(emac_dm9051_t *emac) { return xSemaphoreTake(emac->spi_lock, pdMS_TO_TICKS(DM9051_SPI_LOCK_TIMEOUT_MS)) == pdTRUE; } static inline bool dm9051_unlock(emac_dm9051_t *emac) { return xSemaphoreGive(emac->spi_lock) == pdTRUE; } /** * @brief write value to dm9051 internal register */ static esp_err_t dm9051_register_write(emac_dm9051_t *emac, uint8_t reg_addr, uint8_t value) { esp_err_t ret = ESP_OK; spi_transaction_t trans = { .cmd = DM9051_SPI_WR, .addr = reg_addr, .length = 8, .flags = SPI_TRANS_USE_TXDATA }; trans.tx_data[0] = value; if (dm9051_lock(emac)) { if (spi_device_polling_transmit(emac->spi_hdl, &trans) != ESP_OK) { ESP_LOGE(TAG, "%s(%d): spi transmit failed", __FUNCTION__, __LINE__); ret = ESP_FAIL; } dm9051_unlock(emac); } else { ret = ESP_ERR_TIMEOUT; } return ret; } /** * @brief read value from dm9051 internal register */ static esp_err_t dm9051_register_read(emac_dm9051_t *emac, uint8_t reg_addr, uint8_t *value) { esp_err_t ret = ESP_OK; spi_transaction_t trans = { .cmd = DM9051_SPI_RD, .addr = reg_addr, .length = 8, .flags = SPI_TRANS_USE_TXDATA | SPI_TRANS_USE_RXDATA }; if (dm9051_lock(emac)) { if (spi_device_polling_transmit(emac->spi_hdl, &trans) != ESP_OK) { ESP_LOGE(TAG, "%s(%d): spi transmit failed", __FUNCTION__, __LINE__); ret = ESP_FAIL; } else { *value = trans.rx_data[0]; } dm9051_unlock(emac); } else { ret = ESP_ERR_TIMEOUT; } return ret; } /** * @brief write buffer to dm9051 internal memory */ static esp_err_t dm9051_memory_write(emac_dm9051_t *emac, uint8_t *buffer, uint32_t len) { esp_err_t ret = ESP_OK; spi_transaction_t trans = { .cmd = DM9051_SPI_WR, .addr = DM9051_MWCMD, .length = len * 8, .tx_buffer = buffer }; if (dm9051_lock(emac)) { if (spi_device_polling_transmit(emac->spi_hdl, &trans) != ESP_OK) { ESP_LOGE(TAG, "%s(%d): spi transmit failed", __FUNCTION__, __LINE__); ret = ESP_FAIL; } dm9051_unlock(emac); } else { ret = ESP_ERR_TIMEOUT; } return ret; } /** * @brief read buffer from dm9051 internal memory */ static esp_err_t dm9051_memory_read(emac_dm9051_t *emac, uint8_t *buffer, uint32_t len) { esp_err_t ret = ESP_OK; spi_transaction_t trans = { .cmd = DM9051_SPI_RD, .addr = DM9051_MRCMD, .length = len * 8, .rx_buffer = buffer }; if (dm9051_lock(emac)) { if (spi_device_polling_transmit(emac->spi_hdl, &trans) != ESP_OK) { ESP_LOGE(TAG, "%s(%d): spi transmit failed", __FUNCTION__, __LINE__); ret = ESP_FAIL; } dm9051_unlock(emac); } else { ret = ESP_ERR_TIMEOUT; } return ret; } /** * @brief peek buffer from dm9051 internal memory (without internal cursor moved) */ static esp_err_t dm9051_memory_peek(emac_dm9051_t *emac, uint8_t *buffer, uint32_t len) { esp_err_t ret = ESP_OK; spi_transaction_t trans = { .cmd = DM9051_SPI_RD, .addr = DM9051_MRCMDX1, .length = len * 8, .rx_buffer = buffer }; if (dm9051_lock(emac)) { if (spi_device_polling_transmit(emac->spi_hdl, &trans) != ESP_OK) { ESP_LOGE(TAG, "%s(%d): spi transmit failed", __FUNCTION__, __LINE__); ret = ESP_FAIL; } dm9051_unlock(emac); } else { ret = ESP_ERR_TIMEOUT; } return ret; } /** * @brief read mac address from internal registers */ static esp_err_t dm9051_get_mac_addr(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; for (int i = 0; i < 6; i++) { ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_PAR + i, &emac->addr[i]), err, TAG, "read PAR failed"); } return ESP_OK; err: return ret; } /** * @brief set new mac address to internal registers */ static esp_err_t dm9051_set_mac_addr(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; for (int i = 0; i < 6; i++) { ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_PAR + i, emac->addr[i]), err, TAG, "write PAR failed"); } return ESP_OK; err: return ret; } /** * @brief clear multicast hash table */ static esp_err_t dm9051_clear_multicast_table(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; /* rx broadcast packet control by bit7 of MAC register 1DH */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_BCASTCR, 0x00), err, TAG, "write BCASTCR failed"); for (int i = 0; i < 7; i++) { ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_MAR + i, 0x00), err, TAG, "write MAR failed"); } /* enable receive broadcast paclets */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_MAR + 7, 0x80), err, TAG, "write MAR failed"); return ESP_OK; err: return ret; } /** * @brief software reset dm9051 internal register */ static esp_err_t dm9051_reset(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; /* power on phy */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_GPR, 0x00), err, TAG, "write GPR failed"); /* mac and phy register won't be accesable within at least 1ms */ vTaskDelay(pdMS_TO_TICKS(10)); /* software reset */ uint8_t ncr = NCR_RST; ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_NCR, ncr), err, TAG, "write NCR failed"); uint32_t to = 0; for (to = 0; to < emac->sw_reset_timeout_ms / 10; to++) { ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_NCR, &ncr), err, TAG, "read NCR failed"); if (!(ncr & NCR_RST)) { break; } vTaskDelay(pdMS_TO_TICKS(10)); } ESP_GOTO_ON_FALSE(to < emac->sw_reset_timeout_ms / 10, ESP_ERR_TIMEOUT, err, TAG, "reset timeout"); return ESP_OK; err: return ret; } /** * @brief verify dm9051 chip ID */ static esp_err_t dm9051_verify_id(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; uint8_t id[2]; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_VIDL, &id[0]), err, TAG, "read VIDL failed"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_VIDH, &id[1]), err, TAG, "read VIDH failed"); ESP_GOTO_ON_FALSE(0x0A == id[1] && 0x46 == id[0], ESP_ERR_INVALID_VERSION, err, TAG, "wrong Vendor ID"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_PIDL, &id[0]), err, TAG, "read PIDL failed"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_PIDH, &id[1]), err, TAG, "read PIDH failed"); ESP_GOTO_ON_FALSE(0x90 == id[1] && 0x51 == id[0], ESP_ERR_INVALID_VERSION, err, TAG, "wrong Product ID"); return ESP_OK; err: return ret; } /** * @brief default setup for dm9051 internal registers */ static esp_err_t dm9051_setup_default(emac_dm9051_t *emac) { esp_err_t ret = ESP_OK; /* disable wakeup */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_NCR, 0x00), err, TAG, "write NCR failed"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_WCR, 0x00), err, TAG, "write WCR failed"); /* stop transmitting, enable appending pad, crc for packets */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TCR, 0x00), err, TAG, "write TCR failed"); /* stop receiving, no promiscuous mode, no runt packet(size < 64bytes), not all multicast packets*/ /* discard long packet(size > 1522bytes) and crc error packet, enable watchdog */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RCR, RCR_DIS_LONG | RCR_DIS_CRC), err, TAG, "write RCR failed"); /* retry late collision packet, at most two transmit command can be issued before transmit complete */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TCR2, TCR2_RLCP), err, TAG, "write TCR2 failed"); /* enable auto transmit */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_ATCR, ATCR_AUTO_TX), err, TAG, "write ATCR failed"); /* generate checksum for UDP, TCP and IPv4 packets */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TCSCR, TCSCR_IPCSE | TCSCR_TCPCSE | TCSCR_UDPCSE), err, TAG, "write TCSCR failed"); /* disable check sum for receive packets */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RCSCSR, 0x00), err, TAG, "write RCSCSR failed"); /* interrupt pin config: push-pull output, active high */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_INTCR, 0x00), err, TAG, "write INTCR failed"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_INTCKCR, 0x00), err, TAG, "write INTCKCR failed"); /* no length limitation for rx packets */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RLENCR, 0x00), err, TAG, "write RLENCR failed"); /* 3K-byte for TX and 13K-byte for RX */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_MEMSCR, 0x00), err, TAG, "write MEMSCR failed"); /* reset tx and rx memory pointer */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_MPTRCR, MPTRCR_RST_RX | MPTRCR_RST_TX), err, TAG, "write MPTRCR failed"); /* clear network status: wakeup event, tx complete */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_NSR, NSR_WAKEST | NSR_TX2END | NSR_TX1END), err, TAG, "write NSR failed"); /* clear interrupt status */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_ISR, ISR_CLR_STATUS), err, TAG, "write ISR failed"); return ESP_OK; err: return ret; } static esp_err_t dm9051_enable_flow_ctrl(emac_dm9051_t *emac, bool enable) { esp_err_t ret = ESP_OK; if (enable) { /* send jam pattern (duration time = 1.15ms) when rx free space < 3k bytes */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_BPTR, 0x3F), err, TAG, "write BPTR failed"); /* flow control: high water threshold = 3k bytes, low water threshold = 8k bytes */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_FCTR, 0x38), err, TAG, "write FCTR failed"); /* enable flow control */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_FCR, FCR_FLOW_ENABLE), err, TAG, "write FCR failed"); } else { /* disable flow control */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_FCR, 0), err, TAG, "write FCR failed"); } return ESP_OK; err: return ret; } /** * @brief start dm9051: enable interrupt and start receive */ static esp_err_t emac_dm9051_start(esp_eth_mac_t *mac) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); /* enable only Rx related interrupts as others are processed synchronously */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_IMR, IMR_PAR | IMR_PRI), err, TAG, "write IMR failed"); /* enable rx */ uint8_t rcr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_RCR, &rcr), err, TAG, "read RCR failed"); rcr |= RCR_RXEN; ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RCR, rcr), err, TAG, "write RCR failed"); return ESP_OK; err: return ret; } /** * @brief stop dm9051: disable interrupt and stop receive */ static esp_err_t emac_dm9051_stop(esp_eth_mac_t *mac) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); /* disable interrupt */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_IMR, 0x00), err, TAG, "write IMR failed"); /* disable rx */ uint8_t rcr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_RCR, &rcr), err, TAG, "read RCR failed"); rcr &= ~RCR_RXEN; ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RCR, rcr), err, TAG, "write RCR failed"); return ESP_OK; err: return ret; } IRAM_ATTR static void dm9051_isr_handler(void *arg) { emac_dm9051_t *emac = (emac_dm9051_t *)arg; BaseType_t high_task_wakeup = pdFALSE; /* notify dm9051 task */ vTaskNotifyGiveFromISR(emac->rx_task_hdl, &high_task_wakeup); if (high_task_wakeup != pdFALSE) { portYIELD_FROM_ISR(); } } static void emac_dm9051_task(void *arg) { emac_dm9051_t *emac = (emac_dm9051_t *)arg; uint8_t status = 0; uint8_t *buffer = NULL; uint32_t length = 0; while (1) { // check if the task receives any notification if (ulTaskNotifyTake(pdTRUE, pdMS_TO_TICKS(1000)) == 0 && // if no notification ... gpio_get_level(emac->int_gpio_num) == 0) { // ...and no interrupt asserted continue; // -> just continue to check again } /* clear interrupt status */ dm9051_register_read(emac, DM9051_ISR, &status); dm9051_register_write(emac, DM9051_ISR, status); /* packet received */ if (status & ISR_PR) { do { length = ETH_MAX_PACKET_SIZE; buffer = heap_caps_malloc(length, MALLOC_CAP_DMA); if (!buffer) { ESP_LOGE(TAG, "no mem for receive buffer"); } else if (emac->parent.receive(&emac->parent, buffer, &length) == ESP_OK) { /* pass the buffer to stack (e.g. TCP/IP layer) */ if (length) { emac->eth->stack_input(emac->eth, buffer, length); } else { free(buffer); } } else { free(buffer); } } while (emac->packets_remain); } } vTaskDelete(NULL); } static esp_err_t emac_dm9051_set_mediator(esp_eth_mac_t *mac, esp_eth_mediator_t *eth) { esp_err_t ret = ESP_OK; ESP_GOTO_ON_FALSE(eth, ESP_ERR_INVALID_ARG, err, TAG, "can't set mac's mediator to null"); emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); emac->eth = eth; return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_write_phy_reg(esp_eth_mac_t *mac, uint32_t phy_addr, uint32_t phy_reg, uint32_t reg_value) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); /* check if phy access is in progress */ uint8_t epcr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPCR, &epcr), err, TAG, "read EPCR failed"); ESP_GOTO_ON_FALSE(!(epcr & EPCR_ERRE), ESP_ERR_INVALID_STATE, err, TAG, "phy is busy"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPAR, (uint8_t)(((phy_addr << 6) & 0xFF) | phy_reg)), err, TAG, "write EPAR failed"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPDRL, (uint8_t)(reg_value & 0xFF)), err, TAG, "write EPDRL failed"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPDRH, (uint8_t)((reg_value >> 8) & 0xFF)), err, TAG, "write EPDRH failed"); /* select PHY and select write operation */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPCR, EPCR_EPOS | EPCR_ERPRW), err, TAG, "write EPCR failed"); /* polling the busy flag */ uint32_t to = 0; do { esp_rom_delay_us(100); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPCR, &epcr), err, TAG, "read EPCR failed"); to += 100; } while ((epcr & EPCR_ERRE) && to < DM9051_PHY_OPERATION_TIMEOUT_US); ESP_GOTO_ON_FALSE(!(epcr & EPCR_ERRE), ESP_ERR_TIMEOUT, err, TAG, "phy is busy"); return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_read_phy_reg(esp_eth_mac_t *mac, uint32_t phy_addr, uint32_t phy_reg, uint32_t *reg_value) { esp_err_t ret = ESP_OK; ESP_GOTO_ON_FALSE(reg_value, ESP_ERR_INVALID_ARG, err, TAG, "can't set reg_value to null"); emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); /* check if phy access is in progress */ uint8_t epcr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPCR, &epcr), err, TAG, "read EPCR failed"); ESP_GOTO_ON_FALSE(!(epcr & 0x01), ESP_ERR_INVALID_STATE, err, TAG, "phy is busy"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPAR, (uint8_t)(((phy_addr << 6) & 0xFF) | phy_reg)), err, TAG, "write EPAR failed"); /* Select PHY and select read operation */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_EPCR, 0x0C), err, TAG, "write EPCR failed"); /* polling the busy flag */ uint32_t to = 0; do { esp_rom_delay_us(100); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPCR, &epcr), err, TAG, "read EPCR failed"); to += 100; } while ((epcr & EPCR_ERRE) && to < DM9051_PHY_OPERATION_TIMEOUT_US); ESP_GOTO_ON_FALSE(!(epcr & EPCR_ERRE), ESP_ERR_TIMEOUT, err, TAG, "phy is busy"); uint8_t value_h = 0; uint8_t value_l = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPDRH, &value_h), err, TAG, "read EPDRH failed"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPDRL, &value_l), err, TAG, "read EPDRL failed"); *reg_value = (value_h << 8) | value_l; return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_set_addr(esp_eth_mac_t *mac, uint8_t *addr) { esp_err_t ret = ESP_OK; ESP_GOTO_ON_FALSE(addr, ESP_ERR_INVALID_ARG, err, TAG, "can't set mac addr to null"); emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); memcpy(emac->addr, addr, 6); ESP_GOTO_ON_ERROR(dm9051_set_mac_addr(emac), err, TAG, "set mac address failed"); return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_get_addr(esp_eth_mac_t *mac, uint8_t *addr) { esp_err_t ret = ESP_OK; ESP_GOTO_ON_FALSE(addr, ESP_ERR_INVALID_ARG, err, TAG, "can't set mac addr to null"); emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); memcpy(addr, emac->addr, 6); return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_set_link(esp_eth_mac_t *mac, eth_link_t link) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); uint8_t nsr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_NSR, &nsr), err, TAG, "read NSR failed"); switch (link) { case ETH_LINK_UP: ESP_GOTO_ON_FALSE(nsr & NSR_LINKST, ESP_ERR_INVALID_STATE, err, TAG, "phy is not link up"); ESP_GOTO_ON_ERROR(mac->start(mac), err, TAG, "dm9051 start failed"); break; case ETH_LINK_DOWN: ESP_GOTO_ON_FALSE(!(nsr & NSR_LINKST), ESP_ERR_INVALID_STATE, err, TAG, "phy is not link down"); ESP_GOTO_ON_ERROR(mac->stop(mac), err, TAG, "dm9051 stop failed"); break; default: ESP_GOTO_ON_FALSE(false, ESP_ERR_INVALID_ARG, err, TAG, "unknown link status"); break; } return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_set_speed(esp_eth_mac_t *mac, eth_speed_t speed) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); uint8_t nsr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_NSR, &nsr), err, TAG, "read NSR failed"); switch (speed) { case ETH_SPEED_10M: ESP_GOTO_ON_FALSE(nsr & NSR_SPEED, ESP_ERR_INVALID_STATE, err, TAG, "phy speed is not at 10Mbps"); ESP_LOGD(TAG, "working in 10Mbps"); break; case ETH_SPEED_100M: ESP_GOTO_ON_FALSE(!(nsr & NSR_SPEED), ESP_ERR_INVALID_STATE, err, TAG, "phy speed is not at 100Mbps"); ESP_LOGD(TAG, "working in 100Mbps"); break; default: ESP_GOTO_ON_FALSE(false, ESP_ERR_INVALID_ARG, err, TAG, "unknown speed"); break; } return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_set_duplex(esp_eth_mac_t *mac, eth_duplex_t duplex) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); uint8_t ncr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_NCR, &ncr), err, TAG, "read NCR failed"); switch (duplex) { case ETH_DUPLEX_HALF: ESP_LOGD(TAG, "working in half duplex"); ESP_GOTO_ON_FALSE(!(ncr & NCR_FDX), ESP_ERR_INVALID_STATE, err, TAG, "phy is not at half duplex"); break; case ETH_DUPLEX_FULL: ESP_LOGD(TAG, "working in full duplex"); ESP_GOTO_ON_FALSE(ncr & NCR_FDX, ESP_ERR_INVALID_STATE, err, TAG, "phy is not at full duplex"); break; default: ESP_GOTO_ON_FALSE(false, ESP_ERR_INVALID_ARG, err, TAG, "unknown duplex"); break; } return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_set_promiscuous(esp_eth_mac_t *mac, bool enable) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); uint8_t rcr = 0; ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_EPDRL, &rcr), err, TAG, "read RCR failed"); if (enable) { rcr |= RCR_PRMSC; } else { rcr &= ~RCR_PRMSC; } ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_RCR, rcr), err, TAG, "write RCR failed"); return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_enable_flow_ctrl(esp_eth_mac_t *mac, bool enable) { emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); emac->flow_ctrl_enabled = enable; return ESP_OK; } static esp_err_t emac_dm9051_set_peer_pause_ability(esp_eth_mac_t *mac, uint32_t ability) { emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); // we want to enable flow control, and peer does support pause function // then configure the MAC layer to enable flow control feature if (emac->flow_ctrl_enabled && ability) { dm9051_enable_flow_ctrl(emac, true); } else { dm9051_enable_flow_ctrl(emac, false); ESP_LOGD(TAG, "Flow control not enabled for the link"); } return ESP_OK; } static esp_err_t emac_dm9051_transmit(esp_eth_mac_t *mac, uint8_t *buf, uint32_t length) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); /* Check if last transmit complete */ uint8_t tcr = 0; int64_t wait_time = esp_timer_get_time(); do { ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_TCR, &tcr), err, TAG, "read TCR failed"); } while((tcr & TCR_TXREQ) && ((esp_timer_get_time() - wait_time) < 100)); if (tcr & TCR_TXREQ) { ESP_LOGE(TAG, "last transmit still in progress, cannot send."); return ESP_ERR_INVALID_STATE; } /* set tx length */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TXPLL, length & 0xFF), err, TAG, "write TXPLL failed"); ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TXPLH, (length >> 8) & 0xFF), err, TAG, "write TXPLH failed"); /* copy data to tx memory */ ESP_GOTO_ON_ERROR(dm9051_memory_write(emac, buf, length), err, TAG, "write memory failed"); /* issue tx polling command */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_TCR, TCR_TXREQ), err, TAG, "write TCR failed"); return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_receive(esp_eth_mac_t *mac, uint8_t *buf, uint32_t *length) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); uint8_t rxbyte = 0; uint16_t rx_len = 0; __attribute__((aligned(4))) dm9051_rx_header_t header; // SPI driver needs the rx buffer 4 byte align emac->packets_remain = false; /* dummy read, get the most updated data */ ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_MRCMDX, &rxbyte), err, TAG, "read MRCMDX failed"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_MRCMDX, &rxbyte), err, TAG, "read MRCMDX failed"); /* rxbyte must be 0xFF, 0 or 1 */ if (rxbyte > 1) { ESP_GOTO_ON_ERROR(mac->stop(mac), err, TAG, "stop dm9051 failed"); /* reset rx fifo pointer */ ESP_GOTO_ON_ERROR(dm9051_register_write(emac, DM9051_MPTRCR, MPTRCR_RST_RX), err, TAG, "write MPTRCR failed"); esp_rom_delay_us(10); ESP_GOTO_ON_ERROR(mac->start(mac), err, TAG, "start dm9051 failed"); ESP_GOTO_ON_FALSE(false, ESP_FAIL, err, TAG, "reset rx fifo pointer"); } else if (rxbyte) { ESP_GOTO_ON_ERROR(dm9051_memory_peek(emac, (uint8_t *)&header, sizeof(header)), err, TAG, "peek rx header failed"); rx_len = header.length_low + (header.length_high << 8); /* check if the buffer can hold all the incoming data */ if (*length < rx_len - 4) { ESP_LOGE(TAG, "buffer size too small, needs %d", rx_len - 4); /* tell upper layer the size we need */ *length = rx_len - 4; ret = ESP_ERR_INVALID_SIZE; goto err; } ESP_GOTO_ON_ERROR(dm9051_memory_read(emac, (uint8_t *)&header, sizeof(header)), err, TAG, "read rx header failed"); ESP_GOTO_ON_ERROR(dm9051_memory_read(emac, buf, rx_len), err, TAG, "read rx data failed"); ESP_GOTO_ON_FALSE(!(header.status & 0xBF), ESP_FAIL, err, TAG, "receive status error: %xH", header.status); *length = rx_len - 4; // substract the CRC length (4Bytes) /* dummy read, get the most updated data */ ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_MRCMDX, &rxbyte), err, TAG, "read MRCMDX failed"); ESP_GOTO_ON_ERROR(dm9051_register_read(emac, DM9051_MRCMDX, &rxbyte), err, TAG, "read MRCMDX failed"); emac->packets_remain = rxbyte > 0; } return ESP_OK; err: return ret; } static esp_err_t emac_dm9051_init(esp_eth_mac_t *mac) { esp_err_t ret = ESP_OK; emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); esp_eth_mediator_t *eth = emac->eth; esp_rom_gpio_pad_select_gpio(emac->int_gpio_num); gpio_set_direction(emac->int_gpio_num, GPIO_MODE_INPUT); gpio_set_pull_mode(emac->int_gpio_num, GPIO_PULLDOWN_ONLY); gpio_set_intr_type(emac->int_gpio_num, GPIO_INTR_POSEDGE); gpio_intr_enable(emac->int_gpio_num); gpio_isr_handler_add(emac->int_gpio_num, dm9051_isr_handler, emac); ESP_GOTO_ON_ERROR(eth->on_state_changed(eth, ETH_STATE_LLINIT, NULL), err, TAG, "lowlevel init failed"); /* reset dm9051 */ ESP_GOTO_ON_ERROR(dm9051_reset(emac), err, TAG, "reset dm9051 failed"); /* verify chip id */ ESP_GOTO_ON_ERROR(dm9051_verify_id(emac), err, TAG, "vefiry chip ID failed"); /* default setup of internal registers */ ESP_GOTO_ON_ERROR(dm9051_setup_default(emac), err, TAG, "dm9051 default setup failed"); /* clear multicast hash table */ ESP_GOTO_ON_ERROR(dm9051_clear_multicast_table(emac), err, TAG, "clear multicast table failed"); /* get emac address from eeprom */ ESP_GOTO_ON_ERROR(dm9051_get_mac_addr(emac), err, TAG, "fetch ethernet mac address failed"); return ESP_OK; err: gpio_isr_handler_remove(emac->int_gpio_num); gpio_reset_pin(emac->int_gpio_num); eth->on_state_changed(eth, ETH_STATE_DEINIT, NULL); return ret; } static esp_err_t emac_dm9051_deinit(esp_eth_mac_t *mac) { emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); esp_eth_mediator_t *eth = emac->eth; mac->stop(mac); gpio_isr_handler_remove(emac->int_gpio_num); gpio_reset_pin(emac->int_gpio_num); eth->on_state_changed(eth, ETH_STATE_DEINIT, NULL); return ESP_OK; } static esp_err_t emac_dm9051_del(esp_eth_mac_t *mac) { emac_dm9051_t *emac = __containerof(mac, emac_dm9051_t, parent); vTaskDelete(emac->rx_task_hdl); vSemaphoreDelete(emac->spi_lock); free(emac); return ESP_OK; } esp_eth_mac_t *esp_eth_mac_new_dm9051(const eth_dm9051_config_t *dm9051_config, const eth_mac_config_t *mac_config) { esp_eth_mac_t *ret = NULL; emac_dm9051_t *emac = NULL; ESP_GOTO_ON_FALSE(dm9051_config, NULL, err, TAG, "can't set dm9051 specific config to null"); ESP_GOTO_ON_FALSE(mac_config, NULL, err, TAG, "can't set mac config to null"); emac = calloc(1, sizeof(emac_dm9051_t)); ESP_GOTO_ON_FALSE(emac, NULL, err, TAG, "calloc emac failed"); /* dm9051 receive is driven by interrupt only for now*/ ESP_GOTO_ON_FALSE(dm9051_config->int_gpio_num >= 0, NULL, err, TAG, "error interrupt gpio number"); /* bind methods and attributes */ emac->sw_reset_timeout_ms = mac_config->sw_reset_timeout_ms; emac->int_gpio_num = dm9051_config->int_gpio_num; emac->spi_hdl = dm9051_config->spi_hdl; emac->parent.set_mediator = emac_dm9051_set_mediator; emac->parent.init = emac_dm9051_init; emac->parent.deinit = emac_dm9051_deinit; emac->parent.start = emac_dm9051_start; emac->parent.stop = emac_dm9051_stop; emac->parent.del = emac_dm9051_del; emac->parent.write_phy_reg = emac_dm9051_write_phy_reg; emac->parent.read_phy_reg = emac_dm9051_read_phy_reg; emac->parent.set_addr = emac_dm9051_set_addr; emac->parent.get_addr = emac_dm9051_get_addr; emac->parent.set_speed = emac_dm9051_set_speed; emac->parent.set_duplex = emac_dm9051_set_duplex; emac->parent.set_link = emac_dm9051_set_link; emac->parent.set_promiscuous = emac_dm9051_set_promiscuous; emac->parent.set_peer_pause_ability = emac_dm9051_set_peer_pause_ability; emac->parent.enable_flow_ctrl = emac_dm9051_enable_flow_ctrl; emac->parent.transmit = emac_dm9051_transmit; emac->parent.receive = emac_dm9051_receive; /* create mutex */ emac->spi_lock = xSemaphoreCreateMutex(); ESP_GOTO_ON_FALSE(emac->spi_lock, NULL, err, TAG, "create lock failed"); /* create dm9051 task */ BaseType_t core_num = tskNO_AFFINITY; if (mac_config->flags & ETH_MAC_FLAG_PIN_TO_CORE) { core_num = cpu_hal_get_core_id(); } BaseType_t xReturned = xTaskCreatePinnedToCore(emac_dm9051_task, "dm9051_tsk", mac_config->rx_task_stack_size, emac, mac_config->rx_task_prio, &emac->rx_task_hdl, core_num); ESP_GOTO_ON_FALSE(xReturned == pdPASS, NULL, err, TAG, "create dm9051 task failed"); return &(emac->parent); err: if (emac) { if (emac->rx_task_hdl) { vTaskDelete(emac->rx_task_hdl); } if (emac->spi_lock) { vSemaphoreDelete(emac->spi_lock); } free(emac); } return ret; }