/* * Copyright (c) 2019 Antmicro * * SPDX-License-Identifier: Apache-2.0 */ #define LOG_MODULE_NAME eth_liteeth #define LOG_LEVEL CONFIG_ETHERNET_LOG_LEVEL #include LOG_MODULE_REGISTER(LOG_MODULE_NAME); #include #include #include #include #include #include #include #include /* flags */ #define LITEETH_EV_TX 0x1 #define LITEETH_EV_RX 0x1 /* slots */ #define LITEETH_SLOT_BASE DT_INST_0_LITEX_ETH0_BUFFERS_BASE_ADDRESS #define LITEETH_SLOT_RX0 ((LITEETH_SLOT_BASE) + 0x0000) #define LITEETH_SLOT_RX1 ((LITEETH_SLOT_BASE) + 0x0800) #define LITEETH_SLOT_TX0 ((LITEETH_SLOT_BASE) + 0x1000) #define LITEETH_SLOT_TX1 ((LITEETH_SLOT_BASE) + 0x1800) /* sram - rx */ #define LITEETH_RX_BASE DT_INST_0_LITEX_ETH0_CONTROL_BASE_ADDRESS #define LITEETH_RX_SLOT ((LITEETH_RX_BASE) + 0x00) #define LITEETH_RX_LENGTH ((LITEETH_RX_BASE) + 0x04) #define LITEETH_RX_EV_PENDING ((LITEETH_RX_BASE) + 0x28) #define LITEETH_RX_EV_ENABLE ((LITEETH_RX_BASE) + 0x2c) /* sram - tx */ #define LITEETH_TX_BASE ((DT_INST_0_LITEX_ETH0_CONTROL_BASE_ADDRESS) + 0x30) #define LITEETH_TX_START ((LITEETH_TX_BASE) + 0x00) #define LITEETH_TX_READY ((LITEETH_TX_BASE) + 0x04) #define LITEETH_TX_SLOT ((LITEETH_TX_BASE) + 0x0c) #define LITEETH_TX_LENGTH ((LITEETH_TX_BASE) + 0x10) #define LITEETH_TX_EV_PENDING ((LITEETH_TX_BASE) + 0x1c) /* irq */ #define LITEETH_IRQ DT_INST_0_LITEX_ETH0_IRQ_0 #define LITEETH_IRQ_PRIORITY CONFIG_ETH_LITEETH_0_IRQ_PRI /* label */ #define LITEETH_LABEL DT_INST_0_LITEX_ETH0_LABEL struct eth_liteeth_dev_data { struct net_if *iface; u8_t mac_addr[6]; u8_t txslot; u8_t rxslot; u8_t *tx_buf[2]; u8_t *rx_buf[2]; }; struct eth_liteeth_config { void (*config_func)(void); }; static int eth_initialize(struct device *dev) { const struct eth_liteeth_config *config = dev->config->config_info; config->config_func(); return 0; } static int eth_tx(struct device *dev, struct net_pkt *pkt) { int key; u16_t len; struct eth_liteeth_dev_data *context = dev->driver_data; key = irq_lock(); /* get data from packet and send it */ len = net_pkt_get_len(pkt); net_pkt_read(pkt, context->tx_buf[context->txslot], len); sys_write8(context->txslot, LITEETH_TX_SLOT); sys_write8(len >> 8, LITEETH_TX_LENGTH); sys_write8(len & 0xFF, LITEETH_TX_LENGTH + 4); /* wait for the device to be ready to transmit */ while (sys_read8(LITEETH_TX_READY) == 0) { ; } /* start transmitting */ sys_write8(1, LITEETH_TX_START); /* change slot */ context->txslot = (context->txslot + 1) % 2; irq_unlock(key); return 0; } static void eth_rx(struct device *port) { struct net_pkt *pkt; struct eth_liteeth_dev_data *context = port->driver_data; unsigned int key, r; u16_t len = 0; key = irq_lock(); /* get frame's length */ for (int i = 0; i < 4; i++) { len <<= 8; len |= sys_read8(LITEETH_RX_LENGTH + i * 0x4); } /* which slot is the frame in */ context->rxslot = sys_read8(LITEETH_RX_SLOT); /* obtain rx buffer */ pkt = net_pkt_rx_alloc_with_buffer(context->iface, len, AF_UNSPEC, 0, K_NO_WAIT); if (pkt == NULL) { LOG_ERR("Failed to obtain RX buffer"); goto out; } /* copy data to buffer */ if (net_pkt_write(pkt, (void *)context->rx_buf[context->rxslot], len) != 0) { LOG_ERR("Failed to append RX buffer to context buffer"); net_pkt_unref(pkt); goto out; } /* receive data */ r = net_recv_data(context->iface, pkt); if (r < 0) { LOG_ERR("Failed to enqueue frame into RX queue: %d", r); net_pkt_unref(pkt); } out: irq_unlock(key); } static void eth_irq_handler(struct device *port) { /* check sram reader events (tx) */ if (sys_read8(LITEETH_TX_EV_PENDING) & LITEETH_EV_TX) { /* TX event is not enabled nor used by this driver; ack just * in case if some rogue TX event appeared */ sys_write8(LITEETH_EV_TX, LITEETH_TX_EV_PENDING); } /* check sram writer events (rx) */ if (sys_read8(LITEETH_RX_EV_PENDING) & LITEETH_EV_RX) { eth_rx(port); /* ack writer irq */ sys_write8(LITEETH_EV_RX, LITEETH_RX_EV_PENDING); } } #ifdef CONFIG_ETH_LITEETH_0_RANDOM_MAC static void generate_mac(u8_t *mac_addr) { u32_t entropy; entropy = sys_rand32_get(); mac_addr[3] = entropy >> 8; mac_addr[4] = entropy >> 16; /* Locally administered, unicast */ mac_addr[5] = ((entropy >> 0) & 0xfc) | 0x02; } #endif #ifdef CONFIG_ETH_LITEETH_0 static struct eth_liteeth_dev_data eth_data = { .mac_addr = DT_INST_0_LITEX_ETH0_LOCAL_MAC_ADDRESS }; static void eth_irq_config(void); static const struct eth_liteeth_config eth_config = { .config_func = eth_irq_config, }; static void eth_iface_init(struct net_if *iface) { struct device *port = net_if_get_device(iface); struct eth_liteeth_dev_data *context = port->driver_data; static bool init_done; /* initialize only once */ if (init_done) { return; } /* set interface */ context->iface = iface; /* initialize ethernet L2 */ ethernet_init(iface); #ifdef CONFIG_ETH_LITEETH_0_RANDOM_MAC /* generate random MAC address */ generate_mac(context->mac_addr); #endif /* set MAC address */ net_if_set_link_addr(iface, context->mac_addr, sizeof(context->mac_addr), NET_LINK_ETHERNET); /* clear pending events */ sys_write8(LITEETH_EV_TX, LITEETH_TX_EV_PENDING); sys_write8(LITEETH_EV_RX, LITEETH_RX_EV_PENDING); /* setup tx slots */ context->txslot = 0; context->tx_buf[0] = (u8_t *)LITEETH_SLOT_TX0; context->tx_buf[1] = (u8_t *)LITEETH_SLOT_TX1; /* setup rx slots */ context->rxslot = 0; context->rx_buf[0] = (u8_t *)LITEETH_SLOT_RX0; context->rx_buf[1] = (u8_t *)LITEETH_SLOT_RX1; init_done = true; } static enum ethernet_hw_caps eth_caps(struct device *dev) { ARG_UNUSED(dev); return ETHERNET_LINK_10BASE_T | ETHERNET_LINK_100BASE_T | ETHERNET_LINK_1000BASE_T; } static const struct ethernet_api eth_api = { .iface_api.init = eth_iface_init, .get_capabilities = eth_caps, .send = eth_tx }; NET_DEVICE_INIT(eth0, LITEETH_LABEL, eth_initialize, ð_data, ð_config, CONFIG_ETH_INIT_PRIORITY, ð_api, ETHERNET_L2, NET_L2_GET_CTX_TYPE(ETHERNET_L2), NET_ETH_MTU); static void eth_irq_config(void) { IRQ_CONNECT(LITEETH_IRQ, LITEETH_IRQ_PRIORITY, eth_irq_handler, DEVICE_GET(eth0), 0); irq_enable(LITEETH_IRQ); sys_write8(1, LITEETH_RX_EV_ENABLE); } #endif /* CONFIG_ETH_LITEETH_0 */