386 lines
10 KiB
C
386 lines
10 KiB
C
/*
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* Copyright (c) 2017 Intel Corporation.
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#define SYS_LOG_DOMAIN "ETH DW"
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#define SYS_LOG_LEVEL CONFIG_SYS_LOG_ETHERNET_LEVEL
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#include <logging/sys_log.h>
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#include <board.h>
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#include <device.h>
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#include <errno.h>
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#include <init.h>
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#include <kernel.h>
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#include <misc/__assert.h>
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#include <net/net_core.h>
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#include <net/net_pkt.h>
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#include <stdbool.h>
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#include <stdio.h>
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#include <string.h>
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#include <sys_io.h>
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#include "eth_dw_priv.h"
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#ifdef CONFIG_SHARED_IRQ
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#include <shared_irq.h>
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#endif
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#define TX_BUSY_LOOP_SPINS 20
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static inline u32_t eth_read(u32_t base_addr, u32_t offset)
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{
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return sys_read32(base_addr + offset);
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}
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static inline void eth_write(u32_t base_addr, u32_t offset,
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u32_t val)
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{
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sys_write32(val, base_addr + offset);
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}
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static void eth_rx(struct device *port)
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{
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struct eth_runtime *context = port->driver_data;
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struct net_pkt *pkt;
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u32_t frm_len;
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int r;
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/* Check whether the RX descriptor is still owned by the device. If not,
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* process the received frame or an error that may have occurred.
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*/
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if (context->rx_desc.own) {
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SYS_LOG_ERR("Spurious receive interrupt from Ethernet MAC");
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return;
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}
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if (context->rx_desc.err_summary) {
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SYS_LOG_ERR("Error receiving frame: RDES0 = %08x, RDES1 = %08x",
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context->rx_desc.rdes0, context->rx_desc.rdes1);
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goto release_desc;
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}
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frm_len = context->rx_desc.frm_len;
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if (frm_len > sizeof(context->rx_buf)) {
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SYS_LOG_ERR("Frame too large: %u", frm_len);
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goto release_desc;
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}
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/* Throw away the last 4 bytes (CRC). See Intel® Quark TM SoC X1000
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* datasheet, Table 95 (Receive Descriptor Fields (RDES0)), "frame
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* length":
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* These bits indicate the byte length of the received frame that
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* was transferred to host memory (including CRC).
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* If the CRC is not removed here, packet processing in upper layers
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* will fail since the packet length will be different from the
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* received frame length by exactly 4 bytes.
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*/
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if (frm_len < sizeof(u32_t)) {
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SYS_LOG_ERR("Frame too small: %u", frm_len);
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goto release_desc;
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} else {
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frm_len -= sizeof(u32_t);
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}
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pkt = net_pkt_get_reserve_rx(0, K_NO_WAIT);
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if (!pkt) {
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SYS_LOG_ERR("Failed to obtain RX buffer");
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goto release_desc;
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}
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if (!net_pkt_append_all(pkt, frm_len, (u8_t *)context->rx_buf,
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K_NO_WAIT)) {
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SYS_LOG_ERR("Failed to append RX buffer to context buffer");
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net_pkt_unref(pkt);
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goto release_desc;
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}
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r = net_recv_data(context->iface, pkt);
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if (r < 0) {
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SYS_LOG_ERR("Failed to enqueue frame into RX queue: %d", r);
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net_pkt_unref(pkt);
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}
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release_desc:
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/* Return ownership of the RX descriptor to the device. */
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context->rx_desc.own = 1;
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/* Request that the device check for an available RX descriptor, since
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* ownership of the descriptor was just transferred to the device.
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*/
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eth_write(context->base_addr, REG_ADDR_RX_POLL_DEMAND, 1);
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}
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static void eth_tx_spin_wait(struct eth_runtime *context)
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{
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int spins;
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for (spins = 0; spins < TX_BUSY_LOOP_SPINS; spins++) {
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if (!context->tx_desc.own) {
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return;
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}
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}
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while (context->tx_desc.own) {
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k_yield();
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}
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}
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static void eth_tx_data(struct eth_runtime *context, u8_t *data, u16_t len)
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{
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#ifdef CONFIG_NET_DEBUG_L2_ETHERNET
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/* Check whether an error occurred transmitting the previous frame. */
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if (context->tx_desc.err_summary) {
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SYS_LOG_ERR("Error transmitting frame: TDES0 = %08x,"
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"TDES1 = %08x", context->tx_desc.tdes0,
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context->tx_desc.tdes1);
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}
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#endif
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/* Update transmit descriptor. */
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context->tx_desc.buf1_ptr = data;
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context->tx_desc.tx_buf1_sz = len;
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eth_write(context->base_addr, REG_ADDR_TX_DESC_LIST,
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(u32_t)&context->tx_desc);
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context->tx_desc.own = 1;
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/* Request that the device check for an available TX descriptor, since
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* ownership of the descriptor was just transferred to the device.
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*/
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eth_write(context->base_addr, REG_ADDR_TX_POLL_DEMAND, 1);
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/* Ensure DMA transfer has been completed. */
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eth_tx_spin_wait(context);
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}
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/* @brief Transmit the current Ethernet frame.
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*
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* This procedure will block indefinitely until all fragments from a
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* net_buf have been transmitted. Data is copied using DMA directly
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* from each fragment's data pointer. This procedure might yield to
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* other threads while waiting for the DMA transfer to finish.
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*/
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static int eth_tx(struct net_if *iface, struct net_pkt *pkt)
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{
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struct device *port = net_if_get_device(iface);
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struct eth_runtime *context = port->driver_data;
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/* Ensure we're clear to transmit. */
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eth_tx_spin_wait(context);
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if (!pkt->frags) {
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eth_tx_data(context, net_pkt_ll(pkt),
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net_pkt_ll_reserve(pkt));
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} else {
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struct net_buf *frag;
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eth_tx_data(context, net_pkt_ll(pkt),
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net_pkt_ll_reserve(pkt) + pkt->frags->len);
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for (frag = pkt->frags->frags; frag; frag = frag->frags) {
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eth_tx_data(context, frag->data, frag->len);
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}
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}
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net_pkt_unref(pkt);
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return 0;
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}
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static void eth_dw_isr(struct device *port)
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{
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struct eth_runtime *context = port->driver_data;
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#ifdef CONFIG_SHARED_IRQ
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u32_t int_status;
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int_status = eth_read(context->base_addr, REG_ADDR_STATUS);
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/* If using with shared IRQ, this function will be called
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* by the shared IRQ driver. So check here if the interrupt
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* is coming from the GPIO controller (or somewhere else).
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*/
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if ((int_status & STATUS_RX_INT) == 0) {
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return;
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}
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#endif
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eth_rx(port);
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/* Acknowledge the interrupt. */
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eth_write(context->base_addr, REG_ADDR_STATUS,
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STATUS_NORMAL_INT | STATUS_RX_INT);
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}
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#ifdef CONFIG_PCI
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static inline int eth_setup(struct device *dev)
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{
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struct eth_runtime *context = dev->driver_data;
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pci_bus_scan_init();
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if (!pci_bus_scan(&context->pci_dev))
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return 0;
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#ifdef CONFIG_PCI_ENUMERATION
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context->base_addr = context->pci_dev.addr;
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#endif
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pci_enable_regs(&context->pci_dev);
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pci_enable_bus_master(&context->pci_dev);
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pci_show(&context->pci_dev);
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return 1;
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}
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#else
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#define eth_setup(_unused_) (1)
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#endif /* CONFIG_PCI */
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static int eth_initialize_internal(struct net_if *iface)
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{
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struct device *port = net_if_get_device(iface);
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struct eth_runtime *context = port->driver_data;
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const struct eth_config *config = port->config->config_info;
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u32_t base_addr;
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context->iface = iface;
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base_addr = context->base_addr;
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/* Read the MAC address from the device. */
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context->mac_addr.words[1] = eth_read(base_addr, REG_ADDR_MACADDR_HI);
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context->mac_addr.words[0] = eth_read(base_addr, REG_ADDR_MACADDR_LO);
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net_if_set_link_addr(context->iface, context->mac_addr.bytes,
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sizeof(context->mac_addr.bytes),
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NET_LINK_ETHERNET);
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/* Initialize the frame filter enabling unicast messages */
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eth_write(base_addr, REG_ADDR_MAC_FRAME_FILTER, MAC_FILTER_4_PM);
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/* Initialize receive descriptor. */
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context->rx_desc.rdes0 = 0;
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context->rx_desc.rdes1 = 0;
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context->rx_desc.buf1_ptr = (u8_t *)context->rx_buf;
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context->rx_desc.first_desc = 1;
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context->rx_desc.last_desc = 1;
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context->rx_desc.own = 1;
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context->rx_desc.rx_buf1_sz = sizeof(context->rx_buf);
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context->rx_desc.rx_end_of_ring = 1;
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/* Install receive descriptor. */
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eth_write(base_addr, REG_ADDR_RX_DESC_LIST, (u32_t)&context->rx_desc);
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/* Initialize transmit descriptor. */
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context->tx_desc.tdes0 = 0;
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context->tx_desc.tdes1 = 0;
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context->tx_desc.buf1_ptr = NULL;
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context->tx_desc.tx_buf1_sz = 0;
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context->tx_desc.first_seg_in_frm = 1;
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context->tx_desc.last_seg_in_frm = 1;
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context->tx_desc.tx_end_of_ring = 1;
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/* Install transmit descriptor. */
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eth_write(context->base_addr, REG_ADDR_TX_DESC_LIST,
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(u32_t)&context->tx_desc);
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eth_write(base_addr, REG_ADDR_MAC_CONF,
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/* Set the RMII speed to 100Mbps */
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MAC_CONF_14_RMII_100M |
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/* Enable full-duplex mode */
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MAC_CONF_11_DUPLEX |
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/* Enable transmitter */
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MAC_CONF_3_TX_EN |
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/* Enable receiver */
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MAC_CONF_2_RX_EN);
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eth_write(base_addr, REG_ADDR_INT_ENABLE,
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INT_ENABLE_NORMAL |
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/* Enable receive interrupts */
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INT_ENABLE_RX);
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/* Mask all the MMC interrupts */
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eth_write(base_addr, REG_MMC_RX_INTR_MASK, MMC_DEFAULT_MASK);
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eth_write(base_addr, REG_MMC_TX_INTR_MASK, MMC_DEFAULT_MASK);
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eth_write(base_addr, REG_MMC_RX_IPC_INTR_MASK, MMC_DEFAULT_MASK);
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eth_write(base_addr, REG_ADDR_DMA_OPERATION,
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/* Enable receive store-and-forward mode for simplicity. */
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OP_MODE_25_RX_STORE_N_FORWARD |
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/* Enable transmit store-and-forward mode for simplicity. */
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OP_MODE_21_TX_STORE_N_FORWARD |
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/* Place the transmitter state machine in the Running state. */
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OP_MODE_13_START_TX |
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/* Place the receiver state machine in the Running state. */
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OP_MODE_1_START_RX);
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SYS_LOG_INF("Enabled 100M full-duplex mode");
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config->config_func(port);
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return 0;
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}
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static void eth_initialize(struct net_if *iface)
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{
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int r = eth_initialize_internal(iface);
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if (r < 0) {
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SYS_LOG_ERR("Could not initialize ethernet device: %d", r);
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}
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}
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/* Bindings to the plaform */
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#if CONFIG_ETH_DW_0
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static void eth_config_0_irq(struct device *port)
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{
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const struct eth_config *config = port->config->config_info;
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struct device *shared_irq_dev;
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#ifdef CONFIG_ETH_DW_0_IRQ_DIRECT
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ARG_UNUSED(shared_irq_dev);
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IRQ_CONNECT(ETH_DW_0_IRQ, CONFIG_ETH_DW_0_IRQ_PRI, eth_dw_isr,
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DEVICE_GET(eth_dw_0), 0);
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irq_enable(ETH_DW_0_IRQ);
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#elif defined(CONFIG_ETH_DW_0_IRQ_SHARED)
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shared_irq_dev = device_get_binding(config->shared_irq_dev_name);
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__ASSERT(shared_irq_dev != NULL, "Failed to get eth_dw device binding");
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shared_irq_isr_register(shared_irq_dev, (isr_t)eth_dw_isr, port);
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shared_irq_enable(shared_irq_dev, port);
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#endif
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}
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static const struct eth_config eth_config_0 = {
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#ifdef CONFIG_ETH_DW_0_IRQ_DIRECT
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.irq_num = ETH_DW_0_IRQ,
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#endif
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.config_func = eth_config_0_irq,
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#ifdef CONFIG_ETH_DW_0_IRQ_SHARED
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.shared_irq_dev_name = CONFIG_ETH_DW_0_IRQ_SHARED_NAME,
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#endif
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};
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static struct eth_runtime eth_0_runtime = {
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.base_addr = ETH_DW_0_BASE_ADDR,
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#if CONFIG_PCI
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.pci_dev.class_type = ETH_DW_PCI_CLASS,
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.pci_dev.bus = ETH_DW_0_PCI_BUS,
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.pci_dev.dev = ETH_DW_0_PCI_DEV,
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.pci_dev.vendor_id = ETH_DW_PCI_VENDOR_ID,
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.pci_dev.device_id = ETH_DW_PCI_DEVICE_ID,
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.pci_dev.function = ETH_DW_0_PCI_FUNCTION,
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.pci_dev.bar = ETH_DW_0_PCI_BAR,
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#endif
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};
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static struct net_if_api api_funcs = {
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.init = eth_initialize,
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.send = eth_tx,
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};
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NET_DEVICE_INIT(eth_dw_0, CONFIG_ETH_DW_0_NAME,
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eth_setup, ð_0_runtime,
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ð_config_0, CONFIG_ETH_INIT_PRIORITY, &api_funcs,
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ETHERNET_L2, NET_L2_GET_CTX_TYPE(ETHERNET_L2),
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ETH_DW_MTU);
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#endif /* CONFIG_ETH_DW_0 */
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