423 lines
11 KiB
C
423 lines
11 KiB
C
/* vim: tabstop=4 shiftwidth=4 noexpandtab
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* This file is part of ToaruOS and is released under the terms
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* of the NCSA / University of Illinois License - see LICENSE.md
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* Copyright (C) 2014 Kevin Lange
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*/
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#include <module.h>
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#include <logging.h>
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#include <printf.h>
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#include <pci.h>
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#include <mem.h>
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#include <list.h>
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#include <pipe.h>
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#include <ipv4.h>
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#include <mod/net.h>
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/* XXX move this to ipv4? */
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extern size_t print_dns_name(fs_node_t * tty, struct dns_packet * dns, size_t offset);
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static uint32_t rtl_device_pci = 0x00000000;
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static void find_rtl(uint32_t device, uint16_t vendorid, uint16_t deviceid, void * extra) {
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if ((vendorid == 0x10ec) && (deviceid == 0x8139)) {
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*((uint32_t *)extra) = device;
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}
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}
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#define RTL_PORT_MAC 0x00
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#define RTL_PORT_MAR 0x08
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#define RTL_PORT_TXSTAT 0x10
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#define RTL_PORT_TXBUF 0x20
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#define RTL_PORT_RBSTART 0x30
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#define RTL_PORT_CMD 0x37
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#define RTL_PORT_RXPTR 0x38
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#define RTL_PORT_RXADDR 0x3A
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#define RTL_PORT_IMR 0x3C
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#define RTL_PORT_ISR 0x3E
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#define RTL_PORT_TCR 0x40
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#define RTL_PORT_RCR 0x44
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#define RTL_PORT_RXMISS 0x4C
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#define RTL_PORT_CONFIG 0x52
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static list_t * net_queue = NULL;
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static spin_lock_t net_queue_lock = { 0 };
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static int rtl_irq = 0;
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static uint32_t rtl_iobase = 0;
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static uint8_t * rtl_rx_buffer;
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static uint8_t * rtl_tx_buffer[5];
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static uint8_t mac[6];
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static uint8_t * last_packet = NULL;
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static uintptr_t rtl_rx_phys;
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static uintptr_t rtl_tx_phys[5];
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static uint32_t cur_rx = 0;
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static int dirty_tx = 0;
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static int next_tx = 0;
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static list_t * rx_wait;
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static spin_lock_t _lock;
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static int next_tx_buf(void) {
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int out;
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spin_lock(_lock);
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out = next_tx;
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next_tx++;
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if (next_tx == 4) {
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next_tx = 0;
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}
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spin_unlock(_lock);
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return out;
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}
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void* rtl_dequeue() {
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while (!net_queue->length) {
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sleep_on(rx_wait);
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}
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spin_lock(net_queue_lock);
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node_t * n = list_dequeue(net_queue);
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void* value = (struct ethernet_packet *)n->value;
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free(n);
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spin_unlock(net_queue_lock);
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return value;
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}
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void rtl_enqueue(void * buffer) {
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/* XXX size? source? */
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spin_lock(net_queue_lock);
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list_insert(net_queue, buffer);
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spin_unlock(net_queue_lock);
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}
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uint8_t* rtl_get_mac() {
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return mac;
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}
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void rtl_send_packet(uint8_t* payload, size_t payload_size) {
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int my_tx = next_tx_buf();
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memcpy(rtl_tx_buffer[my_tx], payload, payload_size);
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outportl(rtl_iobase + RTL_PORT_TXBUF + 4 * my_tx, rtl_tx_phys[my_tx]);
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outportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * my_tx, payload_size);
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}
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struct ethernet_packet* rtl_get_packet(void) {
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return (struct ethernet_packet*)rtl_dequeue();
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}
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static int rtl_irq_handler(struct regs *r) {
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uint16_t status = inports(rtl_iobase + RTL_PORT_ISR);
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if (!status) {
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return 0;
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}
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outports(rtl_iobase + RTL_PORT_ISR, status);
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irq_ack(rtl_irq);
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if (status & 0x01 || status & 0x02) {
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/* Receive */
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while((inportb(rtl_iobase + RTL_PORT_CMD) & 0x01) == 0) {
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int offset = cur_rx % 0x2000;
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#if 0
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uint16_t buf_addr = inports(rtl_iobase + RTL_PORT_RXADDR);
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uint16_t buf_ptr = inports(rtl_iobase + RTL_PORT_RXPTR);
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uint8_t cmd = inportb(rtl_iobase + RTL_PORT_CMD);
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#endif
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uint32_t * buf_start = (uint32_t *)((uintptr_t)rtl_rx_buffer + offset);
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uint32_t rx_status = buf_start[0];
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int rx_size = rx_status >> 16;
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if (rx_status & (0x0020 | 0x0010 | 0x0004 | 0x0002)) {
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debug_print(WARNING, "rx error :(");
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} else {
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uint8_t * buf_8 = (uint8_t *)&(buf_start[1]);
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last_packet = malloc(rx_size);
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uintptr_t packet_end = (uintptr_t)buf_8 + rx_size;
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if (packet_end > (uintptr_t)rtl_rx_buffer + 0x2000) {
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size_t s = ((uintptr_t)rtl_rx_buffer + 0x2000) - (uintptr_t)buf_8;
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memcpy(last_packet, buf_8, s);
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memcpy((void *)((uintptr_t)last_packet + s), rtl_rx_buffer, rx_size - s);
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} else {
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memcpy(last_packet, buf_8, rx_size);
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}
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rtl_enqueue(last_packet);
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}
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cur_rx = (cur_rx + rx_size + 4 + 3) & ~3;
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outports(rtl_iobase + RTL_PORT_RXPTR, cur_rx - 16);
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}
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wakeup_queue(rx_wait);
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}
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if (status & 0x08 || status & 0x04) {
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unsigned int i = inportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * dirty_tx);
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(void)i;
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dirty_tx++;
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if (dirty_tx == 5) dirty_tx = 0;
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}
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return 1;
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}
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#if 0
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static void rtl_netd(void * data, char * name) {
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fs_node_t * tty = data;
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{
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fprintf(tty, "Sending DNS query...\n");
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uint8_t queries[] = {
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3,'i','r','c',
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8,'f','r','e','e','n','o','d','e',
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3,'n','e','t',
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0,
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0x00, 0x01, /* A */
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0x00, 0x01, /* IN */
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};
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int my_tx = next_tx_buf();
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size_t packet_size = write_dns_packet(rtl_tx_buffer[my_tx], sizeof(queries), queries);
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outportl(rtl_iobase + RTL_PORT_TXBUF + 4 * my_tx, rtl_tx_phys[my_tx]);
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outportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * my_tx, packet_size);
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}
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sleep_on(rx_wait);
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parse_dns_response(tty, last_packet);
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{
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fprintf(tty, "Sending DNS query...\n");
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uint8_t queries[] = {
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7,'n','y','a','n','c','a','t',
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5,'d','a','k','k','o',
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2,'u','s',
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0,
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0x00, 0x01, /* A */
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0x00, 0x01, /* IN */
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};
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int my_tx = next_tx_buf();
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size_t packet_size = write_dns_packet(rtl_tx_buffer[my_tx], sizeof(queries), queries);
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outportl(rtl_iobase + RTL_PORT_TXBUF + 4 * my_tx, rtl_tx_phys[my_tx]);
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outportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * my_tx, packet_size);
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}
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sleep_on(rx_wait);
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parse_dns_response(tty, last_packet);
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seq_no = krand();
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{
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fprintf(tty, "Sending TCP syn\n");
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int my_tx = next_tx_buf();
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uint8_t payload[] = { 0 };
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size_t packet_size = write_tcp_packet(rtl_tx_buffer[my_tx], payload, 0, (TCP_FLAGS_SYN | DATA_OFFSET_5));
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outportl(rtl_iobase + RTL_PORT_TXBUF + 4 * my_tx, rtl_tx_phys[my_tx]);
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outportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * my_tx, packet_size);
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seq_no += 1;
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ack_no = 0;
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}
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{
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struct ethernet_packet * eth = net_receive();
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uint16_t eth_type = ntohs(eth->type);
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fprintf(tty, "Ethernet II, Src: (%2x:%2x:%2x:%2x:%2x:%2x), Dst: (%2x:%2x:%2x:%2x:%2x:%2x) [type=%4x)\n",
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eth->source[0], eth->source[1], eth->source[2],
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eth->source[3], eth->source[4], eth->source[5],
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eth->destination[0], eth->destination[1], eth->destination[2],
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eth->destination[3], eth->destination[4], eth->destination[5],
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eth_type);
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struct ipv4_packet * ipv4 = (struct ipv4_packet *)eth->payload;
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uint32_t src_addr = ntohl(ipv4->source);
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uint32_t dst_addr = ntohl(ipv4->destination);
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uint16_t length = ntohs(ipv4->length);
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char src_ip[16];
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char dst_ip[16];
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ip_ntoa(src_addr, src_ip);
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ip_ntoa(dst_addr, dst_ip);
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fprintf(tty, "IP packet [%s → %s] length=%d bytes\n",
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src_ip, dst_ip, length);
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struct tcp_header * tcp = (struct tcp_header *)ipv4->payload;
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if (seq_no != ntohl(tcp->ack_number)) {
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fprintf(tty, "[eth] Expected ack number of 0x%x, got 0x%x\n",
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seq_no,
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ntohl(tcp->ack_number));
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fprintf(tty, "[eth] Bailing...\n");
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return;
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}
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ack_no = ntohl(tcp->seq_number) + 1;
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free(eth);
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}
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{
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fprintf(tty, "Sending TCP ack\n");
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int my_tx = next_tx_buf();
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uint8_t payload[] = { 0 };
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size_t packet_size = write_tcp_packet(rtl_tx_buffer[my_tx], payload, 0, (TCP_FLAGS_ACK | DATA_OFFSET_5));
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outportl(rtl_iobase + RTL_PORT_TXBUF + 4 * my_tx, rtl_tx_phys[my_tx]);
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outportl(rtl_iobase + RTL_PORT_TXSTAT + 4 * my_tx, packet_size);
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}
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fprintf(tty, "[eth] s-next=0x%x, r-next=0x%x\n", seq_no, ack_no);
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}
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#endif
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int init_rtl(void) {
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if (rtl_device_pci) {
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debug_print(NOTICE, "Located an RTL 8139: 0x%x\n", rtl_device_pci);
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uint16_t command_reg = pci_read_field(rtl_device_pci, PCI_COMMAND, 4);
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debug_print(NOTICE, "COMMAND register before: 0x%4x\n", command_reg);
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if (command_reg & (1 << 2)) {
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debug_print(NOTICE, "Bus mastering already enabled.\n");
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} else {
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command_reg |= (1 << 2); /* bit 2 */
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debug_print(NOTICE, "COMMAND register after: 0x%4x\n", command_reg);
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pci_write_field(rtl_device_pci, PCI_COMMAND, 4, command_reg);
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command_reg = pci_read_field(rtl_device_pci, PCI_COMMAND, 4);
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debug_print(NOTICE, "COMMAND register after: 0x%4x\n", command_reg);
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}
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rtl_irq = pci_read_field(rtl_device_pci, PCI_INTERRUPT_LINE, 1);
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debug_print(NOTICE, "Interrupt Line: %x\n", rtl_irq);
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irq_install_handler(rtl_irq, rtl_irq_handler);
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uint32_t rtl_bar0 = pci_read_field(rtl_device_pci, PCI_BAR0, 4);
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uint32_t rtl_bar1 = pci_read_field(rtl_device_pci, PCI_BAR1, 4);
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debug_print(NOTICE, "BAR0: 0x%8x\n", rtl_bar0);
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debug_print(NOTICE, "BAR1: 0x%8x\n", rtl_bar1);
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rtl_iobase = 0x00000000;
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if (rtl_bar0 & 0x00000001) {
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rtl_iobase = rtl_bar0 & 0xFFFFFFFC;
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} else {
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debug_print(NOTICE, "This doesn't seem right! RTL8139 should be using an I/O BAR; this looks like a memory bar.");
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}
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debug_print(NOTICE, "RTL iobase: 0x%x\n", rtl_iobase);
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rx_wait = list_create();
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debug_print(NOTICE, "Determining mac address...\n");
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for (int i = 0; i < 6; ++i) {
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mac[i] = inports(rtl_iobase + RTL_PORT_MAC + i);
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}
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debug_print(NOTICE, "%2x:%2x:%2x:%2x:%2x:%2x\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
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debug_print(NOTICE, "Enabling RTL8139.\n");
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outportb(rtl_iobase + RTL_PORT_CONFIG, 0x0);
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debug_print(NOTICE, "Resetting RTL8139.\n");
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outportb(rtl_iobase + RTL_PORT_CMD, 0x10);
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while ((inportb(rtl_iobase + 0x37) & 0x10) != 0) { }
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debug_print(NOTICE, "Done resetting RTL8139.\n");
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for (int i = 0; i < 5; ++i) {
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rtl_tx_buffer[i] = (void*)kvmalloc_p(0x1000, &rtl_tx_phys[i]);
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for (int j = 0; j < 60; ++j) {
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rtl_tx_buffer[i][j] = 0xF0;
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}
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}
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rtl_rx_buffer = (uint8_t *)kvmalloc_p(0x3000, &rtl_rx_phys);
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memset(rtl_rx_buffer, 0x00, 0x3000);
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debug_print(NOTICE, "Buffers:\n");
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debug_print(NOTICE, " rx 0x%x [phys 0x%x and 0x%x and 0x%x]\n", rtl_rx_buffer, rtl_rx_phys, map_to_physical((uintptr_t)rtl_rx_buffer + 0x1000), map_to_physical((uintptr_t)rtl_rx_buffer + 0x2000));
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for (int i = 0; i < 5; ++i) {
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debug_print(NOTICE, " tx 0x%x [phys 0x%x]\n", rtl_tx_buffer[i], rtl_tx_phys[i]);
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}
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debug_print(NOTICE, "Initializing receive buffer.\n");
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outportl(rtl_iobase + RTL_PORT_RBSTART, rtl_rx_phys);
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debug_print(NOTICE, "Enabling IRQs.\n");
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outports(rtl_iobase + RTL_PORT_IMR,
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0x8000 | /* PCI error */
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0x4000 | /* PCS timeout */
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0x40 | /* Rx FIFO over */
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0x20 | /* Rx underrun */
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0x10 | /* Rx overflow */
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0x08 | /* Tx error */
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0x04 | /* Tx okay */
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0x02 | /* Rx error */
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0x01 /* Rx okay */
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); /* TOK, ROK */
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debug_print(NOTICE, "Configuring transmit\n");
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outportl(rtl_iobase + RTL_PORT_TCR,
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0
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);
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debug_print(NOTICE, "Configuring receive buffer.\n");
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outportl(rtl_iobase + RTL_PORT_RCR,
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(0) | /* 8K receive */
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0x08 | /* broadcast */
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0x01 /* all physical */
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);
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debug_print(NOTICE, "Enabling receive and transmit.\n");
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outportb(rtl_iobase + RTL_PORT_CMD, 0x08 | 0x04);
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debug_print(NOTICE, "Resetting rx stats\n");
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outportl(rtl_iobase + RTL_PORT_RXMISS, 0);
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net_queue = list_create();
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debug_print(NOTICE, "Initializing netif functions\n");
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init_netif_funcs(rtl_get_mac, rtl_get_packet, rtl_send_packet);
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debug_print(NOTICE, "Card is configured, going to start worker thread now.\n");
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create_kernel_tasklet(net_handler, "[eth]", NULL);
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debug_print(NOTICE, "Back from starting the worker thread.\n");
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} else {
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return -1;
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}
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return 0;
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}
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static int init(void) {
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pci_scan(&find_rtl, -1, &rtl_device_pci);
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if (!rtl_device_pci) {
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debug_print(ERROR, "No RTL 8139 found?");
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return 1;
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}
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init_rtl();
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return 0;
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}
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static int fini(void) {
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return 0;
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}
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MODULE_DEF(rtl, init, fini);
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MODULE_DEPENDS(net);
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