/* vim: tabstop=4 shiftwidth=4 noexpandtab * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2016-2018 K. Lange */ #include #include #include #include #include #include #include #include #include static list_t * net_queue = NULL; static spin_lock_t net_queue_lock = { 0 }; static list_t * rx_wait; static uint32_t pcnet_device_pci = 0x00000000; static uint32_t pcnet_io_base = 0; static uint32_t pcnet_mem_base = 0; static int pcnet_irq; static uint8_t mac[6]; static uint32_t pcnet_buffer_phys; static uint8_t *pcnet_buffer_virt; static uint8_t * pcnet_rx_de_start; static uint8_t * pcnet_tx_de_start; static uint8_t * pcnet_rx_start; static uint8_t * pcnet_tx_start; static uint32_t pcnet_rx_de_phys; static uint32_t pcnet_tx_de_phys; static uint32_t pcnet_rx_phys; static uint32_t pcnet_tx_phys; static int pcnet_rx_buffer_id = 0; static int pcnet_tx_buffer_id = 0; #define PCNET_DE_SIZE 16 #define PCNET_BUFFER_SIZE 1548 #define PCNET_RX_COUNT 32 #define PCNET_TX_COUNT 8 static void find_pcnet(uint32_t device, uint16_t vendorid, uint16_t deviceid, void * extra) { if ((vendorid == 0x1022) && (deviceid == 0x2000)) { *((uint32_t *)extra) = device; } } static void write_rap32(uint32_t value) { outportl(pcnet_io_base + 0x14, value); } static void write_rap16(uint16_t value) { outports(pcnet_io_base + 0x12, value); } static uint32_t read_csr32(uint32_t csr_no) { write_rap32(csr_no); return inportl(pcnet_io_base + 0x10); } static uint16_t read_csr16(uint16_t csr_no) { write_rap32(csr_no); return inports(pcnet_io_base + 0x10); } static void write_csr32(uint32_t csr_no, uint32_t value) { write_rap32(csr_no); outportl(pcnet_io_base + 0x10, value); } static void write_csr16(uint32_t csr_no, uint16_t value) { write_rap16(csr_no); outports(pcnet_io_base + 0x10, value); } static uint32_t read_bcr32(uint32_t bcr_no) { write_rap32(bcr_no); return inportl(pcnet_io_base + 0x1c); } static void write_bcr32(uint32_t bcr_no, uint32_t value) { write_rap32(bcr_no); outportl(pcnet_io_base + 0x1c, value); } static uint32_t virt_to_phys(uint8_t * virt) { return ((uintptr_t)virt - (uintptr_t)pcnet_buffer_virt) + pcnet_buffer_phys; } static int driver_owns(uint8_t * de_table, int index) { return (de_table[PCNET_DE_SIZE * index + 7] & 0x80) == 0; } static int next_tx_index(int current_tx_index) { int out = current_tx_index + 1; if (out == PCNET_TX_COUNT) { return 0; } return out; } static int next_rx_index(int current_rx_index) { int out = current_rx_index + 1; if (out == PCNET_RX_COUNT) { return 0; } return out; } static void init_descriptor(int index, int is_tx) { uint8_t * de_table = is_tx ? pcnet_tx_de_start : pcnet_rx_de_start; memset(&de_table[index * PCNET_DE_SIZE], 0, PCNET_DE_SIZE); uint32_t buf_addr = is_tx ? pcnet_tx_phys : pcnet_rx_phys; *(uint32_t *)&de_table[index * PCNET_DE_SIZE] = buf_addr + index * PCNET_BUFFER_SIZE; uint16_t bcnt = (uint16_t)(-PCNET_BUFFER_SIZE); bcnt &= 0x0FFF; bcnt |= 0xF000; *(uint16_t *)&de_table[index * PCNET_DE_SIZE + 4] = bcnt; if (!is_tx) { de_table[index * PCNET_DE_SIZE + 7] = 0x80; } } static void enqueue_packet(void * buffer) { spin_lock(net_queue_lock); list_insert(net_queue, buffer); spin_unlock(net_queue_lock); } static struct ethernet_packet * dequeue_packet(void) { while (!net_queue->length) { sleep_on(rx_wait); } spin_lock(net_queue_lock); node_t * n = list_dequeue(net_queue); void* value = n->value; free(n); spin_unlock(net_queue_lock); return value; } static uint8_t* pcnet_get_mac() { return mac; } static void pcnet_send_packet(uint8_t* payload, size_t payload_size) { if (!driver_owns(pcnet_tx_de_start, pcnet_tx_buffer_id)) { /* sleep? */ debug_print(ERROR, "No transmit descriptors available. Bailing."); return; } if (payload_size > PCNET_BUFFER_SIZE) { debug_print(ERROR, "Packet too big; max is %d, got %d", PCNET_BUFFER_SIZE, payload_size); return; } memcpy((void *)(pcnet_tx_start + pcnet_tx_buffer_id * PCNET_BUFFER_SIZE), payload, payload_size); pcnet_tx_de_start[pcnet_tx_buffer_id * PCNET_DE_SIZE + 7] |= 0x3; uint16_t bcnt = (uint16_t)(-payload_size); bcnt &= 0x0FFF; bcnt |= 0xF000; *(uint16_t *)&pcnet_tx_de_start[pcnet_tx_buffer_id * PCNET_DE_SIZE + 4] = bcnt; pcnet_tx_de_start[pcnet_tx_buffer_id * PCNET_DE_SIZE + 7] |= 0x80; write_csr32(0, read_csr32(0) | (1 << 3)); pcnet_tx_buffer_id = next_tx_index(pcnet_tx_buffer_id); } static int pcnet_irq_handler(struct regs *r) { write_csr32(0, read_csr32(0) | 0x0400); irq_ack(pcnet_irq); while (driver_owns(pcnet_rx_de_start, pcnet_rx_buffer_id)) { uint16_t plen = *(uint16_t *)&pcnet_rx_de_start[pcnet_rx_buffer_id * PCNET_DE_SIZE + 8]; void * pbuf = (void *)(pcnet_rx_start + pcnet_rx_buffer_id * PCNET_BUFFER_SIZE); void * packet = malloc(plen); memcpy(packet, pbuf, plen); pcnet_rx_de_start[pcnet_rx_buffer_id * PCNET_DE_SIZE + 7] = 0x80; enqueue_packet(packet); pcnet_rx_buffer_id = next_rx_index(pcnet_rx_buffer_id); } wakeup_queue(rx_wait); return 1; } static void pcnet_init(void * data, char * name) { uint16_t command_reg = pci_read_field(pcnet_device_pci, PCI_COMMAND, 4) & 0xFFFF0000; if (command_reg & (1 << 2)) { debug_print(NOTICE, "Bus mastering already enabled.\n"); } command_reg |= (1 << 2); command_reg |= (1 << 0); pci_write_field(pcnet_device_pci, PCI_COMMAND, 4, command_reg); pcnet_io_base = pci_read_field(pcnet_device_pci, PCI_BAR0, 4) & 0xFFFFFFF0; pcnet_mem_base = pci_read_field(pcnet_device_pci, PCI_BAR1, 4) & 0xFFFFFFF0; pcnet_irq = pci_get_interrupt(pcnet_device_pci); irq_install_handler(pcnet_irq, pcnet_irq_handler, "pcnet"); debug_print(NOTICE, "irq line: %d", pcnet_irq); debug_print(NOTICE, "io base: 0x%x", pcnet_io_base); /* Read MAC from EEPROM */ mac[0] = inportb(pcnet_io_base + 0); mac[1] = inportb(pcnet_io_base + 1); mac[2] = inportb(pcnet_io_base + 2); mac[3] = inportb(pcnet_io_base + 3); mac[4] = inportb(pcnet_io_base + 4); mac[5] = inportb(pcnet_io_base + 5); /* Force reset */ inportl(pcnet_io_base + 0x18); inports(pcnet_io_base + 0x14); unsigned long s, ss; relative_time(0, 10, &s, &ss); sleep_until((process_t *)current_process, s, ss); switch_task(0); debug_print(NOTICE, "pcnet return from sleep"); /* set 32-bit mode */ outportl(pcnet_io_base + 0x10, 0); /* SWSTYLE to 2 */ uint32_t csr58 = read_csr32(58); csr58 &= 0xFFF0; csr58 |= 2; write_csr32(58, csr58); /* ASEL enable */ uint32_t bcr2 = read_bcr32(2); bcr2 |= 0x2; write_bcr32(2, bcr2); debug_print(NOTICE, "device mac %2x:%2x:%2x:%2x:%2x:%2x", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); if (!pcnet_buffer_virt) { debug_print(ERROR, "Failed."); return; } debug_print(WARNING, "phys: 0x%x, virt: 0x%x", pcnet_buffer_phys, pcnet_buffer_virt); pcnet_rx_de_start = pcnet_buffer_virt + 28; pcnet_tx_de_start = pcnet_rx_de_start + PCNET_RX_COUNT * PCNET_DE_SIZE; pcnet_rx_start = pcnet_tx_de_start + PCNET_TX_COUNT * PCNET_DE_SIZE; pcnet_tx_start = pcnet_rx_start + PCNET_RX_COUNT * PCNET_BUFFER_SIZE; pcnet_rx_de_phys = virt_to_phys(pcnet_rx_de_start); pcnet_tx_de_phys = virt_to_phys(pcnet_tx_de_start); pcnet_rx_phys = virt_to_phys(pcnet_rx_start); pcnet_tx_phys = virt_to_phys(pcnet_tx_start); /* set up descriptors */ for (int i = 0; i < PCNET_RX_COUNT; i++) { init_descriptor(i, 0); } for (int i = 0; i < PCNET_TX_COUNT; i++) { init_descriptor(i, 1); } /* Set up device configuration structure */ ((uint16_t *)&pcnet_buffer_virt[0])[0] = 0x0000; pcnet_buffer_virt[2] = 5 << 4; /* RLEN << 4 */ pcnet_buffer_virt[3] = 3 << 4; /* TLEN << 4 */ pcnet_buffer_virt[4] = mac[0]; pcnet_buffer_virt[5] = mac[1]; pcnet_buffer_virt[6] = mac[2]; pcnet_buffer_virt[7] = mac[3]; pcnet_buffer_virt[8] = mac[4]; pcnet_buffer_virt[9] = mac[5]; pcnet_buffer_virt[10] = 0; /* reserved */ pcnet_buffer_virt[11] = 0; /* reserved */ pcnet_buffer_virt[12] = 0; pcnet_buffer_virt[13] = 0; pcnet_buffer_virt[14] = 0; pcnet_buffer_virt[15] = 0; pcnet_buffer_virt[16] = 0; pcnet_buffer_virt[17] = 0; pcnet_buffer_virt[18] = 0; pcnet_buffer_virt[19] = 0; ((uint32_t *)&pcnet_buffer_virt[20])[0] = pcnet_rx_de_phys; ((uint32_t *)&pcnet_buffer_virt[24])[0] = pcnet_tx_de_phys; /* Configure network */ net_queue = list_create(); rx_wait = list_create(); write_csr32(1, 0xFFFF & pcnet_buffer_phys); write_csr32(2, 0xFFFF & (pcnet_buffer_phys >> 16)); uint32_t a = read_csr32(1); uint32_t b = read_csr32(2); debug_print(ERROR, "csr1 = 0x%4x csr2= 0x%4x", a, b); uint16_t csr3 = read_csr32(3); if (csr3 & (1 << 10)) csr3 ^= (1 << 10); if (csr3 & (1 << 2)) csr3 ^= (1 << 2); csr3 |= (1 << 9); csr3 |= (1 << 8); write_csr32(3, csr3); /* Disable interrupt on init */ write_csr32(4, read_csr32(4) | (1 << 1) | (1 << 12) | (1 << 14)); /* pad */ write_csr32(0, read_csr32(0) | (1 << 0) | (1 << 6)); /* do it */ uint64_t start_time; asm volatile (".byte 0x0f, 0x31" : "=A" (start_time)); uint32_t status; while (((status = read_csr32(0)) & (1 << 8)) == 0) { uint64_t now_time; asm volatile (".byte 0x0f, 0x31" : "=A" (now_time)); if (now_time - start_time > 0x10000) { debug_print(ERROR, "Could not initialize PCNet card, status is 0x%4x", status); return; } } /* Start card */ uint16_t csr0 = read_csr32(0); if (csr0 & (1 << 0)) csr0 ^= (1 << 0); if (csr0 & (1 << 2)) csr0 ^= (1 << 2); csr0 |= (1 << 1); write_csr32(0, csr0); debug_print(NOTICE, "Card start."); init_netif_funcs(pcnet_get_mac, dequeue_packet, pcnet_send_packet, "AMD PCnet FAST II/III"); } static int init(void) { pci_scan(&find_pcnet, -1, &pcnet_device_pci); if (!pcnet_device_pci) { debug_print(WARNING, "No PCNET device found."); return 1; } /* Initialize ring buffers */ debug_print(WARNING, "Request a large continuous chunk of memory."); /* This fits 32x1548 (rx) + 8x1548 (tx) + 32x16 (rx DE) + 8x16 (tx DE) */ pcnet_buffer_virt = (void*)kvmalloc_p(0x10000, &pcnet_buffer_phys); create_kernel_tasklet(pcnet_init, "[pcnet]", NULL); return 0; } static int fini(void) { return 0; } MODULE_DEF(pcnet, init, fini); MODULE_DEPENDS(net);