/* * 86Box A hypervisor and IBM PC system emulator that specializes in * running old operating systems and software designed for IBM * PC systems and compatibles from 1981 through fairly recent * system designs based on the PCI bus. * * This file is part of the 86Box distribution. * * Implementation of the CMD PCI-0646 controller. * * Authors: Miran Grca, * * Copyright 2020 Miran Grca. */ #include #include #include #include #include #include #define HAVE_STDARG_H #include <86box/86box.h> #include <86box/cdrom.h> #include <86box/scsi_device.h> #include <86box/scsi_cdrom.h> #include <86box/dma.h> #include <86box/io.h> #include <86box/device.h> #include <86box/keyboard.h> #include <86box/mem.h> #include <86box/pci.h> #include <86box/pic.h> #include <86box/timer.h> #include <86box/hdc.h> #include <86box/hdc_ide.h> #include <86box/hdc_ide_sff8038i.h> #include <86box/rdisk.h> #include <86box/rom.h> #include <86box/hdd.h> #include <86box/scsi_disk.h> #include <86box/mo.h> #include "cpu.h" #include "x86.h" #define CMD_TYPE_646 0x0000000 #define CMD_TYPE_648 0x0100000 #define CMD_TYPE_649 0x0200000 #define CMD648_JP7 0x0400000 /* Reload subsystem ID on reset. */ #define CMD648_RAID 0x0800000 #define CMD64X_ONBOARD 0x1000000 #define CMD648_BIOS_FILE "roms/hdd/ide/648_1910.bin" #define CMD649_REV_1914_BIOS_FILE "roms/hdd/ide/649_1914.bin" #define CMD649_REV_2301_BIOS_FILE "roms/hdd/ide/649_2301.bin" typedef struct cmd646_t { uint8_t vlb_idx; uint8_t single_channel; uint8_t in_cfg; uint8_t pci_slot; uint8_t regs[256]; uint32_t local; uint32_t rom_addr; uint32_t rom_addr_size; uint32_t rom_addr_mask; int irq_pin; int has_bios; int irq_mode[2]; rom_t bios_rom; sff8038i_t *bm[2]; } cmd646_t; #ifdef ENABLE_CMD646_LOG int cmd646_do_log = ENABLE_CMD646_LOG; static void cmd646_log(const char *fmt, ...) { va_list ap; if (cmd646_do_log) { va_start(ap, fmt); pclog_ex(fmt, ap); va_end(ap); } } #else # define cmd646_log(fmt, ...) #endif static void cmd646_set_irq_0(uint8_t status, void *priv) { cmd646_t *dev = (cmd646_t *) priv; if (!(dev->regs[0x50] & 0x04) || (status & 0x04)) dev->regs[0x50] = (dev->regs[0x50] & ~0x04) | status; if (!(dev->local & CMD_TYPE_648) || !(dev->regs[0x71] & 0x10)) sff_bus_master_set_irq(status, dev->bm[0]); } static void cmd646_set_irq_1(uint8_t status, void *priv) { cmd646_t *dev = (cmd646_t *) priv; if (!(dev->regs[0x57] & 0x10) || (status & 0x04)) dev->regs[0x57] = (dev->regs[0x57] & ~0x10) | (status << 2); if (!(dev->local & CMD_TYPE_648) || !(dev->regs[0x71] & 0x20)) sff_bus_master_set_irq(status, dev->bm[1]); } static int cmd646_bus_master_dma_0(uint8_t *data, int transfer_length, int total_length, int out, void *priv) { const cmd646_t *dev = (cmd646_t *) priv; return sff_bus_master_dma(data, transfer_length, total_length, out, dev->bm[0]); } static int cmd646_bus_master_dma_1(uint8_t *data, int transfer_length, int total_length, int out, void *priv) { const cmd646_t *dev = (cmd646_t *) priv; return sff_bus_master_dma(data, transfer_length, total_length, out, dev->bm[1]); } static void cmd646_ide_handlers(cmd646_t *dev) { uint16_t main; uint16_t side; int irq_mode[2] = { IRQ_MODE_LEGACY, IRQ_MODE_LEGACY }; int first = 0; int reg09 = dev->regs[0x09]; int reg50 = dev->regs[0x50]; int dev_enabled = (hdc_onboard_enabled || !(dev->local & CMD64X_ONBOARD)); if ((dev->local & CMD_TYPE_648) && (dev->local & CMD648_RAID)) { reg09 = 0xff; reg50 |= 0x40; } if (dev->local & 0x80000) first += 2; sff_set_slot(dev->bm[0], dev->pci_slot); sff_set_slot(dev->bm[1], dev->pci_slot); ide_handlers(first, 0); if ((reg09 & 0x01) && (reg50 & 0x40)) { main = (dev->regs[0x11] << 8) | (dev->regs[0x10] & 0xf8); side = ((dev->regs[0x15] << 8) | (dev->regs[0x14] & 0xfc)) + 2; } else { main = 0x1f0; side = 0x3f6; } ide_set_base(first, main); ide_set_side(first, side); if (reg09 & 0x01) irq_mode[0] = IRQ_MODE_PCI_IRQ_PIN; sff_set_irq_mode(dev->bm[0], irq_mode[0]); cmd646_log("IDE %i: %04X, %04X, %i\n", first, main, side, irq_mode[0]); int pri_enabled = (dev->regs[0x04] & 0x01); if (dev->local & CMD_TYPE_648) pri_enabled = pri_enabled && (dev->regs[0x51] & 0x04); if (dev_enabled && pri_enabled) ide_handlers(first, 1); if (dev->single_channel) return; ide_handlers(first + 1, 0); if ((reg09 & 0x04) && (reg50 & 0x40)) { main = (dev->regs[0x19] << 8) | (dev->regs[0x18] & 0xf8); side = ((dev->regs[0x1d] << 8) | (dev->regs[0x1c] & 0xfc)) + 2; } else { main = 0x170; side = 0x376; } ide_set_base(first + 1, main); ide_set_side(first + 1, side); if (reg09 & 0x04) irq_mode[1] = IRQ_MODE_PCI_IRQ_PIN; sff_set_irq_mode(dev->bm[1], irq_mode[1]); cmd646_log("IDE %i: %04X, %04X, %i\n", first + 1, main, side, irq_mode[1]); if (dev_enabled && (dev->regs[0x04] & 0x01) && (dev->regs[0x51] & 0x08)) ide_handlers(first + 1, 1); } static void cmd646_ide_bm_handlers(cmd646_t *dev) { uint16_t base = (dev->regs[0x20] & 0xf0) | (dev->regs[0x21] << 8); int dev_enabled = (hdc_onboard_enabled || !(dev->local & CMD64X_ONBOARD)); sff_bus_master_handler(dev->bm[0], dev_enabled && (dev->regs[0x04] & 1), base); sff_bus_master_handler(dev->bm[1], dev_enabled && (dev->regs[0x04] & 1), base + 8); } uint8_t cmd646_bm_write(uint16_t port, uint8_t val, void *priv) { cmd646_t *dev = (cmd646_t *) priv; uint8_t ret = val; switch (port & 0x000f) { case 0x0001: dev->regs[(port & 0x000f) | 0x70] = val & 0xf0; if (val & 0x04) dev->regs[0x50] &= ~0x04; if (val & 0x08) dev->regs[0x57] &= ~0x10; ret &= 0x03; break; case 0x0003: dev->regs[0x73] = val; break; case 0x0009: dev->regs[(port & 0x000f) | 0x70] = (dev->regs[(port & 0x000f) | 0x70] & 0x0f) | (val & 0xf0); ret &= 0x03; break; case 0x000b: dev->regs[0x7b] = val; break; } return ret; } uint8_t cmd646_bm_read(uint16_t port, uint8_t val, void *priv) { cmd646_t *dev = (cmd646_t *) priv; uint8_t ret = val; switch (port & 0x000f) { case 0x0001: ret = (dev->regs[(port & 0x000f) | 0x70] & 0xf3) | (dev->regs[0x50] & 0x04) | ((dev->regs[0x57] & 0x10) >> 1); break; case 0x0002: case 0x000a: ret |= 0x08; break; case 0x0003: ret = dev->regs[0x73]; break; case 0x0009: ret = dev->regs[(port & 0x000f) | 0x70]; break; case 0x000b: ret = dev->regs[0x7b]; break; } return ret; } static void cmd646_bios_handler(cmd646_t *dev) { if ((dev->local & CMD_TYPE_648) && dev->has_bios) { uint32_t *addr = (uint32_t *) &(dev->regs[0x30]); *addr &= (~dev->rom_addr_mask) | 0x00000001; dev->rom_addr = *addr & 0xfffffff0; cmd646_log("ROM address now: %08X\n", dev->rom_addr); if ((dev->regs[0x04] & 0x02) && (*addr & 0x00000001)) mem_mapping_set_addr(&dev->bios_rom.mapping, dev->rom_addr, dev->rom_addr_size); else mem_mapping_disable(&dev->bios_rom.mapping); } } static void cmd646_pci_write(int func, int addr, uint8_t val, void *priv) { cmd646_t *dev = (cmd646_t *) priv; int reg50 = dev->regs[0x50]; int dev_enabled = (hdc_onboard_enabled || !(dev->local & CMD64X_ONBOARD)); if ((dev->local & CMD_TYPE_648) && (dev->regs[0x0a] == 0x04) && (dev->regs[0x0b] == 0x01)) reg50 |= 0x40; cmd646_log("[%04X:%08X] (%08X) cmd646_pci_write(%i, %02X, %02X)\n", CS, cpu_state.pc, ESI, func, addr, val); if (dev_enabled && (func == 0x00)) switch (addr) { case 0x04: if (dev->has_bios) dev->regs[addr] = (val & 0x47); else dev->regs[addr] = (val & 0x45); cmd646_ide_handlers(dev); cmd646_ide_bm_handlers(dev); cmd646_bios_handler(dev); break; case 0x05: if (dev->local & CMD_TYPE_648) dev->regs[addr] = (dev->regs[addr] & 0x7e) | (val & 0x01); break; case 0x07: if (dev->local & CMD_TYPE_648) dev->regs[addr] = ((dev->regs[addr] & ~(val & 0xb9)) & 0xbf) | (val & 0x40); else dev->regs[addr] &= ~(val & 0xb1); break; case 0x09: if (!(dev->local & CMD_TYPE_648) || ((dev->regs[0x0a] == 0x01) && (dev->regs[0x0b] == 0x01))) { if ((dev->regs[addr] & 0x0a) == 0x0a) { dev->regs[addr] = (dev->regs[addr] & 0x8a) | (val & 0x05); dev->irq_mode[0] = !!(val & 0x01); dev->irq_mode[1] = !!(val & 0x04); cmd646_ide_handlers(dev); } } break; case 0x0a: case 0x0b: if ((dev->local & CMD_TYPE_648) && (dev->regs[0x4f] & 0x04)) { dev->regs[addr] = val; cmd646_ide_handlers(dev); } break; case 0x10: if (reg50 & 0x40) { dev->regs[0x10] = (val & 0xf8) | 1; cmd646_ide_handlers(dev); } break; case 0x11: if (reg50 & 0x40) { dev->regs[0x11] = val; cmd646_ide_handlers(dev); } break; case 0x14: if (reg50 & 0x40) { dev->regs[0x14] = (val & 0xfc) | 1; cmd646_ide_handlers(dev); } break; case 0x15: if (reg50 & 0x40) { dev->regs[0x15] = val; cmd646_ide_handlers(dev); } break; case 0x18: if (reg50 & 0x40) { dev->regs[0x18] = (val & 0xf8) | 1; cmd646_ide_handlers(dev); } break; case 0x19: if (reg50 & 0x40) { dev->regs[0x19] = val; cmd646_ide_handlers(dev); } break; case 0x1c: if (reg50 & 0x40) { dev->regs[0x1c] = (val & 0xfc) | 1; cmd646_ide_handlers(dev); } break; case 0x1d: if (reg50 & 0x40) { dev->regs[0x1d] = val; cmd646_ide_handlers(dev); } break; case 0x20: dev->regs[0x20] = (val & 0xf0) | 1; cmd646_ide_bm_handlers(dev); break; case 0x21: dev->regs[0x21] = val; cmd646_ide_bm_handlers(dev); break; case 0x2c ... 0x2f: case 0x8c ... 0x8f: if (dev->local & CMD_TYPE_648) dev->regs[(addr & 0x0f) | 0x20] = val; break; case 0x30 ... 0x33: if ((dev->local & CMD_TYPE_648) && dev->has_bios) { dev->regs[addr] = val; cmd646_bios_handler(dev); } break; case 0x3c: dev->regs[0x3c] = val; break; case 0x4f: if (dev->local & CMD_TYPE_648) dev->regs[addr] = (dev->regs[addr] & 0xfa) | (val & 0x05); break; case 0x51: if (dev->local & CMD_TYPE_648) dev->regs[addr] = val & 0xcc; else dev->regs[addr] = val & 0xc8; cmd646_ide_handlers(dev); break; case 0x52: case 0x54: case 0x56: case 0x58: case 0x5b: dev->regs[addr] = val; break; case 0x59: if ((dev->local & CMD_TYPE_649) || !(dev->local & CMD_TYPE_648)) dev->regs[addr] = val; break; case 0x53: case 0x55: dev->regs[addr] = val & 0xc0; break; case 0x57: dev->regs[addr] = (dev->regs[addr] & 0x10) | (val & 0xcc); break; case 0x64: if (dev->local & CMD_TYPE_648) dev->regs[addr] = (dev->regs[addr] & 0xfc) | (val & 0x03); break; case 0x65: if (dev->local & CMD_TYPE_648) dev->regs[addr] = (dev->regs[addr] & 0x7f) | (val & 0x80); break; case 0x71: if (dev->local & CMD_TYPE_648) sff_bus_master_write(addr & 0x0f, val, dev->bm[0]); else sff_bus_master_write(addr & 0x0f, val & 0x03, dev->bm[0]); break; case 0x70: case 0x72 ... 0x77: sff_bus_master_write(addr & 0x0f, val, dev->bm[0]); break; case 0x79: if (dev->local & CMD_TYPE_648) sff_bus_master_write(addr & 0x0f, val, dev->bm[1]); else sff_bus_master_write(addr & 0x0f, val & 0x03, dev->bm[1]); break; case 0x78: case 0x7a ... 0x7f: sff_bus_master_write(addr & 0x0f, val, dev->bm[1]); break; default: break; } } static uint8_t cmd646_pci_read(int func, int addr, void *priv) { cmd646_t *dev = (cmd646_t *) priv; uint8_t ret = 0xff; int dev_enabled = (hdc_onboard_enabled || !(dev->local & CMD64X_ONBOARD)); if (dev_enabled && (func == 0x00)) { ret = dev->regs[addr]; if ((addr == 0x09) && (dev->local & CMD_TYPE_648) && (dev->regs[0x0a] == 0x04)) ret = 0x00; else if (addr == 0x50) dev->regs[0x50] &= ~0x04; else if (addr == 0x57) dev->regs[0x57] &= ~0x10; else if ((addr >= 0x70) && (addr <= 0x77)) ret = sff_bus_master_read(addr & 0x0f, dev->bm[0]); else if ((addr >= 0x78) && (addr <= 0x7f)) ret = sff_bus_master_read(addr & 0x0f, dev->bm[1]); else if ((dev->local & CMD_TYPE_648) && (addr >= 0x8c) && (addr <= 0x8f)) ret = dev->regs[(addr & 0x0f) | 0x20]; } cmd646_log("[%04X:%08X] (%08X) cmd646_pci_read(%i, %02X, %02X)\n", CS, cpu_state.pc, ESI, func, addr, ret); return ret; } static int check_ch(cmd646_t *dev, int channel) { int ret = 0; int min = 0; int max = dev->single_channel ? 1 : 3; if (dev->local & 0x80000) { min += 4; max += 4; } if ((channel >= min) && (channel <= max)) ret = 1; return ret; } static void cmd646_reset(void *priv) { cmd646_t *dev = (cmd646_t *) priv; int i = 0; for (i = 0; i < HDD_NUM; i++) { if ((hdd[i].bus_type == HDD_BUS_ATAPI) && check_ch(dev, hdd[i].ide_channel) && hdd[i].priv) scsi_disk_reset((scsi_common_t *) hdd[i].priv); } for (i = 0; i < CDROM_NUM; i++) { if ((cdrom[i].bus_type == CDROM_BUS_ATAPI) && check_ch(dev, cdrom[i].ide_channel) && cdrom[i].priv) scsi_cdrom_reset((scsi_common_t *) cdrom[i].priv); } for (i = 0; i < RDISK_NUM; i++) { if ((rdisk_drives[i].bus_type == RDISK_BUS_ATAPI) && check_ch(dev, rdisk_drives[i].ide_channel) && rdisk_drives[i].priv) rdisk_reset((scsi_common_t *) rdisk_drives[i].priv); } for (i = 0; i < MO_NUM; i++) { if ((mo_drives[i].bus_type == MO_BUS_ATAPI) && check_ch(dev, mo_drives[i].ide_channel) && mo_drives[i].priv) mo_reset((scsi_common_t *) mo_drives[i].priv); } cmd646_set_irq_0(0x00, priv); cmd646_set_irq_1(0x00, priv); memset(dev->regs, 0x00, sizeof(dev->regs)); dev->regs[0x00] = 0x95; /* CMD */ dev->regs[0x01] = 0x10; if (dev->local & CMD_TYPE_649) dev->regs[0x02] = 0x49; /* PCI-0649 */ else if (dev->local & CMD_TYPE_648) dev->regs[0x02] = 0x48; /* PCI-0648 */ else dev->regs[0x02] = 0x46; /* PCI-0646 */ dev->regs[0x03] = 0x06; dev->regs[0x04] = 0x00; dev->regs[0x07] = 0x02; /* DEVSEL timing: 01 medium */ dev->regs[0x09] = dev->local; /* Programming interface */ if ((dev->local & CMD_TYPE_648) && (dev->local & CMD648_RAID)) { dev->regs[0x06] = 0x90; dev->regs[0x08] = 0x02; dev->regs[0x0a] = 0x04; /* RAID controller */ dev->regs[0x50] = 0x40; /* Enable Base address register R/W; If 0, they return 0 and are read-only 8 */ /* Blank base addresses */ dev->regs[0x10] = 0x01; dev->regs[0x14] = 0x01; dev->regs[0x18] = 0x01; dev->regs[0x1c] = 0x01; } else { dev->regs[0x06] = 0x80; dev->regs[0x0a] = 0x01; /* IDE controller */ } dev->regs[0x0b] = 0x01; /* Mass storage controller */ if ((dev->local & CMD_TYPE_648) && (dev->local & CMD648_JP7)) for (int i = 0; i < 4; i++) dev->regs[0x2c + i] = dev->regs[i]; if ((dev->regs[0x0a] == 0x01) && ((dev->regs[0x09] & 0x8a) == 0x8a)) { dev->regs[0x50] = 0x40; /* Enable Base address register R/W; If 0, they return 0 and are read-only 8 */ /* Base addresses (1F0, 3F4, 170, 374) */ dev->regs[0x10] = 0xf1; dev->regs[0x11] = 0x01; dev->regs[0x14] = 0xf5; dev->regs[0x15] = 0x03; dev->regs[0x18] = 0x71; dev->regs[0x19] = 0x01; dev->regs[0x1c] = 0x75; dev->regs[0x1d] = 0x03; } dev->regs[0x20] = 0x01; dev->regs[0x3c] = 0x0e; /* IRQ 14 */ dev->regs[0x3d] = 0x01; /* INTA */ dev->regs[0x3e] = 0x02; /* Min_Gnt */ dev->regs[0x3f] = 0x04; /* Max_Iat */ if (!dev->single_channel) dev->regs[0x51] = 0x08; dev->regs[0x57] = 0x0c; if (dev->local & CMD_TYPE_648) { dev->regs[0x34] = 0x60; dev->regs[0x4f] = (dev->local & CMD648_JP7) ? 0x02 : 0x00; dev->regs[0x51] |= 0x04; if (dev->local & CMD_TYPE_649) { dev->regs[0x57] |= 0x80; dev->regs[0x59] = 0x40; } else dev->regs[0x57] |= 0xc0; dev->regs[0x60] = 0x01; dev->regs[0x62] = 0x21; dev->regs[0x63] = 0x06; dev->regs[0x65] = 0x60; dev->regs[0x67] = 0xf0; /* 80-pin stuff. */ dev->regs[0x72] = 0x08; dev->regs[0x7a] = 0x08; dev->regs[0x79] = 0x83; } else dev->regs[0x59] = 0x40; dev->irq_pin = PCI_INTA; if ((dev->local & CMD_TYPE_648) && (dev->local & CMD648_RAID)) dev->irq_mode[0] = dev->irq_mode[1] = IRQ_MODE_PCI_IRQ_PIN; else { dev->irq_mode[0] = (dev->regs[0x09] & 0x01) ? IRQ_MODE_PCI_IRQ_PIN : IRQ_MODE_LEGACY; dev->irq_mode[1] = (dev->regs[0x09] & 0x04) ? IRQ_MODE_PCI_IRQ_PIN : IRQ_MODE_LEGACY; } dev->irq_pin = PCI_INTA; cmd646_ide_handlers(dev); cmd646_ide_bm_handlers(dev); cmd646_bios_handler(dev); } static void cmd646_close(void *priv) { cmd646_t *dev = (cmd646_t *) priv; free(dev); } static void * cmd646_init(const device_t *info) { cmd646_t *dev = (cmd646_t *) calloc(1, sizeof(cmd646_t)); int first = 0; dev->local = info->local; device_add(&ide_pci_2ch_device); if (info->local & 0x80000) { first = 2; device_add(&ide_pci_ter_qua_2ch_device); } else device_add(&ide_pci_2ch_device); if (info->local & CMD64X_ONBOARD) pci_add_card(PCI_ADD_IDE, cmd646_pci_read, cmd646_pci_write, dev, &dev->pci_slot); else pci_add_card(PCI_ADD_NORMAL, cmd646_pci_read, cmd646_pci_write, dev, &dev->pci_slot); dev->single_channel = !!(info->local & 0x20000); dev->bm[0] = device_add_inst(&sff8038i_device, first + 1); if (!dev->single_channel) dev->bm[1] = device_add_inst(&sff8038i_device, first + 2); ide_set_bus_master(first, cmd646_bus_master_dma_0, cmd646_set_irq_0, dev); if (!dev->single_channel) ide_set_bus_master(first + 1, cmd646_bus_master_dma_1, cmd646_set_irq_1, dev); sff_set_irq_mode(dev->bm[0], IRQ_MODE_LEGACY); if (!dev->single_channel) sff_set_irq_mode(dev->bm[1], IRQ_MODE_LEGACY); sff_set_slot(dev->bm[0], dev->pci_slot); sff_set_slot(dev->bm[1], dev->pci_slot); if (dev->local & CMD_TYPE_648) { sff_set_ven_handlers(dev->bm[0], cmd646_bm_write, cmd646_bm_read, dev); sff_set_ven_handlers(dev->bm[1], cmd646_bm_write, cmd646_bm_read, dev); dev->has_bios = device_get_config_int("bios"); if (dev->has_bios) { char *fn = NULL; if (dev->local & CMD_TYPE_649) { const char *bios_rev = (char *) device_get_config_bios("bios_rev"); fn = (char *) device_get_bios_file(info, bios_rev, 0); dev->rom_addr_size = device_get_bios_file_size(info, bios_rev); } else { fn = CMD648_BIOS_FILE; dev->rom_addr_size = 0x00004000; } dev->rom_addr_mask = dev->rom_addr_size - 1; rom_init(&dev->bios_rom, fn, 0x000d0000, dev->rom_addr_size, dev->rom_addr_mask, 0, MEM_MAPPING_EXTERNAL); mem_mapping_disable(&dev->bios_rom.mapping); } } cmd646_reset(dev); if (dev->local & CMD_TYPE_648) for (int i = 0; i < 4; i++) dev->regs[0x2c + i] = dev->regs[i]; return dev; } static const device_config_t cmd648_config[] = { { .name = "bios", .description = "Enable BIOS", .type = CONFIG_BINARY, .default_string = NULL, .default_int = 0, .file_filter = NULL, .spinner = { 0 }, .selection = { { 0 } }, .bios = { { 0 } } }, { .name = "", .description = "", .type = CONFIG_END } }; // clang-format on static const device_config_t cmd649_config[] = { { .name = "bios", .description = "Enable BIOS", .type = CONFIG_BINARY, .default_string = NULL, .default_int = 0, .file_filter = NULL, .spinner = { 0 }, .selection = { { 0 } }, .bios = { { 0 } } }, { .name = "bios_rev", .description = "BIOS Revision", .type = CONFIG_BIOS, .default_string = "rev_2301", .default_int = 0, .file_filter = NULL, .spinner = { 0 }, .bios = { { .name = "Revision 1.9.14", .internal_name = "rev_1914", .bios_type = BIOS_NORMAL, .files_no = 1, .local = 0, .size = 16384, .files = { CMD649_REV_2301_BIOS_FILE, "" } }, { .name = "Revision 2.3.01", .internal_name = "rev_2301", .bios_type = BIOS_NORMAL, .files_no = 1, .local = 0, .size = 65536, .files = { CMD649_REV_2301_BIOS_FILE, "" } }, { .files_no = 0 } }, }, { .name = "", .description = "", .type = CONFIG_END } }; // clang-format on const device_t ide_cmd646_device = { .name = "CMD PCI-0646", .internal_name = "ide_cmd646", .flags = DEVICE_PCI, .local = 0x000008a | CMD64X_ONBOARD, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = NULL }; const device_t ide_cmd646_legacy_only_device = { .name = "CMD PCI-0646 (Legacy Mode Only)", .internal_name = "ide_cmd646_legacy_only", .flags = DEVICE_PCI, .local = 0x0000080 | CMD64X_ONBOARD, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = NULL }; const device_t ide_cmd646_single_channel_device = { .name = "CMD PCI-0646 (Single Channel)", .internal_name = "ide_cmd646_single_channel", .flags = DEVICE_PCI, .local = 0x002008a | CMD64X_ONBOARD, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = NULL }; const device_t ide_cmd646_ter_qua_device = { .name = "CMD PCI-0646 (Tertiary and Quaternary)", .internal_name = "ide_cmd646_ter_qua", .flags = DEVICE_PCI, .local = 0x008008f, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = NULL }; const device_t ide_cmd648_ter_qua_device = { .name = "CMD PCI-0648 (Tertiary and Quaternary)", .internal_name = "ide_cmd648_ter_qua", .flags = DEVICE_PCI, .local = 0x0d8008f, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = cmd648_config }; const device_t ide_cmd648_ter_qua_onboard_device = { .name = "CMD PCI-0648 (Tertiary and Quaternary) On-Board", .internal_name = "ide_cmd648_ter_qua_onboard", .flags = DEVICE_PCI, .local = 0x0d8008f | CMD64X_ONBOARD, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = NULL }; const device_t ide_cmd649_ter_qua_device = { .name = "CMD PCI-0649 (Tertiary and Quaternary)", .internal_name = "ide_cmd649_ter_qua", .flags = DEVICE_PCI, .local = 0x0f8008f, .init = cmd646_init, .close = cmd646_close, .reset = cmd646_reset, .available = NULL, .speed_changed = NULL, .force_redraw = NULL, .config = cmd649_config };