/* * 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-0640B 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/zip.h> #include <86box/mo.h> typedef struct { uint8_t vlb_idx, id, in_cfg, single_channel, regs[256]; int slot, irq_mode[2], irq_pin, irq_line; } cmd640_t; static int next_id = 0; void cmd640_set_irq(int channel, void *priv) { cmd640_t *dev = (cmd640_t *) priv; dev->regs[0x50] &= ~0x04; dev->regs[0x50] |= (channel >> 4); channel &= 0x01; if (dev->regs[0x50] & 0x04) { if (dev->irq_mode[channel] == 1) pci_set_irq(dev->slot, dev->irq_pin); else picint(1 << (14 + channel)); } else { if (dev->irq_mode[channel] == 1) pci_clear_irq(dev->slot, dev->irq_pin); else picintc(1 << (14 + channel)); } } static void cmd640_ide_handlers(cmd640_t *dev) { uint16_t main, side; ide_pri_disable(); if ((dev->regs[0x09] & 0x01) && (dev->regs[0x50] & 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(0, main); ide_set_side(0, side); if (dev->regs[0x04] & 0x01) ide_pri_enable(); if (dev->single_channel) return; ide_sec_disable(); if ((dev->regs[0x09] & 0x04) && (dev->regs[0x50] & 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(1, main); ide_set_side(1, side); if ((dev->regs[0x04] & 0x01) && (dev->regs[0x51] & 0x08)) ide_sec_enable(); } static void cmd640_common_write(int addr, uint8_t val, cmd640_t *dev) { switch (addr) { case 0x51: dev->regs[addr] = val; cmd640_ide_handlers(dev); break; case 0x52: case 0x54: case 0x56: case 0x58: case 0x59: dev->regs[addr] = val; break; case 0x53: case 0x55: dev->regs[addr] = val & 0xc0; break; case 0x57: dev->regs[addr] = val & 0xdc; break; } } static void cmd640_vlb_write(uint16_t addr, uint8_t val, void *priv) { cmd640_t *dev = (cmd640_t *) priv; addr &= 0x00ff; switch (addr) { case 0x0078: if (dev->in_cfg) dev->vlb_idx = val; else if ((dev->regs[0x50] & 0x80) && (val == dev->id)) dev->in_cfg = 1; break; case 0x007c: cmd640_common_write(dev->vlb_idx, val, dev); if (dev->regs[0x50] & 0x80) dev->in_cfg = 0; break; } } static void cmd640_vlb_writew(uint16_t addr, uint16_t val, void *priv) { cmd640_vlb_write(addr, val & 0xff, priv); cmd640_vlb_write(addr + 1, val >> 8, priv); } static void cmd640_vlb_writel(uint16_t addr, uint32_t val, void *priv) { cmd640_vlb_writew(addr, val & 0xffff, priv); cmd640_vlb_writew(addr + 2, val >> 16, priv); } static uint8_t cmd640_vlb_read(uint16_t addr, void *priv) { uint8_t ret = 0xff; cmd640_t *dev = (cmd640_t *) priv; addr &= 0x00ff; switch (addr) { case 0x0078: if (dev->in_cfg) ret = dev->vlb_idx; break; case 0x007c: ret = dev->regs[dev->vlb_idx]; if (dev->vlb_idx == 0x50) dev->regs[0x50] &= ~0x04; if (dev->regs[0x50] & 0x80) dev->in_cfg = 0; break; } return ret; } static uint16_t cmd640_vlb_readw(uint16_t addr, void *priv) { uint16_t ret = 0xffff; ret = cmd640_vlb_read(addr, priv); ret |= (cmd640_vlb_read(addr + 1, priv) << 8); return ret; } static uint32_t cmd640_vlb_readl(uint16_t addr, void *priv) { uint32_t ret = 0xffffffff; ret = cmd640_vlb_readw(addr, priv); ret |= (cmd640_vlb_readw(addr + 2, priv) << 16); return ret; } static void cmd640_pci_write(int func, int addr, uint8_t val, void *priv) { cmd640_t *dev = (cmd640_t *) priv; if (func == 0x00) switch (addr) { case 0x04: dev->regs[addr] = (val & 0x41); cmd640_ide_handlers(dev); break; case 0x07: dev->regs[addr] &= ~(val & 0x80); break; case 0x09: if ((dev->regs[addr] & 0x0a) == 0x0a) { dev->regs[addr] = (dev->regs[addr] & 0x0a) | (val & 0x05); dev->irq_mode[0] = !!(val & 0x01); dev->irq_mode[1] = !!(val & 0x04); cmd640_ide_handlers(dev); } break; case 0x10: if (dev->regs[0x50] & 0x40) { dev->regs[0x10] = (val & 0xf8) | 1; cmd640_ide_handlers(dev); } break; case 0x11: if (dev->regs[0x50] & 0x40) { dev->regs[0x11] = val; cmd640_ide_handlers(dev); } break; case 0x14: if (dev->regs[0x50] & 0x40) { dev->regs[0x14] = (val & 0xfc) | 1; cmd640_ide_handlers(dev); } break; case 0x15: if (dev->regs[0x50] & 0x40) { dev->regs[0x15] = val; cmd640_ide_handlers(dev); } break; case 0x18: if (dev->regs[0x50] & 0x40) { dev->regs[0x18] = (val & 0xf8) | 1; cmd640_ide_handlers(dev); } break; case 0x19: if (dev->regs[0x50] & 0x40) { dev->regs[0x19] = val; cmd640_ide_handlers(dev); } break; case 0x1c: if (dev->regs[0x50] & 0x40) { dev->regs[0x1c] = (val & 0xfc) | 1; cmd640_ide_handlers(dev); } break; case 0x1d: if (dev->regs[0x50] & 0x40) { dev->regs[0x1d] = val; cmd640_ide_handlers(dev); } break; default: cmd640_common_write(addr, val, dev); break; } } static uint8_t cmd640_pci_read(int func, int addr, void *priv) { cmd640_t *dev = (cmd640_t *) priv; uint8_t ret = 0xff; if (func == 0x00) { ret = dev->regs[addr]; if (addr == 0x50) dev->regs[0x50] &= ~0x04; } return ret; } static void cmd640_reset(void *p) { int i = 0; for (i = 0; i < CDROM_NUM; i++) { if ((cdrom[i].bus_type == CDROM_BUS_ATAPI) && (cdrom[i].ide_channel < 4) && cdrom[i].priv) scsi_cdrom_reset((scsi_common_t *) cdrom[i].priv); } for (i = 0; i < ZIP_NUM; i++) { if ((zip_drives[i].bus_type == ZIP_BUS_ATAPI) && (zip_drives[i].ide_channel < 4) && zip_drives[i].priv) zip_reset((scsi_common_t *) zip_drives[i].priv); } for (i = 0; i < MO_NUM; i++) { if ((mo_drives[i].bus_type == MO_BUS_ATAPI) && (mo_drives[i].ide_channel < 4) && mo_drives[i].priv) mo_reset((scsi_common_t *) mo_drives[i].priv); } cmd640_set_irq(0x00, p); cmd640_set_irq(0x01, p); } static void cmd640_close(void *priv) { cmd640_t *dev = (cmd640_t *) priv; free(dev); next_id = 0; } static void * cmd640_init(const device_t *info) { cmd640_t *dev = (cmd640_t *) malloc(sizeof(cmd640_t)); memset(dev, 0x00, sizeof(cmd640_t)); dev->id = next_id | 0x60; dev->regs[0x50] = 0x02; /* Revision 02 */ dev->regs[0x50] |= (next_id << 3); /* Device ID: 00 = 60h, 01 = 61h, 10 = 62h, 11 = 63h */ dev->regs[0x59] = 0x40; if (info->flags & DEVICE_PCI) { if ((info->local & 0xffff) == 0x0a) { dev->regs[0x50] |= 0x40; /* Enable Base address register R/W; If 0, they return 0 and are read-only 8 */ } dev->regs[0x00] = 0x95; /* CMD */ dev->regs[0x01] = 0x10; dev->regs[0x02] = 0x40; /* PCI-0640B */ dev->regs[0x03] = 0x06; dev->regs[0x07] = 0x02; /* DEVSEL timing: 01 medium */ dev->regs[0x08] = 0x02; /* Revision 02 */ dev->regs[0x09] = info->local; /* Programming interface */ dev->regs[0x0a] = 0x01; /* IDE controller */ dev->regs[0x0b] = 0x01; /* Mass storage controller */ /* Base addresses (1F0, 3F4, 170, 374) */ if (dev->regs[0x50] & 0x40) { 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[0x3c] = 0x14; /* IRQ 14 */ dev->regs[0x3d] = 0x01; /* INTA */ device_add(&ide_vlb_2ch_device); dev->slot = pci_add_card(PCI_ADD_IDE, cmd640_pci_read, cmd640_pci_write, dev); dev->irq_mode[0] = dev->irq_mode[1] = 0; dev->irq_pin = PCI_INTA; dev->irq_line = 14; ide_set_bus_master(0, NULL, cmd640_set_irq, dev); ide_set_bus_master(1, NULL, cmd640_set_irq, dev); /* The CMD PCI-0640B IDE controller has no DMA capability, so set our devices IDE devices to force ATA-3 (no DMA). */ ide_board_set_force_ata3(0, 1); ide_board_set_force_ata3(1, 1); ide_pri_disable(); } else if (info->flags & DEVICE_VLB) { if ((info->local & 0xffff) == 0x0078) dev->regs[0x50] |= 0x20; /* 0 = 178h, 17Ch; 1 = 078h, 07Ch */ /* If bit 7 is 1, then device ID has to be written on port x78h before accessing the configuration registers */ dev->in_cfg = 1; /* Configuration register are accessible */ device_add(&ide_pci_2ch_device); io_sethandler(0x0078, 0x0008, cmd640_vlb_read, cmd640_vlb_readw, cmd640_vlb_readl, cmd640_vlb_write, cmd640_vlb_writew, cmd640_vlb_writel, dev); } dev->single_channel = !!(info->local & 0x20000); if (!dev->single_channel) ide_sec_disable(); next_id++; return dev; } const device_t ide_cmd640_vlb_device = { "CMD PCI-0640B VLB", DEVICE_VLB, 0x0078, cmd640_init, cmd640_close, NULL, NULL, NULL, NULL, NULL }; const device_t ide_cmd640_vlb_178_device = { "CMD PCI-0640B VLB (Port 178h)", DEVICE_VLB, 0x0178, cmd640_init, cmd640_close, NULL, NULL, NULL, NULL, NULL }; const device_t ide_cmd640_pci_device = { "CMD PCI-0640B PCI", DEVICE_PCI, 0x0a, cmd640_init, cmd640_close, cmd640_reset, NULL, NULL, NULL, NULL }; const device_t ide_cmd640_pci_legacy_only_device = { "CMD PCI-0640B PCI (Legacy Mode Only)", DEVICE_PCI, 0x00, cmd640_init, cmd640_close, cmd640_reset, NULL, NULL, NULL, NULL }; const device_t ide_cmd640_pci_single_channel_device = { "CMD PCI-0640B PCI", DEVICE_PCI, 0x2000a, cmd640_init, cmd640_close, cmd640_reset, NULL, NULL, NULL, NULL };