/* * 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 Intel PCISet chips from 420TX to 440GX. * * * * Authors: Miran Grca, * * Copyright 2019,2020 Miran Grca. */ #include #include #include #include #include #include <86box/86box.h> #include "cpu.h" #include <86box/mem.h> #include <86box/smram.h> #include <86box/io.h> #include <86box/rom.h> #include <86box/device.h> #include <86box/pci.h> #include <86box/keyboard.h> #include <86box/chipset.h> #include <86box/spd.h> #include <86box/machine.h> enum { INTEL_420TX, INTEL_420ZX, INTEL_430LX, INTEL_430NX, INTEL_430FX, INTEL_430HX, INTEL_430VX, INTEL_430TX, INTEL_440FX, INTEL_440LX, INTEL_440EX, INTEL_440BX, INTEL_440GX, INTEL_440ZX }; typedef struct { uint8_t pm2_cntrl, smram_locked, max_drb, drb_unit, drb_default; uint8_t regs[256], regs_locked[256]; int type; smram_t *smram_low, *smram_high; } i4x0_t; #ifdef ENABLE_I4X0_LOG int i4x0_do_log = ENABLE_I4X0_LOG; static void i4x0_log(const char *fmt, ...) { va_list ap; if (i4x0_do_log) { va_start(ap, fmt); pclog_ex(fmt, ap); va_end(ap); } } #else #define i4x0_log(fmt, ...) #endif static void i4x0_map(uint32_t addr, uint32_t size, int state) { switch (state & 3) { case 0: mem_set_mem_state_both(addr, size, MEM_READ_EXTANY | MEM_WRITE_EXTANY); break; case 1: mem_set_mem_state_both(addr, size, MEM_READ_INTERNAL | MEM_WRITE_EXTANY); break; case 2: mem_set_mem_state_both(addr, size, MEM_READ_EXTANY | MEM_WRITE_INTERNAL); break; case 3: mem_set_mem_state_both(addr, size, MEM_READ_INTERNAL | MEM_WRITE_INTERNAL); break; } flushmmucache_nopc(); } static void i4x0_smram_handler_phase0(i4x0_t *dev) { uint32_t tom = (mem_size << 10); if (((dev->type == INTEL_430TX) || (dev->type >= INTEL_440BX)) && smram_enabled(dev->smram_high)) { tom -= (1 << 20); mem_set_mem_state_smm(tom, (1 << 20), MEM_READ_INTERNAL | MEM_WRITE_INTERNAL); } /* Disable any active mappings. */ smram_disable_all(); } static void i4x0_smram_handler_phase1(i4x0_t *dev) { uint8_t *regs = (uint8_t *) dev->regs; uint32_t tom = (mem_size << 10); uint8_t *ext_reg = (dev->type >= INTEL_440BX) ? &(regs[0x73]) : &(regs[0x71]); uint32_t s, base[2] = { 0x000a0000, 0x00000000 }; uint32_t size[2] = { 0x00010000, 0x00000000 }; if (dev->type >= INTEL_430FX) { /* Set temporary bases and sizes. */ if (((dev->type == INTEL_430TX) || (dev->type >= INTEL_440BX)) && (*ext_reg & 0x80)) { base[0] = 0x100a0000; size[0] = 0x00060000; } else if (((dev->type == INTEL_440LX) || (dev->type == INTEL_440EX)) && ((regs[0x72] & 0x07) == 0x04)) { base[0] = 0x000c0000; size[0] = 0x00010000; } else { base[0] = 0x000a0000; size[0] = 0x00020000; } if (regs[0x72] & 0x08) smram_enable(dev->smram_low, base[0], base[0] & 0x000f0000, size[0], ((regs[0x72] & 0x78) == 0x48), (regs[0x72] & 0x08)); if ((regs[0x72] & 0x28) == 0x28) { /* If SMRAM is enabled and DCLS is set, then data goes to PCI, but code still goes to DRAM. */ mem_set_mem_state_smram_ex(1, base[0], size[0], 0x02); } /* TSEG mapping. */ if ((dev->type == INTEL_430TX) || (dev->type >= INTEL_440BX)) { if ((regs[0x72] & 0x08) && (*ext_reg & 0x01)) { size[1] = (1 << (17 + ((*ext_reg >> 1) & 0x03))); tom -= size[1]; base[1] = tom; } else base[1] = size[1] = 0x00000000; if (size[1] != 0x00000000) { smram_enable(dev->smram_high, base[1] + (1 << 28), base[1], size[1], 0, 1); mem_set_mem_state_smm(base[1], size[1], MEM_READ_EXTANY | MEM_WRITE_EXTANY); } } } else { size[0] = 0x00010000; switch (regs[0x72] & 0x03) { case 0: default: base[0] = (mem_size << 10) - size[0]; s = 1; break; case 1: base[0] = size[0] = 0x00000000; s = 1; break; case 2: base[0] = 0x000a0000; s = 0; break; case 3: base[0] = 0x000b0000; s = 0; break; } if (size[0] != 0x00000000) { smram_enable(dev->smram_low, base[0], base[0], size[0], (((regs[0x72] & 0x38) == 0x20) || s), 1); if (regs[0x72] & 0x10) { /* If SMRAM is enabled and DCLS is set, then data goes to PCI, but code still goes to DRAM. */ mem_set_mem_state_smram_ex(1, base[0], size[0], 0x02); } } } flushmmucache(); } static void i4x0_mask_bar(uint8_t *regs) { uint32_t bar; bar = (regs[0x13] << 24) | (regs[0x12] << 16); bar &= (((uint32_t) regs[0xb4] << 22) | 0xf0000000); regs[0x12] = (bar >> 16) & 0xff; regs[0x13] = (bar >> 24) & 0xff; } static uint8_t pm2_cntrl_read(uint16_t addr, void *p) { i4x0_t *dev = (i4x0_t *) p; return dev->pm2_cntrl & 0x01; } static void pm2_cntrl_write(uint16_t addr, uint8_t val, void *p) { i4x0_t *dev = (i4x0_t *) p; dev->pm2_cntrl = val & 0x01; } static void i4x0_write(int func, int addr, uint8_t val, void *priv) { i4x0_t *dev = (i4x0_t *) priv; uint8_t *regs = (uint8_t *) dev->regs; uint8_t *regs_l = (uint8_t *) dev->regs_locked; int i; if (func > 0) return; if (func == 0) switch (addr) { case 0x04: /*Command register*/ switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: case INTEL_440BX: case INTEL_440GX: case INTEL_440ZX: default: regs[0x04] = (regs[0x04] & ~0x42) | (val & 0x42); break; case INTEL_430FX: case INTEL_430HX: case INTEL_430VX: case INTEL_430TX: case INTEL_440FX: regs[0x04] = (regs[0x04] & ~0x02) | (val & 0x02); break; case INTEL_440LX: case INTEL_440EX: regs[0x04] = val & 0x40; break; } break; case 0x05: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: case INTEL_440BX: case INTEL_440GX: case INTEL_440ZX: regs[0x05] = (regs[0x05] & ~0x01) | (val & 0x01); break; case INTEL_440LX: case INTEL_440EX: regs[0x05] = val & 0x01; break; } break; case 0x07: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: case INTEL_430HX: default: regs[0x07] &= ~(val & 0x70); break; case INTEL_430FX: case INTEL_430VX: case INTEL_430TX: regs[0x07] &= ~(val & 0x30); break; case INTEL_440FX: regs[0x07] &= ~(val & 0xf9); break; case INTEL_440LX: case INTEL_440EX: regs[0x07] &= ~(val & 0xf1); break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x07] &= ~(val & 0xf0); break; } break; case 0x0d: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[0x0d] = (val & 0xf0); break; default: regs[0x0d] = (val & 0xf8); break; } break; case 0x0f: switch (dev->type) { case INTEL_430FX: case INTEL_430HX: case INTEL_430VX: case INTEL_430TX: regs[0x0f] = (val & 0x40); break; } break; case 0x12: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x12] = (val & 0xc0); i4x0_mask_bar(regs); break; } break; case 0x13: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x13] = val; i4x0_mask_bar(regs); break; } break; case 0x2c: case 0x2d: case 0x2e: case 0x2f: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: if (!regs_l[addr]) { regs[addr] = val; regs_l[addr] = 1; } break; } break; case 0x4f: switch (dev->type) { case INTEL_430HX: regs[0x4f] = (val & 0x84); break; case INTEL_430VX: regs[0x4f] = (val & 0x94); break; case INTEL_430TX: regs[0x4f] = (val & 0x80); break; } break; case 0x50: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: default: regs[0x50] = (val & 0xe5); break; case INTEL_430NX: regs[0x50] = (val & 0xe7); break; case INTEL_430FX: regs[0x50] = (val & 0xef); break; case INTEL_430HX: regs[0x50] = (val & 0xf7); break; case INTEL_430VX: case INTEL_430TX: regs[0x50] = (val & 0x08); break; case INTEL_440FX: regs[0x50] = (val & 0xf4); break; case INTEL_440LX: regs[0x50] = (val & 0x70); break; case INTEL_440EX: regs[0x50] = (val & 0x20); break; case INTEL_440BX: regs[0x50] = (regs[0x50] & 0x14) | (val & 0xeb); break; case INTEL_440GX: regs[0x50] = (regs[0x50] & 0x04) | (val & 0xe8); break; case INTEL_440ZX: regs[0x50] = (regs[0x50] & 0x34) | (val & 0xcb); break; } break; case 0x51: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[0x51] = (val & 0xc0); break; case INTEL_440FX: regs[0x51] = (val & 0xc3); break; case INTEL_440LX: regs[0x51] = (regs[0x51] & 0x40) | (val & 0x87); break; case INTEL_440EX: regs[0x51] = (val & 0x86); break; case INTEL_440BX: case INTEL_440ZX: regs[0x51] = (regs[0x51] & 0x70) | (val & 0x8f); break; case INTEL_440GX: regs[0x51] = (regs[0x51] & 0xb0) | (val & 0x4f); break; } break; case 0x52: /* Cache Control Register */ switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430FX: case INTEL_430VX: case INTEL_430TX: default: regs[0x52] = (val & 0xfb); break; case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: regs[0x52] = val; break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x52] = val & 0x07; break; } break; case 0x53: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: regs[0x53] = val & 0x0b; break; case INTEL_430NX: regs[0x53] = val & 0x0a; break; case INTEL_430VX: case INTEL_430TX: regs[0x53] = val & 0x3f; break; case INTEL_440LX: case INTEL_440EX: regs[0x53] = val & 0x60; break; case INTEL_440BX: case INTEL_440GX: /* Not applicable to 440ZX as that does not support ECC. */ regs[0x53] = val; break; } break; case 0x54: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[0x54] = val & 0x07; break; case INTEL_430VX: regs[0x54] = val & 0xd8; break; case INTEL_430TX: regs[0x54] = val & 0xfa; break; case INTEL_440FX: regs[0x54] = val & 0x82; break; } break; case 0x55: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: /* According to the FreeBSD 3.x source code, the 420TX/ZX chipset has this register. The mask is unknown, so write all bits. */ regs[0x55] = val; break; case INTEL_430VX: case INTEL_430TX: regs[0x55] = val & 0x01; break; case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: regs[0x55] = val; break; } break; case 0x56: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: /* According to the FreeBSD 3.x source code, the 420TX/ZX chipset has this register. The mask is unknown, so write all bits. */ regs[0x56] = val; break; case INTEL_430HX: regs[0x56] = val & 0x1f; break; case INTEL_430VX: regs[0x56] = val & 0x77; break; case INTEL_430TX: regs[0x56] = val & 0x76; break; case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: regs[0x56] = val; break; } break; case 0x57: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: default: regs[0x57] = val & 0x3f; break; case INTEL_430NX: regs[0x57] = val; break; case INTEL_430FX: case INTEL_430HX: case INTEL_430VX: regs[0x57] = val & 0xcf; break; case INTEL_430TX: regs[0x57] = val & 0xdf; break; case INTEL_440FX: regs[0x57] = val & 0x77; break; case INTEL_440LX: case INTEL_440EX: regs[0x57] = val & 0x37; break; case INTEL_440BX: case INTEL_440GX: regs[0x57] = val & 0x3f; break; case INTEL_440ZX: regs[0x57] = val & 0x2f; break; } break; case 0x58: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: default: regs[0x58] = val & 0x01; break; case INTEL_430NX: case INTEL_440BX: case INTEL_440ZX: regs[0x58] = val & 0x03; break; case INTEL_430FX: case INTEL_440FX: regs[0x58] = val & 0x7f; break; case INTEL_430HX: case INTEL_430VX: case INTEL_440LX: case INTEL_440EX: regs[0x58] = val; break; case INTEL_430TX: regs[0x58] = val & 0x7b; break; } break; case 0x59: /* PAM0 */ if (dev->type <= INTEL_430NX) { if ((regs[0x59] ^ val) & 0x0f) i4x0_map(0x80000, 0x20000, val & 0x0f); } if ((regs[0x59] ^ val) & 0xf0) { i4x0_map(0xf0000, 0x10000, val >> 4); shadowbios = (val & 0x10); } if (dev->type > INTEL_430NX) regs[0x59] = val & 0x70; else regs[0x59] = val & 0x77; break; case 0x5a: /* PAM1 */ if ((regs[0x5a] ^ val) & 0x0f) i4x0_map(0xc0000, 0x04000, val & 0xf); if ((regs[0x5a] ^ val) & 0xf0) i4x0_map(0xc4000, 0x04000, val >> 4); regs[0x5a] = val & 0x77; break; case 0x5b: /*PAM2 */ if ((regs[0x5b] ^ val) & 0x0f) i4x0_map(0xc8000, 0x04000, val & 0xf); if ((regs[0x5b] ^ val) & 0xf0) i4x0_map(0xcc000, 0x04000, val >> 4); regs[0x5b] = val & 0x77; break; case 0x5c: /*PAM3 */ if ((regs[0x5c] ^ val) & 0x0f) i4x0_map(0xd0000, 0x04000, val & 0xf); if ((regs[0x5c] ^ val) & 0xf0) i4x0_map(0xd4000, 0x04000, val >> 4); regs[0x5c] = val & 0x77; break; case 0x5d: /* PAM4 */ if ((regs[0x5d] ^ val) & 0x0f) i4x0_map(0xd8000, 0x04000, val & 0xf); if ((regs[0x5d] ^ val) & 0xf0) i4x0_map(0xdc000, 0x04000, val >> 4); regs[0x5d] = val & 0x77; break; case 0x5e: /* PAM5 */ if ((regs[0x5e] ^ val) & 0x0f) i4x0_map(0xe0000, 0x04000, val & 0xf); if ((regs[0x5e] ^ val) & 0xf0) i4x0_map(0xe4000, 0x04000, val >> 4); regs[0x5e] = val & 0x77; break; case 0x5f: /* PAM6 */ if ((regs[0x5f] ^ val) & 0x0f) i4x0_map(0xe8000, 0x04000, val & 0xf); if ((regs[0x5f] ^ val) & 0xf0) i4x0_map(0xec000, 0x04000, val >> 4); regs[0x5f] = val & 0x77; break; case 0x60: case 0x61: case 0x62: case 0x63: case 0x64: if ((addr & 0x7) <= dev->max_drb) { spd_write_drbs(regs, 0x60, 0x60 + dev->max_drb, dev->drb_unit); break; } switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: default: regs[addr] = val; break; case INTEL_430FX: case INTEL_430VX: regs[addr] = val & 0x3f; break; case INTEL_430TX: regs[addr] = val & 0x7f; break; } break; case 0x65: if ((addr & 0x7) <= dev->max_drb) { spd_write_drbs(regs, 0x60, 0x60 + dev->max_drb, dev->drb_unit); break; } switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: case INTEL_440GX: case INTEL_440BX: case INTEL_440ZX: regs[addr] = val; break; case INTEL_430VX: regs[addr] = val & 0x3f; break; case INTEL_430TX: regs[addr] = val & 0x7f; break; } break; case 0x66: if ((addr & 0x7) <= dev->max_drb) { spd_write_drbs(regs, 0x60, 0x60 + dev->max_drb, dev->drb_unit); break; } switch (dev->type) { case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: case INTEL_440GX: case INTEL_440BX: case INTEL_440ZX: regs[addr] = val; break; } break; case 0x67: if ((addr & 0x7) <= dev->max_drb) { spd_write_drbs(regs, 0x60, 0x60 + dev->max_drb, dev->drb_unit); break; } switch (dev->type) { case INTEL_430NX: case INTEL_430HX: case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440GX: case INTEL_440ZX: regs[addr] = val; break; case INTEL_430VX: regs[addr] = val & 0x11; break; case INTEL_430TX: regs[addr] = val & 0xb7; break; } break; case 0x68: switch (dev->type) { case INTEL_430NX: case INTEL_430HX: case INTEL_430VX: case INTEL_430TX: regs[0x68] = val; break; case INTEL_430FX: regs[0x68] = val & 0x1f; break; case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: case INTEL_440GX: regs[0x68] = val & 0xc0; break; case INTEL_440BX: regs[0x68] = (regs[0x68] & 0x38) | (val & 0xc7); break; case INTEL_440ZX: regs[0x68] = (regs[0x68] & 0x3f) | (val & 0xc0); break; } break; case 0x69: switch (dev->type) { case INTEL_430NX: case INTEL_440BX: case INTEL_440GX: regs[0x69] = val; break; case INTEL_430VX: regs[0x69] = val & 0x07; break; case INTEL_440ZX: regs[0x69] = val & 0x3f; break; } break; case 0x6a: case 0x6b: switch (dev->type) { case INTEL_430NX: case INTEL_440BX: case INTEL_440GX: regs[addr] = val; break; case INTEL_440LX: case INTEL_440EX: if (addr == 0x6a) regs[addr] = val & 0xef; break; case INTEL_440ZX: if (addr == 0x6a) regs[addr] = val & 0xfc; else regs[addr] = val & 0x33; break; } break; case 0x6c: case 0x6d: case 0x6e: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440GX: if (addr != 0x6e) regs[addr] = val; break; case INTEL_440ZX: if (addr == 0x6c) regs[addr] = val & 0x03; else if (addr == 0x6d) regs[addr] = val & 0xcf; break; } break; case 0x6f: switch (dev->type) { case INTEL_440LX: regs[addr] = val; break; case INTEL_440EX: regs[addr] = val & 0xcf; break; } break; case 0x70: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: regs[addr] = val & 0xc7; break; case INTEL_430NX: regs[addr] = val; break; case INTEL_430VX: case INTEL_430TX: regs[addr] = val & 0xfc; break; case INTEL_440FX: case INTEL_440LX: case INTEL_440EX: regs[addr] = val & 0xf8; break; } break; case 0x71: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: regs[addr] = val & 0x4d; break; case INTEL_430TX: if (!dev->smram_locked) { i4x0_smram_handler_phase0(dev); regs[0x71] = (regs[0x71] & 0x20) | (val & 0xdf); i4x0_smram_handler_phase1(dev); } break; case INTEL_440EX: regs[addr] = val; break; case INTEL_440FX: case INTEL_440LX: regs[addr] = val & 0x1f; break; } break; case 0x72: /* SMRAM */ i4x0_smram_handler_phase0(dev); if (dev->type >= INTEL_430FX) { if (dev->smram_locked) regs[0x72] = (regs[0x72] & 0xdf) | (val & 0x20); else { if ((dev->type == INTEL_440LX) || (dev->type == INTEL_440EX) || (dev->type == INTEL_440GX)) regs[0x72] = (val & 0x7f); else regs[0x72] = (regs[0x72] & 0x87) | (val & 0x78); dev->smram_locked = (val & 0x10); if (dev->smram_locked) regs[0x72] &= 0xbf; } } else { if (dev->smram_locked) regs[0x72] = (regs[0x72] & 0xef) | (val & 0x10); else { regs[0x72] = (regs[0x72] & 0xc0) | (val & 0x3f); dev->smram_locked = (val & 0x08); if (dev->smram_locked) regs[0x72] &= 0xdf; } } i4x0_smram_handler_phase1(dev); break; case 0x73: switch (dev->type) { case INTEL_430VX: regs[0x73] = val & 0x03; break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: if (!dev->smram_locked) { i4x0_smram_handler_phase0(dev); regs[0x73] = (regs[0x73] & 0x38) | (val & 0xc7); i4x0_smram_handler_phase1(dev); } break; } break; case 0x74: switch (dev->type) { case INTEL_430VX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x74] = val; break; } break; case 0x75: case 0x76: case 0x7b: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[addr] = val; } break; case 0x77: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: regs[0x77] = val & 0x03; } break; case 0x78: switch (dev->type) { case INTEL_430VX: regs[0x78] = val & 0xcf; break; case INTEL_440BX: case INTEL_440ZX: regs[0x78] = val & 0x0f; break; case INTEL_440GX: regs[0x78] = val & 0x1f; break; } break; case 0x79: switch (dev->type) { case INTEL_430TX: regs[0x79] = val & 0x74; io_removehandler(0x0022, 0x01, pm2_cntrl_read, NULL, NULL, pm2_cntrl_write, NULL, NULL, dev); if (val & 0x40) io_sethandler(0x0022, 0x01, pm2_cntrl_read, NULL, NULL, pm2_cntrl_write, NULL, NULL, dev); break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x79] = val; break; } break; case 0x7a: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x7a] = (regs[0x7a] & 0x0a) | (val & 0xf5); io_removehandler(0x0022, 0x01, pm2_cntrl_read, NULL, NULL, pm2_cntrl_write, NULL, NULL, dev); if (val & 0x40) io_sethandler(0x0022, 0x01, pm2_cntrl_read, NULL, NULL, pm2_cntrl_write, NULL, NULL, dev); break; } break; case 0x7c: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[0x7c] = val & 0x8f; break; case INTEL_440BX: case INTEL_440GX: case INTEL_440ZX: regs[0x7c] = val & 0x1f; break; } case 0x7d: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[0x7d] = val & 0x32; break; } case 0x7e: case 0x7f: switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: case INTEL_430LX: case INTEL_430NX: regs[addr] = val; break; } case 0x80: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x80] &= ~(val & 0x03); break; } break; case 0x90: switch (dev->type) { case INTEL_430HX: regs[0x90] = val & 0x87; break; case INTEL_440FX: regs[0x90] = val & 0x1b; break; case INTEL_440LX: regs[0x90] = val & 0xfb; break; case INTEL_440EX: regs[0x90] = val & 0xf8; break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x90] = val; break; } break; case 0x91: switch (dev->type) { case INTEL_430HX: case INTEL_440BX: case INTEL_440FX: case INTEL_440LX: case INTEL_440GX: /* Not applicable on 82443EX and 82443ZX. */ regs[0x91] &= ~(val & 0x11); break; } break; case 0x92: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: regs[0x92] &= ~(val & 0x07); break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0x92] &= ~(val & 0x1f); break; } break; case 0x93: switch (dev->type) { case INTEL_440FX: regs[0x93] = (val & 0x0f); trc_write(0x0093, val & 0x06, NULL); break; case INTEL_440LX: case INTEL_440EX: regs[0x93] = (val & 0x0e); trc_write(0x0093, val & 0x06, NULL); break; } break; case 0xa7: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: regs[0xa7] = val & 0x1f; break; } break; case 0xa8: case 0xa9: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[addr] = (val & 0x03); break; } break; case 0xb0: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xb0] = (val & 0x80); break; } break; case 0xb1: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: regs[0xb1] = (val & 0x22); break; case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xb1] = (val & 0xa0); break; } break; case 0xb4: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xb4] = (val & 0x3f); i4x0_mask_bar(regs); break; } break; case 0xb9: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xb9] = (val & 0xf0); break; } break; case 0xba: case 0xbb: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[addr] = val; break; } break; case 0xbc: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: regs[addr] = (val & 0xf8); break; } break; case 0xbd: switch (dev->type) { case INTEL_440LX: case INTEL_440EX: regs[addr] = (val & 0xf8); break; } break; case 0xd0: case 0xd1: case 0xd2: case 0xd3: case 0xd4: case 0xd5: case 0xd6: case 0xd7: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[addr] = val; break; } break; case 0xca: switch (dev->type) { case INTEL_440BX: case INTEL_440GX: regs[addr] = val; break; case INTEL_440ZX: regs[addr] = val & 0xe7; break; } break; case 0xcb: switch (dev->type) { case INTEL_440BX: case INTEL_440GX: regs[addr] = val; break; case INTEL_440ZX: regs[addr] = val & 0xa7; break; } break; case 0xcc: switch (dev->type) { case INTEL_440BX: case INTEL_440GX: regs[0xcc] = (val & 0x7f); break; case INTEL_440ZX: regs[0xcc] = (val & 0x58); break; } break; case 0xe0: case 0xe1: case 0xe2: case 0xe3: case 0xe4: case 0xe8: case 0xe9: case 0xea: case 0xeb: case 0xec: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: if (!regs_l[addr]) regs[addr] = val; break; } break; case 0xe5: case 0xed: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: if (!regs_l[addr]) regs[addr] = (val & 0x3f); break; } break; case 0xe7: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xe7] = 0x80; for (i = 0; i < 16; i++) regs_l[0xe0 + i] = !!(val & 0x80); if (!regs_l[0xe7]) { regs[0xe7] |= (val & 0x7f); } break; } break; case 0xf0: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xf0] = (val & 0xc0); break; } break; case 0xf1: switch (dev->type) { case INTEL_440BX: case INTEL_440ZX: case INTEL_440GX: regs[0xf1] = (val & 0x03); break; } break; } } static uint8_t i4x0_read(int func, int addr, void *priv) { i4x0_t *dev = (i4x0_t *) priv; uint8_t ret = 0xff; uint8_t *regs = (uint8_t *) dev->regs; if (func == 0) { ret = regs[addr]; /* Special behavior for 440FX register 0x93 which is basically TRC in PCI space with the addition of bits 3 and 0. */ if ((func == 0) && (addr == 0x93) && ((dev->type == INTEL_440FX) || (dev->type == INTEL_440LX) || (dev->type == INTEL_440EX))) ret = (ret & 0xf9) | (trc_read(0x0093, NULL) & 0x06); } return ret; } static void i4x0_reset(void *priv) { i4x0_t *dev = (i4x0_t *)priv; int i; if (dev->type >= INTEL_430FX) i4x0_write(0, 0x59, 0x00, priv); else i4x0_write(0, 0x59, 0x0f, priv); for (i = 0; i < 6; i++) i4x0_write(0, 0x5a + i, 0x00, priv); for (i = 0; i <= dev->max_drb; i++) i4x0_write(0, 0x60 + i, dev->drb_default, priv); if (dev->type >= INTEL_430FX) { dev->regs[0x72] &= 0xef; /* Forcibly unlock the SMRAM register. */ i4x0_write(0, 0x72, 0x02, priv); } else { dev->regs[0x72] &= 0xf7; /* Forcibly unlock the SMRAM register. */ i4x0_write(0, 0x72, 0x00, priv); } if ((dev->type == INTEL_440LX) || (dev->type == INTEL_440BX) || (dev->type == INTEL_440ZX)) memset(dev->regs_locked, 0x00, 256 * sizeof(uint8_t)); } static void i4x0_close(void *p) { i4x0_t *dev = (i4x0_t *)p; smram_del(dev->smram_high); smram_del(dev->smram_low); free(dev); } static void *i4x0_init(const device_t *info) { i4x0_t *dev = (i4x0_t *) malloc(sizeof(i4x0_t)); uint8_t *regs; memset(dev, 0, sizeof(i4x0_t)); dev->smram_low = smram_add(); dev->smram_high = smram_add(); dev->type = info->local & 0xff; regs = (uint8_t *) dev->regs; regs[0x00] = 0x86; regs[0x01] = 0x80; /*Intel*/ switch (dev->type) { case INTEL_420TX: case INTEL_420ZX: regs[0x02] = 0x83; regs[0x03] = 0x04; /* 82424TX/ZX */ regs[0x06] = 0x40; regs[0x08] = (dev->type == INTEL_420ZX) ? 0x01 : 0x00; regs[0x0d] = 0x20; /* According to information from FreeBSD 3.x source code: 0x00 = 486DX, 0x20 = 486SX, 0x40 = 486DX2 or 486DX4, 0x80 = Pentium OverDrive. */ if (is486sx) regs[0x50] = 0x20; else if (is486sx2) regs[0x50] = 0x60; /* Guess based on the SX, DX, and DX2 values. */ else if (is486dx) regs[0x50] = 0x00; else if (is486dx2 || isdx4) regs[0x50] = 0x40; else regs[0x50] = 0x80; /* Pentium OverDrive. */ /* According to information from FreeBSD 3.x source code: 00 = 25 MHz, 01 = 33 MHz. */ if (cpu_busspeed > 25000000) regs[0x50] |= 0x01; regs[0x51] = 0x80; /* According to information from FreeBSD 3.x source code: 0x00 = None, 0x01 = 64 kB, 0x41 = 128 kB, 0x81 = 256 kB, 0xc1 = 512 kB, If bit 0 is set, then if bit 2 is also set, the cache is write back, otherwise it's write through. */ regs[0x52] = 0xc3; /* 512 kB writeback cache */ regs[0x57] = 0x31; regs[0x59] = 0x0f; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = 0x02; dev->max_drb = 5; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430LX: regs[0x02] = 0xa3; regs[0x03] = 0x04; /* 82434LX/NX */ regs[0x06] = 0x40; regs[0x08] = 0x03; regs[0x0d] = 0x20; regs[0x50] = 0x82; if (cpu_busspeed <= 60000000) regs[0x50] |= 0x00; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x50] |= 0x01; regs[0x51] = 0x80; regs[0x52] = 0xea; /* 512 kB burst cache, set to 0xaa for 256 kB */ regs[0x57] = 0x31; regs[0x59] = 0x0f; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = 0x02; dev->max_drb = 5; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430NX: regs[0x02] = 0xa3; regs[0x03] = 0x04; /* 82434LX/NX */ regs[0x06] = 0x40; regs[0x08] = 0x11; regs[0x0d] = 0x20; regs[0x50] = 0x80; if (cpu_busspeed <= 50000000) regs[0x50] |= 0x01; else if ((cpu_busspeed > 50000000) && (cpu_busspeed <= 60000000)) regs[0x50] |= 0x02; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x50] |= 0x03; regs[0x51] = 0x80; regs[0x52] = 0xea; /* 512 kB burst cache, set to 0xaa for 256 kB */ regs[0x57] = 0x31; regs[0x59] = 0x0f; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x02; dev->max_drb = 7; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430FX: regs[0x02] = 0x2d; regs[0x03] = 0x12; /* SB82437FX-66 */ regs[0x08] = (info->local >> 8) & 0xff; regs[0x52] = 0xb2; /* 512 kB PLB cache, set to 0x42 for 256 kB */ if (cpu_busspeed <= 50000000) regs[0x57] |= 0x01; else if ((cpu_busspeed > 50000000) && (cpu_busspeed <= 60000000)) regs[0x57] |= 0x02; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x57] |= 0x03; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = 0x02; regs[0x72] = 0x02; dev->max_drb = 4; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430HX: regs[0x02] = 0x50; regs[0x03] = 0x12; /* 82439HX */ regs[0x52] = 0xb2; /* 512 kB PLB cache, set to 0x42 for 256 kB */ if (cpu_busspeed <= 50000000) regs[0x57] |= 0x01; else if ((cpu_busspeed > 50000000) && (cpu_busspeed <= 60000000)) regs[0x57] |= 0x02; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x57] |= 0x03; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x02; regs[0x72] = 0x02; dev->max_drb = 7; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430VX: regs[0x02] = 0x30; regs[0x03] = 0x70; /* 82437VX */ regs[0x52] = 0xb2; /* 512 kB PLB cache, set to 0x42 for 256 kB */ regs[0x53] = 0x14; regs[0x56] = 0x52; if (cpu_busspeed <= 50000000) regs[0x57] |= 0x01; else if ((cpu_busspeed > 50000000) && (cpu_busspeed <= 60000000)) regs[0x57] |= 0x02; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x57] |= 0x03; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = 0x02; regs[0x67] = 0x11; regs[0x69] = 0x03; regs[0x70] = 0x20; regs[0x72] = 0x02; regs[0x74] = 0x0e; regs[0x78] = 0x23; dev->max_drb = 4; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_430TX: regs[0x02] = 0x00; regs[0x03] = 0x71; /* 82439TX */ regs[0x08] = 0x01; regs[0x52] = 0xb2; /* 512 kB PLB cache, set to 0x42 for 256 kB */ regs[0x53] = 0x14; regs[0x56] = 0x52; regs[0x57] = 0x01; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = 0x02; if (cpu_busspeed <= 60000000) regs[0x67] |= 0x00; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x67] |= 0x80; regs[0x70] = 0x20; regs[0x72] = 0x02; dev->max_drb = 5; dev->drb_unit = 4; dev->drb_default = 0x02; break; case INTEL_440FX: regs[0x02] = 0x37; regs[0x03] = 0x12; /* 82441FX */ regs[0x08] = 0x02; if (cpu_busspeed <= 60000000) regs[0x51] |= 0x01; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x51] |= 0x02; regs[0x53] = 0x80; regs[0x57] = 0x01; regs[0x58] = 0x10; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x02; regs[0x71] = 0x10; regs[0x72] = 0x02; dev->max_drb = 7; dev->drb_unit = 8; dev->drb_default = 0x02; break; case INTEL_440LX: regs[0x02] = 0x80; regs[0x03] = 0x71; /* 82443LX */ regs[0x08] = 0x03; regs[0x06] = 0x90; regs[0x10] = 0x08; regs[0x34] = 0xa0; if (cpu_busspeed <= 60000000) regs[0x51] |= 0x40; else if ((cpu_busspeed > 60000000) && (cpu_busspeed <= 66666667)) regs[0x51] |= 0x00; regs[0x53] = 0x83; regs[0x57] = 0x01; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x01; regs[0x6c] = regs[0x6d] = regs[0x6e] = regs[0x6f] = 0x55; regs[0x72] = 0x02; regs[0xa0] = 0x02; regs[0xa2] = 0x10; regs[0xa4] = 0x03; regs[0xa5] = 0x02; regs[0xa7] = 0x1f; dev->max_drb = 7; dev->drb_unit = 8; dev->drb_default = 0x01; break; case INTEL_440EX: regs[0x02] = 0x80; regs[0x03] = 0x71; /* 82443EX. Same Vendor ID as 440LX */ regs[0x08] = 0x03; regs[0x06] = 0x90; regs[0x10] = 0x08; regs[0x34] = 0xa0; regs[0x51] = 0x80; regs[0x53] = 0x83; regs[0x57] = 0x01; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x01; regs[0x6c] = regs[0x6d] = regs[0x6e] = regs[0x6f] = 0x55; regs[0x72] = 0x02; regs[0xa0] = 0x02; regs[0xa2] = 0x10; regs[0xa4] = 0x03; regs[0xa5] = 0x02; regs[0xa7] = 0x1f; dev->max_drb = 7; dev->drb_unit = 8; dev->drb_default = 0x01; break; case INTEL_440BX: case INTEL_440ZX: regs[0x7a] = (info->local >> 8) & 0xff; regs[0x02] = (regs[0x7a] & 0x02) ? 0x92 : 0x90; regs[0x03] = 0x71; /* 82443BX */ regs[0x06] = (regs[0x7a] & 0x02) ? 0x00 : 0x10; regs[0x08] = 0x02; regs[0x10] = 0x08; regs[0x34] = (regs[0x7a] & 0x02) ? 0x00 : 0xa0; if (cpu_busspeed <= 66666667) regs[0x51] |= 0x20; else if ((cpu_busspeed > 66666667) && (cpu_busspeed <= 100000000)) regs[0x51] |= 0x00; regs[0x57] = 0x28; /* 4 DIMMs, SDRAM */ regs[0x58] = 0x03; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x01; regs[0x72] = 0x02; regs[0x73] = 0x38; regs[0x7b] = 0x38; regs[0x90] = 0x80; regs[0xa0] = (regs[0x7a] & 0x02) ? 0x00 : 0x02; regs[0xa2] = (regs[0x7a] & 0x02) ? 0x00 : 0x10; regs[0xa4] = 0x03; regs[0xa5] = 0x02; regs[0xa7] = 0x1f; dev->max_drb = 7; dev->drb_unit = 8; dev->drb_default = 0x01; break; case INTEL_440GX: regs[0x7a] = (info->local >> 8) & 0xff; regs[0x02] = (regs[0x7a] & 0x02) ? 0xa2 : 0xa0; regs[0x03] = 0x71; /* 82443GX */ regs[0x06] = (regs[0x7a] & 0x02) ? 0x00 : 0x10; regs[0x10] = 0x08; regs[0x34] = (regs[0x7a] & 0x02) ? 0x00 : 0xa0; regs[0x57] = 0x28; regs[0x60] = regs[0x61] = regs[0x62] = regs[0x63] = regs[0x64] = regs[0x65] = regs[0x66] = regs[0x67] = 0x01; regs[0x72] = 0x02; regs[0x73] = 0x38; regs[0x7b] = 0x38; regs[0x90] = 0x80; regs[0xa0] = (regs[0x7a] & 0x02) ? 0x00 : 0x02; regs[0xa2] = (regs[0x7a] & 0x02) ? 0x00 : 0x10; regs[0xa4] = 0x03; regs[0xa5] = 0x02; regs[0xa7] = 0x1f; dev->max_drb = 7; dev->drb_unit = 8; dev->drb_default = 0x01; break; } regs[0x04] = 0x06; regs[0x07] = 0x02; regs[0x0b] = 0x06; if (dev->type >= INTEL_440FX) { cpu_cache_ext_enabled = 1; cpu_update_waitstates(); } i4x0_write(regs[0x59], 0x59, 0x00, dev); i4x0_write(regs[0x5a], 0x5a, 0x00, dev); i4x0_write(regs[0x5b], 0x5b, 0x00, dev); i4x0_write(regs[0x5c], 0x5c, 0x00, dev); i4x0_write(regs[0x5d], 0x5d, 0x00, dev); i4x0_write(regs[0x5e], 0x5e, 0x00, dev); i4x0_write(regs[0x5f], 0x5f, 0x00, dev); i4x0_write(regs[0x72], 0x72, 0x00, dev); pci_add_card(PCI_ADD_NORTHBRIDGE, i4x0_read, i4x0_write, dev); if ((dev->type >= INTEL_440BX) && !(regs[0x7a] & 0x02)) device_add((dev->type == INTEL_440GX) ? &i440gx_agp_device : &i440bx_agp_device); else if (dev->type >= INTEL_440LX) device_add(&i440lx_agp_device); return dev; } const device_t i420tx_device = { "Intel 82424TX", DEVICE_PCI, INTEL_420TX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i420zx_device = { "Intel 82424ZX", DEVICE_PCI, INTEL_420ZX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430lx_device = { "Intel 82434LX", DEVICE_PCI, INTEL_430LX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430nx_device = { "Intel 82434NX", DEVICE_PCI, INTEL_430NX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430fx_device = { "Intel SB82437FX-66", DEVICE_PCI, INTEL_430FX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430fx_rev02_device = { "Intel SB82437FX-66 (Rev. 02)", DEVICE_PCI, 0x0200 | INTEL_430FX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430hx_device = { "Intel 82439HX", DEVICE_PCI, INTEL_430HX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430vx_device = { "Intel 82437VX", DEVICE_PCI, INTEL_430VX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i430tx_device = { "Intel 82439TX", DEVICE_PCI, INTEL_430TX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440fx_device = { "Intel 82441FX", DEVICE_PCI, INTEL_440FX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440lx_device = { "Intel 82443LX", DEVICE_PCI, INTEL_440LX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440ex_device = { "Intel 82443EX", DEVICE_PCI, INTEL_440EX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440bx_device = { "Intel 82443BX", DEVICE_PCI, 0x8000 | INTEL_440BX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440gx_device = { "Intel 82443GX", DEVICE_PCI, 0x8000 | INTEL_440GX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL }; const device_t i440zx_device = { "Intel 82443ZX", DEVICE_PCI, 0x8000 | INTEL_440ZX, i4x0_init, i4x0_close, i4x0_reset, { NULL }, NULL, NULL, NULL };