/* * OpenBIOS pci driver * * This driver is compliant to the * PCI bus binding to IEEE 1275-1994 Rev 2.1 * * (C) 2004 Stefan Reinauer * (C) 2005 Ed Schouten * * Some parts from OpenHackWare-0.4, Copyright (c) 2004-2005 Jocelyn Mayer * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 * */ #include "openbios/config.h" #include "openbios/bindings.h" #include "openbios/kernel.h" #include "openbios/pci.h" #include "libc/byteorder.h" #include "libc/vsprintf.h" #include "openbios/drivers.h" #include "video_subr.h" #include "timer.h" #include "pci.h" #include "pci_database.h" #ifdef CONFIG_DRIVER_MACIO #include "cuda.h" #include "macio.h" #endif #define set_bool_property(ph, name) set_property(ph, name, NULL, 0); /* DECLARE data structures for the nodes. */ DECLARE_UNNAMED_NODE( ob_pci_node, INSTALL_OPEN, 2*sizeof(int) ); const pci_arch_t *arch; #define IS_NOT_RELOCATABLE 0x80000000 #define IS_PREFETCHABLE 0x40000000 #define IS_ALIASED 0x20000000 enum { CONFIGURATION_SPACE = 0, IO_SPACE = 1, MEMORY_SPACE_32 = 2, MEMORY_SPACE_64 = 3, }; static inline void pci_encode_phys_addr(cell *phys, int flags, int space_code, pci_addr dev, uint8_t reg, uint64_t addr) { /* phys.hi */ phys[0] = flags | (space_code << 24) | dev | reg; /* phys.mid */ phys[1] = addr >> 32; /* phys.lo */ phys[2] = addr; } static void ob_pci_open(int *idx) { int ret=1; RET ( -ret ); } static void ob_pci_close(int *idx) { selfword("close-deblocker"); } static void ob_pci_initialize(int *idx) { } /* ( str len -- phys.lo phys.mid phys.hi ) */ static void ob_pci_decode_unit(int *idx) { PUSH(0); fword("decode-unit-pci-bus"); } /* ( phys.lo phy.mid phys.hi -- str len ) */ static void ob_pci_encode_unit(int *idx) { char buf[28]; cell hi = POP(); cell mid = POP(); cell lo = POP(); int n, p, t, ss, bus, dev, fn, reg; n = hi & IS_NOT_RELOCATABLE; p = hi & IS_PREFETCHABLE; t = hi & IS_ALIASED; ss = (hi >> 24) && 0x03; bus = (hi >> 16) & 0xFF; dev = (hi >> 11) & 0x1F; fn = (hi >> 8) & 0x07; reg = hi & 0xFF; switch(ss) { case CONFIGURATION_SPACE: if (fn == 0) /* DD */ snprintf(buf, sizeof(buf), "%x", dev); else /* DD,F */ snprintf(buf, sizeof(buf), "%x,%d", dev, fn); break; case IO_SPACE: /* [n]i[t]DD,F,RR,NNNNNNNN */ snprintf(buf, sizeof(buf), "%si%s%x,%x,%x,%x", n ? "n" : "", /* relocatable */ t ? "t" : "", /* aliased */ dev, fn, reg, t ? lo & 0x03FF : lo); break; case MEMORY_SPACE_32: /* [n]m[t][p]DD,F,RR,NNNNNNNN */ snprintf(buf, sizeof(buf), "%sm%s%s%x,%x,%x,%x", n ? "n" : "", /* relocatable */ t ? "t" : "", /* aliased */ p ? "p" : "", /* prefetchable */ dev, fn, reg, lo ); break; case MEMORY_SPACE_64: /* [n]x[p]DD,F,RR,NNNNNNNNNNNNNNNN */ snprintf(buf, sizeof(buf), "%sx%s%x,%x,%x,%llx", n ? "n" : "", /* relocatable */ p ? "p" : "", /* prefetchable */ dev, fn, reg, ((uint64_t)mid << 32) | (uint64_t)lo ); break; } push_str(buf); } NODE_METHODS(ob_pci_node) = { { NULL, ob_pci_initialize }, { "open", ob_pci_open }, { "close", ob_pci_close }, { "decode-unit", ob_pci_decode_unit }, { "encode-unit", ob_pci_encode_unit }, }; int ide_config_cb2 (const pci_config_t *config) { ob_ide_init(config->path, config->regions[0] & ~0x0000000F, config->regions[1] & ~0x0000000F, config->regions[2] & ~0x0000000F, config->regions[3] & ~0x0000000F); return 0; } int eth_config_cb (const pci_config_t *config) { phandle_t ph; cell props[12]; int i; ph = find_dev(config->path); set_property(ph, "network-type", "ethernet", 9); set_property(ph, "removable", "network", 8); set_property(ph, "category", "net", 4); for (i = 0; i < 7; i++) { props[i*2] = config->regions[i]; props[i*2 + 1] = config->sizes[i]; } set_property(ph, "reg", (char *)props, i * 2 * sizeof(cell)); return 0; } int macio_config_cb (const pci_config_t *config) { #ifdef CONFIG_DRIVER_MACIO ob_macio_init(config->path, config->regions[0] & ~0x0000000F); #endif return 0; } int vga_config_cb (const pci_config_t *config) { if (config->regions[0] != 0x00000000) vga_vbe_init(config->path, config->regions[0], config->sizes[0], config->regions[1], config->sizes[1]); return 0; } static void ob_pci_add_properties(pci_addr addr, const pci_dev_t *pci_dev, const pci_config_t *config) { phandle_t dev=get_cur_dev(); int status,id; uint16_t vendor_id, device_id; uint8_t rev; uint32_t class_code; vendor_id = pci_config_read16(addr, PCI_VENDOR_ID); device_id = pci_config_read16(addr, PCI_DEVICE_ID); rev = pci_config_read8(addr, PCI_REVISION_ID); class_code = pci_config_read16(addr, PCI_CLASS_DEVICE); /* create properties as described in 2.5 */ set_int_property(dev, "vendor-id", vendor_id); set_int_property(dev, "device-id", device_id); set_int_property(dev, "revision-id", rev); set_int_property(dev, "class-code", class_code << 8); set_int_property(dev, "interrupts", pci_config_read8(addr, PCI_INTERRUPT_LINE)); set_int_property(dev, "min-grant", pci_config_read8(addr, PCI_MIN_GNT)); set_int_property(dev, "max-latency", pci_config_read8(addr, PCI_MAX_LAT)); status=pci_config_read16(addr, PCI_STATUS); set_int_property(dev, "devsel-speed", (status&PCI_STATUS_DEVSEL_MASK)>>10); if(status&PCI_STATUS_FAST_BACK) set_bool_property(dev, "fast-back-to-back"); if(status&PCI_STATUS_66MHZ) set_bool_property(dev, "66mhz-capable"); if(status&PCI_STATUS_UDF) set_bool_property(dev, "udf-supported"); id=pci_config_read16(addr, PCI_SUBSYSTEM_VENDOR_ID); if(id) set_int_property(dev, "subsystem-vendor-id", id); id=pci_config_read16(addr, PCI_SUBSYSTEM_ID); if(id) set_int_property(dev, "subsystem-id", id); set_int_property(dev, "cache-line-size", pci_config_read16(addr, PCI_CACHE_LINE_SIZE)); if (pci_dev->type) { push_str(pci_dev->type); fword("encode-string"); push_str("device_type"); fword("property"); } if (pci_dev->model) { push_str(pci_dev->model); fword("encode-string"); push_str("model"); fword("property"); } if (pci_dev->compat) set_property(dev, "compatible", pci_dev->compat, pci_compat_len(pci_dev)); if (pci_dev->config_cb) pci_dev->config_cb(config); } static void ob_pci_add_reg(pci_addr addr) { PUSH(0); PUSH(0); PUSH(addr&(~arch->cfg_base)); fword("pci-addr-encode"); PUSH(0); PUSH(0); fword("pci-len-encode"); fword("encode+"); push_str("reg"); fword("property"); } #ifdef CONFIG_XBOX static char pci_xbox_blacklisted (int bus, int devnum, int fn) { /* * The Xbox MCPX chipset is a derivative of the nForce 1 * chipset. It almost has the same bus layout; some devices * cannot be used, because they have been removed. */ /* * Devices 00:00.1 and 00:00.2 used to be memory controllers on * the nForce chipset, but on the Xbox, using them will lockup * the chipset. */ if ((bus == 0) && (devnum == 0) && ((fn == 1) || (fn == 2))) return 1; /* * Bus 1 only contains a VGA controller at 01:00.0. When you try * to probe beyond that device, you only get garbage, which * could cause lockups. */ if ((bus == 1) && ((devnum != 0) || (fn != 0))) return 1; /* * Bus 2 used to contain the AGP controller, but the Xbox MCPX * doesn't have one. Probing it can cause lockups. */ if (bus >= 2) return 1; /* * The device is not blacklisted. */ return 0; } #endif static void ob_pci_configure(pci_addr addr, pci_config_t *config, unsigned long *mem_base, unsigned long *io_base) { uint32_t smask, omask, amask, size, reloc, min_align; unsigned long base; pci_addr config_addr; int reg; omask = 0x00000000; for (reg = 0; reg < 7; reg++) { config->regions[reg] = 0x00000000; config->sizes[reg] = 0x00000000; if ((omask & 0x0000000f) == 0x4) { /* 64 bits memory mapping */ continue; } if (reg == 6) config_addr = PCI_ROM_ADDRESS; else config_addr = PCI_BASE_ADDR_0 + reg * 4; /* get region size */ pci_config_write32(addr, config_addr, 0xffffffff); smask = pci_config_read32(addr, config_addr); if (smask == 0x00000000 || smask == 0xffffffff) continue; if (smask & 0x00000001 && reg != 6) { /* I/O space */ base = *io_base; min_align = 1 << 7; amask = 0x00000001; pci_config_write16(addr, PCI_COMMAND, pci_config_read16(addr, PCI_COMMAND) | PCI_COMMAND_IO); } else { /* Memory Space */ base = *mem_base; min_align = 1 << 16; amask = 0x0000000F; if (reg == 6) { smask |= 1; /* ROM */ } pci_config_write16(addr, PCI_COMMAND, pci_config_read16(addr, PCI_COMMAND) | PCI_COMMAND_MEMORY); } omask = smask & amask; smask &= ~amask; size = (~smask) + 1; config->sizes[reg] = size; reloc = base; if (size < min_align) size = min_align; reloc = (reloc + size -1) & ~(size - 1); if (*io_base == base) { *io_base = reloc + size; reloc -= arch->io_base; } else { *mem_base = reloc + size; } pci_config_write32(addr, config_addr, reloc | omask); config->regions[reg] = reloc; } } static void ob_scan_pci_bus(int bus, unsigned long *mem_base, unsigned long *io_base, char **path) { int devnum, fn, is_multi, vid, did; unsigned int htype; pci_addr addr; pci_config_t config; const pci_dev_t *pci_dev; uint32_t ccode; uint8_t class, subclass, iface, rev; activate_device("/"); for (devnum = 0; devnum < 32; devnum++) { is_multi = 0; for (fn = 0; fn==0 || (is_multi && fn<8); fn++) { #ifdef CONFIG_XBOX if (pci_xbox_blacklisted (bus, devnum, fn)) continue; #endif addr = PCI_ADDR(bus, devnum, fn); vid = pci_config_read16(addr, PCI_VENDOR_ID); did = pci_config_read16(addr, PCI_DEVICE_ID); if (vid==0xffff || vid==0) continue; ccode = pci_config_read16(addr, PCI_CLASS_DEVICE); class = ccode >> 8; subclass = ccode; iface = pci_config_read8(addr, PCI_CLASS_PROG); rev = pci_config_read8(addr, PCI_REVISION_ID); pci_dev = pci_find_device(class, subclass, iface, vid, did); #ifdef CONFIG_DEBUG_PCI printk("%x:%x.%x - %x:%x - ", bus, devnum, fn, vid, did); #endif htype = pci_config_read8(addr, PCI_HEADER_TYPE); if (fn == 0) is_multi = htype & 0x80; if (pci_dev == NULL || pci_dev->name == NULL) snprintf(config.path, sizeof(config.path), "%s/pci%x,%x", *path, vid, did); else snprintf(config.path, sizeof(config.path), "%s/%s", *path, pci_dev->name); #ifdef CONFIG_DEBUG_PCI printk("%s - ", config.path); #endif config.dev = addr & 0x00FFFFFF; REGISTER_NAMED_NODE(ob_pci_node, config.path); activate_device(config.path); ob_pci_configure(addr, &config, mem_base, io_base); ob_pci_add_properties(addr, pci_dev, &config); ob_pci_add_reg(addr); if (ccode == 0x0600 || ccode == 0x0604) { /* host or bridge */ free(*path); *path = strdup(config.path); } } } device_end(); } int ob_pci_init(void) { int bus; unsigned long mem_base, io_base; char *path; #ifdef CONFIG_DEBUG_PCI printk("Initializing PCI devices...\n"); #endif /* brute force bus scan */ /* Find all PCI bridges */ mem_base = arch->mem_base; io_base = arch->io_base; path = strdup(""); for (bus = 0; bus<0x100; bus++) { ob_scan_pci_bus(bus, &mem_base, &io_base, &path); } free(path); return 0; }