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static bool pci_mmcfg_arch_init_failed; static DEFINE_MUTEX(pci_mmcfg_lock); #define pci_mmcfg_lock_held() lock_is_held(&(pci_mmcfg_lock).dep_map) LIST_HEAD(pci_mmcfg_list); static void __init pci_mmconfig_remove(struct pci_mmcfg_region *cfg) { if (cfg->res.parent) release_resource(&cfg->res); list_del(&cfg->list); kfree(cfg); } static void __init free_all_mmcfg(void) { struct pci_mmcfg_region *cfg, *tmp; pci_mmcfg_arch_free(); list_for_each_entry_safe(cfg, tmp, &pci_mmcfg_list, list) pci_mmconfig_remove(cfg); } static void list_add_sorted(struct pci_mmcfg_region *new) { struct pci_mmcfg_region *cfg; /* keep list sorted by segment and starting bus number */ list_for_each_entry_rcu(cfg, &pci_mmcfg_list, list, pci_mmcfg_lock_held()) { if (cfg->segment > new->segment || (cfg->segment == new->segment && cfg->start_bus >= new->start_bus)) { list_add_tail_rcu(&new->list, &cfg->list); return; } } list_add_tail_rcu(&new->list, &pci_mmcfg_list); } static struct pci_mmcfg_region *pci_mmconfig_alloc(int segment, int start, int end, u64 addr) { struct pci_mmcfg_region *new; struct resource *res; if (addr == 0) return NULL; new = kzalloc(sizeof(*new), GFP_KERNEL); if (!new) return NULL; new->address = addr; new->segment = segment; new->start_bus = start; new->end_bus = end; res = &new->res; res->start = addr + PCI_MMCFG_BUS_OFFSET(start); res->end = addr + PCI_MMCFG_BUS_OFFSET(end + 1) - 1; res->flags = IORESOURCE_MEM | IORESOURCE_BUSY; snprintf(new->name, PCI_MMCFG_RESOURCE_NAME_LEN, "PCI MMCONFIG %04x [bus %02x-%02x]", segment, start, end); res->name = new->name; return new; } struct pci_mmcfg_region *__init pci_mmconfig_add(int segment, int start, int end, u64 addr) { struct pci_mmcfg_region *new; new = pci_mmconfig_alloc(segment, start, end, addr); if (new) { mutex_lock(&pci_mmcfg_lock); list_add_sorted(new); mutex_unlock(&pci_mmcfg_lock); pr_info(PREFIX "MMCONFIG for domain %04x [bus %02x-%02x] at %pR " "(base %#lx)\n", segment, start, end, &new->res, (unsigned long)addr); } return new; } struct pci_mmcfg_region *pci_mmconfig_lookup(int segment, int bus) { struct pci_mmcfg_region *cfg; list_for_each_entry_rcu(cfg, &pci_mmcfg_list, list, pci_mmcfg_lock_held()) if (cfg->segment == segment && cfg->start_bus <= bus && bus <= cfg->end_bus) return cfg; return NULL; } static const char *__init pci_mmcfg_e7520(void) { u32 win; raw_pci_ops->read(0, 0, PCI_DEVFN(0, 0), 0xce, 2, &win); win = win & 0xf000; if (win == 0x0000 || win == 0xf000) return NULL; if (pci_mmconfig_add(0, 0, 255, win << 16) == NULL) return NULL; return "Intel Corporation E7520 Memory Controller Hub"; } static const char *__init pci_mmcfg_intel_945(void) { u32 pciexbar, mask = 0, len = 0; raw_pci_ops->read(0, 0, PCI_DEVFN(0, 0), 0x48, 4, &pciexbar); /* Enable bit */ if (!(pciexbar & 1)) return NULL; /* Size bits */ switch ((pciexbar >> 1) & 3) { case 0: mask = 0xf0000000U; len = 0x10000000U; break; case 1: mask = 0xf8000000U; len = 0x08000000U; break; case 2: mask = 0xfc000000U; len = 0x04000000U; break; default: return NULL; } /* Errata #2, things break when not aligned on a 256Mb boundary */ /* Can only happen in 64M/128M mode */ if ((pciexbar & mask) & 0x0fffffffU) return NULL; /* Don't hit the APIC registers and their friends */ if ((pciexbar & mask) >= 0xf0000000U) return NULL; if (pci_mmconfig_add(0, 0, (len >> 20) - 1, pciexbar & mask) == NULL) return NULL; return "Intel Corporation 945G/GZ/P/PL Express Memory Controller Hub"; } static const char *__init pci_mmcfg_amd_fam10h(void) { u32 low, high, address; u64 base, msr; int i; unsigned segnbits = 0, busnbits, end_bus; if (!(pci_probe & PCI_CHECK_ENABLE_AMD_MMCONF)) return NULL; address = MSR_FAM10H_MMIO_CONF_BASE; if (rdmsr_safe(address, &low, &high)) return NULL; msr = high; msr <<= 32; msr |= low; /* mmconfig is not enable */ if (!(msr & FAM10H_MMIO_CONF_ENABLE)) return NULL; base = msr & (FAM10H_MMIO_CONF_BASE_MASK<<FAM10H_MMIO_CONF_BASE_SHIFT); busnbits = (msr >> FAM10H_MMIO_CONF_BUSRANGE_SHIFT) & FAM10H_MMIO_CONF_BUSRANGE_MASK; /* * only handle bus 0 ? * need to skip it */ if (!busnbits) return NULL; if (busnbits > 8) { segnbits = busnbits - 8; busnbits = 8; } end_bus = (1 << busnbits) - 1; for (i = 0; i < (1 << segnbits); i++) if (pci_mmconfig_add(i, 0, end_bus, base + (1<<28) * i) == NULL) { free_all_mmcfg(); return NULL; } return "AMD Family 10h NB"; } static bool __initdata mcp55_checked; static const char *__init pci_mmcfg_nvidia_mcp55(void) { int bus; int mcp55_mmconf_found = 0; static const u32 extcfg_regnum __initconst = 0x90; static const u32 extcfg_regsize __initconst = 4; static const u32 extcfg_enable_mask __initconst = 1 << 31; static const u32 extcfg_start_mask __initconst = 0xff << 16; static const int extcfg_start_shift __initconst = 16; static const u32 extcfg_size_mask __initconst = 0x3 << 28; static const int extcfg_size_shift __initconst = 28; static const int extcfg_sizebus[] __initconst = { 0x100, 0x80, 0x40, 0x20 }; static const u32 extcfg_base_mask[] __initconst = { 0x7ff8, 0x7ffc, 0x7ffe, 0x7fff }; static const int extcfg_base_lshift __initconst = 25; /* * do check if amd fam10h already took over */ if (!acpi_disabled || !list_empty(&pci_mmcfg_list) || mcp55_checked) return NULL; mcp55_checked = true; for (bus = 0; bus < 256; bus++) { u64 base; u32 l, extcfg; u16 vendor, device; int start, size_index, end; raw_pci_ops->read(0, bus, PCI_DEVFN(0, 0), 0, 4, &l); vendor = l & 0xffff; device = (l >> 16) & 0xffff; if (PCI_VENDOR_ID_NVIDIA != vendor || 0x0369 != device) continue; raw_pci_ops->read(0, bus, PCI_DEVFN(0, 0), extcfg_regnum, extcfg_regsize, &extcfg); if (!(extcfg & extcfg_enable_mask)) continue; size_index = (extcfg & extcfg_size_mask) >> extcfg_size_shift; base = extcfg & extcfg_base_mask[size_index]; /* base could > 4G */ base <<= extcfg_base_lshift; start = (extcfg & extcfg_start_mask) >> extcfg_start_shift; end = start + extcfg_sizebus[size_index] - 1; if (pci_mmconfig_add(0, start, end, base) == NULL) continue; mcp55_mmconf_found++; } if (!mcp55_mmconf_found) return NULL; return "nVidia MCP55"; } struct pci_mmcfg_hostbridge_probe { u32 bus; u32 devfn; u32 vendor; u32 device; const char *(*probe)(void); }; static const struct pci_mmcfg_hostbridge_probe pci_mmcfg_probes[] __initconst = { { 0, PCI_DEVFN(0, 0), PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_E7520_MCH, pci_mmcfg_e7520 }, { 0, PCI_DEVFN(0, 0), PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82945G_HB, pci_mmcfg_intel_945 }, { 0, PCI_DEVFN(0x18, 0), PCI_VENDOR_ID_AMD, 0x1200, pci_mmcfg_amd_fam10h }, { 0xff, PCI_DEVFN(0, 0), PCI_VENDOR_ID_AMD, 0x1200, pci_mmcfg_amd_fam10h }, { 0, PCI_DEVFN(0, 0), PCI_VENDOR_ID_NVIDIA, 0x0369, pci_mmcfg_nvidia_mcp55 }, }; static void __init pci_mmcfg_check_end_bus_number(void) { struct pci_mmcfg_region *cfg, *cfgx; /* Fixup overlaps */ list_for_each_entry(cfg, &pci_mmcfg_list, list) { if (cfg->end_bus < cfg->start_bus) cfg->end_bus = 255; /* Don't access the list head ! */ if (cfg->list.next == &pci_mmcfg_list) break; cfgx = list_entry(cfg->list.next, typeof(*cfg), list); if (cfg->end_bus >= cfgx->start_bus) cfg->end_bus = cfgx->start_bus - 1; } } static int __init pci_mmcfg_check_hostbridge(void) { u32 l; u32 bus, devfn; u16 vendor, device; int i; const char *name; if (!raw_pci_ops) return 0; free_all_mmcfg(); for (i = 0; i < ARRAY_SIZE(pci_mmcfg_probes); i++) { bus = pci_mmcfg_probes[i].bus; devfn = pci_mmcfg_probes[i].devfn; raw_pci_ops->read(0, bus, devfn, 0, 4, &l); vendor = l & 0xffff; device = (l >> 16) & 0xffff; name = NULL; if (pci_mmcfg_probes[i].vendor == vendor && pci_mmcfg_probes[i].device == device) name = pci_mmcfg_probes[i].probe(); if (name) pr_info(PREFIX "%s with MMCONFIG support\n", name); } /* some end_bus_number is crazy, fix it */ pci_mmcfg_check_end_bus_number(); return !list_empty(&pci_mmcfg_list); } static acpi_status check_mcfg_resource(struct acpi_resource *res, void *data) { struct resource *mcfg_res = data; struct acpi_resource_address64 address; acpi_status status; if (res->type == ACPI_RESOURCE_TYPE_FIXED_MEMORY32) { struct acpi_resource_fixed_memory32 *fixmem32 = &res->data.fixed_memory32; if (!fixmem32) return AE_OK; if ((mcfg_res->start >= fixmem32->address) && (mcfg_res->end < (fixmem32->address + fixmem32->address_length))) { mcfg_res->flags = 1; return AE_CTRL_TERMINATE; } } if ((res->type != ACPI_RESOURCE_TYPE_ADDRESS32) && (res->type != ACPI_RESOURCE_TYPE_ADDRESS64)) return AE_OK; status = acpi_resource_to_address64(res, &address); if (ACPI_FAILURE(status) || (address.address.address_length <= 0) || (address.resource_type != ACPI_MEMORY_RANGE)) return AE_OK; if ((mcfg_res->start >= address.address.minimum) && (mcfg_res->end < (address.address.minimum + address.address.address_length))) { mcfg_res->flags = 1; return AE_CTRL_TERMINATE; } return AE_OK; } static acpi_status find_mboard_resource(acpi_handle handle, u32 lvl, void *context, void **rv) { struct resource *mcfg_res = context; acpi_walk_resources(handle, METHOD_NAME__CRS, check_mcfg_resource, context); if (mcfg_res->flags) return AE_CTRL_TERMINATE; return AE_OK; } static bool is_acpi_reserved(u64 start, u64 end, enum e820_type not_used) { struct resource mcfg_res; mcfg_res.start = start; mcfg_res.end = end - 1; mcfg_res.flags = 0; acpi_get_devices("PNP0C01", find_mboard_resource, &mcfg_res, NULL); if (!mcfg_res.flags) acpi_get_devices("PNP0C02", find_mboard_resource, &mcfg_res, NULL); return mcfg_res.flags; } static bool is_efi_mmio(u64 start, u64 end, enum e820_type not_used) { #ifdef CONFIG_EFI efi_memory_desc_t *md; u64 size, mmio_start, mmio_end; for_each_efi_memory_desc(md) { if (md->type == EFI_MEMORY_MAPPED_IO) { size = md->num_pages << EFI_PAGE_SHIFT; mmio_start = md->phys_addr; mmio_end = mmio_start + size; /* * N.B. Caller supplies (start, start + size), * so to match, mmio_end is the first address * *past* the EFI_MEMORY_MAPPED_IO area. */ if (mmio_start <= start && end <= mmio_end) return true; } } #endif return false; } typedef bool (*check_reserved_t)(u64 start, u64 end, enum e820_type type); static bool __ref is_mmconf_reserved(check_reserved_t is_reserved, struct pci_mmcfg_region *cfg, struct device *dev, const char *method) { u64 addr = cfg->res.start; u64 size = resource_size(&cfg->res); u64 old_size = size; int num_buses; while (!is_reserved(addr, addr + size, E820_TYPE_RESERVED)) { size >>= 1; if (size < (16UL<<20)) break; } if (size < (16UL<<20) && size != old_size) return false; if (dev) dev_info(dev, "MMCONFIG at %pR reserved as %s\n", &cfg->res, method); else pr_info(PREFIX "MMCONFIG at %pR reserved as %s\n", &cfg->res, method); if (old_size != size) { /* update end_bus */ cfg->end_bus = cfg->start_bus + ((size>>20) - 1); num_buses = cfg->end_bus - cfg->start_bus + 1; cfg->res.end = cfg->res.start + PCI_MMCFG_BUS_OFFSET(num_buses) - 1; snprintf(cfg->name, PCI_MMCFG_RESOURCE_NAME_LEN, "PCI MMCONFIG %04x [bus %02x-%02x]", cfg->segment, cfg->start_bus, cfg->end_bus); if (dev) dev_info(dev, "MMCONFIG " "at %pR (base %#lx) (size reduced!)\n", &cfg->res, (unsigned long) cfg->address); else pr_info(PREFIX "MMCONFIG for %04x [bus%02x-%02x] " "at %pR (base %#lx) (size reduced!)\n", cfg->segment, cfg->start_bus, cfg->end_bus, &cfg->res, (unsigned long) cfg->address); } return true; } static bool __ref pci_mmcfg_check_reserved(struct device *dev, struct pci_mmcfg_region *cfg, int early) { if (!early && !acpi_disabled) { if (is_mmconf_reserved(is_acpi_reserved, cfg, dev, "ACPI motherboard resource")) return true; if (dev) dev_info(dev, FW_INFO "MMCONFIG at %pR not reserved in " "ACPI motherboard resources\n", &cfg->res); else pr_info(FW_INFO PREFIX "MMCONFIG at %pR not reserved in " "ACPI motherboard resources\n", &cfg->res); if (is_mmconf_reserved(is_efi_mmio, cfg, dev, "EfiMemoryMappedIO")) return true; } /* * e820__mapped_all() is marked as __init. * All entries from ACPI MCFG table have been checked at boot time. * For MCFG information constructed from hotpluggable host bridge's * _CBA method, just assume it's reserved. */ if (pci_mmcfg_running_state) return true; /* Don't try to do this check unless configuration type 1 is available. how about type 2 ?*/ if (raw_pci_ops) return is_mmconf_reserved(e820__mapped_all, cfg, dev, "E820 entry"); return false; } static void __init pci_mmcfg_reject_broken(int early) { struct pci_mmcfg_region *cfg; list_for_each_entry(cfg, &pci_mmcfg_list, list) { if (pci_mmcfg_check_reserved(NULL, cfg, early) == 0) { pr_info(PREFIX "not using MMCONFIG\n"); free_all_mmcfg(); return; } } } static int __init acpi_mcfg_check_entry(struct acpi_table_mcfg *mcfg, struct acpi_mcfg_allocation *cfg) { if (cfg->address < 0xFFFFFFFF) return 0; if (!strncmp(mcfg->header.oem_id, "SGI", 3)) return 0; if ((mcfg->header.revision >= 1) && (dmi_get_bios_year() >= 2010)) return 0; pr_err(PREFIX "MCFG region for %04x [bus %02x-%02x] at %#llx " "is above 4GB, ignored\n", cfg->pci_segment, cfg->start_bus_number, cfg->end_bus_number, cfg->address); return -EINVAL; } static int __init pci_parse_mcfg(struct acpi_table_header *header) { struct acpi_table_mcfg *mcfg; struct acpi_mcfg_allocation *cfg_table, *cfg; unsigned long i; int entries; if (!header) return -EINVAL; mcfg = (struct acpi_table_mcfg *)header; /* how many config structures do we have */ free_all_mmcfg(); entries = 0; i = header->length - sizeof(struct acpi_table_mcfg); while (i >= sizeof(struct acpi_mcfg_allocation)) { entries++; i -= sizeof(struct acpi_mcfg_allocation); } if (entries == 0) { pr_err(PREFIX "MMCONFIG has no entries\n"); return -ENODEV; } cfg_table = (struct acpi_mcfg_allocation *) &mcfg[1]; for (i = 0; i < entries; i++) { cfg = &cfg_table[i]; if (acpi_mcfg_check_entry(mcfg, cfg)) { free_all_mmcfg(); return -ENODEV; } if (pci_mmconfig_add(cfg->pci_segment, cfg->start_bus_number, cfg->end_bus_number, cfg->address) == NULL) { pr_warn(PREFIX "no memory for MCFG entries\n"); free_all_mmcfg(); return -ENOMEM; } } return 0; } #ifdef CONFIG_ACPI_APEI extern int (*arch_apei_filter_addr)(int (*func)(__u64 start, __u64 size, void *data), void *data); static int pci_mmcfg_for_each_region(int (*func)(__u64 start, __u64 size, void *data), void *data) { struct pci_mmcfg_region *cfg; int rc; if (list_empty(&pci_mmcfg_list)) return 0; list_for_each_entry(cfg, &pci_mmcfg_list, list) { rc = func(cfg->res.start, resource_size(&cfg->res), data); if (rc) return rc; } return 0; } #define set_apei_filter() (arch_apei_filter_addr = pci_mmcfg_for_each_region) #else #define set_apei_filter() #endif static void __init __pci_mmcfg_init(int early) { pci_mmcfg_reject_broken(early); if (list_empty(&pci_mmcfg_list)) return; if (pcibios_last_bus < 0) { const struct pci_mmcfg_region *cfg; list_for_each_entry(cfg, &pci_mmcfg_list, list) { if (cfg->segment) break; pcibios_last_bus = cfg->end_bus; } } if (pci_mmcfg_arch_init()) pci_probe = (pci_probe & ~PCI_PROBE_MASK) | PCI_PROBE_MMCONF; else { free_all_mmcfg(); pci_mmcfg_arch_init_failed = true; } } static int __initdata known_bridge; void __init pci_mmcfg_early_init(void) { if (pci_probe & PCI_PROBE_MMCONF) { if (pci_mmcfg_check_hostbridge()) known_bridge = 1; else acpi_table_parse(ACPI_SIG_MCFG, pci_parse_mcfg); __pci_mmcfg_init(1); set_apei_filter(); } } void __init pci_mmcfg_late_init(void) { /* MMCONFIG disabled */ if ((pci_probe & PCI_PROBE_MMCONF) == 0) return; if (known_bridge) return; /* MMCONFIG hasn't been enabled yet, try again */ if (pci_probe & PCI_PROBE_MASK & ~PCI_PROBE_MMCONF) { acpi_table_parse(ACPI_SIG_MCFG, pci_parse_mcfg); __pci_mmcfg_init(0); } } static int __init pci_mmcfg_late_insert_resources(void) { struct pci_mmcfg_region *cfg; pci_mmcfg_running_state = true; /* If we are not using MMCONFIG, don't insert the resources. */ if ((pci_probe & PCI_PROBE_MMCONF) == 0) return 1; /* * Attempt to insert the mmcfg resources but not with the busy flag * marked so it won't cause request errors when __request_region is * called. */ list_for_each_entry(cfg, &pci_mmcfg_list, list) if (!cfg->res.parent) insert_resource(&iomem_resource, &cfg->res); return 0; } /* * Perform MMCONFIG resource insertion after PCI initialization to allow for * misprogrammed MCFG tables that state larger sizes but actually conflict * with other system resources. */ late_initcall(pci_mmcfg_late_insert_resources); /* Add MMCFG information for host bridges */ int pci_mmconfig_insert(struct device *dev, u16 seg, u8 start, u8 end, phys_addr_t addr) { int rc; struct resource *tmp = NULL; struct pci_mmcfg_region *cfg; if (!(pci_probe & PCI_PROBE_MMCONF) || pci_mmcfg_arch_init_failed) return -ENODEV; if (start > end) return -EINVAL; mutex_lock(&pci_mmcfg_lock); cfg = pci_mmconfig_lookup(seg, start); if (cfg) { if (cfg->end_bus < end) dev_info(dev, FW_INFO "MMCONFIG for " "domain %04x [bus %02x-%02x] " "only partially covers this bridge\n", cfg->segment, cfg->start_bus, cfg->end_bus); mutex_unlock(&pci_mmcfg_lock); return -EEXIST; } if (!addr) { mutex_unlock(&pci_mmcfg_lock); return -EINVAL; } rc = -EBUSY; cfg = pci_mmconfig_alloc(seg, start, end, addr); if (cfg == NULL) { dev_warn(dev, "fail to add MMCONFIG (out of memory)\n"); rc = -ENOMEM; } else if (!pci_mmcfg_check_reserved(dev, cfg, 0)) { dev_warn(dev, FW_BUG "MMCONFIG %pR isn't reserved\n", &cfg->res); } else { /* Insert resource if it's not in boot stage */ if (pci_mmcfg_running_state) tmp = insert_resource_conflict(&iomem_resource, &cfg->res); if (tmp) { dev_warn(dev, "MMCONFIG %pR conflicts with " "%s %pR\n", &cfg->res, tmp->name, tmp); } else if (pci_mmcfg_arch_map(cfg)) { dev_warn(dev, "fail to map MMCONFIG %pR.\n", &cfg->res); } else { list_add_sorted(cfg); dev_info(dev, "MMCONFIG at %pR (base %#lx)\n", &cfg->res, (unsigned long)addr); cfg = NULL; rc = 0; } } if (cfg) { if (cfg->res.parent) release_resource(&cfg->res); kfree(cfg); } mutex_unlock(&pci_mmcfg_lock); return rc; } /* Delete MMCFG information for host bridges */ int pci_mmconfig_delete(u16 seg, u8 start, u8 end) { struct pci_mmcfg_region *cfg; mutex_lock(&pci_mmcfg_lock); list_for_each_entry_rcu(cfg, &pci_mmcfg_list, list) if (cfg->segment == seg && cfg->start_bus == start && cfg->end_bus == end) { list_del_rcu(&cfg->list); synchronize_rcu(); pci_mmcfg_arch_unmap(cfg); if (cfg->res.parent) release_resource(&cfg->res); mutex_unlock(&pci_mmcfg_lock); kfree(cfg); return 0; } mutex_unlock(&pci_mmcfg_lock); return -ENOENT; } |