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static const int amd_erratum_400[]; static bool cpu_has_amd_erratum(struct cpuinfo_x86 *cpu, const int *erratum); /* * nodes_per_socket: Stores the number of nodes per socket. * Refer to Fam15h Models 00-0fh BKDG - CPUID Fn8000_001E_ECX * Node Identifiers[10:8] */ static u32 nodes_per_socket = 1; static inline int rdmsrl_amd_safe(unsigned msr, unsigned long long *p) { u32 gprs[8] = { 0 }; int err; WARN_ONCE((boot_cpu_data.x86 != 0xf), "%s should only be used on K8!\n", __func__); gprs[1] = msr; gprs[7] = 0x9c5a203a; err = rdmsr_safe_regs(gprs); *p = gprs[0] | ((u64)gprs[2] << 32); return err; } static inline int wrmsrl_amd_safe(unsigned msr, unsigned long long val) { u32 gprs[8] = { 0 }; WARN_ONCE((boot_cpu_data.x86 != 0xf), "%s should only be used on K8!\n", __func__); gprs[0] = (u32)val; gprs[1] = msr; gprs[2] = val >> 32; gprs[7] = 0x9c5a203a; return wrmsr_safe_regs(gprs); } /* * B step AMD K6 before B 9730xxxx have hardware bugs that can cause * misexecution of code under Linux. Owners of such processors should * contact AMD for precise details and a CPU swap. * * See http://www.multimania.com/poulot/k6bug.html * and section 2.6.2 of "AMD-K6 Processor Revision Guide - Model 6" * (Publication # 21266 Issue Date: August 1998) * * The following test is erm.. interesting. AMD neglected to up * the chip setting when fixing the bug but they also tweaked some * performance at the same time.. */ extern __visible void vide(void); __asm__(".globl vide\n" ".type vide, @function\n" ".align 4\n" "vide: ret\n"); static void init_amd_k5(struct cpuinfo_x86 *c) { #ifdef CONFIG_X86_32 /* * General Systems BIOSen alias the cpu frequency registers * of the Elan at 0x000df000. Unfortunately, one of the Linux * drivers subsequently pokes it, and changes the CPU speed. * Workaround : Remove the unneeded alias. */ #define CBAR (0xfffc) /* Configuration Base Address (32-bit) */ #define CBAR_ENB (0x80000000) #define CBAR_KEY (0X000000CB) if (c->x86_model == 9 || c->x86_model == 10) { if (inl(CBAR) & CBAR_ENB) outl(0 | CBAR_KEY, CBAR); } #endif } static void init_amd_k6(struct cpuinfo_x86 *c) { #ifdef CONFIG_X86_32 u32 l, h; int mbytes = get_num_physpages() >> (20-PAGE_SHIFT); if (c->x86_model < 6) { /* Based on AMD doc 20734R - June 2000 */ if (c->x86_model == 0) { clear_cpu_cap(c, X86_FEATURE_APIC); set_cpu_cap(c, X86_FEATURE_PGE); } return; } if (c->x86_model == 6 && c->x86_stepping == 1) { const int K6_BUG_LOOP = 1000000; int n; void (*f_vide)(void); u64 d, d2; pr_info("AMD K6 stepping B detected - "); /* * It looks like AMD fixed the 2.6.2 bug and improved indirect * calls at the same time. */ n = K6_BUG_LOOP; f_vide = vide; OPTIMIZER_HIDE_VAR(f_vide); d = rdtsc(); while (n--) f_vide(); d2 = rdtsc(); d = d2-d; if (d > 20*K6_BUG_LOOP) pr_cont("system stability may be impaired when more than 32 MB are used.\n"); else pr_cont("probably OK (after B9730xxxx).\n"); } /* K6 with old style WHCR */ if (c->x86_model < 8 || (c->x86_model == 8 && c->x86_stepping < 8)) { /* We can only write allocate on the low 508Mb */ if (mbytes > 508) mbytes = 508; rdmsr(MSR_K6_WHCR, l, h); if ((l&0x0000FFFF) == 0) { unsigned long flags; l = (1<<0)|((mbytes/4)<<1); local_irq_save(flags); wbinvd(); wrmsr(MSR_K6_WHCR, l, h); local_irq_restore(flags); pr_info("Enabling old style K6 write allocation for %d Mb\n", mbytes); } return; } if ((c->x86_model == 8 && c->x86_stepping > 7) || c->x86_model == 9 || c->x86_model == 13) { /* The more serious chips .. */ if (mbytes > 4092) mbytes = 4092; rdmsr(MSR_K6_WHCR, l, h); if ((l&0xFFFF0000) == 0) { unsigned long flags; l = ((mbytes>>2)<<22)|(1<<16); local_irq_save(flags); wbinvd(); wrmsr(MSR_K6_WHCR, l, h); local_irq_restore(flags); pr_info("Enabling new style K6 write allocation for %d Mb\n", mbytes); } return; } if (c->x86_model == 10) { /* AMD Geode LX is model 10 */ /* placeholder for any needed mods */ return; } #endif } static void init_amd_k7(struct cpuinfo_x86 *c) { #ifdef CONFIG_X86_32 u32 l, h; /* * Bit 15 of Athlon specific MSR 15, needs to be 0 * to enable SSE on Palomino/Morgan/Barton CPU's. * If the BIOS didn't enable it already, enable it here. */ if (c->x86_model >= 6 && c->x86_model <= 10) { if (!cpu_has(c, X86_FEATURE_XMM)) { pr_info("Enabling disabled K7/SSE Support.\n"); msr_clear_bit(MSR_K7_HWCR, 15); set_cpu_cap(c, X86_FEATURE_XMM); } } /* * It's been determined by AMD that Athlons since model 8 stepping 1 * are more robust with CLK_CTL set to 200xxxxx instead of 600xxxxx * As per AMD technical note 27212 0.2 */ if ((c->x86_model == 8 && c->x86_stepping >= 1) || (c->x86_model > 8)) { rdmsr(MSR_K7_CLK_CTL, l, h); if ((l & 0xfff00000) != 0x20000000) { pr_info("CPU: CLK_CTL MSR was %x. Reprogramming to %x\n", l, ((l & 0x000fffff)|0x20000000)); wrmsr(MSR_K7_CLK_CTL, (l & 0x000fffff)|0x20000000, h); } } set_cpu_cap(c, X86_FEATURE_K7); /* calling is from identify_secondary_cpu() ? */ if (!c->cpu_index) return; /* * Certain Athlons might work (for various values of 'work') in SMP * but they are not certified as MP capable. */ /* Athlon 660/661 is valid. */ if ((c->x86_model == 6) && ((c->x86_stepping == 0) || (c->x86_stepping == 1))) return; /* Duron 670 is valid */ if ((c->x86_model == 7) && (c->x86_stepping == 0)) return; /* * Athlon 662, Duron 671, and Athlon >model 7 have capability * bit. It's worth noting that the A5 stepping (662) of some * Athlon XP's have the MP bit set. * See http://www.heise.de/newsticker/data/jow-18.10.01-000 for * more. */ if (((c->x86_model == 6) && (c->x86_stepping >= 2)) || ((c->x86_model == 7) && (c->x86_stepping >= 1)) || (c->x86_model > 7)) if (cpu_has(c, X86_FEATURE_MP)) return; /* If we get here, not a certified SMP capable AMD system. */ /* * Don't taint if we are running SMP kernel on a single non-MP * approved Athlon */ WARN_ONCE(1, "WARNING: This combination of AMD" " processors is not suitable for SMP.\n"); add_taint(TAINT_CPU_OUT_OF_SPEC, LOCKDEP_NOW_UNRELIABLE); #endif } #ifdef CONFIG_NUMA /* * To workaround broken NUMA config. Read the comment in * srat_detect_node(). */ static int nearby_node(int apicid) { int i, node; for (i = apicid - 1; i >= 0; i--) { node = __apicid_to_node[i]; if (node != NUMA_NO_NODE && node_online(node)) return node; } for (i = apicid + 1; i < MAX_LOCAL_APIC; i++) { node = __apicid_to_node[i]; if (node != NUMA_NO_NODE && node_online(node)) return node; } return first_node(node_online_map); /* Shouldn't happen */ } #endif /* * Fix up cpu_core_id for pre-F17h systems to be in the * [0 .. cores_per_node - 1] range. Not really needed but * kept so as not to break existing setups. */ static void legacy_fixup_core_id(struct cpuinfo_x86 *c) { u32 cus_per_node; if (c->x86 >= 0x17) return; cus_per_node = c->x86_max_cores / nodes_per_socket; c->cpu_core_id %= cus_per_node; } /* * Fixup core topology information for * (1) AMD multi-node processors * Assumption: Number of cores in each internal node is the same. * (2) AMD processors supporting compute units */ static void amd_get_topology(struct cpuinfo_x86 *c) { u8 node_id; int cpu = smp_processor_id(); /* get information required for multi-node processors */ if (boot_cpu_has(X86_FEATURE_TOPOEXT)) { int err; u32 eax, ebx, ecx, edx; cpuid(0x8000001e, &eax, &ebx, &ecx, &edx); node_id = ecx & 0xff; smp_num_siblings = ((ebx >> 8) & 0xff) + 1; if (c->x86 == 0x15) c->cu_id = ebx & 0xff; if (c->x86 >= 0x17) { c->cpu_core_id = ebx & 0xff; if (smp_num_siblings > 1) c->x86_max_cores /= smp_num_siblings; } /* * In case leaf B is available, use it to derive * topology information. */ err = detect_extended_topology(c); if (!err) c->x86_coreid_bits = get_count_order(c->x86_max_cores); cacheinfo_amd_init_llc_id(c, cpu, node_id); } else if (cpu_has(c, X86_FEATURE_NODEID_MSR)) { u64 value; rdmsrl(MSR_FAM10H_NODE_ID, value); node_id = value & 7; per_cpu(cpu_llc_id, cpu) = node_id; } else return; if (nodes_per_socket > 1) { set_cpu_cap(c, X86_FEATURE_AMD_DCM); legacy_fixup_core_id(c); } } /* * On a AMD dual core setup the lower bits of the APIC id distinguish the cores. * Assumes number of cores is a power of two. */ static void amd_detect_cmp(struct cpuinfo_x86 *c) { unsigned bits; int cpu = smp_processor_id(); bits = c->x86_coreid_bits; /* Low order bits define the core id (index of core in socket) */ c->cpu_core_id = c->initial_apicid & ((1 << bits)-1); /* Convert the initial APIC ID into the socket ID */ c->phys_proc_id = c->initial_apicid >> bits; /* use socket ID also for last level cache */ per_cpu(cpu_llc_id, cpu) = c->phys_proc_id; } u16 amd_get_nb_id(int cpu) { return per_cpu(cpu_llc_id, cpu); } EXPORT_SYMBOL_GPL(amd_get_nb_id); u32 amd_get_nodes_per_socket(void) { return nodes_per_socket; } EXPORT_SYMBOL_GPL(amd_get_nodes_per_socket); static void srat_detect_node(struct cpuinfo_x86 *c) { #ifdef CONFIG_NUMA int cpu = smp_processor_id(); int node; unsigned apicid = c->apicid; node = numa_cpu_node(cpu); if (node == NUMA_NO_NODE) node = per_cpu(cpu_llc_id, cpu); /* * On multi-fabric platform (e.g. Numascale NumaChip) a * platform-specific handler needs to be called to fixup some * IDs of the CPU. */ if (x86_cpuinit.fixup_cpu_id) x86_cpuinit.fixup_cpu_id(c, node); if (!node_online(node)) { /* * Two possibilities here: * * - The CPU is missing memory and no node was created. In * that case try picking one from a nearby CPU. * * - The APIC IDs differ from the HyperTransport node IDs * which the K8 northbridge parsing fills in. Assume * they are all increased by a constant offset, but in * the same order as the HT nodeids. If that doesn't * result in a usable node fall back to the path for the * previous case. * * This workaround operates directly on the mapping between * APIC ID and NUMA node, assuming certain relationship * between APIC ID, HT node ID and NUMA topology. As going * through CPU mapping may alter the outcome, directly * access __apicid_to_node[]. */ int ht_nodeid = c->initial_apicid; if (__apicid_to_node[ht_nodeid] != NUMA_NO_NODE) node = __apicid_to_node[ht_nodeid]; /* Pick a nearby node */ if (!node_online(node)) node = nearby_node(apicid); } numa_set_node(cpu, node); #endif } static void early_init_amd_mc(struct cpuinfo_x86 *c) { #ifdef CONFIG_SMP unsigned bits, ecx; /* Multi core CPU? */ if (c->extended_cpuid_level < 0x80000008) return; ecx = cpuid_ecx(0x80000008); c->x86_max_cores = (ecx & 0xff) + 1; /* CPU telling us the core id bits shift? */ bits = (ecx >> 12) & 0xF; /* Otherwise recompute */ if (bits == 0) { while ((1 << bits) < c->x86_max_cores) bits++; } c->x86_coreid_bits = bits; #endif } static void bsp_init_amd(struct cpuinfo_x86 *c) { #ifdef CONFIG_X86_64 if (c->x86 >= 0xf) { unsigned long long tseg; /* * Split up direct mapping around the TSEG SMM area. * Don't do it for gbpages because there seems very little * benefit in doing so. */ if (!rdmsrl_safe(MSR_K8_TSEG_ADDR, &tseg)) { unsigned long pfn = tseg >> PAGE_SHIFT; pr_debug("tseg: %010llx\n", tseg); if (pfn_range_is_mapped(pfn, pfn + 1)) set_memory_4k((unsigned long)__va(tseg), 1); } } #endif if (cpu_has(c, X86_FEATURE_CONSTANT_TSC)) { if (c->x86 > 0x10 || (c->x86 == 0x10 && c->x86_model >= 0x2)) { u64 val; rdmsrl(MSR_K7_HWCR, val); if (!(val & BIT(24))) pr_warn(FW_BUG "TSC doesn't count with P0 frequency!\n"); } } if (c->x86 == 0x15) { unsigned long upperbit; u32 cpuid, assoc; cpuid = cpuid_edx(0x80000005); assoc = cpuid >> 16 & 0xff; upperbit = ((cpuid >> 24) << 10) / assoc; va_align.mask = (upperbit - 1) & PAGE_MASK; va_align.flags = ALIGN_VA_32 | ALIGN_VA_64; /* A random value per boot for bit slice [12:upper_bit) */ va_align.bits = get_random_int() & va_align.mask; } if (cpu_has(c, X86_FEATURE_MWAITX)) use_mwaitx_delay(); if (boot_cpu_has(X86_FEATURE_TOPOEXT)) { u32 ecx; ecx = cpuid_ecx(0x8000001e); nodes_per_socket = ((ecx >> 8) & 7) + 1; } else if (boot_cpu_has(X86_FEATURE_NODEID_MSR)) { u64 value; rdmsrl(MSR_FAM10H_NODE_ID, value); nodes_per_socket = ((value >> 3) & 7) + 1; } if (c->x86 >= 0x15 && c->x86 <= 0x17) { unsigned int bit; switch (c->x86) { case 0x15: bit = 54; break; case 0x16: bit = 33; break; case 0x17: bit = 10; break; default: return; } /* * Try to cache the base value so further operations can * avoid RMW. If that faults, do not enable SSBD. */ if (!rdmsrl_safe(MSR_AMD64_LS_CFG, &x86_amd_ls_cfg_base)) { setup_force_cpu_cap(X86_FEATURE_LS_CFG_SSBD); setup_force_cpu_cap(X86_FEATURE_SSBD); x86_amd_ls_cfg_ssbd_mask = 1ULL << bit; } } } static void early_detect_mem_encrypt(struct cpuinfo_x86 *c) { u64 msr; /* * BIOS support is required for SME and SEV. * For SME: If BIOS has enabled SME then adjust x86_phys_bits by * the SME physical address space reduction value. * If BIOS has not enabled SME then don't advertise the * SME feature (set in scattered.c). * For SEV: If BIOS has not enabled SEV then don't advertise the * SEV feature (set in scattered.c). * * In all cases, since support for SME and SEV requires long mode, * don't advertise the feature under CONFIG_X86_32. */ if (cpu_has(c, X86_FEATURE_SME) || cpu_has(c, X86_FEATURE_SEV)) { /* Check if memory encryption is enabled */ rdmsrl(MSR_K8_SYSCFG, msr); if (!(msr & MSR_K8_SYSCFG_MEM_ENCRYPT)) goto clear_all; /* * Always adjust physical address bits. Even though this * will be a value above 32-bits this is still done for * CONFIG_X86_32 so that accurate values are reported. */ c->x86_phys_bits -= (cpuid_ebx(0x8000001f) >> 6) & 0x3f; if (IS_ENABLED(CONFIG_X86_32)) goto clear_all; rdmsrl(MSR_K7_HWCR, msr); if (!(msr & MSR_K7_HWCR_SMMLOCK)) goto clear_sev; return; clear_all: clear_cpu_cap(c, X86_FEATURE_SME); clear_sev: clear_cpu_cap(c, X86_FEATURE_SEV); } } static void early_init_amd(struct cpuinfo_x86 *c) { u32 dummy; early_init_amd_mc(c); rdmsr_safe(MSR_AMD64_PATCH_LEVEL, &c->microcode, &dummy); /* * c->x86_power is 8000_0007 edx. Bit 8 is TSC runs at constant rate * with P/T states and does not stop in deep C-states */ if (c->x86_power & (1 << 8)) { set_cpu_cap(c, X86_FEATURE_CONSTANT_TSC); set_cpu_cap(c, X86_FEATURE_NONSTOP_TSC); } /* Bit 12 of 8000_0007 edx is accumulated power mechanism. */ if (c->x86_power & BIT(12)) set_cpu_cap(c, X86_FEATURE_ACC_POWER); #ifdef CONFIG_X86_64 set_cpu_cap(c, X86_FEATURE_SYSCALL32); #else /* Set MTRR capability flag if appropriate */ if (c->x86 == 5) if (c->x86_model == 13 || c->x86_model == 9 || (c->x86_model == 8 && c->x86_stepping >= 8)) set_cpu_cap(c, X86_FEATURE_K6_MTRR); #endif #if defined(CONFIG_X86_LOCAL_APIC) && defined(CONFIG_PCI) /* * ApicID can always be treated as an 8-bit value for AMD APIC versions * >= 0x10, but even old K8s came out of reset with version 0x10. So, we * can safely set X86_FEATURE_EXTD_APICID unconditionally for families * after 16h. */ if (boot_cpu_has(X86_FEATURE_APIC)) { if (c->x86 > 0x16) set_cpu_cap(c, X86_FEATURE_EXTD_APICID); else if (c->x86 >= 0xf) { /* check CPU config space for extended APIC ID */ unsigned int val; val = read_pci_config(0, 24, 0, 0x68); if ((val >> 17 & 0x3) == 0x3) set_cpu_cap(c, X86_FEATURE_EXTD_APICID); } } #endif /* * This is only needed to tell the kernel whether to use VMCALL * and VMMCALL. VMMCALL is never executed except under virt, so * we can set it unconditionally. */ set_cpu_cap(c, X86_FEATURE_VMMCALL); /* F16h erratum 793, CVE-2013-6885 */ if (c->x86 == 0x16 && c->x86_model <= 0xf) msr_set_bit(MSR_AMD64_LS_CFG, 15); /* * Check whether the machine is affected by erratum 400. This is * used to select the proper idle routine and to enable the check * whether the machine is affected in arch_post_acpi_init(), which * sets the X86_BUG_AMD_APIC_C1E bug depending on the MSR check. */ if (cpu_has_amd_erratum(c, amd_erratum_400)) set_cpu_bug(c, X86_BUG_AMD_E400); early_detect_mem_encrypt(c); } static void init_amd_k8(struct cpuinfo_x86 *c) { u32 level; u64 value; /* On C+ stepping K8 rep microcode works well for copy/memset */ level = cpuid_eax(1); if ((level >= 0x0f48 && level < 0x0f50) || level >= 0x0f58) set_cpu_cap(c, X86_FEATURE_REP_GOOD); /* * Some BIOSes incorrectly force this feature, but only K8 revision D * (model = 0x14) and later actually support it. * (AMD Erratum #110, docId: 25759). */ if (c->x86_model < 0x14 && cpu_has(c, X86_FEATURE_LAHF_LM)) { clear_cpu_cap(c, X86_FEATURE_LAHF_LM); if (!rdmsrl_amd_safe(0xc001100d, &value)) { value &= ~BIT_64(32); wrmsrl_amd_safe(0xc001100d, value); } } if (!c->x86_model_id[0]) strcpy(c->x86_model_id, "Hammer"); #ifdef CONFIG_SMP /* * Disable TLB flush filter by setting HWCR.FFDIS on K8 * bit 6 of msr C001_0015 * * Errata 63 for SH-B3 steppings * Errata 122 for all steppings (F+ have it disabled by default) */ msr_set_bit(MSR_K7_HWCR, 6); #endif set_cpu_bug(c, X86_BUG_SWAPGS_FENCE); } static void init_amd_gh(struct cpuinfo_x86 *c) { #ifdef CONFIG_MMCONF_FAM10H /* do this for boot cpu */ if (c == &boot_cpu_data) check_enable_amd_mmconf_dmi(); fam10h_check_enable_mmcfg(); #endif /* * Disable GART TLB Walk Errors on Fam10h. We do this here because this * is always needed when GART is enabled, even in a kernel which has no * MCE support built in. BIOS should disable GartTlbWlk Errors already. * If it doesn't, we do it here as suggested by the BKDG. * * Fixes: https://bugzilla.kernel.org/show_bug.cgi?id=33012 */ msr_set_bit(MSR_AMD64_MCx_MASK(4), 10); /* * On family 10h BIOS may not have properly enabled WC+ support, causing * it to be converted to CD memtype. This may result in performance * degradation for certain nested-paging guests. Prevent this conversion * by clearing bit 24 in MSR_AMD64_BU_CFG2. * * NOTE: we want to use the _safe accessors so as not to #GP kvm * guests on older kvm hosts. */ msr_clear_bit(MSR_AMD64_BU_CFG2, 24); if (cpu_has_amd_erratum(c, amd_erratum_383)) set_cpu_bug(c, X86_BUG_AMD_TLB_MMATCH); } #define MSR_AMD64_DE_CFG 0xC0011029 static void init_amd_ln(struct cpuinfo_x86 *c) { /* * Apply erratum 665 fix unconditionally so machines without a BIOS * fix work. */ msr_set_bit(MSR_AMD64_DE_CFG, 31); } static void init_amd_bd(struct cpuinfo_x86 *c) { u64 value; /* re-enable TopologyExtensions if switched off by BIOS */ if ((c->x86_model >= 0x10) && (c->x86_model <= 0x6f) && !cpu_has(c, X86_FEATURE_TOPOEXT)) { if (msr_set_bit(0xc0011005, 54) > 0) { rdmsrl(0xc0011005, value); if (value & BIT_64(54)) { set_cpu_cap(c, X86_FEATURE_TOPOEXT); pr_info_once(FW_INFO "CPU: Re-enabling disabled Topology Extensions Support.\n"); } } } /* * The way access filter has a performance penalty on some workloads. * Disable it on the affected CPUs. */ if ((c->x86_model >= 0x02) && (c->x86_model < 0x20)) { if (!rdmsrl_safe(MSR_F15H_IC_CFG, &value) && !(value & 0x1E)) { value |= 0x1E; wrmsrl_safe(MSR_F15H_IC_CFG, value); } } } static void init_amd_zn(struct cpuinfo_x86 *c) { set_cpu_cap(c, X86_FEATURE_ZEN); /* * Fix erratum 1076: CPB feature bit not being set in CPUID. It affects * all up to and including B1. */ if (c->x86_model <= 1 && c->x86_stepping <= 1) set_cpu_cap(c, X86_FEATURE_CPB); } static void init_amd(struct cpuinfo_x86 *c) { early_init_amd(c); /* * Bit 31 in normal CPUID used for nonstandard 3DNow ID; * 3DNow is IDd by bit 31 in extended CPUID (1*32+31) anyway */ clear_cpu_cap(c, 0*32+31); if (c->x86 >= 0x10) set_cpu_cap(c, X86_FEATURE_REP_GOOD); /* get apicid instead of initial apic id from cpuid */ c->apicid = hard_smp_processor_id(); /* K6s reports MCEs but don't actually have all the MSRs */ if (c->x86 < 6) clear_cpu_cap(c, X86_FEATURE_MCE); switch (c->x86) { case 4: init_amd_k5(c); break; case 5: init_amd_k6(c); break; case 6: init_amd_k7(c); break; case 0xf: init_amd_k8(c); break; case 0x10: init_amd_gh(c); break; case 0x12: init_amd_ln(c); break; case 0x15: init_amd_bd(c); break; case 0x17: init_amd_zn(c); break; } /* * Enable workaround for FXSAVE leak on CPUs * without a XSaveErPtr feature */ if ((c->x86 >= 6) && (!cpu_has(c, X86_FEATURE_XSAVEERPTR))) set_cpu_bug(c, X86_BUG_FXSAVE_LEAK); cpu_detect_cache_sizes(c); /* Multi core CPU? */ if (c->extended_cpuid_level >= 0x80000008) { amd_detect_cmp(c); amd_get_topology(c); srat_detect_node(c); } #ifdef CONFIG_X86_32 detect_ht(c); #endif init_amd_cacheinfo(c); if (c->x86 >= 0xf) set_cpu_cap(c, X86_FEATURE_K8); if (cpu_has(c, X86_FEATURE_XMM2)) { unsigned long long val; int ret; /* * A serializing LFENCE has less overhead than MFENCE, so * use it for execution serialization. On families which * don't have that MSR, LFENCE is already serializing. * msr_set_bit() uses the safe accessors, too, even if the MSR * is not present. */ msr_set_bit(MSR_F10H_DECFG, MSR_F10H_DECFG_LFENCE_SERIALIZE_BIT); /* * Verify that the MSR write was successful (could be running * under a hypervisor) and only then assume that LFENCE is * serializing. */ ret = rdmsrl_safe(MSR_F10H_DECFG, &val); if (!ret && (val & MSR_F10H_DECFG_LFENCE_SERIALIZE)) { /* A serializing LFENCE stops RDTSC speculation */ set_cpu_cap(c, X86_FEATURE_LFENCE_RDTSC); } else { /* MFENCE stops RDTSC speculation */ set_cpu_cap(c, X86_FEATURE_MFENCE_RDTSC); } } /* * Family 0x12 and above processors have APIC timer * running in deep C states. */ if (c->x86 > 0x11) set_cpu_cap(c, X86_FEATURE_ARAT); /* 3DNow or LM implies PREFETCHW */ if (!cpu_has(c, X86_FEATURE_3DNOWPREFETCH)) if (cpu_has(c, X86_FEATURE_3DNOW) || cpu_has(c, X86_FEATURE_LM)) set_cpu_cap(c, X86_FEATURE_3DNOWPREFETCH); /* AMD CPUs don't reset SS attributes on SYSRET, Xen does. */ if (!cpu_has(c, X86_FEATURE_XENPV)) set_cpu_bug(c, X86_BUG_SYSRET_SS_ATTRS); } #ifdef CONFIG_X86_32 static unsigned int amd_size_cache(struct cpuinfo_x86 *c, unsigned int size) { /* AMD errata T13 (order #21922) */ if ((c->x86 == 6)) { /* Duron Rev A0 */ if (c->x86_model == 3 && c->x86_stepping == 0) size = 64; /* Tbird rev A1/A2 */ if (c->x86_model == 4 && (c->x86_stepping == 0 || c->x86_stepping == 1)) size = 256; } return size; } #endif static void cpu_detect_tlb_amd(struct cpuinfo_x86 *c) { u32 ebx, eax, ecx, edx; u16 mask = 0xfff; if (c->x86 < 0xf) return; if (c->extended_cpuid_level < 0x80000006) return; cpuid(0x80000006, &eax, &ebx, &ecx, &edx); tlb_lld_4k[ENTRIES] = (ebx >> 16) & mask; tlb_lli_4k[ENTRIES] = ebx & mask; /* * K8 doesn't have 2M/4M entries in the L2 TLB so read out the L1 TLB * characteristics from the CPUID function 0x80000005 instead. */ if (c->x86 == 0xf) { cpuid(0x80000005, &eax, &ebx, &ecx, &edx); mask = 0xff; } /* Handle DTLB 2M and 4M sizes, fall back to L1 if L2 is disabled */ if (!((eax >> 16) & mask)) tlb_lld_2m[ENTRIES] = (cpuid_eax(0x80000005) >> 16) & 0xff; else tlb_lld_2m[ENTRIES] = (eax >> 16) & mask; /* a 4M entry uses two 2M entries */ tlb_lld_4m[ENTRIES] = tlb_lld_2m[ENTRIES] >> 1; /* Handle ITLB 2M and 4M sizes, fall back to L1 if L2 is disabled */ if (!(eax & mask)) { /* Erratum 658 */ if (c->x86 == 0x15 && c->x86_model <= 0x1f) { tlb_lli_2m[ENTRIES] = 1024; } else { cpuid(0x80000005, &eax, &ebx, &ecx, &edx); tlb_lli_2m[ENTRIES] = eax & 0xff; } } else tlb_lli_2m[ENTRIES] = eax & mask; tlb_lli_4m[ENTRIES] = tlb_lli_2m[ENTRIES] >> 1; } static const struct cpu_dev amd_cpu_dev = { .c_vendor = "AMD", .c_ident = { "AuthenticAMD" }, #ifdef CONFIG_X86_32 .legacy_models = { { .family = 4, .model_names = { [3] = "486 DX/2", [7] = "486 DX/2-WB", [8] = "486 DX/4", [9] = "486 DX/4-WB", [14] = "Am5x86-WT", [15] = "Am5x86-WB" } }, }, .legacy_cache_size = amd_size_cache, #endif .c_early_init = early_init_amd, .c_detect_tlb = cpu_detect_tlb_amd, .c_bsp_init = bsp_init_amd, .c_init = init_amd, .c_x86_vendor = X86_VENDOR_AMD, }; cpu_dev_register(amd_cpu_dev); /* * AMD errata checking * * Errata are defined as arrays of ints using the AMD_LEGACY_ERRATUM() or * AMD_OSVW_ERRATUM() macros. The latter is intended for newer errata that * have an OSVW id assigned, which it takes as first argument. Both take a * variable number of family-specific model-stepping ranges created by * AMD_MODEL_RANGE(). * * Example: * * const int amd_erratum_319[] = * AMD_LEGACY_ERRATUM(AMD_MODEL_RANGE(0x10, 0x2, 0x1, 0x4, 0x2), * AMD_MODEL_RANGE(0x10, 0x8, 0x0, 0x8, 0x0), * AMD_MODEL_RANGE(0x10, 0x9, 0x0, 0x9, 0x0)); */ #define AMD_LEGACY_ERRATUM(...) { -1, __VA_ARGS__, 0 } #define AMD_OSVW_ERRATUM(osvw_id, ...) { osvw_id, __VA_ARGS__, 0 } #define AMD_MODEL_RANGE(f, m_start, s_start, m_end, s_end) \ ((f << 24) | (m_start << 16) | (s_start << 12) | (m_end << 4) | (s_end)) #define AMD_MODEL_RANGE_FAMILY(range) (((range) >> 24) & 0xff) #define AMD_MODEL_RANGE_START(range) (((range) >> 12) & 0xfff) #define AMD_MODEL_RANGE_END(range) ((range) & 0xfff) static const int amd_erratum_400[] = AMD_OSVW_ERRATUM(1, AMD_MODEL_RANGE(0xf, 0x41, 0x2, 0xff, 0xf), AMD_MODEL_RANGE(0x10, 0x2, 0x1, 0xff, 0xf)); static const int amd_erratum_383[] = AMD_OSVW_ERRATUM(3, AMD_MODEL_RANGE(0x10, 0, 0, 0xff, 0xf)); static bool cpu_has_amd_erratum(struct cpuinfo_x86 *cpu, const int *erratum) { int osvw_id = *erratum++; u32 range; u32 ms; if (osvw_id >= 0 && osvw_id < 65536 && cpu_has(cpu, X86_FEATURE_OSVW)) { u64 osvw_len; rdmsrl(MSR_AMD64_OSVW_ID_LENGTH, osvw_len); if (osvw_id < osvw_len) { u64 osvw_bits; rdmsrl(MSR_AMD64_OSVW_STATUS + (osvw_id >> 6), osvw_bits); return osvw_bits & (1ULL << (osvw_id & 0x3f)); } } /* OSVW unavailable or ID unknown, match family-model-stepping range */ ms = (cpu->x86_model << 4) | cpu->x86_stepping; while ((range = *erratum++)) if ((cpu->x86 == AMD_MODEL_RANGE_FAMILY(range)) && (ms >= AMD_MODEL_RANGE_START(range)) && (ms <= AMD_MODEL_RANGE_END(range))) return true; return false; } void set_dr_addr_mask(unsigned long mask, int dr) { if (!boot_cpu_has(X86_FEATURE_BPEXT)) return; switch (dr) { case 0: wrmsr(MSR_F16H_DR0_ADDR_MASK, mask, 0); break; case 1: case 2: case 3: wrmsr(MSR_F16H_DR1_ADDR_MASK - 1 + dr, mask, 0); break; default: break; } } |