Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yazen Ghannam | 1510 | 98.56% | 7 | 87.50% |
Smita Koralahalli | 22 | 1.44% | 1 | 12.50% |
Total | 1532 | 8 |
// SPDX-License-Identifier: GPL-2.0 // Copyright (C) 2018, Advanced Micro Devices, Inc. #include <linux/cper.h> #include <linux/acpi.h> /* * We don't need a "CPER_IA" prefix since these are all locally defined. * This will save us a lot of line space. */ #define VALID_LAPIC_ID BIT_ULL(0) #define VALID_CPUID_INFO BIT_ULL(1) #define VALID_PROC_ERR_INFO_NUM(bits) (((bits) & GENMASK_ULL(7, 2)) >> 2) #define VALID_PROC_CXT_INFO_NUM(bits) (((bits) & GENMASK_ULL(13, 8)) >> 8) #define INFO_ERR_STRUCT_TYPE_CACHE \ GUID_INIT(0xA55701F5, 0xE3EF, 0x43DE, 0xAC, 0x72, 0x24, 0x9B, \ 0x57, 0x3F, 0xAD, 0x2C) #define INFO_ERR_STRUCT_TYPE_TLB \ GUID_INIT(0xFC06B535, 0x5E1F, 0x4562, 0x9F, 0x25, 0x0A, 0x3B, \ 0x9A, 0xDB, 0x63, 0xC3) #define INFO_ERR_STRUCT_TYPE_BUS \ GUID_INIT(0x1CF3F8B3, 0xC5B1, 0x49a2, 0xAA, 0x59, 0x5E, 0xEF, \ 0x92, 0xFF, 0xA6, 0x3C) #define INFO_ERR_STRUCT_TYPE_MS \ GUID_INIT(0x48AB7F57, 0xDC34, 0x4f6c, 0xA7, 0xD3, 0xB0, 0xB5, \ 0xB0, 0xA7, 0x43, 0x14) #define INFO_VALID_CHECK_INFO BIT_ULL(0) #define INFO_VALID_TARGET_ID BIT_ULL(1) #define INFO_VALID_REQUESTOR_ID BIT_ULL(2) #define INFO_VALID_RESPONDER_ID BIT_ULL(3) #define INFO_VALID_IP BIT_ULL(4) #define CHECK_VALID_TRANS_TYPE BIT_ULL(0) #define CHECK_VALID_OPERATION BIT_ULL(1) #define CHECK_VALID_LEVEL BIT_ULL(2) #define CHECK_VALID_PCC BIT_ULL(3) #define CHECK_VALID_UNCORRECTED BIT_ULL(4) #define CHECK_VALID_PRECISE_IP BIT_ULL(5) #define CHECK_VALID_RESTARTABLE_IP BIT_ULL(6) #define CHECK_VALID_OVERFLOW BIT_ULL(7) #define CHECK_VALID_BUS_PART_TYPE BIT_ULL(8) #define CHECK_VALID_BUS_TIME_OUT BIT_ULL(9) #define CHECK_VALID_BUS_ADDR_SPACE BIT_ULL(10) #define CHECK_VALID_BITS(check) (((check) & GENMASK_ULL(15, 0))) #define CHECK_TRANS_TYPE(check) (((check) & GENMASK_ULL(17, 16)) >> 16) #define CHECK_OPERATION(check) (((check) & GENMASK_ULL(21, 18)) >> 18) #define CHECK_LEVEL(check) (((check) & GENMASK_ULL(24, 22)) >> 22) #define CHECK_PCC BIT_ULL(25) #define CHECK_UNCORRECTED BIT_ULL(26) #define CHECK_PRECISE_IP BIT_ULL(27) #define CHECK_RESTARTABLE_IP BIT_ULL(28) #define CHECK_OVERFLOW BIT_ULL(29) #define CHECK_BUS_PART_TYPE(check) (((check) & GENMASK_ULL(31, 30)) >> 30) #define CHECK_BUS_TIME_OUT BIT_ULL(32) #define CHECK_BUS_ADDR_SPACE(check) (((check) & GENMASK_ULL(34, 33)) >> 33) #define CHECK_VALID_MS_ERR_TYPE BIT_ULL(0) #define CHECK_VALID_MS_PCC BIT_ULL(1) #define CHECK_VALID_MS_UNCORRECTED BIT_ULL(2) #define CHECK_VALID_MS_PRECISE_IP BIT_ULL(3) #define CHECK_VALID_MS_RESTARTABLE_IP BIT_ULL(4) #define CHECK_VALID_MS_OVERFLOW BIT_ULL(5) #define CHECK_MS_ERR_TYPE(check) (((check) & GENMASK_ULL(18, 16)) >> 16) #define CHECK_MS_PCC BIT_ULL(19) #define CHECK_MS_UNCORRECTED BIT_ULL(20) #define CHECK_MS_PRECISE_IP BIT_ULL(21) #define CHECK_MS_RESTARTABLE_IP BIT_ULL(22) #define CHECK_MS_OVERFLOW BIT_ULL(23) #define CTX_TYPE_MSR 1 #define CTX_TYPE_MMREG 7 enum err_types { ERR_TYPE_CACHE = 0, ERR_TYPE_TLB, ERR_TYPE_BUS, ERR_TYPE_MS, N_ERR_TYPES }; static enum err_types cper_get_err_type(const guid_t *err_type) { if (guid_equal(err_type, &INFO_ERR_STRUCT_TYPE_CACHE)) return ERR_TYPE_CACHE; else if (guid_equal(err_type, &INFO_ERR_STRUCT_TYPE_TLB)) return ERR_TYPE_TLB; else if (guid_equal(err_type, &INFO_ERR_STRUCT_TYPE_BUS)) return ERR_TYPE_BUS; else if (guid_equal(err_type, &INFO_ERR_STRUCT_TYPE_MS)) return ERR_TYPE_MS; else return N_ERR_TYPES; } static const char * const ia_check_trans_type_strs[] = { "Instruction", "Data Access", "Generic", }; static const char * const ia_check_op_strs[] = { "generic error", "generic read", "generic write", "data read", "data write", "instruction fetch", "prefetch", "eviction", "snoop", }; static const char * const ia_check_bus_part_type_strs[] = { "Local Processor originated request", "Local Processor responded to request", "Local Processor observed", "Generic", }; static const char * const ia_check_bus_addr_space_strs[] = { "Memory Access", "Reserved", "I/O", "Other Transaction", }; static const char * const ia_check_ms_error_type_strs[] = { "No Error", "Unclassified", "Microcode ROM Parity Error", "External Error", "FRC Error", "Internal Unclassified", }; static const char * const ia_reg_ctx_strs[] = { "Unclassified Data", "MSR Registers (Machine Check and other MSRs)", "32-bit Mode Execution Context", "64-bit Mode Execution Context", "FXSAVE Context", "32-bit Mode Debug Registers (DR0-DR7)", "64-bit Mode Debug Registers (DR0-DR7)", "Memory Mapped Registers", }; static inline void print_bool(char *str, const char *pfx, u64 check, u64 bit) { printk("%s%s: %s\n", pfx, str, (check & bit) ? "true" : "false"); } static void print_err_info_ms(const char *pfx, u16 validation_bits, u64 check) { if (validation_bits & CHECK_VALID_MS_ERR_TYPE) { u8 err_type = CHECK_MS_ERR_TYPE(check); printk("%sError Type: %u, %s\n", pfx, err_type, err_type < ARRAY_SIZE(ia_check_ms_error_type_strs) ? ia_check_ms_error_type_strs[err_type] : "unknown"); } if (validation_bits & CHECK_VALID_MS_PCC) print_bool("Processor Context Corrupt", pfx, check, CHECK_MS_PCC); if (validation_bits & CHECK_VALID_MS_UNCORRECTED) print_bool("Uncorrected", pfx, check, CHECK_MS_UNCORRECTED); if (validation_bits & CHECK_VALID_MS_PRECISE_IP) print_bool("Precise IP", pfx, check, CHECK_MS_PRECISE_IP); if (validation_bits & CHECK_VALID_MS_RESTARTABLE_IP) print_bool("Restartable IP", pfx, check, CHECK_MS_RESTARTABLE_IP); if (validation_bits & CHECK_VALID_MS_OVERFLOW) print_bool("Overflow", pfx, check, CHECK_MS_OVERFLOW); } static void print_err_info(const char *pfx, u8 err_type, u64 check) { u16 validation_bits = CHECK_VALID_BITS(check); /* * The MS Check structure varies a lot from the others, so use a * separate function for decoding. */ if (err_type == ERR_TYPE_MS) return print_err_info_ms(pfx, validation_bits, check); if (validation_bits & CHECK_VALID_TRANS_TYPE) { u8 trans_type = CHECK_TRANS_TYPE(check); printk("%sTransaction Type: %u, %s\n", pfx, trans_type, trans_type < ARRAY_SIZE(ia_check_trans_type_strs) ? ia_check_trans_type_strs[trans_type] : "unknown"); } if (validation_bits & CHECK_VALID_OPERATION) { u8 op = CHECK_OPERATION(check); /* * CACHE has more operation types than TLB or BUS, though the * name and the order are the same. */ u8 max_ops = (err_type == ERR_TYPE_CACHE) ? 9 : 7; printk("%sOperation: %u, %s\n", pfx, op, op < max_ops ? ia_check_op_strs[op] : "unknown"); } if (validation_bits & CHECK_VALID_LEVEL) printk("%sLevel: %llu\n", pfx, CHECK_LEVEL(check)); if (validation_bits & CHECK_VALID_PCC) print_bool("Processor Context Corrupt", pfx, check, CHECK_PCC); if (validation_bits & CHECK_VALID_UNCORRECTED) print_bool("Uncorrected", pfx, check, CHECK_UNCORRECTED); if (validation_bits & CHECK_VALID_PRECISE_IP) print_bool("Precise IP", pfx, check, CHECK_PRECISE_IP); if (validation_bits & CHECK_VALID_RESTARTABLE_IP) print_bool("Restartable IP", pfx, check, CHECK_RESTARTABLE_IP); if (validation_bits & CHECK_VALID_OVERFLOW) print_bool("Overflow", pfx, check, CHECK_OVERFLOW); if (err_type != ERR_TYPE_BUS) return; if (validation_bits & CHECK_VALID_BUS_PART_TYPE) { u8 part_type = CHECK_BUS_PART_TYPE(check); printk("%sParticipation Type: %u, %s\n", pfx, part_type, part_type < ARRAY_SIZE(ia_check_bus_part_type_strs) ? ia_check_bus_part_type_strs[part_type] : "unknown"); } if (validation_bits & CHECK_VALID_BUS_TIME_OUT) print_bool("Time Out", pfx, check, CHECK_BUS_TIME_OUT); if (validation_bits & CHECK_VALID_BUS_ADDR_SPACE) { u8 addr_space = CHECK_BUS_ADDR_SPACE(check); printk("%sAddress Space: %u, %s\n", pfx, addr_space, addr_space < ARRAY_SIZE(ia_check_bus_addr_space_strs) ? ia_check_bus_addr_space_strs[addr_space] : "unknown"); } } void cper_print_proc_ia(const char *pfx, const struct cper_sec_proc_ia *proc) { int i; struct cper_ia_err_info *err_info; struct cper_ia_proc_ctx *ctx_info; char newpfx[64], infopfx[64]; u8 err_type; if (proc->validation_bits & VALID_LAPIC_ID) printk("%sLocal APIC_ID: 0x%llx\n", pfx, proc->lapic_id); if (proc->validation_bits & VALID_CPUID_INFO) { printk("%sCPUID Info:\n", pfx); print_hex_dump(pfx, "", DUMP_PREFIX_OFFSET, 16, 4, proc->cpuid, sizeof(proc->cpuid), 0); } snprintf(newpfx, sizeof(newpfx), "%s ", pfx); err_info = (struct cper_ia_err_info *)(proc + 1); for (i = 0; i < VALID_PROC_ERR_INFO_NUM(proc->validation_bits); i++) { printk("%sError Information Structure %d:\n", pfx, i); err_type = cper_get_err_type(&err_info->err_type); printk("%sError Structure Type: %s\n", newpfx, err_type < ARRAY_SIZE(cper_proc_error_type_strs) ? cper_proc_error_type_strs[err_type] : "unknown"); if (err_type >= N_ERR_TYPES) { printk("%sError Structure Type: %pUl\n", newpfx, &err_info->err_type); } if (err_info->validation_bits & INFO_VALID_CHECK_INFO) { printk("%sCheck Information: 0x%016llx\n", newpfx, err_info->check_info); if (err_type < N_ERR_TYPES) { snprintf(infopfx, sizeof(infopfx), "%s ", newpfx); print_err_info(infopfx, err_type, err_info->check_info); } } if (err_info->validation_bits & INFO_VALID_TARGET_ID) { printk("%sTarget Identifier: 0x%016llx\n", newpfx, err_info->target_id); } if (err_info->validation_bits & INFO_VALID_REQUESTOR_ID) { printk("%sRequestor Identifier: 0x%016llx\n", newpfx, err_info->requestor_id); } if (err_info->validation_bits & INFO_VALID_RESPONDER_ID) { printk("%sResponder Identifier: 0x%016llx\n", newpfx, err_info->responder_id); } if (err_info->validation_bits & INFO_VALID_IP) { printk("%sInstruction Pointer: 0x%016llx\n", newpfx, err_info->ip); } err_info++; } ctx_info = (struct cper_ia_proc_ctx *)err_info; for (i = 0; i < VALID_PROC_CXT_INFO_NUM(proc->validation_bits); i++) { int size = sizeof(*ctx_info) + ctx_info->reg_arr_size; int groupsize = 4; printk("%sContext Information Structure %d:\n", pfx, i); printk("%sRegister Context Type: %s\n", newpfx, ctx_info->reg_ctx_type < ARRAY_SIZE(ia_reg_ctx_strs) ? ia_reg_ctx_strs[ctx_info->reg_ctx_type] : "unknown"); printk("%sRegister Array Size: 0x%04x\n", newpfx, ctx_info->reg_arr_size); if (ctx_info->reg_ctx_type == CTX_TYPE_MSR) { groupsize = 8; /* MSRs are 8 bytes wide. */ printk("%sMSR Address: 0x%08x\n", newpfx, ctx_info->msr_addr); } if (ctx_info->reg_ctx_type == CTX_TYPE_MMREG) { printk("%sMM Register Address: 0x%016llx\n", newpfx, ctx_info->mm_reg_addr); } if (ctx_info->reg_ctx_type != CTX_TYPE_MSR || arch_apei_report_x86_error(ctx_info, proc->lapic_id)) { printk("%sRegister Array:\n", newpfx); print_hex_dump(newpfx, "", DUMP_PREFIX_OFFSET, 16, groupsize, (ctx_info + 1), ctx_info->reg_arr_size, 0); } ctx_info = (struct cper_ia_proc_ctx *)((long)ctx_info + size); } }
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