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gerrit.openbmc.org / openbmc / libcper / 368e0b40abeef2ebfa210dc1f7b7b071b6f04af0 / . / sections / cper-section-arm.c
blob: 8590414e7729a7494e37e2644ad976bf52f8436b [file] [log] [blame]
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]1/**
2 * Describes functions for converting ARM CPER sections from binary and JSON format
3 * into an intermediate format.
4 *
5 * Author: Lawrence.Tang@arm.com
6 **/
7
8#include <stdio.h>
9#include "json.h"
Lawrence Tangd7e8ca32022-07-07 10:25:53 +0100[diff] [blame]10#include "b64.h"
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]11#include "../edk/Cper.h"
12#include "../cper-utils.h"
13#include "cper-section-arm.h"
14
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]15//Private pre-definitions.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]16json_object* cper_arm_error_info_to_ir(EFI_ARM_ERROR_INFORMATION_ENTRY* error_info);
17json_object* cper_arm_processor_context_to_ir(EFI_ARM_CONTEXT_INFORMATION_HEADER* header, void** cur_pos);
18json_object* cper_arm_cache_tlb_error_to_ir(EFI_ARM_CACHE_ERROR_STRUCTURE* cache_tlb_error, EFI_ARM_ERROR_INFORMATION_ENTRY* error_info);
19json_object* cper_arm_bus_error_to_ir(EFI_ARM_BUS_ERROR_STRUCTURE* bus_error);
20json_object* cper_arm_misc_register_array_to_ir(EFI_ARM_MISC_CONTEXT_REGISTER* misc_register);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]21
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]22//Converts the given processor-generic CPER section into JSON IR.
23json_object* cper_section_arm_to_ir(void* section, EFI_ERROR_SECTION_DESCRIPTOR* descriptor)
24{
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]25 EFI_ARM_ERROR_RECORD* record = (EFI_ARM_ERROR_RECORD*)section;
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]26 json_object* section_ir = json_object_new_object();
27
28 //Validation bits.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]29 json_object* validation = bitfield_to_ir(record->ValidFields, 4, ARM_ERROR_VALID_BITFIELD_NAMES);
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]30 json_object_object_add(section_ir, "validationBits", validation);
31
32 //Number of error info and context info structures, and length.
33 json_object_object_add(section_ir, "errorInfoNum", json_object_new_int(record->ErrInfoNum));
34 json_object_object_add(section_ir, "contextInfoNum", json_object_new_int(record->ContextInfoNum));
35 json_object_object_add(section_ir, "sectionLength", json_object_new_int(record->SectionLength));
36
37 //Error affinity.
38 json_object* error_affinity = json_object_new_object();
39 json_object_object_add(error_affinity, "value", json_object_new_int(record->ErrorAffinityLevel));
40 json_object_object_add(error_affinity, "type",
41 json_object_new_string(record->ErrorAffinityLevel < 4 ? "Vendor Defined" : "Reserved"));
42 json_object_object_add(section_ir, "errorAffinity", error_affinity);
43
44 //Processor ID (MPIDR_EL1) and chip ID (MIDR_EL1).
45 json_object_object_add(section_ir, "mpidrEl1", json_object_new_uint64(record->MPIDR_EL1));
46 json_object_object_add(section_ir, "midrEl1", json_object_new_uint64(record->MIDR_EL1));
47
48 //Whether the processor is running, and the state of it if so.
49 json_object_object_add(section_ir, "running", json_object_new_boolean(record->RunningState));
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]50 if (record->RunningState >> 31)
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]51 {
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]52 //Bit 32 of running state is on, so PSCI state information is included.
Lawrence Tang27217392022-07-07 11:55:39 +0100[diff] [blame]53 //This can't be made human readable, as it is unknown whether this will be the pre-PSCI 1.0 format
54 //or the newer Extended StateID format.
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]55 json_object_object_add(section_ir, "psciState", json_object_new_int(record->PsciState));
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]56 }
57
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]58 //Processor error structures.
59 json_object* error_info_array = json_object_new_array();
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]60 EFI_ARM_ERROR_INFORMATION_ENTRY* cur_error = (EFI_ARM_ERROR_INFORMATION_ENTRY*)(record + 1);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]61 for (int i=0; i<record->ErrInfoNum; i++)
62 {
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]63 json_object_array_add(error_info_array, cper_arm_error_info_to_ir(cur_error));
64 cur_error++;
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]65 }
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]66 json_object_object_add(section_ir, "errorInfo", error_info_array);
67
68 //Processor context structures.
69 //The current position is moved within the processing, as it is a dynamic size structure.
70 void* cur_pos = (void*)cur_error;
71 EFI_ARM_CONTEXT_INFORMATION_HEADER* header = (EFI_ARM_CONTEXT_INFORMATION_HEADER*)cur_error;
72 json_object* processor_context = cper_arm_processor_context_to_ir(header, &cur_pos);
73
74 //Is there any vendor-specific information following?
75 if (cur_pos < section + record->SectionLength)
76 {
Lawrence Tangd7e8ca32022-07-07 10:25:53 +0100[diff] [blame]77 json_object* vendor_specific = json_object_new_object();
78 char* encoded = b64_encode((unsigned char*)cur_pos, section + record->SectionLength - cur_pos);
79 json_object_object_add(vendor_specific, "data", json_object_new_string(encoded));
80 free(encoded);
81
82 json_object_object_add(section_ir, "vendorSpecificInfo", vendor_specific);
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]83 }
84
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]85 return section_ir;
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]86}
87
88//Converts a single ARM Process Error Information structure into JSON IR.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]89json_object* cper_arm_error_info_to_ir(EFI_ARM_ERROR_INFORMATION_ENTRY* error_info)
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]90{
91 json_object* error_info_ir = json_object_new_object();
92
93 //Version, length.
94 json_object_object_add(error_info_ir, "version", json_object_new_int(error_info->Version));
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]95 json_object_object_add(error_info_ir, "length", json_object_new_int(error_info->Length));
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]96
97 //Validation bitfield.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]98 json_object* validation = bitfield_to_ir(error_info->ValidationBits, 5, ARM_ERROR_INFO_ENTRY_VALID_BITFIELD_NAMES);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]99 json_object_object_add(error_info_ir, "validationBits", validation);
100
101 //The type of error information in this log.
102 //todo: The UEFI spec is ambiguous, what are the values for these??
103 json_object* error_type = integer_to_readable_pair(error_info->Type, 4,
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]104 ARM_ERROR_INFO_ENTRY_INFO_TYPES_KEYS,
105 ARM_ERROR_INFO_ENTRY_INFO_TYPES_VALUES,
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]106 "Unknown (Reserved)");
107 json_object_object_add(error_info_ir, "errorType", error_type);
108
109 //Multiple error count.
Lawrence Tang22a467c2022-07-05 17:21:06 +0100[diff] [blame]110 json_object* multiple_error = json_object_new_object();
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]111 json_object_object_add(multiple_error, "value", json_object_new_int(error_info->MultipleError));
112 json_object_object_add(multiple_error, "type",
113 json_object_new_string(error_info->MultipleError < 1 ? "Single Error" : "Multiple Errors"));
114 json_object_object_add(error_info_ir, "multipleError", multiple_error);
115
116 //Flags.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]117 json_object* flags = bitfield_to_ir(error_info->Flags, 4, ARM_ERROR_INFO_ENTRY_FLAGS_NAMES);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]118 json_object_object_add(error_info_ir, "flags", flags);
119
120 //Error information, split by type.
121 json_object* error_subinfo = NULL;
122 switch (error_info->Type)
123 {
124 case 0: //Cache
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]125 case 1: //TLB
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]126 error_subinfo = cper_arm_cache_tlb_error_to_ir((EFI_ARM_CACHE_ERROR_STRUCTURE*)&error_info->ErrorInformation, error_info);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]127 break;
128 case 2: //Bus
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]129 error_subinfo = cper_arm_bus_error_to_ir((EFI_ARM_BUS_ERROR_STRUCTURE*)&error_info->ErrorInformation);
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]130 break;
131 }
132 json_object_object_add(error_info_ir, "errorInformation", error_subinfo);
133
Lawrence Tangb98ec662022-07-06 16:50:21 +0100[diff] [blame]134 //Virtual fault address, physical fault address.
135 json_object_object_add(error_info_ir, "virtualFaultAddress", json_object_new_uint64(error_info->VirtualFaultAddress));
136 json_object_object_add(error_info_ir, "physicalFaultAddress", json_object_new_uint64(error_info->PhysicalFaultAddress));
137
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]138 return error_info_ir;
139}
140
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]141//Converts a single ARM cache/TLB error information structure into JSON IR format.
142json_object* cper_arm_cache_tlb_error_to_ir(EFI_ARM_CACHE_ERROR_STRUCTURE* cache_tlb_error, EFI_ARM_ERROR_INFORMATION_ENTRY* error_info)
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]143{
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]144 json_object* cache_tlb_error_ir = json_object_new_object();
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]145
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]146 //Validation bitfield.
147 json_object* validation = bitfield_to_ir(cache_tlb_error->ValidationBits, 7, ARM_CACHE_TLB_ERROR_VALID_BITFIELD_NAMES);
148 json_object_object_add(cache_tlb_error_ir, "validationBits", validation);
149
150 //Transaction type.
151 json_object* transaction_type = integer_to_readable_pair(cache_tlb_error->TransactionType, 3,
152 ARM_ERROR_TRANSACTION_TYPES_KEYS,
153 ARM_ERROR_TRANSACTION_TYPES_VALUES,
154 "Unknown (Reserved)");
155 json_object_object_add(cache_tlb_error_ir, "transactionType", transaction_type);
156
157 //Operation.
158 //todo: What are the types' numeric values? UEFI spec is ambiguous
159 json_object* operation;
160 if (error_info->Type == 0)
161 {
162 //Cache operation.
163 operation = integer_to_readable_pair(cache_tlb_error->Operation, 11,
164 ARM_CACHE_BUS_OPERATION_TYPES_KEYS,
165 ARM_CACHE_BUS_OPERATION_TYPES_VALUES,
166 "Unknown (Reserved)");
167 }
168 else
169 {
170 //TLB operation.
171 operation = integer_to_readable_pair(cache_tlb_error->Operation, 9,
172 ARM_TLB_OPERATION_TYPES_KEYS,
173 ARM_TLB_OPERATION_TYPES_VALUES,
174 "Unknown (Reserved)");
175 }
176 json_object_object_add(cache_tlb_error_ir, "operation", operation);
177
178 //Miscellaneous remaining fields.
179 json_object_object_add(cache_tlb_error_ir, "level", json_object_new_int(cache_tlb_error->Level));
180 json_object_object_add(cache_tlb_error_ir, "processorContextCorrupt", json_object_new_boolean(cache_tlb_error->ProcessorContextCorrupt));
181 json_object_object_add(cache_tlb_error_ir, "corrected", json_object_new_boolean(cache_tlb_error->Corrected));
182 json_object_object_add(cache_tlb_error_ir, "precisePC", json_object_new_boolean(cache_tlb_error->PrecisePC));
183 json_object_object_add(cache_tlb_error_ir, "restartablePC", json_object_new_boolean(cache_tlb_error->RestartablePC));
184 return cache_tlb_error_ir;
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]185}
186
187//Converts a single ARM bus error information structure into JSON IR format.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]188json_object* cper_arm_bus_error_to_ir(EFI_ARM_BUS_ERROR_STRUCTURE* bus_error)
Lawrence Tang3d0e4f22022-07-05 17:17:41 +0100[diff] [blame]189{
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]190 json_object* bus_error_ir = json_object_new_object();
191
192 //Validation bits.
193 json_object* validation = bitfield_to_ir(bus_error->ValidationBits, 7, ARM_BUS_ERROR_VALID_BITFIELD_NAMES);
194 json_object_object_add(bus_error_ir, "validationBits", validation);
195
196 //Transaction type.
197 json_object* transaction_type = integer_to_readable_pair(bus_error->TransactionType, 3,
198 ARM_ERROR_TRANSACTION_TYPES_KEYS,
199 ARM_ERROR_TRANSACTION_TYPES_VALUES,
200 "Unknown (Reserved)");
201 json_object_object_add(bus_error_ir, "transactionType", transaction_type);
202
203 //Operation.
204 json_object* operation = integer_to_readable_pair(bus_error->Operation, 7,
205 ARM_CACHE_BUS_OPERATION_TYPES_KEYS,
206 ARM_CACHE_BUS_OPERATION_TYPES_VALUES,
207 "Unknown (Reserved)");
208 json_object_object_add(bus_error_ir, "operation", operation);
209
210 //Affinity level of bus error, + miscellaneous fields.
211 json_object_object_add(bus_error_ir, "level", json_object_new_int(bus_error->Level));
212 json_object_object_add(bus_error_ir, "processorContextCorrupt", json_object_new_boolean(bus_error->ProcessorContextCorrupt));
213 json_object_object_add(bus_error_ir, "corrected", json_object_new_boolean(bus_error->Corrected));
214 json_object_object_add(bus_error_ir, "precisePC", json_object_new_boolean(bus_error->PrecisePC));
215 json_object_object_add(bus_error_ir, "restartablePC", json_object_new_boolean(bus_error->RestartablePC));
216 json_object_object_add(bus_error_ir, "timedOut", json_object_new_boolean(bus_error->TimeOut));
217
218 //Participation type.
219 json_object* participation_type = integer_to_readable_pair(bus_error->ParticipationType, 4,
220 ARM_BUS_PARTICIPATION_TYPES_KEYS,
221 ARM_BUS_PARTICIPATION_TYPES_VALUES,
222 "Unknown");
223 json_object_object_add(bus_error_ir, "participationType", participation_type);
224
225 //Address space.
226 json_object* address_space = integer_to_readable_pair(bus_error->AddressSpace, 3,
227 ARM_BUS_ADDRESS_SPACE_TYPES_KEYS,
228 ARM_BUS_ADDRESS_SPACE_TYPES_VALUES,
229 "Unknown");
230 json_object_object_add(bus_error_ir, "addressSpace", address_space);
231
232 //Memory access attributes.
233 //todo: find the specification of these in the ARM ARM
234 //...
235
236 //Access Mode
237 json_object* access_mode = json_object_new_object();
238 json_object_object_add(access_mode, "value", json_object_new_int(bus_error->AccessMode));
239 json_object_object_add(access_mode, "name", json_object_new_string(bus_error->AccessMode == 0 ? "Secure" : "Normal"));
240 json_object_object_add(bus_error_ir, "accessMode", access_mode);
241
242 return bus_error_ir;
243}
244
245//Converts a single ARM processor context block into JSON IR.
246json_object* cper_arm_processor_context_to_ir(EFI_ARM_CONTEXT_INFORMATION_HEADER* header, void** cur_pos)
247{
248 json_object* context_ir = json_object_new_object();
249
250 //Add the context type.
251 json_object* context_type = integer_to_readable_pair(header->RegisterContextType, 9,
252 ARM_PROCESSOR_INFO_REGISTER_CONTEXT_TYPES_KEYS,
253 ARM_PROCESSOR_INFO_REGISTER_CONTEXT_TYPES_VALUES,
254 "Unknown (Reserved)");
255 json_object_object_add(context_ir, "registerContextType", context_type);
256
257 //Register array size (bytes).
258 json_object_object_add(context_ir, "registerArraySize", json_object_new_uint64(header->RegisterArraySize));
259
260 //The register array itself.
261 *cur_pos = (void*)(header + 1);
262 json_object* register_array = NULL;
263 switch (header->RegisterContextType)
264 {
265 case EFI_ARM_CONTEXT_TYPE_AARCH32_GPR:
266 register_array = uniform_struct_to_ir((UINT32*)cur_pos,
267 sizeof(EFI_ARM_V8_AARCH32_GPR) / sizeof(UINT32), ARM_AARCH32_GPR_NAMES);
268 break;
269 case EFI_ARM_CONTEXT_TYPE_AARCH32_EL1:
270 register_array = uniform_struct_to_ir((UINT32*)cur_pos,
271 sizeof(EFI_ARM_AARCH32_EL1_CONTEXT_REGISTERS) / sizeof(UINT32), ARM_AARCH32_EL1_REGISTER_NAMES);
272 break;
273 case EFI_ARM_CONTEXT_TYPE_AARCH32_EL2:
274 register_array = uniform_struct_to_ir((UINT32*)cur_pos,
275 sizeof(EFI_ARM_AARCH32_EL2_CONTEXT_REGISTERS) / sizeof(UINT32), ARM_AARCH32_EL2_REGISTER_NAMES);
276 break;
277 case EFI_ARM_CONTEXT_TYPE_AARCH32_SECURE:
278 register_array = uniform_struct_to_ir((UINT32*)cur_pos,
279 sizeof(EFI_ARM_AARCH32_SECURE_CONTEXT_REGISTERS) / sizeof(UINT32), ARM_AARCH32_SECURE_REGISTER_NAMES);
280 break;
281 case EFI_ARM_CONTEXT_TYPE_AARCH64_GPR:
282 register_array = uniform_struct64_to_ir((UINT64*)cur_pos,
283 sizeof(EFI_ARM_V8_AARCH64_GPR) / sizeof(UINT64), ARM_AARCH64_GPR_NAMES);
284 break;
285 case EFI_ARM_CONTEXT_TYPE_AARCH64_EL1:
286 register_array = uniform_struct64_to_ir((UINT64*)cur_pos,
287 sizeof(EFI_ARM_AARCH64_EL1_CONTEXT_REGISTERS) / sizeof(UINT64), ARM_AARCH64_EL1_REGISTER_NAMES);
288 break;
289 case EFI_ARM_CONTEXT_TYPE_AARCH64_EL2:
290 register_array = uniform_struct64_to_ir((UINT64*)cur_pos,
291 sizeof(EFI_ARM_AARCH64_EL2_CONTEXT_REGISTERS) / sizeof(UINT64), ARM_AARCH64_EL2_REGISTER_NAMES);
292 break;
293 case EFI_ARM_CONTEXT_TYPE_AARCH64_EL3:
294 register_array = uniform_struct64_to_ir((UINT64*)cur_pos,
295 sizeof(EFI_ARM_AARCH64_EL3_CONTEXT_REGISTERS) / sizeof(UINT64), ARM_AARCH64_EL3_REGISTER_NAMES);
296 break;
297 case EFI_ARM_CONTEXT_TYPE_MISC:
298 register_array = cper_arm_misc_register_array_to_ir((EFI_ARM_MISC_CONTEXT_REGISTER*)cur_pos);
299 break;
300 default:
Lawrence Tangd7e8ca32022-07-07 10:25:53 +0100[diff] [blame]301 //Unknown register array type, add as base64 data instead.
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]302 register_array = json_object_new_object();
Lawrence Tangd7e8ca32022-07-07 10:25:53 +0100[diff] [blame]303 char* encoded = b64_encode((unsigned char*)cur_pos, header->RegisterArraySize);
304 json_object_object_add(register_array, "data", json_object_new_string(encoded));
305 free(encoded);
Lawrence Tang7f21db62022-07-06 11:09:39 +0100[diff] [blame]306 break;
307 }
308
309 //Set the current position to after the processor context structure.
310 *cur_pos = (UINT8*)(*cur_pos) + header->RegisterArraySize;
311
312 return context_ir;
313}
314
315//Converts a single CPER ARM miscellaneous register array to JSON IR format.
316json_object* cper_arm_misc_register_array_to_ir(EFI_ARM_MISC_CONTEXT_REGISTER* misc_register)
317{
318 json_object* register_array = json_object_new_object();
319 json_object* mrs_encoding = json_object_new_object();
320 json_object_object_add(mrs_encoding, "op2", json_object_new_int(misc_register->MrsOp2));
321 json_object_object_add(mrs_encoding, "crm", json_object_new_int(misc_register->MrsOp2));
322 json_object_object_add(mrs_encoding, "crn", json_object_new_int(misc_register->MrsOp2));
323 json_object_object_add(mrs_encoding, "op1", json_object_new_int(misc_register->MrsOp2));
324 json_object_object_add(mrs_encoding, "o0", json_object_new_int(misc_register->MrsOp2));
325 json_object_object_add(register_array, "mrsEncoding", mrs_encoding);
326 json_object_object_add(register_array, "value", json_object_new_uint64(misc_register->Value));
327
328 return register_array;
Lawrence Tang2800cd82022-07-05 16:08:20 +0100[diff] [blame]329}