xref: /openbmc/libcper/cper-parse.c (revision 197ea120)
1 /**
2  * Describes high level functions for converting an entire CPER log, and functions for parsing
3  * CPER headers and section descriptions into an intermediate JSON format.
4  *
5  * Author: Lawrence.Tang@arm.com
6  **/
7 
8 #include <stdio.h>
9 #include <json.h>
10 #include "b64.h"
11 #include "edk/Cper.h"
12 #include "cper-parse.h"
13 #include "cper-utils.h"
14 #include "sections/cper-section.h"
15 
16 //Private pre-definitions.
17 json_object *cper_header_to_ir(EFI_COMMON_ERROR_RECORD_HEADER *header);
18 json_object *
19 cper_section_descriptor_to_ir(EFI_ERROR_SECTION_DESCRIPTOR *section_descriptor);
20 json_object *cper_section_to_ir(FILE *handle, long base_pos,
21 				EFI_ERROR_SECTION_DESCRIPTOR *descriptor);
22 
23 //Reads a CPER log file at the given file location, and returns an intermediate
24 //JSON representation of this CPER record.
25 json_object *cper_to_ir(FILE *cper_file)
26 {
27 	//Read the current file pointer location as the base of the record.
28 	long base_pos = ftell(cper_file);
29 
30 	//Ensure this is really a CPER log.
31 	EFI_COMMON_ERROR_RECORD_HEADER header;
32 	if (fread(&header, sizeof(EFI_COMMON_ERROR_RECORD_HEADER), 1,
33 		  cper_file) != 1) {
34 		printf("Invalid CPER file: Invalid length (log too short).\n");
35 		return NULL;
36 	}
37 
38 	//Check if the header contains the magic bytes ("CPER").
39 	if (header.SignatureStart != EFI_ERROR_RECORD_SIGNATURE_START) {
40 		printf("Invalid CPER file: Invalid header (incorrect signature).\n");
41 		return NULL;
42 	}
43 
44 	//Create the header JSON object from the read bytes.
45 	json_object *header_ir = cper_header_to_ir(&header);
46 
47 	//Read the appropriate number of section descriptors & sections, and convert them into IR format.
48 	json_object *section_descriptors_ir = json_object_new_array();
49 	json_object *sections_ir = json_object_new_array();
50 	for (int i = 0; i < header.SectionCount; i++) {
51 		//Create the section descriptor.
52 		EFI_ERROR_SECTION_DESCRIPTOR section_descriptor;
53 		if (fread(&section_descriptor,
54 			  sizeof(EFI_ERROR_SECTION_DESCRIPTOR), 1,
55 			  cper_file) != 1) {
56 			printf("Invalid number of section headers: Header states %d sections, could not read section %d.\n",
57 			       header.SectionCount, i + 1);
58 			return NULL;
59 		}
60 		json_object_array_add(
61 			section_descriptors_ir,
62 			cper_section_descriptor_to_ir(&section_descriptor));
63 
64 		//Read the section itself.
65 		json_object_array_add(sections_ir,
66 				      cper_section_to_ir(cper_file, base_pos,
67 							 &section_descriptor));
68 	}
69 
70 	//Add the header, section descriptors, and sections to a parent object.
71 	json_object *parent = json_object_new_object();
72 	json_object_object_add(parent, "header", header_ir);
73 	json_object_object_add(parent, "sectionDescriptors",
74 			       section_descriptors_ir);
75 	json_object_object_add(parent, "sections", sections_ir);
76 
77 	return parent;
78 }
79 
80 //Converts a parsed CPER record header into intermediate JSON object format.
81 json_object *cper_header_to_ir(EFI_COMMON_ERROR_RECORD_HEADER *header)
82 {
83 	json_object *header_ir = json_object_new_object();
84 
85 	//Revision/version information.
86 	json_object_object_add(header_ir, "revision",
87 			       revision_to_ir(header->Revision));
88 
89 	//Section count.
90 	json_object_object_add(header_ir, "sectionCount",
91 			       json_object_new_int(header->SectionCount));
92 
93 	//Error severity (with interpreted string version).
94 	json_object *error_severity = json_object_new_object();
95 	json_object_object_add(error_severity, "code",
96 			       json_object_new_uint64(header->ErrorSeverity));
97 	json_object_object_add(error_severity, "name",
98 			       json_object_new_string(severity_to_string(
99 				       header->ErrorSeverity)));
100 	json_object_object_add(header_ir, "severity", error_severity);
101 
102 	//The validation bits for each section.
103 	json_object *validation_bits = bitfield_to_ir(
104 		header->ValidationBits, 3, CPER_HEADER_VALID_BITFIELD_NAMES);
105 	json_object_object_add(header_ir, "validationBits", validation_bits);
106 
107 	//Total length of the record (including headers) in bytes.
108 	json_object_object_add(header_ir, "recordLength",
109 			       json_object_new_uint64(header->RecordLength));
110 
111 	//If a timestamp exists according to validation bits, then add it.
112 	if (header->ValidationBits & 0b10) {
113 		char timestamp_string[TIMESTAMP_LENGTH];
114 		timestamp_to_string(timestamp_string, &header->TimeStamp);
115 
116 		json_object_object_add(
117 			header_ir, "timestamp",
118 			json_object_new_string(timestamp_string));
119 		json_object_object_add(
120 			header_ir, "timestampIsPrecise",
121 			json_object_new_boolean(header->TimeStamp.Flag));
122 	}
123 
124 	//If a platform ID exists according to the validation bits, then add it.
125 	if (header->ValidationBits & 0b1) {
126 		char platform_string[GUID_STRING_LENGTH];
127 		guid_to_string(platform_string, &header->PlatformID);
128 		json_object_object_add(header_ir, "platformID",
129 				       json_object_new_string(platform_string));
130 	}
131 
132 	//If a partition ID exists according to the validation bits, then add it.
133 	if (header->ValidationBits & 0b100) {
134 		char partition_string[GUID_STRING_LENGTH];
135 		guid_to_string(partition_string, &header->PartitionID);
136 		json_object_object_add(
137 			header_ir, "partitionID",
138 			json_object_new_string(partition_string));
139 	}
140 
141 	//Creator ID of the header.
142 	char creator_string[GUID_STRING_LENGTH];
143 	guid_to_string(creator_string, &header->CreatorID);
144 	json_object_object_add(header_ir, "creatorID",
145 			       json_object_new_string(creator_string));
146 
147 	//Notification type for the header. Some defined types are available.
148 	json_object *notification_type = json_object_new_object();
149 	char notification_type_string[GUID_STRING_LENGTH];
150 	guid_to_string(notification_type_string, &header->NotificationType);
151 	json_object_object_add(
152 		notification_type, "guid",
153 		json_object_new_string(notification_type_string));
154 
155 	//Add the human readable notification type if possible.
156 	char *notification_type_readable = "Unknown";
157 	if (guid_equal(&header->NotificationType,
158 		       &gEfiEventNotificationTypeCmcGuid))
159 		notification_type_readable = "CMC";
160 	else if (guid_equal(&header->NotificationType,
161 			    &gEfiEventNotificationTypeCpeGuid))
162 		notification_type_readable = "CPE";
163 	else if (guid_equal(&header->NotificationType,
164 			    &gEfiEventNotificationTypeMceGuid))
165 		notification_type_readable = "MCE";
166 	else if (guid_equal(&header->NotificationType,
167 			    &gEfiEventNotificationTypePcieGuid))
168 		notification_type_readable = "PCIe";
169 	else if (guid_equal(&header->NotificationType,
170 			    &gEfiEventNotificationTypeInitGuid))
171 		notification_type_readable = "INIT";
172 	else if (guid_equal(&header->NotificationType,
173 			    &gEfiEventNotificationTypeNmiGuid))
174 		notification_type_readable = "NMI";
175 	else if (guid_equal(&header->NotificationType,
176 			    &gEfiEventNotificationTypeBootGuid))
177 		notification_type_readable = "Boot";
178 	else if (guid_equal(&header->NotificationType,
179 			    &gEfiEventNotificationTypeDmarGuid))
180 		notification_type_readable = "DMAr";
181 	else if (guid_equal(&header->NotificationType,
182 			    &gEfiEventNotificationTypeSeaGuid))
183 		notification_type_readable = "SEA";
184 	else if (guid_equal(&header->NotificationType,
185 			    &gEfiEventNotificationTypeSeiGuid))
186 		notification_type_readable = "SEI";
187 	else if (guid_equal(&header->NotificationType,
188 			    &gEfiEventNotificationTypePeiGuid))
189 		notification_type_readable = "PEI";
190 	else if (guid_equal(&header->NotificationType,
191 			    &gEfiEventNotificationTypeCxlGuid))
192 		notification_type_readable = "CXL Component";
193 	json_object_object_add(
194 		notification_type, "type",
195 		json_object_new_string(notification_type_readable));
196 	json_object_object_add(header_ir, "notificationType",
197 			       notification_type);
198 
199 	//The record ID for this record, unique on a given system.
200 	json_object_object_add(header_ir, "recordID",
201 			       json_object_new_uint64(header->RecordID));
202 
203 	//Flag for the record, and a human readable form.
204 	json_object *flags = integer_to_readable_pair(
205 		header->Flags,
206 		sizeof(CPER_HEADER_FLAG_TYPES_KEYS) / sizeof(int),
207 		CPER_HEADER_FLAG_TYPES_KEYS, CPER_HEADER_FLAG_TYPES_VALUES,
208 		"Unknown");
209 	json_object_object_add(header_ir, "flags", flags);
210 
211 	//Persistence information. Outside the scope of specification, so just a uint32 here.
212 	json_object_object_add(header_ir, "persistenceInfo",
213 			       json_object_new_uint64(header->PersistenceInfo));
214 	return header_ir;
215 }
216 
217 //Converts the given EFI section descriptor into JSON IR format.
218 json_object *
219 cper_section_descriptor_to_ir(EFI_ERROR_SECTION_DESCRIPTOR *section_descriptor)
220 {
221 	json_object *section_descriptor_ir = json_object_new_object();
222 
223 	//The offset of the section from the base of the record header, length.
224 	json_object_object_add(
225 		section_descriptor_ir, "sectionOffset",
226 		json_object_new_uint64(section_descriptor->SectionOffset));
227 	json_object_object_add(
228 		section_descriptor_ir, "sectionLength",
229 		json_object_new_uint64(section_descriptor->SectionLength));
230 
231 	//Revision.
232 	json_object_object_add(section_descriptor_ir, "revision",
233 			       revision_to_ir(section_descriptor->Revision));
234 
235 	//Validation bits.
236 	json_object *validation_bits =
237 		bitfield_to_ir(section_descriptor->SecValidMask, 2,
238 			       CPER_SECTION_DESCRIPTOR_VALID_BITFIELD_NAMES);
239 	json_object_object_add(section_descriptor_ir, "validationBits",
240 			       validation_bits);
241 
242 	//Flag bits.
243 	json_object *flags =
244 		bitfield_to_ir(section_descriptor->SectionFlags, 8,
245 			       CPER_SECTION_DESCRIPTOR_FLAGS_BITFIELD_NAMES);
246 	json_object_object_add(section_descriptor_ir, "flags", flags);
247 
248 	//Section type (GUID).
249 	json_object *section_type = json_object_new_object();
250 	char section_type_string[GUID_STRING_LENGTH];
251 	guid_to_string(section_type_string, &section_descriptor->SectionType);
252 	json_object_object_add(section_type, "data",
253 			       json_object_new_string(section_type_string));
254 
255 	//Readable section type, if possible.
256 	const char *section_type_readable = "Unknown";
257 	for (int i = 0; i < section_definitions_len; i++) {
258 		if (guid_equal(section_definitions[i].Guid,
259 			       &section_descriptor->SectionType)) {
260 			section_type_readable =
261 				section_definitions[i].ReadableName;
262 			break;
263 		}
264 	}
265 
266 	json_object_object_add(section_type, "type",
267 			       json_object_new_string(section_type_readable));
268 	json_object_object_add(section_descriptor_ir, "sectionType",
269 			       section_type);
270 
271 	//If validation bits indicate it exists, add FRU ID.
272 	if (section_descriptor->SecValidMask & 0b1) {
273 		char fru_id_string[GUID_STRING_LENGTH];
274 		guid_to_string(fru_id_string, &section_descriptor->FruId);
275 		json_object_object_add(section_descriptor_ir, "fruID",
276 				       json_object_new_string(fru_id_string));
277 	}
278 
279 	//If validation bits indicate it exists, add FRU text.
280 	if ((section_descriptor->SecValidMask & 0b10) >> 1)
281 		json_object_object_add(
282 			section_descriptor_ir, "fruText",
283 			json_object_new_string(section_descriptor->FruString));
284 
285 	//Section severity.
286 	json_object *section_severity = json_object_new_object();
287 	json_object_object_add(
288 		section_severity, "code",
289 		json_object_new_uint64(section_descriptor->Severity));
290 	json_object_object_add(section_severity, "name",
291 			       json_object_new_string(severity_to_string(
292 				       section_descriptor->Severity)));
293 	json_object_object_add(section_descriptor_ir, "severity",
294 			       section_severity);
295 
296 	return section_descriptor_ir;
297 }
298 
299 //Converts the section described by a single given section descriptor.
300 json_object *cper_section_to_ir(FILE *handle, long base_pos,
301 				EFI_ERROR_SECTION_DESCRIPTOR *descriptor)
302 {
303 	//Save our current position in the stream.
304 	long position = ftell(handle);
305 
306 	//Read section as described by the section descriptor.
307 	fseek(handle, base_pos + descriptor->SectionOffset, SEEK_SET);
308 	void *section = malloc(descriptor->SectionLength);
309 	if (fread(section, descriptor->SectionLength, 1, handle) != 1) {
310 		printf("Section read failed: Could not read %d bytes from global offset %d.\n",
311 		       descriptor->SectionLength, descriptor->SectionOffset);
312 		free(section);
313 		return NULL;
314 	}
315 
316 	//Seek back to our original position.
317 	fseek(handle, position, SEEK_SET);
318 
319 	//Parse section to IR based on GUID.
320 	json_object *result = NULL;
321 	int section_converted = 0;
322 	for (int i = 0; i < section_definitions_len; i++) {
323 		if (guid_equal(section_definitions[i].Guid,
324 			       &descriptor->SectionType) &&
325 		    section_definitions[i].ToIR != NULL) {
326 			result = section_definitions[i].ToIR(section,
327 							     descriptor);
328 			section_converted = 1;
329 			break;
330 		}
331 	}
332 
333 	//Was it an unknown GUID/failed read?
334 	if (!section_converted) {
335 		//Output the data as formatted base64.
336 		result = json_object_new_object();
337 		char *encoded = b64_encode((unsigned char *)section,
338 					   descriptor->SectionLength);
339 		json_object_object_add(result, "data",
340 				       json_object_new_string(encoded));
341 		free(encoded);
342 	}
343 
344 	//Free section memory, return result.
345 	free(section);
346 	return result;
347 }
348 
349 //Converts a single CPER section, without a header but with a section descriptor, to JSON.
350 json_object *cper_single_section_to_ir(FILE *cper_section_file)
351 {
352 	json_object *ir = json_object_new_object();
353 
354 	//Read the current file pointer location as base record position.
355 	long base_pos = ftell(cper_section_file);
356 
357 	//Read the section descriptor out.
358 	EFI_ERROR_SECTION_DESCRIPTOR section_descriptor;
359 	if (fread(&section_descriptor, sizeof(EFI_ERROR_SECTION_DESCRIPTOR), 1,
360 		  cper_section_file) != 1) {
361 		printf("Failed to read section descriptor for CPER single section (fread() returned an unexpected value).\n");
362 		return NULL;
363 	}
364 
365 	//Convert the section descriptor to IR.
366 	json_object *section_descriptor_ir =
367 		cper_section_descriptor_to_ir(&section_descriptor);
368 	json_object_object_add(ir, "sectionDescriptor", section_descriptor_ir);
369 
370 	//Parse the single section.
371 	json_object *section_ir =
372 		cper_section_to_ir(cper_section_file, base_pos, &section_descriptor);
373 	json_object_object_add(ir, "section", section_ir);
374 
375 	return ir;
376 }