xref: /openbmc/libcper/cper-utils.c (revision 5202bbb4) 
11b0b00e3SLawrence Tang /**
21b0b00e3SLawrence Tang  * Describes utility functions for parsing CPER into JSON IR.
31b0b00e3SLawrence Tang  *
41b0b00e3SLawrence Tang  * Author: Lawrence.Tang@arm.com
51b0b00e3SLawrence Tang  **/
61b0b00e3SLawrence Tang 
71b0b00e3SLawrence Tang #include <stdio.h>
8*5202bbb4SLawrence Tang #include <json.h>
91b0b00e3SLawrence Tang #include "edk/Cper.h"
101b0b00e3SLawrence Tang #include "cper-utils.h"
111b0b00e3SLawrence Tang 
121b0b00e3SLawrence Tang //The available severity types for CPER.
13e407b4c8SLawrence Tang const char *CPER_SEVERITY_TYPES[4] = { "Recoverable", "Fatal", "Corrected",
14e407b4c8SLawrence Tang 				       "Informational" };
151b0b00e3SLawrence Tang 
16a0865e38SLawrence Tang //Converts the given generic CPER error status to JSON IR.
17e407b4c8SLawrence Tang json_object *
18e407b4c8SLawrence Tang cper_generic_error_status_to_ir(EFI_GENERIC_ERROR_STATUS *error_status)
19a0865e38SLawrence Tang {
20a0865e38SLawrence Tang 	json_object *error_status_ir = json_object_new_object();
21a0865e38SLawrence Tang 
22a0865e38SLawrence Tang 	//Error type.
23e407b4c8SLawrence Tang 	json_object_object_add(error_status_ir, "errorType",
24e407b4c8SLawrence Tang 			       integer_to_readable_pair_with_desc(
25e407b4c8SLawrence Tang 				       error_status->Type, 18,
26a0865e38SLawrence Tang 				       CPER_GENERIC_ERROR_TYPES_KEYS,
27a0865e38SLawrence Tang 				       CPER_GENERIC_ERROR_TYPES_VALUES,
28a0865e38SLawrence Tang 				       CPER_GENERIC_ERROR_TYPES_DESCRIPTIONS,
29a0865e38SLawrence Tang 				       "Unknown (Reserved)"));
30a0865e38SLawrence Tang 
31a0865e38SLawrence Tang 	//Boolean bit fields.
32e407b4c8SLawrence Tang 	json_object_object_add(
33e407b4c8SLawrence Tang 		error_status_ir, "addressSignal",
34e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->AddressSignal));
35e407b4c8SLawrence Tang 	json_object_object_add(
36e407b4c8SLawrence Tang 		error_status_ir, "controlSignal",
37e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->ControlSignal));
38e407b4c8SLawrence Tang 	json_object_object_add(
39e407b4c8SLawrence Tang 		error_status_ir, "dataSignal",
40e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->DataSignal));
41e407b4c8SLawrence Tang 	json_object_object_add(
42e407b4c8SLawrence Tang 		error_status_ir, "detectedByResponder",
43e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->DetectedByResponder));
44e407b4c8SLawrence Tang 	json_object_object_add(
45e407b4c8SLawrence Tang 		error_status_ir, "detectedByRequester",
46e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->DetectedByRequester));
47e407b4c8SLawrence Tang 	json_object_object_add(
48e407b4c8SLawrence Tang 		error_status_ir, "firstError",
49e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->FirstError));
50e407b4c8SLawrence Tang 	json_object_object_add(
51e407b4c8SLawrence Tang 		error_status_ir, "overflowDroppedLogs",
52e407b4c8SLawrence Tang 		json_object_new_boolean(error_status->OverflowNotLogged));
53a0865e38SLawrence Tang 
54a0865e38SLawrence Tang 	return error_status_ir;
55a0865e38SLawrence Tang }
56a0865e38SLawrence Tang 
573b7f45b5SLawrence Tang //Converts the given CPER-JSON generic error status into a CPER structure.
58e407b4c8SLawrence Tang void ir_generic_error_status_to_cper(
59e407b4c8SLawrence Tang 	json_object *error_status, EFI_GENERIC_ERROR_STATUS *error_status_cper)
603b7f45b5SLawrence Tang {
61e407b4c8SLawrence Tang 	error_status_cper->Type = readable_pair_to_integer(
62e407b4c8SLawrence Tang 		json_object_object_get(error_status, "errorType"));
63e407b4c8SLawrence Tang 	error_status_cper->AddressSignal = json_object_get_boolean(
64e407b4c8SLawrence Tang 		json_object_object_get(error_status, "addressSignal"));
65e407b4c8SLawrence Tang 	error_status_cper->ControlSignal = json_object_get_boolean(
66e407b4c8SLawrence Tang 		json_object_object_get(error_status, "controlSignal"));
67e407b4c8SLawrence Tang 	error_status_cper->DataSignal = json_object_get_boolean(
68e407b4c8SLawrence Tang 		json_object_object_get(error_status, "dataSignal"));
69e407b4c8SLawrence Tang 	error_status_cper->DetectedByResponder = json_object_get_boolean(
70e407b4c8SLawrence Tang 		json_object_object_get(error_status, "detectedByResponder"));
71e407b4c8SLawrence Tang 	error_status_cper->DetectedByRequester = json_object_get_boolean(
72e407b4c8SLawrence Tang 		json_object_object_get(error_status, "detectedByRequester"));
73e407b4c8SLawrence Tang 	error_status_cper->FirstError = json_object_get_boolean(
74e407b4c8SLawrence Tang 		json_object_object_get(error_status, "firstError"));
75e407b4c8SLawrence Tang 	error_status_cper->OverflowNotLogged = json_object_get_boolean(
76e407b4c8SLawrence Tang 		json_object_object_get(error_status, "overflowDroppedLogs"));
773b7f45b5SLawrence Tang }
783b7f45b5SLawrence Tang 
797f21db6cSLawrence Tang //Converts a single uniform struct of UINT64s into intermediate JSON IR format, given names for each field in byte order.
807f21db6cSLawrence Tang json_object *uniform_struct64_to_ir(UINT64 *start, int len, const char *names[])
817f21db6cSLawrence Tang {
827f21db6cSLawrence Tang 	json_object *result = json_object_new_object();
837f21db6cSLawrence Tang 
847f21db6cSLawrence Tang 	UINT64 *cur = start;
85e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
86e407b4c8SLawrence Tang 		json_object_object_add(result, names[i],
87e407b4c8SLawrence Tang 				       json_object_new_uint64(*cur));
887f21db6cSLawrence Tang 		cur++;
897f21db6cSLawrence Tang 	}
907f21db6cSLawrence Tang 
917f21db6cSLawrence Tang 	return result;
927f21db6cSLawrence Tang }
937f21db6cSLawrence Tang 
947f21db6cSLawrence Tang //Converts a single uniform struct of UINT32s into intermediate JSON IR format, given names for each field in byte order.
957f21db6cSLawrence Tang json_object *uniform_struct_to_ir(UINT32 *start, int len, const char *names[])
967f21db6cSLawrence Tang {
977f21db6cSLawrence Tang 	json_object *result = json_object_new_object();
987f21db6cSLawrence Tang 
997f21db6cSLawrence Tang 	UINT32 *cur = start;
100e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
101e407b4c8SLawrence Tang 		json_object_object_add(result, names[i],
102e407b4c8SLawrence Tang 				       json_object_new_uint64(*cur));
1037f21db6cSLawrence Tang 		cur++;
1047f21db6cSLawrence Tang 	}
1057f21db6cSLawrence Tang 
1067f21db6cSLawrence Tang 	return result;
1077f21db6cSLawrence Tang }
1087f21db6cSLawrence Tang 
10971570a2aSLawrence Tang //Converts a single object containing UINT32s into a uniform struct.
110e407b4c8SLawrence Tang void ir_to_uniform_struct64(json_object *ir, UINT64 *start, int len,
111e407b4c8SLawrence Tang 			    const char *names[])
11271570a2aSLawrence Tang {
11371570a2aSLawrence Tang 	UINT64 *cur = start;
114e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
115e407b4c8SLawrence Tang 		*cur = json_object_get_uint64(
116e407b4c8SLawrence Tang 			json_object_object_get(ir, names[i]));
11771570a2aSLawrence Tang 		cur++;
11871570a2aSLawrence Tang 	}
11971570a2aSLawrence Tang }
12071570a2aSLawrence Tang 
12171570a2aSLawrence Tang //Converts a single object containing UINT32s into a uniform struct.
122e407b4c8SLawrence Tang void ir_to_uniform_struct(json_object *ir, UINT32 *start, int len,
123e407b4c8SLawrence Tang 			  const char *names[])
12471570a2aSLawrence Tang {
12571570a2aSLawrence Tang 	UINT32 *cur = start;
126e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
127e407b4c8SLawrence Tang 		*cur = (UINT32)json_object_get_uint64(
128e407b4c8SLawrence Tang 			json_object_object_get(ir, names[i]));
12971570a2aSLawrence Tang 		cur++;
13071570a2aSLawrence Tang 	}
13171570a2aSLawrence Tang }
13271570a2aSLawrence Tang 
1333c43f743SLawrence Tang //Converts a single integer value to an object containing a value, and a readable name if possible.
134e407b4c8SLawrence Tang json_object *integer_to_readable_pair(UINT64 value, int len, int keys[],
135e407b4c8SLawrence Tang 				      const char *values[],
136e407b4c8SLawrence Tang 				      const char *default_value)
1373c43f743SLawrence Tang {
1383c43f743SLawrence Tang 	json_object *result = json_object_new_object();
1393c878352SLawrence Tang 	json_object_object_add(result, "value", json_object_new_uint64(value));
1403c43f743SLawrence Tang 
1413c43f743SLawrence Tang 	//Search for human readable name, add.
142794312c8SLawrence Tang 	const char *name = default_value;
143e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
1443c43f743SLawrence Tang 		if (keys[i] == value)
1453c43f743SLawrence Tang 			name = values[i];
1463c43f743SLawrence Tang 	}
1473c43f743SLawrence Tang 
1483c43f743SLawrence Tang 	json_object_object_add(result, "name", json_object_new_string(name));
1493c43f743SLawrence Tang 	return result;
1503c43f743SLawrence Tang }
1513c43f743SLawrence Tang 
1527f21db6cSLawrence Tang //Converts a single integer value to an object containing a value, readable name and description if possible.
153e407b4c8SLawrence Tang json_object *integer_to_readable_pair_with_desc(int value, int len, int keys[],
154e407b4c8SLawrence Tang 						const char *values[],
155e407b4c8SLawrence Tang 						const char *descriptions[],
156e407b4c8SLawrence Tang 						const char *default_value)
1577f21db6cSLawrence Tang {
1587f21db6cSLawrence Tang 	json_object *result = json_object_new_object();
1597f21db6cSLawrence Tang 	json_object_object_add(result, "value", json_object_new_int(value));
1607f21db6cSLawrence Tang 
1617f21db6cSLawrence Tang 	//Search for human readable name, add.
1627f21db6cSLawrence Tang 	const char *name = default_value;
163e407b4c8SLawrence Tang 	for (int i = 0; i < len; i++) {
164e407b4c8SLawrence Tang 		if (keys[i] == value) {
1657f21db6cSLawrence Tang 			name = values[i];
166e407b4c8SLawrence Tang 			json_object_object_add(
167e407b4c8SLawrence Tang 				result, "description",
168e407b4c8SLawrence Tang 				json_object_new_string(descriptions[i]));
1697f21db6cSLawrence Tang 		}
1707f21db6cSLawrence Tang 	}
1717f21db6cSLawrence Tang 
1727f21db6cSLawrence Tang 	json_object_object_add(result, "name", json_object_new_string(name));
1737f21db6cSLawrence Tang 	return result;
1747f21db6cSLawrence Tang }
1757f21db6cSLawrence Tang 
176b44314c7SLawrence Tang //Returns a single UINT64 value from the given readable pair object.
177b44314c7SLawrence Tang //Assumes the integer value is held in the "value" field.
178b44314c7SLawrence Tang UINT64 readable_pair_to_integer(json_object *pair)
179b44314c7SLawrence Tang {
180b44314c7SLawrence Tang 	return json_object_get_uint64(json_object_object_get(pair, "value"));
181b44314c7SLawrence Tang }
182b44314c7SLawrence Tang 
183794312c8SLawrence Tang //Converts the given 64 bit bitfield to IR, assuming bit 0 starts on the left.
184e407b4c8SLawrence Tang json_object *bitfield_to_ir(UINT64 bitfield, int num_fields,
185e407b4c8SLawrence Tang 			    const char *names[])
186794312c8SLawrence Tang {
187794312c8SLawrence Tang 	json_object *result = json_object_new_object();
188e407b4c8SLawrence Tang 	for (int i = 0; i < num_fields; i++) {
189e407b4c8SLawrence Tang 		json_object_object_add(result, names[i],
190e407b4c8SLawrence Tang 				       json_object_new_boolean((bitfield >> i) &
191e407b4c8SLawrence Tang 							       0b1));
192794312c8SLawrence Tang 	}
193794312c8SLawrence Tang 
194794312c8SLawrence Tang 	return result;
195794312c8SLawrence Tang }
196794312c8SLawrence Tang 
197b44314c7SLawrence Tang //Converts the given IR bitfield into a standard UINT64 bitfield, with fields beginning from bit 0.
198b44314c7SLawrence Tang UINT64 ir_to_bitfield(json_object *ir, int num_fields, const char *names[])
199b44314c7SLawrence Tang {
200b44314c7SLawrence Tang 	UINT64 result = 0x0;
201e407b4c8SLawrence Tang 	for (int i = 0; i < num_fields; i++) {
202e407b4c8SLawrence Tang 		if (json_object_get_boolean(
203e407b4c8SLawrence Tang 			    json_object_object_get(ir, names[i])))
204b44314c7SLawrence Tang 			result |= (0x1 << i);
205b44314c7SLawrence Tang 	}
206b44314c7SLawrence Tang 
207b44314c7SLawrence Tang 	return result;
208b44314c7SLawrence Tang }
209b44314c7SLawrence Tang 
210e18aaee9SLawrence Tang //Converts the given UINT64 array into a JSON IR array, given the length.
211e18aaee9SLawrence Tang json_object *uint64_array_to_ir_array(UINT64 *array, int len)
212e18aaee9SLawrence Tang {
213e18aaee9SLawrence Tang 	json_object *array_ir = json_object_new_array();
214e18aaee9SLawrence Tang 	for (int i = 0; i < len; i++)
215e407b4c8SLawrence Tang 		json_object_array_add(array_ir,
216e407b4c8SLawrence Tang 				      json_object_new_uint64(array[i]));
217e18aaee9SLawrence Tang 	return array_ir;
218e18aaee9SLawrence Tang }
219794312c8SLawrence Tang 
2201b0b00e3SLawrence Tang //Converts a single UINT16 revision number into JSON IR representation.
2211b0b00e3SLawrence Tang json_object *revision_to_ir(UINT16 revision)
2221b0b00e3SLawrence Tang {
2231b0b00e3SLawrence Tang 	json_object *revision_info = json_object_new_object();
224e407b4c8SLawrence Tang 	json_object_object_add(revision_info, "major",
225e407b4c8SLawrence Tang 			       json_object_new_int(revision >> 8));
226e407b4c8SLawrence Tang 	json_object_object_add(revision_info, "minor",
227e407b4c8SLawrence Tang 			       json_object_new_int(revision & 0xFF));
2281b0b00e3SLawrence Tang 	return revision_info;
2291b0b00e3SLawrence Tang }
2301b0b00e3SLawrence Tang 
2311b0b00e3SLawrence Tang //Returns the appropriate string for the given integer severity.
23202c801a5SLawrence Tang const char *severity_to_string(UINT32 severity)
2331b0b00e3SLawrence Tang {
2341b0b00e3SLawrence Tang 	return severity < 4 ? CPER_SEVERITY_TYPES[severity] : "Unknown";
2351b0b00e3SLawrence Tang }
2361b0b00e3SLawrence Tang 
237b44314c7SLawrence Tang //Converts a single EFI timestamp to string, at the given output.
238b44314c7SLawrence Tang //Output must be at least TIMESTAMP_LENGTH bytes long.
239b44314c7SLawrence Tang void timestamp_to_string(char *out, EFI_ERROR_TIME_STAMP *timestamp)
240b44314c7SLawrence Tang {
241aacf0e26SLawrence Tang 	sprintf(out, "%02hhu%02hhu-%02hhu-%02hhuT%02hhu:%02hhu:%02hhu.000",
242e407b4c8SLawrence Tang 		bcd_to_int(timestamp->Century) %
243e407b4c8SLawrence Tang 			100, //Cannot go to three digits.
244aacf0e26SLawrence Tang 		bcd_to_int(timestamp->Year) % 100, //Cannot go to three digits.
245e407b4c8SLawrence Tang 		bcd_to_int(timestamp->Month), bcd_to_int(timestamp->Day),
246e407b4c8SLawrence Tang 		bcd_to_int(timestamp->Hours), bcd_to_int(timestamp->Minutes),
247aacf0e26SLawrence Tang 		bcd_to_int(timestamp->Seconds));
248b44314c7SLawrence Tang }
249b44314c7SLawrence Tang 
250b44314c7SLawrence Tang //Converts a single timestamp string to an EFI timestamp.
251b44314c7SLawrence Tang void string_to_timestamp(EFI_ERROR_TIME_STAMP *out, const char *timestamp)
252b44314c7SLawrence Tang {
2530cb33793SLawrence Tang 	//Ignore invalid timestamps.
2540cb33793SLawrence Tang 	if (timestamp == NULL)
2550cb33793SLawrence Tang 		return;
2560cb33793SLawrence Tang 
257aacf0e26SLawrence Tang 	sscanf(timestamp, "%2hhu%2hhu-%hhu-%hhuT%hhu:%hhu:%hhu.000",
258e407b4c8SLawrence Tang 	       &out->Century, &out->Year, &out->Month, &out->Day, &out->Hours,
259e407b4c8SLawrence Tang 	       &out->Minutes, &out->Seconds);
260aacf0e26SLawrence Tang 
261aacf0e26SLawrence Tang 	//Convert back to BCD.
262aacf0e26SLawrence Tang 	out->Century = int_to_bcd(out->Century);
263aacf0e26SLawrence Tang 	out->Year = int_to_bcd(out->Year);
264aacf0e26SLawrence Tang 	out->Month = int_to_bcd(out->Month);
265aacf0e26SLawrence Tang 	out->Day = int_to_bcd(out->Day);
266aacf0e26SLawrence Tang 	out->Hours = int_to_bcd(out->Hours);
267aacf0e26SLawrence Tang 	out->Minutes = int_to_bcd(out->Minutes);
268aacf0e26SLawrence Tang 	out->Seconds = int_to_bcd(out->Seconds);
269b44314c7SLawrence Tang }
270b44314c7SLawrence Tang 
2711b0b00e3SLawrence Tang //Helper function to convert an EDK EFI GUID into a string for intermediate use.
2721b0b00e3SLawrence Tang void guid_to_string(char *out, EFI_GUID *guid)
2731b0b00e3SLawrence Tang {
2741b0b00e3SLawrence Tang 	sprintf(out, "%08x-%04x-%04x-%02x%02x%02x%02x%02x%02x%02x%02x",
275e407b4c8SLawrence Tang 		guid->Data1, guid->Data2, guid->Data3, guid->Data4[0],
276e407b4c8SLawrence Tang 		guid->Data4[1], guid->Data4[2], guid->Data4[3], guid->Data4[4],
277e407b4c8SLawrence Tang 		guid->Data4[5], guid->Data4[6], guid->Data4[7]);
2781b0b00e3SLawrence Tang }
2791b0b00e3SLawrence Tang 
280b44314c7SLawrence Tang //Helper function to convert a string into an EDK EFI GUID.
281b44314c7SLawrence Tang void string_to_guid(EFI_GUID *out, const char *guid)
282b44314c7SLawrence Tang {
2830cb33793SLawrence Tang 	//Ignore invalid GUIDs.
2840cb33793SLawrence Tang 	if (guid == NULL)
2850cb33793SLawrence Tang 		return;
2860cb33793SLawrence Tang 
287e407b4c8SLawrence Tang 	sscanf(guid,
288e407b4c8SLawrence Tang 	       "%08x-%04hx-%04hx-%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx",
289e407b4c8SLawrence Tang 	       &out->Data1, &out->Data2, &out->Data3, out->Data4,
290e407b4c8SLawrence Tang 	       out->Data4 + 1, out->Data4 + 2, out->Data4 + 3, out->Data4 + 4,
291e407b4c8SLawrence Tang 	       out->Data4 + 5, out->Data4 + 6, out->Data4 + 7);
292b44314c7SLawrence Tang }
293b44314c7SLawrence Tang 
2941b0b00e3SLawrence Tang //Returns one if two EFI GUIDs are equal, zero otherwise.
2951b0b00e3SLawrence Tang int guid_equal(EFI_GUID *a, EFI_GUID *b)
2961b0b00e3SLawrence Tang {
2971b0b00e3SLawrence Tang 	//Check top base 3 components.
298e407b4c8SLawrence Tang 	if (a->Data1 != b->Data1 || a->Data2 != b->Data2 ||
299e407b4c8SLawrence Tang 	    a->Data3 != b->Data3) {
3001b0b00e3SLawrence Tang 		return 0;
3011b0b00e3SLawrence Tang 	}
3021b0b00e3SLawrence Tang 
3031b0b00e3SLawrence Tang 	//Check Data4 array for equality.
304e407b4c8SLawrence Tang 	for (int i = 0; i < 8; i++) {
3051b0b00e3SLawrence Tang 		if (a->Data4[i] != b->Data4[i])
3061b0b00e3SLawrence Tang 			return 0;
3071b0b00e3SLawrence Tang 	}
3081b0b00e3SLawrence Tang 
3091b0b00e3SLawrence Tang 	return 1;
3101b0b00e3SLawrence Tang }