1 /**
2  * Describes functions for converting CXL component error CPER sections from binary and JSON format
3  * into an intermediate format.
4  *
5  * Author: Lawrence.Tang@arm.com
6  **/
7 #include <stdio.h>
8 #include <json.h>
9 #include "base64.h"
10 #include "../edk/Cper.h"
11 #include "../cper-utils.h"
12 #include "cper-section-cxl-component.h"
13 
14 //Converts a single CXL component error CPER section into JSON IR.
cper_section_cxl_component_to_ir(void * section)15 json_object *cper_section_cxl_component_to_ir(void *section)
16 {
17 	EFI_CXL_COMPONENT_EVENT_HEADER *cxl_error =
18 		(EFI_CXL_COMPONENT_EVENT_HEADER *)section;
19 	json_object *section_ir = json_object_new_object();
20 
21 	//Length (bytes) for the entire structure.
22 	json_object_object_add(section_ir, "length",
23 			       json_object_new_uint64(cxl_error->Length));
24 
25 	//Validation bits.
26 	json_object *validation =
27 		bitfield_to_ir(cxl_error->ValidBits, 3,
28 			       CXL_COMPONENT_ERROR_VALID_BITFIELD_NAMES);
29 	json_object_object_add(section_ir, "validationBits", validation);
30 
31 	//Device ID.
32 	json_object *device_id = json_object_new_object();
33 	json_object_object_add(
34 		device_id, "vendorID",
35 		json_object_new_int(cxl_error->DeviceId.VendorId));
36 	json_object_object_add(
37 		device_id, "deviceID",
38 		json_object_new_int(cxl_error->DeviceId.DeviceId));
39 	json_object_object_add(
40 		device_id, "functionNumber",
41 		json_object_new_int(cxl_error->DeviceId.FunctionNumber));
42 	json_object_object_add(
43 		device_id, "deviceNumber",
44 		json_object_new_int(cxl_error->DeviceId.DeviceNumber));
45 	json_object_object_add(
46 		device_id, "busNumber",
47 		json_object_new_int(cxl_error->DeviceId.BusNumber));
48 	json_object_object_add(
49 		device_id, "segmentNumber",
50 		json_object_new_int(cxl_error->DeviceId.SegmentNumber));
51 	json_object_object_add(
52 		device_id, "slotNumber",
53 		json_object_new_int(cxl_error->DeviceId.SlotNumber));
54 	json_object_object_add(section_ir, "deviceID", device_id);
55 
56 	//Device serial.
57 	json_object_object_add(section_ir, "deviceSerial",
58 			       json_object_new_uint64(cxl_error->DeviceSerial));
59 
60 	//The specification for this is defined within the CXL Specification Section 8.2.9.1.
61 	const char *cur_pos = (const char *)(cxl_error + 1);
62 	int remaining_len =
63 		cxl_error->Length - sizeof(EFI_CXL_COMPONENT_EVENT_HEADER);
64 	if (remaining_len > 0) {
65 		json_object *event_log = json_object_new_object();
66 
67 		int32_t encoded_len = 0;
68 
69 		char *encoded = base64_encode((UINT8 *)cur_pos, remaining_len,
70 					      &encoded_len);
71 		if (encoded == NULL) {
72 			printf("Failed to allocate encode output buffer. \n");
73 			return NULL;
74 		}
75 		json_object_object_add(event_log, "data",
76 				       json_object_new_string_len(encoded,
77 								  encoded_len));
78 
79 		free(encoded);
80 		json_object_object_add(section_ir, "cxlComponentEventLog",
81 				       event_log);
82 	}
83 
84 	return section_ir;
85 }
86 
87 //Converts a single given CXL Component CPER-JSON section into CPER binary, outputting to the
88 //given stream.
ir_section_cxl_component_to_cper(json_object * section,FILE * out)89 void ir_section_cxl_component_to_cper(json_object *section, FILE *out)
90 {
91 	EFI_CXL_COMPONENT_EVENT_HEADER *section_cper =
92 		(EFI_CXL_COMPONENT_EVENT_HEADER *)calloc(
93 			1, sizeof(EFI_CXL_COMPONENT_EVENT_HEADER));
94 
95 	//Length of the structure.
96 	section_cper->Length = json_object_get_uint64(
97 		json_object_object_get(section, "length"));
98 
99 	//Validation bits.
100 	section_cper->ValidBits = ir_to_bitfield(
101 		json_object_object_get(section, "validationBits"), 3,
102 		CXL_COMPONENT_ERROR_VALID_BITFIELD_NAMES);
103 
104 	//Device ID information.
105 	json_object *device_id = json_object_object_get(section, "deviceID");
106 	section_cper->DeviceId.VendorId = json_object_get_uint64(
107 		json_object_object_get(device_id, "vendorID"));
108 	section_cper->DeviceId.DeviceId = json_object_get_uint64(
109 		json_object_object_get(device_id, "deviceID"));
110 	section_cper->DeviceId.FunctionNumber = json_object_get_uint64(
111 		json_object_object_get(device_id, "functionNumber"));
112 	section_cper->DeviceId.DeviceNumber = json_object_get_uint64(
113 		json_object_object_get(device_id, "deviceNumber"));
114 	section_cper->DeviceId.BusNumber = json_object_get_uint64(
115 		json_object_object_get(device_id, "busNumber"));
116 	section_cper->DeviceId.SegmentNumber = json_object_get_uint64(
117 		json_object_object_get(device_id, "segmentNumber"));
118 	section_cper->DeviceId.SlotNumber = json_object_get_uint64(
119 		json_object_object_get(device_id, "slotNumber"));
120 
121 	//Device serial number.
122 	section_cper->DeviceSerial = json_object_get_uint64(
123 		json_object_object_get(section, "deviceSerial"));
124 
125 	//Write header out to stream.
126 	fwrite(section_cper, sizeof(EFI_CXL_COMPONENT_EVENT_HEADER), 1, out);
127 	fflush(out);
128 
129 	//CXL component event log, decoded from base64.
130 	json_object *event_log =
131 		json_object_object_get(section, "cxlComponentEventLog");
132 	json_object *encoded = json_object_object_get(event_log, "data");
133 
134 	int32_t decoded_len = 0;
135 
136 	UINT8 *decoded = base64_decode(json_object_get_string(encoded),
137 				       json_object_get_string_len(encoded),
138 				       &decoded_len);
139 
140 	if (decoded == NULL) {
141 		printf("Failed to allocate decode output buffer. \n");
142 	} else {
143 		fwrite(decoded, decoded_len, 1, out);
144 		fflush(out);
145 		free(decoded);
146 	}
147 
148 	free(section_cper);
149 }
150