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gerrit.openbmc.org / openbmc / libcper / 17bc66a05a9cdc36f9d05c95dca0effdcfe606db / . / sections / cper-section-cxl-protocol.c
blob: 141f26b5fa661502886b82919fec1d930ef5c605 [file] [log] [blame]
/**
* Describes functions for converting CXL protocol error CPER sections from binary and JSON format
* into an intermediate format.
*
* Author: Lawrence.Tang@arm.com
**/
#include <stdio.h>
#include <string.h>
#include <libcper/base64.h>
#include <libcper/Cper.h>
#include <libcper/cper-utils.h>
#include <libcper/sections/cper-section-cxl-protocol.h>
//Converts a single CXL protocol error CPER section into JSON IR.
json_object *cper_section_cxl_protocol_to_ir(void *section)
{
EFI_CXL_PROTOCOL_ERROR_DATA *cxl_protocol_error =
(EFI_CXL_PROTOCOL_ERROR_DATA *)section;
json_object *section_ir = json_object_new_object();
//Validation bits.
json_object *validation =
bitfield_to_ir(cxl_protocol_error->ValidBits, 7,
CXL_PROTOCOL_ERROR_VALID_BITFIELD_NAMES);
json_object_object_add(section_ir, "validationBits", validation);
//Type of detecting agent.
json_object *agent_type = integer_to_readable_pair(
cxl_protocol_error->CxlAgentType, 2,
CXL_PROTOCOL_ERROR_AGENT_TYPES_KEYS,
CXL_PROTOCOL_ERROR_AGENT_TYPES_VALUES, "Unknown (Reserved)");
json_object_object_add(section_ir, "agentType", agent_type);
//CXL agent address, depending on the agent type.
json_object *agent_address = json_object_new_object();
if (cxl_protocol_error->CxlAgentType ==
CXL_PROTOCOL_ERROR_DEVICE_AGENT) {
//Address is a CXL1.1 device agent.
json_object_object_add(
agent_address, "functionNumber",
json_object_new_uint64(
cxl_protocol_error->CxlAgentAddress
.DeviceAddress.FunctionNumber));
json_object_object_add(
agent_address, "deviceNumber",
json_object_new_uint64(
cxl_protocol_error->CxlAgentAddress
.DeviceAddress.DeviceNumber));
json_object_object_add(
agent_address, "busNumber",
json_object_new_uint64(
cxl_protocol_error->CxlAgentAddress
.DeviceAddress.BusNumber));
json_object_object_add(
agent_address, "segmentNumber",
json_object_new_uint64(
cxl_protocol_error->CxlAgentAddress
.DeviceAddress.SegmentNumber));
} else if (cxl_protocol_error->CxlAgentType ==
CXL_PROTOCOL_ERROR_HOST_DOWNSTREAM_PORT_AGENT) {
//Address is a CXL port RCRB base address.
json_object_object_add(
agent_address, "value",
json_object_new_uint64(
cxl_protocol_error->CxlAgentAddress
.PortRcrbBaseAddress));
}
json_object_object_add(section_ir, "cxlAgentAddress", agent_address);
//Device ID.
json_object *device_id = json_object_new_object();
json_object_object_add(
device_id, "vendorID",
json_object_new_uint64(cxl_protocol_error->DeviceId.VendorId));
json_object_object_add(
device_id, "deviceID",
json_object_new_uint64(cxl_protocol_error->DeviceId.DeviceId));
json_object_object_add(
device_id, "subsystemVendorID",
json_object_new_uint64(
cxl_protocol_error->DeviceId.SubsystemVendorId));
json_object_object_add(
device_id, "subsystemDeviceID",
json_object_new_uint64(
cxl_protocol_error->DeviceId.SubsystemDeviceId));
json_object_object_add(
device_id, "classCode",
json_object_new_uint64(cxl_protocol_error->DeviceId.ClassCode));
json_object_object_add(
device_id, "slotNumber",
json_object_new_uint64(
cxl_protocol_error->DeviceId.SlotNumber));
json_object_object_add(section_ir, "deviceID", device_id);
char *encoded;
//Device serial & capability structure (if CXL 1.1 device).
if (cxl_protocol_error->CxlAgentType ==
CXL_PROTOCOL_ERROR_DEVICE_AGENT) {
json_object_object_add(
section_ir, "deviceSerial",
json_object_new_uint64(
cxl_protocol_error->DeviceSerial));
//The PCIe capability structure provided here could either be PCIe 1.1 Capability Structure
//(36-byte, padded to 60 bytes) or PCIe 2.0 Capability Structure (60-byte). There does not seem
//to be a way to differentiate these, so this is left as a b64 dump.
int32_t encoded_len = 0;
encoded = base64_encode(
(UINT8 *)cxl_protocol_error->CapabilityStructure.PcieCap,
60, &encoded_len);
if (encoded == NULL) {
printf("Failed to allocate encode output buffer. \n");
return NULL;
}
json_object_object_add(section_ir, "capabilityStructure",
json_object_new_string_len(encoded,
encoded_len));
free(encoded);
}
//CXL DVSEC & error log length.
json_object_object_add(
section_ir, "dvsecLength",
json_object_new_int(cxl_protocol_error->CxlDvsecLength));
json_object_object_add(
section_ir, "errorLogLength",
json_object_new_int(cxl_protocol_error->CxlErrorLogLength));
//CXL DVSEC
//For CXL 1.1 devices, this is the "CXL DVSEC For Flex Bus Device" structure as in CXL 1.1 spec.
//For CXL 1.1 host downstream ports, this is the "CXL DVSEC For Flex Bus Port" structure as in CXL 1.1 spec.
const char *cur_pos = (const char *)(cxl_protocol_error + 1);
int32_t encoded_len = 0;
encoded = base64_encode((UINT8 *)cur_pos,
cxl_protocol_error->CxlDvsecLength,
&encoded_len);
if (encoded == NULL) {
return NULL;
}
json_object_object_add(section_ir, "cxlDVSEC",
json_object_new_string_len(encoded,
encoded_len));
free(encoded);
cur_pos += cxl_protocol_error->CxlDvsecLength;
//CXL Error Log
//This is the "CXL RAS Capability Structure" as in CXL 1.1 spec.
encoded_len = 0;
encoded = base64_encode((UINT8 *)cur_pos,
cxl_protocol_error->CxlErrorLogLength,
&encoded_len);
if (encoded == NULL) {
printf("Failed to allocate encode output buffer. \n");
return NULL;
}
json_object_object_add(section_ir, "cxlErrorLog",
json_object_new_string_len(encoded,
encoded_len));
free(encoded);
return section_ir;
}
//Converts a single CXL protocol CPER-JSON section into CPER binary, outputting to the given stream.
void ir_section_cxl_protocol_to_cper(json_object *section, FILE *out)
{
EFI_CXL_PROTOCOL_ERROR_DATA *section_cper =
(EFI_CXL_PROTOCOL_ERROR_DATA *)calloc(
1, sizeof(EFI_CXL_PROTOCOL_ERROR_DATA));
//Validation bits.
section_cper->ValidBits = ir_to_bitfield(
json_object_object_get(section, "validationBits"), 7,
CXL_PROTOCOL_ERROR_VALID_BITFIELD_NAMES);
//Detecting agent type.
section_cper->CxlAgentType = readable_pair_to_integer(
json_object_object_get(section, "agentType"));
//Based on the agent type, set the address.
json_object *address =
json_object_object_get(section, "cxlAgentAddress");
if (section_cper->CxlAgentType == CXL_PROTOCOL_ERROR_DEVICE_AGENT) {
//Address is split by function, device, bus & segment.
UINT64 function = json_object_get_uint64(
json_object_object_get(address, "functionNumber"));
UINT64 device = json_object_get_uint64(
json_object_object_get(address, "deviceNumber"));
UINT64 bus = json_object_get_uint64(
json_object_object_get(address, "busNumber"));
UINT64 segment = json_object_get_uint64(
json_object_object_get(address, "segmentNumber"));
section_cper->CxlAgentAddress.DeviceAddress.FunctionNumber =
function;
section_cper->CxlAgentAddress.DeviceAddress.DeviceNumber =
device;
section_cper->CxlAgentAddress.DeviceAddress.BusNumber = bus;
section_cper->CxlAgentAddress.DeviceAddress.SegmentNumber =
segment;
} else if (section_cper->CxlAgentType ==
CXL_PROTOCOL_ERROR_HOST_DOWNSTREAM_PORT_AGENT) {
//Plain RCRB base address.
section_cper->CxlAgentAddress.PortRcrbBaseAddress =
json_object_get_uint64(
json_object_object_get(address, "value"));
}
//Device ID information.
json_object *device_id = json_object_object_get(section, "deviceID");
section_cper->DeviceId.VendorId = json_object_get_uint64(
json_object_object_get(device_id, "vendorID"));
section_cper->DeviceId.DeviceId = json_object_get_uint64(
json_object_object_get(device_id, "deviceID"));
section_cper->DeviceId.SubsystemVendorId = json_object_get_uint64(
json_object_object_get(device_id, "subsystemVendorID"));
section_cper->DeviceId.SubsystemDeviceId = json_object_get_uint64(
json_object_object_get(device_id, "subsystemDeviceID"));
section_cper->DeviceId.ClassCode = json_object_get_uint64(
json_object_object_get(device_id, "classCode"));
section_cper->DeviceId.SlotNumber = json_object_get_uint64(
json_object_object_get(device_id, "slotNumber"));
//If CXL 1.1 device, the serial number & PCI capability structure.
UINT8 *decoded;
if (section_cper->CxlAgentType == CXL_PROTOCOL_ERROR_DEVICE_AGENT) {
section_cper->DeviceSerial = json_object_get_uint64(
json_object_object_get(section, "deviceSerial"));
json_object *encoded =
json_object_object_get(section, "capabilityStructure");
int32_t decoded_len = 0;
decoded = base64_decode(json_object_get_string(encoded),
json_object_get_string_len(encoded),
&decoded_len);
if (decoded == NULL) {
printf("Failed to allocate decode output buffer. \n");
} else {
memcpy(section_cper->CapabilityStructure.PcieCap,
decoded, decoded_len);
free(decoded);
}
}
//DVSEC length & error log length.
section_cper->CxlDvsecLength = (UINT16)json_object_get_int(
json_object_object_get(section, "dvsecLength"));
section_cper->CxlErrorLogLength = (UINT16)json_object_get_int(
json_object_object_get(section, "errorLogLength"));
//Write header to stream.
fwrite(section_cper, sizeof(EFI_CXL_PROTOCOL_ERROR_DATA), 1, out);
fflush(out);
//DVSEC out to stream.
json_object *encoded = json_object_object_get(section, "cxlDVSEC");
int32_t decoded_len = 0;
decoded = base64_decode(json_object_get_string(encoded),
json_object_get_string_len(encoded),
&decoded_len);
if (decoded == NULL) {
printf("Failed to allocate decode output buffer. \n");
} else {
fwrite(decoded, decoded_len, 1, out);
fflush(out);
free(decoded);
}
//Error log out to stream.
encoded = json_object_object_get(section, "cxlErrorLog");
decoded_len = 0;
decoded = base64_decode(json_object_get_string(encoded),
json_object_get_string_len(encoded),
&decoded_len);
if (decoded == NULL) {
printf("Failed to allocate decode output buffer. \n");
} else {
fwrite(decoded, decoded_len, 1, out);
fflush(out);
free(decoded);
}
free(section_cper);
}