blob: 7aaf7e4d7b3e4dd25a2efbef9f82a5d5f78fd645 [file] [log] [blame]
#include <string.h>
#include <array>
#include "libpldm/base.h"
#include <gtest/gtest.h>
constexpr auto hdrSize = sizeof(pldm_msg_hdr);
TEST(PackPLDMMessage, BadPathTest)
{
struct pldm_header_info hdr;
struct pldm_header_info* hdr_ptr = NULL;
pldm_msg_hdr msg{};
// PLDM header information pointer is NULL
auto rc = pack_pldm_header(hdr_ptr, &msg);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
// PLDM message pointer is NULL
rc = pack_pldm_header(&hdr, nullptr);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
// PLDM header information pointer and PLDM message pointer is NULL
rc = pack_pldm_header(hdr_ptr, nullptr);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
// RESERVED message type
hdr.msg_type = PLDM_RESERVED;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
// Instance ID out of range
hdr.msg_type = PLDM_REQUEST;
hdr.instance = 32;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
// PLDM type out of range
hdr.msg_type = PLDM_REQUEST;
hdr.instance = 31;
hdr.pldm_type = 64;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_PLDM_TYPE);
}
TEST(PackPLDMMessage, RequestMessageGoodPath)
{
struct pldm_header_info hdr;
pldm_msg_hdr msg{};
// Message type is REQUEST and lower range of the field values
hdr.msg_type = PLDM_REQUEST;
hdr.instance = 0;
hdr.pldm_type = 0;
hdr.command = 0;
auto rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(msg.request, 1);
ASSERT_EQ(msg.datagram, 0);
ASSERT_EQ(msg.instance_id, 0);
ASSERT_EQ(msg.type, 0);
ASSERT_EQ(msg.command, 0);
// Message type is REQUEST and upper range of the field values
hdr.instance = 31;
hdr.pldm_type = 63;
hdr.command = 255;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(msg.request, 1);
ASSERT_EQ(msg.datagram, 0);
ASSERT_EQ(msg.instance_id, 31);
ASSERT_EQ(msg.type, 63);
ASSERT_EQ(msg.command, 255);
// Message type is PLDM_ASYNC_REQUEST_NOTIFY
hdr.msg_type = PLDM_ASYNC_REQUEST_NOTIFY;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(msg.request, 1);
ASSERT_EQ(msg.datagram, 1);
ASSERT_EQ(msg.instance_id, 31);
ASSERT_EQ(msg.type, 63);
ASSERT_EQ(msg.command, 255);
}
TEST(PackPLDMMessage, ResponseMessageGoodPath)
{
struct pldm_header_info hdr;
pldm_msg_hdr msg{};
// Message type is PLDM_RESPONSE and lower range of the field values
hdr.msg_type = PLDM_RESPONSE;
hdr.instance = 0;
hdr.pldm_type = 0;
hdr.command = 0;
auto rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(msg.request, 0);
ASSERT_EQ(msg.datagram, 0);
ASSERT_EQ(msg.instance_id, 0);
ASSERT_EQ(msg.type, 0);
ASSERT_EQ(msg.command, 0);
// Message type is PLDM_RESPONSE and upper range of the field values
hdr.instance = 31;
hdr.pldm_type = 63;
hdr.command = 255;
rc = pack_pldm_header(&hdr, &msg);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(msg.request, 0);
ASSERT_EQ(msg.datagram, 0);
ASSERT_EQ(msg.instance_id, 31);
ASSERT_EQ(msg.type, 63);
ASSERT_EQ(msg.command, 255);
}
TEST(UnpackPLDMMessage, BadPathTest)
{
struct pldm_header_info hdr;
// PLDM message pointer is NULL
auto rc = unpack_pldm_header(nullptr, &hdr);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
}
TEST(UnpackPLDMMessage, RequestMessageGoodPath)
{
struct pldm_header_info hdr;
pldm_msg_hdr msg{};
// Unpack PLDM request message and lower range of field values
msg.request = 1;
auto rc = unpack_pldm_header(&msg, &hdr);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(hdr.msg_type, PLDM_REQUEST);
ASSERT_EQ(hdr.instance, 0);
ASSERT_EQ(hdr.pldm_type, 0);
ASSERT_EQ(hdr.command, 0);
// Unpack PLDM async request message and lower range of field values
msg.datagram = 1;
rc = unpack_pldm_header(&msg, &hdr);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(hdr.msg_type, PLDM_ASYNC_REQUEST_NOTIFY);
// Unpack PLDM request message and upper range of field values
msg.datagram = 0;
msg.instance_id = 31;
msg.type = 63;
msg.command = 255;
rc = unpack_pldm_header(&msg, &hdr);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(hdr.msg_type, PLDM_REQUEST);
ASSERT_EQ(hdr.instance, 31);
ASSERT_EQ(hdr.pldm_type, 63);
ASSERT_EQ(hdr.command, 255);
}
TEST(UnpackPLDMMessage, ResponseMessageGoodPath)
{
struct pldm_header_info hdr;
pldm_msg_hdr msg{};
// Unpack PLDM response message and lower range of field values
auto rc = unpack_pldm_header(&msg, &hdr);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(hdr.msg_type, PLDM_RESPONSE);
ASSERT_EQ(hdr.instance, 0);
ASSERT_EQ(hdr.pldm_type, 0);
ASSERT_EQ(hdr.command, 0);
// Unpack PLDM response message and upper range of field values
msg.instance_id = 31;
msg.type = 63;
msg.command = 255;
rc = unpack_pldm_header(&msg, &hdr);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(hdr.msg_type, PLDM_RESPONSE);
ASSERT_EQ(hdr.instance, 31);
ASSERT_EQ(hdr.pldm_type, 63);
ASSERT_EQ(hdr.command, 255);
}
TEST(GetPLDMCommands, testEncodeRequest)
{
uint8_t pldmType = 0x05;
ver32_t version{0xFF, 0xFF, 0xFF, 0xFF};
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_COMMANDS_REQ_BYTES>
requestMsg{};
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = encode_get_commands_req(0, pldmType, version, request);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(0, memcmp(request->payload, &pldmType, sizeof(pldmType)));
ASSERT_EQ(0, memcmp(request->payload + sizeof(pldmType), &version,
sizeof(version)));
}
TEST(GetPLDMCommands, testDecodeRequest)
{
uint8_t pldmType = 0x05;
ver32_t version{0xFF, 0xFF, 0xFF, 0xFF};
uint8_t pldmTypeOut{};
ver32_t versionOut{0xFF, 0xFF, 0xFF, 0xFF};
std::array<uint8_t, hdrSize + PLDM_GET_COMMANDS_REQ_BYTES> requestMsg{};
memcpy(requestMsg.data() + hdrSize, &pldmType, sizeof(pldmType));
memcpy(requestMsg.data() + sizeof(pldmType) + hdrSize, &version,
sizeof(version));
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = decode_get_commands_req(request, requestMsg.size() - hdrSize,
&pldmTypeOut, &versionOut);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(pldmTypeOut, pldmType);
ASSERT_EQ(0, memcmp(&versionOut, &version, sizeof(version)));
}
TEST(GetPLDMCommands, testEncodeResponse)
{
uint8_t completionCode = 0;
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_COMMANDS_RESP_BYTES>
responseMsg{};
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
std::array<bitfield8_t, PLDM_MAX_CMDS_PER_TYPE / 8> commands{};
commands[0].byte = 1;
commands[1].byte = 2;
commands[2].byte = 3;
auto rc =
encode_get_commands_resp(0, PLDM_SUCCESS, commands.data(), response);
ASSERT_EQ(rc, PLDM_SUCCESS);
uint8_t* payload_ptr = response->payload;
ASSERT_EQ(completionCode, payload_ptr[0]);
ASSERT_EQ(1, payload_ptr[sizeof(completionCode)]);
ASSERT_EQ(2,
payload_ptr[sizeof(completionCode) + sizeof(commands[0].byte)]);
ASSERT_EQ(3, payload_ptr[sizeof(completionCode) + sizeof(commands[0].byte) +
sizeof(commands[1].byte)]);
}
TEST(GetPLDMTypes, testEncodeResponse)
{
uint8_t completionCode = 0;
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_TYPES_RESP_BYTES>
responseMsg{};
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
std::array<bitfield8_t, PLDM_MAX_TYPES / 8> types{};
types[0].byte = 1;
types[1].byte = 2;
types[2].byte = 3;
auto rc = encode_get_types_resp(0, PLDM_SUCCESS, types.data(), response);
ASSERT_EQ(rc, PLDM_SUCCESS);
uint8_t* payload_ptr = response->payload;
ASSERT_EQ(completionCode, payload_ptr[0]);
ASSERT_EQ(1, payload_ptr[sizeof(completionCode)]);
ASSERT_EQ(2, payload_ptr[sizeof(completionCode) + sizeof(types[0].byte)]);
ASSERT_EQ(3, payload_ptr[sizeof(completionCode) + sizeof(types[0].byte) +
sizeof(types[1].byte)]);
}
TEST(GetPLDMTypes, testDecodeResponse)
{
std::array<uint8_t, hdrSize + PLDM_GET_TYPES_RESP_BYTES> responseMsg{};
responseMsg[1 + hdrSize] = 1;
responseMsg[2 + hdrSize] = 2;
responseMsg[3 + hdrSize] = 3;
std::array<bitfield8_t, PLDM_MAX_TYPES / 8> outTypes{};
uint8_t completion_code;
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
auto rc = decode_get_types_resp(response, responseMsg.size() - hdrSize,
&completion_code, outTypes.data());
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(completion_code, PLDM_SUCCESS);
ASSERT_EQ(responseMsg[1 + hdrSize], outTypes[0].byte);
ASSERT_EQ(responseMsg[2 + hdrSize], outTypes[1].byte);
ASSERT_EQ(responseMsg[3 + hdrSize], outTypes[2].byte);
}
TEST(GetPLDMCommands, testDecodeResponse)
{
std::array<uint8_t, hdrSize + PLDM_GET_COMMANDS_RESP_BYTES> responseMsg{};
responseMsg[1 + hdrSize] = 1;
responseMsg[2 + hdrSize] = 2;
responseMsg[3 + hdrSize] = 3;
std::array<bitfield8_t, PLDM_MAX_CMDS_PER_TYPE / 8> outTypes{};
uint8_t completion_code;
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
auto rc = decode_get_commands_resp(response, responseMsg.size() - hdrSize,
&completion_code, outTypes.data());
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(completion_code, PLDM_SUCCESS);
ASSERT_EQ(responseMsg[1 + hdrSize], outTypes[0].byte);
ASSERT_EQ(responseMsg[2 + hdrSize], outTypes[1].byte);
ASSERT_EQ(responseMsg[3 + hdrSize], outTypes[2].byte);
}
TEST(GetPLDMVersion, testGoodEncodeRequest)
{
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_VERSION_REQ_BYTES>
requestMsg{};
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
uint8_t pldmType = 0x03;
uint32_t transferHandle = 0x0;
uint8_t opFlag = 0x01;
auto rc =
encode_get_version_req(0, transferHandle, opFlag, pldmType, request);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(
0, memcmp(request->payload, &transferHandle, sizeof(transferHandle)));
ASSERT_EQ(0, memcmp(request->payload + sizeof(transferHandle), &opFlag,
sizeof(opFlag)));
ASSERT_EQ(0,
memcmp(request->payload + sizeof(transferHandle) + sizeof(opFlag),
&pldmType, sizeof(pldmType)));
}
TEST(GetPLDMVersion, testBadEncodeRequest)
{
uint8_t pldmType = 0x03;
uint32_t transferHandle = 0x0;
uint8_t opFlag = 0x01;
auto rc =
encode_get_version_req(0, transferHandle, opFlag, pldmType, nullptr);
ASSERT_EQ(rc, PLDM_ERROR_INVALID_DATA);
}
TEST(GetPLDMVersion, testEncodeResponse)
{
uint8_t completionCode = 0;
uint32_t transferHandle = 0;
uint8_t flag = PLDM_START_AND_END;
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_VERSION_RESP_BYTES>
responseMsg{};
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
ver32_t version = {0xFF, 0xFF, 0xFF, 0xFF};
auto rc = encode_get_version_resp(0, PLDM_SUCCESS, 0, PLDM_START_AND_END,
&version, sizeof(ver32_t), response);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(completionCode, response->payload[0]);
ASSERT_EQ(0, memcmp(response->payload + sizeof(response->payload[0]),
&transferHandle, sizeof(transferHandle)));
ASSERT_EQ(0, memcmp(response->payload + sizeof(response->payload[0]) +
sizeof(transferHandle),
&flag, sizeof(flag)));
ASSERT_EQ(0, memcmp(response->payload + sizeof(response->payload[0]) +
sizeof(transferHandle) + sizeof(flag),
&version, sizeof(version)));
}
TEST(GetPLDMVersion, testDecodeRequest)
{
std::array<uint8_t, hdrSize + PLDM_GET_VERSION_REQ_BYTES> requestMsg{};
uint32_t transferHandle = 0x0;
uint32_t retTransferHandle = 0x0;
uint8_t flag = PLDM_GET_FIRSTPART;
uint8_t retFlag = PLDM_GET_FIRSTPART;
uint8_t pldmType = PLDM_BASE;
uint8_t retType = PLDM_BASE;
memcpy(requestMsg.data() + hdrSize, &transferHandle,
sizeof(transferHandle));
memcpy(requestMsg.data() + sizeof(transferHandle) + hdrSize, &flag,
sizeof(flag));
memcpy(requestMsg.data() + sizeof(transferHandle) + sizeof(flag) + hdrSize,
&pldmType, sizeof(pldmType));
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = decode_get_version_req(request, requestMsg.size() - hdrSize,
&retTransferHandle, &retFlag, &retType);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(transferHandle, retTransferHandle);
ASSERT_EQ(flag, retFlag);
ASSERT_EQ(pldmType, retType);
}
TEST(GetPLDMVersion, testDecodeResponse)
{
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_VERSION_RESP_BYTES>
responseMsg{};
uint32_t transferHandle = 0x0;
uint32_t retTransferHandle = 0x0;
uint8_t flag = PLDM_START_AND_END;
uint8_t retFlag = PLDM_START_AND_END;
uint8_t completionCode = 0;
ver32_t version = {0xFF, 0xFF, 0xFF, 0xFF};
ver32_t versionOut;
uint8_t completion_code;
memcpy(responseMsg.data() + sizeof(completionCode) + hdrSize,
&transferHandle, sizeof(transferHandle));
memcpy(responseMsg.data() + sizeof(completionCode) +
sizeof(transferHandle) + hdrSize,
&flag, sizeof(flag));
memcpy(responseMsg.data() + sizeof(completionCode) +
sizeof(transferHandle) + sizeof(flag) + hdrSize,
&version, sizeof(version));
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
auto rc = decode_get_version_resp(response, responseMsg.size() - hdrSize,
&completion_code, &retTransferHandle,
&retFlag, &versionOut);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(transferHandle, retTransferHandle);
ASSERT_EQ(flag, retFlag);
ASSERT_EQ(versionOut.major, version.major);
ASSERT_EQ(versionOut.minor, version.minor);
ASSERT_EQ(versionOut.update, version.update);
ASSERT_EQ(versionOut.alpha, version.alpha);
}
TEST(GetTID, testEncodeResponse)
{
uint8_t completionCode = 0;
std::array<uint8_t, sizeof(pldm_msg_hdr) + PLDM_GET_TID_RESP_BYTES>
responseMsg{};
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
uint8_t tid = 1;
auto rc = encode_get_tid_resp(0, PLDM_SUCCESS, tid, response);
ASSERT_EQ(rc, PLDM_SUCCESS);
uint8_t* payload = response->payload;
ASSERT_EQ(completionCode, payload[0]);
ASSERT_EQ(1, payload[sizeof(completionCode)]);
}
TEST(GetTID, testDecodeResponse)
{
std::array<uint8_t, hdrSize + PLDM_GET_TID_RESP_BYTES> responseMsg{};
responseMsg[1 + hdrSize] = 1;
uint8_t tid;
uint8_t completion_code;
auto response = reinterpret_cast<pldm_msg*>(responseMsg.data());
auto rc = decode_get_tid_resp(response, responseMsg.size() - hdrSize,
&completion_code, &tid);
ASSERT_EQ(rc, PLDM_SUCCESS);
ASSERT_EQ(completion_code, PLDM_SUCCESS);
ASSERT_EQ(tid, 1);
}