#include "config.h" #include "file_io.hpp" #include "file_io_by_type.hpp" #include "file_table.hpp" #include "utils.hpp" #include "xyz/openbmc_project/Common/error.hpp" #include #include #include #include #include #include #include #include #include #include #include PHOSPHOR_LOG2_USING; namespace pldm { using namespace pldm::responder::utils; using namespace sdbusplus::xyz::openbmc_project::Common::Error; namespace responder { namespace fs = std::filesystem; namespace dma { /** @struct AspeedXdmaOp * * Structure representing XDMA operation */ struct AspeedXdmaOp { uint64_t hostAddr; //!< the DMA address on the host side, configured by //!< PCI subsystem. uint32_t len; //!< the size of the transfer in bytes, it should be a //!< multiple of 16 bytes uint32_t upstream; //!< boolean indicating the direction of the DMA //!< operation, true means a transfer from BMC to host. }; constexpr auto xdmaDev = "/dev/aspeed-xdma"; int DMA::transferHostDataToSocket(int fd, uint32_t length, uint64_t address) { static const size_t pageSize = getpagesize(); uint32_t numPages = length / pageSize; uint32_t pageAlignedLength = numPages * pageSize; if (length > pageAlignedLength) { pageAlignedLength += pageSize; } auto mmapCleanup = [pageAlignedLength](void* vgaMem) { munmap(vgaMem, pageAlignedLength); }; int dmaFd = -1; int rc = 0; dmaFd = open(xdmaDev, O_RDWR); if (dmaFd < 0) { rc = -errno; error( "transferHostDataToSocket: Failed to open the XDMA device, RC={RC}", "RC", rc); return rc; } pldm::utils::CustomFD xdmaFd(dmaFd); void* vgaMem; vgaMem = mmap(nullptr, pageAlignedLength, PROT_READ, MAP_SHARED, xdmaFd(), 0); if (MAP_FAILED == vgaMem) { rc = -errno; error( "transferHostDataToSocket : Failed to mmap the XDMA device, RC={RC}", "RC", rc); return rc; } std::unique_ptr vgaMemPtr(vgaMem, mmapCleanup); AspeedXdmaOp xdmaOp; xdmaOp.upstream = 0; xdmaOp.hostAddr = address; xdmaOp.len = length; rc = write(xdmaFd(), &xdmaOp, sizeof(xdmaOp)); if (rc < 0) { rc = -errno; error( "transferHostDataToSocket: Failed to execute the DMA operation, RC={RC} ADDRESS={ADDR} LENGTH={LEN}", "RC", rc, "ADDR", address, "LEN", length); return rc; } rc = writeToUnixSocket(fd, static_cast(vgaMemPtr.get()), length); if (rc < 0) { rc = -errno; close(fd); error( "transferHostDataToSocket: Closing socket as writeToUnixSocket faile with RC={RC}", "RC", rc); return rc; } return 0; } int DMA::transferDataHost(int fd, uint32_t offset, uint32_t length, uint64_t address, bool upstream) { static const size_t pageSize = getpagesize(); uint32_t numPages = length / pageSize; uint32_t pageAlignedLength = numPages * pageSize; if (length > pageAlignedLength) { pageAlignedLength += pageSize; } int rc = 0; auto mmapCleanup = [pageAlignedLength, &rc](void* vgaMem) { if (rc != -EINTR) { munmap(vgaMem, pageAlignedLength); } else { error( "transferDataHost: Received interrupt during DMA transfer. Skipping Unmap."); } }; int dmaFd = -1; dmaFd = open(xdmaDev, O_RDWR); if (dmaFd < 0) { rc = -errno; error("transferDataHost : Failed to open the XDMA device, RC={RC}", "RC", rc); return rc; } pldm::utils::CustomFD xdmaFd(dmaFd); void* vgaMem; vgaMem = mmap(nullptr, pageAlignedLength, upstream ? PROT_WRITE : PROT_READ, MAP_SHARED, xdmaFd(), 0); if (MAP_FAILED == vgaMem) { rc = -errno; error("transferDataHost : Failed to mmap the XDMA device, RC={RC}", "RC", rc); return rc; } std::unique_ptr vgaMemPtr(vgaMem, mmapCleanup); if (upstream) { rc = lseek(fd, offset, SEEK_SET); if (rc == -1) { error( "transferDataHost upstream : lseek failed, ERROR={ERR}, UPSTREAM={UPSTREAM}, OFFSET={OFFSET}", "ERR", errno, "UPSTREAM", upstream, "OFFSET", offset); return rc; } // Writing to the VGA memory should be aligned at page boundary, // otherwise write data into a buffer aligned at page boundary and // then write to the VGA memory. std::vector buffer{}; buffer.resize(pageAlignedLength); rc = read(fd, buffer.data(), length); if (rc == -1) { error( "transferDataHost upstream : file read failed, ERROR={ERR}, UPSTREAM={UPSTREAM}, LENGTH={LEN}, OFFSET={OFFSET}", "ERR", errno, "UPSTREAM", upstream, "LEN", length, "OFFSET", offset); return rc; } if (rc != static_cast(length)) { error( "transferDataHost upstream : mismatch between number of characters to read and the length read, LENGTH={LEN} COUNT={RC}", "LEN", length, "RC", rc); return -1; } memcpy(static_cast(vgaMemPtr.get()), buffer.data(), pageAlignedLength); } AspeedXdmaOp xdmaOp; xdmaOp.upstream = upstream ? 1 : 0; xdmaOp.hostAddr = address; xdmaOp.len = length; rc = write(xdmaFd(), &xdmaOp, sizeof(xdmaOp)); if (rc < 0) { rc = -errno; error( "transferDataHost : Failed to execute the DMA operation, RC={RC} UPSTREAM={UPSTREAM} ADDRESS={ADDR} LENGTH={LEN}", "RC", rc, "UPSTREAM", upstream, "ADDR", address, "LEN", length); return rc; } if (!upstream) { rc = lseek(fd, offset, SEEK_SET); if (rc == -1) { error( "transferDataHost downstream : lseek failed, ERROR={ERR}, UPSTREAM={UPSTREAM}, OFFSET={OFFSET}", "ERR", errno, "UPSTREAM", upstream, "OFFSET", offset); return rc; } rc = write(fd, static_cast(vgaMemPtr.get()), length); if (rc == -1) { error( "transferDataHost downstream : file write failed, ERROR={ERR}, UPSTREAM={UPSTREAM}, LENGTH={LEN}, OFFSET={OFFSET}", "ERR", errno, "UPSTREAM", upstream, "LEN", length, "OFFSET", offset); return rc; } } return 0; } } // namespace dma namespace oem_ibm { Response Handler::readFileIntoMemory(const pldm_msg* request, size_t payloadLength) { uint32_t fileHandle = 0; uint32_t offset = 0; uint32_t length = 0; uint64_t address = 0; Response response((sizeof(pldm_msg_hdr) + PLDM_RW_FILE_MEM_RESP_BYTES), 0); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_RW_FILE_MEM_REQ_BYTES) { encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_READ_FILE_INTO_MEMORY, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } decode_rw_file_memory_req(request, payloadLength, &fileHandle, &offset, &length, &address); using namespace pldm::filetable; auto& table = buildFileTable(FILE_TABLE_JSON); FileEntry value{}; try { value = table.at(fileHandle); } catch (const std::exception& e) { error( "File handle does not exist in the file table, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_READ_FILE_INTO_MEMORY, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } if (!fs::exists(value.fsPath)) { error("File does not exist, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_READ_FILE_INTO_MEMORY, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } auto fileSize = fs::file_size(value.fsPath); if (offset >= fileSize) { error("Offset exceeds file size, OFFSET={OFFSTE} FILE_SIZE={FILE_SIZE}", "OFFSET", offset, "FILE_SIZE", fileSize); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_READ_FILE_INTO_MEMORY, PLDM_DATA_OUT_OF_RANGE, 0, responsePtr); return response; } if (offset + length > fileSize) { length = fileSize - offset; } if (length % dma::minSize) { error("Read length is not a multiple of DMA minSize, LENGTH={LEN}", "LEN", length); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_READ_FILE_INTO_MEMORY, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } using namespace dma; DMA intf; return transferAll(&intf, PLDM_READ_FILE_INTO_MEMORY, value.fsPath, offset, length, address, true, request->hdr.instance_id); } Response Handler::writeFileFromMemory(const pldm_msg* request, size_t payloadLength) { uint32_t fileHandle = 0; uint32_t offset = 0; uint32_t length = 0; uint64_t address = 0; Response response(sizeof(pldm_msg_hdr) + PLDM_RW_FILE_MEM_RESP_BYTES, 0); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_RW_FILE_MEM_REQ_BYTES) { encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_WRITE_FILE_FROM_MEMORY, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } decode_rw_file_memory_req(request, payloadLength, &fileHandle, &offset, &length, &address); if (length % dma::minSize) { error("Write length is not a multiple of DMA minSize, LENGTH={LEN}", "LEN", length); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_WRITE_FILE_FROM_MEMORY, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } using namespace pldm::filetable; auto& table = buildFileTable(FILE_TABLE_JSON); FileEntry value{}; try { value = table.at(fileHandle); } catch (const std::exception& e) { error( "File handle does not exist in the file table, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_WRITE_FILE_FROM_MEMORY, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } if (!fs::exists(value.fsPath)) { error("File does not exist, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_WRITE_FILE_FROM_MEMORY, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } auto fileSize = fs::file_size(value.fsPath); if (offset >= fileSize) { error("Offset exceeds file size, OFFSET={OFFSET} FILE_SIZE={FILE_SIZE}", "OFFSET", offset, "FILE_SIZE", fileSize); encode_rw_file_memory_resp(request->hdr.instance_id, PLDM_WRITE_FILE_FROM_MEMORY, PLDM_DATA_OUT_OF_RANGE, 0, responsePtr); return response; } using namespace dma; DMA intf; return transferAll(&intf, PLDM_WRITE_FILE_FROM_MEMORY, value.fsPath, offset, length, address, false, request->hdr.instance_id); } Response Handler::getFileTable(const pldm_msg* request, size_t payloadLength) { uint32_t transferHandle = 0; uint8_t transferFlag = 0; uint8_t tableType = 0; Response response(sizeof(pldm_msg_hdr) + PLDM_GET_FILE_TABLE_MIN_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_GET_FILE_TABLE_REQ_BYTES) { encode_get_file_table_resp(request->hdr.instance_id, PLDM_ERROR_INVALID_LENGTH, 0, 0, nullptr, 0, responsePtr); return response; } auto rc = decode_get_file_table_req(request, payloadLength, &transferHandle, &transferFlag, &tableType); if (rc) { encode_get_file_table_resp(request->hdr.instance_id, rc, 0, 0, nullptr, 0, responsePtr); return response; } if (tableType != PLDM_FILE_ATTRIBUTE_TABLE) { encode_get_file_table_resp(request->hdr.instance_id, PLDM_INVALID_FILE_TABLE_TYPE, 0, 0, nullptr, 0, responsePtr); return response; } using namespace pldm::filetable; auto table = buildFileTable(FILE_TABLE_JSON); auto attrTable = table(); response.resize(response.size() + attrTable.size()); responsePtr = reinterpret_cast(response.data()); if (attrTable.empty()) { encode_get_file_table_resp(request->hdr.instance_id, PLDM_FILE_TABLE_UNAVAILABLE, 0, 0, nullptr, 0, responsePtr); return response; } encode_get_file_table_resp(request->hdr.instance_id, PLDM_SUCCESS, 0, PLDM_START_AND_END, attrTable.data(), attrTable.size(), responsePtr); return response; } Response Handler::readFile(const pldm_msg* request, size_t payloadLength) { uint32_t fileHandle = 0; uint32_t offset = 0; uint32_t length = 0; Response response(sizeof(pldm_msg_hdr) + PLDM_READ_FILE_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_READ_FILE_REQ_BYTES) { encode_read_file_resp(request->hdr.instance_id, PLDM_ERROR_INVALID_LENGTH, length, responsePtr); return response; } auto rc = decode_read_file_req(request, payloadLength, &fileHandle, &offset, &length); if (rc) { encode_read_file_resp(request->hdr.instance_id, rc, 0, responsePtr); return response; } using namespace pldm::filetable; auto& table = buildFileTable(FILE_TABLE_JSON); FileEntry value{}; try { value = table.at(fileHandle); } catch (const std::exception& e) { error( "File handle does not exist in the file table, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_read_file_resp(request->hdr.instance_id, PLDM_INVALID_FILE_HANDLE, length, responsePtr); return response; } if (!fs::exists(value.fsPath)) { error("File does not exist, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_read_file_resp(request->hdr.instance_id, PLDM_INVALID_FILE_HANDLE, length, responsePtr); return response; } auto fileSize = fs::file_size(value.fsPath); if (offset >= fileSize) { error("Offset exceeds file size, OFFSET={OFFSET} FILE_SIZE={FILE_SIZE}", "OFFSET", offset, "FILE_SIZE", fileSize); encode_read_file_resp(request->hdr.instance_id, PLDM_DATA_OUT_OF_RANGE, length, responsePtr); return response; } if (offset + length > fileSize) { length = fileSize - offset; } response.resize(response.size() + length); responsePtr = reinterpret_cast(response.data()); auto fileDataPos = reinterpret_cast(responsePtr); fileDataPos += sizeof(pldm_msg_hdr) + sizeof(uint8_t) + sizeof(length); std::ifstream stream(value.fsPath, std::ios::in | std::ios::binary); stream.seekg(offset); stream.read(fileDataPos, length); encode_read_file_resp(request->hdr.instance_id, PLDM_SUCCESS, length, responsePtr); return response; } Response Handler::writeFile(const pldm_msg* request, size_t payloadLength) { uint32_t fileHandle = 0; uint32_t offset = 0; uint32_t length = 0; size_t fileDataOffset = 0; Response response(sizeof(pldm_msg_hdr) + PLDM_WRITE_FILE_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength < PLDM_WRITE_FILE_REQ_BYTES) { encode_write_file_resp(request->hdr.instance_id, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } auto rc = decode_write_file_req(request, payloadLength, &fileHandle, &offset, &length, &fileDataOffset); if (rc) { encode_write_file_resp(request->hdr.instance_id, rc, 0, responsePtr); return response; } using namespace pldm::filetable; auto& table = buildFileTable(FILE_TABLE_JSON); FileEntry value{}; try { value = table.at(fileHandle); } catch (const std::exception& e) { error( "File handle does not exist in the file table, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_write_file_resp(request->hdr.instance_id, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } if (!fs::exists(value.fsPath)) { error("File does not exist, HANDLE={FILE_HANDLE}", "FILE_HANDLE", fileHandle); encode_write_file_resp(request->hdr.instance_id, PLDM_INVALID_FILE_HANDLE, 0, responsePtr); return response; } auto fileSize = fs::file_size(value.fsPath); if (offset >= fileSize) { error("Offset exceeds file size, OFFSET={OFFSET} FILE_SIZE={FILE_SIZE}", "OFFSET", offset, "FILE_SIZE", fileSize); encode_write_file_resp(request->hdr.instance_id, PLDM_DATA_OUT_OF_RANGE, 0, responsePtr); return response; } auto fileDataPos = reinterpret_cast(request->payload) + fileDataOffset; std::ofstream stream(value.fsPath, std::ios::in | std::ios::out | std::ios::binary); stream.seekp(offset); stream.write(fileDataPos, length); encode_write_file_resp(request->hdr.instance_id, PLDM_SUCCESS, length, responsePtr); return response; } Response rwFileByTypeIntoMemory(uint8_t cmd, const pldm_msg* request, size_t payloadLength, oem_platform::Handler* oemPlatformHandler) { Response response( sizeof(pldm_msg_hdr) + PLDM_RW_FILE_BY_TYPE_MEM_RESP_BYTES, 0); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_RW_FILE_BY_TYPE_MEM_REQ_BYTES) { encode_rw_file_by_type_memory_resp(request->hdr.instance_id, cmd, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } uint16_t fileType{}; uint32_t fileHandle{}; uint32_t offset{}; uint32_t length{}; uint64_t address{}; auto rc = decode_rw_file_by_type_memory_req(request, payloadLength, &fileType, &fileHandle, &offset, &length, &address); if (rc != PLDM_SUCCESS) { encode_rw_file_by_type_memory_resp(request->hdr.instance_id, cmd, rc, 0, responsePtr); return response; } if (length % dma::minSize) { error("Length is not a multiple of DMA minSize, LENGTH={LEN}", "LEN", length); encode_rw_file_by_type_memory_resp(request->hdr.instance_id, cmd, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } std::unique_ptr handler{}; try { handler = getHandlerByType(fileType, fileHandle); } catch (const InternalFailure& e) { error("unknown file type, TYPE={FILE_TYPE}", "FILE_TYPE", fileType); encode_rw_file_by_type_memory_resp(request->hdr.instance_id, cmd, PLDM_INVALID_FILE_TYPE, 0, responsePtr); return response; } rc = cmd == PLDM_WRITE_FILE_BY_TYPE_FROM_MEMORY ? handler->writeFromMemory(offset, length, address, oemPlatformHandler) : handler->readIntoMemory(offset, length, address, oemPlatformHandler); encode_rw_file_by_type_memory_resp(request->hdr.instance_id, cmd, rc, length, responsePtr); return response; } Response Handler::writeFileByTypeFromMemory(const pldm_msg* request, size_t payloadLength) { return rwFileByTypeIntoMemory(PLDM_WRITE_FILE_BY_TYPE_FROM_MEMORY, request, payloadLength, oemPlatformHandler); } Response Handler::readFileByTypeIntoMemory(const pldm_msg* request, size_t payloadLength) { return rwFileByTypeIntoMemory(PLDM_READ_FILE_BY_TYPE_INTO_MEMORY, request, payloadLength, oemPlatformHandler); } Response Handler::writeFileByType(const pldm_msg* request, size_t payloadLength) { Response response(sizeof(pldm_msg_hdr) + PLDM_RW_FILE_BY_TYPE_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength < PLDM_RW_FILE_BY_TYPE_REQ_BYTES) { encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_WRITE_FILE_BY_TYPE, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } uint16_t fileType{}; uint32_t fileHandle{}; uint32_t offset{}; uint32_t length{}; auto rc = decode_rw_file_by_type_req(request, payloadLength, &fileType, &fileHandle, &offset, &length); if (rc != PLDM_SUCCESS) { encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_WRITE_FILE_BY_TYPE, rc, 0, responsePtr); return response; } std::unique_ptr handler{}; try { handler = getHandlerByType(fileType, fileHandle); } catch (const InternalFailure& e) { error("unknown file type, TYPE={FILE_TYPE}", "FILE_TYPE", fileType); encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_WRITE_FILE_BY_TYPE, PLDM_INVALID_FILE_TYPE, 0, responsePtr); return response; } rc = handler->write(reinterpret_cast( request->payload + PLDM_RW_FILE_BY_TYPE_REQ_BYTES), offset, length, oemPlatformHandler); encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_WRITE_FILE_BY_TYPE, rc, length, responsePtr); return response; } Response Handler::readFileByType(const pldm_msg* request, size_t payloadLength) { Response response(sizeof(pldm_msg_hdr) + PLDM_RW_FILE_BY_TYPE_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_RW_FILE_BY_TYPE_REQ_BYTES) { encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_READ_FILE_BY_TYPE, PLDM_ERROR_INVALID_LENGTH, 0, responsePtr); return response; } uint16_t fileType{}; uint32_t fileHandle{}; uint32_t offset{}; uint32_t length{}; auto rc = decode_rw_file_by_type_req(request, payloadLength, &fileType, &fileHandle, &offset, &length); if (rc != PLDM_SUCCESS) { encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_READ_FILE_BY_TYPE, rc, 0, responsePtr); return response; } std::unique_ptr handler{}; try { handler = getHandlerByType(fileType, fileHandle); } catch (const InternalFailure& e) { error("unknown file type, TYPE={FILE_TYPE}", "FILE_TYPE", fileType); encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_READ_FILE_BY_TYPE, PLDM_INVALID_FILE_TYPE, 0, responsePtr); return response; } rc = handler->read(offset, length, response, oemPlatformHandler); responsePtr = reinterpret_cast(response.data()); encode_rw_file_by_type_resp(request->hdr.instance_id, PLDM_READ_FILE_BY_TYPE, rc, length, responsePtr); return response; } Response Handler::fileAck(const pldm_msg* request, size_t payloadLength) { Response response(sizeof(pldm_msg_hdr) + PLDM_FILE_ACK_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_FILE_ACK_REQ_BYTES) { encode_file_ack_resp(request->hdr.instance_id, PLDM_ERROR_INVALID_LENGTH, responsePtr); return response; } uint16_t fileType{}; uint32_t fileHandle{}; uint8_t fileStatus{}; auto rc = decode_file_ack_req(request, payloadLength, &fileType, &fileHandle, &fileStatus); if (rc != PLDM_SUCCESS) { encode_file_ack_resp(request->hdr.instance_id, rc, responsePtr); return response; } std::unique_ptr handler{}; try { handler = getHandlerByType(fileType, fileHandle); } catch (const InternalFailure& e) { encode_file_ack_resp(request->hdr.instance_id, PLDM_INVALID_FILE_TYPE, responsePtr); return response; } rc = handler->fileAck(fileStatus); encode_file_ack_resp(request->hdr.instance_id, rc, responsePtr); return response; } Response Handler::getAlertStatus(const pldm_msg* request, size_t payloadLength) { Response response(sizeof(pldm_msg_hdr) + PLDM_GET_ALERT_STATUS_RESP_BYTES); auto responsePtr = reinterpret_cast(response.data()); if (payloadLength != PLDM_GET_ALERT_STATUS_REQ_BYTES) { return CmdHandler::ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } uint8_t versionId{}; auto rc = decode_get_alert_status_req(request, payloadLength, &versionId); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } if (versionId != 0) { return CmdHandler::ccOnlyResponse(request, PLDM_HOST_UNSUPPORTED_FORMAT_VERSION); } constexpr uint32_t rackEntry = 0xFF000030; constexpr uint32_t priCecNode = 0x00008030; rc = encode_get_alert_status_resp(request->hdr.instance_id, PLDM_SUCCESS, rackEntry, priCecNode, responsePtr, PLDM_GET_ALERT_STATUS_RESP_BYTES); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } return response; } Response Handler::newFileAvailable(const pldm_msg* request, size_t payloadLength) { Response response(sizeof(pldm_msg_hdr) + PLDM_NEW_FILE_RESP_BYTES); if (payloadLength != PLDM_NEW_FILE_REQ_BYTES) { return CmdHandler::ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } uint16_t fileType{}; uint32_t fileHandle{}; uint64_t length{}; auto rc = decode_new_file_req(request, payloadLength, &fileType, &fileHandle, &length); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } std::unique_ptr handler{}; try { handler = getHandlerByType(fileType, fileHandle); } catch (const InternalFailure& e) { error("unknown file type, TYPE={FILE_TYPE}", "FILE_TYPE", fileType); return CmdHandler::ccOnlyResponse(request, PLDM_INVALID_FILE_TYPE); } rc = handler->newFileAvailable(length); auto responsePtr = reinterpret_cast(response.data()); encode_new_file_resp(request->hdr.instance_id, rc, responsePtr); return response; } } // namespace oem_ibm } // namespace responder } // namespace pldm