/** @file PCI/PCIe network interface instace of RedfishPlatformHostInterfaceLib Copyright (c) 2019, Intel Corporation. All rights reserved.
(C) Copyright 2020 Hewlett Packard Enterprise Development LP
Copyright (C) 2022 Advanced Micro Devices, Inc. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include #include #include #include #include #include #include #include #include #include #include #include #include #define VERBOSE_COLUME_SIZE (16) REDFISH_OVER_IP_PROTOCOL_DATA *mRedfishOverIpProtocolData; UINT8 mRedfishProtocolDataSize; /** Get the MAC address of NIC. @param[out] MacAddress Pointer to retrieve MAC address @retval EFI_SUCCESS MAC address is returned in MacAddress **/ EFI_STATUS GetMacAddressInformation ( OUT EFI_MAC_ADDRESS *MacAddress ) { MAC_ADDR_DEVICE_PATH *Mac; REST_EX_SERVICE_DEVICE_PATH_DATA *RestExServiceDevicePathData; EFI_DEVICE_PATH_PROTOCOL *RestExServiceDevicePath; MAC_ADDR_DEVICE_PATH *MacAddressDevicePath; Mac = NULL; RestExServiceDevicePathData = NULL; RestExServiceDevicePath = NULL; RestExServiceDevicePathData = (REST_EX_SERVICE_DEVICE_PATH_DATA *)PcdGetPtr (PcdRedfishRestExServiceDevicePath); if ((RestExServiceDevicePathData == NULL) || (RestExServiceDevicePathData->DevicePathNum == 0) || !IsDevicePathValid (RestExServiceDevicePathData->DevicePath, 0)) { return EFI_NOT_FOUND; } RestExServiceDevicePath = RestExServiceDevicePathData->DevicePath; if (RestExServiceDevicePathData->DevicePathMatchMode != DEVICE_PATH_MATCH_MAC_NODE) { return EFI_NOT_FOUND; } // // Find Mac DevicePath Node. // while (!IsDevicePathEnd (RestExServiceDevicePath) && ((DevicePathType (RestExServiceDevicePath) != MESSAGING_DEVICE_PATH) || (DevicePathSubType (RestExServiceDevicePath) != MSG_MAC_ADDR_DP))) { RestExServiceDevicePath = NextDevicePathNode (RestExServiceDevicePath); } if (!IsDevicePathEnd (RestExServiceDevicePath)) { MacAddressDevicePath = (MAC_ADDR_DEVICE_PATH *)RestExServiceDevicePath; CopyMem ((VOID *)MacAddress, (VOID *)&MacAddressDevicePath->MacAddress, sizeof (EFI_MAC_ADDRESS)); return EFI_SUCCESS; } return EFI_NOT_FOUND; } /** Get platform Redfish host interface device descriptor. @param[out] DeviceType Pointer to retrieve device type. @param[out] DeviceDescriptor Pointer to retrieve REDFISH_INTERFACE_DATA, caller has to free this memory using FreePool(). @retval EFI_SUCCESS Device descriptor is returned successfully in DeviceDescriptor. @retval EFI_NOT_FOUND No Redfish host interface descriptor provided on this platform. @retval Others Fail to get device descriptor. **/ EFI_STATUS RedfishPlatformHostInterfaceDeviceDescriptor ( OUT UINT8 *DeviceType, OUT REDFISH_INTERFACE_DATA **DeviceDescriptor ) { EFI_STATUS Status; EFI_MAC_ADDRESS MacAddress; REDFISH_INTERFACE_DATA *RedfishInterfaceData; PCI_OR_PCIE_INTERFACE_DEVICE_DESCRIPTOR_V2 *ThisDeviceDescriptor; RedfishInterfaceData = AllocateZeroPool (sizeof (PCI_OR_PCIE_INTERFACE_DEVICE_DESCRIPTOR_V2) + 1); if (RedfishInterfaceData == NULL) { return EFI_OUT_OF_RESOURCES; } RedfishInterfaceData->DeviceType = REDFISH_HOST_INTERFACE_DEVICE_TYPE_PCI_PCIE_V2; // // Fill up device type information. // ThisDeviceDescriptor = (PCI_OR_PCIE_INTERFACE_DEVICE_DESCRIPTOR_V2 *)((UINT8 *)RedfishInterfaceData + 1); ThisDeviceDescriptor->Length = sizeof (PCI_OR_PCIE_INTERFACE_DEVICE_DESCRIPTOR_V2) + 1; Status = GetMacAddressInformation (&MacAddress); if (EFI_ERROR (Status)) { FreePool (RedfishInterfaceData); return EFI_NOT_FOUND; } CopyMem ((VOID *)&ThisDeviceDescriptor->MacAddress, (VOID *)&MacAddress, sizeof (ThisDeviceDescriptor->MacAddress)); *DeviceType = REDFISH_HOST_INTERFACE_DEVICE_TYPE_PCI_PCIE_V2; *DeviceDescriptor = RedfishInterfaceData; return EFI_SUCCESS; } /** Get platform Redfish host interface protocol data. Caller should pass NULL in ProtocolRecord to retrive the first protocol record. Then continuously pass previous ProtocolRecord for retrieving the next ProtocolRecord. @param[out] ProtocolRecord Pointer to retrieve the protocol record. caller has to free the new protocol record returned from this function using FreePool(). @param[in] IndexOfProtocolData The index of protocol data. @retval EFI_SUCCESS Protocol records are all returned. @retval EFI_NOT_FOUND No more protocol records. @retval Others Fail to get protocol records. **/ EFI_STATUS RedfishPlatformHostInterfaceProtocolData ( OUT MC_HOST_INTERFACE_PROTOCOL_RECORD **ProtocolRecord, IN UINT8 IndexOfProtocolData ) { MC_HOST_INTERFACE_PROTOCOL_RECORD *ThisProtocolRecord; if (mRedfishOverIpProtocolData == 0) { return EFI_NOT_FOUND; } if (IndexOfProtocolData == 0) { // // Return the first Redfish protocol data to caller. We only have // one protocol data in this case. // ThisProtocolRecord = (MC_HOST_INTERFACE_PROTOCOL_RECORD *)AllocatePool (mRedfishProtocolDataSize + sizeof (MC_HOST_INTERFACE_PROTOCOL_RECORD) - 1); ThisProtocolRecord->ProtocolType = MCHostInterfaceProtocolTypeRedfishOverIP; ThisProtocolRecord->ProtocolTypeDataLen = mRedfishProtocolDataSize; CopyMem ((VOID *)&ThisProtocolRecord->ProtocolTypeData, (VOID *)mRedfishOverIpProtocolData, mRedfishProtocolDataSize); *ProtocolRecord = ThisProtocolRecord; return EFI_SUCCESS; } return EFI_NOT_FOUND; } /** Dump IPv4 address. @param[in] Ip IPv4 address **/ VOID InternalDumpIp4Addr ( IN EFI_IPv4_ADDRESS *Ip ) { UINTN Index; for (Index = 0; Index < 4; Index++) { DEBUG ((DEBUG_VERBOSE, "%d", Ip->Addr[Index])); if (Index < 3) { DEBUG ((DEBUG_VERBOSE, ".")); } } DEBUG ((DEBUG_VERBOSE, "\n")); } /** Dump IPv6 address. @param[in] Ip IPv6 address **/ VOID InternalDumpIp6Addr ( IN EFI_IPv6_ADDRESS *Ip ) { UINTN Index; for (Index = 0; Index < 16; Index++) { if (Ip->Addr[Index] != 0) { DEBUG ((DEBUG_VERBOSE, "%x", Ip->Addr[Index])); } Index++; if (Index > 15) { return; } if (((Ip->Addr[Index] & 0xf0) == 0) && (Ip->Addr[Index - 1] != 0)) { DEBUG ((DEBUG_VERBOSE, "0")); } DEBUG ((DEBUG_VERBOSE, "%x", Ip->Addr[Index])); if (Index < 15) { DEBUG ((DEBUG_VERBOSE, ":")); } } DEBUG ((DEBUG_VERBOSE, "\n")); } /** Dump data @param[in] Data Pointer to data. @param[in] Size size of data to dump. **/ VOID InternalDumpData ( IN UINT8 *Data, IN UINTN Size ) { UINTN Index; for (Index = 0; Index < Size; Index++) { DEBUG ((DEBUG_VERBOSE, "%02x ", (UINTN)Data[Index])); } } /** Dump hex data @param[in] Data Pointer to hex data. @param[in] Size size of hex data to dump. **/ VOID InternalDumpHex ( IN UINT8 *Data, IN UINTN Size ) { UINTN Index; UINTN Count; UINTN Left; Count = Size / VERBOSE_COLUME_SIZE; Left = Size % VERBOSE_COLUME_SIZE; for (Index = 0; Index < Count; Index++) { InternalDumpData (Data + Index * VERBOSE_COLUME_SIZE, VERBOSE_COLUME_SIZE); DEBUG ((DEBUG_VERBOSE, "\n")); } if (Left != 0) { InternalDumpData (Data + Index * VERBOSE_COLUME_SIZE, Left); DEBUG ((DEBUG_VERBOSE, "\n")); } DEBUG ((DEBUG_VERBOSE, "\n")); } /** Dump Redfish over IP protocol data @param[in] RedfishProtocolData Pointer to REDFISH_OVER_IP_PROTOCOL_DATA @param[in] RedfishProtocolDataSize size of data to dump. **/ VOID DumpRedfishIpProtocolData ( IN REDFISH_OVER_IP_PROTOCOL_DATA *RedfishProtocolData, IN UINT8 RedfishProtocolDataSize ) { CHAR16 Hostname[16]; DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData: \n")); InternalDumpHex ((UINT8 *)RedfishProtocolData, RedfishProtocolDataSize); DEBUG ((DEBUG_VERBOSE, "Parsing as below: \n")); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->ServiceUuid - %g\n", &(RedfishProtocolData->ServiceUuid))); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->HostIpAssignmentType - %d\n", RedfishProtocolData->HostIpAssignmentType)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->HostIpAddressFormat - %d\n", RedfishProtocolData->HostIpAddressFormat)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->HostIpAddress: \n")); if (RedfishProtocolData->HostIpAddressFormat == 0x01) { InternalDumpIp4Addr ((EFI_IPv4_ADDRESS *)(RedfishProtocolData->HostIpAddress)); } else { InternalDumpIp6Addr ((EFI_IPv6_ADDRESS *)(RedfishProtocolData->HostIpAddress)); } DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->HostIpMask: \n")); if (RedfishProtocolData->HostIpAddressFormat == 0x01) { InternalDumpIp4Addr ((EFI_IPv4_ADDRESS *)(RedfishProtocolData->HostIpMask)); } else { InternalDumpIp6Addr ((EFI_IPv6_ADDRESS *)(RedfishProtocolData->HostIpMask)); } DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceIpDiscoveryType - %d\n", RedfishProtocolData->RedfishServiceIpDiscoveryType)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceIpAddressFormat - %d\n", RedfishProtocolData->RedfishServiceIpAddressFormat)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceIpAddress: \n")); if (RedfishProtocolData->RedfishServiceIpAddressFormat == 0x01) { InternalDumpIp4Addr ((EFI_IPv4_ADDRESS *)(RedfishProtocolData->RedfishServiceIpAddress)); } else { InternalDumpIp6Addr ((EFI_IPv6_ADDRESS *)(RedfishProtocolData->RedfishServiceIpAddress)); } DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceIpMask: \n")); if (RedfishProtocolData->RedfishServiceIpAddressFormat == 0x01) { InternalDumpIp4Addr ((EFI_IPv4_ADDRESS *)(RedfishProtocolData->RedfishServiceIpMask)); } else { InternalDumpIp6Addr ((EFI_IPv6_ADDRESS *)(RedfishProtocolData->RedfishServiceIpMask)); } DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceIpPort - %d\n", RedfishProtocolData->RedfishServiceIpPort)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceVlanId - %d\n", RedfishProtocolData->RedfishServiceVlanId)); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceHostnameLength - %d\n", RedfishProtocolData->RedfishServiceHostnameLength)); AsciiStrToUnicodeStrS ((CHAR8 *)RedfishProtocolData->RedfishServiceHostname, Hostname, sizeof (Hostname) / sizeof (Hostname[0])); DEBUG ((DEBUG_VERBOSE, "RedfishProtocolData->RedfishServiceHostname - %s\n", Hostname)); } /** Get Redfish host interface protocol data from variale. @param[out] RedfishProtocolData Pointer to retrieve REDFISH_OVER_IP_PROTOCOL_DATA. @param[out] RedfishProtocolDataSize Size of REDFISH_OVER_IP_PROTOCOL_DATA. @retval EFI_SUCESS REDFISH_OVER_IP_PROTOCOL_DATA is returned successfully. **/ EFI_STATUS GetRedfishRecordFromVariable ( OUT REDFISH_OVER_IP_PROTOCOL_DATA **RedfishProtocolData, OUT UINT8 *RedfishProtocolDataSize ) { EFI_STATUS Status; UINT8 HostIpAssignmentType; UINTN HostIpAssignmentTypeSize; EFI_IPv4_ADDRESS HostIpAddress; UINTN IPv4DataSize; EFI_IPv4_ADDRESS HostIpMask; EFI_IPv4_ADDRESS RedfishServiceIpAddress; EFI_IPv4_ADDRESS RedfishServiceIpMask; UINT16 RedfishServiceIpPort; UINTN IpPortDataSize; UINT8 HostNameSize; CHAR8 RedfishHostName[20]; if ((RedfishProtocolData == NULL) || (RedfishProtocolDataSize == NULL)) { return EFI_INVALID_PARAMETER; } // // 1. Retrieve Address Information from variable. // Status = gRT->GetVariable ( L"HostIpAssignmentType", &gEmuRedfishServiceGuid, NULL, &HostIpAssignmentTypeSize, &HostIpAssignmentType ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable HostIpAssignmentType - %r\n", Status)); return Status; } IPv4DataSize = sizeof (EFI_IPv4_ADDRESS); if (HostIpAssignmentType == 1 ) { Status = gRT->GetVariable ( L"HostIpAddress", &gEmuRedfishServiceGuid, NULL, &IPv4DataSize, &HostIpAddress ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable HostIpAddress - %r\n", Status)); return Status; } Status = gRT->GetVariable ( L"HostIpMask", &gEmuRedfishServiceGuid, NULL, &IPv4DataSize, &HostIpMask ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable HostIpMask - %r\n", Status)); return Status; } } Status = gRT->GetVariable ( L"RedfishServiceIpAddress", &gEmuRedfishServiceGuid, NULL, &IPv4DataSize, &RedfishServiceIpAddress ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable RedfishServiceIpAddress - %r\n", Status)); return Status; } Status = gRT->GetVariable ( L"RedfishServiceIpMask", &gEmuRedfishServiceGuid, NULL, &IPv4DataSize, &RedfishServiceIpMask ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable RedfishServiceIpMask - %r\n", Status)); return Status; } Status = gRT->GetVariable ( L"RedfishServiceIpPort", &gEmuRedfishServiceGuid, NULL, &IpPortDataSize, &RedfishServiceIpPort ); if (EFI_ERROR (Status)) { DEBUG ((DEBUG_ERROR, "RedfishPlatformDxe: GetVariable RedfishServiceIpPort - %r\n", Status)); return Status; } AsciiSPrint ( RedfishHostName, sizeof (RedfishHostName), "%d.%d.%d.%d", RedfishServiceIpAddress.Addr[0], RedfishServiceIpAddress.Addr[1], RedfishServiceIpAddress.Addr[2], RedfishServiceIpAddress.Addr[3] ); HostNameSize = (UINT8)AsciiStrLen (RedfishHostName) + 1; // // 2. Protocol Data Size. // *RedfishProtocolDataSize = sizeof (REDFISH_OVER_IP_PROTOCOL_DATA) - 1 + HostNameSize; // // 3. Protocol Data. // *RedfishProtocolData = (REDFISH_OVER_IP_PROTOCOL_DATA *)AllocateZeroPool (*RedfishProtocolDataSize); if (*RedfishProtocolData == NULL) { return EFI_OUT_OF_RESOURCES; } CopyGuid (&(*RedfishProtocolData)->ServiceUuid, &gEmuRedfishServiceGuid); (*RedfishProtocolData)->HostIpAssignmentType = HostIpAssignmentType; (*RedfishProtocolData)->HostIpAddressFormat = 1; // Only support IPv4 if (HostIpAssignmentType == 1 ) { (*RedfishProtocolData)->HostIpAddress[0] = HostIpAddress.Addr[0]; (*RedfishProtocolData)->HostIpAddress[1] = HostIpAddress.Addr[1]; (*RedfishProtocolData)->HostIpAddress[2] = HostIpAddress.Addr[2]; (*RedfishProtocolData)->HostIpAddress[3] = HostIpAddress.Addr[3]; (*RedfishProtocolData)->HostIpMask[0] = HostIpMask.Addr[0]; (*RedfishProtocolData)->HostIpMask[1] = HostIpMask.Addr[1]; (*RedfishProtocolData)->HostIpMask[2] = HostIpMask.Addr[2]; (*RedfishProtocolData)->HostIpMask[3] = HostIpMask.Addr[3]; } (*RedfishProtocolData)->RedfishServiceIpDiscoveryType = 1; // Use static IP address (*RedfishProtocolData)->RedfishServiceIpAddressFormat = 1; // Only support IPv4 (*RedfishProtocolData)->RedfishServiceIpAddress[0] = RedfishServiceIpAddress.Addr[0]; (*RedfishProtocolData)->RedfishServiceIpAddress[1] = RedfishServiceIpAddress.Addr[1]; (*RedfishProtocolData)->RedfishServiceIpAddress[2] = RedfishServiceIpAddress.Addr[2]; (*RedfishProtocolData)->RedfishServiceIpAddress[3] = RedfishServiceIpAddress.Addr[3]; (*RedfishProtocolData)->RedfishServiceIpMask[0] = RedfishServiceIpMask.Addr[0]; (*RedfishProtocolData)->RedfishServiceIpMask[1] = RedfishServiceIpMask.Addr[1]; (*RedfishProtocolData)->RedfishServiceIpMask[2] = RedfishServiceIpMask.Addr[2]; (*RedfishProtocolData)->RedfishServiceIpMask[3] = RedfishServiceIpMask.Addr[3]; (*RedfishProtocolData)->RedfishServiceIpPort = RedfishServiceIpPort; (*RedfishProtocolData)->RedfishServiceVlanId = 0xffffffff; (*RedfishProtocolData)->RedfishServiceHostnameLength = HostNameSize; AsciiStrCpyS ((CHAR8 *)((*RedfishProtocolData)->RedfishServiceHostname), HostNameSize, RedfishHostName); return Status; } /** Construct Redfish host interface protocol data. @param ImageHandle The image handle. @param SystemTable The system table. @retval EFI_SUCEESS Install Boot manager menu success. @retval Other Return error status. **/ EFI_STATUS EFIAPI RedfishPlatformHostInterfaceConstructor ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { EFI_STATUS Status; Status = GetRedfishRecordFromVariable (&mRedfishOverIpProtocolData, &mRedfishProtocolDataSize); DEBUG ((DEBUG_INFO, "%a: GetRedfishRecordFromVariable() - %r\n", __func__, Status)); if (!EFI_ERROR (Status)) { DumpRedfishIpProtocolData (mRedfishOverIpProtocolData, mRedfishProtocolDataSize); } return EFI_SUCCESS; } /** Get the EFI protocol GUID installed by platform library which indicates the necessary information is ready for building SMBIOS 42h record. @param[out] InformationReadinessGuid Pointer to retrive the protocol GUID. @retval EFI_SUCCESS Notification is required for building up SMBIOS type 42h record. @retval EFI_UNSUPPORTED Notification is not required for building up SMBIOS type 42h record. @retval EFI_ALREADY_STARTED Platform host information is already ready. @retval Others Other errors. **/ EFI_STATUS RedfishPlatformHostInterfaceNotification ( OUT EFI_GUID **InformationReadinessGuid ) { return EFI_UNSUPPORTED; }