/** @file FUSE_WRITE wrapper for the Virtio Filesystem device. Copyright (C) 2020, Red Hat, Inc. SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include "VirtioFsDxe.h" /** Write a chunk to a regular file, by sending the FUSE_WRITE request to the Virtio Filesystem device. The function may only be called after VirtioFsFuseInitSession() returns successfully and before VirtioFsUninit() is called. @param[in,out] VirtioFs The Virtio Filesystem device to send the FUSE_WRITE request to. On output, the FUSE request counter "VirtioFs->RequestId" will have been incremented. @param[in] NodeId The inode number of the regular file to write to. @param[in] FuseHandle The open handle to the regular file to write to. @param[in] Offset The absolute file position at which to start writing. @param[in,out] Size On input, the number of bytes to write. On successful return, the number of bytes actually written, which may be smaller than the value on input. @param[in] Data The buffer to write to the regular file. @retval EFI_SUCCESS Write successful. The caller is responsible for checking Size to learn the actual byte count transferred. @retval EFI_BAD_BUFFER_SIZE On input, Size is larger than "VirtioFs->MaxWrite". @return The "errno" value mapped to an EFI_STATUS code, if the Virtio Filesystem device explicitly reported an error. @return Error codes propagated from VirtioFsSgListsValidate(), VirtioFsFuseNewRequest(), VirtioFsSgListsSubmit(), VirtioFsFuseCheckResponse(). **/ EFI_STATUS VirtioFsFuseWrite ( IN OUT VIRTIO_FS *VirtioFs, IN UINT64 NodeId, IN UINT64 FuseHandle, IN UINT64 Offset, IN OUT UINT32 *Size, IN VOID *Data ) { VIRTIO_FS_FUSE_REQUEST CommonReq; VIRTIO_FS_FUSE_WRITE_REQUEST WriteReq; VIRTIO_FS_IO_VECTOR ReqIoVec[3]; VIRTIO_FS_SCATTER_GATHER_LIST ReqSgList; VIRTIO_FS_FUSE_RESPONSE CommonResp; VIRTIO_FS_FUSE_WRITE_RESPONSE WriteResp; VIRTIO_FS_IO_VECTOR RespIoVec[2]; VIRTIO_FS_SCATTER_GATHER_LIST RespSgList; EFI_STATUS Status; // // Honor the write buffer size limit of the Virtio Filesystem device. // if (*Size > VirtioFs->MaxWrite) { return EFI_BAD_BUFFER_SIZE; } // // Set up the scatter-gather lists. // ReqIoVec[0].Buffer = &CommonReq; ReqIoVec[0].Size = sizeof CommonReq; ReqIoVec[1].Buffer = &WriteReq; ReqIoVec[1].Size = sizeof WriteReq; ReqIoVec[2].Buffer = Data; ReqIoVec[2].Size = *Size; ReqSgList.IoVec = ReqIoVec; ReqSgList.NumVec = ARRAY_SIZE (ReqIoVec); RespIoVec[0].Buffer = &CommonResp; RespIoVec[0].Size = sizeof CommonResp; RespIoVec[1].Buffer = &WriteResp; RespIoVec[1].Size = sizeof WriteResp; RespSgList.IoVec = RespIoVec; RespSgList.NumVec = ARRAY_SIZE (RespIoVec); // // Validate the scatter-gather lists; calculate the total transfer sizes. // Status = VirtioFsSgListsValidate (VirtioFs, &ReqSgList, &RespSgList); if (EFI_ERROR (Status)) { return Status; } // // Populate the common request header. // Status = VirtioFsFuseNewRequest ( VirtioFs, &CommonReq, ReqSgList.TotalSize, VirtioFsFuseOpWrite, NodeId ); if (EFI_ERROR (Status)) { return Status; } // // Populate the FUSE_WRITE-specific fields. // WriteReq.FileHandle = FuseHandle; WriteReq.Offset = Offset; WriteReq.Size = *Size; WriteReq.WriteFlags = 0; WriteReq.LockOwner = 0; WriteReq.Flags = 0; WriteReq.Padding = 0; // // Submit the request. // Status = VirtioFsSgListsSubmit (VirtioFs, &ReqSgList, &RespSgList); if (EFI_ERROR (Status)) { return Status; } // // Verify the response (all response buffers are fixed size). // Status = VirtioFsFuseCheckResponse (&RespSgList, CommonReq.Unique, NULL); if (EFI_ERROR (Status)) { if (Status == EFI_DEVICE_ERROR) { DEBUG (( DEBUG_ERROR, "%a: Label=\"%s\" NodeId=%Lu FuseHandle=%Lu " "Offset=0x%Lx Size=0x%x Data@%p Errno=%d\n", __FUNCTION__, VirtioFs->Label, NodeId, FuseHandle, Offset, *Size, Data, CommonResp.Error )); Status = VirtioFsErrnoToEfiStatus (CommonResp.Error); } return Status; } // // Report the actual transfer size. // *Size = WriteResp.Size; return EFI_SUCCESS; }