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/** @file

  EFI_GRAPHICS_OUTPUT_PROTOCOL member functions for the VirtIo GPU driver.

  Copyright (C) 2016, Red Hat, Inc.

  This program and the accompanying materials are licensed and made available
  under the terms and conditions of the BSD License which accompanies this
  distribution. The full text of the license may be found at
  http://opensource.org/licenses/bsd-license.php

  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
  WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.

**/

#include <Library/BaseMemoryLib.h>
#include <Library/MemoryAllocationLib.h>

#include "VirtioGpu.h"

/**
  Release guest-side and host-side resources that are related to an initialized
  VGPU_GOP.Gop.

  param[in,out] VgpuGop  The VGPU_GOP object to release resources for.

                         On input, the caller is responsible for having called
                         VgpuGop->Gop.SetMode() at least once successfully.
                         (This is equivalent to the requirement that
                         VgpuGop->BackingStore be non-NULL. It is also
                         equivalent to the requirement that VgpuGop->ResourceId
                         be nonzero.)

                         On output, resources will be released, and
                         VgpuGop->BackingStore and VgpuGop->ResourceId will be
                         nulled.

  param[in] DisableHead  Whether this head (scanout) currently references the
                         resource identified by VgpuGop->ResourceId. Only pass
                         FALSE when VgpuGop->Gop.SetMode() calls this function
                         while switching between modes, and set it to TRUE
                         every other time.
**/
VOID
ReleaseGopResources (
  IN OUT VGPU_GOP *VgpuGop,
  IN     BOOLEAN  DisableHead
  )
{
  EFI_STATUS Status;

  ASSERT (VgpuGop->ResourceId != 0);
  ASSERT (VgpuGop->BackingStore != NULL);

  //
  // If any of the following host-side destruction steps fail, we can't get out
  // of an inconsistent state, so we'll hang. In general errors in object
  // destruction can hardly be recovered from.
  //
  if (DisableHead) {
    //
    // Dissociate head (scanout) #0 from the currently used 2D host resource,
    // by setting ResourceId=0 for it.
    //
    Status = VirtioGpuSetScanout (
               VgpuGop->ParentBus, // VgpuDev
               0, 0, 0, 0,         // X, Y, Width, Height
               0,                  // ScanoutId
               0                   // ResourceId
               );
    //
    // HACK BEGINS HERE
    //
    // According to the GPU Device section of the VirtIo specification, the
    // above operation is valid:
    //
    // "The driver can use resource_id = 0 to disable a scanout."
    //
    // However, in practice QEMU does not allow us to disable head (scanout) #0
    // -- it rejects the command with response code 0x1202
    // (VIRTIO_GPU_RESP_ERR_INVALID_SCANOUT_ID). Looking at the QEMU source
    // code, function virtio_gpu_set_scanout() in "hw/display/virtio-gpu.c",
    // this appears fully intentional, despite not being documented in the
    // spec.
    //
    // Surprisingly, ignoring the error here, and proceeding to release
    // host-side resources that presumably underlie head (scanout) #0, work
    // without any problems -- the driver survives repeated "disconnect" /
    // "connect -r" commands in the UEFI shell.
    //
    // So, for now, let's just suppress the error.
    //
    Status = EFI_SUCCESS;
    //
    // HACK ENDS HERE
    //

    ASSERT_EFI_ERROR (Status);
    if (EFI_ERROR (Status)) {
      CpuDeadLoop ();
    }
  }

  //
  // Detach backing pages from the currently used 2D host resource.
  //
  Status = VirtioGpuResourceDetachBacking (
             VgpuGop->ParentBus, // VgpuDev
             VgpuGop->ResourceId // ResourceId
             );
  ASSERT_EFI_ERROR (Status);
  if (EFI_ERROR (Status)) {
    CpuDeadLoop ();
  }

  //
  // Release backing pages.
  //
  FreePages (VgpuGop->BackingStore, VgpuGop->NumberOfPages);
  VgpuGop->BackingStore  = NULL;
  VgpuGop->NumberOfPages = 0;

  //
  // Destroy the currently used 2D host resource.
  //
  Status = VirtioGpuResourceUnref (
             VgpuGop->ParentBus, // VgpuDev
             VgpuGop->ResourceId // ResourceId
             );
  ASSERT_EFI_ERROR (Status);
  if (EFI_ERROR (Status)) {
    CpuDeadLoop ();
  }
  VgpuGop->ResourceId = 0;
}

//
// The resolutions supported by this driver.
//
typedef struct {
  UINT32 Width;
  UINT32 Height;
} GOP_RESOLUTION;

STATIC CONST GOP_RESOLUTION mGopResolutions[] = {
  {  640,  480 },
  {  800,  480 },
  {  800,  600 },
  {  832,  624 },
  {  960,  640 },
  { 1024,  600 },
  { 1024,  768 },
  { 1152,  864 },
  { 1152,  870 },
  { 1280,  720 },
  { 1280,  760 },
  { 1280,  768 },
  { 1280,  800 },
  { 1280,  960 },
  { 1280, 1024 },
  { 1360,  768 },
  { 1366,  768 },
  { 1400, 1050 },
  { 1440,  900 },
  { 1600,  900 },
  { 1600, 1200 },
  { 1680, 1050 },
  { 1920, 1080 },
  { 1920, 1200 },
  { 1920, 1440 },
  { 2000, 2000 },
  { 2048, 1536 },
  { 2048, 2048 },
  { 2560, 1440 },
  { 2560, 1600 },
  { 2560, 2048 },
  { 2800, 2100 },
  { 3200, 2400 },
  { 3840, 2160 },
  { 4096, 2160 },
  { 7680, 4320 },
  { 8192, 4320 },
};

//
// Macro for casting VGPU_GOP.Gop to VGPU_GOP.
//
#define VGPU_GOP_FROM_GOP(GopPointer) \
          CR (GopPointer, VGPU_GOP, Gop, VGPU_GOP_SIG)

//
// EFI_GRAPHICS_OUTPUT_PROTOCOL member functions.
//
STATIC
EFI_STATUS
EFIAPI
GopQueryMode (
  IN  EFI_GRAPHICS_OUTPUT_PROTOCOL         *This,
  IN  UINT32                               ModeNumber,
  OUT UINTN                                *SizeOfInfo,
  OUT EFI_GRAPHICS_OUTPUT_MODE_INFORMATION **Info
  )
{
  EFI_GRAPHICS_OUTPUT_MODE_INFORMATION *GopModeInfo;

  if (ModeNumber >= ARRAY_SIZE (mGopResolutions)) {
    return EFI_INVALID_PARAMETER;
  }

  GopModeInfo = AllocateZeroPool (sizeof *GopModeInfo);
  if (GopModeInfo == NULL) {
    return EFI_OUT_OF_RESOURCES;
  }

  GopModeInfo->HorizontalResolution = mGopResolutions[ModeNumber].Width;
  GopModeInfo->VerticalResolution   = mGopResolutions[ModeNumber].Height;
  GopModeInfo->PixelFormat          = PixelBltOnly;
  GopModeInfo->PixelsPerScanLine    = mGopResolutions[ModeNumber].Width;

  *SizeOfInfo = sizeof *GopModeInfo;
  *Info = GopModeInfo;
  return EFI_SUCCESS;
}

STATIC
EFI_STATUS
EFIAPI
GopSetMode (
  IN  EFI_GRAPHICS_OUTPUT_PROTOCOL *This,
  IN  UINT32                       ModeNumber
  )
{
  VGPU_GOP   *VgpuGop;
  UINT32     NewResourceId;
  UINTN      NewNumberOfBytes;
  UINTN      NewNumberOfPages;
  VOID       *NewBackingStore;
  EFI_STATUS Status;
  EFI_STATUS Status2;

  if (ModeNumber >= ARRAY_SIZE (mGopResolutions)) {
    return EFI_UNSUPPORTED;
  }

  VgpuGop = VGPU_GOP_FROM_GOP (This);

  //
  // Distinguish the first (internal) call from the other (protocol consumer)
  // calls.
  //
  if (VgpuGop->ResourceId == 0) {
    //
    // Set up the Gop -> GopMode -> GopModeInfo pointer chain, and the other
    // (nonzero) constant fields.
    //
    // No direct framebuffer access is supported, only Blt() is.
    //
    VgpuGop->Gop.Mode = &VgpuGop->GopMode;

    VgpuGop->GopMode.MaxMode         = (UINT32)(ARRAY_SIZE (mGopResolutions));
    VgpuGop->GopMode.Info            = &VgpuGop->GopModeInfo;
    VgpuGop->GopMode.SizeOfInfo      = sizeof VgpuGop->GopModeInfo;

    VgpuGop->GopModeInfo.PixelFormat = PixelBltOnly;

    //
    // This is the first time we create a host side resource.
    //
    NewResourceId = 1;
  } else {
    //
    // We already have an active host side resource. Create the new one without
    // interfering with the current one, so that we can cleanly bail out on
    // error, without disturbing the current graphics mode.
    //
    // The formula below will alternate between IDs 1 and 2.
    //
    NewResourceId = 3 - VgpuGop->ResourceId;
  }

  //
  // Create the 2D host resource.
  //
  Status = VirtioGpuResourceCreate2d (
             VgpuGop->ParentBus,                // VgpuDev
             NewResourceId,                     // ResourceId
             VirtioGpuFormatB8G8R8X8Unorm,      // Format
             mGopResolutions[ModeNumber].Width, // Width
             mGopResolutions[ModeNumber].Height // Height
             );
  if (EFI_ERROR (Status)) {
    return Status;
  }

  //
  // Allocate guest backing store.
  //
  NewNumberOfBytes = mGopResolutions[ModeNumber].Width *
                     mGopResolutions[ModeNumber].Height * sizeof (UINT32);
  NewNumberOfPages = EFI_SIZE_TO_PAGES (NewNumberOfBytes);
  NewBackingStore = AllocatePages (NewNumberOfPages);
  if (NewBackingStore == NULL) {
    Status = EFI_OUT_OF_RESOURCES;
    goto DestroyHostResource;
  }
  //
  // Fill visible part of backing store with black.
  //
  ZeroMem (NewBackingStore, NewNumberOfBytes);

  //
  // Attach backing store to the host resource.
  //
  Status = VirtioGpuResourceAttachBacking (
             VgpuGop->ParentBus, // VgpuDev
             NewResourceId,      // ResourceId
             NewBackingStore,    // FirstBackingPage
             NewNumberOfPages    // NumberOfPages
             );
  if (EFI_ERROR (Status)) {
    goto FreeBackingStore;
  }

  //
  // Point head (scanout) #0 to the host resource.
  //
  Status = VirtioGpuSetScanout (
             VgpuGop->ParentBus,                 // VgpuDev
             0,                                  // X
             0,                                  // Y
             mGopResolutions[ModeNumber].Width,  // Width
             mGopResolutions[ModeNumber].Height, // Height
             0,                                  // ScanoutId
             NewResourceId                       // ResourceId
             );
  if (EFI_ERROR (Status)) {
    goto DetachBackingStore;
  }

  //
  // If this is not the first (i.e., internal) call, then we have to (a) flush
  // the new resource to head (scanout) #0, after having flipped the latter to
  // the former above, plus (b) release the old resources.
  //
  if (VgpuGop->ResourceId != 0) {
    Status = VirtioGpuResourceFlush (
               VgpuGop->ParentBus,                 // VgpuDev
               0,                                  // X
               0,                                  // Y
               mGopResolutions[ModeNumber].Width,  // Width
               mGopResolutions[ModeNumber].Height, // Height
               NewResourceId                       // ResourceId
               );
    if (EFI_ERROR (Status)) {
      //
      // Flip head (scanout) #0 back to the current resource. If this fails, we
      // cannot continue, as this error occurs on the error path and is
      // therefore non-recoverable.
      //
      Status2 = VirtioGpuSetScanout (
                  VgpuGop->ParentBus,                       // VgpuDev
                  0,                                        // X
                  0,                                        // Y
                  mGopResolutions[This->Mode->Mode].Width,  // Width
                  mGopResolutions[This->Mode->Mode].Height, // Height
                  0,                                        // ScanoutId
                  VgpuGop->ResourceId                       // ResourceId
                  );
      ASSERT_EFI_ERROR (Status2);
      if (EFI_ERROR (Status2)) {
        CpuDeadLoop ();
      }
      goto DetachBackingStore;
    }

    //
    // Flush successful; release the old resources (without disabling head
    // (scanout) #0).
    //
    ReleaseGopResources (VgpuGop, FALSE /* DisableHead */);
  }

  //
  // This is either the first (internal) call when we have no old resources
  // yet, or we've changed the mode successfully and released the old
  // resources.
  //
  ASSERT (VgpuGop->ResourceId == 0);
  ASSERT (VgpuGop->BackingStore == NULL);

  VgpuGop->ResourceId = NewResourceId;
  VgpuGop->BackingStore = NewBackingStore;
  VgpuGop->NumberOfPages = NewNumberOfPages;

  //
  // Populate Mode and ModeInfo (mutable fields only).
  //
  VgpuGop->GopMode.Mode = ModeNumber;
  VgpuGop->GopModeInfo.HorizontalResolution =
                                             mGopResolutions[ModeNumber].Width;
  VgpuGop->GopModeInfo.VerticalResolution = mGopResolutions[ModeNumber].Height;
  VgpuGop->GopModeInfo.PixelsPerScanLine = mGopResolutions[ModeNumber].Width;
  return EFI_SUCCESS;

DetachBackingStore:
  Status2 = VirtioGpuResourceDetachBacking (VgpuGop->ParentBus, NewResourceId);
  ASSERT_EFI_ERROR (Status2);
  if (EFI_ERROR (Status2)) {
    CpuDeadLoop ();
  }

FreeBackingStore:
  FreePages (NewBackingStore, NewNumberOfPages);

DestroyHostResource:
  Status2 = VirtioGpuResourceUnref (VgpuGop->ParentBus, NewResourceId);
  ASSERT_EFI_ERROR (Status2);
  if (EFI_ERROR (Status2)) {
    CpuDeadLoop ();
  }

  return Status;
}

STATIC
EFI_STATUS
EFIAPI
GopBlt (
  IN  EFI_GRAPHICS_OUTPUT_PROTOCOL      *This,
  IN  EFI_GRAPHICS_OUTPUT_BLT_PIXEL     *BltBuffer,   OPTIONAL
  IN  EFI_GRAPHICS_OUTPUT_BLT_OPERATION BltOperation,
  IN  UINTN                             SourceX,
  IN  UINTN                             SourceY,
  IN  UINTN                             DestinationX,
  IN  UINTN                             DestinationY,
  IN  UINTN                             Width,
  IN  UINTN                             Height,
  IN  UINTN                             Delta         OPTIONAL
  )
{
  VGPU_GOP   *VgpuGop;
  UINT32     CurrentHorizontal;
  UINT32     CurrentVertical;
  UINTN      SegmentSize;
  UINTN      Y;
  UINTN      ResourceOffset;
  EFI_STATUS Status;

  VgpuGop = VGPU_GOP_FROM_GOP (This);
  CurrentHorizontal = VgpuGop->GopModeInfo.HorizontalResolution;
  CurrentVertical   = VgpuGop->GopModeInfo.VerticalResolution;

  //
  // We can avoid pixel format conversion in the guest because the internal
  // representation of EFI_GRAPHICS_OUTPUT_BLT_PIXEL and that of
  // VirtioGpuFormatB8G8R8X8Unorm are identical.
  //
  SegmentSize = Width * sizeof (UINT32);

  //
  // Delta is relevant for operations that read a rectangle from, or write a
  // rectangle to, BltBuffer.
  //
  // In these cases, Delta is the stride of BltBuffer, in bytes. If Delta is
  // zero, then Width is the entire width of BltBuffer, and the stride is
  // supposed to be calculated from Width.
  //
  if (BltOperation == EfiBltVideoToBltBuffer ||
      BltOperation == EfiBltBufferToVideo) {
    if (Delta == 0) {
      Delta = SegmentSize;
    }
  }

  //
  // For operations that write to the display, check if the destination fits
  // onto the display.
  //
  if (BltOperation == EfiBltVideoFill ||
      BltOperation == EfiBltBufferToVideo ||
      BltOperation == EfiBltVideoToVideo) {
    if (DestinationX > CurrentHorizontal ||
        Width > CurrentHorizontal - DestinationX ||
        DestinationY > CurrentVertical ||
        Height > CurrentVertical - DestinationY) {
      return EFI_INVALID_PARAMETER;
    }
  }

  //
  // For operations that read from the display, check if the source fits onto
  // the display.
  //
  if (BltOperation == EfiBltVideoToBltBuffer ||
      BltOperation == EfiBltVideoToVideo) {
    if (SourceX > CurrentHorizontal ||
        Width > CurrentHorizontal - SourceX ||
        SourceY > CurrentVertical ||
        Height > CurrentVertical - SourceY) {
      return EFI_INVALID_PARAMETER;
    }
  }

  //
  // Render the request. For requests that do not modify the display, there
  // won't be further steps.
  //
  switch (BltOperation) {
  case EfiBltVideoFill:
    //
    // Write data from the BltBuffer pixel (0, 0) directly to every pixel of
    // the video display rectangle (DestinationX, DestinationY) (DestinationX +
    // Width, DestinationY + Height). Only one pixel will be used from the
    // BltBuffer. Delta is NOT used.
    //
    for (Y = 0; Y < Height; ++Y) {
      SetMem32 (
        VgpuGop->BackingStore +
          (DestinationY + Y) * CurrentHorizontal + DestinationX,
        SegmentSize,
        *(UINT32 *)BltBuffer
        );
    }
    break;

  case EfiBltVideoToBltBuffer:
    //
    // Read data from the video display rectangle (SourceX, SourceY) (SourceX +
    // Width, SourceY + Height) and place it in the BltBuffer rectangle
    // (DestinationX, DestinationY ) (DestinationX + Width, DestinationY +
    // Height). If DestinationX or DestinationY is not zero then Delta must be
    // set to the length in bytes of a row in the BltBuffer.
    //
    for (Y = 0; Y < Height; ++Y) {
      CopyMem (
        (UINT8 *)BltBuffer +
          (DestinationY + Y) * Delta + DestinationX * sizeof *BltBuffer,
        VgpuGop->BackingStore +
          (SourceY + Y) * CurrentHorizontal + SourceX,
        SegmentSize
        );
    }
    return EFI_SUCCESS;

  case EfiBltBufferToVideo:
    //
    // Write data from the BltBuffer rectangle (SourceX, SourceY) (SourceX +
    // Width, SourceY + Height) directly to the video display rectangle
    // (DestinationX, DestinationY) (DestinationX + Width, DestinationY +
    // Height). If SourceX or SourceY is not zero then Delta must be set to the
    // length in bytes of a row in the BltBuffer.
    //
    for (Y = 0; Y < Height; ++Y) {
      CopyMem (
        VgpuGop->BackingStore +
          (DestinationY + Y) * CurrentHorizontal + DestinationX,
        (UINT8 *)BltBuffer +
          (SourceY + Y) * Delta + SourceX * sizeof *BltBuffer,
        SegmentSize
        );
    }
    break;

  case EfiBltVideoToVideo:
    //
    // Copy from the video display rectangle (SourceX, SourceY) (SourceX +
    // Width, SourceY + Height) to the video display rectangle (DestinationX,
    // DestinationY) (DestinationX + Width, DestinationY + Height). The
    // BltBuffer and Delta are not used in this mode.
    //
    // A single invocation of CopyMem() handles overlap between source and
    // destination (that is, within a single line), but for multiple
    // invocations, we must handle overlaps.
    //
    if (SourceY < DestinationY) {
      Y = Height;
      while (Y > 0) {
        --Y;
        CopyMem (
          VgpuGop->BackingStore +
            (DestinationY + Y) * CurrentHorizontal + DestinationX,
          VgpuGop->BackingStore +
            (SourceY + Y) * CurrentHorizontal + SourceX,
          SegmentSize
          );
      }
    } else {
      for (Y = 0; Y < Height; ++Y) {
        CopyMem (
          VgpuGop->BackingStore +
            (DestinationY + Y) * CurrentHorizontal + DestinationX,
          VgpuGop->BackingStore +
            (SourceY + Y) * CurrentHorizontal + SourceX,
          SegmentSize
          );
      }
    }
    break;

  default:
    return EFI_INVALID_PARAMETER;
  }

  //
  // For operations that wrote to the display, submit the updated area to the
  // host -- update the host resource from guest memory.
  //
  ResourceOffset = sizeof (UINT32) * (DestinationY * CurrentHorizontal +
                                      DestinationX);
  Status = VirtioGpuTransferToHost2d (
             VgpuGop->ParentBus,   // VgpuDev
             (UINT32)DestinationX, // X
             (UINT32)DestinationY, // Y
             (UINT32)Width,        // Width
             (UINT32)Height,       // Height
             ResourceOffset,       // Offset
             VgpuGop->ResourceId   // ResourceId
             );
  if (EFI_ERROR (Status)) {
    return Status;
  }

  //
  // Flush the updated resource to the display.
  //
  Status = VirtioGpuResourceFlush (
             VgpuGop->ParentBus,   // VgpuDev
             (UINT32)DestinationX, // X
             (UINT32)DestinationY, // Y
             (UINT32)Width,        // Width
             (UINT32)Height,       // Height
             VgpuGop->ResourceId   // ResourceId
             );
  return Status;
}

//
// Template for initializing VGPU_GOP.Gop.
//
CONST EFI_GRAPHICS_OUTPUT_PROTOCOL mGopTemplate = {
  GopQueryMode,
  GopSetMode,
  GopBlt,
  NULL          // Mode, to be overwritten in the actual protocol instance
};