reactos/win32ss/drivers/miniport/vga/vgamp.c

567 lines
17 KiB
C

/*
* VGA.C - a generic VGA miniport driver
*
*/
// ------------------------------------------------------- Includes
#include "vgamp.h"
#include <dderror.h>
#include <devioctl.h>
// ------------------------------------------------------- Public Interface
// DriverEntry
//
// DESCRIPTION:
// This function initializes the driver.
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// IN PVOID Context1 Context parameter to pass to VidPortInitialize
// IN PVOID Context2 Context parameter to pass to VidPortInitialize
// RETURNS:
// ULONG
ULONG NTAPI
DriverEntry(IN PVOID Context1,
IN PVOID Context2)
{
VIDEO_HW_INITIALIZATION_DATA InitData;
VideoPortZeroMemory(&InitData, sizeof InitData);
InitData.HwInitDataSize = sizeof(InitData);
/* FIXME: Fill in InitData members */
InitData.StartingDeviceNumber = 0;
/* Export driver entry points... */
InitData.HwFindAdapter = VGAFindAdapter;
InitData.HwInitialize = VGAInitialize;
InitData.HwStartIO = VGAStartIO;
/* InitData.HwInterrupt = VGAInterrupt; */
InitData.HwResetHw = VGAResetHw;
/* InitData.HwTimer = VGATimer; */
return VideoPortInitialize(Context1, Context2, &InitData, NULL);
}
// VGAFindAdapter
//
// DESCRIPTION:
// This routine is called by the videoport driver to find and allocate
// the adapter for a given bus. The miniport driver needs to do the
// following in this routine:
// - Determine if the adapter is present
// - Claim any necessary memory/IO resources for the adapter
// - Map resources into system memory for the adapter
// - fill in relevant information in the VIDEO_PORT_CONFIG_INFO buffer
// - update registry settings for adapter specifics.
// - Set 'Again' based on whether the function should be called again
// another adapter on the same bus.
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// PVOID DeviceExtension
// PVOID Context
// PWSTR ArgumentString
// PVIDEO_PORT_CONFIG_INFO ConfigInfo
// PUCHAR Again
// RETURNS:
// VP_STATUS
VP_STATUS NTAPI
VGAFindAdapter(PVOID DeviceExtension,
PVOID Context,
PWSTR ArgumentString,
PVIDEO_PORT_CONFIG_INFO ConfigInfo,
PUCHAR Again)
{
/* FIXME: Determine if the adapter is present */
*Again = FALSE;
return NO_ERROR;
/* FIXME: Claim any necessary memory/IO resources for the adapter */
/* FIXME: Map resources into system memory for the adapter */
/* FIXME: Fill in relevant information in the VIDEO_PORT_CONFIG_INFO buffer */
/* FIXME: Update registry settings for adapter specifics. */
// return NO_ERROR;
}
// VGAInitialize
//
// DESCRIPTION:
// Perform initialization tasks, but leave the adapter in the same
// user visible state
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// PVOID DeviceExtension
// RETURNS:
// BOOLEAN Success or failure
BOOLEAN NTAPI
VGAInitialize(PVOID DeviceExtension)
{
return TRUE;
}
// VGAStartIO
//
// DESCRIPTION:
// This function gets called in responce to GDI EngDeviceIoControl
// calls. Device requests are passed in VRPs.
// Required VRPs:
// IOCTL_VIDEO_QUERY_NUM_AVAIL_MODES
// IOCTL_VIDEO_QUERY_AVAIL_MODES
// IOCTL_VIDEO_QUERY_CURRENT_MODE
// IOCTL_VIDEO_SET_CURRENT_MODE
// IOCTL_VIDEO_RESET_DEVICE
// IOCTL_VIDEO_MAP_VIDEO_MEMORY
// IOCTL_VIDEO_UNMAP_VIDEO_MEMORY
// IOCTL_VIDEO_SHARE_VIDEO_MEMORY
// IOCTL_VIDEO_UNSHARE_VIDEO_MEMORY
// Optional VRPs:
// IOCTL_VIDEO_GET_PUBLIC_ACCESS_RANGES
// IOCTL_VIDEO_FREE_PUBLIC_ACCESS_RANGES
// IOCTL_VIDEO_GET_POWER_MANAGEMENT
// IOCTL_VIDEO_SET_POWER_MANAGEMENT
// IOCTL_QUERY_COLOR_CAPABILITIES
// IOCTL_VIDEO_SET_COLOR_REGISTERS (required if the device has a palette)
// IOCTL_VIDEO_DISABLE_POINTER
// IOCTL_VIDEO_ENABLE_POINTER
// IOCTL_VIDEO_QUERY_POINTER_CAPABILITIES
// IOCTL_VIDEO_QUERY_POINTER_ATTR
// IOCTL_VIDEO_SET_POINTER_ATTR
// IOCTL_VIDEO_QUERY_POINTER_POSITION
// IOCTL_VIDEO_SET_POINTER_POSITION
// IOCTL_VIDEO_SAVE_HARDWARE_STATE
// IOCTL_VIDEO_RESTORE_HARDWARE_STATE
// IOCTL_VIDEO_DISABLE_CURSOR
// IOCTL_VIDEO_ENABLE_CURSOR
// IOCTL_VIDEO_QUERY_CURSOR_ATTR
// IOCTL_VIDEO_SET_CURSOR_ATTR
// IOCTL_VIDEO_QUERY_CURSOR_POSITION
// IOCTL_VIDEO_SET_CURSOR_POSITION
// IOCTL_VIDEO_GET_BANK_SELECT_CODE
// IOCTL_VIDEO_SET_PALETTE_REGISTERS
// IOCTL_VIDEO_LOAD_AND_SET_FONT
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// PVOID DeviceExtension
// PVIDEO_REQUEST_PACKET RequestPacket
// RETURNS:
// BOOLEAN This function must return TRUE, and complete the work or
// set an error status in the VRP.
BOOLEAN NTAPI
VGAStartIO(PVOID DeviceExtension,
PVIDEO_REQUEST_PACKET RequestPacket)
{
BOOLEAN Result;
RequestPacket->StatusBlock->Status = ERROR_INVALID_FUNCTION;
switch (RequestPacket->IoControlCode)
{
case IOCTL_VIDEO_MAP_VIDEO_MEMORY:
if (RequestPacket->OutputBufferLength < sizeof(VIDEO_MEMORY_INFORMATION) ||
RequestPacket->InputBufferLength < sizeof(VIDEO_MEMORY))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAMapVideoMemory(DeviceExtension,
(PVIDEO_MEMORY) RequestPacket->InputBuffer,
(PVIDEO_MEMORY_INFORMATION)
RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_QUERY_AVAIL_MODES:
if (RequestPacket->OutputBufferLength < sizeof(VIDEO_MODE_INFORMATION))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAQueryAvailModes((PVIDEO_MODE_INFORMATION) RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_QUERY_CURRENT_MODE:
if (RequestPacket->OutputBufferLength < sizeof(VIDEO_MODE_INFORMATION))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAQueryCurrentMode((PVIDEO_MODE_INFORMATION) RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_QUERY_NUM_AVAIL_MODES:
if (RequestPacket->OutputBufferLength < sizeof(VIDEO_NUM_MODES))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAQueryNumAvailModes((PVIDEO_NUM_MODES) RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_RESET_DEVICE:
VGAResetDevice(RequestPacket->StatusBlock);
Result = TRUE;
break;
case IOCTL_VIDEO_SET_COLOR_REGISTERS:
if (RequestPacket->InputBufferLength < sizeof(VIDEO_CLUT) ||
RequestPacket->InputBufferLength <
(((PVIDEO_CLUT)RequestPacket->InputBuffer)->NumEntries * sizeof(ULONG)) +
FIELD_OFFSET(VIDEO_CLUT, LookupTable))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGASetColorRegisters((PVIDEO_CLUT) RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_SET_CURRENT_MODE:
if (RequestPacket->InputBufferLength < sizeof(VIDEO_MODE))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGASetCurrentMode((PVIDEO_MODE) RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_SHARE_VIDEO_MEMORY:
if (RequestPacket->OutputBufferLength < sizeof(VIDEO_MEMORY_INFORMATION) ||
RequestPacket->InputBufferLength < sizeof(VIDEO_SHARE_MEMORY))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAShareVideoMemory((PVIDEO_SHARE_MEMORY) RequestPacket->InputBuffer,
(PVIDEO_MEMORY_INFORMATION) RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_UNMAP_VIDEO_MEMORY:
if (RequestPacket->InputBufferLength < sizeof(VIDEO_MEMORY))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAUnmapVideoMemory(DeviceExtension,
(PVIDEO_MEMORY) RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_UNSHARE_VIDEO_MEMORY:
if (RequestPacket->InputBufferLength < sizeof(VIDEO_MEMORY))
{
RequestPacket->StatusBlock->Status = ERROR_INSUFFICIENT_BUFFER;
return TRUE;
}
Result = VGAUnshareVideoMemory((PVIDEO_MEMORY) RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_SET_PALETTE_REGISTERS:
Result = VGASetPaletteRegisters((PUSHORT) RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
#if 0
case IOCTL_VIDEO_DISABLE_CURSOR:
case IOCTL_VIDEO_DISABLE_POINTER:
case IOCTL_VIDEO_ENABLE_CURSOR:
case IOCTL_VIDEO_ENABLE_POINTER:
case IOCTL_VIDEO_FREE_PUBLIC_ACCESS_RANGES:
VGAFreePublicAccessRanges((PVIDEO_PUBLIC_ACCESS_RANGES)
RequestPacket->InputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_GET_BANK_SELECT_CODE:
case IOCTL_VIDEO_GET_POWER_MANAGEMENT:
case IOCTL_VIDEO_LOAD_AND_SET_FONT:
case IOCTL_VIDEO_QUERY_CURSOR_POSITION:
case IOCTL_VIDEO_QUERY_COLOR_CAPABILITIES:
case IOCTL_VIDEO_QUERY_CURSOR_ATTR:
case IOCTL_VIDEO_QUERY_POINTER_ATTR:
case IOCTL_VIDEO_QUERY_POINTER_CAPABILITIES:
case IOCTL_VIDEO_QUERY_POINTER_POSITION:
case IOCTL_VIDEO_QUERY_PUBLIC_ACCESS_RANGES:
VGAQueryPublicAccessRanges((PVIDEO_PUBLIC_ACCESS_RANGES)
RequestPacket->OutputBuffer,
RequestPacket->StatusBlock);
break;
case IOCTL_VIDEO_RESTORE_HARDWARE_STATE:
case IOCTL_VIDEO_SAVE_HARDWARE_STATE:
case IOCTL_VIDEO_SET_CURSOR_ATTR:
case IOCTL_VIDEO_SET_CURSOR_POSITION:
case IOCTL_VIDEO_SET_POINTER_ATTR:
case IOCTL_VIDEO_SET_POINTER_POSITION:
case IOCTL_VIDEO_SET_POWER_MANAGEMENT:
#endif
default:
RequestPacket->StatusBlock->Status = ERROR_INVALID_FUNCTION;
return FALSE;
}
if (Result)
RequestPacket->StatusBlock->Status = NO_ERROR;
return TRUE;
}
#if 0
// VGAInterrupt
//
// DESCRIPTION:
// This function will be called upon receipt of a adapter generated
// interrupt when enabled.
//
// RUN LEVEL:
// IRQL
//
// ARGUMENTS:
// PVOID DeviceExtension
// RETURNS:
// BOOLEAN TRUE if the interrupt was handled by the routine
static BOOLEAN NTAPI
VGAInterrupt(PVOID DeviceExtension)
{
return(TRUE);
}
#endif
// VGAResetHw
//
// DESCRIPTION:
// This function is called to reset the hardware to a known state
// if calling a BIOS int 10 reset will not achieve this result.
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// PVOID DeviceExtension
// ULONG Columns Columns and Rows specify the mode parameters
// ULONG Rows to reset to.
// RETURNS:
// BOOLEAN TRUE if no further action is necessary, FALSE if the system
// needs to still do a BIOS int 10 reset.
BOOLEAN NTAPI
VGAResetHw(PVOID DeviceExtension,
ULONG Columns,
ULONG Rows)
{
/* We don't anything to the vga that int10 can't cope with. */
return(FALSE);
}
#if 0
// VGATimer
//
// DESCRIPTION:
// This function will be called once a second when enabled
//
// RUN LEVEL:
// PASSIVE_LEVEL
//
// ARGUMENTS:
// PVOID DeviceExtension
// RETURNS:
// VOID
static VOID NTAPI
VGATimer(PVOID DeviceExtension)
{
}
#endif
BOOLEAN VGAMapVideoMemory(IN PVOID DeviceExtension,
IN PVIDEO_MEMORY RequestedAddress,
OUT PVIDEO_MEMORY_INFORMATION MapInformation,
OUT PSTATUS_BLOCK StatusBlock)
{
ULONG ReturnedLength;
PVOID ReturnedAddress;
ULONG IoSpace;
PHYSICAL_ADDRESS FrameBufferBase;
ReturnedAddress = RequestedAddress->RequestedVirtualAddress;
ReturnedLength = 256 * 1024;
FrameBufferBase.QuadPart = 0xA0000;
IoSpace = VIDEO_MEMORY_SPACE_MEMORY;
StatusBlock->Status = VideoPortMapMemory(DeviceExtension,
FrameBufferBase,
&ReturnedLength,
&IoSpace,
&ReturnedAddress);
if (StatusBlock->Status != 0)
{
StatusBlock->Information = 0;
return TRUE;
}
MapInformation->VideoRamBase = MapInformation->FrameBufferBase =
ReturnedAddress;
MapInformation->VideoRamLength = MapInformation->FrameBufferLength =
ReturnedLength;
StatusBlock->Information = sizeof(VIDEO_MEMORY_INFORMATION);
return TRUE;
}
BOOLEAN VGAQueryAvailModes(OUT PVIDEO_MODE_INFORMATION ReturnedModes,
OUT PSTATUS_BLOCK StatusBlock)
{
/* Only one mode exists in VGA (640x480), so use VGAQueryCurrentMode */
return VGAQueryCurrentMode(ReturnedModes, StatusBlock);
}
BOOLEAN VGAQueryCurrentMode(OUT PVIDEO_MODE_INFORMATION CurrentMode,
OUT PSTATUS_BLOCK StatusBlock)
{
CurrentMode->Length = sizeof(VIDEO_MODE_INFORMATION);
CurrentMode->ModeIndex = 2;
CurrentMode->VisScreenWidth = 640;
CurrentMode->VisScreenHeight = 480;
CurrentMode->ScreenStride = 80;
CurrentMode->NumberOfPlanes = 4;
CurrentMode->BitsPerPlane = 1;
CurrentMode->Frequency = 60;
CurrentMode->XMillimeter = 320;
CurrentMode->YMillimeter = 240;
CurrentMode->NumberRedBits =
CurrentMode->NumberGreenBits =
CurrentMode->NumberBlueBits = 6;
CurrentMode->RedMask =
CurrentMode->GreenMask =
CurrentMode->BlueMask = 0;
CurrentMode->VideoMemoryBitmapWidth = 640;
CurrentMode->VideoMemoryBitmapHeight = 480;
CurrentMode->AttributeFlags = VIDEO_MODE_GRAPHICS | VIDEO_MODE_COLOR |
VIDEO_MODE_NO_OFF_SCREEN;
CurrentMode->DriverSpecificAttributeFlags = 0;
StatusBlock->Information = sizeof(VIDEO_MODE_INFORMATION);
return TRUE;
}
BOOLEAN VGAQueryNumAvailModes(OUT PVIDEO_NUM_MODES NumberOfModes,
OUT PSTATUS_BLOCK StatusBlock)
{
NumberOfModes->NumModes = 1;
NumberOfModes->ModeInformationLength = sizeof(VIDEO_MODE_INFORMATION);
StatusBlock->Information = sizeof(VIDEO_NUM_MODES);
return TRUE;
}
BOOLEAN VGASetPaletteRegisters(IN PUSHORT PaletteRegisters,
OUT PSTATUS_BLOCK StatusBlock)
{
;
/*
We don't need the following code because the palette registers are set correctly on VGA initialization.
Still, we may include\test this is in the future.
int i, j = 2;
char tmp, v;
tmp = VideoPortReadPortUchar(0x03da);
v = VideoPortReadPortUchar(0x03c0);
// Set the first 16 palette registers to map to the first 16 palette colors
for (i=PaletteRegisters[1]; i<PaletteRegisters[0]; i++)
{
tmp = VideoPortReadPortUchar(0x03da);
VideoPortWritePortUchar(0x03c0, i);
VideoPortWritePortUchar(0x03c0, PaletteRegisters[j++]);
}
tmp = VideoPortReadPortUchar(0x03da);
VideoPortWritePortUchar(0x03d0, v | 0x20);
*/
return TRUE;
}
BOOLEAN VGASetColorRegisters(IN PVIDEO_CLUT ColorLookUpTable,
OUT PSTATUS_BLOCK StatusBlock)
{
int i;
for (i=ColorLookUpTable->FirstEntry; i<ColorLookUpTable->NumEntries; i++)
{
VideoPortWritePortUchar((PUCHAR)0x03c8, i);
VideoPortWritePortUchar((PUCHAR)0x03c9, ColorLookUpTable->LookupTable[i].RgbArray.Red);
VideoPortWritePortUchar((PUCHAR)0x03c9, ColorLookUpTable->LookupTable[i].RgbArray.Green);
VideoPortWritePortUchar((PUCHAR)0x03c9, ColorLookUpTable->LookupTable[i].RgbArray.Blue);
}
return TRUE;
}
BOOLEAN VGASetCurrentMode(IN PVIDEO_MODE RequestedMode,
OUT PSTATUS_BLOCK StatusBlock)
{
if(RequestedMode->RequestedMode == 12)
{
InitVGAMode();
return TRUE;
} else {
VideoPortDebugPrint(Warn, "Unrecognised mode for VGASetCurrentMode\n");
return FALSE;
}
}
BOOLEAN VGAShareVideoMemory(IN PVIDEO_SHARE_MEMORY RequestedMemory,
OUT PVIDEO_MEMORY_INFORMATION ReturnedMemory,
OUT PSTATUS_BLOCK StatusBlock)
{
UNIMPLEMENTED;
StatusBlock->Status = ERROR_INVALID_FUNCTION;
return FALSE;
}
BOOLEAN VGAUnmapVideoMemory(IN PVOID DeviceExtension,
IN PVIDEO_MEMORY MemoryToUnmap,
OUT PSTATUS_BLOCK StatusBlock)
{
if (VideoPortUnmapMemory(DeviceExtension,
MemoryToUnmap->RequestedVirtualAddress,
0) == NO_ERROR)
return TRUE;
else
return FALSE;
}
BOOLEAN VGAUnshareVideoMemory(IN PVIDEO_MEMORY MemoryToUnshare,
OUT PSTATUS_BLOCK StatusBlock)
{
UNIMPLEMENTED;
StatusBlock->Status = ERROR_INVALID_FUNCTION;
return FALSE;
}