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reactos/drivers/base/bootvid/arm/bootvid.c
Dmitry Borisov da9384b918
[BOOTVID] Annotate some functions to avoid confusing (#2936) 
Also fix some magic constants.
2020-07-29 19:10:38 +03:00

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#include "precomp.h"
#define NDEBUG
#include <debug.h>
PUSHORT VgaArmBase;
PHYSICAL_ADDRESS VgaPhysical;
/* PRIVATE FUNCTIONS *********************************************************/
VOID
NTAPI
DisplayCharacter(
_In_ CHAR Character,
_In_ ULONG Left,
_In_ ULONG Top,
_In_ ULONG TextColor,
_In_ ULONG BackColor)
{
PUCHAR FontChar;
ULONG i, j, XOffset;
/* Get the font line for this character */
FontChar = &VidpFontData[Character * BOOTCHAR_HEIGHT - Top];
/* Loop each pixel height */
for (i = BOOTCHAR_HEIGHT; i > 0; --i)
{
/* Loop each pixel width */
XOffset = Left;
for (j = (1 << 7); j > 0; j >>= 1)
{
/* Check if we should draw this pixel */
if (FontChar[Top] & (UCHAR)j)
{
/* We do, use the given Text Color */
SetPixel(XOffset, Top, (UCHAR)TextColor);
}
else if (BackColor < BV_COLOR_NONE)
{
/*
* This is a background pixel. We're drawing it
* unless it's transparent.
*/
SetPixel(XOffset, Top, (UCHAR)BackColor);
}
/* Increase X Offset */
XOffset++;
}
/* Move to the next Y ordinate */
Top++;
}
}
VOID
NTAPI
DoScroll(
_In_ ULONG Scroll)
{
ULONG Top, Offset;
PUSHORT SourceOffset, DestOffset;
PUSHORT i, j;
/* Set memory positions of the scroll */
SourceOffset = &VgaArmBase[(VidpScrollRegion[1] * (SCREEN_WIDTH / 8)) + (VidpScrollRegion[0] >> 3)];
DestOffset = &SourceOffset[Scroll * (SCREEN_WIDTH / 8)];
/* Start loop */
for (Top = VidpScrollRegion[1]; Top <= VidpScrollRegion[3]; ++Top)
{
/* Set number of bytes to loop and start offset */
Offset = VidpScrollRegion[0] >> 3;
j = SourceOffset;
/* Check if this is part of the scroll region */
if (Offset <= (VidpScrollRegion[2] >> 3))
{
/* Update position */
i = (PUSHORT)(DestOffset - SourceOffset);
/* Loop the X axis */
do
{
/* Write value in the new position so that we can do the scroll */
WRITE_REGISTER_USHORT(j, READ_REGISTER_USHORT(j + (ULONG_PTR)i));
/* Move to the next memory location to write to */
j++;
/* Move to the next byte in the region */
Offset++;
/* Make sure we don't go past the scroll region */
} while (Offset <= (VidpScrollRegion[2] >> 3));
}
/* Move to the next line */
SourceOffset += (SCREEN_WIDTH / 8);
DestOffset += (SCREEN_WIDTH / 8);
}
}
VOID
NTAPI
PreserveRow(
_In_ ULONG CurrentTop,
_In_ ULONG TopDelta,
_In_ BOOLEAN Restore)
{
PUSHORT Position1, Position2;
ULONG Count;
/* Calculate the position in memory for the row */
if (Restore)
{
/* Restore the row by copying back the contents saved off-screen */
Position1 = &VgaArmBase[CurrentTop * (SCREEN_WIDTH / 8)];
Position2 = &VgaArmBase[SCREEN_HEIGHT * (SCREEN_WIDTH / 8)];
}
else
{
/* Preserve the row by saving its contents off-screen */
Position1 = &VgaArmBase[SCREEN_HEIGHT * (SCREEN_WIDTH / 8)];
Position2 = &VgaArmBase[CurrentTop * (SCREEN_WIDTH / 8)];
}
/* Set the count and loop every pixel */
Count = TopDelta * (SCREEN_WIDTH / 8);
while (Count--)
{
/* Write the data back on the other position */
WRITE_REGISTER_USHORT(Position1, READ_REGISTER_USHORT(Position2));
/* Increase both positions */
Position1++;
Position2++;
}
}
VOID
NTAPI
VidpInitializeDisplay(VOID)
{
//
// Set framebuffer address
//
WRITE_REGISTER_ULONG(PL110_LCDUPBASE, VgaPhysical.LowPart);
WRITE_REGISTER_ULONG(PL110_LCDLPBASE, VgaPhysical.LowPart);
//
// Initialize timings to 640x480
//
WRITE_REGISTER_ULONG(PL110_LCDTIMING0, LCDTIMING0_PPL(SCREEN_WIDTH));
WRITE_REGISTER_ULONG(PL110_LCDTIMING1, LCDTIMING1_LPP(SCREEN_HEIGHT));
//
// Enable the LCD Display
//
WRITE_REGISTER_ULONG(PL110_LCDCONTROL,
LCDCONTROL_LCDEN |
LCDCONTROL_LCDTFT |
LCDCONTROL_LCDPWR |
LCDCONTROL_LCDBPP(4));
}
VOID
NTAPI
InitPaletteWithTable(
_In_ PULONG Table,
_In_ ULONG Count)
{
UNIMPLEMENTED;
}
/* PUBLIC FUNCTIONS **********************************************************/
/*
* @implemented
*/
BOOLEAN
NTAPI
VidInitialize(
_In_ BOOLEAN SetMode)
{
DPRINT1("bv-arm v0.1\n");
//
// Allocate framebuffer
// 600kb works out to 640x480@16bpp
//
VgaPhysical.QuadPart = -1;
VgaArmBase = MmAllocateContiguousMemory(600 * 1024, VgaPhysical);
if (!VgaArmBase) return FALSE;
//
// Get physical address
//
VgaPhysical = MmGetPhysicalAddress(VgaArmBase);
if (!VgaPhysical.QuadPart) return FALSE;
DPRINT1("[BV-ARM] Frame Buffer @ 0x%p 0p%p\n", VgaArmBase, VgaPhysical.LowPart);
//
// Setup the display
//
VidpInitializeDisplay();
//
// We are done!
//
return TRUE;
}
/*
* @implemented
*/
VOID
NTAPI
VidResetDisplay(
_In_ BOOLEAN HalReset)
{
//
// Clear the current position
//
VidpCurrentX = 0;
VidpCurrentY = 0;
//
// Re-initialize the VGA Display
//
VidpInitializeDisplay();
//
// Re-initialize the palette and fill the screen black
//
InitializePalette();
VidSolidColorFill(0, 0, SCREEN_WIDTH - 1, SCREEN_HEIGHT - 1, BV_COLOR_BLACK);
}
/*
* @implemented
*/
VOID
NTAPI
VidCleanUp(VOID)
{
UNIMPLEMENTED;
while (TRUE);
}
/*
* @implemented
*/
VOID
NTAPI
VidScreenToBufferBlt(
_Out_writes_bytes_(Delta * Height) PUCHAR Buffer,
_In_ ULONG Left,
_In_ ULONG Top,
_In_ ULONG Width,
_In_ ULONG Height,
_In_ ULONG Delta)
{
UNIMPLEMENTED;
while (TRUE);
}
/*
* @implemented
*/
VOID
NTAPI
VidSolidColorFill(
_In_ ULONG Left,
_In_ ULONG Top,
_In_ ULONG Right,
_In_ ULONG Bottom,
_In_ UCHAR Color)
{
int y, x;
//
// Loop along the Y-axis
//
for (y = Top; y <= Bottom; y++)
{
//
// Loop along the X-axis
//
for (x = Left; x <= Right; x++)
{
//
// Draw the pixel
//
SetPixel(x, y, Color);
}
}
}
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