Kernel  |  4.1

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#include<linux/module.h>
#include<linux/kernel.h>
#include<linux/errno.h>
#include<linux/string.h>
#include<linux/mm.h>
#include<linux/slab.h>
#include<linux/delay.h>
#include<linux/fb.h>
#include<linux/ioport.h>
#include<linux/init.h>
#include<linux/pci.h>
#include<linux/vmalloc.h>
#include<linux/pagemap.h>
#include <linux/console.h>
#include<linux/platform_device.h>
#include<linux/screen_info.h>

#include "sm750.h"
#include "sm750_accel.h"
#include "sm750_help.h"
static inline void write_dpr(struct lynx_accel * accel,int offset,u32 regValue)
{
	writel(regValue,accel->dprBase + offset);
}

static inline u32 read_dpr(struct lynx_accel * accel,int offset)
{
	return readl(accel->dprBase + offset);
}

static inline void write_dpPort(struct lynx_accel * accel,u32 data)
{
	writel(data,accel->dpPortBase);
}

void hw_de_init(struct lynx_accel * accel)
{
	/* setup 2d engine registers */
	u32 reg,clr;
	
	write_dpr(accel,DE_MASKS,0xFFFFFFFF);

	/* dpr1c */
	reg = FIELD_SET(0,DE_STRETCH_FORMAT,PATTERN_XY,NORMAL)|
		FIELD_VALUE(0,DE_STRETCH_FORMAT,PATTERN_Y,0)|
		FIELD_VALUE(0,DE_STRETCH_FORMAT,PATTERN_X,0)|
		FIELD_SET(0,DE_STRETCH_FORMAT,ADDRESSING,XY)|
		FIELD_VALUE(0,DE_STRETCH_FORMAT,SOURCE_HEIGHT,3);

	clr = FIELD_CLEAR(DE_STRETCH_FORMAT,PATTERN_XY)&
		FIELD_CLEAR(DE_STRETCH_FORMAT,PATTERN_Y)&
		FIELD_CLEAR(DE_STRETCH_FORMAT,PATTERN_X)&
		FIELD_CLEAR(DE_STRETCH_FORMAT,ADDRESSING)&
		FIELD_CLEAR(DE_STRETCH_FORMAT,SOURCE_HEIGHT);

	/* DE_STRETCH bpp format need be initilized in setMode routine */
	write_dpr(accel,DE_STRETCH_FORMAT,(read_dpr(accel,DE_STRETCH_FORMAT) & clr) | reg);

	/* disable clipping and transparent */
	write_dpr(accel,DE_CLIP_TL,0);//dpr2c
	write_dpr(accel,DE_CLIP_BR,0);//dpr30

	write_dpr(accel,DE_COLOR_COMPARE_MASK,0);//dpr24
	write_dpr(accel,DE_COLOR_COMPARE,0);

	reg = FIELD_SET(0,DE_CONTROL,TRANSPARENCY,DISABLE)|
		FIELD_SET(0,DE_CONTROL,TRANSPARENCY_MATCH,OPAQUE)|
		FIELD_SET(0,DE_CONTROL,TRANSPARENCY_SELECT,SOURCE);

	clr = FIELD_CLEAR(DE_CONTROL,TRANSPARENCY)&
		FIELD_CLEAR(DE_CONTROL,TRANSPARENCY_MATCH)&
		FIELD_CLEAR(DE_CONTROL,TRANSPARENCY_SELECT);

	/* dpr0c */
	write_dpr(accel,DE_CONTROL,(read_dpr(accel,DE_CONTROL)&clr)|reg);
}

/* set2dformat only be called from setmode functions
 * but if you need dual framebuffer driver,need call set2dformat
 * every time you use 2d function */

void hw_set2dformat(struct lynx_accel * accel,int fmt)
{
	u32 reg;
	
	/* fmt=0,1,2 for 8,16,32,bpp on sm718/750/502 */
	reg = read_dpr(accel,DE_STRETCH_FORMAT);
	reg = FIELD_VALUE(reg,DE_STRETCH_FORMAT,PIXEL_FORMAT,fmt);
	write_dpr(accel,DE_STRETCH_FORMAT,reg);
}

int hw_fillrect(struct lynx_accel * accel,
				u32 base,u32 pitch,u32 Bpp,
				u32 x,u32 y,u32 width,u32 height,
				u32 color,u32 rop)
{
	u32 deCtrl;

	if(accel->de_wait() != 0)
	{
		/* int time wait and always busy,seems hardware
		 * got something error */
		pr_debug("%s:De engine always bussy\n",__func__);
		return -1;
	}

	write_dpr(accel,DE_WINDOW_DESTINATION_BASE,base);//dpr40
	write_dpr(accel,DE_PITCH,
			FIELD_VALUE(0,DE_PITCH,DESTINATION,pitch/Bpp)|
			FIELD_VALUE(0,DE_PITCH,SOURCE,pitch/Bpp));//dpr10

	write_dpr(accel,DE_WINDOW_WIDTH,
			FIELD_VALUE(0,DE_WINDOW_WIDTH,DESTINATION,pitch/Bpp)|
			FIELD_VALUE(0,DE_WINDOW_WIDTH,SOURCE,pitch/Bpp));//dpr44

	write_dpr(accel,DE_FOREGROUND,color);//DPR14

	write_dpr(accel,DE_DESTINATION,
			FIELD_SET(0,DE_DESTINATION,WRAP,DISABLE)|
			FIELD_VALUE(0,DE_DESTINATION,X,x)|
			FIELD_VALUE(0,DE_DESTINATION,Y,y));//dpr4

	write_dpr(accel,DE_DIMENSION,
			FIELD_VALUE(0,DE_DIMENSION,X,width)|
			FIELD_VALUE(0,DE_DIMENSION,Y_ET,height));//dpr8

	deCtrl =
		FIELD_SET(0,DE_CONTROL,STATUS,START)|
		FIELD_SET(0,DE_CONTROL,DIRECTION,LEFT_TO_RIGHT)|
		FIELD_SET(0,DE_CONTROL,LAST_PIXEL,ON)|
		FIELD_SET(0,DE_CONTROL,COMMAND,RECTANGLE_FILL)|
		FIELD_SET(0,DE_CONTROL,ROP_SELECT,ROP2)|
		FIELD_VALUE(0,DE_CONTROL,ROP,rop);//dpr0xc

	write_dpr(accel,DE_CONTROL,deCtrl);
	return 0;
}

int hw_copyarea(
struct lynx_accel * accel,
unsigned int sBase,  /* Address of source: offset in frame buffer */
unsigned int sPitch, /* Pitch value of source surface in BYTE */
unsigned int sx,
unsigned int sy,     /* Starting coordinate of source surface */
unsigned int dBase,  /* Address of destination: offset in frame buffer */
unsigned int dPitch, /* Pitch value of destination surface in BYTE */
unsigned int Bpp,    /* Color depth of destination surface */
unsigned int dx,
unsigned int dy,     /* Starting coordinate of destination surface */
unsigned int width,
unsigned int height, /* width and height of rectangle in pixel value */
unsigned int rop2)   /* ROP value */
{
    unsigned int nDirection, de_ctrl;
    int opSign;
    nDirection = LEFT_TO_RIGHT;
	/* Direction of ROP2 operation: 1 = Left to Right, (-1) = Right to Left */
    opSign = 1;
    de_ctrl = 0;

    /* If source and destination are the same surface, need to check for overlay cases */
    if (sBase == dBase && sPitch == dPitch)
    {
        /* Determine direction of operation */
        if (sy < dy)
        {
            /* +----------+
               |S         |
               |   +----------+
               |   |      |   |
               |   |      |   |
               +---|------+   |
                   |         D|
                   +----------+ */

            nDirection = BOTTOM_TO_TOP;
        }
        else if (sy > dy)
        {
            /* +----------+
               |D         |
               |   +----------+
               |   |      |   |
               |   |      |   |
               +---|------+   |
                   |         S|
                   +----------+ */

            nDirection = TOP_TO_BOTTOM;
        }
        else
        {
            /* sy == dy */

            if (sx <= dx)
            {
                /* +------+---+------+
                   |S     |   |     D|
                   |      |   |      |
                   |      |   |      |
                   |      |   |      |
                   +------+---+------+ */

                nDirection = RIGHT_TO_LEFT;
            }
            else
            {
                /* sx > dx */

                /* +------+---+------+
                   |D     |   |     S|
                   |      |   |      |
                   |      |   |      |
                   |      |   |      |
                   +------+---+------+ */

                nDirection = LEFT_TO_RIGHT;
            }
        }
    }

    if ((nDirection == BOTTOM_TO_TOP) || (nDirection == RIGHT_TO_LEFT))
    {
        sx += width - 1;
        sy += height - 1;
        dx += width - 1;
        dy += height - 1;
        opSign = (-1);
    }

    /* Note:
       DE_FOREGROUND are DE_BACKGROUND are don't care.
       DE_COLOR_COMPARE and DE_COLOR_COMPARE_MAKS are set by set deSetTransparency().
    */

    /* 2D Source Base.
       It is an address offset (128 bit aligned) from the beginning of frame buffer.
    */
    write_dpr(accel,DE_WINDOW_SOURCE_BASE, sBase);//dpr40

    /* 2D Destination Base.
       It is an address offset (128 bit aligned) from the beginning of frame buffer.
    */
    write_dpr(accel,DE_WINDOW_DESTINATION_BASE, dBase);//dpr44

#if 0
    /* Program pitch (distance between the 1st points of two adjacent lines).
       Note that input pitch is BYTE value, but the 2D Pitch register uses
       pixel values. Need Byte to pixel convertion.
    */
	if(Bpp == 3){
			sx *= 3;
			dx *= 3;
			width *= 3;
		write_dpr(accel,DE_PITCH,
				FIELD_VALUE(0, DE_PITCH, DESTINATION, dPitch) |
				FIELD_VALUE(0, DE_PITCH, SOURCE,      sPitch));//dpr10
	}
	else
#endif
	{
		write_dpr(accel,DE_PITCH,
				FIELD_VALUE(0, DE_PITCH, DESTINATION, (dPitch/Bpp)) |
				FIELD_VALUE(0, DE_PITCH, SOURCE,      (sPitch/Bpp)));//dpr10
	}

    /* Screen Window width in Pixels.
       2D engine uses this value to calculate the linear address in frame buffer for a given point.
    */
    write_dpr(accel,DE_WINDOW_WIDTH,
        FIELD_VALUE(0, DE_WINDOW_WIDTH, DESTINATION, (dPitch/Bpp)) |
        FIELD_VALUE(0, DE_WINDOW_WIDTH, SOURCE,      (sPitch/Bpp)));//dpr3c

	if (accel->de_wait() != 0){
		return -1;
	}

    {

        write_dpr(accel,DE_SOURCE,
            FIELD_SET  (0, DE_SOURCE, WRAP, DISABLE) |
            FIELD_VALUE(0, DE_SOURCE, X_K1, sx)   |
            FIELD_VALUE(0, DE_SOURCE, Y_K2, sy));//dpr0
        write_dpr(accel,DE_DESTINATION,
            FIELD_SET  (0, DE_DESTINATION, WRAP, DISABLE) |
            FIELD_VALUE(0, DE_DESTINATION, X,    dx)  |
            FIELD_VALUE(0, DE_DESTINATION, Y,    dy));//dpr04
        write_dpr(accel,DE_DIMENSION,
            FIELD_VALUE(0, DE_DIMENSION, X,    width) |
            FIELD_VALUE(0, DE_DIMENSION, Y_ET, height));//dpr08

        de_ctrl =
            FIELD_VALUE(0, DE_CONTROL, ROP, rop2) |
            FIELD_SET(0, DE_CONTROL, ROP_SELECT, ROP2) |
            FIELD_SET(0, DE_CONTROL, COMMAND, BITBLT) |
            ((nDirection == RIGHT_TO_LEFT) ?
            FIELD_SET(0, DE_CONTROL, DIRECTION, RIGHT_TO_LEFT)
            : FIELD_SET(0, DE_CONTROL, DIRECTION, LEFT_TO_RIGHT)) |
            FIELD_SET(0, DE_CONTROL, STATUS, START);
		write_dpr(accel,DE_CONTROL,de_ctrl);//dpr0c
    }

    return 0;
}

static unsigned int deGetTransparency(struct lynx_accel * accel)
{
    unsigned int de_ctrl;

    de_ctrl = read_dpr(accel,DE_CONTROL);

    de_ctrl &=
        FIELD_MASK(DE_CONTROL_TRANSPARENCY_MATCH) |
        FIELD_MASK(DE_CONTROL_TRANSPARENCY_SELECT)|
        FIELD_MASK(DE_CONTROL_TRANSPARENCY);

    return de_ctrl;
}

int hw_imageblit(struct lynx_accel *accel,
		 const char *pSrcbuf, /* pointer to start of source buffer in system memory */
		 u32 srcDelta,          /* Pitch value (in bytes) of the source buffer, +ive means top down and -ive mean button up */
		 u32 startBit, /* Mono data can start at any bit in a byte, this value should be 0 to 7 */
		 u32 dBase,    /* Address of destination: offset in frame buffer */
		 u32 dPitch,   /* Pitch value of destination surface in BYTE */
		 u32 bytePerPixel,      /* Color depth of destination surface */
		 u32 dx,
		 u32 dy,       /* Starting coordinate of destination surface */
		 u32 width,
		 u32 height,   /* width and height of rectange in pixel value */
		 u32 fColor,   /* Foreground color (corresponding to a 1 in the monochrome data */
		 u32 bColor,   /* Background color (corresponding to a 0 in the monochrome data */
		 u32 rop2)     /* ROP value */
{
    unsigned int ulBytesPerScan;
    unsigned int ul4BytesPerScan;
    unsigned int ulBytesRemain;
    unsigned int de_ctrl = 0;
    unsigned char ajRemain[4];
    int i, j;

    startBit &= 7; /* Just make sure the start bit is within legal range */
    ulBytesPerScan = (width + startBit + 7) / 8;
    ul4BytesPerScan = ulBytesPerScan & ~3;
    ulBytesRemain = ulBytesPerScan & 3;

	if(accel->de_wait() != 0)
    {
//		inf_msg("*** ImageBlit return -1 ***\n");
        return -1;
    }

    /* 2D Source Base.
       Use 0 for HOST Blt.
    */
    write_dpr(accel,DE_WINDOW_SOURCE_BASE, 0);

    /* 2D Destination Base.
       It is an address offset (128 bit aligned) from the beginning of frame buffer.
    */
    write_dpr(accel,DE_WINDOW_DESTINATION_BASE, dBase);
#if 0
    /* Program pitch (distance between the 1st points of two adjacent lines).
       Note that input pitch is BYTE value, but the 2D Pitch register uses
       pixel values. Need Byte to pixel convertion.
    */
	if(bytePerPixel == 3 ){
		dx *= 3;
		width *= 3;
		startBit *= 3;
		write_dpr(accel,DE_PITCH,
				FIELD_VALUE(0, DE_PITCH, DESTINATION, dPitch) |
				FIELD_VALUE(0, DE_PITCH, SOURCE,      dPitch));//dpr10

	}
	else
#endif
	{
		write_dpr(accel,DE_PITCH,
				FIELD_VALUE(0, DE_PITCH, DESTINATION, dPitch/bytePerPixel) |
				FIELD_VALUE(0, DE_PITCH, SOURCE,      dPitch/bytePerPixel));//dpr10
	}

    /* Screen Window width in Pixels.
       2D engine uses this value to calculate the linear address in frame buffer for a given point.
    */
    write_dpr(accel,DE_WINDOW_WIDTH,
        FIELD_VALUE(0, DE_WINDOW_WIDTH, DESTINATION, (dPitch/bytePerPixel)) |
        FIELD_VALUE(0, DE_WINDOW_WIDTH, SOURCE,      (dPitch/bytePerPixel)));

    /* Note: For 2D Source in Host Write, only X_K1_MONO field is needed, and Y_K2 field is not used.
             For mono bitmap, use startBit for X_K1. */
    write_dpr(accel,DE_SOURCE,
        FIELD_SET  (0, DE_SOURCE, WRAP, DISABLE)       |
        FIELD_VALUE(0, DE_SOURCE, X_K1_MONO, startBit));//dpr00

    write_dpr(accel,DE_DESTINATION,
        FIELD_SET  (0, DE_DESTINATION, WRAP, DISABLE) |
        FIELD_VALUE(0, DE_DESTINATION, X,    dx)    |
        FIELD_VALUE(0, DE_DESTINATION, Y,    dy));//dpr04

    write_dpr(accel,DE_DIMENSION,
        FIELD_VALUE(0, DE_DIMENSION, X,    width) |
        FIELD_VALUE(0, DE_DIMENSION, Y_ET, height));//dpr08

    write_dpr(accel,DE_FOREGROUND, fColor);
    write_dpr(accel,DE_BACKGROUND, bColor);

	de_ctrl = FIELD_VALUE(0, DE_CONTROL, ROP, rop2)         |
		FIELD_SET(0, DE_CONTROL, ROP_SELECT, ROP2)    |
		FIELD_SET(0, DE_CONTROL, COMMAND, HOST_WRITE) |
		FIELD_SET(0, DE_CONTROL, HOST, MONO)          |
		FIELD_SET(0, DE_CONTROL, STATUS, START);

	write_dpr(accel,DE_CONTROL, de_ctrl | deGetTransparency(accel));

    /* Write MONO data (line by line) to 2D Engine data port */
    for (i=0; i<height; i++)
    {
        /* For each line, send the data in chunks of 4 bytes */
        for (j=0; j<(ul4BytesPerScan/4); j++)
        {
            write_dpPort(accel, *(unsigned int *)(pSrcbuf + (j * 4)));
        }

        if (ulBytesRemain)
        {
            memcpy(ajRemain, pSrcbuf+ul4BytesPerScan, ulBytesRemain);
            write_dpPort(accel, *(unsigned int *)ajRemain);
        }

        pSrcbuf += srcDelta;
    }

    return 0;
}