path: root/drivers/misc/mediatek/vdec/hal/vdec_hal_slt_rm.c

#include "x_hal_1176.h"
#include "chip_ver.h"
#if (CONFIG_CHIP_VER_CURR == CONFIG_CHIP_VER_MT8550)
#include "x_bim_8550.h"
#elif (CONFIG_CHIP_VER_CURR == CONFIG_CHIP_VER_MT8555)
#include "x_bim_8555.h"
#endif

#include "vdec_hw_common.h"
#include "vdec_hal_if_rm.h"
#include "vdec_hw_rm.h"
#include "vdec_hal_errcode.h"
#include "drv_fs.h"

#include "slt_if.h"



#if CONFIG_DRV_VERIFY_SUPPORT
#include "x_printf.h"
#include "x_debug.h"

#include "vdec_verify_general.h"
#include "vdec_verify_mpv_prov.h"
#include "vdec_verify_vparser_rm.h"
#endif

#if (SLT_TEST_RM_EN)
#define RM_HAL_SUPPORT_SLT
#endif //SLT_TEST_RM_EN

#ifdef RM_HAL_SUPPORT_SLT
//#define RM_SLT_USE_SEMIHOSTING

#define RM_SLT_MVHWBUF_SZ    0x1FE00
#define RM_SLT_VLDPRED_SZ      0xC000
#define RM_SLT_GOLD_Y_SZ  0x400000
#define RM_SLT_GOLD_C_SZ  0x1FE000

char strSLTBaseFolder[] = "F:\\RM_SLT\\TCH_ff8000\\";

BOOL fgDebugLogEnable = FALSE;

VDEC_INFO_RM_PICINFO_T *prPic;
VDEC_INFO_RM_PICINFO_T *prParsingPic;

BYTE _arbSrcFilePath[4][128] =
{
    "/mnt/usb/aulinfo.bin",
    "/mnt/usb/g0000000.yuv",
    "/mnt/usb/g0000001.yuv",
    "/mnt/usb/g0000002.yuv"
};

void vRM_SLT_DumpVldCkSum(void)
{
    printk("RV VLD 33: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 33 * 4));
    printk("RV VLD 34: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 34 * 4));
    printk("RV VLD 35: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 35 * 4));
    printk("RV VLD 36: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 36 * 4));
    printk("RV VLD 37: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 37 * 4));
    printk("RV VLD 43: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 43 * 4));
    printk("RV VLD 44: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 44 * 4));
    printk("RV VLD 48: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 48 * 4));
    printk("RV VLD 59: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 59 * 4));
    printk("RV VLD 60: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 60 * 4));
    printk("RV VLD 67: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 67 * 4));
    printk("RV VLD 63: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 63 * 4));
    printk("RV VLD 64: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 64 * 4));
    printk("RV VLD 65: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 65 * 4));
    printk("RV VLD 196: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 196 * 4));

    printk("RV VLD 53: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 53 * 4));
    printk("RV VLD 62: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 62 * 4));
    printk("RV VLD 196: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 196 * 4));
}

void vRM_SLT_DumpAvcMvCkSum(void)
{
    printk("AVC MV 148: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 148 * 4));
    printk("AVC MV 149: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 149 * 4));
    printk("AVC MV 150: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 150 * 4));
    printk("AVC MV 151: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 151 * 4));
}


void vRM_SLT_DumpMCPerformance(void)
{
    printk("MC 474: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 474 * 4));
    printk("MC 476: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 476 * 4));
    printk("MC 477: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 477 * 4));
    printk("MC 478: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 478 * 4));
    printk("MC 522: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 522 * 4));
}


void vRM_SLT_DumpMcCkSum(void)
{
    printk("MC 378: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 378 * 4));
    printk("MC 379: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 379 * 4));
    printk("MC 380: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 380 * 4));
    printk("MC 381: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 381 * 4));
    printk("MC 382: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 382 * 4));
    printk("MC 388: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 388 * 4));
    printk("MC 390: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 390 * 4));
    printk("MC 391: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 391 * 4));
    printk("MC 392: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 392 * 4));
    printk("MC 393: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 393 * 4));
    printk("MC 446: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 446 * 4));
    printk("MC 447: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 447 * 4));
}

void vRM_SLT_DumpPpCkSum(void)
{
    int i;

    printk("PP   5: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE +   5 * 4));
    printk("PP   6: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE +   6 * 4));
    printk("PP  67: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE +  67 * 4));

    for (i = 69; i <= 76; i++)
    {
        printk("PP %3d: 0x%08X\n", i, u4ReadReg(RM_VDEC_PP_BASE + i * 4));
    }

    for (i = 161; i <= 178; i++)
    {
        printk("PP %3d: 0x%08X\n", i, u4ReadReg(RM_VDEC_PP_BASE + i * 4));
    }

    printk("PP  67: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE +  67 * 4));
    printk("PP 199: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE + 199 * 4));
    printk("PP 200: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE + 200 * 4));
    printk("PP 201: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE + 201 * 4));
    printk("PP 227: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE + 227 * 4));
}

void vRM_SLT_DumpReg(VDEC_INFO_RM_PICINFO_T *prParsingPic)
{
    printk("AVC_MV 131: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 131 * 4));
    printk("AVC_MV 134: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 134 * 4));
    printk("AVC_MV 135: 0x%08X\n", u4ReadReg(AVC_MV_REG_OFFSET0 + 135 * 4));

    printk("MC 136: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 136 * 4));
    printk("MC 137: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 137 * 4));
    printk("MC 138: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 138 * 4));
    printk("MC 139: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 139 * 4));
    printk("MC 142: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 142 * 4));
    printk("MC 148: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 148 * 4));
    printk("MC 152: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 152 * 4));
    printk("MC 153: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 153 * 4));
    printk("PP 2: 0x%08X\n", u4ReadReg(RM_VDEC_PP_BASE + 2 * 4));

    printk("MC 420: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 420 * 4));
    printk("MC 130: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 130 * 4));
    printk("MC 131: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 131 * 4));
    printk("VLD 36: 0x%08X\n", u4ReadReg(VLD_REG_OFFSET0 + 36 * 4));
    printk("VLD 50: 0x%08X\n", u4ReadReg(VLD_REG_OFFSET0 + 50 * 4));
    printk("MC 0: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 0 * 4));
    printk("MC 1: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 1 * 4));
    printk("MC 2: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 2 * 4));
    printk("MC 3: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 3 * 4));
    printk("MC 39: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 39 * 4));
    printk("MC 40: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 40 * 4));
    printk("MC 9: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 9 * 4));
    printk("MC 28: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 28 * 4));
    printk("MC 36: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 36 * 4));
    printk("MC 6: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 6 * 4));
    printk("MC 38: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 38 * 4));
    printk("MC 114: 0x%08X\n", u4ReadReg(MC_REG_OFFSET0 + 114 * 4));

    printk("RV VLD 39: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 39 * 4));
    printk("RV VLD 66: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 66 * 4));
    printk("RV VLD 33: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 33 * 4));
    printk("RV VLD 34: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 34 * 4));
    printk("RV VLD 35: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 35 * 4));
    printk("RV VLD 36: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 36 * 4));
    printk("RV VLD 37: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 37 * 4));

    printk("RV VLD 42: 0x%08X\n", u4ReadReg(RM_VLD_REG_OFFSET0 + 42 * 4));
    printk("RV VLD window: 0x%08X\n", prParsingPic->u4InitInputWindow);
}


void vRM_SLT_CheckGlobalChecksum(UINT32 u4InstID)
{
    UINT32 i;
    UINT32 au4ChecksumData[10];

    //  RM_VLD
    au4ChecksumData[0] = u4VDecReadRMVLD(u4InstID, 59 * 4);   //  59  bitstream check_sum
    au4ChecksumData[1] = u4VDecReadRMVLD(u4InstID, 60 * 4);   //  60  residual check_sum

    //MC
    au4ChecksumData[2] = u4VDecReadMC(u4InstID, 378 * 4);  // 378 idct_in_y0_y1_checksum_reg
    au4ChecksumData[3] = u4VDecReadMC(u4InstID, 379 * 4);  // 379 idct_in_y2_y3_checksum_reg
    au4ChecksumData[4] = u4VDecReadMC(u4InstID, 380 * 4);  // 380 idct_in_cb_cr_checksum_reg
    au4ChecksumData[5] = u4VDecReadMC(u4InstID, 381 * 4);  // 381 mc_out_y_checksum_reg
    au4ChecksumData[6] = u4VDecReadMC(u4InstID, 382 * 4);  // 382 mc_out_c_checksum_reg
    au4ChecksumData[7] = u4VDecReadMC(u4InstID, 390 * 4);  // 390 dram_rbus_checksum_reg

    //PP
    au4ChecksumData[8] = u4VDecReadRMPP(u4InstID, 5 * 4);  // 5   pp_y_chk_sum_reg
    au4ChecksumData[9] = u4VDecReadRMPP(u4InstID, 6 * 4);  // 6   pp_c_chk_sum_reg

    for (i = 0; i < 10; i++)
    {
        printk("%x, Checksum %x \n", i, au4ChecksumData[i]);
    }

}


BOOL fgRM_SLT_IsRMVDecComplete(UINT32 u4InstID)
{
    UINT32 u4MbX;
    UINT32 u4MbY;
    UINT32 u4RealMbX;
    UINT32 u4RealMbY;

    vVDEC_HAL_RM_GetMbxMby(u4InstID, &u4MbX, &u4MbY);

    //check MbX, MbY
    u4RealMbX = (prParsingPic->u4Width / 16);
    u4RealMbY = (prParsingPic->u4Height / 16);

    if ((u4MbX == (u4RealMbX - 1)) &&
        (u4MbY == (u4RealMbY - 1)))
    {
        return TRUE;
    }

    return FALSE;
}


UINT32 u4RM_SLT_GetField(UINT32 u4Val, int b0, int b1)
{
    int i;
    UINT32 u4Mask = 0;

    for (i = b0; i <= b1; i++)
    {
        u4Mask |= (1 << i);
    }

    u4Val &= u4Mask;
    u4Val >>= b0;

    return u4Val;
}


UINT32 u4RM_SLT_mb_to_line_y(UINT32 buf, int width, int x, int y)
{
    UINT32 val = 0;
    int mb_x;
    int mb_y;
    int offset_x;
    int offset_y;
    int offset;

    mb_x = x >> 4;
    mb_y = y >> 4;

    offset_x = x % 16;
    offset_y = y % 32;

    offset = offset_x +
             (offset_y << 4) +
             (mb_x << 9) +
             (((mb_y >> 1) * width) << 5);

    val = *(UINT32 *)(buf + offset);

    return val;
}

void vRM_SLT_mb_to_line_c(UINT32 *pu4Val1, UINT32 *pu4Val2, UINT32 buf, int width, int x, int y)
{
    int mb_x;
    int mb_y;
    int offset_x;
    int offset_y;
    int offset;

    mb_x = x >> 3;
    mb_y = y >> 3;

    offset_x = x % 8;
    offset_y = y % 16;

    offset = (offset_x << 1) +
             (offset_y << 4) +
             (mb_x << 8) +
             (((mb_y >> 1) * width) << 4);

    *pu4Val1 = *(UINT32 *)(buf + offset);
    *pu4Val2 = *(UINT32 *)(buf + offset + 4);
}


UINT32 u4RM_SLT_InverseAddrSwap(UINT32 u4AddrSwapMode, UINT32 u4SwappedAddr, BOOL fgIsYComponent)
{
    unsigned int u4NonSwappedAddr, u4TempAddr;
    switch (u4AddrSwapMode)
    {
        case 0x1: //MT8520_SWAP_MODE_1
            u4NonSwappedAddr = ((u4SwappedAddr & 0xFFFFFFC0) | ((u4SwappedAddr & 0x20) >> 5) | ((u4SwappedAddr & 0x10) >> 2) | ((u4SwappedAddr & 0x8) >> 2) | ((u4SwappedAddr & 0x7) << 3));
            break;
        case 0x2: //MT8520_SWAP_MODE_2
            u4NonSwappedAddr = ((u4SwappedAddr & 0xFFFFFFE0) | ((u4SwappedAddr & 0x10) >> 4) | ((u4SwappedAddr & 0xF) << 1));
            break;
        case 0x4: // MT5351_SWAP_MODE_0
            if (fgIsYComponent)
            {
                u4TempAddr = ((u4SwappedAddr & 0xFFFFFF80) | ((u4SwappedAddr & 0x40) >> 4) | ((u4SwappedAddr & 0x3C) << 1) | (u4SwappedAddr & 0x3));
                u4NonSwappedAddr = ((u4TempAddr & 0xFFFFFF80) | ((u4TempAddr & 0x7C) >> 2) | ((u4TempAddr & 0x3) << 5));
            }
            else
            {
                u4TempAddr = ((u4SwappedAddr & 0xFFFFFFC0) | ((u4SwappedAddr & 0x20) >> 3) | ((u4SwappedAddr & 0x1C) << 1) | (u4SwappedAddr & 0x3));
                u4NonSwappedAddr = ((u4TempAddr & 0xFFFFFFC0) | ((u4TempAddr & 0x3C) >> 2) | ((u4TempAddr & 0x3) << 4));
            }
            break;
        case 0x5: // MT5351_SWAP_MODE_1
            if (fgIsYComponent)
            {
                u4TempAddr = ((u4SwappedAddr & 0xFFFFFF00) | ((~u4SwappedAddr) & 0x80) | (u4SwappedAddr & 0x7F));
                u4NonSwappedAddr = ((u4TempAddr & 0xFFFFFF80) | ((u4TempAddr & 0x7C) >> 2) | ((u4TempAddr & 0x3) << 5));
            }
            else
            {
                u4TempAddr = ((u4SwappedAddr & 0xFFFFFF80) | ((~u4SwappedAddr) & 0x40) | (u4SwappedAddr & 0x3F));
                u4NonSwappedAddr = ((u4TempAddr & 0xFFFFFFC0) | ((u4TempAddr & 0x3C) >> 2) | ((u4TempAddr & 0x3) << 4));
            }
            break;
        case 0x6: // MT5351_SWAP_MODE_2
            if (fgIsYComponent)
            {
                u4NonSwappedAddr = ((u4SwappedAddr & 0xFFFFFF80) | ((u4SwappedAddr & 0x7C) >> 2) | ((u4SwappedAddr & 0x3) << 5));
            }
            else
            {
                u4NonSwappedAddr = ((u4SwappedAddr & 0xFFFFFFC0) | ((u4SwappedAddr & 0x3C) >> 2) | ((u4SwappedAddr & 0x3) << 4));
            }
            break;
        default:
            u4NonSwappedAddr = u4SwappedAddr;
            break;
    }
    return u4NonSwappedAddr;
}


void vRM_SLT_InvAddressSwap(UINT32 u4InstID,
                            UINT32 u4SrcType,
                            VDEC_INFO_RM_PICINFO_T *prParsingPic,
                            UINT32 u4InvsAddrBufY,
                            UINT32 u4InvsAddrBufC)
{
    UINT32 i;
    UINT32 u4DataLength;
    UINT32 u4AlignW_Luma;
    UINT32 u4AlignH_Luma;
    UINT32 u4AlignH_Chroma;
    UINT32 u4AlignSize = 0;
    UINT32 u4NonSwappedAddr;
    UINT32 u4AddrSwapMode;
    UINT32 u4SwappedAddr;
    BYTE *pbSrcBufY;
    BYTE *pbSrcBufC;
    BYTE *pbOutBufY;
    BYTE *pbOutBufC;
    BYTE *pbTempBufAddr;
    UINT32 u4AddrressSwapSize = 16;

    u4AlignSize = 0x38000;

    u4AlignW_Luma = prParsingPic->u4Width;
    u4AlignH_Luma = prParsingPic->u4Height;

    //u4AlignW_Chroma = u4AlignW_Luma / 2;
    u4AlignH_Chroma = u4AlignH_Luma / 2;

    if (u4SrcType == 0)
    {
        pbSrcBufY = (BYTE *) prParsingPic->u4OutBufY;
        pbSrcBufC = (BYTE *) prParsingPic->u4OutBufC;
    }
    else if (u4SrcType == 2)
    {
        pbSrcBufY = (BYTE *) prParsingPic->u4MCOutBufY;
        pbSrcBufC = (BYTE *) prParsingPic->u4MCOutBufC;
    }
    else
    {
        pbSrcBufY = 0;
        pbSrcBufC = 0;

        ASSERT(0);
        return;
        //N/A
    }
    pbOutBufY = (BYTE *) u4InvsAddrBufY;
    pbOutBufC = (BYTE *) u4InvsAddrBufC;

    u4AddrSwapMode = 6;

    //Luma
    u4DataLength = u4AlignW_Luma * u4AlignH_Luma;
    u4DataLength = (u4DataLength + u4AlignSize) / u4AlignSize;
    u4DataLength = (u4DataLength + 1) * u4AlignSize + u4AlignSize;
    u4SwappedAddr = 0;

    for (i = 0; i < u4DataLength; i += u4AddrressSwapSize)
    {
        u4NonSwappedAddr = u4RM_SLT_InverseAddrSwap(u4AddrSwapMode, u4SwappedAddr, TRUE);
        pbTempBufAddr = (BYTE *)(pbSrcBufY + i);
        x_memcpy(&pbOutBufY[u4NonSwappedAddr << 4], &pbTempBufAddr[0], u4AddrressSwapSize);
        u4SwappedAddr++;
    }

    //Chroma
    u4DataLength = u4AlignW_Luma * u4AlignH_Chroma;
    u4DataLength = (u4DataLength + u4AlignSize) / u4AlignSize;
    u4DataLength = u4DataLength * u4AlignSize + u4AlignSize;
    u4SwappedAddr = 0;

    for (i = 0; i < u4DataLength; i += u4AddrressSwapSize)
    {
        u4NonSwappedAddr = u4RM_SLT_InverseAddrSwap(u4AddrSwapMode, u4SwappedAddr, FALSE);
        pbTempBufAddr = (BYTE *)(pbSrcBufC + i);
        x_memcpy(&pbOutBufC[u4NonSwappedAddr << 4], &pbTempBufAddr[0], u4AddrressSwapSize);
        u4SwappedAddr++;
    }
}



BOOL fgRM_SLT_CheckYCGolden(UINT32 u4InstID,
                            VDEC_INFO_RM_PICINFO_T *prParsingPic,
                            UINT32 u4InvsAddrBufY,
                            UINT32 u4InvsAddrBufC,
                            UINT32 u4YCGoldenBuf)
{
    UINT32 u4DecWidth;    //Align Width
    UINT32 u4DecWidthAlign;    //Align Width
    UINT32 u4DecHeight;    //Align Height
    UINT32 u4Width;    //Org Width
    UINT32 u4Height;    //Org Height

    UINT32 y;
    UINT32 x;

    UINT32 u4ErrVal;
    UINT32 u4GolVal;
    UINT32 u4ErrCntY;
    UINT32 u4ErrCntC;

    BOOL fgYOK;
    BOOL fgUOK;
    BOOL fgVOK;

    UINT32 u4OutBufY;
    UINT32 u4OutBufC;
    UINT32 u4GoldenBuf;

    UINT32 u4UVal;
    UINT32 u4VVal;
    UINT32 u4ErrVal2;
    UINT32 u4GoldYSz;
    UINT32 u4GoldYUSz;
    UINT32 u4GolVal2;

    UINT32 u4WMBSize;

    HalFlushInvalidateDCache();

    HalFlushInvalidateDCache();

    HalFlushInvalidateDCache();

    vRM_SLT_InvAddressSwap(u4InstID, 0, prParsingPic, u4InvsAddrBufY, u4InvsAddrBufC);

    HalFlushInvalidateDCache();

    u4OutBufY = (UINT32) u4InvsAddrBufY;
    u4OutBufC = (UINT32) u4InvsAddrBufC;


    u4GoldenBuf = u4YCGoldenBuf;

    u4DecWidth = prParsingPic->u4Width;
    u4DecWidthAlign = prParsingPic->u4Width;
    u4DecHeight = prParsingPic->u4Height;
    u4Width = prParsingPic->u4OrgWidth;
    u4Height = prParsingPic->u4OrgHeight;

    u4WMBSize = prParsingPic->u4Width / 16;
    if (u4WMBSize % 4)
    {
        u4WMBSize = u4WMBSize + (4 - (u4WMBSize % 4));
    }

    u4DecWidthAlign = u4WMBSize * 16;

    u4GoldYSz = u4DecWidth * u4DecHeight;
    u4GoldYUSz = u4GoldYSz + u4GoldYSz / 4;

    //Compare Y Golden
    fgYOK = TRUE;
    for (y = 0; y < u4Height; y++)
    {
        for (x = 0; x < u4Width; x += 4)
        {
            u4ErrVal = u4RM_SLT_mb_to_line_y(u4OutBufY, u4DecWidthAlign, x, y);
            u4GolVal = *(UINT32 *)(u4GoldenBuf + y * u4DecWidth + x);

            if (u4ErrVal != u4GolVal)
            {
                u4ErrCntY++;
                fgYOK = FALSE;

                //while (1);
                //{
                u4ErrCntY += 2;
                printk("Check Golden Y Fail /n");
                //  x_thread_delay(5);
                //}
            }
        }
    }

    //Compare C Data
    fgUOK = TRUE;
    fgVOK = TRUE;
    for (y = 0; y < u4Height / 2; y++)
    {
        for (x = 0; x < u4Width / 2; x += 4)
        {
            u4UVal = *(UINT32 *)(u4GoldenBuf + u4GoldYSz  + y * u4DecWidth / 2 + x);
            u4VVal = *(UINT32 *)(u4GoldenBuf + u4GoldYUSz + y * u4DecWidth / 2 + x);

            vRM_SLT_mb_to_line_c(&u4ErrVal, &u4ErrVal2, u4OutBufC, u4DecWidthAlign, x, y);
            u4GolVal = ((u4VVal << 16) & 0xFF000000) | ((u4UVal << 8) & 0x00FF0000) |
                       ((u4VVal <<  8) & 0x0000FF00) | ((u4UVal) & 0x000000FF);

            if (u4ErrVal != u4GolVal)
            {
                u4ErrCntC++;
                fgUOK = fgVOK = FALSE;

                //while (1);
                //{
                printk("Check Golden U/V Fail /n");
                //  x_thread_delay(1);
                u4ErrCntY += 3;
                //}
            }

            u4GolVal2 = ((u4VVal) & 0xFF000000)      | ((u4UVal >>  8) & 0x00FF0000) |
                        ((u4VVal >> 8) & 0x0000FF00) | ((u4UVal >> 16) & 0x000000FF);

            if (u4ErrVal2 != u4GolVal2)
            {
                u4ErrCntC++;
                fgUOK = fgVOK = FALSE;

                //while (1);
                //{
                printk("Check Golden U/V Fail /n");
                //x_thread_delay(3);
                u4ErrCntY += 1;
                //}
            }
        }
    }

    if (fgYOK && fgUOK && fgVOK)
    {
        return TRUE;
    }
    else
    {
        return FALSE;
    }
}


UINT32 u4RM_SLT_GetRvPic(UINT32 u4InstID, UINT32 *pu4InfobufAddr, VDEC_INFO_RM_PICINFO_T *prPic)
{
    UINT32 u4Parm;
    int i;

    u4Parm = *(UINT32 *)(pu4InfobufAddr);
    pu4InfobufAddr += 1;

    if (u4Parm == 0xFFFFFFFF)  // hit file end
    {
        return FALSE;
    }

    prPic->ePtype = (EnumRMPicCodType)u4RM_SLT_GetField(u4Parm, 0, 1);
    prPic->u4OrgWidth = u4RM_SLT_GetField(u4Parm, 2, 12);
    prPic->u4OrgHeight = u4RM_SLT_GetField(u4Parm, 13, 23);
    prPic->u4Width = (prPic->u4OrgWidth + 15) / 16 * 16;
    prPic->u4Height = (prPic->u4OrgHeight + 15) / 16 * 16;
    prPic->u4PctszSize = u4RM_SLT_GetField(u4Parm, 24, 25);
    prPic->u4Pctsz = u4RM_SLT_GetField(u4Parm, 26, 28);
    prPic->u4Oquant = u4RM_SLT_GetField(u4Parm, 29, 30);
    prPic->u4DFP = u4RM_SLT_GetField(u4Parm, 31, 31);

    u4Parm = *(UINT32 *)(pu4InfobufAddr);
    pu4InfobufAddr += 1;

    prPic->u4Tr = u4RM_SLT_GetField(u4Parm, 0, 12);
    prPic->u4Mba = u4RM_SLT_GetField(u4Parm, 13, 26);
    prPic->u4Rtype = u4RM_SLT_GetField(u4Parm, 27, 27);
    prPic->fgRV9 = u4RM_SLT_GetField(u4Parm, 28, 28);

    u4Parm = *(UINT32 *)(pu4InfobufAddr);
    pu4InfobufAddr += 1;

    prPic->u4NumSlice = u4RM_SLT_GetField(u4Parm, 0, 7);
    prPic->u4Pquant = u4RM_SLT_GetField(u4Parm, 8, 12);
    prPic->u4MbaSize = u4RM_SLT_GetField(u4Parm, 13, 16);
    prPic->u4HdrSkip = u4RM_SLT_GetField(u4Parm, 17, 24);

    u4Parm = *(UINT32 *)(pu4InfobufAddr);
    pu4InfobufAddr += 1;

    prPic->u4Iratio = u4Parm;

    prPic->u4BstLength = 0;

    for (i = 0; i < prPic->u4NumSlice; i++)
    {
        u4Parm = *(UINT32 *)(pu4InfobufAddr);
        pu4InfobufAddr += 1;

        prPic->au4SliceSize[i] = u4Parm;
        prPic->u4BstLength += u4Parm;
    }

    return (UINT32) pu4InfobufAddr;
}


void vRM_SLT_GetPicSize(UINT32 u4BSID, UINT32 u4VDecID, UINT32 *pu4PicWidth, UINT32 *pu4PicHeight)
{
    DWRD dwCode;
    DWRD dwWidth, dwHieght;

    const DWRD code_width[8] = {160, 176, 240, 320, 352, 640, 704, 0};
    const DWRD code_height1[8] = {120, 132, 144, 240, 288, 480, 0, 0};
    const DWRD code_height2[4] = {180, 360, 576, 0};

    /* width */
    dwCode = u4VDEC_HAL_RM_ShiftGetBitStream(u4BSID, u4VDecID, 3);
    dwWidth = code_width[dwCode];
    if (dwWidth == 0)
    {
        do
        {
            dwCode = u4VDEC_HAL_RM_ShiftGetBitStream(u4BSID, u4VDecID, 8);
            dwWidth += (dwCode << 2);
        }
        while (dwCode == 255);
    }
    /* height */
    dwCode = u4VDEC_HAL_RM_ShiftGetBitStream(u4BSID, u4VDecID, 3);
    dwHieght = code_height1[dwCode];
    if (dwHieght == 0)
    {
        dwCode <<= 1;
        dwCode |= u4VDEC_HAL_RM_ShiftGetBitStream(u4BSID, u4VDecID, 1);
        dwCode &= 3;
        dwHieght = code_height2[dwCode];
        if (dwHieght == 0)
        {
            do
            {
                dwCode = u4VDEC_HAL_RM_ShiftGetBitStream(u4BSID, u4VDecID, 8);
                dwHieght += (dwCode << 2);
            }
            while (dwCode == 255);
        }
    }
    *pu4PicWidth = dwWidth;
    *pu4PicHeight = dwHieght;
}


//Add Code for RM SLT
void vDEC_SLT_RM(const char *pFile1Name, const char *pFile2Name, const char *pFile3Name, const char *pFile4Name)
{
    UINT32 i;
    UINT32 u4InstID = 0;

    BOOL fgVdecRMSLTResult = TRUE;

    UINT32 u4VFIFOSize = 0x1400000;

    BYTE *pbRMVFIFOBuf = 0;
    BYTE *pbRMMvWorkBuf = 0;
    BYTE *pbRMVldWorkBuf = 0;
    BYTE *pbRMYBuf[4];
    BYTE *pbRMCBuf[4];
    BYTE *pbRMYCGoldenBuf[3];
    BYTE *pbRMInvAddrSwapBufY;
    BYTE *pbRMInvAddrSwapBufC;

#ifdef RM_SLT_USE_SEMIHOSTING
    char strEmuFileName[256];
    FILE *fFileHandle;
#else //RM_SLT_USE_SEMIHOSTING
    INT32 i4Fd = 0;
    INT32 i4_ret = 0;
    //UINT32 dwDriveNo   = 0;
    //UINT32 u4DrvFSTag  = 0;
#endif //RM_SLT_USE_SEMIHOSTING
    UINT32 u4SrcFileSize;

    VDEC_INFO_RM_BS_INIT_PRM_T rRMVdecBSInfo;

    UINT32 u4RMVFIFORPtr;
    UINT32 *pu4FIFOPtr;
    UINT32 u4ClipTotalFrameCnt = 3;
    UINT32 u4FrmInfoLength;
    UINT32 u4PayloadLength;
    UINT32 u4ProcessFrameCnt = 0;

    UINT32 u4DecodedPicCnt;
    UINT32 u4RefQpMb0;

    UINT32 u4CntTimeChk = 0;
    UINT32 u4CheckCnt = 40000;

    x_strcpy(_arbSrcFilePath[0], pFile1Name);
    x_strcpy(_arbSrcFilePath[1], pFile2Name);
    x_strcpy(_arbSrcFilePath[2], pFile3Name);
    x_strcpy(_arbSrcFilePath[3], pFile4Name);


    VDec_IsrStop();

    //Memory Alloc for VFIFO, HW Work Buffer, Y/C Buffer
    pbRMVFIFOBuf = x_alloc_aligned_dma_mem(u4VFIFOSize, 4096);    //VFIFO = 1 MB
    pbRMMvWorkBuf = x_alloc_aligned_dma_mem(RM_SLT_MVHWBUF_SZ, 4096);
    pbRMVldWorkBuf = x_alloc_aligned_dma_mem(RM_SLT_VLDPRED_SZ, 4096);
    pbRMYCGoldenBuf[0] = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ + RM_SLT_GOLD_C_SZ, 2048);
    pbRMYCGoldenBuf[1] = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ + RM_SLT_GOLD_C_SZ, 2048);
    pbRMYCGoldenBuf[2] = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ + RM_SLT_GOLD_C_SZ, 2048);
    pbRMInvAddrSwapBufY = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ, 2048);
    pbRMInvAddrSwapBufC = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ, 2048);

    prPic = x_alloc_aligned_dma_mem(sizeof(VDEC_INFO_RM_PICINFO_T), 8);
    prParsingPic = x_alloc_aligned_dma_mem(sizeof(VDEC_INFO_RM_PICINFO_T), 8);

    //i4VDEC_HAL_Common_Init(0);

    x_memset(prPic, 0x0, sizeof(VDEC_INFO_RM_PICINFO_T));
    x_memset(prParsingPic, 0x0, sizeof(VDEC_INFO_RM_PICINFO_T));

    u4RMVFIFORPtr = (UINT32) pbRMVFIFOBuf;

    if ((pbRMVFIFOBuf == 0) ||
        (pbRMMvWorkBuf == 0) ||
        (pbRMVldWorkBuf == 0) ||
        (pbRMYCGoldenBuf[0] == 0) ||
        (pbRMYCGoldenBuf[1] == 0) ||
        (pbRMYCGoldenBuf[2] == 0) ||
        (prPic == 0) ||
        (prParsingPic == 0) ||
        (pbRMInvAddrSwapBufY == 0) ||
        (pbRMInvAddrSwapBufC == 0))
    {
        ASSERT(0);
    }

    for (i = 0; i < 4; i++)
    {
        pbRMYBuf[i] = x_alloc_aligned_dma_mem(RM_SLT_GOLD_Y_SZ, 2048);
        pbRMCBuf[i] = x_alloc_aligned_dma_mem(RM_SLT_GOLD_C_SZ, 2048);



        if ((pbRMYBuf[i] == 0) ||
            (pbRMCBuf[i] == 0))
        {
            ASSERT(0);
        }
    }


    //Load SLT Verification Source
#ifdef RM_SLT_USE_SEMIHOSTING
    //Semihosting Path
    x_sprintf(strEmuFileName, "%s%s%s", strSLTBaseFolder, "aulinfo", ".bin");
    fFileHandle = fopen(strEmuFileName, "rb");

    fseek(fFileHandle, 0, SEEK_END);
    u4SrcFileSize = ftell(fFileHandle);
    fseek(fFileHandle, 0, SEEK_SET);
    fread(pbRMVFIFOBuf, u4SrcFileSize, 1, fFileHandle);
    fclose(fFileHandle);

    for (i = 0; i < 3; i++)
    {
        x_sprintf(strEmuFileName, "%s%s%07d%s", strSLTBaseFolder,
                  "g",
                  i,
                  ".yuv");
        fFileHandle = fopen(strEmuFileName, "rb");

        fseek(fFileHandle, 0, SEEK_END);
        u4SrcFileSize = ftell(fFileHandle);
        fseek(fFileHandle, 0, SEEK_SET);
        fread(pbRMYCGoldenBuf[i], u4SrcFileSize, 1, fFileHandle);
        fclose(fFileHandle);
    }
#else //RM_SLT_USE_SEMIHOSTING
    //USB Path
    //i4_ret = DrvFSMount(dwDriveNo, &u4DrvFSTag);
    //if (i4_ret < 0)
    //{
    //    printk("Fs mount fail %d\n", i4_ret);
    //    ASSERT(0);
    //    return;
    //}

    //aulinfo.bin
    i4_ret = DrvFSOpenFile((char *)(_arbSrcFilePath[0]), DRV_FS_RDONLY, &i4Fd);
    if (i4_ret < 0)
    {
        printk("Fs open file fail %d\n", i4_ret);
        ASSERT(0);
        return;
    }
    i4_ret = DrvFSGetFileSize(i4Fd, (UINT32 *)(&u4SrcFileSize));
    if (i4_ret < 0)
    {
        printk("Fs get file size fail %d\n", i4_ret);
        ASSERT(0);
        return;
    }
    i4_ret = DrvFSReadFile(i4Fd, (void *) pbRMVFIFOBuf, u4SrcFileSize);
    if (i4_ret < 0)
    {
        printk("read file Fail!\n");
        return;
    }
    DrvFSCloseFile(i4Fd);

    for (i = 0; i < 3; i++)
    {
        i4_ret = DrvFSOpenFile((char *)(_arbSrcFilePath[i + 1]), DRV_FS_RDONLY, &i4Fd);
        if (i4_ret < 0)
        {
            printk("Fs open file fail %d\n", i4_ret);
            ASSERT(0);
            return;
        }
        i4_ret = DrvFSGetFileSize(i4Fd, (UINT32 *)(&u4SrcFileSize));
        if (i4_ret < 0)
        {
            printk("Fs get file size fail %d\n", i4_ret);
            ASSERT(0);
            return;
        }
        i4_ret = DrvFSReadFile(i4Fd, (void *) pbRMYCGoldenBuf[i], u4SrcFileSize);
        if (i4_ret < 0)
        {
            printk("read file Fail!\n");
            break;
        }
        DrvFSCloseFile(i4Fd);
    }
    //DrvFSUnMount();
#endif //RM_SLT_USE_SEMIHOSTING



    //Parsing Data
    while (u4ProcessFrameCnt < u4ClipTotalFrameCnt)
    {
        if (u4RMVFIFORPtr == (UINT32) pbRMVFIFOBuf)
        {
            //Get Total Frame Number
            pu4FIFOPtr = (UINT32 *) u4RMVFIFORPtr;
            u4ClipTotalFrameCnt = pu4FIFOPtr[0];

            pu4FIFOPtr = pu4FIFOPtr + 1;
        }
        else
        {
            pu4FIFOPtr = (UINT32 *) u4RMVFIFORPtr;
        }

        //Check RM Sync Code
        if (pu4FIFOPtr[0] != 0x0FF00101)
        {
            printk("RM Error Data in AU FIFO \n");
            while (1)
            {
                x_thread_delay(1);
            }
        }

        pu4FIFOPtr += 1;
        u4FrmInfoLength = pu4FIFOPtr[0];

        pu4FIFOPtr += 1;
        u4PayloadLength = pu4FIFOPtr[0];

        HalFlushInvalidateDCache();

        //VDec HW Init Flow
#if (CONFIG_CHIP_VER_CURR < CONFIG_CHIP_VER_MT8555)
        vVDecResetHW(u4InstID);
#else
        vVDecResetHW(u4InstID, VDEC_UNKNOWN);
#endif

        //Init RM VDec HW
        vRM_Hal_VldSoftReset(u4InstID);

        vRM_Hal_MvInit(u4InstID, (UINT32) pbRMMvWorkBuf);

        vRM_Hal_McInit(u4InstID);

        vRM_Hal_PpInit(u4InstID);

        //Init RM BS HW
        vRM_Hal_VldInit(u4InstID, (UINT32) pbRMVldWorkBuf);

        u4RMVFIFORPtr = ((UINT32) pu4FIFOPtr) + u4FrmInfoLength;
        rRMVdecBSInfo.u4VFifoSa = (UINT32) pbRMVFIFOBuf;
        rRMVdecBSInfo.u4VFifoEa = (UINT32) pbRMVFIFOBuf + u4VFIFOSize;
        rRMVdecBSInfo.u4ReadPointer = u4RMVFIFORPtr;
        rRMVdecBSInfo.u4WritePointer = u4RMVFIFORPtr + u4PayloadLength  + 1024;
        i4RM_HAL_InitBarrelShifter(0, u4InstID, &rRMVdecBSInfo);

        pu4FIFOPtr += 2;    //Sync to frminfo Data Ptr
        u4RMVFIFORPtr = u4RM_SLT_GetRvPic(u4InstID, pu4FIFOPtr, prPic);

        //Update Rptr to Next Header
        u4RMVFIFORPtr = u4RMVFIFORPtr + u4PayloadLength;

        u4DecodedPicCnt = prParsingPic->u4DecodedPicCnt;
        u4RefQpMb0 = prParsingPic->u4RefQpMb0;
        x_memcpy((void *) prParsingPic, (void *) prPic, sizeof(VDEC_INFO_RM_PICINFO_T));
        prParsingPic->u4RefQpMb0 = u4RefQpMb0;
        prParsingPic->u4DecodedPicCnt = u4DecodedPicCnt;

        if (prPic->fgRV9)
        {
            //RV9, RV10 Syntax
            prParsingPic->fgECC = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->ePtype = (EnumRMPicCodType) u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 2);
            prParsingPic->u4PSQuant = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 5);
            prParsingPic->fgBit_Ver = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->fgInterlace = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->u4OsvQuant = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 2);
            prParsingPic->fgDeblockPassThru = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->u4RvTr = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 13);

            prParsingPic->u4Iratio = prPic->u4Iratio;

            if ((prParsingPic->ePtype == RM_INTERPIC) || (prParsingPic->ePtype == RM_TRUEBPIC))
            {
                prParsingPic->fgUserPrevWidth = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);

                if (!(prParsingPic->fgUserPrevWidth))
                {
                    vRM_SLT_GetPicSize(0, u4InstID, &prParsingPic->u4OrgWidth, &prParsingPic->u4OrgHeight);
                }
            }
            else
            {
                vRM_SLT_GetPicSize(0, u4InstID, &prParsingPic->u4OrgWidth, &prParsingPic->u4OrgHeight);
            }

            prParsingPic->u4MbaSize = prPic->u4MbaSize;
            prParsingPic->u4Mba = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, prParsingPic->u4MbaSize);
        }
        else
        {
            //RV8 Syntax
            prParsingPic->u4RvBistreamVersion = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 3);
            prParsingPic->ePtype = (EnumRMPicCodType) u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 2);
            prParsingPic->fgECC = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->u4PSQuant = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 5);
            prParsingPic->fgDeblockPassThru = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
            prParsingPic->u4RvTr = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 13);

            prParsingPic->u4PctszSize = prPic->u4PctszSize;
            if (prPic->u4PctszSize > 0)
            {
                prParsingPic->u4PicSz = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, prParsingPic->u4PctszSize);
            }

            prParsingPic->u4MbaSize = prPic->u4MbaSize;
            prParsingPic->u4Mba = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, prParsingPic->u4MbaSize);
            prParsingPic->fgRType = u4VDEC_HAL_RM_ShiftGetBitStream(0, u4InstID, 1);
        }

        if ((prParsingPic->ePtype == RM_INTRAPIC) || (prParsingPic->ePtype == RM_FORCED_INTRAPIC))
        {
            prParsingPic->fgBwdIsI = TRUE;
        }
        else if (prParsingPic->ePtype == RM_INTERPIC)
        {
            prParsingPic->fgBwdIsI = FALSE;
        }


        //Update Y/C Decode Output Buffer
        if (prParsingPic->ePtype == RM_INTRAPIC || prParsingPic->ePtype == RM_FORCED_INTRAPIC)
        {
            if (prParsingPic->u4FwdBufY == 0)  // the first I pic
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4BwdBufY = 0;
                prParsingPic->u4BwdBufC = 0;
            }
            else if (prParsingPic->u4BwdBufY == (UINT32) pbRMYBuf[1])
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[2];
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4BwdBufC = (UINT32) pbRMCBuf[2];
            }
            else if (prParsingPic->u4BwdBufY == (UINT32) pbRMYBuf[2])
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[2];
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4BwdBufC = (UINT32) pbRMCBuf[1];
            }
            else if (prParsingPic->u4BwdBufY == 0)  // should happen only when 2 consecutive I pictures at the beginning
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[2];
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4BwdBufC = (UINT32)  pbRMCBuf[2];
            }
            else
            {
                ASSERT(0);
            }

            // initialize the previous picture sizes
            prParsingPic->u4PrevDispWidth = prParsingPic->u4OrgWidth;
            prParsingPic->u4PrevDispHeight = prParsingPic->u4OrgHeight;
            prParsingPic->u4PrevDecWidth = prParsingPic->u4Width;
            prParsingPic->u4PrevDecHeight = prParsingPic->u4Height;
        }
        else if (prParsingPic->ePtype == RM_INTERPIC)
        {
            if (prParsingPic->u4BwdBufY == 0)  // the first P pic
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[2];
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[1];
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[1];
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[2];
                prParsingPic->u4BwdBufC = (UINT32) pbRMCBuf[2];
            }
            else if (prParsingPic->u4BwdBufY == (UINT32) pbRMYBuf[1])
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[2]; //PPY_OUT_BUF2;
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[2]; //PPC_OUT_BUF2;
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[1]; //PPY_OUT_BUF1;
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[1]; //PPC_OUT_BUF1;
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[2]; //PPY_OUT_BUF2;
                prParsingPic->u4BwdBufC = (UINT32) pbRMCBuf[2]; //PPC_OUT_BUF2;
            }
            else if (prParsingPic->u4BwdBufY == (UINT32) pbRMYBuf[2])
            {
                prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[1]; //PPY_OUT_BUF1;
                prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[1]; //PPC_OUT_BUF1;
                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[2]; //PPY_OUT_BUF2;
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[2]; //PPC_OUT_BUF2;
                prParsingPic->u4BwdBufY = (UINT32) pbRMYBuf[1]; //PPY_OUT_BUF1;
                prParsingPic->u4BwdBufC = (UINT32) pbRMCBuf[1]; //PPC_OUT_BUF1;
            }
            else
            {
                ASSERT(0);
            }

            if (prParsingPic->u4OrgWidth != prParsingPic->u4PrevDispWidth || prParsingPic->u4OrgHeight != prParsingPic->u4PrevDispHeight)  // RPR
            {
                printk("Normal RPR, About to trigger image resizer...\n");
#if 0
                vRprImgResz(
                    u4InstID,
                    prParsingPic->u4PrevDecWidth, prParsingPic->u4PrevDecHeight,
                    prParsingPic->u4PrevDispWidth, prParsingPic->u4PrevDispHeight,
                    prParsingPic->u4Width, prParsingPic->u4Height,
                    prParsingPic->u4OrgWidth, prParsingPic->u4OrgHeight
                );
#endif //0
                printk("Normal RPR, Image has been resized!\n");

                prParsingPic->u4FwdBufY = (UINT32) pbRMYBuf[3]; //PPY_OUT_BUFR;
                prParsingPic->u4FwdBufC = (UINT32) pbRMCBuf[3]; //PPC_OUT_BUFR;
            }

            prParsingPic->u4PrevDispWidth = prParsingPic->u4OrgWidth;
            prParsingPic->u4PrevDispHeight = prParsingPic->u4OrgHeight;
            prParsingPic->u4PrevDecWidth = prParsingPic->u4Width;
            prParsingPic->u4PrevDecHeight = prParsingPic->u4Height;
        }
        else if (prParsingPic->ePtype == RM_TRUEBPIC)
        {
            prParsingPic->u4OutBufY = (UINT32) pbRMYBuf[0]; //PPY_OUT_BUF3;
            prParsingPic->u4OutBufC = (UINT32) pbRMCBuf[0]; //PPC_OUT_BUF3;
        }
        else
        {
            ASSERT(0);
        }

        if ((prParsingPic->u4OutBufY == 0) || (prParsingPic->u4OutBufC == 0))
        {
            ASSERT(0);
        }

        x_memcpy((void *) prPic, (void *) prParsingPic, sizeof(VDEC_INFO_RM_PICINFO_T));



        //Trigger Decode
        prParsingPic->u4AddrSwapMode = 2;
        prParsingPic->fgEnableCRC = FALSE;
        prParsingPic->fgEnableMCOutput = FALSE;
        prParsingPic->fgEnableDDR3 = TRUE;
        prParsingPic->fgEnableAddrSwap = TRUE;
        prParsingPic->fgEnablePPOut = TRUE;

#if (CONFIG_CHIP_VER_CURR < CONFIG_CHIP_VER_MT8560)
        vVDEC_HAL_RM_TriggerDecode(u4InstID, prParsingPic);
#else
        vVDEC_HAL_RM_TriggerDecode(u4InstID, prParsingPic, NULL);
#endif


        //Verify Result
        //Check Decode End
        u4CntTimeChk = 0;
        while (u4VDEC_HAL_RM_VDec_ReadFinishFlag(u4InstID) == 0)
        {
            //Printf("[VDEC-RM] Check1 %d %d \n", u4CntTimeChk, u4ProcessFrameCnt);
            u4CntTimeChk++;
            u4CheckCnt = 0;
            x_thread_delay(1);
        }

        u4CntTimeChk = 0;
        while (fgRM_SLT_IsRMVDecComplete(u4InstID) == FALSE)
        {
            //Printf("[VDEC-RM] Check2 %d %d \n", u4CntTimeChk, u4ProcessFrameCnt);
            u4CntTimeChk++;
            u4CheckCnt = 0;
            x_thread_delay(1);
        }
#if 0
        u4CntTimeChk = 0;
        while (u4CntTimeChk < u4CheckCnt)
        {
            if (u4VDEC_HAL_RM_VDec_ReadFinishFlag(u4InstID))
            {
                //u4CntTimeChk = 0;
                break;
            }
            u4CntTimeChk++;
        }

        u4CntTimeChk = 0;
        while (u4CntTimeChk < u4CheckCnt)
        {
            if (fgRM_SLT_IsRMVDecComplete(u4InstID))
            {
                //u4CntTimeChk = 0;
                break;
            }

            u4CntTimeChk++;
        }
        //if (u4CntTimeChk >= u4CheckCnt)
        //{
        //  while (1)
        //  {
        //    Printf("Decoding End Error %x \n", u4ProcessFrameCnt);
        //    x_thread_delay(5);
        //  }
        //}
#endif //0    

        BIM_ClearIrq(VECTOR_VDFUL);

        if (fgDebugLogEnable == TRUE)
        {
            vRM_SLT_DumpVldCkSum();
            vRM_SLT_DumpAvcMvCkSum();
            vRM_SLT_DumpMcCkSum();
            vRM_SLT_DumpPpCkSum();
            vRM_SLT_DumpReg(prParsingPic);
            vRM_SLT_CheckGlobalChecksum(u4InstID);
        }

        //Check Golden Data
        fgVdecRMSLTResult = fgRM_SLT_CheckYCGolden(u4InstID, prParsingPic,
                                                   (UINT32) pbRMInvAddrSwapBufY,
                                                   (UINT32) pbRMInvAddrSwapBufC,
                                                   (UINT32) pbRMYCGoldenBuf[u4ProcessFrameCnt]);

        BIM_ClearIrq(VECTOR_VDFUL);

        if (fgVdecRMSLTResult == FALSE)
        {
            printk("[RM SLT] Golden Check Fail \n");
            break;
        }

        if (prParsingPic->ePtype != RM_TRUEBPIC)// && !_fgDecTimeout)
        {
            prParsingPic->u4RefQpMb0 = u4VDecReadRMPP(0, RW_RMPP_PQ);

            if (fgDebugLogEnable == TRUE)
            {
                printk("RefQpMb0 %x \n", prParsingPic->u4RefQpMb0);
            }
        }

        u4ProcessFrameCnt++;
    }

    if (fgVdecRMSLTResult)
    {
        printk("RM SLT Pass \n");
        SLTSendResult(SLT_ITEMS_RM, SLT_STATUS_PASS);
    }
    else
    {
        printk("RM SLT Fail \n");
        SLTSendResult(SLT_ITEMS_RM, SLT_STATUS_FAIL);
    }


    //Free Memory
    if (pbRMVFIFOBuf != 0)
    {
        x_free_aligned_dma_mem(pbRMVFIFOBuf);
    }
    if (pbRMMvWorkBuf != 0)
    {
        x_free_aligned_dma_mem(pbRMMvWorkBuf);
    }
    if (pbRMVldWorkBuf != 0)
    {
        x_free_aligned_dma_mem(pbRMVldWorkBuf);
    }
    if (prPic != 0)
    {
        x_free_aligned_dma_mem(prPic);
    }
    if (prParsingPic != 0)
    {
        x_free_aligned_dma_mem(prParsingPic);
    }
    for (i = 0; i < 3; i++)
    {
        if (pbRMYCGoldenBuf[i] != 0)
        {
            x_free_aligned_dma_mem(pbRMYCGoldenBuf[i]);
        }
    }
    if (pbRMInvAddrSwapBufY != 0)
    {
        x_free_aligned_dma_mem(pbRMInvAddrSwapBufY);
    }
    if (pbRMInvAddrSwapBufC != 0)
    {
        x_free_aligned_dma_mem(pbRMInvAddrSwapBufC);
    }

    for (i = 0; i < 4; i++)
    {
        if (pbRMYBuf[i] != 0)
        {
            x_free_aligned_dma_mem(pbRMYBuf[i]);
        }
        if (pbRMCBuf[i] != 0)
        {
            x_free_aligned_dma_mem(pbRMCBuf[i]);
        }
    }

    BIM_ClearIrq(VECTOR_VDFUL);
    BIM_ClearIrq(VECTOR_VDFUL);
    VDec_IsrInit();
}

#endif //RM_HAL_SUPPORT_SLT