Leaked source code of windows server 2003
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/***********************************************************************
*
* JPEG decompression utility functions
*
* Implement (1) JPEG memory data source
* (2) JPEG error manager using setjmp/longjmp
*
* Author : Indy Zhu [indyz]
* Date : 5/20/98
*
***********************************************************************/
#include <stdio.h>
// #include <stdlib.h>
#include <setjmp.h>
// Workaround for redefinition of INT32
#define XMD_H 1
extern "C"
{
// Header file for JPEG library
#include "jpeglib.h"
}
#include <windows.h>
#include "jpegutil.h"
//
// Buf source manager definition
//
typedef struct _buf_source_mgr
{
struct jpeg_source_mgr pub;
// Fields specific to buf_source_mgr
LPBYTE pJPEGBlob;
DWORD dwSize;
} buf_source_mgr;
//
// Jump error manager definition
//
typedef struct _jmp_error_mgr
{
struct jpeg_error_mgr pub;
// Private fields for jump error manager
jmp_buf stackContext;
} jmp_error_mgr;
/******************************************************************************\
*
* init_source()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static void init_source(j_decompress_ptr pDecompInfo)
{
// No working necessary here
}
/******************************************************************************\
*
* fill_input_buffer()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static boolean fill_input_buffer(j_decompress_ptr pDecompInfo)
{
buf_source_mgr *pBufSrcMgr;
// Recover buf source manager itself
pBufSrcMgr = (buf_source_mgr *)pDecompInfo->src;
// buf_source_mgr can only fire one shot
pBufSrcMgr->pub.next_input_byte = pBufSrcMgr->pJPEGBlob;
pBufSrcMgr->pub.bytes_in_buffer = pBufSrcMgr->dwSize;
return(TRUE);
}
/******************************************************************************\
*
* skip_input_data()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static void skip_input_data(j_decompress_ptr pDecompInfo, long lBytes)
{
buf_source_mgr *pBufSrcMgr;
// For buf source manager, it is very easy to implement
if (lBytes > 0) {
pBufSrcMgr = (buf_source_mgr *)pDecompInfo->src;
pBufSrcMgr->pub.next_input_byte += lBytes;
pBufSrcMgr->pub.bytes_in_buffer -= lBytes;
}
}
/******************************************************************************\
*
* term_source()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static void term_source(j_decompress_ptr pDecompInfo)
{
}
/******************************************************************************\
*
* jpeg_buf_src()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static void jpeg_buf_src(j_decompress_ptr pDecompInfo,
LPBYTE pJPEGBlob, DWORD dwSize)
{
buf_source_mgr *pBufSrcMgr;
// Allocate memory for the buf source manager
pBufSrcMgr = (buf_source_mgr *)
(pDecompInfo->mem->alloc_small)((j_common_ptr)pDecompInfo,
JPOOL_PERMANENT,
sizeof(buf_source_mgr));
// Record the pJPEGBlob
pBufSrcMgr->pJPEGBlob = pJPEGBlob;
pBufSrcMgr->dwSize = dwSize;
// Fill in the function pointers
pBufSrcMgr->pub.init_source = init_source;
pBufSrcMgr->pub.fill_input_buffer = fill_input_buffer;
pBufSrcMgr->pub.skip_input_data = skip_input_data;
pBufSrcMgr->pub.resync_to_restart = jpeg_resync_to_restart;
pBufSrcMgr->pub.term_source = term_source;
// Initialize the pointer into the buffer
pBufSrcMgr->pub.bytes_in_buffer = 0;
pBufSrcMgr->pub.next_input_byte = NULL;
// Ask the decompression context to remember it
pDecompInfo->src = (struct jpeg_source_mgr *)pBufSrcMgr;
}
/******************************************************************************\
*
* jmp_error_exit()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
static void jmp_error_exit(j_common_ptr pDecompInfo)
{
jmp_error_mgr *pJmpErrorMgr;
// Get the jump error manager back
pJmpErrorMgr = (jmp_error_mgr *)pDecompInfo->err;
// Display the error message
#ifdef _DEBUG
(pDecompInfo->err->output_message)(pDecompInfo);
#endif
// Recover the original stack
longjmp(pJmpErrorMgr->stackContext, 1);
}
/******************************************************************************\
*
* jpeg_jmp_error()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
struct jpeg_error_mgr *jpeg_jmp_error(jmp_error_mgr *pJmpErrorMgr)
{
// Initialize the public part
jpeg_std_error(&pJmpErrorMgr->pub);
// Set up jump error manager exit method
pJmpErrorMgr->pub.error_exit = jmp_error_exit;
return((jpeg_error_mgr *)pJmpErrorMgr);
}
/******************************************************************************\
*
* GetJPEGDimensions()
*
* Arguments:
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
int GetJPEGDimensions(LPBYTE pJPEGBlob, DWORD dwSize,
LONG *pWidth, LONG *pHeight, WORD *pChannel)
{
int ret;
struct jpeg_decompress_struct decompInfo;
jmp_error_mgr jpegErrMgr;
// Step 1 : Initialize JPEG session data-structure
decompInfo.err = jpeg_jmp_error(&jpegErrMgr);
jpeg_create_decompress(&decompInfo);
// Reserve the state of the current stack
if (setjmp(jpegErrMgr.stackContext)) {
// JPEG lib will longjump here when there is an error
jpeg_destroy_decompress(&decompInfo);
return(JPEGERR_INTERNAL_ERROR);
}
// Step 2 : Specify the source of the compressed data
jpeg_buf_src(&decompInfo, pJPEGBlob, dwSize);
// Step 3 : Read JPEG file header information
ret = jpeg_read_header(&decompInfo, TRUE);
// Release the decompression context
jpeg_destroy_decompress(&decompInfo);
// Fill in the dimension info for the caller
*pWidth = decompInfo.image_width;
*pHeight = decompInfo.image_height;
*pChannel = decompInfo.num_components;
if (ret != JPEG_HEADER_OK) {
return(JPEGERR_INTERNAL_ERROR);
}
return(JPEGERR_NO_ERROR);
}
/******************************************************************************\
*
* DecompProgressJPEG()
*
* Arguments:
*
* Assumption : The JPEG is 24bits.
* pDIBPixel is the pixel buffer of a DIB
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
short __stdcall
DecompProgressJPEG(
LPBYTE pJPEGBlob,
DWORD dwSize,
LPBYTE pDIBPixel,
DWORD dwBytesPerScanLine,
JPEGCallbackProc pProgressCB,
PVOID pCBContext)
{
struct jpeg_decompress_struct decompInfo;
jmp_error_mgr jpegErrMgr;
LPBYTE pCurScanBuf;
JSAMPLE sampleTemp;
LPBYTE pCurPixel;
DWORD i;
//
// Callback related variables
//
ULONG ulImageSize;
ULONG ulOffset;
ULONG ulNewScanlines;
ULONG ulCBInterval;
BOOL bRet = FALSE;
// Step 1 : Initialize JPEG session data-structure
decompInfo.err = jpeg_jmp_error(&jpegErrMgr);
jpeg_create_decompress(&decompInfo);
// Reserve the state of the current stack
if (setjmp(jpegErrMgr.stackContext)) {
// JPEG lib will longjump here when there is an error
jpeg_destroy_decompress(&decompInfo);
return(JPEGERR_INTERNAL_ERROR);
}
// Step 2 : Specify the source of the compressed data
jpeg_buf_src(&decompInfo, pJPEGBlob, dwSize);
// Step 3 : Read JPEG file header information
if (jpeg_read_header(&decompInfo, TRUE) != JPEG_HEADER_OK) {
jpeg_destroy_decompress(&decompInfo);
return(JPEGERR_INTERNAL_ERROR);
}
// Step 4 : Set parameter for decompression
// Defaults are OK for this occasssion
// Step 5 : Start the real action
jpeg_start_decompress(&decompInfo);
//
// Prepare for the final decompression
//
pCurScanBuf = pDIBPixel +
(decompInfo.image_height - 1) * dwBytesPerScanLine;
if (pProgressCB) {
ulImageSize = decompInfo.image_height * dwBytesPerScanLine;
ulCBInterval = decompInfo.image_height / 10;
ulOffset = 0;
ulNewScanlines = 0;
}
// Step 6 : Acquire the scan line
while (decompInfo.output_scanline < decompInfo.output_height) {
jpeg_read_scanlines(&decompInfo, &pCurScanBuf, 1);
// Famous swapping for the unique format of Windows
pCurPixel = pCurScanBuf;
for (i = 0; i < decompInfo.image_width;
i++, pCurPixel += decompInfo.num_components) {
sampleTemp = *pCurPixel;
*pCurPixel = *(pCurPixel + 2);
*(pCurPixel + 2) = sampleTemp;
}
pCurScanBuf -= dwBytesPerScanLine;
//
// Fire the callback when possible and necessary
//
if (pProgressCB) {
ulNewScanlines++;
ulOffset += dwBytesPerScanLine;
if ((ulNewScanlines == ulCBInterval) ||
(decompInfo.output_scanline == decompInfo.output_height)) {
bRet = pProgressCB(
ulImageSize, ulNewScanlines,
ulNewScanlines * dwBytesPerScanLine,
pDIBPixel, pCBContext);
if (! bRet) {
break;
}
}
}
}
// Step 7 : Finish the job
jpeg_finish_decompress(&decompInfo);
// Step 8 : Garbage collection
jpeg_destroy_decompress(&decompInfo);
if (bRet) {
return(JPEGERR_NO_ERROR);
} else {
return(JPEGERR_CALLBACK_ERROR);
}
}
/******************************************************************************\
*
* DecompTransferJPEG()
*
* Arguments:
*
* ppDIBPixel - *ppDIBPixel will change between callback if multiple buffer is
* used, but dwBufSize is assumed to be constant.
*
* Return Value:
*
* Status
*
* History:
*
* 1/20/1999 Original Version
*
\******************************************************************************/
short __stdcall
DecompTransferJPEG(
LPBYTE pJPEGBlob,
DWORD dwSize,
LPBYTE *ppDIBPixel,
DWORD dwBufSize,
DWORD dwBytesPerScanLine,
JPEGCallbackProc pProgressCB,
PVOID pCBContext)
{
struct jpeg_decompress_struct decompInfo;
jmp_error_mgr jpegErrMgr;
LPBYTE pCurScanLine;
JSAMPLE sampleTemp;
LPBYTE pCurPixel;
DWORD i;
//
// Callback related variables
//
ULONG ulImageSize;
ULONG ulOffset = 0;
ULONG ulBufferLeft;
BOOL bRet = FALSE;
//
// Parameter checking
//
if ((! ppDIBPixel) || (! *ppDIBPixel) || (! pProgressCB)) {
return (JPEGERR_INTERNAL_ERROR);
}
// Step 1 : Initialize JPEG session data-structure
decompInfo.err = jpeg_jmp_error(&jpegErrMgr);
jpeg_create_decompress(&decompInfo);
// Reserve the state of the current stack
if (setjmp(jpegErrMgr.stackContext)) {
// JPEG lib will longjump here when there is an error
jpeg_destroy_decompress(&decompInfo);
return(JPEGERR_INTERNAL_ERROR);
}
// Step 2 : Specify the source of the compressed data
jpeg_buf_src(&decompInfo, pJPEGBlob, dwSize);
// Step 3 : Read JPEG file header information
if (jpeg_read_header(&decompInfo, TRUE) != JPEG_HEADER_OK) {
jpeg_destroy_decompress(&decompInfo);
return(JPEGERR_INTERNAL_ERROR);
}
// Step 4 : Set parameter for decompression
// Defaults are OK for this occasssion
// Step 5 : Start the real action
jpeg_start_decompress(&decompInfo);
//
// Prepare for the final decompression
//
ulImageSize = decompInfo.image_height * dwBytesPerScanLine;
ulBufferLeft = dwBufSize;
pCurScanLine = *ppDIBPixel;
// Step 6 : Acquire the scan line
while (decompInfo.output_scanline < decompInfo.output_height) {
jpeg_read_scanlines(&decompInfo, &pCurScanLine, 1);
// Famous swapping for the unique format of Windows
pCurPixel = pCurScanLine;
for (i = 0; i < decompInfo.image_width;
i++, pCurPixel += decompInfo.num_components) {
sampleTemp = *pCurPixel;
*pCurPixel = *(pCurPixel + 2);
*(pCurPixel + 2) = sampleTemp;
}
pCurScanLine += dwBytesPerScanLine;
ulBufferLeft -= dwBytesPerScanLine;
//
// Fire the callback when possible and necessary
//
if ((ulBufferLeft < dwBytesPerScanLine) ||
(decompInfo.output_scanline == decompInfo.output_height)) {
bRet = pProgressCB(
ulImageSize,
ulOffset,
dwBufSize - ulBufferLeft,
*ppDIBPixel, pCBContext);
if (! bRet) {
break;
}
//
// Reset the buffer, which may have been switched by the callback
//
ulBufferLeft = dwBufSize;
pCurScanLine = *ppDIBPixel;
ulOffset = decompInfo.output_scanline * dwBytesPerScanLine;
}
}
// Step 7 : Finish the job
jpeg_finish_decompress(&decompInfo);
// Step 8 : Garbage collection
jpeg_destroy_decompress(&decompInfo);
if (bRet) {
return(JPEGERR_NO_ERROR);
} else {
return(JPEGERR_CALLBACK_ERROR);
}
}
/******************************************************************************\
*
* DecompJPEG()
*
* Arguments:
*
* Assumption : The JPEG is 24bits.
* pDIBPixel is the pixel buffer of a DIB
*
* Return Value:
*
* Status
*
* History:
*
* 11/4/1998 Original Version
*
\******************************************************************************/
SHORT __stdcall
DecompJPEG(
LPBYTE pJPEGBlob,
DWORD dwSize,
LPBYTE pDIBPixel,
DWORD dwBytesPerScanLine)
{
struct jpeg_decompress_struct decompInfo;
jmp_error_mgr jpegErrMgr;
LPBYTE pCurScanBuf;
JSAMPLE sampleTemp;
LPBYTE pCurPixel;
DWORD i;
// Step 1 : Initialize JPEG session data-structure
decompInfo.err = jpeg_jmp_error(&jpegErrMgr);
jpeg_create_decompress(&decompInfo);
// Reserve the state of the current stack
if (setjmp(jpegErrMgr.stackContext)) {
// JPEG lib will longjump here when there is an error
jpeg_destroy_decompress(&decompInfo);
return(-1);
}
// Step 2 : Specify the source of the compressed data
jpeg_buf_src(&decompInfo, pJPEGBlob, dwSize);
// Step 3 : Read JPEG file header information
if (jpeg_read_header(&decompInfo, TRUE) != JPEG_HEADER_OK) {
jpeg_destroy_decompress(&decompInfo);
return(-1);
}
// Step 4 : Set parameter for decompression
// Defaults are OK for this occasssion
// Step 5 : Start the real action
jpeg_start_decompress(&decompInfo);
pCurScanBuf = pDIBPixel +
(decompInfo.image_height - 1) * dwBytesPerScanLine;
// Step 6 : Acquire the scan line
while (decompInfo.output_scanline < decompInfo.output_height) {
jpeg_read_scanlines(&decompInfo, &pCurScanBuf, 1);
// Famous swapping for the unique format of Windows
pCurPixel = pCurScanBuf;
for (i = 0; i < decompInfo.image_width;
i++, pCurPixel += decompInfo.num_components) {
sampleTemp = *pCurPixel;
*pCurPixel = *(pCurPixel + 2);
*(pCurPixel + 2) = sampleTemp;
}
pCurScanBuf -= dwBytesPerScanLine;
}
// Step 7 : Finish the job
jpeg_finish_decompress(&decompInfo);
// Step 8 : Garbage collection
jpeg_destroy_decompress(&decompInfo);
return(0);
}