Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

389 lines
8.6 KiB

/*****************************************************************************
* *
* CSTREAM.CPP *
* *
* Copyright (C) Microsoft Corporation 1990-1997 *
* All Rights reserved. *
* *
*****************************************************************************/
#include "header.h"
#include "cstream.h"
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[] = __FILE__;
#endif
#ifdef _DEBUG
static LONG hsemReadCount;
static LONG hsemStartCount;
#define PTR_SEM_READ_COUNT &hsemReadCount
#define PTR_SEM_START_COUNT &hsemStartCount
#else
#define PTR_SEM_READ_COUNT NULL
#define PTR_SEM_START_COUNT NULL
#endif
#ifndef SEEK_CUR
#define SEEK_CUR 1
#define SEEK_END 2
#define SEEK_SET 0
#endif
static HANDLE hsemRead; // semaphore used for dual-cpu processing
static HANDLE hsemStart; // semaphore used for dual-cpu processing
static CStream *pThis;
static BOOL fReadAheadStarted;
static BOOL fExitThread;
static PBYTE pbuf1; // first buffer for dual-cpu processing
static PBYTE pbuf2; // second buffer for dual-cpu processing
/////////////////////// CStream implementation ////////////////////////////
// We use our own stream class instead of using the C runtime, because this
// change alone doubled the speed of the help compiler. I.e., the C runtime
// implementation of stream io is horribly slow. 26-Feb-1994 [ralphw]
// Also, this CStream will take advantage of a dual-CPU and will do
// read-aheads in a thread.
CStream::CStream(PCSTR pszFileName)
{
// Only one CStream can use the read-ahead thread
if (!pThis) {
fDualCPU = g_fDualCPU==-1?FALSE:g_fDualCPU;
pThis = this;
}
else
fDualCPU = FALSE;
if ((hfile = _lopen(pszFileName, OF_READ)) == HFILE_ERROR) {
fInitialized = FALSE;
if (fDualCPU)
pThis = NULL;
return;
}
if (fDualCPU) {
cbBuf = DUAL_CSTREAM_BUF_SIZE;
if (!hsemRead) {
hsemRead = CreateSemaphore(NULL, 1, 1, NULL);
hsemStart = CreateSemaphore(NULL, 1, 1, NULL);
pbuf2 = (PBYTE) lcMalloc(DUAL_CSTREAM_BUF_SIZE + 2);
pbuf1 = (PBYTE) lcMalloc(DUAL_CSTREAM_BUF_SIZE + 2);
}
pbuf = pbuf1;
}
else {
cbBuf = CSTREAM_BUF_SIZE;
// +2 because we add a zero just past the buffer in case anyone expects strings
pbuf = (PBYTE) lcMalloc(CSTREAM_BUF_SIZE + 2);
}
ASSERT(pbuf);
fInitialized = TRUE;
int cread = _lread(hfile, pbuf, cbBuf);
if (cread == HFILE_ERROR) {
_lclose(hfile);
fInitialized = FALSE;
if (fDualCPU)
pThis = NULL;
return;
}
if (fDualCPU) {
// Start reading the next buffer
cThrdRead = HFILE_NOTREAD;
if (!fReadAheadStarted) {
hthrd = CreateThread(NULL, 0,
(LPTHREAD_START_ROUTINE) &ReadAhead, NULL,
0, &idThrd);
ASSERT(hthrd);
if (!hthrd)
fDualCPU = FALSE;
else
fReadAheadStarted = TRUE;
}
else {
ReleaseSemaphore(hsemRead, 1, PTR_SEM_READ_COUNT);
ReleaseSemaphore(hsemStart, 1, PTR_SEM_START_COUNT); // start read-ahead thread
}
}
pCurBuf = pbuf;
pEndBuf = pbuf + cread;
pEndBuf[1] = '\0';
lFilePos = cread;
lFileBuf = 0;
pszFile = lcStrDup(pszFileName);
fInitialized = TRUE;
m_fEndOfFile = FALSE;
}
CStream::~CStream()
{
if (fInitialized) {
if (fDualCPU) {
Cleanup();
WaitForReadAhead();
pThis = NULL;
}
else
{
lcFree(pbuf);
}
lcFree(pszFile);
_lclose(hfile);
}
}
/***************************************************************************
FUNCTION: CStream::ReadBuf
PURPOSE: Read the next block into buffer
PARAMETERS:
void
RETURNS:
COMMENTS:
Zero-terminates the buffer
MODIFICATION DATES:
13-Nov-1994 [ralphw]
***************************************************************************/
char CStream::ReadBuf(void)
{
int cread;
if (fDualCPU) {
ASSERT(fReadAheadStarted);
WaitForReadAhead();
if (pbuf == pbuf1)
pbuf = pbuf2;
else
pbuf = pbuf1;
cread = cThrdRead;
cThrdRead = HFILE_NOTREAD;
ReleaseSemaphore(hsemRead, 1, PTR_SEM_READ_COUNT);
// Error-checking must occur AFTER we release the read semaphore
if (cread == HFILE_ERROR) {
return chEOF;
}
ReleaseSemaphore(hsemStart, 1, PTR_SEM_START_COUNT); // start read-ahead thread
}
else {
cread = _lread(hfile, pbuf, cbBuf);
if (cread == HFILE_ERROR) {
return chEOF;
}
}
lFileBuf = lFilePos;
lFilePos += cread;
pCurBuf = pbuf;
pEndBuf = pbuf + cread;
pEndBuf[1] = '\0';
if (!cread) {
m_fEndOfFile = TRUE;
return chEOF;
}
return (char) *pCurBuf++;
}
UINT STDCALL CStream::read(void* pbDest, int cbBytes)
{
if (pEndBuf - pbuf < cbBuf)
if (pEndBuf - pCurBuf < cbBytes)
cbBytes = (int)(pEndBuf - pCurBuf);
if (pCurBuf + cbBytes < pEndBuf) {
memcpy(pbDest, pCurBuf, cbBytes);
pCurBuf += cbBytes;
return cbBytes;
}
PBYTE pbDst = (PBYTE) pbDest;
// If destination buffer is larger then our internal buffer, then
// recursively call until we have filled up the destination.
int cbRead = (int)(pEndBuf - pCurBuf);
memcpy(pbDest, pCurBuf, cbRead);
pbDst += cbRead;
ReadBuf();
if (m_fEndOfFile)
return cbRead;
else
pCurBuf--; // since ReadBuf incremented it
return read(pbDst, cbBytes - cbRead) + cbRead;
}
int STDCALL CStream::seek(int pos, SEEK_TYPE seek)
{
ASSERT(seek != SK_END); // we don't support this one
if (seek == SK_CUR)
pos = lFileBuf + (int)(pCurBuf - pbuf) + pos;
if (pos >= lFileBuf && pos < lFilePos) {
pCurBuf = pbuf + (pos - lFileBuf);
if (pCurBuf >= pEndBuf && pEndBuf < pbuf + cbBuf)
m_fEndOfFile = TRUE;
return lFileBuf + (int)(pCurBuf - pbuf);
}
else {
if (fDualCPU) {
WaitForReadAhead();
}
lFileBuf = _llseek(hfile, pos, SEEK_SET);
int cread = _lread(hfile, pbuf, cbBuf);
if (cread == HFILE_ERROR) {
m_fEndOfFile = TRUE;
return chEOF;
}
lFilePos = lFileBuf + cread;
pCurBuf = pbuf;
pEndBuf = pbuf + cread;
if (fDualCPU) {
cThrdRead = HFILE_NOTREAD;
ReleaseSemaphore(hsemRead, 1, PTR_SEM_READ_COUNT);
if (fReadAheadStarted)
ReleaseSemaphore(hsemStart, 1, PTR_SEM_START_COUNT); // start read-ahead thread
}
if (cread == 0)
m_fEndOfFile = TRUE;
return lFilePos;
}
}
void CStream::WaitForReadAhead(void)
{
for(;;) {
WaitForSingleObject(hsemRead, INFINITE);
if (cThrdRead == HFILE_NOTREAD) {
ReleaseSemaphore(hsemRead, 1, PTR_SEM_READ_COUNT);
Sleep(1); // give read-ahead thread a chance to run
}
else
return;
}
}
/***************************************************************************
FUNCTION: ReadAhead
PURPOSE: Reads the next block of data from a file
PARAMETERS:
pthis
RETURNS:
COMMENTS:
Two semaphores control this thread:
hsemStart: keeps the thread suspended while waiting for the
caller to finish reading one of its blocks.
hsemRead: used as a signal between the main thread and this
thread as to when this thread has completed.
Because it is theoretically possible for a thread switch to occur
between the time the hsemStart thread starts this thread and this
thread's call to WaitForSingleObject(hsemRead), the caller also sets
the read return value to HFILE_NOTREAD to ensure that it does not
attempt to use this buffer until in fact the read has completed.
NOTE: this thread approach only makes sense on a system with more
then one CPU.
MODIFICATION DATES:
05-Feb-1997 [ralphw]
***************************************************************************/
DWORD WINAPI ReadAhead(LPVOID pv)
{
/*
* Each time through the loop, we block on hsemStart, waiting for our
* caller to release it. The hsemRead is used to block the caller until
* we have completed our read.
*/
for (;;) {
PBYTE pbReadBuf;
WaitForSingleObject(hsemStart, INFINITE);
if (fExitThread)
break;
WaitForSingleObject(hsemRead, INFINITE);
pbReadBuf = (pThis->pbuf == pbuf1) ? pbuf2 : pbuf1;
pThis->cThrdRead = _lread(pThis->hfile, pbReadBuf, pThis->cbBuf);
ReleaseSemaphore(hsemRead, 1, PTR_SEM_READ_COUNT);
}
ExitThread(0);
return 0;
}
/***************************************************************************
FUNCTION: CStream::Cleanup
PURPOSE: Cleanup global variables
PARAMETERS:
void
RETURNS:
COMMENTS:
MODIFICATION DATES:
05-Feb-1997 [ralphw]
***************************************************************************/
void CStream::Cleanup(void)
{
if (fReadAheadStarted) {
fExitThread = TRUE;
ReleaseSemaphore(hsemStart, 1, PTR_SEM_START_COUNT); // start read-ahead thread
Sleep(1); // Let the other thread run
CloseHandle(hsemStart);
CloseHandle(hsemRead);
lcFree(pbuf1);
lcFree(pbuf2);
hsemStart = hsemRead = pbuf1 = pbuf2 = NULL;
}
}
#ifdef _DEBUG
char CStream::cget()
{
if (pCurBuf < pEndBuf)
return (char) *pCurBuf++;
else if (pEndBuf < pbuf + cbBuf) {
m_fEndOfFile = TRUE;
return chEOF;
}
else
return ReadBuf();
}
#endif