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/* This is the byte-counted string class for rsyslog. It is a replacement
* for classical \0 terminated string functions. We introduce it in
* the hope it will make the program more secure, obtain some performance
* and, most importantly, lay they foundation for syslog-protocol, which
* requires strings to be able to handle embedded \0 characters.
* Please see syslogd.c for license information.
* All functions in this "class" start with rsCStr (rsyslog Counted String).
* This code is placed under the GPL.
* begun 2005-09-07 rgerhards
*/
#include <stdlib.h>
#include <assert.h>
#include <string.h>
#include "rsyslog.h"
#include "stringbuf.h"
#include "srUtils.h"
/* ################################################################# *
* private members *
* ################################################################# */
/* ################################################################# *
* public members *
* ################################################################# */
rsCStrObj *rsCStrConstruct(void)
{
rsCStrObj *pThis;
if((pThis = (rsCStrObj*) calloc(1, sizeof(rsCStrObj))) == NULL)
return NULL;
pThis->OID = OIDrsCStr;
pThis->pBuf = NULL;
pThis->pszBuf = NULL;
pThis->iBufSize = 0;
pThis->iBufPtr = 0;
pThis->iStrLen = 0;
pThis->iAllocIncrement = STRINGBUF_ALLOC_INCREMENT;
return pThis;
}
/* construct from sz string
* rgerhards 2005-09-15
*/
rsRetVal rsCStrConstructFromszStr(rsCStrObj **ppThis, char *sz)
{
rsCStrObj *pThis;
assert(ppThis != NULL);
if((pThis = rsCStrConstruct()) == NULL)
return RS_RET_OUT_OF_MEMORY;
pThis->iStrLen = strlen(sz);
if((pThis->pBuf = (char*) malloc(sizeof(char) * pThis->iStrLen)) == NULL) {
RSFREEOBJ(pThis);
return RS_RET_OUT_OF_MEMORY;
}
/* we do NOT need to copy the \0! */
memcpy(pThis->pBuf, sz, pThis->iStrLen);
*ppThis = pThis;
return RS_RET_OK;
}
void rsCStrDestruct(rsCStrObj *pThis)
{
# if STRINGBUF_TRIM_ALLOCSIZE == 1
/* in this mode, a new buffer already was allocated,
* so we need to free the old one.
*/
if(pThis->pBuf != NULL) {
free(pThis->pBuf);
}
# endif
if(pThis->pszBuf != NULL) {
free(pThis->pszBuf);
}
RSFREEOBJ(pThis);
}
rsRetVal rsCStrAppendStr(rsCStrObj *pThis, char* psz)
{
rsRetVal iRet;
sbSTRBCHECKVALIDOBJECT(pThis);
assert(psz != NULL);
while(*psz)
if((iRet = rsCStrAppendChar(pThis, *psz++)) != RS_RET_OK)
return iRet;
return RS_RET_OK;
}
rsRetVal rsCStrAppendInt(rsCStrObj *pThis, int i)
{
rsRetVal iRet;
char szBuf[32];
sbSTRBCHECKVALIDOBJECT(pThis);
if((iRet = srUtilItoA(szBuf, sizeof(szBuf), i)) != RS_RET_OK)
return iRet;
return rsCStrAppendStr(pThis, szBuf);
}
rsRetVal rsCStrAppendChar(rsCStrObj *pThis, char c)
{
char* pNewBuf;
sbSTRBCHECKVALIDOBJECT(pThis);
if(pThis->iBufPtr >= pThis->iBufSize)
{ /* need more memory! */
if((pNewBuf = (char*) malloc((pThis->iBufSize + pThis->iAllocIncrement) * sizeof(char))) == NULL)
return RS_RET_OUT_OF_MEMORY;
memcpy(pNewBuf, pThis->pBuf, pThis->iBufSize);
pThis->iBufSize += pThis->iAllocIncrement;
if(pThis->pBuf != NULL) {
free(pThis->pBuf);
}
pThis->pBuf = pNewBuf;
}
/* ok, when we reach this, we have sufficient memory */
*(pThis->pBuf + pThis->iBufPtr++) = c;
pThis->iStrLen++;
return RS_RET_OK;
}
/* Converts the CStr object to a classical zero-terminated C string,
* returns that string and destroys the CStr object. The returned string
* MUST be freed by the caller. The function might return NULL if
* no memory can be allocated.
*
* TODO:
* This function should at some time become special. The base idea is to
* add one extra byte to the end of the regular buffer, so that we can
* convert it to an szString without the need to copy. The extra memory
* footprint is not hefty, but the performance gain is potentially large.
* To get it done now, I am not doing the optimiziation right now.
*
* rgerhards, 2005-09-07
*/
char* rsCStrConvSzStrAndDestruct(rsCStrObj *pThis)
{
char* pRetBuf;
int i;
sbSTRBCHECKVALIDOBJECT(pThis);
if(pThis->pszBuf == NULL) {
/* we do not yet have a usable sz version - so create it... */
if((pThis->pszBuf = malloc(pThis->iStrLen + 1 * sizeof(char))) == NULL) {
/* TODO: think about what to do - so far, I have no bright
* idea... rgerhards 2005-09-07
*/
}
else {
/* we can create the sz String */
if(pThis->pBuf != NULL)
memcpy(pThis->pszBuf, pThis->pBuf, pThis->iStrLen);
*(pThis->pszBuf + pThis->iStrLen) = '\0';
}
}
/* we now need to do a sanity check. The string mgiht contain a
* \0 byte. There is no way how a sz string can handle this. For
* the time being, we simply replace it with space - something that
* could definitely be improved (TODO).
* 2005-09-09 rgerhards
*/
for(i = 0 ; i < pThis->iStrLen ; ++i) {
if(*(pThis->pszBuf + i) == '\0')
*(pThis->pszBuf + i) = ' ';
}
/* We got it, now free the object ourselfs. Please note
* that we can NOT use the rsCStrDestruct function as it would
* also free the sz String buffer, which we pass on to the user.
*/
pRetBuf = pThis->pszBuf;
if(pThis->pBuf != NULL)
free(pThis->pBuf);
RSFREEOBJ(pThis);
return(pRetBuf);
}
void rsCStrFinish(rsCStrObj *pThis)
{
sbSTRBCHECKVALIDOBJECT(pThis);
# if STRINGBUF_TRIM_ALLOCSIZE == 1
/* in this mode, we need to trim the string. To do
* so, we must allocate a new buffer of the exact
* string size, and then copy the old one over.
* This new buffer is then to be returned.
*/
if((pRetBuf = malloc((pThis->iBufSize) * sizeof(char))) == NULL)
{ /* OK, in this case we use the previous buffer. At least
* we have it ;)
*/
}
else
{ /* got the new buffer, so let's use it */
char* pBuf;
memcpy(pBuf, pThis->pBuf, pThis->iBufPtr + 1);
pThis->pBuf = pBuf;
}
# else
/* here, we need to do ... nothing ;)
*/
# endif
}
void rsCStrSetAllocIncrement(rsCStrObj *pThis, int iNewIncrement)
{
sbSTRBCHECKVALIDOBJECT(pThis);
assert(iNewIncrement > 0);
pThis->iAllocIncrement = iNewIncrement;
}
/* return the length of the current string
* 2005-09-09 rgerhards
*/
int rsCStrLen(rsCStrObj *pThis)
{
sbSTRBCHECKVALIDOBJECT(pThis);
return(pThis->iStrLen);
}
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* tab-width: 8
* End:
* vi:set ai:
*/
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