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|
/* This is the byte-counted string class for rsyslog.
* This object has a lot of legacy. Among others, it was started to
* support embedded \0 bytes, which looked like they were needed to
* be supported by RFC developments at that time. Later, this was
* no longer a requirement, and we refactored the class in 2016
* to some simpler internals which make use of the fact that no
* NUL can ever occur in rsyslog strings (they are escaped at the
* input side of rsyslog).
* It now serves primarily to a) dynamic string creation, b) keep
* old interfaces supported, and c) some special functionality,
* e.g. search. Further refactoring and simplificytin may make
* sense.
*
* Copyright (C) 2005-2019 Adiscon GmbH
*
* This file is part of the rsyslog runtime library.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
* -or-
* see COPYING.ASL20 in the source distribution
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "config.h"
#include <stdlib.h>
#include <assert.h>
#include <string.h>
#include <ctype.h>
#include <stdarg.h>
#include <sys/types.h>
#include <libestr.h>
#include "rsyslog.h"
#include "stringbuf.h"
#include "srUtils.h"
#include "regexp.h"
#include "errmsg.h"
#include "unicode-helper.h"
#define DEV_DEBUG 0 /* set to 1 to enable very verbose developer debugging messages */
/* ################################################################# *
* private members *
* ################################################################# */
/* static data */
DEFobjCurrIf(obj)
DEFobjCurrIf(regexp)
/* ################################################################# *
* public members *
* ################################################################# */
rsRetVal
cstrConstruct(cstr_t **const ppThis)
{
DEFiRet;
cstr_t *pThis;
CHKmalloc(pThis = (cstr_t*) malloc(sizeof(cstr_t)));
rsSETOBJTYPE(pThis, OIDrsCStr);
#ifndef NDEBUG
pThis->isFinalized = 0;
#endif
pThis->pBuf = NULL;
pThis->iBufSize = 0;
pThis->iStrLen = 0;
*ppThis = pThis;
finalize_it:
RETiRet;
}
/* construct from sz string
* rgerhards 2005-09-15
*/
rsRetVal
rsCStrConstructFromszStr(cstr_t **const ppThis, const uchar *const sz)
{
DEFiRet;
cstr_t *pThis;
CHKiRet(rsCStrConstruct(&pThis));
pThis->iStrLen = strlen((char *) sz);
pThis->iBufSize = strlen((char *) sz) + 1;
if((pThis->pBuf = (uchar*) malloc(pThis->iBufSize)) == NULL) {
RSFREEOBJ(pThis);
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
}
/* we do NOT need to copy the \0! */
memcpy(pThis->pBuf, sz, pThis->iStrLen);
*ppThis = pThis;
finalize_it:
RETiRet;
}
/* a helper function for rsCStr*Strf()
*/
static rsRetVal rsCStrConstructFromszStrv(cstr_t **ppThis, const char *fmt,
va_list ap) __attribute__((format(printf,2, 0)));
static rsRetVal
rsCStrConstructFromszStrv(cstr_t **const ppThis, const char *const fmt, va_list ap)
{
DEFiRet;
cstr_t *pThis;
va_list ap2;
int len;
va_copy(ap2, ap);
len = vsnprintf(NULL, 0, (char*)fmt, ap2);
va_end(ap2);
if(len < 0)
ABORT_FINALIZE(RS_RET_ERR);
CHKiRet(rsCStrConstruct(&pThis));
pThis->iStrLen = len;
pThis->iBufSize = len + 1;
len++; /* account for the \0 written by vsnprintf */
if((pThis->pBuf = (uchar*) malloc(pThis->iBufSize)) == NULL) {
RSFREEOBJ(pThis);
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
}
vsnprintf((char*)pThis->pBuf, len, (char*)fmt, ap);
*ppThis = pThis;
finalize_it:
RETiRet;
}
/* construct from a printf-style formated string
*/
rsRetVal
rsCStrConstructFromszStrf(cstr_t **ppThis, const char *fmt, ...)
{
DEFiRet;
va_list ap;
va_start(ap, fmt);
iRet = rsCStrConstructFromszStrv(ppThis, fmt, ap);
va_end(ap);
RETiRet;
}
/* construct from es_str_t string
* rgerhards 2010-12-03
*/
rsRetVal
cstrConstructFromESStr(cstr_t **const ppThis, es_str_t *const str)
{
DEFiRet;
cstr_t *pThis;
CHKiRet(rsCStrConstruct(&pThis));
pThis->iStrLen = es_strlen(str);
pThis->iBufSize = pThis->iStrLen + 1;
if((pThis->pBuf = (uchar*) malloc(pThis->iBufSize)) == NULL) {
RSFREEOBJ(pThis);
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
}
/* we do NOT need to copy the \0! */
memcpy(pThis->pBuf, es_getBufAddr(str), pThis->iStrLen);
*ppThis = pThis;
finalize_it:
RETiRet;
}
/* construct from CStr object.
* rgerhards 2005-10-18
*/
rsRetVal ATTR_NONNULL()
rsCStrConstructFromCStr(cstr_t **const ppThis, const cstr_t *const pFrom)
{
DEFiRet;
cstr_t *pThis;
rsCHECKVALIDOBJECT(pFrom, OIDrsCStr);
CHKiRet(rsCStrConstruct(&pThis));
if(pFrom->iStrLen > 0) {
pThis->iStrLen = pFrom->iStrLen;
pThis->iBufSize = pFrom->iStrLen + 1;
if((pThis->pBuf = (uchar*) malloc(pThis->iBufSize)) == NULL) {
RSFREEOBJ(pThis);
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
}
memcpy(pThis->pBuf, pFrom->pBuf, pThis->iStrLen);
}
*ppThis = pThis;
finalize_it:
RETiRet;
}
void rsCStrDestruct(cstr_t **const ppThis)
{
free((*ppThis)->pBuf);
RSFREEOBJ(*ppThis);
*ppThis = NULL;
}
/* extend the string buffer if its size is insufficient.
* Param iMinNeeded is the minumum free space needed. If it is larger
* than the default alloc increment, space for at least this amount is
* allocated. In practice, a bit more is allocated because we envision that
* some more characters may be added after these.
* rgerhards, 2008-01-07
* changed to utilized realloc() -- rgerhards, 2009-06-16
*/
static rsRetVal
rsCStrExtendBuf(cstr_t *const __restrict__ pThis, const size_t iMinNeeded)
{
uchar *pNewBuf;
size_t iNewSize;
DEFiRet;
/* first compute the new size needed */
if(iMinNeeded > RS_STRINGBUF_ALLOC_INCREMENT) {
/* we allocate "n" ALLOC_INCREMENTs. Usually, that should
* leave some room after the absolutely needed one. It also
* reduces memory fragmentation. Note that all of this are
* integer operations (very important to understand what is
* going on)! Parenthesis are for better readibility.
*/
iNewSize = (iMinNeeded / RS_STRINGBUF_ALLOC_INCREMENT + 1) * RS_STRINGBUF_ALLOC_INCREMENT;
} else {
iNewSize = pThis->iBufSize + RS_STRINGBUF_ALLOC_INCREMENT;
}
iNewSize += pThis->iBufSize; /* add current size */
#if DEV_DEBUG == 1
dbgprintf("extending string buffer, old %d, new %d\n", pThis->iBufSize, iNewSize);
#endif
CHKmalloc(pNewBuf = (uchar*) realloc(pThis->pBuf, iNewSize));
pThis->iBufSize = iNewSize;
pThis->pBuf = pNewBuf;
finalize_it:
RETiRet;
}
/* Append a character to the current string object. This may only be done until
* cstrFinalize() is called.
* rgerhards, 2009-06-16
*/
rsRetVal cstrAppendChar(cstr_t *const __restrict__ pThis, const uchar c)
{
rsRetVal iRet = RS_RET_OK;
if(pThis->iStrLen+1 >= pThis->iBufSize) {
CHKiRet(rsCStrExtendBuf(pThis, 1)); /* need more memory! */
}
/* ok, when we reach this, we have sufficient memory */
*(pThis->pBuf + pThis->iStrLen++) = c;
finalize_it:
return iRet;
}
/* append a string of known length. In this case, we make sure we do at most
* one additional memory allocation.
*/
rsRetVal rsCStrAppendStrWithLen(cstr_t *const pThis, const uchar*const psz, const size_t iStrLen)
{
DEFiRet;
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
assert(psz != NULL);
/* does the string fit? */
if(pThis->iStrLen + iStrLen >= pThis->iBufSize) {
CHKiRet(rsCStrExtendBuf(pThis, iStrLen)); /* need more memory! */
}
/* ok, now we always have sufficient continues memory to do a memcpy() */
memcpy(pThis->pBuf + pThis->iStrLen, psz, iStrLen);
pThis->iStrLen += iStrLen;
finalize_it:
RETiRet;
}
/* changed to be a wrapper to rsCStrAppendStrWithLen() so that
* we can save some time when we have the length but do not
* need to change existing code.
* rgerhards, 2007-07-03
*/
rsRetVal rsCStrAppendStr(cstr_t *const pThis, const uchar*const psz)
{
return rsCStrAppendStrWithLen(pThis, psz, strlen((char*) psz));
}
/* append the contents of one cstr_t object to another
* rgerhards, 2008-02-25
*/
rsRetVal cstrAppendCStr(cstr_t *pThis, cstr_t *pstrAppend)
{
return rsCStrAppendStrWithLen(pThis, pstrAppend->pBuf, pstrAppend->iStrLen);
}
/* append a printf-style formated string
*/
rsRetVal rsCStrAppendStrf(cstr_t *pThis, const char *fmt, ...)
{
DEFiRet;
va_list ap;
cstr_t *pStr = NULL;
va_start(ap, fmt);
iRet = rsCStrConstructFromszStrv(&pStr, (char*)fmt, ap);
va_end(ap);
if(iRet != RS_RET_OK)
goto finalize_it;
iRet = cstrAppendCStr(pThis, pStr);
rsCStrDestruct(&pStr);
finalize_it:
RETiRet;
}
rsRetVal rsCStrAppendInt(cstr_t *pThis, long i)
{
DEFiRet;
uchar szBuf[32];
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
CHKiRet(srUtilItoA((char*) szBuf, sizeof(szBuf), i));
iRet = rsCStrAppendStr(pThis, szBuf);
finalize_it:
RETiRet;
}
/* Sets the string object to the classigal sz-string provided.
* Any previously stored vlaue is discarded. If a NULL pointer
* the the new value (pszNew) is provided, an empty string is
* created (this is NOT an error!).
* rgerhards, 2005-10-18
*/
rsRetVal rsCStrSetSzStr(cstr_t *const __restrict__ pThis,
uchar *const __restrict__ pszNew)
{
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
if(pszNew == NULL) {
free(pThis->pBuf);
pThis->pBuf = NULL;
pThis->iStrLen = 0;
pThis->iBufSize = 0;
} else {
const size_t newlen = strlen((char*)pszNew);
if(newlen > pThis->iBufSize) {
uchar *const newbuf = (uchar*) realloc(pThis->pBuf, newlen + 1);
if(newbuf == NULL) {
/* we keep the old value, best we can do */
return RS_RET_OUT_OF_MEMORY;
}
pThis->pBuf = newbuf;
pThis->iBufSize = newlen + 1;
}
pThis->iStrLen = newlen;
memcpy(pThis->pBuf, pszNew, pThis->iStrLen);
}
return RS_RET_OK;
}
/* Converts the CStr object to a classical zero-terminated C string
* and returns that string. The caller must not free it and must not
* destroy the CStr object as long as the ascii string is used.
*/
uchar*
cstrGetSzStrNoNULL(cstr_t *const __restrict__ pThis)
{
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
assert(pThis->isFinalized);
return (pThis->pBuf == NULL) ? (uchar*) "" : pThis->pBuf;
}
/* 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.
*
* This is the NEW replacement for rsCStrConvSzStrAndDestruct which does
* no longer utilize a special buffer but soley works on pBuf (and also
* assumes that cstrFinalize had been called).
*
* Parameters are as follows:
* pointer to the object, pointer to string-pointer to receive string and
* bRetNULL: 0 - must not return NULL on empty string, return "" in that
* case, 1 - return NULL instead of an empty string.
* PLEASE NOTE: the caller must free the memory returned in ppSz in any case
* (except, of course, if it is NULL).
*/
rsRetVal cstrConvSzStrAndDestruct(cstr_t **ppThis, uchar **ppSz, int bRetNULL)
{
DEFiRet;
uchar* pRetBuf;
cstr_t *pThis;
assert(ppThis != NULL);
pThis = *ppThis;
assert(pThis->isFinalized);
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
assert(ppSz != NULL);
assert(bRetNULL == 0 || bRetNULL == 1);
if(pThis->pBuf == NULL) {
if(bRetNULL == 0) {
CHKmalloc(pRetBuf = malloc(1));
*pRetBuf = '\0';
} else {
pRetBuf = NULL;
}
} else {
pThis->pBuf[pThis->iStrLen] = '\0'; /* space for this is reserved */
pRetBuf = pThis->pBuf;
}
*ppSz = pRetBuf;
finalize_it:
/* 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.
*/
RSFREEOBJ(pThis);
*ppThis = NULL;
RETiRet;
}
/* return the length of the current string
* 2005-09-09 rgerhards
* Please note: this is only a function in a debug build.
* For release builds, it is a macro defined in stringbuf.h.
* This is due to performance reasons.
*/
#ifndef NDEBUG
size_t cstrLen(cstr_t *pThis)
{
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
return(pThis->iStrLen);
}
#endif
/* Truncate characters from the end of the string.
* rgerhards 2005-09-15
*/
rsRetVal rsCStrTruncate(cstr_t *pThis, size_t nTrunc)
{
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
if(pThis->iStrLen < nTrunc)
return RS_TRUNCAT_TOO_LARGE;
pThis->iStrLen -= nTrunc;
return RS_RET_OK;
}
/* Trim trailing whitespace from a given string
*/
void
cstrTrimTrailingWhiteSpace(cstr_t *const __restrict__ pThis)
{
register int i;
register uchar *pC;
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
if(pThis->iStrLen == 0)
goto done; /* empty string -> nothing to trim ;) */
i = pThis->iStrLen;
pC = pThis->pBuf + i - 1;
while(i > 0 && isspace((int)*pC)) {
--pC;
--i;
}
/* i now is the new string length! */
if(i != (int) pThis->iStrLen) {
pThis->iStrLen = i;
pThis->pBuf[pThis->iStrLen] = '\0'; /* we always have this space */ //TODO: can we remove this?
}
done: return;
}
/* compare two string objects - works like strcmp(), but operates
* on CStr objects. Please note that this version here is
* faster in the majority of cases, simply because it can
* rely on StrLen.
* rgerhards 2005-09-19
* fixed bug, in which only the last byte was actually compared
* in equal-size strings.
* rgerhards, 2005-09-26
*/
int
rsCStrCStrCmp(cstr_t *const __restrict__ pCS1, cstr_t *const __restrict__ pCS2)
{
rsCHECKVALIDOBJECT(pCS1, OIDrsCStr);
rsCHECKVALIDOBJECT(pCS2, OIDrsCStr);
if(pCS1->iStrLen == pCS2->iStrLen)
if(pCS1->iStrLen == 0)
return 0; /* zero-sized string are equal ;) */
else
return memcmp(pCS1->pBuf, pCS2->pBuf, pCS1->iStrLen);
else
return pCS1->iStrLen - pCS2->iStrLen;
}
/* check if a sz-type string starts with a CStr object. This function
* is initially written to support the "startswith" property-filter
* comparison operation. Maybe it also has other needs.
* This functions is modelled after the strcmp() series, thus a
* return value of 0 indicates that the string starts with the
* sequence while -1 indicates it does not!
* rgerhards 2005-10-19
*/
int
rsCStrSzStrStartsWithCStr(cstr_t *const __restrict__ pCS1,
uchar *const __restrict__ psz,
const size_t iLenSz)
{
rsCHECKVALIDOBJECT(pCS1, OIDrsCStr);
assert(psz != NULL);
assert(iLenSz == strlen((char*)psz)); /* just make sure during debugging! */
if(iLenSz >= pCS1->iStrLen) {
if(pCS1->iStrLen == 0)
return 0; /* yes, it starts with a zero-sized string ;) */
else
return memcmp(psz, pCS1->pBuf, pCS1->iStrLen);
} else {
return -1; /* pCS1 is less then psz */
}
}
/* check if a CStr object matches a regex.
* msamia@redhat.com 2007-07-12
* @return returns 0 if matched
* bug: doesn't work for CStr containing \0
* rgerhards, 2007-07-16: bug is no real bug, because rsyslogd ensures there
* never is a \0 *inside* a property string.
* Note that the function returns -1 if regexp functionality is not available.
* rgerhards: 2009-03-04: ERE support added, via parameter iType: 0 - BRE, 1 - ERE
* Arnaud Cornet/rgerhards: 2009-04-02: performance improvement by caching compiled regex
* If a caller does not need the cached version, it must still provide memory for it
* and must call rsCStrRegexDestruct() afterwards.
*/
rsRetVal rsCStrSzStrMatchRegex(cstr_t *pCS1, uchar *psz, int iType, void *rc)
{
regex_t **cache = (regex_t**) rc;
int ret;
DEFiRet;
assert(pCS1 != NULL);
assert(psz != NULL);
assert(cache != NULL);
if(objUse(regexp, LM_REGEXP_FILENAME) == RS_RET_OK) {
if (*cache == NULL) {
*cache = calloc(sizeof(regex_t), 1);
int errcode;
if((errcode = regexp.regcomp(*cache, (char*) rsCStrGetSzStrNoNULL(pCS1),
(iType == 1 ? REG_EXTENDED : 0) | REG_NOSUB))) {
char errbuff[512];
regexp.regerror(errcode, *cache, errbuff, sizeof(errbuff));
LogError(0, NO_ERRCODE, "Error in regular expression: %s\n", errbuff);
ABORT_FINALIZE(RS_RET_NOT_FOUND);
}
}
ret = regexp.regexec(*cache, (char*) psz, 0, NULL, 0);
if(ret != 0)
ABORT_FINALIZE(RS_RET_NOT_FOUND);
} else {
ABORT_FINALIZE(RS_RET_NOT_FOUND);
}
finalize_it:
RETiRet;
}
/* free a cached compiled regex
* Caller must provide a pointer to a buffer that was created by
* rsCStrSzStrMatchRegexCache()
*/
void rsCStrRegexDestruct(void *rc)
{
regex_t **cache = rc;
assert(cache != NULL);
assert(*cache != NULL);
if(objUse(regexp, LM_REGEXP_FILENAME) == RS_RET_OK) {
regexp.regfree(*cache);
free(*cache);
*cache = NULL;
}
}
/* compare a rsCStr object with a classical sz string. This function
* is almost identical to rsCStrZsStrCmp(), but it also takes an offset
* to the CStr object from where the comparison is to start.
* I have thought quite a while if it really makes sense to more or
* less duplicate the code. After all, if you call it with an offset of
* zero, the functionality is exactly the same. So it looks natural to
* just have a single function. However, supporting the offset requires
* some (few) additional integer operations. While they are few, they
* happen at places in the code that is run very frequently. All in all,
* I have opted for performance and thus duplicated the code. I hope
* this is a good, or at least acceptable, compromise.
* rgerhards, 2005-09-26
* This function also has an offset-pointer which allows one to
* specify *where* the compare operation should begin in
* the CStr. If everything is to be compared, it must be set
* to 0. If some leading bytes are to be skipped, it must be set
* to the first index that is to be compared. It must not be
* set higher than the string length (this is considered a
* program bug and will lead to unpredictable results and program aborts).
* rgerhards 2005-09-26
*/
int rsCStrOffsetSzStrCmp(cstr_t *pCS1, size_t iOffset, uchar *psz, size_t iLenSz)
{
rsCHECKVALIDOBJECT(pCS1, OIDrsCStr);
assert(iOffset < pCS1->iStrLen);
assert(iLenSz == strlen((char*)psz)); /* just make sure during debugging! */
if((pCS1->iStrLen - iOffset) == iLenSz) {
/* we are using iLenSz below, because the lengths
* are equal and iLenSz is faster to access
*/
if(iLenSz == 0) {
return 0; /* zero-sized strings are equal ;) */
} else { /* we now have two non-empty strings of equal
* length, so we need to actually check if they
* are equal.
*/
return memcmp(pCS1->pBuf+iOffset, psz, iLenSz);
}
}
else {
return pCS1->iStrLen - iOffset - iLenSz;
}
}
/* compare a rsCStr object with a classical sz string.
* Just like rsCStrCStrCmp, just for a different data type.
* There must not only the sz string but also its length be
* provided. If the caller does not know the length he can
* call with
* rsCstrSzStrCmp(pCS, psz, strlen((char*)psz));
* we are not doing the strlen((char*)) ourselfs as the caller might
* already know the length and in such cases we can save the
* overhead of doing it one more time (strelen() is costly!).
* The bottom line is that the provided length MUST be correct!
* The to sz string pointer must not be NULL!
* rgerhards 2005-09-26
*/
int rsCStrSzStrCmp(cstr_t *pCS1, uchar *psz, size_t iLenSz)
{
rsCHECKVALIDOBJECT(pCS1, OIDrsCStr);
assert(psz != NULL);
assert(iLenSz == strlen((char*)psz)); /* just make sure during debugging! */
if(pCS1->iStrLen == iLenSz)
if(iLenSz == 0)
return 0; /* zero-sized strings are equal ;) */
else
return strncmp((char*)pCS1->pBuf, (char*)psz, iLenSz);
else
return (ssize_t) pCS1->iStrLen - (ssize_t) iLenSz;
}
/* Locate the first occurrence of this rsCStr object inside a standard sz string.
* Returns the offset (0-bound) of this first occurrence. If not found, -1 is
* returned. Both parameters MUST be given (NULL is not allowed).
* rgerhards 2005-09-19
*/
int ATTR_NONNULL(1, 2)
rsCStrLocateInSzStr(cstr_t *const pThis, uchar *const sz)
{
size_t i;
size_t iMax;
size_t len_sz = ustrlen(sz);
int bFound;
rsCHECKVALIDOBJECT(pThis, OIDrsCStr);
assert(sz != NULL);
if(pThis->iStrLen == 0)
return 0;
/* compute the largest index where a match could occur - after all,
* the to-be-located string must be able to be present in the
* searched string (it needs its size ;)).
*/
iMax = (pThis->iStrLen >= len_sz) ? 0 : len_sz - pThis->iStrLen;
bFound = 0;
i = 0;
while(i <= iMax && !bFound) {
size_t iCheck;
uchar *pComp = sz + i;
for(iCheck = 0 ; iCheck < pThis->iStrLen ; ++iCheck)
if(*(pComp + iCheck) != *(pThis->pBuf + iCheck))
break;
if(iCheck == pThis->iStrLen)
bFound = 1; /* found! - else it wouldn't be equal */
else
++i; /* on to the next try */
}
return(bFound ? (int) i : -1);
}
/* our exit function. TODO: remove once converted to a class
* rgerhards, 2008-03-11
*/
rsRetVal strExit(void)
{
DEFiRet;
objRelease(regexp, LM_REGEXP_FILENAME);
RETiRet;
}
/* our init function. TODO: remove once converted to a class
*/
rsRetVal
strInit(void)
{
DEFiRet;
CHKiRet(objGetObjInterface(&obj));
finalize_it:
RETiRet;
}
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