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//==================================================
// FILE: DigiDocMem.c
// PROJECT: Digi Doc
// DESCRIPTION: Digi Doc functions for memory buffer management
// AUTHOR: Veiko Sinivee, S|E|B IT Partner Estonia
//==================================================
// Copyright (C) AS Sertifitseerimiskeskus
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
// GNU Lesser General Public Licence is available at
// http://www.gnu.org/copyleft/lesser.html
//==========< HISTORY >=============================
// 09.09.2004 Veiko Sinivee
// Creation
//==================================================
#include <libdigidoc/DigiDocMem.h>
#include <libdigidoc/DigiDocLib.h>
#include <libdigidoc/DigiDocError.h>
#include <libdigidoc/DigiDocDebug.h>
#include <string.h>
//--------------------------------------------------
// Helper function to append data to a memory buffer
// and grow it as required.
// pBuf - address of memory buffer pointer
// data - new data to be appended
// len - length of data or -1 for zero terminated strings
//--------------------------------------------------
EXP_OPTION int ddocMemAppendData(DigiDocMemBuf* pBuf, const char* data, long len)
{
long addLen = len;
RETURN_IF_NULL_PARAM(pBuf);
RETURN_IF_NULL_PARAM(data);
if(addLen == -1)
addLen = strlen(data);
// ddocDebug(7, "ddocAppendData", "Len: %ld data: \'%s\'", addLen, data);
pBuf->pMem = realloc(pBuf->pMem, pBuf->nLen + addLen + 1);
if(!pBuf->pMem)
SET_LAST_ERROR_RETURN(ERR_BAD_ALLOC, ERR_BAD_ALLOC);
memset((char*)pBuf->pMem + pBuf->nLen, 0, addLen+1);
memcpy((char*)pBuf->pMem + pBuf->nLen, data, addLen);
pBuf->nLen += addLen;
// ddocDebug(8, "ddocAppendData", "BUFFER Len: %ld data:\'%s\'", pBuf->nLen, pBuf->pMem);
return ERR_OK;
}
//--------------------------------------------------
// Helper function to set buffer length as required
// It will fill acquired mem with zeros.
// pBuf - address of memory buffer pointer
// len - new length of buffer
//--------------------------------------------------
EXP_OPTION int ddocMemSetLength(DigiDocMemBuf* pBuf, long len)
{
long addLen = len;
RETURN_IF_NULL_PARAM(pBuf);
addLen = len - pBuf->nLen;
// ddocDebug(7, "ddocMemSetLength", "Len: %ld", addLen);
pBuf->pMem = realloc(pBuf->pMem, pBuf->nLen + addLen + 1);
if(!pBuf->pMem)
SET_LAST_ERROR_RETURN(ERR_BAD_ALLOC, ERR_BAD_ALLOC);
memset((char*)pBuf->pMem + pBuf->nLen, 0, addLen+1);
pBuf->nLen += addLen;
// ddocDebug(8, "ddocMemSetLength", "BUFFER Len: %ld data:\'%s\'", pBuf->nLen, pBuf->pMem);
return ERR_OK;
}
//--------------------------------------------------
// Helper function to assign data to a memory buffer
// and release old content if necessary
// pBuf - address of memory buffer pointer
// data - new data to be appended
// len - length of data or -1 for zero terminated strings
//--------------------------------------------------
EXP_OPTION int ddocMemAssignData(DigiDocMemBuf* pBuf, const char* data, long len)
{
RETURN_IF_NULL_PARAM(pBuf);
RETURN_IF_NULL_PARAM(data);
// ddocDebug(7, "ddocAssignData", "Len: %d data: \'%s\'", len, data);
if(pBuf->pMem)
free(pBuf->pMem);
pBuf->pMem = 0;
pBuf->nLen = 0;
return ddocMemAppendData(pBuf, data, len);
}
EXP_OPTION int ddocMemAssignData2(DigiDocMemBuf* pBuf, const char* data, long len)
{
RETURN_IF_NULL_PARAM(pBuf);
RETURN_IF_NULL_PARAM(data);
// ddocDebug(7, "ddocAssignData", "Len: %d data: \'%s\'", len, data);
pBuf->pMem = 0;
pBuf->nLen = 0;
return ddocMemAppendData(pBuf, data, len);
}
//--------------------------------------------------
// Helper function to free/cleanup memory buffer
// This does not attempt to release the buffer object
// itself but only it's contents.
// pBuf - memory buffer pointer
//--------------------------------------------------
EXP_OPTION int ddocMemBuf_free(DigiDocMemBuf* pBuf)
{
RETURN_IF_NULL_PARAM(pBuf);
if(pBuf->pMem)
free(pBuf->pMem);
pBuf->pMem = 0;
pBuf->nLen = 0;
return ERR_OK;
}
//--------------------------------------------------
// Helper function to assign zero terminated strings
// and release old content if necessary
// dest - destination address
// src - new data to be assigned
//--------------------------------------------------
EXP_OPTION int ddocMemAssignString(char** dest, const char* src)
{
int i;
RETURN_IF_NULL_PARAM(dest);
RETURN_IF_NULL_PARAM(src);
if(*dest)
free(*dest);
i = strlen(src) + 10;
*dest = malloc(i);
if(*dest) {
memset(*dest, 0, i);
strncpy(*dest, src, strlen(src));
}
//*dest = (char*)strdup(src);
if(!dest)
SET_LAST_ERROR_RETURN(ERR_BAD_ALLOC, ERR_BAD_ALLOC)
else
return ERR_OK;
}
//--------------------------------------------------
// Replaces a substring with another substring
// pBuf1 - memory buffer to search in
// pBuf2 - memory buffer to write converted value to
// search - search value
// replacement - replacement value
//--------------------------------------------------
EXP_OPTION int ddocMemReplaceSubstr(DigiDocMemBuf* pBuf1, DigiDocMemBuf* pBuf2,
const char* search, const char* replacement)
{
int err = ERR_OK, i, n;
RETURN_IF_NULL_PARAM(pBuf1);
RETURN_IF_NULL_PARAM(pBuf1->pMem);
RETURN_IF_NULL_PARAM(pBuf2);
RETURN_IF_NULL_PARAM(search);
RETURN_IF_NULL_PARAM(replacement);
//ddocDebug(7, "ddocMemReplaceSubstr", "Replace: \'%s\' with: \'%s\' in: \'%s\'",
// search, replacement, (const char*)pBuf1->pMem);
ddocMemBuf_free(pBuf2);
n = strlen(search);
for(i = 0; !err && (i < pBuf1->nLen); i++) {
if(!strncmp((char*)pBuf1->pMem + i, search, n)) { // match
err = ddocMemAppendData(pBuf2, replacement, -1);
i += strlen(search) - 1;
} else { // no match
err = ddocMemAppendData(pBuf2, (char*)pBuf1->pMem + i, 1);
}
}
return err;
}
//AM SMARTLINK
EXP_OPTION int ddocMemGetSubstr(DigiDocMemBuf* pBuf1, DigiDocMemBuf* pBuf2,
const char* search, const char* replacement)
{
int err = ERR_OK, i, n,found=0;
RETURN_IF_NULL_PARAM(pBuf1);
RETURN_IF_NULL_PARAM(pBuf1->pMem);
RETURN_IF_NULL_PARAM(pBuf2);
RETURN_IF_NULL_PARAM(search);
RETURN_IF_NULL_PARAM(replacement);
//ddocDebug(7, "ddocMemReplaceSubstr", "Replace: \'%s\' with: \'%s\' in: \'%s\'",
// search, replacement, (const char*)pBuf1->pMem);
ddocMemBuf_free(pBuf2);
n = strlen(search);
for(i = 0; !err && (i < pBuf1->nLen); i++) {
if(!strncmp((char*)pBuf1->pMem + i, search, n) && !found) { // match
err = ddocMemAppendData(pBuf2, search, -1);
i += strlen(search) - 1; found = 1;
} else if (found){
if(!strncmp((char*)pBuf1->pMem + i, replacement, n) && found) { // match
err = ddocMemAppendData(pBuf2, replacement, -1);
i += strlen(replacement) - 1; break;
}
err = ddocMemAppendData(pBuf2, (char*)pBuf1->pMem + i, 1);
}
}
return err;
}
//--------------------------------------------------
// Replaces a substring with another substring
// pBuf1 - memory buffer to search in
// pBuf2 - memory buffer to write converted value to
// search - search value
// replacement - replacement value
//--------------------------------------------------
EXP_OPTION char *replaceStr(char *str, char *orig, char *rep)
{
static char buffer[4096];
char *p;
if(!(p = strstr(str, orig)))
return str;
strncpy(buffer, str, p-str);
buffer[p-str] = '\0';
sprintf(buffer+(p-str), "%s%s", rep, p+strlen(orig));
return buffer;
}
//--------------------------------------------------
// Compares memory buffers
// pBuf1 - memory buffer to value 1
// pBuf2 - memory buffer to value 2
// return 0 if both buffers are equal, 1 if not equal
//--------------------------------------------------
EXP_OPTION int ddocMemCompareMemBufs(DigiDocMemBuf* pBuf1, DigiDocMemBuf* pBuf2)
{
int i;
RETURN_IF_NULL_PARAM(pBuf1);
RETURN_IF_NULL_PARAM(pBuf1->pMem);
RETURN_IF_NULL_PARAM(pBuf2);
RETURN_IF_NULL_PARAM(pBuf2->pMem);
if(pBuf1->nLen != pBuf2->nLen)
return 1;
for(i = 0; (i < pBuf1->nLen); i++) {
if(((char*)pBuf1->pMem)[i] != ((char*)pBuf2->pMem)[i])
return 1;
}
return 0;
}
int ddocMemPush(DigiDocMemBuf* pBuf, const char* tag)
{
RETURN_IF_NULL_PARAM(pBuf);
RETURN_IF_NULL_PARAM(tag);
//ddocDebug(3, "ddocMemPush", "Len: %ld data: \'%s\'", strlen(tag), tag);
ddocMemAppendData(pBuf, "/", -1);
ddocMemAppendData(pBuf, tag, -1);
//ddocDebug(3, "ddocMemPush", "BUFFER Len: %ld data:\'%s\'", pBuf->nLen, pBuf->pMem);
return ERR_OK;
}
const char* ddocMemPop(DigiDocMemBuf* pBuf)
{
char* p = 0;
int n = 0;
// set prt to end
if(pBuf && pBuf->nLen > 0) {
n = pBuf->nLen - 1;
p = &((char*)pBuf->pMem)[pBuf->nLen-1];
while(n > 0 && ((char*)pBuf->pMem)[n] != '/') {
p--;
n--;
}
if(n >= 0 && *p == '/') {
*p = 0;
pBuf->nLen = n;
p++; // return popped value
}
}
return p;
}
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