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|
// ---------------------------------------------------------------------------80
// ICQ plugin for Miranda Instant Messenger
// ________________________________________
//
// Copyright © 2000-2001 Richard Hughes, Roland Rabien, Tristan Van de Vreede
// Copyright © 2001-2002 Jon Keating, Richard Hughes
// Copyright © 2002-2004 Martin Öberg, Sam Kothari, Robert Rainwater
// Copyright © 2004-2010 Joe Kucera, Bio
// Copyright © 2012-2014 Miranda NG Team
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
// -----------------------------------------------------------------------------
#include "icqoscar.h"
WORD generate_flap_sequence()
{
DWORD n = rand(), s = 0;
for (DWORD i = n; i >>= 3; s += i);
return (((0 - s) ^ (BYTE)n) & 7 ^ n) + 2;
}
void __fastcall init_generic_packet(icq_packet *pPacket, WORD wHeaderLen)
{
pPacket->wPlace = 0;
pPacket->wLen += wHeaderLen;
pPacket->pData = (BYTE*)SAFE_MALLOC(pPacket->wLen);
}
void write_httphdr(icq_packet *pPacket, WORD wType, DWORD dwSeq)
{
init_generic_packet(pPacket, 14);
packWord(pPacket, (WORD)(pPacket->wLen - 2));
packWord(pPacket, HTTP_PROXY_VERSION);
packWord(pPacket, wType);
packDWord(pPacket, 0); // Flags?
packDWord(pPacket, dwSeq); // Connection sequence ?
}
void __fastcall write_flap(icq_packet *pPacket, BYTE byFlapChannel)
{
init_generic_packet(pPacket, 6);
pPacket->nChannel = byFlapChannel;
packByte(pPacket, FLAP_MARKER);
packByte(pPacket, byFlapChannel);
packWord(pPacket, 0); // This is the sequence ID, it is filled in during the actual sending
packWord(pPacket, (WORD)(pPacket->wLen - 6)); // This counter should not include the flap header (thus the -6)
}
void __fastcall serverPacketInit(icq_packet *pPacket, size_t wSize)
{
pPacket->wLen = (WORD)wSize;
write_flap(pPacket, ICQ_DATA_CHAN);
}
void __fastcall directPacketInit(icq_packet *pPacket, size_t dwSize)
{
pPacket->wPlace = 0;
pPacket->wLen = (WORD)dwSize;
pPacket->pData = (BYTE *)SAFE_MALLOC(dwSize + 2);
packLEWord(pPacket, pPacket->wLen);
}
void __fastcall serverCookieInit(icq_packet *pPacket, BYTE *pCookie, size_t wCookieSize)
{
pPacket->wLen = (WORD)(wCookieSize + 8 + sizeof(CLIENT_ID_STRING) + 66);
write_flap(pPacket, ICQ_LOGIN_CHAN);
packDWord(pPacket, 0x00000001);
packTLV(pPacket, 0x06, wCookieSize, pCookie);
// Pack client identification details.
packTLV(pPacket, 0x0003, (WORD)sizeof(CLIENT_ID_STRING) - 1, (LPBYTE)CLIENT_ID_STRING);
packTLVWord(pPacket, 0x0017, CLIENT_VERSION_MAJOR);
packTLVWord(pPacket, 0x0018, CLIENT_VERSION_MINOR);
packTLVWord(pPacket, 0x0019, CLIENT_VERSION_LESSER);
packTLVWord(pPacket, 0x001a, CLIENT_VERSION_BUILD);
packTLVWord(pPacket, 0x0016, CLIENT_ID_CODE);
packTLVDWord(pPacket, 0x0014, CLIENT_DISTRIBUTION);
packTLV(pPacket, 0x000f, 0x0002, (LPBYTE)CLIENT_LANGUAGE);
packTLV(pPacket, 0x000e, 0x0002, (LPBYTE)CLIENT_COUNTRY);
packDWord(pPacket, 0x00940001); // reconnect flag
packByte(pPacket, 0);
packTLVDWord(pPacket, 0x8003, 0x00100000); // Unknown
}
void __fastcall packByte(icq_packet *pPacket, BYTE byValue)
{
pPacket->pData[pPacket->wPlace++] = byValue;
}
void __fastcall packWord(icq_packet *pPacket, WORD wValue)
{
pPacket->pData[pPacket->wPlace++] = ((wValue & 0xff00) >> 8);
pPacket->pData[pPacket->wPlace++] = (wValue & 0x00ff);
}
void __fastcall packDWord(icq_packet *pPacket, DWORD dwValue)
{
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0xff000000) >> 24);
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0x00ff0000) >> 16);
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0x0000ff00) >> 8);
pPacket->pData[pPacket->wPlace++] = (BYTE)(dwValue & 0x000000ff);
}
void __fastcall packQWord(icq_packet *pPacket, DWORD64 qwValue)
{
packDWord(pPacket, (DWORD)(qwValue >> 32));
packDWord(pPacket, (DWORD)(qwValue & 0xffffffff));
}
void packTLV(icq_packet *pPacket, WORD wType, size_t wLength, const BYTE *pbyValue)
{
packWord(pPacket, wType);
packWord(pPacket, (WORD)wLength);
packBuffer(pPacket, pbyValue, wLength);
}
void packTLVWord(icq_packet *pPacket, WORD wType, WORD wValue)
{
packWord(pPacket, wType);
packWord(pPacket, 0x02);
packWord(pPacket, wValue);
}
void packTLVDWord(icq_packet *pPacket, WORD wType, DWORD dwValue)
{
packWord(pPacket, wType);
packWord(pPacket, 0x04);
packDWord(pPacket, dwValue);
}
void packTLVUID(icq_packet *pPacket, WORD wType, DWORD dwUin, const char *szUid)
{
if (dwUin) {
char szUin[UINMAXLEN];
_ltoa(dwUin, szUin, 10);
packTLV(pPacket, wType, getUINLen(dwUin), (BYTE*)szUin);
}
else if (szUid)
packTLV(pPacket, wType, mir_strlen(szUid), (BYTE*)szUid);
}
// Pack a preformatted buffer.
// This can be used to pack strings or any type of raw data.
void packBuffer(icq_packet *pPacket, const BYTE* pbyBuffer, size_t wLength)
{
while (wLength) {
pPacket->pData[pPacket->wPlace++] = *pbyBuffer++;
wLength--;
}
}
int __fastcall getUINLen(DWORD dwUin)
{
BYTE dwUinLen = 0;
while (dwUin) {
dwUin /= 10;
dwUinLen += 1;
}
return dwUinLen;
}
int __fastcall getUIDLen(DWORD dwUin, const char *szUid)
{
if (dwUin)
return getUINLen(dwUin);
return (int)mir_strlen(szUid);
}
void __fastcall packUIN(icq_packet *pPacket, DWORD dwUin)
{
char pszUin[UINMAXLEN];
BYTE nUinLen = getUINLen(dwUin);
_ltoa(dwUin, pszUin, 10);
packByte(pPacket, nUinLen); // Length of user id
packBuffer(pPacket, (LPBYTE)pszUin, nUinLen); // Receiving user's id
}
void __fastcall packUID(icq_packet *pPacket, DWORD dwUin, const char *szUid)
{
if (dwUin)
packUIN(pPacket, dwUin);
else {
BYTE nLen = (BYTE)mir_strlen(szUid);
packByte(pPacket, nLen);
packBuffer(pPacket, (LPBYTE)szUid, nLen);
}
}
void packFNACHeader(icq_packet *pPacket, WORD wFamily, WORD wSubtype)
{
packFNACHeader(pPacket, wFamily, wSubtype, 0, wSubtype << 0x10);
}
void packFNACHeader(icq_packet *pPacket, WORD wFamily, WORD wSubtype, WORD wFlags, DWORD dwSequence)
{
WORD wSequence = (WORD)dwSequence & 0x7FFF; // this is necessary, if that bit is there we get disconnected
packWord(pPacket, wFamily); // Family type
packWord(pPacket, wSubtype); // Family subtype
packWord(pPacket, wFlags); // SNAC flags
packWord(pPacket, wSequence); // SNAC request id (sequence)
packWord(pPacket, (WORD)(dwSequence >> 0x10)); // SNAC request id (command)
}
void packFNACHeader(icq_packet *pPacket, WORD wFamily, WORD wSubtype, WORD wFlags, DWORD dwSequence, WORD wVersion)
{
packFNACHeader(pPacket, wFamily, wSubtype, wFlags | 0x8000, dwSequence);
packWord(pPacket, 0x06);
packTLVWord(pPacket, 0x01, wVersion);
}
void __fastcall packLEWord(icq_packet *pPacket, WORD wValue)
{
pPacket->pData[pPacket->wPlace++] = (wValue & 0x00ff);
pPacket->pData[pPacket->wPlace++] = ((wValue & 0xff00) >> 8);
}
void __fastcall packLEDWord(icq_packet *pPacket, DWORD dwValue)
{
pPacket->pData[pPacket->wPlace++] = (BYTE)(dwValue & 0x000000ff);
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0x0000ff00) >> 8);
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0x00ff0000) >> 16);
pPacket->pData[pPacket->wPlace++] = (BYTE)((dwValue & 0xff000000) >> 24);
}
/* helper function to place numerics to buffer */
static void packWord(PBYTE buf, WORD wValue)
{
*(buf) = ((wValue & 0xff00) >> 8);
*(buf + 1) = (wValue & 0x00ff);
}
static void packDWord(PBYTE buf, DWORD dwValue)
{
*(buf) = (BYTE)((dwValue & 0xff000000) >> 24);
*(buf + 1) = (BYTE)((dwValue & 0x00ff0000) >> 16);
*(buf + 2) = (BYTE)((dwValue & 0x0000ff00) >> 8);
*(buf + 3) = (BYTE)(dwValue & 0x000000ff);
}
static void packQWord(PBYTE buf, DWORD64 qwValue)
{
packDWord(buf, (DWORD)(qwValue >> 32));
packDWord(buf + 4, (DWORD)(qwValue & 0xffffffff));
}
void ppackByte(PBYTE *buf, size_t *buflen, BYTE byValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 1 + *buflen);
*(*buf + *buflen) = byValue;
++*buflen;
}
void ppackWord(PBYTE *buf, size_t *buflen, WORD wValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 2 + *buflen);
packWord(*buf + *buflen, wValue);
*buflen += 2;
}
void ppackLEWord(PBYTE *buf, size_t *buflen, WORD wValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 2 + *buflen);
*(PWORD)(*buf + *buflen) = wValue;
*buflen += 2;
}
void ppackLEDWord(PBYTE *buf, size_t *buflen, DWORD dwValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 4 + *buflen);
*(PDWORD)(*buf + *buflen) = dwValue;
*buflen += 4;
}
void ppackLELNTS(PBYTE *buf, size_t *buflen, const char *str)
{
size_t len = mir_strlen(str);
ppackLEWord(buf, buflen, (WORD)len);
*buf = (PBYTE)SAFE_REALLOC(*buf, *buflen + len);
memcpy(*buf + *buflen, str, len);
*buflen += (WORD)len;
}
void ppackBuffer(PBYTE *buf, size_t *buflen, size_t wLength, const BYTE *pbyValue)
{
if (wLength) {
*buf = (PBYTE)SAFE_REALLOC(*buf, wLength + *buflen);
memcpy(*buf + *buflen, pbyValue, wLength);
*buflen += wLength;
}
}
void ppackTLV(PBYTE *buf, size_t *buflen, WORD wType, size_t wLength, const BYTE *pbyValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 4 + wLength + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, (WORD)wLength);
if (wLength)
memcpy(*buf + *buflen + 4, pbyValue, wLength);
*buflen += 4 + wLength;
}
void ppackTLVByte(PBYTE *buf, size_t *buflen, WORD wType, BYTE byValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 5 + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 1);
*(*buf + *buflen + 4) = byValue;
*buflen += 5;
}
void ppackTLVWord(PBYTE *buf, size_t *buflen, WORD wType, WORD wValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 6 + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 2);
packWord(*buf + *buflen + 4, wValue);
*buflen += 6;
}
void ppackTLVDWord(PBYTE *buf, size_t *buflen, WORD wType, DWORD dwValue)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 8 + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 4);
packDWord(*buf + *buflen + 4, dwValue);
*buflen += 8;
}
void ppackTLVDouble(PBYTE *buf, size_t *buflen, WORD wType, double dValue)
{
DWORD64 qwValue;
memcpy(&qwValue, &dValue, 8);
*buf = (PBYTE)SAFE_REALLOC(*buf, 12 + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 8);
packQWord(*buf + *buflen + 4, qwValue);
*buflen += 12;
}
void ppackTLVUID(PBYTE *buf, size_t *buflen, WORD wType, DWORD dwUin, const char *szUid)
{
if (dwUin) {
char szUin[UINMAXLEN];
_ltoa(dwUin, szUin, 10);
ppackTLV(buf, buflen, wType, getUINLen(dwUin), (BYTE*)szUin);
}
else if (szUid)
ppackTLV(buf, buflen, wType, mir_strlen(szUid), (BYTE*)szUid);
}
// *** TLV based (!!! WORDs and DWORDs are LE !!!)
void ppackLETLVByte(PBYTE *buf, size_t *buflen, BYTE byValue, WORD wType, BYTE always)
{
if (!always && !byValue) return;
*buf = (PBYTE)SAFE_REALLOC(*buf, 5 + *buflen);
*(PWORD)(*buf + *buflen) = wType;
*(PWORD)(*buf + *buflen + 2) = 1;
*(*buf + *buflen + 4) = byValue;
*buflen += 5;
}
void ppackLETLVWord(PBYTE *buf, size_t *buflen, WORD wValue, WORD wType, BYTE always)
{
if (!always && !wValue) return;
*buf = (PBYTE)SAFE_REALLOC(*buf, 6 + *buflen);
*(PWORD)(*buf + *buflen) = wType;
*(PWORD)(*buf + *buflen + 2) = 2;
*(PWORD)(*buf + *buflen + 4) = wValue;
*buflen += 6;
}
void ppackLETLVDWord(PBYTE *buf, size_t *buflen, DWORD dwValue, WORD wType, BYTE always)
{
if (!always && !dwValue) return;
*buf = (PBYTE)SAFE_REALLOC(*buf, 8 + *buflen);
*(PWORD)(*buf + *buflen) = wType;
*(PWORD)(*buf + *buflen + 2) = 4;
*(PDWORD)(*buf + *buflen + 4) = dwValue;
*buflen += 8;
}
void packLETLVLNTS(PBYTE *buf, size_t *bufpos, const char *str, WORD wType)
{
size_t len = mir_strlen(str) + 1;
*(PWORD)(*buf + *bufpos) = wType;
*(PWORD)(*buf + *bufpos + 2) = DWORD(len + 2);
*(PWORD)(*buf + *bufpos + 4) = DWORD(len);
memcpy(*buf + *bufpos + 6, str, len);
*bufpos += len + 6;
}
void ppackLETLVLNTS(PBYTE *buf, size_t *buflen, const char *str, WORD wType, BYTE always)
{
size_t len = mir_strlen(str) + 1;
if (!always && len < 2) return;
*buf = (PBYTE)SAFE_REALLOC(*buf, 6 + *buflen + len);
packLETLVLNTS(buf, buflen, str, wType);
}
void ppackLETLVWordLNTS(PBYTE *buf, size_t *buflen, WORD w, const char *str, WORD wType, BYTE always)
{
size_t len = mir_strlen(str) + 1;
if (!always && len < 2 && !w) return;
*buf = (PBYTE)SAFE_REALLOC(*buf, 8 + *buflen + len);
*(PWORD)(*buf + *buflen) = wType;
*(PWORD)(*buf + *buflen + 2) = DWORD(len + 4);
*(PWORD)(*buf + *buflen + 4) = w;
*(PWORD)(*buf + *buflen + 6) = DWORD(len);
memcpy(*buf + *buflen + 8, str, len);
*buflen += len + 8;
}
void ppackLETLVLNTSByte(PBYTE *buf, size_t *buflen, const char *str, BYTE b, WORD wType)
{
size_t len = mir_strlen(str) + 1;
*buf = (PBYTE)SAFE_REALLOC(*buf, 7 + *buflen + len);
*(PWORD)(*buf + *buflen) = wType;
*(PWORD)(*buf + *buflen + 2) = DWORD(len + 3);
*(PWORD)(*buf + *buflen + 4) = DWORD(len);
memcpy(*buf + *buflen + 6, str, len);
*(*buf + *buflen + 6 + len) = b;
*buflen += len + 7;
}
void CIcqProto::ppackLETLVLNTSfromDB(PBYTE *buf, size_t *buflen, const char *szSetting, WORD wType)
{
char szTmp[1024];
char *str = "";
if (!getSettingStringStatic(NULL, szSetting, szTmp, sizeof(szTmp)))
str = szTmp;
ppackLETLVLNTS(buf, buflen, str, wType, 1);
}
void CIcqProto::ppackLETLVWordLNTSfromDB(PBYTE *buf, size_t *buflen, WORD w, const char *szSetting, WORD wType)
{
char szTmp[1024];
char *str = "";
if (!getSettingStringStatic(NULL, szSetting, szTmp, sizeof(szTmp)))
str = szTmp;
ppackLETLVWordLNTS(buf, buflen, w, str, wType, 1);
}
void CIcqProto::ppackLETLVLNTSBytefromDB(PBYTE *buf, size_t *buflen, const char *szSetting, BYTE b, WORD wType)
{
char szTmp[1024];
char *str = "";
if (!getSettingStringStatic(NULL, szSetting, szTmp, sizeof(szTmp)))
str = szTmp;
ppackLETLVLNTSByte(buf, buflen, str, b, wType);
}
void CIcqProto::ppackTLVStringFromDB(PBYTE *buf, size_t *buflen, const char *szSetting, WORD wType)
{
char szTmp[1024];
char *str = "";
if (!getSettingStringStatic(NULL, szSetting, szTmp, sizeof(szTmp)))
str = szTmp;
ppackTLV(buf, buflen, wType, mir_strlen(str), (PBYTE)str);
}
void CIcqProto::ppackTLVStringUtfFromDB(PBYTE *buf, size_t *buflen, const char *szSetting, WORD wType)
{
char *str = getSettingStringUtf(NULL, szSetting, NULL);
ppackTLV(buf, buflen, wType, mir_strlen(str), (PBYTE)str);
SAFE_FREE((void**)&str);
}
void CIcqProto::ppackTLVDateFromDB(PBYTE *buf, size_t *buflen, const char *szSettingYear, const char *szSettingMonth, const char *szSettingDay, WORD wType)
{
SYSTEMTIME sTime = { 0 };
double time = 0;
sTime.wYear = getWord(szSettingYear, 0);
sTime.wMonth = getByte(szSettingMonth, 0);
sTime.wDay = getByte(szSettingDay, 0);
if (sTime.wYear || sTime.wMonth || sTime.wDay) {
SystemTimeToVariantTime(&sTime, &time);
time -= 2;
}
ppackTLVDouble(buf, buflen, wType, time);
}
int CIcqProto::ppackTLVWordStringItemFromDB(PBYTE *buf, size_t *buflen, const char *szSetting, WORD wTypeID, WORD wTypeData, WORD wID)
{
char szTmp[1024];
char *str = NULL;
if (!getSettingStringStatic(NULL, szSetting, szTmp, sizeof(szTmp)))
str = szTmp;
if (str) {
size_t wLen = mir_strlen(str);
ppackWord(buf, buflen, WORD(wLen + 0x0A));
ppackTLVWord(buf, buflen, wTypeID, wID);
ppackTLV(buf, buflen, wTypeData, wLen, (PBYTE)str);
return 1; // Success
}
return 0; // No data
}
int CIcqProto::ppackTLVWordStringUtfItemFromDB(PBYTE *buf, size_t *buflen, const char *szSetting, WORD wTypeID, WORD wTypeData, WORD wID)
{
char *str = getSettingStringUtf(NULL, szSetting, NULL);
if (str) {
size_t wLen = mir_strlen(str);
ppackWord(buf, buflen, WORD(wLen + 0x0A));
ppackTLVWord(buf, buflen, wTypeID, wID);
ppackTLV(buf, buflen, wTypeData, wLen, (PBYTE)str);
SAFE_FREE(&str);
return 1; // Success
}
return 0; // No data
}
void ppackTLVBlockItems(PBYTE *buf, size_t *buflen, WORD wType, int *nItems, PBYTE *pBlock, WORD *wLength, BOOL bSingleItem)
{
*buf = (PBYTE)SAFE_REALLOC(*buf, 8 + *buflen + *wLength);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, (bSingleItem ? 4 : 2) + *wLength);
packWord(*buf + *buflen + 4, *nItems);
if (bSingleItem)
packWord(*buf + *buflen + 6, *wLength);
if (*wLength)
memcpy(*buf + *buflen + (bSingleItem ? 8 : 6), *pBlock, *wLength);
*buflen += (bSingleItem ? 8 : 6) + *wLength;
SAFE_FREE((void**)pBlock);
*wLength = 0;
*nItems = 0;
}
void ppackTLVBlockItem(PBYTE *buf, size_t *buflen, WORD wType, PBYTE *pItem, WORD *wLength)
{
if (wLength) {
*buf = (PBYTE)SAFE_REALLOC(*buf, 8 + *buflen + *wLength);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 4 + *wLength);
packWord(*buf + *buflen + 4, 1);
packWord(*buf + *buflen + 6, *wLength);
memcpy(*buf + *buflen + 8, *pItem, *wLength);
*buflen += 8 + *wLength;
}
else {
*buf = (PBYTE)SAFE_REALLOC(*buf, 6 + *buflen);
packWord(*buf + *buflen, wType);
packWord(*buf + *buflen + 2, 0x02);
packWord(*buf + *buflen + 4, 0);
*buflen += 6;
}
SAFE_FREE((void**)pItem);
*wLength = 0;
}
void __fastcall unpackByte(BYTE **pSource, BYTE *byDestination)
{
if (byDestination)
*byDestination = *(*pSource)++;
else
*pSource += 1;
}
void __fastcall unpackWord(BYTE **pSource, WORD *wDestination)
{
BYTE *tmp = *pSource;
if (wDestination) {
*wDestination = *tmp++ << 8;
*wDestination |= *tmp++;
*pSource = tmp;
}
else *pSource += 2;
}
void __fastcall unpackWord(BYTE **pSource, size_t *wDestination)
{
BYTE *tmp = *pSource;
if (wDestination) {
*wDestination = *tmp++ << 8;
*wDestination |= *tmp++;
*pSource = tmp;
}
else *pSource += 2;
}
void __fastcall unpackDWord(BYTE **pSource, DWORD *dwDestination)
{
BYTE *tmp = *pSource;
if (dwDestination) {
*dwDestination = *tmp++ << 24;
*dwDestination |= *tmp++ << 16;
*dwDestination |= *tmp++ << 8;
*dwDestination |= *tmp++;
*pSource = tmp;
}
else *pSource += 4;
}
void __fastcall unpackQWord(BYTE **pSource, DWORD64 *qwDestination)
{
DWORD dwData;
if (qwDestination) {
unpackDWord(pSource, &dwData);
*qwDestination = ((DWORD64)dwData) << 32;
unpackDWord(pSource, &dwData);
*qwDestination |= dwData;
}
else
*pSource += 8;
}
void __fastcall unpackLEWord(BYTE **buf, WORD *w)
{
BYTE *tmp = *buf;
if (w) {
*w = (*tmp++);
*w |= ((*tmp++) << 8);
}
else tmp += 2;
*buf = tmp;
}
void __fastcall unpackLEWord(BYTE **buf, size_t *w)
{
BYTE *tmp = *buf;
if (w) {
*w = (*tmp++);
*w |= ((*tmp++) << 8);
}
else tmp += 2;
*buf = tmp;
}
void __fastcall unpackLEDWord(BYTE **buf, DWORD *dw)
{
BYTE *tmp = *buf;
if (dw) {
*dw = (*tmp++);
*dw |= ((*tmp++) << 8);
*dw |= ((*tmp++) << 16);
*dw |= ((*tmp++) << 24);
}
else tmp += 4;
*buf = tmp;
}
void __fastcall unpackLEDWord(BYTE **buf, size_t *dw)
{
BYTE *tmp = *buf;
if (dw) {
*dw = (*tmp++);
*dw |= ((*tmp++) << 8);
*dw |= ((*tmp++) << 16);
*dw |= ((*tmp++) << 24);
}
else tmp += 4;
*buf = tmp;
}
void unpackString(BYTE **buf, char *string, size_t len)
{
BYTE *tmp = *buf;
if (string) {
while (len) /* Can have 0x00 so go by len */
{
*string++ = *tmp++;
len--;
}
}
else
tmp += len;
*buf = tmp;
}
void unpackWideString(BYTE **buf, WCHAR *string, size_t len)
{
BYTE *tmp = *buf;
while (len > 1) {
*string = (*tmp++ << 8);
*string |= *tmp++;
string++;
len -= 2;
}
// We have a stray byte at the end, this means that the buffer had an odd length
// which indicates an error.
_ASSERTE(len == 0);
if (len != 0) {
// We dont copy the last byte but we still need to increase the buffer pointer
// (we assume that 'len' was correct) since the calling function expects
// that it is increased 'len' bytes.
*tmp += (BYTE)len;
}
*buf = tmp;
}
void unpackTypedTLV(BYTE *buf, size_t buflen, WORD type, WORD *ttype, size_t *tlen, BYTE **ttlv)
{
WORD wType;
size_t wLen;
NextTLV:
// Unpack type and length
unpackWord(&buf, &wType);
unpackWord(&buf, &wLen);
buflen -= 4;
if (wType != type && buflen >= wLen + 4) { // Not the right TLV, try next
buflen -= wLen;
buf += wLen;
goto NextTLV;
}
// Check buffer size
if (wLen > buflen) wLen = buflen;
// Make sure we have a good pointer
if (ttlv) {
if (wLen) { // Unpack and save value
*ttlv = (BYTE*)SAFE_MALLOC(wLen + 1); // Add 1 for \0
unpackString(&buf, (char*)*ttlv, wLen);
*(*ttlv + wLen) = '\0';
}
else
*ttlv = NULL;
}
// Save type and length
if (ttype)
*ttype = wType;
if (tlen)
*tlen = wLen;
}
BOOL CIcqProto::unpackUID(BYTE **ppBuf, size_t *pwLen, DWORD *pdwUIN, uid_str *ppszUID)
{
// sanity check
if (!ppBuf || !pwLen || *pwLen < 1)
return FALSE;
// Sender UIN
BYTE nUIDLen;
unpackByte(ppBuf, &nUIDLen);
*pwLen -= 1;
if ((nUIDLen > *pwLen) || (nUIDLen == 0))
return FALSE;
if (nUIDLen <= UINMAXLEN) { // it can be uin, check
char szUIN[UINMAXLEN + 1];
unpackString(ppBuf, szUIN, nUIDLen);
szUIN[nUIDLen] = '\0';
*pwLen -= nUIDLen;
if (IsStringUIN(szUIN)) {
*pdwUIN = atoi(szUIN);
return TRUE;
}
else { // go back
*ppBuf -= nUIDLen;
*pwLen += nUIDLen;
}
}
if (!m_bAimEnabled || !ppszUID || !(*ppszUID)) { // skip the UID data
*ppBuf += nUIDLen;
*pwLen -= nUIDLen;
debugLogA("Malformed UIN in packet");
return FALSE;
}
unpackString(ppBuf, *ppszUID, nUIDLen);
*pwLen -= nUIDLen;
(*ppszUID)[nUIDLen] = '\0';
*pdwUIN = 0; // this is how we determine aim contacts internally
return TRUE;
}
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