/*
Miranda NG: the free IM client for Microsoft* Windows*
Copyright (�) 2012-17 Miranda NG project (http://miranda-ng.org)
all portions of this codebase are copyrighted to the people
listed in contributors.txt.
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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "stdafx.h"
#define VLT(n) ((n == DBVT_UTF8 || n == DBVT_ENCRYPTED)?DBVT_ASCIIZ:n)
BOOL CDbxMdb::IsSettingEncrypted(LPCSTR szModule, LPCSTR szSetting)
{
if (!_strnicmp(szSetting, "password", 8)) return true;
if (!strcmp(szSetting, "NLProxyAuthPassword")) return true;
if (!strcmp(szSetting, "LNPassword")) return true;
if (!strcmp(szSetting, "FileProxyPassword")) return true;
if (!strcmp(szSetting, "TokenSecret")) return true;
if (!strcmp(szModule, "SecureIM")) {
if (!strcmp(szSetting, "pgp")) return true;
if (!strcmp(szSetting, "pgpPrivKey")) return true;
}
return false;
}
/////////////////////////////////////////////////////////////////////////////////////////
static bool ValidLookupName(LPCSTR szModule, LPCSTR szSetting)
{
if (!strcmp(szModule, META_PROTO))
return strcmp(szSetting, "IsSubcontact") && strcmp(szSetting, "ParentMetaID");
if (!strcmp(szModule, "Ignore"))
return false;
return true;
}
int CDbxMdb::GetContactSettingWorker(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting, DBVARIANT *dbv, int isStatic)
{
if (szSetting == NULL || szModule == NULL)
return 1;
size_t settingNameLen = strlen(szSetting);
size_t moduleNameLen = strlen(szModule);
LBL_Seek:
char *szCachedSettingName = m_cache->GetCachedSetting(szModule, szSetting, moduleNameLen, settingNameLen);
DBVARIANT *pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 0);
if (pCachedValue != NULL)
{
if (pCachedValue->type == DBVT_ASCIIZ || pCachedValue->type == DBVT_UTF8)
{
int cbOrigLen = dbv->cchVal;
char *cbOrigPtr = dbv->pszVal;
memcpy(dbv, pCachedValue, sizeof(DBVARIANT));
if (isStatic)
{
int cbLen = 0;
if (pCachedValue->pszVal != NULL)
cbLen = (int)strlen(pCachedValue->pszVal);
cbOrigLen--;
dbv->pszVal = cbOrigPtr;
if (cbLen < cbOrigLen)
cbOrigLen = cbLen;
memcpy(dbv->pszVal, pCachedValue->pszVal, cbOrigLen);
dbv->pszVal[cbOrigLen] = 0;
dbv->cchVal = cbLen;
}
else
{
dbv->pszVal = (char*)mir_alloc(strlen(pCachedValue->pszVal) + 1);
strcpy(dbv->pszVal, pCachedValue->pszVal);
}
}
else memcpy(dbv, pCachedValue, sizeof(DBVARIANT));
return (pCachedValue->type == DBVT_DELETED) ? 1 : 0;
}
// never look db for the resident variable
if (szCachedSettingName[-1] != 0)
return 1;
DBCachedContact *cc = (contactID) ? m_cache->GetCachedContact(contactID) : NULL;
txn_ptr_ro trnlck(m_txn);
DBSettingKey *keyVal = (DBSettingKey *)_alloca(sizeof(DBSettingKey) + settingNameLen + 1);
keyVal->hContact = contactID;
keyVal->dwModuleId = GetModuleID(szModule);
memcpy(&keyVal->szSettingName, szSetting, settingNameLen + 1);
MDB_val key = { sizeof(DBSettingKey) + settingNameLen + 1, keyVal }, data;
if (mdb_get(trnlck, m_dbSettings, &key, &data) != MDB_SUCCESS)
{
// try to get the missing mc setting from the active sub
if (cc && cc->IsMeta() && ValidLookupName(szModule, szSetting))
{
if (contactID = db_mc_getDefault(contactID))
{
if (szModule = GetContactProto(contactID))
{
moduleNameLen = strlen(szModule);
goto LBL_Seek;
}
}
}
return 1;
}
const BYTE *pBlob = (const BYTE*)data.mv_data;
if (isStatic && (pBlob[0] & DBVTF_VARIABLELENGTH) && VLT(dbv->type) != VLT(pBlob[0]))
return 1;
int varLen;
BYTE iType = dbv->type = pBlob[0]; pBlob++;
switch (iType) {
case DBVT_DELETED: /* this setting is deleted */
dbv->type = DBVT_DELETED;
return 2;
case DBVT_BYTE: dbv->bVal = *pBlob; break;
case DBVT_WORD: dbv->wVal = *(WORD*)pBlob; break;
case DBVT_DWORD: dbv->dVal = *(DWORD*)pBlob; break;
case DBVT_UTF8:
case DBVT_ASCIIZ:
varLen = *(WORD*)pBlob;
pBlob += 2;
if (isStatic)
{
dbv->cchVal--;
if (varLen < dbv->cchVal)
dbv->cchVal = varLen;
memcpy(dbv->pszVal, pBlob, dbv->cchVal); // decode
dbv->pszVal[dbv->cchVal] = 0;
dbv->cchVal = varLen;
}
else {
dbv->pszVal = (char*)mir_alloc(1 + varLen);
memcpy(dbv->pszVal, pBlob, varLen);
dbv->pszVal[varLen] = 0;
}
break;
case DBVT_BLOB:
varLen = *(WORD*)pBlob;
pBlob += 2;
if (isStatic)
{
if (varLen < dbv->cpbVal)
dbv->cpbVal = varLen;
memcpy(dbv->pbVal, pBlob, dbv->cpbVal);
}
else {
dbv->pbVal = (BYTE *)mir_alloc(varLen);
memcpy(dbv->pbVal, pBlob, varLen);
}
dbv->cpbVal = varLen;
break;
case DBVT_ENCRYPTED:
if (m_crypto == NULL)
return 1;
varLen = *(WORD*)pBlob;
pBlob += 2;
size_t realLen;
ptrA decoded(m_crypto->decodeString(pBlob, varLen, &realLen));
if (decoded == NULL)
return 1;
varLen = (WORD)realLen;
dbv->type = DBVT_UTF8;
if (isStatic)
{
dbv->cchVal--;
if (varLen < dbv->cchVal)
dbv->cchVal = varLen;
memcpy(dbv->pszVal, decoded, dbv->cchVal);
dbv->pszVal[dbv->cchVal] = 0;
dbv->cchVal = varLen;
}
else
{
dbv->pszVal = (char*)mir_alloc(1 + varLen);
memcpy(dbv->pszVal, decoded, varLen);
dbv->pszVal[varLen] = 0;
}
break;
}
/**** add to cache **********************/
if (iType != DBVT_BLOB && iType != DBVT_ENCRYPTED) {
pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 1);
if (pCachedValue != NULL)
m_cache->SetCachedVariant(dbv, pCachedValue);
}
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::GetContactSetting(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting, DBVARIANT *dbv)
{
dbv->type = 0;
if (GetContactSettingWorker(contactID, szModule, szSetting, dbv, 0))
return 1;
if (dbv->type == DBVT_UTF8)
{
WCHAR *tmp = NULL;
char *p = NEWSTR_ALLOCA(dbv->pszVal);
if (mir_utf8decode(p, &tmp) != NULL)
{
BOOL bUsed = FALSE;
int result = WideCharToMultiByte(m_codePage, WC_NO_BEST_FIT_CHARS, tmp, -1, NULL, 0, NULL, &bUsed);
mir_free(dbv->pszVal);
if (bUsed || result == 0) {
dbv->type = DBVT_WCHAR;
dbv->pwszVal = tmp;
}
else {
dbv->type = DBVT_ASCIIZ;
dbv->pszVal = (char *)mir_alloc(result);
WideCharToMultiByte(m_codePage, WC_NO_BEST_FIT_CHARS, tmp, -1, dbv->pszVal, result, NULL, NULL);
mir_free(tmp);
}
}
else
{
dbv->type = DBVT_ASCIIZ;
mir_free(tmp);
}
}
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::GetContactSettingStr(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting, DBVARIANT *dbv)
{
int iSaveType = dbv->type;
if (GetContactSettingWorker(contactID, szModule, szSetting, dbv, 0))
return 1;
if (iSaveType == 0 || iSaveType == dbv->type)
return 0;
if (dbv->type != DBVT_ASCIIZ && dbv->type != DBVT_UTF8)
return 1;
if (iSaveType == DBVT_WCHAR) {
if (dbv->type != DBVT_UTF8) {
int len = MultiByteToWideChar(CP_ACP, 0, dbv->pszVal, -1, NULL, 0);
wchar_t *wszResult = (wchar_t*)mir_alloc((len + 1)*sizeof(wchar_t));
if (wszResult == NULL)
return 1;
MultiByteToWideChar(CP_ACP, 0, dbv->pszVal, -1, wszResult, len);
wszResult[len] = 0;
mir_free(dbv->pszVal);
dbv->pwszVal = wszResult;
}
else {
char* savePtr = NEWSTR_ALLOCA(dbv->pszVal);
mir_free(dbv->pszVal);
if (!mir_utf8decode(savePtr, &dbv->pwszVal))
return 1;
}
}
else if (iSaveType == DBVT_UTF8) {
char* tmpBuf = mir_utf8encode(dbv->pszVal);
if (tmpBuf == NULL)
return 1;
mir_free(dbv->pszVal);
dbv->pszVal = tmpBuf;
}
else if (iSaveType == DBVT_ASCIIZ)
mir_utf8decode(dbv->pszVal, NULL);
dbv->type = iSaveType;
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::GetContactSettingStatic(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting, DBVARIANT *dbv)
{
if (GetContactSettingWorker(contactID, szModule, szSetting, dbv, 1))
return 1;
if (dbv->type == DBVT_UTF8) {
mir_utf8decode(dbv->pszVal, NULL);
dbv->type = DBVT_ASCIIZ;
}
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::FreeVariant(DBVARIANT *dbv)
{
if (dbv == 0) return 1;
switch (dbv->type) {
case DBVT_ASCIIZ:
case DBVT_UTF8:
case DBVT_WCHAR:
if (dbv->pszVal) mir_free(dbv->pszVal);
dbv->pszVal = 0;
break;
case DBVT_BLOB:
if (dbv->pbVal) mir_free(dbv->pbVal);
dbv->pbVal = 0;
break;
}
dbv->type = 0;
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::SetSettingResident(BOOL bIsResident, const char *pszSettingName)
{
char *szSetting = m_cache->GetCachedSetting(NULL, pszSettingName, 0, (int)strlen(pszSettingName));
szSetting[-1] = (char)bIsResident;
int idx = m_lResidentSettings.getIndex(szSetting);
if (idx == -1) {
if (bIsResident)
m_lResidentSettings.insert(szSetting);
}
else if (!bIsResident)
m_lResidentSettings.remove(idx);
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::WriteContactSetting(MCONTACT contactID, DBCONTACTWRITESETTING *dbcws)
{
if (dbcws == NULL || dbcws->szSetting == NULL || dbcws->szModule == NULL || m_bReadOnly)
return 1;
// the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name
size_t settingNameLen = strlen(dbcws->szSetting);
size_t moduleNameLen = strlen(dbcws->szModule);
// used for notifications
DBCONTACTWRITESETTING dbcwNotif = *dbcws;
if (dbcwNotif.value.type == DBVT_WCHAR)
{
if (dbcwNotif.value.pszVal != NULL)
{
T2Utf val(dbcwNotif.value.pwszVal);
if (val == NULL)
return 1;
dbcwNotif.value.pszVal = NEWSTR_ALLOCA(val);
dbcwNotif.value.type = DBVT_UTF8;
}
else return 1;
}
if (dbcwNotif.szModule == NULL || dbcwNotif.szSetting == NULL)
return 1;
DBCONTACTWRITESETTING dbcwWork = dbcwNotif;
mir_ptr<BYTE> pEncoded(NULL);
bool bIsEncrypted = false;
switch (dbcwWork.value.type) {
case DBVT_BYTE: case DBVT_WORD: case DBVT_DWORD:
break;
case DBVT_ASCIIZ: case DBVT_UTF8:
bIsEncrypted = m_bEncrypted || IsSettingEncrypted(dbcws->szModule, dbcws->szSetting);
LBL_WriteString:
if (dbcwWork.value.pszVal == NULL)
return 1;
dbcwWork.value.cchVal = (WORD)strlen(dbcwWork.value.pszVal);
if (bIsEncrypted)
{
size_t len;
BYTE *pResult = m_crypto->encodeString(dbcwWork.value.pszVal, &len);
if (pResult != NULL)
{
pEncoded = dbcwWork.value.pbVal = pResult;
dbcwWork.value.cpbVal = (WORD)len;
dbcwWork.value.type = DBVT_ENCRYPTED;
}
}
break;
case DBVT_UNENCRYPTED:
dbcwNotif.value.type = dbcwWork.value.type = DBVT_UTF8;
goto LBL_WriteString;
case DBVT_BLOB: case DBVT_ENCRYPTED:
if (dbcwWork.value.pbVal == NULL)
return 1;
break;
default:
return 1;
}
char *szCachedSettingName = m_cache->GetCachedSetting(dbcwWork.szModule, dbcwWork.szSetting, moduleNameLen, settingNameLen);
// we don't cache blobs and passwords
if (dbcwWork.value.type != DBVT_BLOB && dbcwWork.value.type != DBVT_ENCRYPTED && !bIsEncrypted)
{
DBVARIANT *pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 1);
if (pCachedValue != NULL)
{
bool bIsIdentical = false;
if (pCachedValue->type == dbcwWork.value.type)
{
switch (dbcwWork.value.type) {
case DBVT_BYTE: bIsIdentical = pCachedValue->bVal == dbcwWork.value.bVal; break;
case DBVT_WORD: bIsIdentical = pCachedValue->wVal == dbcwWork.value.wVal; break;
case DBVT_DWORD: bIsIdentical = pCachedValue->dVal == dbcwWork.value.dVal; break;
case DBVT_UTF8:
case DBVT_ASCIIZ: bIsIdentical = strcmp(pCachedValue->pszVal, dbcwWork.value.pszVal) == 0; break;
}
if (bIsIdentical)
return 0;
}
m_cache->SetCachedVariant(&dbcwWork.value, pCachedValue);
}
if (szCachedSettingName[-1] != 0)
{
NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcwWork);
return 0;
}
}
else m_cache->GetCachedValuePtr(contactID, szCachedSettingName, -1);
DBSettingKey *keyVal = (DBSettingKey *)_alloca(sizeof(DBSettingKey) + settingNameLen + 1);
keyVal->hContact = contactID;
keyVal->dwModuleId = GetModuleID(dbcws->szModule);
memcpy(&keyVal->szSettingName, dbcws->szSetting, settingNameLen + 1);
MDB_val key = { sizeof(DBSettingKey) + settingNameLen + 1, keyVal }, data;
switch (dbcwWork.value.type) {
case DBVT_BYTE: data.mv_size = 2; break;
case DBVT_WORD: data.mv_size = 3; break;
case DBVT_DWORD: data.mv_size = 5; break;
case DBVT_ASCIIZ:
case DBVT_UTF8:
data.mv_size = 3 + dbcwWork.value.cchVal; break;
case DBVT_BLOB:
case DBVT_ENCRYPTED:
data.mv_size = 3 + dbcwWork.value.cpbVal; break;
}
for (;; Remap()) {
txn_ptr trnlck(m_pMdbEnv);
MDB_CHECK(mdb_put(trnlck, m_dbSettings, &key, &data, MDB_RESERVE), 1);
BYTE *pBlob = (BYTE*)data.mv_data;
*pBlob++ = dbcwWork.value.type;
switch (dbcwWork.value.type) {
case DBVT_BYTE: *pBlob = dbcwWork.value.bVal; break;
case DBVT_WORD: *(WORD*)pBlob = dbcwWork.value.wVal; break;
case DBVT_DWORD: *(DWORD*)pBlob = dbcwWork.value.dVal; break;
case DBVT_ASCIIZ:
case DBVT_UTF8:
data.mv_size = *(WORD*)pBlob = dbcwWork.value.cchVal;
pBlob += 2;
memcpy(pBlob, dbcwWork.value.pszVal, dbcwWork.value.cchVal);
break;
case DBVT_BLOB:
case DBVT_ENCRYPTED:
data.mv_size = *(WORD*)pBlob = dbcwWork.value.cpbVal;
pBlob += 2;
memcpy(pBlob, dbcwWork.value.pbVal, dbcwWork.value.cpbVal);
}
if (trnlck.commit() == MDB_SUCCESS)
break;
}
// notify
NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcwNotif);
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::DeleteContactSetting(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting)
{
if (!szModule || !szSetting)
return 1;
size_t settingNameLen = strlen(szSetting);
size_t moduleNameLen = strlen(szModule);
char *szCachedSettingName = m_cache->GetCachedSetting(szModule, szSetting, moduleNameLen, settingNameLen);
if (szCachedSettingName[-1] == 0) // it's not a resident variable
{
DBSettingKey *keyVal = (DBSettingKey*)_alloca(sizeof(DBSettingKey) + settingNameLen + 1);
keyVal->hContact = contactID;
keyVal->dwModuleId = GetModuleID(szModule);
memcpy(&keyVal->szSettingName, szSetting, settingNameLen + 1);
MDB_val key = { sizeof(DBSettingKey) + settingNameLen + 1, keyVal };
for (;; Remap())
{
txn_ptr trnlck(m_pMdbEnv);
MDB_CHECK(mdb_del(trnlck, m_dbSettings, &key, nullptr), 1);
if (trnlck.commit() == MDB_SUCCESS)
break;
}
}
m_cache->GetCachedValuePtr(contactID, szCachedSettingName, -1);
// notify
DBCONTACTWRITESETTING dbcws = { 0 };
dbcws.szModule = szModule;
dbcws.szSetting = szSetting;
dbcws.value.type = DBVT_DELETED;
NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcws);
return 0;
}
STDMETHODIMP_(BOOL) CDbxMdb::EnumContactSettings(MCONTACT hContact, DBSETTINGENUMPROC pfnEnumProc, const char *szModule, const void *param)
{
int result = -1;
DBSettingKey keyVal = { hContact, GetModuleID(szModule) };
txn_ptr_ro txn(m_txn);
cursor_ptr_ro cursor(m_curSettings);
MDB_val key = { sizeof(keyVal), &keyVal }, data;
for (int res = mdb_cursor_get(cursor, &key, &data, MDB_SET_RANGE); res == MDB_SUCCESS; res = mdb_cursor_get(cursor, &key, &data, MDB_NEXT))
{
const DBSettingKey *pKey = (const DBSettingKey*)key.mv_data;
if (pKey->hContact != hContact || pKey->dwModuleId != keyVal.dwModuleId)
break;
result = pfnEnumProc(pKey->szSettingName, LPARAM(param));
}
return result;
}
STDMETHODIMP_(BOOL) CDbxMdb::EnumResidentSettings(DBMODULEENUMPROC pFunc, const void *pParam)
{
for (int i = 0; i < m_lResidentSettings.getCount(); i++)
if (int ret = pFunc(m_lResidentSettings[i], 0, (LPARAM)pParam))
return ret;
return 0;
}