/*
Basic History plugin
Copyright (C) 2011-2012 Krzysztof Kral
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 version 2
of the License.
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, see .
*/
#include "StdAfx.h"
#include "EventList.h"
#include "Options.h"
#include "ExportManager.h"
#include
extern int iconsNum;
static mir_cs csEventList;
bool DeleteDirectory(LPCTSTR lpszDir, bool noRecycleBin = true);
std::wstring GetName(const std::wstring &path);
HistoryEventList::HistoryEventList() :
m_hWnd(NULL),
m_isWnd(false),
m_hContact(NULL),
m_deltaTime(0),
m_isFlat(false),
m_useImportedMessages(true)
{
memset(&m_dbei, 0, sizeof(DBEVENTINFO));
m_dbei.cbSize = sizeof(DBEVENTINFO);
m_oldBlobSize = 0;
}
HistoryEventList::HistoryEventList(MCONTACT _hContact, int filter) :
m_hWnd(NULL),
m_isWnd(false),
m_hContact(_hContact),
m_deltaTime(0),
m_isFlat(false),
m_useImportedMessages(true)
{
memset(&m_dbei, 0, sizeof(DBEVENTINFO));
m_dbei.cbSize = sizeof(DBEVENTINFO);
m_oldBlobSize = 0;
SetDefFilter(filter);
}
HistoryEventList::~HistoryEventList()
{
mir_free(m_dbei.pBlob);
m_eventList.clear();
}
bool HistoryEventList::CanShowHistory(DBEVENTINFO* dbei)
{
if (m_deltaTime != 0) {
if (m_deltaTime > 0) {
if (m_now - m_deltaTime < dbei->timestamp)
return false;
}
else {
if (m_now + m_deltaTime > dbei->timestamp)
return false;
}
}
if (m_hContact == NULL || m_defFilter == 1)
return true;
if (m_defFilter < 1) {
switch(dbei->eventType) {
case EVENTTYPE_MESSAGE:
case EVENTTYPE_URL:
case EVENTTYPE_FILE:
return true;
default:
DBEVENTTYPEDESCR *et = (DBEVENTTYPEDESCR*)CallService(MS_DB_EVENT_GETTYPE, ( WPARAM )dbei->szModule, ( LPARAM )dbei->eventType);
if (et && ( et->flags & DETF_HISTORY))
return true;
}
return false;
}
if (m_filterMap.find(dbei->eventType) != m_filterMap.end()) {
if (m_onlyInFilter)
return !(dbei->flags & DBEF_SENT);
if (m_onlyOutFilter)
return (dbei->flags & DBEF_SENT) != 0;
return true;
}
return false;
}
bool HistoryEventList::CanShowHistory(const IImport::ExternalMessage &message)
{
if (m_deltaTime != 0) {
if (m_deltaTime > 0) {
if (m_now - m_deltaTime < message.timestamp)
return false;
}
else {
if (m_now + m_deltaTime > message.timestamp)
return false;
}
}
if (m_hContact == NULL || m_defFilter == 1)
return true;
if (m_defFilter < 1) {
switch(message.eventType ) {
case EVENTTYPE_MESSAGE:
case EVENTTYPE_URL:
case EVENTTYPE_FILE:
return true;
}
return false;
}
if (m_filterMap.find(message.eventType) != m_filterMap.end()) {
if (m_onlyInFilter)
return !(message.flags & DBEF_SENT);
if (m_onlyOutFilter)
return (message.flags & DBEF_SENT) != 0;
return true;
}
return false;
}
void HistoryEventList::InitFilters()
{
m_filterMap.clear();
m_onlyInFilter = false;
m_onlyOutFilter = false;
if (m_defFilter >= 2) {
m_defFilter = 0;
for (int i = 0; i < (int)Options::instance->customFilters.size(); ++i) {
if (m_filterName == Options::instance->customFilters[i].name) {
m_defFilter = i + 2;
if (Options::instance->customFilters[i].onlyIncomming && !Options::instance->customFilters[i].onlyOutgoing)
m_onlyInFilter = true;
else if (Options::instance->customFilters[i].onlyOutgoing && !Options::instance->customFilters[i].onlyIncomming)
m_onlyOutFilter = true;
for (std::vector::iterator it = Options::instance->customFilters[i].events.begin(); it != Options::instance->customFilters[i].events.end(); ++it)
m_filterMap[*it] = true;
break;
}
}
}
else m_filterName = L"";
}
void HistoryEventList::SetDefFilter(int filter)
{
m_defFilter = filter;
if (filter >= 2 && filter - 2 < (int)Options::instance->customFilters.size())
m_filterName = Options::instance->customFilters[filter - 2].name;
else if (filter == 1)
m_filterName = TranslateT("All events");
else
m_filterName = TranslateT("Default history events");
}
int HistoryEventList::GetFilterNr()
{
return m_defFilter;
}
std::wstring HistoryEventList::GetFilterName()
{
return m_filterName;
}
void HistoryEventList::GetTempList(std::list& tempList, bool noFilter, bool noExt, MCONTACT hContact)
{
bool isWndLocal = m_isWnd;
EventTempIndex ti;
EventData data;
EventIndex ei;
ti.isExternal = false;
ei.isExternal = false;
MEVENT hDbEvent = db_event_first(hContact);
while (hDbEvent != NULL) {
if (isWndLocal && !IsWindow(m_hWnd))
break;
ei.hEvent = hDbEvent;
if (GetEventData(ei, data)) {
if (noFilter || CanShowHistory(&m_dbei)) {
ti.hEvent = hDbEvent;
ti.timestamp = data.timestamp;
tempList.push_back(ti);
}
}
hDbEvent = db_event_next(hContact, hDbEvent);
}
if (!noExt) {
std::list::iterator itL = tempList.begin();
ti.isExternal = true;
for (int i = 0; i < (int)m_importedMessages.size(); ++i) {
if (noFilter || CanShowHistory(m_importedMessages[i])) {
DWORD ts = m_importedMessages[i].timestamp;
while(itL != tempList.end() && itL->timestamp < ts)++itL;
if (itL == tempList.end() || itL->timestamp > ts) {
ti.exIdx = i;
ti.timestamp = ts;
tempList.insert(itL, ti);
}
}
}
}
}
void HistoryEventList::RefreshEventList()
{
InitNames();
InitFilters();
if (m_useImportedMessages) {
std::vector messages;
{
mir_cslock lck(csEventList);
std::map::iterator it = m_contactFileMap.find(m_hContact);
if (it != m_contactFileMap.end()) {
ExportManager imp(m_hWnd, m_hContact, 1);
imp.SetAutoImport(it->second.file);
if (!imp.Import(it->second.type, messages, NULL))
messages.clear();
}
}
ImportMessages(messages);
}
std::list tempList;
GetTempList(tempList, false, false, m_hContact);
std::list revTempList;
std::list& nrTempList = tempList;
bool isNewOnTop = Options::instance->groupNewOnTop;
if (isNewOnTop) {
revTempList.insert(revTempList.begin(), tempList.rbegin(), tempList.rend());
nrTempList = revTempList;
}
m_eventList.clear();
m_eventList.push_back(std::deque());
DWORD lastTime = MAXDWORD;
DWORD groupTime = Options::instance->groupTime * 60 * 60;
int maxMess = Options::instance->groupMessagesNumber;
int limitator = 0;
EventIndex ei;
for (std::list::iterator itL = nrTempList.begin(); itL != nrTempList.end(); ++itL) {
DWORD tm = isNewOnTop ? lastTime - itL->timestamp : itL->timestamp - lastTime;
if (m_isFlat || tm < groupTime && limitator < maxMess) {
lastTime = itL->timestamp;
ei.isExternal = itL->isExternal;
ei.hEvent = itL->hEvent;
if (isNewOnTop)
m_eventList.back().push_front(ei);
else
m_eventList.back().push_back(ei);
++limitator;
}
else {
limitator = 0;
lastTime = itL->timestamp;
if (!m_eventList.back().empty()) {
ei = m_eventList.back().front();
AddGroup(ei);
m_eventList.push_back(std::deque());
}
ei.isExternal = itL->isExternal;
ei.hEvent = itL->hEvent;
m_eventList.back().push_front(ei);
}
}
if (!m_eventList.back().empty()) {
ei = m_eventList.back().front();
AddGroup(ei);
}
}
bool HistoryEventList::SearchInContact(MCONTACT hContact, TCHAR *strFind, ComparatorInterface* compFun)
{
InitFilters();
if (m_useImportedMessages) {
std::vector messages;
{
mir_cslock lck(csEventList);
std::map::iterator it = m_contactFileMap.find(hContact);
if (it != m_contactFileMap.end()) {
ExportManager imp(m_hWnd, hContact, 1);
imp.SetAutoImport(it->second.file);
if (!imp.Import(it->second.type, messages, NULL))
messages.clear();
}
}
for (int i = 0; i < (int)m_importedMessages.size(); ++i)
if (compFun->Compare((m_importedMessages[i].flags & DBEF_SENT) != 0, m_importedMessages[i].message, strFind))
return true;
}
std::list tempList;
GetTempList(tempList, false, true, hContact);
EventIndex ei;
EventData ed;
TCHAR str[MAXSELECTSTR + 8]; // for safety reason
for (std::list::iterator itL = tempList.begin(); itL != tempList.end(); ++itL) {
ei.isExternal = itL->isExternal;
ei.hEvent = itL->hEvent;
if (GetEventData(ei, ed)) {
GetEventMessage(ei, str);
if (compFun->Compare(ed.isMe, str, strFind))
return true;
}
}
return false;
}
void HistoryEventList::InitNames()
{
TCHAR str[200];
if (m_hContact) {
_tcscpy_s(m_contactName, pcli->pfnGetContactDisplayName(m_hContact, 0));
mir_sntprintf(str, _countof(str), TranslateT("History for %s"), m_contactName);
}
else {
_tcscpy_s(m_contactName, TranslateT("System"));
mir_sntprintf(str, _countof(str), TranslateT("History"));
}
if (m_isWnd)
SetWindowText(m_hWnd, str);
_tcscpy_s(m_myName, GetMyName().c_str());
}
void HistoryEventList::AddGroup(const EventIndex& ev)
{
EventData data;
GetEventData(ev, data);
TCHAR eventText[256];
int i;
eventText[0] = 0;
TimeZone_PrintTimeStamp(NULL, data.timestamp, _T("d t"), eventText, 64, 0);
std::wstring time = eventText;
std::wstring user;
if (data.isMe)
user = m_myName;
else
user = m_contactName;
GetEventMessage(ev, eventText, 256);
for (i = 0; eventText[i] != 0 && eventText[i] != _T('\r') && eventText[i] != _T('\n'); ++i);
eventText[i] = 0;
if (i > Options::instance->groupMessageLen) {
eventText[Options::instance->groupMessageLen - 3] = '.';
eventText[Options::instance->groupMessageLen - 2] = '.';
eventText[Options::instance->groupMessageLen - 1] = '.';
eventText[Options::instance->groupMessageLen] = 0;
}
int ico = 0;
GetEventIcon(data.isMe, data.eventType, ico);
AddGroup(data.isMe, time, user, eventText, ico);
}
std::wstring HistoryEventList::GetContactName()
{
if (m_hContact)
return pcli->pfnGetContactDisplayName(m_hContact, 0);
return TranslateT("System");
}
void GetInfo(CONTACTINFO& ci, std::wstring& str)
{
if (!CallService(MS_CONTACT_GETCONTACTINFO, 0, (LPARAM)&ci)) {
if (ci.type == CNFT_ASCIIZ) {
str = ci.pszVal;
mir_free(ci.pszVal);
}
else if (ci.type == CNFT_DWORD) {
TCHAR buf[20];
_ltot_s(ci.dVal, buf, 10);
str = buf;
}
else if (ci.type == CNFT_WORD) {
TCHAR buf[20];
_ltot_s(ci.wVal, buf, 10);
str = buf;
}
}
}
std::wstring HistoryEventList::GetMyName()
{
std::wstring myName;
CONTACTINFO ci;
memset(&ci, 0, sizeof(ci));
ci.cbSize = sizeof(ci);
ci.szProto = GetContactProto(m_hContact);
ci.hContact = 0;
ci.dwFlag = CNF_DISPLAY | CNF_TCHAR;
GetInfo(ci, myName);
if (myName.empty())
return TranslateT("Me");
return myName;
}
inline std::wstring GetProtocolName(MCONTACT hContact)
{
char* ac = Proto_GetBaseAccountName(hContact);
std::wstring proto1;
if (ac != NULL) {
PROTOACCOUNT* acnt = Proto_GetAccount(ac);
if (acnt != NULL && acnt->szModuleName != NULL) {
wchar_t* proto = mir_a2u(acnt->szProtoName);
proto1 = proto;
mir_free(proto);
}
}
return proto1;
}
std::wstring HistoryEventList::GetProtocolName()
{
return ::GetProtocolName(m_hContact);
}
std::string HistoryEventList::GetBaseProtocol()
{
char* proto = GetContactProto(m_hContact);
return proto == NULL ? "" : proto;
}
std::wstring HistoryEventList::GetMyId()
{
std::wstring myId;
CONTACTINFO ci;
memset(&ci, 0, sizeof(ci));
ci.cbSize = sizeof(ci);
ci.szProto = GetContactProto(m_hContact);
ci.hContact = 0;
ci.dwFlag = CNF_DISPLAYUID | CNF_TCHAR;
GetInfo(ci, myId);
return myId;
}
inline std::wstring GetContactId(MCONTACT hContact)
{
std::wstring id;
CONTACTINFO ci;
memset(&ci, 0, sizeof(ci));
ci.cbSize = sizeof(ci);
ci.szProto = GetContactProto(hContact);
ci.hContact = hContact;
ci.dwFlag = CNF_DISPLAYUID | CNF_TCHAR;
GetInfo(ci, id);
return id;
}
std::wstring HistoryEventList::GetContactId()
{
return ::GetContactId(m_hContact);
}
static void GetMessageDescription(DBEVENTINFO *dbei, TCHAR* buf, int cbBuf)
{
TCHAR *msg = DbGetEventTextT(dbei, CP_ACP);
_tcsncpy_s(buf, cbBuf, msg ? msg : TranslateT("Invalid Message"), _TRUNCATE);
buf[cbBuf - 1] = 0;
mir_free(msg);
}
void HistoryEventList::GetObjectDescription(DBEVENTINFO *dbei, TCHAR* str, int cbStr)
{
GetMessageDescription(dbei, str, cbStr);
}
bool HistoryEventList::GetEventIcon(bool isMe, int eventType, int &id)
{
switch (eventType) {
case EVENTTYPE_MESSAGE:
id = isMe ? 1 : 0;
return true;
case EVENTTYPE_FILE:
id = iconsNum;
return true;
case EVENTTYPE_URL:
id = iconsNum + 1;
return true;
case EVENTTYPE_AUTHREQUEST:
id = iconsNum + 2;
return true;
default:
id = isMe ? 1 : 0;
return false;
}
}
void HistoryEventList::ImportMessages(const std::vector& messages)
{
DWORD lastTime = 0;
m_importedMessages.clear();
for (int i = 0; i < (int)messages.size(); ++i) {
if (messages[i].timestamp >= lastTime) {
m_importedMessages.push_back(messages[i]);
lastTime = messages[i].timestamp;
}
else {
assert(FALSE);
}
}
}
void HistoryEventList::MargeMessages(const std::vector& messages)
{
ImportMessages(messages);
std::list tempList;
GetTempList(tempList, true, false, m_hContact);
DBEVENTINFO dbei = { sizeof(dbei) };
dbei.szModule = GetContactProto(m_hContact);
CallService(MS_DB_SETSAFETYMODE, FALSE, 0);
for (std::list::iterator it = tempList.begin(); it != tempList.end(); ++it) {
if (it->isExternal) {
IImport::ExternalMessage& msg = m_importedMessages[it->exIdx];
dbei.flags |= DBEF_READ;
dbei.timestamp = msg.timestamp;
// For now I do not convert event data from string to blob, and event type must be message to handle it properly
dbei.eventType = EVENTTYPE_MESSAGE;
UINT cp = dbei.flags & DBEF_UTF ? CP_UTF8 : CP_ACP;
dbei.cbBlob = WideCharToMultiByte(cp, 0, msg.message.c_str(), (int)msg.message.length() + 1, NULL, 0, NULL, NULL);
char* buf = new char[dbei.cbBlob];
dbei.cbBlob = WideCharToMultiByte(cp, 0, msg.message.c_str(), (int)msg.message.length() + 1, buf, dbei.cbBlob, NULL, NULL);
dbei.pBlob = (PBYTE)buf;
db_event_add(m_hContact, &dbei);
delete[] buf;
}
}
CallService(MS_DB_SETSAFETYMODE, TRUE, 0);
std::vector emessages;
ImportMessages(emessages);
}
bool HistoryEventList::GetEventData(const EventIndex& ev, EventData& data)
{
if (!ev.isExternal) {
DWORD newBlobSize = db_event_getBlobSize(ev.hEvent);
if (newBlobSize > m_oldBlobSize) {
m_dbei.pBlob = (PBYTE)mir_realloc(m_dbei.pBlob, newBlobSize);
m_oldBlobSize = newBlobSize;
}
m_dbei.cbBlob = m_oldBlobSize;
if (db_event_get(ev.hEvent, &m_dbei) == 0) {
data.isMe = (m_dbei.flags & DBEF_SENT) != 0;
data.eventType = m_dbei.eventType;
data.timestamp = m_dbei.timestamp;
return true;
}
}
else if (ev.exIdx >= 0 && ev.exIdx < (int)m_importedMessages.size()) {
IImport::ExternalMessage& em = m_importedMessages[ev.exIdx];
data.isMe = (em.flags & DBEF_SENT) != 0;
data.eventType = em.eventType;
data.timestamp = em.timestamp;
return true;
}
return false;
}
void HistoryEventList::GetExtEventDBei(const EventIndex& ev)
{
IImport::ExternalMessage& em = m_importedMessages[ev.exIdx];
m_dbei.flags = em.flags | 0x800;
m_dbei.eventType = em.eventType;
m_dbei.timestamp = em.timestamp;
}
HICON HistoryEventList::GetEventCoreIcon(const EventIndex& ev)
{
if (ev.isExternal)
return NULL;
HICON ico = (HICON)CallService(MS_DB_EVENT_GETICON, LR_SHARED, (LPARAM)&m_dbei);
HICON icoMsg = Skin_LoadIcon(SKINICON_EVENT_MESSAGE);
if (icoMsg == ico)
return NULL;
return ico;
}
void HistoryEventList::RebuildGroup(int selected)
{
std::deque newGroup;
for (size_t i = 0; i < m_eventList[selected].size(); ++i) {
EventIndex& ev = m_eventList[selected][i];
if (!ev.isExternal) {
// If event exist, we add it to new group
if (db_event_getBlobSize(ev.hEvent) >= 0)
newGroup.push_back(m_eventList[selected][i]);
}
else newGroup.push_back(m_eventList[selected][i]);
}
m_eventList[selected].clear();
m_eventList[selected].insert(m_eventList[selected].begin(), newGroup.begin(), newGroup.end());
}
std::map HistoryEventList::m_contactFileMap;
std::wstring HistoryEventList::m_contactFileDir;
void HistoryEventList::AddImporter(MCONTACT hContact, IImport::ImportType type, const std::wstring& file)
{
mir_cslock lck(csEventList);
TCHAR buf[32];
mir_sntprintf(buf, _T("%016llx"), (unsigned long long int)hContact);
ImportDiscData data;
data.file = m_contactFileDir + buf;
data.type = type;
CopyFile(file.c_str(), data.file.c_str(), FALSE);
m_contactFileMap[hContact] = data;
}
void HistoryEventList::Init()
{
TCHAR temp[MAX_PATH];
temp[0] = 0;
GetTempPath(MAX_PATH, temp);
m_contactFileDir = temp;
m_contactFileDir += L"BasicHistoryImportDir\\";
DeleteDirectory(m_contactFileDir.c_str());
CreateDirectory(m_contactFileDir.c_str(), NULL);
}
int HistoryEventList::GetContactMessageNumber(MCONTACT hContact)
{
int count = db_event_count(hContact);
mir_cslock lck(csEventList);
std::map::iterator it = m_contactFileMap.find(hContact);
if (it != m_contactFileMap.end())
++count;
return count;
}
bool HistoryEventList::IsImportedHistory(MCONTACT hContact)
{
bool count = false;
mir_cslock lck(csEventList);
std::map::iterator it = m_contactFileMap.find(hContact);
if (it != m_contactFileMap.end())
count = true;
return count;
}
void HistoryEventList::DeleteImporter(MCONTACT hContact)
{
mir_cslock lck(csEventList);
std::map::iterator it = m_contactFileMap.find(hContact);
if (it != m_contactFileMap.end()) {
DeleteFile(it->second.file.c_str());
m_contactFileMap.erase(it);
}
}