khanat-opennel-code/code/ryzom/client/src/login_patch.cpp

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// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// Includes
//
#include "stdpch.h"
#include <memory>
#include <errno.h>
#define USE_CURL
#ifdef USE_CURL
#include <curl/curl.h>
#endif
#include <zlib.h>
#include "nel/misc/debug.h"
#include "nel/misc/path.h"
#include "nel/misc/thread.h"
#include "nel/misc/sha1.h"
#include "nel/misc/big_file.h"
#include "nel/misc/i18n.h"
#ifdef NL_OS_WINOWS
#define NL_USE_SEVENZIP 1
#endif
// 7 zip includes
#ifdef NL_USE_SEVENZIP
#include "seven_zip/7zCrc.h"
#include "seven_zip/7zIn.h"
#include "seven_zip/7zExtract.h"
#include "seven_zip/LzmaDecode.h"
#endif
#include "game_share/bg_downloader_msg.h"
#include "login_patch.h"
#include "login.h"
#ifndef RY_BG_DOWNLOADER
#include "client_cfg.h"
#else
#include "../client_background_downloader/client_background_downloader.h"
#define __CLIENT_INSTALL_EXE__
#endif
#ifdef NL_OS_WINDOWS
#include <direct.h>
#endif
//
// Namespaces
//
static std::vector<std::string> ForceMainlandPatchCategories;
static std::vector<std::string> ForceRemovePatchCategories;
// TMP for debug : force some category in the patch to be flagged as 'mainland' until
// the actual file is updated
void tmpFlagMainlandPatchCategories(NLMISC::CConfigFile &cf)
{
NLMISC::CConfigFile::CVar *catList = cf.getVarPtr("ForceMainlandPatchCategories");
if (catList)
{
for (uint k = 0; k < catList->size(); ++k)
{
ForceMainlandPatchCategories.push_back(catList->asString(k));
}
}
}
// TMP for debug : force some category in the patch to be flagged as 'mainland' until
// the actual file is updated
void tmpFlagRemovedPatchCategories(NLMISC::CConfigFile &cf)
{
NLMISC::CConfigFile::CVar *catList = cf.getVarPtr("RemovePatchCategories");
if (catList)
{
for (uint k = 0; k < catList->size(); ++k)
{
ForceRemovePatchCategories.push_back(catList->asString(k));
}
}
}
using namespace std;
using namespace NLMISC;
extern string VersionName;
extern string R2ServerVersion;
#ifdef __CLIENT_INSTALL_EXE__
extern std::string TheTmpInstallDirectory;
extern std::string ClientLauncherUrl;
#else
std::string TheTmpInstallDirectory ="patch/client_install";
#endif
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// CPatchManager
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
struct EPatchDownloadException : public Exception
{
EPatchDownloadException() : Exception( "Download Error" ) {}
EPatchDownloadException( const std::string& str ) : Exception( str ) {}
virtual ~EPatchDownloadException() throw() {}
};
CPatchManager *CPatchManager::_Instance = NULL;
#ifdef NL_USE_SEVENZIP
/// Input stream class for 7zip archive
class CNel7ZipInStream : public _ISzInStream
{
NLMISC::IStream *_Stream;
public:
/// Constructor, only allow file stream because 7zip will 'seek' in the stream
CNel7ZipInStream(NLMISC::IStream *s)
: _Stream(s)
{
Read = readFunc;
Seek = seekFunc;
}
// the read function called by 7zip to read data
static SZ_RESULT readFunc(void *object, void *buffer, size_t size, size_t *processedSize)
{
try
{
CNel7ZipInStream *me = (CNel7ZipInStream*)object;
me->_Stream->serialBuffer((uint8*)buffer, (uint)size);
*processedSize = size;
return SZ_OK;
}
catch (...)
{
return SZE_FAIL;
}
}
// the seek function called by seven zip to seek inside stream
static SZ_RESULT seekFunc(void *object, CFileSize pos)
{
try
{
CNel7ZipInStream *me = (CNel7ZipInStream*)object;
bool ret= me->_Stream->seek(pos, NLMISC::IStream::begin);
if (ret)
return SZ_OK;
else
return SZE_FAIL;
}
catch (...)
{
return SZE_FAIL;
}
}
};
#endif
static std::string ClientRootPath;
// ****************************************************************************
CPatchManager::CPatchManager() : State("t_state"), DataScanState("t_data_scan_state")
{
DescFilename = "ryzom_xxxxx.idx";
UpdateBatchFilename = "updt_nl.bat";
// use current directory by default
setClientRootPath("./");
VerboseLog = true;
PatchThread = NULL;
CheckThread = NULL;
InstallThread = NULL;
ScanDataThread = NULL;
thread = NULL;
LogSeparator = "\n";
ValidDescFile = false;
MustLaunchBatFile = false;
DownloadInProgress = false;
_AsyncDownloader = NULL;
_StateListener = NULL;
_StartRyzomAtEnd = true;
}
// ****************************************************************************
void CPatchManager::setClientRootPath(const std::string& clientRootPath)
{
ClientRootPath = clientRootPath;
ClientPatchPath = ClientRootPath + "unpack/";
ClientDataPath = ClientRootPath + "data/";
}
// ****************************************************************************
void CPatchManager::setErrorMessage(const ucstring &message)
{
_ErrorMessage = message;
}
// ****************************************************************************
void CPatchManager::forceStopCheckThread()
{
PatchThread->StopAsked = true;
}
// ****************************************************************************
void CPatchManager::forceStopPatchThread()
{
CheckThread->StopAsked = true;
}
// ****************************************************************************
void CPatchManager::init(const std::vector<std::string>& patchURIs, const std::string &sServerPath, const std::string &sServerVersion)
{
uint i;
PatchServers.clear();
for (i=0; i<patchURIs.size(); ++i)
{
PatchServers.push_back(CPatchServer(patchURIs[i]));
}
srand(NLMISC::CTime::getSecondsSince1970());
UsedServer = (sint)(((double)rand() / ((double)RAND_MAX+1.0)) * (double)PatchServers.size());
ServerPath = CPath::standardizePath (sServerPath);
ServerVersion = sServerVersion;
string::size_type pos = ServerPath.find ("@");
if (pos != string::npos)
DisplayedServerPath = "http://" + ServerPath.substr (pos+1);
else
DisplayedServerPath = ServerPath;
NLMISC::CFile::createDirectory(ClientPatchPath);
NLMISC::CFile::createDirectory(ClientDataPath);
// try to read the version file from the server (that will replace the version number)
try
{
CConfigFile *cf;
#ifdef RY_BG_DOWNLOADER
cf = &theApp.ConfigFile;
#else
cf = &ClientCfg.ConfigFile;
#endif
std::string appName = "ryzom_live";
if (cf->getVarPtr("Application"))
{
appName = cf->getVar("Application").asString(0);
}
std::string versionFileName = appName + ".version";
getServerFile(versionFileName);
// ok, we have the file, extract version number (aka build number) and the
// version name if present
CIFile versionFile(ClientPatchPath+versionFileName);
char buffer[1024];
versionFile.getline(buffer, 1024);
CSString line(buffer);
#ifdef NL_DEBUG
CConfigFile::CVar *forceVersion = cf->getVarPtr("ForceVersion");
if (forceVersion != NULL)
{
line = forceVersion->asString();
}
#endif
ServerVersion = line.firstWord(true);
VersionName = line.firstWord(true);
// force the R2ServerVersion
R2ServerVersion = ServerVersion;
#ifdef __CLIENT_INSTALL_EXE__
{
//The install program load a the url of the mini web site in the patch directory
std::string clientLauncherUrl = "client_launcher_url.txt";
bool ok = true;
try
{
uint32 nServerVersion;
fromString(ServerVersion, nServerVersion);
std::string url = toString("%05u/%s", nServerVersion, clientLauncherUrl.c_str());
// The client version is different from the server version : download new description file
getServerFile(url.c_str(), false); // For the moment description file is not zipped
}
catch (...)
{
// fallback to patch root directory
try
{
getServerFile(clientLauncherUrl.c_str(), false); // For the moment description file is not zipped
}
catch(...)
{
ok = false;
}
}
if (ok)
{
CIFile versionFile;
if (versionFile.open(ClientPatchPath+clientLauncherUrl) )
{
char buffer[1024];
versionFile.getline(buffer, 1024);
ClientLauncherUrl = std::string(buffer);
}
}
}
#endif
}
catch (...)
{
// no version file
}
// retrieve the current client version, according to .idx
readClientVersionAndDescFile();
}
// ***************************************************************************
void CPatchManager::readClientVersionAndDescFile()
{
try
{
ValidDescFile = false;
vector<string> vFiles;
CPath::getPathContent(ClientPatchPath, false, false, true, vFiles);
uint32 nVersion = 0xFFFFFFFF;
uint32 nNewVersion;
for (uint32 i = 0; i < vFiles.size(); ++i)
{
string sName = NLMISC::CFile::getFilename(vFiles[i]);
string sExt = NLMISC::CFile::getExtension(sName);
string sBase = sName.substr(0, sName.rfind('_'));
if ((sExt == "idx") && (sBase == "ryzom"))
{
string val = sName.substr(sName.rfind('_')+1, 5);
if (fromString(val, nNewVersion) && ((nNewVersion > nVersion) || (nVersion == 0xFFFFFFFF)))
nVersion = nNewVersion;
}
}
if (nVersion != 0xFFFFFFFF)
readDescFile(nVersion);
else
DescFilename = "unknown";
ValidDescFile = true;
}
catch(const Exception &)
{
nlwarning("EXCEPTION CATCH: readClientVersionAndDescFile() failed - not important");
// Not important that there is no desc file
}
}
// ****************************************************************************
void CPatchManager::startCheckThread(bool includeBackgroundPatch)
{
if (CheckThread != NULL)
{
nlwarning ("check thread is already running");
return;
}
if (thread != NULL)
{
nlwarning ("a thread is already running");
return;
}
_ErrorMessage.clear();
CheckThread = new CCheckThread(includeBackgroundPatch);
nlassert (CheckThread != NULL);
thread = IThread::create (CheckThread);
nlassert (thread != NULL);
thread->start ();
}
// ****************************************************************************
bool CPatchManager::isCheckThreadEnded(bool &ok)
{
if (CheckThread == NULL)
{
ok = false;
return true;
}
bool end = CheckThread->Ended;
if (end)
{
ok = CheckThread->CheckOk;
stopCheckThread();
}
return end;
}
// ****************************************************************************
void CPatchManager::stopCheckThread()
{
if(CheckThread && thread)
{
thread->wait();
delete thread;
thread = NULL;
delete CheckThread;
CheckThread = NULL;
}
}
// Return the position of the inserted/found category
sint32 updateCat(vector<CPatchManager::SPatchInfo::SCat> &rOutVec, CPatchManager::SPatchInfo::SCat &rInCat)
{
uint32 i;
for (i = 0; i < rOutVec.size(); ++i)
{
if (rOutVec[i].Name == rInCat.Name)
break;
}
if (i == rOutVec.size())
{
rOutVec.push_back(rInCat);
}
else
{
rOutVec[i].Size += rInCat.Size;
rOutVec[i].FinalFileSize += rInCat.FinalFileSize;
rOutVec[i].SZipSize += rInCat.SZipSize;
}
return i;
}
// ****************************************************************************
void CPatchManager::getInfoToDisp(SPatchInfo &piOut)
{
piOut.NonOptCat.clear();
piOut.OptCat.clear();
piOut.ReqCat.clear();
// Convert FilesToPatch vector that must be initialized into something human readable
uint32 i;
for (i = 0; i < FilesToPatch.size(); ++i)
{
SFileToPatch &rFTP = FilesToPatch[i];
// Find the category of the file
sint32 nCat = -1;
const CBNPCategorySet &rAllCats = DescFile.getCategories();
for (uint32 j = 0; j < rAllCats.categoryCount(); ++j)
{
const CBNPCategory &rCat = rAllCats.getCategory(j);
for (uint32 k = 0; k < rCat.fileCount(); ++k)
{
if (rCat.getFile(k) == rFTP.FileName)
{
nCat = j;
break;
}
}
if (nCat != -1)
break;
}
if (nCat != -1)
{
// Add the category found, if already there just update the size
const CBNPCategory &rCat = rAllCats.getCategory(nCat);
string sCatName = rCat.getName();
// Size of all patches
uint32 nTotalPatchesSize = 0;
for (uint32 j = 0; j < rFTP.PatcheSizes.size(); ++j)
nTotalPatchesSize += rFTP.PatcheSizes[j];
SPatchInfo::SCat c;
c.Name = sCatName;
c.Size = nTotalPatchesSize;
c.SZipSize = rFTP.SZFileSize;
c.FinalFileSize = rFTP.FinalFileSize;
if (!rCat.getCatRequired().empty())
{
// Ensure the required cat exists
SPatchInfo::SCat rc;
rc.Name = rCat.getCatRequired();
c.Req = updateCat(piOut.ReqCat, rc);
}
// In which category of category should we add it ?
if (rCat.isOptional())
{
if (rCat.isHidden())
updateCat(piOut.ReqCat, c);
else
updateCat(piOut.OptCat, c);
}
else
{
updateCat(piOut.NonOptCat, c);
}
}
}
for (i = 0; i < OptionalCat.size(); ++i)
{
const CBNPCategory *pCat = DescFile.getCategories().getCategory(OptionalCat[i]);
nlassert(pCat != NULL);
SPatchInfo::SCat c;
c.Name = pCat->getName();
if (!pCat->getCatRequired().empty())
{
// Ensure the required cat exists
SPatchInfo::SCat rc;
rc.Name = pCat->getCatRequired();
c.Req = updateCat(piOut.ReqCat, rc);
}
updateCat(piOut.OptCat, c);
}
}
// ****************************************************************************
// TODO : use selected categories to patch a list of files
void CPatchManager::startPatchThread(const vector<string> &CategoriesSelected, bool applyPatch)
{
if (PatchThread != NULL)
{
nlwarning ("check thread is already running");
return;
}
if (thread != NULL)
{
nlwarning ("a thread is already running");
return;
}
_ErrorMessage.clear();
PatchThread = new CPatchThread(applyPatch);
nlassert (PatchThread != NULL);
// Select all the files we have to patch depending on non-optional categories and selected categories
uint32 i, j, k;
// Add non-optional categories
vector<string> CatsSelected = CategoriesSelected;
PatchThread->clear();
const CBNPCategorySet &rAllCats = DescFile.getCategories();
for (i = 0; i < rAllCats.categoryCount(); ++i)
{
const CBNPCategory &rCat = rAllCats.getCategory(i);
if (!rCat.isOptional())
CatsSelected.push_back(rCat.getName());
}
// Add all required categories
uint32 nSize = (uint32)CatsSelected.size();
do
{
nSize = (uint32)CatsSelected.size();
for (i = 0; i < CatsSelected.size(); ++i)
{
const CBNPCategory *pCat = rAllCats.getCategory(CatsSelected[i]);
if (pCat == NULL) continue;
if (pCat->getCatRequired().empty()) continue;
// Check if the category required is already present
for (j = 0; j < CatsSelected.size(); ++j)
{
const CBNPCategory *pCat2 = rAllCats.getCategory(CatsSelected[j]);
if (pCat2->getName() == pCat->getCatRequired())
break;
}
// Not present ?
if (j == CatsSelected.size())
{
CatsSelected.push_back(pCat->getCatRequired());
break;
}
}
}
while(nSize != CatsSelected.size());
// Select files
for (i = 0; i < CatsSelected.size(); ++i)
{
// Find the category from the name
const CBNPCategory *pCat = rAllCats.getCategory(CatsSelected[i]);
if (pCat != NULL)
{
for (j = 0; j < pCat->fileCount(); ++j)
{
const string &rFilename = pCat->getFile(j);
const CBNPFileSet &rFileSet = DescFile.getFiles();
const CBNPFile *pFile = rFileSet.getFileByName(rFilename);
if (pFile != NULL)
{
// Look if it's a file to patch
for (k = 0; k < FilesToPatch.size(); ++k)
if (FilesToPatch[k].FileName == pFile->getFileName())
break;
if (k < FilesToPatch.size())
{
FilesToPatch[k].Incremental = pCat->isIncremental();
if (!pCat->getUnpackTo().empty())
FilesToPatch[k].ExtractPath = CPath::standardizePath(pCat->getUnpackTo());
PatchThread->add(FilesToPatch[k]);
// Close opened big files
CBigFile::getInstance().remove(FilesToPatch[k].FileName);
}
}
}
}
}
// Launch the thread
thread = IThread::create (PatchThread);
nlassert (thread != NULL);
thread->start ();
}
// ****************************************************************************
bool CPatchManager::isPatchThreadEnded (bool &ok)
{
if (PatchThread == NULL)
{
ok = false;
return true;
}
bool end = PatchThread->Ended;
if (end)
{
ok = PatchThread->PatchOk;
stopPatchThread();
}
return end;
}
// ****************************************************************************
// Called in main thread
bool CPatchManager::getThreadState (ucstring &stateOut, vector<ucstring> &stateLogOut)
{
if ((PatchThread == NULL) && (CheckThread == NULL) && (ScanDataThread==NULL))
return false;
// clear output
stateOut.clear();
stateLogOut.clear();
// Get access to the state
bool changed= false;
{
CSynchronized<CState>::CAccessor as(&State);
CState &rState= as.value();
if (rState.StateChanged)
{
// and retrieve info
changed= true;
stateOut = rState.State;
stateLogOut = rState.StateLog;
// clear state
rState.StateLog.clear();
rState.StateChanged= false;
}
}
// verbose log
if (isVerboseLog() && !stateLogOut.empty())
for (uint32 i = 0; i < stateLogOut.size(); ++i)
nlinfo("%s", stateLogOut[i].toString().c_str());
return changed;
}
// ****************************************************************************
void CPatchManager::stopPatchThread()
{
if(PatchThread && thread)
{
thread->wait();
delete thread;
thread = NULL;
delete PatchThread;
PatchThread = NULL;
}
}
// ****************************************************************************
void CPatchManager::deleteBatchFile()
{
deleteFile(UpdateBatchFilename, false, false);
}
// ****************************************************************************
void CPatchManager::createBatchFile(CProductDescriptionForClient &descFile, bool wantRyzomRestart, bool useBatchFile)
{
uint nblab = 0;
FILE *fp = NULL;
if (useBatchFile)
{
deleteBatchFile();
fp = fopen (UpdateBatchFilename.c_str(), "wt");
if (fp == 0)
{
string err = toString("Can't open file '%s' for writing: code=%d %s (error code 29)", UpdateBatchFilename.c_str(), errno, strerror(errno));
throw Exception (err);
}
fprintf(fp, "@echo off\n");
}
// Unpack files with category ExtractPath non empty
const CBNPCategorySet &rDescCats = descFile.getCategories();
OptionalCat.clear();
for (uint32 i = 0; i < rDescCats.categoryCount(); ++i)
{
// For all optional categories check if there is a 'file to patch' in it
const CBNPCategory &rCat = rDescCats.getCategory(i);
nlwarning("Category = %s", rCat.getName().c_str());
if (!rCat.getUnpackTo().empty())
for (uint32 j = 0; j < rCat.fileCount(); ++j)
{
string rFilename = ClientPatchPath + rCat.getFile(j);
nlwarning("\tFileName = %s", rFilename.c_str());
// Extract to patch
vector<string> vFilenames;
bool result = false;
try
{
result = bnpUnpack(rFilename, ClientPatchPath, vFilenames);
}
catch(...)
{
if (useBatchFile)
{
fclose(fp);
}
throw;
}
if (!result)
{
//:TODO: handle exception?
string err = toString("Error unpacking %s", rFilename.c_str());
if (useBatchFile)
{
fclose(fp);
}
throw Exception (err);
}
else
{
for (uint32 fff = 0; fff < vFilenames.size (); fff++)
{
string SrcPath = ClientPatchPath;
string DstPath = rCat.getUnpackTo();
NLMISC::CFile::createDirectoryTree(DstPath);
// this file must be moved
if (useBatchFile)
{
SrcPath = CPath::standardizeDosPath(SrcPath);
DstPath = CPath::standardizeDosPath(DstPath);
}
std::string SrcName = SrcPath + vFilenames[fff];
std::string DstName = DstPath + vFilenames[fff];
if (useBatchFile)
{
fprintf(fp, ":loop%u\n", nblab);
fprintf(fp, "attrib -r -a -s -h %s\n", DstName.c_str());
fprintf(fp, "del %s\n", DstName.c_str());
fprintf(fp, "if exist %s goto loop%u\n", DstName.c_str(), nblab);
fprintf(fp, "move %s %s\n", SrcName.c_str(), DstPath.c_str());
}
else
{
deleteFile(DstName);
CFile::moveFile(DstName.c_str(), SrcName.c_str());
}
nblab++;
}
}
}
}
// Finalize batch file
if (NLMISC::CFile::isExists("patch") && NLMISC::CFile::isDirectory("patch"))
{
if (useBatchFile)
{
fprintf(fp, ":looppatch\n");
}
vector<string> vFileList;
CPath::getPathContent ("patch", false, false, true, vFileList, NULL, false);
for(uint32 i = 0; i < vFileList.size(); ++i)
{
if (useBatchFile)
{
fprintf(fp, "del %s\n", CPath::standardizeDosPath(vFileList[i]).c_str());
}
else
{
CFile::deleteFile(vFileList[i]);
}
}
if (useBatchFile)
{
fprintf(fp, "rd /Q /S patch\n");
fprintf(fp, "if exist patch goto looppatch\n");
}
else
{
CFile::deleteDirectory("patch");
}
}
if (useBatchFile)
{
if (wantRyzomRestart)
{
fprintf(fp, "start %s %%1 %%2 %%3\n", RyzomFilename.c_str());
}
bool writeError = ferror(fp) != 0;
bool diskFull = ferror(fp) && errno == 28 /* ENOSPC */;
fclose(fp);
if (diskFull)
{
throw NLMISC::EDiskFullError(UpdateBatchFilename.c_str());
}
if (writeError)
{
throw NLMISC::EWriteError(UpdateBatchFilename.c_str());
}
}
}
// ****************************************************************************
void CPatchManager::executeBatchFile()
{
// normal quit
extern void quitCrashReport ();
quitCrashReport ();
#ifdef NL_OS_WINDOWS
// Launch the batch file
STARTUPINFO si;
PROCESS_INFORMATION pi;
ZeroMemory( &si, sizeof(si) );
si.dwFlags = STARTF_USESHOWWINDOW;
si.wShowWindow = SW_HIDE; // SW_SHOW
si.cb = sizeof(si);
ZeroMemory( &pi, sizeof(pi) );
// Start the child process.
string strCmdLine;
bool r2Mode = false;
#ifndef RY_BG_DOWNLOADER
r2Mode = ClientCfg.R2Mode;
#endif
if (r2Mode)
{
strCmdLine = UpdateBatchFilename + " " + LoginLogin + " " + LoginPassword;
}
else
{
strCmdLine = UpdateBatchFilename + " " + LoginLogin + " " + LoginPassword + " " + toString(LoginShardId);
}
if( !CreateProcess( NULL, // No module name (use command line).
(char*)strCmdLine.c_str(), // Command line.
NULL, // Process handle not inheritable.
NULL, // Thread handle not inheritable.
FALSE, // Set handle inheritance to FALSE.
0, // No creation flags.
NULL, // Use parent's environment block.
NULL, // Use parent's starting directory.
&si, // Pointer to STARTUPINFO structure.
&pi ) // Pointer to PROCESS_INFORMATION structure.
)
{
// error occurs during the launch
string str = toString("Can't execute '%s': code=%d %s (error code 30)", UpdateBatchFilename.c_str(), errno, strerror(errno));
throw Exception (str);
}
// Close process and thread handles.
// CloseHandle( pi.hProcess );
// CloseHandle( pi.hThread );
#else
// TODO for Linux and Mac OS
#endif
// exit(0);
}
// ****************************************************************************
void CPatchManager::reboot()
{
onFileInstallFinished(); //In install program wait for the player to select in the gui of the install program if we want to Launch Ryzom or not
createBatchFile(DescFile, _StartRyzomAtEnd);
executeBatchFile();
}
// ****************************************************************************
int CPatchManager::getTotalFilesToGet()
{
if (CheckThread != NULL)
return CheckThread->TotalFileToCheck;
if (PatchThread != NULL)
return PatchThread->getNbFileToPatch();
if (ScanDataThread != NULL)
return ScanDataThread->TotalFileToScan;
return 1;
}
// ****************************************************************************
int CPatchManager::getCurrentFilesToGet()
{
if (CheckThread != NULL)
return CheckThread->CurrentFileChecked;
if (PatchThread != NULL)
return PatchThread->getCurrentFilePatched();
if (ScanDataThread != NULL)
return ScanDataThread->CurrentFileScanned;
return 1;
}
// ****************************************************************************
int CPatchManager::getPatchingSize()
{
if (PatchThread != NULL)
return PatchThread->getPatchingSize();
return 0;
}
// ****************************************************************************
float CPatchManager::getCurrentFileProgress() const
{
if (PatchThread != NULL)
return PatchThread->getCurrentFileProgress();
return 0.f;
}
// ****************************************************************************
void CPatchManager::setRWAccess (const string &filename)
{
ucstring s = CI18N::get("uiSetAttrib") + " " + filename;
setState(true, s);
if (!NLMISC::CFile::setRWAccess(filename))
{
s = CI18N::get("uiAttribErr") + " " + filename + " (" + toString(errno) + "," + strerror(errno) + ")";
setState(true, s);
throw Exception (s.toString());
}
}
// ****************************************************************************
string CPatchManager::deleteFile (const string &filename, bool bThrowException, bool bWarning)
{
ucstring s = CI18N::get("uiDelFile") + " " + filename;
setState(true, s);
if (!NLMISC::CFile::fileExists(filename))
{
s = CI18N::get("uiDelNoFile");
setState(true, s);
return s.toString();
}
if (!NLMISC::CFile::deleteFile(filename))
{
s = CI18N::get("uiDelErr") + " " + filename + " (" + toString(errno) + "," + strerror(errno) + ")";
if(bWarning)
setState(true, s);
if(bThrowException)
throw Exception (s.toString());
return s.toString();
}
return "";
}
// ****************************************************************************
void CPatchManager::renameFile (const string &src, const string &dst)
{
ucstring s = CI18N::get("uiRenameFile") + " " + NLMISC::CFile::getFilename(src);
setState(true, s);
if (!NLMISC::CFile::moveFile(dst.c_str(), src.c_str()))
{
s = CI18N::get("uiRenameErr") + " " + src + " -> " + dst + " (" + toString(errno) + "," + strerror(errno) + ")";
setState(true, s);
throw Exception (s.toString());
}
}
// ****************************************************************************
// Take care this function is called by the thread
void CPatchManager::setState (bool bOutputToLog, const ucstring &ucsNewState)
{
{
CSynchronized<CState>::CAccessor as(&State);
CState &rState= as.value();
rState.State= ucsNewState;
if(bOutputToLog)
rState.StateLog.push_back(ucsNewState);
rState.StateChanged= true;
}
if (_StateListener)
{
_StateListener->setState(bOutputToLog, ucsNewState);
}
}
// ****************************************************************************
void CPatchManager::touchState ()
{
{
CSynchronized<CState>::CAccessor as(&State);
as.value().StateChanged= true;
}
}
// ****************************************************************************
string CPatchManager::getClientVersion()
{
if (!ValidDescFile)
return "";
return toString(DescFile.getFiles().getVersionNumber());
}
// ****************************************************************************
void CPatchManager::readDescFile(sint32 nVersion)
{
DescFilename = toString("ryzom_%05d.idx", nVersion);
string srcName = ClientPatchPath + DescFilename;
DescFile.clear();
if (!DescFile.load(srcName))
throw Exception ("Can't open file '%s'", srcName.c_str ());
uint cat;
if (ClientRootPath != "./")
{
// fix relative paths
for (cat = 0; cat < DescFile.getCategories().categoryCount(); ++cat)
{
CBNPCategory &category = const_cast<CBNPCategory &>(DescFile.getCategories().getCategory(cat));
std::string unpackTo = category.getUnpackTo();
if (unpackTo.substr(0, 2) == "./")
{
unpackTo = ClientRootPath + unpackTo.substr(2);
category.setUnpackTo(unpackTo);
}
}
}
// tmp for debug : flag some categories as 'Mainland'
for (cat = 0; cat < DescFile.getCategories().categoryCount(); ++cat)
{
if (std::find(ForceMainlandPatchCategories.begin(), ForceMainlandPatchCategories.end(),
DescFile.getCategories().getCategory(cat).getName()) != ForceMainlandPatchCategories.end())
{
const_cast<CBNPCategory &>(DescFile.getCategories().getCategory(cat)).setOptional(true);
}
}
CBNPFileSet &bnpFS = const_cast<CBNPFileSet &>(DescFile.getFiles());
for(cat = 0; cat < DescFile.getCategories().categoryCount();)
{
const CBNPCategory &bnpCat = DescFile.getCategories().getCategory(cat);
if (std::find(ForceRemovePatchCategories.begin(), ForceRemovePatchCategories.end(),
bnpCat.getName()) != ForceRemovePatchCategories.end())
{
for(uint file = 0; file < bnpCat.fileCount(); ++file)
{
std::string fileName = bnpCat.getFile(file);
bnpFS.removeFile(fileName);
}
const_cast<CBNPCategorySet &>(DescFile.getCategories()).deleteCategory(cat);
}
else
{
++cat;
}
}
}
// ****************************************************************************
void CPatchManager::getServerFile (const std::string &name, bool bZipped, const std::string& specifyDestName, NLMISC::IProgressCallback *progress)
{
string srcName = name;
if (bZipped) srcName += ".ngz";
string dstName;
if (specifyDestName.empty())
{
dstName = ClientPatchPath + NLMISC::CFile::getFilename(name);
}
else
{
dstName = specifyDestName;
}
if (bZipped) dstName += ".ngz";
bool downloadSuccess = false;
while (!downloadSuccess)
{
std::string serverPath;
std::string serverDisplayPath;
if (UsedServer >= 0 && PatchServers.size() > 0)
{
// first use main patch servers
serverPath = PatchServers[UsedServer].ServerPath;
serverDisplayPath = PatchServers[UsedServer].DisplayedServerPath;
}
else
{
// else use alternative emergency patch server
serverPath = ServerPath;
serverDisplayPath = DisplayedServerPath;
UsedServer = -1;
}
try
{
ucstring s = CI18N::get("uiLoginGetFile") + " " + NLMISC::CFile::getFilename(srcName);
setState(true, s);
// get the new file
downloadFile (serverPath+srcName, dstName, progress);
downloadSuccess = true;
}
catch (const EPatchDownloadException& e)
{
//nlwarning("EXCEPTION CATCH: getServerFile() failed - try to find an alternative: %i: %s",UsedServer,PatchServers[UsedServer].DisplayedServerPath.c_str());
nlwarning("EXCEPTION CATCH: getServerFile() failed - try to find an alternative :");
nlwarning("%i", UsedServer);
if (UsedServer >= 0 && UsedServer < (int) PatchServers.size())
{
nlwarning("%s", PatchServers[UsedServer].DisplayedServerPath.c_str());
}
// if emergency patch server, this is a real issue, rethrow exception
if (UsedServer < 0)
{
ucstring s = CI18N::get("uiDLFailed");
setState(true, s);
throw Exception(e.what());
}
ucstring s = CI18N::get("uiDLURIFailed") + " " + serverDisplayPath;
setState(true, s);
// this server is unavailable
PatchServers[UsedServer].Available = false;
sint nextServer = (UsedServer+1) % PatchServers.size();
while (nextServer != UsedServer && !PatchServers[nextServer].Available)
nextServer = (nextServer+1) % PatchServers.size();
// scanned all servers? use alternative
if (nextServer == UsedServer)
{
ucstring s = CI18N::get("uiNoMoreURI");
setState(true, s);
UsedServer = -1;
nlwarning("EXCEPTION CATCH: getServerFile() failed - no alternative found");
}
else
{
UsedServer = nextServer;
nlwarning("EXCEPTION CATCH: getServerFile() failed - trying server: %i: %s",UsedServer,PatchServers[UsedServer].DisplayedServerPath.c_str());
}
}
}
// decompress it
if (bZipped)
decompressFile (dstName);
}
// ****************************************************************************
void CPatchManager::downloadFileWithCurl (const string &source, const string &dest, NLMISC::IProgressCallback *progress)
{
DownloadInProgress = true;
try
{
#ifdef USE_CURL
ucstring s = CI18N::get("uiDLWithCurl") + " " + dest;
setState(true, s);
// user agent = nel_launcher
CURL *curl;
CURLcode res;
ucstring sTranslate = CI18N::get("uiLoginGetFile") + " " + NLMISC::CFile::getFilename (source);
setState(true, sTranslate);
CurrentFile = NLMISC::CFile::getFilename (source);
curl_global_init(CURL_GLOBAL_ALL);
curl = curl_easy_init();
if(curl == NULL)
{
// file not found, delete local file
throw Exception ("curl init failed");
}
curl_easy_setopt(curl, CURLOPT_NOPROGRESS, 0);
curl_easy_setopt(curl, CURLOPT_PROGRESSFUNCTION, downloadProgressFunc);
curl_easy_setopt(curl, CURLOPT_PROGRESSDATA, (void *) progress);
curl_easy_setopt(curl, CURLOPT_URL, source.c_str());
// create the local file
if (NLMISC::CFile::fileExists(dest))
{
setRWAccess(dest);
NLMISC::CFile::deleteFile(dest.c_str());
}
FILE *fp = fopen (dest.c_str(), "wb");
if (fp == NULL)
{
curl_easy_setopt(curl, CURLOPT_PROGRESSDATA, NULL);
throw Exception ("Can't open file '%s' for writing: code=%d %s (error code 37)", dest.c_str (), errno, strerror(errno));
}
curl_easy_setopt(curl, CURLOPT_FILE, fp);
//CurrentFilesToGet++;
res = curl_easy_perform(curl);
curl_easy_setopt(curl, CURLOPT_PROGRESSDATA, NULL);
long r;
curl_easy_getinfo(curl, CURLINFO_RESPONSE_CODE, &r);
curl_easy_cleanup(curl);
bool diskFull = ferror(fp) && errno == 28 /*ENOSPC*/;
fclose(fp);
curl_global_cleanup();
CurrentFile = "";
if (diskFull)
{
NLMISC::CFile::deleteFile(dest.c_str());
throw NLMISC::EDiskFullError(dest);
}
if(CURLE_WRITE_ERROR == res)
{
// file not found, delete local file
NLMISC::CFile::deleteFile(dest.c_str());
throw NLMISC::EWriteError(dest);
}
if(CURLE_FTP_COULDNT_RETR_FILE == res)
{
// file not found, delete local file
NLMISC::CFile::deleteFile(dest.c_str());
throw EPatchDownloadException (NLMISC::toString("curl download failed: (ec %d %d)", res, r));
}
if(CURLE_OK != res)
{
NLMISC::CFile::deleteFile(dest.c_str());
throw EPatchDownloadException (NLMISC::toString("curl download failed: (ec %d %d)", res, r));
}
if(r == 404)
{
// file not found, delete it
NLMISC::CFile::deleteFile(dest.c_str());
throw EPatchDownloadException (NLMISC::toString("curl download failed: (ec %d %d)", res, r));
}
if(r < 200 || r >= 300)
{
// file not found, delete it
NLMISC::CFile::deleteFile(dest.c_str());
throw EPatchDownloadException (NLMISC::toString("curl download failed: (ec %d %d)", res, r));
}
#else
throw Exception("USE_CURL is not defined, no curl method");
#endif
}
catch(...)
{
DownloadInProgress = false;
throw;
}
if (progress)
{
// set progress to 1
validateProgress((void *) progress, 1, 1, 0, 0);
}
DownloadInProgress = false;
}
// ****************************************************************************
void CPatchManager::downloadFile (const string &source, const string &dest, NLMISC::IProgressCallback *progress)
{
// For the moment use only curl
const string sHeadHttp = toLower(source.substr(0,5));
const string sHeadFtp = toLower(source.substr(0,4));
const string sHeadFile = toLower(source.substr(0,5));
if ((sHeadHttp == "http:") || (sHeadFtp == "ftp:") || (sHeadFile == "file:"))
{
downloadFileWithCurl(source, dest, progress);
}
else
{
if (!NLMISC::CFile::copyFile(dest, source, false, progress))
{
if (errno == 28)
{
throw NLMISC::EDiskFullError(dest);
}
throw Exception ("cannot copy file %s to %s", source.c_str(), dest.c_str());
}
}
}
// ****************************************************************************
// TODO : Review this uncompress routine to uncompress in a temp file before overwriting destination file
void CPatchManager::decompressFile (const string &filename)
{
ucstring sTranslate = CI18N::get("uiDecompressing") + " " + NLMISC::CFile::getFilename(filename);
setState(true, sTranslate);
//if(isVerboseLog()) nlinfo("Calling gzopen('%s','rb')", filename.c_str());
gzFile gz = gzopen (filename.c_str (), "rb");
if (gz == NULL)
{
string err = toString("Can't open compressed file '%s' : ", filename.c_str());
if(errno == 0)
{
// gzerror
int gzerrno;
const char *gzerr = gzerror (gz, &gzerrno);
err += toString("code=%d %s", gzerrno, gzerr);
}
else
{
err += toString("code=%d %s", errno, strerror (errno));
}
err += " (error code 31)";
deleteFile (filename);
throw Exception (err);
}
string dest = filename.substr(0, filename.size ()-4);
setRWAccess(dest);
//if(isVerboseLog()) nlinfo("Calling fopen('%s','wb')", dest.c_str());
FILE *fp = fopen (dest.c_str(), "wb");
if (fp == NULL)
{
string err = toString("Can't open file '%s' : code=%d %s, (error code 32)", dest.c_str(), errno, strerror(errno));
gzclose(gz);
deleteFile (filename);
throw Exception (err);
}
//if(isVerboseLog()) nlinfo("Entering the while loop decompression");
uint32 currentSize = 0;
uint8 buffer[10000];
while (!gzeof(gz))
{
//if(isVerboseLog()) nlinfo("Calling gzread");
int res = gzread (gz, buffer, 10000);
//if(isVerboseLog()) nlinfo("gzread returns %d", res);
if (res == -1)
{
int gzerrno;
const char *gzerr = gzerror (gz, &gzerrno);
gzclose(gz);
fclose(fp);
//deleteFile (filename);
throw Exception ("Can't read compressed file '%s' (after %d bytes) : code=%d %s, (error code 33)", filename.c_str(), currentSize, gzerrno, gzerr);
}
currentSize += res;
//if(isVerboseLog()) nlinfo("Calling fwrite for %d bytes", res);
int res2 = (int)fwrite (buffer, 1, res, fp);
//if(isVerboseLog()) nlinfo("fwrite returns %d", res2);
if (res2 != res)
{
bool diskFull = (errno == 28 /* ENOSPC */);
string err = toString("Can't write file '%s' : code=%d %s (error code 34)", dest.c_str(), errno, strerror(errno));
gzclose(gz);
fclose(fp);
deleteFile (filename);
if (diskFull)
{
throw NLMISC::EDiskFullError(err);
}
else
{
throw Exception (err);
}
}
}
//if(isVerboseLog()) nlinfo("Exiting the while loop decompression");
//if(isVerboseLog()) nlinfo("Calling gzclose");
gzclose(gz);
//if(isVerboseLog()) nlinfo("Calling fclose");
fclose(fp);
deleteFile(filename);
//if(isVerboseLog()) nlinfo("Exiting the decompressing file");
}
// ****************************************************************************
void CPatchManager::applyDate (const string &sFilename, uint32 nDate)
{
// change the file time
if(nDate != 0)
{
// _utimbuf utb;
// utb.actime = utb.modtime = nDate;
setRWAccess(sFilename);
ucstring s = CI18N::get("uiChangeDate") + " " + NLMISC::CFile::getFilename(sFilename) + " " + toString(NLMISC::CFile::getFileModificationDate (sFilename)) +
" -> " + toString(nDate);
setState(true,s);
if (!NLMISC::CFile::setFileModificationDate(sFilename, nDate))
// if (_utime (sFilename.c_str (), &utb) == -1)
{
int err = NLMISC::getLastError();
s = CI18N::get("uiChgDateErr") + " " + sFilename + " (" + toString(err) + ", " + formatErrorMessage(err) + ")";
setState(true,s);
}
s = CI18N::get("uiNowDate") + " " + sFilename + " " + toString(NLMISC::CFile::getFileModificationDate (sFilename));
setState(true,s);
}
}
// ****************************************************************************
// Get all the patches that need to be applied to a file from the description of this file given by the server
void CPatchManager::getPatchFromDesc(SFileToPatch &ftpOut, const CBNPFile &fIn, bool forceCheckSumTest)
{
uint32 j;
const CBNPFile rFile = fIn;
const string &rFilename = rFile.getFileName();
string sFilePath;
bool inPatchDir = false;
// first see if there's a version that was downloaded from the background downloader
if (NLMISC::CFile::fileExists(ClientPatchPath + rFilename + ".tmp"))
{
sFilePath = ClientPatchPath + rFilename + ".tmp";
ftpOut.SrcFileName = sFilePath;
inPatchDir = true;
}
bool needUnpack = false;
const CBNPCategory *cat = DescFile.getCategories().getCategoryFromFile(rFilename);
if (cat)
{
needUnpack = !cat->getUnpackTo().empty();
}
else
{
nlwarning("Can't find file category for %s:", rFilename.c_str());
}
// Does the BNP exists ?
// following lines added by Sadge to ensure that the correct file is patched
// Only look in data path if the file should not be unpack (otherwise it should only remains in the "unpack" directory)
if (!needUnpack)
{
if (sFilePath.empty() && NLMISC::CFile::fileExists(ClientDataPath + rFilename)) sFilePath = ClientDataPath + rFilename;
}
if (sFilePath.empty() && NLMISC::CFile::fileExists(ClientPatchPath + rFilename)) sFilePath = ClientPatchPath + rFilename;
// following lines removed by Sadge to ensure that the correct file is patched
// string sFilePath = CPath::lookup(rFilename, false, false);
// if (sFilePath.empty())
// {
// if (NLMISC::CFile::fileExists(ClientPatchPath + rFilename))
// sFilePath = ClientPatchPath + rFilename;
// }
// if file not found anywhere
if (sFilePath.empty())
{
ftpOut.FileName = rFilename;
ftpOut.LocalFileToDelete = false;
ftpOut.LocalFileExists = false;
// It happens some time (maybe a bug) that the versionCount is 0... =>
// it happens if the BNP file is empty (8 bytes)
ftpOut.FinalFileSize = EmptyBnpFileSize;
// BNP does not exists : get all the patches version
for (j = 0; j < rFile.versionCount(); ++j)
{
ftpOut.Patches.push_back(rFile.getVersion(j).getVersionNumber());
ftpOut.PatcheSizes.push_back(rFile.getVersion(j).getPatchSize());
ftpOut.LastFileDate = rFile.getVersion(j).getTimeStamp();
ftpOut.FinalFileSize = rFile.getVersion(j).getFileSize();
ftpOut.SZFileSize = rFile.getVersion(j).get7ZFileSize();
}
}
else
{
// The local BNP file exists : find its version
uint32 nLocalSize = NLMISC::CFile::getFileSize(sFilePath);
uint32 nLocalTime = NLMISC::CFile::getFileModificationDate(sFilePath);
// From the couple time, size look the version of the file
uint32 nVersionFound = 0xFFFFFFFF;
// If forceChecksum is wanted (slow), then don't do the test with filesize/date
if(!forceCheckSumTest)
{
for (j = 0; j < rFile.versionCount(); ++j)
{
const CBNPFileVersion &rVersion = rFile.getVersion(j);
uint32 nServerSize = rVersion.getFileSize();
uint32 nServerTime = rVersion.getTimeStamp();
// Does the time and size match a version ?
if ((nServerSize == nLocalSize) && (abs((sint32)(nServerTime - nLocalTime)) <= 2) )
{
nVersionFound = rVersion.getVersionNumber();
// break; // ace -> get the last good version (if more than one version of the same file exists)
}
}
}
// If the version cannot be found with size and time try with sha1
if (nVersionFound == 0xFFFFFFFF)
{
ucstring sTranslate = CI18N::get("uiCheckInt") + " " + rFilename;
setState(true, sTranslate);
CHashKey hkLocalSHA1 = getSHA1(sFilePath);
for (j = 0; j < rFile.versionCount(); ++j)
{
const CBNPFileVersion &rVersion = rFile.getVersion(j);
CHashKey hkServerSHA1 = rVersion.getHashKey();
// Does the sha1 match a version ?
if (hkServerSHA1 == hkLocalSHA1)
{
nVersionFound = rVersion.getVersionNumber();
applyDate(sFilePath, rVersion.getTimeStamp());
// break; // ace -> same as above
}
}
}
// No version available found
if (nVersionFound == 0xFFFFFFFF)
{
ucstring sTranslate = CI18N::get("uiNoVersionFound");
setState(true, sTranslate);
// Get all patches from beginning (first patch is reference file)
ftpOut.FileName = rFilename;
ftpOut.LocalFileToDelete = true;
ftpOut.LocalFileExists = !inPatchDir;
// It happens some time (maybe a bug) that the versionCount is 0... =>
// it happens if the BNP file is empty (8 bytes)
ftpOut.FinalFileSize = EmptyBnpFileSize;
// Get all the patches version
for (j = 0; j < rFile.versionCount(); ++j)
{
ftpOut.Patches.push_back(rFile.getVersion(j).getVersionNumber());
ftpOut.PatcheSizes.push_back(rFile.getVersion(j).getPatchSize());
ftpOut.LastFileDate = rFile.getVersion(j).getTimeStamp();
ftpOut.FinalFileSize = rFile.getVersion(j).getFileSize();
ftpOut.SZFileSize = rFile.getVersion(j).get7ZFileSize();
}
}
else // A version of the file has been found
{
ucstring sTranslate = CI18N::get("uiVersionFound") + " " + toString(nVersionFound);
setState(true, sTranslate);
// Get All patches from this version !
ftpOut.FileName = rFilename;
ftpOut.LocalFileToDelete = false;
ftpOut.LocalFileExists = !inPatchDir;
// Go to the version
for (j = 0; j < rFile.versionCount(); ++j)
if (rFile.getVersion(j).getVersionNumber() == nVersionFound)
break;
nlassert(j != rFile.versionCount()); // Not normal if we cant find the version we found previously
// Point on the next version
j++;
// If there are newer versions
if (j != rFile.versionCount())
{
// Add all version until the last one
for (; j < rFile.versionCount(); ++j)
{
ftpOut.Patches.push_back(rFile.getVersion(j).getVersionNumber());
ftpOut.PatcheSizes.push_back(rFile.getVersion(j).getPatchSize());
ftpOut.LastFileDate = rFile.getVersion(j).getTimeStamp();
ftpOut.SZFileSize = rFile.getVersion(j).get7ZFileSize();
}
}
// Else this file is up to date !
// For info, get its final file size
ftpOut.FinalFileSize= rFile.getVersion(rFile.versionCount()-1).getFileSize();
}
} // end of else local BNP file exists
}
// ****************************************************************************
bool CPatchManager::readBNPHeader(const string &SourceName, vector<SBNPFile> &Files)
{
/* *****
If the BNP Header format change, please modify 'EmptyBnpFileSize' as needed
***** */
FILE *f = fopen (SourceName.c_str(), "rb");
if (f == NULL) return false;
nlfseek64 (f, 0, SEEK_END);
uint32 nFileSize = NLMISC::CFile::getFileSize (SourceName);
nlfseek64 (f, nFileSize-sizeof(uint32), SEEK_SET);
uint32 nOffsetFromBeginning;
if (fread (&nOffsetFromBeginning, sizeof(uint32), 1, f) != 1)
{
fclose(f);
return false;
}
#ifdef NL_BIG_ENDIAN
NLMISC_BSWAP32(nOffsetFromBeginning);
#endif
if (nlfseek64 (f, nOffsetFromBeginning, SEEK_SET) != 0)
{
fclose(f);
return false;
}
uint32 nNbFile;
if (fread (&nNbFile, sizeof(uint32), 1, f) != 1)
{
fclose(f);
return false;
}
#ifdef NL_BIG_ENDIAN
NLMISC_BSWAP32(nNbFile);
#endif
for (uint32 i = 0; i < nNbFile; ++i)
{
uint8 nStringSize;
if (fread (&nStringSize, 1, 1, f) != 1)
{
fclose(f);
return false;
}
char sName[256];
if (fread (sName, 1, nStringSize, f) != nStringSize)
{
fclose(f);
return false;
}
sName[nStringSize] = 0;
SBNPFile tmpBNPFile;
tmpBNPFile.Name = sName;
if (fread (&tmpBNPFile.Size, sizeof(uint32), 1, f) != 1)
{
fclose(f);
return false;
}
#ifdef NL_BIG_ENDIAN
NLMISC_BSWAP32(tmpBNPFile.Size);
#endif
if (fread (&tmpBNPFile.Pos, sizeof(uint32), 1, f) != 1)
{
fclose(f);
return false;
}
#ifdef NL_BIG_ENDIAN
NLMISC_BSWAP32(tmpBNPFile.Pos);
#endif
Files.push_back (tmpBNPFile);
}
fclose (f);
return true;
}
// ****************************************************************************
bool CPatchManager::bnpUnpack(const string &srcBigfile, const string &dstPath, vector<string> &vFilenames)
{
nldebug("bnpUnpack: srcBigfile=%s", srcBigfile.c_str());
string SourceName, DestPath;
// following lines added by Sadge to ensure that the correct file gets patched
// if (NLMISC::CFile::fileExists(ClientDataPath + srcBigfile)) SourceName = ClientDataPath + srcBigfile;
// else if (NLMISC::CFile::fileExists(srcBigfile)) SourceName = ClientDataPath + srcBigfile;
SourceName= srcBigfile;
// following lines removed by Sadge to ensure that the correct file gets patched
// SourceName = CPath::lookup(srcBigfile, false, false);
// if (SourceName.empty())
// SourceName = ClientPatchPath + srcBigfile;
if (dstPath.empty())
DestPath = ClientRootPath;
else
DestPath = CPath::standardizePath (dstPath);
ucstring s = CI18N::get("uiUnpack") + " " + NLMISC::CFile::getFilename(SourceName);
setState(true,s);
// Read Header of the BNP File
vector<CPatchManager::SBNPFile> Files;
if (!readBNPHeader(SourceName, Files))
{
ucstring s = CI18N::get("uiUnpackErrHead") + " " + SourceName;
setState(true,s);
return false;
}
// Unpack
{
FILE *bnp = fopen (SourceName.c_str(), "rb");
FILE *out;
if (bnp == NULL)
return false;
for (uint32 i = 0; i < Files.size(); ++i)
{
CPatchManager::SBNPFile &rBNPFile = Files[i];
string filename = DestPath + rBNPFile.Name;
out = fopen (filename.c_str(), "wb");
if (out != NULL)
{
nlfseek64 (bnp, rBNPFile.Pos, SEEK_SET);
uint8 *ptr = new uint8[rBNPFile.Size];
if (fread (ptr, rBNPFile.Size, 1, bnp) != 1)
{
fclose(out);
return false;
}
bool writeError = fwrite (ptr, rBNPFile.Size, 1, out) != 1;
if (writeError)
{
nlwarning("errno = %d", errno);
}
bool diskFull = ferror(out) && errno == 28 /* ENOSPC*/;
fclose (out);
delete [] ptr;
if (diskFull)
{
throw NLMISC::EDiskFullError(filename);
}
if (writeError)
{
throw NLMISC::EWriteError(filename);
}
}
}
fclose (bnp);
}
// Return names
{
vFilenames.clear();
for (uint32 i = 0; i < Files.size(); ++i)
vFilenames.push_back(Files[i].Name);
}
return true;
}
// ****************************************************************************
int CPatchManager::downloadProgressFunc(void *foo, double t, double d, double ultotal, double ulnow)
{
if (d != t)
{
// In the case of progress = 1, don't update because, this will be called in case of error to signal the end of the download, though
// no download actually occured. Instead, we set progress to 1.f at the end of downloadWithCurl if everything went fine
return validateProgress(foo, t, d, ultotal, ulnow);
}
return 0;
}
// ****************************************************************************
int CPatchManager::validateProgress(void *foo, double t, double d, double /* ultotal */, double /* ulnow */)
{
CPatchManager *pPM = CPatchManager::getInstance();
double pour1 = t!=0.0?d*100.0/t:0.0;
ucstring sTranslate = CI18N::get("uiLoginGetFile") + toString(" %s : %s / %s (%5.02f %%)", NLMISC::CFile::getFilename(pPM->CurrentFile).c_str(),
NLMISC::bytesToHumanReadable((uint64)d).c_str(), NLMISC::bytesToHumanReadable((uint64)t).c_str(), pour1);
pPM->setState(false, sTranslate);
if (foo)
{
((NLMISC::IProgressCallback *) foo)->progress((float) (t != 0 ? d / t : 0));
}
return 0;
}
// ****************************************************************************
void CPatchManager::MyPatchingCB::progress(float f)
{
CPatchManager *pPM = CPatchManager::getInstance();
double p = 100.0*f;
ucstring sTranslate = CI18N::get("uiApplyingDelta") + toString(" %s (%5.02f %%)", patchFilename.c_str(), p);
pPM->setState(false, sTranslate);
}
// ***************************************************************************
void CPatchManager::startScanDataThread()
{
if (ScanDataThread != NULL)
{
nlwarning ("scan data thread is already running");
return;
}
if (thread != NULL)
{
nlwarning ("a thread is already running");
return;
}
_ErrorMessage.clear();
// Reset result
clearDataScanLog();
// Read now the client version and Desc File.
readClientVersionAndDescFile();
// start thread
ScanDataThread = new CScanDataThread();
nlassert (ScanDataThread != NULL);
thread = IThread::create (ScanDataThread);
nlassert (thread != NULL);
thread->start ();
}
// ****************************************************************************
bool CPatchManager::isScanDataThreadEnded(bool &ok)
{
if (ScanDataThread == NULL)
{
ok = false;
return true;
}
bool end = ScanDataThread->Ended;
if (end)
{
ok = ScanDataThread->CheckOk;
stopScanDataThread();
}
return end;
}
// ****************************************************************************
void CPatchManager::stopScanDataThread()
{
if(ScanDataThread && thread)
{
thread->wait();
delete thread;
thread = NULL;
delete ScanDataThread;
ScanDataThread = NULL;
}
}
// ***************************************************************************
void CPatchManager::askForStopScanDataThread()
{
if(!ScanDataThread)
return;
ScanDataThread->AskForCancel= true;
}
// ***************************************************************************
uint CPatchManager::applyScanDataResult()
{
// if still running, abort
if(ScanDataThread)
return 0;
uint numError= 0;
{
TSyncDataScanState::CAccessor ac(&DataScanState);
CDataScanState &val= ac.value();
numError= (uint)val.FilesWithScanDataError.size();
// Touch the files with error (will be reloaded at next patch)
for(uint i=0;i<numError;i++)
{
SFileToPatch &ftp= val.FilesWithScanDataError[i];
// if the file was not found (just loggued for information)
if(!ftp.LocalFileExists)
continue;
// get file path
// following lines added by Sadge to ensure that the correct file gets patched
string sFilePath;
if (NLMISC::CFile::fileExists(ClientDataPath + ftp.FileName)) sFilePath = ClientDataPath + ftp.FileName;
if (sFilePath.empty() && NLMISC::CFile::fileExists(ClientPatchPath + ftp.FileName)) sFilePath = ClientPatchPath + ftp.FileName;
// following lines removed by Sadge to ensure that the correct file gets patched
// string sFilePath = CPath::lookup(ftp.FileName, false, false);
// if (sFilePath.empty())
// {
// if (NLMISC::CFile::fileExists(ClientPatchPath + ftp.FileName))
// sFilePath = ClientPatchPath + ftp.FileName;
// }
// Reset to a dummy date, so the patch will be fully/checked/patched next time
if(!sFilePath.empty())
applyDate(sFilePath, DefaultResetDate);
else
nlwarning("File '%s' Not Found. should exist...", ftp.FileName.c_str());
}
}
return numError;
}
// ***************************************************************************
bool CPatchManager::getDataScanLog(ucstring &text)
{
text.clear();
bool changed= false;
{
TSyncDataScanState::CAccessor ac(&DataScanState);
CDataScanState &val= ac.value();
changed= val.Changed;
// if changed, build the log
if(changed)
{
for(uint i=0;i<val.FilesWithScanDataError.size();i++)
{
ucstring str;
getCorruptedFileInfo(val.FilesWithScanDataError[i], str);
text+= str + "\n";
}
}
// then reset
val.Changed= false;
}
return changed;
}
// ***************************************************************************
void CPatchManager::addDataScanLogCorruptedFile(const SFileToPatch &ftp)
{
{
TSyncDataScanState::CAccessor ac(&DataScanState);
CDataScanState &val= ac.value();
val.FilesWithScanDataError.push_back(ftp);
val.Changed= true;
}
}
// ***************************************************************************
void CPatchManager::clearDataScanLog()
{
{
TSyncDataScanState::CAccessor ac(&DataScanState);
CDataScanState &val= ac.value();
val.FilesWithScanDataError.clear();
val.Changed= true;
}
}
// ***************************************************************************
void CPatchManager::getCorruptedFileInfo(const SFileToPatch &ftp, ucstring &sTranslate)
{
sTranslate = CI18N::get("uiCorruptedFile") + " " + ftp.FileName + " (" +
toString("%.1f ", (float)ftp.FinalFileSize/1000000.f) + CI18N::get("uiMb") + ")";
}
bool CPatchManager::unpack7Zip(const std::string &sevenZipFile, const std::string &destFileName)
{
#ifdef NL_USE_SEVENZIP
nlinfo("Uncompressing 7zip archive '%s' to '%s'",
sevenZipFile.c_str(),
destFileName.c_str());
// init seven zip
ISzAlloc allocImp;
ISzAlloc allocTempImp;
CArchiveDatabaseEx db;
allocImp.Alloc = SzAlloc;
allocImp.Free = SzFree;
allocTempImp.Alloc = SzAllocTemp;
allocTempImp.Free = SzFreeTemp;
InitCrcTable();
SzArDbExInit(&db);
// unpack the file using the 7zip API
CIFile input(sevenZipFile);
CNel7ZipInStream inStr(&input);
SZ_RESULT res = SzArchiveOpen(&inStr, &db, &allocImp, &allocTempImp);
if (res != SZ_OK)
{
nlerror("Failed to open archive file %s", sevenZipFile.c_str());
return false;
}
if (db.Database.NumFiles != 1)
{
nlerror("Seven zip archive with more than 1 file are unsupported");
return false;
}
UInt32 blockIndex = 0xFFFFFFFF; /* it can have any value before first call (if outBuffer = 0) */
Byte *outBuffer = 0; /* it must be 0 before first call for each new archive. */
size_t outBufferSize = 0; /* it can have any value before first call (if outBuffer = 0) */
size_t offset;
size_t outSizeProcessed = 0;
// get the first file
CFileItem *f = db.Database.Files;
res = SzExtract(&inStr, &db, 0,
&blockIndex, &outBuffer, &outBufferSize,
&offset, &outSizeProcessed,
&allocImp, &allocTempImp);
// write the extracted file
FILE *outputHandle;
UInt32 processedSize;
char *fileName = f->Name;
size_t nameLen = strlen(f->Name);
for (; nameLen > 0; nameLen--)
{
if (f->Name[nameLen - 1] == '/')
{
fileName = f->Name + nameLen;
break;
}
}
outputHandle = fopen(destFileName.c_str(), "wb+");
if (outputHandle == 0)
{
nlerror("Can not open output file '%s'", destFileName.c_str());
return false;
}
processedSize = (UInt32)fwrite(outBuffer + offset, 1, outSizeProcessed, outputHandle);
if (processedSize != outSizeProcessed)
{
nlerror("Failed to write %u char to output file '%s'", outSizeProcessed-processedSize, destFileName.c_str());
return false;
}
fclose(outputHandle);
allocImp.Free(outBuffer);
// free 7z context
SzArDbExFree(&db, allocImp.Free);
// ok, all is fine, file is unpacked
return true;
#else
return false;
#endif
}
bool CPatchManager::unpackLZMA(const std::string &lzmaFile, const std::string &destFileName)
{
#ifdef NL_USE_SEVENZIP
nldebug("unpackLZMA : decompression the lzma file '%s' into output file '%s", lzmaFile.c_str(), destFileName.c_str());
CIFile inStream(lzmaFile);
uint32 inSize = inStream.getFileSize();
auto_ptr<uint8> inBuffer = auto_ptr<uint8>(new uint8[inSize]);
inStream.serialBuffer(inBuffer.get(), inSize);
CLzmaDecoderState state;
uint8 *pos = inBuffer.get();
// read the lzma properties
int ret = LzmaDecodeProperties(&state.Properties, (unsigned char*) pos, LZMA_PROPERTIES_SIZE);
if (ret != 0)
{
nlwarning("Failed to decode lzma properies in file '%s'!", lzmaFile.c_str());
return false;
}
if (inSize < LZMA_PROPERTIES_SIZE + 8)
{
nlwarning("Invalid file size, too small file '%s'", lzmaFile.c_str());
return false;
}
// alloc the probs, making sure they are deleted in function exit
size_t nbProb = LzmaGetNumProbs(&state.Properties);
auto_ptr<CProb> probs = auto_ptr<CProb>(new CProb[nbProb]);
state.Probs = probs.get();
pos += LZMA_PROPERTIES_SIZE;
// read the output file size
size_t fileSize = 0;
for (int i = 0; i < 8; i++)
{
//Byte b;
if (pos >= inBuffer.get()+inSize)
{
nlassert(false);
return false;
}
fileSize |= ((UInt64)*pos++) << (8 * i);
}
SizeT outProcessed = 0;
SizeT inProcessed = 0;
// allocate the output buffer
auto_ptr<uint8> outBuffer = auto_ptr<uint8>(new uint8[fileSize]);
// decompress the file in memory
ret = LzmaDecode(&state, (unsigned char*) pos, (SizeT)(inSize-(pos-inBuffer.get())), &inProcessed, (unsigned char*)outBuffer.get(), (SizeT)fileSize, &outProcessed);
if (ret != 0 || outProcessed != fileSize)
{
nlwarning("Failed to decode lzma file '%s'", lzmaFile.c_str());
return false;
}
// store on output buffer
COFile outStream(destFileName);
outStream.serialBuffer(outBuffer.get(), (uint)fileSize);
return true;
#else
return false;
#endif
}
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// CCheckThread
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
CCheckThread::CCheckThread(bool includeBackgroundPatch)
{
Ended = false;
CheckOk = false;
TotalFileToCheck = 0;
CurrentFileChecked = 0;
IncludeBackgroundPatch = includeBackgroundPatch;
StopAsked = false;
}
// ****************************************************************************
void CCheckThread::run ()
{
nlwarning("CCheckThread::start");
StopAsked = false;
CPatchManager *pPM = CPatchManager::getInstance();
pPM->MustLaunchBatFile = false;
try
{
nlwarning("CCheckThread : get version");
uint32 i, j, k;
// Check if the client version is the same as the server version
string sClientVersion = pPM->getClientVersion();
string sServerVersion = pPM->getServerVersion();
ucstring sTranslate = CI18N::get("uiClientVersion") + " (" + sClientVersion + ") ";
sTranslate += CI18N::get("uiServerVersion") + " (" + sServerVersion + ")";
pPM->setState(true, sTranslate);
if (sServerVersion.empty())
{
// No need to patch
CheckOk = true;
Ended = true;
return;
}
sint32 nServerVersion;
fromString(sServerVersion, nServerVersion);
if (sClientVersion != sServerVersion)
{
// first, try in the version subdirectory
try
{
pPM->DescFilename = toString("%05d/ryzom_%05d.idx", nServerVersion, nServerVersion);
// The client version is different from the server version : download new description file
pPM->getServerFile(pPM->DescFilename, false); // For the moment description file is not zipped
}
catch (...)
{
// fallback to patch root directory
pPM->DescFilename = toString("ryzom_%05d.idx", nServerVersion);
// The client version is different from the server version : download new description file
pPM->getServerFile(pPM->DescFilename, false); // For the moment description file is not zipped
}
}
nlwarning("CCheckThread : read description files");
// Read the description file
pPM->readDescFile(nServerVersion);
nlwarning("CCheckThread : check files");
// For all bnp in the description file get all patches to apply
// depending on the version of the client bnp files
const CBNPFileSet &rDescFiles = pPM->DescFile.getFiles();
pPM->FilesToPatch.clear();
TotalFileToCheck = rDescFiles.fileCount();
for (i = 0; i < rDescFiles.fileCount(); ++i)
{
CPatchManager::SFileToPatch ftp;
sTranslate = CI18N::get("uiCheckingFile") + " " + rDescFiles.getFile(i).getFileName();
pPM->setState(true, sTranslate);
// get list of patch to apply to this file. don't to a full checksum test if possible
nlwarning(rDescFiles.getFile(i).getFileName().c_str());
pPM->getPatchFromDesc(ftp, rDescFiles.getFile(i), false);
// add the file if there are some patches to apply, or if an already patched version was found in the unpack directory
if (ftp.Patches.size() > 0 || (IncludeBackgroundPatch && !ftp.SrcFileName.empty()))
{
pPM->FilesToPatch.push_back(ftp);
sTranslate = CI18N::get("uiNeededPatches") + " " + toString (ftp.Patches.size());
pPM->setState(true, sTranslate);
}
CurrentFileChecked = i;
}
// Here we got all the files to patch in FilesToPatch and all the versions that must be obtained
// Now we have to get the optional categories
const CBNPCategorySet &rDescCats = pPM->DescFile.getCategories();
pPM->OptionalCat.clear();
for (i = 0; i < rDescCats.categoryCount(); ++i)
{
// For all optional categories check if there is a 'file to patch' in it
const CBNPCategory &rCat = rDescCats.getCategory(i);
if (rCat.isOptional())
for (j = 0; j < rCat.fileCount(); ++j)
{
const string &rFilename = rCat.getFile(j);
bool bAdded = false;
for (k = 0; k < pPM->FilesToPatch.size(); ++k)
{
if (stricmp(pPM->FilesToPatch[k].FileName.c_str(), rFilename.c_str()) == 0)
{
pPM->OptionalCat.push_back(rCat.getName());
bAdded = true;
break;
}
}
if (bAdded)
break;
}
}
// For all categories that required an optional category if the cat required is present the category that
// reference it must be present
for (i = 0; i < rDescCats.categoryCount(); ++i)
{
// For all optional categories check if there is a 'file to patch' in it
const CBNPCategory &rCat = rDescCats.getCategory(i);
if (rCat.isOptional() && !rCat.getCatRequired().empty())
{
// Does the rCat is already present ?
bool bFound = false;
for (j = 0; j < pPM->OptionalCat.size(); ++j)
{
if (rCat.getName() == pPM->OptionalCat[j])
{
bFound = true;
break;
}
}
if (!bFound)
{
// rCat is not present but perhaps its required cat is present
const string &sCatReq = rCat.getCatRequired();
for (j = 0; j < pPM->OptionalCat.size(); ++j)
{
if (sCatReq == pPM->OptionalCat[j])
{
// Required Cat present -> Add the category rCat
pPM->OptionalCat.push_back(rCat.getName());
break;
}
}
}
}
}
// Delete categories optional cat that are hidden
for (i = 0; i < rDescCats.categoryCount(); ++i)
{
// For all optional categories check if there is a 'file to patch' in it
const CBNPCategory &rCat = rDescCats.getCategory(i);
if (rCat.isOptional() && rCat.isHidden())
{
// Does the rCat is present ?
for (j = 0; j < pPM->OptionalCat.size(); ++j)
{
if (rCat.getName() == pPM->OptionalCat[j])
{
// remove it
/*#ifdef RY_BG_DOWNLOADER
// fixme : strange stlport link error for the background downloader when using erase ...
std::copy(pPM->OptionalCat.begin() + j + 1, pPM->OptionalCat.end(), pPM->OptionalCat.begin()+j);
pPM->OptionalCat.resize(pPM->OptionalCat.size() - 1);
#else*/
pPM->OptionalCat.erase(pPM->OptionalCat.begin()+j);
//#endif
break;
}
}
}
}
// Get all extract to category and check files inside the bnp with real files
for (i = 0; i < rDescCats.categoryCount(); ++i)
{
// For all optional categories check if there is a 'file to patch' in it
const CBNPCategory &rCat = rDescCats.getCategory(i);
if (!rCat.getUnpackTo().empty())
{
for (j = 0; j < rCat.fileCount(); ++j)
{
string sBNPFilename = pPM->ClientPatchPath + rCat.getFile(j);
sTranslate = CI18N::get("uiCheckInBNP") + " " + rCat.getFile(j);
pPM->setState(true, sTranslate);
vector<CPatchManager::SBNPFile> vFiles;
if (pPM->readBNPHeader(sBNPFilename, vFiles))
{
// read the file inside the bnp and calculate the sha1
FILE *bnp = fopen (sBNPFilename.c_str(), "rb");
if (bnp != NULL)
{
for (uint32 k = 0; k < vFiles.size(); ++k)
{
CPatchManager::SBNPFile &rBNPFile = vFiles[k];
// Is the real file exists ?
string sRealFilename = rCat.getUnpackTo() + rBNPFile.Name;
if (NLMISC::CFile::fileExists(sRealFilename))
{
// Yes compare the sha1 with the sha1 of the BNP File
CHashKey sha1BNPFile;
nlfseek64 (bnp, rBNPFile.Pos, SEEK_SET);
uint8 *pPtr = new uint8[rBNPFile.Size];
if (fread (pPtr, rBNPFile.Size, 1, bnp) != 1)
{
delete [] pPtr;
break;
}
sha1BNPFile = getSHA1(pPtr, rBNPFile.Size);
delete [] pPtr;
CHashKey sha1RealFile = getSHA1(sRealFilename, true);
if ( ! (sha1RealFile == sha1BNPFile))
{
sTranslate = CI18N::get("uiSHA1Diff") + " " + rBNPFile.Name;
pPM->setState(true, sTranslate);
pPM->MustLaunchBatFile = true;
}
}
else
{
// File dest do not exist
sTranslate = CI18N::get("uiSHA1Diff") + " " + rBNPFile.Name;
pPM->setState(true, sTranslate);
pPM->MustLaunchBatFile = true;
}
}
fclose (bnp);
}
if (StopAsked)
{
StopAsked = false;
return;
}
}
}
}
}
sTranslate = CI18N::get("uiCheckEndNoErr");
pPM->setState(true, sTranslate);
CheckOk = true;
Ended = true;
}
catch (const NLMISC::EDiskFullError &)
{
// more explicit message for this common error case
nlwarning("EXCEPTION CATCH: disk full");
pPM->setState(true, CI18N::get("uiCheckEndWithErr"));
pPM->setErrorMessage(CI18N::get("uiPatchDiskFull"));
CheckOk = false;
Ended = true;
}
catch (const Exception &e)
{
nlwarning("EXCEPTION CATCH: CCheckThread::run() failed");
ucstring sTranslate = CI18N::get("uiCheckEndWithErr") + " " + e.what();
pPM->setState(true, CI18N::get("uiCheckEndWithErr"));
pPM->setErrorMessage(sTranslate);
CheckOk = false;
Ended = true;
}
}
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// CPatchThread
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
CPatchThread::CPatchThread(bool commitPatch)
{
Ended = false;
PatchOk = false;
CurrentFilePatched = 0;
PatchSizeProgress = 0;
_CommitPatch = commitPatch;
StopAsked = false;
}
// ****************************************************************************
void CPatchThread::clear()
{
AllFilesToPatch.clear();
}
// ****************************************************************************
// trap : optimize this if needed
void CPatchThread::add(const CPatchManager::SFileToPatch &ftp)
{
for (uint32 i = 0; i < AllFilesToPatch.size(); ++i)
{
if (AllFilesToPatch[i].FileName == ftp.FileName)
return;
}
AllFilesToPatch.push_back(ftp);
}
// ****************************************************************************
void CPatchThread::run()
{
StopAsked = false;
CPatchManager *pPM = CPatchManager::getInstance();
bool bErr = false;
uint32 i;
string sServerVersion = pPM->getServerVersion();
PatchSizeProgress = 0;
if (sServerVersion.empty())
{
// No need to patch
PatchOk = true;
Ended = true;
return;
}
// Patch all the files
// If at least one file has been patched relaunch the client
CurrentFilePatched = 0.f;
ucstring sTranslate;
try
{
// First do all ref files
// ----------------------
for (i = 0; i < AllFilesToPatch.size(); ++i)
{
CPatchManager::SFileToPatch &rFTP = AllFilesToPatch[i];
string ext = NLMISC::CFile::getExtension(rFTP.FileName);
if (ext == "ref")
{
float oldCurrentFilePatched = CurrentFilePatched;
processFile (rFTP);
pPM->MustLaunchBatFile = true;
CurrentFilePatched = oldCurrentFilePatched + 1.f;
}
if (StopAsked)
{
StopAsked = false;
return;
}
}
// Second do all bnp files
// -----------------------
for (i = 0; i < AllFilesToPatch.size(); ++i)
{
CPatchManager::SFileToPatch &rFTP = AllFilesToPatch[i];
string ext = NLMISC::CFile::getExtension(rFTP.FileName);
if (ext == "bnp")
{
float oldCurrentFilePatched = CurrentFilePatched;
processFile (rFTP);
pPM->MustLaunchBatFile = true;
CurrentFilePatched = oldCurrentFilePatched + 1.f;
}
if (StopAsked)
{
StopAsked = false;
return;
}
}
}
catch (const NLMISC::EDiskFullError &)
{
// more explicit message for this common error case
nlwarning("EXCEPTION CATCH: CPatchThread::run() Disk Full");
pPM->setState(true, CI18N::get("uiPatchEndWithErr"));
sTranslate = CI18N::get("uiPatchDiskFull");
bErr = true;
}
catch(const Exception &e)
{
nlwarning("EXCEPTION CATCH: CPatchThread::run() failed");
pPM->setState(true, ucstring(e.what()));
sTranslate = CI18N::get("uiPatchEndWithErr");
bErr = true;
}
// Unpack all files with the UnpackTo flag
// ---------------------------------------
// To do that we create a batch file that will copy all files (unpacked to patch directory)
// to the directory we want (the UnpackTo string)
// Recreate batch file
if (!pPM->MustLaunchBatFile && !pPM->getAsyncDownloader())
{
pPM->deleteFile(pPM->UpdateBatchFilename, false, false);
}
if (!bErr)
{
sTranslate = CI18N::get("uiPatchEndNoErr");
}
else
{
// Set a more explicit error message
pPM->setErrorMessage(sTranslate);
}
PatchOk = !bErr;
Ended = true;
}
class CPatchThreadDownloadProgress : public NLMISC::IProgressCallback
{
public:
CPatchThread *PatchThread;
float Scale;
float Bias;
uint CurrentFilePatched;
CPatchThreadDownloadProgress() : PatchThread(NULL),
Scale(1.f),
Bias(0.f),
CurrentFilePatched(0)
{
}
virtual void progress (float progressValue)
{
clamp(progressValue, 0.f, 1.f);
nlassert(PatchThread);
//PatchThread->CurrentFilePatched = std::max(PatchThread->CurrentFilePatched, (float) this->CurrentFilePatched + Bias + Scale * progressValue);
PatchThread->CurrentFilePatched = this->CurrentFilePatched + Bias + Scale * progressValue;
CPatchManager::getInstance()->touchState();
}
};
// ****************************************************************************
void CPatchThread::processFile (CPatchManager::SFileToPatch &rFTP)
{
CPatchManager *pPM = CPatchManager::getInstance();
// Source File Name
string SourceName;
if (rFTP.ExtractPath.empty())
{
if (rFTP.LocalFileExists)
{
// following lines added by Sadge to ensure that the correct file gets patched
SourceName.clear();
if (NLMISC::CFile::fileExists(pPM->ClientDataPath + rFTP.FileName)) SourceName = pPM->ClientDataPath + rFTP.FileName;
// version from previous download
if (SourceName.empty()) throw Exception (std::string("ERROR: Failed to find file: ")+rFTP.FileName);
// following lines removed by Sadge to ensure that the correct file gets patched
// SourceName = CPath::lookup(rFTP.FileName); // exception if file do not exists
}
else
{
// note : if file was background downloaded, we have :
// rFTP.LocalFileExists = false
// rFTP.SrcFileName = "unpack/filename.bnp.tmp"
SourceName = pPM->ClientDataPath + rFTP.FileName;
}
}
else
{
SourceName = pPM->ClientPatchPath + rFTP.FileName;
}
if (rFTP.LocalFileToDelete)
{
// corrupted or invalid file ? ....
NLMISC::CFile::deleteFile(SourceName);
rFTP.LocalFileExists = false;
}
ucstring sTranslate;
sTranslate = CI18N::get("uiProcessing") + " " + rFTP.FileName;
pPM->setState(true, sTranslate);
if (pPM->getAsyncDownloader())
{
if (!rFTP.ExtractPath.empty())
{
std::string info = rFTP.FileName;
}
string PatchName = toString("%05d/%s%s", rFTP.Patches[rFTP.Patches.size() - 1], rFTP.FileName.c_str(), ".lzma");
pPM->getAsyncDownloader()->addToDownloadList(PatchName, SourceName, rFTP.LastFileDate, rFTP.ExtractPath, rFTP.SZFileSize, rFTP.FinalFileSize );
return;
}
std::string tmpSourceName = rFTP.SrcFileName.empty() ? SourceName : rFTP.SrcFileName; // source is same than destination, or possibly
// a patch from a previous background downloader session
if (rFTP.LocalFileToDelete)
{
// corrupted or invalid file ? ....
rFTP.LocalFileExists = false;
NLMISC::CFile::deleteFile(tmpSourceName);
}
string OutFilename;
bool usePatchFile = true;
// compute the total size of patch to download
uint32 totalPatchSize = 0;
if (rFTP.Incremental)
{
for (uint i=0; i<rFTP.PatcheSizes.size(); ++i)
totalPatchSize += rFTP.PatcheSizes[i];
}
else
{
totalPatchSize = rFTP.PatcheSizes.back();
}
CPatchThreadDownloadProgress progress;
progress.PatchThread = this;
progress.CurrentFilePatched = (uint) floorf(CurrentFilePatched);
// look for the source file, if not present or invalid (not matching
// a known version) or if total patch size greater than half the
// uncompressed final size or if total patch size is greater
// than lzma compressed file, then load the lzma file
if ((rFTP.Incremental && !rFTP.LocalFileExists) // incremental and no base file, we need a complete file
|| totalPatchSize > rFTP.FinalFileSize / 2 // patch is too big regarding the final file, patch applying time will be slow
|| rFTP.SZFileSize < totalPatchSize) // lzma is smaller than patch !
{
breakable
{
usePatchFile = false;
// compute the seven zip filename
string lzmaFile = rFTP.FileName+".lzma";
// download the 7zip file
try
{
// first, try in the file version subfolfer
try
{
progress.Scale = 1.f;
progress.Bias = 0.f;
if (!rFTP.Patches.empty())
{
pPM->getServerFile(toString("%05u/", rFTP.Patches.back())+lzmaFile, false, "", &progress);
}
// else -> file comes from a previous download (with .tmp extension, and is up to date)
// the remaining code will just rename it with good name and exit
}
catch (const NLMISC::EWriteError &)
{
// this is a local error, rethrow ...
throw;
}
catch(...)
{
// failed with version subfolder, try in the root patch directory
pPM->getServerFile(lzmaFile, false, "", &progress);
}
}
catch (const NLMISC::EWriteError &)
{
// this is a local error, rethrow ...
throw;
}
catch (...)
{
// can not load the 7zip file, use normal patching
usePatchFile = true;
break;
}
OutFilename = pPM->ClientPatchPath + NLMISC::CFile::getFilename(rFTP.FileName);
// try to unpack the file
try
{
if (!CPatchManager::unpackLZMA(pPM->ClientPatchPath+lzmaFile, OutFilename+".tmp"))
{
// fallback to standard patch method
usePatchFile = true;
break;
}
}
catch (const NLMISC::EWriteError&)
{
throw;
}
catch (...)
{
nlwarning("Failed to unpack lzma file %s", (pPM->ClientPatchPath+lzmaFile).c_str());
// fallback to standard patch method
usePatchFile = true;
break;
}
if (rFTP.LocalFileExists)
pPM->deleteFile(SourceName);
pPM->deleteFile(pPM->ClientPatchPath+lzmaFile); // delete the archive file
pPM->deleteFile(SourceName, false, false); // File can exists if bad BNP loading
if (_CommitPatch)
{
pPM->renameFile(OutFilename+".tmp", SourceName);
}
}
}
if (usePatchFile && !rFTP.Patches.empty())
{
uint32 currentPatchedSize = 0;
for (uint32 j = 0; j < rFTP.Patches.size(); ++j)
{
// Get the patch
// first, try in the patch subdirectory
string PatchName;
try
{
PatchName = toString("%05d/", rFTP.Patches[j]) + rFTP.FileName.substr(0, rFTP.FileName.size()-4) + toString("_%05d", rFTP.Patches[j]) + ".patch";
sTranslate = CI18N::get("uiLoginGetFile") + " " + PatchName;
pPM->setState(true, sTranslate);
progress.Scale = 1.f;
progress.Bias = totalPatchSize != 0 ? (float) currentPatchedSize / totalPatchSize : 0.f;
progress.Scale = totalPatchSize != 0 ? (float) rFTP.PatcheSizes[j] / totalPatchSize : 1.f;
pPM->getServerFile(PatchName, false, "", &progress);
// remove the subfolder name
PatchName = NLMISC::CFile::getFilename(PatchName);
}
catch (const NLMISC::EWriteError &)
{
throw;
}
catch (...)
{
// fallback to patch root directory
PatchName = rFTP.FileName.substr(0, rFTP.FileName.size()-4);
PatchName += toString("_%05d", rFTP.Patches[j]) + ".patch";
sTranslate = CI18N::get("uiLoginGetFile") + " " + PatchName;
pPM->setState(true, sTranslate);
pPM->getServerFile(PatchName, false, "", &progress);
}
// Apply the patch
// If the patches are not to be applied on the last version
string SourceNameXD = tmpSourceName;
if (!rFTP.Incremental)
{
// Some note about non incremental patches :
// Usually, files such as '.exe' or '.dll' do not work well with incremental patch, so it is better
// to apply a single patch from a refrence version to them. (so here we necessarily got
// 'rFTP.Patches.size() == 1' !)
// The reference version itself is incrementally patched, however, and may be rebuilt from time to time
// when the delta to the reference has become to big (but is most of the time < to the sum of equivallent delta patchs)
// The non-incremental final patch (from ref file to final bnp), is guaranteed to be done last
// after the reference file has been updated
// Find the reference file to apply the patch
SourceNameXD = rFTP.FileName;
SourceNameXD = SourceNameXD.substr(0, SourceNameXD.rfind('.'));
SourceNameXD += "_.ref";
std::string refPath;
if (_CommitPatch)
{
refPath = pPM->ClientDataPath;
}
else
{
// works
refPath = pPM->ClientPatchPath;
std::string tmpRefFile = SourceNameXD + ".tmp";
if (!NLMISC::CFile::fileExists(pPM->ClientPatchPath + tmpRefFile))
{
// Not found in the patch directory -> version in data directory should be good, or would have been
// detected by the check thread else.
refPath = pPM->ClientDataPath;
}
else
{
SourceNameXD = tmpRefFile; // good ref file download by bg downloader
}
}
// following lines added by Sadge to ensure that the correct file gets patched
// string SourceNameXDFull;
// if (NLMISC::CFile::fileExists(pPM->ClientDataPath + SourceNameXD)) SourceNameXDFull = pPM->ClientDataPath + SourceNameXD;
// following lines removed by Sadge to ensure that the correct file gets patched
// string SourceNameXDFull = CPath::lookup(SourceNameXD, false, false);
// if (SourceNameXDFull.empty())
// SourceNameXDFull = pPM->ClientDataPath + SourceNameXD;
// SourceNameXD = SourceNameXDFull;
SourceNameXD = pPM->ClientDataPath + SourceNameXD;
}
PatchName = pPM->ClientPatchPath + PatchName;
string OutFilename = pPM->ClientPatchPath + rFTP.FileName + ".tmp__" + toString(j);
sTranslate = CI18N::get("uiApplyingDelta") + " " + PatchName;
pPM->setState(true, sTranslate);
xDeltaPatch(PatchName, SourceNameXD, OutFilename);
if (rFTP.LocalFileExists)
pPM->deleteFile(SourceName);
pPM->deleteFile(PatchName);
if (j > 0)
{
pPM->deleteFile(SourceNameXD, false, false); // File can exists if bad BNP loading
}
tmpSourceName = OutFilename;
PatchSizeProgress += rFTP.PatcheSizes[j];
currentPatchedSize += rFTP.PatcheSizes[j];
}
if (tmpSourceName != SourceName)
{
pPM->deleteFile(SourceName, false, false); // File can exists if bad BNP loading
if (!_CommitPatch)
{
// let the patch in the unpack directory
pPM->renameFile(tmpSourceName, pPM->ClientPatchPath + rFTP.FileName + ".tmp");
}
else
{
pPM->renameFile(tmpSourceName, SourceName);
}
}
}
else
{
PatchSizeProgress += totalPatchSize;
}
// If all patches applied with success so file size should be ok
// We just have to change file date to match the last patch applied
pPM->applyDate(SourceName, rFTP.LastFileDate);
//progress.progress(1.f);
}
// ****************************************************************************
void CPatchThread::xDeltaPatch(const string &patch, const string &src, const string &out)
{
// Internal xdelta
CPatchManager::MyPatchingCB patchingCB;
patchingCB.patchFilename = patch;
patchingCB.srcFilename = src;
CPatchManager *pPM = CPatchManager::getInstance();
pPM->deleteFile(out, false, false);
std::string errorMsg;
CXDeltaPatch::TApplyResult ar = CXDeltaPatch::apply(patch, src, out, errorMsg, &patchingCB);
if (ar != CXDeltaPatch::ApplyResult_Ok)
{
switch(ar)
{
case CXDeltaPatch::ApplyResult_WriteError:
throw NLMISC::EWriteError(out);
break;
case CXDeltaPatch::ApplyResult_DiskFull:
throw NLMISC::EDiskFullError(out);
break;
default:
{
std::string str = toString("Error applying %s to %s giving %s", patch.c_str(), src.c_str(), out.c_str());
throw Exception (str);
}
break;
}
}
// Launching xdelta
/*
STARTUPINFO si;
PROCESS_INFORMATION pi;
ZeroMemory( &si, sizeof(si) );
si.dwFlags = STARTF_USESHOWWINDOW;
si.wShowWindow = SW_HIDE;
si.cb = sizeof(si);
ZeroMemory( &pi, sizeof(pi) );
// Start the child process.
string strCmdLine = "xdelta patch " + patch + " " + src + " " + out;
if( !CreateProcess( NULL, // No module name (use command line).
(char*)strCmdLine.c_str(), // Command line.
NULL, // Process handle not inheritable.
NULL, // Thread handle not inheritable.
FALSE, // Set handle inheritance to FALSE.
0, // No creation flags.
NULL, // Use parent's environment block.
NULL, // Use parent's starting directory.
&si, // Pointer to STARTUPINFO structure.
&pi ) // Pointer to PROCESS_INFORMATION structure.
)
{
// error occurs during the launch
string str = toString("Can't execute '%s'", strCmdLine.c_str());
throw Exception (str);
}
// Wait for the process to terminate
DWORD dwTimeout = 1000 * 300; // 5 min = 300 s
DWORD nRetWait = WaitForSingleObject(pi.hProcess, dwTimeout);
if (nRetWait == WAIT_TIMEOUT)
{
string str = toString("Time Out After %d s", dwTimeout/1000);
throw Exception (str);
}
// Close process and thread handles.
CloseHandle( pi.hProcess );
CloseHandle( pi.hThread );
*/
}
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// CScanDataThread
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
// ****************************************************************************
CScanDataThread::CScanDataThread()
{
AskForCancel= false;
Ended = false;
CheckOk = false;
TotalFileToScan = 1;
CurrentFileScanned = 1;
}
// ****************************************************************************
void CScanDataThread::run ()
{
CPatchManager *pPM = CPatchManager::getInstance();
try
{
uint32 i;
// Check if the client version is the same as the server version
string sClientVersion = pPM->getClientVersion();
ucstring sTranslate = CI18N::get("uiClientVersion") + " (" + sClientVersion + ") ";
pPM->setState(true, sTranslate);
// For all bnp in the description file get all patches to apply
// depending on the version of the client bnp files
const CBNPFileSet &rDescFiles = pPM->DescFile.getFiles();
TotalFileToScan = rDescFiles.fileCount();
for (i = 0; i < rDescFiles.fileCount(); ++i)
{
sTranslate = CI18N::get("uiCheckingFile") + " " + rDescFiles.getFile(i).getFileName();
pPM->setState(true, sTranslate);
// get list of file to apply to this patch, performing a full checksum test (slow...)
CPatchManager::SFileToPatch ftp;
pPM->getPatchFromDesc(ftp, rDescFiles.getFile(i), false);
// if the file has been found but don't correspond to any local version (SHA1)
// or if the file has not been found (or the .bnp is very very buggy so that addSearchFile() failed)
if( (ftp.LocalFileExists && ftp.LocalFileToDelete) ||
(!ftp.LocalFileExists && !ftp.LocalFileToDelete) )
{
pPM->addDataScanLogCorruptedFile(ftp);
CPatchManager::getCorruptedFileInfo(ftp, sTranslate);
pPM->setState(true, sTranslate);
}
CurrentFileScanned = i;
// if the user ask to cancel the thread, stop now
if(AskForCancel)
break;
}
sTranslate = CI18N::get("uiCheckEndNoErr");
pPM->setState(true, sTranslate);
CheckOk = true;
Ended = true;
}
catch (const Exception &e)
{
nlwarning("EXCEPTION CATCH: CScanDataThread::run() failed");
ucstring sTranslate = CI18N::get("uiCheckEndWithErr") + " " + e.what();
pPM->setState(true, sTranslate);
CheckOk = false;
Ended = true;
}
}
// ****************************************************************************
uint32 CPatchManager::SPatchInfo::getAvailablePatchsBitfield() const
{
// About the test (until a patch enum is added, we use the 'optional' flag)
// Non optional -> must patch it (will be for RoS)
// Optional -> Will be for Mainland
// Required : stands for 'bnp' required by the Optional bnps !! so ignore only RoS is wanted
uint32 result = 0;
if (!NonOptCat.empty())
{
result |= (1 << BGDownloader::DownloadID_RoS);
}
if (!OptCat.empty() || !ReqCat.empty())
{
result |= (1 << BGDownloader::DownloadID_MainLand);
}
return result;
}
// ***************************************************************************
void CPatchManager::setAsyncDownloader(IAsyncDownloader* asyncDownloader)
{
_AsyncDownloader = asyncDownloader;
}
// ***************************************************************************
IAsyncDownloader* CPatchManager::getAsyncDownloader() const
{
return _AsyncDownloader;
}
// **************************************************************************
// ****************************************************************************
void CPatchManager::startInstallThread(const std::vector<CInstallThreadEntry>& entries)
{
CInstallThread* installThread = new CInstallThread(entries);
thread = IThread::create (installThread);
nlassert (thread != NULL);
thread->start ();
}
void CPatchManager::startDownloadThread(const std::vector<CInstallThreadEntry>& entries)
{
CDownloadThread* downloadThread = new CDownloadThread(entries);
thread = IThread::create (downloadThread);
nlassert (thread != NULL);
thread->start ();
}
void CPatchManager::onFileInstallFinished()
{
if (_AsyncDownloader)
{
_AsyncDownloader->onFileInstallFinished();
}
}
void CPatchManager::onFileDownloadFinished()
{
if (_AsyncDownloader)
{
_AsyncDownloader->onFileDownloadFinished();
}
}
void CPatchManager::onFileDownloading(const std::string& sourceName, uint32 rate, uint32 fileIndex, uint32 fileCount, uint64 fileSize, uint64 fullSize)
{
if (_AsyncDownloader)
{
_AsyncDownloader->onFileDownloading(sourceName, rate, fileIndex, fileCount, fileSize, fullSize);
}
}
void CPatchManager::onFileInstalling(const std::string& sourceName, uint32 rate, uint32 fileIndex, uint32 fileCount, uint64 fileSize, uint64 fullSize)
{
if (_AsyncDownloader)
{
_AsyncDownloader->onFileInstalling(sourceName, rate, fileIndex, fileCount, fileSize, fullSize);
}
}
bool CPatchManager::download(const std::string& patchFullname, const std::string& sourceFullname,
const std::string& tmpDirectory, uint32 timestamp)
{
CPatchManager *pPM = CPatchManager::getInstance();
static std::string zsStr = ".lzma";
static std::string::size_type zsStrLength = zsStr.size();
// we delete file if present and diferent timestamp
// if the file is the same then indicates its not necessary to download it a second time
if (NLMISC::CFile::fileExists(sourceFullname))
{
uint32 t = NLMISC::CFile::getFileModificationDate(sourceFullname);
if (t == timestamp)
{ //we didn't downl oad
return true;
}
pPM->deleteFile(sourceFullname);
}
// file will be save to a .tmp file
std::string extension;
if (patchFullname.size() >= zsStrLength && patchFullname.substr(patchFullname.size() - zsStrLength) == zsStr)
{
extension = zsStr;
}
// remove tmp file if exist
std::string patchName = tmpDirectory + NLMISC::CFile::getFilename(sourceFullname) + extension + std::string(".tmp");
if (NLMISC::CFile::fileExists(patchName))
{
pPM->deleteFile(patchName);
}
// creates directory tree if necessary
NLMISC::CFile::createDirectoryTree( NLMISC::CFile::getPath(patchName) );
NLMISC::CFile::createDirectoryTree( NLMISC::CFile::getPath(sourceFullname) );
// try to download
try
{
pPM->getServerFile(patchFullname, false, patchName);
}
catch ( const std::exception& e)
{
nlwarning("%s", e.what());
pPM->setState(true, ucstring(e.what()) );
return false;
}
// install
if (!NLMISC::CFile::fileExists(patchName))
{
return false;
}
// if file is compressed unpack then commit (rename)
if (patchName.size() >= zsStrLength
&& patchName.substr(patchName.size() - zsStrLength) == zsStr)
{
std::string outFilename = patchName.substr(0, patchName.size() - zsStrLength);
CPatchManager::unpack7Zip(patchName, outFilename);
pPM->deleteFile(patchName);
pPM->renameFile(outFilename, sourceFullname);
}
else
{
// file is not compressed so rename the .tmp file to final name
pPM->renameFile(patchName, sourceFullname);
}
// apply modification date
pPM->applyDate(sourceFullname, timestamp);
return true;
}
bool CPatchManager::extract(const std::string& patchPath,
const std::vector<std::string>& sourceFilename,
const std::vector<std::string>& extractPath,
const std::string& updateBatchFilename,
const std::string& execName,
void (*stopFun)() )
{
nlassert(sourceFilename.size() == extractPath.size());
CPatchManager *pPM = CPatchManager::getInstance();
bool ok = false;
for (uint32 j = 0; j < extractPath.size() && !ok; ++j)
{
if (!extractPath[j].empty())
{
ok = true;
}
}
if (!ok)
{
// nothing to extract
return false;
}
// extract
uint nblab = 0;
pPM->deleteFile(updateBatchFilename, false, false);
FILE *fp = fopen (updateBatchFilename.c_str(), "wt");
if (fp == 0)
{
string err = toString("Can't open file '%s' for writing: code=%d %s (error code 29)", updateBatchFilename.c_str(), errno, strerror(errno));
throw Exception (err);
}
fprintf(fp, "@echo off\n");
fprintf(fp, "ping 127.0.0.1 -n 7 -w 1000 > nul\n"); // wait
// Unpack files with category ExtractPath non empty
for (uint32 j = 0; j < sourceFilename.size(); ++j)
{
if (!extractPath[j].empty())
{
string rFilename = sourceFilename[j];
// Extract to patch
vector<string> vFilenames;
if (!pPM->bnpUnpack(rFilename, patchPath, vFilenames))
{
/*
string err = toString("Error unpacking %s", rFilename.c_str());
throw Exception (err);
*/
}
else
{
std::string sourcePath = NLMISC::CFile::getPath(sourceFilename[j]);
for (uint32 fff = 0; fff < vFilenames.size (); fff++)
{
string SrcPath = CPath::standardizeDosPath(sourcePath);
string SrcName = SrcPath + vFilenames[fff];
string DstPath = CPath::standardizeDosPath(extractPath[j]);
string DstName = DstPath + vFilenames[fff];
NLMISC::CFile::createDirectoryTree(extractPath[j]);
// this file must be moved
fprintf(fp, ":loop%u\n", nblab);
fprintf(fp, "attrib -r -a -s -h %s\n", DstName.c_str());
fprintf(fp, "del %s\n", DstName.c_str());
fprintf(fp, "if exist %s goto loop%u\n", DstName.c_str(), nblab);
fprintf(fp, "move %s %s\n", SrcName.c_str(), DstPath.c_str());
nblab++;
}
}
}
}
fprintf(fp, "start %s %%1 %%2 %%3\n", execName.c_str());
fclose(fp);
if (stopFun)
{
stopFun();
}
#ifdef NL_OS_WINDOWS
// normal quit
// Launch the batch file
STARTUPINFO si;
PROCESS_INFORMATION pi;
ZeroMemory( &si, sizeof(si) );
si.dwFlags = STARTF_USESHOWWINDOW;
si.wShowWindow = SW_HIDE; // SW_SHOW
si.cb = sizeof(si);
ZeroMemory( &pi, sizeof(pi) );
// Start the child process.
string strCmdLine;
strCmdLine = updateBatchFilename;
//onFileInstallFinished();
if( !CreateProcess( NULL, // No module name (use command line).
(LPSTR)strCmdLine.c_str(), // Command line.
NULL, // Process handle not inheritable.
NULL, // Thread handle not inheritable.
FALSE, // Set handle inheritance to FALSE.
0, // No creation flags.
NULL, // Use parent's environment block.
NULL, // Use parent's starting directory.
&si, // Pointer to STARTUPINFO structure.
&pi ) // Pointer to PROCESS_INFORMATION structure.
)
{
// error occurs during the launch
string str = toString("Can't execute '%s': code=%d %s (error code 30)", updateBatchFilename.c_str(), errno, strerror(errno));
throw Exception (str);
}
#else
// TODO for Linux and Mac OS
#endif
return true;
}
void CPatchManager::setStateListener(IPatchManagerStateListener* stateListener)
{
_StateListener = stateListener;
}
void CPatchManager::fatalError(const std::string& errorId, const std::string& param1, const std::string& param2)
{
if (_AsyncDownloader)
{
_AsyncDownloader->fatalError(errorId, param1, param2);
}
}
// ****************************************************************************
void CDownloadThread::run()
{
CPatchManager *pPM = CPatchManager::getInstance();
std::string patchPath = CPath::standardizePath (ClientRootPath+TheTmpInstallDirectory)+"patch/";
static bool _FirstTime = true;
static uint64 _FullSize = 0;
static uint64 _CurrentSize = 0;
static uint32 _Start;
// At first launch calculat the amount of data need to download
if (_FirstTime)
{
for (uint first = 0,last = (uint)_Entries.size() ; first != last; ++first)
{
_FullSize += _Entries[first].SZipFileSize;
}
_Start = NLMISC::CTime::getSecondsSince1970();
_FirstTime = false;
}
for (uint first = 0,last = (uint)_Entries.size() ; first != last; ++first)
{
std::string patchName = CPath::standardizePath (_Entries[first].PatchName, false);
std::string sourceName = CPath::standardizePath (_Entries[first].SourceName, false);
_CurrentSize += _Entries[first].SZipFileSize;
uint32 rate = 0;
// Calculate the time since last update
uint32 dt = NLMISC::CTime::getSecondsSince1970() - _Start;
if (dt)
{
rate = uint32(_CurrentSize / dt);
}
// update Gui
pPM->onFileDownloading(sourceName, rate, first+1, last, _CurrentSize, _FullSize);
std::string finalFile =patchPath+ patchName;
std::string tmpFile = finalFile + std::string(".part");
bool toDownload = true;
static volatile bool simulateDownload = false;
if (simulateDownload)
{
nlSleep(100);
}
else
{
// Do not download if file are identicaly (check size and modification date)
if (NLMISC::CFile::fileExists(finalFile))
{
uint64 fz = NLMISC::CFile::getFileSize(finalFile);
uint32 timestamp = _Entries[first].Timestamp;
uint32 timestamp2 = NLMISC::CFile::getFileModificationDate(finalFile);
if ( fz == _Entries[first].SZipFileSize && timestamp == timestamp2)
{
toDownload = false;
}
else
{
NLMISC::CFile::deleteFile(finalFile);
}
}
// file need to be download
if (toDownload)
{
// delete tmp file if exist
if (NLMISC::CFile::fileExists(tmpFile))
{
NLMISC::CFile::deleteFile(tmpFile);
}
std::string path = NLMISC::CFile::getPath(tmpFile);
// create directory tree
NLMISC::CFile::createDirectoryTree(path);
// Try to download, rename, applyDate and send error msg to gui in case of error
try
{
pPM->getServerFile(patchName, false, tmpFile);
NLMISC::CFile::moveFile(finalFile.c_str(), tmpFile.c_str());
pPM->applyDate(finalFile, _Entries[first].Timestamp);
}
catch ( const std::exception& e)
{
nlwarning("%s", e.what());
pPM->setState(true, ucstring(e.what()) );
pPM->fatalError("uiCanNotDownload", patchName.c_str(), "");
}
catch (...)
{
pPM->fatalError("uiCanNotDownload", patchName.c_str(), "");
}
}
}
}
// message to gui to indicates that all file are downloaded
pPM->onFileDownloadFinished();
}
void CInstallThread::run()
{
std::string patchPath = CPath::standardizePath (ClientRootPath+TheTmpInstallDirectory)+"patch/";
CPatchManager *pPM = CPatchManager::getInstance();
std::set<std::string> allowed;
uint first, last;
for (first = 0,last = (uint)_Entries.size() ; first != last; ++first)
{
std::string correct = CPath::standardizePath (patchPath + _Entries[first].PatchName, false);
allowed.insert(correct);
}
// Delete file from tmp directory that are not "allowed" (torrent protocol can download partial file that are not asked)
std::vector<std::string> vFiles;
CPath::getPathContent(patchPath , true, false, true, vFiles);
for (uint32 i = 0; i < vFiles.size(); ++i)
{
std::string sName2 = CPath::standardizePath (vFiles[i], false);
if (allowed.find(sName2) == allowed.end() )
{
pPM->deleteFile(sName2 , false, false);
}
}
static bool _FirstTime = true;
static uint64 _FullSize = 0;
static uint64 _CurrentSize = 0;
static uint32 _Start;
// calculate size of data to download in order to know the install speed
if (_FirstTime)
{
for (uint first = 0,last = (uint)_Entries.size() ; first != last; ++first)
{
_FullSize += _Entries[first].Size;
}
_Start = NLMISC::CTime::getSecondsSince1970();
_FirstTime = false;
}
for (first = 0,last = (uint)_Entries.size() ; first != last; ++first)
{
std::string patchName = CPath::standardizePath (patchPath +_Entries[first].PatchName, false);
std::string sourceName = CPath::standardizePath (_Entries[first].SourceName, false);
uint32 lastFileDate = _Entries[first].Timestamp;
_CurrentSize += _Entries[first].Size;
uint32 rate = 0;
// calcule the install speed
uint32 dt = NLMISC::CTime::getSecondsSince1970() - _Start;
if (dt)
{
uint64 size = _CurrentSize / dt;
rate = uint32 (size);
}
// File can exists if bad BNP loading
if (NLMISC::CFile::fileExists(sourceName))
{
pPM->deleteFile(sourceName, false, false);
}
if (NLMISC::CFile::fileExists(patchName))
{
static std::string zsStr = ".lzma";
static std::string::size_type zsStrLength = zsStr.size();
try
{
// if file is compressed unpack the file (decompress, rename tempory file, apply modification date)
if (patchName.size() >= zsStrLength
&& patchName.substr(patchName.size() - zsStrLength) == zsStr)
{
std::string outFilename = patchName.substr(0, patchName.size() - zsStrLength);
std::string localOutFilename = CPath::standardizeDosPath(outFilename);
if ( CPatchManager::unpackLZMA(patchName, localOutFilename) )
{
pPM->deleteFile(patchName);
pPM->renameFile(outFilename, sourceName);
pPM->applyDate(sourceName, lastFileDate);
}
else
{
throw NLMISC::Exception("Can not unpack");
}
}
else
{
// if file is uncompressed rename tempory file and apply modification date)
pPM->renameFile(patchName, sourceName);
pPM->applyDate(sourceName, lastFileDate);
}
}
catch ( const std::exception& e)
{
nlwarning("%s", e.what());
pPM->setState(true, ucstring(e.what()) );
pPM->fatalError("uiCanNotInstall", patchName.c_str(), "");
return;
}
catch (...)
{
pPM->fatalError("uiCanNotInstall", patchName.c_str(), "");
return;
}
}
// update gui
pPM->onFileInstalling(sourceName, rate, first+1, last, _CurrentSize, _FullSize);
}
// extract bnp
{
// remove date from tmp directory (because install is finished)
std::string install = CPath::standardizePath (ClientRootPath+TheTmpInstallDirectory);
std::vector<std::string> vFiles;
// Delete all classic file from tmp directory
CPath::getPathContent(install, true, false, true, vFiles);
for (uint32 i = 0; i < vFiles.size(); ++i)
{
NLMISC::CFile::deleteFile(vFiles[i]);
}
// Delete all directory from tmp directory
do
{
vFiles.clear();
CPath::getPathContent(install, true, true, false, vFiles);
for (uint32 i = 0; i < vFiles.size(); ++i)
{
NLMISC::CFile::deleteDirectory(vFiles[i]);
}
}
while ( !vFiles.empty() );
// delete tmp directory
NLMISC::CFile::deleteDirectory(install);
// delete libtorrent_logs directory if exist (not activate)
if (NLMISC::CFile::fileExists("libtorrent_logs"))
{
do
{
vFiles.clear();
CPath::getPathContent("libtorrent_logs", true, true, false, vFiles);
for (uint32 i = 0; i < vFiles.size(); ++i)
{
NLMISC::CFile::deleteDirectory(vFiles[i]);
}
}
while ( !vFiles.empty() );
NLMISC::CFile::deleteDirectory("libtorrent_logs");
}
}
pPM->reboot(); // do not reboot just run the extract .bat
}