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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Additional permissions under GNU GPL version 3 section 7
If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
#include "pfSecurePreloader.h"
#include "hsStream.h"
#include "plgDispatch.h"
#include "plCompression/plZlibStream.h"
#include "plEncryption/plChecksum.h"
#include "plFile/plFileUtils.h"
#include "plFile/plSecureStream.h"
#include "plFile/plStreamSource.h"
#include "plMessage/plNetCommMsgs.h"
#include "plMessage/plPreloaderMsg.h"
#include "plProgressMgr/plProgressMgr.h"
extern hsBool gDataServerLocal;
pfSecurePreloader* pfSecurePreloader::fInstance = nil;
/////////////////////////////////////////////////////////////////////
typedef std::pair<const wchar_t*, const wchar_t*> WcharPair;
struct AuthRequestParams
{
pfSecurePreloader* fThis;
std::queue<WcharPair> fFileGroups;
AuthRequestParams(pfSecurePreloader* parent)
: fThis(parent) { }
};
/////////////////////////////////////////////////////////////////////
void ProcAuthDownloadParams(AuthRequestParams* params);
void GotAuthSrvManifest(
ENetError result,
void* param,
const NetCliAuthFileInfo infoArr[],
UInt32 infoCount
) {
AuthRequestParams* arp = (AuthRequestParams*)param;
if (IS_NET_ERROR(result))
{
FATAL("Failed to get AuthSrv manifest!");
arp->fThis->Terminate();
delete arp;
} else {
arp->fThis->PreloadManifest(infoArr, infoCount);
ProcAuthDownloadParams(arp);
}
}
void GotFileSrvManifest(
ENetError result,
void* param,
const wchar_t group[],
const NetCliFileManifestEntry manifest[],
UInt32 entryCount
) {
pfSecurePreloader* sp = (pfSecurePreloader*)param;
if (result == kNetErrFileNotFound)
{
AuthRequestParams* params = new AuthRequestParams(sp);
params->fFileGroups.push(WcharPair(L"Python", L"pak"));
params->fFileGroups.push(WcharPair(L"SDL", L"sdl"));
ProcAuthDownloadParams(params);
return;
} else if (!entryCount) {
FATAL("SecurePreloader manifest empty!");
sp->Terminate();
return;
}
sp->PreloadManifest(manifest, entryCount);
}
void FileDownloaded(
ENetError result,
void* param,
const wchar_t filename[],
hsStream* writer
) {
pfSecurePreloader* sp = (pfSecurePreloader*)param;
if (IS_NET_ERROR(result))
{
FATAL("SecurePreloader download failed");
sp->Terminate();
} else {
sp->FilePreloaded(filename, writer);
}
}
void ProcAuthDownloadParams(AuthRequestParams* params)
{
// Request the "manifests" until there are none left, then download the files
if (params->fFileGroups.empty())
{
params->fThis->PreloadNextFile();
delete params;
} else {
WcharPair wp = params->fFileGroups.front();
params->fFileGroups.pop();
NetCliAuthFileListRequest(wp.first, wp.second, GotAuthSrvManifest, params);
}
}
/////////////////////////////////////////////////////////////////////
class pfSecurePreloaderStream : public plZlibStream
{
plOperationProgress* fProgress;
bool fIsZipped;
public:
pfSecurePreloaderStream(plOperationProgress* prog, bool zipped)
: fProgress(prog), fIsZipped(zipped), plZlibStream()
{
fOutput = new hsRAMStream;
}
~pfSecurePreloaderStream()
{
delete fOutput;
fOutput = nil;
plZlibStream::Close();
}
hsBool AtEnd() { return fOutput->AtEnd(); }
UInt32 GetEOF() { return fOutput->GetEOF(); }
UInt32 GetPosition() const { return fOutput->GetPosition(); }
UInt32 GetSizeLeft() const { return fOutput->GetSizeLeft(); }
UInt32 Read(UInt32 count, void* buf) { return fOutput->Read(count, buf); }
void Rewind() { fOutput->Rewind(); }
void SetPosition(UInt32 pos) { fOutput->SetPosition(pos); }
void Skip(UInt32 deltaByteCount) { fOutput->Skip(deltaByteCount); }
UInt32 Write(UInt32 count, const void* buf)
{
if (fProgress)
fProgress->Increment((hsScalar)count);
if (fIsZipped)
return plZlibStream::Write(count, buf);
else
return fOutput->Write(count, buf);
}
};
/////////////////////////////////////////////////////////////////////
pfSecurePreloader::pfSecurePreloader()
: fProgress(nil), fLegacyMode(false)
{ }
pfSecurePreloader::~pfSecurePreloader()
{
while (fDownloadEntries.size())
{
free((void*)fDownloadEntries.front());
fDownloadEntries.pop();
}
while (fManifestEntries.size())
{
free((void*)fManifestEntries.front());
fManifestEntries.pop();
}
}
hsRAMStream* pfSecurePreloader::LoadToMemory(const wchar_t* file) const
{
if (!plFileUtils::FileExists(file))
return nil;
hsUNIXStream s;
hsRAMStream* ram = new hsRAMStream;
s.Open(file);
UInt32 loadLen = 1024 * 1024;
UInt8* buf = new UInt8[loadLen];
while (UInt32 read = s.Read(loadLen, buf))
ram->Write(read, buf);
delete[] buf;
s.Close();
ram->Rewind();
return ram;
}
void pfSecurePreloader::SaveFile(hsStream* file, const wchar_t* name) const
{
hsUNIXStream s;
s.Open(name, L"wb");
UInt32 pos = file->GetPosition();
file->Rewind();
UInt32 loadLen = 1024 * 1024;
UInt8* buf = new UInt8[loadLen];
while (UInt32 read = file->Read(loadLen, buf))
s.Write(read, buf);
file->SetPosition(pos);
s.Close();
delete[] buf;
}
bool pfSecurePreloader::IsZipped(const wchar_t* filename) const
{
return wcscmp(plFileUtils::GetFileExt(filename), L"gz") == 0;
}
void pfSecurePreloader::PreloadNextFile()
{
if (fManifestEntries.empty())
{
Finish();
return;
}
const wchar_t* filename = fDownloadEntries.front();
hsStream* s = new pfSecurePreloaderStream(fProgress, IsZipped(filename));
// Thankfully, both callbacks have the same arguments
if (fLegacyMode)
NetCliAuthFileRequest(filename, s, FileDownloaded, this);
else
NetCliFileDownloadRequest(filename, s, FileDownloaded, this);
}
void pfSecurePreloader::Init()
{
RegisterAs(kSecurePreloader_KEY);
// TODO: If we're going to support reconnects, then let's do it right.
// Later...
//plgDispatch::Dispatch()->RegisterForExactType(plNetCommAuthConnectedMsg::Index(), GetKey());
}
void pfSecurePreloader::Start()
{
#ifndef PLASMA_EXTERNAL_RELEASE
// Using local data? Move along, move along...
if (gDataServerLocal)
{
Finish();
return;
}
#endif
NetCliAuthGetEncryptionKey(fEncryptionKey, 4);
// TODO: Localize
fProgress = plProgressMgr::GetInstance()->RegisterOperation(0.0f, "Checking for Updates", plProgressMgr::kUpdateText, false, true);
// Now, we need to fetch the "SecurePreloader" manifest from the file server, which will contain the python and SDL files.
// We're basically reimplementing plResPatcher here, except preferring to keep everything in memory, then flush to disk
// when we're done. If this fails, then we shall download everything from the AuthSrv like in the old days.
NetCliFileManifestRequest(GotFileSrvManifest, this, L"SecurePreloader");
}
void pfSecurePreloader::Terminate()
{
FATAL("pfSecurePreloader failure");
plPreloaderMsg* msg = new plPreloaderMsg;
msg->fSuccess = false;
plgDispatch::Dispatch()->MsgSend(msg);
}
void pfSecurePreloader::Finish()
{
plPreloaderMsg* msg = new plPreloaderMsg;
msg->fSuccess = true;
plgDispatch::Dispatch()->MsgSend(msg);
}
void pfSecurePreloader::Shutdown()
{
SetInstance(nil);
if (fProgress)
{
delete fProgress;
fProgress = nil;
}
// Takes care of UnReffing us
UnRegisterAs(kSecurePreloader_KEY);
}
void pfSecurePreloader::PreloadManifest(const NetCliAuthFileInfo manifestEntries[], UInt32 entryCount)
{
UInt32 totalBytes = 0;
if (fProgress)
totalBytes = (UInt32)fProgress->GetMax();
fLegacyMode = true;
for (UInt32 i = 0; i < entryCount; ++i)
{
const NetCliAuthFileInfo mfs = manifestEntries[i];
fDownloadEntries.push(wcsdup(mfs.filename));
if (IsZipped(mfs.filename))
{
wchar_t* name = wcsdup(mfs.filename);
plFileUtils::StripExt(name);
fManifestEntries.push(name);
} else
fManifestEntries.push(wcsdup(mfs.filename));
totalBytes += mfs.filesize;
}
if (fProgress)
{
fProgress->SetLength((hsScalar)totalBytes);
fProgress->SetTitle("Downloading...");
}
}
void pfSecurePreloader::PreloadManifest(const NetCliFileManifestEntry manifestEntries[], UInt32 entryCount)
{
UInt32 totalBytes = 0;
for (UInt32 i = 0; i < entryCount; ++i)
{
const NetCliFileManifestEntry mfs = manifestEntries[i];
bool fetchMe = true;
hsRAMStream* s = nil;
if (plFileUtils::FileExists(mfs.clientName))
{
s = LoadToMemory(mfs.clientName);
if (s)
{
// Damn this
const char* md5 = hsWStringToString(mfs.md5);
plMD5Checksum srvHash;
srvHash.SetFromHexString(md5);
delete[] md5;
// Now actually copare the hashes
plMD5Checksum lclHash;
lclHash.CalcFromStream(s);
fetchMe = (srvHash != lclHash);
}
}
if (fetchMe)
{
fManifestEntries.push(wcsdup(mfs.clientName));
fDownloadEntries.push(wcsdup(mfs.downloadName));
if (IsZipped(mfs.downloadName))
totalBytes += mfs.zipSize;
else
totalBytes += mfs.fileSize;
} else {
plSecureStream* ss = new plSecureStream(s, fEncryptionKey);
plStreamSource::GetInstance()->InsertFile(mfs.clientName, ss);
}
if (s)
delete s;
}
if (totalBytes && fProgress)
{
fProgress->SetLength((hsScalar)totalBytes);
fProgress->SetTitle("Downloading...");
}
// This method uses only one manifest, so we're good to go now!
PreloadNextFile();
}
void pfSecurePreloader::FilePreloaded(const wchar_t* file, hsStream* stream)
{
// Clear out queue
fDownloadEntries.pop();
const wchar_t* clientName = fManifestEntries.front(); // Stolen by plStreamSource
fManifestEntries.pop();
if (!fLegacyMode) // AuthSrv data caching is useless
{
plFileUtils::EnsureFilePathExists(clientName);
SaveFile(stream, clientName);
}
plSecureStream* ss = new plSecureStream(stream, fEncryptionKey);
plStreamSource::GetInstance()->InsertFile(clientName, ss);
delete stream; // SecureStream holds its own decrypted buffer
// Continue down the warpath
PreloadNextFile();
}
pfSecurePreloader* pfSecurePreloader::GetInstance()
{
if (!fInstance)
fInstance = new pfSecurePreloader;
return fInstance;
}