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#include "dir_lock.h"
#include <utility>
#include <wx/utils.h>
#include <wx/timer.h>
#include <wx/log.h>
#include <wx/msgdlg.h>
#include <memory>
#include <boost/weak_ptr.hpp>
#include "../shared/string_conv.h"
#include "../shared/i18n.h"
#include "../shared/last_error.h"
#include "../shared/boost_thread_wrap.h" //include <boost/thread.hpp>
#include "../shared/loki/ScopeGuard.h"
#include "../shared/guid.h"
#include "../shared/file_io.h"
#include "../shared/assert_static.h"
#include "../shared/serialize.h"
#include "../shared/build_info.h"
#include "../shared/int64.h"
#ifdef FFS_WIN
#include <tlhelp32.h>
#include <wx/msw/wrapwin.h> //includes "windows.h"
#include "../shared/long_path_prefix.h"
#elif defined FFS_LINUX
#include "../shared/file_handling.h"
#include <sys/stat.h>
#include <cerrno>
#include <unistd.h>
#endif
using namespace zen;
using namespace std::rel_ops;
namespace
{
const size_t EMIT_LIFE_SIGN_INTERVAL = 5000; //show life sign; unit [ms]
const size_t POLL_LIFE_SIGN_INTERVAL = 6000; //poll for life sign; unit [ms]
const size_t DETECT_EXITUS_INTERVAL = 30000; //assume abandoned lock; unit [ms]
const char LOCK_FORMAT_DESCR[] = "FreeFileSync";
const int LOCK_FORMAT_VER = 1; //lock file format version
}
//worker thread
class LifeSigns
{
public:
LifeSigns(const Zstring& lockfilename) : //throw()!!! siehe SharedDirLock()
lockfilename_(lockfilename) {} //thread safety: make deep copy!
void operator()() const //thread entry
{
try
{
while (true)
{
boost::thread::sleep(boost::get_system_time() + boost::posix_time::milliseconds(EMIT_LIFE_SIGN_INTERVAL)); //interruption point!
//actual work
emitLifeSign(); //throw ()
}
}
catch (const std::exception& e) //exceptions must be catched per thread
{
wxSafeShowMessage(wxString(_("An exception occurred!")) + wxT("(Dirlock)"), wxString::FromAscii(e.what())); //simple wxMessageBox won't do for threads
}
}
void emitLifeSign() const //try to append one byte...; throw()
{
const char buffer[1] = {' '};
#ifdef FFS_WIN
//ATTENTION: setting file pointer IS required! => use CreateFile/FILE_GENERIC_WRITE + SetFilePointerEx!
//although CreateFile/FILE_APPEND_DATA without SetFilePointerEx works locally, it MAY NOT work on some network shares creating a 4 gig file!!!
const HANDLE fileHandle = ::CreateFile(applyLongPathPrefix(lockfilename_.c_str()).c_str(),
FILE_GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if (fileHandle == INVALID_HANDLE_VALUE)
return;
Loki::ScopeGuard dummy = Loki::MakeGuard(::CloseHandle, fileHandle);
(void)dummy; //silence warning "unused variable"
const LARGE_INTEGER moveDist = {};
if (!::SetFilePointerEx(fileHandle, //__in HANDLE hFile,
moveDist, //__in LARGE_INTEGER liDistanceToMove,
NULL, //__out_opt PLARGE_INTEGER lpNewFilePointer,
FILE_END)) //__in DWORD dwMoveMethod
return;
DWORD bytesWritten = 0;
::WriteFile(fileHandle, //__in HANDLE hFile,
buffer, //__out LPVOID lpBuffer,
1, //__in DWORD nNumberOfBytesToRead,
&bytesWritten, //__out_opt LPDWORD lpNumberOfBytesWritten,
NULL); //__inout_opt LPOVERLAPPED lpOverlapped
#elif defined FFS_LINUX
const int fileHandle = ::open(lockfilename_.c_str(), O_WRONLY | O_APPEND); //O_EXCL contains a race condition on NFS file systems: http://linux.die.net/man/2/open
if (fileHandle == -1)
return;
Loki::ScopeGuard dummy = Loki::MakeGuard(::close, fileHandle);
(void)dummy; //silence warning "unused variable"
const ssize_t bytesWritten = ::write(fileHandle, buffer, 1);
(void)bytesWritten;
#endif
}
private:
const Zstring lockfilename_; //thread local! atomic ref-count => binary value-type semantics!
};
namespace
{
void deleteLockFile(const Zstring& filename) //throw (FileError)
{
#ifdef FFS_WIN
if (!::DeleteFile(applyLongPathPrefix(filename).c_str()))
#elif defined FFS_LINUX
if (::unlink(filename.c_str()) != 0)
#endif
{
throw FileError(_("Error deleting file:") + "\n\"" + filename + "\"" + "\n\n" + getLastErrorFormatted());
}
}
zen::UInt64 getLockFileSize(const Zstring& filename) //throw (FileError, ErrorNotExisting)
{
#ifdef FFS_WIN
WIN32_FIND_DATA fileInfo = {};
const HANDLE searchHandle = ::FindFirstFile(applyLongPathPrefix(filename).c_str(), &fileInfo);
if (searchHandle == INVALID_HANDLE_VALUE)
{
const DWORD lastError = ::GetLastError();
std::wstring errorMessage = _("Error reading file attributes:") + "\n\"" + filename + "\"" + "\n\n" + getLastErrorFormatted(lastError);
if (lastError == ERROR_FILE_NOT_FOUND ||
lastError == ERROR_PATH_NOT_FOUND)
throw ErrorNotExisting(errorMessage);
else
throw FileError(errorMessage);
}
::FindClose(searchHandle);
return zen::UInt64(fileInfo.nFileSizeLow, fileInfo.nFileSizeHigh);
#elif defined FFS_LINUX
struct stat fileInfo = {};
if (::stat(filename.c_str(), &fileInfo) != 0) //follow symbolic links
{
const int lastError = errno;
std::wstring errorMessage = _("Error reading file attributes:") + "\n\"" + filename + "\"" + "\n\n" + getLastErrorFormatted(lastError);
if (lastError == ENOENT)
throw ErrorNotExisting(errorMessage);
else
throw FileError(errorMessage);
}
return zen::UInt64(fileInfo.st_size);
#endif
}
Zstring deleteAbandonedLockName(const Zstring& lockfilename) //make sure to NOT change file ending!
{
const size_t pos = lockfilename.rfind(FILE_NAME_SEPARATOR); //search from end
return pos == Zstring::npos ? Zstr("Del.") + lockfilename :
Zstring(lockfilename.c_str(), pos + 1) + //include path separator
Zstr("Del.") +
lockfilename.AfterLast(FILE_NAME_SEPARATOR); //returns the whole string if ch not found
}
namespace
{
//read string from file stream
inline
std::string readString(wxInputStream& stream) //throw (std::exception)
{
const boost::uint32_t strLength = readPOD<boost::uint32_t>(stream);
std::string output;
if (strLength > 0)
{
output.resize(strLength); //may throw for corrupted data
stream.Read(&output[0], strLength);
}
return output;
}
inline
void writeString(wxOutputStream& stream, const std::string& str) //write string to filestream
{
const boost::uint32_t strLength = static_cast<boost::uint32_t>(str.length());
writePOD<boost::uint32_t>(stream, strLength);
stream.Write(str.c_str(), strLength);
}
std::string getComputerId() //returns empty string on error
{
const wxString fhn = ::wxGetFullHostName();
if (fhn.empty()) return std::string();
#ifdef FFS_WIN
return "Windows " + std::string(fhn.ToUTF8());
#elif defined FFS_LINUX
return "Linux " + std::string(fhn.ToUTF8());
#endif
}
struct LockInformation
{
LockInformation()
{
lockId = util::generateGUID();
#ifdef FFS_WIN
procDescr.processId = ::GetCurrentProcessId();
#elif defined FFS_LINUX
procDescr.processId = ::getpid();
#endif
procDescr.computerId = getComputerId();
}
LockInformation(wxInputStream& stream) //read
{
char formatDescr[sizeof(LOCK_FORMAT_DESCR)] = {};
stream.Read(formatDescr, sizeof(LOCK_FORMAT_DESCR)); //file format header
const int lockFileVersion = readPOD<boost::int32_t>(stream); //
(void)lockFileVersion;
//some format checking here?
lockId = readString(stream);
procDescr.processId = static_cast<ProcessId>(readPOD<boost::uint64_t>(stream)); //possible loss of precision (32/64 bit process) covered by buildId
procDescr.computerId = readString(stream);
}
void toStream(wxOutputStream& stream) const //write
{
assert_static(sizeof(ProcessId) <= sizeof(boost::uint64_t)); //ensure portability
stream.Write(LOCK_FORMAT_DESCR, sizeof(LOCK_FORMAT_DESCR));
writePOD<boost::int32_t>(stream, LOCK_FORMAT_VER);
writeString(stream, lockId);
writePOD<boost::uint64_t>(stream, procDescr.processId);
writeString(stream, procDescr.computerId);
}
#ifdef FFS_WIN
typedef DWORD ProcessId; //same size on 32 and 64 bit windows!
#elif defined FFS_LINUX
typedef pid_t ProcessId;
#endif
std::string lockId; //16 byte UUID
struct ProcessDescription
{
ProcessId processId;
std::string computerId;
} procDescr;
};
//true: process not available, false: cannot say anything
enum ProcessStatus
{
PROC_STATUS_NOT_RUNNING,
PROC_STATUS_RUNNING,
PROC_STATUS_NO_IDEA
};
ProcessStatus getProcessStatus(const LockInformation::ProcessDescription& procDescr)
{
if (procDescr.computerId != getComputerId() ||
procDescr.computerId.empty()) //both names are empty
return PROC_STATUS_NO_IDEA; //lock owned by different computer
#ifdef FFS_WIN
//note: ::OpenProcess() is no option as it may successfully return for crashed processes!
HANDLE snapshot = ::CreateToolhelp32Snapshot(
TH32CS_SNAPPROCESS, //__in DWORD dwFlags,
0); //__in DWORD th32ProcessID
if (snapshot == INVALID_HANDLE_VALUE)
return PROC_STATUS_NO_IDEA;
Loki::ScopeGuard dummy = Loki::MakeGuard(::CloseHandle, snapshot);
(void)dummy; //silence warning "unused variable"
PROCESSENTRY32 processEntry = {};
processEntry.dwSize = sizeof(processEntry);
if (!::Process32First(snapshot, //__in HANDLE hSnapshot,
&processEntry)) //__inout LPPROCESSENTRY32 lppe
return PROC_STATUS_NO_IDEA;
do
{
if (processEntry.th32ProcessID == procDescr.processId)
return PROC_STATUS_RUNNING; //process still running
}
while(::Process32Next(snapshot, &processEntry));
return PROC_STATUS_NOT_RUNNING;
#elif defined FFS_LINUX
if (procDescr.processId <= 0 || procDescr.processId >= 65536)
return PROC_STATUS_NO_IDEA; //invalid process id
return zen::dirExists(Zstr("/proc/") + Zstring::fromNumber(procDescr.processId)) ? PROC_STATUS_RUNNING : PROC_STATUS_NOT_RUNNING;
#endif
}
void writeLockInfo(const Zstring& lockfilename) //throw (FileError)
{
//write GUID at the beginning of the file: this ID is a universal identifier for this lock (no matter what the path is, considering symlinks, distributed network, etc.)
FileOutputStream lockFile(lockfilename); //throw (FileError)
LockInformation().toStream(lockFile);
}
LockInformation retrieveLockInfo(const Zstring& lockfilename) //throw (FileError, ErrorNotExisting)
{
//read GUID from beginning of file
FileInputStream lockFile(lockfilename); //throw (FileError, ErrorNotExisting)
return LockInformation(lockFile);
}
std::string retrieveLockId(const Zstring& lockfilename) //throw (FileError, ErrorNotExisting)
{
return retrieveLockInfo(lockfilename).lockId;
}
}
void waitOnDirLock(const Zstring& lockfilename, DirLockCallback* callback) //throw (FileError)
{
std::wstring infoMsg = _("Waiting while directory is locked (%x)...");
replace(infoMsg, L"%x", std::wstring(L"\"") + lockfilename + "\"");
if (callback)
callback->reportInfo(infoMsg);
//---------------------------------------------------------------
try
{
const LockInformation lockInfo = retrieveLockInfo(lockfilename); //throw (FileError, ErrorNotExisting)
const bool lockOwnderDead = getProcessStatus(lockInfo.procDescr) == PROC_STATUS_NOT_RUNNING; //convenience optimization: if we know the owning process crashed, we needn't wait DETECT_EXITUS_INTERVAL sec
zen::UInt64 fileSizeOld;
wxLongLong lockSilentStart = wxGetLocalTimeMillis();
while (true)
{
const zen::UInt64 fileSizeNew = ::getLockFileSize(lockfilename); //throw (FileError, ErrorNotExisting)
wxLongLong currentTime = wxGetLocalTimeMillis();
if (fileSizeNew != fileSizeOld)
{
//received life sign from lock
fileSizeOld = fileSizeNew;
lockSilentStart = currentTime;
}
if (lockOwnderDead || //no need to wait any longer...
currentTime - lockSilentStart > DETECT_EXITUS_INTERVAL)
{
DirLock dummy(deleteAbandonedLockName(lockfilename), callback); //throw (FileError)
//now that the lock is in place check existence again: meanwhile another process may have deleted and created a new lock!
if (retrieveLockId(lockfilename) != lockInfo.lockId) //throw (FileError, ErrorNotExisting)
return; //another process has placed a new lock, leave scope: the wait for the old lock is technically over...
if (getLockFileSize(lockfilename) != fileSizeOld) //throw (FileError, ErrorNotExisting)
continue; //belated lifesign
::deleteLockFile(lockfilename); //throw (FileError)
return;
}
//wait some time...
const size_t GUI_CALLBACK_INTERVAL = 100;
for (size_t i = 0; i < POLL_LIFE_SIGN_INTERVAL / GUI_CALLBACK_INTERVAL; ++i)
{
if (callback) callback->requestUiRefresh();
wxMilliSleep(GUI_CALLBACK_INTERVAL);
//show some countdown on abandoned locks
if (callback)
{
if (currentTime - lockSilentStart > EMIT_LIFE_SIGN_INTERVAL) //one signal missed: it's likely this is an abandoned lock:
{
long remainingSeconds = ((DETECT_EXITUS_INTERVAL - (wxGetLocalTimeMillis() - lockSilentStart)) / 1000).ToLong();
remainingSeconds = std::max(0L, remainingSeconds);
std::wstring remSecMsg = _P("1 sec", "%x sec", remainingSeconds);
replace(remSecMsg, L"%x", toString<std::wstring>(remainingSeconds));
callback->reportInfo(infoMsg + " " + remSecMsg);
}
else
callback->reportInfo(infoMsg); //emit a message in any case (might clear other one)
}
}
}
}
catch (const ErrorNotExisting&)
{
return; //what we are waiting for...
}
}
void releaseLock(const Zstring& lockfilename) //throw ()
{
try
{
::deleteLockFile(lockfilename);
}
catch(...) {}
}
bool tryLock(const Zstring& lockfilename) //throw (FileError)
{
#ifdef FFS_WIN
const HANDLE fileHandle = ::CreateFile(applyLongPathPrefix(lockfilename).c_str(),
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
CREATE_NEW,
FILE_ATTRIBUTE_NORMAL,
NULL);
if (fileHandle == INVALID_HANDLE_VALUE)
{
if (::GetLastError() == ERROR_FILE_EXISTS)
return false;
else
throw FileError(_("Error setting directory lock:") + "\n\"" + lockfilename + "\"" + "\n\n" + getLastErrorFormatted());
}
::CloseHandle(fileHandle);
#elif defined FFS_LINUX
//O_EXCL contains a race condition on NFS file systems: http://linux.die.net/man/2/open
::umask(0); //important!
const int fileHandle = ::open(lockfilename.c_str(), O_CREAT | O_WRONLY | O_EXCL, S_IRWXU | S_IRWXG | S_IRWXO);
if (fileHandle == -1)
{
if (errno == EEXIST)
return false;
else
throw FileError(_("Error setting directory lock:") + "\n\"" + lockfilename + "\"" + "\n\n" + getLastErrorFormatted());
}
::close(fileHandle);
#endif
Loki::ScopeGuard guardLockFile = Loki::MakeGuard(::releaseLock, lockfilename);
//write UUID at the beginning of the file: this ID is a universal identifier for this lock (no matter what the path is, considering symlinks, etc.)
writeLockInfo(lockfilename); //throw (FileError)
guardLockFile.Dismiss(); //lockfile created successfully
return true;
}
}
class DirLock::SharedDirLock
{
public:
SharedDirLock(const Zstring& lockfilename, DirLockCallback* callback = NULL) : //throw (FileError)
lockfilename_(lockfilename)
{
while (!::tryLock(lockfilename)) //throw (FileError)
::waitOnDirLock(lockfilename, callback); //
threadObj = boost::thread(LifeSigns(lockfilename));
}
~SharedDirLock()
{
threadObj.interrupt(); //thread lifetime is subset of this instances's life
threadObj.join();
::releaseLock(lockfilename_); //throw ()
}
private:
SharedDirLock(const DirLock&);
SharedDirLock& operator=(const DirLock&);
const Zstring lockfilename_;
boost::thread threadObj;
};
class DirLock::LockAdmin //administrate all locks held by this process to avoid deadlock by recursion
{
public:
static LockAdmin& instance()
{
static LockAdmin inst;
return inst;
}
//create or retrieve a SharedDirLock
std::shared_ptr<SharedDirLock> retrieve(const Zstring& lockfilename, DirLockCallback* callback) //throw (FileError)
{
//optimization: check if there is an active(!) lock for "lockfilename"
FileToUuidMap::const_iterator iterUuid = fileToUuid.find(lockfilename);
if (iterUuid != fileToUuid.end())
{
const std::shared_ptr<SharedDirLock>& activeLock = findActive(iterUuid->second); //returns null-lock if not found
if (activeLock)
return activeLock; //SharedDirLock is still active -> enlarge circle of shared ownership
}
try //actual check based on lock UUID, deadlock prevention: "lockfilename" may be an alternative name for an already active lock
{
const std::string lockId = retrieveLockId(lockfilename); //throw (FileError, ErrorNotExisting)
const std::shared_ptr<SharedDirLock>& activeLock = findActive(lockId); //returns null-lock if not found
if (activeLock)
{
fileToUuid[lockfilename] = lockId; //perf-optimization: update relation
return activeLock;
}
}
catch (const ErrorNotExisting&) {} //let other FileError(s) propagate!
//not yet in buffer, so create a new directory lock
std::shared_ptr<SharedDirLock> newLock(new SharedDirLock(lockfilename, callback)); //throw (FileError)
const std::string newLockId = retrieveLockId(lockfilename); //throw (FileError, ErrorNotExisting)
//update registry
fileToUuid[lockfilename] = newLockId; //throw()
uuidToLock[newLockId] = newLock; //
return newLock;
}
private:
LockAdmin() {}
std::shared_ptr<SharedDirLock> findActive(const std::string& lockId) //returns null-lock if not found
{
UuidToLockMap::const_iterator iterLock = uuidToLock.find(lockId);
return iterLock != uuidToLock.end() ?
iterLock->second.lock() : //try to get shared_ptr; throw()
std::shared_ptr<SharedDirLock>();
}
typedef std::weak_ptr<SharedDirLock> SharedLock;
typedef std::string UniqueId;
typedef std::map<Zstring, UniqueId, LessFilename> FileToUuidMap; //n:1 handle uppper/lower case correctly
typedef std::map<UniqueId, SharedLock> UuidToLockMap; //1:1
FileToUuidMap fileToUuid; //lockname |-> UUID; locks can be referenced by a lockfilename or alternatively a UUID
UuidToLockMap uuidToLock; //UUID |-> "shared lock ownership"
};
DirLock::DirLock(const Zstring& lockfilename, DirLockCallback* callback) //throw (FileError)
{
#ifdef FFS_WIN
std::vector<wchar_t> volName(std::max(lockfilename.size(), static_cast<size_t>(10000)));
if (::GetVolumePathName(lockfilename.c_str(), //__in LPCTSTR lpszFileName,
&volName[0], //__out LPTSTR lpszVolumePathName,
static_cast<DWORD>(volName.size()))) //__in DWORD cchBufferLength
{
DWORD dt = ::GetDriveType(&volName[0]);
if (dt == DRIVE_CDROM)
return; //we don't need a lock for a CD ROM
}
#endif
sharedLock = LockAdmin::instance().retrieve(lockfilename, callback);
}
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