问题
QSingleApplication
? QMutex
? QSharedMemory
? I\'m looking for something that will work smoothly in Windows, OSX and Linux (Ubuntu). Using Qt 4.7.1
回答1:
Simple solution, that does what you want. Without network dependency (as QtSingleApplication
) and without any overhead.
Usage:
int main()
{
RunGuard guard( "some_random_key" );
if ( !guard.tryToRun() )
return 0;
QAppplication a(/*...*/);
// ...
}
RunGuard.h
#ifndef RUNGUARD_H
#define RUNGUARD_H
#include <QObject>
#include <QSharedMemory>
#include <QSystemSemaphore>
class RunGuard
{
public:
RunGuard( const QString& key );
~RunGuard();
bool isAnotherRunning();
bool tryToRun();
void release();
private:
const QString key;
const QString memLockKey;
const QString sharedmemKey;
QSharedMemory sharedMem;
QSystemSemaphore memLock;
Q_DISABLE_COPY( RunGuard )
};
#endif // RUNGUARD_H
RunGuard.cpp
#include "RunGuard.h"
#include <QCryptographicHash>
namespace
{
QString generateKeyHash( const QString& key, const QString& salt )
{
QByteArray data;
data.append( key.toUtf8() );
data.append( salt.toUtf8() );
data = QCryptographicHash::hash( data, QCryptographicHash::Sha1 ).toHex();
return data;
}
}
RunGuard::RunGuard( const QString& key )
: key( key )
, memLockKey( generateKeyHash( key, "_memLockKey" ) )
, sharedmemKey( generateKeyHash( key, "_sharedmemKey" ) )
, sharedMem( sharedmemKey )
, memLock( memLockKey, 1 )
{
memLock.acquire();
{
QSharedMemory fix( sharedmemKey ); // Fix for *nix: http://habrahabr.ru/post/173281/
fix.attach();
}
memLock.release();
}
RunGuard::~RunGuard()
{
release();
}
bool RunGuard::isAnotherRunning()
{
if ( sharedMem.isAttached() )
return false;
memLock.acquire();
const bool isRunning = sharedMem.attach();
if ( isRunning )
sharedMem.detach();
memLock.release();
return isRunning;
}
bool RunGuard::tryToRun()
{
if ( isAnotherRunning() ) // Extra check
return false;
memLock.acquire();
const bool result = sharedMem.create( sizeof( quint64 ) );
memLock.release();
if ( !result )
{
release();
return false;
}
return true;
}
void RunGuard::release()
{
memLock.acquire();
if ( sharedMem.isAttached() )
sharedMem.detach();
memLock.release();
}
回答2:
As QtSingleApplication
is relatively obsolete and not maintained anymore, I wrote a replacement, called SingleApplication.
It is based on QSharedMemory
and uses a QLocalServer
to notify the parent process of the new instance being spawn. It works on all platforms and is compatible with Qt 5.
The full code and documentation are available here.
回答3:
You can use QSharedMemory
with a specific key and check if the shared memory with that key could be created or not. If it is nor able to create it, then an instance is already run:
QSharedMemory sharedMemory;
sharedMemory.setKey("MyApplicationKey");
if (!sharedMemory.create(1))
{
QMessageBox::warning(this, tr("Warning!"), tr("An instance of this application is running!") );
exit(0); // Exit already a process running
}
回答4:
I am using this solution for now.
However it has the drawback that the program can only be run once by the user, even if they login from multiple locations at the same time.
singleinstance.h
#ifndef SINGLEINSTANCE_H
#define SINGLEINSTANCE_H
typedef enum {
SYSTEM,
SESSION,
} scope_t;
class SingleInstance
{
public:
static bool unique(QString key, scope_t scope);
};
#endif // SINGLEINSTANCE_H
singleinstance.cpp
#include <QLockFile>
#include <QProcessEnvironment>
#include "singleinstance.h"
/**
* @brief filename
* @param key
* @param scope
* @return a fully qualified filename
*
* Generates an appropriate filename for the lock
*/
static QString filename(QString key, scope_t scope) {
QProcessEnvironment env = QProcessEnvironment::systemEnvironment();
QString tmp = env.value("TEMP", "/tmp") + "/";
QString user = env.value("USER", "alfio");
QString r;
switch (scope) {
case SYSTEM:
r = tmp;
break;
case SESSION:
//FIXME this will prevent trabucco to run in multiple X11 sessions
r = env.value("XDG_RUNTIME_DIR", tmp + user) + "/";
break;
}
return r + key + ".lock";
}
/**
* @brief SingleInstance::unique
* @param key the unique name of the program
* @param scope wether it needs to be system-wide or session-wide
* @return true if this is the only instance
*
* Make sure that this instance is unique.
*/
bool SingleInstance::unique(QString key, scope_t scope) {
QLockFile* lock = new QLockFile(filename(key, scope));
bool r = lock->tryLock();
if (!r)
delete lock;
return r;
}
回答5:
for linux:
//----------------------------------
QProcess *m_prSystemCall;
m_prSystemCall = new QProcess();
QString Commnd = "pgrep " + qApp->applicationDisplayName();
m_prSystemCall->start(Commnd);
m_prSystemCall->waitForFinished(8000);
QString output(m_prSystemCall->readAllStandardOutput());
QStringList AppList = output.split("\n", QString::SkipEmptyParts);
qDebug() <<"pgrep out:"<<AppList;
for(int i=0;i<AppList.size()-1;i++)
{
Commnd = "kill " + AppList.at(i);
m_prSystemCall->start(Commnd);
m_prSystemCall->waitForFinished(8000);
}
//-------------------------------------------------------
and for Windows:
#include <tlhelp32.h>
#include <comdef.h>
QString pName = qApp->applicationDisplayName();
pName += ".exe";
PROCESSENTRY32 entry;
entry.dwSize = sizeof(PROCESSENTRY32);
HANDLE snapshot = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, NULL);
if (Process32First(snapshot, &entry) == TRUE)
{
DWORD myPID = GetCurrentProcessId();
while (Process32Next(snapshot, &entry) == TRUE)
{
const WCHAR* wc = entry.szExeFile ;
_bstr_t b(wc);
const char* c = b;
if (stricmp(c, pName.toStdString().c_str()) == 0)
{
HANDLE hProcess = OpenProcess(PROCESS_ALL_ACCESS, FALSE, entry.th32ProcessID);
qDebug() <<"myPID: "<< myPID << "entry.th32ProcessID" << entry.th32ProcessID;
if(myPID != entry.th32ProcessID)
TerminateProcess(hProcess,0);
QThread::msleep(10);
CloseHandle(hProcess);
}
}
}
CloseHandle(snapshot);
回答6:
According to Qt's doc, an acquired QSystemSemaphore
won't be automatically released if the process crashes without calling its destructor under Unix-like OSes. Which could be the cause of a deadlock in another process trying to acquire the same semaphore. If you want to be 100% sure that your program properly handles crashes and if you don't insist on using Qt,
you may want to use the other locking mechanisms which the operating systems do automatically release when the process dies - for example, lockf()
and the O_EXLOCK
flag passed to open()
which are mentioned in How do I recover a semaphore when the process that decremented it to zero crashes? or flock(). In fact, creating of shared memory is no longer needed if flock()
is used. Simply using flock()
is enough to make single instance app protection.
If recovering semaphore from crashes in Unix doesn't matter, I think that RunGuard from Dmitry Sazonov's answer could still be somewhat simplified:
The destructor
~RunGuard()
andRunGuard::release()
may be taken off sinceQSharedMemory
will automatically detach from the shared memory segment upon its destruction, as in Qt's doc forQSharedMemory::~QSharedMemory()
: "The destructor clears the key, which forces the shared memory object to detach from its underlying shared memory segment.".RunGuard::isAnotherRunning()
may also be taken off, too. The goal is exclusive execution. As @Nejat has mentioned, we can merely take advantage of the fact there could be at most one shared memory segment being created for a given key at any time, as in Qt's doc forQSharedMemory::create()
: "If a shared memory segment identified by the key already exists, the attach operation is not performed and false is returned."If I understand correctly, the purpose of "fix"
QSharedMemory
object in the constructor is to destroy the shared memory segment which survives due to the previous process crash, as in Qt's doc: "Unix: ... When the last thread or process that has an instance ofQSharedMemory
attached to a particular shared memory segment detaches from the segment by destroying its instance ofQSharedMemory
, the Unix kernel release the shared memory segment. But if that last thread or process crashes without running theQSharedMemory
destructor, the shared memory segment survives the crash.". When "fix" gets destructed, an implicitdetach()
should be called by its destructor and the surviving shared memory segment, if any, will be released.Not sure if
QSharedMemory
is thread-safe/process-safe or not. Otherwise, the code related tomemLock
may be further removed if thread-safety is handled internally byQSharedMemory
. On the other hand,fix
should also be protected bymemLock
if the safety is an issue:RunGuard::RunGuard( const QString& key ) : key( key ) , memLockKey( generateKeyHash( key, "_memLockKey" ) ) , sharedMemKey( generateKeyHash( key, "_sharedMemKey" ) ) , sharedMem( sharedMemKey ) , memLock( memLockKey, 1 ) { memLock.acquire(); { QSharedMemory fix( sharedMemKey ); // Fix for *nix: http://habrahabr.ru/post/173281/ fix.attach(); } memLock.release(); }
because an explicit
attach()
and an implicitdetach()
are called aroundfix
.The simplified version of
RunGuard
is as follows:Usage:
int main() { RunGuard guard( "some_random_key" ); if ( !guard.tryToRun() ) return 0; QAppplication a(/*...*/); // ... }
runGuard.h:
#ifndef RUNGUARD_H #define RUNGUARD_H #include <QObject> #include <QSharedMemory> #include <QSystemSemaphore> class RunGuard { public: RunGuard( const QString& key ); bool tryToRun(); private: const QString key; const QString memLockKey; const QString sharedMemKey; QSharedMemory sharedMem; QSystemSemaphore memLock; Q_DISABLE_COPY( RunGuard ) }; #endif // RUNGUARD_H
runGuard.cpp:
#include "runGuard.h" #include <QCryptographicHash> namespace { QString generateKeyHash( const QString& key, const QString& salt ) { QByteArray data; data.append( key.toUtf8() ); data.append( salt.toUtf8() ); data = QCryptographicHash::hash( data, QCryptographicHash::Sha1 ).toHex(); return data; } } RunGuard::RunGuard( const QString& key ) : key( key ) , memLockKey( generateKeyHash( key, "_memLockKey" ) ) , sharedMemKey( generateKeyHash( key, "_sharedMemKey" ) ) , sharedMem( sharedMemKey ) , memLock( memLockKey, 1 ) { QSharedMemory fix( sharedMemKey ); // Fix for *nix: http://habrahabr.ru/post/173281/ fix.attach(); } bool RunGuard::tryToRun() { memLock.acquire(); const bool result = sharedMem.create( sizeof( quint64 ) ); memLock.release(); if ( !result ) return false; return true; }
There is a possible race condition here:
bool RunGuard::tryToRun() { if ( isAnotherRunning() ) // Extra check return false; // (tag1) memLock.acquire(); const bool result = sharedMem.create( sizeof( quint64 ) ); // (tag2) memLock.release(); if ( !result ) { release(); // (tag3) return false; } return true; }
Consider the scenario:
When the current process ProcCur runs to
(tag1)
the following happens: (note that(tag1)
is outside of lock protection)- Another process ProcOther using
RunGuard
starts to run. - ProcOther runs to
(tag2)
and successfully creates the shared memory. - ProcOther crashes before it calls
release()
at(tag3)
. - ProcCur continues running from
(tag1)
. - ProcCur runs to
(tag2)
and attempts to create shared memory. However,sharedMem.create()
will returnfalse
because ProcOther have left a created one. As we can see in the doc ofQSharedMemory::create()
: "If a shared memory segment identified by the key already exists, the attach operation is not performed and false is returned." - Finally,
RunGuard::tryToRun()
in ProcCur will returnfalse
, which is not as expected because ProcCur is the only existing process usingRunGuard
.
- Another process ProcOther using
回答7:
for Windows:
HANDLE g_app_mutex = NULL;
bool check_one_app_instance()
{
g_app_mutex = ::CreateMutex(NULL, FALSE, L"8BD290769B404A7816985M9E505CF9AD64"); // this any different key as string
if(GetLastError() == ERROR_ALREADY_EXISTS)
{
CloseHandle(g_app_mutex);
return false;
}
return true;
}
来源:https://stackoverflow.com/questions/5006547/qt-best-practice-for-a-single-instance-app-protection