Merge branch 'master' of https://github.com/synergy/synergy
This commit is contained in:
commit
18d85f1b6b
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@ -1,15 +0,0 @@
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diff --git a/src/lib/arch/unix/ArchPluginUnix.cpp b/src/lib/arch/unix/ArchPluginUnix.cpp
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index 997c274..3e390f0 100644
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--- a/src/lib/arch/unix/ArchPluginUnix.cpp
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+++ b/src/lib/arch/unix/ArchPluginUnix.cpp
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@@ -76,8 +76,8 @@ ArchPluginUnix::load()
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void* library = dlopen(path.c_str(), RTLD_LAZY);
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if (library == NULL) {
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- LOG((CLOG_ERR "failed to load plugin: %s", (*it).c_str()));
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- throw XArch(dlerror());
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+ LOG((CLOG_ERR "failed to load plugin '%s', error: %s", (*it).c_str(), dlerror()));
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+ continue;
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}
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String filename = synergy::string::removeFileExt(*it);
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@ -76,8 +76,8 @@ ArchPluginUnix::load()
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void* library = dlopen(path.c_str(), RTLD_LAZY);
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if (library == NULL) {
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LOG((CLOG_ERR "failed to load plugin: %s", (*it).c_str()));
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throw XArch(dlerror());
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LOG((CLOG_ERR "failed to load plugin '%s', error: %s", (*it).c_str(), dlerror()));
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continue;
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}
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String filename = synergy::string::removeFileExt(*it);
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@ -37,42 +37,39 @@ enum EIpcLogOutputter {
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kBufferRateTimeLimit = 1 // seconds
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};
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IpcLogOutputter::IpcLogOutputter(IpcServer& ipcServer) :
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IpcLogOutputter::IpcLogOutputter(IpcServer& ipcServer, bool useThread) :
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m_ipcServer(ipcServer),
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m_bufferMutex(ARCH->newMutex()),
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m_sending(false),
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m_running(true),
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m_bufferThread(nullptr),
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m_running(false),
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m_notifyCond(ARCH->newCondVar()),
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m_notifyMutex(ARCH->newMutex()),
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m_bufferWaiting(false),
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m_bufferMaxSize(kBufferMaxSize),
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m_bufferEmptyCond(ARCH->newCondVar()),
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m_bufferEmptyMutex(ARCH->newMutex()),
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m_bufferRateWriteLimit(kBufferRateWriteLimit),
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m_bufferRateTimeLimit(kBufferRateTimeLimit),
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m_bufferWriteCount(0),
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m_bufferRateStart(ARCH->time())
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{
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if (useThread) {
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m_bufferThread = new Thread(new TMethodJob<IpcLogOutputter>(
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this, &IpcLogOutputter::bufferThread));
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}
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}
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IpcLogOutputter::~IpcLogOutputter()
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{
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close();
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ARCH->closeMutex(m_bufferMutex);
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if (m_bufferThread != nullptr) {
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delete m_bufferThread;
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}
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ARCH->closeCondVar(m_notifyCond);
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ARCH->closeMutex(m_notifyMutex);
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ARCH->closeCondVar(m_bufferEmptyCond);
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#ifndef WINAPI_CARBON
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// HACK: assert fails on mac debug, can't see why.
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ARCH->closeMutex(m_bufferEmptyMutex);
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#endif // WINAPI_CARBON
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}
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void
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@ -83,10 +80,12 @@ IpcLogOutputter::open(const char* title)
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void
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IpcLogOutputter::close()
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{
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if (m_bufferThread != nullptr) {
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m_running = false;
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notifyBuffer();
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m_bufferThread->wait(5);
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}
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}
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void
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IpcLogOutputter::show(bool showIfEmpty)
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}
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bool
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IpcLogOutputter::write(ELevel level, const char* text)
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IpcLogOutputter::write(ELevel, const char* text)
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{
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return write(level, text, false);
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}
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bool
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IpcLogOutputter::write(ELevel, const char* text, bool force)
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{
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// TODO: discard based on thread id? hmm...
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// sending the buffer generates log messages, which we must throw
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// away (otherwise this would cause recursion). this is just a drawback
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// of logging this way. there is also the risk that this could throw
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// away log messages not generated by the ipc, but it seems like it
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// would be difficult to distinguish (other than looking at the stack
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// trace somehow). perhaps a file stream might be a better option :-/
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if (m_sending && !force) {
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// ignore events from the buffer thread (would cause recursion).
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if (Thread::getCurrentThread().getID() == m_bufferThreadId) {
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if (m_bufferThread != nullptr &&
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Thread::getCurrentThread().getID() == m_bufferThreadId) {
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return true;
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}
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}
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appendBuffer(text);
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notifyBuffer();
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void
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IpcLogOutputter::bufferThread(void*)
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{
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ArchMutexLock lock(m_notifyMutex);
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m_bufferThreadId = m_bufferThread->getID();
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m_running = true;
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try {
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while (m_running) {
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if (m_ipcServer.hasClients(kIpcClientGui)) {
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// buffer is sent in chunks, so keep sending until it's
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// empty (or the program has stopped in the meantime).
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while (m_running && !m_buffer.empty()) {
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sendBuffer();
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}
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}
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// program may be stopping while we were in the send loop.
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if (!m_running) {
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break;
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}
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if (m_buffer.empty()) {
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ArchMutexLock lock(m_bufferEmptyMutex);
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ARCH->broadcastCondVar(m_bufferEmptyCond);
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ArchMutexLock lock(m_notifyMutex);
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ARCH->waitCondVar(m_notifyCond, m_notifyMutex, -1);
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}
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m_bufferWaiting = true;
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ARCH->waitCondVar(m_notifyCond, m_notifyMutex, -1);
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m_bufferWaiting = false;
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sendBuffer();
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}
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}
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catch (XArch& e) {
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void
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IpcLogOutputter::notifyBuffer()
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{
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if (!m_bufferWaiting) {
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return;
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}
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ArchMutexLock lock(m_notifyMutex);
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ARCH->broadcastCondVar(m_notifyCond);
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}
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void
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IpcLogOutputter::sendBuffer()
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{
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IpcLogLineMessage message(getChunk(kMaxSendLines));
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if (m_buffer.empty() || !m_ipcServer.hasClients(kIpcClientGui)) {
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return;
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}
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IpcLogLineMessage message(getChunk(kMaxSendLines));
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m_sending = true;
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m_ipcServer.send(message, kIpcClientGui);
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m_sending = false;
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return m_bufferMaxSize;
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}
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void
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IpcLogOutputter::waitForEmpty()
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{
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ARCH->waitCondVar(m_bufferEmptyCond, m_bufferEmptyMutex, -1);
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}
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void
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IpcLogOutputter::bufferRateLimit(UInt16 writeLimit, double timeLimit)
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{
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@ -34,7 +34,12 @@ This outputter writes output to the GUI via IPC.
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*/
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class IpcLogOutputter : public ILogOutputter {
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public:
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IpcLogOutputter(IpcServer& ipcServer);
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/*!
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If \p useThread is \c true, the buffer will be sent using a thread.
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If \p useThread is \c false, then the buffer needs to be sent manually
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using the \c sendBuffer() function.
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*/
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IpcLogOutputter(IpcServer& ipcServer, bool useThread);
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virtual ~IpcLogOutputter();
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// ILogOutputter overrides
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//! @name manipulators
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//@{
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//! Same as write, but allows message to sidestep anti-recursion mechanism.
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bool write(ELevel level, const char* text, bool force);
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//! Notify that the buffer should be sent.
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void notifyBuffer();
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//! Set the buffer size.
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//! Set the buffer size
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/*!
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Set the maximum size of the buffer to protect memory
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from runaway logging.
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*/
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void bufferMaxSize(UInt16 bufferMaxSize);
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//! Wait for empty buffer
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/*!
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Wait on a cond var until the buffer is empty.
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*/
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void waitForEmpty();
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//! Set the buffer size.
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//! Set the rate limit
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/*!
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Set the maximum number of \p writeRate for every \p timeRate in seconds.
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*/
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void bufferRateLimit(UInt16 writeLimit, double timeLimit);
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//! Send the buffer
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/*!
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Sends a chunk of the buffer to the IPC server, normally called
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when threaded mode is on.
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*/
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void sendBuffer();
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//@}
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//! @name accessors
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void init();
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void bufferThread(void*);
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String getChunk(size_t count);
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void sendBuffer();
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void appendBuffer(const String& text);
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private:
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IArchMultithread::ThreadID
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m_bufferThreadId;
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UInt16 m_bufferMaxSize;
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ArchCond m_bufferEmptyCond;
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ArchMutex m_bufferEmptyMutex;
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UInt16 m_bufferRateWriteLimit;
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double m_bufferRateTimeLimit;
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UInt16 m_bufferWriteCount;
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double m_bufferRateStart;
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bool m_useThread;
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};
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@ -420,9 +420,7 @@ MSWindowsWatchdog::outputLoop(void*)
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testOutput(buffer);
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// send process output over IPC to GUI, and force it to be sent
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// which bypasses the ipc logging anti-recursion mechanism.
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m_ipcLogOutputter.write(kINFO, buffer, true);
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m_ipcLogOutputter.write(kINFO, buffer);
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if (m_fileLogOutputter != NULL) {
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m_fileLogOutputter->write(kINFO, buffer);
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@ -211,7 +211,7 @@ DaemonApp::mainLoop(bool logToFile)
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m_ipcServer = new IpcServer(m_events, &multiplexer);
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// send logging to gui via ipc, log system adopts outputter.
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m_ipcLogOutputter = new IpcLogOutputter(*m_ipcServer);
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m_ipcLogOutputter = new IpcLogOutputter(*m_ipcServer, true);
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CLOG->insert(m_ipcLogOutputter);
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#if SYSAPI_WIN32
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@ -19,17 +19,40 @@
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#include "ipc/IpcServer.h"
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#include "ipc/IpcMessage.h"
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#include "arch/Arch.h"
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#include "test/global/gmock.h"
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using ::testing::_;
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using ::testing::Invoke;
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class IEventQueue;
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class MockIpcServer : public IpcServer
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{
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public:
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MockIpcServer() { }
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MockIpcServer() :
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m_sendCond(ARCH->newCondVar()),
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m_sendMutex(ARCH->newMutex()) { }
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MOCK_METHOD0(listen, void());
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MOCK_METHOD2(send, void(const IpcMessage&, EIpcClientType));
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MOCK_CONST_METHOD1(hasClients, bool(EIpcClientType));
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void delegateToFake() {
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ON_CALL(*this, send(_, _)).WillByDefault(Invoke(this, &MockIpcServer::mockSend));
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}
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void waitForSend() {
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ARCH->waitCondVar(m_sendCond, m_sendMutex, 5);
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}
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private:
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void mockSend(const IpcMessage&, EIpcClientType) {
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ArchMutexLock lock(m_sendMutex);
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ARCH->broadcastCondVar(m_sendCond);
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}
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ArchCond m_sendCond;
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ArchMutex m_sendMutex;
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};
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|
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@ -45,7 +45,25 @@ inline const Matcher<const IpcMessage&> IpcLogLineMessageEq(const String& s) {
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return MatcherCast<const IpcMessage&>(m);
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}
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TEST(IpcLogOutputterTests, write_bufferSizeWrapping)
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TEST(IpcLogOutputterTests, write_threadingEnabled_bufferIsSent)
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{
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MockIpcServer mockServer;
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mockServer.delegateToFake();
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ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
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EXPECT_CALL(mockServer, hasClients(_)).Times(2);
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EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\n"), _)).Times(1);
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EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 2\n"), _)).Times(1);
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IpcLogOutputter outputter(mockServer, true);
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outputter.write(kNOTE, "mock 1");
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mockServer.waitForSend();
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outputter.write(kNOTE, "mock 2");
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mockServer.waitForSend();
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}
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TEST(IpcLogOutputterTests, write_overBufferMaxSize_firstLineTruncated)
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{
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MockIpcServer mockServer;
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|
@ -54,19 +72,35 @@ TEST(IpcLogOutputterTests, write_bufferSizeWrapping)
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EXPECT_CALL(mockServer, hasClients(_)).Times(1);
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EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 2\nmock 3\n"), _)).Times(1);
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IpcLogOutputter outputter(mockServer);
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IpcLogOutputter outputter(mockServer, false);
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outputter.bufferMaxSize(2);
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||||
// log more lines than the buffer can contain
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outputter.write(kNOTE, "mock 1");
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outputter.write(kNOTE, "mock 2");
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outputter.write(kNOTE, "mock 3");
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||||
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||||
// wait for the buffer to be empty (all lines sent to IPC)
|
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outputter.waitForEmpty();
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||||
outputter.sendBuffer();
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||||
}
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||||
TEST(IpcLogOutputterTests, write_bufferRateLimit)
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TEST(IpcLogOutputterTests, write_underBufferMaxSize_allLinesAreSent)
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||||
{
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||||
MockIpcServer mockServer;
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||||
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||||
ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
|
||||
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||||
EXPECT_CALL(mockServer, hasClients(_)).Times(1);
|
||||
EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\nmock 2\n"), _)).Times(1);
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||||
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||||
IpcLogOutputter outputter(mockServer, false);
|
||||
outputter.bufferMaxSize(2);
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||||
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||||
// log more lines than the buffer can contain
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||||
outputter.write(kNOTE, "mock 1");
|
||||
outputter.write(kNOTE, "mock 2");
|
||||
outputter.sendBuffer();
|
||||
}
|
||||
|
||||
TEST(IpcLogOutputterTests, write_overBufferRateLimit_lastLineTruncated)
|
||||
{
|
||||
MockIpcServer mockServer;
|
||||
|
||||
|
@ -76,20 +110,45 @@ TEST(IpcLogOutputterTests, write_bufferRateLimit)
|
|||
EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\n"), _)).Times(1);
|
||||
EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 3\n"), _)).Times(1);
|
||||
|
||||
IpcLogOutputter outputter(mockServer);
|
||||
IpcLogOutputter outputter(mockServer, false);
|
||||
outputter.bufferRateLimit(1, 0.001); // 1ms
|
||||
|
||||
// log 1 more line than the buffer can accept in time limit.
|
||||
outputter.write(kNOTE, "mock 1");
|
||||
outputter.write(kNOTE, "mock 2");
|
||||
outputter.waitForEmpty();
|
||||
outputter.sendBuffer();
|
||||
|
||||
// after waiting the time limit send another to make sure
|
||||
// we can log after the time limit passes.
|
||||
ARCH->sleep(0.01); // 10ms
|
||||
outputter.write(kNOTE, "mock 3");
|
||||
outputter.write(kNOTE, "mock 4");
|
||||
outputter.waitForEmpty();
|
||||
outputter.sendBuffer();
|
||||
}
|
||||
|
||||
TEST(IpcLogOutputterTests, write_underBufferRateLimit_allLinesAreSent)
|
||||
{
|
||||
MockIpcServer mockServer;
|
||||
|
||||
ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
|
||||
|
||||
EXPECT_CALL(mockServer, hasClients(_)).Times(2);
|
||||
EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\nmock 2\n"), _)).Times(1);
|
||||
EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 3\nmock 4\n"), _)).Times(1);
|
||||
|
||||
IpcLogOutputter outputter(mockServer, false);
|
||||
outputter.bufferRateLimit(4, 1); // 1s (should be plenty of time)
|
||||
|
||||
// log 1 more line than the buffer can accept in time limit.
|
||||
outputter.write(kNOTE, "mock 1");
|
||||
outputter.write(kNOTE, "mock 2");
|
||||
outputter.sendBuffer();
|
||||
|
||||
// after waiting the time limit send another to make sure
|
||||
// we can log after the time limit passes.
|
||||
outputter.write(kNOTE, "mock 3");
|
||||
outputter.write(kNOTE, "mock 4");
|
||||
outputter.sendBuffer();
|
||||
}
|
||||
|
||||
#endif // WINAPI_MSWINDOWS
|
||||
|
|
Loading…
Reference in New Issue