MUtilities/src/IPCChannel.cpp

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///////////////////////////////////////////////////////////////////////////////
// MuldeR's Utilities for Qt
2018-01-17 21:04:46 +01:00
// Copyright (C) 2004-2018 LoRd_MuldeR <MuldeR2@GMX.de>
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library 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
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
//
// http://www.gnu.org/licenses/lgpl-2.1.txt
//////////////////////////////////////////////////////////////////////////////////
//MUtils
#include <MUtils/IPCChannel.h>
#include <MUtils/Exception.h>
//Internal
#include "3rd_party/adler32/include/adler32.h"
//Qt includes
#include <QRegExp>
#include <QSharedMemory>
#include <QSystemSemaphore>
#include <QMutex>
#include <QWriteLocker>
#include <QCryptographicHash>
#include <QStringList>
//CRT
#include <cassert>
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///////////////////////////////////////////////////////////////////////////////
// UTILITIES
///////////////////////////////////////////////////////////////////////////////
namespace MUtils
{
namespace Internal
{
static const quint32 ADLER_SEED = 0x5D90C356;
template<class T>
static inline void UPDATE_CHECKSUM(T &data)
{
data.checksum = Internal::adler32(ADLER_SEED, &data.payload, sizeof(data.payload));
}
template<class T>
static inline bool VERIFY_CHECKSUM(const T &data)
{
return (data.checksum == Internal::adler32(ADLER_SEED, &data.payload, sizeof(data.payload)));
}
}
}
///////////////////////////////////////////////////////////////////////////////
// TYPES
///////////////////////////////////////////////////////////////////////////////
namespace MUtils
{
namespace Internal
{
static const size_t HDR_LEN = 40;
static const size_t IPC_SLOTS = 128;
typedef struct
{
quint64 counter;
quint32 pos_wr;
quint32 pos_rd;
}
ipc_status_data_t;
typedef struct
{
ipc_status_data_t payload;
quint32 checksum;
}
ipc_status_t;
typedef struct
{
char values[MUtils::IPCChannel::MAX_PARAM_CNT][MUtils::IPCChannel::MAX_PARAM_LEN];
quint32 count;
}
ipc_msg_data_params_t;
typedef struct
{
quint32 command_id;
quint32 flags;
ipc_msg_data_params_t params;
quint64 timestamp;
}
ipc_msg_data_t;
typedef struct
{
ipc_msg_data_t payload;
quint32 checksum;
}
ipc_msg_t;
typedef struct
{
char header[HDR_LEN];
ipc_status_t status;
ipc_msg_t data[IPC_SLOTS];
}
ipc_t;
}
}
///////////////////////////////////////////////////////////////////////////////
// UTILITIES
///////////////////////////////////////////////////////////////////////////////
static QScopedPointer<QRegExp> g_escape_regexp;
static QMutex g_escape_lock;
#define ESCAPE(STR) (QString((STR)).replace(*g_escape_regexp, QLatin1String("_")).toLower())
static QString MAKE_ID(const QString &applicationId, const unsigned int &appVersionNo, const QString &channelId, const QString &itemId)
{
QMutexLocker locker(&g_escape_lock);
if(g_escape_regexp.isNull())
{
g_escape_regexp.reset(new QRegExp(QLatin1String("[^A-Za-z0-9_\\-]")));
}
return QString("com.muldersoft.mutilities.ipc.%1.r%2.%3.%4").arg(ESCAPE(applicationId), QString::number(appVersionNo, 16).toUpper(), ESCAPE(channelId), ESCAPE(itemId));
}
///////////////////////////////////////////////////////////////////////////////
// PRIVATE DATA
///////////////////////////////////////////////////////////////////////////////
namespace MUtils
{
class IPCChannel_Private
{
friend class IPCChannel;
protected:
QAtomicInt initialized;
QScopedPointer<QSharedMemory> sharedmem;
QScopedPointer<QSystemSemaphore> semaphore_rd;
QScopedPointer<QSystemSemaphore> semaphore_wr;
QReadWriteLock lock;
};
}
///////////////////////////////////////////////////////////////////////////////
// CONSTRUCTOR & DESTRUCTOR
///////////////////////////////////////////////////////////////////////////////
MUtils::IPCChannel::IPCChannel(const QString &applicationId, const quint32 &appVersionNo, const QString &channelId)
:
p(new IPCChannel_Private()),
m_applicationId(applicationId),
m_channelId(channelId),
m_appVersionNo(appVersionNo),
m_headerStr(QCryptographicHash::hash(MAKE_ID(applicationId, appVersionNo, channelId, "header").toLatin1(), QCryptographicHash::Sha1).toHex())
{
if(m_headerStr.length() != Internal::HDR_LEN)
{
MUTILS_THROW("Invalid header length has been detected!");
}
}
MUtils::IPCChannel::~IPCChannel(void)
{
if(MUTILS_BOOLIFY(p->initialized))
{
if(p->sharedmem->isAttached())
{
p->sharedmem->detach();
}
}
delete p;
}
///////////////////////////////////////////////////////////////////////////////
// INITIALIZATION
///////////////////////////////////////////////////////////////////////////////
int MUtils::IPCChannel::initialize(void)
{
QWriteLocker writeLock(&p->lock);
if(MUTILS_BOOLIFY(p->initialized))
{
return RET_ALREADY_INITIALIZED;
}
p->sharedmem. reset(new QSharedMemory (MAKE_ID(m_applicationId, m_appVersionNo, m_channelId, "sharedmem"), 0));
p->semaphore_rd.reset(new QSystemSemaphore(MAKE_ID(m_applicationId, m_appVersionNo, m_channelId, "semaph_rd"), 0));
p->semaphore_wr.reset(new QSystemSemaphore(MAKE_ID(m_applicationId, m_appVersionNo, m_channelId, "semaph_wr"), 0));
if(p->semaphore_rd->error() != QSystemSemaphore::NoError)
{
const QString errorMessage = p->semaphore_rd->errorString();
qWarning("Failed to create system smaphore: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(p->semaphore_wr->error() != QSystemSemaphore::NoError)
{
const QString errorMessage = p->semaphore_wr->errorString();
qWarning("Failed to create system smaphore: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(!p->sharedmem->create(sizeof(Internal::ipc_t)))
{
if(p->sharedmem->error() == QSharedMemory::AlreadyExists)
{
if(!p->sharedmem->attach())
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to attach to shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(p->sharedmem->error() != QSharedMemory::NoError)
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to attach to shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(p->sharedmem->size() < sizeof(Internal::ipc_t))
{
qWarning("Failed to attach to shared memory: Size verification has failed!");
return RET_FAILURE;
}
if(Internal::ipc_t *const ptr = reinterpret_cast<Internal::ipc_t*>(p->sharedmem->data()))
{
if(memcmp(&ptr->header[0], m_headerStr.constData(), Internal::HDR_LEN) != 0)
{
qWarning("Failed to attach to shared memory: Header verification has failed!");
return RET_FAILURE;
}
}
else
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to access shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
p->initialized.ref();
return RET_SUCCESS_SLAVE;
}
else
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to create shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
}
if(p->sharedmem->error() != QSharedMemory::NoError)
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to create shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(Internal::ipc_t *const ptr = reinterpret_cast<Internal::ipc_t*>(p->sharedmem->data()))
{
memset(ptr, 0, sizeof(Internal::ipc_t));
memcpy(&ptr->header[0], m_headerStr.constData(), Internal::HDR_LEN);
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UPDATE_CHECKSUM(ptr->status);
}
else
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to access shared memory: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
if(!p->semaphore_wr->release(Internal::IPC_SLOTS))
{
const QString errorMessage = p->semaphore_wr->errorString();
qWarning("Failed to release system semaphore: %s", MUTILS_UTF8(errorMessage));
return RET_FAILURE;
}
//qDebug("IPC KEY #1: %s", MUTILS_UTF8(p->sharedmem->key()));
//qDebug("IPC KEY #2: %s", MUTILS_UTF8(p->semaphore_rd->key()));
//qDebug("IPC KEY #3: %s", MUTILS_UTF8(p->semaphore_wr->key()));
p->initialized.ref();
return RET_SUCCESS_MASTER;
}
///////////////////////////////////////////////////////////////////////////////
// SEND MESSAGE
///////////////////////////////////////////////////////////////////////////////
bool MUtils::IPCChannel::send(const quint32 &command, const quint32 &flags, const QStringList &params)
{
bool success = false;
QReadLocker readLock(&p->lock);
if(!p->initialized)
{
MUTILS_THROW("Shared memory for IPC not initialized yet.");
}
if(!p->semaphore_wr->acquire())
{
const QString errorMessage = p->semaphore_wr->errorString();
qWarning("Failed to acquire system semaphore: %s", MUTILS_UTF8(errorMessage));
return false;
}
if(!p->sharedmem->lock())
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to lock shared memory: %s", MUTILS_UTF8(errorMessage));
return false;
}
if(Internal::ipc_t *const ptr = reinterpret_cast<Internal::ipc_t*>(p->sharedmem->data()))
{
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if(VERIFY_CHECKSUM(ptr->status))
{
Internal::ipc_msg_t ipc_msg;
memset(&ipc_msg, 0, sizeof(Internal::ipc_msg_t));
ipc_msg.payload.command_id = command;
ipc_msg.payload.flags = flags;
if(!params.isEmpty())
{
const quint32 param_count = qMin(MAX_PARAM_CNT, (quint32)params.count());
for(quint32 i = 0; i < param_count; i++)
{
strncpy_s(ipc_msg.payload.params.values[i], MAX_PARAM_LEN, MUTILS_UTF8(params[i].trimmed()), _TRUNCATE);
}
ipc_msg.payload.params.count = param_count;
}
ipc_msg.payload.timestamp = ptr->status.payload.counter++;
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UPDATE_CHECKSUM(ipc_msg);
memcpy(&ptr->data[ptr->status.payload.pos_wr], &ipc_msg, sizeof(Internal::ipc_msg_t));
ptr->status.payload.pos_wr = (ptr->status.payload.pos_wr + 1) % Internal::IPC_SLOTS;
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UPDATE_CHECKSUM(ptr->status);
success = true;
}
else
{
qWarning("Corrupted IPC status detected -> skipping!");
}
}
else
{
qWarning("Shared memory pointer is NULL -> unable to write data!");
}
if(!p->sharedmem->unlock())
{
const QString errorMessage = p->sharedmem->errorString();
qFatal("Failed to unlock shared memory: %s", MUTILS_UTF8(errorMessage));
}
if(!p->semaphore_rd->release())
{
const QString errorMessage = p->semaphore_rd->errorString();
qWarning("Failed to release system semaphore: %s", MUTILS_UTF8(errorMessage));
}
return success;
}
///////////////////////////////////////////////////////////////////////////////
// READ MESSAGE
///////////////////////////////////////////////////////////////////////////////
bool MUtils::IPCChannel::read(quint32 &command, quint32 &flags, QStringList &params)
{
bool success = false;
QReadLocker readLock(&p->lock);
command = 0;
params.clear();
if(!p->initialized)
{
MUTILS_THROW("Shared memory for IPC not initialized yet.");
}
Internal::ipc_msg_t ipc_msg;
memset(&ipc_msg, 0, sizeof(Internal::ipc_msg_t));
if(!p->semaphore_rd->acquire())
{
const QString errorMessage = p->semaphore_rd->errorString();
qWarning("Failed to acquire system semaphore: %s", MUTILS_UTF8(errorMessage));
return false;
}
if(!p->sharedmem->lock())
{
const QString errorMessage = p->sharedmem->errorString();
qWarning("Failed to lock shared memory: %s", MUTILS_UTF8(errorMessage));
return false;
}
if(Internal::ipc_t *const ptr = reinterpret_cast<Internal::ipc_t*>(p->sharedmem->data()))
{
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if(VERIFY_CHECKSUM(ptr->status))
{
memcpy(&ipc_msg, &ptr->data[ptr->status.payload.pos_rd], sizeof(Internal::ipc_msg_t));
ptr->status.payload.pos_rd = (ptr->status.payload.pos_rd + 1) % Internal::IPC_SLOTS;
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UPDATE_CHECKSUM(ptr->status);
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if(VERIFY_CHECKSUM(ipc_msg) || (ipc_msg.payload.timestamp < ptr->status.payload.counter))
{
command = ipc_msg.payload.command_id;
flags = ipc_msg.payload.flags;
const quint32 param_count = qMin(ipc_msg.payload.params.count, MAX_PARAM_CNT);
char temp[MAX_PARAM_LEN];
for(quint32 i = 0; i < param_count; i++)
{
strncpy_s(temp, MAX_PARAM_LEN, ipc_msg.payload.params.values[i], _TRUNCATE);
params.append(QString::fromUtf8(temp));
}
success = true;
}
else
{
qWarning("Malformed or corrupted IPC message, will be ignored!");
}
}
else
{
qWarning("Corrupted IPC status detected -> skipping!");
}
}
else
{
qWarning("Shared memory pointer is NULL -> unable to read data!");
}
if(!p->sharedmem->unlock())
{
const QString errorMessage = p->sharedmem->errorString();
qFatal("Failed to unlock shared memory: %s", MUTILS_UTF8(errorMessage));
}
if(!p->semaphore_wr->release())
{
const QString errorMessage = p->semaphore_wr->errorString();
qWarning("Failed to release system semaphore: %s", MUTILS_UTF8(errorMessage));
}
return success;
}