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tdelibs/dcop/dcopserver.cpp

1795 lines
51 KiB

/*****************************************************************
#include "dcopserver.h"
Copyright (c) 1999,2000 Preston Brown <pbrown@kde.org>
Copyright (c) 1999,2000 Matthias Ettrich <ettrich@kde.org>
Copyright (c) 1999,2001 Waldo Bastian <bastian@kde.org>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
******************************************************************/
#include <config.h>
#include <sys/types.h>
#ifdef HAVE_SYS_STAT_H
#include <sys/stat.h>
#endif
#ifdef HAVE_SYS_PARAM_H
#include <sys/param.h>
#endif
#include <sys/resource.h>
#include <sys/socket.h>
#include <unistd.h>
#include <stdlib.h>
#include <signal.h>
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>
#ifdef HAVE_LIMITS_H
#include <limits.h>
#endif
#include <tqfile.h>
#include <tqtextstream.h>
#include <tqdatastream.h>
#include <tqptrstack.h>
#include <tqtimer.h>
#include "dcopserver.h"
#include <dcopsignals.h>
#include <dcopclient.h>
#include <dcopglobal.h>
#include "dcop-path.h"
#ifdef DCOP_LOG
#undef Unsorted
#include <tqdir.h>
#include <string.h>
#endif
// #define DCOP_DEBUG
DCOPServer* the_server;
template class TQDict<DCOPConnection>;
template class TQPtrDict<DCOPConnection>;
template class TQPtrList<DCOPListener>;
#define _DCOPIceSendBegin(x) \
int fd = IceConnectionNumber( x ); \
long fd_fl = fcntl(fd, F_GETFL, 0); \
fcntl(fd, F_SETFL, fd_fl | O_NDELAY);
#define _DCOPIceSendEnd() \
fcntl(fd, F_SETFL, fd_fl);
static TQCString findDcopserverShutdown()
{
#ifdef Q_OS_WIN32
char szPath[512];
char *pszFilePart;
int ret;
ret = SearchPathA(NULL,"dcopserver_shutdown","exe",sizeof(szPath)/sizeof(szPath[0]),szPath,&pszFilePart);
if(ret != 0)
return TQCString(szPath);
#else
TQCString path = getenv("PATH");
char *dir = strtok(path.data(), ":");
while (dir)
{
TQCString file = dir;
file += "/dcopserver_shutdown";
if (access(file.data(), X_OK) == 0)
return file;
dir = strtok(NULL, ":");
}
TQCString file = DCOP_PATH;
file += "/dcopserver_shutdown";
if (access(file.data(), X_OK) == 0)
return file;
#endif
return TQCString("dcopserver_shutdown");
}
static Bool HostBasedAuthProc ( char* /*hostname*/)
{
return false; // no host based authentication
}
extern "C" {
extern IceWriteHandler _kde_IceWriteHandler;
extern IceIOErrorHandler _kde_IceIOErrorHandler;
void DCOPIceWriteChar(register IceConn iceConn, unsigned long nbytes, char *ptr);
}
static TQCString readQCString(TQDataStream &ds)
{
TQCString result;
TQ_UINT32 len;
ds >> len;
TQIODevice *device = ds.device();
int bytesLeft = device->size()-device->at();
if ((bytesLeft < 0 ) || (len > (uint) bytesLeft))
{
tqWarning("[dcopserver] Corrupt data!");
printf("[dcopserver] bytesLeft: %d, len: %d", bytesLeft, len);
return result;
}
result.TQByteArray::resize( (uint)len );
if (len > 0)
ds.readRawBytes( result.data(), (uint)len);
return result;
}
static TQByteArray readQByteArray(TQDataStream &ds)
{
TQByteArray result;
TQ_UINT32 len;
ds >> len;
TQIODevice *device = ds.device();
int bytesLeft = device->size()-device->at();
if ((bytesLeft < 0 ) || (len > (uint) bytesLeft))
{
tqWarning("[dcopserver] Corrupt data!");
return result;
}
result.resize( (uint)len );
if (len > 0)
ds.readRawBytes( result.data(), (uint)len);
return result;
}
extern "C" {
extern int _kde_IceTransWrite (void * ciptr, char *buf, int size);
}
static unsigned long writeIceData(IceConn iceConn, unsigned long nbytes, char *ptr)
{
int fd = IceConnectionNumber(iceConn);
unsigned long nleft = nbytes;
while (nleft > 0)
{
int nwritten;
if (iceConn->io_ok)
{
nwritten = send(fd, ptr, (int) nleft, 0);
}
else
return 0;
if (nwritten <= 0)
{
if (errno == EINTR)
continue;
if (errno == EAGAIN)
return nleft;
/*
* Fatal IO error. First notify each protocol's IceIOErrorProc
* callback, then invoke the application IO error handler.
*/
iceConn->io_ok = False;
if (iceConn->connection_status == IceConnectPending)
{
/*
* Don't invoke IO error handler if we are in the
* middle of a connection setup.
*/
return 0;
}
if (iceConn->process_msg_info)
{
int i;
for (i = iceConn->his_min_opcode;
i <= iceConn->his_max_opcode; i++)
{
_IceProcessMsgInfo *process;
process = &iceConn->process_msg_info[
i - iceConn->his_min_opcode];
if (process->in_use)
{
IceIOErrorProc IOErrProc = process->accept_flag ?
process->protocol->accept_client->io_error_proc :
process->protocol->orig_client->io_error_proc;
if (IOErrProc)
(*IOErrProc) (iceConn);
}
}
}
(*_kde_IceIOErrorHandler) (iceConn);
return 0;
}
nleft -= nwritten;
ptr += nwritten;
}
return 0;
}
void DCOPIceWriteChar(register IceConn iceConn, unsigned long nbytes, char *ptr)
{
DCOPConnection* conn = the_server->findConn( iceConn );
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] DCOPIceWriteChar() Writing %d bytes [%s]", nbytes, conn ? conn->appId.data() : "<unknown>");
#endif
if (conn)
{
if (conn->outputBlocked)
{
TQByteArray _data(nbytes);
memcpy(_data.data(), ptr, nbytes);
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] _IceWrite() outputBlocked. Queuing %d bytes.", _data.size());
#endif
conn->outputBuffer.append(_data);
return;
}
// assert(conn->outputBuffer.isEmpty());
}
unsigned long nleft = writeIceData(iceConn, nbytes, ptr);
if ((nleft > 0) && conn)
{
TQByteArray _data(nleft);
memcpy(_data.data(), ptr, nleft);
conn->waitForOutputReady(_data, 0);
return;
}
}
static void DCOPIceWrite(IceConn iceConn, const TQByteArray &_data)
{
DCOPConnection* conn = the_server->findConn( iceConn );
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] DCOPIceWrite() Writing %d bytes [%s]", _data.size(), conn ? conn->appId.data() : "<unknown>");
#endif
if (conn)
{
if (conn->outputBlocked)
{
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] DCOPIceWrite() outputBlocked. Queuing %d bytes.", _data.size());
#endif
conn->outputBuffer.append(_data);
return;
}
// assert(conn->outputBuffer.isEmpty());
}
unsigned long nleft = writeIceData(iceConn, _data.size(), const_cast<TQByteArray&>(_data).data());
if ((nleft > 0) && conn)
{
conn->waitForOutputReady(_data, _data.size() - nleft);
return;
}
}
void DCOPConnection::waitForOutputReady(const TQByteArray &_data, int start)
{
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] waitForOutputReady fd = %d datasize = %d start = %d", socket(), _data.size(), start);
#endif
outputBlocked = true;
outputBuffer.append(_data);
outputBufferStart = start;
if (!outputBufferNotifier)
{
outputBufferNotifier = new TQSocketNotifier(socket(), Write);
connect(outputBufferNotifier, TQT_SIGNAL(activated(int)),
the_server, TQT_SLOT(slotOutputReady(int)));
}
outputBufferNotifier->setEnabled(true);
return;
}
void DCOPServer::slotOutputReady(int socket)
{
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] slotOutputReady fd = %d", socket);
#endif
// Find out connection.
DCOPConnection *conn = fd_clients.find(socket);
//assert(conn);
//assert(conn->outputBlocked);
//assert(conn->socket() == socket);
// Forward
conn->slotOutputReady();
}
void DCOPConnection::slotOutputReady()
{
//assert(outputBlocked);
//assert(!outputBuffer.isEmpty());
TQByteArray data = outputBuffer.first();
int fd = socket();
long fd_fl = fcntl(fd, F_GETFL, 0);
fcntl(fd, F_SETFL, fd_fl | O_NDELAY);
/*
Use special write handling on windows platform. The write function from
the runtime library (on MSVC) does not allow to write on sockets.
*/
int nwritten;
nwritten = ::send(fd,data.data()+outputBufferStart,data.size()-outputBufferStart,0);
int e = errno;
fcntl(fd, F_SETFL, fd_fl);
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] slotOutputReady() %d bytes written", nwritten);
#endif
if (nwritten < 0)
{
if ((e == EINTR) || (e == EAGAIN))
return;
(*_kde_IceIOErrorHandler) (iceConn);
return;
}
outputBufferStart += nwritten;
if (outputBufferStart == data.size())
{
outputBufferStart = 0;
outputBuffer.remove(outputBuffer.begin());
if (outputBuffer.isEmpty())
{
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] slotOutputRead() all data transmitted.");
#endif
outputBlocked = false;
outputBufferNotifier->setEnabled(false);
}
#ifdef DCOP_DEBUG
else
{
tqWarning("[dcopserver] slotOutputRead() more data to send.");
}
#endif
}
}
static void DCOPIceSendData(register IceConn _iceConn,
const TQByteArray &_data)
{
if (_iceConn->outbufptr > _iceConn->outbuf)
{
#ifdef DCOP_DEBUG
tqWarning("[dcopserver] Flushing data, fd = %d", IceConnectionNumber(_iceConn));
#endif
IceFlush( _iceConn );
}
DCOPIceWrite(_iceConn, _data);
}
class DCOPListener : public TQSocketNotifier
{
public:
DCOPListener( IceListenObj obj )
: TQSocketNotifier( IceGetListenConnectionNumber( obj ),
TQSocketNotifier::Read, 0, 0)
{
listenObj = obj;
}
IceListenObj listenObj;
};
DCOPConnection::DCOPConnection( IceConn conn )
: TQSocketNotifier( IceConnectionNumber( conn ),
TQSocketNotifier::Read, 0, 0 )
{
iceConn = conn;
notifyRegister = 0;
_signalConnectionList = 0;
daemon = false;
outputBlocked = false;
outputBufferNotifier = 0;
outputBufferStart = 0;
}
DCOPConnection::~DCOPConnection()
{
delete _signalConnectionList;
delete outputBufferNotifier;
}
DCOPSignalConnectionList *
DCOPConnection::signalConnectionList()
{
if (!_signalConnectionList)
_signalConnectionList = new DCOPSignalConnectionList;
return _signalConnectionList;
}
static IceAuthDataEntry *authDataEntries;
static char *addAuthFile;
static IceListenObj *listenObjs;
static int numTransports;
static int ready[2];
/* for printing hex digits */
static void fprintfhex (FILE *fp, unsigned int len, char *cp)
{
static char hexchars[] = "0123456789abcdef";
for (; len > 0; len--, cp++) {
unsigned char s = *cp;
putc(hexchars[s >> 4], fp);
putc(hexchars[s & 0x0f], fp);
}
}
/*
* We use temporary files which contain commands to add entries to
* the .ICEauthority file.
*/
static void
write_iceauth (FILE *addfp, IceAuthDataEntry *entry)
{
fprintf (addfp,
"add %s \"\" %s %s ",
entry->protocol_name,
entry->network_id,
entry->auth_name);
fprintfhex (addfp, entry->auth_data_length, entry->auth_data);
fprintf (addfp, "\n");
}
#ifndef HAVE_MKSTEMPS
#include <string.h>
#include <strings.h>
/* this is based on code taken from the GNU libc, distributed under the LGPL license */
/* Generate a unique temporary file name from TEMPLATE.
TEMPLATE has the form:
<path>/ccXXXXXX<suffix>
SUFFIX_LEN tells us how long <suffix> is (it can be zero length).
The last six characters of TEMPLATE before <suffix> must be "XXXXXX";
they are replaced with a string that makes the filename unique.
Returns a file descriptor open on the file for reading and writing. */
int mkstemps (char* _template, int suffix_len)
{
static const char letters[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
char *XXXXXX;
int len;
int count;
int value;
len = strlen (_template);
if ((int) len < 6 + suffix_len || strncmp (&_template[len - 6 - suffix_len], "XXXXXX", 6))
return -1;
XXXXXX = &_template[len - 6 - suffix_len];
value = rand();
for (count = 0; count < 256; ++count)
{
int v = value;
int fd;
/* Fill in the random bits. */
XXXXXX[0] = letters[v % 62];
v /= 62;
XXXXXX[1] = letters[v % 62];
v /= 62;
XXXXXX[2] = letters[v % 62];
v /= 62;
XXXXXX[3] = letters[v % 62];
v /= 62;
XXXXXX[4] = letters[v % 62];
v /= 62;
XXXXXX[5] = letters[v % 62];
fd = open (_template, O_RDWR|O_CREAT|O_EXCL, 0600);
if (fd >= 0)
/* The file does not exist. */
return fd;
/* This is a random value. It is only necessary that the next
TMP_MAX values generated by adding 7777 to VALUE are different
with (module 2^32). */
value += 7777;
}
/* We return the null string if we can't find a unique file name. */
_template[0] = '\0';
return -1;
}
#endif
static char *unique_filename (const char *path, const char *prefix, int *pFd)
{
char tempFile[PATH_MAX];
char *ptr;
#ifdef Q_OS_WIN
snprintf (tempFile, PATH_MAX, "%s\\%sXXXXXX", path, prefix);
#else
snprintf (tempFile, PATH_MAX, "%s/%sXXXXXX", path, prefix);
#endif
ptr = static_cast<char *>(malloc(strlen(tempFile) + 1));
if (ptr != NULL)
{
int fd = mkstemps(tempFile, 0);
if(fd >= 0)
{
*pFd = fd;
strcpy(ptr, tempFile);
}
else
{
free(ptr);
ptr = NULL;
}
}
return ptr;
}
#define MAGIC_COOKIE_LEN 16
Status
SetAuthentication (int count, IceListenObj *_listenObjs,
IceAuthDataEntry **_authDataEntries)
{
FILE *addfp = NULL;
const char *path;
int original_umask;
int i;
TQCString command;
int fd;
original_umask = umask (0077); /* disallow non-owner access */
#ifdef Q_OS_WIN
char temppath[512];
DWORD dw = GetTempPathA(sizeof(temppath),temppath);
if(dw != 0)
{
temppath[dw - 1] = 0;
path = temppath;
}
else
path = ".";
#else
path = getenv ("DCOP_SAVE_DIR");
if (!path)
path = "/tmp";
#endif
if ((addAuthFile = unique_filename (path, "dcop", &fd)) == NULL)
goto bad;
if (!(addfp = fdopen(fd, "wb")))
goto bad;
if ((*_authDataEntries = static_cast<IceAuthDataEntry *>(malloc (count * 2 * sizeof (IceAuthDataEntry)))) == NULL)
goto bad;
for (i = 0; i < numTransports * 2; i += 2) {
(*_authDataEntries)[i].network_id =
IceGetListenConnectionString (_listenObjs[i/2]);
(*_authDataEntries)[i].protocol_name = const_cast<char *>("ICE");
(*_authDataEntries)[i].auth_name = const_cast<char *>("MIT-MAGIC-COOKIE-1");
(*_authDataEntries)[i].auth_data =
IceGenerateMagicCookie (MAGIC_COOKIE_LEN);
(*_authDataEntries)[i].auth_data_length = MAGIC_COOKIE_LEN;
(*_authDataEntries)[i+1].network_id =
IceGetListenConnectionString (_listenObjs[i/2]);
(*_authDataEntries)[i+1].protocol_name = const_cast<char *>("DCOP");
(*_authDataEntries)[i+1].auth_name = const_cast<char *>("MIT-MAGIC-COOKIE-1");
(*_authDataEntries)[i+1].auth_data =
IceGenerateMagicCookie (MAGIC_COOKIE_LEN);
(*_authDataEntries)[i+1].auth_data_length = MAGIC_COOKIE_LEN;
write_iceauth (addfp, &(*_authDataEntries)[i]);
write_iceauth (addfp, &(*_authDataEntries)[i+1]);
IceSetPaAuthData (2, &(*_authDataEntries)[i]);
IceSetHostBasedAuthProc (_listenObjs[i/2], HostBasedAuthProc);
}
fclose (addfp);
umask (original_umask);
command = DCOPClient::iceauthPath();
if (command.isEmpty())
{
fprintf( stderr, "[dcopserver] 'iceauth' not found in path, aborting." );
exit(1);
}
command += " source ";
command += addAuthFile;
system (command);
unlink(addAuthFile);
return (1);
bad:
if (addfp)
fclose (addfp);
if (addAuthFile) {
unlink(addAuthFile);
free(addAuthFile);
}
umask (original_umask);
return (0);
}
/*
* Free up authentication data.
*/
void
FreeAuthenticationData(int count, IceAuthDataEntry *_authDataEntries)
{
/* Each transport has entries for ICE and XSMP */
int i;
for (i = 0; i < count * 2; i++) {
free (_authDataEntries[i].network_id);
free (_authDataEntries[i].auth_data);
}
free(_authDataEntries);
free(addAuthFile);
}
void DCOPWatchProc ( IceConn iceConn, IcePointer client_data, Bool opening, IcePointer* watch_data)
{
DCOPServer* ds = static_cast<DCOPServer*>(client_data);
if (opening) {
*watch_data = static_cast<IcePointer>(ds->watchConnection( iceConn ));
}
else {
ds->removeConnection( static_cast<void*>(*watch_data) );
}
}
void DCOPProcessMessage( IceConn iceConn, IcePointer /*clientData*/,
int opcode, unsigned long length, Bool swap)
{
the_server->processMessage( iceConn, opcode, length, swap );
}
void DCOPServer::processMessage( IceConn iceConn, int opcode,
unsigned long length, Bool /*swap*/)
{
DCOPConnection* conn = clients.find( iceConn );
if ( !conn ) {
tqWarning("[dcopserver] DCOPServer::processMessage message from unknown connection. [opcode = %d]", opcode);
return;
}
switch( opcode ) {
case DCOPSend:
case DCOPReplyDelayed:
{
DCOPMsg *pMsg = 0;
IceReadMessageHeader(iceConn, sizeof(DCOPMsg), DCOPMsg, pMsg);
CARD32 key = pMsg->key;
TQByteArray ba( length );
IceReadData(iceConn, length, ba.data() );
TQDataStream ds( ba, IO_ReadOnly );
TQCString fromApp = readQCString(ds);
TQCString toApp = readQCString(ds);
DCOPConnection* target = findApp( toApp );
int datalen = ba.size();
if ( opcode == DCOPReplyDelayed ) {
if ( !target )
tqWarning("[dcopserver] DCOPServer::DCOPReplyDelayed for unknown connection.");
else if ( !conn )
tqWarning("[dcopserver] DCOPServer::DCOPReplyDelayed from unknown connection.");
else if (!conn->waitingForDelayedReply.removeRef( target->iceConn ))
tqWarning("[dcopserver] DCOPServer::DCOPReplyDelayed from/to does not match. (#2)");
else if (!target->waitingOnReply.removeRef(iceConn))
tqWarning("[dcopserver] DCOPServer::DCOPReplyDelayed for client who wasn't waiting on one!");
}
if ( target ) {
#ifdef DCOP_DEBUG
if (opcode == DCOPSend)
{
TQCString obj = readQCString(ds);
TQCString fun = readQCString(ds);
tqWarning("[dcopserver] Sending %d bytes from %s to %s. DCOPSend %s", length, fromApp.data(), toApp.data(), fun.data());
}
#endif
IceGetHeader( target->iceConn, majorOpcode, opcode,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = key;
pMsg->length += datalen;
_DCOPIceSendBegin( target->iceConn );
DCOPIceSendData(target->iceConn, ba);
_DCOPIceSendEnd();
} else if ( toApp == "DCOPServer" ) {
TQCString obj = readQCString(ds);
TQCString fun = readQCString(ds);
TQByteArray data = readQByteArray(ds);
TQCString replyType;
TQByteArray replyData;
if ( !receive( toApp, obj, fun, data, replyType, replyData, iceConn ) ) {
tqWarning("[dcopserver] %s failure: object '%s' has no function '%s'", toApp.data(), obj.data(), fun.data() );
}
} else if ( toApp[toApp.length()-1] == '*') {
#ifdef DCOP_DEBUG
if (opcode == DCOPSend)
{
TQCString obj = readQCString(ds);
TQCString fun = readQCString(ds);
tqWarning("[dcopserver] Sending %d bytes from %s to %s. DCOPSend %s", length, fromApp.data(), toApp.data(), fun.data());
}
#endif
// handle a multicast.
TQAsciiDictIterator<DCOPConnection> aIt(appIds);
int l = toApp.length()-1;
for ( ; aIt.current(); ++aIt) {
DCOPConnection *client = aIt.current();
if (!l || (strncmp(client->appId.data(), toApp.data(), l) == 0))
{
IceGetHeader(client->iceConn, majorOpcode, DCOPSend,
sizeof(DCOPMsg), DCOPMsg, pMsg);
pMsg->key = key;
pMsg->length += datalen;
_DCOPIceSendBegin( client->iceConn );
DCOPIceSendData(client->iceConn, ba);
_DCOPIceSendEnd();
}
}
}
}
break;
case DCOPCall:
case DCOPFind:
{
DCOPMsg *pMsg = 0;
IceReadMessageHeader(iceConn, sizeof(DCOPMsg), DCOPMsg, pMsg);
CARD32 key = pMsg->key;
TQByteArray ba( length );
IceReadData(iceConn, length, ba.data() );
TQDataStream ds( ba, IO_ReadOnly );
TQCString fromApp = readQCString(ds);
TQCString toApp = readQCString(ds);
DCOPConnection* target = findApp( toApp );
int datalen = ba.size();
if ( target ) {
#ifdef DCOP_DEBUG
if (opcode == DCOPCall)
{
TQCString obj = readQCString(ds);
TQCString fun = readQCString(ds);
tqWarning("[dcopserver] Sending %d bytes from %s to %s. DCOPCall %s", length, fromApp.data(), toApp.data(), fun.data());
}
#endif
target->waitingForReply.append( iceConn );
conn->waitingOnReply.append( target->iceConn);
IceGetHeader( target->iceConn, majorOpcode, opcode,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = key;
pMsg->length += datalen;
_DCOPIceSendBegin( target->iceConn );
DCOPIceSendData(target->iceConn, ba);
_DCOPIceSendEnd();
} else {
TQCString replyType;
TQByteArray replyData;
bool b = false;
// DCOPServer itself does not do DCOPFind.
if ( (opcode == DCOPCall) && (toApp == "DCOPServer") ) {
TQCString obj = readQCString(ds);
TQCString fun = readQCString(ds);
TQByteArray data = readQByteArray(ds);
b = receive( toApp, obj, fun, data, replyType, replyData, iceConn );
if ( !b )
tqWarning("[dcopserver] %s failure: object '%s' has no function '%s'", toApp.data(), obj.data(), fun.data() );
}
if (b) {
TQByteArray reply;
TQDataStream replyStream( reply, IO_WriteOnly );
replyStream << toApp << fromApp << replyType << replyData.size();
int replylen = reply.size() + replyData.size();
IceGetHeader( iceConn, majorOpcode, DCOPReply,
sizeof(DCOPMsg), DCOPMsg, pMsg );
if ( key != 0 )
pMsg->key = key;
else
pMsg->key = serverKey++;
pMsg->length += replylen;
_DCOPIceSendBegin( iceConn );
DCOPIceSendData( iceConn, reply);
DCOPIceSendData( iceConn, replyData);
_DCOPIceSendEnd();
} else {
TQByteArray reply;
TQDataStream replyStream( reply, IO_WriteOnly );
replyStream << toApp << fromApp;
IceGetHeader( iceConn, majorOpcode, DCOPReplyFailed,
sizeof(DCOPMsg), DCOPMsg, pMsg );
if ( key != 0 )
pMsg->key = key;
else
pMsg->key = serverKey++;
pMsg->length += reply.size();
_DCOPIceSendBegin( iceConn );
DCOPIceSendData( iceConn, reply );
_DCOPIceSendEnd();
}
}
}
break;
case DCOPReply:
case DCOPReplyFailed:
case DCOPReplyWait:
{
DCOPMsg *pMsg = 0;
IceReadMessageHeader(iceConn, sizeof(DCOPMsg), DCOPMsg, pMsg);
CARD32 key = pMsg->key;
TQByteArray ba( length );
IceReadData(iceConn, length, ba.data() );
TQDataStream ds( ba, IO_ReadOnly );
TQCString fromApp = readQCString(ds);
TQCString toApp = readQCString(ds);
DCOPConnection* connreply = findApp( toApp );
int datalen = ba.size();
if ( !connreply )
tqWarning("[dcopserver] DCOPServer::DCOPReply for unknown connection.");
else {
conn->waitingForReply.removeRef( connreply->iceConn );
if ( opcode == DCOPReplyWait )
{
conn->waitingForDelayedReply.append( connreply->iceConn );
}
else
{ // DCOPReply or DCOPReplyFailed
if (!connreply->waitingOnReply.removeRef(iceConn))
tqWarning("[dcopserver] DCOPReply from %s to %s who wasn't waiting on one!",
fromApp.data(), toApp.data());
}
IceGetHeader( connreply->iceConn, majorOpcode, opcode,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = key;
pMsg->length += datalen;
_DCOPIceSendBegin( connreply->iceConn );
DCOPIceSendData(connreply->iceConn, ba);
_DCOPIceSendEnd();
}
}
break;
default:
tqWarning("[dcopserver] DCOPServer::processMessage unknown message");
}
}
static const IcePaVersionRec DCOPServerVersions[] = {
{ DCOPVersionMajor, DCOPVersionMinor, DCOPProcessMessage }
};
static const IcePoVersionRec DUMMYVersions[] = {
{ DCOPVersionMajor, DCOPVersionMinor, 0 }
};
static Status DCOPServerProtocolSetupProc ( IceConn /*iceConn*/,
int majorVersion, int minorVersion,
char* vendor, char* release,
IcePointer *clientDataRet,
char ** /*failureReasonRet*/)
{
/*
* vendor/release are undefined for ProtocolSetup in DCOP
*/
if (vendor)
free (vendor);
if (release)
free (release);
*clientDataRet = 0;
return (majorVersion == DCOPVersionMajor && minorVersion == DCOPVersionMinor);
}
#ifndef Q_OS_WIN
static int pipeOfDeath[2];
static void sighandler(int sig)
{
if (sig == SIGHUP) {
signal(SIGHUP, sighandler);
return;
}
write(pipeOfDeath[1], "x", 1);
}
#endif
extern "C"
{
extern int _kde_IceLastMajorOpcode; // from libICE
}
DCOPServer::DCOPServer(bool _suicide)
: TQObject(0,0), currentClientNumber(0), appIds(263), clients(263)
{
serverKey = 42;
suicide = _suicide;
shutdown = false;
dcopSignals = new DCOPSignals;
if (_kde_IceLastMajorOpcode < 1 )
IceRegisterForProtocolSetup(const_cast<char *>("DUMMY"),
const_cast<char *>("DUMMY"),
const_cast<char *>("DUMMY"),
1, const_cast<IcePoVersionRec *>(DUMMYVersions),
DCOPAuthCount, const_cast<char **>(DCOPAuthNames),
DCOPClientAuthProcs, 0);
if (_kde_IceLastMajorOpcode < 1 )
tqWarning("[dcopserver] DCOPServer Error: incorrect major opcode!");
the_server = this;
if (( majorOpcode = IceRegisterForProtocolReply (const_cast<char *>("DCOP"),
const_cast<char *>(DCOPVendorString),
const_cast<char *>(DCOPReleaseString),
1, const_cast<IcePaVersionRec *>(DCOPServerVersions),
1, const_cast<char **>(DCOPAuthNames),
DCOPServerAuthProcs,
HostBasedAuthProc,
DCOPServerProtocolSetupProc,
NULL, /* IceProtocolActivateProc - we don't care about
when the Protocol Reply is sent, because the
session manager can not immediately send a
message - it must wait for RegisterClient. */
NULL /* IceIOErrorProc */
)) < 0)
{
tqWarning("[dcopserver] Could not register DCOP protocol with ICE");
}
char errormsg[256];
int orig_umask = umask(077); /*old libICE's don't reset the umask() they set */
if (!IceListenForConnections (&numTransports, &listenObjs,
256, errormsg))
{
fprintf (stderr, "[dcopserver] %s", errormsg);
exit (1);
} else {
(void) umask(orig_umask);
// publish available transports.
TQCString fName = DCOPClient::dcopServerFile();
FILE *f;
if(!(f = ::fopen(fName.data(), "w+"))) {
fprintf (stderr, "[dcopserver] Can not create file %s: %s",
fName.data(), ::strerror(errno));
exit(1);
}
char *idlist = IceComposeNetworkIdList(numTransports, listenObjs);
if (idlist != 0) {
fprintf(f, "%s", idlist);
free(idlist);
}
fprintf(f, "\n%i\n", getpid());
fclose(f);
#ifndef Q_OS_WIN32
if (TQCString(getenv("DCOPAUTHORITY")).isEmpty())
{
// Create a link named like the old-style (KDE 2.x) naming
TQCString compatName = DCOPClient::dcopServerFileOld();
::symlink(fName,compatName);
}
#endif // Q_OS_WIN32
}
#if 0
if (!SetAuthentication_local(numTransports, listenObjs))
tqFatal("DCOPSERVER: authentication setup failed.");
#endif
if (!SetAuthentication(numTransports, listenObjs, &authDataEntries))
tqFatal("DCOPSERVER: authentication setup failed.");
IceAddConnectionWatch (DCOPWatchProc, static_cast<IcePointer>(this));
_IceWriteHandler = DCOPIceWriteChar;
listener.setAutoDelete( true );
DCOPListener* con;
for ( int i = 0; i < numTransports; i++) {
con = new DCOPListener( listenObjs[i] );
listener.append( con );
connect( con, TQT_SIGNAL( activated(int) ), this, TQT_SLOT( newClient(int) ) );
}
char c = 0;
write(ready[1], &c, 1); // dcopserver is started
close(ready[1]);
m_timer = new TQTimer(this);
connect( m_timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotTerminate()) );
m_deadConnectionTimer = new TQTimer(this);
connect( m_deadConnectionTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotCleanDeadConnections()) );
#ifdef Q_OS_WIN
char szEventName[256];
sprintf(szEventName,"dcopserver%i",GetCurrentProcessId());
m_evTerminate = CreateEventA(NULL,TRUE,FALSE,(LPCSTR)szEventName);
ResetEvent(m_evTerminate);
m_hTerminateThread = CreateThread(NULL,0,TerminatorThread,this,0,&m_dwTerminateThreadId);
if(m_hTerminateThread)
CloseHandle(m_hTerminateThread);
#endif
#ifdef DCOP_LOG
char hostname_buffer[256];
memset( hostname_buffer, 0, sizeof( hostname_buffer ) );
if ( gethostname( hostname_buffer, 255 ) < 0 )
hostname_buffer[0] = '\0';
m_logger = new TQFile( TQString( "%1/.dcop-%2.log" ).arg( TQDir::homeDirPath() ).arg( hostname_buffer ) );
if ( m_logger->open( IO_WriteOnly ) ) {
m_stream = new TQTextStream( m_logger );
}
#endif
}
DCOPServer::~DCOPServer()
{
system(findDcopserverShutdown()+" --nokill");
IceFreeListenObjs(numTransports, listenObjs);
FreeAuthenticationData(numTransports, authDataEntries);
delete dcopSignals;
#ifdef DCOP_LOG
delete m_stream;
m_logger->close();
delete m_logger;
#endif
#ifdef Q_OS_WIN
SetEvent(m_evTerminate);
CloseHandle(m_evTerminate);
#endif
}
DCOPConnection* DCOPServer::findApp( const TQCString& appId )
{
if ( appId.isNull() )
return 0;
DCOPConnection* conn = appIds.find( appId );
return conn;
}
/*!
Called by timer after write errors.
*/
void DCOPServer::slotCleanDeadConnections()
{
tqWarning("[dcopserver] DCOP Cleaning up dead connections.");
while(!deadConnections.isEmpty())
{
IceConn iceConn = deadConnections.take(0);
IceSetShutdownNegotiation (iceConn, False);
(void) IceCloseConnection( iceConn );
}
}
/*!
Called from our IceIoErrorHandler
*/
void DCOPServer::ioError( IceConn iceConn )
{
deadConnections.removeRef(iceConn);
deadConnections.prepend(iceConn);
m_deadConnectionTimer->start(0, true);
}
void DCOPServer::processData( int /*socket*/ )
{
IceConn iceConn = static_cast<const DCOPConnection*>(sender())->iceConn;
IceProcessMessagesStatus status = IceProcessMessages( iceConn, 0, 0 );
if ( status == IceProcessMessagesIOError ) {
deadConnections.removeRef(iceConn);
if (deadConnections.isEmpty())
m_deadConnectionTimer->stop();
IceSetShutdownNegotiation (iceConn, False);
(void) IceCloseConnection( iceConn );
}
}
void DCOPServer::newClient( int /*socket*/ )
{
IceAcceptStatus status;
IceConn iceConn = IceAcceptConnection( static_cast<const DCOPListener*>(sender())->listenObj, &status);
if (!iceConn) {
if (status == IceAcceptBadMalloc)
tqWarning("[dcopserver] Failed to alloc connection object!");
else // IceAcceptFailure
tqWarning("[dcopserver] Failed to accept ICE connection!");
return;
}
IceSetShutdownNegotiation( iceConn, False );
IceConnectStatus cstatus;
while ((cstatus = IceConnectionStatus (iceConn))==IceConnectPending) {
(void) IceProcessMessages( iceConn, 0, 0 );
}
if (cstatus != IceConnectAccepted) {
if (cstatus == IceConnectIOError)
tqWarning ("[dcopserver] IO error opening ICE Connection!");
else
tqWarning ("[dcopserver] ICE Connection rejected!");
deadConnections.removeRef(iceConn);
(void) IceCloseConnection (iceConn);
}
}
void* DCOPServer::watchConnection( IceConn iceConn )
{
DCOPConnection* con = new DCOPConnection( iceConn );
connect( con, TQT_SIGNAL( activated(int) ), this, TQT_SLOT( processData(int) ) );
clients.insert(iceConn, con );
fd_clients.insert( IceConnectionNumber(iceConn), con);
return static_cast<void*>(con);
}
void DCOPServer::removeConnection( void* data )
{
DCOPConnection* conn = static_cast<DCOPConnection*>(data);
dcopSignals->removeConnections(conn);
clients.remove(conn->iceConn );
fd_clients.remove( IceConnectionNumber(conn->iceConn) );
// Send DCOPReplyFailed to all in conn->waitingForReply
while (!conn->waitingForReply.isEmpty()) {
IceConn iceConn = conn->waitingForReply.take(0);
if (iceConn) {
DCOPConnection* target = clients.find( iceConn );
tqWarning("[dcopserver] DCOP aborting call from '%s' to '%s'", target ? target->appId.data() : "<unknown>" , conn->appId.data() );
TQByteArray reply;
DCOPMsg *pMsg;
IceGetHeader( iceConn, majorOpcode, DCOPReplyFailed,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = 1;
pMsg->length += reply.size();
_DCOPIceSendBegin( iceConn );
DCOPIceSendData(iceConn, reply);
_DCOPIceSendEnd();
if (!target)
tqWarning("[dcopserver] Unknown target in waitingForReply");
else if (!target->waitingOnReply.removeRef(conn->iceConn))
tqWarning("[dcopserver] Client in waitingForReply wasn't waiting on reply");
}
}
// Send DCOPReplyFailed to all in conn->waitingForDelayedReply
while (!conn->waitingForDelayedReply.isEmpty()) {
IceConn iceConn = conn->waitingForDelayedReply.take(0);
if (iceConn) {
DCOPConnection* target = clients.find( iceConn );
tqWarning("[dcopserver] DCOP aborting (delayed) call from '%s' to '%s'", target ? target->appId.data() : "<unknown>", conn->appId.data() );
TQByteArray reply;
DCOPMsg *pMsg;
IceGetHeader( iceConn, majorOpcode, DCOPReplyFailed,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = 1;
pMsg->length += reply.size();
_DCOPIceSendBegin( iceConn );
DCOPIceSendData( iceConn, reply );
_DCOPIceSendEnd();
if (!target)
tqWarning("[dcopserver] Unknown target in waitingForDelayedReply");
else if (!target->waitingOnReply.removeRef(conn->iceConn))
tqWarning("[dcopserver] Client in waitingForDelayedReply wasn't waiting on reply");
}
}
while (!conn->waitingOnReply.isEmpty())
{
IceConn iceConn = conn->waitingOnReply.take(0);
if (iceConn) {
DCOPConnection* target = clients.find( iceConn );
if (!target)
{
tqWarning("[dcopserver] Still waiting for answer from non-existing client.");
continue;
}
tqWarning("[dcopserver] DCOP aborting while waiting for answer from '%s'", target->appId.data());
if (!target->waitingForReply.removeRef(conn->iceConn) &&
!target->waitingForDelayedReply.removeRef(conn->iceConn))
tqWarning("[dcopserver] Called client has forgotten about caller");
}
}
if ( !conn->appId.isNull() ) {
#ifndef NDEBUG
tqDebug("DCOP: unregister '%s'", conn->appId.data() );
#endif
if ( !conn->daemon )
{
currentClientNumber--;
}
appIds.remove( conn->appId );
broadcastApplicationRegistration( conn, "applicationRemoved(TQCString)", conn->appId );
}
delete conn;
if ( suicide && (currentClientNumber == 0) )
{
m_timer->start( 10000 ); // if within 10 seconds nothing happens, we'll terminate
}
if ( shutdown && appIds.isEmpty())
{
m_timer->start( 10 ); // Exit now
}
}
void DCOPServer::slotTerminate()
{
#ifndef NDEBUG
fprintf( stderr, "[dcopserver] slotTerminate() -> sending terminateTDE signal." );
#endif
TQByteArray data;
dcopSignals->emitSignal(0L /* dcopserver */, "terminateTDE()", data, false);
disconnect( m_timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotTerminate()) );
connect( m_timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotSuicide()) );
system(findDcopserverShutdown()+" --nokill");
}
void DCOPServer::slotSuicide()
{
#ifndef NDEBUG
fprintf( stderr, "[dcopserver] slotSuicide() -> exit." );
#endif
exit(0);
}
void DCOPServer::slotShutdown()
{
#ifndef NDEBUG
fprintf( stderr, "[dcopserver] slotShutdown() -> waiting for clients to disconnect." );
#endif
char c;
#ifndef Q_OS_WIN
read(pipeOfDeath[0], &c, 1);
#endif
if (!shutdown)
{
shutdown = true;
TQByteArray data;
dcopSignals->emitSignal(0L /* dcopserver */, "terminateTDE()", data, false);
m_timer->start( 10000 ); // if within 10 seconds nothing happens, we'll terminate
disconnect( m_timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotTerminate()) );
connect( m_timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotExit()) );
if (appIds.isEmpty())
slotExit(); // Exit now
}
}
void DCOPServer::slotExit()
{
#ifndef NDEBUG
fprintf( stderr, "[dcopserver] slotExit() -> exit." );
#endif
#ifdef Q_OS_WIN
SetEvent(m_evTerminate);
if(m_dwTerminateThreadId != GetCurrentThreadId())
WaitForSingleObject(m_hTerminateThread,INFINITE);
CloseHandle(m_hTerminateThread);
#endif
exit(0);
}
bool DCOPServer::receive(const TQCString &/*app*/, const TQCString &obj,
const TQCString &fun, const TQByteArray& data,
TQCString& replyType, TQByteArray &replyData,
IceConn iceConn)
{
#ifdef DCOP_LOG
(*m_stream) << "Received a message: obj =\""
<< obj << "\", fun =\""
<< fun << "\", replyType =\""
<< replyType << "\", data.size() =\""
<< data.size() << "\", replyData.size() ="
<< replyData.size() << "";
m_logger->flush();
#endif
if ( obj == "emit")
{
DCOPConnection* conn = clients.find( iceConn );
if (conn) {
//tqDebug("DCOPServer: %s emits %s", conn->appId.data(), fun.data());
dcopSignals->emitSignal(conn, fun, data, false);
}
replyType = "void";
return true;
}
if ( fun == "setDaemonMode(bool)" ) {
TQDataStream args( data, IO_ReadOnly );
if ( !args.atEnd() ) {
TQ_INT8 iDaemon;
bool daemon;
args >> iDaemon;
daemon = static_cast<bool>( iDaemon );
DCOPConnection* conn = clients.find( iceConn );
if ( conn && !conn->appId.isNull() ) {
if ( daemon ) {
if ( !conn->daemon )
{
conn->daemon = true;
#ifndef NDEBUG
tqDebug( "DCOP: new daemon %s", conn->appId.data() );
#endif
currentClientNumber--;
// David says it's safer not to do this :-)
// if ( currentClientNumber == 0 )
// m_timer->start( 10000 );
}
} else
{
if ( conn->daemon ) {
conn->daemon = false;
currentClientNumber++;
m_timer->stop();
}
}
}
replyType = "void";
return true;
}
}
if ( fun == "registerAs(TQCString)" ) {
TQDataStream args( data, IO_ReadOnly );
if (!args.atEnd()) {
TQCString app2 = readQCString(args);
TQDataStream reply( replyData, IO_WriteOnly );
DCOPConnection* conn = clients.find( iceConn );
if ( conn && !app2.isEmpty() ) {
if ( !conn->appId.isNull() &&
appIds.find( conn->appId ) == conn ) {
appIds.remove( conn->appId );
}
TQCString oldAppId;
if ( conn->appId.isNull() )
{
currentClientNumber++;
m_timer->stop(); // abort termination if we were planning one
#ifndef NDEBUG
tqDebug("DCOP: register '%s' -> number of clients is now %d", app2.data(), currentClientNumber );
#endif
}
#ifndef NDEBUG
else
{
oldAppId = conn->appId;
tqDebug("DCOP: '%s' now known as '%s'", conn->appId.data(), app2.data() );
}
#endif
conn->appId = app2;
if ( appIds.find( app2 ) != 0 ) {
// we already have this application, unify
int n = 1;
TQCString tmp;
do {
n++;
tmp.setNum( n );
tmp.prepend("-");
tmp.prepend( app2 );
} while ( appIds.find( tmp ) != 0 );
conn->appId = tmp;
}
appIds.insert( conn->appId, conn );
int c = conn->appId.find( '-' );
if ( c > 0 )
conn->plainAppId = conn->appId.left( c );
else
conn->plainAppId = conn->appId;
if( !oldAppId.isEmpty())
broadcastApplicationRegistration( conn,
"applicationRemoved(TQCString)", oldAppId );
broadcastApplicationRegistration( conn, "applicationRegistered(TQCString)", conn->appId );
}
replyType = "TQCString";
reply << conn->appId;
return true;
}
}
else if ( fun == "registeredApplications()" ) {
TQDataStream reply( replyData, IO_WriteOnly );
QCStringList applications;
TQAsciiDictIterator<DCOPConnection> it( appIds );
while ( it.current() ) {
applications << it.currentKey();
++it;
}
replyType = "QCStringList";
reply << applications;
return true;
} else if ( fun == "isApplicationRegistered(TQCString)" ) {
TQDataStream args( data, IO_ReadOnly );
if (!args.atEnd()) {
TQCString s = readQCString(args);
TQDataStream reply( replyData, IO_WriteOnly );
int b = ( findApp( s ) != 0 );
replyType = "bool";
reply << b;
return true;
}
} else if ( fun == "setNotifications(bool)" ) {
TQDataStream args( data, IO_ReadOnly );
if (!args.atEnd()) {
TQ_INT8 notifyActive;
args >> notifyActive;
DCOPConnection* conn = clients.find( iceConn );
if ( conn ) {
if ( notifyActive )
conn->notifyRegister++;
else if ( conn->notifyRegister > 0 )
conn->notifyRegister--;
}
replyType = "void";
return true;
}
} else if ( fun == "connectSignal(TQCString,TQCString,TQCString,TQCString,TQCString,bool)") {
DCOPConnection* conn = clients.find( iceConn );
if (!conn) return false;
TQDataStream args(data, IO_ReadOnly );
if (args.atEnd()) return false;
TQCString sender = readQCString(args);
TQCString senderObj = readQCString(args);
TQCString signal = readQCString(args);
TQCString receiverObj = readQCString(args);
TQCString slot = readQCString(args);
TQ_INT8 Volatile;
args >> Volatile;
#ifdef DCOP_DEBUG
tqDebug("DCOPServer: connectSignal(sender = %s senderObj = %s signal = %s recvObj = %s slot = %s)", sender.data(), senderObj.data(), signal.data(), receiverObj.data(), slot.data());
#endif
bool b = dcopSignals->connectSignal(sender, senderObj, signal, conn, receiverObj, slot, (Volatile != 0));
replyType = "bool";
TQDataStream reply( replyData, IO_WriteOnly );
reply << (TQ_INT8) (b?1:0);
return true;
} else if ( fun == "disconnectSignal(TQCString,TQCString,TQCString,TQCString,TQCString)") {
DCOPConnection* conn = clients.find( iceConn );
if (!conn) return false;
TQDataStream args(data, IO_ReadOnly );
if (args.atEnd()) return false;
TQCString sender = readQCString(args);
TQCString senderObj = readQCString(args);
TQCString signal = readQCString(args);
TQCString receiverObj = readQCString(args);
TQCString slot = readQCString(args);
#ifdef DCOP_DEBUG
tqDebug("DCOPServer: disconnectSignal(sender = %s senderObj = %s signal = %s recvObj = %s slot = %s)", sender.data(), senderObj.data(), signal.data(), receiverObj.data(), slot.data());
#endif
bool b = dcopSignals->disconnectSignal(sender, senderObj, signal, conn, receiverObj, slot);
replyType = "bool";
TQDataStream reply( replyData, IO_WriteOnly );
reply << (TQ_INT8) (b?1:0);
return true;
}
return false;
}
void DCOPServer::broadcastApplicationRegistration( DCOPConnection* conn, const TQCString type,
const TQCString& appId )
{
TQByteArray data;
TQDataStream datas( data, IO_WriteOnly );
datas << appId;
TQPtrDictIterator<DCOPConnection> it( clients );
TQByteArray ba;
TQDataStream ds( ba, IO_WriteOnly );
ds <<TQCString("DCOPServer") << TQCString("") << TQCString("")
<< type << data;
int datalen = ba.size();
DCOPMsg *pMsg = 0;
while ( it.current() ) {
DCOPConnection* c = it.current();
++it;
if ( c->notifyRegister && (c != conn) ) {
IceGetHeader( c->iceConn, majorOpcode, DCOPSend,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->key = 1;
pMsg->length += datalen;
_DCOPIceSendBegin(c->iceConn);
DCOPIceSendData( c->iceConn, ba );
_DCOPIceSendEnd();
}
}
}
void
DCOPServer::sendMessage(DCOPConnection *conn, const TQCString &sApp,
const TQCString &rApp, const TQCString &rObj,
const TQCString &rFun, const TQByteArray &data)
{
TQByteArray ba;
TQDataStream ds( ba, IO_WriteOnly );
ds << sApp << rApp << rObj << rFun << data;
int datalen = ba.size();
DCOPMsg *pMsg = 0;
IceGetHeader( conn->iceConn, majorOpcode, DCOPSend,
sizeof(DCOPMsg), DCOPMsg, pMsg );
pMsg->length += datalen;
pMsg->key = 1; // important!
#ifdef DCOP_LOG
(*m_stream) << "Sending a message: sApp =\""
<< sApp << "\", rApp =\""
<< rApp << "\", rObj =\""
<< rObj << "\", rFun =\""
<< rFun << "\", datalen ="
<< datalen << "\n";
m_logger->flush();
#endif
_DCOPIceSendBegin( conn->iceConn );
DCOPIceSendData(conn->iceConn, ba);
_DCOPIceSendEnd();
}
void IoErrorHandler ( IceConn iceConn)
{
the_server->ioError( iceConn );
}
static bool isRunning(const TQCString &fName, bool printNetworkId = false)
{
if (::access(fName.data(), R_OK) == 0) {
TQFile f(fName);
f.open(IO_ReadOnly);
int size = TQMIN( (qint64)1024, f.size() ); // protection against a huge file
TQCString contents( size+1 );
bool ok = f.readBlock( contents.data(), size ) == size;
contents[size] = '\0';
int pos = contents.find('\n');
ok = ok && ( pos != -1 );
pid_t pid = ok ? contents.mid(pos+1).toUInt(&ok) : 0;
f.close();
if (ok && pid && (kill(pid, SIGHUP) == 0)) {
if (printNetworkId)
tqWarning("[dcopserver] %s", contents.left(pos).data());
else
tqWarning( "---------------------------------\n"
"[dcopserver] It looks like dcopserver is already running. If you are sure\n"
"that it is not already running, remove %s\n"
"and start dcopserver again.\n"
"---------------------------------",
fName.data() );
// lock file present, die silently.
return true;
} else {
// either we couldn't read the PID or kill returned an error.
// remove lockfile and continue
unlink(fName.data());
}
} else if (errno != ENOENT) {
// remove lockfile and continue
unlink(fName.data());
}
return false;
}
const char* const ABOUT =
"Usage: dcopserver [--nofork] [--nosid] [--help]\n"
" dcopserver --serverid\n"
"\n"
"DCOP is TDE's Desktop Communications Protocol. It is a lightweight IPC/RPC\n"
"mechanism built on top of the X Consortium's Inter Client Exchange protocol.\n"
"It enables desktop applications to communicate reliably with low overhead.\n"
"\n"
"Copyright (C) 1999-2001, The KDE Developers <http://www.kde.org>\n"
;
extern "C" DCOP_EXPORT int kdemain( int argc, char* argv[] )
{
bool serverid = false;
bool nofork = false;
bool nosid = false;
bool suicide = false;
for(int i = 1; i < argc; i++) {
if (strcmp(argv[i], "--nofork") == 0)
nofork = true;
else if (strcmp(argv[i], "--nosid") == 0)
nosid = true;
else if (strcmp(argv[i], "--nolocal") == 0)
; // Ignore
else if (strcmp(argv[i], "--suicide") == 0)
suicide = true;
else if (strcmp(argv[i], "--serverid") == 0)
serverid = true;
else {
fprintf(stdout, "%s", ABOUT );
return 0;
}
}
if (serverid)
{
if (isRunning(DCOPClient::dcopServerFile(), true))
return 0;
return 1;
}
// check if we are already running
if (isRunning(DCOPClient::dcopServerFile()))
return 0;
#ifndef Q_OS_WIN32
if (TQCString(getenv("DCOPAUTHORITY")).isEmpty() &&
isRunning(DCOPClient::dcopServerFileOld()))
{
// Make symlink for compatibility
TQCString oldFile = DCOPClient::dcopServerFileOld();
TQCString newFile = DCOPClient::dcopServerFile();
symlink(oldFile.data(), newFile.data());
return 0;
}
struct rlimit limits;
int retcode = getrlimit(RLIMIT_NOFILE, &limits);
if (!retcode) {
if (limits.rlim_max > 512 && limits.rlim_cur < 512)
{
int cur_limit = limits.rlim_cur;
limits.rlim_cur = 512;
retcode = setrlimit(RLIMIT_NOFILE, &limits);
if (retcode != 0)
{
tqWarning("[dcopserver] Could not raise limit on number of open files.");
tqWarning("[dcopserver] Current limit = %d", cur_limit);
}
}
}
#endif
pipe(ready);
#ifndef Q_OS_WIN32
if (!nofork) {
pid_t pid = fork();
if (pid > 0) {
char c = 1;
close(ready[1]);
read(ready[0], &c, 1); // Wait till dcopserver is started
close(ready[0]);
// I am the parent
if (c == 0)
{
// Test whether we are functional.
DCOPClient client;
if (client.attach())
return 0;
}
tqWarning("[dcopserver] DCOPServer self-test failed.");
system(findDcopserverShutdown()+" --kill");
return 1;
}
close(ready[0]);
if (!nosid)
setsid();
if (fork() > 0)
return 0; // get rid of controlling terminal
}
pipe(pipeOfDeath);
signal(SIGHUP, sighandler);
signal(SIGTERM, sighandler);
signal(SIGPIPE, SIG_IGN);
#else
{
char c = 1;
close(ready[1]);
read(ready[0], &c, 1); // Wait till dcopserver is started
close(ready[0]);
}
#endif
putenv(strdup("SESSION_MANAGER="));
TQApplication a( argc, argv, false );
IceSetIOErrorHandler (IoErrorHandler );
DCOPServer *server = new DCOPServer(suicide); // this sets the_server
#ifdef Q_OS_WIN
SetConsoleCtrlHandler(DCOPServer::dcopServerConsoleProc,TRUE);
#else
TQSocketNotifier DEATH(pipeOfDeath[0], TQSocketNotifier::Read, 0, 0);
server->connect(&DEATH, TQT_SIGNAL(activated(int)), TQT_SLOT(slotShutdown()));
#endif
int ret = a.exec();
delete server;
return ret;
}
#ifdef Q_OS_WIN
#include "dcopserver_win.cpp"
#endif
#include "dcopserver.moc"