#include "XmlRpcDispatch.h" #include "XmlRpcSource.h" #include "XmlRpcUtil.h" #include #if defined(_WINDOWS) # include # define USE_FTIME # if defined(_MSC_VER) # define timeb _timeb # define ftime _ftime # endif #else # include #endif // _WINDOWS using namespace XmlRpc; XmlRpcDispatch::XmlRpcDispatch() { _endTime = -1.0; _doClear = false; _inWork = false; } XmlRpcDispatch::~XmlRpcDispatch() { } // Monitor this source for the specified events and call its event handler // when the event occurs void XmlRpcDispatch::addSource(XmlRpcSource* source, unsigned mask) { _sources.push_back(MonitoredSource(source, mask)); } // Stop monitoring this source. Does not close the source. void XmlRpcDispatch::removeSource(XmlRpcSource* source) { for (SourceList::iterator it=_sources.begin(); it!=_sources.end(); ++it) if (it->getSource() == source) { _sources.erase(it); break; } } // Modify the types of events to watch for on this source void XmlRpcDispatch::setSourceEvents(XmlRpcSource* source, unsigned eventMask) { for (SourceList::iterator it=_sources.begin(); it!=_sources.end(); ++it) if (it->getSource() == source) { it->getMask() = eventMask; break; } } // Watch current set of sources and process events void XmlRpcDispatch::work(double timeout) { // Compute end time _endTime = (timeout < 0.0) ? -1.0 : (getTime() + timeout); _doClear = false; _inWork = true; // Only work while there is something to monitor while (_sources.size() > 0) { // Construct the sets of descriptors we are interested in fd_set inFd, outFd, excFd; FD_ZERO(&inFd); FD_ZERO(&outFd); FD_ZERO(&excFd); int maxFd = -1; // Not used on windows SourceList::iterator it; for (it=_sources.begin(); it!=_sources.end(); ++it) { int fd = it->getSource()->getfd(); if (it->getMask() & ReadableEvent) FD_SET(fd, &inFd); if (it->getMask() & WritableEvent) FD_SET(fd, &outFd); if (it->getMask() & Exception) FD_SET(fd, &excFd); if (it->getMask() && fd > maxFd) maxFd = fd; } // Check for events int nEvents; if (timeout < 0.0) nEvents = select(maxFd+1, &inFd, &outFd, &excFd, NULL); else { struct timeval tv; tv.tv_sec = (int)floor(timeout); tv.tv_usec = ((int)floor(1000000.0 * (timeout-floor(timeout)))) % 1000000; nEvents = select(maxFd+1, &inFd, &outFd, &excFd, &tv); } if (nEvents < 0) { XmlRpcUtil::error("Error in XmlRpcDispatch::work: error in select (%d).", nEvents); _inWork = false; return; } // Process events for (it=_sources.begin(); it != _sources.end(); ) { SourceList::iterator thisIt = it++; XmlRpcSource* src = thisIt->getSource(); int fd = src->getfd(); unsigned newMask = (unsigned) -1; if (fd <= maxFd) { // If you select on multiple event types this could be ambiguous if (FD_ISSET(fd, &inFd)) newMask &= src->handleEvent(ReadableEvent); if (FD_ISSET(fd, &outFd)) newMask &= src->handleEvent(WritableEvent); if (FD_ISSET(fd, &excFd)) newMask &= src->handleEvent(Exception); if ( ! newMask) { _sources.erase(thisIt); // Stop monitoring this one if ( ! src->getKeepOpen()) src->close(); } else if (newMask != (unsigned) -1) { thisIt->getMask() = newMask; } } } // Check whether to clear all sources if (_doClear) { SourceList closeList = _sources; _sources.clear(); for (SourceList::iterator it=closeList.begin(); it!=closeList.end(); ++it) { XmlRpcSource *src = it->getSource(); src->close(); } _doClear = false; } // Check whether end time has passed if (0 <= _endTime && getTime() > _endTime) break; } _inWork = false; } // Exit from work routine. Presumably this will be called from // one of the source event handlers. void XmlRpcDispatch::exit() { _endTime = 0.0; // Return from work asap } // Clear all sources from the monitored sources list void XmlRpcDispatch::clear() { if (_inWork) _doClear = true; // Finish reporting current events before clearing else { SourceList closeList = _sources; _sources.clear(); for (SourceList::iterator it=closeList.begin(); it!=closeList.end(); ++it) it->getSource()->close(); } } double XmlRpcDispatch::getTime() { #ifdef USE_FTIME struct timeb tbuff; ftime(&tbuff); return ((double) tbuff.time + ((double)tbuff.millitm / 1000.0) + ((double) tbuff.timezone * 60)); #else struct timeval tv; struct timezone tz; gettimeofday(&tv, &tz); return (tv.tv_sec + tv.tv_usec / 1000000.0); #endif /* USE_FTIME */ }