void KprZeroconfEmbeddedCallback(FskTimeCallBack timer UNUSED, const FskTime time UNUSED, void *param) { struct timeval timeout = { 0, 0 }; sigset_t pSignalsReceived; mDNSBool pDataDispatched; mStatus status = mDNSPosixRunEventLoopOnce(&mDNSStorage, &timeout, &pSignalsReceived, &pDataDispatched); if (gEmbeddedServiceTimer) FskTimeCallbackScheduleFuture(gEmbeddedServiceTimer, 1, 0, KprZeroconfEmbeddedCallback, NULL); }
static FskErr httpServerListenerStart(FskHTTPServerListener listener, FskSocket skt) { FskErr err = kFskErrNone; FskHTTPServerRequest request; if (listener->http->stopped) { FskInstrumentedItemSendMessage(listener->http, kFskHTTPInstrMsgConnectionRefusedStopped, listener); listener->http->stats.connectionsRefused++; FskNetSocketClose(skt); goto bail; } err = FskMemPtrNewClear(sizeof(FskHTTPServerRequestRecord), (FskMemPtr*)&request); BAIL_IF_ERR(err); sFskHTTPServerRequestUpUse(request); request->http = listener->http; request->skt = skt; FskNetSocketGetRemoteAddress(skt, (UInt32 *)&request->requesterAddress, &request->requesterPort); FskNetSocketMakeNonblocking(request->skt); err = FskHeaderStructNew(&request->requestHeaders); BAIL_IF_ERR(err); err = FskHeaderStructNew(&request->responseHeaders); BAIL_IF_ERR(err); request->in.bufferSize = request->http->defaultBufferSize; request->out.bufferSize = request->http->defaultBufferSize; err = FskMemPtrNew(request->in.bufferSize, (FskMemPtr*)&request->in.buf); BAIL_IF_ERR(err); err = FskMemPtrNew(request->out.bufferSize, (FskMemPtr*)&request->out.buf); BAIL_IF_ERR(err); FskListAppend((FskList*)&request->http->activeRequests, request); FskTimeCallbackNew(&request->cycleCallback); FskTimeCallbackNew(&request->keepAliveKillCallback); listener->http->stats.connectionsMade++; request->state = kHTTPNewSession; FskInstrumentedItemNew(request, NULL, &gFskHTTPServerRequestTypeInstrumentation); FskInstrumentedItemSetOwner(request, request->http); FskTimeCallbackScheduleNextRun(request->cycleCallback, httpServerTimeCycle, request); doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionConnectionInitialized, request->refCon); FskTimeCallbackNew(&request->timer); FskTimeCallbackScheduleFuture(request->timer, 1, 0, KprHTTPServerTimerCallback, request); bail: if (err) FskHTTPServerRequestDispose(request); return err; }
FskErr androidAudioOutStart(FskAudioOut audioOut, FskSampleTime atSample) { FskErr err = kFskErrNone; androidAudioExt *ext = (androidAudioExt*)audioOut->ext; SLresult res; FskAudioNativePrintfVerbose("audioOutStart %x - atSample %lld", audioOut, atSample); if (audioOut->playing) goto bail; if (!ext->playItf) { FskAudioNativePrintfMinimal("huh? No playItf"); err = kFskErrOperationFailed; goto bail; } audioOut->zeroTime = atSample; ext->stoppedAtSamplePosition = 0; FskTimeCallbackNew(&ext->flushTimer); FskTimeCallbackScheduleFuture(ext->flushTimer, 0, kFlushAndRefillTime, flushNowCallback, audioOut); FskAudioNativePrintfVerbose("androidAudioOutStart %x - zeroTime %d", audioOut, audioOut->zeroTime); // in case volume has changed when audio was off // androidAudioOutSetVolume(audioOut, audioOut->leftVolume, audioOut->rightVolume); refillQueue(audioOut); fillBuffers(audioOut); audioOut->playing = true; // refillQueue(audioOut); FskTimeGetNow(&ext->lastTime); FskMutexAcquire(gActiveAudioMutex); gActiveAudioOut = audioOut; FskMutexRelease(gActiveAudioMutex); res = (*ext->playItf)->SetPlayState(ext->playItf, SL_PLAYSTATE_PLAYING); CheckErr(" audioOutStart - set playstate playing", res); { SLmillisecond msec; res = (*ext->playItf)->GetPosition(ext->playItf, &msec); CheckErr(" androidAudioOutStart", res); ext->startedAtSamplePosition = MSToSamples(audioOut, msec); } bail: return err; }
static void gpioPoller(FskTimeCallBack callback, const FskTime time, void *param) { FskGPIO walker; FskThread thread = FskThreadGetCurrent(); for (walker = gGPIOPollers; NULL != walker; walker = walker->next) { int value = FskGPIOPlatformRead(walker); if (value == walker->pollerValue) continue; walker->pollerValue = value; if (thread == walker->thread) KprPinsPollerRun(walker->poller); else FskThreadPostCallback(walker->thread, gpioPollerThreadCallback, walker, NULL, NULL, NULL); } FskTimeCallbackScheduleFuture(gGPIOPoller, 0, 33, gpioPoller, NULL); }
FskErr KprLabelInsertStringWithLength(KprLabel self, char* text, UInt32 size) { FskErr err = kFskErrNone; UInt32 oldSize = FskStrLen(self->text); SInt32 fromSize = fxUnicodeToUTF8Offset(self->text, self->from); SInt32 toSize = fxUnicodeToUTF8Offset(self->text, self->to); UInt32 newSize = oldSize - (toSize - fromSize) + size; char* buffer; bailIfError(FskMemPtrNew(newSize + 1, &buffer)); if (fromSize > 0) FskMemMove(buffer, self->text, fromSize); if (size > 0) FskMemMove(buffer + fromSize, text, size); if (oldSize - toSize > 0) FskMemMove(buffer + fromSize + size, self->text + toSize, oldSize - toSize); buffer[newSize] = 0; FskMemPtrDispose(self->text); if (self->flags & kprTextHidden) { if ((self->from == self->length) && (self->to == self->length) && (fxUTF8ToUnicodeOffset(text, size) == 1)) { self->flags |= kprTextShowLast; if (!self->showLastCallback) FskTimeCallbackNew(&self->showLastCallback); FskTimeCallbackScheduleFuture(self->showLastCallback, 1, 0, KprLabelShowLastCallback, self); } else { if (self->showLastCallback) FskTimeCallbackRemove(self->showLastCallback); self->flags &= ~kprTextShowLast; } } self->text = buffer; self->length = fxUnicodeLength(buffer); self->from = self->to = fxUTF8ToUnicodeOffset(buffer, fromSize + size); bail: if (self->shell) { KprLabelMeasureSelection(self); KprContentInvalidate((KprContent)self); KprContentReflow((KprContent)self, kprSizeChanged); } return err; }
FskErr KprZeroconfPlatformServiceNew(KprZeroconfPlatformService* it, KprZeroconfPlatformService owner, DNSServiceRef serviceRef, const char* name, UInt32 port) { FskErr err = kFskErrNone; KprZeroconfPlatformService self = NULL; SInt32 fd = DNSServiceRefSockFD(serviceRef); bailIfError(FskMemPtrNewClear(sizeof(KprZeroconfPlatformServiceRecord), &self)); FskInstrumentedItemNew(self, NULL, &KprZeroconfPlatformServiceInstrumentation); self->owner = owner; self->serviceRef = serviceRef; if (name) { self->name = FskStrDoCopy(name); bailIfNULL(self->name); } self->port = port; #if KPR_ZEROCONF_EMBEDDED if (!gEmbeddedServiceCount) { FskTimeCallbackNew(&gEmbeddedServiceTimer); FskTimeCallbackScheduleFuture(gEmbeddedServiceTimer, 0, 0, KprZeroconfEmbeddedCallback, NULL); } gEmbeddedServiceCount++; #elif TARGET_OS_MAC CFSocketContext context; FskMemSet(&context, 0, sizeof(context)); context.info = (void*)serviceRef; self->socket = CFSocketCreateWithNative(kCFAllocatorDefault, fd, kCFSocketReadCallBack, KprZeroconfPlatformCallBack, &context); self->source = CFSocketCreateRunLoopSource(NULL, self->socket, 0); CFRunLoopAddSource(CFRunLoopGetCurrent(), self->source, kCFRunLoopCommonModes); #else self->source = FskThreadCreateDataSource(fd); FskSocketActivate(self->source, true); FskThreadAddDataHandler(&self->handler, self->source, KprZeroconfPlatformCallBack, true, false, serviceRef); #endif *it = self; return err; bail: if (err) { KprZeroconfPlatformServiceDispose(self); } return err; }
void flushNowCallback(FskTimeCallBack callback, const FskTime time, void *param) { FskAudioOut audioOut = (FskAudioOut)param; androidAudioExt *ext = (androidAudioExt*)audioOut->ext; Boolean isValid = false; FskAudioNativePrintfDebug("flushNowCallback"); androidAudioOutIsValid(audioOut, &isValid); if (!isValid || audioOut->thread == NULL) { FskAudioNativePrintfVerbose("flushNowCallback - isValid? (%s) - audioOut->thread (%x) - bail", isValid ? "yes" : "no", audioOut->thread); return; } // removeFromQueue(audioOut, kUsed); if (FskThreadGetCurrent() == audioOut->thread) flushAndRefill(audioOut, NULL, NULL, NULL); else FskThreadPostCallback(audioOut->thread, flushAndRefill, audioOut, NULL, NULL, NULL); if (audioOut->playing) FskTimeCallbackScheduleFuture(ext->flushTimer, 0, kFlushAndRefillTime, flushNowCallback, audioOut); }
static void httpServerEngineCycle(void *param) { FskErr err = kFskErrNone, retVal = kFskErrNeedMoreTime; FskHTTPServerRequest request = (FskHTTPServerRequest)param; int amt, ret, chunkSize = 0; UInt32 chunkSizeL; char *s, *p; Boolean readSomeMore, needsDispose = false; FskThreadRemoveDataHandler(&request->dataHandler); switch (request->state) { case kHTTPNewSession: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); FskTimeGetNow(&request->stats.requestStarted); request->state = kHTTPReadRequestHeaders; case kHTTPReadRequestHeaders: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); shoveBuffer(request->in); amt = request->in.bufferSize - request->in.max; if (amt) { err = FskNetSocketRecvTCP(request->skt, &request->in.buf[request->in.max], amt, &ret); switch (err) { case kFskErrNone: #if SUPPORT_INSTRUMENTATION if (FskInstrumentedItemHasListeners(request)) { FskHTTPInstrMsgDataRecord msg; msg.buffer = &request->in.buf[request->in.max]; msg.amt = ret; FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestRecvData, &msg); } #endif request->http->stats.requestsStarted += 1; request->in.max += ret; request->state = kHTTPProcessRequestHeaders; request->stats.bytesReceived += ret; request->http->stats.bytesReceived += ret; break; case kFskErrNoData: retVal = kFskErrNoData; break; case kFskErrConnectionClosed: if (request->stats.bytesReceived) { request->state = kHTTPSocketError; } else { request->state = kHTTPDone; } break; default: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgErrString, "kHTTPReadRequestHeaders: RecvTCP - error"); request->state = kHTTPSocketError; break; } } else request->state = kHTTPProcessRequestHeaders; if (request->state != kHTTPProcessRequestHeaders) break; case kHTTPProcessRequestHeaders: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); amt = request->in.max - request->in.pos; if (amt) { ret = FskHeadersParseChunk(&request->in.buf[request->in.pos], amt, kFskHeaderTypeRequest, request->requestHeaders); if (ret < 0) { err = kFskErrBadData; request->state = kHTTPSocketError; break; } request->in.pos += ret; if (request->requestHeaders->headersParsed) { httpProcessRequestHeaders(request); } else if (ret != amt) { // odd case - we didn't consume all the data, but // the header parsing isn't complete. request->state = kHTTPServerError; } } else request->state = kHTTPReadRequestHeaders; if (request->state != kHTTPReadRequestBody) break; case kHTTPReadRequestBody: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); readSomeMore = false; amt = request->in.max - request->in.pos; if (request->requestBodyContentLength > 0) { if (amt) { request->state = kHTTPProcessRequestBody; } else { request->in.max = 0; request->in.pos = 0; readSomeMore = true; } } else if (request->requestBodyChunked) { // chunked if (amt == 0) { readSomeMore = true; } else { p = &request->in.buf[request->in.pos]; while ((amt > 1) && lineEnd(p)) { // consume line-ends amt -= 2; request->in.pos += 2; p += 2; } while ((amt > 1) && !lineEnd(p)) { // scan for chunk size amt--; p++; } if ((amt > 1) && lineEnd(p)) { // convert the chunksize s = &request->in.buf[request->in.pos]; chunkSize = FskStrHexToNum(s, p-s); p += 2; //lineend request->requestBodyContentLength = chunkSize; request->in.pos += (p-s); request->state = kHTTPReadRequestBody; if (0 == chunkSize) { // we've read the end indicator (0) if ((amt > 1) && lineEnd(p)) request->in.pos += 2; // consume last cr/lf } request->requestBodyChunked = false; } } else { readSomeMore = true; } } } else { // we're done reading chunks // we're done reading the request request->state = kHTTPPrepareResponse; doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestRequestFinished, request->refCon); } if (readSomeMore) { shoveBuffer(request->in); err = FskNetSocketRecvTCP(request->skt, &request->in.buf[request->in.max], request->in.bufferSize - request->in.max, &ret); switch (err) { case kFskErrNone: #if SUPPORT_INSTRUMENTATION if (FskInstrumentedItemHasListeners(request)) { FskHTTPInstrMsgDataRecord msg; msg.buffer = &request->in.buf[request->in.max]; msg.amt = ret; FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestRecvData, &msg); } #endif request->in.max += ret; if (request->requestBodyChunked) // chunked? request->state = kHTTPReadRequestBody; else request->state = kHTTPProcessRequestBody; request->stats.bytesReceived += ret; request->http->stats.bytesReceived += ret; break; case kFskErrNoData: retVal = kFskErrNoData; break; default: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgErrString, "kHTTPReadRequestBody: RecvTCP - error"); request->http->stats.requestsFailed += 1; request->state = kHTTPSocketError; break; } } if (request->state != kHTTPProcessRequestBody) break; case kHTTPProcessRequestBody: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); amt = request->in.max - request->in.pos; if (amt > request->requestBodyContentLength) { if (false == request->requestBodyChunked) request->requestBodyContentLength = amt; else amt = request->requestBodyContentLength; } chunkSizeL = (UInt32)chunkSize; err = doDataCallback(request->http->callbacks->requestReceiveRequest, request, &request->in.buf[request->in.pos], amt, &chunkSizeL, request->refCon); chunkSize = (int)chunkSizeL; if (kFskErrNone == err) { if (chunkSize) { request->in.pos += chunkSize; request->requestBodyContentLength -= chunkSize; request->stats.requestBodyReceived += chunkSize; if (false == request->requestBodyChunked) { if (0 == request->requestBodyContentLength) request->state = kHTTPPrepareResponse; else request->state = kHTTPReadRequestBody; } else request->state = kHTTPReadRequestBody; } else { // data callback wants to suspend the session and not // consume the chunk, it can do so if (request->state != kHTTPSessionSuspend) request->state = kHTTPServerError; } } else { // the data callback returned an error. if (request->state != kHTTPSessionSuspend) request->state = kHTTPServerError; } if (request->state != kHTTPPrepareResponse) break; doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestRequestFinished, request->refCon); if (request->state != kHTTPPrepareResponse) break; case kHTTPPrepareResponse: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPProcessResponse; err = doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestGenerateResponseHeaders, request->refCon); if (err == kFskErrNeedMoreTime) request->state = kHTTPSessionSuspend; else if (err) request->responseHeaders->responseCode = 500; if (request->state != kHTTPProcessResponse) break; case kHTTPProcessResponse: request->state = kHTTPGetDataChunk; httpPrepareResponseHeaders(request); if (request->state != kHTTPGetDataChunk) break; case kHTTPGetDataChunk: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); if (0 == FskStrCompare(kFskStrHEAD, FskHeaderMethod(request->requestHeaders))) { request->state = kHTTPSendDataChunk; request->nextState = kHTTPSetupNextRequest; break; } p = &request->out.buf[request->out.max]; if (request->transferEncoding == kFskTransferEncodingChunked) { request->out.max += 6; } chunkSize = 0; amt = (request->out.bufferSize - request->out.max) - 2; // fetch response data from callback chunkSizeL = (UInt32)chunkSize; err = doDataCallback(request->http->callbacks->requestGenerateResponseBody, request, &request->out.buf[request->out.max], amt, &chunkSizeL, request->refCon); chunkSize = (int)chunkSizeL; FskInstrumentedTypePrintfDebug(&gFskHTTPServerTypeInstrumentation, "doDataCallback returns err: %d, chunkSize: %d\n", err, chunkSize); if ((kFskErrNone != err) && (kFskErrEndOfFile != err)) { FskInstrumentedTypePrintfDebug(&gFskHTTPServerTypeInstrumentation, "about to doCallCondition -requestResponseFinished - FAIL\n"); doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestResponseFinished, request->refCon); request->http->stats.requestsFailed += 1; request->state = kHTTPServerError; break; } request->out.max += chunkSize; if ((0 == chunkSize) && (request->state == kHTTPSessionSuspend)) { if (kFskTransferEncodingChunked == request->transferEncoding) request->out.max -= 6; break; } request->state = kHTTPSendDataChunk; if ((chunkSize == 0) || (kFskErrEndOfFile == err)) { request->nextState = kHTTPSetupNextRequest; } else request->nextState = kHTTPGetDataChunk; if (request->transferEncoding == kFskTransferEncodingChunked) { FskStrNumToHex(chunkSize, p, 4); p += 4; *p++ = kFskCR; *p++ = kFskLF; if (chunkSize) p += chunkSize; *p++ = kFskCR; *p++ = kFskLF; request->out.max += 2; } request->stats.bodyBytesSent += chunkSize; if (request->state != kHTTPSendDataChunk) break; case kHTTPSendDataChunk: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); FskInstrumentedTypePrintfDebug(&gFskHTTPServerTypeInstrumentation, " - request->out.max %d - request->out.pos %d\n", request->out.max, request->out.pos); amt = request->out.max - request->out.pos; if (0 == amt) { FskInstrumentedTypePrintfDebug(&gFskHTTPServerTypeInstrumentation, "amt is zero now - transition to next state.\n"); request->state = request->nextState; break; } err = FskNetSocketSendTCP(request->skt, &request->out.buf[request->out.pos], amt, &ret); switch (err) { case kFskErrNone: #if SUPPORT_INSTRUMENTATION if (FskInstrumentedItemHasListeners(request)) { FskHTTPInstrMsgDataRecord msg; msg.buffer = &request->out.buf[request->out.pos]; msg.amt = ret; FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestSendData, &msg); } #endif request->out.pos += ret; request->stats.bytesSent += ret; request->http->stats.bytesSent += ret; if (request->transferEncoding == kFskTransferEncodingChunked) { request->stats.bytesSent -= 8; } if (request->out.pos == request->out.max) { request->out.pos = 0; request->out.max = 0; request->state = request->nextState; } break; case kFskErrNoData: retVal = kFskErrSocketFull; break; default: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgErrString, "kHTTPSendDataChunk: SendTCP - error"); request->state = kHTTPSocketError; request->http->stats.requestsFailed += 1; break; } if (request->state != kHTTPSetupNextRequest) break; case kHTTPSetupNextRequest: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); FskTimeGetNow(&request->stats.requestStopped); request->http->stats.requestsFinished += 1; doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestResponseFinished, request->refCon); request->state = kHTTPDone; if (request->keepAlive && !request->http->stopped) { if ((request->in.max - request->in.pos) > 0) { FskHeaderStructDispose(request->requestHeaders); FskHeaderStructDispose(request->responseHeaders); FskHeaderStructNew(&request->requestHeaders); FskHeaderStructNew(&request->responseHeaders); request->keepAlive = false; request->out.max = 0; request->out.pos = 0; FskMemSet(&request->stats, 0, sizeof(request->stats)); FskTimeGetNow(&request->stats.requestStarted); request->state = kHTTPProcessRequestHeaders; } } if (request->state != kHTTPDone) break; case kHTTPDone: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); if (request->keepAlive && !request->http->stopped) { FskHeaderStructDispose(request->requestHeaders); FskHeaderStructDispose(request->responseHeaders); FskHeaderStructNew(&request->requestHeaders); FskHeaderStructNew(&request->responseHeaders); request->keepAlive = false; request->in.max = 0; request->in.pos = 0; request->out.max = 0; request->out.pos = 0; FskMemSet(&request->stats, 0, sizeof(request->stats)); retVal = kFskErrNoData; // will cause data handler to be installed request->state = kHTTPNewSession; } else { request->state = kHTTPClose; retVal = kFskErrNeedMoreTime; } break; case kHTTPFulfillExpectation: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPSendDataChunk; request->nextState = kHTTPReadRequestBody; request->out.max += snprintf(request->out.buf, request->out.bufferSize, "%s %d %s\r\n\r\n", httpProtocolVersionString(request), 100, FskFindResponse(100)); break; case kHTTPDenyExpectation: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPSendDataChunk; request->nextState = kHTTPDone; request->out.max += snprintf(request->out.buf, request->out.bufferSize, "%s %d %s\r\n\r\n", httpProtocolVersionString(request), 417, FskFindResponse(417)); break; case kHTTPServerError: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPSocketError; // fall through case kHTTPSocketError: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->http->stats.connectionsAborted++; doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionRequestErrorAbort, request->refCon); request->state = kHTTPClose; // fall through case kHTTPClose: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPRequestComplete; needsDispose = true; break; case kHTTPRequestComplete: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); retVal = kFskErrNone; // request is finished, don't call back break; case kHTTPSessionSuspend: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); retVal = kFskErrNone; // do nothing in suspend state break; default: FskInstrumentedItemSendMessage(request, kFskHTTPInstrMsgRequestState, request); request->state = kHTTPClose; // unknown state break; ; } if ((request->state == kHTTPServerError) || (request->state == kHTTPSocketError) || (request->state == kHTTPDone) || (request->state == kHTTPClose)) retVal = kFskErrNeedMoreTime; if (retVal == kFskErrNoData) { FskThreadAddDataHandler(&request->dataHandler, (FskThreadDataSource)request->skt, httpServerDataHandler, true, false, request); } else if (retVal == kFskErrSocketFull) { FskThreadAddDataHandler(&request->dataHandler, (FskThreadDataSource)request->skt, httpServerDataHandler, false, true, request); } else if (retVal == kFskErrNeedMoreTime) { FskTimeCallbackScheduleNextRun(request->cycleCallback, httpServerTimeCycle, request); } else if (retVal == kFskErrNone) { // nothing doin } else { FskInstrumentedTypePrintfDebug(&gFskHTTPServerTypeInstrumentation, "httpCycle - weird retVal %d\n", retVal); } if (needsDispose) { FskListRemove((FskList*)&request->http->activeRequests, request); FskTimeCallbackDispose(request->keepAliveKillCallback); request->keepAliveKillCallback = NULL; if (kFskErrNone != doCallCondition(request->http->callbacks->requestCondition, request, kFskHTTPConditionConnectionTerminating, request->refCon)) FskHTTPServerRequestDispose(request); } else { if ((retVal == kFskErrNeedMoreTime) || ((retVal != kFskErrNone) && request->keepAlive)) { FskTimeCallbackScheduleFuture(request->keepAliveKillCallback, FskHTTPServerRequestGetKeepAliveTimeout(request), 0, httpKillKeepAlive, request); } } }
static void KprHTTPServerTimerCallback(FskTimeCallBack callback, const FskTime time, void *it) { FskHTTPServerRequest self = it; FskTimeCallbackScheduleFuture(self->timer, 0, 200, KprHTTPServerTimerCallback, self); FskHTTPServerRequestCycle(self); }