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/*
* Copyright (c) 2017-2019 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @header dispatcher.c
* @abstract Event dispatcher for hicn-light. Uses parcEvent
* @discussion
* Wraps the functions we use in parcEvent, along with StreamBuffer and
* Message. The dispatcher is the event loop, so it manages things like signals,
* timers, and network events.
*/
#include <errno.h>
#include <fcntl.h>
#include <pthread.h>
#include <signal.h>
#include <src/config.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <arpa/inet.h>
#include <sys/socket.h>
#include <parc/algol/parc_EventQueue.h>
#include <parc/algol/parc_EventTimer.h>
#include <parc/assert/parc_Assert.h>
#include <src/core/dispatcher.h>
#ifndef INPORT_ANY
#define INPORT_ANY 0
#endif
struct dispatcher {
PARCEventScheduler *Base;
Logger *logger;
};
// ==========================================
// Public API
PARCEventScheduler *dispatcher_GetEventScheduler(Dispatcher *dispatcher) {
return dispatcher->Base;
}
Dispatcher *dispatcher_Create(Logger *logger) {
Dispatcher *dispatcher = parcMemory_AllocateAndClear(sizeof(Dispatcher));
parcAssertNotNull(dispatcher,
"parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(Dispatcher));
dispatcher->Base = parcEventScheduler_Create();
dispatcher->logger = logger_Acquire(logger);
parcAssertNotNull(dispatcher->Base,
"Got NULL from parcEventScheduler_Create()");
return dispatcher;
}
void dispatcher_Destroy(Dispatcher **dispatcherPtr) {
parcAssertNotNull(dispatcherPtr, "Parameter must be non-null double pointer");
parcAssertNotNull(*dispatcherPtr,
"Parameter must dereference to non-null pointer");
Dispatcher *dispatcher = *dispatcherPtr;
logger_Release(&dispatcher->logger);
parcEventScheduler_Destroy(&(dispatcher->Base));
parcMemory_Deallocate((void **)&dispatcher);
*dispatcherPtr = NULL;
}
void dispatcher_Stop(Dispatcher *dispatcher) {
struct timeval delay = {0, 1000};
parcEventScheduler_Stop(dispatcher->Base, &delay);
}
void dispatcher_Run(Dispatcher *dispatcher) {
parcAssertNotNull(dispatcher, "Parameter must be non-null");
parcEventScheduler_Start(dispatcher->Base, 0);
}
void dispatcher_RunDuration(Dispatcher *dispatcher, struct timeval *duration) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(duration, "Parameter duration must be non-null");
parcEventScheduler_Stop(dispatcher->Base, duration);
parcEventScheduler_Start(dispatcher->Base, 0);
}
void dispatcher_RunCount(Dispatcher *dispatcher, unsigned count) {
parcAssertNotNull(dispatcher, "Parameter must be non-null");
for (unsigned i = 0; i < count; i++) {
parcEventScheduler_Start(dispatcher->Base,
PARCEventSchedulerDispatchType_LoopOnce);
}
}
PARCEventSocket *dispatcher_CreateListener(Dispatcher *dispatcher,
PARCEventSocket_Callback *callback,
void *user_data, int backlog,
const struct sockaddr *sa,
int socklen) {
PARCEventSocket *listener = parcEventSocket_Create(
dispatcher->Base, callback, NULL, user_data, sa, socklen);
if (listener == NULL) {
perror("Problem creating listener");
}
return listener;
}
void dispatcher_DestroyListener(Dispatcher *dispatcher,
PARCEventSocket **listenerPtr) {
parcAssertNotNull(listenerPtr, "Parameter must be non-null double pointer");
parcAssertNotNull(*listenerPtr,
"Parameter must dereference to non-null pointer");
parcEventSocket_Destroy(listenerPtr);
}
PARCEventQueue *dispatcher_CreateStreamBufferFromSocket(Dispatcher *dispatcher,
SocketType fd) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
PARCEventQueue *buffer = parcEventQueue_Create(
dispatcher->Base, fd,
PARCEventQueueOption_CloseOnFree | PARCEventQueueOption_DeferCallbacks);
parcAssertNotNull(buffer,
"Got null from parcEventBufver_Create for socket %d", fd);
return buffer;
}
PARCEventTimer *dispatcher_CreateTimer(Dispatcher *dispatcher, bool isPeriodic,
PARCEvent_Callback *callback,
void *userData) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(callback, "Parameter callback must be non-null");
PARCEventType flags = 0;
if (isPeriodic) {
flags |= PARCEventType_Persist;
}
PARCEventTimer *event =
parcEventTimer_Create(dispatcher->Base, flags, callback, userData);
return event;
}
void dispatcher_StartTimer(Dispatcher *dispatcher, PARCEventTimer *timerEvent,
struct timeval *delay) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(timerEvent, "Parameter timerEvent must be non-null");
int failure = parcEventTimer_Start(timerEvent, delay);
parcAssertFalse(failure < 0, "Error starting timer event %p: (%d) %s",
(void *)timerEvent, errno, strerror(errno));
}
void dispatcher_StopTimer(Dispatcher *dispatcher, PARCEventTimer *event) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(event, "Parameter event must be non-null");
int failure = parcEventTimer_Stop(event);
parcAssertFalse(failure < 0, "Error stopping signal event %p: (%d) %s",
(void *)event, errno, strerror(errno));
}
void dispatcher_DestroyTimerEvent(Dispatcher *dispatcher,
PARCEventTimer **eventPtr) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(eventPtr,
"Parameter eventPtr must be non-null double pointer");
parcAssertNotNull(*eventPtr,
"Paramter eventPtr must dereference to non-null pointer");
parcEventTimer_Destroy(eventPtr);
eventPtr = NULL;
}
PARCEvent *dispatcher_CreateNetworkEvent(Dispatcher *dispatcher,
bool isPersistent,
PARCEvent_Callback *callback,
void *userData, int fd) {
short flags = PARCEventType_Timeout | PARCEventType_Read;
if (isPersistent) {
flags |= PARCEventType_Persist;
}
PARCEvent *event =
parcEvent_Create(dispatcher->Base, fd, flags, callback, userData);
parcAssertNotNull(event, "Got null from parcEvent_Create for socket %d", fd);
return event;
}
void dispatcher_DestroyNetworkEvent(Dispatcher *dispatcher,
PARCEvent **eventPtr) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(eventPtr,
"Parameter eventPtr must be non-null double pointer");
parcAssertNotNull(*eventPtr,
"Paramter eventPtr must dereference to non-null pointer");
parcEvent_Destroy(eventPtr);
eventPtr = NULL;
}
void dispatcher_StartNetworkEvent(Dispatcher *dispatcher, PARCEvent *event) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(event, "Parameter event must be non-null");
int failure = parcEvent_Start(event);
parcAssertFalse(failure < 0, "Error starting signal event %p: (%d) %s",
(void *)event, errno, strerror(errno));
}
void dispatcher_StopNetworkEvent(Dispatcher *dispatcher, PARCEvent *event) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(event, "Parameter event must be non-null");
int failure = parcEvent_Stop(event);
parcAssertFalse(failure < 0, "Error stopping signal event %p: (%d) %s",
(void *)event, errno, strerror(errno));
}
PARCEventSignal *dispatcher_CreateSignalEvent(
Dispatcher *dispatcher, PARCEventSignal_Callback *callback, void *userData,
int signal) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(callback, "Parameter callback must be non-null");
PARCEventSignal *event = parcEventSignal_Create(
dispatcher->Base, signal, PARCEventType_Signal | PARCEventType_Persist,
callback, userData);
parcAssertNotNull(event,
"Got null event when creating signal catcher for signal %d",
signal);
return event;
}
void dispatcher_DestroySignalEvent(Dispatcher *dispatcher,
PARCEventSignal **eventPtr) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(eventPtr,
"Parameter eventPtr must be non-null double pointer");
parcAssertNotNull(*eventPtr,
"Paramter eventPtr must dereference to non-null pointer");
parcEventSignal_Destroy(eventPtr);
eventPtr = NULL;
}
void dispatcher_StartSignalEvent(Dispatcher *dispatcher,
PARCEventSignal *event) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(event, "Parameter event must be non-null");
int failure = parcEventSignal_Start(event);
parcAssertFalse(failure < 0, "Error starting signal event %p: (%d) %s",
(void *)event, errno, strerror(errno));
}
void dispatcher_StopSignalEvent(Dispatcher *dispatcher,
PARCEventSignal *event) {
parcAssertNotNull(dispatcher, "Parameter dispatcher must be non-null");
parcAssertNotNull(event, "Parameter event must be non-null");
int failure = parcEventSignal_Stop(event);
parcAssertFalse(failure < 0, "Error stopping signal event %p: (%d) %s",
(void *)event, errno, strerror(errno));
}
/**
* Bind to a local address/port then connect to peer.
*/
static bool dispatcher_StreamBufferBindAndConnect(Dispatcher *dispatcher,
PARCEventQueue *buffer,
struct sockaddr *localSock,
socklen_t localSockLength,
struct sockaddr *remoteSock,
socklen_t remoteSockLength) {
// we need to bind, then connect. Special operation, so we make our
// own fd then pass it off to the buffer event
int fd = socket(localSock->sa_family, SOCK_STREAM, 0);
if (fd < 0) {
perror("socket");
return -1;
}
// Set non-blocking flag
int flags = fcntl(fd, F_GETFL, NULL);
if (flags < 0) {
perror("F_GETFL");
close(fd);
return -1;
}
int failure = fcntl(fd, F_SETFL, flags | O_NONBLOCK);
if (failure) {
perror("F_SETFL");
close(fd);
return -1;
}
failure = bind(fd, localSock, localSockLength);
if (failure) {
perror("bind");
close(fd);
return false;
}
parcEventQueue_SetFileDescriptor(buffer, fd);
failure = parcEventQueue_ConnectSocket(buffer, remoteSock, remoteSockLength);
if (failure && (errno != EINPROGRESS)) {
perror("connect");
close(fd);
return false;
}
return true;
}
/**
* Connect to an INET peer
* @return NULL on error, otherwise a streambuffer
*/
static PARCEventQueue *dispatcher_StreamBufferConnect_INET(
Dispatcher *dispatcher, const Address *localAddress,
const Address *remoteAddress) {
struct sockaddr_in localSock, remoteSock;
addressGetInet(localAddress, &localSock);
addressGetInet(remoteAddress, &remoteSock);
PARCEventQueue *buffer = parcEventQueue_Create(
dispatcher->Base, -1, PARCEventQueueOption_CloseOnFree);
parcAssertNotNull(buffer, "got null buffer from parcEventQueue_Create()");
bool success = dispatcher_StreamBufferBindAndConnect(
dispatcher, buffer, (struct sockaddr *)&localSock, sizeof(localSock),
(struct sockaddr *)&remoteSock, sizeof(remoteSock));
if (!success) {
parcEventQueue_Destroy(&buffer);
buffer = NULL;
}
return buffer;
}
/**
* Connect to an INET peer
* @return NULL on error, otherwise a streambuffer
*/
static PARCEventQueue *
// static StreamBuffer *
dispatcher_StreamBufferConnect_INET6(Dispatcher *dispatcher,
const Address *localAddress,
const Address *remoteAddress) {
struct sockaddr_in6 localSock, remoteSock;
addressGetInet6(localAddress, &localSock);
addressGetInet6(remoteAddress, &remoteSock);
PARCEventQueue *buffer = parcEventQueue_Create(
dispatcher->Base, -1, PARCEventQueueOption_CloseOnFree);
parcAssertNotNull(buffer, "got null buffer from parcEventQueue_Create()");
bool success = dispatcher_StreamBufferBindAndConnect(
dispatcher, buffer, (struct sockaddr *)&localSock, sizeof(localSock),
(struct sockaddr *)&remoteSock, sizeof(remoteSock));
if (!success) {
parcEventQueue_Destroy(&buffer);
buffer = NULL;
}
return buffer;
}
PARCEventQueue *dispatcher_StreamBufferConnect(Dispatcher *dispatcher,
const AddressPair *pair) {
const Address *localAddress = addressPair_GetLocal(pair);
const Address *remoteAddress = addressPair_GetRemote(pair);
// they must be of the same address family
if (addressGetType(localAddress) != addressGetType(remoteAddress)) {
char message[2048];
char *localAddressString = addressToString(localAddress);
char *remoteAddressString = addressToString(remoteAddress);
snprintf(message, 2048,
"Remote address not same type as local address, expected %d got "
"%d\nlocal %s remote %s",
addressGetType(localAddress), addressGetType(remoteAddress),
localAddressString, remoteAddressString);
parcMemory_Deallocate((void **)&localAddressString);
parcMemory_Deallocate((void **)&remoteAddressString);
parcAssertTrue(
addressGetType(localAddress) == addressGetType(remoteAddress), "%s",
message);
}
address_type type = addressGetType(localAddress);
PARCEventQueue *result = NULL;
switch (type) {
case ADDR_INET:
return dispatcher_StreamBufferConnect_INET(dispatcher, localAddress,
remoteAddress);
break;
case ADDR_INET6:
return dispatcher_StreamBufferConnect_INET6(dispatcher, localAddress,
remoteAddress);
break;
default:
parcTrapIllegalValue(type, "local address unsupported address type: %d",
type);
}
return result;
}
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