/* * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you 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. * */ /** * Use socketpair to test the poller */ #include "qpid/sys/IOHandle.h" #include "qpid/sys/Poller.h" #include "qpid/sys/posix/PrivatePosix.h" #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace qpid::sys; int writeALot(int fd, const string& s) { int bytesWritten = 0; do { errno = 0; int lastWrite = ::write(fd, s.c_str(), s.size()); if ( lastWrite >= 0) { bytesWritten += lastWrite; } } while (errno != EAGAIN); return bytesWritten; } int readALot(int fd) { int bytesRead = 0; char buf[1024]; do { errno = 0; int lastRead = ::read(fd, buf, sizeof(buf)); if ( lastRead >= 0) { bytesRead += lastRead; } } while (errno != EAGAIN); return bytesRead; } void makesocketpair(int (&sv)[2]) { int rc = ::socketpair(AF_UNIX, SOCK_STREAM, 0, sv); assert(rc >= 0); // Set non-blocking rc = ::fcntl(sv[0], F_SETFL, O_NONBLOCK); assert(rc >= 0); rc = ::fcntl(sv[1], F_SETFL, O_NONBLOCK); assert(rc >= 0); } int main(int /*argc*/, char** /*argv*/) { try { int sv[2]; makesocketpair(sv); // Make up a large string string testString = "This is only a test ... 1,2,3,4,5,6,7,8,9,10;"; for (int i = 0; i < 6; i++) testString += testString; // Read as much as we can from socket 0 int bytesRead = readALot(sv[0]); assert(bytesRead == 0); // Write as much as we can to socket 0 int bytesWritten = writeALot(sv[0], testString); // Read as much as we can from socket 1 bytesRead = readALot(sv[1]); assert(bytesRead == bytesWritten); auto_ptr poller(new Poller); PosixIOHandle f0(sv[0]); PosixIOHandle f1(sv[1]); PollerHandle h0(f0); PollerHandle h1(f1); poller->registerHandle(h0); poller->monitorHandle(h0, Poller::INOUT); // h0 should be writable Poller::Event event = poller->wait(); assert(event.handle == &h0); assert(event.type == Poller::WRITABLE); // Write as much as we can to socket 0 bytesWritten = writeALot(sv[0], testString); // Wait for 500ms - h0 no longer writable event = poller->wait(500000000); assert(event.handle == 0); // Test we can read it all now poller->registerHandle(h1); poller->monitorHandle(h1, Poller::INOUT); event = poller->wait(); assert(event.handle == &h1); assert(event.type == Poller::READ_WRITABLE); bytesRead = readALot(sv[1]); assert(bytesRead == bytesWritten); // Test poller interrupt assert(poller->interrupt(h0) == true); event = poller->wait(); assert(event.handle == &h0); assert(event.type == Poller::INTERRUPTED); // Test multiple interrupts assert(poller->interrupt(h0) == true); assert(poller->interrupt(h1) == true); // Make sure we can interrupt them again assert(poller->interrupt(h0) == true); assert(poller->interrupt(h1) == true); // Make sure that they both come out event = poller->wait(); assert(event.type == Poller::INTERRUPTED); assert(event.handle == &h0 || event.handle == &h1); if (event.handle == &h0) { event = poller->wait(); assert(event.type == Poller::INTERRUPTED); assert(event.handle == &h1); } else { event = poller->wait(); assert(event.type == Poller::INTERRUPTED); assert(event.handle == &h0); } poller->unmonitorHandle(h1, Poller::INOUT); event = poller->wait(); assert(event.handle == &h0); assert(event.type == Poller::WRITABLE); // We didn't write anything so it should still be writable event = poller->wait(); assert(event.handle == &h0); assert(event.type == Poller::WRITABLE); poller->unmonitorHandle(h0, Poller::INOUT); event = poller->wait(500000000); assert(event.handle == 0); poller->unregisterHandle(h1); assert(poller->interrupt(h1) == false); // close the other end to force a disconnect ::close(sv[1]); // Now make sure that we are readable followed by disconnected // and after that we never return again poller->monitorHandle(h0, Poller::INOUT); event = poller->wait(500000000); assert(event.handle == &h0); assert(event.type == Poller::READABLE); event = poller->wait(500000000); assert(event.handle == &h0); assert(event.type == Poller::DISCONNECTED); event = poller->wait(1500000000); assert(event.handle == 0); // Now we're disconnected monitoring should have no effect at all poller->unmonitorHandle(h0, Poller::INOUT); event = poller->wait(1500000000); assert(event.handle == 0); poller->unregisterHandle(h0); assert(poller->interrupt(h0) == false); // Test shutdown poller->shutdown(); event = poller->wait(); assert(event.handle == 0); assert(event.type == Poller::SHUTDOWN); event = poller->wait(); assert(event.handle == 0); assert(event.type == Poller::SHUTDOWN); ::close(sv[0]); // Test for correct interaction of shutdown and interrupts - need to have new poller // etc. for this makesocketpair(sv); auto_ptr poller1(new Poller); PosixIOHandle f2(sv[0]); PosixIOHandle f3(sv[1]); PollerHandle h2(f2); PollerHandle h3(f3); poller1->registerHandle(h2); poller1->monitorHandle(h2, Poller::INOUT); event = poller1->wait(); assert(event.handle == &h2); assert(event.type == Poller::WRITABLE); // Shutdown poller1->shutdown(); event = poller1->wait(); assert(event.handle == 0); assert(event.type == Poller::SHUTDOWN); assert(poller1->interrupt(h2) == true); event = poller1->wait(); assert(event.handle == &h2); assert(event.type == Poller::INTERRUPTED); poller1->unmonitorHandle(h2, Poller::INOUT); event = poller1->wait(); assert(event.handle == 0); assert(event.type == Poller::SHUTDOWN); poller1->unregisterHandle(h2); return 0; } catch (exception& e) { cout << "Caught exception " << e.what() << "\n"; } }