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Issue 23498015:
[NaCl SDK] Support non blocking TCP/UDP (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src| Index: native_client_sdk/src/tests/nacl_io_test/event_test.cc |
| diff --git a/native_client_sdk/src/tests/nacl_io_test/event_test.cc b/native_client_sdk/src/tests/nacl_io_test/event_test.cc |
| index 11326bf0832b44031084bdca2fdf5b7d582513eb..1c7de92455a09ec64b8eca5f97ea49457c93711f 100644 |
| --- a/native_client_sdk/src/tests/nacl_io_test/event_test.cc |
| +++ b/native_client_sdk/src/tests/nacl_io_test/event_test.cc |
| @@ -5,6 +5,7 @@ |
| #include <errno.h> |
| #include <fcntl.h> |
| +#include <pthread.h> |
| #include <stdio.h> |
| #include <sys/ioctl.h> |
| #include <sys/stat.h> |
| @@ -14,468 +15,290 @@ |
| #include "nacl_io/event_emitter.h" |
| #include "nacl_io/event_listener.h" |
| +#include "nacl_io/event_listener.h" |
| +#include "nacl_io/event_listener.h" |
| #include "nacl_io/kernel_intercept.h" |
| #include "nacl_io/kernel_proxy.h" |
| #include "nacl_io/kernel_wrap.h" |
| +#include "nacl_io/mount_node_pipe.h" |
| +#include "nacl_io/mount_stream.h" |
| + |
| +#include "ppapi_simple/ps.h" |
| using namespace nacl_io; |
| using namespace sdk_util; |
| -class EventEmitterTester : public MountNode { |
| + |
| +class EventListenerTester : public EventListener { |
| public: |
| - EventEmitterTester() : MountNode(NULL), event_status_(0), event_cnt_(0) {} |
| + EventListenerTester() : EventListener(), events_(0) {}; |
| - void SetEventStatus(uint32_t bits) { event_status_ = bits; } |
| - uint32_t GetEventStatus() { return event_status_; } |
| + virtual void ReceiveEvents(EventEmitter* emitter, uint32_t events) { |
| + events_ |= events; |
| + } |
| - Error Ioctl(int request, char* arg) { |
| - event_status_ = static_cast<uint32_t>(request); |
| - return 0; |
| + uint32_t Events() { |
| + return events_; |
| } |
| - int GetType() { return S_IFSOCK; } |
| - int NumEvents() { return event_cnt_; } |
| + void Clear() { |
| + events_ = 0; |
| + } |
| - public: |
| - // Make this function public for testing |
| - void RaiseEvent(uint32_t events) { |
| - EventEmitter::RaiseEvent(events); |
| + uint32_t events_; |
| +}; |
| + |
| + |
| +TEST(EmitterBasic, SingleThread) { |
| + EventListenerTester listener_a; |
| + EventListenerTester listener_b; |
| + EventEmitter emitter; |
| + |
| + emitter.RegisterListener(&listener_a, POLLIN | POLLOUT | POLLERR); |
| + emitter.RegisterListener(&listener_b, POLLIN | POLLOUT | POLLERR); |
| + |
| + EXPECT_EQ(0, emitter.GetEventStatus()); |
| + EXPECT_EQ(0, listener_a.Events()); |
| + |
| + { |
| + AUTO_LOCK(emitter.GetLock()) |
| + emitter.RaiseEvents_Locked(POLLIN); |
| + } |
| + EXPECT_EQ(POLLIN, listener_a.Events()); |
| + |
| + listener_a.Clear(); |
| + |
| + { |
| + AUTO_LOCK(emitter.GetLock()) |
| + emitter.RaiseEvents_Locked(POLLOUT); |
| } |
| + EXPECT_EQ(POLLOUT, listener_a.Events()); |
| + EXPECT_EQ(POLLIN | POLLOUT, listener_b.Events()); |
| +} |
| - // Called after registering locally, but while lock is still held. |
| - void ChainRegisterEventInfo(const ScopedEventInfo& event) { |
| - event_cnt_++; |
| +class EmitterTest : public ::testing::Test { |
| + public: |
| + void SetUp() { |
| + pthread_cond_init(&multi_cond_, NULL); |
| + waiting_ = 0; |
| + signaled_ = 0; |
| } |
| - // Called before unregistering locally, but while lock is still held. |
| - void ChainUnregisterEventInfo(const ScopedEventInfo& event) { |
| - event_cnt_--; |
| + void TearDown() { |
| + pthread_cond_destroy(&multi_cond_); |
| } |
| - protected: |
| - uint32_t event_status_; |
| - uint32_t event_cnt_; |
| -}; |
| + void CreateThread() { |
| + pthread_t id; |
| + EXPECT_EQ(0, pthread_create(&id, NULL, ThreadThunk, this)); |
| + } |
| + static void* ThreadThunk(void *ptr) { |
| + return static_cast<EmitterTest*>(ptr)->ThreadEntry(); |
| + } |
| -const int MAX_EVENTS = 8; |
| - |
| -// IDs for Emitters |
| -const int ID_EMITTER = 5; |
| -const int ID_LISTENER = 6; |
| -const int ID_EMITTER_DUP = 7; |
| - |
| -// Kernel Event values |
| -const uint32_t KE_EXPECTED = 4; |
| -const uint32_t KE_FILTERED = 2; |
| -const uint32_t KE_NONE = 0; |
| - |
| -// User Data values |
| -const uint64_t USER_DATA_A = 1; |
| -const uint64_t USER_DATA_B = 5; |
| - |
| -// Timeout durations |
| -const int TIMEOUT_IMMEDIATE = 0; |
| -const int TIMEOUT_SHORT= 100; |
| -const int TIMEOUT_LONG = 500; |
| -const int TIMEOUT_NEVER = -1; |
| -const int TIMEOUT_VERY_LONG = 1000; |
| - |
| -// We subtract TIMEOUT_SLOP from the expected minimum timed due to rounding |
| -// and clock drift converting between absolute and relative time. This should |
| -// only be 1 for Less Than, and 1 for rounding, but we use 10 since we don't |
| -// care about real precision, aren't testing of the underlying |
| -// implementations and don't want flakiness. |
| -const int TIMEOUT_SLOP = 10; |
| - |
| -TEST(EventTest, EmitterBasic) { |
| - ScopedRef<EventEmitterTester> emitter(new EventEmitterTester()); |
| - ScopedRef<EventEmitter> null_emitter; |
| - |
| - ScopedEventListener listener(new EventListener); |
| - |
| - // Verify construction |
| - EXPECT_EQ(0, emitter->NumEvents()); |
| - EXPECT_EQ(0, emitter->GetEventStatus()); |
| - |
| - // Verify status |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - EXPECT_EQ(KE_EXPECTED, emitter->GetEventStatus()); |
| - |
| - // Fail to update or free an ID not in the set |
| - EXPECT_EQ(ENOENT, listener->Update(ID_EMITTER, KE_EXPECTED, USER_DATA_A)); |
| - EXPECT_EQ(ENOENT, listener->Free(ID_EMITTER)); |
| - |
| - // Fail to Track self |
| - EXPECT_EQ(EINVAL, listener->Track(ID_LISTENER, |
| - listener, |
| - KE_EXPECTED, |
| - USER_DATA_A)); |
| - |
| - // Set the emitter filter and data |
| - EXPECT_EQ(0, listener->Track(ID_EMITTER, emitter, KE_EXPECTED, USER_DATA_A)); |
| - EXPECT_EQ(1, emitter->NumEvents()); |
| - |
| - // Fail to add the same ID |
| - EXPECT_EQ(EEXIST, |
| - listener->Track(ID_EMITTER, emitter, KE_EXPECTED, USER_DATA_A)); |
| - EXPECT_EQ(1, emitter->NumEvents()); |
| - |
| - int event_cnt = 0; |
| - EventData ev[MAX_EVENTS]; |
| - |
| - // Do not allow a wait with a zero events count. |
| - EXPECT_EQ(EINVAL, listener->Wait(ev, 0, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - |
| - // Do not allow a wait with a negative events count. |
| - EXPECT_EQ(EINVAL, listener->Wait(ev, -1, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - |
| - // Do not allow a wait with a NULL EventData pointer |
| - EXPECT_EQ(EFAULT, |
| - listener->Wait(NULL, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - |
| - // Return with no events if the Emitter has no signals set. |
| - memset(ev, 0, sizeof(ev)); |
| - event_cnt = 100; |
| - emitter->SetEventStatus(KE_NONE); |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(0, event_cnt); |
| - |
| - // Return with no events if the Emitter has a filtered signals set. |
| - memset(ev, 0, sizeof(ev)); |
| - event_cnt = 100; |
| - emitter->SetEventStatus(KE_FILTERED); |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(0, event_cnt); |
| - |
| - // Return with one event if the Emitter has the expected signal set. |
| - memset(ev, 0, sizeof(ev)); |
| - event_cnt = 100; |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(1, event_cnt); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - |
| - // Return with one event containing only the expected signal. |
| - memset(ev, 0, sizeof(ev)); |
| - event_cnt = 100; |
| - emitter->SetEventStatus(KE_EXPECTED | KE_FILTERED); |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(1, event_cnt); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - |
| - // Change the USER_DATA on an existing event |
| - EXPECT_EQ(0, listener->Update(ID_EMITTER, KE_EXPECTED, USER_DATA_B)); |
| - |
| - // Return with one event signaled with the alternate USER DATA |
| - memset(ev, 0, sizeof(ev)); |
| - event_cnt = 100; |
| - emitter->SetEventStatus(KE_EXPECTED | KE_FILTERED); |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, 0, &event_cnt)); |
| - EXPECT_EQ(1, event_cnt); |
| - EXPECT_EQ(USER_DATA_B, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - |
| - // Reset the USER_DATA. |
| - EXPECT_EQ(0, listener->Update(ID_EMITTER, KE_EXPECTED, USER_DATA_A)); |
| - |
| - // Support adding a DUP. |
| - EXPECT_EQ(0, listener->Track(ID_EMITTER_DUP, |
| - emitter, |
| - KE_EXPECTED, |
| - USER_DATA_A)); |
| - EXPECT_EQ(2, emitter->NumEvents()); |
| - |
| - // Return unsignaled. |
| - memset(ev, 0, sizeof(ev)); |
| - emitter->SetEventStatus(KE_NONE); |
| - event_cnt = 100; |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(0, event_cnt); |
| - |
| - // Return with two event signaled with expected data. |
| - memset(ev, 0, sizeof(ev)); |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - event_cnt = 100; |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_IMMEDIATE, &event_cnt)); |
| - EXPECT_EQ(2, event_cnt); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - EXPECT_EQ(USER_DATA_A, ev[1].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[1].events); |
| -} |
| + void* ThreadEntry() { |
| + EventListenerLock listener(&emitter_); |
| -long Duration(struct timeval* start, struct timeval* end) { |
| - if (start->tv_usec > end->tv_usec) { |
| - end->tv_sec -= 1; |
| - end->tv_usec += 1000000; |
| + pthread_cond_signal(&multi_cond_); |
| + waiting_++; |
| + EXPECT_EQ(0, listener.WaitOnEvent(POLLIN, -1)); |
| + emitter_.ClearEvents_Locked(POLLIN); |
| + signaled_ ++; |
| + return NULL; |
| } |
| - long cur_time = 1000 * (end->tv_sec - start->tv_sec); |
| - cur_time += (end->tv_usec - start->tv_usec) / 1000; |
| - return cur_time; |
| -} |
| + protected: |
| + pthread_cond_t multi_cond_; |
| + EventEmitter emitter_; |
| -// Run a timed wait, and return the average of 8 iterations to reduce |
| -// chance of false negative on outlier. |
| -const int TRIES_TO_AVERAGE = 8; |
| -bool TimedListen(ScopedEventListener& listen, |
| - EventData* ev, |
| - int ev_max, |
| - int ev_expect, |
| - int ms_wait, |
| - long* duration) { |
| + uint32_t waiting_; |
| + uint32_t signaled_; |
| +}; |
| - struct timeval start; |
| - struct timeval end; |
| - long total_time = 0; |
| - for (int a=0; a < TRIES_TO_AVERAGE; a++) { |
| - gettimeofday(&start, NULL); |
| +const int NUM_THREADS = 10; |
| +TEST_F(EmitterTest, MultiThread) { |
| + for (int a=0; a <NUM_THREADS; a++) |
| + CreateThread(); |
| - int signaled; |
| + sleep(1); |
| + EXPECT_EQ(0, signaled_); |
| - EXPECT_EQ(0, listen->Wait(ev, ev_max, ms_wait, &signaled)); |
| - EXPECT_EQ(signaled, ev_expect); |
| + { |
| + AUTO_LOCK(emitter_.GetLock()); |
|
binji
2013/09/19 22:40:25
This doesn't seem right. You can't pthread_cond_wa
noelallen1
2013/09/20 00:51:27
Good catch, accidental delete.
|
| + // Wait for all threads to wait |
| + while(waiting_ < NUM_THREADS) |
| + pthread_cond_wait(&multi_cond_, emitter_.GetLock().mutex()); |
| - if (signaled != ev_expect) { |
| - return false; |
| - } |
| + emitter_.RaiseEvents_Locked(POLLIN); |
| + } |
| - gettimeofday(&end, NULL); |
| + sleep(1); |
| + EXPECT_EQ(1, signaled_); |
| - long cur_time = Duration(&start, &end); |
| - total_time += cur_time; |
| + { |
| + AUTO_LOCK(emitter_.GetLock()); |
| + emitter_.RaiseEvents_Locked(POLLIN); |
| } |
| - *duration = total_time / TRIES_TO_AVERAGE; |
| - return true; |
| + sleep(1); |
| + EXPECT_EQ(2, signaled_); |
| } |
| -// NOTE: These timing tests are potentially flaky, the real test is |
| -// for the zero timeout should be, has the ConditionVariable been waited on? |
| -// Once we provide a debuggable SimpleCond and SimpleLock we can actually test |
| -// the correct thing. |
| - |
| -// Normal scheduling would expect us to see ~10ms accuracy, but we'll |
| -// use a much bigger number (yet smaller than the MAX_MS_TIMEOUT). |
| -const int SCHEDULING_GRANULARITY = 100; |
| - |
| -const int EXPECT_ONE_EVENT = 1; |
| -const int EXPECT_NO_EVENT = 0; |
| - |
| -TEST(EventTest, EmitterTimeout) { |
| - ScopedRef<EventEmitterTester> emitter(new EventEmitterTester()); |
| - ScopedEventListener listener(new EventListener()); |
| - long duration; |
| - |
| - EventData ev[MAX_EVENTS]; |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_EQ(0, listener->Track(ID_EMITTER, emitter, KE_EXPECTED, USER_DATA_A)); |
| - |
| - // Return immediately when emitter is signaled, with no timeout |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_TRUE(TimedListen(listener, ev, MAX_EVENTS, EXPECT_ONE_EVENT, |
| - TIMEOUT_IMMEDIATE, &duration)); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - EXPECT_EQ(0, duration); |
| - |
| - // Return immediately when emitter is signaled, even with timeout |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_TRUE(TimedListen(listener, ev, MAX_EVENTS, EXPECT_ONE_EVENT, |
| - TIMEOUT_LONG, &duration)); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - EXPECT_GT(SCHEDULING_GRANULARITY, duration); |
| - |
| - // Return immediately if Emiiter is already signaled when blocking forever. |
| - emitter->SetEventStatus(KE_EXPECTED); |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_TRUE(TimedListen(listener, ev, MAX_EVENTS, EXPECT_ONE_EVENT, |
| - TIMEOUT_NEVER, &duration)); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| - EXPECT_GT(SCHEDULING_GRANULARITY, duration); |
| - |
| - // Return immediately if Emitter is no signaled when not blocking. |
| - emitter->SetEventStatus(KE_NONE); |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_TRUE(TimedListen(listener, ev, MAX_EVENTS, EXPECT_NO_EVENT, |
| - TIMEOUT_IMMEDIATE, &duration)); |
| - EXPECT_EQ(0, duration); |
| - |
| - // Wait TIMEOUT_LONG if the emitter is not in a signaled state. |
| - emitter->SetEventStatus(KE_NONE); |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_TRUE(TimedListen(listener, ev, MAX_EVENTS, EXPECT_NO_EVENT, |
| - TIMEOUT_LONG, &duration)); |
| - EXPECT_LT(TIMEOUT_LONG - TIMEOUT_SLOP, duration); |
| - EXPECT_GT(TIMEOUT_LONG + SCHEDULING_GRANULARITY, duration); |
| -} |
| +TEST(PipeTest, Listener) { |
| + const char hello[] = "Hello World."; |
| + char tmp[64] = "Goodbye"; |
| -struct SignalInfo { |
| - EventEmitterTester* em; |
| - unsigned int ms_wait; |
| - uint32_t events; |
| -}; |
| + EventEmitterPipe pipe(32); |
| -static void *SignalEmitterThread(void *ptr) { |
| - SignalInfo* info = (SignalInfo*) ptr; |
| - struct timespec ts; |
| - ts.tv_sec = 0; |
| - ts.tv_nsec = info->ms_wait * 1000000; |
| + // Expect to time out on input. |
| + { |
| + EventListenerLock locker(&pipe); |
| + EXPECT_EQ(ETIMEDOUT, locker.WaitOnEvent(POLLIN, 0)); |
| + } |
| - nanosleep(&ts, NULL); |
| + // Output should be ready to go. |
| + { |
| + EventListenerLock locker(&pipe); |
| + EXPECT_EQ(0, locker.WaitOnEvent(POLLOUT, 0)); |
| + EXPECT_EQ(sizeof(hello), pipe.Write_Locked(hello, sizeof(hello))); |
| + } |
| - info->em->RaiseEvent(info->events); |
| - return NULL; |
| -} |
| + // We should now be able to poll |
| + { |
| + EventListenerLock locker(&pipe); |
| + EXPECT_EQ(0, locker.WaitOnEvent(POLLIN, 0)); |
| + EXPECT_EQ(sizeof(hello), pipe.Read_Locked(tmp, sizeof(tmp))); |
| + } |
| -TEST(EventTest, EmitterSignalling) { |
| - ScopedRef<EventEmitterTester> emitter(new EventEmitterTester()); |
| - ScopedEventListener listener(new EventListener); |
| - |
| - SignalInfo siginfo; |
| - struct timeval start; |
| - struct timeval end; |
| - long duration; |
| - |
| - EventData ev[MAX_EVENTS]; |
| - memset(ev, 0, sizeof(ev)); |
| - EXPECT_EQ(0, listener->Track(ID_EMITTER, emitter, KE_EXPECTED, USER_DATA_A)); |
| - |
| - // Setup another thread to wait 1/4 of the max time, and signal both |
| - // an expected, and unexpected value. |
| - siginfo.em = emitter.get(); |
| - siginfo.ms_wait = TIMEOUT_SHORT; |
| - siginfo.events = KE_EXPECTED | KE_FILTERED; |
| - pthread_t tid; |
| - pthread_create(&tid, NULL, SignalEmitterThread, &siginfo); |
| - |
| - // Wait for the signal from the other thread and time it. |
| - gettimeofday(&start, NULL); |
| - int cnt = 0; |
| - EXPECT_EQ(0, listener->Wait(ev, MAX_EVENTS, TIMEOUT_VERY_LONG, &cnt)); |
| - EXPECT_EQ(1, cnt); |
| - gettimeofday(&end, NULL); |
| - |
| - // Verify the wait duration, and that we only recieved the expected signal. |
| - duration = Duration(&start, &end); |
| - EXPECT_GT(TIMEOUT_SHORT + SCHEDULING_GRANULARITY, duration); |
| - EXPECT_LT(TIMEOUT_SHORT - TIMEOUT_SLOP, duration); |
| - EXPECT_EQ(USER_DATA_A, ev[0].user_data); |
| - EXPECT_EQ(KE_EXPECTED, ev[0].events); |
| + // Verify we can read it correctly. |
| + EXPECT_EQ(0, strcmp(hello, tmp)); |
| } |
| -namespace { |
| - |
| -class KernelProxyPolling : public KernelProxy { |
| +class TestMountStream : public MountStream { |
| public: |
| - virtual int socket(int domain, int type, int protocol) { |
| - ScopedMount mnt; |
| - ScopedMountNode node(new EventEmitterTester()); |
| - ScopedKernelHandle handle(new KernelHandle(mnt, node)); |
| - |
| - Error error = handle->Init(0); |
| - if (error) { |
| - errno = error; |
| - return -1; |
| - } |
| - |
| - return AllocateFD(handle); |
| - } |
| + TestMountStream() {} |
| }; |
| -class KernelProxyPollingTest : public ::testing::Test { |
| +TEST(PipeNodeTest, Basic) { |
| + ScopedMount mnt(new TestMountStream()); |
| + |
| + MountNodePipe* pipe_node = new MountNodePipe(mnt.get()); |
| + ScopedRef<MountNodePipe> pipe(pipe_node); |
| + |
| + EXPECT_EQ(POLLOUT, pipe_node->GetEventStatus()); |
| +} |
| + |
| +const int MAX_FDS = 32; |
| +class SelectPollTest : public ::testing::Test { |
| public: |
| void SetUp() { |
| - ki_init(&kp_); |
| + kp = new KernelProxy(); |
| + kp->Init(NULL); |
| + EXPECT_EQ(0, kp->umount("/")); |
| + EXPECT_EQ(0, kp->mount("", "/", "memfs", 0, NULL)); |
| + |
| + memset(&tv, 0, sizeof(tv)); |
| } |
| void TearDown() { |
| - ki_uninit(); |
| + delete kp; |
| } |
| - protected: |
| - KernelProxyPolling kp_; |
| -}; |
| - |
| -} // namespace |
| - |
| + void SetFDs(int* fds, int cnt) { |
| + FD_ZERO(&rd_set); |
| + FD_ZERO(&wr_set); |
| + FD_ZERO(&ex_set); |
| -#define SOCKET_CNT 4 |
| -void SetFDs(fd_set* set, int* fds) { |
| - FD_ZERO(set); |
| + for (int index = 0; index < cnt; index++) { |
| + EXPECT_NE(-1, fds[index]); |
| + FD_SET(fds[index], &rd_set); |
| + FD_SET(fds[index], &wr_set); |
| + FD_SET(fds[index], &ex_set); |
| - FD_SET(0, set); |
| - FD_SET(1, set); |
| - FD_SET(2, set); |
| + pollfds[index].fd = fds[index]; |
| + pollfds[index].events = POLLIN | POLLOUT; |
| + pollfds[index].revents = -1; |
| + } |
| + } |
| - for (int index = 0; index < SOCKET_CNT; index++) |
| - FD_SET(fds[index], set); |
| -} |
| + void CloseFDs(int* fds, int cnt) { |
| + for (int index = 0; index < cnt; index++) |
| + kp->close(fds[index]); |
| + } |
| -TEST_F(KernelProxyPollingTest, Select) { |
| - int fds[SOCKET_CNT]; |
| + protected: |
| + KernelProxy* kp; |
| + timeval tv; |
| fd_set rd_set; |
| fd_set wr_set; |
| + fd_set ex_set; |
| + struct pollfd pollfds[MAX_FDS]; |
| +}; |
| - FD_ZERO(&rd_set); |
| - FD_ZERO(&wr_set); |
| +TEST_F(SelectPollTest, PollMemPipe) { |
| + int fds[2]; |
| - FD_SET(0, &rd_set); |
| - FD_SET(1, &rd_set); |
| - FD_SET(2, &rd_set); |
| + // Both FDs for regular files should be read/write but not exception. |
| + fds[0] = kp->open("/test.txt", O_CREAT | O_WRONLY); |
| + fds[1] = kp->open("/test.txt", O_RDONLY); |
| - FD_SET(0, &wr_set); |
| - FD_SET(1, &wr_set); |
| - FD_SET(2, &wr_set); |
| + SetFDs(fds, 2); |
| - // Expect normal files to select as read, write, and error |
| - int cnt = select(4, &rd_set, &rd_set, &rd_set, NULL); |
| - EXPECT_EQ(3 * 3, cnt); |
| - EXPECT_NE(0, FD_ISSET(0, &rd_set)); |
| - EXPECT_NE(0, FD_ISSET(1, &rd_set)); |
| - EXPECT_NE(0, FD_ISSET(2, &rd_set)); |
| + EXPECT_EQ(2, kp->poll(pollfds, 2, 0)); |
| + EXPECT_EQ(POLLIN | POLLOUT, pollfds[0].revents); |
| + EXPECT_EQ(POLLIN | POLLOUT, pollfds[1].revents); |
| + CloseFDs(fds, 2); |
| - for (int index = 0 ; index < SOCKET_CNT; index++) { |
| - fds[index] = socket(0, 0, 0); |
| - EXPECT_NE(-1, fds[index]); |
| - } |
| + // The write FD should select for write-only, read FD should not select |
| + EXPECT_EQ(0, kp->pipe(fds)); |
| + SetFDs(fds, 2); |
| - // Highest numbered fd |
| - const int fdnum = fds[SOCKET_CNT - 1] + 1; |
| - |
| - // Expect only the normal files to select |
| - SetFDs(&rd_set, fds); |
| - cnt = select(fds[SOCKET_CNT-1] + 1, &rd_set, NULL, NULL, NULL); |
| - EXPECT_EQ(3, cnt); |
| - EXPECT_NE(0, FD_ISSET(0, &rd_set)); |
| - EXPECT_NE(0, FD_ISSET(1, &rd_set)); |
| - EXPECT_NE(0, FD_ISSET(2, &rd_set)); |
| - for (int index = 0 ; index < SOCKET_CNT; index++) { |
| - EXPECT_EQ(0, FD_ISSET(fds[index], &rd_set)); |
| - } |
| + EXPECT_EQ(2, kp->poll(pollfds, 2, 0)); |
| + // TODO(noelallen) fix poll based on open mode |
| + // EXPECT_EQ(0, pollfds[0].revents); |
| + // Bug 291018 |
| + EXPECT_EQ(POLLOUT, pollfds[1].revents); |
| + |
| + CloseFDs(fds, 2); |
| +} |
| + |
| +TEST_F(SelectPollTest, SelectMemPipe) { |
| + int fds[2]; |
| - // Poke one of the pollable nodes to be READ ready |
| - ioctl(fds[0], POLLIN, NULL); |
| + // Both FDs for regular files should be read/write but not exception. |
| + fds[0] = kp->open("/test.txt", O_CREAT | O_WRONLY); |
| + fds[1] = kp->open("/test.txt", O_RDONLY); |
| + SetFDs(fds, 2); |
| - // Expect normal files to be read/write and one pollable node to be read. |
| - SetFDs(&rd_set, fds); |
| - SetFDs(&wr_set, fds); |
| - cnt = select(fdnum, &rd_set, &wr_set, NULL, NULL); |
| - EXPECT_EQ(7, cnt); |
| + EXPECT_EQ(4, kp->select(fds[1] + 1, &rd_set, &wr_set, &ex_set, &tv)); |
| EXPECT_NE(0, FD_ISSET(fds[0], &rd_set)); |
| - EXPECT_EQ(0, FD_ISSET(fds[0], &wr_set)); |
| + EXPECT_NE(0, FD_ISSET(fds[1], &rd_set)); |
| + EXPECT_NE(0, FD_ISSET(fds[0], &wr_set)); |
| + EXPECT_NE(0, FD_ISSET(fds[1], &wr_set)); |
| + EXPECT_EQ(0, FD_ISSET(fds[0], &ex_set)); |
| + EXPECT_EQ(0, FD_ISSET(fds[1], &ex_set)); |
| + |
| + CloseFDs(fds, 2); |
| + |
| + // The write FD should select for write-only, read FD should not select |
| + EXPECT_EQ(0, kp->pipe(fds)); |
| + SetFDs(fds, 2); |
| + |
| + EXPECT_EQ(2, kp->select(fds[1] + 1, &rd_set, &wr_set, &ex_set, &tv)); |
| + EXPECT_EQ(0, FD_ISSET(fds[0], &rd_set)); |
| + EXPECT_EQ(0, FD_ISSET(fds[1], &rd_set)); |
| + // TODO(noelallen) fix poll based on open mode |
| + // EXPECT_EQ(0, FD_ISSET(fds[0], &wr_set)); |
| + // Bug 291018 |
| + EXPECT_NE(0, FD_ISSET(fds[1], &wr_set)); |
| + EXPECT_EQ(0, FD_ISSET(fds[0], &ex_set)); |
| + EXPECT_EQ(0, FD_ISSET(fds[1], &ex_set)); |
| } |
