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// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "mojo/system/message_pipe.h"
#include "base/memory/ref_counted.h"
#include "base/threading/platform_thread.h" // For |Sleep()|.
#include "base/time/time.h"
#include "mojo/system/waiter.h"
#include "mojo/system/waiter_test_utils.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace mojo {
namespace system {
namespace {
// Tests:
// - only default flags
// - reading messages from a port
// - when there are no/one/two messages available for that port
// - with buffer size 0 (and null buffer) -- should get size
// - with too-small buffer -- should get size
// - also verify that buffers aren't modified when/where they shouldn't be
// - writing messages to a port
// - in the obvious scenarios (as above)
// - to a port that's been closed
// - writing a message to a port, closing the other (would be the source) port,
// and reading it
TEST(MessagePipeTest, Basic) {
scoped_refptr<MessagePipe> mp(new MessagePipe());
int32_t buffer[2];
const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer));
uint32_t buffer_size;
// Nothing to read yet on port 0.
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(kBufferSize, buffer_size);
EXPECT_EQ(123, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Ditto for port 1.
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
// Write from port 1 (to port 0).
buffer[0] = 789012345;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read from port 0.
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(789012345, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read again from port 0 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
// Write two messages from port 0 (to port 1).
buffer[0] = 123456789;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(0,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
buffer[0] = 234567890;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(0,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read from port 1 with buffer size 0 (should get the size of next message).
// Also test that giving a null buffer is okay when the buffer size is 0.
buffer_size = 0;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(1,
NULL, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
// Read from port 1 with buffer size 1 (too small; should get the size of next
// message).
buffer[0] = 123;
buffer[1] = 456;
buffer_size = 1;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(123, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read from port 1.
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(123456789, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read again from port 1.
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(234567890, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read again from port 1 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
// Write from port 0 (to port 1).
buffer[0] = 345678901;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(0,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Close port 0.
mp->Close(0);
// Try to write from port 1 (to port 0).
buffer[0] = 456789012;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read from port 1; should still get message (even though port 0 was closed).
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(345678901, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read again from port 1 -- it should be empty (and port 0 is closed).
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
mp->Close(1);
}
TEST(MessagePipeTest, CloseWithQueuedIncomingMessages) {
scoped_refptr<MessagePipe> mp(new MessagePipe());
int32_t buffer[1];
const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer));
uint32_t buffer_size;
// Write some messages from port 1 (to port 0).
for (int32_t i = 0; i < 5; i++) {
buffer[0] = i;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, kBufferSize,
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
}
// Port 0 shouldn't be empty.
buffer_size = 0;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(0,
NULL, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(kBufferSize, buffer_size);
// Close port 0 first, which should have outstanding (incoming) messages.
mp->Close(0);
mp->Close(1);
}
TEST(MessagePipeTest, DiscardMode) {
scoped_refptr<MessagePipe> mp(new MessagePipe());
int32_t buffer[2];
const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer));
uint32_t buffer_size;
// Write from port 1 (to port 0).
buffer[0] = 789012345;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read/discard from port 0 (no buffer); get size.
buffer_size = 0;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(0,
NULL, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
// Read again from port 0 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
// Write from port 1 (to port 0).
buffer[0] = 890123456;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read from port 0 (buffer big enough).
buffer[0] = 123;
buffer[1] = 456;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
EXPECT_EQ(890123456, buffer[0]);
EXPECT_EQ(456, buffer[1]);
// Read again from port 0 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
// Write from port 1 (to port 0).
buffer[0] = 901234567;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Read/discard from port 0 (buffer too small); get size.
buffer_size = 1;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
EXPECT_EQ(static_cast<uint32_t>(sizeof(buffer[0])), buffer_size);
// Read again from port 0 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
// Write from port 1 (to port 0).
buffer[0] = 123456789;
buffer[1] = 0;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(1,
buffer, static_cast<uint32_t>(sizeof(buffer[0])),
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Discard from port 0.
buffer_size = 1;
EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED,
mp->ReadMessage(0,
NULL, NULL,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
// Read again from port 0 -- it should be empty.
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_SHOULD_WAIT,
mp->ReadMessage(0,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_MAY_DISCARD));
mp->Close(0);
mp->Close(1);
}
TEST(MessagePipeTest, BasicWaiting) {
scoped_refptr<MessagePipe> mp(new MessagePipe());
Waiter waiter;
int32_t buffer[1];
const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer));
uint32_t buffer_size;
// Always writable (until the other port is closed).
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(0, &waiter, MOJO_HANDLE_SIGNAL_WRITABLE, 0));
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(0,
&waiter,
MOJO_HANDLE_SIGNAL_READABLE |
MOJO_HANDLE_SIGNAL_WRITABLE,
0));
// Not yet readable.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp->AddWaiter(0, &waiter, MOJO_HANDLE_SIGNAL_READABLE, 1));
EXPECT_EQ(MOJO_RESULT_DEADLINE_EXCEEDED, waiter.Wait(0, NULL));
mp->RemoveWaiter(0, &waiter);
// Write from port 0 (to port 1), to make port 1 readable.
buffer[0] = 123456789;
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(0,
buffer, kBufferSize,
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
// Port 1 should already be readable now.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(1, &waiter, MOJO_HANDLE_SIGNAL_READABLE, 2));
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(1,
&waiter,
MOJO_HANDLE_SIGNAL_READABLE |
MOJO_HANDLE_SIGNAL_WRITABLE,
0));
// ... and still writable.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(1, &waiter, MOJO_HANDLE_SIGNAL_WRITABLE, 3));
// Close port 0.
mp->Close(0);
// Now port 1 should not be writable.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION,
mp->AddWaiter(1, &waiter, MOJO_HANDLE_SIGNAL_WRITABLE, 4));
// But it should still be readable.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_ALREADY_EXISTS,
mp->AddWaiter(1, &waiter, MOJO_HANDLE_SIGNAL_READABLE, 5));
// Read from port 1.
buffer[0] = 0;
buffer_size = kBufferSize;
EXPECT_EQ(MOJO_RESULT_OK,
mp->ReadMessage(1,
buffer, &buffer_size,
0, NULL,
MOJO_READ_MESSAGE_FLAG_NONE));
EXPECT_EQ(123456789, buffer[0]);
// Now port 1 should no longer be readable.
waiter.Init();
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION,
mp->AddWaiter(1, &waiter, MOJO_HANDLE_SIGNAL_READABLE, 6));
mp->Close(1);
}
TEST(MessagePipeTest, ThreadedWaiting) {
int32_t buffer[1];
const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer));
MojoResult result;
uint32_t context;
// Write to wake up waiter waiting for read.
{
scoped_refptr<MessagePipe> mp(new MessagePipe());
test::SimpleWaiterThread thread(&result, &context);
thread.waiter()->Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp->AddWaiter(1, thread.waiter(), MOJO_HANDLE_SIGNAL_READABLE,
1));
thread.Start();
buffer[0] = 123456789;
// Write from port 0 (to port 1), which should wake up the waiter.
EXPECT_EQ(MOJO_RESULT_OK,
mp->WriteMessage(0,
buffer, kBufferSize,
NULL,
MOJO_WRITE_MESSAGE_FLAG_NONE));
mp->RemoveWaiter(1, thread.waiter());
mp->Close(0);
mp->Close(1);
} // Joins |thread|.
// The waiter should have woken up successfully.
EXPECT_EQ(MOJO_RESULT_OK, result);
EXPECT_EQ(1u, context);
// Close to cancel waiter.
{
scoped_refptr<MessagePipe> mp(new MessagePipe());
test::SimpleWaiterThread thread(&result, &context);
thread.waiter()->Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp->AddWaiter(1, thread.waiter(), MOJO_HANDLE_SIGNAL_READABLE,
2));
thread.Start();
// Close port 1 first -- this should result in the waiter being cancelled.
mp->CancelAllWaiters(1);
mp->Close(1);
// Port 1 is closed, so |Dispatcher::RemoveWaiter()| wouldn't call into the
// |MessagePipe| to remove any waiter.
mp->Close(0);
} // Joins |thread|.
EXPECT_EQ(MOJO_RESULT_CANCELLED, result);
EXPECT_EQ(2u, context);
// Close to make waiter un-wake-up-able.
{
scoped_refptr<MessagePipe> mp(new MessagePipe());
test::SimpleWaiterThread thread(&result, &context);
thread.waiter()->Init();
EXPECT_EQ(MOJO_RESULT_OK,
mp->AddWaiter(1, thread.waiter(), MOJO_HANDLE_SIGNAL_READABLE,
3));
thread.Start();
// Close port 0 first -- this should wake the waiter up, since port 1 will
// never be readable.
mp->CancelAllWaiters(0);
mp->Close(0);
mp->RemoveWaiter(1, thread.waiter());
mp->CancelAllWaiters(1);
mp->Close(1);
} // Joins |thread|.
EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, result);
EXPECT_EQ(3u, context);
}
} // namespace
} // namespace system
} // namespace mojo
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