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fuchsia / fuchsia / refs/heads/releases/f3 / . / zircon / system / ulib / zxio / tests / file-test.cc
blob: 5fd7693ef08e227b298c49ced4630e1638baa3b4 [file] [log] [blame]
// Copyright 2019 The Fuchsia 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 <fuchsia/io/llcpp/fidl.h>
#include <lib/async-loop/cpp/loop.h>
#include <lib/async-loop/default.h>
#include <lib/fidl/llcpp/server.h>
#include <lib/sync/completion.h>
#include <lib/zxio/inception.h>
#include <lib/zxio/ops.h>
#include <atomic>
#include <future>
#include <memory>
#include <thread>
#include <zxtest/zxtest.h>
#include "file_test_suite.h"
namespace {
namespace fio = fuchsia_io;
class TestServerBase : public fidl::WireRawChannelInterface<fio::File> {
public:
TestServerBase() = default;
virtual ~TestServerBase() = default;
// Exercised by |zxio_close|.
void Close(CloseCompleter::Sync& completer) override {
num_close_.fetch_add(1);
completer.Reply(ZX_OK);
// After the reply, we should close the connection.
completer.Close(ZX_OK);
}
void Clone(uint32_t flags, zx::channel object, CloneCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void Describe(DescribeCompleter::Sync& completer) override {
fio::wire::FileObject file_object;
completer.Reply(fio::wire::NodeInfo::WithFile(
fidl::ObjectView<fio::wire::FileObject>::FromExternal(&file_object)));
}
void Sync(SyncCompleter::Sync& completer) override { completer.Close(ZX_ERR_NOT_SUPPORTED); }
void GetAttr(GetAttrCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void SetAttr(uint32_t flags, fuchsia_io::wire::NodeAttributes attribute,
SetAttrCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void Read(uint64_t count, ReadCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void ReadAt(uint64_t count, uint64_t offset, ReadAtCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void Write(fidl::VectorView<uint8_t> data, WriteCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void WriteAt(fidl::VectorView<uint8_t> data, uint64_t offset,
WriteAtCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void Seek(int64_t offset, fuchsia_io::wire::SeekOrigin start,
SeekCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void Truncate(uint64_t length, TruncateCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void GetFlags(GetFlagsCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void SetFlags(uint32_t flags, SetFlagsCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
void GetBuffer(uint32_t flags, GetBufferCompleter::Sync& completer) override {
completer.Close(ZX_ERR_NOT_SUPPORTED);
}
uint32_t num_close() const { return num_close_.load(); }
private:
std::atomic<uint32_t> num_close_ = 0;
};
class File : public zxtest::Test {
public:
virtual ~File() { binding_->Unbind(); }
template <typename ServerImpl>
ServerImpl* StartServer() {
server_ = std::make_unique<ServerImpl>();
loop_ = std::make_unique<async::Loop>(&kAsyncLoopConfigNoAttachToCurrentThread);
zx_status_t status;
EXPECT_OK(status = loop_->StartThread("fake-filesystem"));
if (status != ZX_OK) {
return nullptr;
}
return static_cast<ServerImpl*>(server_.get());
}
fit::result<zx::channel, zx_status_t> OpenConnection() {
zx::channel client_end, server_end;
zx_status_t status = zx::channel::create(0, &client_end, &server_end);
if (status != ZX_OK) {
return fit::error(status);
}
auto binding = fidl::BindServer(loop_->dispatcher(), std::move(server_end), server_.get());
binding_ = std::make_unique<fidl::ServerBindingRef<fio::File>>(std::move(binding));
return fit::ok(std::move(client_end));
}
zx_status_t OpenFile() {
fit::result<zx::channel, zx_status_t> client_end = OpenConnection();
if (client_end.is_error()) {
return client_end.error();
}
auto result = fidl::WireCall<fio::File>(client_end.value().borrow()).Describe();
if (result.status() != ZX_OK) {
return result.status();
}
EXPECT_TRUE(result->info.is_file());
return zxio_file_init(&file_, client_end.take_value().release(),
result->info.mutable_file().event.release(),
result->info.mutable_file().stream.release());
}
void TearDown() override {
ASSERT_EQ(0, server_->num_close());
ASSERT_OK(zxio_close(&file_.io));
ASSERT_EQ(1, server_->num_close());
}
protected:
zxio_storage_t file_;
std::unique_ptr<TestServerBase> server_;
std::unique_ptr<fidl::ServerBindingRef<fio::File>> binding_;
std::unique_ptr<async::Loop> loop_;
};
class TestServerEvent final : public TestServerBase {
public:
TestServerEvent() { ASSERT_OK(zx::event::create(0, &event_)); }
const zx::event& event() const { return event_; }
void Describe(DescribeCompleter::Sync& completer) override {
fio::wire::FileObject file_object;
zx_status_t status = event_.duplicate(ZX_RIGHTS_BASIC, &file_object.event);
if (status != ZX_OK) {
completer.Close(ZX_ERR_INTERNAL);
return;
}
completer.Reply(fio::wire::NodeInfo::WithFile(
fidl::ObjectView<fio::wire::FileObject>::FromExternal(&file_object)));
}
private:
zx::event event_;
};
TEST_F(File, WaitTimeOut) {
TestServerEvent* server;
ASSERT_NO_FAILURES(server = StartServer<TestServerEvent>());
ASSERT_NO_FAILURES(OpenFile());
zxio_signals_t observed = ZX_SIGNAL_NONE;
ASSERT_EQ(ZX_ERR_TIMED_OUT,
zxio_wait_one(&file_.io, ZXIO_SIGNAL_ALL, ZX_TIME_INFINITE_PAST, &observed));
EXPECT_EQ(ZXIO_SIGNAL_NONE, observed);
}
TEST_F(File, WaitForReadable) {
TestServerEvent* server;
ASSERT_NO_FAILURES(server = StartServer<TestServerEvent>());
ASSERT_NO_FAILURES(OpenFile());
zxio_signals_t observed = ZX_SIGNAL_NONE;
ASSERT_OK(server->event().signal(ZX_SIGNAL_NONE, fuchsia_io::wire::kFileSignalReadable));
ASSERT_OK(zxio_wait_one(&file_.io, ZXIO_SIGNAL_READABLE, ZX_TIME_INFINITE_PAST, &observed));
EXPECT_EQ(ZXIO_SIGNAL_READABLE, observed);
}
TEST_F(File, WaitForWritable) {
TestServerEvent* server;
ASSERT_NO_FAILURES(server = StartServer<TestServerEvent>());
ASSERT_NO_FAILURES(OpenFile());
zxio_signals_t observed = ZX_SIGNAL_NONE;
ASSERT_OK(server->event().signal(ZX_SIGNAL_NONE, fuchsia_io::wire::kFileSignalWritable));
ASSERT_OK(zxio_wait_one(&file_.io, ZXIO_SIGNAL_WRITABLE, ZX_TIME_INFINITE_PAST, &observed));
EXPECT_EQ(ZXIO_SIGNAL_WRITABLE, observed);
}
TEST_F(File, GetVmoPropagatesError) {
// Positive error codes are protocol-specific errors, and will not
// occur in the system.
constexpr zx_status_t kGetAttrError = 1;
constexpr zx_status_t kGetBufferError = 2;
class TestServer : public TestServerBase {
public:
void GetAttr(GetAttrCompleter::Sync& completer) override {
completer.Reply(kGetAttrError, fuchsia_io::wire::NodeAttributes{});
}
void GetBuffer(uint32_t flags, GetBufferCompleter::Sync& completer) override {
completer.Reply(kGetBufferError, nullptr);
}
};
TestServer* server;
ASSERT_NO_FAILURES(server = StartServer<TestServer>());
ASSERT_NO_FAILURES(OpenFile());
zx::vmo vmo;
ASSERT_STATUS(kGetBufferError,
zxio_vmo_get_clone(&file_.io, vmo.reset_and_get_address(), nullptr));
ASSERT_STATUS(kGetBufferError,
zxio_vmo_get_exact(&file_.io, vmo.reset_and_get_address(), nullptr));
ASSERT_STATUS(kGetAttrError, zxio_vmo_get_copy(&file_.io, vmo.reset_and_get_address(), nullptr));
}
class TestServerChannel final : public TestServerBase {
public:
TestServerChannel() {
ASSERT_OK(zx::vmo::create(zx_system_get_page_size(), 0, &store_));
const size_t kZero = 0u;
ASSERT_OK(store_.set_property(ZX_PROP_VMO_CONTENT_SIZE, &kZero, sizeof(kZero)));
ASSERT_OK(zx::stream::create(ZX_STREAM_MODE_READ | ZX_STREAM_MODE_WRITE, store_, 0, &stream_));
}
void Read(uint64_t count, ReadCompleter::Sync& completer) override {
if (count > fio::wire::kMaxBuf) {
completer.Close(ZX_ERR_OUT_OF_RANGE);
return;
}
uint8_t buffer[fio::wire::kMaxBuf];
zx_iovec_t vec = {
.buffer = buffer,
.capacity = count,
};
size_t actual = 0u;
zx_status_t status = stream_.readv(0, &vec, 1, &actual);
if (status != ZX_OK) {
completer.Reply(status, fidl::VectorView<uint8_t>());
return;
}
completer.Reply(ZX_OK, fidl::VectorView<uint8_t>::FromExternal(buffer, actual));
}
void ReadAt(uint64_t count, uint64_t offset, ReadAtCompleter::Sync& completer) override {
if (count > fio::wire::kMaxBuf) {
completer.Close(ZX_ERR_OUT_OF_RANGE);
return;
}
uint8_t buffer[fio::wire::kMaxBuf];
zx_iovec_t vec = {
.buffer = buffer,
.capacity = count,
};
size_t actual = 0u;
zx_status_t status = stream_.readv_at(0, offset, &vec, 1, &actual);
if (status != ZX_OK) {
completer.Reply(status, fidl::VectorView<uint8_t>());
return;
}
completer.Reply(ZX_OK, fidl::VectorView<uint8_t>::FromExternal(buffer, actual));
}
void Write(fidl::VectorView<uint8_t> data, WriteCompleter::Sync& completer) override {
if (data.count() > fio::wire::kMaxBuf) {
completer.Close(ZX_ERR_OUT_OF_RANGE);
return;
}
zx_iovec_t vec = {
.buffer = data.mutable_data(),
.capacity = data.count(),
};
size_t actual = 0u;
zx_status_t status = stream_.writev(0, &vec, 1, &actual);
completer.Reply(status, actual);
}
void WriteAt(fidl::VectorView<uint8_t> data, uint64_t offset,
WriteAtCompleter::Sync& completer) override {
if (data.count() > fio::wire::kMaxBuf) {
completer.Close(ZX_ERR_OUT_OF_RANGE);
return;
}
zx_iovec_t vec = {
.buffer = data.mutable_data(),
.capacity = data.count(),
};
size_t actual = 0u;
zx_status_t status = stream_.writev_at(0, offset, &vec, 1, &actual);
completer.Reply(status, actual);
}
void Seek(int64_t offset, fio::wire::SeekOrigin origin, SeekCompleter::Sync& completer) override {
zx_off_t seek = 0u;
zx_status_t status = stream_.seek(static_cast<zx_stream_seek_origin_t>(origin), offset, &seek);
completer.Reply(status, seek);
}
private:
zx::vmo store_;
zx::stream stream_;
};
TEST_F(File, ReadWriteChannel) {
TestServerChannel* server = nullptr;
ASSERT_NO_FAILURES(server = StartServer<TestServerChannel>());
ASSERT_OK(OpenFile());
ASSERT_NO_FAILURES(FileTestSuite::ReadWrite(&file_.io));
}
class TestServerStream final : public TestServerBase {
public:
TestServerStream() {
ASSERT_OK(zx::vmo::create(zx_system_get_page_size(), 0, &store_));
const size_t kZero = 0u;
ASSERT_OK(store_.set_property(ZX_PROP_VMO_CONTENT_SIZE, &kZero, sizeof(kZero)));
ASSERT_OK(zx::stream::create(ZX_STREAM_MODE_READ | ZX_STREAM_MODE_WRITE, store_, 0, &stream_));
}
void Describe(DescribeCompleter::Sync& completer) override {
fio::wire::FileObject file_object;
zx_status_t status = stream_.duplicate(ZX_RIGHT_SAME_RIGHTS, &file_object.stream);
if (status != ZX_OK) {
completer.Close(ZX_ERR_INTERNAL);
return;
}
completer.Reply(fio::wire::NodeInfo::WithFile(
fidl::ObjectView<fio::wire::FileObject>::FromExternal(&file_object)));
}
private:
zx::vmo store_;
zx::stream stream_;
};
TEST_F(File, ReadWriteStream) {
TestServerStream* server = nullptr;
ASSERT_NO_FAILURES(server = StartServer<TestServerStream>());
ASSERT_OK(OpenFile());
ASSERT_NO_FAILURES(FileTestSuite::ReadWrite(&file_.io));
}
class Remote : public File {
public:
zx_status_t OpenRemote() {
fit::result<zx::channel, zx_status_t> client_end = OpenConnection();
if (client_end.is_error()) {
return client_end.error();
}
return zxio_remote_init(&file_, client_end.take_value().release(), ZX_HANDLE_INVALID);
}
};
TEST_F(Remote, ReadWriteChannel) {
TestServerChannel* server = nullptr;
ASSERT_NO_FAILURES(server = StartServer<TestServerChannel>());
ASSERT_OK(OpenRemote());
ASSERT_NO_FAILURES(FileTestSuite::ReadWrite(&file_.io));
}
} // namespace