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fuchsia / fuchsia / be0a0c3f97b29231c9207a934063b3ce9e562dd1 / . / src / storage / fshost / filesystem-mounter-test.cc
blob: 69e69f6d19ab46e4be49a50dd46329d4305cd9ea [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 "filesystem-mounter.h"
#include <lib/zx/channel.h>
#include <zircon/fidl.h>
#include <cobalt-client/cpp/in_memory_logger.h>
#include <gtest/gtest.h>
#include "fs-manager.h"
#include "fshost-fs-provider.h"
#include "metrics.h"
#include "src/storage/blobfs/mount.h"
#include "src/storage/fshost/block-watcher.h"
namespace devmgr {
namespace {
std::unique_ptr<FsHostMetrics> MakeMetrics() {
return std::make_unique<FsHostMetrics>(std::make_unique<cobalt_client::Collector>(
std::make_unique<cobalt_client::InMemoryLogger>()));
}
class FilesystemMounterHarness : public testing::Test {
public:
FilesystemMounterHarness() : manager_(FshostBootArgs::Create(), MakeMetrics()) {}
protected:
FsManager& manager() {
if (!watcher_) {
watcher_.emplace(manager_, &config_);
zx::channel dir_request, lifecycle_request;
EXPECT_EQ(manager_.Initialize(std::move(dir_request), std::move(lifecycle_request),
zx::channel(), nullptr, *watcher_),
ZX_OK);
}
return manager_;
}
Config config_;
private:
FsManager manager_;
std::optional<BlockWatcher> watcher_;
};
using MounterTest = FilesystemMounterHarness;
TEST_F(MounterTest, CreateFilesystemManager) { manager(); }
TEST_F(MounterTest, CreateFilesystemMounter) { FilesystemMounter mounter(manager(), &config_); }
TEST_F(MounterTest, PkgfsWillNotMountBeforeBlobAndData) {
FilesystemMounter mounter(manager(), &config_);
ASSERT_FALSE(mounter.BlobMounted());
ASSERT_FALSE(mounter.DataMounted());
mounter.TryMountPkgfs();
EXPECT_FALSE(mounter.PkgfsMounted());
}
enum class FilesystemType {
kBlobfs,
kMinfs,
kFactoryfs,
};
class TestMounter : public FilesystemMounter {
public:
template <typename... Args>
explicit TestMounter(Args&&... args) : FilesystemMounter(std::forward<Args>(args)...) {}
void ExpectFilesystem(FilesystemType fs) { expected_filesystem_ = fs; }
zx_status_t LaunchFs(int argc, const char** argv, zx_handle_t* hnd, uint32_t* ids, size_t len,
uint32_t fs_flags) final {
if (argc != 2) {
return ZX_ERR_INVALID_ARGS;
}
switch (expected_filesystem_) {
case FilesystemType::kBlobfs:
EXPECT_EQ(std::string_view(argv[0]), "/pkg/bin/blobfs");
EXPECT_EQ(fs_flags, unsigned{FS_SVC | FS_SVC_BLOBFS});
EXPECT_EQ(len, 2ul);
break;
case FilesystemType::kMinfs:
EXPECT_EQ(std::string_view(argv[0]), "/pkg/bin/minfs");
EXPECT_EQ(fs_flags, unsigned{FS_SVC});
EXPECT_EQ(len, 2ul);
break;
case FilesystemType::kFactoryfs:
EXPECT_EQ(std::string_view(argv[0]), "/pkg/bin/factoryfs");
EXPECT_EQ(fs_flags, unsigned{FS_SVC});
break;
default:
ADD_FAILURE() << "Unexpected filesystem type";
}
EXPECT_EQ(std::string_view(argv[1]), "mount");
EXPECT_EQ(ids[0], PA_DIRECTORY_REQUEST);
EXPECT_EQ(ids[1], FS_HANDLE_BLOCK_DEVICE_ID);
zx::channel* server = nullptr;
switch (expected_filesystem_) {
case FilesystemType::kBlobfs:
server = &blobfs_server_;
break;
case FilesystemType::kMinfs:
server = &minfs_server_;
break;
case FilesystemType::kFactoryfs:
server = &factoryfs_server_;
break;
default:
ADD_FAILURE() << "Unexpected filesystem type";
}
server->reset(hnd[0]);
EXPECT_EQ(server->signal_peer(0, ZX_USER_SIGNAL_0), ZX_OK);
EXPECT_EQ(zx_handle_close(hnd[1]), ZX_OK);
return ZX_OK;
}
private:
FilesystemType expected_filesystem_ = FilesystemType::kBlobfs;
zx::channel blobfs_server_;
zx::channel minfs_server_;
zx::channel factoryfs_server_;
};
TEST_F(MounterTest, DurableMount) {
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kMinfs);
ASSERT_EQ(mounter.MountDurable(zx::channel(), options), ZX_OK);
ASSERT_TRUE(mounter.DurableMounted());
}
TEST_F(MounterTest, FactoryMount) {
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kFactoryfs);
ASSERT_EQ(mounter.MountFactoryFs(zx::channel(), options), ZX_OK);
ASSERT_TRUE(mounter.FactoryMounted());
}
TEST_F(MounterTest, PkgfsWillNotMountBeforeData) {
config_ = Config(Config::Options{{Config::kWaitForData, {}}});
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kBlobfs);
ASSERT_EQ(mounter.MountBlob(zx::channel(), options), ZX_OK);
ASSERT_TRUE(mounter.BlobMounted());
ASSERT_FALSE(mounter.DataMounted());
mounter.TryMountPkgfs();
EXPECT_FALSE(mounter.PkgfsMounted());
}
TEST_F(MounterTest, PkgfsWillNotMountBeforeDataUnlessExplicitlyRequested) {
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kBlobfs);
ASSERT_EQ(mounter.MountBlob(zx::channel(), options), ZX_OK);
ASSERT_TRUE(mounter.BlobMounted());
ASSERT_FALSE(mounter.DataMounted());
mounter.TryMountPkgfs();
EXPECT_TRUE(mounter.PkgfsMounted());
}
TEST_F(MounterTest, PkgfsWillNotMountBeforeBlob) {
config_ = Config(Config::Options{{Config::kWaitForData, {}}});
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kMinfs);
ASSERT_EQ(mounter.MountData(zx::channel(), options), ZX_OK);
ASSERT_FALSE(mounter.BlobMounted());
ASSERT_TRUE(mounter.DataMounted());
mounter.TryMountPkgfs();
EXPECT_FALSE(mounter.PkgfsMounted());
}
TEST_F(MounterTest, PkgfsMountsWithBlobAndData) {
config_ = Config(Config::Options{{Config::kWaitForData, {}}});
TestMounter mounter(manager(), &config_);
mount_options_t options = default_mount_options;
mounter.ExpectFilesystem(FilesystemType::kBlobfs);
ASSERT_EQ(mounter.MountBlob(zx::channel(), options), ZX_OK);
mounter.ExpectFilesystem(FilesystemType::kMinfs);
ASSERT_EQ(mounter.MountData(zx::channel(), options), ZX_OK);
ASSERT_TRUE(mounter.BlobMounted());
ASSERT_TRUE(mounter.DataMounted());
mounter.TryMountPkgfs();
EXPECT_TRUE(mounter.PkgfsMounted());
}
} // namespace
} // namespace devmgr