blob: e4671e6896df5e7d07449326f3836d30c2335c35 [file] [log] [blame]
// Copyright 2020 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 "chrome/browser/ash/crostini/crostini_disk.h"
#include <memory>
#include <utility>
#include "base/test/bind.h"
#include "chrome/browser/ash/crostini/crostini_manager.h"
#include "chrome/browser/ash/crostini/crostini_test_helper.h"
#include "chrome/browser/ash/crostini/crostini_types.mojom.h"
#include "chrome/test/base/testing_browser_process.h"
#include "chrome/test/base/testing_profile.h"
#include "chromeos/dbus/cicerone/cicerone_client.h"
#include "chromeos/dbus/concierge/concierge_client.h"
#include "chromeos/dbus/concierge/concierge_service.pb.h"
#include "chromeos/dbus/concierge/fake_concierge_client.h"
#include "chromeos/dbus/dbus_thread_manager.h"
#include "chromeos/dbus/seneschal/seneschal_client.h"
#include "content/public/test/browser_task_environment.h"
#include "testing/gmock/include/gmock/gmock-matchers.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace crostini {
namespace disk {
class CrostiniDiskTest : public testing::Test {
public:
CrostiniDiskTest() = default;
~CrostiniDiskTest() override = default;
protected:
// A wrapper for OnListVmDisks which returns the result.
std::unique_ptr<CrostiniDiskInfo> OnListVmDisksWithResult(
const char* vm_name,
int64_t free_space,
absl::optional<vm_tools::concierge::ListVmDisksResponse>
list_disks_response) {
std::unique_ptr<CrostiniDiskInfo> result;
auto store = base::BindLambdaForTesting(
[&result](std::unique_ptr<CrostiniDiskInfo> info) {
result = std::move(info);
});
OnListVmDisks(store, vm_name, free_space, list_disks_response);
// OnListVmDisks is synchronous and runs the callback upon finishing, so by
// the time it returns we know that result has been stored.
return result;
}
};
class CrostiniDiskTestDbus : public CrostiniDiskTest {
public:
CrostiniDiskTestDbus() {
chromeos::DBusThreadManager::Initialize();
chromeos::CiceroneClient::InitializeFake();
chromeos::ConciergeClient::InitializeFake();
chromeos::SeneschalClient::InitializeFake();
fake_concierge_client_ = chromeos::FakeConciergeClient::Get();
}
void SetUp() override {
profile_ = std::make_unique<TestingProfile>();
test_helper_ = std::make_unique<CrostiniTestHelper>(profile_.get());
CrostiniManager::GetForProfile(profile_.get())
->set_skip_restart_for_testing();
}
void TearDown() override {
test_helper_.reset();
profile_.reset();
chromeos::SeneschalClient::Shutdown();
chromeos::ConciergeClient::Shutdown();
chromeos::CiceroneClient::Shutdown();
chromeos::DBusThreadManager::Shutdown();
}
protected:
// A wrapper for ResizeCrostiniDisk which returns the result.
bool OnResizeWithResult(Profile* profile,
const char* vm_name,
int64_t size_bytes) {
bool result;
base::RunLoop run_loop;
auto store =
base::BindLambdaForTesting([&result, &run_loop = run_loop](bool info) {
result = std::move(info);
run_loop.Quit();
});
ResizeCrostiniDisk(profile, vm_name, size_bytes, std::move(store));
run_loop.Run();
return result;
}
Profile* profile() { return profile_.get(); }
content::BrowserTaskEnvironment task_environment_;
chromeos::FakeConciergeClient* fake_concierge_client_;
std::unique_ptr<TestingProfile> profile_;
std::unique_ptr<CrostiniTestHelper> test_helper_;
};
TEST_F(CrostiniDiskTest, NonResizeableDiskReturnsEarly) {
vm_tools::concierge::ListVmDisksResponse response;
response.set_success(true);
auto* image = response.add_images();
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_QCOW2);
image->set_name("vm_name");
auto disk_info = OnListVmDisksWithResult("vm_name", 0, response);
ASSERT_TRUE(disk_info);
EXPECT_FALSE(disk_info->can_resize);
}
TEST_F(CrostiniDiskTest, CallbackGetsEmptyInfoOnError) {
auto disk_info_nullopt = OnListVmDisksWithResult("vm_name", 0, absl::nullopt);
EXPECT_FALSE(disk_info_nullopt);
vm_tools::concierge::ListVmDisksResponse failure_response;
failure_response.set_success(false);
auto disk_info_failure =
OnListVmDisksWithResult("vm_name", 0, failure_response);
EXPECT_FALSE(disk_info_failure);
vm_tools::concierge::ListVmDisksResponse no_matching_disks_response;
auto* image = no_matching_disks_response.add_images();
no_matching_disks_response.set_success(true);
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_QCOW2);
image->set_name("wrong_name");
auto disk_info_no_disks =
OnListVmDisksWithResult("vm_name", 0, no_matching_disks_response);
EXPECT_FALSE(disk_info_no_disks);
}
TEST_F(CrostiniDiskTest, IsUserChosenSizeIsReportedCorrectly) {
vm_tools::concierge::ListVmDisksResponse response;
auto* image = response.add_images();
response.set_success(true);
image->set_name("vm_name");
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_RAW);
image->set_user_chosen_size(true);
image->set_min_size(1);
const int64_t available_bytes = kDiskHeadroomBytes + kMinimumDiskSizeBytes;
auto disk_info_user_size =
OnListVmDisksWithResult("vm_name", available_bytes, response);
ASSERT_TRUE(disk_info_user_size);
EXPECT_TRUE(disk_info_user_size->can_resize);
EXPECT_TRUE(disk_info_user_size->is_user_chosen_size);
image->set_user_chosen_size(false);
auto disk_info_not_user_size =
OnListVmDisksWithResult("vm_name", available_bytes, response);
ASSERT_TRUE(disk_info_not_user_size);
EXPECT_TRUE(disk_info_not_user_size->can_resize);
EXPECT_FALSE(disk_info_not_user_size->is_user_chosen_size);
}
TEST_F(CrostiniDiskTest, AreTicksCalculated) {
// The actual tick calculation has its own unit tests, we just check that we
// get something that looks sane for given values.
vm_tools::concierge::ListVmDisksResponse response;
auto* image = response.add_images();
response.set_success(true);
image->set_name("vm_name");
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_RAW);
image->set_min_size(1000);
image->set_size(kMinimumDiskSizeBytes);
auto disk_info =
OnListVmDisksWithResult("vm_name", 100 + kDiskHeadroomBytes, response);
ASSERT_TRUE(disk_info);
EXPECT_EQ(disk_info->ticks.front()->value, kMinimumDiskSizeBytes);
}
TEST_F(CrostiniDiskTest, DefaultIsCurrentValue) {
vm_tools::concierge::ListVmDisksResponse response;
auto* image = response.add_images();
response.set_success(true);
image->set_name("vm_name");
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_RAW);
image->set_min_size(1000);
image->set_size(3 * kGiB);
auto disk_info =
OnListVmDisksWithResult("vm_name", 111 * kDiskHeadroomBytes, response);
ASSERT_TRUE(disk_info);
ASSERT_TRUE(disk_info->ticks.size() > 3);
EXPECT_EQ(disk_info->ticks.at(disk_info->default_index)->value, 3 * kGiB);
EXPECT_LT(disk_info->ticks.at(disk_info->default_index - 1)->value, 3 * kGiB);
EXPECT_GT(disk_info->ticks.at(disk_info->default_index + 1)->value, 3 * kGiB);
}
// Numbers taken from crbug/1126705.
TEST_F(CrostiniDiskTest, AllocatedAboveMax) {
vm_tools::concierge::ListVmDisksResponse response;
auto* image = response.add_images();
response.set_success(true);
image->set_name("vm_name");
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_RAW);
image->set_min_size(3260022784);
image->set_size(459561652224);
auto disk_info = OnListVmDisksWithResult("vm_name", 1120739328, response);
ASSERT_TRUE(disk_info);
ASSERT_TRUE(disk_info->ticks.size() > 3);
EXPECT_EQ(disk_info->default_index, disk_info->ticks.size() - 1);
EXPECT_EQ(disk_info->ticks.at(disk_info->default_index)->value,
image->size());
}
TEST_F(CrostiniDiskTest, AmountOfFreeDiskSpaceFailureIsHandled) {
std::unique_ptr<CrostiniDiskInfo> disk_info;
auto store_info =
base::BindLambdaForTesting([&](std::unique_ptr<CrostiniDiskInfo> info) {
disk_info = std::move(info);
});
OnAmountOfFreeDiskSpace(store_info, nullptr, "vm_name", 0);
EXPECT_FALSE(disk_info);
}
TEST_F(CrostiniDiskTest, VMRunningFailureIsHandled) {
std::unique_ptr<CrostiniDiskInfo> disk_info;
auto store_info =
base::BindLambdaForTesting([&](std::unique_ptr<CrostiniDiskInfo> info) {
disk_info = std::move(info);
});
OnCrostiniSufficientlyRunning(store_info, nullptr, "vm_name", 0,
CrostiniResult::VM_START_FAILED);
EXPECT_FALSE(disk_info);
}
TEST_F(CrostiniDiskTestDbus, DiskResizeImmediateFailureReportsFailure) {
vm_tools::concierge::ResizeDiskImageResponse response;
response.set_status(vm_tools::concierge::DiskImageStatus::DISK_STATUS_FAILED);
fake_concierge_client_->set_resize_disk_image_response(response);
auto result = OnResizeWithResult(profile(), "vm_name", 12345);
EXPECT_EQ(result, false);
}
TEST_F(CrostiniDiskTestDbus, DiskResizeEventualFailureReportsFailure) {
vm_tools::concierge::ResizeDiskImageResponse response;
vm_tools::concierge::DiskImageStatusResponse in_progress;
vm_tools::concierge::DiskImageStatusResponse failed;
response.set_status(
vm_tools::concierge::DiskImageStatus::DISK_STATUS_IN_PROGRESS);
in_progress.set_status(
vm_tools::concierge::DiskImageStatus::DISK_STATUS_IN_PROGRESS);
failed.set_status(vm_tools::concierge::DiskImageStatus::DISK_STATUS_FAILED);
fake_concierge_client_->set_resize_disk_image_response(response);
std::vector<vm_tools::concierge::DiskImageStatusResponse> signals{in_progress,
failed};
fake_concierge_client_->set_disk_image_status_signals(signals);
auto result = OnResizeWithResult(profile(), "vm_name", 12345);
EXPECT_EQ(result, false);
}
TEST_F(CrostiniDiskTestDbus, DiskResizeEventualSuccessReportsSuccess) {
vm_tools::concierge::ResizeDiskImageResponse response;
vm_tools::concierge::DiskImageStatusResponse in_progress;
vm_tools::concierge::DiskImageStatusResponse resized;
response.set_status(
vm_tools::concierge::DiskImageStatus::DISK_STATUS_IN_PROGRESS);
in_progress.set_status(
vm_tools::concierge::DiskImageStatus::DISK_STATUS_IN_PROGRESS);
resized.set_status(vm_tools::concierge::DiskImageStatus::DISK_STATUS_RESIZED);
fake_concierge_client_->set_resize_disk_image_response(response);
std::vector<vm_tools::concierge::DiskImageStatusResponse> signals{in_progress,
resized};
fake_concierge_client_->set_disk_image_status_signals(signals);
auto result = OnResizeWithResult(profile(), "vm_name", 12345);
EXPECT_EQ(result, true);
}
TEST_F(CrostiniDiskTestDbus, DiskResizeNegativeHeadroom) {
vm_tools::concierge::ListVmDisksResponse response;
auto* image = response.add_images();
response.set_success(true);
image->set_name("vm_name");
image->set_image_type(vm_tools::concierge::DiskImageType::DISK_IMAGE_RAW);
image->set_min_size(1000);
image->set_size(3 * kGiB);
auto disk_info =
OnListVmDisksWithResult("vm_name", kDiskHeadroomBytes - 1, response);
ASSERT_TRUE(disk_info);
ASSERT_TRUE(disk_info->ticks.size() > 0);
ASSERT_EQ(disk_info->ticks.at(disk_info->ticks.size() - 1)->value, 3 * kGiB);
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeInvalidInputsNoTicks) {
const std::vector<int64_t> empty = {};
// If min_size > available_space there's no solution, so we expect an empty
// range.
EXPECT_THAT(GetTicksForDiskSize(100, 10), testing::ContainerEq(empty));
// If any of the inputs are negative we return an empty range.
EXPECT_THAT(GetTicksForDiskSize(100, -100), testing::ContainerEq(empty));
EXPECT_THAT(GetTicksForDiskSize(-100, 100), testing::ContainerEq(empty));
EXPECT_THAT(GetTicksForDiskSize(-100, -10), testing::ContainerEq(empty));
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeRoundEnds) {
// With 1000 GiB - epsilon of free space we should round to 1 GiB increments.
// Our top should be rounded down, and bottom rounded up (since they aren't on
// 1GiB).
auto ticks = GetTicksForDiskSize(1, 1000 * kGiB - 1);
EXPECT_EQ(ticks.front(), 1 * kGiB);
EXPECT_EQ(ticks.back(), 999 * kGiB);
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeExactEnds) {
// With 1000 GiB of free space we should round to 1 GiB increments. Since our
// max and min are on 1GIB increments already, they should not be rounded.
auto ticks = GetTicksForDiskSize(0, 1000 * kGiB);
EXPECT_EQ(ticks.front(), 0 * kGiB);
EXPECT_EQ(ticks.back(), 1000 * kGiB);
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeIncrements) {
// We target 400'ish ticks on the slider (implementation detail). With that
// granularity we should have increments of:
// 1.0 GiB for >= 400kGiB
// 0.5 GiB for >= 200kGiB && < 400kGiB
// 0.2 GiB for >= 80GiB && < 200GiB
// 0.1 GiB for < 80 GiB
auto ticks10 = GetTicksForDiskSize(0, 401 * kGiB);
auto ticks05 = GetTicksForDiskSize(0, 399 * kGiB);
auto ticks02 = GetTicksForDiskSize(0, 81 * kGiB);
auto ticks01 = GetTicksForDiskSize(0, 79 * kGiB);
EXPECT_FLOAT_EQ(ticks10[0] + 1.0 * kGiB, double(ticks10[1]));
EXPECT_FLOAT_EQ(ticks05[0] + 0.5 * kGiB, double(ticks05[1]));
EXPECT_FLOAT_EQ(ticks02[0] + 0.2 * kGiB, double(ticks02[1]));
EXPECT_FLOAT_EQ(ticks01[0] + 0.1 * kGiB, double(ticks01[1]));
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeMinimalSpace) {
// Currently our minimum increment is 0.1 GiB. This means that if they have
// <(min + 0.1) GiB available their only option is min.
auto expected = std::vector<int64_t>{2 * kGiB};
EXPECT_THAT(GetTicksForDiskSize(2 * kGiB, 2 * kGiB + 0.09 * kGiB),
testing::ContainerEq(expected));
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeSmallRangeNonZeroStart) {
// 20 ticks for 1 GiB, smallest interval is 0.1GiB so we should end up with
// only 11 0.1 GiB ticks. For bonus coverage, start at non-zero/.
auto ticks = GetTicksForDiskSize(2 * kGiB, 3 * kGiB, 20);
std::vector<int64_t> expected = {
int64_t(2.0 * kGiB), int64_t(2.1 * kGiB), int64_t(2.2 * kGiB),
int64_t(2.3 * kGiB), int64_t(2.4 * kGiB), int64_t(2.5 * kGiB),
int64_t(2.6 * kGiB), int64_t(2.7 * kGiB), int64_t(2.8 * kGiB),
int64_t(2.9 * kGiB), int64_t(3.0 * kGiB)};
ASSERT_EQ(ticks.size(), expected.size());
for (size_t n = 0; n < expected.size(); n++) {
EXPECT_FLOAT_EQ(ticks[n], expected[n]);
}
}
TEST_F(CrostiniDiskTest, GetTicksForDiskSizeLargeRange) {
// 5 ticks for 7 GiB, largest interval is 1GiB so we should end up with 8
// 0.1 GiB ticks. For bonus coverage, start at non-zero non-round.
auto ticks = GetTicksForDiskSize(13 * kGiB - 5678, 20 * kGiB + 1234, 5);
std::vector<int64_t> expected = {13 * kGiB, 14 * kGiB, 15 * kGiB, 16 * kGiB,
17 * kGiB, 18 * kGiB, 19 * kGiB, 20 * kGiB};
ASSERT_EQ(ticks.size(), expected.size());
for (size_t n = 0; n < expected.size(); n++) {
EXPECT_FLOAT_EQ(ticks[n], expected[n]);
}
}
} // namespace disk
} // namespace crostini