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// Copyright 2015 The Crashpad Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "client/prune_crash_reports.h"
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <algorithm>
#include <random>
#include <string>
#include <vector>
#include "base/numerics/safe_conversions.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "test/scoped_temp_dir.h"
#include "util/file/file_io.h"
namespace crashpad {
namespace test {
namespace {
class MockDatabase : public CrashReportDatabase {
public:
// CrashReportDatabase:
MOCK_METHOD0(GetSettings, Settings*());
MOCK_METHOD1(PrepareNewCrashReport,
OperationStatus(std::unique_ptr<NewReport>*));
MOCK_METHOD2(LookUpCrashReport, OperationStatus(const UUID&, Report*));
MOCK_METHOD1(GetPendingReports, OperationStatus(std::vector<Report>*));
MOCK_METHOD1(GetCompletedReports, OperationStatus(std::vector<Report>*));
MOCK_METHOD3(GetReportForUploading,
OperationStatus(const UUID&,
std::unique_ptr<const UploadReport>*,
bool report_metrics));
MOCK_METHOD3(RecordUploadAttempt,
OperationStatus(UploadReport*, bool, const std::string&));
MOCK_METHOD2(SkipReportUpload,
OperationStatus(const UUID&, Metrics::CrashSkippedReason));
MOCK_METHOD1(DeleteReport, OperationStatus(const UUID&));
MOCK_METHOD1(RequestUpload, OperationStatus(const UUID&));
// gmock doesn't support mocking methods with non-copyable types such as
// unique_ptr.
OperationStatus FinishedWritingCrashReport(std::unique_ptr<NewReport> report,
UUID* uuid) override {
return kNoError;
}
};
time_t NDaysAgo(int num_days) {
return time(nullptr) - (num_days * 60 * 60 * 24);
}
TEST(PruneCrashReports, AgeCondition) {
CrashReportDatabase::Report report_80_days;
report_80_days.creation_time = NDaysAgo(80);
CrashReportDatabase::Report report_10_days;
report_10_days.creation_time = NDaysAgo(10);
CrashReportDatabase::Report report_30_days;
report_30_days.creation_time = NDaysAgo(30);
AgePruneCondition condition(30);
EXPECT_TRUE(condition.ShouldPruneReport(report_80_days));
EXPECT_FALSE(condition.ShouldPruneReport(report_10_days));
EXPECT_FALSE(condition.ShouldPruneReport(report_30_days));
}
TEST(PruneCrashReports, SizeCondition) {
CrashReportDatabase::Report report_1k;
report_1k.total_size = 1024u;
CrashReportDatabase::Report report_3k;
report_3k.total_size = 1024u * 3u;
CrashReportDatabase::Report report_unset_size;
{
DatabaseSizePruneCondition condition(/*max_size_in_kb=*/1);
// |report_1k| should not be pruned as the cumulated size is not past 1kB
// yet.
EXPECT_FALSE(condition.ShouldPruneReport(report_1k));
// |report_3k| should be pruned as the cumulated size is now past 1kB.
EXPECT_TRUE(condition.ShouldPruneReport(report_3k));
}
{
DatabaseSizePruneCondition condition(/*max_size_in_kb=*/1);
// |report_3k| should be pruned as the cumulated size is already past 1kB.
EXPECT_TRUE(condition.ShouldPruneReport(report_3k));
}
{
DatabaseSizePruneCondition condition(/*max_size_in_kb=*/6);
// |report_3k| should not be pruned as the cumulated size is not past 6kB
// yet.
EXPECT_FALSE(condition.ShouldPruneReport(report_3k));
// |report_3k| should not be pruned as the cumulated size is not past 6kB
// yet.
EXPECT_FALSE(condition.ShouldPruneReport(report_3k));
// |report_1k| should be pruned as the cumulated size is now past 6kB.
EXPECT_TRUE(condition.ShouldPruneReport(report_1k));
}
{
DatabaseSizePruneCondition condition(/*max_size_in_kb=*/0);
// |report_unset_size| should not be pruned as its size is 0, regardless of
// how many times we try to prune it.
EXPECT_FALSE(condition.ShouldPruneReport(report_unset_size));
EXPECT_FALSE(condition.ShouldPruneReport(report_unset_size));
EXPECT_FALSE(condition.ShouldPruneReport(report_unset_size));
EXPECT_FALSE(condition.ShouldPruneReport(report_unset_size));
EXPECT_FALSE(condition.ShouldPruneReport(report_unset_size));
// |report_1k| should be pruned as the cumulated size is now past 0kB.
EXPECT_TRUE(condition.ShouldPruneReport(report_1k));
}
}
class StaticCondition final : public PruneCondition {
public:
explicit StaticCondition(bool value) : value_(value), did_execute_(false) {}
~StaticCondition() {}
bool ShouldPruneReport(const CrashReportDatabase::Report& report) override {
did_execute_ = true;
return value_;
}
bool did_execute() const { return did_execute_; }
private:
const bool value_;
bool did_execute_;
DISALLOW_COPY_AND_ASSIGN(StaticCondition);
};
TEST(PruneCrashReports, BinaryCondition) {
static constexpr struct {
const char* name;
BinaryPruneCondition::Operator op;
bool lhs_value;
bool rhs_value;
bool cond_result;
bool lhs_executed;
bool rhs_executed;
} kTests[] = {
{"false && false",
BinaryPruneCondition::AND, false, false,
false, true, false},
{"false && true",
BinaryPruneCondition::AND, false, true,
false, true, false},
{"true && false",
BinaryPruneCondition::AND, true, false,
false, true, true},
{"true && true",
BinaryPruneCondition::AND, true, true,
true, true, true},
{"false || false",
BinaryPruneCondition::OR, false, false,
false, true, true},
{"false || true",
BinaryPruneCondition::OR, false, true,
true, true, true},
{"true || false",
BinaryPruneCondition::OR, true, false,
true, true, false},
{"true || true",
BinaryPruneCondition::OR, true, true,
true, true, false},
};
for (const auto& test : kTests) {
SCOPED_TRACE(test.name);
auto lhs = new StaticCondition(test.lhs_value);
auto rhs = new StaticCondition(test.rhs_value);
BinaryPruneCondition condition(test.op, lhs, rhs);
CrashReportDatabase::Report report;
EXPECT_EQ(condition.ShouldPruneReport(report), test.cond_result);
EXPECT_EQ(lhs->did_execute(), test.lhs_executed);
EXPECT_EQ(rhs->did_execute(), test.rhs_executed);
}
}
MATCHER_P(TestUUID, data_1, "") {
return arg.data_1 == data_1;
}
TEST(PruneCrashReports, PruneOrder) {
using ::testing::_;
using ::testing::DoAll;
using ::testing::Return;
using ::testing::SetArgPointee;
const size_t kNumReports = 10;
std::vector<CrashReportDatabase::Report> reports;
for (size_t i = 0; i < kNumReports; ++i) {
CrashReportDatabase::Report temp;
temp.uuid.data_1 = static_cast<uint32_t>(i);
temp.creation_time = NDaysAgo(static_cast<int>(i) * 10);
reports.push_back(temp);
}
std::mt19937 urng(std::random_device{}());
std::shuffle(reports.begin(), reports.end(), urng);
std::vector<CrashReportDatabase::Report> pending_reports(
reports.begin(), reports.begin() + 5);
std::vector<CrashReportDatabase::Report> completed_reports(
reports.begin() + 5, reports.end());
MockDatabase db;
EXPECT_CALL(db, GetPendingReports(_)).WillOnce(DoAll(
SetArgPointee<0>(pending_reports),
Return(CrashReportDatabase::kNoError)));
EXPECT_CALL(db, GetCompletedReports(_)).WillOnce(DoAll(
SetArgPointee<0>(completed_reports),
Return(CrashReportDatabase::kNoError)));
for (size_t i = 0; i < reports.size(); ++i) {
EXPECT_CALL(db, DeleteReport(TestUUID(i)))
.WillOnce(Return(CrashReportDatabase::kNoError));
}
StaticCondition delete_all(true);
EXPECT_EQ(PruneCrashReportDatabase(&db, &delete_all), kNumReports);
}
} // namespace
} // namespace test
} // namespace crashpad