sandboxed-api/oss-internship-2020/libarchive/test/minitar_test.cc

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// Copyright 2020 Google LLC
//
// 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
//
// https://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.
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#include <fstream>
#include "sapi_minitar.h" // NOLINT(build/include)
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#include "gtest/gtest.h"
#include "sandboxed_api/sandbox2/util.h"
#include "sandboxed_api/util/fileops.h"
#include "sandboxed_api/util/path.h"
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#include "sandboxed_api/util/status_matchers.h"
namespace {
using ::sapi::IsOk;
using ::sapi::file::JoinPath;
using ::sapi::file_util::fileops::Exists;
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using ::testing::Eq;
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using ::testing::IsTrue;
using ::testing::StrEq;
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// We will use a fixture class for testing which allows us to override the
// SetUp and TearDown functions. Also, data that needs to be initialized
// or destroyed only once (the test files and directories) will be handled
// in the SetUpTestSuite and TearDownTestSuite functions which are executed
// only once.
// All of the testing data will be placed in a temporary directory and each
// test will have it's own temporary directory. At the end of each test
// and all of the tests, the temporary data is deleted.
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class MiniTarTest : public ::testing::Test {
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protected:
// Before running the tests, we create a temporary directory which will
// store generated files and directories used for testing.
// The directory will look as follows:
// -file1
// -dir1 - file2
// - dir2 - file3
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static void SetUpTestSuite() {
absl::StatusOr<std::string> tmp_status = CreateTempDirAtCWD();
ASSERT_THAT(tmp_status, IsOk());
data_dir_ = new std::string(std::move(tmp_status).value());
init_wd_ = new std::string(sandbox2::file_util::fileops::GetCWD());
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ASSERT_THAT(Exists(data_dir_, false), IsTrue())
<< "Test data directory was not created";
ASSERT_THAT(chdir(data_dir_.data()), Eq(0))
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<< "Could not chdir into test data directory";
CreateAndWriteToFile(kFile1);
ASSERT_THAT(mkdir(kDir1.data(), 0755), Eq(0)) << "Could not create dir1";
CreateAndWriteToFile(kFile2);
ASSERT_THAT(mkdir(kDir2.data(), 0755), Eq(0)) << "Could not create dir2";
CreateAndWriteToFile(kFile3);
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test_count_ = 0;
}
static void TearDownTestSuite() {
// The tests have the data directory as their working directory at the end
// so we move to the initial working directory in order to not delete the
// directory that we are inside of.
ASSERT_THAT(chdir(init_wd_->data()), Eq(0))
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<< "Could not chdir into initial working directory";
EXPECT_THAT(sandbox2::file_util::fileops::DeleteRecursively(*data_dir_),
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IsTrue)
<< "Error during test data deletion";
delete init_wd_;
delete data_dir_;
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}
void SetUp() override {
// We use a unique id based on test count to make sure that files created
// during tests do not overlap.
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id_ = "test" + std::to_string(test_count_);
absl::StatusOr<std::string> tmp_status = CreateTempDirAtCWD();
ASSERT_THAT(tmp_status, IsOk());
tmp_dir_ = tmp_status.value();
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ASSERT_THAT(Exists(tmp_dir_, false), IsTrue)
<< "Could not create test specific temporary directory";
ASSERT_THAT(chdir(data_dir_->data()), Eq(0))
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<< "Could not chdir into test data directory";
}
void TearDown() override {
// Move to another directory before deleting the temporary folder.
ASSERT_THAT(chdir(data_dir_->data()), Eq(0))
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<< "Could not chdir into test data directory";
EXPECT_THAT(sandbox2::file_util::fileops::DeleteRecursively(tmp_dir_),
IsTrue)
<< "Error during test temporary directory deletion";
++test_count_;
}
// Creates the file specified and writes the same filename.
// This is done in order to not have completely empty files for the
// archiving step.
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static void CreateAndWriteToFile(absl::string_view file) {
std::ofstream fin(file.data());
ASSERT_THAT(fin.is_open(), IsTrue()) << "Could not create" << file;
fin << file;
fin.close();
}
// Checks if the files exists and if the contents are correct.
// In these tests, each file contains the relative path from the test
// directory.
// Example: dir1/dir2/file3 will contain dir1/dir2/file3.
// What the files contain does not matter as much, the only important thing
// is that they are not empty so we can check if the contents are preserved.
static void CheckFile(const std::string& file) {
ASSERT_THAT(Exists(file, false), IsTrue()) << "Could not find " << file;
std::ifstream fin(file);
ASSERT_THAT(fin.is_open(), IsTrue()) << "Error when opening " << file;
std::string file_contents((std::istreambuf_iterator<char>(fin)),
std::istreambuf_iterator<char>());
EXPECT_THAT(file_contents, StrEq(file))
<< "Contents of " << file << " are different after extraction";
fin.close();
}
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static int test_count_;
static std::string* data_dir_;
static std::string* init_wd_;
std::string tmp_dir_;
std::string id_;
static constexpr absl::string_view kFile1 = "file1";
static constexpr absl::string_view kFile2 = "dir1/file2";
static constexpr absl::string_view kFile3 = "dir1/dir2/file3";
static constexpr absl::string_view kDir1 = "dir1";
static constexpr absl::string_view kDir2 = "dir1/dir2";
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};
int MiniTarTest::test_count_;
std::string* MiniTarTest::data_dir_;
std::string* MiniTarTest::init_wd_;
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// The tests have the following pattern:
// 1) From inside the test data directory, call the create function with
// different arguments.
// 2) Move to the test specific temporary directory created during the
// set up phase.
// 3) Extract the archive created at step 1.
// 4) Check that the files in the archive have been extracted correctly
// by first checking if they exist and then checking if the content is the
// same as in the original file.
TEST_F(MiniTarTest, TestFileSimple) {
std::vector<std::string> v = {kFile1.data()};
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ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
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<< "Could not chdir into test data directory";
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ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
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}
TEST_F(MiniTarTest, TestMultipleFiles) {
std::vector<std::string> v = {kFile1.data(), kFile2.data(), kFile3.data()};
ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
ASSERT_THAT(Exists(id_.data(), false), IsTrue())
<< "Archive file was not created";
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestDirectorySimple) {
std::vector<std::string> v = {kDir2.data()};
ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestDirectoryNested) {
std::vector<std::string> v = {kDir1.data()};
ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
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CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestComplex) {
std::vector<std::string> v = {kFile1.data(), kDir1.data()};
ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestCompress) {
std::vector<std::string> v = {kFile1.data(), kDir1.data()};
int compress = 'Z';
ASSERT_THAT(CreateArchive(id_.data(), compress, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestGZIP) {
std::vector<std::string> v = {kFile1.data(), kDir1.data()};
int compress = 'z';
ASSERT_THAT(CreateArchive(id_.data(), compress, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
TEST_F(MiniTarTest, TestBZIP2) {
std::vector<std::string> v = {kFile1.data(), kDir1.data()};
int compress = 'j';
ASSERT_THAT(CreateArchive(id_.data(), compress, v, false), IsOk());
ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
}
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TEST_F(MiniTarTest, TestPaths) {
// These should be equivalent to kFile1 and kDir1 after cleaning.
std::vector<std::string> v = {JoinPath("a/b/../../c/../", kFile1).data(),
JoinPath("d/../e/././///../", kDir1).data()};
ASSERT_THAT(CreateArchive(id_.data(), 0, v, false), IsOk());
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ASSERT_THAT(chdir(tmp_dir_.data()), Eq(0))
<< "Could not chdir into test data directory";
ASSERT_THAT(ExtractArchive(JoinPath(*data_dir_, id_).data(), 1, 0, false),
IsOk());
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CheckFile(std::string(kFile1));
CheckFile(std::string(kFile2));
CheckFile(std::string(kFile3));
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}
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} // namespace