libcryfs/test/cryfs/filesystem/CryNodeTest.cpp

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#include <gtest/gtest.h>
#include "testutils/CryTestBase.h"
#include <cryfs/filesystem/CryDir.h>
#include <cryfs/filesystem/CryFile.h>
#include <cryfs/filesystem/CryOpenFile.h>
using cpputils::unique_ref;
using cpputils::dynamic_pointer_move;
using namespace cryfs;
namespace bf = boost::filesystem;
// Many generic (black box) test cases for FsppNode are covered in Fspp fstest.
// This class adds some tests that need insight into how CryFS works.
class CryNodeTest : public ::testing::Test, public CryTestBase {
public:
static constexpr fspp::mode_t MODE_PUBLIC = fspp::mode_t()
.addUserReadFlag().addUserWriteFlag().addUserExecFlag()
.addGroupReadFlag().addGroupWriteFlag().addGroupExecFlag()
.addOtherReadFlag().addOtherWriteFlag().addOtherExecFlag();
unique_ref<CryNode> CreateFile(const bf::path &path) {
auto parentDir = device().LoadDir(path.parent_path()).value();
parentDir->createAndOpenFile(path.filename().string(), MODE_PUBLIC, fspp::uid_t(0), fspp::gid_t(0));
auto file = device().Load(path).value();
return dynamic_pointer_move<CryNode>(file).value();
}
unique_ref<CryNode> CreateDir(const bf::path &path) {
auto _parentDir = device().Load(path.parent_path()).value();
auto parentDir = dynamic_pointer_move<CryDir>(_parentDir).value();
parentDir->createDir(path.filename().string(), MODE_PUBLIC, fspp::uid_t(0), fspp::gid_t(0));
auto createdDir = device().Load(path).value();
return dynamic_pointer_move<CryNode>(createdDir).value();
}
unique_ref<CryNode> CreateSymlink(const bf::path &path) {
auto _parentDir = device().Load(path.parent_path()).value();
auto parentDir = dynamic_pointer_move<CryDir>(_parentDir).value();
parentDir->createSymlink(path.filename().string(), "/target", fspp::uid_t(0), fspp::gid_t(0));
auto createdSymlink = device().Load(path).value();
return dynamic_pointer_move<CryNode>(createdSymlink).value();
}
};
constexpr fspp::mode_t CryNodeTest::MODE_PUBLIC;
TEST_F(CryNodeTest, Rename_DoesntLeaveBlocksOver) {
auto node = CreateFile("/oldname");
EXPECT_EQ(2u, device().numBlocks()); // In the beginning, there is two blocks (the root block and the created file). If that is not true anymore, we'll have to adapt the test case.
node->rename("/newname");
EXPECT_EQ(2u, device().numBlocks()); // Still same number of blocks
}
// TODO Add similar test cases (i.e. checking number of blocks) for other situations in rename, and also for other operations (e.g. deleting files).
TEST_F(CryNodeTest, Rename_Overwrite_DoesntLeaveBlocksOver) {
auto node = CreateFile("/oldname");
CreateFile("/newexistingname");
EXPECT_EQ(3u, device().numBlocks()); // In the beginning, there is three blocks (the root block and the two created files). If that is not true anymore, we'll have to adapt the test case.
node->rename("/newexistingname");
EXPECT_EQ(2u, device().numBlocks()); // Only the blocks of one file are left
}
TEST_F(CryNodeTest, Rename_UpdatesParentPointers_File) {
this->CreateDir("/mydir");
auto node = this->CreateFile("/oldname");
node->rename("/mydir/newname");
EXPECT_TRUE(node->checkParentPointer());
}
TEST_F(CryNodeTest, Rename_UpdatesParentPointers_Dir) {
this->CreateDir("/mydir");
auto node = this->CreateDir("/oldname");
node->rename("/mydir/newname");
EXPECT_TRUE(node->checkParentPointer());
}
TEST_F(CryNodeTest, Rename_UpdatesParentPointers_Symlink) {
this->CreateDir("/mydir");
auto node = this->CreateSymlink("/oldname");
node->rename("/mydir/newname");
EXPECT_TRUE(node->checkParentPointer());
}