dolphin/Source/UnitTests/Core/IOS/FS/FileSystemTest.cpp

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// Copyright 2018 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include <array>
#include <memory>
#include <string>
#include <gtest/gtest.h>
#include "Common/CommonTypes.h"
#include "Common/FileUtil.h"
#include "Core/IOS/FS/FileSystem.h"
#include "Core/IOS/IOS.h"
#include "UICommon/UICommon.h"
using namespace IOS::HLE::FS;
constexpr Modes modes{Mode::ReadWrite, Mode::None, Mode::None};
class FileSystemTest : public testing::Test
{
protected:
FileSystemTest() : m_profile_path{File::CreateTempDir()}
{
UICommon::SetUserDirectory(m_profile_path);
m_fs = IOS::HLE::Kernel{}.GetFS();
}
virtual ~FileSystemTest()
{
m_fs.reset();
File::DeleteDirRecursively(m_profile_path);
}
std::shared_ptr<FileSystem> m_fs;
private:
std::string m_profile_path;
};
TEST(FileSystem, BasicPathValidity)
{
EXPECT_TRUE(IsValidPath("/"));
EXPECT_FALSE(IsValidNonRootPath("/"));
EXPECT_TRUE(IsValidNonRootPath("/shared2/sys/SYSCONF"));
EXPECT_TRUE(IsValidNonRootPath("/shared2/sys"));
EXPECT_TRUE(IsValidNonRootPath("/shared2"));
// Paths must start with /.
EXPECT_FALSE(IsValidNonRootPath("\\test"));
// Paths must not end with /.
EXPECT_FALSE(IsValidNonRootPath("/shared2/sys/"));
// Paths must not be longer than 64 characters.
EXPECT_FALSE(IsValidPath(
"/abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz"));
}
TEST(FileSystem, PathSplitting)
{
SplitPathResult result;
result = {"/shared1", "00000042.app"};
EXPECT_EQ(SplitPathAndBasename("/shared1/00000042.app"), result);
result = {"/shared2/sys", "SYSCONF"};
EXPECT_EQ(SplitPathAndBasename("/shared2/sys/SYSCONF"), result);
result = {"/shared2", "sys"};
EXPECT_EQ(SplitPathAndBasename("/shared2/sys"), result);
result = {"/", "shared2"};
EXPECT_EQ(SplitPathAndBasename("/shared2"), result);
}
TEST_F(FileSystemTest, EssentialDirectories)
{
for (const std::string& path :
{"/sys", "/ticket", "/title", "/shared1", "/shared2", "/tmp", "/import", "/meta"})
{
EXPECT_TRUE(m_fs->ReadDirectory(Uid{0}, Gid{0}, path).Succeeded()) << path;
}
}
TEST_F(FileSystemTest, CreateFile)
{
const std::string PATH = "/tmp/f";
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constexpr u8 ArbitraryAttribute = 0xE1;
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, PATH, ArbitraryAttribute, modes), ResultCode::Success);
const Result<Metadata> stats = m_fs->GetMetadata(Uid{0}, Gid{0}, PATH);
ASSERT_TRUE(stats.Succeeded());
EXPECT_TRUE(stats->is_file);
EXPECT_EQ(stats->size, 0u);
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EXPECT_EQ(stats->uid, 0);
EXPECT_EQ(stats->gid, 0);
EXPECT_EQ(stats->modes, modes);
EXPECT_EQ(stats->attribute, ArbitraryAttribute);
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, PATH, 0, modes), ResultCode::AlreadyExists);
const Result<std::vector<std::string>> tmp_files = m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp");
ASSERT_TRUE(tmp_files.Succeeded());
EXPECT_EQ(std::count(tmp_files->begin(), tmp_files->end(), "f"), 1u);
// Test invalid paths
// Unprintable characters
EXPECT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/tes\1t", 0, modes), ResultCode::Invalid);
EXPECT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/te\x7fst", 0, modes), ResultCode::Invalid);
// Paths with too many components are not rejected for files.
EXPECT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/1/2/3/4/5/6/7/8/9", 0, modes), ResultCode::NotFound);
}
TEST_F(FileSystemTest, CreateDirectory)
{
const std::string PATH = "/tmp/d";
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constexpr u8 ArbitraryAttribute = 0x20;
ASSERT_EQ(m_fs->CreateDirectory(Uid{0}, Gid{0}, PATH, ArbitraryAttribute, modes),
ResultCode::Success);
const Result<Metadata> stats = m_fs->GetMetadata(Uid{0}, Gid{0}, PATH);
ASSERT_TRUE(stats.Succeeded());
EXPECT_FALSE(stats->is_file);
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EXPECT_EQ(stats->uid, 0);
EXPECT_EQ(stats->gid, 0);
EXPECT_EQ(stats->modes, modes);
EXPECT_EQ(stats->attribute, ArbitraryAttribute);
const Result<std::vector<std::string>> children = m_fs->ReadDirectory(Uid{0}, Gid{0}, PATH);
ASSERT_TRUE(children.Succeeded());
EXPECT_TRUE(children->empty());
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EXPECT_EQ(m_fs->CreateDirectory(Uid{0}, Gid{0}, PATH, 0, modes), ResultCode::AlreadyExists);
// Paths with too many components should be rejected.
EXPECT_EQ(m_fs->CreateDirectory(Uid{0}, Gid{0}, "/1/2/3/4/5/6/7/8/9", 0, modes),
ResultCode::TooManyPathComponents);
}
TEST_F(FileSystemTest, Delete)
{
EXPECT_TRUE(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp").Succeeded());
EXPECT_EQ(m_fs->Delete(Uid{0}, Gid{0}, "/tmp"), ResultCode::Success);
EXPECT_EQ(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp").Error(), ResultCode::NotFound);
}
TEST_F(FileSystemTest, Rename)
{
EXPECT_TRUE(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp").Succeeded());
EXPECT_EQ(m_fs->Rename(Uid{0}, Gid{0}, "/tmp", "/test"), ResultCode::Success);
EXPECT_EQ(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp").Error(), ResultCode::NotFound);
EXPECT_TRUE(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/test").Succeeded());
// Rename /test back to /tmp.
EXPECT_EQ(m_fs->Rename(Uid{0}, Gid{0}, "/test", "/tmp"), ResultCode::Success);
// Create a file called /tmp/f1, and rename it to /tmp/f2.
// This should not work; file name changes are not allowed for files.
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f1", 0, modes), ResultCode::Success);
EXPECT_EQ(m_fs->Rename(Uid{0}, Gid{0}, "/tmp/f1", "/tmp/f2"), ResultCode::Invalid);
}
TEST_F(FileSystemTest, RenameWithExistingTargetDirectory)
{
// Test directory -> existing, non-empty directory.
// IOS's FS sysmodule is not POSIX compliant and will remove the existing directory
// if it exists, even when there are files in it.
ASSERT_EQ(m_fs->CreateDirectory(Uid{0}, Gid{0}, "/tmp/d", 0, modes), ResultCode::Success);
ASSERT_EQ(m_fs->CreateDirectory(Uid{0}, Gid{0}, "/tmp/d2", 0, modes), ResultCode::Success);
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/d2/file", 0, modes), ResultCode::Success);
EXPECT_EQ(m_fs->Rename(Uid{0}, Gid{0}, "/tmp/d", "/tmp/d2"), ResultCode::Success);
EXPECT_EQ(m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp/d").Error(), ResultCode::NotFound);
const Result<std::vector<std::string>> children = m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp/d2");
ASSERT_TRUE(children.Succeeded());
EXPECT_TRUE(children->empty());
}
TEST_F(FileSystemTest, RenameWithExistingTargetFile)
{
const std::string source_path = "/sys/f2";
const std::string dest_path = "/tmp/f2";
// Create the test source file and write some data (so that we can check its size later on).
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, source_path, 0, modes), ResultCode::Success);
const std::vector<u8> TEST_DATA{{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}};
std::vector<u8> read_buffer(TEST_DATA.size());
{
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, source_path, Mode::ReadWrite);
ASSERT_TRUE(file.Succeeded());
ASSERT_TRUE(file->Write(TEST_DATA.data(), TEST_DATA.size()).Succeeded());
}
// Create the test target file and leave it empty.
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, dest_path, 0, modes), ResultCode::Success);
// Rename /sys/f2 to /tmp/f2 and check that f1 replaced f2.
EXPECT_EQ(m_fs->Rename(Uid{0}, Gid{0}, source_path, dest_path), ResultCode::Success);
ASSERT_FALSE(m_fs->GetMetadata(Uid{0}, Gid{0}, source_path).Succeeded());
EXPECT_EQ(m_fs->GetMetadata(Uid{0}, Gid{0}, source_path).Error(), ResultCode::NotFound);
const Result<Metadata> metadata = m_fs->GetMetadata(Uid{0}, Gid{0}, dest_path);
ASSERT_TRUE(metadata.Succeeded());
EXPECT_TRUE(metadata->is_file);
EXPECT_EQ(metadata->size, TEST_DATA.size());
}
TEST_F(FileSystemTest, GetDirectoryStats)
{
auto check_stats = [this](u32 clusters, u32 inodes) {
const Result<DirectoryStats> stats = m_fs->GetDirectoryStats("/tmp");
ASSERT_TRUE(stats.Succeeded());
EXPECT_EQ(stats->used_clusters, clusters);
EXPECT_EQ(stats->used_inodes, inodes);
};
check_stats(0u, 1u);
EXPECT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/file", 0, modes), ResultCode::Success);
// Still no clusters (because the file is empty), but 2 inodes now.
check_stats(0u, 2u);
{
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/file", Mode::Write);
file->Write(std::vector<u8>(20).data(), 20);
}
// The file should now take up one cluster.
// TODO: uncomment after the FS code is fixed.
// check_stats(1u, 2u);
}
// Files need to be explicitly created using CreateFile or CreateDirectory.
// Automatically creating them on first use would be a bug.
TEST_F(FileSystemTest, NonExistingFiles)
{
const Result<Metadata> metadata = m_fs->GetMetadata(Uid{0}, Gid{0}, "/tmp/foo");
ASSERT_FALSE(metadata.Succeeded());
EXPECT_EQ(metadata.Error(), ResultCode::NotFound);
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/foo", Mode::Read);
ASSERT_FALSE(file.Succeeded());
EXPECT_EQ(file.Error(), ResultCode::NotFound);
const Result<std::vector<std::string>> children = m_fs->ReadDirectory(Uid{0}, Gid{0}, "/foo");
ASSERT_FALSE(children.Succeeded());
EXPECT_EQ(children.Error(), ResultCode::NotFound);
}
TEST_F(FileSystemTest, Seek)
{
const std::vector<u8> TEST_DATA(10);
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f", 0, modes), ResultCode::Success);
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
ASSERT_TRUE(file.Succeeded());
// An empty file should have a size of exactly 0 bytes.
EXPECT_EQ(file->GetStatus()->size, 0u);
// The file position should be set to the start right after an open.
EXPECT_EQ(file->GetStatus()->offset, 0u);
// Write some dummy data.
ASSERT_TRUE(file->Write(TEST_DATA.data(), TEST_DATA.size()).Succeeded());
EXPECT_EQ(file->GetStatus()->size, TEST_DATA.size());
EXPECT_EQ(file->GetStatus()->offset, TEST_DATA.size());
auto seek_and_check = [&file](u32 offset, SeekMode mode, u32 expected_position) {
const Result<u32> new_offset = file->Seek(offset, mode);
ASSERT_TRUE(new_offset.Succeeded());
EXPECT_EQ(*new_offset, expected_position);
EXPECT_EQ(file->GetStatus()->offset, expected_position);
};
seek_and_check(0, SeekMode::Set, 0);
seek_and_check(5, SeekMode::Set, 5);
seek_and_check(0, SeekMode::Current, 5);
seek_and_check(2, SeekMode::Current, 7);
seek_and_check(0, SeekMode::End, 10);
// Test past-EOF seeks.
const Result<u32> new_position = file->Seek(11, SeekMode::Set);
ASSERT_FALSE(new_position.Succeeded());
EXPECT_EQ(new_position.Error(), ResultCode::Invalid);
}
TEST_F(FileSystemTest, WriteAndSimpleReadback)
{
const std::vector<u8> TEST_DATA{{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}};
std::vector<u8> read_buffer(TEST_DATA.size());
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f", 0, modes), ResultCode::Success);
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
ASSERT_TRUE(file.Succeeded());
// Write some test data.
ASSERT_TRUE(file->Write(TEST_DATA.data(), TEST_DATA.size()).Succeeded());
// Now read it back and make sure it is identical.
ASSERT_TRUE(file->Seek(0, SeekMode::Set).Succeeded());
ASSERT_TRUE(file->Read(read_buffer.data(), read_buffer.size()).Succeeded());
EXPECT_EQ(TEST_DATA, read_buffer);
}
TEST_F(FileSystemTest, WriteAndRead)
{
const std::vector<u8> TEST_DATA{{0xf, 1, 2, 3, 4, 5, 6, 7, 8, 9}};
std::vector<u8> buffer(TEST_DATA.size());
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f", 0, modes), ResultCode::Success);
Result<FileHandle> tmp_handle = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
ASSERT_TRUE(tmp_handle.Succeeded());
const Fd fd = tmp_handle->Release();
// Try to read from an empty file. This should do nothing.
// See https://github.com/dolphin-emu/dolphin/pull/4942
Result<u32> read_result = m_fs->ReadBytesFromFile(fd, buffer.data(), buffer.size());
EXPECT_TRUE(read_result.Succeeded());
EXPECT_EQ(*read_result, 0u);
EXPECT_EQ(m_fs->GetFileStatus(fd)->offset, 0u);
ASSERT_TRUE(m_fs->WriteBytesToFile(fd, TEST_DATA.data(), TEST_DATA.size()).Succeeded());
EXPECT_EQ(m_fs->GetFileStatus(fd)->offset, TEST_DATA.size());
// Try to read past EOF while we are at the end of the file. This should do nothing too.
read_result = m_fs->ReadBytesFromFile(fd, buffer.data(), buffer.size());
EXPECT_TRUE(read_result.Succeeded());
EXPECT_EQ(*read_result, 0u);
EXPECT_EQ(m_fs->GetFileStatus(fd)->offset, TEST_DATA.size());
// Go back to the start and try to read past EOF. This should read the entire file until EOF.
ASSERT_TRUE(m_fs->SeekFile(fd, 0, SeekMode::Set).Succeeded());
std::vector<u8> larger_buffer(TEST_DATA.size() + 10);
read_result = m_fs->ReadBytesFromFile(fd, larger_buffer.data(), larger_buffer.size());
EXPECT_TRUE(read_result.Succeeded());
EXPECT_EQ(*read_result, TEST_DATA.size());
EXPECT_EQ(m_fs->GetFileStatus(fd)->offset, TEST_DATA.size());
}
TEST_F(FileSystemTest, MultipleHandles)
{
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f", 0, modes), ResultCode::Success);
{
const Result<FileHandle> file = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
ASSERT_TRUE(file.Succeeded());
// Fill it with 10 zeroes.
ASSERT_TRUE(file->Write(std::vector<u8>(10).data(), 10).Succeeded());
}
const Result<FileHandle> file1 = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
const Result<FileHandle> file2 = m_fs->OpenFile(Uid{0}, Gid{0}, "/tmp/f", Mode::ReadWrite);
ASSERT_TRUE(file1.Succeeded());
ASSERT_TRUE(file2.Succeeded());
// Write some test data using one handle and make sure the data is seen by the other handle
// (see issue 2917, 5232 and 8702 and https://github.com/dolphin-emu/dolphin/pull/2649).
// Also make sure the file offsets are independent for each handle.
const std::vector<u8> TEST_DATA{{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}};
EXPECT_EQ(file1->GetStatus()->offset, 0u);
ASSERT_TRUE(file1->Write(TEST_DATA.data(), TEST_DATA.size()).Succeeded());
EXPECT_EQ(file1->GetStatus()->offset, 10u);
std::vector<u8> read_buffer(TEST_DATA.size());
EXPECT_EQ(file2->GetStatus()->offset, 0u);
ASSERT_TRUE(file2->Read(read_buffer.data(), read_buffer.size()).Succeeded());
EXPECT_EQ(file2->GetStatus()->offset, 10u);
EXPECT_EQ(TEST_DATA, read_buffer);
}
// ReadDirectory is used by official titles to determine whether a path is a file.
// If it is not a file, ResultCode::Invalid must be returned.
TEST_F(FileSystemTest, ReadDirectoryOnFile)
{
ASSERT_EQ(m_fs->CreateFile(Uid{0}, Gid{0}, "/tmp/f", 0, modes), ResultCode::Success);
const Result<std::vector<std::string>> result = m_fs->ReadDirectory(Uid{0}, Gid{0}, "/tmp/f");
ASSERT_FALSE(result.Succeeded());
EXPECT_EQ(result.Error(), ResultCode::Invalid);
}