//===-- FileSystem.cpp ----------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Host/FileSystem.h" #include "lldb/Utility/DataBufferLLVM.h" #include "llvm/Support/Errc.h" #include "llvm/Support/Errno.h" #include "llvm/Support/Error.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Path.h" #include "llvm/Support/Program.h" #include "llvm/Support/Threading.h" #include #include #include #include #include #ifdef _WIN32 #include "lldb/Host/windows/windows.h" #else #include #include #include #include #endif #include #include #include #include using namespace lldb; using namespace lldb_private; using namespace llvm; FileSystem &FileSystem::Instance() { return *InstanceImpl(); } void FileSystem::Terminate() { lldbassert(InstanceImpl() && "Already terminated."); InstanceImpl().reset(); } std::optional &FileSystem::InstanceImpl() { static std::optional g_fs; return g_fs; } vfs::directory_iterator FileSystem::DirBegin(const FileSpec &file_spec, std::error_code &ec) { if (!file_spec) { ec = std::error_code(static_cast(errc::no_such_file_or_directory), std::system_category()); return {}; } return DirBegin(file_spec.GetPath(), ec); } vfs::directory_iterator FileSystem::DirBegin(const Twine &dir, std::error_code &ec) { return m_fs->dir_begin(dir, ec); } llvm::ErrorOr FileSystem::GetStatus(const FileSpec &file_spec) const { if (!file_spec) return std::error_code(static_cast(errc::no_such_file_or_directory), std::system_category()); return GetStatus(file_spec.GetPath()); } llvm::ErrorOr FileSystem::GetStatus(const Twine &path) const { return m_fs->status(path); } sys::TimePoint<> FileSystem::GetModificationTime(const FileSpec &file_spec) const { if (!file_spec) return sys::TimePoint<>(); return GetModificationTime(file_spec.GetPath()); } sys::TimePoint<> FileSystem::GetModificationTime(const Twine &path) const { ErrorOr status = m_fs->status(path); if (!status) return sys::TimePoint<>(); return status->getLastModificationTime(); } uint64_t FileSystem::GetByteSize(const FileSpec &file_spec) const { if (!file_spec) return 0; return GetByteSize(file_spec.GetPath()); } uint64_t FileSystem::GetByteSize(const Twine &path) const { ErrorOr status = m_fs->status(path); if (!status) return 0; return status->getSize(); } uint32_t FileSystem::GetPermissions(const FileSpec &file_spec) const { return GetPermissions(file_spec.GetPath()); } uint32_t FileSystem::GetPermissions(const FileSpec &file_spec, std::error_code &ec) const { if (!file_spec) return sys::fs::perms::perms_not_known; return GetPermissions(file_spec.GetPath(), ec); } uint32_t FileSystem::GetPermissions(const Twine &path) const { std::error_code ec; return GetPermissions(path, ec); } uint32_t FileSystem::GetPermissions(const Twine &path, std::error_code &ec) const { ErrorOr status = m_fs->status(path); if (!status) { ec = status.getError(); return sys::fs::perms::perms_not_known; } return status->getPermissions(); } bool FileSystem::Exists(const Twine &path) const { return m_fs->exists(path); } bool FileSystem::Exists(const FileSpec &file_spec) const { return file_spec && Exists(file_spec.GetPath()); } bool FileSystem::Readable(const Twine &path) const { return GetPermissions(path) & sys::fs::perms::all_read; } bool FileSystem::Readable(const FileSpec &file_spec) const { return file_spec && Readable(file_spec.GetPath()); } bool FileSystem::IsDirectory(const Twine &path) const { ErrorOr status = m_fs->status(path); if (!status) return false; return status->isDirectory(); } bool FileSystem::IsDirectory(const FileSpec &file_spec) const { return file_spec && IsDirectory(file_spec.GetPath()); } bool FileSystem::IsLocal(const Twine &path) const { bool b = false; m_fs->isLocal(path, b); return b; } bool FileSystem::IsLocal(const FileSpec &file_spec) const { return file_spec && IsLocal(file_spec.GetPath()); } void FileSystem::EnumerateDirectory(Twine path, bool find_directories, bool find_files, bool find_other, EnumerateDirectoryCallbackType callback, void *callback_baton) { std::error_code EC; vfs::recursive_directory_iterator Iter(*m_fs, path, EC); vfs::recursive_directory_iterator End; for (; Iter != End && !EC; Iter.increment(EC)) { const auto &Item = *Iter; ErrorOr Status = m_fs->status(Item.path()); if (!Status) continue; if (!find_files && Status->isRegularFile()) continue; if (!find_directories && Status->isDirectory()) continue; if (!find_other && Status->isOther()) continue; auto Result = callback(callback_baton, Status->getType(), Item.path()); if (Result == eEnumerateDirectoryResultQuit) return; if (Result == eEnumerateDirectoryResultNext) { // Default behavior is to recurse. Opt out if the callback doesn't want // this behavior. Iter.no_push(); } } } std::error_code FileSystem::MakeAbsolute(SmallVectorImpl &path) const { return m_fs->makeAbsolute(path); } std::error_code FileSystem::MakeAbsolute(FileSpec &file_spec) const { SmallString<128> path; file_spec.GetPath(path, false); auto EC = MakeAbsolute(path); if (EC) return EC; FileSpec new_file_spec(path, file_spec.GetPathStyle()); file_spec = new_file_spec; return {}; } std::error_code FileSystem::GetRealPath(const Twine &path, SmallVectorImpl &output) const { return m_fs->getRealPath(path, output); } void FileSystem::Resolve(SmallVectorImpl &path) { if (path.empty()) return; // Resolve tilde in path. SmallString<128> resolved(path.begin(), path.end()); assert(m_tilde_resolver && "must initialize tilde resolver in constructor"); m_tilde_resolver->ResolveFullPath(llvm::StringRef(path.begin(), path.size()), resolved); // Try making the path absolute if it exists. SmallString<128> absolute(resolved.begin(), resolved.end()); MakeAbsolute(absolute); path.clear(); if (Exists(absolute)) { path.append(absolute.begin(), absolute.end()); } else { path.append(resolved.begin(), resolved.end()); } } void FileSystem::Resolve(FileSpec &file_spec) { if (!file_spec) return; // Extract path from the FileSpec. SmallString<128> path; file_spec.GetPath(path); // Resolve the path. Resolve(path); // Update the FileSpec with the resolved path. if (file_spec.GetFilename().IsEmpty()) file_spec.SetDirectory(path); else file_spec.SetPath(path); } template static std::unique_ptr GetMemoryBuffer(const llvm::Twine &path, uint64_t size, uint64_t offset, bool is_volatile) { std::unique_ptr buffer; if (size == 0) { auto buffer_or_error = T::getFile(path, is_volatile); if (!buffer_or_error) return nullptr; buffer = std::move(*buffer_or_error); } else { auto buffer_or_error = T::getFileSlice(path, size, offset, is_volatile); if (!buffer_or_error) return nullptr; buffer = std::move(*buffer_or_error); } return buffer; } std::shared_ptr FileSystem::CreateWritableDataBuffer(const llvm::Twine &path, uint64_t size, uint64_t offset) { const bool is_volatile = !IsLocal(path); auto buffer = GetMemoryBuffer(path, size, offset, is_volatile); if (!buffer) return {}; return std::shared_ptr( new WritableDataBufferLLVM(std::move(buffer))); } std::shared_ptr FileSystem::CreateDataBuffer(const llvm::Twine &path, uint64_t size, uint64_t offset) { const bool is_volatile = !IsLocal(path); auto buffer = GetMemoryBuffer(path, size, offset, is_volatile); if (!buffer) return {}; return std::shared_ptr(new DataBufferLLVM(std::move(buffer))); } std::shared_ptr FileSystem::CreateWritableDataBuffer(const FileSpec &file_spec, uint64_t size, uint64_t offset) { return CreateWritableDataBuffer(file_spec.GetPath(), size, offset); } std::shared_ptr FileSystem::CreateDataBuffer(const FileSpec &file_spec, uint64_t size, uint64_t offset) { return CreateDataBuffer(file_spec.GetPath(), size, offset); } bool FileSystem::ResolveExecutableLocation(FileSpec &file_spec) { // If the directory is set there's nothing to do. ConstString directory = file_spec.GetDirectory(); if (directory) return false; // We cannot look for a file if there's no file name. ConstString filename = file_spec.GetFilename(); if (!filename) return false; // Search for the file on the host. const std::string filename_str(filename.GetCString()); llvm::ErrorOr error_or_path = llvm::sys::findProgramByName(filename_str); if (!error_or_path) return false; // findProgramByName returns "." if it can't find the file. llvm::StringRef path = *error_or_path; llvm::StringRef parent = llvm::sys::path::parent_path(path); if (parent.empty() || parent == ".") return false; // Make sure that the result exists. FileSpec result(*error_or_path); if (!Exists(result)) return false; file_spec = result; return true; } bool FileSystem::GetHomeDirectory(SmallVectorImpl &path) const { if (!m_home_directory.empty()) { path.assign(m_home_directory.begin(), m_home_directory.end()); return true; } return llvm::sys::path::home_directory(path); } bool FileSystem::GetHomeDirectory(FileSpec &file_spec) const { SmallString<128> home_dir; if (!GetHomeDirectory(home_dir)) return false; file_spec.SetPath(home_dir); return true; } static int OpenWithFS(const FileSystem &fs, const char *path, int flags, int mode) { return const_cast(fs).Open(path, flags, mode); } static int GetOpenFlags(File::OpenOptions options) { int open_flags = 0; File::OpenOptions rw = options & (File::eOpenOptionReadOnly | File::eOpenOptionWriteOnly | File::eOpenOptionReadWrite); if (rw == File::eOpenOptionWriteOnly || rw == File::eOpenOptionReadWrite) { if (rw == File::eOpenOptionReadWrite) open_flags |= O_RDWR; else open_flags |= O_WRONLY; if (options & File::eOpenOptionAppend) open_flags |= O_APPEND; if (options & File::eOpenOptionTruncate) open_flags |= O_TRUNC; if (options & File::eOpenOptionCanCreate) open_flags |= O_CREAT; if (options & File::eOpenOptionCanCreateNewOnly) open_flags |= O_CREAT | O_EXCL; } else if (rw == File::eOpenOptionReadOnly) { open_flags |= O_RDONLY; #ifndef _WIN32 if (options & File::eOpenOptionDontFollowSymlinks) open_flags |= O_NOFOLLOW; #endif } #ifndef _WIN32 if (options & File::eOpenOptionNonBlocking) open_flags |= O_NONBLOCK; if (options & File::eOpenOptionCloseOnExec) open_flags |= O_CLOEXEC; #else open_flags |= O_BINARY; #endif return open_flags; } static mode_t GetOpenMode(uint32_t permissions) { mode_t mode = 0; if (permissions & lldb::eFilePermissionsUserRead) mode |= S_IRUSR; if (permissions & lldb::eFilePermissionsUserWrite) mode |= S_IWUSR; if (permissions & lldb::eFilePermissionsUserExecute) mode |= S_IXUSR; if (permissions & lldb::eFilePermissionsGroupRead) mode |= S_IRGRP; if (permissions & lldb::eFilePermissionsGroupWrite) mode |= S_IWGRP; if (permissions & lldb::eFilePermissionsGroupExecute) mode |= S_IXGRP; if (permissions & lldb::eFilePermissionsWorldRead) mode |= S_IROTH; if (permissions & lldb::eFilePermissionsWorldWrite) mode |= S_IWOTH; if (permissions & lldb::eFilePermissionsWorldExecute) mode |= S_IXOTH; return mode; } Expected FileSystem::Open(const FileSpec &file_spec, File::OpenOptions options, uint32_t permissions, bool should_close_fd) { const int open_flags = GetOpenFlags(options); const mode_t open_mode = (open_flags & O_CREAT) ? GetOpenMode(permissions) : 0; auto path = file_spec.GetPath(); int descriptor = llvm::sys::RetryAfterSignal( -1, OpenWithFS, *this, path.c_str(), open_flags, open_mode); if (!File::DescriptorIsValid(descriptor)) return llvm::errorCodeToError( std::error_code(errno, std::system_category())); auto file = std::unique_ptr( new NativeFile(descriptor, options, should_close_fd)); assert(file->IsValid()); return std::move(file); } void FileSystem::SetHomeDirectory(std::string home_directory) { m_home_directory = std::move(home_directory); } Status FileSystem::RemoveFile(const FileSpec &file_spec) { return RemoveFile(file_spec.GetPath()); } Status FileSystem::RemoveFile(const llvm::Twine &path) { return Status(llvm::sys::fs::remove(path)); }