#pragma once // No BOM and only basic ASCII in this header, or a neko will die #include "util/types.hpp" #include "util/shared_ptr.hpp" #include "bit_set.h" #include #include #include #include namespace fs { #ifdef _WIN32 static constexpr auto& delim = "/\\"; static constexpr auto& wdelim = L"/\\"; using native_handle = void*; #else static constexpr auto& delim = "/"; static constexpr auto& wdelim = L"/"; using native_handle = int; #endif // File open mode flags enum class open_mode : u32 { read, write, append, create, trunc, excl, lock, unread, isfile, __bitset_enum_max }; constexpr auto read = +open_mode::read; // Enable reading constexpr auto write = +open_mode::write; // Enable writing constexpr auto append = +open_mode::append; // Always append to the end of the file constexpr auto create = +open_mode::create; // Create file if it doesn't exist constexpr auto trunc = +open_mode::trunc; // Clear opened file if it's not empty constexpr auto excl = +open_mode::excl; // Failure if the file already exists (used with `create`) constexpr auto lock = +open_mode::lock; // Prevent opening the file more than once constexpr auto unread = +open_mode::unread; // Aggressively prevent reading the opened file (do not use) constexpr auto isfile = +open_mode::isfile; // Ensure valid fs::file handle is not of directory constexpr auto write_new = write + create + excl; constexpr auto rewrite = write + create + trunc; // File seek mode enum class seek_mode : u32 { seek_set, seek_cur, seek_end, }; constexpr auto seek_set = seek_mode::seek_set; // From beginning constexpr auto seek_cur = seek_mode::seek_cur; // From current position constexpr auto seek_end = seek_mode::seek_end; // From end // File attributes (TODO) struct stat_t { bool is_directory; bool is_symlink; bool is_writable; u64 size; s64 atime; s64 mtime; s64 ctime; using enable_bitcopy = std::true_type; constexpr bool operator==(const stat_t&) const = default; }; // Helper, layout is equal to iovec struct struct iovec_clone { const void* iov_base; usz iov_len; }; struct file_id { std::string type; std::vector data; explicit operator bool() const; bool is_mirror_of(const file_id&) const; bool is_coherent_with(const file_id&) const; }; // File handle base struct file_base { virtual ~file_base(); [[noreturn]] virtual stat_t get_stat(); virtual void sync(); virtual bool trunc(u64 length) = 0; virtual u64 read(void* buffer, u64 size) = 0; virtual u64 read_at(u64 offset, void* buffer, u64 size) = 0; virtual u64 write(const void* buffer, u64 size) = 0; virtual u64 seek(s64 offset, seek_mode whence) = 0; virtual u64 size() = 0; virtual native_handle get_handle(); virtual file_id get_id(); virtual u64 write_gather(const iovec_clone* buffers, u64 buf_count); }; // Directory entry (TODO) struct dir_entry : stat_t { std::string name{}; dir_entry() : stat_t{} { } using enable_bitcopy = std::false_type; }; // Directory handle base struct dir_base { virtual ~dir_base(); virtual bool read(dir_entry&) = 0; virtual void rewind() = 0; }; // Device information struct device_stat { u64 block_size; u64 total_size; u64 total_free; // Total size of free space u64 avail_free; // Free space available to unprivileged user }; // Virtual device struct device_base { const std::string fs_prefix; device_base(); virtual ~device_base(); virtual bool stat(const std::string& path, stat_t& info) = 0; virtual bool statfs(const std::string& path, device_stat& info) = 0; virtual bool remove_dir(const std::string& path); virtual bool create_dir(const std::string& path); virtual bool create_symlink(const std::string& path); virtual bool rename(const std::string& from, const std::string& to); virtual bool remove(const std::string& path); virtual bool trunc(const std::string& path, u64 length); virtual bool utime(const std::string& path, s64 atime, s64 mtime); virtual std::unique_ptr open(const std::string& path, bs_t mode) = 0; virtual std::unique_ptr open_dir(const std::string& path) = 0; }; [[noreturn]] void xnull(const src_loc&); [[noreturn]] void xfail(const src_loc&); [[noreturn]] void xovfl(); constexpr struct pod_tag_t{} pod_tag; // Get virtual device for specified path (nullptr for real path) shared_ptr get_virtual_device(const std::string& path); // Set virtual device with specified name (nullptr for deletion) shared_ptr set_virtual_device(const std::string& name, shared_ptr device); // Try to get parent directory std::string_view get_parent_dir_view(std::string_view path, u32 parent_level = 1); // String (typical use) version inline std::string get_parent_dir(std::string_view path, u32 parent_level = 1) { return std::string{get_parent_dir_view(path, parent_level)}; } // Get file information bool get_stat(const std::string& path, stat_t& info); // Check whether a file or a directory exists (not recommended, use is_file() or is_dir() instead) bool exists(const std::string& path); // Check whether the file exists and is NOT a directory bool is_file(const std::string& path); // Check whether the directory exists and is NOT a file bool is_dir(const std::string& path); // Check whether the path points to an existing symlink bool is_symlink(const std::string& path); // Get filesystem information bool statfs(const std::string& path, device_stat& info); // Delete empty directory bool remove_dir(const std::string& path); // Create directory bool create_dir(const std::string& path); // Create directories bool create_path(const std::string& path); // Create symbolic link bool create_symlink(const std::string& path, const std::string& target); // Rename (move) file or directory bool rename(const std::string& from, const std::string& to, bool overwrite); // Copy file contents bool copy_file(const std::string& from, const std::string& to, bool overwrite); // Delete file bool remove_file(const std::string& path); // Change file size (possibly appending zeros) bool truncate_file(const std::string& path, u64 length); // Set file access/modification time bool utime(const std::string& path, s64 atime, s64 mtime); // Synchronize filesystems (TODO) void sync(); class file final { std::unique_ptr m_file{}; public: // Default constructor file() = default; // Open file with specified mode explicit file(const std::string& path, bs_t mode = ::fs::read); // Open memory for read explicit file(const void* ptr, usz size); // Open file with specified args (forward to constructor) template bool open(Args&&... args) { m_file.reset(); *this = fs::file(std::forward(args)...); return m_file.operator bool(); } // Check whether the handle is valid (opened file) explicit operator bool() const { return m_file.operator bool(); } // Close the file explicitly void close() { m_file.reset(); } void reset(std::unique_ptr&& ptr) { m_file = std::move(ptr); } std::unique_ptr release() { return std::move(m_file); } // Change file size (possibly appending zero bytes) bool trunc(u64 length, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->trunc(length); } // Get file information stat_t get_stat( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->get_stat(); } // Sync file buffers void sync( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->sync(); } // Check if the handle is capable of reading (size * type_size) of bytes at the time of calling bool strict_read_check(u64 offset, u64 size, u64 type_size) const; // Read the data from the file and return the amount of data written in buffer u64 read(void* buffer, u64 count, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->read(buffer, count); } // Read the data from the file at specified offset in thread-safe manner u64 read_at(u64 offset, void* buffer, u64 count, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->read_at(offset, buffer, count); } // Write the data to the file and return the amount of data actually written u64 write(const void* buffer, u64 count, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->write(buffer, count); } // Change current position, returns resulting position u64 seek(s64 offset, seek_mode whence = seek_set, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->seek(offset, whence); } // Get file size u64 size( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->size(); } // Get current position u64 pos( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->seek(0, seek_cur); } // Write std::basic_string unconditionally template requires (std::is_trivially_copyable_v && !std::is_pointer_v) const file& write(const std::basic_string& str, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (write(str.data(), str.size() * sizeof(T), line, col, file, func) != str.size() * sizeof(T)) xfail({line, col, file, func}); return *this; } // Write POD unconditionally template requires (std::is_trivially_copyable_v && !std::is_pointer_v) const file& write(const T& data, pod_tag_t = pod_tag, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (write(std::addressof(data), sizeof(T), line, col, file, func) != sizeof(T)) xfail({line, col, file, func}); return *this; } // Write POD std::vector unconditionally template requires (std::is_trivially_copyable_v && !std::is_pointer_v) const file& write(const std::vector& vec, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (write(vec.data(), vec.size() * sizeof(T), line, col, file, func) != vec.size() * sizeof(T)) xfail({line, col, file, func}); return *this; } // Read std::basic_string template requires (std::is_trivially_copyable_v && !std::is_pointer_v) bool read(std::basic_string& str, usz _size = umax, const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION(), u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN()) const { if (!m_file) xnull({line, col, file, func}); if (_size != umax) { // If _size arg is too high std::bad_alloc may happen during resize and then we cannot error check if ((_size >= 0x10'0000 / sizeof(T)) && !strict_read_check(pos(), _size, sizeof(T))) { return false; } str.resize(_size); } return read(str.data(), sizeof(T) * str.size(), line, col, file, func) == sizeof(T) * str.size(); } // Read POD, sizeof(T) is used template requires (std::is_trivially_copyable_v && !std::is_pointer_v) bool read(T& data, pod_tag_t = pod_tag, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { return read(std::addressof(data), sizeof(T), line, col, file, func) == sizeof(T); } // Read POD std::vector template requires (std::is_trivially_copyable_v && !std::is_pointer_v) bool read(std::vector& vec, usz _size = umax, bool use_offs = false, usz offset = umax, const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION(), u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN()) const { if (!m_file) xnull({line, col, file, func}); if (_size != umax) { // If _size arg is too high std::bad_alloc may happen during resize and then we cannot error check if ((_size >= 0x10'0000 / sizeof(T)) && !strict_read_check(use_offs ? offset : pos(), _size, sizeof(T))) { return false; } vec.resize(_size); } if (use_offs) { return read_at(offset, vec.data(), sizeof(T) * vec.size(), line, col, file, func) == sizeof(T) * vec.size(); } return read(vec.data(), sizeof(T) * vec.size(), line, col, file, func) == sizeof(T) * vec.size(); } // Read POD (experimental) template requires (std::is_trivially_copyable_v && !std::is_pointer_v) T read( pod_tag_t = pod_tag, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { T result; if (!read(result, pod_tag, line, col, file, func)) xfail({line, col, file, func}); return result; } // Read full file to std::basic_string template std::basic_string to_string( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { std::basic_string result; result.resize(size() / sizeof(T)); seek(0); if (!read(result, result.size(), file, func, line, col)) xfail({line, col, file, func}); return result; } // Read full file to std::vector template requires (std::is_trivially_copyable_v && !std::is_pointer_v) std::vector to_vector( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { std::vector result; result.resize(size() / sizeof(T)); if (!read(result, result.size(), true, 0, file, func, line, col)) xfail({line, col, file, func}); return result; } // Get native handle if available native_handle get_handle() const; // Get file ID information (custom ID) file_id get_id() const; // Gathered write u64 write_gather(const iovec_clone* buffers, u64 buf_count, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_file) xnull({line, col, file, func}); return m_file->write_gather(buffers, buf_count); } }; class dir final { std::unique_ptr m_dir{}; public: dir() = default; // Open dir handle explicit dir(const std::string& path) { open(path); } // Open specified directory bool open(const std::string& path); // Check whether the handle is valid (opened directory) explicit operator bool() const { return m_dir.operator bool(); } // Close the directory explicitly void close() { m_dir.reset(); } void reset(std::unique_ptr&& ptr) { m_dir = std::move(ptr); } std::unique_ptr release() { return std::move(m_dir); } // Get next directory entry bool read(dir_entry& out, u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_dir) xnull({line, col, file, func}); return m_dir->read(out); } // Reset to the beginning void rewind( u32 line = __builtin_LINE(), u32 col = __builtin_COLUMN(), const char* file = __builtin_FILE(), const char* func = __builtin_FUNCTION()) const { if (!m_dir) xnull({line, col, file, func}); return m_dir->rewind(); } class iterator { const dir* m_parent; dir_entry m_entry{}; public: enum class mode { from_first, from_current }; iterator(const dir* parent, mode mode_ = mode::from_first) : m_parent(parent) { if (!m_parent) { return; } if (mode_ == mode::from_first) { m_parent->rewind(); } if (!m_parent->read(m_entry)) { m_parent = nullptr; } } iterator(const iterator&) = default; iterator(iterator&&) = default; iterator& operator=(const iterator&) = default; iterator& operator=(iterator&&) = default; dir_entry& operator *() { return m_entry; } iterator& operator++() { *this = {m_parent, mode::from_current}; return *this; } bool operator !=(const iterator& rhs) const { return m_parent != rhs.m_parent; } }; iterator begin() const { return {m_dir ? this : nullptr}; } iterator end() const { return {nullptr}; } }; // Get executable path std::string get_executable_path(); // Get executable containing directory std::string get_executable_dir(); // Get configuration directory const std::string& get_config_dir(); // Get common cache directory const std::string& get_cache_dir(); // Temporary directory const std::string& get_temp_dir(); // Unique pending file creation destined to be renamed to the destination file struct pending_file { fs::file file{}; // This is meant to modify files atomically, overwriting is likely bool commit(bool overwrite = true); bool open(std::string_view path); pending_file() noexcept = default; pending_file(std::string_view path) noexcept { open(path); } pending_file(const pending_file&) = delete; pending_file& operator=(const pending_file&) = delete; ~pending_file(); const std::string& get_temp_path() const { return m_path; } private: std::string m_path{}; // Pending file path std::string m_dest{}; // Destination file path }; // Delete directory and all its contents recursively bool remove_all(const std::string& path, bool remove_root = true, bool is_no_dir_ok = false); // Get size of all files recursively u64 get_dir_size(const std::string& path, u64 rounding_alignment = 1, atomic_t* cancel_flag = nullptr); enum class error : uint { ok = 0, inval, noent, exist, acces, notempty, readonly, isdir, toolong, nospace, xdev, unknown }; // Error code returned extern thread_local error g_tls_error; template struct container_stream final : file_base { // T can be a reference, but this is not recommended using value_type = typename std::remove_reference_t::value_type; T obj; u64 pos; container_stream(T&& obj, const stat_t& init_stat = {}) : obj(std::forward(obj)) , pos(0) , m_stat(init_stat) { } ~container_stream() override { } bool trunc(u64 length) override { obj.resize(length); update_time(true); return true; } u64 read(void* buffer, u64 size) override { const u64 end = obj.size(); if (pos < end) { // Get readable size if (const u64 max = std::min(size, end - pos)) { std::copy(obj.cbegin() + pos, obj.cbegin() + pos + max, static_cast(buffer)); pos = pos + max; update_time(); return max; } } return 0; } u64 read_at(u64 offset, void* buffer, u64 size) override { const u64 end = obj.size(); if (offset < end) { // Get readable size if (const u64 max = std::min(size, end - offset)) { std::copy(obj.cbegin() + offset, obj.cbegin() + offset + max, static_cast(buffer)); update_time(); return max; } } return 0; } u64 write(const void* buffer, u64 size) override { const u64 old_size = obj.size(); if (old_size + size < old_size || pos + size < pos) { xovfl(); } if (pos > old_size) { // Reserve memory obj.reserve(pos + size); // Fill gap if necessary (default-initialized) obj.resize(pos); } const auto src = static_cast(buffer); // Overwrite existing part const u64 overlap = std::min(obj.size() - pos, size); std::copy(src, src + overlap, obj.begin() + pos); // Append new data obj.insert(obj.end(), src + overlap, src + size); pos += size; if (size) update_time(true); return size; } u64 seek(s64 offset, seek_mode whence) override { const s64 new_pos = whence == fs::seek_set ? offset : whence == fs::seek_cur ? offset + pos : whence == fs::seek_end ? offset + size() : -1; if (new_pos < 0) { fs::g_tls_error = fs::error::inval; return -1; } pos = new_pos; return pos; } u64 size() override { return obj.size(); } stat_t get_stat() override { return m_stat; } private: stat_t m_stat{}; void update_time(bool write = false) { // TODO: Accurate timestamps m_stat.atime++; if (write) { m_stat.mtime++; m_stat.mtime = std::max(m_stat.atime, m_stat.mtime); m_stat.ctime = m_stat.mtime; } } }; template file make_stream(T&& container = T{}, const stat_t& stat = stat_t{}) { file result; result.reset(std::make_unique>(std::forward(container), stat)); return result; } template bool write_file(const std::string& path, bs_t mode, const Args&... args) { // Always use write flag, remove read flag if (fs::file f{path, mode + fs::write - fs::read}) { if constexpr (sizeof...(args) == 2u && (std::is_pointer_v || ...)) { // Specialization for [const void*, usz] args f.write(args...); } else { // Write args sequentially (f.write(args), ...); } if constexpr (Flush) { f.sync(); } return true; } return false; } file make_gather(std::vector); stx::generator list_dir_recursively(std::string path); }