// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2018 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. #include #include #ifdef IRCD_USE_AIO #include "aio.h" #endif namespace ircd::fs { using namespace boost::filesystem; enum { NAME, PATH }; using ent = std::pair; extern const std::array()> paths; } /// Non-null when aio is available for use decltype(ircd::fs::aioctx) ircd::fs::aioctx {}; decltype(ircd::fs::paths) ircd::fs::paths {{ { "prefix", DPATH }, { "binary dir", BINPATH }, { "config", ETCPATH }, { "log", LOGPATH }, { "libexec dir", PKGLIBEXECDIR }, { "modules", MODPATH }, { "ircd.conf", CPATH }, { "ircd binary", SPATH }, { "db", DBPATH }, }}; ircd::fs::init::init() { #ifdef IRCD_USE_AIO assert(!aioctx); aioctx = new aio{}; #else log::warning { "No support for asynchronous local filesystem IO..." }; #endif } ircd::fs::init::~init() noexcept { #ifdef IRCD_USE_AIO delete aioctx; aioctx = nullptr; #endif assert(!aioctx); } /////////////////////////////////////////////////////////////////////////////// // // fs/read.h // namespace ircd::fs { string_view read__std(const string_view &path, const mutable_buffer &, const read_opts &); std::string read__std(const string_view &path, const read_opts &); } ircd::fs::read_opts const ircd::fs::read_opts_default {}; // // ircd::fs interface linkage // std::string ircd::fs::read(const string_view &path, const read_opts &opts) { #ifdef IRCD_USE_AIO if(likely(aioctx)) return read__aio(path, opts); #endif return read__std(path, opts); } ircd::string_view ircd::fs::read(const string_view &path, const mutable_buffer &buf, const read_opts &opts) { #ifdef IRCD_USE_AIO if(likely(aioctx)) return read__aio(path, buf, opts); #endif return read__std(path, buf, opts); } // // std read // std::string ircd::fs::read__std(const string_view &path, const read_opts &opts) { std::ifstream file{std::string{path}}; std::noskipws(file); std::istream_iterator b{file}; std::istream_iterator e{}; return std::string{b, e}; } ircd::string_view ircd::fs::read__std(const string_view &path, const mutable_buffer &buf, const read_opts &opts) { std::ifstream file{std::string{path}}; file.exceptions(file.failbit | file.badbit); file.seekg(opts.offset, file.beg); file.read(data(buf), size(buf)); return { data(buf), size_t(file.gcount()) }; } /////////////////////////////////////////////////////////////////////////////// // // fs/write.h // namespace ircd::fs { string_view write__std(const string_view &path, const const_buffer &, const write_opts &); } ircd::fs::write_opts const ircd::fs::write_opts_default {}; ircd::string_view ircd::fs::write(const string_view &path, const const_buffer &buf, const write_opts &opts) { #ifdef IRCD_USE_AIO if(likely(aioctx)) return write__aio(path, buf, opts); #endif return write__std(path, buf, opts); } ircd::string_view ircd::fs::write__std(const string_view &path, const const_buffer &buf, const write_opts &opts) { const auto open_mode { opts.append? std::ios::app: opts.overwrite? std::ios::trunc: std::ios::out }; std::ofstream file { std::string{path}, open_mode }; file.seekp(opts.offset, file.beg); file.write(data(buf), size(buf)); return buf; } void ircd::fs::chdir(const std::string &path) try { fs::current_path(path); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } bool ircd::fs::mkdir(const std::string &path) try { return fs::create_directory(path); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } std::string ircd::fs::cwd() try { return fs::current_path().string(); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } std::vector ircd::fs::ls_recursive(const std::string &path) try { const fs::recursive_directory_iterator end; fs::recursive_directory_iterator it(path); std::vector ret; std::transform(it, end, std::back_inserter(ret), [] (const auto &ent) { return ent.path().string(); }); return ret; } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } std::vector ircd::fs::ls(const std::string &path) try { static const fs::directory_iterator end; fs::directory_iterator it(path); std::vector ret; std::transform(it, end, std::back_inserter(ret), [] (const auto &ent) { return ent.path().string(); }); return ret; } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } size_t ircd::fs::size(const string_view &path) { return ircd::fs::size(std::string{path}); } size_t ircd::fs::size(const std::string &path) { return fs::file_size(path); } bool ircd::fs::is_reg(const std::string &path) try { return fs::is_regular_file(path); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } bool ircd::fs::is_dir(const std::string &path) try { return fs::is_directory(path); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } bool ircd::fs::exists(const std::string &path) try { return boost::filesystem::exists(path); } catch(const fs::filesystem_error &e) { throw filesystem_error("%s", e.what()); } std::string ircd::fs::make_path(const std::initializer_list &list) { fs::path ret; for(const auto &s : list) ret /= fs::path(s); return ret.string(); } const char * ircd::fs::get(index index) noexcept try { return std::get(paths.at(index)).c_str(); } catch(const std::out_of_range &e) { return nullptr; } const char * ircd::fs::name(index index) noexcept try { return std::get(paths.at(index)).c_str(); } catch(const std::out_of_range &e) { return nullptr; }