// 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 filesystem = boost::filesystem; namespace ircd::fs { static filesystem::path path(std::string); static filesystem::path path(const string_view &); static filesystem::path path(const vector_view &); static uint posix_flags(const std::ios::openmode &mode); static const char *path_str(const string_view &); static void debug_paths(); } /// Default maximum path string length (for all filesystems & platforms). decltype(ircd::fs::MAX_PATH_LEN) ircd::fs::MAX_PATH_LEN { #ifdef PATH_MAX PATH_MAX #else 255 #endif }; decltype(ircd::fs::MAX_PATH_DEPTH) ircd::fs::MAX_PATH_DEPTH { 32 }; // // init // ircd::fs::init::init() :_aio_{} { debug_paths(); } ircd::fs::init::~init() noexcept { } /////////////////////////////////////////////////////////////////////////////// // // fs.h / misc // bool ircd::fs::mkdir(const string_view &path) try { return filesystem::create_directories(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::remove(const string_view &path) try { return filesystem::remove(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::remove(std::nothrow_t, const string_view &path) { boost::system::error_code ec; return filesystem::remove(fs::path(path), ec); } bool ircd::fs::rename(const string_view &old, const string_view &new_) try { filesystem::rename(path(old), path(new_)); return true; } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::rename(std::nothrow_t, const string_view &old, const string_view &new_) { boost::system::error_code ec; filesystem::rename(path(old), path(new_), ec); return !ec; } std::vector ircd::fs::ls_r(const string_view &path) try { const filesystem::recursive_directory_iterator end; filesystem::recursive_directory_iterator it { fs::path(path) }; std::vector ret; std::transform(it, end, std::back_inserter(ret), [] (const auto &ent) { return ent.path().string(); }); return ret; } catch(const filesystem::filesystem_error &e) { throw error{e}; } std::vector ircd::fs::ls(const string_view &path) try { static const filesystem::directory_iterator end; filesystem::directory_iterator it { fs::path(path) }; std::vector ret; std::transform(it, end, std::back_inserter(ret), [] (const auto &ent) { return ent.path().string(); }); return ret; } catch(const filesystem::filesystem_error &e) { throw error{e}; } size_t ircd::fs::size(const string_view &path) try { return filesystem::file_size(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::is_reg(const string_view &path) try { return filesystem::is_regular_file(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::is_dir(const string_view &path) try { return filesystem::is_directory(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } bool ircd::fs::exists(const string_view &path) try { return filesystem::exists(fs::path(path)); } catch(const filesystem::filesystem_error &e) { throw error{e}; } /////////////////////////////////////////////////////////////////////////////// // // fs/support.h // bool ircd::fs::support::fallocate(const string_view &path, const write_opts &wopts) try { const fd::opts opts { std::ios::out }; fs::fd fd { path, opts }; fs::allocate(fd, info::page_size, wopts); return true; } catch(const std::system_error &e) { const auto &ec(e.code()); if(system_category(ec)) switch(ec.value()) { case int(std::errc::invalid_argument): case int(std::errc::operation_not_supported): return false; default: break; } throw; } bool ircd::fs::support::direct_io(const string_view &path) try { fd::opts opts{std::ios::out}; opts.direct = true; fd{path, opts}; return true; } catch(const std::system_error &e) { const auto &ec(e.code()); if(system_category(ec)) switch(ec.value()) { case int(std::errc::invalid_argument): return false; default: break; } throw; } /////////////////////////////////////////////////////////////////////////////// // // fs/stdin.h // ircd::string_view ircd::fs::stdin::readline(const mutable_buffer &buf) try { boost::asio::posix::stream_descriptor fd { ios::get(), dup(STDIN_FILENO) }; boost::asio::streambuf sb { size(buf) }; const auto interruption{[&fd] (ctx::ctx *const &interruptor) { fd.cancel(); }}; size_t len; continuation { continuation::asio_predicate, interruption, [&len, &fd, &sb] (auto &yield) { len = boost::asio::async_read_until(fd, sb, '\n', yield); } }; std::istream is{&sb}; is.get(data(buf), size(buf), '\n'); return string_view { data(buf), size_t(is.gcount()) }; } catch(boost::system::system_error &e) { throw_system_error(e); __builtin_unreachable(); } // // tty // ircd::fs::stdin::tty::tty() :fd{[] { thread_local char buf[256]; syscall(::ttyname_r, STDIN_FILENO, buf, sizeof(buf)); return fd { string_view{buf}, std::ios_base::out }; }()} { } size_t ircd::fs::stdin::tty::write(const string_view &buf) { return syscall(::write, int(*this), buf.data(), buf.size()); } /////////////////////////////////////////////////////////////////////////////// // // fs/sync.h // ircd::fs::sync_opts const ircd::fs::sync_opts_default; void ircd::fs::sync(const fd &fd, const off_t &offset, const size_t &length, const sync_opts &opts) { return sync(fd, opts); } void ircd::fs::sync(const fd &fd, const sync_opts &opts) { const ctx::slice_usage_warning message { "fs::sync(fd:%d)", int(fd) }; #ifdef __linux__ syscall(::syncfs, fd); #else syscall(::sync); #endif } void ircd::fs::flush(const fd &fd, const off_t &offset, const size_t &length, const sync_opts &opts) { return flush(fd, opts); } void ircd::fs::flush(const fd &fd, const sync_opts &opts) { const ctx::slice_usage_warning message { "fs::flush(fd:%d, {metadata:%b aio:%b:%b})", int(fd), opts.metadata, opts.aio, opts.metadata? aio::support_fdsync : aio::support_fsync }; #ifdef IRCD_USE_AIO if(aio::system && opts.aio) { if(!opts.metadata && aio::support_fdsync) return aio::fdsync(fd, opts); if(aio::support_fsync) return aio::fsync(fd, opts); } #endif if(!opts.metadata) return void(syscall(::fdatasync, fd)); return void(syscall(::fsync, fd)); } /////////////////////////////////////////////////////////////////////////////// // // fs/prefetch.h // /////////////////////////////////////////////////////////////////////////////// // // fs/read.h // namespace ircd::fs { static size_t read(const fd &, const const_iovec_view &, const read_opts &); } ircd::fs::read_opts const ircd::fs::read_opts_default {}; #ifdef __linux__ void ircd::fs::prefetch(const fd &fd, const size_t &count, const read_opts &opts) { const auto flags { syscall(::fcntl, fd, F_GETFL) }; if(~flags & O_DIRECT) { syscall(::readahead, fd, opts.offset, count); return; } #ifdef IRCD_USE_AIO if(likely(aio::system) && opts.aio) aio::prefetch(fd, count, opts); #endif } #else void ircd::fs::prefetch(const fd &fd, const size_t &count, const read_opts &opts) { } #endif std::string ircd::fs::read(const string_view &path, const read_opts &opts) { const fd fd { path }; return read(fd, opts); } std::string ircd::fs::read(const fd &fd, const read_opts &opts) { return string(size(fd), [&fd, &opts] (const mutable_buffer &buf) { return read(fd, buf, opts); }); } ircd::const_buffer ircd::fs::read(const string_view &path, const mutable_buffer &buf, const read_opts &opts) { const mutable_buffers bufs { &buf, 1 }; return mutable_buffer { data(buf), read(path, bufs, opts) }; } ircd::const_buffer ircd::fs::read(const fd &fd, const mutable_buffer &buf, const read_opts &opts) { const mutable_buffers bufs { &buf, 1 }; return mutable_buffer { data(buf), read(fd, bufs, opts) }; } size_t ircd::fs::read(const string_view &path, const mutable_buffers &bufs, const read_opts &opts) { const fd fd { path }; return read(fd, bufs, opts); } /// Read from file descriptor fd into buffers. The number of bytes read into /// the buffers is returned. By default (via read_opts.all) this call will /// loop internally until the buffers are full or EOF. To allow for a partial /// read(), disable read_opts.all. Note that to maintain alignments (i.e when /// direct-io or for special files read_opts.all must be false). By default /// (via read_opts.interruptible) this call can throw if the syscall was /// interrupted before reading any bytes. #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" size_t __attribute__((stack_protect)) ircd::fs::read(const fd &fd, const mutable_buffers &bufs, const read_opts &opts_) { if(unlikely(bufs.size() > info::iov_max)) throw error { make_error_code(std::errc::invalid_argument), "Buffer count of %zu exceeds IOV_MAX of %zu", bufs.size(), info::iov_max }; size_t ret(0); read_opts opts(opts_); assert(bufs.size() <= info::iov_max); struct ::iovec iovbuf[bufs.size()]; do { assert(opts.offset >= opts_.offset); const size_t off(opts.offset - opts_.offset); assert(off <= buffers::size(bufs)); assert(ret <= buffers::size(bufs)); const auto iov { make_iov({iovbuf, bufs.size()}, bufs, ret) }; ret += read(fd, iov, opts); if(!opts_.all) break; if(off >= ret) break; opts.offset = opts_.offset + ret; } while(ret < buffers::size(bufs)); assert(opts.offset >= opts_.offset); assert(ret <= buffers::size(bufs)); return ret; } #pragma GCC diagnostic pop /// Lowest-level read() call. This call only conducts a single operation /// (no looping) and can return a partial read(). It does have branches /// for various read_opts. The arguments involve `struct ::iovec` which /// we do not expose to the ircd.h API; thus this function is internal to /// ircd::fs. There is no reason to use this function in lieu of the public /// fs::read() suite. size_t ircd::fs::read(const fd &fd, const const_iovec_view &iov, const read_opts &opts) { #ifdef IRCD_USE_AIO if(aio::system && opts.aio) return aio::read(fd, iov, opts); #endif const auto ret { opts.interruptible? syscall(::preadv, fd, iov.data(), iov.size(), opts.offset): syscall_nointr(::preadv, fd, iov.data(), iov.size(), opts.offset) }; return size_t(ret); } /////////////////////////////////////////////////////////////////////////////// // // fs/write.h // namespace ircd::fs { static size_t write(const fd &, const const_iovec_view &, const write_opts &); } ircd::fs::write_opts const ircd::fs::write_opts_default {}; void ircd::fs::allocate(const fd &fd, const size_t &size, const write_opts &opts) { int mode{0}; mode |= opts.keep_size? FALLOC_FL_KEEP_SIZE : 0; syscall(::fallocate, fd, mode, opts.offset, size); } void ircd::fs::truncate(const string_view &path, const size_t &size, const write_opts &opts) { const fd fd { path, std::ios::out | std::ios::trunc }; return truncate(fd, size, opts); } void ircd::fs::truncate(const fd &fd, const size_t &size, const write_opts &opts) { syscall(::ftruncate, fd, size); } ircd::const_buffer ircd::fs::overwrite(const string_view &path, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), overwrite(path, bufs, opts) }; } ircd::const_buffer ircd::fs::overwrite(const fd &fd, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), overwrite(fd, bufs, opts) }; } size_t ircd::fs::overwrite(const string_view &path, const const_buffers &bufs, const write_opts &opts) { const fd fd { path, std::ios::out | std::ios::trunc }; return overwrite(fd, bufs, opts); } size_t ircd::fs::overwrite(const fd &fd, const const_buffers &bufs, const write_opts &opts) { return write(fd, bufs, opts); } ircd::const_buffer ircd::fs::append(const string_view &path, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), append(path, bufs, opts) }; } ircd::const_buffer ircd::fs::append(const fd &fd, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), append(fd, bufs, opts) }; } size_t ircd::fs::append(const string_view &path, const const_buffers &bufs, const write_opts &opts) { const fd fd { path, std::ios::out | std::ios::app }; return append(fd, bufs, opts); } size_t ircd::fs::append(const fd &fd, const const_buffers &bufs, const write_opts &opts_) { auto opts(opts_); if(!opts.offset) opts.offset = syscall(::lseek, fd, 0, SEEK_END); return write(fd, bufs, opts); } ircd::const_buffer ircd::fs::write(const string_view &path, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), write(path, bufs, opts) }; } ircd::const_buffer ircd::fs::write(const fd &fd, const const_buffer &buf, const write_opts &opts) { const const_buffers bufs { &buf, 1 }; return const_buffer { data(buf), write(fd, bufs, opts) }; } size_t ircd::fs::write(const string_view &path, const const_buffers &bufs, const write_opts &opts) { const fd fd { path, std::ios::out }; return write(fd, bufs, opts); } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" size_t __attribute__((stack_protect)) ircd::fs::write(const fd &fd, const const_buffers &bufs, const write_opts &opts_) { if(unlikely(bufs.size() > info::iov_max)) throw error { make_error_code(std::errc::invalid_argument), "Buffer count of %zu exceeds IOV_MAX of %zu", bufs.size(), info::iov_max }; write_opts opts(opts_); size_t off(opts.offset - opts_.offset); assert(bufs.size() <= info::iov_max); struct ::iovec iovbuf[bufs.size()]; do { const auto iov { make_iov({iovbuf, bufs.size()}, bufs, off) }; opts.offset += write(fd, iov, opts); assert(opts.offset >= opts_.offset); off = opts.offset - opts_.offset; assert(off <= buffers::size(bufs)); } while(opts.all && off < buffers::size(bufs)); assert(opts.offset >= opts_.offset); assert(ssize_t(off) == opts.offset - opts_.offset); assert(!opts.all || off == buffers::size(bufs)); return off; } #pragma GCC diagnostic pop /// Lowest-level write() call. This call only conducts a single operation /// (no looping) and can return early with a partial write(). It does have /// branches for various write_opts. The arguments involve `struct ::iovec` /// which we do not expose to the ircd.h API; thus this function is internal to /// ircd::fs. There is no reason to use this function in lieu of the public /// fs::read() suite. size_t ircd::fs::write(const fd &fd, const const_iovec_view &iov, const write_opts &opts) { #ifdef IRCD_USE_AIO if(likely(aio::system) && opts.aio) return aio::write(fd, iov, opts); #endif const auto ret { opts.interruptible? syscall(::pwritev, fd, iov.data(), iov.size(), opts.offset): syscall_nointr(::pwritev, fd, iov.data(), iov.size(), opts.offset) }; return size_t(ret); } /////////////////////////////////////////////////////////////////////////////// // // fs/aio.h // // // These symbols can be overriden by ircd/aio.cc if it is compiled and linked; // otherwise on non-supporting platforms these will be the defaults here. // decltype(ircd::fs::aio::support) extern __attribute__((weak)) ircd::fs::aio::support; decltype(ircd::fs::aio::support_fsync) extern __attribute__((weak)) ircd::fs::aio::support_fsync; decltype(ircd::fs::aio::support_fdsync) extern __attribute__((weak)) ircd::fs::aio::support_fdsync; decltype(ircd::fs::aio::MAX_REQPRIO) extern __attribute__((weak)) ircd::fs::aio::MAX_REQPRIO; decltype(ircd::fs::aio::MAX_EVENTS) extern __attribute__((weak)) ircd::fs::aio::MAX_EVENTS; /// Conf item to control whether AIO is enabled or bypassed. decltype(ircd::fs::aio::enable) ircd::fs::aio::enable { { "name", "ircd.fs.aio.enable" }, { "default", true }, { "persist", false }, }; decltype(ircd::fs::aio::max_events) ircd::fs::aio::max_events { { "name", "ircd.fs.aio.max_events" }, { "default", long(aio::MAX_EVENTS) }, { "persist", false }, }; decltype(ircd::fs::aio::max_submit) ircd::fs::aio::max_submit { { "name", "ircd.fs.aio.max_submit" }, { "default", 32L }, { "persist", false }, }; /// Global stats structure decltype(ircd::fs::aio::stats) ircd::fs::aio::stats; /// Non-null when aio is available for use decltype(ircd::fs::aio::system) ircd::fs::aio::system; // // init // #ifndef IRCD_USE_AIO ircd::fs::aio::init::init() { assert(!context); log::warning { "No support for asynchronous local filesystem IO..." }; } #endif #ifndef IRCD_USE_AIO ircd::fs::aio::init::~init() noexcept { assert(!context); } #endif /////////////////////////////////////////////////////////////////////////////// // // fs/fd.h // decltype(ircd::fs::fd::opts::direct_io_enable) ircd::fs::fd::opts::direct_io_enable { { "name", "ircd.fs.fd.direct_io_enable" }, { "default", true }, { "persist", false }, }; #ifdef __linux__ size_t ircd::fs::block_size(const fd &fd) { return 512UL; } #elif defined(HAVE_SYS_STAT_H) size_t ircd::fs::block_size(const fd &fd) { struct stat st; syscall(::fstat, fd, &st); return st.st_blksize; } #else size_t ircd::fs::block_size(const fd &fd) { return info::page_size; } #endif /// This is not a standard UUID of any sort; this is custom, and intended for /// rocksdb (though rocksdb has no requirement for its format specifically). /// The format is plain-text, fs major and minor number, inode number, and /// a three letter file type; all obtained from fstat(2). ircd::string_view ircd::fs::uuid(const fd &fd, const mutable_buffer &buf) { struct stat stat; syscall(::fstat, fd, &stat); return fmt::sprintf { buf, "%u-%u-%lu-%s", gnu_dev_major(stat.st_dev), gnu_dev_minor(stat.st_dev), stat.st_ino, S_ISREG(stat.st_mode)? "reg": S_ISDIR(stat.st_mode)? "dir": "???" }; } size_t ircd::fs::size(const fd &fd) { const off_t cur { syscall(::lseek, fd, 0, SEEK_CUR) }; const off_t end { syscall(::lseek, fd, 0, SEEK_END) }; syscall(::lseek, fd, cur, SEEK_SET); return end; } // // fd::opts // ircd::fs::fd::opts::opts(const std::ios::openmode &mode) :mode { mode } ,flags { posix_flags(mode) } ,mask { flags & O_CREAT? S_IRUSR | S_IWUSR: 0U } ,ate { bool(mode & std::ios::ate) } { } // // fd::fd // ircd::fs::fd::fd(const string_view &path) :fd{path, opts{}} { } ircd::fs::fd::fd(const string_view &path, const opts &opts) :fdno{[&path, &opts] () -> int { uint flags(opts.flags); flags |= opts.direct? O_DIRECT : 0UL; flags |= opts.cloexec? O_CLOEXEC : 0UL; flags &= opts.nocreate? ~O_CREAT : flags; const mode_t &mode(opts.mask); assert((flags & ~O_CREAT) || mode != 0); const char *const &p(path_str(path)); return syscall(::open, p, flags, mode); }()} { if(opts.ate) syscall(::lseek, fdno, 0, SEEK_END); } ircd::fs::fd::fd(fd &&o) noexcept :fdno { std::move(o.fdno) } { o.fdno = -1; } ircd::fs::fd & ircd::fs::fd::operator=(fd &&o) noexcept { this->~fd(); fdno = std::move(o.fdno); o.fdno = -1; return *this; } ircd::fs::fd::~fd() noexcept(false) { if(fdno < 0) return; syscall(::close, fdno); } /////////////////////////////////////////////////////////////////////////////// // // fs/iov.h // ircd::fs::const_iovec_view ircd::fs::make_iov(const iovec_view &iov, const mutable_buffers &bufs, const size_t &offset) { const size_t max { std::min(iov.size(), bufs.size()) }; size_t i(0), off(0); for(; i < max; off += size(bufs[i++])) if(size(bufs[i]) > offset - off) { off = offset - off; break; } if(i < max) { assert(off <= size(bufs[i])); iov.at(i) = { data(bufs[i]) + off, size(bufs[i]) - off }; for(++i; i < max; ++i) iov.at(i) = { data(bufs[i]), size(bufs[i]) }; } const const_iovec_view ret{iov.data(), i}; assert(bytes(ret) <= buffer::buffers::size(bufs)); return ret; } ircd::fs::const_iovec_view ircd::fs::make_iov(const iovec_view &iov, const const_buffers &bufs, const size_t &offset) { const size_t max { std::min(iov.size(), bufs.size()) }; size_t i(0), off(0); for(; i < max; off += size(bufs[i++])) if(size(bufs[i]) > offset - off) { off = offset - off; break; } if(i < max) { assert(off <= size(bufs[i])); iov.at(i) = { const_cast(data(bufs[i])) + off, size(bufs[i]) - off }; for(++i; i < max; ++i) iov.at(i) = { const_cast(data(bufs[i])), size(bufs[i]) }; } const const_iovec_view ret{iov.data(), i}; assert(bytes(ret) <= buffer::buffers::size(bufs)); return ret; } size_t ircd::fs::bytes(const const_iovec_view &iov) { return std::accumulate(begin(iov), end(iov), size_t(0), [] (auto ret, const auto &iov) { return ret += iov.iov_len; }); } /////////////////////////////////////////////////////////////////////////////// // // fs/path.h // namespace ircd::fs { extern const std::array()> basepaths; } decltype(ircd::fs::basepaths) ircd::fs::basepaths {{ { "installation prefix", RB_PREFIX }, { "binary directory", RB_BIN_DIR }, { "configuration directory", RB_CONF_DIR }, { "data directory", RB_DATA_DIR }, { "database directory", RB_DB_DIR }, { "log directory", RB_LOG_DIR }, { "module directory", RB_MODULE_DIR }, }}; std::string ircd::fs::cwd() try { const auto &cur { filesystem::current_path() }; return cur.string(); } catch(const filesystem::filesystem_error &e) { throw error{e}; } ircd::string_view ircd::fs::cwd(const mutable_buffer &buf) try { const auto &cur { filesystem::current_path() }; return strlcpy(buf, cur.native()); } catch(const filesystem::filesystem_error &e) { throw error{e}; } std::string ircd::fs::make_path(const vector_view &list) try { filesystem::path ret; for(const auto &s : list) ret /= path(s); return ret.string(); } catch(const filesystem::filesystem_error &e) { throw error{e}; } std::string ircd::fs::make_path(const vector_view &list) try { filesystem::path ret; for(const auto &s : list) ret /= path(s); return ret.string(); } catch(const filesystem::filesystem_error &e) { throw error{e}; } std::string ircd::fs::make_path(const base &base, const string_view &rest) try { filesystem::path ret; ret /= make_path(base); ret /= path(rest); return ret.string(); } catch(const filesystem::filesystem_error &e) { throw error{e}; } ircd::string_view ircd::fs::make_path(const base &base) noexcept { return get(base).path; } const ircd::fs::basepath & ircd::fs::get(const base &base) noexcept { return basepaths.at(base); } /////////////////////////////////////////////////////////////////////////////// // // fs/error.h // std::error_code ircd::make_error_code(const boost::filesystem::filesystem_error &e) { const boost::system::error_code &ec { e.code() }; return make_error_code(ec); } // // error::error // ircd::fs::error::error(const boost::filesystem::filesystem_error &code) :std::system_error { make_error_code(code) } { const string_view &msg { // Strip this prefix off the message to simplify it for our user. lstrip(code.what(), "boost::filesystem::") }; copy(this->buf, msg); } ircd::fs::error::error(const std::system_error &code) :std::system_error{code} { string(this->buf, code); } ircd::fs::error::error(const std::error_code &code) :std::system_error{code} { string(this->buf, code); } const char * ircd::fs::error::what() const noexcept { return this->ircd::error::what(); } /////////////////////////////////////////////////////////////////////////////// // // Internal utils // void ircd::fs::debug_paths() { thread_local char buf[MAX_PATH_LEN + 1]; log::debug { "Current working directory: `%s'", cwd(buf) }; for_each([](const base &base) { log::debug { "Working %s is `%s'", get(base).name, get(base).path, }; }); } const char * ircd::fs::path_str(const string_view &s) { thread_local char buf[MAX_PATH_LEN + 1]; return data(strlcpy(buf, s)); } uint ircd::fs::posix_flags(const std::ios::openmode &mode) { static const auto rdwr { std::ios::in | std::ios::out }; uint ret{0}; if((mode & rdwr) == rdwr) ret |= O_RDWR; else if(mode & std::ios::out) ret |= O_WRONLY; else ret |= O_RDONLY; ret |= mode & std::ios::trunc? O_TRUNC : 0; ret |= mode & std::ios::app? O_APPEND : 0; ret |= ret & O_WRONLY? O_CREAT : 0; ret |= ret & O_RDWR && ret & (O_TRUNC | O_APPEND)? O_CREAT : 0; return ret; } filesystem::path ircd::fs::path(const vector_view &list) try { filesystem::path ret; for(const auto &s : list) ret /= path(s); return ret.string(); } catch(const filesystem::filesystem_error &e) { throw error{e}; } filesystem::path ircd::fs::path(const string_view &s) try { return path(std::string{s}); } catch(const filesystem::filesystem_error &e) { throw error{e}; } filesystem::path ircd::fs::path(std::string s) try { return filesystem::path(std::move(s)); } catch(const filesystem::filesystem_error &e) { throw error{e}; }