#include "file.hh" #include "assert.hh" #include "buffer.hh" #include "exception.hh" #include "flags.hh" #include "option_types.hh" #include "event_manager.hh" #include "ranked_match.hh" #include "regex.hh" #include "string.hh" #include "unicode.hh" #include #include #include #include #include #include #include #include #include #include #include #if defined(__FreeBSD__) or defined(__NetBSD__) #include #endif #if defined(__APPLE__) #include #define st_mtim st_mtimespec #endif #if defined(__HAIKU__) #include #include #include #endif namespace Kakoune { struct file_access_error : runtime_error { public: file_access_error(StringView filename, StringView error_desc) : runtime_error(format("{}: {}", filename, error_desc)) {} file_access_error(int fd, StringView error_desc) : runtime_error(format("fd {}: {}", fd, error_desc)) {} }; String parse_filename(StringView filename, StringView buf_dir) { auto prefix = filename.substr(0_byte, 2_byte); if (prefix == "~" or prefix == "~/") return homedir() + filename.substr(1_byte); if ((prefix == "%" or prefix == "%/") and not buf_dir.empty()) return buf_dir + filename.substr(1_byte); return filename.str(); } std::pair split_path(StringView path) { auto it = find(path | reverse(), '/'); if (it == path.rend()) return { {}, path }; const char* slash = it.base()-1; return { {path.begin(), slash+1}, {slash+1, path.end()} }; } String real_path(StringView filename) { if (filename.empty()) return {}; char buffer[PATH_MAX+1]; StringView existing = filename; StringView non_existing{}; while (true) { if (char* res = realpath(existing.zstr(), buffer)) { if (non_existing.empty()) return res; StringView dir = res; while (not dir.empty() and dir.back() == '/') dir = dir.substr(0_byte, dir.length()-1_byte); return format("{}/{}", dir, non_existing); } auto it = find(existing.rbegin() + 1, existing.rend(), '/'); if (it == existing.rend()) { char cwd[1024]; return format("{}/{}", getcwd(cwd, 1024), filename); } existing = StringView{existing.begin(), it.base()}; non_existing = StringView{it.base(), filename.end()}; } } String compact_path(StringView filename) { String real_filename = real_path(filename); char cwd[1024]; if (!::getcwd(cwd, 1024)) throw runtime_error(format("unable to get the current working directory (errno: {})", ::strerror(errno))); String real_cwd = real_path(cwd) + "/"; if (prefix_match(real_filename, real_cwd)) return real_filename.substr(real_cwd.length()).str(); StringView home = homedir(); while (not home.empty() and home.back() == '/') home = home.substr(0_byte, home.length()-1_byte); if (not home.empty()) { ByteCount home_len = home.length(); if (real_filename.substr(0, home_len) == home) return "~" + real_filename.substr(home_len); } return filename.str(); } StringView tmpdir() { StringView tmpdir = getenv("TMPDIR"); if (not tmpdir.empty()) return tmpdir.back() == '/' ? tmpdir.substr(0_byte, tmpdir.length()-1) : tmpdir; return "/tmp"; } StringView homedir() { StringView home = getenv("HOME"); if (home.empty()) return getpwuid(geteuid())->pw_dir; return home; } bool fd_readable(int fd) { kak_assert(fd >= 0); fd_set rfds; FD_ZERO(&rfds); FD_SET(fd, &rfds); timeval tv{0,0}; return select(fd+1, &rfds, nullptr, nullptr, &tv) == 1; } bool fd_writable(int fd) { kak_assert(fd >= 0); fd_set wfds; FD_ZERO(&wfds); FD_SET(fd, &wfds); timeval tv{0,0}; return select(fd+1, nullptr, &wfds, nullptr, &tv) == 1; } String read_fd(int fd, bool text) { String content; constexpr size_t bufsize = 256; char buf[bufsize]; while (ssize_t size = read(fd, buf, bufsize)) { if (size == -1) throw file_access_error{fd, strerror(errno)}; if (text) { for (StringView data{buf, buf + size}; not data.empty();) { auto it = find(data, '\r'); content += StringView{data.begin(), it}; data = StringView{(it != data.end()) ? it+1 : it, data.end()}; } } else content += StringView{buf, buf + size}; } return content; } String read_file(StringView filename, bool text) { int fd = open(filename.zstr(), O_RDONLY); if (fd == -1) throw file_access_error(filename, strerror(errno)); auto close_fd = on_scope_end([fd]{ close(fd); }); return read_fd(fd, text); } MappedFile::MappedFile(StringView filename) : data{nullptr} { int fd = open(filename.zstr(), O_RDONLY | O_NONBLOCK); if (fd == -1) throw file_access_error(filename, strerror(errno)); auto close_fd = on_scope_end([&] { close(fd); }); fstat(fd, &st); if (S_ISDIR(st.st_mode)) throw file_access_error(filename, "is a directory"); if (st.st_size == 0) return; data = (const char*)mmap(nullptr, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0); if (data == MAP_FAILED) throw file_access_error{filename, strerror(errno)}; } MappedFile::~MappedFile() { if (data != nullptr) munmap((void*)data, st.st_size); } MappedFile::operator StringView() const { if (st.st_size > std::numeric_limits::max()) throw runtime_error("file is too big"); return { data, (int)st.st_size }; } bool file_exists(StringView filename) { struct stat st; return stat(filename.zstr(), &st) == 0; } bool regular_file_exists(StringView filename) { struct stat st; return stat(filename.zstr(), &st) == 0 and (st.st_mode & S_IFMT) == S_IFREG; } void write(int fd, StringView data) { const char* ptr = data.data(); ssize_t count = (int)data.length(); int flags = fcntl(fd, F_GETFL, 0); if (EventManager::has_instance()) fcntl(fd, F_SETFL, flags | O_NONBLOCK); auto restore_flags = on_scope_end([&] { fcntl(fd, F_SETFL, flags); }); while (count) { if (ssize_t written = ::write(fd, ptr, count); written != -1) { ptr += written; count -= written; } else if (errno == EAGAIN and EventManager::has_instance()) EventManager::instance().handle_next_events(EventMode::Urgent, nullptr, false); else throw file_access_error(format("fd: {}", fd), strerror(errno)); } } void write_to_file(StringView filename, StringView data) { const int fd = open(filename.zstr(), O_CREAT | O_WRONLY | O_TRUNC, 0644); if (fd == -1) throw file_access_error(filename, strerror(errno)); auto close_fd = on_scope_end([fd]{ close(fd); }); write(fd, data); } void write_buffer_to_fd(Buffer& buffer, int fd) { auto eolformat = buffer.options()["eolformat"].get(); StringView eoldata; if (eolformat == EolFormat::Crlf) eoldata = "\r\n"; else eoldata = "\n"; BufferedWriter writer{fd}; if (buffer.options()["BOM"].get() == ByteOrderMark::Utf8) writer.write("\xEF\xBB\xBF"); for (LineCount i = 0; i < buffer.line_count(); ++i) { // end of lines are written according to eolformat but always // stored as \n StringView linedata = buffer[i]; writer.write(linedata.substr(0, linedata.length()-1)); writer.write(eoldata); } } int open_temp_file(StringView filename, char (&buffer)[PATH_MAX]) { String path = real_path(filename); auto [dir,file] = split_path(path); if (dir.empty()) format_to(buffer, ".{}.kak.XXXXXX", file); else format_to(buffer, "{}/.{}.kak.XXXXXX", dir, file); return mkstemp(buffer); } int open_temp_file(StringView filename) { char buffer[PATH_MAX]; return open_temp_file(filename, buffer); } void write_buffer_to_file(Buffer& buffer, StringView filename, WriteMethod method, WriteFlags flags) { auto zfilename = filename.zstr(); struct stat st; bool replace = method == WriteMethod::Replace; bool force = flags & WriteFlags::Force; if ((replace or force) and (::stat(zfilename, &st) != 0 or (st.st_mode & S_IFMT) != S_IFREG)) { force = false; replace = false; } if (force and ::chmod(zfilename, st.st_mode | S_IWUSR) < 0) throw runtime_error("unable to change file permissions"); auto restore_mode = on_scope_end([&]{ if ((force or replace) and ::chmod(zfilename, st.st_mode) < 0) throw runtime_error("unable to restore file permissions"); }); char temp_filename[PATH_MAX]; const int fd = replace ? open_temp_file(filename, temp_filename) : open(zfilename, O_CREAT | O_WRONLY | O_TRUNC, 0644); if (fd == -1) throw file_access_error(filename, strerror(errno)); { auto close_fd = on_scope_end([fd]{ close(fd); }); write_buffer_to_fd(buffer, fd); if (flags & WriteFlags::Sync) ::fsync(fd); } if (replace and rename(temp_filename, zfilename) != 0) throw runtime_error("replacing file failed"); if ((buffer.flags() & Buffer::Flags::File) and real_path(filename) == real_path(buffer.name())) buffer.notify_saved(get_fs_status(real_path(filename))); } void write_buffer_to_backup_file(Buffer& buffer) { const int fd = open_temp_file(buffer.name()); if (fd >= 0) { write_buffer_to_fd(buffer, fd); close(fd); } } String find_file(StringView filename, StringView buf_dir, ConstArrayView paths) { struct stat buf; if (filename.substr(0_byte, 1_byte) == "/") { if (stat(filename.zstr(), &buf) == 0 and S_ISREG(buf.st_mode)) return filename.str(); return ""; } if (filename.substr(0_byte, 2_byte) == "~/") { String candidate = homedir() + filename.substr(1_byte); if (stat(candidate.c_str(), &buf) == 0 and S_ISREG(buf.st_mode)) return candidate; return ""; } for (auto candidate : paths | transform([&](StringView s) { return parse_filename(s, buf_dir); })) { if (not candidate.empty() and candidate.back() != '/') candidate += '/'; candidate += filename; if (stat(candidate.c_str(), &buf) == 0 and S_ISREG(buf.st_mode)) return candidate; } return ""; } void make_directory(StringView dir, mode_t mode) { auto it = dir.begin(), end = dir.end(); while(it != end) { it = std::find(it+1, end, '/'); struct stat st; StringView dirname{dir.begin(), it}; if (stat(dirname.zstr(), &st) == 0) { if (not S_ISDIR(st.st_mode)) throw runtime_error(format("cannot make directory, '{}' exists but is not a directory", dirname)); } else { auto old_mask = umask(0); auto restore_mask = on_scope_end([old_mask]() { umask(old_mask); }); if (mkdir(dirname.zstr(), mode) != 0) throw runtime_error(format("mkdir failed for directory '{}' errno {}", dirname, errno)); } } } template Vector list_files(StringView dirname, Filter filter) { char buffer[PATH_MAX+1]; format_to(buffer, "{}", dirname); DIR* dir = opendir(dirname.empty() ? "./" : buffer); if (not dir) return {}; auto close_dir = on_scope_end([dir]{ closedir(dir); }); Vector result; while (dirent* entry = readdir(dir)) { StringView filename = entry->d_name; if (filename.empty()) continue; struct stat st; auto fmt_str = (dirname.empty() or dirname.back() == '/') ? "{}{}" : "{}/{}"; format_to(buffer, fmt_str, dirname, filename); if (stat(buffer, &st) != 0 or not filter(*entry, st)) continue; if (S_ISDIR(st.st_mode)) filename = format_to(buffer, "{}/", filename); result.push_back(filename.str()); } return result; } template Vector list_files(StringView directory) { return list_files(directory, [](const dirent& entry, const struct stat&) { return StringView{entry.d_name}.substr(0_byte, 1_byte) != "."; }); } Vector list_files(StringView directory) { return list_files<>(directory); } static CandidateList candidates(ConstArrayView matches, StringView dirname) { CandidateList res; res.reserve(matches.size()); for (auto& match : matches) res.push_back(dirname + match.candidate()); return res; } CandidateList complete_filename(StringView prefix, const Regex& ignored_regex, ByteCount cursor_pos, FilenameFlags flags) { prefix = prefix.substr(0, cursor_pos); auto [dirname, fileprefix] = split_path(prefix); auto parsed_dirname = parse_filename(dirname); Optional> vm; if (not ignored_regex.empty()) { vm.emplace(*ignored_regex.impl()); if (vm->exec(fileprefix.begin(), fileprefix.end(), fileprefix.begin(), fileprefix.end(), RegexExecFlags::None)) vm.reset(); } const bool only_dirs = (flags & FilenameFlags::OnlyDirectories); auto filter = [&vm, only_dirs](const dirent& entry, struct stat& st) { StringView name{entry.d_name}; return (not vm or not vm->exec(name.begin(), name.end(), name.begin(), name.end(), RegexExecFlags::None)) and (not only_dirs or S_ISDIR(st.st_mode)); }; auto files = list_files(parsed_dirname, filter); Vector matches; for (auto& file : files) { if (RankedMatch match{file, fileprefix}) matches.push_back(match); } // Hack: when completing directories, also echo back the query if it // is a valid directory. This enables menu completion to select the // directory instead of a child. if (only_dirs and not dirname.empty() and dirname.back() == '/' and fileprefix.empty() and /* exists on disk */ not files.empty()) { matches.push_back(RankedMatch{fileprefix, fileprefix}); } std::sort(matches.begin(), matches.end()); const bool expand = (flags & FilenameFlags::Expand); return candidates(matches, expand ? parsed_dirname : dirname); } CandidateList complete_command(StringView prefix, ByteCount cursor_pos) { String real_prefix = parse_filename(prefix.substr(0, cursor_pos)); auto [dirname, fileprefix] = split_path(real_prefix); if (not dirname.empty()) { auto filter = [](const dirent& entry, const struct stat& st) { bool executable = (st.st_mode & S_IXUSR) | (st.st_mode & S_IXGRP) | (st.st_mode & S_IXOTH); return S_ISDIR(st.st_mode) or (S_ISREG(st.st_mode) and executable); }; auto files = list_files(dirname, filter); Vector matches; for (auto& file : files) { if (RankedMatch match{file, real_prefix}) matches.push_back(match); } std::sort(matches.begin(), matches.end()); return candidates(matches, dirname); } using TimeSpec = decltype(stat::st_mtim); struct CommandCache { TimeSpec mtim = {}; Vector commands; }; static HashMap command_cache; Vector matches; for (auto dir : StringView{getenv("PATH")} | split(':')) { auto dirname = ((not dir.empty() and dir.back() == '/') ? dir.substr(0, dir.length()-1) : dir).str(); struct stat st; if (stat(dirname.c_str(), &st)) continue; auto& cache = command_cache[dirname]; if (memcmp(&cache.mtim, &st.st_mtim, sizeof(TimeSpec)) != 0) { auto filter = [](const dirent& entry, const struct stat& st) { bool executable = (st.st_mode & S_IXUSR) | (st.st_mode & S_IXGRP) | (st.st_mode & S_IXOTH); return S_ISREG(st.st_mode) and executable; }; cache.commands = list_files(dirname, filter); memcpy(&cache.mtim, &st.st_mtim, sizeof(TimeSpec)); } for (auto& cmd : cache.commands) { if (RankedMatch match{cmd, fileprefix}) matches.push_back(match); } } std::sort(matches.begin(), matches.end()); auto it = std::unique(matches.begin(), matches.end()); matches.erase(it, matches.end()); return candidates(matches, ""); } timespec get_fs_timestamp(StringView filename) { struct stat st; if (stat(filename.zstr(), &st) != 0) return InvalidTime; return st.st_mtim; } FsStatus get_fs_status(StringView filename) { MappedFile fd{filename}; return {fd.st.st_mtim, fd.st.st_size, hash_data(fd.data, fd.st.st_size)}; } String get_kak_binary_path() { char buffer[2048]; #if defined(__linux__) or defined(__CYGWIN__) or defined(__gnu_hurd__) ssize_t res = readlink("/proc/self/exe", buffer, 2048); kak_assert(res != -1); buffer[res] = '\0'; return buffer; #elif defined(__FreeBSD__) or defined(__NetBSD__) #if defined(__FreeBSD__) int mib[] = {CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1}; #elif defined(__NetBSD__) int mib[] = {CTL_KERN, KERN_PROC_ARGS, -1, KERN_PROC_PATHNAME}; #endif size_t res = sizeof(buffer); sysctl(mib, 4, buffer, &res, NULL, 0); return buffer; #elif defined(__APPLE__) uint32_t bufsize = 2048; _NSGetExecutablePath(buffer, &bufsize); char* canonical_path = realpath(buffer, nullptr); String path = canonical_path; free(canonical_path); return path; #elif defined(__HAIKU__) BApplication app("application/x-vnd.kakoune"); app_info info; status_t status = app.GetAppInfo(&info); kak_assert(status == B_OK); BPath path(&info.ref); return path.Path(); #elif defined(__DragonFly__) ssize_t res = readlink("/proc/curproc/file", buffer, 2048); kak_assert(res != -1); buffer[res] = '\0'; return buffer; #elif defined(__OpenBSD__) return KAK_BIN_PATH; #elif defined(__sun__) ssize_t res = readlink("/proc/self/path/a.out", buffer, 2048); kak_assert(res != -1); buffer[res] = '\0'; return buffer; #else # error "finding executable path is not implemented on this platform" #endif } }