/** * Copyright (c) 2007-2012, Timothy Stack * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of Timothy Stack nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * @file readline_curses.cc */ #include #include #include #include #include #include #include #include "config.h" #ifdef HAVE_PTY_H # include #endif #ifdef HAVE_UTIL_H # include #endif #ifdef HAVE_LIBUTIL_H # include #endif #include #include #include "base/ansi_scrubber.hh" #include "base/auto_mem.hh" #include "base/lnav_log.hh" #include "base/paths.hh" #include "base/string_util.hh" #include "fmt/format.h" #include "fts_fuzzy_match.hh" #include "lnav_util.hh" #include "readline_curses.hh" #include "shlex.hh" #include "spookyhash/SpookyV2.h" static int got_line = 0; static int got_abort = 0; static bool alt_done = 0; static sig_atomic_t got_timeout = 0; static sig_atomic_t got_winch = 0; static readline_curses* child_this; static sig_atomic_t looping = 1; static const int HISTORY_SIZE = 256; static int completion_start; static const int FUZZY_PEER_THRESHOLD = 30; static const char* RL_INIT[] = { /* * XXX Need to keep the input on a single line since the display screws * up if it wraps around. */ "set horizontal-scroll-mode on", "set bell-style none", "set show-all-if-ambiguous on", "set show-all-if-unmodified on", "set menu-complete-display-prefix on", "TAB: menu-complete", "\"\\e[Z\": menu-complete-backward", }; readline_context* readline_context::loaded_context; std::set* readline_context::arg_possibilities; static std::string last_match_str; static bool last_match_str_valid; static bool arg_needs_shlex; static nonstd::optional rewrite_line_start; static void sigalrm(int sig) { got_timeout = 1; } static void sigwinch(int sig) { got_winch = 1; } static void sigterm(int sig) { looping = 0; } static void line_ready_tramp(char* line) { child_this->line_ready(line); got_line = 1; rl_callback_handler_remove(); } static int sendall(int sock, const char* buf, size_t len) { off_t offset = 0; while (len > 0) { int rc = send(sock, &buf[offset], len, 0); if (rc == -1) { switch (errno) { case EAGAIN: case EINTR: break; default: return -1; } } else { len -= rc; offset += rc; } } return 0; } static int sendstring(int sock, const char* buf, size_t len) { if (sendall(sock, (char*) &len, sizeof(len)) == -1) { return -1; } else if (sendall(sock, buf, len) == -1) { return -1; } return 0; } static int sendcmd(int sock, char cmd, const char* buf, size_t len) { size_t total_len = len + 2; char prefix[2] = {cmd, ':'}; if (sendall(sock, (char*) &total_len, sizeof(total_len)) == -1) { return -1; } else if (sendall(sock, prefix, sizeof(prefix)) == -1 || sendall(sock, buf, len) == -1) { return -1; } return 0; } static int recvall(int sock, char* buf, size_t len) { off_t offset = 0; while (len > 0) { ssize_t rc = recv(sock, &buf[offset], len, 0); if (rc == -1) { switch (errno) { case EAGAIN: case EINTR: break; default: return -1; } } else if (rc == 0) { errno = EIO; return -1; } else { len -= rc; offset += rc; } } return 0; } static ssize_t recvstring(int sock, char* buf, size_t len) { ssize_t retval; if (recvall(sock, (char*) &retval, sizeof(retval)) == -1) { return -1; } else if (retval > (ssize_t) len) { return -1; } else if (recvall(sock, buf, retval) == -1) { return -1; } return retval; } char* readline_context::completion_generator(const char* text_in, int state) { static std::vector matches; std::vector long_matches; char* retval = nullptr; if (state == 0) { auto text_str = std::string(text_in); if (arg_needs_shlex) { shlex arg_lexer(text_str); std::map scope; std::string result; if (arg_lexer.eval(result, scope)) { text_str = result; } } matches.clear(); if (arg_possibilities != nullptr) { for (const auto& poss : (*arg_possibilities)) { auto cmpfunc = (loaded_context->is_case_sensitive() ? strncmp : strncasecmp); auto poss_str = poss.c_str(); // Check for an exact match and for the quoted version. if (cmpfunc(text_str.c_str(), poss_str, text_str.length()) == 0 || ((strchr(loaded_context->rc_quote_chars, poss_str[0]) != nullptr) && cmpfunc(text_str.c_str(), &poss_str[1], text_str.length()) == 0)) { auto poss_slash_count = std::count(poss.begin(), poss.end(), '/'); if (endswith(poss, "/")) { poss_slash_count -= 1; } if (std::count(text_str.begin(), text_str.end(), '/') == poss_slash_count) { matches.emplace_back(poss); } else { long_matches.emplace_back(poss); } } } if (matches.empty()) { matches = std::move(long_matches); } if (matches.empty()) { std::vector> fuzzy_matches; std::vector> fuzzy_long_matches; for (const auto& poss : (*arg_possibilities)) { std::string poss_str = tolower(poss); int score = 0; if (fts::fuzzy_match( text_str.c_str(), poss_str.c_str(), score) && score > 0) { if (score <= 0) { continue; } auto poss_slash_count = std::count(poss_str.begin(), poss_str.end(), '/'); if (endswith(poss, "/")) { poss_slash_count -= 1; } if (std::count(text_str.begin(), text_str.end(), '/') == poss_slash_count) { fuzzy_matches.emplace_back(score, poss); } else { fuzzy_long_matches.emplace_back(score, poss); } } } if (fuzzy_matches.empty()) { fuzzy_matches = std::move(fuzzy_long_matches); } if (!fuzzy_matches.empty()) { stable_sort( begin(fuzzy_matches), end(fuzzy_matches), [](auto l, auto r) { return r.first < l.first; }); int highest = fuzzy_matches[0].first; for (const auto& pair : fuzzy_matches) { if (highest - pair.first < FUZZY_PEER_THRESHOLD) { matches.push_back(pair.second); } else { break; } } } } } if (matches.size() == 1) { if (text_str == matches[0]) { matches.pop_back(); } last_match_str_valid = false; if (sendstring( child_this->rc_command_pipe[readline_curses::RCF_SLAVE], "m:0:0:0", 7) == -1) { _exit(1); } } } if (!matches.empty()) { retval = strdup(matches.back().c_str()); matches.pop_back(); } return retval; } char** readline_context::attempted_completion(const char* text, int start, int end) { char** retval = nullptr; completion_start = start; if (start == 0 && loaded_context->rc_possibilities.find("__command") != loaded_context->rc_possibilities.end()) { arg_possibilities = &loaded_context->rc_possibilities["__command"]; arg_needs_shlex = false; rl_completion_append_character = loaded_context->rc_append_character; } else { char* space; std::string cmd; std::vector prefix; int point = rl_point; while (point > 0 && rl_line_buffer[point] != ' ') { point -= 1; } shlex lexer(rl_line_buffer, point); std::map scope; arg_possibilities = nullptr; rl_completion_append_character = 0; if (lexer.split(prefix, scope)) { auto prefix2 = fmt::format(FMT_STRING("{}"), fmt::join(prefix, "\x1f")); auto prefix_iter = loaded_context->rc_prefixes.find(prefix2); if (prefix_iter != loaded_context->rc_prefixes.end()) { arg_possibilities = &(loaded_context->rc_possibilities[prefix_iter->second]); arg_needs_shlex = false; } } if (arg_possibilities == nullptr) { space = strchr(rl_line_buffer, ' '); if (space == nullptr) { space = rl_line_buffer + strlen(rl_line_buffer); } cmd = std::string(rl_line_buffer, space - rl_line_buffer); auto iter = loaded_context->rc_prototypes.find(cmd); if (iter == loaded_context->rc_prototypes.end()) { if (loaded_context->rc_possibilities.find("*") != loaded_context->rc_possibilities.end()) { arg_possibilities = &loaded_context->rc_possibilities["*"]; arg_needs_shlex = false; rl_completion_append_character = loaded_context->rc_append_character; } } else { std::vector& proto = loaded_context->rc_prototypes[cmd]; if (proto.empty()) { arg_possibilities = nullptr; } else if (proto[0] == "filename") { shlex fn_lexer(rl_line_buffer, rl_point); std::vector fn_list; int found = 0; fn_lexer.split(fn_list, scope); const auto& last_fn = fn_list.size() <= 1 ? "" : fn_list.back(); if (last_fn.find(':') != std::string::npos) { auto rp_iter = loaded_context->rc_possibilities.find( "remote-path"); if (rp_iter != loaded_context->rc_possibilities.end()) { for (const auto& poss : rp_iter->second) { if (startswith(poss, last_fn.c_str())) { found += 1; } } if (found) { arg_possibilities = &rp_iter->second; arg_needs_shlex = false; } } if (!found || (endswith(last_fn, "/") && found == 1)) { char msg[2048]; snprintf( msg, sizeof(msg), "\t:%s", last_fn.c_str()); sendstring(child_this->rc_command_pipe[1], msg, strlen(msg)); } } if (!found) { static std::set file_name_set; file_name_set.clear(); auto_mem completed_fn; int fn_state = 0; auto recent_netlocs_iter = loaded_context->rc_possibilities.find( "recent-netlocs"); if (recent_netlocs_iter != loaded_context->rc_possibilities.end()) { file_name_set.insert( recent_netlocs_iter->second.begin(), recent_netlocs_iter->second.end()); } while ((completed_fn = rl_filename_completion_function( last_fn.c_str(), fn_state)) != nullptr) { file_name_set.insert(completed_fn.in()); fn_state += 1; } arg_possibilities = &file_name_set; arg_needs_shlex = true; } } else { arg_possibilities = &(loaded_context->rc_possibilities[proto[0]]); arg_needs_shlex = false; } } } } retval = rl_completion_matches(text, completion_generator); if (retval == nullptr) { rl_attempted_completion_over = 1; } return retval; } static int rubout_char_or_abort(int count, int key) { if (rl_line_buffer[0] == '\0') { rl_done = true; got_abort = 1; got_line = 0; return 0; } else { return rl_rubout(count, '\b'); } } static int alt_done_func(int count, int key) { alt_done = true; rl_newline(count, key); return 0; } int readline_context::command_complete(int count, int key) { if (loaded_context->rc_possibilities.find("__command") != loaded_context->rc_possibilities.end()) { char* space = strchr(rl_line_buffer, ' '); if (space == nullptr) { return rl_menu_complete(count, key); } } return rl_insert(count, key); } readline_context::readline_context(std::string name, readline_context::command_map_t* commands, bool case_sensitive) : rc_name(std::move(name)), rc_case_sensitive(case_sensitive), rc_quote_chars("\"'"), rc_highlighter(nullptr) { if (commands != nullptr) { command_map_t::iterator iter; for (iter = commands->begin(); iter != commands->end(); ++iter) { std::string cmd = iter->first; this->rc_possibilities["__command"].insert(cmd); iter->second->c_func( INIT_EXEC_CONTEXT, cmd, this->rc_prototypes[cmd]); } } memset(&this->rc_history, 0, sizeof(this->rc_history)); history_set_history_state(&this->rc_history); auto config_dir = lnav::paths::dotlnav(); auto hpath = (config_dir / this->rc_name).string() + ".history"; read_history(hpath.c_str()); this->save(); this->rc_append_character = ' '; } void readline_context::load() { char buffer[128]; rl_completer_word_break_characters = (char*) " \t\n|()"; /* XXX */ /* * XXX Need to keep the input on a single line since the display screws * up if it wraps around. */ snprintf(buffer, sizeof(buffer), "set completion-ignore-case %s", this->rc_case_sensitive ? "off" : "on"); rl_parse_and_bind(buffer); /* NOTE: buffer is modified */ loaded_context = this; rl_attempted_completion_function = attempted_completion; history_set_history_state(&this->rc_history); for (auto& rc_var : this->rc_vars) { *(rc_var.rv_dst.ch) = (char*) rc_var.rv_val.ch; } } void readline_context::save() { HISTORY_STATE* hs = history_get_history_state(); this->rc_history = *hs; free(hs); hs = nullptr; } readline_curses::readline_curses( std::shared_ptr supervisor) : pollable(supervisor, pollable::category::interactive), rc_focus(noop_func{}), rc_change(noop_func{}), rc_perform(noop_func{}), rc_alt_perform(noop_func{}), rc_timeout(noop_func{}), rc_abort(noop_func{}), rc_display_match(noop_func{}), rc_display_next(noop_func{}), rc_blur(noop_func{}), rc_completion_request(noop_func{}) { } readline_curses::~readline_curses() { this->rc_pty[RCF_MASTER].reset(); this->rc_command_pipe[RCF_MASTER].reset(); if (this->rc_child == 0) { _exit(0); } else if (this->rc_child > 0) { int status; log_debug("terminating readline child %d", this->rc_child); log_perror(kill(this->rc_child, SIGTERM)); this->rc_child = -1; while (wait(&status) < 0 && (errno == EINTR)) { ; } log_debug(" child %d has exited", this->rc_child); } } void readline_curses::store_matches(char** matches, int num_matches, int max_len) { static int match_index = 0; char msg[64]; int rc; max_len = 0; for (int lpc = 0; lpc <= num_matches; lpc++) { max_len = std::max(max_len, (int) strlen(matches[lpc])); } if (last_match_str_valid && strcmp(last_match_str.c_str(), matches[0]) == 0) { match_index += 1; rc = snprintf(msg, sizeof(msg), "n:%d", match_index); if (sendstring(child_this->rc_command_pipe[RCF_SLAVE], msg, rc) == -1) { _exit(1); } } else { match_index = 0; rc = snprintf(msg, sizeof(msg), "m:%d:%d:%d", completion_start, num_matches, max_len); if (sendstring(child_this->rc_command_pipe[RCF_SLAVE], msg, rc) == -1) { _exit(1); } for (int lpc = 1; lpc <= num_matches; lpc++) { if (sendstring(child_this->rc_command_pipe[RCF_SLAVE], matches[lpc], strlen(matches[lpc])) == -1) { _exit(1); } } last_match_str = matches[0]; last_match_str_valid = true; } } void readline_curses::start() { if (this->rc_child > 0) { return; } struct winsize ws; int sp[2]; if (socketpair(PF_UNIX, SOCK_STREAM, 0, sp) < 0) { throw error(errno); } this->rc_command_pipe[RCF_MASTER] = sp[RCF_MASTER]; this->rc_command_pipe[RCF_SLAVE] = sp[RCF_SLAVE]; if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) == -1) { throw error(errno); } if (openpty(this->rc_pty[RCF_MASTER].out(), this->rc_pty[RCF_SLAVE].out(), nullptr, nullptr, &ws) < 0) { perror("error: failed to open terminal(openpty)"); throw error(errno); } if ((this->rc_child = fork()) == -1) { throw error(errno); } if (this->rc_child != 0) { this->rc_command_pipe[RCF_SLAVE].reset(); this->rc_pty[RCF_SLAVE].reset(); return; } { char buffer[1024]; this->rc_command_pipe[RCF_MASTER].reset(); this->rc_pty[RCF_MASTER].reset(); signal(SIGALRM, sigalrm); signal(SIGWINCH, sigwinch); signal(SIGINT, sigterm); signal(SIGTERM, sigterm); dup2(this->rc_pty[RCF_SLAVE], STDIN_FILENO); dup2(this->rc_pty[RCF_SLAVE], STDOUT_FILENO); setenv("TERM", "vt52", 1); rl_initialize(); using_history(); stifle_history(HISTORY_SIZE); rl_add_defun("rubout-char-or-abort", rubout_char_or_abort, '\b'); rl_add_defun("alt-done", alt_done_func, '\x0a'); // rl_add_defun("command-complete", readline_context::command_complete, // ' '); for (const auto* init_cmd : RL_INIT) { snprintf(buffer, sizeof(buffer), "%s", init_cmd); rl_parse_and_bind(buffer); /* NOTE: buffer is modified */ } child_this = this; } std::map::iterator current_context; int maxfd; require(!this->rc_contexts.empty()); rl_completion_display_matches_hook = store_matches; current_context = this->rc_contexts.end(); maxfd = std::max(STDIN_FILENO, this->rc_command_pipe[RCF_SLAVE].get()); while (looping) { fd_set ready_rfds; int rc; FD_ZERO(&ready_rfds); if (current_context != this->rc_contexts.end()) { FD_SET(STDIN_FILENO, &ready_rfds); } FD_SET(this->rc_command_pipe[RCF_SLAVE], &ready_rfds); rc = select(maxfd + 1, &ready_rfds, nullptr, nullptr, nullptr); if (rc < 0) { switch (errno) { case EINTR: break; } } else { if (FD_ISSET(STDIN_FILENO, &ready_rfds)) { static uint64_t last_h1, last_h2; struct itimerval itv; itv.it_value.tv_sec = 0; itv.it_value.tv_usec = KEY_TIMEOUT; itv.it_interval.tv_sec = 0; itv.it_interval.tv_usec = 0; setitimer(ITIMER_REAL, &itv, nullptr); rl_callback_read_char(); if (RL_ISSTATE(RL_STATE_DONE) && !got_line) { got_line = 1; this->line_ready(""); rl_callback_handler_remove(); } else { uint64_t h1 = 1, h2 = 2; if (rl_last_func == readline_context::command_complete) { rl_last_func = rl_menu_complete; } bool complete_done = (rl_last_func != rl_menu_complete && rl_last_func != rl_backward_menu_complete); if (complete_done) { last_match_str_valid = false; } else if (rewrite_line_start && !startswith(rl_line_buffer, rewrite_line_start->c_str())) { // If the line was rewritten, the extra text stays on // the screen, so we need to delete it, make sure the // append character is there, and redisplay. For // example, ':co' will complete ':comment' and // append the current comment. Pressing '' again // would switch to ':config' and the comment text would // be left on the display. rl_delete_text(rl_point, rl_end); if (rl_completion_append_character && rl_line_buffer[rl_point] != rl_completion_append_character) { char buf[2] = {(char) rl_completion_append_character, '\0'}; rl_insert_text(buf); } rl_redisplay(); } rewrite_line_start = nonstd::nullopt; SpookyHash::Hash128(rl_line_buffer, rl_end, &h1, &h2); if (h1 == last_h1 && h2 == last_h2) { // do nothing } else if (sendcmd(this->rc_command_pipe[RCF_SLAVE], complete_done ? 'l' : 'c', rl_line_buffer, rl_end) != 0) { perror("line: write failed"); _exit(1); } last_h1 = h1; last_h2 = h2; if (sendcmd(this->rc_command_pipe[RCF_SLAVE], 'w', "", 0) != 0) { perror("line: write failed"); _exit(1); } } } if (FD_ISSET(this->rc_command_pipe[RCF_SLAVE], &ready_rfds)) { char msg[1024 + 1]; if ((rc = recvstring(this->rc_command_pipe[RCF_SLAVE], msg, sizeof(msg) - 1)) < 0) { looping = false; } else { int context, prompt_start = 0; char type[1024]; msg[rc] = '\0'; if (sscanf(msg, "i:%d:%n", &rl_point, &prompt_start) == 1) { const char* initial = &msg[prompt_start]; rl_extend_line_buffer(strlen(initial) + 1); strcpy(rl_line_buffer, initial); rl_end = strlen(initial); rewrite_line_start = std::string(rl_line_buffer, rl_point); rl_redisplay(); if (sendcmd(this->rc_command_pipe[RCF_SLAVE], 'c', rl_line_buffer, rl_end) != 0) { perror("line: write failed"); _exit(1); } } else if (sscanf(msg, "f:%d:%n", &context, &prompt_start) == 1 && prompt_start != 0 && (current_context = this->rc_contexts.find(context)) != this->rc_contexts.end()) { got_abort = 0; current_context->second->load(); rl_callback_handler_install(&msg[prompt_start], line_ready_tramp); last_match_str_valid = false; if (sendcmd(this->rc_command_pipe[RCF_SLAVE], 'l', rl_line_buffer, rl_end) != 0) { perror("line: write failed"); _exit(1); } if (sendcmd( this->rc_command_pipe[RCF_SLAVE], 'w', "", 0) != 0) { perror("line: write failed"); _exit(1); } } else if (strcmp(msg, "a") == 0) { char reply[4]; rl_done = 1; got_timeout = 0; got_line = 1; rl_callback_handler_remove(); snprintf(reply, sizeof(reply), "a"); if (sendstring(this->rc_command_pipe[RCF_SLAVE], reply, strlen(reply)) == -1) { perror("abort: write failed"); _exit(1); } } else if (sscanf(msg, "apre:%d:%1023[^\x1d]\x1d%n", &context, type, &prompt_start) == 2) { require(this->rc_contexts[context] != nullptr); this->rc_contexts[context] ->rc_prefixes[std::string(type)] = std::string(&msg[prompt_start]); } else if (sscanf(msg, "ap:%d:%31[^:]:%n", &context, type, &prompt_start) == 2) { require(this->rc_contexts[context] != nullptr); this->rc_contexts[context]->add_possibility( std::string(type), std::string(&msg[prompt_start])); if (rl_last_func == rl_complete || rl_last_func == rl_menu_complete) { rl_last_func = NULL; } } else if (sscanf(msg, "rp:%d:%31[^:]:%n", &context, type, &prompt_start) == 2) { require(this->rc_contexts[context] != nullptr); this->rc_contexts[context]->rem_possibility( std::string(type), std::string(&msg[prompt_start])); } else if (sscanf(msg, "cpre:%d", &context) == 1) { this->rc_contexts[context]->rc_prefixes.clear(); } else if (sscanf(msg, "cp:%d:%s", &context, type)) { this->rc_contexts[context]->clear_possibilities(type); } else { log_error("unhandled message: %s", msg); } } } } if (got_timeout) { got_timeout = 0; if (sendcmd(this->rc_command_pipe[RCF_SLAVE], 't', rl_line_buffer, rl_end) == -1) { _exit(1); } } if (got_line) { struct itimerval itv; got_line = 0; itv.it_value.tv_sec = 0; itv.it_value.tv_usec = 0; itv.it_interval.tv_sec = 0; itv.it_interval.tv_usec = 0; if (setitimer(ITIMER_REAL, &itv, nullptr) < 0) { log_error("setitimer: %s", strerror(errno)); } if (current_context != this->rc_contexts.end()) { current_context->second->save(); current_context = this->rc_contexts.end(); } } if (got_winch) { struct winsize new_ws; if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &new_ws) == -1) { throw error(errno); } got_winch = 0; rl_set_screen_size(new_ws.ws_row, new_ws.ws_col); } } if (this->rc_save_history) { auto config_dir = lnav::paths::dotlnav(); for (auto& pair : this->rc_contexts) { pair.second->load(); auto hpath = (config_dir / pair.second->get_name()).string() + ".history"; write_history(hpath.c_str()); pair.second->save(); } } _exit(0); } void readline_curses::line_ready(const char* line) { auto_mem expanded; char msg[1024] = {0}; int rc; const char* cmd_ch = alt_done ? "D" : "d"; alt_done = false; if (got_abort || line == nullptr) { snprintf(msg, sizeof(msg), "a"); if (sendstring(this->rc_command_pipe[RCF_SLAVE], msg, strlen(msg)) == -1) { perror("abort: write failed"); _exit(1); } return; } if (rl_line_buffer[0] == '^') { rc = -1; } else { rc = history_expand(rl_line_buffer, expanded.out()); } switch (rc) { #if 0 /* TODO: fix clash between history and pcre metacharacters */ case -1: /* XXX */ snprintf(msg, sizeof(msg), "e:unable to expand history -- %s", expanded.in()); break; #endif case -1: snprintf(msg, sizeof(msg), "%s:%s", cmd_ch, line); break; case 0: case 1: case 2: /* XXX */ snprintf(msg, sizeof(msg), "%s:%s", cmd_ch, expanded.in()); break; } if (sendstring(this->rc_command_pipe[RCF_SLAVE], msg, strlen(msg)) == -1) { perror("line_ready: write failed"); _exit(1); } { HIST_ENTRY* entry; if (line[0] != '\0' && (history_length == 0 || (entry = history_get(history_base + history_length - 1)) == nullptr || strcmp(entry->line, line) != 0)) { add_history(line); } } } void readline_curses::check_poll_set(const std::vector& pollfds) { int rc; if (pollfd_ready(pollfds, this->rc_pty[RCF_MASTER])) { char buffer[128]; rc = read(this->rc_pty[RCF_MASTER], buffer, sizeof(buffer)); if (rc > 0) { int old_x = this->vc_x; this->map_output(buffer, rc); if (this->vc_x != old_x) { this->rc_change(this); } } } if (pollfd_ready(pollfds, this->rc_command_pipe[RCF_MASTER])) { char msg[1024 + 1]; rc = recvstring( this->rc_command_pipe[RCF_MASTER], msg, sizeof(msg) - 1); if (rc >= 0) { msg[rc] = '\0'; if (this->rc_matches_remaining > 0) { this->rc_matches.emplace_back(msg); this->rc_matches_remaining -= 1; if (this->rc_matches_remaining == 0) { this->rc_display_match(this); } } else if (msg[0] == 'm') { if (sscanf(msg, "m:%d:%d:%d", &this->rc_match_start, &this->rc_matches_remaining, &this->rc_max_match_length) != 3) { require(0); } this->rc_matches.clear(); if (this->rc_matches_remaining == 0) { this->rc_display_match(this); } this->rc_match_index = 0; } else if (msg[0] == '\t') { char path[2048]; if (sscanf(msg, "\t:%s", path) != 1) { require(0); } this->rc_remote_complete_path = path; this->rc_completion_request(this); } else if (msg[0] == 'n') { if (sscanf(msg, "n:%d", &this->rc_match_index) != 1) { require(0); } this->rc_display_next(this); } else { switch (msg[0]) { case 't': case 'd': case 'D': this->rc_value = std::string(&msg[2]); break; } switch (msg[0]) { case 'a': curs_set(0); this->vc_line.clear(); this->rc_active_context = -1; this->rc_matches.clear(); this->rc_abort(this); this->rc_display_match(this); this->rc_blur(this); break; case 't': this->rc_timeout(this); break; case 'd': case 'D': curs_set(0); this->rc_active_context = -1; this->rc_matches.clear(); if (msg[0] == 'D' || this->rc_is_alt_focus) { this->rc_alt_perform(this); } else { this->rc_perform(this); } this->rc_display_match(this); this->rc_blur(this); break; case 'l': this->rc_line_buffer = &msg[2]; if (this->rc_active_context != -1) { this->rc_change(this); } this->rc_matches.clear(); if (this->rc_active_context != -1) { this->rc_display_match(this); } break; case 'c': this->rc_line_buffer = &msg[2]; this->rc_change(this); this->rc_display_match(this); break; case 'w': this->rc_ready_for_input = true; break; } } } } } void readline_curses::handle_key(int ch) { const char* bch; int len; bch = this->map_input(ch, len); if (write(this->rc_pty[RCF_MASTER], bch, len) == -1) { perror("handle_key: write failed"); } } void readline_curses::focus(int context, const std::string& prompt, const std::string& initial) { char buffer[1024]; curs_set(1); this->rc_active_context = context; snprintf(buffer, sizeof(buffer), "f:%d:%s", context, prompt.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("focus: write failed"); } wmove(this->vc_window, this->get_actual_y(), this->vc_left); wclrtoeol(this->vc_window); if (!initial.empty()) { this->rewrite_line(initial.size(), initial); } this->rc_is_alt_focus = false; this->rc_focus(this); } void readline_curses::rewrite_line(int pos, const std::string& value) { char buffer[1024]; snprintf(buffer, sizeof(buffer), "i:%d:%s", pos, value.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("rewrite_line: write failed"); } } void readline_curses::abort() { char buffer[1024]; this->vc_x = 0; snprintf(buffer, sizeof(buffer), "a"); if (sendstring(this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer)) == -1) { perror("abort: write failed"); } } void readline_curses::add_prefix(int context, const std::vector& prefix, const std::string& value) { char buffer[1024]; auto prefix_wire = fmt::format(FMT_STRING("{}"), fmt::join(prefix, "\x1f")); snprintf(buffer, sizeof(buffer), "apre:%d:%s\x1d%s", context, prefix_wire.c_str(), value.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("add_prefix: write failed"); } } void readline_curses::clear_prefixes(int context) { char buffer[1024]; snprintf(buffer, sizeof(buffer), "cpre:%d", context); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("add_possibility: write failed"); } } void readline_curses::add_possibility(int context, const std::string& type, const std::string& value) { char buffer[1024]; if (value.empty()) { return; } snprintf(buffer, sizeof(buffer), "ap:%d:%s:%s", context, type.c_str(), value.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("add_possibility: write failed"); } } void readline_curses::rem_possibility(int context, const std::string& type, const std::string& value) { char buffer[1024]; snprintf(buffer, sizeof(buffer), "rp:%d:%s:%s", context, type.c_str(), value.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("rem_possiblity: write failed"); } } void readline_curses::clear_possibilities(int context, std::string type) { char buffer[1024]; snprintf(buffer, sizeof(buffer), "cp:%d:%s", context, type.c_str()); if (sendstring( this->rc_command_pipe[RCF_MASTER], buffer, strlen(buffer) + 1) == -1) { perror("clear_possiblity: write failed"); } } void readline_curses::do_update() { if (!this->vc_visible || this->vc_window == nullptr) { return; } if (this->rc_active_context == -1) { int alt_start = -1; struct line_range lr(0, 0); attr_line_t alt_al; view_colors& vc = view_colors::singleton(); wmove(this->vc_window, this->get_actual_y(), this->vc_left); auto attrs = vc.attrs_for_role(role_t::VCR_TEXT); wattr_set(this->vc_window, attrs.ta_attrs, vc.ensure_color_pair(attrs.ta_fg_color, attrs.ta_bg_color), nullptr); whline(this->vc_window, ' ', this->vc_width); if (time(nullptr) > this->rc_value_expiration) { this->rc_value.clear(); } if (!this->rc_alt_value.empty()) { alt_al.get_string() = this->rc_alt_value; scrub_ansi_string(alt_al.get_string(), &alt_al.get_attrs()); alt_start = getmaxx(this->vc_window) - alt_al.get_string().size(); } if (alt_start >= (int) (this->rc_value.length() + 5)) { lr.lr_end = alt_al.get_string().length(); view_curses::mvwattrline( this->vc_window, this->get_actual_y(), alt_start, alt_al, lr); } lr.lr_end = this->rc_value.length(); view_curses::mvwattrline(this->vc_window, this->get_actual_y(), this->vc_left, this->rc_value, lr); this->set_x(0); } if (this->rc_active_context != -1) { readline_context* rc = this->rc_contexts[this->rc_active_context]; readline_highlighter_t hl = rc->get_highlighter(); attr_line_t al = this->vc_line; if (hl != nullptr) { hl(al, this->vc_left + this->vc_x); } view_curses::mvwattrline(this->vc_window, this->get_actual_y(), this->vc_left, al, line_range{0, (int) this->vc_width}); wmove( this->vc_window, this->get_actual_y(), this->vc_left + this->vc_x); } } std::string readline_curses::get_match_string() const { auto len = std::min((size_t) this->vc_x, this->rc_line_buffer.size()) - this->rc_match_start; auto* context = this->get_active_context(); if (context->get_append_character() != 0) { if (this->rc_line_buffer.length() > (this->rc_match_start + len - 1) && this->rc_line_buffer[this->rc_match_start + len - 1] == context->get_append_character()) { len -= 1; } else if (this->rc_line_buffer.length() > (this->rc_match_start + len - 2) && this->rc_line_buffer[this->rc_match_start + len - 2] == context->get_append_character()) { len -= 2; } } return this->rc_line_buffer.substr(this->rc_match_start, len); } void readline_curses::set_value(const std::string& value) { this->set_attr_value(attr_line_t::from_ansi_str(value.c_str())); } void readline_curses::set_attr_value(const attr_line_t& value) { this->rc_value = value; if (this->rc_value.length() > 1024) { this->rc_value = this->rc_value.subline(0, 1024); } this->rc_value_expiration = time(nullptr) + VALUE_EXPIRATION; this->set_needs_update(); } void readline_curses::update_poll_set(std::vector& pollfds) { if (this->rc_pty[RCF_MASTER] != -1) { pollfds.push_back((struct pollfd){this->rc_pty[RCF_MASTER], POLLIN, 0}); } if (this->rc_command_pipe[RCF_MASTER] != -1) { pollfds.push_back( (struct pollfd){this->rc_command_pipe[RCF_MASTER], POLLIN, 0}); } }