Mercurial > vim
view src/job.c @ 33075:0346ff4c3ee7 v9.0.1824
patch 9.0.1824: Vim9: private members may be modifiable
Commit: https://github.com/vim/vim/commit/5bbcfbc4a260bc082829311086c3a1109c40f2d3
Author: Yegappan Lakshmanan <yegappan@yahoo.com>
Date: Wed Aug 30 16:38:26 2023 +0200
patch 9.0.1824: Vim9: private members may be modifiable
Problem: Vim9: private members may be modifiable
Solution: prevent modification for def function
closes: #12963
Signed-off-by: Christian Brabandt <cb@256bit.org>
Co-authored-by: Yegappan Lakshmanan <yegappan@yahoo.com>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Wed, 30 Aug 2023 16:45:10 +0200 |
parents | 695b50472e85 |
children |
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/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. */ /* * Implements starting jobs and controlling them. */ #include "vim.h" #if defined(FEAT_JOB_CHANNEL) || defined(PROTO) #define FOR_ALL_JOBS(job) \ for ((job) = first_job; (job) != NULL; (job) = (job)->jv_next) static int handle_mode(typval_T *item, jobopt_T *opt, ch_mode_T *modep, int jo) { char_u *val = tv_get_string(item); opt->jo_set |= jo; if (STRCMP(val, "nl") == 0) *modep = CH_MODE_NL; else if (STRCMP(val, "raw") == 0) *modep = CH_MODE_RAW; else if (STRCMP(val, "js") == 0) *modep = CH_MODE_JS; else if (STRCMP(val, "json") == 0) *modep = CH_MODE_JSON; else if (STRCMP(val, "lsp") == 0) *modep = CH_MODE_LSP; else { semsg(_(e_invalid_argument_str), val); return FAIL; } return OK; } static int handle_io(typval_T *item, ch_part_T part, jobopt_T *opt) { char_u *val = tv_get_string(item); opt->jo_set |= JO_OUT_IO << (part - PART_OUT); if (STRCMP(val, "null") == 0) opt->jo_io[part] = JIO_NULL; else if (STRCMP(val, "pipe") == 0) opt->jo_io[part] = JIO_PIPE; else if (STRCMP(val, "file") == 0) opt->jo_io[part] = JIO_FILE; else if (STRCMP(val, "buffer") == 0) opt->jo_io[part] = JIO_BUFFER; else if (STRCMP(val, "out") == 0 && part == PART_ERR) opt->jo_io[part] = JIO_OUT; else { semsg(_(e_invalid_argument_str), val); return FAIL; } return OK; } /* * Clear a jobopt_T before using it. */ void clear_job_options(jobopt_T *opt) { CLEAR_POINTER(opt); } static void unref_job_callback(callback_T *cb) { if (cb->cb_partial != NULL) partial_unref(cb->cb_partial); else if (cb->cb_name != NULL) { func_unref(cb->cb_name); if (cb->cb_free_name) vim_free(cb->cb_name); } } /* * Free any members of a jobopt_T. */ void free_job_options(jobopt_T *opt) { unref_job_callback(&opt->jo_callback); unref_job_callback(&opt->jo_out_cb); unref_job_callback(&opt->jo_err_cb); unref_job_callback(&opt->jo_close_cb); unref_job_callback(&opt->jo_exit_cb); if (opt->jo_env != NULL) dict_unref(opt->jo_env); } /* * Get the PART_ number from the first character of an option name. */ static int part_from_char(int c) { return c == 'i' ? PART_IN : c == 'o' ? PART_OUT: PART_ERR; } /* * Get the option entries from the dict in "tv", parse them and put the result * in "opt". * Only accept JO_ options in "supported" and JO2_ options in "supported2". * If an option value is invalid return FAIL. */ int get_job_options(typval_T *tv, jobopt_T *opt, int supported, int supported2) { typval_T *item; char_u *val; dict_T *dict; int todo; hashitem_T *hi; ch_part_T part; if (tv->v_type == VAR_UNKNOWN) return OK; if (tv->v_type != VAR_DICT) { emsg(_(e_dictionary_required)); return FAIL; } dict = tv->vval.v_dict; if (dict == NULL) return OK; todo = (int)dict->dv_hashtab.ht_used; FOR_ALL_HASHTAB_ITEMS(&dict->dv_hashtab, hi, todo) if (!HASHITEM_EMPTY(hi)) { item = &dict_lookup(hi)->di_tv; if (STRCMP(hi->hi_key, "mode") == 0) { if (!(supported & JO_MODE)) break; if (handle_mode(item, opt, &opt->jo_mode, JO_MODE) == FAIL) return FAIL; } else if (STRCMP(hi->hi_key, "in_mode") == 0) { if (!(supported & JO_IN_MODE)) break; if (handle_mode(item, opt, &opt->jo_in_mode, JO_IN_MODE) == FAIL) return FAIL; } else if (STRCMP(hi->hi_key, "out_mode") == 0) { if (!(supported & JO_OUT_MODE)) break; if (handle_mode(item, opt, &opt->jo_out_mode, JO_OUT_MODE) == FAIL) return FAIL; } else if (STRCMP(hi->hi_key, "err_mode") == 0) { if (!(supported & JO_ERR_MODE)) break; if (handle_mode(item, opt, &opt->jo_err_mode, JO_ERR_MODE) == FAIL) return FAIL; } else if (STRCMP(hi->hi_key, "noblock") == 0) { if (!(supported & JO_MODE)) break; opt->jo_noblock = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "in_io") == 0 || STRCMP(hi->hi_key, "out_io") == 0 || STRCMP(hi->hi_key, "err_io") == 0) { if (!(supported & JO_OUT_IO)) break; if (handle_io(item, part_from_char(*hi->hi_key), opt) == FAIL) return FAIL; } else if (STRCMP(hi->hi_key, "in_name") == 0 || STRCMP(hi->hi_key, "out_name") == 0 || STRCMP(hi->hi_key, "err_name") == 0) { part = part_from_char(*hi->hi_key); if (!(supported & JO_OUT_IO)) break; opt->jo_set |= JO_OUT_NAME << (part - PART_OUT); opt->jo_io_name[part] = tv_get_string_buf_chk(item, opt->jo_io_name_buf[part]); } else if (STRCMP(hi->hi_key, "pty") == 0) { if (!(supported & JO_MODE)) break; opt->jo_pty = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "in_buf") == 0 || STRCMP(hi->hi_key, "out_buf") == 0 || STRCMP(hi->hi_key, "err_buf") == 0) { part = part_from_char(*hi->hi_key); if (!(supported & JO_OUT_IO)) break; opt->jo_set |= JO_OUT_BUF << (part - PART_OUT); opt->jo_io_buf[part] = tv_get_number(item); if (opt->jo_io_buf[part] <= 0) { semsg(_(e_invalid_value_for_argument_str_str), hi->hi_key, tv_get_string(item)); return FAIL; } if (buflist_findnr(opt->jo_io_buf[part]) == NULL) { semsg(_(e_buffer_nr_does_not_exist), (long)opt->jo_io_buf[part]); return FAIL; } } else if (STRCMP(hi->hi_key, "out_modifiable") == 0 || STRCMP(hi->hi_key, "err_modifiable") == 0) { part = part_from_char(*hi->hi_key); if (!(supported & JO_OUT_IO)) break; opt->jo_set |= JO_OUT_MODIFIABLE << (part - PART_OUT); opt->jo_modifiable[part] = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "out_msg") == 0 || STRCMP(hi->hi_key, "err_msg") == 0) { part = part_from_char(*hi->hi_key); if (!(supported & JO_OUT_IO)) break; opt->jo_set2 |= JO2_OUT_MSG << (part - PART_OUT); opt->jo_message[part] = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "in_top") == 0 || STRCMP(hi->hi_key, "in_bot") == 0) { linenr_T *lp; if (!(supported & JO_OUT_IO)) break; if (hi->hi_key[3] == 't') { lp = &opt->jo_in_top; opt->jo_set |= JO_IN_TOP; } else { lp = &opt->jo_in_bot; opt->jo_set |= JO_IN_BOT; } *lp = tv_get_number(item); if (*lp < 0) { semsg(_(e_invalid_value_for_argument_str_str), hi->hi_key, tv_get_string(item)); return FAIL; } } else if (STRCMP(hi->hi_key, "channel") == 0) { if (!(supported & JO_OUT_IO)) break; opt->jo_set |= JO_CHANNEL; if (item->v_type != VAR_CHANNEL) { semsg(_(e_invalid_value_for_argument_str), "channel"); return FAIL; } opt->jo_channel = item->vval.v_channel; } else if (STRCMP(hi->hi_key, "callback") == 0) { if (!(supported & JO_CALLBACK)) break; opt->jo_set |= JO_CALLBACK; opt->jo_callback = get_callback(item); if (opt->jo_callback.cb_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "callback"); return FAIL; } } else if (STRCMP(hi->hi_key, "out_cb") == 0) { if (!(supported & JO_OUT_CALLBACK)) break; opt->jo_set |= JO_OUT_CALLBACK; opt->jo_out_cb = get_callback(item); if (opt->jo_out_cb.cb_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "out_cb"); return FAIL; } } else if (STRCMP(hi->hi_key, "err_cb") == 0) { if (!(supported & JO_ERR_CALLBACK)) break; opt->jo_set |= JO_ERR_CALLBACK; opt->jo_err_cb = get_callback(item); if (opt->jo_err_cb.cb_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "err_cb"); return FAIL; } } else if (STRCMP(hi->hi_key, "close_cb") == 0) { if (!(supported & JO_CLOSE_CALLBACK)) break; opt->jo_set |= JO_CLOSE_CALLBACK; opt->jo_close_cb = get_callback(item); if (opt->jo_close_cb.cb_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "close_cb"); return FAIL; } } else if (STRCMP(hi->hi_key, "drop") == 0) { int never = FALSE; val = tv_get_string(item); if (STRCMP(val, "never") == 0) never = TRUE; else if (STRCMP(val, "auto") != 0) { semsg(_(e_invalid_value_for_argument_str_str), "drop", val); return FAIL; } opt->jo_drop_never = never; } else if (STRCMP(hi->hi_key, "exit_cb") == 0) { if (!(supported & JO_EXIT_CB)) break; opt->jo_set |= JO_EXIT_CB; opt->jo_exit_cb = get_callback(item); if (opt->jo_exit_cb.cb_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "exit_cb"); return FAIL; } } #ifdef FEAT_TERMINAL else if (STRCMP(hi->hi_key, "term_name") == 0) { if (!(supported2 & JO2_TERM_NAME)) break; opt->jo_set2 |= JO2_TERM_NAME; opt->jo_term_name = tv_get_string_buf_chk(item, opt->jo_term_name_buf); if (opt->jo_term_name == NULL) { semsg(_(e_invalid_value_for_argument_str), "term_name"); return FAIL; } } else if (STRCMP(hi->hi_key, "term_finish") == 0) { if (!(supported2 & JO2_TERM_FINISH)) break; val = tv_get_string(item); if (STRCMP(val, "open") != 0 && STRCMP(val, "close") != 0) { semsg(_(e_invalid_value_for_argument_str_str), "term_finish", val); return FAIL; } opt->jo_set2 |= JO2_TERM_FINISH; opt->jo_term_finish = *val; } else if (STRCMP(hi->hi_key, "term_opencmd") == 0) { char_u *p; if (!(supported2 & JO2_TERM_OPENCMD)) break; opt->jo_set2 |= JO2_TERM_OPENCMD; p = opt->jo_term_opencmd = tv_get_string_buf_chk(item, opt->jo_term_opencmd_buf); if (p != NULL) { // Must have %d and no other %. p = vim_strchr(p, '%'); if (p != NULL && (p[1] != 'd' || vim_strchr(p + 2, '%') != NULL)) p = NULL; } if (p == NULL) { semsg(_(e_invalid_value_for_argument_str), "term_opencmd"); return FAIL; } } else if (STRCMP(hi->hi_key, "eof_chars") == 0) { if (!(supported2 & JO2_EOF_CHARS)) break; opt->jo_set2 |= JO2_EOF_CHARS; opt->jo_eof_chars = tv_get_string_buf_chk(item, opt->jo_eof_chars_buf); if (opt->jo_eof_chars == NULL) { semsg(_(e_invalid_value_for_argument_str), "eof_chars"); return FAIL; } } else if (STRCMP(hi->hi_key, "term_rows") == 0) { int error = FALSE; if (!(supported2 & JO2_TERM_ROWS)) break; opt->jo_set2 |= JO2_TERM_ROWS; opt->jo_term_rows = tv_get_number_chk(item, &error); if (error) return FAIL; if (opt->jo_term_rows < 0 || opt->jo_term_rows > 1000) { semsg(_(e_invalid_value_for_argument_str), "term_rows"); return FAIL; } } else if (STRCMP(hi->hi_key, "term_cols") == 0) { int error = FALSE; if (!(supported2 & JO2_TERM_COLS)) break; opt->jo_set2 |= JO2_TERM_COLS; opt->jo_term_cols = tv_get_number_chk(item, &error); if (error) return FAIL; if (opt->jo_term_cols < 0 || opt->jo_term_cols > 1000) { semsg(_(e_invalid_value_for_argument_str), "term_cols"); return FAIL; } } else if (STRCMP(hi->hi_key, "vertical") == 0) { if (!(supported2 & JO2_VERTICAL)) break; opt->jo_set2 |= JO2_VERTICAL; opt->jo_vertical = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "curwin") == 0) { if (!(supported2 & JO2_CURWIN)) break; opt->jo_set2 |= JO2_CURWIN; opt->jo_curwin = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "bufnr") == 0) { int nr; if (!(supported2 & JO2_CURWIN)) break; opt->jo_set2 |= JO2_BUFNR; nr = tv_get_number(item); if (nr <= 0) { semsg(_(e_invalid_value_for_argument_str_str), hi->hi_key, tv_get_string(item)); return FAIL; } opt->jo_bufnr_buf = buflist_findnr(nr); if (opt->jo_bufnr_buf == NULL) { semsg(_(e_buffer_nr_does_not_exist), (long)nr); return FAIL; } if (opt->jo_bufnr_buf->b_nwindows == 0 || opt->jo_bufnr_buf->b_term == NULL) { semsg(_(e_invalid_argument_str), "bufnr"); return FAIL; } } else if (STRCMP(hi->hi_key, "hidden") == 0) { if (!(supported2 & JO2_HIDDEN)) break; opt->jo_set2 |= JO2_HIDDEN; opt->jo_hidden = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "norestore") == 0) { if (!(supported2 & JO2_NORESTORE)) break; opt->jo_set2 |= JO2_NORESTORE; opt->jo_term_norestore = tv_get_bool(item); } else if (STRCMP(hi->hi_key, "term_kill") == 0) { if (!(supported2 & JO2_TERM_KILL)) break; opt->jo_set2 |= JO2_TERM_KILL; opt->jo_term_kill = tv_get_string_buf_chk(item, opt->jo_term_kill_buf); if (opt->jo_term_kill == NULL) { semsg(_(e_invalid_value_for_argument_str), "term_kill"); return FAIL; } } else if (STRCMP(hi->hi_key, "tty_type") == 0) { char_u *p; if (!(supported2 & JO2_TTY_TYPE)) break; opt->jo_set2 |= JO2_TTY_TYPE; p = tv_get_string_chk(item); if (p == NULL) { semsg(_(e_invalid_value_for_argument_str), "tty_type"); return FAIL; } // Allow empty string, "winpty", "conpty". if (!(*p == NUL || STRCMP(p, "winpty") == 0 || STRCMP(p, "conpty") == 0)) { semsg(_(e_invalid_value_for_argument_str), "tty_type"); return FAIL; } opt->jo_tty_type = p[0]; } # if defined(FEAT_GUI) || defined(FEAT_TERMGUICOLORS) else if (STRCMP(hi->hi_key, "ansi_colors") == 0) { int n = 0; listitem_T *li; long_u rgb[16]; if (!(supported2 & JO2_ANSI_COLORS)) break; if (item == NULL || item->v_type != VAR_LIST || item->vval.v_list == NULL || item->vval.v_list->lv_first == &range_list_item) { semsg(_(e_invalid_value_for_argument_str), "ansi_colors"); return FAIL; } li = item->vval.v_list->lv_first; for (; li != NULL && n < 16; li = li->li_next, n++) { char_u *color_name; guicolor_T guicolor; int called_emsg_before = called_emsg; color_name = tv_get_string_chk(&li->li_tv); if (color_name == NULL) return FAIL; guicolor = GUI_GET_COLOR(color_name); if (guicolor == INVALCOLOR) { if (called_emsg_before == called_emsg) // may not get the error if the GUI didn't start semsg(_(e_cannot_allocate_color_str), color_name); return FAIL; } rgb[n] = GUI_MCH_GET_RGB(guicolor); } if (n != 16 || li != NULL) { semsg(_(e_invalid_value_for_argument_str), "ansi_colors"); return FAIL; } opt->jo_set2 |= JO2_ANSI_COLORS; memcpy(opt->jo_ansi_colors, rgb, sizeof(rgb)); } # endif else if (STRCMP(hi->hi_key, "term_highlight") == 0) { char_u *p; if (!(supported2 & JO2_TERM_HIGHLIGHT)) break; opt->jo_set2 |= JO2_TERM_HIGHLIGHT; p = tv_get_string_buf_chk(item, opt->jo_term_highlight_buf); if (p == NULL || *p == NUL) { semsg(_(e_invalid_value_for_argument_str), "term_highlight"); return FAIL; } opt->jo_term_highlight = p; } else if (STRCMP(hi->hi_key, "term_api") == 0) { if (!(supported2 & JO2_TERM_API)) break; opt->jo_set2 |= JO2_TERM_API; opt->jo_term_api = tv_get_string_buf_chk(item, opt->jo_term_api_buf); if (opt->jo_term_api == NULL) { semsg(_(e_invalid_value_for_argument_str), "term_api"); return FAIL; } } #endif else if (STRCMP(hi->hi_key, "env") == 0) { if (!(supported2 & JO2_ENV)) break; if (item->v_type != VAR_DICT) { semsg(_(e_invalid_value_for_argument_str), "env"); return FAIL; } opt->jo_set2 |= JO2_ENV; opt->jo_env = item->vval.v_dict; if (opt->jo_env != NULL) ++opt->jo_env->dv_refcount; } else if (STRCMP(hi->hi_key, "cwd") == 0) { if (!(supported2 & JO2_CWD)) break; opt->jo_cwd = tv_get_string_buf_chk(item, opt->jo_cwd_buf); if (opt->jo_cwd == NULL || !mch_isdir(opt->jo_cwd) #ifndef MSWIN // Win32 directories don't have the concept of "executable" || mch_access((char *)opt->jo_cwd, X_OK) != 0 #endif ) { semsg(_(e_invalid_value_for_argument_str), "cwd"); return FAIL; } opt->jo_set2 |= JO2_CWD; } else if (STRCMP(hi->hi_key, "waittime") == 0) { if (!(supported & JO_WAITTIME)) break; opt->jo_set |= JO_WAITTIME; opt->jo_waittime = tv_get_number(item); } else if (STRCMP(hi->hi_key, "timeout") == 0) { if (!(supported & JO_TIMEOUT)) break; opt->jo_set |= JO_TIMEOUT; opt->jo_timeout = tv_get_number(item); } else if (STRCMP(hi->hi_key, "out_timeout") == 0) { if (!(supported & JO_OUT_TIMEOUT)) break; opt->jo_set |= JO_OUT_TIMEOUT; opt->jo_out_timeout = tv_get_number(item); } else if (STRCMP(hi->hi_key, "err_timeout") == 0) { if (!(supported & JO_ERR_TIMEOUT)) break; opt->jo_set |= JO_ERR_TIMEOUT; opt->jo_err_timeout = tv_get_number(item); } else if (STRCMP(hi->hi_key, "part") == 0) { if (!(supported & JO_PART)) break; opt->jo_set |= JO_PART; val = tv_get_string(item); if (STRCMP(val, "err") == 0) opt->jo_part = PART_ERR; else if (STRCMP(val, "out") == 0) opt->jo_part = PART_OUT; else { semsg(_(e_invalid_value_for_argument_str_str), "part", val); return FAIL; } } else if (STRCMP(hi->hi_key, "id") == 0) { if (!(supported & JO_ID)) break; opt->jo_set |= JO_ID; opt->jo_id = tv_get_number(item); } else if (STRCMP(hi->hi_key, "stoponexit") == 0) { if (!(supported & JO_STOPONEXIT)) break; opt->jo_set |= JO_STOPONEXIT; opt->jo_stoponexit = tv_get_string_buf_chk(item, opt->jo_stoponexit_buf); if (opt->jo_stoponexit == NULL) { semsg(_(e_invalid_value_for_argument_str), "stoponexit"); return FAIL; } } else if (STRCMP(hi->hi_key, "block_write") == 0) { if (!(supported & JO_BLOCK_WRITE)) break; opt->jo_set |= JO_BLOCK_WRITE; opt->jo_block_write = tv_get_number(item); } else break; --todo; } if (todo > 0) { semsg(_(e_invalid_argument_str), hi->hi_key); return FAIL; } return OK; } static job_T *first_job = NULL; static void job_free_contents(job_T *job) { int i; ch_log(job->jv_channel, "Freeing job"); if (job->jv_channel != NULL) { // The link from the channel to the job doesn't count as a reference, // thus don't decrement the refcount of the job. The reference from // the job to the channel does count the reference, decrement it and // NULL the reference. We don't set ch_job_killed, unreferencing the // job doesn't mean it stops running. job->jv_channel->ch_job = NULL; channel_unref(job->jv_channel); } mch_clear_job(job); vim_free(job->jv_tty_in); vim_free(job->jv_tty_out); vim_free(job->jv_stoponexit); #ifdef UNIX vim_free(job->jv_termsig); #endif #ifdef MSWIN vim_free(job->jv_tty_type); #endif free_callback(&job->jv_exit_cb); if (job->jv_argv != NULL) { for (i = 0; job->jv_argv[i] != NULL; i++) vim_free(job->jv_argv[i]); vim_free(job->jv_argv); } } /* * Remove "job" from the list of jobs. */ static void job_unlink(job_T *job) { if (job->jv_next != NULL) job->jv_next->jv_prev = job->jv_prev; if (job->jv_prev == NULL) first_job = job->jv_next; else job->jv_prev->jv_next = job->jv_next; } static void job_free_job(job_T *job) { job_unlink(job); vim_free(job); } static void job_free(job_T *job) { if (in_free_unref_items) return; job_free_contents(job); job_free_job(job); } static job_T *jobs_to_free = NULL; /* * Put "job" in a list to be freed later, when it's no longer referenced. */ static void job_free_later(job_T *job) { job_unlink(job); job->jv_next = jobs_to_free; jobs_to_free = job; } static void free_jobs_to_free_later(void) { job_T *job; while (jobs_to_free != NULL) { job = jobs_to_free; jobs_to_free = job->jv_next; job_free_contents(job); vim_free(job); } } #if defined(EXITFREE) || defined(PROTO) void job_free_all(void) { while (first_job != NULL) job_free(first_job); free_jobs_to_free_later(); # ifdef FEAT_TERMINAL free_unused_terminals(); # endif } #endif /* * Return TRUE if we need to check if the process of "job" has ended. */ static int job_need_end_check(job_T *job) { return job->jv_status == JOB_STARTED && (job->jv_stoponexit != NULL || job->jv_exit_cb.cb_name != NULL); } /* * Return TRUE if the channel of "job" is still useful. */ static int job_channel_still_useful(job_T *job) { return job->jv_channel != NULL && channel_still_useful(job->jv_channel); } /* * Return TRUE if the channel of "job" is closeable. */ static int job_channel_can_close(job_T *job) { return job->jv_channel != NULL && channel_can_close(job->jv_channel); } /* * Return TRUE if the job should not be freed yet. Do not free the job when * it has not ended yet and there is a "stoponexit" flag, an exit callback * or when the associated channel will do something with the job output. */ static int job_still_useful(job_T *job) { return job_need_end_check(job) || job_channel_still_useful(job); } #if defined(GUI_MAY_FORK) || defined(GUI_MAY_SPAWN) || defined(PROTO) /* * Return TRUE when there is any running job that we care about. */ int job_any_running(void) { job_T *job; FOR_ALL_JOBS(job) if (job_still_useful(job)) { ch_log(NULL, "GUI not forking because a job is running"); return TRUE; } return FALSE; } #endif // Unix uses argv[] for the command, other systems use a string. #if defined(UNIX) # define USE_ARGV #endif #if !defined(USE_ARGV) || defined(PROTO) /* * Escape one argument for an external command. * Returns the escaped string in allocated memory. NULL when out of memory. */ static char_u * win32_escape_arg(char_u *arg) { int slen, dlen; int escaping = 0; int i; char_u *s, *d; char_u *escaped_arg; int has_spaces = FALSE; // First count the number of extra bytes required. slen = (int)STRLEN(arg); dlen = slen; for (s = arg; *s != NUL; MB_PTR_ADV(s)) { if (*s == '"' || *s == '\\') ++dlen; if (*s == ' ' || *s == '\t') has_spaces = TRUE; } if (has_spaces) dlen += 2; if (dlen == slen) return vim_strsave(arg); // Allocate memory for the result and fill it. escaped_arg = alloc(dlen + 1); if (escaped_arg == NULL) return NULL; memset(escaped_arg, 0, dlen+1); d = escaped_arg; if (has_spaces) *d++ = '"'; for (s = arg; *s != NUL;) { switch (*s) { case '"': for (i = 0; i < escaping; i++) *d++ = '\\'; escaping = 0; *d++ = '\\'; *d++ = *s++; break; case '\\': escaping++; *d++ = *s++; break; default: escaping = 0; MB_COPY_CHAR(s, d); break; } } // add terminating quote and finish with a NUL if (has_spaces) { for (i = 0; i < escaping; i++) *d++ = '\\'; *d++ = '"'; } *d = NUL; return escaped_arg; } /* * Build a command line from a list, taking care of escaping. * The result is put in gap->ga_data. * Returns FAIL when out of memory. */ int win32_build_cmd(list_T *l, garray_T *gap) { listitem_T *li; char_u *s; CHECK_LIST_MATERIALIZE(l); FOR_ALL_LIST_ITEMS(l, li) { s = tv_get_string_chk(&li->li_tv); if (s == NULL) return FAIL; s = win32_escape_arg(s); if (s == NULL) return FAIL; ga_concat(gap, s); vim_free(s); if (li->li_next != NULL) ga_append(gap, ' '); } return OK; } #endif /* * NOTE: Must call job_cleanup() only once right after the status of "job" * changed to JOB_ENDED (i.e. after job_status() returned "dead" first or * mch_detect_ended_job() returned non-NULL). * If the job is no longer used it will be removed from the list of jobs, and * deleted a bit later. */ void job_cleanup(job_T *job) { if (job->jv_status != JOB_ENDED) return; // Ready to cleanup the job. job->jv_status = JOB_FINISHED; // When only channel-in is kept open, close explicitly. if (job->jv_channel != NULL) ch_close_part(job->jv_channel, PART_IN); if (job->jv_exit_cb.cb_name != NULL) { typval_T argv[3]; typval_T rettv; // Invoke the exit callback. Make sure the refcount is > 0. ch_log(job->jv_channel, "Invoking exit callback %s", job->jv_exit_cb.cb_name); ++job->jv_refcount; argv[0].v_type = VAR_JOB; argv[0].vval.v_job = job; argv[1].v_type = VAR_NUMBER; argv[1].vval.v_number = job->jv_exitval; call_callback(&job->jv_exit_cb, -1, &rettv, 2, argv); clear_tv(&rettv); --job->jv_refcount; channel_need_redraw = TRUE; } if (job->jv_channel != NULL && job->jv_channel->ch_anonymous_pipe) job->jv_channel->ch_killing = TRUE; // Do not free the job in case the close callback of the associated channel // isn't invoked yet and may get information by job_info(). if (job->jv_refcount == 0 && !job_channel_still_useful(job)) // The job was already unreferenced and the associated channel was // detached, now that it ended it can be freed. However, a caller might // still use it, thus free it a bit later. job_free_later(job); } /* * Mark references in jobs that are still useful. */ int set_ref_in_job(int copyID) { int abort = FALSE; job_T *job; typval_T tv; for (job = first_job; !abort && job != NULL; job = job->jv_next) if (job_still_useful(job)) { tv.v_type = VAR_JOB; tv.vval.v_job = job; abort = abort || set_ref_in_item(&tv, copyID, NULL, NULL); } return abort; } /* * Dereference "job". Note that after this "job" may have been freed. */ void job_unref(job_T *job) { if (job == NULL || --job->jv_refcount > 0) return; // Do not free the job if there is a channel where the close callback // may get the job info. if (job_channel_still_useful(job)) return; // Do not free the job when it has not ended yet and there is a // "stoponexit" flag or an exit callback. if (!job_need_end_check(job)) { job_free(job); } else if (job->jv_channel != NULL) { // Do remove the link to the channel, otherwise it hangs // around until Vim exits. See job_free() for refcount. ch_log(job->jv_channel, "detaching channel from job"); job->jv_channel->ch_job = NULL; channel_unref(job->jv_channel); job->jv_channel = NULL; } } int free_unused_jobs_contents(int copyID, int mask) { int did_free = FALSE; job_T *job; FOR_ALL_JOBS(job) if ((job->jv_copyID & mask) != (copyID & mask) && !job_still_useful(job)) { // Free the channel and ordinary items it contains, but don't // recurse into Lists, Dictionaries etc. job_free_contents(job); did_free = TRUE; } return did_free; } void free_unused_jobs(int copyID, int mask) { job_T *job; job_T *job_next; for (job = first_job; job != NULL; job = job_next) { job_next = job->jv_next; if ((job->jv_copyID & mask) != (copyID & mask) && !job_still_useful(job)) { // Free the job struct itself. job_free_job(job); } } } /* * Allocate a job. Sets the refcount to one and sets options default. */ job_T * job_alloc(void) { job_T *job; job = ALLOC_CLEAR_ONE(job_T); if (job == NULL) return NULL; job->jv_refcount = 1; job->jv_stoponexit = vim_strsave((char_u *)"term"); if (first_job != NULL) { first_job->jv_prev = job; job->jv_next = first_job; } first_job = job; return job; } void job_set_options(job_T *job, jobopt_T *opt) { if (opt->jo_set & JO_STOPONEXIT) { vim_free(job->jv_stoponexit); if (opt->jo_stoponexit == NULL || *opt->jo_stoponexit == NUL) job->jv_stoponexit = NULL; else job->jv_stoponexit = vim_strsave(opt->jo_stoponexit); } if (opt->jo_set & JO_EXIT_CB) { free_callback(&job->jv_exit_cb); if (opt->jo_exit_cb.cb_name == NULL || *opt->jo_exit_cb.cb_name == NUL) { job->jv_exit_cb.cb_name = NULL; job->jv_exit_cb.cb_partial = NULL; } else copy_callback(&job->jv_exit_cb, &opt->jo_exit_cb); } } /* * Called when Vim is exiting: kill all jobs that have the "stoponexit" flag. */ void job_stop_on_exit(void) { job_T *job; FOR_ALL_JOBS(job) if (job->jv_status == JOB_STARTED && job->jv_stoponexit != NULL) mch_signal_job(job, job->jv_stoponexit); } /* * Return TRUE when there is any job that has an exit callback and might exit, * which means job_check_ended() should be called more often. */ int has_pending_job(void) { job_T *job; FOR_ALL_JOBS(job) // Only should check if the channel has been closed, if the channel is // open the job won't exit. if ((job->jv_status == JOB_STARTED && !job_channel_still_useful(job)) || (job->jv_status == JOB_FINISHED && job_channel_can_close(job))) return TRUE; return FALSE; } #define MAX_CHECK_ENDED 8 /* * Called once in a while: check if any jobs that seem useful have ended. * Returns TRUE if a job did end. */ int job_check_ended(void) { int i; int did_end = FALSE; // be quick if there are no jobs to check if (first_job == NULL) return did_end; for (i = 0; i < MAX_CHECK_ENDED; ++i) { // NOTE: mch_detect_ended_job() must only return a job of which the // status was just set to JOB_ENDED. job_T *job = mch_detect_ended_job(first_job); if (job == NULL) break; did_end = TRUE; job_cleanup(job); // may add "job" to jobs_to_free } // Actually free jobs that were cleaned up. free_jobs_to_free_later(); if (channel_need_redraw) { channel_need_redraw = FALSE; redraw_after_callback(TRUE, FALSE); } return did_end; } /* * Create a job and return it. Implements job_start(). * "argv_arg" is only for Unix. * When "argv_arg" is NULL then "argvars" is used. * The returned job has a refcount of one. * Returns NULL when out of memory. */ job_T * job_start( typval_T *argvars, char **argv_arg UNUSED, jobopt_T *opt_arg, job_T **term_job) { job_T *job; char_u *cmd = NULL; char **argv = NULL; int argc = 0; int i; #ifndef USE_ARGV garray_T ga; #endif jobopt_T opt; ch_part_T part; job = job_alloc(); if (job == NULL) return NULL; job->jv_status = JOB_FAILED; #ifndef USE_ARGV ga_init2(&ga, sizeof(char*), 20); #endif if (opt_arg != NULL) opt = *opt_arg; else { // Default mode is NL. clear_job_options(&opt); opt.jo_mode = CH_MODE_NL; if (get_job_options(&argvars[1], &opt, JO_MODE_ALL + JO_CB_ALL + JO_TIMEOUT_ALL + JO_STOPONEXIT + JO_EXIT_CB + JO_OUT_IO + JO_BLOCK_WRITE, JO2_ENV + JO2_CWD) == FAIL) goto theend; } // Check that when io is "file" that there is a file name. for (part = PART_OUT; part < PART_COUNT; ++part) if ((opt.jo_set & (JO_OUT_IO << (part - PART_OUT))) && opt.jo_io[part] == JIO_FILE && (!(opt.jo_set & (JO_OUT_NAME << (part - PART_OUT))) || *opt.jo_io_name[part] == NUL)) { emsg(_(e_io_file_requires_name_to_be_set)); goto theend; } if ((opt.jo_set & JO_IN_IO) && opt.jo_io[PART_IN] == JIO_BUFFER) { buf_T *buf = NULL; // check that we can find the buffer before starting the job if (opt.jo_set & JO_IN_BUF) { buf = buflist_findnr(opt.jo_io_buf[PART_IN]); if (buf == NULL) semsg(_(e_buffer_nr_does_not_exist), (long)opt.jo_io_buf[PART_IN]); } else if (!(opt.jo_set & JO_IN_NAME)) { emsg(_(e_in_io_buffer_requires_in_buf_or_in_name_to_be_set)); } else buf = buflist_find_by_name(opt.jo_io_name[PART_IN], FALSE); if (buf == NULL) goto theend; if (buf->b_ml.ml_mfp == NULL) { char_u numbuf[NUMBUFLEN]; char_u *s; if (opt.jo_set & JO_IN_BUF) { sprintf((char *)numbuf, "%d", opt.jo_io_buf[PART_IN]); s = numbuf; } else s = opt.jo_io_name[PART_IN]; semsg(_(e_buffer_must_be_loaded_str), s); goto theend; } job->jv_in_buf = buf; } job_set_options(job, &opt); #ifdef USE_ARGV if (argv_arg != NULL) { // Make a copy of argv_arg for job->jv_argv. for (i = 0; argv_arg[i] != NULL; i++) argc++; argv = ALLOC_MULT(char *, argc + 1); if (argv == NULL) goto theend; for (i = 0; i < argc; i++) argv[i] = (char *)vim_strsave((char_u *)argv_arg[i]); argv[argc] = NULL; } else #endif if (argvars[0].v_type == VAR_STRING) { // Command is a string. cmd = argvars[0].vval.v_string; if (cmd == NULL || *skipwhite(cmd) == NUL) { emsg(_(e_invalid_argument)); goto theend; } if (build_argv_from_string(cmd, &argv, &argc) == FAIL) goto theend; } else if (argvars[0].v_type != VAR_LIST || argvars[0].vval.v_list == NULL || argvars[0].vval.v_list->lv_len < 1) { emsg(_(e_invalid_argument)); goto theend; } else { list_T *l = argvars[0].vval.v_list; if (build_argv_from_list(l, &argv, &argc) == FAIL) goto theend; // Empty command is invalid. if (argc == 0 || *skipwhite((char_u *)argv[0]) == NUL) { emsg(_(e_invalid_argument)); goto theend; } #ifndef USE_ARGV if (win32_build_cmd(l, &ga) == FAIL) goto theend; cmd = ga.ga_data; if (cmd == NULL || *skipwhite(cmd) == NUL) { emsg(_(e_invalid_argument)); goto theend; } #endif } // Save the command used to start the job. job->jv_argv = argv; if (term_job != NULL) *term_job = job; #ifdef USE_ARGV if (ch_log_active()) { garray_T ga; ga_init2(&ga, sizeof(char), 200); for (i = 0; i < argc; ++i) { if (i > 0) ga_concat(&ga, (char_u *)" "); ga_concat(&ga, (char_u *)argv[i]); } ga_append(&ga, NUL); ch_log(NULL, "Starting job: %s", (char *)ga.ga_data); ga_clear(&ga); } mch_job_start(argv, job, &opt, term_job != NULL); #else ch_log(NULL, "Starting job: %s", (char *)cmd); mch_job_start((char *)cmd, job, &opt); #endif // If the channel is reading from a buffer, write lines now. if (job->jv_channel != NULL) channel_write_in(job->jv_channel); theend: #ifndef USE_ARGV vim_free(ga.ga_data); #endif if (argv != NULL && argv != job->jv_argv) { for (i = 0; argv[i] != NULL; i++) vim_free(argv[i]); vim_free(argv); } free_job_options(&opt); return job; } /* * Get the status of "job" and invoke the exit callback when needed. * The returned string is not allocated. */ char * job_status(job_T *job) { char *result; if (job->jv_status >= JOB_ENDED) // No need to check, dead is dead. result = "dead"; else if (job->jv_status == JOB_FAILED) result = "fail"; else { result = mch_job_status(job); if (job->jv_status == JOB_ENDED) job_cleanup(job); } return result; } /* * Send a signal to "job". Implements job_stop(). * When "type" is not NULL use this for the type. * Otherwise use argvars[1] for the type. */ int job_stop(job_T *job, typval_T *argvars, char *type) { char_u *arg; if (type != NULL) arg = (char_u *)type; else if (argvars[1].v_type == VAR_UNKNOWN) arg = (char_u *)""; else { arg = tv_get_string_chk(&argvars[1]); if (arg == NULL) { emsg(_(e_invalid_argument)); return 0; } } if (job->jv_status == JOB_FAILED) { ch_log(job->jv_channel, "Job failed to start, job_stop() skipped"); return 0; } if (job->jv_status == JOB_ENDED) { ch_log(job->jv_channel, "Job has already ended, job_stop() skipped"); return 0; } ch_log(job->jv_channel, "Stopping job with '%s'", (char *)arg); if (mch_signal_job(job, arg) == FAIL) return 0; // Assume that only "kill" will kill the job. if (job->jv_channel != NULL && STRCMP(arg, "kill") == 0) job->jv_channel->ch_job_killed = TRUE; // We don't try freeing the job, obviously the caller still has a // reference to it. return 1; } void invoke_prompt_callback(void) { typval_T rettv; typval_T argv[2]; char_u *text; char_u *prompt; linenr_T lnum = curbuf->b_ml.ml_line_count; // Add a new line for the prompt before invoking the callback, so that // text can always be inserted above the last line. ml_append(lnum, (char_u *)"", 0, FALSE); curwin->w_cursor.lnum = lnum + 1; curwin->w_cursor.col = 0; if (curbuf->b_prompt_callback.cb_name == NULL || *curbuf->b_prompt_callback.cb_name == NUL) return; text = ml_get(lnum); prompt = prompt_text(); if (STRLEN(text) >= STRLEN(prompt)) text += STRLEN(prompt); argv[0].v_type = VAR_STRING; argv[0].vval.v_string = vim_strsave(text); argv[1].v_type = VAR_UNKNOWN; call_callback(&curbuf->b_prompt_callback, -1, &rettv, 1, argv); clear_tv(&argv[0]); clear_tv(&rettv); } /* * Return TRUE when the interrupt callback was invoked. */ int invoke_prompt_interrupt(void) { typval_T rettv; typval_T argv[1]; int ret; if (curbuf->b_prompt_interrupt.cb_name == NULL || *curbuf->b_prompt_interrupt.cb_name == NUL) return FALSE; argv[0].v_type = VAR_UNKNOWN; got_int = FALSE; // don't skip executing commands ret = call_callback(&curbuf->b_prompt_interrupt, -1, &rettv, 0, argv); clear_tv(&rettv); return ret == FAIL ? FALSE : TRUE; } /* * Return the effective prompt for the specified buffer. */ static char_u * buf_prompt_text(buf_T* buf) { if (buf->b_prompt_text == NULL) return (char_u *)"% "; return buf->b_prompt_text; } /* * Return the effective prompt for the current buffer. */ char_u * prompt_text(void) { return buf_prompt_text(curbuf); } /* * Prepare for prompt mode: Make sure the last line has the prompt text. * Move the cursor to this line. */ void init_prompt(int cmdchar_todo) { char_u *prompt = prompt_text(); char_u *text; curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count; text = ml_get_curline(); if (STRNCMP(text, prompt, STRLEN(prompt)) != 0) { // prompt is missing, insert it or append a line with it if (*text == NUL) ml_replace(curbuf->b_ml.ml_line_count, prompt, TRUE); else ml_append(curbuf->b_ml.ml_line_count, prompt, 0, FALSE); curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count; coladvance((colnr_T)MAXCOL); changed_bytes(curbuf->b_ml.ml_line_count, 0); } // Insert always starts after the prompt, allow editing text after it. if (Insstart_orig.lnum != curwin->w_cursor.lnum || Insstart_orig.col != (int)STRLEN(prompt)) set_insstart(curwin->w_cursor.lnum, (int)STRLEN(prompt)); if (cmdchar_todo == 'A') coladvance((colnr_T)MAXCOL); if (curwin->w_cursor.col < (int)STRLEN(prompt)) curwin->w_cursor.col = (int)STRLEN(prompt); // Make sure the cursor is in a valid position. check_cursor(); } /* * Return TRUE if the cursor is in the editable position of the prompt line. */ int prompt_curpos_editable(void) { return curwin->w_cursor.lnum == curbuf->b_ml.ml_line_count && curwin->w_cursor.col >= (int)STRLEN(prompt_text()); } /* * "prompt_setcallback({buffer}, {callback})" function */ void f_prompt_setcallback(typval_T *argvars, typval_T *rettv UNUSED) { buf_T *buf; callback_T callback; if (check_secure()) return; if (in_vim9script() && check_for_buffer_arg(argvars, 0) == FAIL) return; buf = tv_get_buf(&argvars[0], FALSE); if (buf == NULL) return; callback = get_callback(&argvars[1]); if (callback.cb_name == NULL) return; free_callback(&buf->b_prompt_callback); set_callback(&buf->b_prompt_callback, &callback); if (callback.cb_free_name) vim_free(callback.cb_name); } /* * "prompt_setinterrupt({buffer}, {callback})" function */ void f_prompt_setinterrupt(typval_T *argvars, typval_T *rettv UNUSED) { buf_T *buf; callback_T callback; if (check_secure()) return; if (in_vim9script() && check_for_buffer_arg(argvars, 0) == FAIL) return; buf = tv_get_buf(&argvars[0], FALSE); if (buf == NULL) return; callback = get_callback(&argvars[1]); if (callback.cb_name == NULL) return; free_callback(&buf->b_prompt_interrupt); set_callback(&buf->b_prompt_interrupt, &callback); if (callback.cb_free_name) vim_free(callback.cb_name); } /* * "prompt_getprompt({buffer})" function */ void f_prompt_getprompt(typval_T *argvars, typval_T *rettv) { buf_T *buf; // return an empty string by default, e.g. it's not a prompt buffer rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; if (in_vim9script() && check_for_buffer_arg(argvars, 0) == FAIL) return; buf = tv_get_buf_from_arg(&argvars[0]); if (buf == NULL) return; if (!bt_prompt(buf)) return; rettv->vval.v_string = vim_strsave(buf_prompt_text(buf)); } /* * "prompt_setprompt({buffer}, {text})" function */ void f_prompt_setprompt(typval_T *argvars, typval_T *rettv UNUSED) { buf_T *buf; char_u *text; if (in_vim9script() && (check_for_buffer_arg(argvars, 0) == FAIL || check_for_string_arg(argvars, 1) == FAIL)) return; if (check_secure()) return; buf = tv_get_buf(&argvars[0], FALSE); if (buf == NULL) return; text = tv_get_string(&argvars[1]); vim_free(buf->b_prompt_text); buf->b_prompt_text = vim_strsave(text); } /* * Get the job from the argument. * Returns NULL if the job is invalid. */ static job_T * get_job_arg(typval_T *tv) { job_T *job; if (tv->v_type != VAR_JOB) { semsg(_(e_invalid_argument_str), tv_get_string(tv)); return NULL; } job = tv->vval.v_job; if (job == NULL) emsg(_(e_not_valid_job)); return job; } /* * "job_getchannel()" function */ void f_job_getchannel(typval_T *argvars, typval_T *rettv) { job_T *job; if (in_vim9script() && check_for_job_arg(argvars, 0) == FAIL) return; job = get_job_arg(&argvars[0]); if (job == NULL) return; rettv->v_type = VAR_CHANNEL; rettv->vval.v_channel = job->jv_channel; if (job->jv_channel != NULL) ++job->jv_channel->ch_refcount; } /* * Implementation of job_info(). */ static void job_info(job_T *job, dict_T *dict) { dictitem_T *item; varnumber_T nr; list_T *l; int i; dict_add_string(dict, "status", (char_u *)job_status(job)); item = dictitem_alloc((char_u *)"channel"); if (item == NULL) return; item->di_tv.v_type = VAR_CHANNEL; item->di_tv.vval.v_channel = job->jv_channel; if (job->jv_channel != NULL) ++job->jv_channel->ch_refcount; if (dict_add(dict, item) == FAIL) dictitem_free(item); #ifdef UNIX nr = job->jv_pid; #else nr = job->jv_proc_info.dwProcessId; #endif dict_add_number(dict, "process", nr); dict_add_string(dict, "tty_in", job->jv_tty_in); dict_add_string(dict, "tty_out", job->jv_tty_out); dict_add_number(dict, "exitval", job->jv_exitval); dict_add_string(dict, "exit_cb", job->jv_exit_cb.cb_name); dict_add_string(dict, "stoponexit", job->jv_stoponexit); #ifdef UNIX dict_add_string(dict, "termsig", job->jv_termsig); #endif #ifdef MSWIN dict_add_string(dict, "tty_type", job->jv_tty_type); #endif l = list_alloc(); if (l == NULL) return; dict_add_list(dict, "cmd", l); if (job->jv_argv != NULL) for (i = 0; job->jv_argv[i] != NULL; i++) list_append_string(l, (char_u *)job->jv_argv[i], -1); } /* * Implementation of job_info() to return info for all jobs. */ static void job_info_all(list_T *l) { job_T *job; typval_T tv; FOR_ALL_JOBS(job) { tv.v_type = VAR_JOB; tv.vval.v_job = job; if (list_append_tv(l, &tv) != OK) return; } } /* * "job_info()" function */ void f_job_info(typval_T *argvars, typval_T *rettv) { if (in_vim9script() && check_for_opt_job_arg(argvars, 0) == FAIL) return; if (argvars[0].v_type != VAR_UNKNOWN) { job_T *job; job = get_job_arg(&argvars[0]); if (job != NULL && rettv_dict_alloc(rettv) == OK) job_info(job, rettv->vval.v_dict); } else if (rettv_list_alloc(rettv) == OK) job_info_all(rettv->vval.v_list); } /* * "job_setoptions()" function */ void f_job_setoptions(typval_T *argvars, typval_T *rettv UNUSED) { job_T *job; jobopt_T opt; if (in_vim9script() && (check_for_job_arg(argvars, 0) == FAIL || check_for_dict_arg(argvars, 1) == FAIL)) return; job = get_job_arg(&argvars[0]); if (job == NULL) return; clear_job_options(&opt); if (get_job_options(&argvars[1], &opt, JO_STOPONEXIT + JO_EXIT_CB, 0) == OK) job_set_options(job, &opt); free_job_options(&opt); } /* * "job_start()" function */ void f_job_start(typval_T *argvars, typval_T *rettv) { rettv->v_type = VAR_JOB; if (check_restricted() || check_secure()) return; if (in_vim9script() && (check_for_string_or_list_arg(argvars, 0) == FAIL || check_for_opt_dict_arg(argvars, 1) == FAIL)) return; rettv->vval.v_job = job_start(argvars, NULL, NULL, NULL); } /* * "job_status()" function */ void f_job_status(typval_T *argvars, typval_T *rettv) { if (in_vim9script() && check_for_job_arg(argvars, 0) == FAIL) return; if (argvars[0].v_type == VAR_JOB && argvars[0].vval.v_job == NULL) { // A job that never started returns "fail". rettv->v_type = VAR_STRING; rettv->vval.v_string = vim_strsave((char_u *)"fail"); } else { job_T *job = get_job_arg(&argvars[0]); if (job != NULL) { rettv->v_type = VAR_STRING; rettv->vval.v_string = vim_strsave((char_u *)job_status(job)); } } } /* * "job_stop()" function */ void f_job_stop(typval_T *argvars, typval_T *rettv) { job_T *job; if (in_vim9script() && (check_for_job_arg(argvars, 0) == FAIL || check_for_opt_string_or_number_arg(argvars, 1) == FAIL)) return; job = get_job_arg(&argvars[0]); if (job != NULL) rettv->vval.v_number = job_stop(job, argvars, NULL); } /* * Get a string with information about the job in "varp" in "buf". * "buf" must be at least NUMBUFLEN long. */ char_u * job_to_string_buf(typval_T *varp, char_u *buf) { job_T *job = varp->vval.v_job; char *status; if (job == NULL) { vim_snprintf((char *)buf, NUMBUFLEN, "no process"); return buf; } status = job->jv_status == JOB_FAILED ? "fail" : job->jv_status >= JOB_ENDED ? "dead" : "run"; # ifdef UNIX vim_snprintf((char *)buf, NUMBUFLEN, "process %ld %s", (long)job->jv_pid, status); # elif defined(MSWIN) vim_snprintf((char *)buf, NUMBUFLEN, "process %ld %s", (long)job->jv_proc_info.dwProcessId, status); # else // fall-back vim_snprintf((char *)buf, NUMBUFLEN, "process ? %s", status); # endif return buf; } #endif // FEAT_JOB_CHANNEL