nail.1: some tweaks
[s-mailx.git] / nailfuns.h
blobf95197e3c9476599d1aa762abf5d9baa5d79a755
1 /*@ S-nail - a mail user agent derived from Berkeley Mail.
2 *@ Function prototypes and function-alike macros.
4 * Copyright (c) 2000-2004 Gunnar Ritter, Freiburg i. Br., Germany.
5 * Copyright (c) 2012 - 2017 Steffen (Daode) Nurpmeso <steffen@sdaoden.eu>.
6 */
7 /*
8 * Copyright (c) 1980, 1993
9 * The Regents of the University of California. All rights reserved.
11 * Redistribution and use in source and binary forms, with or without
12 * modification, are permitted provided that the following conditions
13 * are met:
14 * 1. Redistributions of source code must retain the above copyright
15 * notice, this list of conditions and the following disclaimer.
16 * 2. Redistributions in binary form must reproduce the above copyright
17 * notice, this list of conditions and the following disclaimer in the
18 * documentation and/or other materials provided with the distribution.
19 * 3. Neither the name of the University nor the names of its contributors
20 * may be used to endorse or promote products derived from this software
21 * without specific prior written permission.
23 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
24 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
25 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
26 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
27 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
28 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
29 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
30 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
31 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
32 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
33 * SUCH DAMAGE.
37 * TODO Convert optional utility+ functions to n_*(); ditto
38 * TODO else use generic module-specific prefixes: str_(), am[em]_, sm[em]_, ..
40 /* TODO s-it-mode: not really (docu, funnames, funargs, etc) */
42 #undef FL
43 #ifndef HAVE_AMALGAMATION
44 # define FL extern
45 #else
46 # define FL static
47 #endif
49 /* Memory allocation routines from memory.c offer some debug support */
50 #if (defined HAVE_DEBUG || defined HAVE_DEVEL) && !defined HAVE_NOMEMDBG
51 # define HAVE_MEMORY_DEBUG
52 # define n_MEMORY_DEBUG_ARGS , char const *mdbg_file, int mdbg_line
53 # define n_MEMORY_DEBUG_ARGSCALL , mdbg_file, mdbg_line
54 #else
55 # define n_MEMORY_DEBUG_ARGS
56 # define n_MEMORY_DEBUG_ARGSCALL
57 #endif
60 * Macro-based generics
63 /* ASCII char classification */
64 #define __ischarof(C, FLAGS) \
65 (asciichar(C) && (class_char[(ui8_t)(C)] & (FLAGS)) != 0)
67 #define n_uasciichar(U) ((size_t)(U) <= 0x7F)
68 #define asciichar(c) ((uc_i)(c) <= 0x7F)
69 #define alnumchar(c) __ischarof(c, C_DIGIT | C_OCTAL | C_UPPER | C_LOWER)
70 #define alphachar(c) __ischarof(c, C_UPPER | C_LOWER)
71 #define blankchar(c) __ischarof(c, C_BLANK)
72 #define blankspacechar(c) __ischarof(c, C_BLANK | C_SPACE)
73 #define cntrlchar(c) __ischarof(c, C_CNTRL)
74 #define digitchar(c) __ischarof(c, C_DIGIT | C_OCTAL)
75 #define lowerchar(c) __ischarof(c, C_LOWER)
76 #define punctchar(c) __ischarof(c, C_PUNCT)
77 #define spacechar(c) __ischarof(c, C_BLANK | C_SPACE | C_WHITE)
78 #define upperchar(c) __ischarof(c, C_UPPER)
79 #define whitechar(c) __ischarof(c, C_BLANK | C_WHITE)
80 #define octalchar(c) __ischarof(c, C_OCTAL)
81 #define hexchar(c) /* TODO extend bits, add C_HEX */\
82 (__ischarof(c, C_DIGIT | C_OCTAL) || ((c) >= 'A' && (c) <= 'F') ||\
83 ((c) >= 'a' && (c) <= 'f'))
85 #define upperconv(c) \
86 (lowerchar(c) ? (char)((uc_i)(c) - 'a' + 'A') : (char)(c))
87 #define lowerconv(c) \
88 (upperchar(c) ? (char)((uc_i)(c) - 'A' + 'a') : (char)(c))
89 /* RFC 822, 3.2. */
90 #define fieldnamechar(c) \
91 (asciichar(c) && (c) > 040 && (c) != 0177 && (c) != ':')
93 /* Could the string contain a regular expression? */
94 #define is_maybe_regex(S) n_is_maybe_regex(S)
95 #define n_is_maybe_regex(S) n_is_maybe_regex_buf(S, UIZ_MAX)
96 #define n_is_maybe_regex_buf(D,L) n_anyof_buf("^[]*+?|$", D, L)
98 /* Single-threaded, use unlocked I/O */
99 #ifdef HAVE_PUTC_UNLOCKED
100 # undef getc
101 # define getc(c) getc_unlocked(c)
102 # undef putc
103 # define putc(c, f) putc_unlocked(c, f)
104 # undef putchar
105 # define putchar(c) putc_unlocked((c), stdout)
106 #endif
108 /* There are problems with dup()ing of file-descriptors for child processes.
109 * We have to somehow accomplish that the FILE* fp makes itself comfortable
110 * with the *real* offset of the underlaying file descriptor.
111 * POSIX Issue 7 overloaded fflush(3): if used on a readable stream, then
113 * if the file is not already at EOF, and the file is one capable of
114 * seeking, the file offset of the underlying open file description shall
115 * be set to the file position of the stream */
116 #if defined _POSIX_VERSION && _POSIX_VERSION + 0 >= 200809L
117 # define n_real_seek(FP,OFF,WH) (fseek(FP, OFF, WH) != -1 && fflush(FP) != EOF)
118 # define really_rewind(stream) \
119 do{\
120 rewind(stream);\
121 fflush(stream);\
122 }while(0)
124 #else
125 # define n_real_seek(FP,OFF,WH) \
126 (fseek(FP, OFF, WH) != -1 && fflush(FP) != EOF &&\
127 lseek(fileno(FP), OFF, WH) != -1)
128 # define really_rewind(stream) \
129 do{\
130 rewind(stream);\
131 fflush(stream);\
132 lseek(fileno(stream), 0, SEEK_SET);\
133 }while(0)
134 #endif
136 /* fflush() and rewind() */
137 #define fflush_rewind(stream) \
138 do{\
139 fflush(stream);\
140 rewind(stream);\
141 }while(0)
143 /* Truncate a file to the last character written. This is useful just before
144 * closing an old file that was opened for read/write */
145 #define ftrunc(stream) \
146 do{\
147 off_t off;\
148 fflush(stream);\
149 off = ftell(stream);\
150 if(off >= 0)\
151 ftruncate(fileno(stream), off);\
152 }while(0)
155 * accmacvar.c
158 /* Macros: `define', `undefine', `call' / `~' */
159 FL int c_define(void *v);
160 FL int c_undefine(void *v);
161 FL int c_call(void *v);
163 /* TODO Check whether a *folder-hook* exists for the currently active mailbox */
164 FL bool_t check_folder_hook(bool_t nmail);
166 /* TODO v15 drop Invoke compose hook macname */
167 FL void temporary_call_compose_mode_hook(char const *macname,
168 void (*hook_pre)(void *), void *hook_arg);
169 FL void temporary_unroll_compose_mode(void);
171 /* Accounts: `account', `unaccount' */
172 FL int c_account(void *v);
173 FL int c_unaccount(void *v);
175 /* `localopts' */
176 FL int c_localopts(void *v);
178 FL void temporary_localopts_folder_hook_unroll(void); /* XXX im. hack */
180 /* Don't use n_var_* unless you *really* have to! */
182 /* Constant option key look/(un)set/clear */
183 FL char * n_var_oklook(enum okeys okey);
184 #define ok_blook(C) (n_var_oklook(n_CONCAT(ok_b_, C)) != NULL)
185 #define ok_vlook(C) n_var_oklook(n_CONCAT(ok_v_, C))
187 FL bool_t n_var_okset(enum okeys okey, uintptr_t val);
188 #define ok_bset(C) \
189 n_var_okset(n_CONCAT(ok_b_, C), (uintptr_t)TRU1)
190 #define ok_vset(C,V) \
191 n_var_okset(n_CONCAT(ok_v_, C), (uintptr_t)(V))
193 FL bool_t n_var_okclear(enum okeys okey);
194 #define ok_bclear(C) n_var_okclear(n_CONCAT(ok_b_, C))
195 #define ok_vclear(C) n_var_okclear(n_CONCAT(ok_v_, C))
197 /* Variable option key look/(un)set/clear */
198 FL char * n_var_voklook(char const *vokey);
199 #define vok_blook(S) (n_var_voklook(S) != NULL)
200 #define vok_vlook(S) n_var_voklook(S)
202 FL bool_t n_var_vokset(char const *vokey, uintptr_t val);
203 #define vok_bset(S,B) n_var_vokset(S, (uintptr_t)(B))
204 #define vok_vset(S,V) n_var_vokset(S, (uintptr_t)(V))
206 FL bool_t n_var_vokclear(char const *vokey);
207 #define vok_bclear(S) n_var_vokclear(S)
208 #define vok_vclear(S) n_var_vokclear(S)
210 /* Special case to handle the typical [xy-USER@HOST,] xy-HOST and plain xy
211 * variable chains; oxm is a bitmix which tells which combinations to test */
212 #ifdef HAVE_SOCKETS
213 FL char * n_var_xoklook(enum okeys okey, struct url const *urlp,
214 enum okey_xlook_mode oxm);
215 # define xok_BLOOK(C,URL,M) (n_var_xoklook(C, URL, M) != NULL)
216 # define xok_VLOOK(C,URL,M) n_var_xoklook(C, URL, M)
217 # define xok_blook(C,URL,M) xok_BLOOK(n_CONCAT(ok_b_, C), URL, M)
218 # define xok_vlook(C,URL,M) xok_VLOOK(n_CONCAT(ok_v_, C), URL, M)
219 #endif
221 /* User variable access: `set' and `unset' */
222 FL int c_set(void *v);
223 FL int c_unset(void *v);
225 /* `varshow' */
226 FL int c_varshow(void *v);
228 /* Ditto: `varedit' */
229 FL int c_varedit(void *v);
231 /* `environ' */
232 FL int c_environ(void *v);
235 * attachment.c
236 * xxx Interface quite sick
239 /* Try to add an attachment for file, fexpand(_LOCAL|_NOPROTO)ed.
240 * Return the new aplist aphead.
241 * The newly created attachment may be stored in *newap, or NULL on error */
242 FL struct attachment *n_attachment_append(struct attachment *aplist,
243 char const *file, enum n_attach_error *aerr_or_null,
244 struct attachment **newap_or_null);
246 /* Shell-token parse names, and append resulting file names to aplist, return
247 * (new) aplist head */
248 FL struct attachment *n_attachment_append_list(struct attachment *aplist,
249 char const *names);
251 /* Remove ap from aplist, and return the new aplist head */
252 FL struct attachment *n_attachment_remove(struct attachment *aplist,
253 struct attachment *ap);
255 /* Find by file-name. If any path component exists in name then an exact match
256 * of the creation-path is used directly; if instead the basename of that path
257 * matches all attachments are traversed to find an exact match first, the
258 * first of all basename matches is returned as a last resort;
259 * If no path component exists the filename= parameter is searched (and also
260 * returned) in preference over the basename, otherwise likewise.
261 * If name is in fact a message number the first match is taken.
262 * If stat_or_null is given: FAL0 on NULL return, TRU1 for exact/single match,
263 * TRUM1 for ambiguous matches */
264 FL struct attachment *n_attachment_find(struct attachment *aplist,
265 char const *name, bool_t *stat_or_null);
267 /* Interactively edit the attachment list, return updated list */
268 FL struct attachment *n_attachment_list_edit(struct attachment *aplist,
269 enum n_lexinput_flags lif);
271 /* Print all attachments to fp, return number of lines written, -1 on error */
272 FL ssize_t n_attachment_list_print(struct attachment const *aplist, FILE *fp);
275 * auxlily.c
278 /* Compute screen size */
279 FL int screensize(void);
281 /* Get our $PAGER; if env_addon is not NULL it is checked whether we know about
282 * some environment variable that supports colour+ and set *env_addon to that,
283 * e.g., "LESS=FRSXi" */
284 FL char const *n_pager_get(char const **env_addon);
286 /* Use a pager or STDOUT to print *fp*; if *lines* is 0, they'll be counted */
287 FL void page_or_print(FILE *fp, size_t lines);
289 /* Parse name and guess at the required protocol */
290 FL enum protocol which_protocol(char const *name);
292 /* Hexadecimal itoa (NUL terminates) / atoi (-1 on error) */
293 FL char * n_c_to_hex_base16(char store[3], char c);
294 FL si32_t n_c_from_hex_base16(char const hex[2]);
296 /* Hash the passed string -- uses Chris Torek's hash algorithm.
297 * i*() hashes case-insensitively (ASCII), and *n() uses maximally len bytes;
298 * if len is UIZ_MAX, we go .), since we anyway stop for NUL */
299 FL ui32_t torek_hash(char const *name);
300 FL ui32_t torek_ihashn(char const *dat, size_t len);
302 /* Find a prime greater than n */
303 FL ui32_t nextprime(ui32_t n);
305 /* Return the name of the dead.letter file */
306 FL char const * n_getdeadletter(void);
308 /* Detect and query the hostname to use */
309 FL char * nodename(int mayoverride);
311 /* Get a (pseudo) random string of *length* bytes; returns salloc()ed buffer */
312 FL char * getrandstring(size_t length);
314 /* Check whether the argument string is a true (1) or false (0) boolean, or an
315 * invalid string, in which case -1 is returned; if emptyrv is not -1 then it,
316 * treated as a boolean, is used as the return value shall inbuf be empty.
317 * inlen may be UIZ_MAX to force strlen() detection */
318 FL si8_t boolify(char const *inbuf, uiz_t inlen, si8_t emptyrv);
320 /* Dig a "quadoption" in inbuf (possibly going through getapproval() in
321 * interactive mode). Returns a boolean or -1 if inbuf content is invalid;
322 * if emptyrv is not -1 then it, treated as a boolean, is used as the return
323 * value shall inbuf be empty. If prompt is set it is printed first if intera.
324 * inlen may be UIZ_MAX to force strlen() detection */
325 FL si8_t quadify(char const *inbuf, uiz_t inlen, char const *prompt,
326 si8_t emptyrv);
328 /* Is the argument "all" (case-insensitive) or "*" */
329 FL bool_t n_is_all_or_aster(char const *name);
331 /* Get seconds since epoch */
332 FL time_t n_time_epoch(void);
334 /* Update *tc* to now; only .tc_time updated unless *full_update* is true */
335 FL void time_current_update(struct time_current *tc,
336 bool_t full_update);
338 /* Returns 0 if fully slept, number of millis left if ignint is true and we
339 * were interrupted. Actual resolution may be second or less.
340 * Note in case of HAVE_SLEEP this may be SIGALARM based. */
341 FL uiz_t n_msleep(uiz_t millis, bool_t ignint);
343 /* Our error print series.. Note: these reverse scan format in order to know
344 * whether a newline was included or not -- this affects the output! */
345 FL void n_err(char const *format, ...);
346 FL void n_verr(char const *format, va_list ap);
348 /* ..(for use in a signal handler; to be obsoleted..).. */
349 FL void n_err_sighdl(char const *format, ...);
351 /* Our perror(3); if errval is 0 errno(3) is used; newline appended */
352 FL void n_perr(char const *msg, int errval);
354 /* Announce a fatal error (and die); newline appended */
355 FL void n_alert(char const *format, ...);
356 FL void n_panic(char const *format, ...);
358 /* `errors' */
359 #ifdef HAVE_ERRORS
360 FL int c_errors(void *vp);
361 #else
362 # define c_errors c_cmdnotsupp
363 #endif
366 * cmd_arg.c
369 /* Scan out the list of string arguments according to rm, return -1 on error;
370 * res_dat is NULL terminated unless res_size is 0 or error occurred */
371 FL int getrawlist(bool_t wysh, char **res_dat, size_t res_size,
372 char const *line, size_t linesize);
374 /* Scan an entire command argument line, return whether result can be used,
375 * otherwise no resources are allocated (in ->cac_arg).
376 * For _WYSH arguments the flags _TRIMSPACE and _LOG are implicit */
377 FL bool_t n_cmd_arg_parse(struct n_cmd_arg_ctx *cacp);
379 /* Join all the _GREEDY arguments that were seen into a single string.
380 * Asserted they are string-based. The data (if any) is appended to store */
381 FL struct n_string *n_cmd_arg_join_greedy(struct n_cmd_arg_ctx const *cacp,
382 struct n_string *store);
385 * cmd_cnd.c
388 /* if.elif.else.endif conditional execution.
389 * condstack_isskip() returns whether the current condition state doesn't allow
390 * execution of commands.
391 * condstack_release() and condstack_take() rotate the current condition stack;
392 * condstack_take() returns a false boolean if the current condition stack has
393 * unclosed conditionals */
394 FL int c_if(void *v);
395 FL int c_elif(void *v);
396 FL int c_else(void *v);
397 FL int c_endif(void *v);
398 FL bool_t condstack_isskip(void);
399 FL void *condstack_release(void);
400 FL bool_t condstack_take(void *self);
403 * cmd_folder.c
406 /* `file' (`folder') and `File' (`Folder') */
407 FL int c_file(void *v);
408 FL int c_File(void *v);
410 /* 'newmail' command: Check for new mail without writing old mail back */
411 FL int c_newmail(void *v);
413 /* noop */
414 FL int c_noop(void *v);
416 /* Remove mailbox */
417 FL int c_remove(void *v);
419 /* Rename mailbox */
420 FL int c_rename(void *v);
422 /* List the folders the user currently has */
423 FL int c_folders(void *v);
426 * cmd_headers.c
429 /* `headers' (show header group, possibly after setting dot) */
430 FL int c_headers(void *v);
432 /* Like c_headers(), but pre-prepared message vector */
433 FL int print_header_group(int *vector);
435 /* Scroll to the next/previous screen */
436 FL int c_scroll(void *v);
437 FL int c_Scroll(void *v);
439 /* Move the dot up or down by one message */
440 FL int c_dotmove(void *v);
442 /* Print out the headlines for each message in the passed message list */
443 FL int c_from(void *v);
445 /* Print all message in between and including bottom and topx if they are
446 * visible and either only_marked is false or they are MMARKed */
447 FL void print_headers(size_t bottom, size_t topx, bool_t only_marked);
450 * cmd_message.c
453 /* Paginate messages, honour/don't honour ignored fields, respectively */
454 FL int c_more(void *v);
455 FL int c_More(void *v);
457 /* Type out messages, honour/don't honour ignored fields, respectively */
458 FL int c_type(void *v);
459 FL int c_Type(void *v);
461 /* Show raw message content */
462 FL int c_show(void *v);
464 /* Pipe messages, honour/don't honour ignored fields, respectively */
465 FL int c_pipe(void *v);
466 FL int c_Pipe(void *v);
468 /* Print the first *toplines* of each desired message */
469 FL int c_top(void *v);
470 FL int c_Top(void *v);
472 /* If any arguments were given, go to the next applicable argument following
473 * dot, otherwise, go to the next applicable message. If given as first
474 * command with no arguments, print first message */
475 FL int c_next(void *v);
477 /* Print out the value of dot */
478 FL int c_pdot(void *v);
480 /* Print the size of each message */
481 FL int c_messize(void *v);
483 /* Delete messages */
484 FL int c_delete(void *v);
486 /* Delete messages, then type the new dot */
487 FL int c_deltype(void *v);
489 /* Undelete the indicated messages */
490 FL int c_undelete(void *v);
492 /* Touch all the given messages so that they will get mboxed */
493 FL int c_stouch(void *v);
495 /* Make sure all passed messages get mboxed */
496 FL int c_mboxit(void *v);
498 /* Preserve messages, so that they will be sent back to the system mailbox */
499 FL int c_preserve(void *v);
501 /* Mark all given messages as unread */
502 FL int c_unread(void *v);
504 /* Mark all given messages as read */
505 FL int c_seen(void *v);
507 /* Message flag manipulation */
508 FL int c_flag(void *v);
509 FL int c_unflag(void *v);
510 FL int c_answered(void *v);
511 FL int c_unanswered(void *v);
512 FL int c_draft(void *v);
513 FL int c_undraft(void *v);
516 * cmd_misc.c
519 /* Process a shell escape by saving signals, ignoring signals and a sh -c */
520 FL int c_shell(void *v);
522 /* Fork an interactive shell */
523 FL int c_dosh(void *v);
525 /* Print user's working directory */
526 FL int c_cwd(void *v);
528 /* Change user's working directory */
529 FL int c_chdir(void *v);
531 /* Expand file names like echo (to stdout/stderr) */
532 FL int c_echo(void *v);
533 FL int c_echoerr(void *v);
536 * cmd_resend.c
539 /* All thinkable sorts of `reply' / `respond' and `followup'.. */
540 FL int c_reply(void *v);
541 FL int c_replyall(void *v);
542 FL int c_replysender(void *v);
543 FL int c_Reply(void *v);
544 FL int c_followup(void *v);
545 FL int c_followupall(void *v);
546 FL int c_followupsender(void *v);
547 FL int c_Followup(void *v);
549 /* ..and a mailing-list reply */
550 FL int c_Lreply(void *v);
552 /* The 'forward' command */
553 FL int c_forward(void *v);
555 /* Similar to forward, saving the message in a file named after the first
556 * recipient */
557 FL int c_Forward(void *v);
559 /* Resend a message list to a third person */
560 FL int c_resend(void *v);
562 /* Resend a message list to a third person without adding headers */
563 FL int c_Resend(void *v);
566 * cmd_write.c
569 /* Save a message in a file. Mark the message as saved so we can discard when
570 * the user quits */
571 FL int c_save(void *v);
572 FL int c_Save(void *v);
574 /* Copy a message to a file without affected its saved-ness */
575 FL int c_copy(void *v);
576 FL int c_Copy(void *v);
578 /* Move a message to a file */
579 FL int c_move(void *v);
580 FL int c_Move(void *v);
582 /* Decrypt and copy a message to a file */
583 FL int c_decrypt(void *v);
584 FL int c_Decrypt(void *v);
586 /* Write the indicated messages at the end of the passed file name, minus
587 * header and trailing blank line. This is the MIME save function */
588 FL int c_write(void *v);
591 * collect.c
595 * If quotefile is (char*)-1, stdin will be used, caller has to verify that
596 * we're not running in interactive mode */
597 FL FILE * collect(struct header *hp, int printheaders, struct message *mp,
598 char *quotefile, int doprefix, si8_t *checkaddr_err);
601 * colour.c
604 #ifdef HAVE_COLOUR
605 /* `(un)?colour' */
606 FL int c_colour(void *v);
607 FL int c_uncolour(void *v);
609 /* We want coloured output (in this salloc() cycle). pager_used is used to
610 * test whether *colour-pager* is to be inspected.
611 * The push/pop functions deal with recursive execute()ions, for now. TODO
612 * env_gut() will reset() as necessary */
613 FL void n_colour_env_create(enum n_colour_ctx cctx, bool_t pager_used);
614 FL void n_colour_env_push(void);
615 FL void n_colour_env_pop(bool_t any_env_till_root);
616 FL void n_colour_env_gut(FILE *fp);
618 /* Putting anything (for pens: including NULL) resets current state first */
619 FL void n_colour_put(FILE *fp, enum n_colour_id cid, char const *ctag);
620 FL void n_colour_reset(FILE *fp);
622 /* Of course temporary only and may return NULL. Doesn't affect state! */
623 FL struct str const *n_colour_reset_to_str(void);
625 /* A pen is bound to its environment and automatically reclaimed; it may be
626 * NULL but that can be used anyway for simplicity.
627 * This includes pen_to_str() -- which doesn't affect state! */
628 FL struct n_colour_pen *n_colour_pen_create(enum n_colour_id cid,
629 char const *ctag);
630 FL void n_colour_pen_put(struct n_colour_pen *self, FILE *fp);
632 FL struct str const *n_colour_pen_to_str(struct n_colour_pen *self);
634 #else /* HAVE_COLOUR */
635 # define c_colour c_cmdnotsupp
636 # define c_uncolour c_cmdnotsupp
637 # define c_mono c_cmdnotsupp
638 # define c_unmono c_cmdnotsupp
639 #endif
642 * dotlock.c
645 /* Aquire a flt lock and create a dotlock file; upon success a registered
646 * control-pipe FILE* is returned that keeps the link in between us and the
647 * lock-holding fork(2)ed subprocess (which conditionally replaced itself via
648 * execv(2) with the privilege-separated dotlock helper program): the lock file
649 * will be removed once the control pipe is closed via Pclose().
650 * Will try FILE_LOCK_TRIES times if pollmsecs > 0 (once otherwise).
651 * If pollmsecs is UIZ_MAX, FILE_LOCK_MILLIS is used.
652 * If *dotlock_ignore_error* is set (FILE*)-1 will be returned if at least the
653 * normal file lock could be established, otherwise errno is usable on error */
654 FL FILE * n_dotlock(char const *fname, int fd, enum n_file_lock_type flt,
655 off_t off, off_t len, size_t pollmsecs);
658 * edit.c
661 /* Edit a message list */
662 FL int c_editor(void *v);
664 /* Invoke the visual editor on a message list */
665 FL int c_visual(void *v);
667 /* Run an editor on either size bytes of the file fp (or until EOF if size is
668 * negative) or on the message mp, and return a new file or NULL on error of if
669 * the user didn't perform any edits.
670 * For now we assert that mp==NULL if hp!=NULL, treating this as a special call
671 * from within compose mode, and giving TRUM1 to puthead().
672 * Signals must be handled by the caller. viored is 'e' for ed, 'v' for vi */
673 FL FILE * run_editor(FILE *fp, off_t size, int viored, int readonly,
674 struct header *hp, struct message *mp,
675 enum sendaction action, sighandler_type oldint);
678 * filter.c
681 /* Quote filter */
682 FL struct quoteflt * quoteflt_dummy(void); /* TODO LEGACY */
683 FL void quoteflt_init(struct quoteflt *self, char const *prefix);
684 FL void quoteflt_destroy(struct quoteflt *self);
685 FL void quoteflt_reset(struct quoteflt *self, FILE *f);
686 FL ssize_t quoteflt_push(struct quoteflt *self, char const *dat,
687 size_t len);
688 FL ssize_t quoteflt_flush(struct quoteflt *self);
690 /* (Primitive) HTML tagsoup filter */
691 #ifdef HAVE_FILTER_HTML_TAGSOUP
692 /* TODO Because we don't support filter chains yet this filter will be run
693 * TODO in a dedicated subprocess, driven via a special Popen() mode */
694 FL int htmlflt_process_main(void);
696 FL void htmlflt_init(struct htmlflt *self);
697 FL void htmlflt_destroy(struct htmlflt *self);
698 FL void htmlflt_reset(struct htmlflt *self, FILE *f);
699 FL ssize_t htmlflt_push(struct htmlflt *self, char const *dat, size_t len);
700 FL ssize_t htmlflt_flush(struct htmlflt *self);
701 #endif
704 * fio.c
707 /* fgets() replacement to handle lines of arbitrary size and with embedded \0
708 * characters.
709 * line - line buffer. *line may be NULL.
710 * linesize - allocated size of line buffer.
711 * count - maximum characters to read. May be NULL.
712 * llen - length_of_line(*line).
713 * fp - input FILE.
714 * appendnl - always terminate line with \n, append if necessary.
715 * Manages the PS_READLINE_NL hack */
716 FL char * fgetline(char **line, size_t *linesize, size_t *count,
717 size_t *llen, FILE *fp, int appendnl n_MEMORY_DEBUG_ARGS);
718 #ifdef HAVE_MEMORY_DEBUG
719 # define fgetline(A,B,C,D,E,F) \
720 fgetline(A, B, C, D, E, F, __FILE__, __LINE__)
721 #endif
723 /* Read up a line from the specified input into the linebuffer.
724 * Return the number of characters read. Do not include the newline at EOL.
725 * n is the number of characters already read and present in *linebuf; it'll be
726 * treated as _the_ line if no more (successful) reads are possible.
727 * Manages the PS_READLINE_NL hack */
728 FL int readline_restart(FILE *ibuf, char **linebuf, size_t *linesize,
729 size_t n n_MEMORY_DEBUG_ARGS);
730 #ifdef HAVE_MEMORY_DEBUG
731 # define readline_restart(A,B,C,D) \
732 readline_restart(A, B, C, D, __FILE__, __LINE__)
733 #endif
735 /* Set up the input pointers while copying the mail file into /tmp */
736 FL void setptr(FILE *ibuf, off_t offset);
738 /* Determine the size of the file possessed by the passed buffer */
739 FL off_t fsize(FILE *iob);
741 /* Will retry FILE_LOCK_RETRIES times if pollmsecs > 0.
742 * If pollmsecs is UIZ_MAX, FILE_LOCK_MILLIS is used */
743 FL bool_t n_file_lock(int fd, enum n_file_lock_type flt,
744 off_t off, off_t len, size_t pollmsecs);
747 * folder.c
750 /* Set up editing on the given file name.
751 * If the first character of name is %, we are considered to be editing the
752 * file, otherwise we are reading our mail which has signficance for mbox and
753 * so forth */
754 FL int setfile(char const *name, enum fedit_mode fm);
756 FL int newmailinfo(int omsgCount);
758 /* Set the size of the message vector used to construct argument lists to
759 * message list functions */
760 FL void setmsize(int sz);
762 /* Logic behind -H / -L invocations */
763 FL void print_header_summary(char const *Larg);
765 /* Announce the presence of the current Mail version, give the message count,
766 * and print a header listing */
767 FL void announce(int printheaders);
769 /* Announce information about the file we are editing. Return a likely place
770 * to set dot */
771 FL int newfileinfo(void);
773 FL int getmdot(int nmail);
775 FL void initbox(char const *name);
777 /* Determine and expand the current *folder* name, return it (with trailing
778 * solidus) or the empty string also in case of errors: since POSIX mandates
779 * a default of CWD if not set etc., that seems to be a valid fallback, then */
780 FL char const *folder_query(void);
783 * head.c
786 /* Return the user's From: address(es) */
787 FL char const * myaddrs(struct header *hp);
789 /* Boil the user's From: addresses down to a single one, or use *sender* */
790 FL char const * myorigin(struct header *hp);
792 /* See if the passed line buffer, which may include trailing newline (sequence)
793 * is a mail From_ header line according to POSIX ("From ").
794 * If check_rfc4155 is true we'll return TRUM1 instead if the From_ line
795 * matches POSIX but is _not_ compatible to RFC 4155 */
796 FL bool_t is_head(char const *linebuf, size_t linelen,
797 bool_t check_rfc4155);
799 /* Savage extract date field from From_ line. linelen is convenience as line
800 * must be terminated (but it may end in a newline [sequence]).
801 * Return whether the From_ line was parsed successfully (-1 if the From_ line
802 * wasn't really RFC 4155 compliant) */
803 FL int extract_date_from_from_(char const *line, size_t linelen,
804 char datebuf[FROM_DATEBUF]);
806 /* Extract some header fields (see e.g. -t documentation) from a message.
807 * If options&OPT_t_FLAG *and* pstate&PS_t_FLAG are both set a number of
808 * additional header fields are understood and address joining is performed as
809 * necessary, and the subject is treated with additional care, too.
810 * If pstate&PS_t_FLAG is set but OPT_t_FLAG is no more, From: will not be
811 * assigned no more.
812 * This calls expandaddr() on some headers and sets checkaddr_err if that is
813 * not NULL -- note it explicitly allows EAF_NAME because aliases are not
814 * expanded when this is called! */
815 FL void extract_header(FILE *fp, struct header *hp,
816 si8_t *checkaddr_err);
818 /* Return the desired header line from the passed message
819 * pointer (or NULL if the desired header field is not available).
820 * If mult is zero, return the content of the first matching header
821 * field only, the content of all matching header fields else */
822 FL char * hfield_mult(char const *field, struct message *mp, int mult);
823 #define hfieldX(a, b) hfield_mult(a, b, 1)
824 #define hfield1(a, b) hfield_mult(a, b, 0)
826 /* Check whether the passed line is a header line of the desired breed.
827 * Return the field body, or 0 */
828 FL char const * thisfield(char const *linebuf, char const *field);
830 /* Get sender's name from this message. If the message has a bunch of arpanet
831 * stuff in it, we may have to skin the name before returning it */
832 FL char * nameof(struct message *mp, int reptype);
834 /* Start of a "comment". Ignore it */
835 FL char const * skip_comment(char const *cp);
837 /* Return the start of a route-addr (address in angle brackets), if present */
838 FL char const * routeaddr(char const *name);
840 /* Query *expandaddr*, parse it and return flags.
841 * The flags are already adjusted for OPT_INTERACTIVE / OPT_TILDE_FLAG etc. */
842 FL enum expand_addr_flags expandaddr_to_eaf(void);
844 /* Check if an address is invalid, either because it is malformed or, if not,
845 * according to eacm. Return FAL0 when it looks good, TRU1 if it is invalid
846 * but the error condition wasn't covered by a 'hard "fail"ure', -1 otherwise */
847 FL si8_t is_addr_invalid(struct name *np,
848 enum expand_addr_check_mode eacm);
850 /* Does *NP* point to a file or pipe addressee? */
851 #define is_fileorpipe_addr(NP) \
852 (((NP)->n_flags & NAME_ADDRSPEC_ISFILEORPIPE) != 0)
854 /* Return skinned version of *NP*s name */
855 #define skinned_name(NP) \
856 (assert((NP)->n_flags & NAME_SKINNED), \
857 ((struct name const*)NP)->n_name)
859 /* Skin an address according to the RFC 822 interpretation of "host-phrase" */
860 FL char * skin(char const *name);
862 /* Skin *name* and extract the *addr-spec* according to RFC 5322.
863 * Store the result in .ag_skinned and also fill in those .ag_ fields that have
864 * actually been seen.
865 * Return NULL on error, or name again, but which may have been replaced by
866 * a version with fixed quotation etc.! */
867 FL char const *n_addrspec_with_guts(struct n_addrguts *agp, char const *name,
868 bool_t doskin);
870 /* Fetch the real name from an internet mail address field */
871 FL char * realname(char const *name);
873 /* Fetch the sender's name from the passed message. reptype can be
874 * 0 -- get sender's name for display purposes
875 * 1 -- get sender's name for reply
876 * 2 -- get sender's name for Reply */
877 FL char * name1(struct message *mp, int reptype);
879 /* Trim away all leading Re: etc., return pointer to plain subject.
880 * Note it doesn't perform any MIME decoding by itself */
881 FL char * subject_re_trim(char *cp);
883 FL int msgidcmp(char const *s1, char const *s2);
885 /* Fake Sender for From_ lines if missing, e. g. with POP3 */
886 FL char const * fakefrom(struct message *mp);
888 FL char const * fakedate(time_t t);
890 /* From username Fri Jan 2 20:13:51 2004
891 * | | | | |
892 * 0 5 10 15 20 */
893 #ifdef HAVE_IMAP_SEARCH
894 FL time_t unixtime(char const *from);
895 #endif
897 FL time_t rfctime(char const *date);
899 FL time_t combinetime(int year, int month, int day,
900 int hour, int minute, int second);
902 FL void substdate(struct message *m);
904 /* TODO Weird thing that tries to fill in From: and Sender: */
905 FL void setup_from_and_sender(struct header *hp);
907 /* Note: returns 0x1 if both args were NULL */
908 FL struct name const * check_from_and_sender(struct name const *fromfield,
909 struct name const *senderfield);
911 #ifdef HAVE_XSSL
912 FL char * getsender(struct message *m);
913 #endif
915 /* Fill in / reedit the desired header fields */
916 FL int grab_headers(enum n_lexinput_flags lif, struct header *hp,
917 enum gfield gflags, int subjfirst);
919 /* Check whether sep->ss_sexpr (or ->ss_regex) matches any header of mp */
920 FL bool_t header_match(struct message *mp, struct search_expr const *sep);
922 /* Query *customhdr* */
923 FL struct n_header_field *n_customhdr_query(void);
926 * ignore.c
929 /* `headerpick' */
930 FL int c_headerpick(void *v);
932 /* TODO Compat variants of the c_(un)?h*() series,
933 * except for `retain' and `ignore', which are standardized */
934 FL int c_retain(void *v);
935 FL int c_ignore(void *v);
936 FL int c_unretain(void *v);
937 FL int c_unignore(void *v);
939 FL int c_saveretain(void *v);
940 FL int c_saveignore(void *v);
941 FL int c_unsaveretain(void *v);
942 FL int c_unsaveignore(void *v);
944 FL int c_fwdretain(void *v);
945 FL int c_fwdignore(void *v);
946 FL int c_unfwdretain(void *v);
947 FL int c_unfwdignore(void *v);
949 /* Ignore object lifecycle. (Most of the time this interface deals with
950 * special n_IGNORE_* objects, e.g., n_IGNORE_TYPE, though.)
951 * isauto: whether auto-reclaimed storage is to be used for allocations;
952 * if so, _del() needn't be called */
953 FL struct n_ignore *n_ignore_new(bool_t isauto);
954 FL void n_ignore_del(struct n_ignore *self);
956 /* Are there just _any_ user settings covered by self? */
957 FL bool_t n_ignore_is_any(struct n_ignore const *self);
959 /* Set an entry to retain (or ignore).
960 * Returns FAL0 if dat is not a valid header field name or an invalid regular
961 * expression, TRU1 if insertion took place, and TRUM1 if already set */
962 FL bool_t n_ignore_insert(struct n_ignore *self, bool_t retain,
963 char const *dat, size_t len);
964 #define n_ignore_insert_cp(SELF,RT,CP) n_ignore_insert(SELF, RT, CP, UIZ_MAX)
966 /* Returns TRU1 if retained, TRUM1 if ignored, FAL0 if not covered */
967 FL bool_t n_ignore_lookup(struct n_ignore const *self,
968 char const *dat, size_t len);
969 #define n_ignore_lookup_cp(SELF,CP) n_ignore_lookup(SELF, CP, UIZ_MAX)
970 #define n_ignore_is_ign(SELF,FDAT,FLEN) \
971 (n_ignore_lookup(SELF, FDAT, FLEN) == TRUM1)
974 * imap_search.c
977 /* Return -1 on invalid spec etc., the number of matches otherwise */
978 #ifdef HAVE_IMAP_SEARCH
979 FL ssize_t imap_search(char const *spec, int f);
980 #endif
983 * lex_input.c
986 /* */
987 FL int c_cmdnotsupp(void *v);
989 /* Interpret user commands. If stdin is not a tty, print no prompt; return
990 * whether last processed command returned error; this is *only* for main()! */
991 FL bool_t n_commands(void);
993 /* Actual cmd input */
995 /* Read a complete line of input, with editing if interactive and possible.
996 * If string is set it is used as the initial line content if in interactive
997 * mode, otherwise this argument is ignored for reproducibility.
998 * Return number of octets or a value <0 on error.
999 * Note: may use the currently `source'd file stream instead of stdin!
1000 * Manages the PS_READLINE_NL hack */
1001 FL int n_lex_input(enum n_lexinput_flags lif, char const *prompt,
1002 char **linebuf, size_t *linesize, char const *string
1003 n_MEMORY_DEBUG_ARGS);
1004 #ifdef HAVE_MEMORY_DEBUG
1005 # define n_lex_input(A,B,C,D,E) n_lex_input(A,B,C,D,E,__FILE__,__LINE__)
1006 #endif
1008 /* Read a line of input, with editing if interactive and possible, return it
1009 * savestr()d or NULL in case of errors or if an empty line would be returned.
1010 * This may only be called from toplevel (not during PS_ROBOT).
1011 * If string is set it is used as the initial line content if in interactive
1012 * mode, otherwise this argument is ignored for reproducibility */
1013 FL char * n_lex_input_cp(enum n_lexinput_flags lif,
1014 char const *prompt, char const *string);
1016 /* `read' */
1017 FL int c_read(void *v);
1019 /* Deal with loading of resource files and dealing with a stack of files for
1020 * the source command */
1022 /* Load a file of user definitions -- this is *only* for main()! */
1023 FL void n_load(char const *name);
1025 /* "Load" all the -X command line definitions in order -- *only* for main() */
1026 FL void n_load_Xargs(char const **lines, size_t cnt);
1028 /* Pushdown current input file and switch to a new one. Set the global flag
1029 * PS_SOURCING so that others will realize that they are no longer reading from
1030 * a tty (in all probability).
1031 * The latter won't return failure (TODO should be replaced by "-f FILE") */
1032 FL int c_source(void *v);
1033 FL int c_source_if(void *v);
1035 /* Evaluate a complete macro / a single command. For the former lines will
1036 * always be free()d, for the latter cmd will always be duplicated internally */
1037 FL bool_t n_source_macro(enum n_lexinput_flags lif, char const *name,
1038 char **lines, void (*on_finalize)(void*), void *finalize_arg);
1039 FL bool_t n_source_command(enum n_lexinput_flags lif, char const *cmd);
1041 /* XXX See a_LEX_SLICE in source */
1042 FL void n_source_slice_hack(char const *cmd, FILE *new_stdin,
1043 FILE *new_stdout, ui32_t new_options,
1044 void (*on_finalize)(void*), void *finalize_arg);
1045 FL void n_source_slice_hack_remove_after_jump(void);
1047 /* XXX Hack: may we release our (interactive) (terminal) control to a different
1048 * XXX program, e.g., a $PAGER? */
1049 FL bool_t n_source_may_yield_control(void);
1052 * message.c
1055 /* Return a file buffer all ready to read up the passed message pointer */
1056 FL FILE * setinput(struct mailbox *mp, struct message *m,
1057 enum needspec need);
1059 /* */
1060 FL enum okay get_body(struct message *mp);
1062 /* Reset (free) the global message array */
1063 FL void message_reset(void);
1065 /* Append the passed message descriptor onto the message array; if mp is NULL,
1066 * NULLify the entry at &[msgCount-1] */
1067 FL void message_append(struct message *mp);
1069 /* Append a NULL message */
1070 FL void message_append_null(void);
1072 /* Check whether sep->ss_sexpr (or ->ss_regex) matches mp. If with_headers is
1073 * true then the headers will also be searched (as plain text) */
1074 FL bool_t message_match(struct message *mp, struct search_expr const *sep,
1075 bool_t with_headers);
1077 /* */
1078 FL struct message * setdot(struct message *mp);
1080 /* Touch the named message by setting its MTOUCH flag. Touched messages have
1081 * the effect of not being sent back to the system mailbox on exit */
1082 FL void touch(struct message *mp);
1084 /* Convert user string of message numbers and store the numbers into vector.
1085 * Returns the count of messages picked up or -1 on error */
1086 FL int getmsglist(char *buf, int *vector, int flags);
1088 /* Find the first message whose flags&m==f and return its message number */
1089 FL int first(int f, int m);
1091 /* Mark the named message by setting its mark bit */
1092 FL void mark(int mesg, int f);
1095 * maildir.c
1098 FL int maildir_setfile(char const *name, enum fedit_mode fm);
1100 FL bool_t maildir_quit(bool_t hold_sigs_on);
1102 FL enum okay maildir_append(char const *name, FILE *fp, long offset);
1104 FL enum okay maildir_remove(char const *name);
1107 * memory.c
1108 * Heap memory and automatically reclaimed storage, plus pseudo "alloca"
1111 /* Called from the (main)loops upon tick and break-off time to perform debug
1112 * checking and memory cleanup, including stack-top of auto-reclaimed storage */
1113 FL void n_memory_reset(void);
1115 /* Generic heap memory */
1117 FL void * n_alloc(size_t s n_MEMORY_DEBUG_ARGS);
1118 FL void * n_realloc(void *v, size_t s n_MEMORY_DEBUG_ARGS);
1119 FL void * n_calloc(size_t nmemb, size_t size n_MEMORY_DEBUG_ARGS);
1120 FL void n_free(void *vp n_MEMORY_DEBUG_ARGS);
1122 /* TODO obsolete c{m,re,c}salloc -> n_* */
1123 #ifdef HAVE_MEMORY_DEBUG
1124 # define n_alloc(S) (n_alloc)(S, __FILE__, __LINE__)
1125 # define n_realloc(P,S) (n_realloc)(P, S, __FILE__, __LINE__)
1126 # define n_calloc(N,S) (n_calloc)(N, S, __FILE__, __LINE__)
1127 # define n_free(P) (n_free)(P, __FILE__, __LINE__)
1128 # define free(P) (n_free)(P, __FILE__, __LINE__)
1129 #else
1130 # define n_free(P) free(P)
1131 #endif
1132 #define smalloc(SZ) n_alloc(SZ)
1133 #define srealloc(P,SZ) n_realloc(P, SZ)
1134 #define scalloc(N,SZ) n_calloc(N, SZ)
1136 /* Fluctuating heap memory (supposed to exist for one command loop tick) */
1138 #define n_flux_alloc(S) n_alloc(S)
1139 #define n_flux_realloc(P,S) n_realloc(P, S)
1140 #define n_flux_calloc(N,S) n_calloc(N, S)
1141 #define n_flux_free(P) n_free(P)
1143 /* Auto-reclaimed storage */
1145 /* Fixate the current snapshot of our global auto-reclaimed storage instance,
1146 * so that further allocations become auto-reclaimed.
1147 * This is only called from main.c for the global anon arena */
1148 FL void n_memory_autorec_fixate(void);
1150 /* Lifetime management of a per-execution level arena. vp provides
1151 * n_MEMORY_AUTOREC_TYPE_SIZEOF bytes of storage to allocate that.
1152 * Note that anyone can anywhere _push() a storage level, and _pop() will drop
1153 * all possible levels "above" vp, too! */
1154 FL void n_memory_autorec_push(void *vp);
1155 FL void n_memory_autorec_pop(void *vp);
1156 FL void * n_memory_autorec_current(void);
1158 /* Lower memory pressure on auto-reclaimed storage for code which has
1159 * a sinus-curve looking style of memory usage, i.e., peak followed by release,
1160 * like, e.g., doing a task on all messages of a box in order.
1161 * Such code should call srelax_hold(), successively call srelax() after
1162 * a single message has been handled, and finally srelax_rele() */
1163 FL void srelax_hold(void);
1164 FL void srelax_rele(void);
1165 FL void srelax(void);
1167 /* Allocate size more bytes of space and return the address of the first byte
1168 * to the caller. An even number of bytes are always allocated so that the
1169 * space will always be on a word boundary */
1170 FL void * n_autorec_alloc(void *vp, size_t size n_MEMORY_DEBUG_ARGS);
1171 FL void * n_autorec_calloc(void *vp, size_t nmemb, size_t size
1172 n_MEMORY_DEBUG_ARGS);
1173 #ifdef HAVE_MEMORY_DEBUG
1174 # define n_autorec_alloc(VP,SZ) (n_autorec_alloc)(VP, SZ, __FILE__, __LINE__)
1175 # define n_autorec_calloc(VP,NM,SZ) \
1176 (n_autorec_calloc)(VP, NM, SZ, __FILE__, __LINE__)
1177 #endif
1179 /* TODO obsolete c?salloc -> n_autorec_* */
1180 #define salloc(SZ) n_autorec_alloc(NULL, SZ)
1181 #define csalloc(NM,SZ) n_autorec_calloc(NULL, NM, SZ)
1183 /* Pseudo alloca (and also auto-reclaimed in autorec_pop()) */
1184 FL void * n_lofi_alloc(size_t size n_MEMORY_DEBUG_ARGS);
1185 FL void n_lofi_free(void *vp n_MEMORY_DEBUG_ARGS);
1187 #ifdef HAVE_MEMORY_DEBUG
1188 # define n_lofi_alloc(SZ) (n_lofi_alloc)(SZ, __FILE__, __LINE__)
1189 # define n_lofi_free(P) (n_lofi_free)(P, __FILE__, __LINE__)
1190 #endif
1192 /* TODO obsolete ac_alloc / ac_free -> n_lofi_* */
1193 #define ac_alloc(SZ) n_lofi_alloc(SZ)
1194 #define ac_free(P) n_lofi_free(P)
1196 /* */
1197 #ifdef HAVE_MEMORY_DEBUG
1198 FL int c_memtrace(void *v);
1200 /* For immediate debugging purposes, it is possible to check on request */
1201 FL bool_t n__memory_check(char const *file, int line);
1202 # define n_memory_check() n__memory_check(__FILE__, __LINE__)
1203 #else
1204 # define n_memory_check() do{;}while(0)
1205 #endif
1208 * mime.c
1211 /* *sendcharsets* .. *charset-8bit* iterator; *a_charset_to_try_first* may be
1212 * used to prepend a charset to this list (e.g., for *reply-in-same-charset*).
1213 * The returned boolean indicates charset_iter_is_valid().
1214 * Without HAVE_ICONV, this "iterates" over *ttycharset* only */
1215 FL bool_t charset_iter_reset(char const *a_charset_to_try_first);
1216 FL bool_t charset_iter_next(void);
1217 FL bool_t charset_iter_is_valid(void);
1218 FL char const * charset_iter(void);
1220 /* And this is (xxx temporary?) which returns the iterator if that is valid and
1221 * otherwise either *charset-8bit* or *ttycharset*, dep. on HAVE_ICONV */
1222 FL char const * charset_iter_or_fallback(void);
1224 FL void charset_iter_recurse(char *outer_storage[2]); /* TODO LEGACY */
1225 FL void charset_iter_restore(char *outer_storage[2]); /* TODO LEGACY */
1227 /* Check whether our headers will need MIME conversion */
1228 #ifdef HAVE_ICONV
1229 FL char const * need_hdrconv(struct header *hp);
1230 #endif
1232 /* Convert header fields from RFC 1522 format */
1233 FL void mime_fromhdr(struct str const *in, struct str *out,
1234 enum tdflags flags);
1236 /* Interpret MIME strings in parts of an address field */
1237 FL char * mime_fromaddr(char const *name);
1239 /* fwrite(3) performing the given MIME conversion */
1240 FL ssize_t mime_write(char const *ptr, size_t size, FILE *f,
1241 enum conversion convert, enum tdflags dflags,
1242 struct quoteflt *qf, struct str *outrest,
1243 struct str *inrest);
1244 FL ssize_t xmime_write(char const *ptr, size_t size, /* TODO LEGACY */
1245 FILE *f, enum conversion convert, enum tdflags dflags);
1248 * mime_enc.c
1249 * Content-Transfer-Encodings as defined in RFC 2045 (and RFC 2047):
1250 * - Quoted-Printable, section 6.7
1251 * - Base64, section 6.8
1252 * TODO For now this is pretty mixed up regarding this external interface
1253 * TODO (and due to that the code is, too).
1254 * TODO In v15.0 CTE will be filter based, and explicit conversion will
1255 * TODO gain clear error codes
1258 /* Default MIME Content-Transfer-Encoding: as via *encoding* */
1259 FL enum mime_enc mime_enc_target(void);
1261 /* Map from a Content-Transfer-Encoding: header body (which may be NULL) */
1262 FL enum mime_enc mime_enc_from_ctehead(char const *hbody);
1264 /* XXX Try to get rid of that */
1265 FL char const * mime_enc_from_conversion(enum conversion const convert);
1267 /* How many characters of (the complete body) ln need to be quoted.
1268 * Only MIMEEF_ISHEAD and MIMEEF_ISENCWORD are understood */
1269 FL size_t mime_enc_mustquote(char const *ln, size_t lnlen,
1270 enum mime_enc_flags flags);
1272 /* How much space is necessary to encode len bytes in QP, worst case.
1273 * Includes room for terminator, UIZ_MAX on overflow */
1274 FL size_t qp_encode_calc_size(size_t len);
1276 /* If flags includes QP_ISHEAD these assume "word" input and use special
1277 * quoting rules in addition; soft line breaks are not generated.
1278 * Otherwise complete input lines are assumed and soft line breaks are
1279 * generated as necessary. Return NULL on error (overflow) */
1280 FL struct str * qp_encode(struct str *out, struct str const *in,
1281 enum qpflags flags);
1282 #ifdef notyet
1283 FL struct str * qp_encode_cp(struct str *out, char const *cp,
1284 enum qpflags flags);
1285 FL struct str * qp_encode_buf(struct str *out, void const *vp, size_t vp_len,
1286 enum qpflags flags);
1287 #endif
1289 /* The buffers of out and *rest* will be managed via srealloc().
1290 * If inrest_or_null is needed but NULL an error occurs, otherwise tolerant.
1291 * Return FAL0 on error; caller is responsible to free buffers */
1292 FL bool_t qp_decode_header(struct str *out, struct str const *in);
1293 FL bool_t qp_decode_part(struct str *out, struct str const *in,
1294 struct str *outrest, struct str *inrest_or_null);
1296 /* How much space is necessary to encode len bytes in Base64, worst case.
1297 * Includes room for (CR/LF/CRLF and) terminator, UIZ_MAX on overflow */
1298 FL size_t b64_encode_calc_size(size_t len);
1300 /* Note these simply convert all the input (if possible), including the
1301 * insertion of NL sequences if B64_CRLF or B64_LF is set (and multiple thereof
1302 * if B64_MULTILINE is set).
1303 * Thus, in the B64_BUF case, better call b64_encode_calc_size() first.
1304 * Return NULL on error (overflow; cannot happen for B64_BUF) */
1305 FL struct str * b64_encode(struct str *out, struct str const *in,
1306 enum b64flags flags);
1307 FL struct str * b64_encode_buf(struct str *out, void const *vp, size_t vp_len,
1308 enum b64flags flags);
1309 #ifdef notyet
1310 FL struct str * b64_encode_cp(struct str *out, char const *cp,
1311 enum b64flags flags);
1312 #endif
1314 /* The _{header,part}() variants are failure tolerant, the latter requires
1315 * outrest to be set; due to the odd 4:3 relation inrest_or_null should be
1316 * given, _then_, it is an error if it is needed but not set.
1317 * TODO pre v15 callers should ensure that no endless loop is entered because
1318 * TODO the inrest cannot be converted and ends up as inrest over and over:
1319 * TODO give NULL to stop such loops.
1320 * The buffers of out and possibly *rest* will be managed via srealloc().
1321 * Returns FAL0 on error; caller is responsible to free buffers.
1322 * XXX FAL0 is effectively not returned for _part*() variants,
1323 * XXX (instead replacement characters are produced for invalid data.
1324 * XXX _Unless_ operation could EOVERFLOW.)
1325 * XXX I.e. this is bad and is tolerant for text and otherwise not */
1326 FL bool_t b64_decode(struct str *out, struct str const *in);
1327 FL bool_t b64_decode_header(struct str *out, struct str const *in);
1328 FL bool_t b64_decode_part(struct str *out, struct str const *in,
1329 struct str *outrest, struct str *inrest_or_null);
1332 * mime_param.c
1335 /* Get a mime style parameter from a header body */
1336 FL char * mime_param_get(char const *param, char const *headerbody);
1338 /* Format parameter name to have value, salloc() it or NULL (error) in result.
1339 * 0 on error, 1 or -1 on success: the latter if result contains \n newlines,
1340 * which it will if the created param requires more than MIME_LINELEN bytes;
1341 * there is never a trailing newline character */
1342 /* TODO mime_param_create() should return a StrList<> or something.
1343 * TODO in fact it should take a HeaderField* and append a HeaderFieldParam*! */
1344 FL si8_t mime_param_create(struct str *result, char const *name,
1345 char const *value);
1347 /* Get the boundary out of a Content-Type: multipart/xyz header field, return
1348 * salloc()ed copy of it; store strlen() in *len if set */
1349 FL char * mime_param_boundary_get(char const *headerbody, size_t *len);
1351 /* Create a salloc()ed MIME boundary */
1352 FL char * mime_param_boundary_create(void);
1355 * mime_parse.c
1358 /* Create MIME part object tree for and of mp */
1359 FL struct mimepart * mime_parse_msg(struct message *mp,
1360 enum mime_parse_flags mpf);
1363 * mime_types.c
1366 /* `(un)?mimetype' commands */
1367 FL int c_mimetype(void *v);
1368 FL int c_unmimetype(void *v);
1370 /* Check whether the Content-Type name is internally known */
1371 FL bool_t mime_type_check_mtname(char const *name);
1373 /* Return a Content-Type matching the name, or NULL if none could be found */
1374 FL char * mime_type_classify_filename(char const *name);
1376 /* Classify content of *fp* as necessary and fill in arguments; **charset* is
1377 * set to *charset-7bit* or charset_iter_or_fallback() if NULL */
1378 FL enum conversion mime_type_classify_file(FILE *fp, char const **contenttype,
1379 char const **charset, int *do_iconv);
1381 /* Dependend on *mime-counter-evidence* mpp->m_ct_type_usr_ovwr will be set,
1382 * but otherwise mpp is const */
1383 FL enum mimecontent mime_type_classify_part(struct mimepart *mpp);
1385 /* Query handler for a part, return the plain type (& MIME_HDL_TYPE_MASK).
1386 * mhp is anyway initialized (mh_flags, mh_msg) */
1387 FL enum mime_handler_flags mime_type_handler(struct mime_handler *mhp,
1388 struct mimepart const *mpp,
1389 enum sendaction action);
1392 * nam_a_grp.c
1395 /* Allocate a single element of a name list, initialize its name field to the
1396 * passed name and return it */
1397 FL struct name * nalloc(char const *str, enum gfield ntype);
1399 /* Like nalloc(), but initialize from content of np */
1400 FL struct name * ndup(struct name *np, enum gfield ntype);
1402 /* Concatenate the two passed name lists, return the result */
1403 FL struct name * cat(struct name *n1, struct name *n2);
1405 /* Duplicate np */
1406 FL struct name * namelist_dup(struct name const *np, enum gfield ntype);
1408 /* Determine the number of undeleted elements in a name list and return it;
1409 * the latter also doesn't count file and pipe addressees in addition */
1410 FL ui32_t count(struct name const *np);
1411 FL ui32_t count_nonlocal(struct name const *np);
1413 /* Extract a list of names from a line, and make a list of names from it.
1414 * Return the list or NULL if none found */
1415 FL struct name * extract(char const *line, enum gfield ntype);
1417 /* Like extract() unless line contains anyof ",\"\\(<|", in which case
1418 * comma-separated list extraction is used instead */
1419 FL struct name * lextract(char const *line, enum gfield ntype);
1421 /* Turn a list of names into a string of the same names */
1422 FL char * detract(struct name *np, enum gfield ntype);
1424 /* Get a lextract() list via n_lex_input_cp_addhist(), reassigning to *np* */
1425 FL struct name * grab_names(enum n_lexinput_flags lif, char const *field,
1426 struct name *np, int comma, enum gfield gflags);
1428 /* Check whether n1 n2 share the domain name */
1429 FL bool_t name_is_same_domain(struct name const *n1,
1430 struct name const *n2);
1432 /* Check all addresses in np and delete invalid ones; if set_on_error is not
1433 * NULL it'll be set to TRU1 for error or -1 for "hard fail" error */
1434 FL struct name * checkaddrs(struct name *np, enum expand_addr_check_mode eacm,
1435 si8_t *set_on_error);
1437 /* Vaporise all duplicate addresses in hp (.h_(to|cc|bcc)) so that an address
1438 * that "first" occurs in To: is solely in there, ditto Cc:, after expanding
1439 * aliases etc. eacm and set_on_error are passed to checkaddrs(), metoo is
1440 * passed to usermap(). After updating hp to the new state this returns
1441 * a flat list of all addressees, which may be NULL */
1442 FL struct name * namelist_vaporise_head(struct header *hp,
1443 enum expand_addr_check_mode eacm, bool_t metoo,
1444 si8_t *set_on_error);
1446 /* Map all of the aliased users in the invoker's mailrc file and insert them
1447 * into the list */
1448 FL struct name * usermap(struct name *names, bool_t force_metoo);
1450 /* Remove all of the duplicates from the passed name list by insertion sorting
1451 * them, then checking for dups. Return the head of the new list */
1452 FL struct name * elide(struct name *names);
1454 /* `alternates' deal with the list of alternate names */
1455 FL int c_alternates(void *v);
1457 FL struct name * delete_alternates(struct name *np);
1459 FL int is_myname(char const *name);
1461 /* `(un)?alias' */
1462 FL int c_alias(void *v);
1463 FL int c_unalias(void *v);
1465 /* `(un)?ml(ist|subscribe)', and a check whether a name is a (wanted) list */
1466 FL int c_mlist(void *v);
1467 FL int c_unmlist(void *v);
1468 FL int c_mlsubscribe(void *v);
1469 FL int c_unmlsubscribe(void *v);
1471 FL enum mlist_state is_mlist(char const *name, bool_t subscribed_only);
1473 /* `(un)?shortcut', and check if str is one, return expansion or NULL */
1474 FL int c_shortcut(void *v);
1475 FL int c_unshortcut(void *v);
1477 FL char const * shortcut_expand(char const *str);
1480 * path.c
1483 /* Test to see if the passed file name is a directory, return true if it is */
1484 FL bool_t is_dir(char const *name);
1486 /* Recursively create a directory */
1487 FL bool_t n_path_mkdir(char const *name);
1489 /* Delete a file, but only if the file is a plain file; return FAL0 on system
1490 * error and TRUM1 if name is not a plain file, return TRU1 on success */
1491 FL bool_t n_path_rm(char const *name);
1493 /* A get-wd..restore-wd approach */
1494 FL enum okay cwget(struct cw *cw);
1495 FL enum okay cwret(struct cw *cw);
1496 FL void cwrelse(struct cw *cw);
1499 * pop3.c
1502 #ifdef HAVE_POP3
1503 /* */
1504 FL enum okay pop3_noop(void);
1506 /* */
1507 FL int pop3_setfile(char const *server, enum fedit_mode fm);
1509 /* */
1510 FL enum okay pop3_header(struct message *m);
1512 /* */
1513 FL enum okay pop3_body(struct message *m);
1515 /* */
1516 FL bool_t pop3_quit(bool_t hold_sigs_on);
1517 #endif /* HAVE_POP3 */
1520 * popen.c
1521 * Subprocesses, popen, but also file handling with registering
1524 /* For program startup in main.c: initialize process manager */
1525 FL void command_manager_start(void);
1527 /* Notes: OF_CLOEXEC is implied in oflags, xflags may be NULL */
1528 FL FILE * safe_fopen(char const *file, char const *oflags, int *xflags);
1530 /* Notes: OF_CLOEXEC|OF_REGISTER are implied in oflags!
1531 * Exception is Fdopen() if nocloexec is TRU1, but otherwise even for it the fd
1532 * creator has to take appropriate steps in order to ensure this is true! */
1533 FL FILE * Fopen(char const *file, char const *oflags);
1534 FL FILE * Fdopen(int fd, char const *oflags, bool_t nocloexec);
1536 FL int Fclose(FILE *fp);
1538 /* Open file according to oflags (see popen.c). Handles compressed files */
1539 FL FILE * Zopen(char const *file, char const *oflags);
1541 /* Create a temporary file in *TMPDIR*, use namehint for its name (prefix
1542 * unless OF_SUFFIX is set, in which case namehint is an extension that MUST be
1543 * part of the resulting filename, otherwise Ftmp() will fail), store the
1544 * unique name in fn (unless OF_UNLINK is set in oflags), and return a stdio
1545 * FILE pointer with access oflags. OF_CLOEXEC is implied in oflags.
1546 * One of OF_WRONLY and OF_RDWR must be set. Mode of 0600 is implied */
1547 FL FILE * Ftmp(char **fn, char const *namehint, enum oflags oflags);
1549 /* If OF_HOLDSIGS was set when calling Ftmp(), then hold_all_sigs() had been
1550 * called: call this to unlink(2) and free *fn and to rele_all_sigs() */
1551 FL void Ftmp_release(char **fn);
1553 /* Free the resources associated with the given filename. To be called after
1554 * unlink() */
1555 FL void Ftmp_free(char **fn);
1557 /* Create a pipe and ensure CLOEXEC bit is set in both descriptors */
1558 FL bool_t pipe_cloexec(int fd[2]);
1561 * env_addon may be NULL, otherwise it is expected to be a NULL terminated
1562 * array of "K=V" strings to be placed into the childs environment.
1563 * If cmd==(char*)-1 then shell is indeed expected to be a PTF :P that will be
1564 * called from within the child process */
1565 FL FILE * Popen(char const *cmd, char const *mode, char const *shell,
1566 char const **env_addon, int newfd1);
1567 FL bool_t Pclose(FILE *fp, bool_t dowait);
1569 /* In OPT_INTERACTIVE, we want to go over $PAGER.
1570 * These are specialized version of Popen()/Pclose() which also encapsulate
1571 * error message printing, terminal handling etc. additionally */
1572 FL FILE * n_pager_open(void);
1573 FL bool_t n_pager_close(FILE *fp);
1575 /* */
1576 FL void close_all_files(void);
1578 /* Fork a child process, enable use of the *child() series below */
1579 FL int fork_child(void);
1581 /* Run a command without a shell, with optional arguments and splicing of stdin
1582 * and stdout. FDs may also be COMMAND_FD_NULL and COMMAND_FD_PASS, meaning to
1583 * redirect from/to /dev/null or pass through our own set of FDs; in the
1584 * latter case terminal capabilities are saved/restored if possible.
1585 * The command name can be a sequence of words.
1586 * Signals must be handled by the caller. "Mask" contains the signals to
1587 * ignore in the new process. SIGINT is enabled unless it's in the mask.
1588 * env_addon may be NULL, otherwise it is expected to be a NULL terminated
1589 * array of "K=V" strings to be placed into the childs environment */
1590 FL int run_command(char const *cmd, sigset_t *mask, int infd,
1591 int outfd, char const *a0, char const *a1, char const *a2,
1592 char const **env_addon);
1594 /* Like run_command, but don't wait for the command to finish.
1595 * Also it is usually an error to use COMMAND_FD_PASS for this one */
1596 FL int start_command(char const *cmd, sigset_t *mask, int infd,
1597 int outfd, char const *a0, char const *a1, char const *a2,
1598 char const **env_addon);
1600 /* In-child process */
1601 FL void prepare_child(sigset_t *nset, int infd, int outfd);
1603 /* Mark a child as don't care - pid */
1604 FL void free_child(int pid);
1606 /* Wait for pid, return whether we've had a normal EXIT_SUCCESS exit.
1607 * If wait_status is set, set it to the reported waitpid(2) wait status */
1608 FL bool_t wait_child(int pid, int *wait_status);
1611 * quit.c
1614 /* Save all of the undetermined messages at the top of "mbox". Save all
1615 * untouched messages back in the system mailbox. Remove the system mailbox,
1616 * if none saved there.
1617 * TODO v15 Note: assumes hold_sigs() has been called _and_ can be temporarily
1618 * TODO dropped via a single rele_sigs() if hold_sigs_on */
1619 FL bool_t quit(bool_t hold_sigs_on);
1621 /* Adjust the message flags in each message */
1622 FL int holdbits(void);
1624 /* Create another temporary file and copy user's mbox file darin. If there is
1625 * no mbox, copy nothing. If he has specified "append" don't copy his mailbox,
1626 * just copy saveable entries at the end */
1627 FL enum okay makembox(void);
1629 FL void save_mbox_for_possible_quitstuff(void); /* TODO DROP IF U CAN */
1631 FL int savequitflags(void);
1633 FL void restorequitflags(int);
1636 * send.c
1639 /* Send message described by the passed pointer to the passed output buffer.
1640 * Return -1 on error. Adjust the status: field if need be. If doitp is
1641 * given, suppress ignored header fields. prefix is a string to prepend to
1642 * each output line. action = data destination
1643 * (SEND_MBOX,_TOFILE,_TODISP,_QUOTE,_DECRYPT). stats[0] is line count,
1644 * stats[1] is character count. stats may be NULL. Note that stats[0] is
1645 * valid for SEND_MBOX only */
1646 FL int sendmp(struct message *mp, FILE *obuf,
1647 struct n_ignore const *doitp,
1648 char const *prefix, enum sendaction action, ui64_t *stats);
1651 * sendout.c
1654 /* Interface between the argument list and the mail1 routine which does all the
1655 * dirty work */
1656 FL int mail(struct name *to, struct name *cc, struct name *bcc,
1657 char *subject, struct attachment *attach, char *quotefile,
1658 int recipient_record);
1660 /* `mail' and `Mail' commands, respectively */
1661 FL int c_sendmail(void *v);
1662 FL int c_Sendmail(void *v);
1664 /* Mail a message on standard input to the people indicated in the passed
1665 * header. (Internal interface) */
1666 FL enum okay mail1(struct header *hp, int printheaders,
1667 struct message *quote, char *quotefile, int recipient_record,
1668 int doprefix);
1670 /* Create a Date: header field.
1671 * We compare the localtime() and gmtime() results to get the timezone, because
1672 * numeric timezones are easier to read and because $TZ isn't always set */
1673 FL int mkdate(FILE *fo, char const *field);
1675 /* Dump the to, subject, cc header on the passed file buffer.
1676 * nosend_msg tells us not to dig to deep but to instead go for compose mode or
1677 * editing a message (yet we're stupid and cannot do it any better) - if it is
1678 * TRUM1 then we're really in compose mode and will produce some fields for
1679 * easier filling in */
1680 FL int puthead(bool_t nosend_msg, struct header *hp, FILE *fo,
1681 enum gfield w, enum sendaction action,
1682 enum conversion convert, char const *contenttype,
1683 char const *charset);
1685 /* */
1686 FL enum okay resend_msg(struct message *mp, struct name *to, int add_resent);
1688 /* $DEAD */
1689 FL void savedeadletter(FILE *fp, bool_t fflush_rewind_first);
1692 * shexp.c
1695 /* Evaluate the string given as a new mailbox name. Supported meta characters:
1696 * . % for my system mail box
1697 * . %user for user's system mail box
1698 * . # for previous file
1699 * . & invoker's mbox file
1700 * . +file file in folder directory
1701 * . any shell meta character (except for FEXP_NSHELL).
1702 * a poor man's vis(3), on name before calling this (and showing the user).
1703 * If FEXP_MULTIOK is set we return an array of terminated strings, the (last)
1704 * result string is terminated via \0\0 and PS_EXPAND_MULTIRESULT is set.
1705 * Returns the file name as an auto-reclaimed string */
1706 FL char * fexpand(char const *name, enum fexp_mode fexpm);
1708 #define expand(N) fexpand(N, FEXP_FULL) /* XXX remove these */
1710 /* Parse the next shell token from input (->s and ->l are adjusted to the
1711 * remains, data is constant beside that; ->s may be NULL if ->l is 0, if ->l
1712 * EQ UIZ_MAX strlen(->s) is used) and append the resulting output to store */
1713 FL enum n_shexp_state n_shexp_parse_token(struct n_string *store,
1714 struct str *input, enum n_shexp_parse_flags flags);
1716 /* Likewise, but strips n_SHEXP_STATE_STOP if input remains after parsing,
1717 * otherwise forcefully sets it. Returns autoreclaimed storage */
1718 FL enum n_shexp_state n_shexp_parse_token_buf(char **store,
1719 char const *indat, size_t inlen,
1720 enum n_shexp_parse_flags flags);
1722 /* Quote input in a way that can, in theory, be fed into parse_token() again.
1723 * ->s may be NULL if ->l is 0, if ->l EQ UIZ_MAX strlen(->s) is used.
1724 * If rndtrip is true we try to make the resulting string "portable" (by
1725 * converting Unicode to \u etc.), otherwise we produce something to be
1726 * consumed "now", i.e., to display for the user.
1727 * Resulting output is _appended_ to store.
1728 * TODO Note: last resort, since \u and $ expansions etc. are necessarily
1729 * TODO already expanded and can thus not be reverted, but ALL we have */
1730 FL struct n_string *n_shexp_quote(struct n_string *store,
1731 struct str const *input, bool_t rndtrip);
1732 FL char * n_shexp_quote_cp(char const *cp, bool_t rndtrip);
1734 /* Can name be used as a variable name? */
1735 FL bool_t n_shexp_is_valid_varname(char const *name);
1738 * signal.c
1741 #ifdef HAVE_DEVEL
1742 FL int c_sigstate(void *);
1743 #endif
1745 FL void n_raise(int signo);
1747 /* Provide BSD-like signal() on all systems TODO v15 -> SysV -> n_signal() */
1748 FL sighandler_type safe_signal(int signum, sighandler_type handler);
1750 /* Provide reproducable non-restartable signal handler installation */
1751 FL n_sighdl_t n_signal(int signo, n_sighdl_t hdl);
1753 /* Hold *all* signals but SIGCHLD, and release that total block again */
1754 FL void hold_all_sigs(void);
1755 FL void rele_all_sigs(void);
1757 /* Hold HUP/QUIT/INT */
1758 FL void hold_sigs(void);
1759 FL void rele_sigs(void);
1761 /* Call _ENTER_SWITCH() with the according flags, it'll take care for the rest
1762 * and also set the jump buffer - it returns 0 if anything went fine and
1763 * a signal number if a jump occurred, in which case all handlers requested in
1764 * flags are temporarily SIG_IGN.
1765 * _cleanup_ping() informs the condome that no jumps etc. shall be performed
1766 * until _leave() is called in the following -- to be (optionally) called right
1767 * before the local jump label is reached which is jumped to after a long jump
1768 * occurred, straight code flow provided, e.g., to avoid destructors to be
1769 * called twice. _leave() must always be called last, reraise_flags will be
1770 * used to decide how signal handling has to continue
1772 #define n_SIGMAN_ENTER_SWITCH(S,F) do{\
1773 int __x__;\
1774 hold_sigs();\
1775 if(sigsetjmp((S)->sm_jump, 1))\
1776 __x__ = -1;\
1777 else\
1778 __x__ = F;\
1779 n__sigman_enter(S, __x__);\
1780 }while(0); switch((S)->sm_signo)
1781 FL int n__sigman_enter(struct n_sigman *self, int flags);
1782 FL void n_sigman_cleanup_ping(struct n_sigman *self);
1783 FL void n_sigman_leave(struct n_sigman *self, enum n_sigman_flags flags);
1785 /* Pending signal or 0? */
1786 FL int n_sigman_peek(void);
1787 FL void n_sigman_consume(void);
1789 /* Not-Yet-Dead debug information (handler installation in main.c) */
1790 #if defined HAVE_DEBUG || defined HAVE_DEVEL
1791 FL void _nyd_chirp(ui8_t act, char const *file, ui32_t line,
1792 char const *fun);
1793 FL void _nyd_oncrash(int signo);
1795 # define HAVE_NYD
1796 # define NYD_ENTER _nyd_chirp(1, __FILE__, __LINE__, __FUN__)
1797 # define NYD_LEAVE _nyd_chirp(2, __FILE__, __LINE__, __FUN__)
1798 # define NYD _nyd_chirp(0, __FILE__, __LINE__, __FUN__)
1799 # define NYD_X _nyd_chirp(0, __FILE__, __LINE__, __FUN__)
1800 # ifdef HAVE_NYD2
1801 # define NYD2_ENTER _nyd_chirp(1, __FILE__, __LINE__, __FUN__)
1802 # define NYD2_LEAVE _nyd_chirp(2, __FILE__, __LINE__, __FUN__)
1803 # define NYD2 _nyd_chirp(0, __FILE__, __LINE__, __FUN__)
1804 # endif
1805 #else
1806 # undef HAVE_NYD
1807 #endif
1808 #ifndef NYD
1809 # define NYD_ENTER do {} while (0)
1810 # define NYD_LEAVE do {} while (0)
1811 # define NYD do {} while (0)
1812 # define NYD_X do {} while (0) /* XXX LEGACY */
1813 #endif
1814 #ifndef NYD2
1815 # define NYD2_ENTER do {} while (0)
1816 # define NYD2_LEAVE do {} while (0)
1817 # define NYD2 do {} while (0)
1818 #endif
1821 * smtp.c
1824 #ifdef HAVE_SMTP
1825 /* Send a message via SMTP */
1826 FL bool_t smtp_mta(struct sendbundle *sbp);
1827 #endif
1830 * socket.c
1833 #ifdef HAVE_SOCKETS
1834 FL bool_t sopen(struct sock *sp, struct url *urlp);
1835 FL int sclose(struct sock *sp);
1836 FL enum okay swrite(struct sock *sp, char const *data);
1837 FL enum okay swrite1(struct sock *sp, char const *data, int sz,
1838 int use_buffer);
1840 /* */
1841 FL int sgetline(char **line, size_t *linesize, size_t *linelen,
1842 struct sock *sp n_MEMORY_DEBUG_ARGS);
1843 # ifdef HAVE_MEMORY_DEBUG
1844 # define sgetline(A,B,C,D) sgetline(A, B, C, D, __FILE__, __LINE__)
1845 # endif
1846 #endif
1849 * spam.c
1852 #ifdef HAVE_SPAM
1853 /* Direct mappings of the various spam* commands */
1854 FL int c_spam_clear(void *v);
1855 FL int c_spam_set(void *v);
1856 FL int c_spam_forget(void *v);
1857 FL int c_spam_ham(void *v);
1858 FL int c_spam_rate(void *v);
1859 FL int c_spam_spam(void *v);
1860 #else
1861 # define c_spam_clear c_cmdnotsupp
1862 # define c_spam_set c_cmdnotsupp
1863 # define c_spam_forget c_cmdnotsupp
1864 # define c_spam_ham c_cmdnotsupp
1865 # define c_spam_rate c_cmdnotsupp
1866 # define c_spam_spam c_cmdnotsupp
1867 #endif
1870 * ssl.c
1873 #ifdef HAVE_SSL
1874 /* */
1875 FL void ssl_set_verify_level(struct url const *urlp);
1877 /* */
1878 FL enum okay ssl_verify_decide(void);
1880 /* */
1881 FL enum okay smime_split(FILE *ip, FILE **hp, FILE **bp, long xcount,
1882 int keep);
1884 /* */
1885 FL FILE * smime_sign_assemble(FILE *hp, FILE *bp, FILE *sp,
1886 char const *message_digest);
1888 /* */
1889 FL FILE * smime_encrypt_assemble(FILE *hp, FILE *yp);
1891 /* */
1892 FL struct message * smime_decrypt_assemble(struct message *m, FILE *hp,
1893 FILE *bp);
1895 /* */
1896 FL int c_certsave(void *v);
1898 /* */
1899 FL enum okay rfc2595_hostname_match(char const *host, char const *pattern);
1900 #else /* HAVE_SSL */
1901 # define c_certsave c_cmdnotsupp
1902 #endif
1905 * strings.c
1908 /* Return a pointer to a dynamic copy of the argument */
1909 FL char * savestr(char const *str n_MEMORY_DEBUG_ARGS);
1910 FL char * savestrbuf(char const *sbuf, size_t slen n_MEMORY_DEBUG_ARGS);
1911 #ifdef HAVE_MEMORY_DEBUG
1912 # define savestr(CP) savestr(CP, __FILE__, __LINE__)
1913 # define savestrbuf(CBP,CBL) savestrbuf(CBP, CBL, __FILE__, __LINE__)
1914 #endif
1916 /* Concatenate cp2 onto cp1 (if not NULL), separated by sep (if not '\0') */
1917 FL char * savecatsep(char const *cp1, char sep, char const *cp2
1918 n_MEMORY_DEBUG_ARGS);
1919 #ifdef HAVE_MEMORY_DEBUG
1920 # define savecatsep(S1,SEP,S2) savecatsep(S1, SEP, S2, __FILE__, __LINE__)
1921 #endif
1923 /* Make copy of argument incorporating old one, if set, separated by space */
1924 #define save2str(S,O) savecatsep(O, ' ', S)
1926 /* strcat */
1927 #define savecat(S1,S2) savecatsep(S1, '\0', S2)
1929 /* Create duplicate, lowercasing all characters along the way */
1930 FL char * i_strdup(char const *src n_MEMORY_DEBUG_ARGS);
1931 #ifdef HAVE_MEMORY_DEBUG
1932 # define i_strdup(CP) i_strdup(CP, __FILE__, __LINE__)
1933 #endif
1935 /* */
1936 FL struct str * str_concat_csvl(struct str *self, ...);
1938 /* */
1939 FL struct str * str_concat_cpa(struct str *self, char const * const *cpa,
1940 char const *sep_o_null n_MEMORY_DEBUG_ARGS);
1941 #ifdef HAVE_MEMORY_DEBUG
1942 # define str_concat_cpa(S,A,N) str_concat_cpa(S, A, N, __FILE__, __LINE__)
1943 #endif
1945 /* Plain char* support, not auto-reclaimed (unless noted) */
1947 /* Are any of the characters in the two strings the same? */
1948 FL bool_t n_anyof_buf(char const *template, char const *dat, size_t len);
1949 #define n_anyof_cp(S1,S2) n_anyof_buf(S1, S2, UIZ_MAX)
1950 #define anyof(S1,S2) n_anyof_buf(S1, S2, UIZ_MAX)
1952 /* Treat *iolist as a sep separated list of strings; find and return the
1953 * next entry, trimming surrounding whitespace, and point *iolist to the next
1954 * entry or to NULL if no more entries are contained. If ignore_empty is
1955 * set empty entries are started over.
1956 * See n_shexp_parse_token() for the new way that supports sh(1) quoting.
1957 * Return NULL or an entry */
1958 FL char * n_strsep(char **iolist, char sep, bool_t ignore_empty);
1960 /* Copy a string, lowercasing it as we go; *size* is buffer size of *dest*;
1961 * *dest* will always be terminated unless *size* is 0 */
1962 FL void i_strcpy(char *dest, char const *src, size_t size);
1964 /* Is *as1* a valid prefix of *as2*? */
1965 FL int is_prefix(char const *as1, char const *as2);
1967 /* Backslash quote (" and \) v'alue, and return salloc()ed result */
1968 FL char * string_quote(char const *v);
1970 /* Get (and isolate) the last, possibly quoted part of linebuf, set *needs_list
1971 * to indicate whether getmsglist() et al need to be called to collect
1972 * additional args that remain in linebuf. If strip is true possibly
1973 * surrounding quote characters are removed. Return NULL on "error" */
1974 FL char * laststring(char *linebuf, bool_t *needs_list, bool_t strip);
1976 /* Convert a string to lowercase, in-place and with multibyte-aware */
1977 FL void makelow(char *cp);
1979 /* Is *sub* a substring of *str*, case-insensitive and multibyte-aware? */
1980 FL bool_t substr(char const *str, char const *sub);
1982 /* */
1983 FL char * sstpcpy(char *dst, char const *src);
1984 FL char * sstrdup(char const *cp n_MEMORY_DEBUG_ARGS);
1985 FL char * sbufdup(char const *cp, size_t len n_MEMORY_DEBUG_ARGS);
1986 #ifdef HAVE_MEMORY_DEBUG
1987 # define sstrdup(CP) sstrdup(CP, __FILE__, __LINE__)
1988 # define sbufdup(CP,L) sbufdup(CP, L, __FILE__, __LINE__)
1989 #endif
1991 /* Copy at most dstsize bytes of src to dst and return string length.
1992 * Returns -E2BIG if dst is not large enough; dst will always be terminated
1993 * unless dstsize was 0 on entry */
1994 FL ssize_t n_strscpy(char *dst, char const *src, size_t dstsize);
1996 /* Case-independent ASCII comparisons */
1997 FL int asccasecmp(char const *s1, char const *s2);
1998 FL int ascncasecmp(char const *s1, char const *s2, size_t sz);
2000 /* Case-independent ASCII string find s2 in s1, return it or NULL */
2001 FL char const *asccasestr(char const *s1, char const *s2);
2003 /* Case-independent ASCII check whether as1 is the initial substring of as2 */
2004 FL bool_t is_asccaseprefix(char const *as1, char const *as2);
2006 /* struct str related support funs TODO _cp->_cs! */
2008 /* *self->s* is srealloc()ed */
2009 #define n_str_dup(S, T) n_str_assign_buf((S), (T)->s, (T)->l)
2011 /* *self->s* is srealloc()ed; if buflen==UIZ_MAX strlen() is called unless buf
2012 * is NULL; buf may be NULL if buflen is 0 */
2013 FL struct str * n_str_assign_buf(struct str *self,
2014 char const *buf, uiz_t buflen n_MEMORY_DEBUG_ARGS);
2015 #define n_str_assign(S, T) n_str_assign_buf(S, (T)->s, (T)->l)
2016 #define n_str_assign_cp(S, CP) n_str_assign_buf(S, CP, UIZ_MAX)
2018 /* *self->s* is srealloc()ed, *self->l* incremented; if buflen==UIZ_MAX
2019 * strlen() is called unless buf is NULL; buf may be NULL if buflen is 0 */
2020 FL struct str * n_str_add_buf(struct str *self, char const *buf, uiz_t buflen
2021 n_MEMORY_DEBUG_ARGS);
2022 #define n_str_add(S, T) n_str_add_buf(S, (T)->s, (T)->l)
2023 #define n_str_add_cp(S, CP) n_str_add_buf(S, CP, UIZ_MAX)
2025 #ifdef HAVE_MEMORY_DEBUG
2026 # define n_str_assign_buf(S,B,BL) n_str_assign_buf(S, B, BL, __FILE__, __LINE__)
2027 # define n_str_add_buf(S,B,BL) n_str_add_buf(S, B, BL, __FILE__, __LINE__)
2028 #endif
2030 /* struct n_string
2031 * May have NULL buffer, may contain embedded NULs */
2033 /* Lifetime. n_string_gut() is optional for _creat_auto() strings */
2034 #define n_string_creat(S) \
2035 ((S)->s_dat = NULL, (S)->s_len = (S)->s_auto = (S)->s_size = 0, (S))
2036 #define n_string_creat_auto(S) \
2037 ((S)->s_dat = NULL, (S)->s_len = (S)->s_size = 0, (S)->s_auto = TRU1, (S))
2038 #define n_string_gut(S) ((S)->s_size != 0 ? (void)n_string_clear(S) : (void)0)
2040 /* Truncate to size, which must be LE current length */
2041 #define n_string_trunc(S,L) \
2042 (assert(UICMP(z, L, <=, (S)->s_len)), (S)->s_len = (ui32_t)(L), (S))
2044 /* Take/Release buffer ownership */
2045 #define n_string_take_ownership(SP,B,S,L) \
2046 (assert((SP)->s_dat == NULL), assert((S) == 0 || (B) != NULL),\
2047 assert((L) < (S) || (L) == 0),\
2048 (SP)->s_dat = (B), (SP)->s_len = (L), (SP)->s_size = (S), (SP))
2049 #define n_string_drop_ownership(SP) \
2050 ((SP)->s_dat = NULL, (SP)->s_len = (SP)->s_size = 0, (SP))
2052 /* Release all memory */
2053 FL struct n_string *n_string_clear(struct n_string *self n_MEMORY_DEBUG_ARGS);
2055 #ifdef HAVE_MEMORY_DEBUG
2056 # define n_string_clear(S) \
2057 ((S)->s_size != 0 ? (n_string_clear)(S, __FILE__, __LINE__) : (S))
2058 #else
2059 # define n_string_clear(S) ((S)->s_size != 0 ? (n_string_clear)(S) : (S))
2060 #endif
2062 /* Reserve room for noof additional bytes, but don't adjust length (yet) */
2063 FL struct n_string *n_string_reserve(struct n_string *self, size_t noof
2064 n_MEMORY_DEBUG_ARGS);
2066 /* Resize to exactly nlen bytes; any new storage isn't initialized */
2067 FL struct n_string *n_string_resize(struct n_string *self, size_t nlen
2068 n_MEMORY_DEBUG_ARGS);
2070 #ifdef HAVE_MEMORY_DEBUG
2071 # define n_string_reserve(S,N) (n_string_reserve)(S, N, __FILE__, __LINE__)
2072 # define n_string_resize(S,N) (n_string_resize)(S, N, __FILE__, __LINE__)
2073 #endif
2075 /* */
2076 FL struct n_string *n_string_push_buf(struct n_string *self, char const *buf,
2077 size_t buflen n_MEMORY_DEBUG_ARGS);
2078 #define n_string_push(S, T) n_string_push_buf(S, (T)->s_len, (T)->s_dat)
2079 #define n_string_push_cp(S,CP) n_string_push_buf(S, CP, UIZ_MAX)
2080 FL struct n_string *n_string_push_c(struct n_string *self, char c
2081 n_MEMORY_DEBUG_ARGS);
2083 #define n_string_assign(S,T) ((S)->s_len = 0, n_string_push(S, T))
2084 #define n_string_assign_cp(S,CP) ((S)->s_len = 0, n_string_push_cp(S, CP))
2085 #define n_string_assign_buf(S,B,BL) \
2086 ((S)->s_len = 0, n_string_push_buf(S, B, BL))
2088 #ifdef HAVE_MEMORY_DEBUG
2089 # define n_string_push_buf(S,B,BL) \
2090 n_string_push_buf(S, B, BL, __FILE__, __LINE__)
2091 # define n_string_push_c(S,C) n_string_push_c(S, C, __FILE__, __LINE__)
2092 #endif
2094 /* */
2095 FL struct n_string *n_string_unshift_buf(struct n_string *self, char const *buf,
2096 size_t buflen n_MEMORY_DEBUG_ARGS);
2097 #define n_string_unshift(S,T) \
2098 n_string_unshift_buf(S, (T)->s_len, (T)->s_dat)
2099 #define n_string_unshift_cp(S,CP) \
2100 n_string_unshift_buf(S, CP, UIZ_MAX)
2101 FL struct n_string *n_string_unshift_c(struct n_string *self, char c
2102 n_MEMORY_DEBUG_ARGS);
2104 #ifdef HAVE_MEMORY_DEBUG
2105 # define n_string_unshift_buf(S,B,BL) \
2106 n_string_unshift_buf(S,B,BL, __FILE__, __LINE__)
2107 # define n_string_unshift_c(S,C) n_string_unshift_c(S, C, __FILE__, __LINE__)
2108 #endif
2110 /* */
2111 FL struct n_string *n_string_insert_buf(struct n_string *self, size_t idx,
2112 char const *buf, size_t buflen n_MEMORY_DEBUG_ARGS);
2113 #define n_string_insert(S,I,T) \
2114 n_string_insert_buf(S, I, (T)->s_len, (T)->s_dat)
2115 #define n_string_insert_cp(S,I,CP) \
2116 n_string_insert_buf(S, I, CP, UIZ_MAX)
2117 FL struct n_string *n_string_insert_c(struct n_string *self, size_t idx,
2118 char c n_MEMORY_DEBUG_ARGS);
2120 #ifdef HAVE_MEMORY_DEBUG
2121 # define n_string_insert_buf(S,I,B,BL) \
2122 n_string_insert_buf(S, I, B, BL, __FILE__, __LINE__)
2123 # define n_string_insert_c(S,I,C) n_string_insert_c(S, I, C, __FILE__, __LINE__)
2124 #endif
2126 /* */
2127 FL struct n_string *n_string_cut(struct n_string *self, size_t idx, size_t len);
2129 /* Ensure self has a - NUL terminated - buffer, and return that.
2130 * The latter may return the pointer to an internal empty RODATA instead */
2131 FL char * n_string_cp(struct n_string *self n_MEMORY_DEBUG_ARGS);
2132 FL char const *n_string_cp_const(struct n_string const *self);
2134 #ifdef HAVE_MEMORY_DEBUG
2135 # define n_string_cp(S) n_string_cp(S, __FILE__, __LINE__)
2136 #endif
2138 #ifdef HAVE_INLINE
2139 n_INLINE struct n_string *
2140 (n_string_creat)(struct n_string *self){
2141 return n_string_creat(self);
2143 # undef n_string_creat
2145 n_INLINE struct n_string *
2146 (n_string_creat_auto)(struct n_string *self){
2147 return n_string_creat_auto(self);
2149 # undef n_string_creat_auto
2151 n_INLINE void
2152 (n_string_gut)(struct n_string *self){
2153 n_string_gut(self);
2155 # undef n_string_gut
2157 n_INLINE struct n_string *
2158 (n_string_trunc)(struct n_string *self, size_t l){
2159 return n_string_trunc(self, l);
2161 # undef n_string_trunc
2163 n_INLINE struct n_string *
2164 (n_string_drop_ownership)(struct n_string *self){
2165 return n_string_drop_ownership(self);
2167 # undef n_string_drop_ownership
2168 #endif /* HAVE_INLINE */
2170 /* UTF-8 / UTF-32 stuff */
2172 /* ..and update arguments to point after range; returns UI32_MAX on error, in
2173 * which case the arguments will have been stepped one byte */
2174 FL ui32_t n_utf8_to_utf32(char const **bdat, size_t *blen);
2176 /* buf must be large enough also for NUL, it's new length will be returned */
2177 FL size_t n_utf32_to_utf8(ui32_t c, char *buf);
2179 /* Our iconv(3) wrappers */
2181 #ifdef HAVE_ICONV
2182 FL iconv_t n_iconv_open(char const *tocode, char const *fromcode);
2183 /* If *cd* == *iconvd*, assigns -1 to the latter */
2184 FL void n_iconv_close(iconv_t cd);
2186 /* Reset encoding state */
2187 FL void n_iconv_reset(iconv_t cd);
2189 /* iconv(3), but return errno or 0 upon success.
2190 * The errno may be ENOENT unless n_ICONV_IGN_NOREVERSE is set in icf.
2191 * iconv_str() auto-grows on E2BIG errors; in and in_rest_or_null may be the
2192 * same object.
2193 * Note: EINVAL (incomplete sequence at end of input) is NOT handled, so the
2194 * replacement character must be added manually if that happens at EOF! */
2195 FL int n_iconv_buf(iconv_t cd, enum n_iconv_flags icf,
2196 char const **inb, size_t *inbleft,
2197 char **outb, size_t *outbleft);
2198 FL int n_iconv_str(iconv_t icp, enum n_iconv_flags icf,
2199 struct str *out, struct str const *in,
2200 struct str *in_rest_or_null);
2202 /* If tocode==NULL, uses *ttycharset*. If fromcode==NULL, uses UTF-8.
2203 * Returns a salloc()ed buffer or NULL */
2204 FL char * n_iconv_onetime_cp(enum n_iconv_flags icf,
2205 char const *tocode, char const *fromcode, char const *input);
2206 #endif
2209 * termcap.c
2210 * This is a little bit hairy since it provides some stuff even if HAVE_TERMCAP
2211 * is false due to encapsulation desire
2214 #ifdef n_HAVE_TCAP
2215 /* termcap(3) / xy lifetime handling -- only called if we're OPT_INTERACTIVE
2216 * but not doing something in OPT_QUICKRUN_MASK */
2217 FL void n_termcap_init(void);
2218 FL void n_termcap_destroy(void);
2220 /* enter_ca_mode / enable keypad (both if possible).
2221 * TODO When complete is not set we won't enter_ca_mode, for example: we don't
2222 * TODO want a complete screen clearance after $PAGER returned after displaying
2223 * TODO a mail, because otherwise the screen would look differently for normal
2224 * TODO stdout display messages. Etc. */
2225 # ifdef HAVE_TERMCAP
2226 FL void n_termcap_resume(bool_t complete);
2227 FL void n_termcap_suspend(bool_t complete);
2229 # define n_TERMCAP_RESUME(CPL) n_termcap_resume(CPL)
2230 # define n_TERMCAP_SUSPEND(CPL) n_termcap_suspend(CPL)
2231 # else
2232 # define n_TERMCAP_RESUME(CPL)
2233 # define n_TERMCAP_SUSPEND(CPL)
2234 # endif
2236 /* Command multiplexer, returns FAL0 on I/O error, TRU1 on success and TRUM1
2237 * for commands which are not available and have no builtin fallback.
2238 * For query options the return represents a true value and -1 error.
2239 * Will return FAL0 directly unless we've been initialized.
2240 * By convention unused argument slots are given as -1 */
2241 FL ssize_t n_termcap_cmd(enum n_termcap_cmd cmd, ssize_t a1, ssize_t a2);
2242 # define n_termcap_cmdx(CMD) n_termcap_cmd(CMD, -1, -1)
2244 /* Query multiplexer. If query is n__TERMCAP_QUERY_MAX1 then
2245 * tvp->tv_data.tvd_string must contain the name of the query to look up; this
2246 * is used to lookup just about *any* (string) capability.
2247 * Returns TRU1 on success and TRUM1 for queries for which a builtin default
2248 * is returned; FAL0 is returned on non-availability */
2249 FL bool_t n_termcap_query(enum n_termcap_query query,
2250 struct n_termcap_value *tvp);
2252 /* Get a n_termcap_query for name or -1 if it is not known, and -2 if
2253 * type wasn't _NONE and the type doesn't match. */
2254 # ifdef HAVE_KEY_BINDINGS
2255 FL si32_t n_termcap_query_for_name(char const *name,
2256 enum n_termcap_captype type);
2257 FL char const *n_termcap_name_of_query(enum n_termcap_query query);
2258 # endif
2259 #endif /* n_HAVE_TCAP */
2262 * thread.c
2265 /* */
2266 FL int c_thread(void *vp);
2268 /* */
2269 FL int c_unthread(void *vp);
2271 /* */
2272 FL struct message * next_in_thread(struct message *mp);
2273 FL struct message * prev_in_thread(struct message *mp);
2274 FL struct message * this_in_thread(struct message *mp, long n);
2276 /* Sorted mode is internally just a variant of threaded mode with all m_parent
2277 * and m_child links being NULL */
2278 FL int c_sort(void *vp);
2280 /* */
2281 FL int c_collapse(void *v);
2282 FL int c_uncollapse(void *v);
2284 /* */
2285 FL void uncollapse1(struct message *mp, int always);
2288 * tty.c
2291 /* Return whether user says yes, on STDIN if interactive.
2292 * Uses noninteract_default, the return value for non-interactive use cases,
2293 * as a hint for boolify() and chooses the yes/no string to append to prompt
2294 * accordingly. If prompt is NULL "Continue" is used instead.
2295 * Handles+reraises SIGINT */
2296 FL bool_t getapproval(char const *prompt, bool_t noninteract_default);
2298 #ifdef HAVE_SOCKETS
2299 /* Get a password the expected way, return termios_state.ts_linebuf on
2300 * success or NULL on error */
2301 FL char * getuser(char const *query);
2303 /* Get a password the expected way, return termios_state.ts_linebuf on
2304 * success or NULL on error. SIGINT is temporarily blocked, *not* reraised.
2305 * termios_state_reset() (def.h) must be called anyway */
2306 FL char * getpassword(char const *query);
2307 #endif
2309 /* Create the prompt and return its visual width in columns, which may be 0
2310 * if evaluation is disabled etc. The data is placed in store.
2311 * xprompt is inspected only if prompt is enabled and no *prompt* evaluation
2312 * takes place */
2313 FL ui32_t n_tty_create_prompt(struct n_string *store,
2314 char const *xprompt, enum n_lexinput_flags lif);
2316 /* At least readline(3) (formerly supported) desires to handle SIGWINCH and
2317 * install its own handler */
2318 #if 0
2319 # define TTY_WANTS_SIGWINCH
2320 #endif
2322 /* Overall interactive terminal life cycle for command line editor library */
2323 FL void n_tty_init(void);
2324 FL void n_tty_destroy(void);
2326 /* Rather for main.c / SIGWINCH interaction only */
2327 FL void n_tty_signal(int sig);
2329 /* Read a line after printing prompt (if set and non-empty).
2330 * If n>0 assumes that *linebuf has n bytes of default content.
2331 * Only the _CTX_ bits in lif are used */
2332 FL int n_tty_readline(enum n_lexinput_flags lif, char const *prompt,
2333 char **linebuf, size_t *linesize, size_t n
2334 n_MEMORY_DEBUG_ARGS);
2335 #ifdef HAVE_MEMORY_DEBUG
2336 # define n_tty_readline(A,B,C,D,E) (n_tty_readline)(A,B,C,D,E,__FILE__,__LINE__)
2337 #endif
2339 /* Add a line (most likely as returned by n_tty_readline()) to the history.
2340 * Whether an entry added for real depends on the isgabby / *history-gabby*
2341 * relation, and / or whether s is non-empty and doesn't begin with spacechar() */
2342 FL void n_tty_addhist(char const *s, bool_t isgabby);
2344 #ifdef HAVE_HISTORY
2345 FL int c_history(void *v);
2346 #else
2347 # define c_history c_cmdnotsupp
2348 #endif
2350 /* `bind' and `unbind' */
2351 #ifdef HAVE_KEY_BINDINGS
2352 FL int c_bind(void *v);
2353 FL int c_unbind(void *v);
2354 #else
2355 # define c_bind c_cmdnotsupp
2356 # define c_unbind c_cmdnotsupp
2357 #endif
2360 * ui_str.c
2363 /* Parse (onechar of) a given buffer, and generate infos along the way.
2364 * If _WOUT_CREATE is set in vif, .vic_woudat will be NUL terminated!
2365 * vicp must be zeroed before first use */
2366 FL bool_t n_visual_info(struct n_visual_info_ctx *vicp,
2367 enum n_visual_info_flags vif);
2369 /* Check (multibyte-safe) how many bytes of buf (which is blen byts) can be
2370 * safely placed in a buffer (field width) of maxlen bytes */
2371 FL size_t field_detect_clip(size_t maxlen, char const *buf, size_t blen);
2373 /* Place cp in a salloc()ed buffer, column-aligned; for header display only */
2374 FL char * colalign(char const *cp, int col, int fill,
2375 int *cols_decr_used_or_null);
2377 /* Convert a string to a displayable one;
2378 * prstr() returns the result savestr()d, prout() writes it */
2379 FL void makeprint(struct str const *in, struct str *out);
2380 FL size_t delctrl(char *cp, size_t len);
2381 FL char * prstr(char const *s);
2382 FL int prout(char const *s, size_t sz, FILE *fp);
2384 /* Print out a Unicode character or a substitute for it, return 0 on error or
2385 * wcwidth() (or 1) on success */
2386 FL size_t putuc(int u, int c, FILE *fp);
2388 /* Check whether bidirectional info maybe needed for blen bytes of bdat */
2389 FL bool_t bidi_info_needed(char const *bdat, size_t blen);
2391 /* Create bidirectional text encapsulation information; without HAVE_NATCH_CHAR
2392 * the strings are always empty */
2393 FL void bidi_info_create(struct bidi_info *bip);
2396 * urlcrecry.c
2399 /* URL en- and decoding according to (enough of) RFC 3986 (RFC 1738).
2400 * These return a newly salloc()ated result, or NULL on length excess */
2401 FL char * urlxenc(char const *cp, bool_t ispath n_MEMORY_DEBUG_ARGS);
2402 FL char * urlxdec(char const *cp n_MEMORY_DEBUG_ARGS);
2403 #ifdef HAVE_MEMORY_DEBUG
2404 # define urlxenc(CP,P) urlxenc(CP, P, __FILE__, __LINE__)
2405 # define urlxdec(CP) urlxdec(CP, __FILE__, __LINE__)
2406 #endif
2408 /* `urlcodec' */
2409 FL int c_urlcodec(void *v);
2411 FL int c_urlencode(void *v); /* TODO obsolete*/
2412 FL int c_urldecode(void *v); /* TODO obsolete */
2414 /* Parse a RFC 6058 'mailto' URI to a single to: (TODO yes, for now hacky).
2415 * Return NULL or something that can be converted to a struct name */
2416 FL char * url_mailto_to_address(char const *mailtop);
2418 /* Return port for proto (and set irv_or_null), or NULL if unknown.
2419 * For file:// this returns an empty string */
2420 FL char const *n_servbyname(char const *proto, ui16_t *irv_or_null);
2422 #ifdef HAVE_SOCKETS
2423 /* Parse data, which must meet the criteria of the protocol cproto, and fill
2424 * in the URL structure urlp (URL rather according to RFC 3986) */
2425 FL bool_t url_parse(struct url *urlp, enum cproto cproto,
2426 char const *data);
2428 /* Zero ccp and lookup credentials for communicating with urlp.
2429 * Return whether credentials are available and valid (for chosen auth) */
2430 FL bool_t ccred_lookup(struct ccred *ccp, struct url *urlp);
2431 FL bool_t ccred_lookup_old(struct ccred *ccp, enum cproto cproto,
2432 char const *addr);
2433 #endif /* HAVE_SOCKETS */
2435 /* `netrc' */
2436 #ifdef HAVE_NETRC
2437 FL int c_netrc(void *v);
2438 #else
2439 # define c_netrc c_cmdnotsupp
2440 #endif
2442 /* MD5 (RFC 1321) related facilities */
2443 #ifdef HAVE_MD5
2444 # ifdef HAVE_XSSL_MD5
2445 # define md5_ctx MD5_CTX
2446 # define md5_init MD5_Init
2447 # define md5_update MD5_Update
2448 # define md5_final MD5_Final
2449 # else
2450 /* The function definitions are instantiated in main.c */
2451 # include "rfc1321.h"
2452 # endif
2454 /* Store the MD5 checksum as a hexadecimal string in *hex*, *not* terminated,
2455 * using lowercase ASCII letters as defined in RFC 2195 */
2456 # define MD5TOHEX_SIZE 32
2457 FL char * md5tohex(char hex[MD5TOHEX_SIZE], void const *vp);
2459 /* CRAM-MD5 encode the *user* / *pass* / *b64* combo; NULL on overflow error */
2460 FL char * cram_md5_string(struct str const *user, struct str const *pass,
2461 char const *b64);
2463 /* RFC 2104: HMAC: Keyed-Hashing for Message Authentication.
2464 * unsigned char *text: pointer to data stream
2465 * int text_len : length of data stream
2466 * unsigned char *key : pointer to authentication key
2467 * int key_len : length of authentication key
2468 * caddr_t digest : caller digest to be filled in */
2469 FL void hmac_md5(unsigned char *text, int text_len, unsigned char *key,
2470 int key_len, void *digest);
2471 #endif /* HAVE_MD5 */
2474 * xssl.c
2477 #ifdef HAVE_XSSL
2478 /* */
2479 FL enum okay ssl_open(struct url const *urlp, struct sock *sp);
2481 /* */
2482 FL void ssl_gen_err(char const *fmt, ...);
2484 /* */
2485 FL int c_verify(void *vp);
2487 /* */
2488 FL FILE * smime_sign(FILE *ip, char const *addr);
2490 /* */
2491 FL FILE * smime_encrypt(FILE *ip, char const *certfile, char const *to);
2493 FL struct message * smime_decrypt(struct message *m, char const *to,
2494 char const *cc, bool_t is_a_verify_call);
2496 /* */
2497 FL enum okay smime_certsave(struct message *m, int n, FILE *op);
2499 #else /* HAVE_XSSL */
2500 # define c_verify c_cmdnotsupp
2501 #endif
2503 #ifndef HAVE_AMALGAMATION
2504 # undef FL
2505 # define FL
2506 #endif
2508 /* s-it-mode */