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1 /*
2  * libwebsockets - small server side websockets and web server implementation
3  *
4  * Copyright (C) 2010 - 2021 Andy Green <andy@warmcat.com>
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining a copy
7  * of this software and associated documentation files (the "Software"), to
8  * deal in the Software without restriction, including without limitation the
9  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10  * sell copies of the Software, and to permit persons to whom the Software is
11  * furnished to do so, subject to the following conditions:
12  *
13  * The above copyright notice and this permission notice shall be included in
14  * all copies or substantial portions of the Software.
15  *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
22  * IN THE SOFTWARE.
23  */
24 
25 #if defined(LWS_WITH_SPAWN)
26 
27 #if defined(WIN32) || defined(_WIN32)
28 #else
29 #include <sys/wait.h>
30 #include <sys/times.h>
31 #endif
32 #endif
33 
34 #if defined(__OpenBSD__)
35 #include <sys/siginfo.h>
36 #endif
37 
38 /** \defgroup misc Miscellaneous APIs
39 * ##Miscellaneous APIs
40 *
41 * Various APIs outside of other categories
42 */
43 ///@{
44 
45 struct lws_buflist;
46 
47 /**
48  * lws_buflist_append_segment(): add buffer to buflist at head
49  *
50  * \param head: list head
51  * \param buf: buffer to stash
52  * \param len: length of buffer to stash
53  *
54  * Returns -1 on OOM, 1 if this was the first segment on the list, and 0 if
55  * it was a subsequent segment.
56  */
57 LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT
58 lws_buflist_append_segment(struct lws_buflist **head, const uint8_t *buf,
59 			   size_t len);
60 /**
61  * lws_buflist_next_segment_len(): number of bytes left in current segment
62  *
63  * \param head: list head
64  * \param buf: if non-NULL, *buf is written with the address of the start of
65  *		the remaining data in the segment
66  *
67  * Returns the number of bytes left in the current segment.  0 indicates
68  * that the buflist is empty (there are no segments on the buflist).
69  */
70 LWS_VISIBLE LWS_EXTERN size_t
71 lws_buflist_next_segment_len(struct lws_buflist **head, uint8_t **buf);
72 
73 /**
74  * lws_buflist_use_segment(): remove len bytes from the current segment
75  *
76  * \param head: list head
77  * \param len: number of bytes to mark as used
78  *
79  * If len is less than the remaining length of the current segment, the position
80  * in the current segment is simply advanced and it returns.
81  *
82  * If len uses up the remaining length of the current segment, then the segment
83  * is deleted and the list head moves to the next segment if any.
84  *
85  * Returns the number of bytes left in the current segment.  0 indicates
86  * that the buflist is empty (there are no segments on the buflist).
87  */
88 LWS_VISIBLE LWS_EXTERN size_t
89 lws_buflist_use_segment(struct lws_buflist **head, size_t len);
90 
91 /**
92  * lws_buflist_total_len(): Get the total size of the buflist
93  *
94  * \param head: list head
95  *
96  * Returns the total number of bytes held on all segments of the buflist
97  */
98 LWS_VISIBLE LWS_EXTERN size_t
99 lws_buflist_total_len(struct lws_buflist **head);
100 
101 /**
102  * lws_buflist_linear_copy(): copy everything out as one without consuming
103  *
104  * \param head: list head
105  * \param ofs: start offset into buflist in bytes
106  * \param buf: buffer to copy linearly into
107  * \param len: length of buffer available
108  *
109  * Returns -1 if len is too small, or bytes copied.  Happy to do partial
110  * copies, returns 0 when there are no more bytes to copy.
111  */
112 LWS_VISIBLE LWS_EXTERN int
113 lws_buflist_linear_copy(struct lws_buflist **head, size_t ofs, uint8_t *buf,
114 			size_t len);
115 
116 /**
117  * lws_buflist_linear_use(): copy and consume from buflist head
118  *
119  * \param head: list head
120  * \param buf: buffer to copy linearly into
121  * \param len: length of buffer available
122  *
123  * Copies a possibly fragmented buflist from the head into the linear output
124  * buffer \p buf for up to length \p len, and consumes the buflist content that
125  * was copied out.
126  *
127  * Since it was consumed, calling again will resume copying out and consuming
128  * from as far as it got the first time.
129  *
130  * Returns the number of bytes written into \p buf.
131  */
132 LWS_VISIBLE LWS_EXTERN int
133 lws_buflist_linear_use(struct lws_buflist **head, uint8_t *buf, size_t len);
134 
135 /**
136  * lws_buflist_fragment_use(): copy and consume <= 1 frag from buflist head
137  *
138  * \param head: list head
139  * \param buf: buffer to copy linearly into
140  * \param len: length of buffer available
141  * \param frag_first: pointer to char written on exit to if this is start of frag
142  * \param frag_fin: pointer to char written on exit to if this is end of frag
143  *
144  * Copies all or part of the fragment at the start of a buflist from the head
145  * into the output buffer \p buf for up to length \p len, and consumes the
146  * buflist content that was copied out.
147  *
148  * Since it was consumed, calling again will resume copying out and consuming
149  * from as far as it got the first time.
150  *
151  * Returns the number of bytes written into \p buf.
152  */
153 LWS_VISIBLE LWS_EXTERN int
154 lws_buflist_fragment_use(struct lws_buflist **head, uint8_t *buf,
155 			 size_t len, char *frag_first, char *frag_fin);
156 
157 /**
158  * lws_buflist_destroy_all_segments(): free all segments on the list
159  *
160  * \param head: list head
161  *
162  * This frees everything on the list unconditionally.  *head is always
163  * NULL after this.
164  */
165 LWS_VISIBLE LWS_EXTERN void
166 lws_buflist_destroy_all_segments(struct lws_buflist **head);
167 
168 /**
169  * lws_buflist_describe(): debug helper logging buflist status
170  *
171  * \param head: list head
172  * \param id: pointer shown in debug list
173  * \param reason: reason string show in debug list
174  *
175  * Iterates through the buflist segments showing position and size.
176  * This only exists when lws was built in debug mode
177  */
178 LWS_VISIBLE LWS_EXTERN void
179 lws_buflist_describe(struct lws_buflist **head, void *id, const char *reason);
180 
181 /**
182  * lws_ptr_diff(): helper to report distance between pointers as an int
183  *
184  * \param head: the pointer with the larger address
185  * \param tail: the pointer with the smaller address
186  *
187  * This helper gives you an int representing the number of bytes further
188  * forward the first pointer is compared to the second pointer.
189  */
190 #define lws_ptr_diff(head, tail) \
191 			((int)((char *)(head) - (char *)(tail)))
192 
193 #define lws_ptr_diff_size_t(head, tail) \
194 			((size_t)(ssize_t)((char *)(head) - (char *)(tail)))
195 
196 /**
197  * lws_snprintf(): snprintf that truncates the returned length too
198  *
199  * \param str: destination buffer
200  * \param size: bytes left in destination buffer
201  * \param format: format string
202  * \param ...: args for format
203  *
204  * This lets you correctly truncate buffers by concatenating lengths, if you
205  * reach the limit the reported length doesn't exceed the limit.
206  */
207 LWS_VISIBLE LWS_EXTERN int
208 lws_snprintf(char *str, size_t size, const char *format, ...) LWS_FORMAT(3);
209 
210 /**
211  * lws_strncpy(): strncpy that guarantees NUL on truncated copy
212  *
213  * \param dest: destination buffer
214  * \param src: source buffer
215  * \param size: bytes left in destination buffer
216  *
217  * This lets you correctly truncate buffers by concatenating lengths, if you
218  * reach the limit the reported length doesn't exceed the limit.
219  */
220 LWS_VISIBLE LWS_EXTERN char *
221 lws_strncpy(char *dest, const char *src, size_t size);
222 
223 /*
224  * Variation where we want to use the smaller of two lengths, useful when the
225  * source string is not NUL terminated
226  */
227 #define lws_strnncpy(dest, src, size1, destsize) \
228 	lws_strncpy(dest, src, (size_t)(size1 + 1) < (size_t)(destsize) ? \
229 				(size_t)(size1 + 1) : (size_t)(destsize))
230 
231 /**
232  * lws_nstrstr(): like strstr for length-based strings without terminating NUL
233  *
234  * \param buf: the string to search
235  * \param len: the length of the string to search
236  * \param name: the substring to search for
237  * \param nl: the length of name
238  *
239  * Returns NULL if \p name is not present in \p buf.  Otherwise returns the
240  * address of the first instance of \p name in \p buf.
241  *
242  * Neither buf nor name need to be NUL-terminated.
243  */
244 LWS_VISIBLE LWS_EXTERN const char *
245 lws_nstrstr(const char *buf, size_t len, const char *name, size_t nl);
246 
247 /**
248  * lws_json_simple_find(): dumb JSON string parser
249  *
250  * \param buf: the JSON to search
251  * \param len: the length of the JSON to search
252  * \param name: the name field to search the JSON for, eg, "\"myname\":"
253  * \param alen: set to the length of the argument part if non-NULL return
254  *
255  * Either returns NULL if \p name is not present in buf, or returns a pointer
256  * to the argument body of the first instance of \p name, and sets *alen to the
257  * length of the argument body.
258  *
259  * This can cheaply handle fishing out, eg, myarg from {"myname": "myarg"} by
260  * searching for "\"myname\":".  It will return a pointer to myarg and set *alen
261  * to 5.  It equally handles args like "myname": true, or "myname":false, and
262  * null or numbers are all returned as delimited strings.
263  *
264  * Anything more complicated like the value is a subobject or array, you should
265  * parse it using a full parser like lejp.  This is suitable is the JSON is
266  * and will remain short and simple, and contains well-known names amongst other
267  * extensible JSON members.
268  */
269 LWS_VISIBLE LWS_EXTERN const char *
270 lws_json_simple_find(const char *buf, size_t len, const char *name, size_t *alen);
271 
272 /**
273  * lws_json_simple_strcmp(): dumb JSON string comparison
274  *
275  * \param buf: the JSON to search
276  * \param len: the length of the JSON to search
277  * \param name: the name field to search the JSON for, eg, "\"myname\":"
278  * \param comp: return a strcmp of this and the discovered argument
279  *
280  * Helper that combines lws_json_simple_find() with strcmp() if it was found.
281  * If the \p name was not found, returns -1.  Otherwise returns a strcmp()
282  * between what was found and \p comp, ie, return 0 if they match or something
283  * else if they don't.
284  *
285  * If the JSON is relatively simple and you want to target constrained
286  * devices, this can be a good choice.  If the JSON may be complex, you
287  * should use a full JSON parser.
288  */
289 LWS_VISIBLE LWS_EXTERN int
290 lws_json_simple_strcmp(const char *buf, size_t len, const char *name, const char *comp);
291 
292 
293 /**
294  * lws_hex_to_byte_array(): convert hex string like 0123456789ab into byte data
295  *
296  * \param h: incoming NUL-terminated hex string
297  * \param dest: array to fill with binary decodes of hex pairs from h
298  * \param max: maximum number of bytes dest can hold, must be at least half
299  *		the size of strlen(h)
300  *
301  * This converts hex strings into an array of 8-bit representations, ie the
302  * input "abcd" produces two bytes of value 0xab and 0xcd.
303  *
304  * Returns number of bytes produced into \p dest, or -1 on error.
305  *
306  * Errors include non-hex chars and an odd count of hex chars in the input
307  * string.
308  */
309 LWS_VISIBLE LWS_EXTERN int
310 lws_hex_to_byte_array(const char *h, uint8_t *dest, int max);
311 
312 /**
313  * lws_hex_from_byte_array(): render byte array as hex char string
314  *
315  * \param src: incoming binary source array
316  * \param slen: length of src in bytes
317  * \param dest: array to fill with hex chars representing src
318  * \param len: max extent of dest
319  *
320  * This converts binary data of length slen at src, into a hex string at dest
321  * of maximum length len.  Even if truncated, the result will be NUL-terminated.
322  */
323 LWS_VISIBLE LWS_EXTERN void
324 lws_hex_from_byte_array(const uint8_t *src, size_t slen, char *dest, size_t len);
325 
326 /**
327  * lws_hex_random(): generate len - 1 or - 2 characters of random ascii hex
328  *
329  * \param context: the lws_context used to get the random
330  * \param dest: destination for hex ascii chars
331  * \param len: the number of bytes the buffer dest points to can hold
332  *
333  * This creates random ascii-hex strings up to a given length, with a
334  * terminating NUL.
335  *
336  * There will not be any characters produced that are not 0-9, a-f, so it's
337  * safe to go straight into, eg, JSON.
338  */
339 LWS_VISIBLE LWS_EXTERN int
340 lws_hex_random(struct lws_context *context, char *dest, size_t len);
341 
342 /*
343  * lws_timingsafe_bcmp(): constant time memcmp
344  *
345  * \param a: first buffer
346  * \param b: second buffer
347  * \param len: count of bytes to compare
348  *
349  * Return 0 if the two buffers are the same, else nonzero.
350  *
351  * Always compares all of the buffer before returning, so it can't be used as
352  * a timing oracle.
353  */
354 
355 LWS_VISIBLE LWS_EXTERN int
356 lws_timingsafe_bcmp(const void *a, const void *b, uint32_t len);
357 
358 /**
359  * lws_get_random(): fill a buffer with platform random data
360  *
361  * \param context: the lws context
362  * \param buf: buffer to fill
363  * \param len: how much to fill
364  *
365  * Fills buf with len bytes of random.  Returns the number of bytes set, if
366  * not equal to len, then getting the random failed.
367  */
368 LWS_VISIBLE LWS_EXTERN size_t
369 lws_get_random(struct lws_context *context, void *buf, size_t len);
370 /**
371  * lws_daemonize(): make current process run in the background
372  *
373  * \param _lock_path: the filepath to write the lock file
374  *
375  * Spawn lws as a background process, taking care of various things
376  */
377 LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT
378 lws_daemonize(const char *_lock_path);
379 /**
380  * lws_get_library_version(): return string describing the version of lws
381  *
382  * On unix, also includes the git describe
383  */
384 LWS_VISIBLE LWS_EXTERN const char * LWS_WARN_UNUSED_RESULT
385 lws_get_library_version(void);
386 
387 /**
388  * lws_wsi_user() - get the user data associated with the connection
389  * \param wsi: lws connection
390  *
391  * Not normally needed since it's passed into the callback
392  */
393 LWS_VISIBLE LWS_EXTERN void *
394 lws_wsi_user(struct lws *wsi);
395 
396 /**
397  * lws_wsi_tsi() - get the service thread index the wsi is bound to
398  * \param wsi: lws connection
399  *
400  * Only useful is LWS_MAX_SMP > 1
401  */
402 LWS_VISIBLE LWS_EXTERN int
403 lws_wsi_tsi(struct lws *wsi);
404 
405 /**
406  * lws_set_wsi_user() - set the user data associated with the client connection
407  * \param wsi: lws connection
408  * \param user: user data
409  *
410  * By default lws allocates this and it's not legal to externally set it
411  * yourself.  However client connections may have it set externally when the
412  * connection is created... if so, this api can be used to modify it at
413  * runtime additionally.
414  */
415 LWS_VISIBLE LWS_EXTERN void
416 lws_set_wsi_user(struct lws *wsi, void *user);
417 
418 /**
419  * lws_parse_uri:	cut up prot:/ads:port/path into pieces
420  *			Notice it does so by dropping '\0' into input string
421  *			and the leading / on the path is consequently lost
422  *
423  * \param p:			incoming uri string.. will get written to
424  * \param prot:		result pointer for protocol part (https://)
425  * \param ads:		result pointer for address part
426  * \param port:		result pointer for port part
427  * \param path:		result pointer for path part
428  *
429  * You may also refer to unix socket addresses, using a '+' at the start of
430  * the address.  In this case, the address should end with ':', which is
431  * treated as the separator between the address and path (the normal separator
432  * '/' is a valid part of the socket path).  Eg,
433  *
434  * http://+/var/run/mysocket:/my/path
435  *
436  * If the first character after the + is '@', it's interpreted by lws client
437  * processing as meaning to use linux abstract namespace sockets, the @ is
438  * replaced with a '\0' before use.
439  */
440 LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT
441 lws_parse_uri(char *p, const char **prot, const char **ads, int *port,
442 	      const char **path);
443 /**
444  * lws_cmdline_option():	simple commandline parser
445  *
446  * \param argc:		count of argument strings
447  * \param argv:		argument strings
448  * \param val:		string to find
449  *
450  * Returns NULL if the string \p val is not found in the arguments.
451  *
452  * If it is found, then it returns a pointer to the next character after \p val.
453  * So if \p val is "-d", then for the commandlines "myapp -d15" and
454  * "myapp -d 15", in both cases the return will point to the "15".
455  *
456  * In the case there is no argument, like "myapp -d", the return will
457  * either point to the '\\0' at the end of -d, or to the start of the
458  * next argument, ie, will be non-NULL.
459  */
460 LWS_VISIBLE LWS_EXTERN const char *
461 lws_cmdline_option(int argc, const char **argv, const char *val);
462 
463 /**
464  * lws_cmdline_option_handle_builtin(): apply standard cmdline options
465  *
466  * \param argc:		count of argument strings
467  * \param argv:		argument strings
468  * \param info:		context creation info
469  *
470  * Applies standard options to the context creation info to save them having
471  * to be (unevenly) copied into the minimal examples.
472  *
473  * Applies default log levels that can be overriden by -d
474  */
475 LWS_VISIBLE LWS_EXTERN void
476 lws_cmdline_option_handle_builtin(int argc, const char **argv,
477 				  struct lws_context_creation_info *info);
478 
479 /**
480  * lws_now_secs(): return seconds since 1970-1-1
481  */
482 LWS_VISIBLE LWS_EXTERN unsigned long
483 lws_now_secs(void);
484 
485 /**
486  * lws_now_usecs(): return useconds since 1970-1-1
487  */
488 LWS_VISIBLE LWS_EXTERN lws_usec_t
489 lws_now_usecs(void);
490 
491 /**
492  * lws_get_context - Allow getting lws_context from a Websocket connection
493  * instance
494  *
495  * With this function, users can access context in the callback function.
496  * Otherwise users may have to declare context as a global variable.
497  *
498  * \param wsi:	Websocket connection instance
499  */
500 LWS_VISIBLE LWS_EXTERN struct lws_context * LWS_WARN_UNUSED_RESULT
501 lws_get_context(const struct lws *wsi);
502 
503 /**
504  * lws_get_vhost_listen_port - Find out the port number a vhost is listening on
505  *
506  * In the case you passed 0 for the port number at context creation time, you
507  * can discover the port number that was actually chosen for the vhost using
508  * this api.
509  *
510  * \param vhost:	Vhost to get listen port from
511  */
512 LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT
513 lws_get_vhost_listen_port(struct lws_vhost *vhost);
514 
515 /**
516  * lws_get_count_threads(): how many service threads the context uses
517  *
518  * \param context: the lws context
519  *
520  * By default this is always 1, if you asked for more than lws can handle it
521  * will clip the number of threads.  So you can use this to find out how many
522  * threads are actually in use.
523  */
524 LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT
525 lws_get_count_threads(struct lws_context *context);
526 
527 /**
528  * lws_get_parent() - get parent wsi or NULL
529  * \param wsi: lws connection
530  *
531  * Specialized wsi like cgi stdin/out/err are associated to a parent wsi,
532  * this allows you to get their parent.
533  */
534 LWS_VISIBLE LWS_EXTERN struct lws * LWS_WARN_UNUSED_RESULT
535 lws_get_parent(const struct lws *wsi);
536 
537 /**
538  * lws_get_child() - get child wsi or NULL
539  * \param wsi: lws connection
540  *
541  * Allows you to find a related wsi from the parent wsi.
542  */
543 LWS_VISIBLE LWS_EXTERN struct lws * LWS_WARN_UNUSED_RESULT
544 lws_get_child(const struct lws *wsi);
545 
546 /**
547  * lws_get_effective_uid_gid() - find out eventual uid and gid while still root
548  *
549  * \param context: lws context
550  * \param uid: pointer to uid result
551  * \param gid: pointer to gid result
552  *
553  * This helper allows you to find out what the uid and gid for the process will
554  * be set to after the privileges are dropped, beforehand.  So while still root,
555  * eg in LWS_CALLBACK_PROTOCOL_INIT, you can arrange things like cache dir
556  * and subdir creation / permissions down /var/cache dynamically.
557  */
558 LWS_VISIBLE LWS_EXTERN void
559 lws_get_effective_uid_gid(struct lws_context *context, uid_t *uid, gid_t *gid);
560 
561 /**
562  * lws_get_udp() - get wsi's udp struct
563  *
564  * \param wsi: lws connection
565  *
566  * Returns NULL or pointer to the wsi's UDP-specific information
567  */
568 LWS_VISIBLE LWS_EXTERN const struct lws_udp * LWS_WARN_UNUSED_RESULT
569 lws_get_udp(const struct lws *wsi);
570 
571 LWS_VISIBLE LWS_EXTERN void *
572 lws_get_opaque_parent_data(const struct lws *wsi);
573 
574 LWS_VISIBLE LWS_EXTERN void
575 lws_set_opaque_parent_data(struct lws *wsi, void *data);
576 
577 LWS_VISIBLE LWS_EXTERN void *
578 lws_get_opaque_user_data(const struct lws *wsi);
579 
580 LWS_VISIBLE LWS_EXTERN void
581 lws_set_opaque_user_data(struct lws *wsi, void *data);
582 
583 LWS_VISIBLE LWS_EXTERN int
584 lws_get_child_pending_on_writable(const struct lws *wsi);
585 
586 LWS_VISIBLE LWS_EXTERN void
587 lws_clear_child_pending_on_writable(struct lws *wsi);
588 
589 LWS_VISIBLE LWS_EXTERN int
590 lws_get_close_length(struct lws *wsi);
591 
592 LWS_VISIBLE LWS_EXTERN unsigned char *
593 lws_get_close_payload(struct lws *wsi);
594 
595 /**
596  * lws_get_network_wsi() - Returns wsi that has the tcp connection for this wsi
597  *
598  * \param wsi: wsi you have
599  *
600  * Returns wsi that has the tcp connection (which may be the incoming wsi)
601  *
602  * HTTP/1 connections will always return the incoming wsi
603  * HTTP/2 connections may return a different wsi that has the tcp connection
604  */
605 LWS_VISIBLE LWS_EXTERN
606 struct lws *lws_get_network_wsi(struct lws *wsi);
607 
608 /**
609  * lws_set_allocator() - custom allocator support
610  *
611  * \param realloc
612  *
613  * Allows you to replace the allocator (and deallocator) used by lws
614  */
615 LWS_VISIBLE LWS_EXTERN void
616 lws_set_allocator(void *(*realloc)(void *ptr, size_t size, const char *reason));
617 
618 enum {
619 	/*
620 	 * Flags for enable and disable rxflow with reason bitmap and with
621 	 * backwards-compatible single bool
622 	 */
623 	LWS_RXFLOW_REASON_USER_BOOL		= (1 << 0),
624 	LWS_RXFLOW_REASON_HTTP_RXBUFFER		= (1 << 6),
625 	LWS_RXFLOW_REASON_H2_PPS_PENDING	= (1 << 7),
626 
627 	LWS_RXFLOW_REASON_APPLIES		= (1 << 14),
628 	LWS_RXFLOW_REASON_APPLIES_ENABLE_BIT	= (1 << 13),
629 	LWS_RXFLOW_REASON_APPLIES_ENABLE	= LWS_RXFLOW_REASON_APPLIES |
630 						  LWS_RXFLOW_REASON_APPLIES_ENABLE_BIT,
631 	LWS_RXFLOW_REASON_APPLIES_DISABLE	= LWS_RXFLOW_REASON_APPLIES,
632 	LWS_RXFLOW_REASON_FLAG_PROCESS_NOW	= (1 << 12),
633 
634 };
635 
636 /**
637  * lws_rx_flow_control() - Enable and disable socket servicing for
638  *				received packets.
639  *
640  * If the output side of a server process becomes choked, this allows flow
641  * control for the input side.
642  *
643  * \param wsi:	Websocket connection instance to get callback for
644  * \param enable:	0 = disable read servicing for this connection, 1 = enable
645  *
646  * If you need more than one additive reason for rxflow control, you can give
647  * iLWS_RXFLOW_REASON_APPLIES_ENABLE or _DISABLE together with one or more of
648  * b5..b0 set to idicate which bits to enable or disable.  If any bits are
649  * enabled, rx on the connection is suppressed.
650  *
651  * LWS_RXFLOW_REASON_FLAG_PROCESS_NOW  flag may also be given to force any change
652  * in rxflowbstatus to benapplied immediately, this should be used when you are
653  * changing a wsi flow control state from outside a callback on that wsi.
654  */
655 LWS_VISIBLE LWS_EXTERN int
656 lws_rx_flow_control(struct lws *wsi, int enable);
657 
658 /**
659  * lws_rx_flow_allow_all_protocol() - Allow all connections with this protocol to receive
660  *
661  * When the user server code realizes it can accept more input, it can
662  * call this to have the RX flow restriction removed from all connections using
663  * the given protocol.
664  * \param context:	lws_context
665  * \param protocol:	all connections using this protocol will be allowed to receive
666  */
667 LWS_VISIBLE LWS_EXTERN void
668 lws_rx_flow_allow_all_protocol(const struct lws_context *context,
669 			       const struct lws_protocols *protocol);
670 
671 /**
672  * lws_remaining_packet_payload() - Bytes to come before "overall"
673  *					      rx fragment is complete
674  * \param wsi:		Websocket instance (available from user callback)
675  *
676  * This tracks how many bytes are left in the current ws fragment, according
677  * to the ws length given in the fragment header.
678  *
679  * If the message was in a single fragment, and there is no compression, this
680  * is the same as "how much data is left to read for this message".
681  *
682  * However, if the message is being sent in multiple fragments, this will
683  * reflect the unread amount of the current **fragment**, not the message.  With
684  * ws, it is legal to not know the length of the message before it completes.
685  *
686  * Additionally if the message is sent via the negotiated permessage-deflate
687  * extension, this number only tells the amount of **compressed** data left to
688  * be read, since that is the only information available at the ws layer.
689  */
690 LWS_VISIBLE LWS_EXTERN size_t
691 lws_remaining_packet_payload(struct lws *wsi);
692 
693 #if defined(LWS_WITH_DIR)
694 
695 typedef enum {
696 	LDOT_UNKNOWN,
697 	LDOT_FILE,
698 	LDOT_DIR,
699 	LDOT_LINK,
700 	LDOT_FIFO,
701 	LDOTT_SOCKET,
702 	LDOT_CHAR,
703 	LDOT_BLOCK
704 } lws_dir_obj_type_t;
705 
706 struct lws_dir_entry {
707 	const char *name;
708 	lws_dir_obj_type_t type;
709 };
710 
711 typedef int
712 lws_dir_callback_function(const char *dirpath, void *user,
713 			  struct lws_dir_entry *lde);
714 
715 /**
716  * lws_dir() - get a callback for everything in a directory
717  *
718  * \param dirpath: the directory to scan
719  * \param user: pointer to give to callback
720  * \param cb: callback to receive information on each file or dir
721  *
722  * Calls \p cb (with \p user) for every object in dirpath.
723  *
724  * This wraps whether it's using POSIX apis, or libuv (as needed for windows,
725  * since it refuses to support POSIX apis for this).
726  */
727 LWS_VISIBLE LWS_EXTERN int
728 lws_dir(const char *dirpath, void *user, lws_dir_callback_function cb);
729 
730 /**
731  * lws_dir_rm_rf_cb() - callback for lws_dir that performs recursive rm -rf
732  *
733  * \param dirpath: directory we are at in lws_dir
734  * \param user: ignored
735  * \param lde: lws_dir info on the file or directory we are at
736  *
737  * This is a readymade rm -rf callback for use with lws_dir.  It recursively
738  * removes everything below the starting dir and then the starting dir itself.
739  * Works on linux, OSX and Windows at least.
740  */
741 LWS_VISIBLE LWS_EXTERN int
742 lws_dir_rm_rf_cb(const char *dirpath, void *user, struct lws_dir_entry *lde);
743 
744 /*
745  * We pass every file in the base dir through a filter, and call back on the
746  * ones that match.  Directories are ignored.
747  *
748  * The original path filter string may look like, eg, "sai-*.deb" or "*.txt"
749  */
750 
751 typedef int (*lws_dir_glob_cb_t)(void *data, const char *path);
752 
753 typedef struct lws_dir_glob {
754 	const char		*filter;
755 	lws_dir_glob_cb_t	cb;
756 	void			*user;
757 } lws_dir_glob_t;
758 
759 /**
760  * lws_dir_glob_cb() - callback for lws_dir that performs filename globbing
761  *
762  * \param dirpath: directory we are at in lws_dir
763  * \param user: pointer to your prepared lws_dir_glob_cb_t
764  * \param lde: lws_dir info on the file or directory we are at
765  *
766  * \p user is prepared with an `lws_dir_glob_t` containing a callback for paths
767  * that pass the filtering, a user pointer to pass to that callback, and a
768  * glob string like "*.txt".  It may not contain directories, the lws_dir musr
769  * be started at the correct dir.
770  *
771  * Only the base path passed to lws_dir is scanned, it does not look in subdirs.
772  */
773 LWS_VISIBLE LWS_EXTERN int
774 lws_dir_glob_cb(const char *dirpath, void *user, struct lws_dir_entry *lde);
775 
776 #endif
777 
778 /**
779  * lws_get_allocated_heap() - if the platform supports it, returns amount of
780  *				heap allocated by lws itself
781  *
782  * On glibc currently, this reports the total amount of current logical heap
783  * allocation, found by tracking the amount allocated by lws_malloc() and
784  * friends and accounting for freed allocations via lws_free().
785  *
786  * This is useful for confirming where processwide heap allocations actually
787  * come from... this number represents all lws internal allocations, for
788  * fd tables, wsi allocations, ah, etc combined.  It doesn't include allocations
789  * from user code, since lws_malloc() etc are not exported from the library.
790  *
791  * On other platforms, it always returns 0.
792  */
793 size_t lws_get_allocated_heap(void);
794 
795 /**
796  * lws_get_tsi() - Get thread service index wsi belong to
797  * \param wsi:  websocket connection to check
798  *
799  * Returns more than zero (or zero if only one service thread as is the default).
800  */
801 LWS_VISIBLE LWS_EXTERN int
802 lws_get_tsi(struct lws *wsi);
803 
804 /**
805  * lws_is_ssl() - Find out if connection is using SSL
806  * \param wsi:	websocket connection to check
807  *
808  * Returns nonzero if the wsi is inside a tls tunnel, else zero.
809  */
810 LWS_VISIBLE LWS_EXTERN int
811 lws_is_ssl(struct lws *wsi);
812 /**
813  * lws_is_cgi() - find out if this wsi is running a cgi process
814  *
815  * \param wsi: lws connection
816  */
817 LWS_VISIBLE LWS_EXTERN int
818 lws_is_cgi(struct lws *wsi);
819 
820 /**
821  * lws_tls_jit_trust_blob_queury_skid() - walk jit trust blob for skid
822  *
823  * \param _blob: the start of the blob in memory
824  * \param blen: the length of the blob in memory
825  * \param skid: the SKID we are looking for
826  * \param skid_len: the length of the SKID we are looking for
827  * \param prpder: result pointer to receive a pointer to the matching DER
828  * \param prder_len: result pointer to receive matching DER length
829  *
830  * Helper to scan a JIT Trust blob in memory for a trusted CA cert matching
831  * a given SKID.  Returns 0 if found and *prpder and *prder_len are set, else
832  * nonzero.
833  */
834 LWS_VISIBLE LWS_EXTERN int
835 lws_tls_jit_trust_blob_queury_skid(const void *_blob, size_t blen,
836 				   const uint8_t *skid, size_t skid_len,
837 				   const uint8_t **prpder, size_t *prder_len);
838 
839 /**
840  * lws_open() - platform-specific wrapper for open that prepares the fd
841  *
842  * \param __file: the filepath to open
843  * \param __oflag: option flags
844  *
845  * This is a wrapper around platform open() that sets options on the fd
846  * according to lws policy.  Currently that is FD_CLOEXEC to stop the opened
847  * fd being available to any child process forked by user code.
848  */
849 LWS_VISIBLE LWS_EXTERN int
850 lws_open(const char *__file, int __oflag, ...);
851 
852 struct lws_wifi_scan { /* generic wlan scan item */
853 	struct lws_wifi_scan *next;
854 	char ssid[32];
855 	int32_t rssi; /* divide by .count to get db */
856 	uint8_t bssid[6];
857 	uint8_t count;
858 	uint8_t channel;
859 	uint8_t authmode;
860 };
861 
862 #if defined(LWS_WITH_TLS) && !defined(LWS_WITH_MBEDTLS)
863 /**
864  * lws_get_ssl() - Return wsi's SSL context structure
865  * \param wsi:	websocket connection
866  *
867  * Returns pointer to the SSL library's context structure
868  */
869 LWS_VISIBLE LWS_EXTERN SSL*
870 lws_get_ssl(struct lws *wsi);
871 #endif
872 
873 LWS_VISIBLE LWS_EXTERN void
874 lws_explicit_bzero(void *p, size_t len);
875 
876 typedef struct lws_humanize_unit {
877 	const char *name; /* array ends with NULL name */
878 	uint64_t factor;
879 } lws_humanize_unit_t;
880 
881 LWS_VISIBLE extern const lws_humanize_unit_t humanize_schema_si[7];
882 LWS_VISIBLE extern const lws_humanize_unit_t humanize_schema_si_bytes[7];
883 LWS_VISIBLE extern const lws_humanize_unit_t humanize_schema_us[8];
884 
885 /**
886  * lws_humanize() - Convert possibly large number to human-readable uints
887  *
888  * \param buf: result string buffer
889  * \param len: remaining length in \p buf
890  * \param value: the uint64_t value to represent
891  * \param schema: and array of scaling factors and units
892  *
893  * This produces a concise string representation of \p value, referencing the
894  * schema \p schema of scaling factors and units to find the smallest way to
895  * render it.
896  *
897  * Three schema are exported from lws for general use, humanize_schema_si, which
898  * represents as, eg, "  22.130Gi" or " 128      "; humanize_schema_si_bytes
899  * which is the same but shows, eg, "  22.130GiB", and humanize_schema_us,
900  * which represents a count of us as a human-readable time like "  14.350min",
901  * or "  1.500d".
902  *
903  * You can produce your own schema.
904  */
905 
906 LWS_VISIBLE LWS_EXTERN int
907 lws_humanize(char *buf, size_t len, uint64_t value,
908 	     const lws_humanize_unit_t *schema);
909 
910 LWS_VISIBLE LWS_EXTERN void
911 lws_ser_wu16be(uint8_t *b, uint16_t u);
912 
913 LWS_VISIBLE LWS_EXTERN void
914 lws_ser_wu32be(uint8_t *b, uint32_t u32);
915 
916 LWS_VISIBLE LWS_EXTERN void
917 lws_ser_wu64be(uint8_t *b, uint64_t u64);
918 
919 LWS_VISIBLE LWS_EXTERN uint16_t
920 lws_ser_ru16be(const uint8_t *b);
921 
922 LWS_VISIBLE LWS_EXTERN uint32_t
923 lws_ser_ru32be(const uint8_t *b);
924 
925 LWS_VISIBLE LWS_EXTERN uint64_t
926 lws_ser_ru64be(const uint8_t *b);
927 
928 LWS_VISIBLE LWS_EXTERN int
929 lws_vbi_encode(uint64_t value, void *buf);
930 
931 LWS_VISIBLE LWS_EXTERN int
932 lws_vbi_decode(const void *buf, uint64_t *value, size_t len);
933 
934 ///@}
935 
936 #if defined(LWS_WITH_SPAWN)
937 
938 /* opaque internal struct */
939 struct lws_spawn_piped;
940 
941 #if defined(WIN32)
942 struct _lws_siginfo_t {
943 	int retcode;
944 };
945 typedef struct _lws_siginfo_t siginfo_t;
946 #endif
947 
948 typedef void (*lsp_cb_t)(void *opaque, lws_usec_t *accounting, siginfo_t *si,
949 			 int we_killed_him);
950 
951 
952 /**
953  * lws_spawn_piped_info - details given to create a spawned pipe
954  *
955  * \p owner: lws_dll2_owner_t that lists all active spawns, or NULL
956  * \p vh: vhost to bind stdwsi to... from opt_parent if given
957  * \p opt_parent: optional parent wsi for stdwsi
958  * \p exec_array: argv for process to spawn
959  * \p env_array: environment for spawned process, NULL ends env list
960  * \p protocol_name: NULL, or vhost protocol name to bind stdwsi to
961  * \p chroot_path: NULL, or chroot patch for child process
962  * \p wd: working directory to cd to after fork, NULL defaults to /tmp
963  * \p plsp: NULL, or pointer to the outer lsp pointer so it can be set NULL when destroyed
964  * \p opaque: pointer passed to the reap callback, if any
965  * \p timeout: optional us-resolution timeout, or zero
966  * \p reap_cb: callback when child process has been reaped and the lsp destroyed
967  * \p tsi: tsi to bind stdwsi to... from opt_parent if given
968  */
969 struct lws_spawn_piped_info {
970 	struct lws_dll2_owner		*owner;
971 	struct lws_vhost		*vh;
972 	struct lws			*opt_parent;
973 
974 	const char * const		*exec_array;
975 	const char			**env_array;
976 	const char			*protocol_name;
977 	const char			*chroot_path;
978 	const char			*wd;
979 
980 	struct lws_spawn_piped		**plsp;
981 
982 	void				*opaque;
983 
984 	lsp_cb_t			reap_cb;
985 
986 	lws_usec_t			timeout_us;
987 	int				max_log_lines;
988 	int				tsi;
989 
990 	const struct lws_role_ops	*ops; /* NULL is raw file */
991 
992 	uint8_t				disable_ctrlc;
993 };
994 
995 /**
996  * lws_spawn_piped() - spawn a child process with stdxxx redirected
997  *
998  * \p lspi: info struct describing details of spawn to create
999  *
1000  * This spawns a child process managed in the lsp object and with attributes
1001  * set in the arguments.  The stdin/out/err streams are redirected to pipes
1002  * which are instantiated into wsi that become child wsi of \p parent if non-
1003  * NULL.  .opaque_user_data on the stdwsi created is set to point to the
1004  * lsp object, so this can be recovered easily in the protocol handler.
1005  *
1006  * If \p owner is non-NULL, successful spawns join the given dll2 owner in the
1007  * original process.
1008  *
1009  * If \p timeout is non-zero, successful spawns register a sul with the us-
1010  * resolution timeout to callback \p timeout_cb, in the original process.
1011  *
1012  * Returns 0 if the spawn went OK or nonzero if it failed and was cleaned up.
1013  * The spawned process continues asynchronously and this will return after
1014  * starting it if all went well.
1015  */
1016 LWS_VISIBLE LWS_EXTERN struct lws_spawn_piped *
1017 lws_spawn_piped(const struct lws_spawn_piped_info *lspi);
1018 
1019 /*
1020  * lws_spawn_piped_kill_child_process() - attempt to kill child process
1021  *
1022  * \p lsp: child object to kill
1023  *
1024  * Attempts to signal the child process in \p lsp to terminate.
1025  */
1026 LWS_VISIBLE LWS_EXTERN int
1027 lws_spawn_piped_kill_child_process(struct lws_spawn_piped *lsp);
1028 
1029 /**
1030  * lws_spawn_stdwsi_closed() - inform the spawn one of its stdxxx pipes closed
1031  *
1032  * \p lsp: the spawn object
1033  * \p wsi: the wsi that is closing
1034  *
1035  * When you notice one of the spawn stdxxx pipes closed, inform the spawn
1036  * instance using this api.  When it sees all three have closed, it will
1037  * automatically try to reap the child process.
1038  *
1039  * This is the mechanism whereby the spawn object can understand its child
1040  * has closed.
1041  */
1042 LWS_VISIBLE LWS_EXTERN void
1043 lws_spawn_stdwsi_closed(struct lws_spawn_piped *lsp, struct lws *wsi);
1044 
1045 /**
1046  * lws_spawn_get_stdfd() - return std channel index for stdwsi
1047  *
1048  * \p wsi: the wsi
1049  *
1050  * If you know wsi is a stdwsi from a spawn, you can determine its original
1051  * channel index / fd before the pipes replaced the default fds.  It will return
1052  * one of 0 (STDIN), 1 (STDOUT) or 2 (STDERR).  You can handle all three in the
1053  * same protocol handler and then disambiguate them using this api.
1054  */
1055 LWS_VISIBLE LWS_EXTERN int
1056 lws_spawn_get_stdfd(struct lws *wsi);
1057 
1058 #endif
1059 
1060 struct lws_fsmount {
1061 	const char	*layers_path;	/* where layers live */
1062 	const char	*overlay_path;	/* where overlay instantiations live */
1063 
1064 	char		mp[256];	/* mountpoint path */
1065 	char		ovname[64];	/* unique name for mount instance */
1066 	char		distro[64];	/* unique name for layer source */
1067 
1068 #if defined(__linux__)
1069 	const char	*layers[4];	/* distro layers, like "base", "env" */
1070 #endif
1071 };
1072 
1073 /**
1074  * lws_fsmount_mount() - Mounts an overlayfs stack of layers
1075  *
1076  * \p fsm: struct lws_fsmount specifying the mount layout
1077  *
1078  * This api is able to assemble up to 4 layer directories on to a mountpoint
1079  * using overlayfs mount (Linux only).
1080  *
1081  * Set fsm.layers_path to the base dir where the layers themselves live, the
1082  * entries in fsm.layers[] specifies the relative path to the layer, comprising
1083  * fsm.layers_path/fsm.distro/fsm.layers[], with [0] being the deepest, earliest
1084  * layer and the rest being progressively on top of [0]; NULL indicates the
1085  * layer is unused.
1086  *
1087  * fsm.overlay_path is the base path of the overlayfs instantiations... empty
1088  * dirs must exist at
1089  *
1090  * fsm.overlay_path/overlays/fsm.ovname/work
1091  * fsm.overlay_path/overlays/fsm.ovname/session
1092  *
1093  * Set fsm.mp to the path of an already-existing empty dir that will be the
1094  * mountpoint, this can be whereever you like.
1095  *
1096  * Overlayfs merges the union of all the contributing layers at the mountpoint,
1097  * the mount is writeable but the layer themselves are immutable, all additions
1098  * and changes are stored in
1099  *
1100  * fsm.overlay_path/overlays/fsm.ovname/session
1101  *
1102  * Returns 0 if mounted OK, nonzero if errors.
1103  *
1104  * Retain fsm for use with unmounting.
1105  */
1106 LWS_VISIBLE LWS_EXTERN int
1107 lws_fsmount_mount(struct lws_fsmount *fsm);
1108 
1109 /**
1110  * lws_fsmount_unmount() - Unmounts an overlayfs dir
1111  *
1112  * \p fsm: struct lws_fsmount specifying the mount layout
1113  *
1114  * Unmounts the mountpoint in fsm.mp.
1115  *
1116  * Delete fsm.overlay_path/overlays/fsm.ovname/session to permanently eradicate
1117  * all changes from the time the mountpoint was in use.
1118  *
1119  * Returns 0 if unmounted OK.
1120  */
1121 LWS_VISIBLE LWS_EXTERN int
1122 lws_fsmount_unmount(struct lws_fsmount *fsm);
1123