binder.c

Bug Summary

File:	d/binder.c
Warning:	line 807, column 5 Duplicate code detected
Note:	line 820, column 5 Similar code here

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-unknown-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name binder.c -analyzer-store=region -analyzer-opt-analyze-nested-blocks -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -fhalf-no-semantic-interposition -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fcoverage-compilation-dir=/home/isvv/naviserver/nsd -resource-dir /usr/local/lib/clang/15.0.0 -D _FORTIFY_SOURCE=2 -D NDEBUG -D SYSTEM_MALLOC -I ../include -I /usr/include/tcl8.6 -D HAVE_CONFIG_H -internal-isystem /usr/local/lib/clang/15.0.0/include -internal-isystem /usr/local/include -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/11/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -O2 -std=c99 -fdebug-compilation-dir=/home/isvv/naviserver/nsd -ferror-limit 19 -stack-protector 2 -fgnuc-version=4.2.1 -vectorize-loops -vectorize-slp -analyzer-checker alpha -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /tmp/scan-build-2022-07-23-130959-11103-1 -x c binder.c

1	/*
2	* The contents of this file are subject to the Mozilla Public License
3	* Version 1.1 (the "License"); you may not use this file except in
4	* compliance with the License. You may obtain a copy of the License at
5	* http://mozilla.org/.
6	*
7	* Software distributed under the License is distributed on an "AS IS"
8	* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
9	* the License for the specific language governing rights and limitations
10	* under the License.
11	*
12	* The Original Code is AOLserver Code and related documentation
13	* distributed by AOL.
14	*
15	* The Initial Developer of the Original Code is America Online,
16	* Inc. Portions created by AOL are Copyright (C) 1999 America Online,
17	* Inc. All Rights Reserved.
18	*
19	* Alternatively, the contents of this file may be used under the terms
20	* of the GNU General Public License (the "GPL"), in which case the
21	* provisions of GPL are applicable instead of those above. If you wish
22	* to allow use of your version of this file only under the terms of the
23	* GPL and not to allow others to use your version of this file under the
24	* License, indicate your decision by deleting the provisions above and
25	* replace them with the notice and other provisions required by the GPL.
26	* If you do not delete the provisions above, a recipient may use your
27	* version of this file under either the License or the GPL.
28	*/
29
30
31	/*
32	* binder.c --
33	*
34	* Support for pre-bound privileged ports for Unix
35	*/
36
37	#include "nsd.h"
38
39	#ifndef _WIN32
40	# include <sys/un.h>
41	# include <sys/uio.h>
42
43	# define REQUEST_SIZE(sizeof(int) + sizeof(int) + sizeof(int) + 46) (sizeof(int) + sizeof(int) + sizeof(int) + NS_IPADDR_SIZE46)
44	# define RESPONSE_SIZE(sizeof(int)) (sizeof(int))
45
46	typedef struct Prebind {
47	size_t count;
48	NS_SOCKETint sockets[1];
49	} Prebind;
50
51	#endif
52
53	/*
54	* Local variables defined in this file
55	*/
56
57	static Ns_Mutex lock = NULL((void*)0);
58	static Tcl_HashTable preboundTcp;
59	static Tcl_HashTable preboundUdp;
60	static Tcl_HashTable preboundRaw;
61	static Tcl_HashTable preboundUnix;
62
63	static bool_Bool binderRunning = NS_FALSE0;
64	static NS_SOCKETint binderRequest[2] = { NS_INVALID_SOCKET(-1), NS_INVALID_SOCKET(-1) };
65	static NS_SOCKETint binderResponse[2] = { NS_INVALID_SOCKET(-1), NS_INVALID_SOCKET(-1) };
66
67	/*
68	* Local functions defined in this file
69	*/
70	#ifndef _WIN32
71	static Ns_ReturnCode PrebindSockets(const char *spec)
72	NS_GNUC_NONNULL(1)__attribute__((__nonnull__(1)));
73
74	static void Binder(void);
75
76	static struct Prebind* PrebindAlloc(const char proto, size_t reuses, struct sockaddr saPtr)
77	NS_GNUC_NONNULL(1)__attribute__((__nonnull__(1))) NS_GNUC_NONNULL(3)__attribute__((__nonnull__(3)));
78
79	static bool_Bool PrebindGet(const char proto, struct sockaddr saPtr, NS_SOCKETint *sockPtr)
80	NS_GNUC_NONNULL(1)__attribute__((__nonnull__(1))) NS_GNUC_NONNULL(2)__attribute__((__nonnull__(2))) NS_GNUC_NONNULL(3)__attribute__((__nonnull__(3)));
81
82	static void PrebindCloseSockets(const char proto, struct sockaddr saPtr, struct Prebind *pPtr)
83	NS_GNUC_NONNULL(1)__attribute__((__nonnull__(1))) NS_GNUC_NONNULL(2)__attribute__((__nonnull__(2))) NS_GNUC_NONNULL(3)__attribute__((__nonnull__(3)));
84	#endif
85
86
87	#ifndef _WIN32
88
89	/*
90	*----------------------------------------------------------------------
91	*
92	* PrebindAlloc --
93	*
94	* Create a Prebind structure with potentially multiple sockets
95	* binding to the identical port. This is needed for e.g. multiple
96	* listeners with SO_REUSEPORT.
97	*
98	* Results:
99	* Either a prebind structure or NULL inc ase of failure.
100	*
101	* Side effects:
102	* Allocating memory, binding of TCP or UDP sockets.
103	*
104	*----------------------------------------------------------------------
105	*/
106	static struct Prebind*
107	PrebindAlloc(const char proto, size_t reuses, struct sockaddr saPtr)
108	{
109	struct Prebind *pPtr;
110
111	NS_NONNULL_ASSERT(proto != NULL)((void) (0));
112	NS_NONNULL_ASSERT(saPtr != NULL)((void) (0));
113
114	pPtr = ns_malloc(sizeof(Prebind) + sizeof(NS_SOCKETint)*reuses-1);
115	if (pPtr != NULL((void*)0)) {
116	bool_Bool reuseport;
117	size_t i;
118
119	pPtr->count = reuses;
120
121	reuseport = (reuses > 1);
122
123	for (i = 0u; i < reuses; i++) {
124	if (*proto == 't') {
125	pPtr->sockets[i] = Ns_SockBind(saPtr, reuseport);
126	} else if (*proto == 'u') {
127	pPtr->sockets[i] = Ns_SockBindUdp(saPtr, reuseport);
128	} else {
129	Ns_Log(Error, "prebind: invalid protocol %s", proto);
130	ns_free(pPtr);
131	pPtr = NULL((void*)0);
132	break;
133	}
134
135	if (pPtr->sockets[i] == NS_INVALID_SOCKET(-1)) {
136	Ns_LogSockaddr(Error, "prebind error on ", (const struct sockaddr *)saPtr);
137	Ns_Log(Error, "prebind error: %s", strerror(errno(*__errno_location ())));
138	if (i == 0) {
139	/*
140	* Could not bind to a single port. Return NULL to
141	* signal an invalid attempt.
142	*/
143	ns_free(pPtr);
144	pPtr = NULL((void*)0);
145	break;
146	}
147	}
148	}
149	}
150	return pPtr;
151	}
152
153
154	/*
155	*----------------------------------------------------------------------
156	*
157	* PrebindGet --
158	*
159	* Get a single socket from the prebind structure. In case of
160	* success, the function returns in its last argument the prebound
161	* socket and removes it from the set of available sockets. When
162	* all sockets are consumed the prebind structure is freed and the
163	* hash entry is removed.
164	*
165	* Results:
166	*
167	* NS_TRUE in case, there is a prebind structure for the provided
168	* sockaddr or NS_FALSE on failure.
169	*
170	* Side effects:
171	* Potentially freeing memory.
172	*
173	*----------------------------------------------------------------------
174	*/
175	static bool_Bool
176	PrebindGet(const char proto, struct sockaddr saPtr, NS_SOCKETint *sockPtr)
177	{
178	static Tcl_HashTable *tablePtr;
179	Tcl_HashEntry *hPtr;
180	bool_Bool foundEntry = NS_FALSE0;
181
182	NS_NONNULL_ASSERT(proto != NULL)((void) (0));
183	NS_NONNULL_ASSERT(saPtr != NULL)((void) (0));
184	NS_NONNULL_ASSERT(sockPtr != NULL)((void) (0));
185
186	if (*proto == 't') {
187	tablePtr = &preboundTcp;
188	} else {
189	tablePtr = &preboundUdp;
190	}
191
192	Ns_MutexLock(&lock);
193	hPtr = Tcl_FindHashEntry(tablePtr, (char )saPtr)(((tablePtr)->findProc))(tablePtr, (const char )((char )saPtr));
194	if (hPtr != NULL((void*)0)) {
195	struct Prebind *pPtr;
196	size_t i;
197	bool_Bool allConsumed = NS_TRUE1;
198
199	/*
200	* We found a prebound entry.
201	*/
202	foundEntry = NS_TRUE1;
203
204	pPtr = (struct Prebind *)Tcl_GetHashValue(hPtr)((hPtr)->clientData);
205	for (i = 0u; i < pPtr->count; i++) {
206	/*
207	* Find an entry, which is usable
208	*/
209	if (pPtr->sockets[i] != NS_INVALID_SOCKET(-1)) {
210	*sockPtr = pPtr->sockets[i];
211	pPtr->sockets[i] = NS_INVALID_SOCKET(-1);
212	break;
213	}
214	}
215	if (*sockPtr != NS_INVALID_SOCKET(-1)) {
216	/*
217	* Check, if there are more unconsumed entries.
218	*/
219	for (; i < pPtr->count; i++) {
220	if (pPtr->sockets[i] != NS_INVALID_SOCKET(-1)) {
221	/*
222	* Yes, there are more unconsumed entries.
223	*/
224	allConsumed = NS_FALSE0;
225	break;
226	}
227	}
228	}
229	if (allConsumed) {
230	ns_free(pPtr);
231	Tcl_DeleteHashEntry(hPtr);
232	}
233	}
234	Ns_MutexUnlock(&lock);
235
236	return foundEntry;
237	}
238
239
240	/*
241	*----------------------------------------------------------------------
242	*
243	* PrebindCloseSockets --
244	*
245	* Close the remaining prebound sockets.
246	*
247	* Results:
248	*
249	* None.
250	*
251	* Side effects:
252	* Freeing memory.
253	*
254	*----------------------------------------------------------------------
255	*/
256	static void
257	PrebindCloseSockets(const char proto, struct sockaddr saPtr, struct Prebind *pPtr)
258	{
259	size_t i;
260	unsigned short port;
261	const char *addr;
262	char ipString[NS_IPADDR_SIZE46];
263	int count = 0;
264
265	NS_NONNULL_ASSERT(proto != NULL)((void) (0));
266	NS_NONNULL_ASSERT(saPtr != NULL)((void) (0));
267	NS_NONNULL_ASSERT(pPtr != NULL)((void) (0));
268
269	addr = ns_inet_ntop((struct sockaddr *)saPtr, ipString, sizeof(ipString));
270	port = Ns_SockaddrGetPort((struct sockaddr *)saPtr);
271
272	for (i = 0u; i < pPtr->count; i++) {
273	NS_SOCKETint sock = pPtr->sockets[i];
274
275	if (sock != NS_INVALID_SOCKET(-1)) {
276	count ++;
277	Ns_Log(Debug, "prebind closing %s socket %d\n", proto, sock);
278	(void)ns_sockcloseclose(sock);
279	}
280	}
281	ns_free(pPtr);
282	Ns_Log(Warning, "prebind: closed unused %d %s socket(s): [%s]:%hd",
283	count, proto, addr, port);
284	}
285	#endif
286
287
288	/*
289	*----------------------------------------------------------------------
290	*
291	* Ns_SockListenEx --
292	*
293	* Create a new TCP socket bound to the specified port and
294	* listening for new connections.
295	*
296	* Results:
297	* Socket descriptor or -1 on error.
298	*
299	* Side effects:
300	* None.
301	*
302	*----------------------------------------------------------------------
303	*/
304
305	#ifndef _WIN32
306	NS_SOCKETint
307	Ns_SockListenEx(const char *address, unsigned short port, int backlog, bool_Bool reuseport)
308	{
309	NS_SOCKETint sock = NS_INVALID_SOCKET(-1);
310	struct NS_SOCKADDR_STORAGEsockaddr_storage sa;
311	struct sockaddr saPtr = (struct sockaddr )&sa;
312
313	if (Ns_GetSockAddr(saPtr, address, port) == NS_OK) {
314	bool_Bool found;
315
316	found = PrebindGet("tcp", saPtr, &sock);
317	if (!found) {
318	/*
319	* Prebind did not find a prebound entry, try to bind now.
320	*/
321	sock = Ns_SockBind(saPtr, reuseport);
322	//fprintf(stderr, "listen on port %hd binding with reuseport %d\n", port, reuseport);
323	} else {
324	//fprintf(stderr, "listen on port %hd already prebound\n", port);
325	}
326
327	if (sock != NS_INVALID_SOCKET(-1) && listen(sock, backlog) == -1) {
328	/*
329	* Can't listen; close the opened socket
330	*/
331	ns_sockerrno_t err = ns_sockerrno(*__errno_location ());
332
333	(void)ns_sockcloseclose(sock);
334	errno(*__errno_location ()) = err;
335	sock = NS_INVALID_SOCKET(-1);
336	Ns_SetSockErrno(err);
337	}
338	} else {
339	/*
340	* We could not even get the sockaddr, so make clear, that saPtr
341	* is invalid.
342	*/
343	saPtr = NULL((void*)0);
344	}
345
346	/*
347	* If forked binder is running and we could not allocate socket
348	* directly, try to do it through the binder
349	*/
350	if (sock == NS_INVALID_SOCKET(-1) && binderRunning && saPtr != NULL((void*)0)) {
351	sock = Ns_SockBinderListen('T', address, port, backlog);
352	}
353
354	return sock;
355	}
356	#endif /* _WIN32 */
357
358
359	/*
360	*----------------------------------------------------------------------
361	*
362	* Ns_SockListenUdp --
363	*
364	* Listen on the UDP socket for the given IP address and port. The
365	* given address might be NULL, which implies the unspecified IP
366	* address ("0.0.0.0" or "::").
367	*
368	* Results:
369	* Socket descriptor or -1 on error.
370	*
371	* Side effects:
372	* May create a new socket if none prebound.
373	*
374	*----------------------------------------------------------------------
375	*/
376
377	NS_SOCKETint
378	Ns_SockListenUdp(const char *address, unsigned short port, bool_Bool reuseport)
379	{
380	NS_SOCKETint sock = NS_INVALID_SOCKET(-1);
381	struct NS_SOCKADDR_STORAGEsockaddr_storage sa;
382	struct sockaddr saPtr = (struct sockaddr )&sa;
383
384	if (Ns_GetSockAddr(saPtr, address, port) == NS_OK) {
385	bool_Bool found;
386
387	#ifndef _WIN32
388	found = PrebindGet("udp", saPtr, &sock);
389	#else
390	found = NS_FALSE0;
391	#endif
392	if (!found) {
393	/*
394	* Not prebound, bind now
395	*/
396	sock = Ns_SockBindUdp(saPtr, reuseport);
397	}
398	}
399
400	/*
401	* If forked binder is running and we could not allocate socket
402	* directly, try to do it through the binder
403	*/
404
405	if (sock == NS_INVALID_SOCKET(-1) && binderRunning) {
406	sock = Ns_SockBinderListen('U', address, port, 0);
407	}
408
409	return sock;
410	}
411
412
413	/*
414	*----------------------------------------------------------------------
415	*
416	* Ns_SockListenRaw --
417	*
418	* Listen on the raw socket addressed by the given protocol.
419	*
420	* Results:
421	* Socket descriptor or -1 on error.
422	*
423	* Side effects:
424	* May create a new socket if none prebound.
425	*
426	*----------------------------------------------------------------------
427	*/
428
429	NS_SOCKETint
430	Ns_SockListenRaw(int proto)
431	{
432	NS_SOCKETint sock = NS_INVALID_SOCKET(-1);
433	Tcl_HashEntry *hPtr;
434	Tcl_HashSearch search;
435
436	Ns_MutexLock(&lock);
437	hPtr = Tcl_FirstHashEntry(&preboundRaw, &search);
438	while (hPtr != NULL((void*)0)) {
439	if (proto == PTR2INT(Tcl_GetHashValue(hPtr))((int)(intptr_t)(((hPtr)->clientData)))) {
440	sock = PTR2NSSOCK(Tcl_GetHashKey(&preboundRaw, hPtr))((int)(intptr_t)(((void *) (((&preboundRaw)->keyType == (1) \|\| (&preboundRaw)->keyType == (-1)) ? (hPtr)-> key.oneWordValue : (hPtr)->key.string))));
441	Tcl_DeleteHashEntry(hPtr);
442	break;
443	}
444	hPtr = Tcl_NextHashEntry(&search);
445	}
446	Ns_MutexUnlock(&lock);
447	if (hPtr == NULL((void*)0)) {
448	/*
449	* Not prebound, bind now
450	*/
451	sock = Ns_SockBindRaw(proto);
452	}
453
454	/*
455	* If forked binder is running and we could not allocate socket
456	* directly, try to do it through the binder
457	*/
458
459	if (sock == NS_INVALID_SOCKET(-1) && binderRunning) {
460	sock = Ns_SockBinderListen('R', NULL((void*)0), 0u, proto);
461	}
462
463	return sock;
464	}
465
466
467	/*
468	*----------------------------------------------------------------------
469	*
470	* Ns_SockListenUnix --
471	*
472	* Listen on the Unix-domain socket addressed by the given path.
473	*
474	* Results:
475	* Socket descriptor or -1 on error.
476	*
477	* Side effects:
478	* May create a new socket if none prebound. If backlog is zero,
479	* DGRAM socket will be created otherwise STREAM socket
480	*
481	*----------------------------------------------------------------------
482	*/
483
484	NS_SOCKETint
485	Ns_SockListenUnix(const char *path, int backlog, unsigned short mode)
486	{
487	NS_SOCKETint sock = NS_INVALID_SOCKET(-1);
488	#ifndef _WIN32
489	Tcl_HashEntry *hPtr;
490	Tcl_HashSearch search;
491
492	NS_NONNULL_ASSERT(path != NULL)((void) (0));
493
494	/*
495	* Check if already prebound
496	*/
497	Ns_MutexLock(&lock);
498	hPtr = Tcl_FirstHashEntry(&preboundUnix, &search);
499	while (hPtr != NULL((void*)0)) {
500	const char value = (char) Tcl_GetHashValue(hPtr)((hPtr)->clientData);
501
502	if (STREQ(path, value)((((path)) == ((value))) && (strcmp((path),(value)) == 0))) {
503	sock = PTR2NSSOCK(Tcl_GetHashKey(&preboundRaw, hPtr))((int)(intptr_t)(((void *) (((&preboundRaw)->keyType == (1) \|\| (&preboundRaw)->keyType == (-1)) ? (hPtr)-> key.oneWordValue : (hPtr)->key.string))));
504	Tcl_DeleteHashEntry(hPtr);
505	break;
506	}
507	hPtr = Tcl_NextHashEntry(&search);
508	}
509	Ns_MutexUnlock(&lock);
510
511	if (hPtr == NULL((void*)0)) {
512	/*
513	* Not prebound, bind now
514	*/
515	sock = Ns_SockBindUnix(path, backlog > 0 ? SOCK_STREAMSOCK_STREAM : SOCK_DGRAMSOCK_DGRAM, mode);
516	}
517	if (sock >= 0 && backlog > 0 && listen(sock, backlog) == -1) {
518	/*
519	* Can't listen; close the opened socket
520	*/
521	ns_sockerrno_t err = ns_sockerrno(*__errno_location ());
522
523	(void)ns_sockcloseclose(sock);
524	errno(*__errno_location ()) = err;
525	sock = NS_INVALID_SOCKET(-1);
526	Ns_SetSockErrno(err);
527	}
528
529	/*
530	* If forked binder is running and we could not allocate socket
531	* directly, try to do it through the binder
532	*/
533
534	if (sock == NS_INVALID_SOCKET(-1) && binderRunning) {
535	sock = Ns_SockBinderListen('D', path, mode, backlog);
536	}
537	#endif /* _WIN32 */
538	return sock;
539	}
540
541
542	/*
543	*----------------------------------------------------------------------
544	*
545	* Ns_SockBindUdp --
546	*
547	* Create a UDP socket and bind it to the passed-in address.
548	*
549	* Results:
550	* Socket descriptor or -1 on error.
551	*
552	* Side effects:
553	* None.
554	*
555	*----------------------------------------------------------------------
556	*/
557
558	NS_SOCKETint
559	Ns_SockBindUdp(const struct sockaddr *saPtr, bool_Bool reusePort)
560	{
561	NS_SOCKETint sock;
562	int n = 1;
563
564	NS_NONNULL_ASSERT(saPtr != NULL)((void) (0));
565
566	sock = (NS_SOCKETint)socket((int)saPtr->sa_family, SOCK_DGRAMSOCK_DGRAM, 0);
567
568	if (sock != NS_INVALID_SOCKET(-1)
569	&& (setsockopt(sock, SOL_SOCKET1, SO_REUSEADDR2, (char*)&n, (socklen_t)sizeof(n)) == -1
570	\|\| setsockopt(sock, SOL_SOCKET1, SO_BROADCAST6, (char*)&n, (socklen_t)sizeof(n)) == -1
571	\|\| bind(sock, saPtr, Ns_SockaddrGetSockLen(saPtr)) == -1)
572	) {
573	ns_sockerrno_t err = ns_sockerrno(*__errno_location ());
574
575	(void)ns_sockcloseclose(sock);
576	sock = NS_INVALID_SOCKET(-1);
577	Ns_SetSockErrno(err);
578	} else {
579	#if defined(SO_REUSEPORT15)
580	if (reusePort) {
581	int optval = 1;
582	setsockopt(sock, SOL_SOCKET1, SO_REUSEPORT15, &optval, (socklen_t)sizeof(optval));
583	}
584	#endif
585	}
586
587	return sock;
588	}
589
590
591	/*
592	*----------------------------------------------------------------------
593	*
594	* Ns_SockBindUnix --
595	*
596	* Create a Unix-domain socket and bind it to the passed-in
597	* file path.
598	*
599	* Results:
600	* Socket descriptor or -1 on error.
601	*
602	* Side effects:
603	* None.
604	*
605	*----------------------------------------------------------------------
606	*/
607
608	NS_SOCKETint
609	Ns_SockBindUnix(const char *path, int socktype, unsigned short mode)
610	{
611	#ifdef _WIN32
612	return NS_INVALID_SOCKET(-1);
613	#else
614	NS_SOCKETint sock;
615	struct sockaddr_un addr;
616	size_t pathLength;
617
618	NS_NONNULL_ASSERT(path != NULL)((void) (0));
619	pathLength = strlen(path);
620
621	if (pathLength >= sizeof(addr.sun_path)) {
622	Ns_Log(Error, "provided path exceeds maximum length: %s\n", path);
623	return NS_INVALID_SOCKET(-1);
624	}
625
626	memset(&addr, 0, sizeof(addr));
627	addr.sun_family = AF_UNIX1;
628	memcpy(addr.sun_path, path, pathLength + 1);
629	unlink(path);
630
631	sock = socket(AF_UNIX1, socktype > 0 ? socktype : SOCK_STREAMSOCK_STREAM, 0);
632	/*
633	* There is a small race condition below, since the permissions on
634	* the socket are checked not in an atomic fashion and might be
635	* changed immediately after the bind operation. Unfortunately,
636	* fchmod is not portable.
637	*/
638	if (sock != NS_INVALID_SOCKET(-1)
639	&& (bind(sock, (struct sockaddr *) &addr, sizeof(addr)) == -1
640	\|\| (mode != 0u && chmod(path, mode) == -1))
641	) {
642	ns_sockerrno_t err = errno(*__errno_location ());
643
644	(void)ns_sockcloseclose(sock);
645	sock = NS_INVALID_SOCKET(-1);
646	Ns_SetSockErrno(err);
647	}
648
649	return sock;
650	#endif /* _WIN32 */
651	}
652
653
654	/*
655	*----------------------------------------------------------------------
656	*
657	* Ns_SockBindRaw --
658	*
659	* Create a raw socket. It does not bind, hence the call name
660	* is not entirely correct but is on-pair with other types of
661	* sockets (udp, tcp, unix).
662	*
663	* Results:
664	* Socket descriptor or -1 on error.
665	*
666	* Side effects:
667	* None.
668	*
669	*----------------------------------------------------------------------
670	*/
671
672	NS_SOCKETint
673	Ns_SockBindRaw(int proto)
674	{
675	NS_SOCKETint sock;
676
677	sock = (NS_SOCKETint)socket(AF_INET2, SOCK_RAWSOCK_RAW, proto);
678
679	if (sock == NS_INVALID_SOCKET(-1)) {
680	ns_sockerrno_t err = ns_sockerrno(*__errno_location ());
681
682	Ns_SetSockErrno(err);
683	}
684
685	return sock;
686	}
687
688
689	/*
690	*----------------------------------------------------------------------
691	*
692	* NsInitBinder --
693	*
694	* Initialize the pre-bind tables.
695	*
696	* Results:
697	* None.
698	*
699	* Side effects:
700	* None.
701	*
702	*----------------------------------------------------------------------
703	*/
704
705	void
706	NsInitBinder(void)
707	{
708	Ns_MutexInit(&lock);
709	Ns_MutexSetName(&lock, "binder");
710
711	Tcl_InitHashTable(&preboundTcp, (int)(sizeof(struct NS_SOCKADDR_STORAGEsockaddr_storage) / sizeof(int)));
712	Tcl_InitHashTable(&preboundUdp, (int)(sizeof(struct NS_SOCKADDR_STORAGEsockaddr_storage) / sizeof(int)));
713	Tcl_InitHashTable(&preboundRaw, TCL_ONE_WORD_KEYS(1));
714	Tcl_InitHashTable(&preboundUnix, TCL_STRING_KEYS(0));
715	}
716
717
718	/*
719	*----------------------------------------------------------------------
720	*
721	* NsPreBind --
722	*
723	* Pre-bind any requested ports (called from Ns_Main at startup).
724	*
725	* Results:
726	* None.
727	*
728	* Side effects:
729	* May pre-bind to one or more ports.
730	*
731	*----------------------------------------------------------------------
732	*/
733
734	Ns_ReturnCode
735	NsPreBind(const char args, const char file)
736	{
737	Ns_ReturnCode status = NS_OK;
738
739	#ifndef _WIN32
740
741	if (args != NULL((void*)0)) {
742	status = PrebindSockets(args);
743	}
744
745	/*
746	* Check, if the bind options were provided via file. If so, parse
747	* and interpret it.
748	*/
749	if (status == NS_OK && file != NULL((void*)0)) {
750	Tcl_Channel chan = Tcl_OpenFileChannel(NULL((void*)0), file, "r", 0);
751
752	if (chan == NULL((void*)0)) {
753	Ns_Log(Error, "NsPreBind: can't open file '%s': '%s'", file,
754	strerror(Tcl_GetErrno()));
755	} else {
756	Tcl_DString line;
757
758	Tcl_DStringInit(&line);
759	while (Tcl_Eof(chan) == 0) {
760	Tcl_DStringSetLength(&line, 0);
761	if (Tcl_Gets(chan, &line) > 0) {
762	status = PrebindSockets(Tcl_DStringValue(&line)((&line)->string));
763	if (status != NS_OK) {
764	break;
765	}
766	}
767	}
768	Tcl_DStringFree(&line);
769	Tcl_Close(NULL((void*)0), chan);
770	}
771	}
772	#endif /* _WIN32 */
773	return status;
774	}
775
776
777	/*
778	*----------------------------------------------------------------------
779	*
780	* NsClosePreBound --
781	*
782	* Close remaining pre-bound sockets not consumed by anybody.
783	*
784	* Results:
785	* None.
786	*
787	* Side effects:
788	* Pre-bind hash-tables are cleaned and re-initialized.
789	*
790	*----------------------------------------------------------------------
791	*/
792
793	void
794	NsClosePreBound(void)
795	{
796	#ifndef _WIN32
797	Tcl_HashEntry *hPtr;
798	Tcl_HashSearch search;
799	NS_SOCKETint sock;
800	struct sockaddr *saPtr;
801
802	Ns_MutexLock(&lock);
803
804	/*
805	* Close TCP sockets
806	*/
807	hPtr = Tcl_FirstHashEntry(&preboundTcp, &search);
	Duplicate code detected
808	while (hPtr != NULL((void*)0)) {
809	saPtr = (struct sockaddr )Tcl_GetHashKey(&preboundTcp, hPtr)((void ) (((&preboundTcp)->keyType == (1) \|\| (&preboundTcp )->keyType == (-1)) ? (hPtr)->key.oneWordValue : (hPtr) ->key.string));
810	PrebindCloseSockets("tcp", saPtr, Tcl_GetHashValue(hPtr)((hPtr)->clientData));
811	Tcl_DeleteHashEntry(hPtr);
812	hPtr = Tcl_NextHashEntry(&search);
813	}
814	Tcl_DeleteHashTable(&preboundTcp);
815	Tcl_InitHashTable(&preboundTcp, sizeof(struct NS_SOCKADDR_STORAGEsockaddr_storage)/sizeof(int));
816
817	/*
818	* Close UDP sockets
819	*/
820	hPtr = Tcl_FirstHashEntry(&preboundUdp, &search);
	Similar code here
821	while (hPtr != NULL((void*)0)) {
822	saPtr = (struct sockaddr )Tcl_GetHashKey(&preboundUdp, hPtr)((void ) (((&preboundUdp)->keyType == (1) \|\| (&preboundUdp )->keyType == (-1)) ? (hPtr)->key.oneWordValue : (hPtr) ->key.string));
823	PrebindCloseSockets("udp", saPtr, Tcl_GetHashValue(hPtr)((hPtr)->clientData));
824	Tcl_DeleteHashEntry(hPtr);
825	hPtr = Tcl_NextHashEntry(&search);
826	}
827	Tcl_DeleteHashTable(&preboundUdp);
828	Tcl_InitHashTable(&preboundUdp, sizeof(struct NS_SOCKADDR_STORAGEsockaddr_storage)/sizeof(int));
829
830	/*
831	* Close raw sockets
832	*/
833	hPtr = Tcl_FirstHashEntry(&preboundRaw, &search);
834	while (hPtr != NULL((void*)0)) {
835	int port;
836
837	sock = PTR2NSSOCK(Tcl_GetHashKey(&preboundRaw, hPtr))((int)(intptr_t)(((void *) (((&preboundRaw)->keyType == (1) \|\| (&preboundRaw)->keyType == (-1)) ? (hPtr)-> key.oneWordValue : (hPtr)->key.string))));
838	port = PTR2INT(Tcl_GetHashValue(hPtr))((int)(intptr_t)(((hPtr)->clientData)));
839	Ns_Log(Warning, "prebind: closed unused raw socket: %d = %d",
840	port, sock);
841	(void)ns_sockcloseclose(sock);
842	Tcl_DeleteHashEntry(hPtr);
843	hPtr = Tcl_NextHashEntry(&search);
844	}
845	Tcl_DeleteHashTable(&preboundRaw);
846	Tcl_InitHashTable(&preboundRaw, TCL_ONE_WORD_KEYS(1));
847
848	/*
849	* Close Unix-domain sockets
850	*/
851	hPtr = Tcl_FirstHashEntry(&preboundUnix, &search);
852	while (hPtr != NULL((void*)0)) {
853	const char addr = (char ) Tcl_GetHashKey(&preboundUnix, hPtr)((void *) (((&preboundUnix)->keyType == (1) \|\| (&preboundUnix )->keyType == (-1)) ? (hPtr)->key.oneWordValue : (hPtr) ->key.string));
854
855	sock = PTR2NSSOCK(Tcl_GetHashValue(hPtr))((int)(intptr_t)(((hPtr)->clientData)));
856	Ns_Log(Warning, "prebind: closed unused Unix-domain socket: [%s] %d",
857	addr, sock);
858	(void)ns_sockcloseclose(sock);
859	Tcl_DeleteHashEntry(hPtr);
860	hPtr = Tcl_NextHashEntry(&search);
861	}
862	Tcl_DeleteHashTable(&preboundUnix);
863	Tcl_InitHashTable(&preboundUnix, TCL_STRING_KEYS(0));
864
865	Ns_MutexUnlock(&lock);
866	#endif /* _WIN32 */
867	}
868
869
870	/*
871	*----------------------------------------------------------------------
872	*
873	* PreBind --
874	*
875	* Pre-bind to one or more ports in a comma-separated list:
876	*
877	* addr:port[/protocol][#number]
878	* port[/protocol][#number]
879	* 0/icmp[/count]
880	* /path[\|mode]
881	*
882	* protocol: tcp\|udp
883	* mode: mode bits as used by "chmod" specified as octal value
884	*
885	* Example: nsd -c -b /tmp/foo,localhost:9999/tcp#2,localhost:9998,udp:9997
886	* Results:
887	* None.
888	*
889	* Side effects:
890	* Sockets are left in bound state for later listen
891	* in Ns_SockListen*().
892	*
893	*----------------------------------------------------------------------
894	*/
895	#ifndef _WIN32
896
897	static Ns_ReturnCode
898	PrebindSockets(const char *spec)
899	{
900	Tcl_HashEntry *hPtr;
901	int isNew = 0, specCount = 0;
902	char next, line, *lines;
903	Ns_ReturnCode status = NS_OK;
904	struct NS_SOCKADDR_STORAGEsockaddr_storage sa;
905	struct sockaddr saPtr = (struct sockaddr )&sa;
906
907	NS_NONNULL_ASSERT(spec != NULL)((void) (0));
908
909	line = lines = ns_strdup(spec);
910
911	for (; line != NULL((void*)0); line = next) {
912	const char *proto;
913	char addr, p, str = NULL((void)0), *end;
914	unsigned short port = 0u;
915	long reuses;
916	struct Prebind *pPtr;
917
918	specCount ++;
919	/*
920	* Find the next comma separated token.
921	*/
922	next = strchr(line, INTCHAR(',')((int)((unsigned char)((',')))));
923	if (next != NULL((void*)0)) {
924	*next++ = '\0';
925	}
926
927	/*
928	* Set default proto and addr.
929	*/
930	proto = "tcp";
931	addr = (char *)NS_IP_UNSPECIFIED"::";
932	reuses = 1;
933
934	/*
935	* Parse reuses count
936	*/
937	p = strrchr(line, INTCHAR('#')((int)((unsigned char)(('#')))));
938	if (p != NULL((void*)0)) {
939	*p++ = '\0';
940	reuses = strtol(p, NULL((void*)0), 10);
941	if (reuses < 1) {
942	Ns_Log(Warning, "prebind: ignore invalid number of protoport reuses: '%s'", p);
943	reuses = 1;
944	}
945	}
946
947	/*
948	* Parse "addr:port" or "port"
949	*
950	* addr:port[/protocol][#number]
951	* port[/protocol][#number]
952	* 0/icmp[/count]
953	*/
954	{
955	char *portStr;
956	bool_Bool hostParsedOk = Ns_HttpParseHost2(line, NS_TRUE1, &addr, &portStr, &end);
957
958	if (hostParsedOk && line != end && addr != portStr ) {
959	long l;
960
961	if (portStr != NULL((void*)0)) {
962	l = strtol(portStr, NULL((void*)0), 10);
963	} else {
964	assert(addr != NULL)((void) (0));
965	l = strtol(addr, NULL((void*)0), 10);
966	addr = (char *)NS_IP_UNSPECIFIED"::";
967	}
968	port = (l >= 0) ? (unsigned short)l : 0u;
969
970	/*
971	* Parse protocol
972	*/
973	if (line != '/' && (str = strchr(line, INTCHAR('/')((int)((unsigned char)(('/')))))) != NULL((void)0)) {
974	*str++ = '\0';
975	proto = str;
976	}
977	} else {
978	Ns_Log(Debug, "prebind: line <%s> was not parsed ok, must be UNIX", line);
979	proto = "unix";
980	}
981	/*
982	* Continue parsing after "addr:port\|port"
983	*/
984	line = end;
985	}
986
987	/*
988	* TCP
989	*/
990	Ns_Log(Notice, "prebind: try proto %s addr %s port %d reuses %ld",
991	proto, addr, port, reuses);
992
993	if (STREQ(proto, "tcp")((((proto)) == (("tcp"))) && (strcmp((proto),("tcp" )) == 0)) && port > 0) {
994	if (Ns_GetSockAddr(saPtr, addr, port) != NS_OK) {
995	Ns_Log(Error, "prebind: tcp: invalid address: [%s]:%d", addr, port);
996	continue;
997	}
998	hPtr = Tcl_CreateHashEntry(&preboundTcp, (char ) &sa, &isNew)(((&preboundTcp)->createProc))(&preboundTcp, (const char )((char ) &sa), &isNew);
999	if (isNew == 0) {
1000	Ns_Log(Error, "prebind: tcp: duplicate entry: [%s]:%d",
1001	addr, port);
1002	continue;
1003	}
1004
1005	Ns_LogSockaddr(Notice, "prebind adds", (const struct sockaddr *)saPtr);
1006
1007	pPtr = PrebindAlloc(proto, (size_t)reuses, saPtr);
1008	if (pPtr == NULL((void*)0)) {
1009	Tcl_DeleteHashEntry(hPtr);
1010	status = NS_ERROR;
1011	break;
1012	}
1013	Tcl_SetHashValue(hPtr, pPtr)((hPtr)->clientData = (ClientData) (pPtr));
1014	Ns_Log(Notice, "prebind: tcp: [%s]:%d", addr, port);
1015	}
1016
1017	/*
1018	* UDP
1019	*/
1020	if (STREQ(proto, "udp")((((proto)) == (("udp"))) && (strcmp((proto),("udp" )) == 0)) && port > 0) {
1021	if (Ns_GetSockAddr(saPtr, addr, port) != NS_OK) {
1022	Ns_Log(Error, "prebind: udp: invalid address: [%s]:%d",
1023	addr, port);
1024	continue;
1025	}
1026	hPtr = Tcl_CreateHashEntry(&preboundUdp, (char )saPtr, &isNew)(((&preboundUdp)->createProc))(&preboundUdp, (const char )((char )saPtr), &isNew);
1027	if (isNew == 0) {
1028	Ns_Log(Error, "prebind: udp: duplicate entry: [%s]:%d",
1029	addr, port);
1030	continue;
1031	}
1032	pPtr = PrebindAlloc(proto, (size_t)reuses, saPtr);
1033	if (pPtr == NULL((void*)0)) {
1034	Tcl_DeleteHashEntry(hPtr);
1035	status = NS_ERROR;
1036	break;
1037	}
1038	Tcl_SetHashValue(hPtr, pPtr)((hPtr)->clientData = (ClientData) (pPtr));
1039	Ns_Log(Notice, "prebind: udp: [%s]:%d", addr, port);
1040	}
1041
1042	/*
1043	* ICMP
1044	*
1045	* Example:
1046	* 0/icmp[/count]
1047	*/
1048	if (strncmp(proto, "icmp", 4u) == 0) {
1049	long count = 1;
1050
1051	/*
1052	* Parse count
1053	*/
1054	if (str != NULL((void*)0)) {
1055	str = strchr(str, INTCHAR('/')((int)((unsigned char)(('/')))));
1056	if (str != NULL((void*)0)) {
1057	*(str++) = '\0';
1058	count = strtol(str, NULL((void*)0), 10);
1059	}
1060	}
1061	while (count--) {
1062	NS_SOCKETint sock = Ns_SockBindRaw(IPPROTO_ICMPIPPROTO_ICMP);
1063	if (sock == NS_INVALID_SOCKET(-1)) {
1064	Ns_Log(Error, "prebind: bind error for icmp: %s", strerror(errno(*__errno_location ())));
1065	continue;
1066	}
1067	hPtr = Tcl_CreateHashEntry(&preboundRaw, NSSOCK2PTR(sock), &isNew)(((&preboundRaw)->createProc))(&preboundRaw, (const char )(((void *)(intptr_t)(sock))), &isNew);
1068	if (isNew == 0) {
1069	Ns_Log(Error, "prebind: icmp: duplicate entry");
1070	(void)ns_sockcloseclose(sock);
1071	continue;
1072	}
1073	Tcl_SetHashValue(hPtr, IPPROTO_ICMP)((hPtr)->clientData = (ClientData) (IPPROTO_ICMP));
1074	Ns_Log(Notice, "prebind: icmp: %d", sock);
1075	}
1076	}
1077
1078	/*
1079	* Unix-domain socket
1080	* a line starting with a '/' means: path, which
1081	* implies a unix-domain socket.
1082	*/
1083	if (STREQ(proto, "unix")((((proto)) == (("unix"))) && (strcmp((proto),("unix" )) == 0))) {
1084	if (Ns_PathIsAbsolute(line) == NS_TRUE1) {
1085	unsigned short mode = 0u;
1086	NS_SOCKETint sock;
1087
1088	Ns_Log(Debug, "prebind: Unix-domain socket <%s>\n", line);
1089
1090	/*
1091	* Parse mode
1092	*/
1093	str = strchr(line, INTCHAR('\|')((int)((unsigned char)(('\|')))));
1094	if (str != NULL((void*)0)) {
1095	long l;
1096
1097	*(str++) = '\0';
1098	l = strtol(str, NULL((void*)0), 8);
1099	if (l > 0) {
1100	mode = (unsigned short)l;
1101	} else {
1102	Ns_Log(Error, "prebind: unix: ignore invalid mode value: %s", line);
1103	}
1104	}
1105	hPtr = Tcl_CreateHashEntry(&preboundUnix, (char ) line, &isNew)(((&preboundUnix)->createProc))(&preboundUnix, (const char )((char ) line), &isNew);
1106	if (isNew == 0) {
1107	Ns_Log(Error, "prebind: unix: duplicate entry: %s", line);
1108	continue;
1109	}
1110	sock = Ns_SockBindUnix(line, SOCK_STREAMSOCK_STREAM, mode);
1111	if (sock == NS_INVALID_SOCKET(-1)) {
1112	Ns_Log(Error, "prebind: unix: %s: %s", proto, strerror(errno(*__errno_location ())));
1113	Tcl_DeleteHashEntry(hPtr);
1114	continue;
1115	}
1116	Tcl_SetHashValue(hPtr, NSSOCK2PTR(sock))((hPtr)->clientData = (ClientData) (((void *)(intptr_t)(sock ))));
1117	Ns_Log(Notice, "prebind: unix: %s = %d", line, sock);
1118	} else {
1119	Ns_Log(Warning, "prebind: invalid entry #%d: '%s'", specCount, spec);
1120	}
1121	}
1122	}
1123	ns_free(lines);
1124
1125	return status;
1126	}
1127	#endif
1128
1129
1130	/*
1131	*----------------------------------------------------------------------
1132	*
1133	* Ns_SockBinderListen --
1134	*
1135	* Create a new TCP/UDP/Unix socket bound to the specified port
1136	* and listening for new connections.
1137	*
1138	* The following types are defined:
1139	* T - TCP socket
1140	* U - UDP socket
1141	* D - Unix domain socket
1142	* R - raw socket
1143	*
1144	* Results:
1145	* Socket descriptor or -1 on error.
1146	*
1147	* Side effects:
1148	* None.
1149	*
1150	*----------------------------------------------------------------------
1151	*/
1152
1153	NS_SOCKETint
1154	Ns_SockBinderListen(char type, const char *address, unsigned short port, int options)
1155	{
1156	NS_SOCKETint sock = NS_INVALID_SOCKET(-1);
1157	#ifndef _WIN32
1158	ns_sockerrno_t err = 0;
1159	ssize_t n;
1160	char data[NS_IPADDR_SIZE46];
1161	struct msghdr msg;
1162	struct iovec iov[4];
1163
1164	if (address == NULL((void*)0)) {
1165	address = NS_IP_UNSPECIFIED"::";
1166	}
1167
1168	/*
1169	* Build and send message.
1170	*/
1171	iov[0].iov_base = (void*) &options;
1172	iov[0].iov_len = sizeof(options);
1173	iov[1].iov_base = (void*) &port;
1174	iov[1].iov_len = sizeof(port);
1175	iov[2].iov_base = (void*) &type;
1176	iov[2].iov_len = sizeof(type);
1177	iov[3].iov_base = (void*) data;
1178	iov[3].iov_len = sizeof(data);
1179
1180	strncpy(data, address, sizeof(data)-1);
1181	memset(&msg, 0, sizeof(msg));
1182	msg.msg_iov = iov;
1183	msg.msg_iovlen = 4;
1184	n = sendmsg(binderRequest[1], &msg, 0);
1185	if (n != REQUEST_SIZE(sizeof(int) + sizeof(int) + sizeof(int) + 46)) {
1186	Ns_Log(Error, "Ns_SockBinderListen: sendmsg() failed: sent %" PRIdz"zd" " bytes, '%s'",
1187	n, strerror(errno(*__errno_location ())));
1188	return -1;
1189	}
1190
1191	/*
1192	* Revive reply.
1193	*/
1194	iov[0].iov_base = (void*) &err;
1195	iov[0].iov_len = sizeof(int);
1196	memset(&msg, 0, sizeof(msg));
1197	msg.msg_iov = iov;
1198	msg.msg_iovlen = 1;
1199	#ifdef HAVE_CMMSG1
1200	msg.msg_control = (void *) data;
1201	msg.msg_controllen = sizeof(data);
1202	#else
1203	msg.msg_accrights = (void*) &sock;
1204	msg.msg_accrightslen = sizeof(sock);
1205	#endif
1206	n = recvmsg(binderResponse[0], &msg, 0);
1207	if (n != RESPONSE_SIZE(sizeof(int))) {
1208	Ns_Log(Error, "Ns_SockBinderListen: recvmsg() failed: recv %" PRIdz"zd" " bytes, '%s'",
1209	n, strerror(errno(*__errno_location ())));
1210	return -1;
1211	}
1212
1213	#ifdef HAVE_CMMSG1
1214	{
1215	struct cmsghdr c = CMSG_FIRSTHDR(&msg)((size_t) (&msg)->msg_controllen >= sizeof (struct cmsghdr ) ? (struct cmsghdr ) (&msg)->msg_control : (struct cmsghdr *) 0);
1216	if ((c != NULL((void*)0)) && c->cmsg_type == SCM_RIGHTSSCM_RIGHTS) {
1217	int *ptr;
1218	/*
1219	* Use memcpy to avoid alignment problems.
1220	*/
1221	memcpy(&ptr, CMSG_DATA(c)((c)->__cmsg_data), sizeof(int*));
1222	sock = *ptr;
1223	}
1224	}
1225	#endif
1226
1227	/*
1228	* Close-on-exec, while set in the binder process by default
1229	* with Ns_SockBind, is not transmitted in the sendmsg and
1230	* must be set again.
1231	*/
1232
1233	if (sock != NS_INVALID_SOCKET(-1) && Ns_CloseOnExec(sock) != NS_OK) {
1234	(void)ns_sockcloseclose(sock);
1235	sock = NS_INVALID_SOCKET(-1);
1236	}
1237	if (err == 0) {
1238	Ns_Log(Notice, "Ns_SockBinderListen: listen(%s,%hu) = %d",
1239	address, port, sock);
1240	} else {
1241	Ns_SetSockErrno(err);
1242	sock = NS_INVALID_SOCKET(-1);
1243	Ns_Log(Error, "Ns_SockBinderListen: listen(%s,%hu) failed: '%s'",
1244	address, port, ns_sockstrerrorstrerror(ns_sockerrno(*__errno_location ())));
1245	}
1246	#endif /* _WIN32 */
1247	return sock;
1248	}
1249
1250
1251	/*
1252	*----------------------------------------------------------------------
1253	*
1254	* NsForkBinder --
1255	*
1256	* Fork of the bind/listen process. This routine is called
1257	* by main() when the server starts as root.
1258	*
1259	* Results:
1260	* None.
1261	*
1262	* Side effects:
1263	*
1264	* The binderRunning, binderRequest, binderResponse static
1265	* variables are updated.
1266	*
1267	*----------------------------------------------------------------------
1268	*/
1269
1270	void
1271	NsForkBinder(void)
1272	{
1273	#ifndef _WIN32
1274	pid_t pid1;
1275	int status;
1276
1277	/*
1278	* Create two socket pipes, one for sending the request and one for
1279	* receiving the response.
1280	*/
1281
1282	if (ns_sockpair(binderRequest) != 0 \|\| ns_sockpair(binderResponse) != 0) {
1283	Ns_Fatal("NsForkBinder: ns_sockpair() failed: '%s'", strerror(errno(*__errno_location ())));
1284	}
1285
1286	/*
1287	* Double-fork and run as a binder until the socket pairs are
1288	* closed. The server double forks to avoid problems waiting for a
1289	* child root process after the parent does a setuid(), something
1290	* which appears to confuse the process-based Linux and SGI threads.
1291	*/
1292
1293	pid1 = ns_fork();
1294	if (pid1 < 0) {
1295	Ns_Fatal("NsForkBinder: fork() failed: '%s'", strerror(errno(*__errno_location ())));
1296
1297	} else if (pid1 == 0) {
1298	pid_t pid2;
1299
1300	pid2 = ns_fork();
1301	if (pid2 < 0) {
1302	Ns_Fatal("NsForkBinder: fork() failed: '%s'", strerror(errno(*__errno_location ())));
1303	} else if (pid2 == 0) {
1304	/*
1305	* Grandchild process.
1306	*/
1307	(void)ns_sockcloseclose(binderRequest[1]);
1308	(void)ns_sockcloseclose(binderResponse[0]);
1309	Binder();
1310	} else {
1311	/*
1312	* Child process.
1313	*/
1314	}
1315	exit(0);
1316
1317	} else {
1318	/*
1319	* Parent process.
1320	*/
1321	if (Ns_WaitForProcess(pid1, &status) != NS_OK) {
1322	Ns_Fatal("NsForkBinder: Ns_WaitForProcess(%d) failed: '%s'",
1323	pid1, strerror(errno(*__errno_location ())));
1324	} else if (status != 0) {
1325	Ns_Fatal("NsForkBinder: process %d exited with nonzero status: %d",
1326	pid1, status);
1327	}
1328	binderRunning = NS_TRUE1;
1329	}
1330	#endif /* _WIN32 */
1331	}
1332
1333
1334	/*
1335	*----------------------------------------------------------------------
1336	*
1337	* NsStopBinder --
1338	*
1339	* Close the socket to the binder after startup. This is done
1340	* to avoid a possible security risk of binding to privileged
1341	* ports after startup.
1342	*
1343	* Results:
1344	* None.
1345	*
1346	* Side effects:
1347	* Binder process will exit.
1348	*
1349	*----------------------------------------------------------------------
1350	*/
1351
1352	void
1353	NsStopBinder(void)
1354	{
1355	if (binderRunning) {
1356	(void)ns_sockcloseclose(binderRequest[1]);
1357	(void)ns_sockcloseclose(binderResponse[0]);
1358	(void)ns_sockcloseclose(binderRequest[0]);
1359	(void)ns_sockcloseclose(binderResponse[1]);
1360	binderRunning = NS_FALSE0;
1361	}
1362	}
1363
1364
1365	/*
1366	*----------------------------------------------------------------------
1367	*
1368	* Binder --
1369	*
1370	* Child process bind/listen loop.
1371	*
1372	* Results:
1373	* None.
1374	*
1375	* Side effects:
1376	* Sockets are created and sent to the parent on request.
1377	*
1378	*----------------------------------------------------------------------
1379	*/
1380
1381	#ifndef _WIN32
1382	static void
1383	Binder(void)
1384	{
1385	int options, err, sock;
1386	unsigned short port;
1387	ssize_t n;
1388	char type, address[NS_IPADDR_SIZE46];
1389	struct msghdr msg;
1390	struct iovec iov[4];
1391
1392	#ifdef HAVE_CMMSG1
1393	struct cmsghdr *c;
1394	#endif
1395
1396	Ns_Log(Notice, "binder: started");
1397	Ns_ThreadSetName("binder");
1398
1399	/*
1400	* Endlessly listen for socket bind requests.
1401	*/
1402
1403	for (;;) {
1404	/*
1405	* Receive a message with the following contents.
1406	*/
1407	iov[0].iov_base = (void*) &options;
1408	iov[0].iov_len = sizeof(options);
1409	iov[1].iov_base = (void*) &port;
1410	iov[1].iov_len = sizeof(port);
1411	iov[2].iov_base = (void*) &type;
1412	iov[2].iov_len = sizeof(type);
1413	iov[3].iov_base = (void*) address;
1414	iov[3].iov_len = sizeof(address);
1415	memset(&msg, 0, sizeof(msg));
1416	msg.msg_iov = iov;
1417	msg.msg_iovlen = 4;
1418	options = 0;
1419	port = 0u;
1420	type = '\0';
1421	err = 0;
1422	do {
1423	n = recvmsg(binderRequest[0], &msg, 0);
1424	} while (n == -1 && errno(*__errno_location ()) == NS_EINTR4);
1425	if (n == 0) {
1426	break;
1427	}
1428	if (n != REQUEST_SIZE(sizeof(int) + sizeof(int) + sizeof(int) + 46)) {
1429	Ns_Fatal("binder: recvmsg() failed: recv %" PRIdz"zd" " bytes, '%s'", n, strerror(errno(*__errno_location ())));
1430	}
1431
1432	/*
1433	* NB: Due to a bug in Solaris the child process must
1434	* call both bind() and listen() before returning the
1435	* socket. All other Unix versions would actually allow
1436	* just performing the bind() in the child and allowing
1437	* the parent to perform the listen().
1438	*/
1439	switch (type) {
1440	case 'U':
1441	sock = Ns_SockListenUdp(address, port, NS_FALSE0);
1442	break;
1443	case 'D':
1444	sock = Ns_SockListenUnix(address, options, port);
1445	break;
1446	case 'R':
1447	sock = Ns_SockListenRaw(options);
1448	break;
1449	case 'T':
1450	default:
1451	sock = Ns_SockListenEx(address, port, options, NS_FALSE0);
1452	}
1453	Ns_Log(Notice, "bind type %c addr %s port %d options %d to socket %d",
1454	type, address, port, options, sock);
1455
1456	if (sock < 0) {
1457	err = errno(*__errno_location ());
1458	}
1459
1460	iov[0].iov_base = (void*) &err;
1461	iov[0].iov_len = sizeof(err);
1462	memset(&msg, 0, sizeof(msg));
1463	msg.msg_iov = iov;
1464	msg.msg_iovlen = 1;
1465
1466	if (sock != -1) {
1467	#ifdef HAVE_CMMSG1
1468	int *pfd;
1469
1470	msg.msg_control = address;
1471	msg.msg_controllen = sizeof(address);
1472	c = CMSG_FIRSTHDR(&msg)((size_t) (&msg)->msg_controllen >= sizeof (struct cmsghdr ) ? (struct cmsghdr ) (&msg)->msg_control : (struct cmsghdr ) 0);
1473	c->cmsg_level = SOL_SOCKET1;
1474	c->cmsg_type = SCM_RIGHTSSCM_RIGHTS;
1475	/*
1476	* Use memcpy to avoid alignment problems.
1477	*/
1478	memcpy(&pfd, CMSG_DATA(c)((c)->__cmsg_data), sizeof(int*));
1479
1480	*pfd = sock;
1481	c->cmsg_len = CMSG_LEN(sizeof(int))((((sizeof (struct cmsghdr)) + sizeof (size_t) - 1) & (size_t ) ~(sizeof (size_t) - 1)) + (sizeof(int)));
1482	msg.msg_controllen = c->cmsg_len;
1483	#else
1484	msg.msg_accrights = (void*) &sock;
1485	msg.msg_accrightslen = sizeof(sock);
1486	#endif
1487	}
1488
1489	do {
1490	n = sendmsg(binderResponse[1], &msg, 0);
1491	} while (n == -1 && errno(*__errno_location ()) == NS_EINTR4);
1492	if (n != RESPONSE_SIZE(sizeof(int))) {
1493	Ns_Fatal("binder: sendmsg() failed: sent %" PRIdz"zd" " bytes, '%s'", n, strerror(errno(*__errno_location ())));
1494	}
1495	if (sock != -1) {
1496	/*
1497	* Close the socket as it won't be needed in the child.
1498	*/
1499	(void)ns_sockcloseclose(sock);
1500	}
1501	}
1502	Ns_Log(Notice, "binder: stopped");
1503	}
1504	#endif /* _WIN32 */
1505
1506	/*
1507	* Local Variables:
1508	* mode: c
1509	* c-basic-offset: 4
1510	* fill-column: 72
1511	* indent-tabs-mode: nil
1512	* End:
1513	*/