File Coverage

amqp_socket.c

Criterion	Covered	Total	%
statement	420	605	69.4
branch	172	330	52.1
condition			n/a
subroutine			n/a
pod			n/a
total	592	935	63.3

line	stmt	bran	code
1			/*
2			* *** BEGIN LICENSE BLOCK ***
3			* Version: MIT
4			*
5			* Portions created by Alan Antonuk are Copyright (c) 2012-2014
6			* Alan Antonuk. All Rights Reserved.
7			*
8			* Portions created by VMware are Copyright (c) 2007-2012 VMware, Inc.
9			* All Rights Reserved.
10			*
11			* Portions created by Tony Garnock-Jones are Copyright (c) 2009-2010
12			* VMware, Inc. and Tony Garnock-Jones. All Rights Reserved.
13			*
14			* Permission is hereby granted, free of charge, to any person
15			* obtaining a copy of this software and associated documentation
16			* files (the "Software"), to deal in the Software without
17			* restriction, including without limitation the rights to use, copy,
18			* modify, merge, publish, distribute, sublicense, and/or sell copies
19			* of the Software, and to permit persons to whom the Software is
20			* furnished to do so, subject to the following conditions:
21			*
22			* The above copyright notice and this permission notice shall be
23			* included in all copies or substantial portions of the Software.
24			*
25			* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
26			* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
27			* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
28			* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
29			* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
30			* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
31			* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
32			* SOFTWARE.
33			* *** END LICENSE BLOCK ***
34			*/
35
36			#ifdef HAVE_CONFIG_H
37			#include "config.h"
38			#endif
39
40			#ifdef _MSC_VER
41			#define _CRT_SECURE_NO_WARNINGS
42			#endif
43
44			#include "amqp_private.h"
45			#include "amqp_socket.h"
46			#include "amqp_table.h"
47			#include "amqp_time.h"
48
49			#include
50			#include
51			#include
52			#include
53			#include
54			#include
55			#include
56
57			#include
58
59			#if ((defined(_WIN32)) \|\| (defined(__MINGW32__)) \|\| (defined(__MINGW64__)))
60			#ifndef WIN32_LEAN_AND_MEAN
61			#define WIN32_LEAN_AND_MEAN
62			#endif
63			#include
64			#include
65			#else
66			#include
67			/* On older BSD types.h must come before net includes */
68			#include
69			#include
70			#ifdef HAVE_SELECT
71			#include
72			#endif
73			#include
74			#include
75			#include
76			#include
77			#ifdef HAVE_POLL
78			#include
79			#endif
80			#include
81			#endif
82
83			static int amqp_id_in_reply_list(amqp_method_number_t expected,
84			amqp_method_number_t *list);
85
86	39		static int amqp_os_socket_init(void) {
87			#ifdef _WIN32
88			static int called_wsastartup = 0;
89			if (!called_wsastartup) {
90			WSADATA data;
91			int res = WSAStartup(0x0202, &data);
92			if (res) {
93			return AMQP_STATUS_TCP_SOCKETLIB_INIT_ERROR;
94			}
95
96			called_wsastartup = 1;
97			}
98			return AMQP_STATUS_OK;
99
100			#else
101	39		return AMQP_STATUS_OK;
102			#endif
103			}
104
105	401		int amqp_os_socket_error(void) {
106			#ifdef _WIN32
107			return WSAGetLastError();
108			#else
109	401		return errno;
110			#endif
111			}
112
113	37		int amqp_os_socket_close(int sockfd) {
114			#ifdef _WIN32
115			return closesocket(sockfd);
116			#else
117	37		return close(sockfd);
118			#endif
119			}
120
121	523		ssize_t amqp_socket_send(amqp_socket_t self, const void buf, size_t len,
122			int flags) {
123	523	50	assert(self);
124	523	50	assert(self->klass->send);
125	523		return self->klass->send(self, buf, len, flags);
126			}
127
128	793		ssize_t amqp_socket_recv(amqp_socket_t self, void buf, size_t len,
129			int flags) {
130	793	50	assert(self);
131	793	50	assert(self->klass->recv);
132	793		return self->klass->recv(self, buf, len, flags);
133			}
134
135	0		int amqp_socket_open(amqp_socket_t self, const char host, int port) {
136	0	0	assert(self);
137	0	0	assert(self->klass->open);
138	0		return self->klass->open(self, host, port, NULL);
139			}
140
141	39		int amqp_socket_open_noblock(amqp_socket_t self, const char host, int port,
142			const struct timeval *timeout) {
143	39	50	assert(self);
144	39	50	assert(self->klass->open);
145	39		return self->klass->open(self, host, port, timeout);
146			}
147
148	6		int amqp_socket_close(amqp_socket_t *self, amqp_socket_close_enum force) {
149	6	50	assert(self);
150	6	50	assert(self->klass->close);
151	6		return self->klass->close(self, force);
152			}
153
154	75		void amqp_socket_delete(amqp_socket_t *self) {
155	75	100	if (self) {
156	38	50	assert(self->klass->delete);
157	38		self->klass->delete (self);
158			}
159	75		}
160
161	782		int amqp_socket_get_sockfd(amqp_socket_t *self) {
162	782	50	assert(self);
163	782	50	assert(self->klass->get_sockfd);
164	782		return self->klass->get_sockfd(self);
165			}
166
167	439		int amqp_poll(int fd, int event, amqp_time_t deadline) {
168			#ifdef HAVE_POLL
169			struct pollfd pfd;
170			int res;
171			int timeout_ms;
172
173			/* Function should only ever be called with one of these two */
174	439	100	assert(event == AMQP_SF_POLLIN \|\| event == AMQP_SF_POLLOUT);
		50
175
176			start_poll:
177	439		pfd.fd = fd;
178	439		switch (event) {
179			case AMQP_SF_POLLIN:
180	399		pfd.events = POLLIN;
181	399		break;
182			case AMQP_SF_POLLOUT:
183	40		pfd.events = POLLOUT;
184	40		break;
185			}
186
187	439		timeout_ms = amqp_time_ms_until(deadline);
188	439	50	if (-1 > timeout_ms) {
189	0		return timeout_ms;
190			}
191
192	439		res = poll(&pfd, 1, timeout_ms);
193
194	439	100	if (0 < res) {
195			/* TODO: optimize this a bit by returning the AMQP_STATUS_SOCKET_ERROR or
196			* equivalent when pdf.revent is POLLHUP or POLLERR, so an extra syscall
197			* doesn't need to be made. */
198	433		return AMQP_STATUS_OK;
199	6	50	} else if (0 == res) {
200	6		return AMQP_STATUS_TIMEOUT;
201			} else {
202	0	0	switch (amqp_os_socket_error()) {
203			case EINTR:
204	0		goto start_poll;
205			default:
206	439		return AMQP_STATUS_SOCKET_ERROR;
207			}
208			}
209			return AMQP_STATUS_OK;
210			#elif defined(HAVE_SELECT)
211			fd_set fds;
212			fd_set exceptfds;
213			fd_set *exceptfdsp;
214			int res;
215			struct timeval tv;
216			struct timeval *tvp;
217
218			assert((0 != (event & AMQP_SF_POLLIN)) \|\| (0 != (event & AMQP_SF_POLLOUT)));
219			#ifndef _WIN32
220			/* On Win32 connect() failure is indicated through the exceptfds, it does not
221			* make any sense to allow POLLERR on any other platform or condition */
222			assert(0 == (event & AMQP_SF_POLLERR));
223			#endif
224
225			start_select:
226			FD_ZERO(&fds);
227			FD_SET(fd, &fds);
228
229			if (event & AMQP_SF_POLLERR) {
230			FD_ZERO(&exceptfds);
231			FD_SET(fd, &exceptfds);
232			exceptfdsp = &exceptfds;
233			} else {
234			exceptfdsp = NULL;
235			}
236
237			res = amqp_time_tv_until(deadline, &tv, &tvp);
238			if (res != AMQP_STATUS_OK) {
239			return res;
240			}
241
242			if (event & AMQP_SF_POLLIN) {
243			res = select(fd + 1, &fds, NULL, exceptfdsp, tvp);
244			} else if (event & AMQP_SF_POLLOUT) {
245			res = select(fd + 1, NULL, &fds, exceptfdsp, tvp);
246			}
247
248			if (0 < res) {
249			return AMQP_STATUS_OK;
250			} else if (0 == res) {
251			return AMQP_STATUS_TIMEOUT;
252			} else {
253			switch (amqp_os_socket_error()) {
254			case EINTR:
255			goto start_select;
256			default:
257			return AMQP_STATUS_SOCKET_ERROR;
258			}
259			}
260			#else
261			#error "poll() or select() is needed to compile rabbitmq-c"
262			#endif
263			}
264
265	5		static ssize_t do_poll(amqp_connection_state_t state, ssize_t res,
266			amqp_time_t deadline) {
267	5		int fd = amqp_get_sockfd(state);
268	5	100	if (-1 == fd) {
269	3		return AMQP_STATUS_SOCKET_CLOSED;
270			}
271	2		switch (res) {
272			case AMQP_PRIVATE_STATUS_SOCKET_NEEDREAD:
273	0		res = amqp_poll(fd, AMQP_SF_POLLIN, deadline);
274	0		break;
275			case AMQP_PRIVATE_STATUS_SOCKET_NEEDWRITE:
276	1		res = amqp_poll(fd, AMQP_SF_POLLOUT, deadline);
277	1		break;
278			}
279	2		return res;
280			}
281
282	521		ssize_t amqp_try_send(amqp_connection_state_t state, const void *buf,
283			size_t len, amqp_time_t deadline, int flags) {
284			ssize_t res;
285	521		void buf_left = (void )buf;
286			/* Assume that len is not going to be larger than ssize_t can hold. */
287	521		ssize_t len_left = (size_t)len;
288
289			start_send:
290	523		res = amqp_socket_send(state->socket, buf_left, len_left, flags);
291
292	523	100	if (res > 0) {
293	518		len_left -= res;
294	518		buf_left = (char *)buf_left + res;
295	518	100	if (0 == len_left) {
296	517		return (ssize_t)len;
297			}
298	1		goto start_send;
299			}
300	5		res = do_poll(state, res, deadline);
301	5	100	if (AMQP_STATUS_OK == res) {
302	1		goto start_send;
303			}
304	4	50	if (AMQP_STATUS_TIMEOUT == res) {
305	0		return (ssize_t)len - len_left;
306			}
307	4		return res;
308			}
309
310	0		int amqp_open_socket(char const *hostname, int portnumber) {
311	0		return amqp_open_socket_inner(hostname, portnumber, amqp_time_infinite());
312			}
313
314	38		int amqp_open_socket_noblock(char const *hostname, int portnumber,
315			const struct timeval *timeout) {
316			amqp_time_t deadline;
317	38		int res = amqp_time_from_now(&deadline, timeout);
318	38	50	if (AMQP_STATUS_OK != res) {
319	0		return res;
320			}
321	38		return amqp_open_socket_inner(hostname, portnumber, deadline);
322			}
323
324			#ifdef _WIN32
325			static int connect_socket(struct addrinfo *addr, amqp_time_t deadline) {
326			int one = 1;
327			SOCKET sockfd;
328			int last_error;
329
330			/*
331			* This cast is to squash warnings on Win64, see:
332			* http://stackoverflow.com/questions/1953639/is-it-safe-to-cast-socket-to-int-under-win64
333			*/
334
335			sockfd = (int)socket(addr->ai_family, addr->ai_socktype, addr->ai_protocol);
336			if (INVALID_SOCKET == sockfd) {
337			return AMQP_STATUS_SOCKET_ERROR;
338			}
339
340			/* Set the socket to be non-blocking */
341			if (SOCKET_ERROR == ioctlsocket(sockfd, FIONBIO, &one)) {
342			last_error = AMQP_STATUS_SOCKET_ERROR;
343			goto err;
344			}
345
346			/* Disable nagle */
347			if (SOCKET_ERROR == setsockopt(sockfd, IPPROTO_TCP, TCP_NODELAY,
348			(const char *)&one, sizeof(one))) {
349			last_error = AMQP_STATUS_SOCKET_ERROR;
350			goto err;
351			}
352
353			/* Enable TCP keepalives */
354			if (SOCKET_ERROR == setsockopt(sockfd, SOL_SOCKET, SO_KEEPALIVE,
355			(const char *)&one, sizeof(one))) {
356			last_error = AMQP_STATUS_SOCKET_ERROR;
357			goto err;
358			}
359
360			if (SOCKET_ERROR != connect(sockfd, addr->ai_addr, (int)addr->ai_addrlen)) {
361			return (int)sockfd;
362			}
363
364			if (WSAEWOULDBLOCK != WSAGetLastError()) {
365			last_error = AMQP_STATUS_SOCKET_ERROR;
366			goto err;
367			}
368
369			last_error =
370			amqp_poll((int)sockfd, AMQP_SF_POLLOUT \| AMQP_SF_POLLERR, deadline);
371			if (AMQP_STATUS_OK != last_error) {
372			goto err;
373			}
374
375			{
376			int result;
377			int result_len = sizeof(result);
378
379			if (SOCKET_ERROR == getsockopt(sockfd, SOL_SOCKET, SO_ERROR,
380			(char *)&result, &result_len) \|\|
381			result != 0) {
382			last_error = AMQP_STATUS_SOCKET_ERROR;
383			goto err;
384			}
385			}
386
387			return (int)sockfd;
388
389			err:
390			closesocket(sockfd);
391			return last_error;
392			}
393			#else
394	39		static int connect_socket(struct addrinfo *addr, amqp_time_t deadline) {
395	39		int one = 1;
396			int sockfd;
397			int flags;
398			int last_error;
399
400	39		sockfd = socket(addr->ai_family, addr->ai_socktype, addr->ai_protocol);
401	39	50	if (-1 == sockfd) {
402	0		return AMQP_STATUS_SOCKET_ERROR;
403			}
404
405			/* Enable CLOEXEC on socket */
406	39		flags = fcntl(sockfd, F_GETFD);
407	39	50	if (flags == -1 \|\| fcntl(sockfd, F_SETFD, (long)(flags \| FD_CLOEXEC)) == -1) {
		50
408	0		last_error = AMQP_STATUS_SOCKET_ERROR;
409	0		goto err;
410			}
411
412			/* Set the socket as non-blocking */
413	39		flags = fcntl(sockfd, F_GETFL);
414	39	50	if (flags == -1 \|\| fcntl(sockfd, F_SETFL, (long)(flags \| O_NONBLOCK)) == -1) {
		50
415	0		last_error = AMQP_STATUS_SOCKET_ERROR;
416	0		goto err;
417			}
418
419			#ifdef SO_NOSIGPIPE
420			/* Turn off SIGPIPE on platforms that support it, BSD, MacOSX */
421			if (0 != setsockopt(sockfd, SOL_SOCKET, SO_NOSIGPIPE, &one, sizeof(one))) {
422			last_error = AMQP_STATUS_SOCKET_ERROR;
423			goto err;
424			}
425			#endif /* SO_NOSIGPIPE */
426
427			/* Disable nagle */
428	39	50	if (0 != setsockopt(sockfd, IPPROTO_TCP, TCP_NODELAY, &one, sizeof(one))) {
429	0		last_error = AMQP_STATUS_SOCKET_ERROR;
430	0		goto err;
431			}
432
433			/* Enable TCP keepalives */
434	39	50	if (0 != setsockopt(sockfd, SOL_SOCKET, SO_KEEPALIVE, &one, sizeof(one))) {
435	0		last_error = AMQP_STATUS_SOCKET_ERROR;
436	0		goto err;
437			}
438
439	39	50	if (0 == connect(sockfd, addr->ai_addr, addr->ai_addrlen)) {
440	0		return sockfd;
441			}
442
443	39	50	if (EINPROGRESS != errno) {
444	0		last_error = AMQP_STATUS_SOCKET_ERROR;
445	0		goto err;
446			}
447
448	39		last_error = amqp_poll(sockfd, AMQP_SF_POLLOUT, deadline);
449	39	100	if (AMQP_STATUS_OK != last_error) {
450	1		goto err;
451			}
452
453			{
454			int result;
455	38		socklen_t result_len = sizeof(result);
456
457	38	50	if (-1 == getsockopt(sockfd, SOL_SOCKET, SO_ERROR, &result, &result_len) \|\|
		50
458	38		result != 0) {
459	0		last_error = AMQP_STATUS_SOCKET_ERROR;
460	0		goto err;
461			}
462			}
463
464	38		return sockfd;
465
466			err:
467	1		close(sockfd);
468	39		return last_error;
469			}
470			#endif
471
472	39		int amqp_open_socket_inner(char const *hostname, int portnumber,
473			amqp_time_t deadline) {
474			struct addrinfo hint;
475			struct addrinfo *address_list;
476			struct addrinfo *addr;
477			char portnumber_string[33];
478	39		int sockfd = -1;
479			int last_error;
480
481	39		last_error = amqp_os_socket_init();
482	39	50	if (AMQP_STATUS_OK != last_error) {
483	0		return last_error;
484			}
485
486	39		memset(&hint, 0, sizeof(hint));
487	39		hint.ai_family = PF_UNSPEC; /* PF_INET or PF_INET6 */
488	39		hint.ai_socktype = SOCK_STREAM;
489	39		hint.ai_protocol = IPPROTO_TCP;
490
491	39		(void)sprintf(portnumber_string, "%d", portnumber);
492
493	39		last_error = getaddrinfo(hostname, portnumber_string, &hint, &address_list);
494	39	50	if (0 != last_error) {
495	0		return AMQP_STATUS_HOSTNAME_RESOLUTION_FAILED;
496			}
497
498	39	50	for (addr = address_list; addr; addr = addr->ai_next) {
499	39		sockfd = connect_socket(addr, deadline);
500
501	39	100	if (sockfd >= 0) {
502	38		last_error = AMQP_STATUS_OK;
503	38		break;
504	1	50	} else if (sockfd == AMQP_STATUS_TIMEOUT) {
505	1		last_error = sockfd;
506	1		break;
507			}
508			}
509
510	39		freeaddrinfo(address_list);
511	39	100	if (last_error != AMQP_STATUS_OK \|\| sockfd == -1) {
		50
512	1		return last_error;
513			}
514	39		return sockfd;
515			}
516
517	38		static int send_header_inner(amqp_connection_state_t state,
518			amqp_time_t deadline) {
519			ssize_t res;
520			static const uint8_t header[8] = {'A',
521			'M',
522			'Q',
523			'P',
524			0,
525			AMQP_PROTOCOL_VERSION_MAJOR,
526			AMQP_PROTOCOL_VERSION_MINOR,
527			AMQP_PROTOCOL_VERSION_REVISION};
528	38		res = amqp_try_send(state, header, sizeof(header), deadline, AMQP_SF_NONE);
529	38	50	if (sizeof(header) == res) {
530	38		return AMQP_STATUS_OK;
531			}
532	0		return (int)res;
533			}
534
535	0		int amqp_send_header(amqp_connection_state_t state) {
536	0		return send_header_inner(state, amqp_time_infinite());
537			}
538
539	76		static amqp_bytes_t sasl_method_name(amqp_sasl_method_enum method) {
540			amqp_bytes_t res;
541
542	76		switch (method) {
543			case AMQP_SASL_METHOD_PLAIN:
544	76		res = amqp_cstring_bytes("PLAIN");
545	76		break;
546			case AMQP_SASL_METHOD_EXTERNAL:
547	0		res = amqp_cstring_bytes("EXTERNAL");
548	0		break;
549
550			default:
551	0		amqp_abort("Invalid SASL method: %d", (int)method);
552			}
553
554	76		return res;
555			}
556
557	76		static int bytes_equal(amqp_bytes_t l, amqp_bytes_t r) {
558	76	100	if (l.len == r.len) {
559	38	50	if (l.bytes && r.bytes) {
		50
560	38	50	if (0 == memcmp(l.bytes, r.bytes, l.len)) {
561	38		return 1;
562			}
563			}
564			}
565	38		return 0;
566			}
567
568	38		int sasl_mechanism_in_list(amqp_bytes_t mechanisms,
569			amqp_sasl_method_enum method) {
570			amqp_bytes_t mechanism;
571			amqp_bytes_t supported_mechanism;
572			uint8_t *start;
573			uint8_t *end;
574			uint8_t *current;
575
576	38	50	assert(NULL != mechanisms.bytes);
577
578	38		mechanism = sasl_method_name(method);
579
580	38		start = (uint8_t *)mechanisms.bytes;
581	38		current = start;
582	38		end = start + mechanisms.len;
583
584	76	50	for (; current != end; start = current + 1) {
585			/* HACK: SASL states that we should be parsing this string as a UTF-8
586			* string, which we're plainly not doing here. At this point its not worth
587			* dragging an entire UTF-8 parser for this one case, and this should work
588			* most of the time */
589	76		current = memchr(start, ' ', end - start);
590	76	100	if (NULL == current) {
591	38		current = end;
592			}
593	76		supported_mechanism.bytes = start;
594	76		supported_mechanism.len = current - start;
595	76	100	if (bytes_equal(mechanism, supported_mechanism)) {
596	38		return 1;
597			}
598			}
599
600	38		return 0;
601			}
602
603	38		static amqp_bytes_t sasl_response(amqp_pool_t *pool,
604			amqp_sasl_method_enum method, va_list args) {
605			amqp_bytes_t response;
606
607	38		switch (method) {
608			case AMQP_SASL_METHOD_PLAIN: {
609	38	50	char username = va_arg(args, char );
610	38		size_t username_len = strlen(username);
611	38	50	char password = va_arg(args, char );
612	38		size_t password_len = strlen(password);
613			char *response_buf;
614
615	38		amqp_pool_alloc_bytes(pool, strlen(username) + strlen(password) + 2,
616			&response);
617	38	50	if (response.bytes == NULL)
618			/* We never request a zero-length block, because of the +2
619			above, so a NULL here really is ENOMEM. */
620			{
621	0		return response;
622			}
623
624	38		response_buf = response.bytes;
625	38		response_buf[0] = 0;
626	38		memcpy(response_buf + 1, username, username_len);
627	38		response_buf[username_len + 1] = 0;
628	38		memcpy(response_buf + username_len + 2, password, password_len);
629	38		break;
630			}
631			case AMQP_SASL_METHOD_EXTERNAL: {
632	0	0	char identity = va_arg(args, char );
633	0		size_t identity_len = strlen(identity);
634
635	0		amqp_pool_alloc_bytes(pool, identity_len, &response);
636	0	0	if (response.bytes == NULL) {
637	0		return response;
638			}
639
640	0		memcpy(response.bytes, identity, identity_len);
641	0		break;
642			}
643			default:
644	0		amqp_abort("Invalid SASL method: %d", (int)method);
645			}
646
647	38		return response;
648			}
649
650	0		amqp_boolean_t amqp_frames_enqueued(amqp_connection_state_t state) {
651	0		return (state->first_queued_frame != NULL);
652			}
653
654			/*
655			* Check to see if we have data in our buffer. If this returns 1, we
656			* will avoid an immediate blocking read in amqp_simple_wait_frame.
657			*/
658	940		amqp_boolean_t amqp_data_in_buffer(amqp_connection_state_t state) {
659	940		return (state->sock_inbound_offset < state->sock_inbound_limit);
660			}
661
662	480		static int consume_one_frame(amqp_connection_state_t state,
663			amqp_frame_t *decoded_frame) {
664			int res;
665
666			amqp_bytes_t buffer;
667	480		buffer.len = state->sock_inbound_limit - state->sock_inbound_offset;
668	480		buffer.bytes =
669	480		((char *)state->sock_inbound_buffer.bytes) + state->sock_inbound_offset;
670
671	480		res = amqp_handle_input(state, buffer, decoded_frame);
672	480	50	if (res < 0) {
673	0		return res;
674			}
675
676	480		state->sock_inbound_offset += res;
677
678	480		return AMQP_STATUS_OK;
679			}
680
681	401		static int recv_with_timeout(amqp_connection_state_t state,
682			amqp_time_t timeout) {
683			ssize_t res;
684			int fd;
685
686			start_recv:
687	793		res = amqp_socket_recv(state->socket, state->sock_inbound_buffer.bytes,
688			state->sock_inbound_buffer.len, 0);
689
690	793	100	if (res < 0) {
691	397		fd = amqp_get_sockfd(state);
692	397	50	if (-1 == fd) {
693	0		return AMQP_STATUS_CONNECTION_CLOSED;
694			}
695	397		switch (res) {
696			default:
697	0		return (int)res;
698			case AMQP_PRIVATE_STATUS_SOCKET_NEEDREAD:
699	397		res = amqp_poll(fd, AMQP_SF_POLLIN, timeout);
700	397		break;
701			case AMQP_PRIVATE_STATUS_SOCKET_NEEDWRITE:
702	0		res = amqp_poll(fd, AMQP_SF_POLLOUT, timeout);
703	0		break;
704			}
705	397	100	if (AMQP_STATUS_OK == res) {
706	392		goto start_recv;
707			}
708	5		return (int)res;
709			}
710
711	396		state->sock_inbound_limit = res;
712	396		state->sock_inbound_offset = 0;
713
714	396		res = amqp_time_s_from_now(&state->next_recv_heartbeat,
715			amqp_heartbeat_recv(state));
716	396	50	if (AMQP_STATUS_OK != res) {
717	0		return (int)res;
718			}
719	396		return AMQP_STATUS_OK;
720			}
721
722	2		int amqp_try_recv(amqp_connection_state_t state) {
723			amqp_time_t timeout;
724
725	20	100	while (amqp_data_in_buffer(state)) {
726			amqp_frame_t frame;
727	18		int res = consume_one_frame(state, &frame);
728
729	18	50	if (AMQP_STATUS_OK != res) {
730	0		return res;
731			}
732
733	18	50	if (frame.frame_type != 0) {
734			amqp_pool_t *channel_pool;
735			amqp_frame_t *frame_copy;
736			amqp_link_t *link;
737
738	18		channel_pool = amqp_get_or_create_channel_pool(state, frame.channel);
739	18	50	if (NULL == channel_pool) {
740	0		return AMQP_STATUS_NO_MEMORY;
741			}
742
743	18		frame_copy = amqp_pool_alloc(channel_pool, sizeof(amqp_frame_t));
744	18		link = amqp_pool_alloc(channel_pool, sizeof(amqp_link_t));
745
746	18	50	if (frame_copy == NULL \|\| link == NULL) {
		50
747	0		return AMQP_STATUS_NO_MEMORY;
748			}
749
750	18		*frame_copy = frame;
751
752	18		link->next = NULL;
753	18		link->data = frame_copy;
754
755	18	100	if (state->last_queued_frame == NULL) {
756	1		state->first_queued_frame = link;
757			} else {
758	17		state->last_queued_frame->next = link;
759			}
760	18		state->last_queued_frame = link;
761			}
762			}
763	2		int res = amqp_time_s_from_now(&timeout, 0);
764	2	50	if (AMQP_STATUS_OK != res) {
765	0		return res;
766			}
767
768	2		return recv_with_timeout(state, timeout);
769			}
770
771	457		static int wait_frame_inner(amqp_connection_state_t state,
772			amqp_frame_t *decoded_frame,
773			amqp_time_t timeout_deadline) {
774			amqp_time_t deadline;
775			int res;
776
777			for (;;) {
778	862	100	while (amqp_data_in_buffer(state)) {
779	462		res = consume_one_frame(state, decoded_frame);
780
781	462	50	if (AMQP_STATUS_OK != res) {
782	0		return res;
783			}
784
785	462	100	if (AMQP_FRAME_HEARTBEAT == decoded_frame->frame_type) {
786	6		amqp_maybe_release_buffers_on_channel(state, 0);
787	6		continue;
788			}
789
790	456	100	if (decoded_frame->frame_type != 0) {
791			/* Complete frame was read. Return it. */
792	451		return AMQP_STATUS_OK;
793			}
794			}
795
796			beginrecv:
797	400		res = amqp_time_has_past(state->next_send_heartbeat);
798	400	50	if (AMQP_STATUS_TIMER_FAILURE == res) {
799	0		return res;
800	400	100	} else if (AMQP_STATUS_TIMEOUT == res) {
801			amqp_frame_t heartbeat;
802	2		heartbeat.channel = 0;
803	2		heartbeat.frame_type = AMQP_FRAME_HEARTBEAT;
804
805	2		res = amqp_send_frame(state, &heartbeat);
806	2	100	if (AMQP_STATUS_OK != res) {
807	2		return res;
808			}
809			}
810	399		deadline = amqp_time_first(timeout_deadline,
811			amqp_time_first(state->next_recv_heartbeat,
812			state->next_send_heartbeat));
813
814			/* TODO this needs to wait for a _frame_ and not anything written from the
815			* socket */
816	399		res = recv_with_timeout(state, deadline);
817
818	399	100	if (AMQP_STATUS_TIMEOUT == res) {
819	5	50	if (amqp_time_equal(deadline, state->next_recv_heartbeat)) {
820	0		amqp_socket_close(state->socket, AMQP_SC_FORCE);
821	0		return AMQP_STATUS_HEARTBEAT_TIMEOUT;
822	5	50	} else if (amqp_time_equal(deadline, timeout_deadline)) {
823	5		return AMQP_STATUS_TIMEOUT;
824	0	0	} else if (amqp_time_equal(deadline, state->next_send_heartbeat)) {
825			/* send heartbeat happens before we do recv_with_timeout */
826	0		goto beginrecv;
827			} else {
828	0		amqp_abort("Internal error: unable to determine timeout reason");
829			}
830	394	50	} else if (AMQP_STATUS_OK != res) {
831	0		return res;
832			}
833	851		}
834			}
835
836	0		static amqp_link_t *amqp_create_link_for_frame(amqp_connection_state_t state,
837			amqp_frame_t *frame) {
838			amqp_link_t *link;
839			amqp_frame_t *frame_copy;
840
841	0		amqp_pool_t *channel_pool =
842	0		amqp_get_or_create_channel_pool(state, frame->channel);
843
844	0	0	if (NULL == channel_pool) {
845	0		return NULL;
846			}
847
848	0		link = amqp_pool_alloc(channel_pool, sizeof(amqp_link_t));
849	0		frame_copy = amqp_pool_alloc(channel_pool, sizeof(amqp_frame_t));
850
851	0	0	if (NULL == link \|\| NULL == frame_copy) {
		0
852	0		return NULL;
853			}
854
855	0		frame_copy = frame;
856	0		link->data = frame_copy;
857
858	0		return link;
859			}
860
861	0		int amqp_queue_frame(amqp_connection_state_t state, amqp_frame_t *frame) {
862	0		amqp_link_t *link = amqp_create_link_for_frame(state, frame);
863	0	0	if (NULL == link) {
864	0		return AMQP_STATUS_NO_MEMORY;
865			}
866
867	0	0	if (NULL == state->first_queued_frame) {
868	0		state->first_queued_frame = link;
869			} else {
870	0		state->last_queued_frame->next = link;
871			}
872
873	0		link->next = NULL;
874	0		state->last_queued_frame = link;
875
876	0		return AMQP_STATUS_OK;
877			}
878
879	0		int amqp_put_back_frame(amqp_connection_state_t state, amqp_frame_t *frame) {
880	0		amqp_link_t *link = amqp_create_link_for_frame(state, frame);
881	0	0	if (NULL == link) {
882	0		return AMQP_STATUS_NO_MEMORY;
883			}
884
885	0	0	if (NULL == state->first_queued_frame) {
886	0		state->first_queued_frame = link;
887	0		state->last_queued_frame = link;
888	0		link->next = NULL;
889			} else {
890	0		link->next = state->first_queued_frame;
891	0		state->first_queued_frame = link;
892			}
893
894	0		return AMQP_STATUS_OK;
895			}
896
897	51		int amqp_simple_wait_frame_on_channel(amqp_connection_state_t state,
898			amqp_channel_t channel,
899			amqp_frame_t *decoded_frame) {
900			amqp_frame_t *frame_ptr;
901			amqp_link_t *cur;
902			int res;
903
904	51	50	for (cur = state->first_queued_frame; NULL != cur; cur = cur->next) {
905	0		frame_ptr = cur->data;
906
907	0	0	if (channel == frame_ptr->channel) {
908	0		state->first_queued_frame = cur->next;
909	0	0	if (NULL == state->first_queued_frame) {
910	0		state->last_queued_frame = NULL;
911			}
912
913	0		decoded_frame = frame_ptr;
914
915	0		return AMQP_STATUS_OK;
916			}
917			}
918
919			for (;;) {
920	51		res = wait_frame_inner(state, decoded_frame, amqp_time_infinite());
921
922	51	50	if (AMQP_STATUS_OK != res) {
923	0		return res;
924			}
925
926	51	50	if (channel == decoded_frame->channel) {
927	51		return AMQP_STATUS_OK;
928			} else {
929	0		res = amqp_queue_frame(state, decoded_frame);
930	0	0	if (res != AMQP_STATUS_OK) {
931	0		return res;
932			}
933			}
934	0		}
935			}
936
937	19		int amqp_simple_wait_frame(amqp_connection_state_t state,
938			amqp_frame_t *decoded_frame) {
939	19		return amqp_simple_wait_frame_noblock(state, decoded_frame, NULL);
940			}
941
942	121		int amqp_simple_wait_frame_noblock(amqp_connection_state_t state,
943			amqp_frame_t *decoded_frame,
944			const struct timeval *timeout) {
945			amqp_time_t deadline;
946
947	121		int res = amqp_time_from_now(&deadline, timeout);
948	121	50	if (AMQP_STATUS_OK != res) {
949	0		return res;
950			}
951
952	121	100	if (state->first_queued_frame != NULL) {
953	18		amqp_frame_t f = (amqp_frame_t )state->first_queued_frame->data;
954	18		state->first_queued_frame = state->first_queued_frame->next;
955	18	100	if (state->first_queued_frame == NULL) {
956	1		state->last_queued_frame = NULL;
957			}
958	18		decoded_frame = f;
959	18		return AMQP_STATUS_OK;
960			} else {
961	121		return wait_frame_inner(state, decoded_frame, deadline);
962			}
963			}
964
965	76		static int amqp_simple_wait_method_list(amqp_connection_state_t state,
966			amqp_channel_t expected_channel,
967			amqp_method_number_t *expected_methods,
968			amqp_time_t deadline,
969			amqp_method_t *output) {
970			amqp_frame_t frame;
971			struct timeval tv;
972			struct timeval *tvp;
973
974	76		int res = amqp_time_tv_until(deadline, &tv, &tvp);
975	76	50	if (res != AMQP_STATUS_OK) {
976	0		return res;
977			}
978
979	76		res = amqp_simple_wait_frame_noblock(state, &frame, tvp);
980	76	50	if (AMQP_STATUS_OK != res) {
981	0		return res;
982			}
983
984	76	50	if (AMQP_FRAME_METHOD != frame.frame_type \|\|
		50
985	76	50	expected_channel != frame.channel \|\|
986	76		!amqp_id_in_reply_list(frame.payload.method.id, expected_methods)) {
987	0		return AMQP_STATUS_WRONG_METHOD;
988			}
989	76		*output = frame.payload.method;
990	76		return AMQP_STATUS_OK;
991			}
992
993	38		static int simple_wait_method_inner(amqp_connection_state_t state,
994			amqp_channel_t expected_channel,
995			amqp_method_number_t expected_method,
996			amqp_time_t deadline,
997			amqp_method_t *output) {
998	38		amqp_method_number_t expected_methods[] = {expected_method, 0};
999	38		return amqp_simple_wait_method_list(state, expected_channel, expected_methods,
1000			deadline, output);
1001			}
1002
1003	0		int amqp_simple_wait_method(amqp_connection_state_t state,
1004			amqp_channel_t expected_channel,
1005			amqp_method_number_t expected_method,
1006			amqp_method_t *output) {
1007	0		return simple_wait_method_inner(state, expected_channel, expected_method,
1008			amqp_time_infinite(), output);
1009			}
1010
1011	309		int amqp_send_method(amqp_connection_state_t state, amqp_channel_t channel,
1012			amqp_method_number_t id, void *decoded) {
1013	309		return amqp_send_method_inner(state, channel, id, decoded, AMQP_SF_NONE,
1014			amqp_time_infinite());
1015			}
1016
1017	414		int amqp_send_method_inner(amqp_connection_state_t state,
1018			amqp_channel_t channel, amqp_method_number_t id,
1019			void *decoded, int flags, amqp_time_t deadline) {
1020			amqp_frame_t frame;
1021
1022	414		frame.frame_type = AMQP_FRAME_METHOD;
1023	414		frame.channel = channel;
1024	414		frame.payload.method.id = id;
1025	414		frame.payload.method.decoded = decoded;
1026	414		return amqp_send_frame_inner(state, &frame, flags, deadline);
1027			}
1028
1029	680		static int amqp_id_in_reply_list(amqp_method_number_t expected,
1030			amqp_method_number_t *list) {
1031	724	100	while (*list != 0) {
1032	716	100	if (*list == expected) {
1033	672		return 1;
1034			}
1035	44		list++;
1036			}
1037	8		return 0;
1038			}
1039
1040	305		static amqp_rpc_reply_t simple_rpc_inner(
1041			amqp_connection_state_t state, amqp_channel_t channel,
1042			amqp_method_number_t request_id, amqp_method_number_t *expected_reply_ids,
1043			void *decoded_request_method, amqp_time_t deadline) {
1044			int status;
1045			amqp_rpc_reply_t result;
1046
1047	305		memset(&result, 0, sizeof(result));
1048
1049	305		status = amqp_send_method(state, channel, request_id, decoded_request_method);
1050	305	100	if (status < 0) {
1051	2		return amqp_rpc_reply_error(status);
1052			}
1053
1054			{
1055			amqp_frame_t frame;
1056
1057			retry:
1058	303		status = wait_frame_inner(state, &frame, deadline);
1059	303	100	if (status < 0) {
1060	1	50	if (status == AMQP_STATUS_TIMEOUT) {
1061	1		amqp_socket_close(state->socket, AMQP_SC_FORCE);
1062			}
1063	1		return amqp_rpc_reply_error(status);
1064			}
1065
1066			/*
1067			* We store the frame for later processing unless it's something
1068			* that directly affects us here, namely a method frame that is
1069			* either
1070			* - on the channel we want, and of the expected type, or
1071			* - on the channel we want, and a channel.close frame, or
1072			* - on channel zero, and a connection.close frame.
1073			*/
1074	302	50	if (!((frame.frame_type == AMQP_FRAME_METHOD) &&
		50
1075	302	100	(((frame.channel == channel) &&
1076	302		(amqp_id_in_reply_list(frame.payload.method.id,
1077	4	50	expected_reply_ids) \|\|
1078	0	0	(frame.payload.method.id == AMQP_CHANNEL_CLOSE_METHOD))) \|\|
1079	0	0	((frame.channel == 0) &&
1080	0		(frame.payload.method.id == AMQP_CONNECTION_CLOSE_METHOD))))) {
1081			amqp_pool_t *channel_pool;
1082			amqp_frame_t *frame_copy;
1083			amqp_link_t *link;
1084
1085	0		channel_pool = amqp_get_or_create_channel_pool(state, frame.channel);
1086	0	0	if (NULL == channel_pool) {
1087	0		return amqp_rpc_reply_error(AMQP_STATUS_NO_MEMORY);
1088			}
1089
1090	0		frame_copy = amqp_pool_alloc(channel_pool, sizeof(amqp_frame_t));
1091	0		link = amqp_pool_alloc(channel_pool, sizeof(amqp_link_t));
1092
1093	0	0	if (frame_copy == NULL \|\| link == NULL) {
		0
1094	0		return amqp_rpc_reply_error(AMQP_STATUS_NO_MEMORY);
1095			}
1096
1097	0		*frame_copy = frame;
1098
1099	0		link->next = NULL;
1100	0		link->data = frame_copy;
1101
1102	0	0	if (state->last_queued_frame == NULL) {
1103	0		state->first_queued_frame = link;
1104			} else {
1105	0		state->last_queued_frame->next = link;
1106			}
1107	0		state->last_queued_frame = link;
1108
1109	0		goto retry;
1110			}
1111
1112	302	100	result.reply_type =
1113	302		(amqp_id_in_reply_list(frame.payload.method.id, expected_reply_ids))
1114			? AMQP_RESPONSE_NORMAL
1115			: AMQP_RESPONSE_SERVER_EXCEPTION;
1116
1117	302		result.reply = frame.payload.method;
1118	305		return result;
1119			}
1120			}
1121
1122	56		amqp_rpc_reply_t amqp_simple_rpc(amqp_connection_state_t state,
1123			amqp_channel_t channel,
1124			amqp_method_number_t request_id,
1125			amqp_method_number_t *expected_reply_ids,
1126			void *decoded_request_method) {
1127			amqp_time_t deadline;
1128			int res;
1129
1130	56		res = amqp_time_from_now(&deadline, state->rpc_timeout);
1131	56	50	if (res != AMQP_STATUS_OK) {
1132	0		return amqp_rpc_reply_error(res);
1133			}
1134
1135	56		return simple_rpc_inner(state, channel, request_id, expected_reply_ids,
1136			decoded_request_method, deadline);
1137			}
1138
1139	211		void *amqp_simple_rpc_decoded(amqp_connection_state_t state,
1140			amqp_channel_t channel,
1141			amqp_method_number_t request_id,
1142			amqp_method_number_t reply_id,
1143			void *decoded_request_method) {
1144			amqp_time_t deadline;
1145			int res;
1146			amqp_method_number_t replies[2];
1147
1148	211		res = amqp_time_from_now(&deadline, state->rpc_timeout);
1149	211	50	if (res != AMQP_STATUS_OK) {
1150	0		state->most_recent_api_result = amqp_rpc_reply_error(res);
1151	0		return NULL;
1152			}
1153
1154	211		replies[0] = reply_id;
1155	211		replies[1] = 0;
1156
1157	211		state->most_recent_api_result = simple_rpc_inner(
1158			state, channel, request_id, replies, decoded_request_method, deadline);
1159
1160	211	100	if (state->most_recent_api_result.reply_type == AMQP_RESPONSE_NORMAL) {
1161	207		return state->most_recent_api_result.reply.decoded;
1162			} else {
1163	211		return NULL;
1164			}
1165			}
1166
1167	191		amqp_rpc_reply_t amqp_get_rpc_reply(amqp_connection_state_t state) {
1168	191		return state->most_recent_api_result;
1169			}
1170
1171			/*
1172			* Merge base and add tables. If the two tables contain an entry with the same
1173			* key, the entry from the add table takes precedence. For entries that are both
1174			* tables with the same key, the table is recursively merged.
1175			*/
1176	38		int amqp_merge_capabilities(const amqp_table_t base, const amqp_table_t add,
1177			amqp_table_t result, amqp_pool_t pool) {
1178			int i;
1179			int res;
1180			amqp_pool_t temp_pool;
1181			amqp_table_t temp_result;
1182	38	50	assert(base != NULL);
1183	38	50	assert(result != NULL);
1184	38	50	assert(pool != NULL);
1185
1186	38	50	if (NULL == add) {
1187	0		return amqp_table_clone(base, result, pool);
1188			}
1189
1190	38		init_amqp_pool(&temp_pool, 4096);
1191	38		temp_result.num_entries = 0;
1192	38		temp_result.entries =
1193	38		amqp_pool_alloc(&temp_pool, sizeof(amqp_table_entry_t) *
1194	38		(base->num_entries + add->num_entries));
1195	38	50	if (NULL == temp_result.entries) {
1196	0		res = AMQP_STATUS_NO_MEMORY;
1197	0		goto error_out;
1198			}
1199	266	100	for (i = 0; i < base->num_entries; ++i) {
1200	228		temp_result.entries[temp_result.num_entries] = base->entries[i];
1201	228		temp_result.num_entries++;
1202			}
1203	39	100	for (i = 0; i < add->num_entries; ++i) {
1204	1		amqp_table_entry_t *e =
1205	1		amqp_table_get_entry_by_key(&temp_result, add->entries[i].key);
1206	1	50	if (NULL != e) {
1207	0	0	if (AMQP_FIELD_KIND_TABLE == add->entries[i].value.kind &&
		0
1208	0		AMQP_FIELD_KIND_TABLE == e->value.kind) {
1209	0		amqp_table_entry_t *be =
1210	0		amqp_table_get_entry_by_key(base, add->entries[i].key);
1211
1212	0		res = amqp_merge_capabilities(&be->value.value.table,
1213	0		&add->entries[i].value.value.table,
1214			&e->value.value.table, &temp_pool);
1215	0	0	if (AMQP_STATUS_OK != res) {
1216	0		goto error_out;
1217			}
1218			} else {
1219	0		e->value = add->entries[i].value;
1220			}
1221			} else {
1222	1		temp_result.entries[temp_result.num_entries] = add->entries[i];
1223	1		temp_result.num_entries++;
1224			}
1225			}
1226	38		res = amqp_table_clone(&temp_result, result, pool);
1227			error_out:
1228	38		empty_amqp_pool(&temp_pool);
1229	38		return res;
1230			}
1231
1232	38		static amqp_rpc_reply_t amqp_login_inner(amqp_connection_state_t state,
1233			char const *vhost, int channel_max,
1234			int frame_max, int heartbeat,
1235			const amqp_table_t *client_properties,
1236			const struct timeval *timeout,
1237			amqp_sasl_method_enum sasl_method,
1238			va_list vl) {
1239			int res;
1240			amqp_method_t method;
1241
1242			uint16_t client_channel_max;
1243			uint32_t client_frame_max;
1244			uint16_t client_heartbeat;
1245
1246			uint16_t server_channel_max;
1247			uint32_t server_frame_max;
1248			uint16_t server_heartbeat;
1249
1250			amqp_rpc_reply_t result;
1251			amqp_time_t deadline;
1252
1253	38	50	if (channel_max < 0 \|\| channel_max > UINT16_MAX) {
		50
1254	0		return amqp_rpc_reply_error(AMQP_STATUS_INVALID_PARAMETER);
1255			}
1256	38		client_channel_max = (uint16_t)channel_max;
1257
1258	38	50	if (frame_max < 0) {
1259	0		return amqp_rpc_reply_error(AMQP_STATUS_INVALID_PARAMETER);
1260			}
1261	38		client_frame_max = (uint32_t)frame_max;
1262
1263	38	50	if (heartbeat < 0 \|\| heartbeat > UINT16_MAX) {
		50
1264	0		return amqp_rpc_reply_error(AMQP_STATUS_INVALID_PARAMETER);
1265			}
1266	38		client_heartbeat = (uint16_t)heartbeat;
1267
1268	38		res = amqp_time_from_now(&deadline, timeout);
1269	38	50	if (AMQP_STATUS_OK != res) {
1270	0		goto error_res;
1271			}
1272
1273	38		res = send_header_inner(state, deadline);
1274	38	50	if (AMQP_STATUS_OK != res) {
1275	0		goto error_res;
1276			}
1277
1278	38		res = simple_wait_method_inner(state, 0, AMQP_CONNECTION_START_METHOD,
1279			deadline, &method);
1280	38	50	if (AMQP_STATUS_OK != res) {
1281	0		goto error_res;
1282			}
1283
1284			{
1285	38		amqp_connection_start_t s = (amqp_connection_start_t )method.decoded;
1286	38	50	if ((s->version_major != AMQP_PROTOCOL_VERSION_MAJOR) \|\|
		50
1287	38		(s->version_minor != AMQP_PROTOCOL_VERSION_MINOR)) {
1288	0		res = AMQP_STATUS_INCOMPATIBLE_AMQP_VERSION;
1289	0		goto error_res;
1290			}
1291
1292	38		res = amqp_table_clone(&s->server_properties, &state->server_properties,
1293			&state->properties_pool);
1294
1295	38	50	if (AMQP_STATUS_OK != res) {
1296	0		goto error_res;
1297			}
1298
1299			/* TODO: check that our chosen SASL mechanism is in the list of
1300			acceptable mechanisms. Or even let the application choose from
1301			the list! */
1302	38	50	if (!sasl_mechanism_in_list(s->mechanisms, sasl_method)) {
1303	0		res = AMQP_STATUS_BROKER_UNSUPPORTED_SASL_METHOD;
1304	0		goto error_res;
1305			}
1306			}
1307
1308			{
1309			amqp_table_entry_t default_properties[6];
1310			amqp_table_t default_table;
1311			amqp_table_entry_t client_capabilities[2];
1312			amqp_table_t client_capabilities_table;
1313			amqp_connection_start_ok_t s;
1314			amqp_pool_t *channel_pool;
1315			amqp_bytes_t response_bytes;
1316
1317	38		channel_pool = amqp_get_or_create_channel_pool(state, 0);
1318	38	50	if (NULL == channel_pool) {
1319	0		res = AMQP_STATUS_NO_MEMORY;
1320	0		goto error_res;
1321			}
1322
1323	38		response_bytes = sasl_response(channel_pool, sasl_method, vl);
1324	38	50	if (response_bytes.bytes == NULL) {
1325	0		res = AMQP_STATUS_NO_MEMORY;
1326	0		goto error_res;
1327			}
1328
1329	38		client_capabilities[0] =
1330			amqp_table_construct_bool_entry("authentication_failure_close", 1);
1331	38		client_capabilities[1] =
1332			amqp_table_construct_bool_entry("exchange_exchange_bindings", 1);
1333
1334	38		client_capabilities_table.entries = client_capabilities;
1335	38		client_capabilities_table.num_entries =
1336			sizeof(client_capabilities) / sizeof(amqp_table_entry_t);
1337
1338	38		default_properties[0] =
1339			amqp_table_construct_utf8_entry("product", "rabbitmq-c");
1340	38		default_properties[1] =
1341			amqp_table_construct_utf8_entry("version", AMQP_VERSION_STRING);
1342	38		default_properties[2] =
1343			amqp_table_construct_utf8_entry("platform", AMQ_PLATFORM);
1344	38		default_properties[3] =
1345			amqp_table_construct_utf8_entry("copyright", AMQ_COPYRIGHT);
1346	38		default_properties[4] = amqp_table_construct_utf8_entry(
1347			"information", "See https://github.com/alanxz/rabbitmq-c");
1348	38		default_properties[5] = amqp_table_construct_table_entry(
1349			"capabilities", &client_capabilities_table);
1350
1351	38		default_table.entries = default_properties;
1352	38		default_table.num_entries =
1353			sizeof(default_properties) / sizeof(amqp_table_entry_t);
1354
1355	38		res = amqp_merge_capabilities(&default_table, client_properties,
1356			&state->client_properties, channel_pool);
1357	38	50	if (AMQP_STATUS_OK != res) {
1358	0		goto error_res;
1359			}
1360
1361	38		s.client_properties = state->client_properties;
1362	38		s.mechanism = sasl_method_name(sasl_method);
1363	38		s.response = response_bytes;
1364	38		s.locale = amqp_cstring_bytes("en_US");
1365
1366	38		res = amqp_send_method_inner(state, 0, AMQP_CONNECTION_START_OK_METHOD, &s,
1367			AMQP_SF_NONE, deadline);
1368	38	50	if (res < 0) {
1369	0		goto error_res;
1370			}
1371			}
1372
1373	38		amqp_release_buffers(state);
1374
1375			{
1376	38		amqp_method_number_t expected[] = {AMQP_CONNECTION_TUNE_METHOD,
1377			AMQP_CONNECTION_CLOSE_METHOD, 0};
1378
1379	38		res = amqp_simple_wait_method_list(state, 0, expected, deadline, &method);
1380	38	50	if (AMQP_STATUS_OK != res) {
1381	0		goto error_res;
1382			}
1383			}
1384
1385	38	50	if (AMQP_CONNECTION_CLOSE_METHOD == method.id) {
1386	0		result.reply_type = AMQP_RESPONSE_SERVER_EXCEPTION;
1387	0		result.reply = method;
1388	0		result.library_error = 0;
1389	0		goto out;
1390			}
1391
1392			{
1393	38		amqp_connection_tune_t s = (amqp_connection_tune_t )method.decoded;
1394	38		server_channel_max = s->channel_max;
1395	38		server_frame_max = s->frame_max;
1396	38		server_heartbeat = s->heartbeat;
1397			}
1398
1399	38	50	if (server_channel_max != 0 &&
		50
1400	38	50	(server_channel_max < client_channel_max \|\| client_channel_max == 0)) {
1401	38		client_channel_max = server_channel_max;
1402	0	0	} else if (server_channel_max == 0 && client_channel_max == 0) {
		0
1403	0		client_channel_max = UINT16_MAX;
1404			}
1405
1406	38	50	if (server_frame_max != 0 && server_frame_max < client_frame_max) {
		50
1407	0		client_frame_max = server_frame_max;
1408			}
1409
1410	38	50	if (server_heartbeat != 0 && server_heartbeat < client_heartbeat) {
		50
1411	0		client_heartbeat = server_heartbeat;
1412			}
1413
1414	38		res = amqp_tune_connection(state, client_channel_max, client_frame_max,
1415			client_heartbeat);
1416	38	50	if (res < 0) {
1417	0		goto error_res;
1418			}
1419
1420			{
1421			amqp_connection_tune_ok_t s;
1422	38		s.frame_max = client_frame_max;
1423	38		s.channel_max = client_channel_max;
1424	38		s.heartbeat = client_heartbeat;
1425
1426	38		res = amqp_send_method_inner(state, 0, AMQP_CONNECTION_TUNE_OK_METHOD, &s,
1427			AMQP_SF_NONE, deadline);
1428	38	50	if (res < 0) {
1429	0		goto error_res;
1430			}
1431			}
1432
1433	38		amqp_release_buffers(state);
1434
1435			{
1436	38		amqp_method_number_t replies[] = {AMQP_CONNECTION_OPEN_OK_METHOD, 0};
1437			amqp_connection_open_t s;
1438	38		s.virtual_host = amqp_cstring_bytes(vhost);
1439	38		s.capabilities = amqp_empty_bytes;
1440	38		s.insist = 1;
1441
1442	38		result = simple_rpc_inner(state, 0, AMQP_CONNECTION_OPEN_METHOD, replies,
1443			&s, deadline);
1444	38	50	if (result.reply_type != AMQP_RESPONSE_NORMAL) {
1445	0		goto out;
1446			}
1447			}
1448
1449	38		result.reply_type = AMQP_RESPONSE_NORMAL;
1450	38		result.reply.id = 0;
1451	38		result.reply.decoded = NULL;
1452	38		result.library_error = 0;
1453	38		amqp_maybe_release_buffers(state);
1454
1455			out:
1456	38		return result;
1457
1458			error_res:
1459	0		amqp_socket_close(state->socket, AMQP_SC_FORCE);
1460	0		result = amqp_rpc_reply_error(res);
1461
1462	38		goto out;
1463			}
1464
1465	0		amqp_rpc_reply_t amqp_login(amqp_connection_state_t state, char const *vhost,
1466			int channel_max, int frame_max, int heartbeat,
1467			int sasl_method, ...) {
1468			va_list vl;
1469			amqp_rpc_reply_t ret;
1470
1471	0		va_start(vl, sasl_method);
1472
1473	0		ret = amqp_login_inner(state, vhost, channel_max, frame_max, heartbeat,
1474	0		&amqp_empty_table, state->handshake_timeout,
1475			sasl_method, vl);
1476
1477	0		va_end(vl);
1478
1479	0		return ret;
1480			}
1481
1482	38		amqp_rpc_reply_t amqp_login_with_properties(
1483			amqp_connection_state_t state, char const *vhost, int channel_max,
1484			int frame_max, int heartbeat, const amqp_table_t *client_properties,
1485			int sasl_method, ...) {
1486			va_list vl;
1487			amqp_rpc_reply_t ret;
1488
1489	38		va_start(vl, sasl_method);
1490
1491	38		ret = amqp_login_inner(state, vhost, channel_max, frame_max, heartbeat,
1492	38		client_properties, state->handshake_timeout,
1493			sasl_method, vl);
1494
1495	38		va_end(vl);
1496
1497	38		return ret;
1498			}