1 /* DNS test framework and libresolv redirection.
2 Copyright (C) 2016-2019 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
5 The GNU C Library is free software; you can redistribute it and/or
6 modify it under the terms of the GNU Lesser General Public
7 License as published by the Free Software Foundation; either
8 version 2.1 of the License, or (at your option) any later version.
10 The GNU C Library is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 Lesser General Public License for more details.
15 You should have received a copy of the GNU Lesser General Public
16 License along with the GNU C Library; if not, see
17 <https://www.gnu.org/licenses/>. */
19 #include <support/resolv_test.h>
21 #include <arpa/inet.h>
29 #include <support/check.h>
30 #include <support/namespace.h>
31 #include <support/support.h>
32 #include <support/test-driver.h>
33 #include <support/xsocket.h>
34 #include <support/xthread.h>
35 #include <support/xunistd.h>
39 /* Response builder. */
43 max_response_length
= 65536
46 /* Used for locating domain names containing for the purpose of
47 forming compression references. */
48 struct compressed_name
52 unsigned char name
[]; /* Without terminating NUL. */
55 static struct compressed_name
*
56 allocate_compressed_name (const unsigned char *encoded
, unsigned int offset
)
58 /* Compute the length of the domain name. */
61 const unsigned char *p
;
62 for (p
= encoded
; *p
!= '\0';)
64 /* No compression references are allowed. */
65 TEST_VERIFY (*p
<= 63);
66 /* Skip over the label. */
70 ++length
; /* For the terminating NUL byte. */
72 TEST_VERIFY_EXIT (length
<= 255);
74 struct compressed_name
*result
75 = xmalloc (offsetof (struct compressed_name
, name
) + length
);
76 result
->offset
= offset
;
77 result
->length
= length
;
78 memcpy (result
->name
, encoded
, length
);
82 /* Convert CH to lower case. Only change letters in the ASCII
84 static inline unsigned char
85 ascii_tolower (unsigned char ch
)
87 if ('A' <= ch
&& ch
<= 'Z')
88 return ch
- 'A' + 'a';
93 /* Compare both names, for use with tsearch. The order is arbitrary,
94 but the comparison is case-insenstive. */
96 compare_compressed_name (const void *left
, const void *right
)
98 const struct compressed_name
*crleft
= left
;
99 const struct compressed_name
*crright
= right
;
101 if (crleft
->length
!= crright
->length
)
102 /* The operands are converted to int before the subtraction. */
103 return crleft
->length
- crright
->length
;
105 const unsigned char *nameleft
= crleft
->name
;
106 const unsigned char *nameright
= crright
->name
;
110 int lenleft
= *nameleft
++;
111 int lenright
= *nameright
++;
113 /* Labels must not e compression references. */
114 TEST_VERIFY (lenleft
<= 63);
115 TEST_VERIFY (lenright
<= 63);
117 if (lenleft
!= lenright
)
120 /* End of name reached without spotting a difference. */
122 /* Compare the label in a case-insenstive manner. */
123 const unsigned char *endnameleft
= nameleft
+ lenleft
;
124 while (nameleft
< endnameleft
)
127 int r
= *nameright
++;
130 l
= ascii_tolower (l
);
131 r
= ascii_tolower (r
);
139 struct resolv_response_builder
141 const unsigned char *query_buffer
;
144 size_t offset
; /* Bytes written so far in buffer. */
145 ns_sect section
; /* Current section in the DNS packet. */
146 unsigned int truncate_bytes
; /* Bytes to remove at end of response. */
147 bool drop
; /* Discard generated response. */
148 bool close
; /* Close TCP client connection. */
150 /* Offset of the two-byte RDATA length field in the currently
151 written RDATA sub-structure. 0 if no RDATA is being written. */
152 size_t current_rdata_offset
;
154 /* tsearch tree for locating targets for label compression. */
155 void *compression_offsets
;
157 /* Must be last. Not zeroed for performance reasons. */
158 unsigned char buffer
[max_response_length
];
161 /* Response builder. */
164 resolv_response_init (struct resolv_response_builder
*b
,
165 struct resolv_response_flags flags
)
168 FAIL_EXIT1 ("response_init: called at offset %zu", b
->offset
);
169 if (b
->query_length
< 12)
170 FAIL_EXIT1 ("response_init called for a query of size %zu",
172 if (flags
.rcode
> 15)
173 FAIL_EXIT1 ("response_init: invalid RCODE %u", flags
.rcode
);
175 /* Copy the transaction ID. */
176 b
->buffer
[0] = b
->query_buffer
[0];
177 b
->buffer
[1] = b
->query_buffer
[1];
179 /* Initialize the flags. */
180 b
->buffer
[2] = 0x80; /* Mark as response. */
181 b
->buffer
[2] |= b
->query_buffer
[2] & 0x01; /* Copy the RD bit. */
183 b
->buffer
[2] |= 0x02;
184 b
->buffer
[3] = 0x80 | flags
.rcode
; /* Always set RA. */
186 /* Fill in the initial section count values. */
187 b
->buffer
[4] = flags
.qdcount
>> 8;
188 b
->buffer
[5] = flags
.qdcount
;
189 b
->buffer
[6] = flags
.ancount
>> 8;
190 b
->buffer
[7] = flags
.ancount
;
191 b
->buffer
[8] = flags
.nscount
>> 8;
192 b
->buffer
[9] = flags
.nscount
;
193 b
->buffer
[10] = flags
.adcount
>> 8;
194 b
->buffer
[11] = flags
.adcount
;
200 resolv_response_section (struct resolv_response_builder
*b
, ns_sect section
)
203 FAIL_EXIT1 ("resolv_response_section: response_init not called before");
204 if (section
< b
->section
)
205 FAIL_EXIT1 ("resolv_response_section: cannot go back to previous section");
206 b
->section
= section
;
209 /* Add a single byte to B. */
211 response_add_byte (struct resolv_response_builder
*b
, unsigned char ch
)
213 if (b
->offset
== max_response_length
)
214 FAIL_EXIT1 ("DNS response exceeds 64 KiB limit");
215 b
->buffer
[b
->offset
] = ch
;
219 /* Add a 16-bit word VAL to B, in big-endian format. */
221 response_add_16 (struct resolv_response_builder
*b
, uint16_t val
)
223 response_add_byte (b
, val
>> 8);
224 response_add_byte (b
, val
);
227 /* Increment the pers-section record counter in the packet header. */
229 response_count_increment (struct resolv_response_builder
*b
)
231 unsigned int offset
= b
->section
;
232 offset
= 4 + 2 * offset
;
233 ++b
->buffer
[offset
+ 1];
234 if (b
->buffer
[offset
+ 1] == 0)
238 if (b
->buffer
[offset
] == 0)
240 FAIL_EXIT1 ("too many records in section");
245 resolv_response_add_question (struct resolv_response_builder
*b
,
246 const char *name
, uint16_t class, uint16_t type
)
249 FAIL_EXIT1 ("resolv_response_add_question: "
250 "resolv_response_init not called");
251 if (b
->section
!= ns_s_qd
)
252 FAIL_EXIT1 ("resolv_response_add_question: "
253 "must be called in the question section");
255 resolv_response_add_name (b
, name
);
256 response_add_16 (b
, type
);
257 response_add_16 (b
, class);
259 response_count_increment (b
);
263 resolv_response_add_name (struct resolv_response_builder
*b
,
264 const char *const origname
)
266 unsigned char encoded_name
[NS_MAXDNAME
];
267 if (ns_name_pton (origname
, encoded_name
, sizeof (encoded_name
)) < 0)
268 FAIL_EXIT1 ("ns_name_pton (\"%s\"): %m", origname
);
270 /* Copy the encoded name into the output buffer, apply compression
272 for (const unsigned char *name
= encoded_name
; ;)
276 /* We have reached the end of the name. Add the terminating
278 response_add_byte (b
, '\0');
282 /* Set to the compression target if compression is possible. */
283 struct compressed_name
*crname_target
;
285 /* Compression references can only reach the beginning of the
287 enum { compression_limit
= 1 << 12 };
290 /* The trailing part of the name to be looked up in the tree
291 with the compression targets. */
292 struct compressed_name
*crname
293 = allocate_compressed_name (name
, b
->offset
);
295 if (b
->offset
< compression_limit
)
297 /* Add the name to the tree, for future compression
299 void **ptr
= tsearch (crname
, &b
->compression_offsets
,
300 compare_compressed_name
);
302 FAIL_EXIT1 ("tsearch out of memory");
303 crname_target
= *ptr
;
305 if (crname_target
!= crname
)
306 /* The new name was not actually added to the tree.
310 /* Signal that the tree did not yet contain the name,
311 but keep the allocation because it is now part of the
313 crname_target
= NULL
;
317 /* This name cannot be reached by a compression reference.
318 No need to add it to the tree for future reference. */
319 void **ptr
= tfind (crname
, &b
->compression_offsets
,
320 compare_compressed_name
);
322 crname_target
= *ptr
;
324 crname_target
= NULL
;
325 TEST_VERIFY (crname_target
!= crname
);
326 /* Not added to the tree. */
331 if (crname_target
!= NULL
)
333 /* The name is known. Reference the previous location. */
334 unsigned int old_offset
= crname_target
->offset
;
335 TEST_VERIFY_EXIT (old_offset
< compression_limit
);
336 response_add_byte (b
, 0xC0 | (old_offset
>> 8));
337 response_add_byte (b
, old_offset
);
342 /* The name is new. Add this label. */
343 unsigned int len
= 1 + *name
;
344 resolv_response_add_data (b
, name
, len
);
351 resolv_response_open_record (struct resolv_response_builder
*b
,
353 uint16_t class, uint16_t type
, uint32_t ttl
)
355 if (b
->section
== ns_s_qd
)
356 FAIL_EXIT1 ("resolv_response_open_record called in question section");
357 if (b
->current_rdata_offset
!= 0)
358 FAIL_EXIT1 ("resolv_response_open_record called with open record");
360 resolv_response_add_name (b
, name
);
361 response_add_16 (b
, type
);
362 response_add_16 (b
, class);
363 response_add_16 (b
, ttl
>> 16);
364 response_add_16 (b
, ttl
);
366 b
->current_rdata_offset
= b
->offset
;
367 /* Add room for the RDATA length. */
368 response_add_16 (b
, 0);
373 resolv_response_close_record (struct resolv_response_builder
*b
)
375 size_t rdata_offset
= b
->current_rdata_offset
;
376 if (rdata_offset
== 0)
377 FAIL_EXIT1 ("response_close_record called without open record");
378 size_t rdata_length
= b
->offset
- rdata_offset
- 2;
379 if (rdata_length
> 65535)
380 FAIL_EXIT1 ("RDATA length %zu exceeds limit", rdata_length
);
381 b
->buffer
[rdata_offset
] = rdata_length
>> 8;
382 b
->buffer
[rdata_offset
+ 1] = rdata_length
;
383 response_count_increment (b
);
384 b
->current_rdata_offset
= 0;
388 resolv_response_add_data (struct resolv_response_builder
*b
,
389 const void *data
, size_t length
)
391 size_t remaining
= max_response_length
- b
->offset
;
392 if (remaining
< length
)
393 FAIL_EXIT1 ("resolv_response_add_data: not enough room for %zu bytes",
395 memcpy (b
->buffer
+ b
->offset
, data
, length
);
400 resolv_response_drop (struct resolv_response_builder
*b
)
406 resolv_response_close (struct resolv_response_builder
*b
)
412 resolv_response_truncate_data (struct resolv_response_builder
*b
, size_t count
)
415 FAIL_EXIT1 ("resolv_response_truncate_data: argument too large: %zu",
417 b
->truncate_bytes
= count
;
422 resolv_response_length (const struct resolv_response_builder
*b
)
428 resolv_response_buffer (const struct resolv_response_builder
*b
)
430 unsigned char *result
= xmalloc (b
->offset
);
431 memcpy (result
, b
->buffer
, b
->offset
);
435 static struct resolv_response_builder
*
436 response_builder_allocate
437 (const unsigned char *query_buffer
, size_t query_length
)
439 struct resolv_response_builder
*b
= xmalloc (sizeof (*b
));
440 memset (b
, 0, offsetof (struct resolv_response_builder
, buffer
));
441 b
->query_buffer
= query_buffer
;
442 b
->query_length
= query_length
;
447 response_builder_free (struct resolv_response_builder
*b
)
449 tdestroy (b
->compression_offsets
, free
);
453 /* DNS query processing. */
455 /* Data extracted from the question section of a DNS packet. */
458 char qname
[MAXDNAME
];
461 struct resolv_edns_info edns
;
464 /* Update *INFO from the specified DNS packet. */
466 parse_query (struct query_info
*info
,
467 const unsigned char *buffer
, size_t length
)
470 _Static_assert (sizeof (hd
) == 12, "DNS header size");
471 if (length
< sizeof (hd
))
472 FAIL_EXIT1 ("malformed DNS query: too short: %zu bytes", length
);
473 memcpy (&hd
, buffer
, sizeof (hd
));
475 if (ntohs (hd
.qdcount
) != 1)
476 FAIL_EXIT1 ("malformed DNS query: wrong question count: %d",
477 (int) ntohs (hd
.qdcount
));
478 if (ntohs (hd
.ancount
) != 0)
479 FAIL_EXIT1 ("malformed DNS query: wrong answer count: %d",
480 (int) ntohs (hd
.ancount
));
481 if (ntohs (hd
.nscount
) != 0)
482 FAIL_EXIT1 ("malformed DNS query: wrong authority count: %d",
483 (int) ntohs (hd
.nscount
));
484 if (ntohs (hd
.arcount
) > 1)
485 FAIL_EXIT1 ("malformed DNS query: wrong additional count: %d",
486 (int) ntohs (hd
.arcount
));
488 int ret
= dn_expand (buffer
, buffer
+ length
, buffer
+ sizeof (hd
),
489 info
->qname
, sizeof (info
->qname
));
491 FAIL_EXIT1 ("malformed DNS query: cannot uncompress QNAME");
493 /* Obtain QTYPE and QCLASS. */
494 size_t remaining
= length
- (12 + ret
);
500 if (remaining
< sizeof (qtype_qclass
))
501 FAIL_EXIT1 ("malformed DNS query: "
502 "query lacks QCLASS/QTYPE, QNAME: %s", info
->qname
);
503 memcpy (&qtype_qclass
, buffer
+ 12 + ret
, sizeof (qtype_qclass
));
504 info
->qclass
= ntohs (qtype_qclass
.qclass
);
505 info
->qtype
= ntohs (qtype_qclass
.qtype
);
507 memset (&info
->edns
, 0, sizeof (info
->edns
));
508 if (ntohs (hd
.arcount
) > 0)
510 /* Parse EDNS record. */
511 struct __attribute__ ((packed
, aligned (1)))
516 uint8_t edns_extended_rcode
;
517 uint8_t edns_version
;
521 _Static_assert (sizeof (rr
) == 11, "EDNS record size");
523 if (remaining
< 4 + sizeof (rr
))
524 FAIL_EXIT1 ("mailformed DNS query: no room for EDNS record");
525 memcpy (&rr
, buffer
+ 12 + ret
+ 4, sizeof (rr
));
527 FAIL_EXIT1 ("malformed DNS query: invalid OPT RNAME: %d\n", rr
.root
);
528 if (rr
.rtype
!= htons (41))
529 FAIL_EXIT1 ("malformed DNS query: invalid OPT type: %d\n",
531 info
->edns
.active
= true;
532 info
->edns
.extended_rcode
= rr
.edns_extended_rcode
;
533 info
->edns
.version
= rr
.edns_version
;
534 info
->edns
.flags
= ntohs (rr
.flags
);
535 info
->edns
.payload_size
= ntohs (rr
.payload
);
540 /* Main testing framework. */
542 /* Per-server information. One struct is allocated for each test
544 struct resolv_test_server
546 /* Local address of the server. UDP and TCP use the same port. */
547 struct sockaddr_in address
;
549 /* File descriptor of the UDP server, or -1 if this server is
553 /* File descriptor of the TCP server, or -1 if this server is
557 /* Counter of the number of responses processed so far. */
558 size_t response_number
;
560 /* Thread handles for the server threads (if not disabled in the
562 pthread_t thread_udp
;
563 pthread_t thread_tcp
;
566 /* Main struct for keeping track of libresolv redirection and
570 /* After initialization, any access to the struct must be performed
571 while this lock is acquired. */
572 pthread_mutex_t lock
;
574 /* Data for each test server. */
575 struct resolv_test_server servers
[resolv_max_test_servers
];
577 /* Used if config.single_thread_udp is true. */
578 pthread_t thread_udp_single
;
580 struct resolv_redirect_config config
;
581 bool termination_requested
;
584 /* Function implementing a server thread. */
585 typedef void (*thread_callback
) (struct resolv_test
*, int server_index
);
587 /* Storage for thread-specific data, for passing to the
588 thread_callback function. */
589 struct thread_closure
591 struct resolv_test
*obj
; /* Current test object. */
592 thread_callback callback
; /* Function to call. */
593 int server_index
; /* Index of the implemented server. */
596 /* Wrap response_callback as a function which can be passed to
599 thread_callback_wrapper (void *arg
)
601 struct thread_closure
*closure
= arg
;
602 closure
->callback (closure
->obj
, closure
->server_index
);
607 /* Start a server thread for the specified SERVER_INDEX, implemented
610 start_server_thread (struct resolv_test
*obj
, int server_index
,
611 thread_callback callback
)
613 struct thread_closure
*closure
= xmalloc (sizeof (*closure
));
614 *closure
= (struct thread_closure
)
617 .callback
= callback
,
618 .server_index
= server_index
,
620 return xpthread_create (NULL
, thread_callback_wrapper
, closure
);
623 /* Process one UDP query. Return false if a termination requested has
626 server_thread_udp_process_one (struct resolv_test
*obj
, int server_index
)
628 unsigned char query
[512];
629 struct sockaddr_storage peer
;
630 socklen_t peerlen
= sizeof (peer
);
631 size_t length
= xrecvfrom (obj
->servers
[server_index
].socket_udp
,
632 query
, sizeof (query
), 0,
633 (struct sockaddr
*) &peer
, &peerlen
);
634 /* Check for termination. */
636 bool termination_requested
;
637 xpthread_mutex_lock (&obj
->lock
);
638 termination_requested
= obj
->termination_requested
;
639 xpthread_mutex_unlock (&obj
->lock
);
640 if (termination_requested
)
645 struct query_info qinfo
;
646 parse_query (&qinfo
, query
, length
);
647 if (test_verbose
> 0)
649 if (test_verbose
> 1)
650 printf ("info: UDP server %d: incoming query:"
651 " %zd bytes, %s/%u/%u, tnxid=0x%02x%02x\n",
652 server_index
, length
, qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
,
655 printf ("info: UDP server %d: incoming query:"
656 " %zd bytes, %s/%u/%u\n",
657 server_index
, length
, qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
660 struct resolv_response_context ctx
=
662 .query_buffer
= query
,
663 .query_length
= length
,
664 .server_index
= server_index
,
668 struct resolv_response_builder
*b
= response_builder_allocate (query
, length
);
669 obj
->config
.response_callback
670 (&ctx
, b
, qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
675 printf ("info: UDP server %d: dropping response to %s/%u/%u\n",
676 server_index
, qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
683 printf ("info: UDP server %d: sending response:"
684 " %zu bytes, RCODE %d (for %s/%u/%u)\n",
685 server_index
, b
->offset
, b
->buffer
[3] & 0x0f,
686 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
688 printf ("info: UDP server %d: sending response: %zu bytes"
690 server_index
, b
->offset
,
691 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
692 if (b
->truncate_bytes
> 0)
693 printf ("info: truncated by %u bytes\n", b
->truncate_bytes
);
695 size_t to_send
= b
->offset
;
696 if (to_send
< b
->truncate_bytes
)
699 to_send
-= b
->truncate_bytes
;
701 /* Ignore most errors here because the other end may have closed
703 if (sendto (obj
->servers
[server_index
].socket_udp
,
704 b
->buffer
, to_send
, 0,
705 (struct sockaddr
*) &peer
, peerlen
) < 0)
706 TEST_VERIFY_EXIT (errno
!= EBADF
);
708 response_builder_free (b
);
712 /* UDP thread_callback function. Variant for one thread per
715 server_thread_udp (struct resolv_test
*obj
, int server_index
)
717 while (server_thread_udp_process_one (obj
, server_index
))
721 /* Single-threaded UDP processing function, for the single_thread_udp
724 server_thread_udp_single (void *closure
)
726 struct resolv_test
*obj
= closure
;
728 struct pollfd fds
[resolv_max_test_servers
];
729 for (int server_index
= 0; server_index
< resolv_max_test_servers
;
731 if (obj
->config
.servers
[server_index
].disable_udp
)
732 fds
[server_index
] = (struct pollfd
) {.fd
= -1};
735 fds
[server_index
] = (struct pollfd
)
737 .fd
= obj
->servers
[server_index
].socket_udp
,
741 /* Make the socket non-blocking. */
742 int flags
= fcntl (obj
->servers
[server_index
].socket_udp
, F_GETFL
, 0);
744 FAIL_EXIT1 ("fcntl (F_GETFL): %m");
746 if (fcntl (obj
->servers
[server_index
].socket_udp
, F_SETFL
, flags
) < 0)
747 FAIL_EXIT1 ("fcntl (F_SETFL): %m");
752 xpoll (fds
, resolv_max_test_servers
, -1);
753 for (int server_index
= 0; server_index
< resolv_max_test_servers
;
755 if (fds
[server_index
].revents
!= 0)
757 if (!server_thread_udp_process_one (obj
, server_index
))
759 fds
[server_index
].revents
= 0;
767 /* Start the single UDP handler thread (for the single_thread_udp
770 start_server_thread_udp_single (struct resolv_test
*obj
)
772 obj
->thread_udp_single
773 = xpthread_create (NULL
, server_thread_udp_single
, obj
);
776 /* Data describing a TCP client connect. */
777 struct tcp_thread_closure
779 struct resolv_test
*obj
;
784 /* Read a complete DNS query packet. If EOF_OK, an immediate
785 end-of-file condition is acceptable. */
787 read_fully (int fd
, void *buf
, size_t len
, bool eof_ok
)
789 const void *const end
= buf
+ len
;
792 ssize_t ret
= read (fd
, buf
, end
- buf
);
797 support_record_failure ();
798 printf ("error: unexpected EOF on TCP connection\n");
804 if (!eof_ok
|| errno
!= ECONNRESET
)
806 support_record_failure ();
807 printf ("error: TCP read: %m\n");
817 /* Write an array of iovecs. Terminate the process on failure. */
819 writev_fully (int fd
, struct iovec
*buffers
, size_t count
)
823 /* Skip zero-length write requests. */
824 if (buffers
->iov_len
== 0)
830 /* Try to rewrite the remaing buffers. */
831 ssize_t ret
= writev (fd
, buffers
, count
);
833 FAIL_EXIT1 ("writev: %m");
835 FAIL_EXIT1 ("writev: invalid return value zero");
836 /* Find the buffers that were successfully written. */
840 FAIL_EXIT1 ("internal writev consistency failure");
841 /* Current buffer was partially written. */
842 if (buffers
->iov_len
> (size_t) ret
)
844 buffers
->iov_base
+= ret
;
845 buffers
->iov_len
-= ret
;
850 ret
-= buffers
->iov_len
;
851 buffers
->iov_len
= 0;
859 /* Thread callback for handling a single established TCP connection to
862 server_thread_tcp_client (void *arg
)
864 struct tcp_thread_closure
*closure
= arg
;
868 /* Read packet length. */
869 uint16_t query_length
;
870 if (!read_fully (closure
->client_socket
,
871 &query_length
, sizeof (query_length
), true))
873 query_length
= ntohs (query_length
);
875 /* Read the packet. */
876 unsigned char *query_buffer
= xmalloc (query_length
);
877 read_fully (closure
->client_socket
, query_buffer
, query_length
, false);
879 struct query_info qinfo
;
880 parse_query (&qinfo
, query_buffer
, query_length
);
881 if (test_verbose
> 0)
883 if (test_verbose
> 1)
884 printf ("info: UDP server %d: incoming query:"
885 " %d bytes, %s/%u/%u, tnxid=0x%02x%02x\n",
886 closure
->server_index
, query_length
,
887 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
,
888 query_buffer
[0], query_buffer
[1]);
890 printf ("info: TCP server %d: incoming query:"
891 " %u bytes, %s/%u/%u\n",
892 closure
->server_index
, query_length
,
893 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
896 struct resolv_response_context ctx
=
898 .query_buffer
= query_buffer
,
899 .query_length
= query_length
,
900 .server_index
= closure
->server_index
,
904 struct resolv_response_builder
*b
= response_builder_allocate
905 (query_buffer
, query_length
);
906 closure
->obj
->config
.response_callback
907 (&ctx
, b
, qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
912 printf ("info: TCP server %d: dropping response to %s/%u/%u\n",
913 closure
->server_index
,
914 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
919 printf ("info: TCP server %d: sending response: %zu bytes"
921 closure
->server_index
, b
->offset
,
922 qinfo
.qname
, qinfo
.qclass
, qinfo
.qtype
);
923 uint16_t length
= htons (b
->offset
);
924 size_t to_send
= b
->offset
;
925 if (to_send
< b
->truncate_bytes
)
928 to_send
-= b
->truncate_bytes
;
929 struct iovec buffers
[2] =
931 {&length
, sizeof (length
)},
934 writev_fully (closure
->client_socket
, buffers
, 2);
936 bool close_flag
= b
->close
;
937 response_builder_free (b
);
943 xclose (closure
->client_socket
);
948 /* thread_callback for the TCP case. Accept connections and create a
949 new thread for each client. */
951 server_thread_tcp (struct resolv_test
*obj
, int server_index
)
955 /* Get the client conenction. */
956 int client_socket
= xaccept
957 (obj
->servers
[server_index
].socket_tcp
, NULL
, NULL
);
959 /* Check for termination. */
960 xpthread_mutex_lock (&obj
->lock
);
961 if (obj
->termination_requested
)
963 xpthread_mutex_unlock (&obj
->lock
);
964 xclose (client_socket
);
967 xpthread_mutex_unlock (&obj
->lock
);
969 /* Spawn a new thread for handling this connection. */
970 struct tcp_thread_closure
*closure
= xmalloc (sizeof (*closure
));
971 *closure
= (struct tcp_thread_closure
)
974 .server_index
= server_index
,
975 .client_socket
= client_socket
,
979 = xpthread_create (NULL
, server_thread_tcp_client
, closure
);
980 /* TODO: We should keep track of this thread so that we can
981 block in resolv_test_end until it has exited. */
982 xpthread_detach (thr
);
986 /* Create UDP and TCP server sockets. */
988 make_server_sockets (struct resolv_test_server
*server
)
992 server
->socket_udp
= xsocket (AF_INET
, SOCK_DGRAM
, IPPROTO_UDP
);
993 server
->socket_tcp
= xsocket (AF_INET
, SOCK_STREAM
, IPPROTO_TCP
);
995 /* Pick the address for the UDP socket. */
996 server
->address
= (struct sockaddr_in
)
998 .sin_family
= AF_INET
,
999 .sin_addr
= {.s_addr
= htonl (INADDR_LOOPBACK
)}
1001 xbind (server
->socket_udp
,
1002 (struct sockaddr
*)&server
->address
, sizeof (server
->address
));
1004 /* Retrieve the address. */
1005 socklen_t addrlen
= sizeof (server
->address
);
1006 xgetsockname (server
->socket_udp
,
1007 (struct sockaddr
*)&server
->address
, &addrlen
);
1009 /* Bind the TCP socket to the same address. */
1012 xsetsockopt (server
->socket_tcp
, SOL_SOCKET
, SO_REUSEADDR
,
1015 if (bind (server
->socket_tcp
,
1016 (struct sockaddr
*)&server
->address
,
1017 sizeof (server
->address
)) != 0)
1019 /* Port collision. The UDP bind succeeded, but the TCP BIND
1020 failed. We assume here that the kernel will pick the
1021 next local UDP address randomly. */
1022 if (errno
== EADDRINUSE
)
1024 xclose (server
->socket_udp
);
1025 xclose (server
->socket_tcp
);
1028 FAIL_EXIT1 ("TCP bind: %m");
1030 xlisten (server
->socket_tcp
, 5);
1035 /* Like make_server_sockets, but the caller supplies the address to
1038 make_server_sockets_for_address (struct resolv_test_server
*server
,
1039 const struct sockaddr
*addr
)
1041 server
->socket_udp
= xsocket (AF_INET
, SOCK_DGRAM
, IPPROTO_UDP
);
1042 server
->socket_tcp
= xsocket (AF_INET
, SOCK_STREAM
, IPPROTO_TCP
);
1044 if (addr
->sa_family
== AF_INET
)
1045 server
->address
= *(const struct sockaddr_in
*) addr
;
1047 /* We cannot store the server address in the socket. This should
1048 not matter if disable_redirect is used. */
1049 server
->address
= (struct sockaddr_in
) { .sin_family
= 0, };
1051 xbind (server
->socket_udp
,
1052 (struct sockaddr
*)&server
->address
, sizeof (server
->address
));
1053 xbind (server
->socket_tcp
,
1054 (struct sockaddr
*)&server
->address
, sizeof (server
->address
));
1055 xlisten (server
->socket_tcp
, 5);
1058 /* One-time initialization of NSS. */
1060 resolv_redirect_once (void)
1062 /* Only use nss_dns. */
1063 __nss_configure_lookup ("hosts", "dns");
1064 __nss_configure_lookup ("networks", "dns");
1065 /* Enter a network namespace for isolation and firewall state
1066 cleanup. The tests will still work if these steps fail, but they
1067 may be less reliable. */
1068 support_become_root ();
1069 support_enter_network_namespace ();
1071 pthread_once_t resolv_redirect_once_var
= PTHREAD_ONCE_INIT
;
1074 resolv_test_init (void)
1076 /* Perform one-time initialization of NSS. */
1077 xpthread_once (&resolv_redirect_once_var
, resolv_redirect_once
);
1080 /* Copy the search path from CONFIG.search to the _res object. */
1082 set_search_path (struct resolv_redirect_config config
)
1084 memset (_res
.defdname
, 0, sizeof (_res
.defdname
));
1085 memset (_res
.dnsrch
, 0, sizeof (_res
.dnsrch
));
1087 char *current
= _res
.defdname
;
1088 char *end
= current
+ sizeof (_res
.defdname
);
1090 for (unsigned int i
= 0;
1091 i
< sizeof (config
.search
) / sizeof (config
.search
[0]); ++i
)
1093 if (config
.search
[i
] == NULL
)
1096 size_t length
= strlen (config
.search
[i
]) + 1;
1097 size_t remaining
= end
- current
;
1098 TEST_VERIFY_EXIT (length
<= remaining
);
1099 memcpy (current
, config
.search
[i
], length
);
1100 _res
.dnsrch
[i
] = current
;
1105 struct resolv_test
*
1106 resolv_test_start (struct resolv_redirect_config config
)
1108 /* Apply configuration defaults. */
1109 if (config
.nscount
== 0)
1110 config
.nscount
= resolv_max_test_servers
;
1112 struct resolv_test
*obj
= xmalloc (sizeof (*obj
));
1113 *obj
= (struct resolv_test
) {
1115 .lock
= PTHREAD_MUTEX_INITIALIZER
,
1118 if (!config
.disable_redirect
)
1119 resolv_test_init ();
1121 /* Create all the servers, to reserve the necessary ports. */
1122 for (int server_index
= 0; server_index
< config
.nscount
; ++server_index
)
1123 if (config
.disable_redirect
&& config
.server_address_overrides
!= NULL
)
1124 make_server_sockets_for_address
1125 (obj
->servers
+ server_index
,
1126 config
.server_address_overrides
[server_index
]);
1128 make_server_sockets (obj
->servers
+ server_index
);
1130 /* Start server threads. Disable the server ports, as
1132 for (int server_index
= 0; server_index
< config
.nscount
; ++server_index
)
1134 struct resolv_test_server
*server
= obj
->servers
+ server_index
;
1135 if (config
.servers
[server_index
].disable_udp
)
1137 xclose (server
->socket_udp
);
1138 server
->socket_udp
= -1;
1140 else if (!config
.single_thread_udp
)
1141 server
->thread_udp
= start_server_thread (obj
, server_index
,
1143 if (config
.servers
[server_index
].disable_tcp
)
1145 xclose (server
->socket_tcp
);
1146 server
->socket_tcp
= -1;
1149 server
->thread_tcp
= start_server_thread (obj
, server_index
,
1152 if (config
.single_thread_udp
)
1153 start_server_thread_udp_single (obj
);
1155 if (config
.disable_redirect
)
1160 /* Initialize libresolv. */
1161 TEST_VERIFY_EXIT (res_init () == 0);
1163 /* Disable IPv6 name server addresses. The code below only
1164 overrides the IPv4 addresses. */
1165 __res_iclose (&_res
, true);
1166 _res
._u
._ext
.nscount
= 0;
1168 /* Redirect queries to the server socket. */
1171 printf ("info: old timeout value: %d\n", _res
.retrans
);
1172 printf ("info: old retry attempt value: %d\n", _res
.retry
);
1173 printf ("info: old _res.options: 0x%lx\n", _res
.options
);
1174 printf ("info: old _res.nscount value: %d\n", _res
.nscount
);
1175 printf ("info: old _res.ndots value: %d\n", _res
.ndots
);
1177 _res
.retrans
= timeout
;
1179 _res
.nscount
= config
.nscount
;
1180 _res
.options
= RES_INIT
| RES_RECURSE
| RES_DEFNAMES
| RES_DNSRCH
;
1184 printf ("info: new timeout value: %d\n", _res
.retrans
);
1185 printf ("info: new retry attempt value: %d\n", _res
.retry
);
1186 printf ("info: new _res.options: 0x%lx\n", _res
.options
);
1187 printf ("info: new _res.nscount value: %d\n", _res
.nscount
);
1188 printf ("info: new _res.ndots value: %d\n", _res
.ndots
);
1190 for (int server_index
= 0; server_index
< config
.nscount
; ++server_index
)
1192 TEST_VERIFY_EXIT (obj
->servers
[server_index
].address
.sin_port
!= 0);
1193 _res
.nsaddr_list
[server_index
] = obj
->servers
[server_index
].address
;
1198 (inet_ntop (AF_INET
, &obj
->servers
[server_index
].address
.sin_addr
,
1199 buf
, sizeof (buf
)) != NULL
);
1200 printf ("info: server %d: %s/%u\n",
1202 htons (obj
->servers
[server_index
].address
.sin_port
));
1206 set_search_path (config
);
1212 resolv_test_end (struct resolv_test
*obj
)
1216 xpthread_mutex_lock (&obj
->lock
);
1217 obj
->termination_requested
= true;
1218 xpthread_mutex_unlock (&obj
->lock
);
1220 /* Send trigger packets to unblock the server threads. */
1221 for (int server_index
= 0; server_index
< obj
->config
.nscount
;
1224 if (!obj
->config
.servers
[server_index
].disable_udp
)
1226 int sock
= xsocket (AF_INET
, SOCK_DGRAM
, IPPROTO_UDP
);
1227 xsendto (sock
, "", 1, 0,
1228 (struct sockaddr
*) &obj
->servers
[server_index
].address
,
1229 sizeof (obj
->servers
[server_index
].address
));
1232 if (!obj
->config
.servers
[server_index
].disable_tcp
)
1234 int sock
= xsocket (AF_INET
, SOCK_STREAM
, IPPROTO_TCP
);
1236 (struct sockaddr
*) &obj
->servers
[server_index
].address
,
1237 sizeof (obj
->servers
[server_index
].address
));
1242 if (obj
->config
.single_thread_udp
)
1243 xpthread_join (obj
->thread_udp_single
);
1245 /* Wait for the server threads to terminate. */
1246 for (int server_index
= 0; server_index
< obj
->config
.nscount
;
1249 if (!obj
->config
.servers
[server_index
].disable_udp
)
1251 if (!obj
->config
.single_thread_udp
)
1252 xpthread_join (obj
->servers
[server_index
].thread_udp
);
1253 xclose (obj
->servers
[server_index
].socket_udp
);
1255 if (!obj
->config
.servers
[server_index
].disable_tcp
)
1257 xpthread_join (obj
->servers
[server_index
].thread_tcp
);
1258 xclose (obj
->servers
[server_index
].socket_tcp
);