xref: /freebsd/contrib/unbound/dnstap/dtstream.h (revision 6be3386466ab79a84b48429ae66244f21526d3df)
1 /*
2  * dnstap/dtstream.h - Frame Streams thread for unbound DNSTAP
3  *
4  * Copyright (c) 2020, NLnet Labs. All rights reserved.
5  *
6  * This software is open source.
7  *
8  * Redistribution and use in source and binary forms, with or without
9  * modification, are permitted provided that the following conditions
10  * are met:
11  *
12  * Redistributions of source code must retain the above copyright notice,
13  * this list of conditions and the following disclaimer.
14  *
15  * Redistributions in binary form must reproduce the above copyright notice,
16  * this list of conditions and the following disclaimer in the documentation
17  * and/or other materials provided with the distribution.
18  *
19  * Neither the name of the NLNET LABS nor the names of its contributors may
20  * be used to endorse or promote products derived from this software without
21  * specific prior written permission.
22  *
23  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
24  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
25  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
26  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
27  * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
28  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
29  * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
30  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
31  * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
32  * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
33  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
34  *
35  */
36 
37 /**
38  * \file
39  *
40  * An implementation of the Frame Streams data transport protocol for
41  * the Unbound DNSTAP message logging facility.
42  */
43 
44 #ifndef DTSTREAM_H
45 #define DTSTREAM_H
46 
47 #include "util/locks.h"
48 struct dt_msg_entry;
49 struct dt_io_list_item;
50 struct dt_io_thread;
51 struct config_file;
52 struct comm_base;
53 
54 /**
55  * A message buffer with dnstap messages queued up.  It is per-worker.
56  * It has locks to synchronize.  If the buffer is full, a new message
57  * cannot be added and is discarded.  A thread reads the messages and sends
58  * them.
59  */
60 struct dt_msg_queue {
61 	/** lock of the buffer structure.  Hold this lock to add or remove
62 	 * entries to the buffer.  Release it so that other threads can also
63 	 * put messages to log, or a message can be taken out to send away
64 	 * by the writer thread.
65 	 */
66 	lock_basic_type lock;
67 	/** the maximum size of the buffer, in bytes */
68 	size_t maxsize;
69 	/** current size of the buffer, in bytes.  data bytes of messages.
70 	 * If a new message make it more than maxsize, the buffer is full */
71 	size_t cursize;
72 	/** number of messages in the queue */
73 	int msgcount;
74 	/** list of messages.  The messages are added to the back and taken
75 	 * out from the front. */
76 	struct dt_msg_entry* first, *last;
77 	/** reference to the io thread to wakeup */
78 	struct dt_io_thread* dtio;
79 	/** the wakeup timer for dtio, on worker event base */
80 	struct comm_timer* wakeup_timer;
81 };
82 
83 /**
84  * An entry in the dt_msg_queue. contains one DNSTAP message.
85  * It is malloced.
86  */
87 struct dt_msg_entry {
88 	/** next in the list. */
89 	struct dt_msg_entry* next;
90 	/** the buffer with the data to send, an encoded DNSTAP message */
91 	void* buf;
92 	/** the length to send. */
93 	size_t len;
94 };
95 
96 /**
97  * Containing buffer and counter for reading DNSTAP frames.
98  */
99 struct dt_frame_read_buf {
100 	/** Buffer containing frame, except length counter(s). */
101 	void* buf;
102 	/** Number of bytes written to buffer. */
103 	size_t buf_count;
104 	/** Capacity of the buffer. */
105 	size_t buf_cap;
106 
107 	/** Frame length field. Will contain the 2nd length field for control
108 	 * frames. */
109 	uint32_t frame_len;
110 	/** Number of bytes that have been written to the frame_length field. */
111 	size_t frame_len_done;
112 
113 	/** Set to 1 if this is a control frame, 0 otherwise (ie data frame). */
114 	int control_frame;
115 };
116 
117 /**
118  * IO thread that reads from the queues and writes them.
119  */
120 struct dt_io_thread {
121 	/** the thread number for the dtio thread,
122 	 * must be first to cast thread arg to int* in checklock code. */
123 	int threadnum;
124 	/** event base, for event handling */
125 	void* event_base;
126 	/** list of queues that is registered to get written */
127 	struct dt_io_list_item* io_list;
128 	/** iterator point in the io_list, to pick from them in a
129 	 * round-robin fashion, instead of only from the first when busy.
130 	 * if NULL it means start at the start of the list. */
131 	struct dt_io_list_item* io_list_iter;
132 	/** thread id, of the io thread */
133 	ub_thread_type tid;
134 	/** if the io processing has started */
135 	int started;
136 	/** ssl context for the io thread, for tls connections. type SSL_CTX* */
137 	void* ssl_ctx;
138 	/** if SNI will be used for TLS connections. */
139 	int tls_use_sni;
140 
141 	/** file descriptor that the thread writes to */
142 	int fd;
143 	/** event structure that the thread uses */
144 	void* event;
145 	/** the event is added */
146 	int event_added;
147 	/** event added is a write event */
148 	int event_added_is_write;
149 	/** check for nonblocking connect errors on fd */
150 	int check_nb_connect;
151 	/** ssl for current connection, type SSL* */
152 	void* ssl;
153 	/** true if the handshake for SSL is done, 0 if not */
154 	int ssl_handshake_done;
155 	/** true if briefly the SSL wants a read event, 0 if not.
156 	 * This happens during negotiation, we then do not want to write,
157 	 * but wait for a read event. */
158 	int ssl_brief_read;
159 	/** true if SSL_read is waiting for a write event. Set back to 0 after
160 	 * single write event is handled. */
161 	int ssl_brief_write;
162 
163 	/** the buffer that currently getting written, or NULL if no
164 	 * (partial) message written now */
165 	void* cur_msg;
166 	/** length of the current message */
167 	size_t cur_msg_len;
168 	/** number of bytes written for the current message */
169 	size_t cur_msg_done;
170 	/** number of bytes of the length that have been written,
171 	 * for the current message length that precedes the frame */
172 	size_t cur_msg_len_done;
173 
174 	/** lock on wakeup_timer_enabled */
175 	lock_basic_type wakeup_timer_lock;
176 	/** if wakeup timer is enabled in some thread */
177 	int wakeup_timer_enabled;
178 	/** command pipe that stops the pipe if closed.  Used to quit
179 	 * the program. [0] is read, [1] is written to. */
180 	int commandpipe[2];
181 	/** the event to listen to the commandpipe */
182 	void* command_event;
183 	/** the io thread wants to exit */
184 	int want_to_exit;
185 
186 	/** in stop flush, this is nonNULL and references the stop_ev */
187 	void* stop_flush_event;
188 
189 	/** the timer event for connection retries */
190 	void* reconnect_timer;
191 	/** if the reconnect timer is added to the event base */
192 	int reconnect_is_added;
193 	/** the current reconnection timeout, it is increased with
194 	 * exponential backoff, in msec */
195 	int reconnect_timeout;
196 
197 	/** If the log server is connected to over unix domain sockets,
198 	 * eg. a file is named that is created to log onto. */
199 	int upstream_is_unix;
200 	/** if the log server is connected to over TCP.  The ip address and
201 	 * port are used */
202 	int upstream_is_tcp;
203 	/** if the log server is connected to over TLS.  ip address, port,
204 	 * and client certificates can be used for authentication. */
205 	int upstream_is_tls;
206 
207 	/** Perform bidirectional Frame Streams handshake before sending
208 	 * messages. */
209 	int is_bidirectional;
210 	/** Set if the READY control frame has been sent. */
211 	int ready_frame_sent;
212 	/** Set if valid ACCEPT frame is received. */
213 	int accept_frame_received;
214 	/** (partially) read frame */
215 	struct dt_frame_read_buf read_frame;
216 
217 	/** the file path for unix socket (or NULL) */
218 	char* socket_path;
219 	/** the ip address and port number (or NULL) */
220 	char* ip_str;
221 	/** is the TLS upstream authenticated by name, if nonNULL,
222 	 * we use the same cert bundle as used by other TLS streams. */
223 	char* tls_server_name;
224 	/** are client certificates in use */
225 	int use_client_certs;
226 	/** client cert files: the .key file */
227 	char* client_key_file;
228 	/** client cert files: the .pem file */
229 	char* client_cert_file;
230 };
231 
232 /**
233  * IO thread list of queues list item
234  * lists a worker queue that should be looked at and sent to the log server.
235  */
236 struct dt_io_list_item {
237 	/** next in the list of buffers to inspect */
238 	struct dt_io_list_item* next;
239 	/** buffer of this worker */
240 	struct dt_msg_queue* queue;
241 };
242 
243 /**
244  * Create new (empty) worker message queue. Limit set to default on max.
245  * @param base: event base for wakeup timer.
246  * @return NULL on malloc failure or a new queue (not locked).
247  */
248 struct dt_msg_queue* dt_msg_queue_create(struct comm_base* base);
249 
250 /**
251  * Delete a worker message queue.  It has to be unlinked from access,
252  * so it can be deleted without lock worries.  The queue is emptied (deleted).
253  * @param mq: message queue.
254  */
255 void dt_msg_queue_delete(struct dt_msg_queue* mq);
256 
257 /**
258  * Submit a message to the queue.  The queue is locked by the routine,
259  * the message is inserted, and then the queue is unlocked so the
260  * message can be picked up by the writer thread.
261  * @param mq: message queue.
262  * @param buf: buffer with message (dnstap contents).
263  * 	The buffer must have been malloced by caller.  It is linked in
264  * 	the queue, and is free()d after use.  If the routine fails
265  * 	the buffer is freed as well (and nothing happens, the item
266  * 	could not be logged).
267  * @param len: length of buffer.
268  */
269 void dt_msg_queue_submit(struct dt_msg_queue* mq, void* buf, size_t len);
270 
271 /** timer callback to wakeup dtio thread to process messages */
272 void mq_wakeup_cb(void* arg);
273 
274 /**
275  * Create IO thread.
276  * @return new io thread object. not yet started. or NULL malloc failure.
277  */
278 struct dt_io_thread* dt_io_thread_create(void);
279 
280 /**
281  * Delete the IO thread structure.
282  * @param dtio: the io thread that is deleted.  It must not be running.
283  */
284 void dt_io_thread_delete(struct dt_io_thread* dtio);
285 
286 /**
287  * Apply config to the dtio thread
288  * @param dtio: io thread, not yet started.
289  * @param cfg: config file struct.
290  * @return false on malloc failure.
291  */
292 int dt_io_thread_apply_cfg(struct dt_io_thread* dtio,
293 	struct config_file *cfg);
294 
295 /**
296  * Register a msg queue to the io thread.  It will be polled to see if
297  * there are messages and those then get removed and sent, when the thread
298  * is running.
299  * @param dtio: the io thread.
300  * @param mq: message queue to register.
301  * @return false on failure (malloc failure).
302  */
303 int dt_io_thread_register_queue(struct dt_io_thread* dtio,
304 	struct dt_msg_queue* mq);
305 
306 /**
307  * Unregister queue from io thread.
308  * @param dtio: the io thread.
309  * @param mq: message queue.
310  */
311 void dt_io_thread_unregister_queue(struct dt_io_thread* dtio,
312         struct dt_msg_queue* mq);
313 
314 /**
315  * Start the io thread
316  * @param dtio: the io thread.
317  * @param event_base_nothr: the event base to attach the events to, in case
318  * 	we are running without threads.  With threads, this is ignored
319  * 	and a thread is started to process the dnstap log messages.
320  * @param numworkers: number of worker threads.  The dnstap io thread is
321  * 	that number +1 as the threadnumber (in logs).
322  * @return false on failure.
323  */
324 int dt_io_thread_start(struct dt_io_thread* dtio, void* event_base_nothr,
325 	int numworkers);
326 
327 /**
328  * Stop the io thread
329  * @param dtio: the io thread.
330  */
331 void dt_io_thread_stop(struct dt_io_thread* dtio);
332 
333 /** callback for the dnstap reconnect, to start reconnecting to output */
334 void dtio_reconnect_timeout_cb(int fd, short bits, void* arg);
335 
336 /** callback for the dnstap events, to write to the output */
337 void dtio_output_cb(int fd, short bits, void* arg);
338 
339 /** callback for the dnstap commandpipe, to stop the dnstap IO */
340 void dtio_cmd_cb(int fd, short bits, void* arg);
341 
342 /** callback for the timer when the thread stops and wants to finish up */
343 void dtio_stop_timer_cb(int fd, short bits, void* arg);
344 
345 /** callback for the output when the thread stops and wants to finish up */
346 void dtio_stop_ev_cb(int fd, short bits, void* arg);
347 
348 /** callback for unbound-dnstap-socket */
349 void dtio_tap_callback(int fd, short bits, void* arg);
350 
351 /** callback for unbound-dnstap-socket */
352 void dtio_mainfdcallback(int fd, short bits, void* arg);
353 
354 #endif /* DTSTREAM_H */
355