1 /* Copyright 2002-2004 Justin Erenkrantz and Greg Stein
2 *
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at
6 *
7 * http://www.apache.org/licenses/LICENSE-2.0
8 *
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License.
14 */
15
16 #include <apr_pools.h>
17 #include <apr_poll.h>
18 #include <apr_version.h>
19
20 #include "serf.h"
21 #include "serf_bucket_util.h"
22
23 #include "serf_private.h"
24
25 /**
26 * Callback function (implements serf_progress_t). Takes a number of bytes
27 * read @a read and bytes written @a written, adds those to the total for this
28 * context and notifies an interested party (if any).
29 */
serf__context_progress_delta(void * progress_baton,apr_off_t read,apr_off_t written)30 void serf__context_progress_delta(
31 void *progress_baton,
32 apr_off_t read,
33 apr_off_t written)
34 {
35 serf_context_t *ctx = progress_baton;
36
37 ctx->progress_read += read;
38 ctx->progress_written += written;
39
40 if (ctx->progress_func)
41 ctx->progress_func(ctx->progress_baton,
42 ctx->progress_read,
43 ctx->progress_written);
44 }
45
46
47 /* Check for dirty connections and update their pollsets accordingly. */
check_dirty_pollsets(serf_context_t * ctx)48 static apr_status_t check_dirty_pollsets(serf_context_t *ctx)
49 {
50 int i;
51
52 /* if we're not dirty, return now. */
53 if (!ctx->dirty_pollset) {
54 return APR_SUCCESS;
55 }
56
57 for (i = ctx->conns->nelts; i--; ) {
58 serf_connection_t *conn = GET_CONN(ctx, i);
59 apr_status_t status;
60
61 /* if this connection isn't dirty, skip it. */
62 if (!conn->dirty_conn) {
63 continue;
64 }
65
66 /* reset this connection's flag before we update. */
67 conn->dirty_conn = 0;
68
69 if ((status = serf__conn_update_pollset(conn)) != APR_SUCCESS)
70 return status;
71 }
72
73 /* reset our context flag now */
74 ctx->dirty_pollset = 0;
75
76 return APR_SUCCESS;
77 }
78
79
pollset_add(void * user_baton,apr_pollfd_t * pfd,void * serf_baton)80 static apr_status_t pollset_add(void *user_baton,
81 apr_pollfd_t *pfd,
82 void *serf_baton)
83 {
84 serf_pollset_t *s = (serf_pollset_t*)user_baton;
85 pfd->client_data = serf_baton;
86 return apr_pollset_add(s->pollset, pfd);
87 }
88
pollset_rm(void * user_baton,apr_pollfd_t * pfd,void * serf_baton)89 static apr_status_t pollset_rm(void *user_baton,
90 apr_pollfd_t *pfd,
91 void *serf_baton)
92 {
93 serf_pollset_t *s = (serf_pollset_t*)user_baton;
94 pfd->client_data = serf_baton;
95 return apr_pollset_remove(s->pollset, pfd);
96 }
97
98
serf_config_proxy(serf_context_t * ctx,apr_sockaddr_t * address)99 void serf_config_proxy(serf_context_t *ctx,
100 apr_sockaddr_t *address)
101 {
102 ctx->proxy_address = address;
103 }
104
105
serf_config_credentials_callback(serf_context_t * ctx,serf_credentials_callback_t cred_cb)106 void serf_config_credentials_callback(serf_context_t *ctx,
107 serf_credentials_callback_t cred_cb)
108 {
109 ctx->cred_cb = cred_cb;
110 }
111
112
serf_config_authn_types(serf_context_t * ctx,int authn_types)113 void serf_config_authn_types(serf_context_t *ctx,
114 int authn_types)
115 {
116 ctx->authn_types = authn_types;
117 }
118
119
serf_context_create_ex(void * user_baton,serf_socket_add_t addf,serf_socket_remove_t rmf,apr_pool_t * pool)120 serf_context_t *serf_context_create_ex(
121 void *user_baton,
122 serf_socket_add_t addf,
123 serf_socket_remove_t rmf,
124 apr_pool_t *pool)
125 {
126 serf_context_t *ctx = apr_pcalloc(pool, sizeof(*ctx));
127
128 ctx->pool = pool;
129
130 if (user_baton != NULL) {
131 ctx->pollset_baton = user_baton;
132 ctx->pollset_add = addf;
133 ctx->pollset_rm = rmf;
134 }
135 else {
136 /* build the pollset with a (default) number of connections */
137 serf_pollset_t *ps = apr_pcalloc(pool, sizeof(*ps));
138
139 /* ### TODO: As of APR 1.4.x apr_pollset_create_ex can return a status
140 ### other than APR_SUCCESS, so we should handle it.
141 ### Probably move creation of the pollset to later when we have
142 ### the possibility of returning status to the caller.
143 */
144 #ifdef BROKEN_WSAPOLL
145 /* APR 1.4.x switched to using WSAPoll() on Win32, but it does not
146 * properly handle errors on a non-blocking sockets (such as
147 * connecting to a server where no listener is active).
148 *
149 * So, sadly, we must force using select() on Win32.
150 *
151 * http://mail-archives.apache.org/mod_mbox/apr-dev/201105.mbox/%3CBANLkTin3rBCecCBRvzUA5B-14u-NWxR_Kg@mail.gmail.com%3E
152 */
153 (void) apr_pollset_create_ex(&ps->pollset, MAX_CONN, pool, 0,
154 APR_POLLSET_SELECT);
155 #else
156 (void) apr_pollset_create(&ps->pollset, MAX_CONN, pool, 0);
157 #endif
158 ctx->pollset_baton = ps;
159 ctx->pollset_add = pollset_add;
160 ctx->pollset_rm = pollset_rm;
161 }
162
163 /* default to a single connection since that is the typical case */
164 ctx->conns = apr_array_make(pool, 1, sizeof(serf_connection_t *));
165
166 /* Initialize progress status */
167 ctx->progress_read = 0;
168 ctx->progress_written = 0;
169
170 ctx->authn_types = SERF_AUTHN_ALL;
171 ctx->server_authn_info = apr_hash_make(pool);
172
173 return ctx;
174 }
175
176
serf_context_create(apr_pool_t * pool)177 serf_context_t *serf_context_create(apr_pool_t *pool)
178 {
179 return serf_context_create_ex(NULL, NULL, NULL, pool);
180 }
181
serf_context_prerun(serf_context_t * ctx)182 apr_status_t serf_context_prerun(serf_context_t *ctx)
183 {
184 apr_status_t status = APR_SUCCESS;
185 if ((status = serf__open_connections(ctx)) != APR_SUCCESS)
186 return status;
187
188 if ((status = check_dirty_pollsets(ctx)) != APR_SUCCESS)
189 return status;
190 return status;
191 }
192
193
serf_event_trigger(serf_context_t * s,void * serf_baton,const apr_pollfd_t * desc)194 apr_status_t serf_event_trigger(
195 serf_context_t *s,
196 void *serf_baton,
197 const apr_pollfd_t *desc)
198 {
199 apr_pollfd_t tdesc = { 0 };
200 apr_status_t status = APR_SUCCESS;
201 serf_io_baton_t *io = serf_baton;
202
203 if (io->type == SERF_IO_CONN) {
204 serf_connection_t *conn = io->u.conn;
205 serf_context_t *ctx = conn->ctx;
206
207 /* If this connection has already failed, return the error again, and try
208 * to remove it from the pollset again
209 */
210 if (conn->status) {
211 tdesc.desc_type = APR_POLL_SOCKET;
212 tdesc.desc.s = conn->skt;
213 tdesc.reqevents = conn->reqevents;
214 ctx->pollset_rm(ctx->pollset_baton,
215 &tdesc, conn);
216 return conn->status;
217 }
218 /* apr_pollset_poll() can return a conn multiple times... */
219 if ((conn->seen_in_pollset & desc->rtnevents) != 0 ||
220 (conn->seen_in_pollset & APR_POLLHUP) != 0) {
221 return APR_SUCCESS;
222 }
223
224 conn->seen_in_pollset |= desc->rtnevents;
225
226 if ((conn->status = serf__process_connection(conn,
227 desc->rtnevents)) != APR_SUCCESS) {
228
229 /* it's possible that the connection was already reset and thus the
230 socket cleaned up. */
231 if (conn->skt) {
232 tdesc.desc_type = APR_POLL_SOCKET;
233 tdesc.desc.s = conn->skt;
234 tdesc.reqevents = conn->reqevents;
235 ctx->pollset_rm(ctx->pollset_baton,
236 &tdesc, conn);
237 }
238 return conn->status;
239 }
240 }
241 else if (io->type == SERF_IO_LISTENER) {
242 serf_listener_t *l = io->u.listener;
243
244 status = serf__process_listener(l);
245
246 if (status) {
247 return status;
248 }
249 }
250 else if (io->type == SERF_IO_CLIENT) {
251 serf_incoming_t *c = io->u.client;
252
253 status = serf__process_client(c, desc->rtnevents);
254
255 if (status) {
256 return status;
257 }
258 }
259 return status;
260 }
261
262
serf_context_run(serf_context_t * ctx,apr_short_interval_time_t duration,apr_pool_t * pool)263 apr_status_t serf_context_run(
264 serf_context_t *ctx,
265 apr_short_interval_time_t duration,
266 apr_pool_t *pool)
267 {
268 apr_status_t status;
269 apr_int32_t num;
270 const apr_pollfd_t *desc;
271 serf_pollset_t *ps = (serf_pollset_t*)ctx->pollset_baton;
272
273 if ((status = serf_context_prerun(ctx)) != APR_SUCCESS) {
274 return status;
275 }
276
277 if ((status = apr_pollset_poll(ps->pollset, duration, &num,
278 &desc)) != APR_SUCCESS) {
279 /* EINTR indicates a handled signal happened during the poll call,
280 ignore, the application can safely retry. */
281 if (APR_STATUS_IS_EINTR(status))
282 return APR_SUCCESS;
283
284 /* ### do we still need to dispatch stuff here?
285 ### look at the potential return codes. map to our defined
286 ### return values? ...
287 */
288
289 /* Use the strict documented error for poll timeouts, to allow proper
290 handling of the other timeout types when returned from
291 serf_event_trigger */
292 if (APR_STATUS_IS_TIMEUP(status))
293 return APR_TIMEUP; /* Return the documented error */
294 return status;
295 }
296
297 while (num--) {
298 serf_connection_t *conn = desc->client_data;
299
300 status = serf_event_trigger(ctx, conn, desc);
301 if (status) {
302 return status;
303 }
304
305 desc++;
306 }
307
308 return APR_SUCCESS;
309 }
310
311
serf_context_set_progress_cb(serf_context_t * ctx,const serf_progress_t progress_func,void * progress_baton)312 void serf_context_set_progress_cb(
313 serf_context_t *ctx,
314 const serf_progress_t progress_func,
315 void *progress_baton)
316 {
317 ctx->progress_func = progress_func;
318 ctx->progress_baton = progress_baton;
319 }
320
321
serf_context_bucket_socket_create(serf_context_t * ctx,apr_socket_t * skt,serf_bucket_alloc_t * allocator)322 serf_bucket_t *serf_context_bucket_socket_create(
323 serf_context_t *ctx,
324 apr_socket_t *skt,
325 serf_bucket_alloc_t *allocator)
326 {
327 serf_bucket_t *bucket = serf_bucket_socket_create(skt, allocator);
328
329 /* Use serf's default bytes read/written callback */
330 serf_bucket_socket_set_read_progress_cb(bucket,
331 serf__context_progress_delta,
332 ctx);
333
334 return bucket;
335 }
336
337
338 /* ### this really ought to go somewhere else, but... meh. */
serf_lib_version(int * major,int * minor,int * patch)339 void serf_lib_version(int *major, int *minor, int *patch)
340 {
341 *major = SERF_MAJOR_VERSION;
342 *minor = SERF_MINOR_VERSION;
343 *patch = SERF_PATCH_VERSION;
344 }
345
346
serf_error_string(apr_status_t errcode)347 const char *serf_error_string(apr_status_t errcode)
348 {
349 switch (errcode)
350 {
351 case SERF_ERROR_CLOSING:
352 return "The connection is closing";
353 case SERF_ERROR_REQUEST_LOST:
354 return "A request has been lost";
355 case SERF_ERROR_WAIT_CONN:
356 return "The connection is blocked, pending further action";
357 case SERF_ERROR_DECOMPRESSION_FAILED:
358 return "An error occurred during decompression";
359 case SERF_ERROR_BAD_HTTP_RESPONSE:
360 return "The server sent an improper HTTP response";
361 case SERF_ERROR_TRUNCATED_HTTP_RESPONSE:
362 return "The server sent a truncated HTTP response body.";
363 case SERF_ERROR_ABORTED_CONNECTION:
364 return "The server unexpectedly closed the connection.";
365 case SERF_ERROR_SSL_COMM_FAILED:
366 return "An error occurred during SSL communication";
367 case SERF_ERROR_SSL_CERT_FAILED:
368 return "An SSL certificate related error occurred ";
369 case SERF_ERROR_AUTHN_FAILED:
370 return "An error occurred during authentication";
371 case SERF_ERROR_AUTHN_NOT_SUPPORTED:
372 return "The requested authentication type(s) are not supported";
373 case SERF_ERROR_AUTHN_MISSING_ATTRIBUTE:
374 return "An authentication attribute is missing";
375 case SERF_ERROR_AUTHN_INITALIZATION_FAILED:
376 return "Initialization of an authentication type failed";
377 case SERF_ERROR_SSLTUNNEL_SETUP_FAILED:
378 return "The proxy server returned an error while setting up the "
379 "SSL tunnel.";
380 default:
381 return NULL;
382 }
383
384 /* NOTREACHED */
385 }
386