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dd11e0b7 | 1 | /* |
262a0e14 | 2 | * $Id$ |
dd11e0b7 | 3 | * |
4 | * DEBUG: section 33 Client-side Routines | |
5 | * AUTHOR: Duane Wessels | |
6 | * | |
2b6662ba | 7 | * SQUID Web Proxy Cache http://www.squid-cache.org/ |
e25c139f | 8 | * ---------------------------------------------------------- |
dd11e0b7 | 9 | * |
2b6662ba | 10 | * Squid is the result of efforts by numerous individuals from |
11 | * the Internet community; see the CONTRIBUTORS file for full | |
12 | * details. Many organizations have provided support for Squid's | |
13 | * development; see the SPONSORS file for full details. Squid is | |
14 | * Copyrighted (C) 2001 by the Regents of the University of | |
15 | * California; see the COPYRIGHT file for full details. Squid | |
16 | * incorporates software developed and/or copyrighted by other | |
17 | * sources; see the CREDITS file for full details. | |
dd11e0b7 | 18 | * |
19 | * This program is free software; you can redistribute it and/or modify | |
20 | * it under the terms of the GNU General Public License as published by | |
21 | * the Free Software Foundation; either version 2 of the License, or | |
22 | * (at your option) any later version. | |
9e008dda | 23 | * |
dd11e0b7 | 24 | * This program is distributed in the hope that it will be useful, |
25 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | |
26 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
27 | * GNU General Public License for more details. | |
9e008dda | 28 | * |
dd11e0b7 | 29 | * You should have received a copy of the GNU General Public License |
30 | * along with this program; if not, write to the Free Software | |
cbdec147 | 31 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA. |
e25c139f | 32 | * |
dd11e0b7 | 33 | */ |
f88bb09c | 34 | |
63be0a78 | 35 | /** |
36 | \defgroup ClientSide Client-Side Logics | |
37 | * | |
d85b8894 | 38 | \section cserrors Errors and client side |
edce4d98 | 39 | * |
63be0a78 | 40 | \par Problem the first: |
41 | * the store entry is no longer authoritative on the | |
edce4d98 | 42 | * reply status. EBITTEST (E_ABORT) is no longer a valid test outside |
43 | * of client_side_reply.c. | |
44 | * Problem the second: resources are wasted if we delay in cleaning up. | |
45 | * Problem the third we can't depend on a connection close to clean up. | |
9e008dda | 46 | * |
63be0a78 | 47 | \par Nice thing the first: |
9e008dda | 48 | * Any step in the stream can callback with data |
edce4d98 | 49 | * representing an error. |
50 | * Nice thing the second: once you stop requesting reads from upstream, | |
51 | * upstream can be stopped too. | |
52 | * | |
63be0a78 | 53 | \par Solution #1: |
54 | * Error has a callback mechanism to hand over a membuf | |
9e008dda | 55 | * with the error content. The failing node pushes that back as the |
edce4d98 | 56 | * reply. Can this be generalised to reduce duplicate efforts? |
57 | * A: Possibly. For now, only one location uses this. | |
58 | * How to deal with pre-stream errors? | |
59 | * Tell client_side_reply that we *want* an error page before any | |
60 | * stream calls occur. Then we simply read as normal. | |
63be0a78 | 61 | * |
62 | * | |
d85b8894 | 63 | \section pconn_logic Persistent connection logic: |
63be0a78 | 64 | * |
65 | \par | |
66 | * requests (httpClientRequest structs) get added to the connection | |
67 | * list, with the current one being chr | |
9e008dda | 68 | * |
63be0a78 | 69 | \par |
70 | * The request is *immediately* kicked off, and data flows through | |
71 | * to clientSocketRecipient. | |
9e008dda | 72 | * |
63be0a78 | 73 | \par |
74 | * If the data that arrives at clientSocketRecipient is not for the current | |
75 | * request, clientSocketRecipient simply returns, without requesting more | |
76 | * data, or sending it. | |
77 | * | |
78 | \par | |
9e008dda AJ |
79 | * ClientKeepAliveNextRequest will then detect the presence of data in |
80 | * the next ClientHttpRequest, and will send it, restablishing the | |
63be0a78 | 81 | * data flow. |
edce4d98 | 82 | */ |
83 | ||
f88bb09c | 84 | #include "squid.h" |
04f55905 AJ |
85 | |
86 | #include "acl/FilledChecklist.h" | |
87 | #include "auth/UserRequest.h" | |
88 | #include "ChunkedCodingParser.h" | |
a46d2c0e | 89 | #include "client_side.h" |
04f55905 AJ |
90 | #include "client_side_reply.h" |
91 | #include "client_side_request.h" | |
92 | #include "ClientRequestContext.h" | |
c8be6d7b | 93 | #include "clientStream.h" |
c4b7a5a9 | 94 | #include "comm.h" |
ec41b64c | 95 | #include "comm/Write.h" |
04f55905 | 96 | #include "comm/ListenStateData.h" |
a67d2b2e | 97 | #include "base/TextException.h" |
04f55905 | 98 | #include "ConnectionDetail.h" |
056b24a1 | 99 | #include "eui/Config.h" |
04f55905 | 100 | #include "fde.h" |
25b6a907 | 101 | #include "HttpHdrContRange.h" |
528b2c61 | 102 | #include "HttpReply.h" |
103 | #include "HttpRequest.h" | |
4daaf3cb AJ |
104 | #include "ident/Config.h" |
105 | #include "ident/Ident.h" | |
96d89ea0 | 106 | #include "ip/Intercept.h" |
fe090a86 | 107 | #include "ipc/StartListening.h" |
0eb49b6d | 108 | #include "MemBuf.h" |
04f55905 AJ |
109 | #include "MemObject.h" |
110 | #include "ProtoPort.h" | |
1fa9b1a7 | 111 | #include "rfc1738.h" |
985c86bc | 112 | #include "SquidTime.h" |
04f55905 | 113 | #include "Store.h" |
5cafc1d6 | 114 | |
b4cd430a CT |
115 | #if DELAY_POOLS |
116 | #include "ClientInfo.h" | |
117 | #endif | |
118 | ||
95d2589c CT |
119 | #if USE_SSL |
120 | #include "ssl/context_storage.h" | |
121 | #include "ssl/helper.h" | |
122 | #include "ssl/gadgets.h" | |
123 | #endif | |
124 | #if USE_SSL_CRTD | |
125 | #include "ssl/crtd_message.h" | |
126 | #include "ssl/certificate_db.h" | |
127 | #endif | |
128 | ||
129 | #if HAVE_LIMITS | |
130 | #include <limits> | |
131 | #endif | |
132 | ||
5492ad1d | 133 | #if LINGERING_CLOSE |
134 | #define comm_close comm_lingering_close | |
135 | #endif | |
136 | ||
fe090a86 AR |
137 | /// dials clientHttpConnectionOpened or clientHttpsConnectionOpened call |
138 | class ListeningStartedDialer: public CallDialer, public Ipc::StartListeningCb | |
139 | { | |
140 | public: | |
141 | typedef void (*Handler)(int fd, int errNo, http_port_list *portCfg); | |
142 | ListeningStartedDialer(Handler aHandler, http_port_list *aPortCfg): | |
5667a628 | 143 | handler(aHandler), portCfg(aPortCfg) {} |
fe090a86 | 144 | |
5667a628 AR |
145 | virtual void print(std::ostream &os) const { |
146 | startPrint(os) << | |
147 | ", port=" << (void*)portCfg << ')'; | |
148 | } | |
fe090a86 AR |
149 | |
150 | virtual bool canDial(AsyncCall &) const { return true; } | |
151 | virtual void dial(AsyncCall &) { (handler)(fd, errNo, portCfg); } | |
152 | ||
153 | public: | |
154 | Handler handler; | |
155 | ||
156 | private: | |
157 | http_port_list *portCfg; ///< from Config.Sockaddr.http | |
158 | }; | |
159 | ||
160 | ||
161 | static void clientHttpConnectionOpened(int fd, int errNo, http_port_list *s); | |
00516be1 AR |
162 | #if USE_SSL |
163 | static void clientHttpsConnectionOpened(int fd, int errNo, http_port_list *s); | |
164 | #endif | |
fe090a86 | 165 | |
edce4d98 | 166 | /* our socket-related context */ |
62e76326 | 167 | |
62e76326 | 168 | |
0655fa4d | 169 | CBDATA_CLASS_INIT(ClientSocketContext); |
62e76326 | 170 | |
0655fa4d | 171 | void * |
172 | ClientSocketContext::operator new (size_t byteCount) | |
173 | { | |
174 | /* derived classes with different sizes must implement their own new */ | |
175 | assert (byteCount == sizeof (ClientSocketContext)); | |
176 | CBDATA_INIT_TYPE(ClientSocketContext); | |
177 | return cbdataAlloc(ClientSocketContext); | |
178 | } | |
62e76326 | 179 | |
0655fa4d | 180 | void |
181 | ClientSocketContext::operator delete (void *address) | |
182 | { | |
183 | cbdataFree (address); | |
184 | } | |
7a2f978b | 185 | |
edce4d98 | 186 | /* Local functions */ |
528b2c61 | 187 | /* ClientSocketContext */ |
59a1efb2 | 188 | static ClientSocketContext *ClientSocketContextNew(ClientHttpRequest *); |
edce4d98 | 189 | /* other */ |
2b663917 | 190 | static IOCB clientWriteComplete; |
191 | static IOCB clientWriteBodyComplete; | |
1cf238db | 192 | static bool clientParseRequest(ConnStateData * conn, bool &do_next_read); |
b5c39993 | 193 | static PF clientLifetimeTimeout; |
719c7e0a | 194 | static ClientSocketContext *parseHttpRequestAbort(ConnStateData * conn, const char *uri); |
1cf238db | 195 | static ClientSocketContext *parseHttpRequest(ConnStateData *, HttpParser *, HttpRequestMethod *, HttpVersion *); |
3898f57f | 196 | #if USE_IDENT |
05832ae1 | 197 | static IDCB clientIdentDone; |
3898f57f | 198 | #endif |
edce4d98 | 199 | static CSCB clientSocketRecipient; |
200 | static CSD clientSocketDetach; | |
59a1efb2 | 201 | static void clientSetKeepaliveFlag(ClientHttpRequest *); |
190154cf | 202 | static int clientIsContentLengthValid(HttpRequest * r); |
47f6e231 | 203 | static int clientIsRequestBodyTooLargeForPolicy(int64_t bodyLength); |
50c09fc4 | 204 | |
c8be6d7b | 205 | static void clientUpdateStatHistCounters(log_type logType, int svc_time); |
206 | static void clientUpdateStatCounters(log_type logType); | |
207 | static void clientUpdateHierCounters(HierarchyLogEntry *); | |
528b2c61 | 208 | static bool clientPingHasFinished(ping_data const *aPing); |
3ff65596 | 209 | void prepareLogWithRequestDetails(HttpRequest *, AccessLogEntry *); |
e4a67a80 | 210 | #ifndef PURIFY |
1cf238db | 211 | static int connIsUsable(ConnStateData * conn); |
e4a67a80 | 212 | #endif |
2324cda2 | 213 | static int responseFinishedOrFailed(HttpReply * rep, StoreIOBuffer const &receivedData); |
1cf238db | 214 | static void ClientSocketContextPushDeferredIfNeeded(ClientSocketContext::Pointer deferredRequest, ConnStateData * conn); |
c8be6d7b | 215 | static void clientUpdateSocketStats(log_type logType, size_t size); |
216 | ||
84cc2635 | 217 | char *skipLeadingSpace(char *aString); |
3b299123 | 218 | static void connNoteUseOfBuffer(ConnStateData* conn, size_t byteCount); |
62e76326 | 219 | |
b7ac5457 | 220 | static ConnStateData *connStateCreate(const Ip::Address &peer, const Ip::Address &me, int fd, http_port_list *port); |
528b2c61 | 221 | |
ae7ff0b8 | 222 | |
528b2c61 | 223 | int |
224 | ClientSocketContext::fd() const | |
225 | { | |
226 | assert (http); | |
94a396a3 | 227 | assert (http->getConn() != NULL); |
98242069 | 228 | return http->getConn()->fd; |
528b2c61 | 229 | } |
c8be6d7b | 230 | |
231 | clientStreamNode * | |
528b2c61 | 232 | ClientSocketContext::getTail() const |
c8be6d7b | 233 | { |
0655fa4d | 234 | if (http->client_stream.tail) |
235 | return (clientStreamNode *)http->client_stream.tail->data; | |
236 | ||
237 | return NULL; | |
c8be6d7b | 238 | } |
239 | ||
240 | clientStreamNode * | |
528b2c61 | 241 | ClientSocketContext::getClientReplyContext() const |
c8be6d7b | 242 | { |
528b2c61 | 243 | return (clientStreamNode *)http->client_stream.tail->prev->data; |
c8be6d7b | 244 | } |
245 | ||
63be0a78 | 246 | /** |
c4b7a5a9 | 247 | * This routine should be called to grow the inbuf and then |
248 | * call comm_read(). | |
249 | */ | |
250 | void | |
a46d2c0e | 251 | ConnStateData::readSomeData() |
c4b7a5a9 | 252 | { |
a46d2c0e | 253 | if (reading()) |
62e76326 | 254 | return; |
255 | ||
bf8fe701 | 256 | debugs(33, 4, "clientReadSomeData: FD " << fd << ": reading request..."); |
62e76326 | 257 | |
a46d2c0e | 258 | makeSpaceAvailable(); |
62e76326 | 259 | |
1cf238db | 260 | typedef CommCbMemFunT<ConnStateData, CommIoCbParams> Dialer; |
4299f876 | 261 | reader = JobCallback(33, 5, |
4cb2536f | 262 | Dialer, this, ConnStateData::clientReadRequest); |
f84dd7eb | 263 | comm_read(fd, in.addressToReadInto(), getAvailableBufferLength(), reader); |
c4b7a5a9 | 264 | } |
62e76326 | 265 | |
c4b7a5a9 | 266 | |
c8be6d7b | 267 | void |
1cf238db | 268 | ClientSocketContext::removeFromConnectionList(ConnStateData * conn) |
c8be6d7b | 269 | { |
0655fa4d | 270 | ClientSocketContext::Pointer *tempContextPointer; |
1cf238db | 271 | assert(conn != NULL && cbdataReferenceValid(conn)); |
94a396a3 | 272 | assert(conn->getCurrentContext() != NULL); |
c8be6d7b | 273 | /* Unlink us from the connection request list */ |
0655fa4d | 274 | tempContextPointer = & conn->currentobject; |
62e76326 | 275 | |
0655fa4d | 276 | while (tempContextPointer->getRaw()) { |
62e76326 | 277 | if (*tempContextPointer == this) |
278 | break; | |
279 | ||
280 | tempContextPointer = &(*tempContextPointer)->next; | |
c8be6d7b | 281 | } |
62e76326 | 282 | |
0655fa4d | 283 | assert(tempContextPointer->getRaw() != NULL); |
528b2c61 | 284 | *tempContextPointer = next; |
285 | next = NULL; | |
c8be6d7b | 286 | } |
ea6f43cd | 287 | |
0655fa4d | 288 | ClientSocketContext::~ClientSocketContext() |
f88bb09c | 289 | { |
0655fa4d | 290 | clientStreamNode *node = getTail(); |
291 | ||
292 | if (node) { | |
293 | ClientSocketContext *streamContext = dynamic_cast<ClientSocketContext *> (node->data.getRaw()); | |
294 | ||
295 | if (streamContext) { | |
296 | /* We are *always* the tail - prevent recursive free */ | |
297 | assert(this == streamContext); | |
298 | node->data = NULL; | |
299 | } | |
300 | } | |
301 | ||
302 | if (connRegistered_) | |
303 | deRegisterWithConn(); | |
304 | ||
305 | httpRequestFree(http); | |
306 | ||
edce4d98 | 307 | /* clean up connection links to us */ |
c53577d9 | 308 | assert(this != next.getRaw()); |
0655fa4d | 309 | } |
62e76326 | 310 | |
0655fa4d | 311 | void |
312 | ClientSocketContext::registerWithConn() | |
313 | { | |
314 | assert (!connRegistered_); | |
315 | assert (http); | |
94a396a3 | 316 | assert (http->getConn() != NULL); |
0655fa4d | 317 | connRegistered_ = true; |
98242069 | 318 | http->getConn()->addContextToQueue(this); |
0655fa4d | 319 | } |
320 | ||
321 | void | |
322 | ClientSocketContext::deRegisterWithConn() | |
323 | { | |
324 | assert (connRegistered_); | |
98242069 | 325 | removeFromConnectionList(http->getConn()); |
0655fa4d | 326 | connRegistered_ = false; |
327 | } | |
328 | ||
329 | void | |
330 | ClientSocketContext::connIsFinished() | |
331 | { | |
332 | assert (http); | |
94a396a3 | 333 | assert (http->getConn() != NULL); |
0655fa4d | 334 | deRegisterWithConn(); |
335 | /* we can't handle any more stream data - detach */ | |
336 | clientStreamDetach(getTail(), http); | |
337 | } | |
338 | ||
fedd1531 | 339 | ClientSocketContext::ClientSocketContext() : http(NULL), reply(NULL), next(NULL), |
0655fa4d | 340 | writtenToSocket(0), |
341 | mayUseConnection_ (false), | |
342 | connRegistered_ (false) | |
343 | { | |
344 | memset (reqbuf, '\0', sizeof (reqbuf)); | |
345 | flags.deferred = 0; | |
346 | flags.parsed_ok = 0; | |
347 | deferredparams.node = NULL; | |
348 | deferredparams.rep = NULL; | |
f88bb09c | 349 | } |
350 | ||
528b2c61 | 351 | ClientSocketContext * |
59a1efb2 | 352 | ClientSocketContextNew(ClientHttpRequest * http) |
f88bb09c | 353 | { |
528b2c61 | 354 | ClientSocketContext *newContext; |
edce4d98 | 355 | assert(http != NULL); |
0655fa4d | 356 | newContext = new ClientSocketContext; |
c8be6d7b | 357 | newContext->http = http; |
358 | return newContext; | |
4d55827a | 359 | } |
360 | ||
655daa06 AR |
361 | void |
362 | ClientSocketContext::writeControlMsg(HttpControlMsg &msg) | |
363 | { | |
364 | HttpReply *rep = msg.reply; | |
365 | Must(rep); | |
366 | ||
367 | // apply selected clientReplyContext::buildReplyHeader() mods | |
368 | // it is not clear what headers are required for control messages | |
369 | rep->header.removeHopByHopEntries(); | |
370 | rep->header.putStr(HDR_CONNECTION, "keep-alive"); | |
371 | httpHdrMangleList(&rep->header, http->request, ROR_REPLY); | |
372 | ||
373 | // remember the callback | |
374 | cbControlMsgSent = msg.cbSuccess; | |
375 | ||
376 | MemBuf *mb = rep->pack(); | |
377 | ||
378 | AsyncCall::Pointer call = commCbCall(33, 5, "ClientSocketContext::wroteControlMsg", | |
379 | CommIoCbPtrFun(&WroteControlMsg, this)); | |
ec41b64c | 380 | Comm::Write(fd(), mb, call); |
655daa06 AR |
381 | |
382 | delete mb; | |
383 | } | |
384 | ||
385 | /// called when we wrote the 1xx response | |
386 | void | |
387 | ClientSocketContext::wroteControlMsg(int fd, char *, size_t, comm_err_t errflag, int xerrno) | |
388 | { | |
389 | if (errflag == COMM_ERR_CLOSING) | |
390 | return; | |
391 | ||
392 | if (errflag == COMM_OK) { | |
393 | ScheduleCallHere(cbControlMsgSent); | |
394 | return; | |
395 | } | |
396 | ||
397 | debugs(33, 3, HERE << "1xx writing failed: " << xstrerr(xerrno)); | |
398 | // no error notification: see HttpControlMsg.h for rationale and | |
399 | // note that some errors are detected elsewhere (e.g., close handler) | |
400 | ||
401 | // close on 1xx errors to be conservative and to simplify the code | |
402 | // (if we do not close, we must notify the source of a failure!) | |
403 | comm_close(fd); | |
404 | } | |
405 | ||
406 | /// wroteControlMsg() wrapper: ClientSocketContext is not an AsyncJob | |
407 | void | |
408 | ClientSocketContext::WroteControlMsg(int fd, char *bufnotused, size_t size, comm_err_t errflag, int xerrno, void *data) | |
409 | { | |
410 | ClientSocketContext *context = static_cast<ClientSocketContext*>(data); | |
411 | context->wroteControlMsg(fd, bufnotused, size, errflag, xerrno); | |
412 | } | |
413 | ||
edce4d98 | 414 | #if USE_IDENT |
4d55827a | 415 | static void |
edce4d98 | 416 | clientIdentDone(const char *ident, void *data) |
4d55827a | 417 | { |
cc59d02a | 418 | ConnStateData *conn = (ConnStateData *)data; |
edce4d98 | 419 | xstrncpy(conn->rfc931, ident ? ident : dash_str, USER_IDENT_SZ); |
e81957b7 | 420 | } |
447e176b | 421 | #endif |
7a2f978b | 422 | |
c8be6d7b | 423 | void |
424 | clientUpdateStatCounters(log_type logType) | |
a7c05555 | 425 | { |
83704487 | 426 | statCounter.client_http.requests++; |
62e76326 | 427 | |
c8be6d7b | 428 | if (logTypeIsATcpHit(logType)) |
62e76326 | 429 | statCounter.client_http.hits++; |
430 | ||
c8be6d7b | 431 | if (logType == LOG_TCP_HIT) |
62e76326 | 432 | statCounter.client_http.disk_hits++; |
c8be6d7b | 433 | else if (logType == LOG_TCP_MEM_HIT) |
62e76326 | 434 | statCounter.client_http.mem_hits++; |
c8be6d7b | 435 | } |
436 | ||
437 | void | |
438 | clientUpdateStatHistCounters(log_type logType, int svc_time) | |
439 | { | |
83704487 | 440 | statHistCount(&statCounter.client_http.all_svc_time, svc_time); |
63be0a78 | 441 | /** |
ee1679df | 442 | * The idea here is not to be complete, but to get service times |
443 | * for only well-defined types. For example, we don't include | |
1d7ab0f4 | 444 | * LOG_TCP_REFRESH_FAIL because its not really a cache hit |
ee1679df | 445 | * (we *tried* to validate it, but failed). |
446 | */ | |
62e76326 | 447 | |
c8be6d7b | 448 | switch (logType) { |
62e76326 | 449 | |
1d7ab0f4 | 450 | case LOG_TCP_REFRESH_UNMODIFIED: |
62e76326 | 451 | statHistCount(&statCounter.client_http.nh_svc_time, svc_time); |
452 | break; | |
453 | ||
ee1679df | 454 | case LOG_TCP_IMS_HIT: |
62e76326 | 455 | statHistCount(&statCounter.client_http.nm_svc_time, svc_time); |
456 | break; | |
457 | ||
ee1679df | 458 | case LOG_TCP_HIT: |
62e76326 | 459 | |
ee1679df | 460 | case LOG_TCP_MEM_HIT: |
62e76326 | 461 | |
b540e168 | 462 | case LOG_TCP_OFFLINE_HIT: |
62e76326 | 463 | statHistCount(&statCounter.client_http.hit_svc_time, svc_time); |
464 | break; | |
465 | ||
ee1679df | 466 | case LOG_TCP_MISS: |
62e76326 | 467 | |
ee1679df | 468 | case LOG_TCP_CLIENT_REFRESH_MISS: |
62e76326 | 469 | statHistCount(&statCounter.client_http.miss_svc_time, svc_time); |
470 | break; | |
471 | ||
ee1679df | 472 | default: |
62e76326 | 473 | /* make compiler warnings go away */ |
474 | break; | |
ee1679df | 475 | } |
c8be6d7b | 476 | } |
477 | ||
528b2c61 | 478 | bool |
c8be6d7b | 479 | clientPingHasFinished(ping_data const *aPing) |
480 | { | |
481 | if (0 != aPing->stop.tv_sec && 0 != aPing->start.tv_sec) | |
62e76326 | 482 | return true; |
483 | ||
528b2c61 | 484 | return false; |
c8be6d7b | 485 | } |
486 | ||
487 | void | |
488 | clientUpdateHierCounters(HierarchyLogEntry * someEntry) | |
489 | { | |
490 | ping_data *i; | |
62e76326 | 491 | |
c8547a11 | 492 | switch (someEntry->code) { |
493 | #if USE_CACHE_DIGESTS | |
62e76326 | 494 | |
c8547a11 | 495 | case CD_PARENT_HIT: |
62e76326 | 496 | |
a196e1e4 | 497 | case CD_SIBLING_HIT: |
62e76326 | 498 | statCounter.cd.times_used++; |
499 | break; | |
c8547a11 | 500 | #endif |
62e76326 | 501 | |
c8547a11 | 502 | case SIBLING_HIT: |
62e76326 | 503 | |
c8547a11 | 504 | case PARENT_HIT: |
62e76326 | 505 | |
c8547a11 | 506 | case FIRST_PARENT_MISS: |
62e76326 | 507 | |
c8547a11 | 508 | case CLOSEST_PARENT_MISS: |
62e76326 | 509 | statCounter.icp.times_used++; |
510 | i = &someEntry->ping; | |
511 | ||
512 | if (clientPingHasFinished(i)) | |
513 | statHistCount(&statCounter.icp.query_svc_time, | |
514 | tvSubUsec(i->start, i->stop)); | |
515 | ||
516 | if (i->timeout) | |
517 | statCounter.icp.query_timeouts++; | |
518 | ||
519 | break; | |
520 | ||
c8547a11 | 521 | case CLOSEST_PARENT: |
62e76326 | 522 | |
c8547a11 | 523 | case CLOSEST_DIRECT: |
62e76326 | 524 | statCounter.netdb.times_used++; |
525 | ||
526 | break; | |
527 | ||
69c95dd3 | 528 | default: |
62e76326 | 529 | break; |
17b6e784 | 530 | } |
a7c05555 | 531 | } |
532 | ||
528b2c61 | 533 | void |
534 | ClientHttpRequest::updateCounters() | |
c8be6d7b | 535 | { |
528b2c61 | 536 | clientUpdateStatCounters(logType); |
62e76326 | 537 | |
528b2c61 | 538 | if (request->errType != ERR_NONE) |
62e76326 | 539 | statCounter.client_http.errors++; |
540 | ||
528b2c61 | 541 | clientUpdateStatHistCounters(logType, |
1cf238db | 542 | tvSubMsec(start_time, current_time)); |
62e76326 | 543 | |
528b2c61 | 544 | clientUpdateHierCounters(&request->hier); |
c8be6d7b | 545 | } |
546 | ||
edce4d98 | 547 | void |
3ff65596 | 548 | prepareLogWithRequestDetails(HttpRequest * request, AccessLogEntry * aLogEntry) |
7a2f978b | 549 | { |
c8be6d7b | 550 | assert(request); |
551 | assert(aLogEntry); | |
7684c4b1 | 552 | |
e1381638 | 553 | #if ICAP_CLIENT |
3ff65596 AR |
554 | Adaptation::Icap::History::Pointer ih = request->icapHistory(); |
555 | #endif | |
7684c4b1 | 556 | if (Config.onoff.log_mime_hdrs) { |
557 | Packer p; | |
558 | MemBuf mb; | |
2fe7eff9 | 559 | mb.init(); |
7684c4b1 | 560 | packerToMemInit(&p, &mb); |
a9925b40 | 561 | request->header.packInto(&p); |
105d1937 A |
562 | //This is the request after adaptation or redirection |
563 | aLogEntry->headers.adapted_request = xstrdup(mb.buf); | |
564 | ||
565 | // the virgin request is saved to aLogEntry->request | |
566 | if (aLogEntry->request) { | |
567 | packerClean(&p); | |
568 | mb.reset(); | |
569 | packerToMemInit(&p, &mb); | |
570 | aLogEntry->request->header.packInto(&p); | |
571 | aLogEntry->headers.request = xstrdup(mb.buf); | |
572 | } | |
3ff65596 AR |
573 | |
574 | #if ICAP_CLIENT | |
575 | packerClean(&p); | |
576 | mb.reset(); | |
577 | packerToMemInit(&p, &mb); | |
578 | ||
579 | if (ih != NULL) | |
580 | ih->lastIcapHeader.packInto(&p); | |
581 | aLogEntry->headers.icap = xstrdup(mb.buf); | |
582 | #endif | |
583 | ||
7684c4b1 | 584 | packerClean(&p); |
2fe7eff9 | 585 | mb.clean(); |
7684c4b1 | 586 | } |
587 | ||
3ff65596 AR |
588 | #if ICAP_CLIENT |
589 | if (ih != NULL) | |
590 | aLogEntry->icap.processingTime = ih->processingTime(); | |
591 | #endif | |
592 | ||
c8be6d7b | 593 | aLogEntry->http.method = request->method; |
594 | aLogEntry->http.version = request->http_ver; | |
c8be6d7b | 595 | aLogEntry->hier = request->hier; |
3ff65596 AR |
596 | if (request->content_length > 0) // negative when no body or unknown length |
597 | aLogEntry->cache.requestSize += request->content_length; | |
5b4117d8 | 598 | aLogEntry->cache.extuser = request->extacl_user.termedBuf(); |
abb929f0 | 599 | |
a33a428a | 600 | if (request->auth_user_request != NULL) { |
f5691f9c | 601 | |
602 | if (request->auth_user_request->username()) | |
a33a428a | 603 | aLogEntry->cache.authuser = xstrdup(request->auth_user_request->username()); |
f5292c64 | 604 | |
ea0695f2 | 605 | // WTF?? request->auth_user_request = NULL; |
7a2f978b | 606 | } |
64b66b76 CT |
607 | |
608 | if (aLogEntry->request) { | |
609 | aLogEntry->request->errType = request->errType; | |
610 | aLogEntry->request->errDetail = request->errDetail; | |
611 | } | |
c8be6d7b | 612 | } |
613 | ||
614 | void | |
528b2c61 | 615 | ClientHttpRequest::logRequest() |
616 | { | |
617 | if (out.size || logType) { | |
62e76326 | 618 | al.icp.opcode = ICP_INVALID; |
619 | al.url = log_uri; | |
bf8fe701 | 620 | debugs(33, 9, "clientLogRequest: al.url='" << al.url << "'"); |
62e76326 | 621 | |
90a8964c | 622 | if (al.reply) { |
623 | al.http.code = al.reply->sline.status; | |
5b4117d8 | 624 | al.http.content_type = al.reply->content_type.termedBuf(); |
90a8964c | 625 | } else if (loggingEntry() && loggingEntry()->mem_obj) { |
0976f8db | 626 | al.http.code = loggingEntry()->mem_obj->getReply()->sline.status; |
bb790702 | 627 | al.http.content_type = loggingEntry()->mem_obj->getReply()->content_type.termedBuf(); |
62e76326 | 628 | } |
629 | ||
bf8fe701 | 630 | debugs(33, 9, "clientLogRequest: http.code='" << al.http.code << "'"); |
5f8252d2 | 631 | |
90a8964c | 632 | if (loggingEntry() && loggingEntry()->mem_obj) |
b37bde1e | 633 | al.cache.objectSize = loggingEntry()->contentLen(); |
90a8964c | 634 | |
cc192b50 | 635 | al.cache.caddr.SetNoAddr(); |
636 | ||
9e008dda | 637 | if (getConn() != NULL) al.cache.caddr = getConn()->log_addr; |
90a8964c | 638 | |
1a86db31 | 639 | al.cache.requestSize = req_sz; |
3ff65596 | 640 | al.cache.requestHeadersSize = req_sz; |
1a86db31 AJ |
641 | |
642 | al.cache.replySize = out.size; | |
3ff65596 | 643 | al.cache.replyHeadersSize = out.headers_sz; |
90a8964c | 644 | |
0976f8db | 645 | al.cache.highOffset = out.offset; |
90a8964c | 646 | |
62e76326 | 647 | al.cache.code = logType; |
90a8964c | 648 | |
1cf238db | 649 | al.cache.msec = tvSubMsec(start_time, current_time); |
62e76326 | 650 | |
651 | if (request) | |
3ff65596 | 652 | prepareLogWithRequestDetails(request, &al); |
62e76326 | 653 | |
94a396a3 | 654 | if (getConn() != NULL && getConn()->rfc931[0]) |
98242069 | 655 | al.cache.rfc931 = getConn()->rfc931; |
62e76326 | 656 | |
2ea1afad | 657 | #if USE_SSL && 0 |
62e76326 | 658 | |
9e008dda AJ |
659 | /* This is broken. Fails if the connection has been closed. Needs |
660 | * to snarf the ssl details some place earlier.. | |
661 | */ | |
94a396a3 | 662 | if (getConn() != NULL) |
98242069 | 663 | al.cache.ssluser = sslGetUserEmail(fd_table[getConn()->fd].ssl); |
62e76326 | 664 | |
a7ad6e4e | 665 | #endif |
62e76326 | 666 | |
c0941a6a | 667 | ACLFilledChecklist *checklist = clientAclChecklistCreate(Config.accessList.log, this); |
62e76326 | 668 | |
fe74b6a6 | 669 | if (al.reply) |
670 | checklist->reply = HTTPMSGLOCK(al.reply); | |
62e76326 | 671 | |
b448c119 | 672 | if (!Config.accessList.log || checklist->fastCheck()) { |
af6a12ee | 673 | if (request) |
6fca33e0 | 674 | al.adapted_request = HTTPMSGLOCK(request); |
7684c4b1 | 675 | accessLogLog(&al, checklist); |
676 | updateCounters(); | |
62e76326 | 677 | |
94a396a3 | 678 | if (getConn() != NULL) |
cc192b50 | 679 | clientdbUpdate(getConn()->peer, logType, PROTO_HTTP, out.size); |
7684c4b1 | 680 | } |
681 | ||
682 | delete checklist; | |
7a2f978b | 683 | } |
2a6ab636 AR |
684 | |
685 | accessLogFreeMemory(&al); | |
c8be6d7b | 686 | } |
687 | ||
688 | void | |
528b2c61 | 689 | ClientHttpRequest::freeResources() |
c8be6d7b | 690 | { |
528b2c61 | 691 | safe_free(uri); |
692 | safe_free(log_uri); | |
693 | safe_free(redirect.location); | |
30abd221 | 694 | range_iter.boundary.clean(); |
6dd9f4bd | 695 | HTTPMSGUNLOCK(request); |
62e76326 | 696 | |
528b2c61 | 697 | if (client_stream.tail) |
62e76326 | 698 | clientStreamAbort((clientStreamNode *)client_stream.tail->data, this); |
c8be6d7b | 699 | } |
700 | ||
701 | void | |
702 | httpRequestFree(void *data) | |
703 | { | |
59a1efb2 | 704 | ClientHttpRequest *http = (ClientHttpRequest *)data; |
c8be6d7b | 705 | assert(http != NULL); |
528b2c61 | 706 | delete http; |
7a2f978b | 707 | } |
708 | ||
a46d2c0e | 709 | bool |
710 | ConnStateData::areAllContextsForThisConnection() const | |
c8be6d7b | 711 | { |
a46d2c0e | 712 | assert(this != NULL); |
0655fa4d | 713 | ClientSocketContext::Pointer context = getCurrentContext(); |
62e76326 | 714 | |
0655fa4d | 715 | while (context.getRaw()) { |
98242069 | 716 | if (context->http->getConn() != this) |
a46d2c0e | 717 | return false; |
62e76326 | 718 | |
719 | context = context->next; | |
c8be6d7b | 720 | } |
62e76326 | 721 | |
a46d2c0e | 722 | return true; |
c8be6d7b | 723 | } |
724 | ||
725 | void | |
a46d2c0e | 726 | ConnStateData::freeAllContexts() |
c8be6d7b | 727 | { |
0655fa4d | 728 | ClientSocketContext::Pointer context; |
62e76326 | 729 | |
c53577d9 | 730 | while ((context = getCurrentContext()).getRaw() != NULL) { |
0655fa4d | 731 | assert(getCurrentContext() != |
732 | getCurrentContext()->next); | |
733 | context->connIsFinished(); | |
734 | assert (context != currentobject); | |
c8be6d7b | 735 | } |
736 | } | |
737 | ||
f692498b AJ |
738 | /// propagates abort event to all contexts |
739 | void | |
740 | ConnStateData::notifyAllContexts(int xerrno) | |
741 | { | |
742 | typedef ClientSocketContext::Pointer CSCP; | |
743 | for (CSCP c = getCurrentContext(); c.getRaw(); c = c->next) | |
744 | c->noteIoError(xerrno); | |
745 | } | |
746 | ||
7a2f978b | 747 | /* This is a handler normally called by comm_close() */ |
1cf238db | 748 | void ConnStateData::connStateClosed(const CommCloseCbParams &io) |
7a2f978b | 749 | { |
1cf238db | 750 | assert (fd == io.fd); |
6e1d409c | 751 | deleteThis("ConnStateData::connStateClosed"); |
a46d2c0e | 752 | } |
62e76326 | 753 | |
6e1d409c | 754 | // cleans up before destructor is called |
a2ac85d9 | 755 | void |
6e1d409c | 756 | ConnStateData::swanSong() |
a46d2c0e | 757 | { |
6e1d409c | 758 | debugs(33, 2, "ConnStateData::swanSong: FD " << fd); |
2e216b1d | 759 | fd = -1; |
760 | flags.readMoreRequests = false; | |
cc192b50 | 761 | clientdbEstablished(peer, -1); /* decrement */ |
a46d2c0e | 762 | assert(areAllContextsForThisConnection()); |
763 | freeAllContexts(); | |
f5691f9c | 764 | |
6bf4f823 | 765 | if (auth_user_request != NULL) { |
6e1d409c | 766 | debugs(33, 4, "ConnStateData::swanSong: freeing auth_user_request '" << auth_user_request << "' (this is '" << this << "')"); |
f5691f9c | 767 | auth_user_request->onConnectionClose(this); |
6bf4f823 | 768 | } |
6e1d409c | 769 | |
d67acb4e | 770 | if (pinning.fd >= 0) |
9e008dda | 771 | comm_close(pinning.fd); |
d67acb4e | 772 | |
6e1d409c AR |
773 | BodyProducer::swanSong(); |
774 | flags.swanSang = true; | |
a2ac85d9 | 775 | } |
776 | ||
777 | bool | |
778 | ConnStateData::isOpen() const | |
779 | { | |
10b06767 | 780 | return cbdataReferenceValid(this) && // XXX: checking "this" in a method |
9e008dda AJ |
781 | fd >= 0 && |
782 | !fd_table[fd].closing(); | |
a2ac85d9 | 783 | } |
784 | ||
785 | ConnStateData::~ConnStateData() | |
786 | { | |
787 | assert(this != NULL); | |
bf8fe701 | 788 | debugs(33, 3, "ConnStateData::~ConnStateData: FD " << fd); |
a2ac85d9 | 789 | |
790 | if (isOpen()) | |
6e1d409c AR |
791 | debugs(33, 1, "BUG: ConnStateData did not close FD " << fd); |
792 | ||
793 | if (!flags.swanSang) | |
794 | debugs(33, 1, "BUG: ConnStateData was not destroyed properly; FD " << fd); | |
62e76326 | 795 | |
e0db3481 | 796 | cbdataReferenceDone(port); |
83fdd41a | 797 | |
279152e7 AJ |
798 | if (bodyPipe != NULL) |
799 | stopProducingFor(bodyPipe, false); | |
7a2f978b | 800 | } |
801 | ||
63be0a78 | 802 | /** |
c68e9c6b | 803 | * clientSetKeepaliveFlag() sets request->flags.proxy_keepalive. |
804 | * This is the client-side persistent connection flag. We need | |
805 | * to set this relatively early in the request processing | |
806 | * to handle hacks for broken servers and clients. | |
807 | */ | |
808 | static void | |
59a1efb2 | 809 | clientSetKeepaliveFlag(ClientHttpRequest * http) |
c68e9c6b | 810 | { |
190154cf | 811 | HttpRequest *request = http->request; |
f6329bc3 | 812 | |
bf8fe701 | 813 | debugs(33, 3, "clientSetKeepaliveFlag: http_ver = " << |
814 | request->http_ver.major << "." << request->http_ver.minor); | |
815 | debugs(33, 3, "clientSetKeepaliveFlag: method = " << | |
60745f24 | 816 | RequestMethodStr(request->method)); |
62e76326 | 817 | |
4a1acc56 AJ |
818 | // TODO: move to HttpRequest::hdrCacheInit, just like HttpReply. |
819 | request->flags.proxy_keepalive = request->persistent() ? 1 : 0; | |
c68e9c6b | 820 | } |
821 | ||
31be8b80 | 822 | static int |
190154cf | 823 | clientIsContentLengthValid(HttpRequest * r) |
31be8b80 | 824 | { |
914b89a2 | 825 | switch (r->method.id()) { |
62e76326 | 826 | |
ffc128c4 | 827 | case METHOD_PUT: |
62e76326 | 828 | |
ffc128c4 | 829 | case METHOD_POST: |
62e76326 | 830 | /* PUT/POST requires a request entity */ |
831 | return (r->content_length >= 0); | |
832 | ||
ffc128c4 | 833 | case METHOD_GET: |
62e76326 | 834 | |
ffc128c4 | 835 | case METHOD_HEAD: |
62e76326 | 836 | /* We do not want to see a request entity on GET/HEAD requests */ |
837 | return (r->content_length <= 0 || Config.onoff.request_entities); | |
838 | ||
ffc128c4 | 839 | default: |
62e76326 | 840 | /* For other types of requests we don't care */ |
841 | return 1; | |
ffc128c4 | 842 | } |
62e76326 | 843 | |
ffc128c4 | 844 | /* NOT REACHED */ |
31be8b80 | 845 | } |
846 | ||
c8be6d7b | 847 | int |
47f6e231 | 848 | clientIsRequestBodyTooLargeForPolicy(int64_t bodyLength) |
efd900cb | 849 | { |
c8be6d7b | 850 | if (Config.maxRequestBodySize && |
62e76326 | 851 | bodyLength > Config.maxRequestBodySize) |
852 | return 1; /* too large */ | |
853 | ||
efd900cb | 854 | return 0; |
855 | } | |
856 | ||
e4a67a80 | 857 | #ifndef PURIFY |
c8be6d7b | 858 | int |
1cf238db | 859 | connIsUsable(ConnStateData * conn) |
c8be6d7b | 860 | { |
1cf238db | 861 | if (conn == NULL || !cbdataReferenceValid(conn) || conn->fd == -1) |
62e76326 | 862 | return 0; |
863 | ||
c8be6d7b | 864 | return 1; |
865 | } | |
866 | ||
e4a67a80 | 867 | #endif |
868 | ||
39cb8c41 | 869 | // careful: the "current" context may be gone if we wrote an early response |
0655fa4d | 870 | ClientSocketContext::Pointer |
871 | ConnStateData::getCurrentContext() const | |
c8be6d7b | 872 | { |
0655fa4d | 873 | assert(this); |
874 | return currentobject; | |
c8be6d7b | 875 | } |
876 | ||
877 | void | |
2324cda2 | 878 | ClientSocketContext::deferRecipientForLater(clientStreamNode * node, HttpReply * rep, StoreIOBuffer receivedData) |
528b2c61 | 879 | { |
bf8fe701 | 880 | debugs(33, 2, "clientSocketRecipient: Deferring request " << http->uri); |
528b2c61 | 881 | assert(flags.deferred == 0); |
882 | flags.deferred = 1; | |
883 | deferredparams.node = node; | |
884 | deferredparams.rep = rep; | |
2324cda2 | 885 | deferredparams.queuedBuffer = receivedData; |
c8be6d7b | 886 | return; |
887 | } | |
888 | ||
889 | int | |
2324cda2 | 890 | responseFinishedOrFailed(HttpReply * rep, StoreIOBuffer const & receivedData) |
c8be6d7b | 891 | { |
2324cda2 | 892 | if (rep == NULL && receivedData.data == NULL && receivedData.length == 0) |
62e76326 | 893 | return 1; |
894 | ||
c8be6d7b | 895 | return 0; |
896 | } | |
897 | ||
0655fa4d | 898 | bool |
899 | ClientSocketContext::startOfOutput() const | |
c8be6d7b | 900 | { |
0655fa4d | 901 | return http->out.size == 0; |
c8be6d7b | 902 | } |
903 | ||
528b2c61 | 904 | size_t |
47f6e231 | 905 | ClientSocketContext::lengthToSend(Range<int64_t> const &available) |
528b2c61 | 906 | { |
47f6e231 | 907 | /*the size of available range can always fit in a size_t type*/ |
908 | size_t maximum = (size_t)available.size(); | |
2512d159 | 909 | |
528b2c61 | 910 | if (!http->request->range) |
62e76326 | 911 | return maximum; |
912 | ||
528b2c61 | 913 | assert (canPackMoreRanges()); |
62e76326 | 914 | |
528b2c61 | 915 | if (http->range_iter.debt() == -1) |
62e76326 | 916 | return maximum; |
917 | ||
528b2c61 | 918 | assert (http->range_iter.debt() > 0); |
62e76326 | 919 | |
2512d159 | 920 | /* TODO this + the last line could be a range intersection calculation */ |
47f6e231 | 921 | if (available.start < http->range_iter.currentSpec()->offset) |
2512d159 | 922 | return 0; |
923 | ||
d85c3078 | 924 | return min(http->range_iter.debt(), (int64_t)maximum); |
528b2c61 | 925 | } |
926 | ||
c8be6d7b | 927 | void |
528b2c61 | 928 | ClientSocketContext::noteSentBodyBytes(size_t bytes) |
929 | { | |
930 | http->out.offset += bytes; | |
62e76326 | 931 | |
528b2c61 | 932 | if (!http->request->range) |
62e76326 | 933 | return; |
934 | ||
528b2c61 | 935 | if (http->range_iter.debt() != -1) { |
62e76326 | 936 | http->range_iter.debt(http->range_iter.debt() - bytes); |
937 | assert (http->range_iter.debt() >= 0); | |
528b2c61 | 938 | } |
62e76326 | 939 | |
dd272b8e | 940 | /* debt() always stops at -1, below that is a bug */ |
941 | assert (http->range_iter.debt() >= -1); | |
528b2c61 | 942 | } |
62e76326 | 943 | |
528b2c61 | 944 | bool |
945 | ClientHttpRequest::multipartRangeRequest() const | |
946 | { | |
947 | return request->multipartRangeRequest(); | |
948 | } | |
949 | ||
950 | bool | |
951 | ClientSocketContext::multipartRangeRequest() const | |
952 | { | |
953 | return http->multipartRangeRequest(); | |
954 | } | |
955 | ||
956 | void | |
957 | ClientSocketContext::sendBody(HttpReply * rep, StoreIOBuffer bodyData) | |
c8be6d7b | 958 | { |
959 | assert(rep == NULL); | |
528b2c61 | 960 | |
4ad60609 | 961 | if (!multipartRangeRequest() && !http->request->flags.chunked_reply) { |
2512d159 | 962 | size_t length = lengthToSend(bodyData.range()); |
62e76326 | 963 | noteSentBodyBytes (length); |
9e008dda AJ |
964 | AsyncCall::Pointer call = commCbCall(33, 5, "clientWriteBodyComplete", |
965 | CommIoCbPtrFun(clientWriteBodyComplete, this)); | |
ec41b64c | 966 | Comm::Write(fd(), bodyData.data, length, call, NULL); |
62e76326 | 967 | return; |
528b2c61 | 968 | } |
969 | ||
970 | MemBuf mb; | |
2fe7eff9 | 971 | mb.init(); |
4ad60609 AR |
972 | if (multipartRangeRequest()) |
973 | packRange(bodyData, &mb); | |
974 | else | |
975 | packChunk(bodyData, mb); | |
2512d159 | 976 | |
9e008dda | 977 | if (mb.contentSize()) { |
2512d159 | 978 | /* write */ |
9e008dda AJ |
979 | AsyncCall::Pointer call = commCbCall(33, 5, "clientWriteComplete", |
980 | CommIoCbPtrFun(clientWriteComplete, this)); | |
ec41b64c | 981 | Comm::Write(fd(), &mb, call); |
1cf238db | 982 | } else |
2512d159 | 983 | writeComplete(fd(), NULL, 0, COMM_OK); |
c8be6d7b | 984 | } |
985 | ||
4ad60609 AR |
986 | /** |
987 | * Packs bodyData into mb using chunked encoding. Packs the last-chunk | |
988 | * if bodyData is empty. | |
989 | */ | |
990 | void | |
991 | ClientSocketContext::packChunk(const StoreIOBuffer &bodyData, MemBuf &mb) | |
992 | { | |
993 | const uint64_t length = | |
994 | static_cast<uint64_t>(lengthToSend(bodyData.range())); | |
995 | noteSentBodyBytes(length); | |
996 | ||
997 | mb.Printf("%"PRIX64"\r\n", length); | |
998 | mb.append(bodyData.data, length); | |
999 | mb.Printf("\r\n"); | |
1000 | } | |
1001 | ||
63be0a78 | 1002 | /** put terminating boundary for multiparts */ |
528b2c61 | 1003 | static void |
30abd221 | 1004 | clientPackTermBound(String boundary, MemBuf * mb) |
528b2c61 | 1005 | { |
826a1fed | 1006 | mb->Printf("\r\n--" SQUIDSTRINGPH "--\r\n", SQUIDSTRINGPRINT(boundary)); |
4a7a3d56 | 1007 | debugs(33, 6, "clientPackTermBound: buf offset: " << mb->size); |
528b2c61 | 1008 | } |
1009 | ||
63be0a78 | 1010 | /** appends a "part" HTTP header (as in a multi-part/range reply) to the buffer */ |
528b2c61 | 1011 | static void |
30abd221 | 1012 | clientPackRangeHdr(const HttpReply * rep, const HttpHdrRangeSpec * spec, String boundary, MemBuf * mb) |
528b2c61 | 1013 | { |
75faaa7a | 1014 | HttpHeader hdr(hoReply); |
528b2c61 | 1015 | Packer p; |
1016 | assert(rep); | |
1017 | assert(spec); | |
1018 | ||
1019 | /* put boundary */ | |
5b4117d8 | 1020 | debugs(33, 5, "clientPackRangeHdr: appending boundary: " << boundary); |
528b2c61 | 1021 | /* rfc2046 requires to _prepend_ boundary with <crlf>! */ |
826a1fed | 1022 | mb->Printf("\r\n--" SQUIDSTRINGPH "\r\n", SQUIDSTRINGPRINT(boundary)); |
528b2c61 | 1023 | |
1024 | /* stuff the header with required entries and pack it */ | |
62e76326 | 1025 | |
a9925b40 | 1026 | if (rep->header.has(HDR_CONTENT_TYPE)) |
1027 | hdr.putStr(HDR_CONTENT_TYPE, rep->header.getStr(HDR_CONTENT_TYPE)); | |
62e76326 | 1028 | |
528b2c61 | 1029 | httpHeaderAddContRange(&hdr, *spec, rep->content_length); |
62e76326 | 1030 | |
528b2c61 | 1031 | packerToMemInit(&p, mb); |
62e76326 | 1032 | |
a9925b40 | 1033 | hdr.packInto(&p); |
62e76326 | 1034 | |
528b2c61 | 1035 | packerClean(&p); |
62e76326 | 1036 | |
519e0948 | 1037 | hdr.clean(); |
528b2c61 | 1038 | |
1039 | /* append <crlf> (we packed a header, not a reply) */ | |
2fe7eff9 | 1040 | mb->Printf("\r\n"); |
528b2c61 | 1041 | } |
1042 | ||
63be0a78 | 1043 | /** |
bb790702 | 1044 | * extracts a "range" from *buf and appends them to mb, updating |
528b2c61 | 1045 | * all offsets and such. |
1046 | */ | |
c8be6d7b | 1047 | void |
2512d159 | 1048 | ClientSocketContext::packRange(StoreIOBuffer const &source, MemBuf * mb) |
528b2c61 | 1049 | { |
1050 | HttpHdrRangeIter * i = &http->range_iter; | |
47f6e231 | 1051 | Range<int64_t> available (source.range()); |
b65351fa | 1052 | char const *buf = source.data; |
62e76326 | 1053 | |
2512d159 | 1054 | while (i->currentSpec() && available.size()) { |
62e76326 | 1055 | const size_t copy_sz = lengthToSend(available); |
62e76326 | 1056 | |
2512d159 | 1057 | if (copy_sz) { |
1058 | /* | |
1059 | * intersection of "have" and "need" ranges must not be empty | |
1060 | */ | |
1061 | assert(http->out.offset < i->currentSpec()->offset + i->currentSpec()->length); | |
ed013b6c | 1062 | assert(http->out.offset + available.size() > i->currentSpec()->offset); |
2512d159 | 1063 | |
1064 | /* | |
1065 | * put boundary and headers at the beginning of a range in a | |
1066 | * multi-range | |
1067 | */ | |
1068 | ||
1069 | if (http->multipartRangeRequest() && i->debt() == i->currentSpec()->length) { | |
1070 | assert(http->memObject()); | |
1071 | clientPackRangeHdr( | |
1072 | http->memObject()->getReply(), /* original reply */ | |
1073 | i->currentSpec(), /* current range */ | |
1074 | i->boundary, /* boundary, the same for all */ | |
1075 | mb); | |
1076 | } | |
62e76326 | 1077 | |
2512d159 | 1078 | /* |
1079 | * append content | |
1080 | */ | |
4a7a3d56 | 1081 | debugs(33, 3, "clientPackRange: appending " << copy_sz << " bytes"); |
62e76326 | 1082 | |
2512d159 | 1083 | noteSentBodyBytes (copy_sz); |
62e76326 | 1084 | |
2fe7eff9 | 1085 | mb->append(buf, copy_sz); |
62e76326 | 1086 | |
2512d159 | 1087 | /* |
1088 | * update offsets | |
1089 | */ | |
1090 | available.start += copy_sz; | |
62e76326 | 1091 | |
2512d159 | 1092 | buf += copy_sz; |
62e76326 | 1093 | |
2512d159 | 1094 | } |
62e76326 | 1095 | |
1096 | /* | |
1097 | * paranoid check | |
1098 | */ | |
871899ca | 1099 | assert((available.size() >= 0 && i->debt() >= 0) || i->debt() == -1); |
62e76326 | 1100 | |
c7329b75 | 1101 | if (!canPackMoreRanges()) { |
bf8fe701 | 1102 | debugs(33, 3, "clientPackRange: Returning because !canPackMoreRanges."); |
c7329b75 | 1103 | |
1104 | if (i->debt() == 0) | |
1105 | /* put terminating boundary for multiparts */ | |
1106 | clientPackTermBound(i->boundary, mb); | |
62e76326 | 1107 | |
62e76326 | 1108 | return; |
c7329b75 | 1109 | } |
62e76326 | 1110 | |
8bcf08e0 | 1111 | int64_t nextOffset = getNextRangeOffset(); |
62e76326 | 1112 | |
8bcf08e0 | 1113 | assert (nextOffset >= http->out.offset); |
62e76326 | 1114 | |
8bcf08e0 | 1115 | int64_t skip = nextOffset - http->out.offset; |
62e76326 | 1116 | |
2512d159 | 1117 | /* adjust for not to be transmitted bytes */ |
8bcf08e0 | 1118 | http->out.offset = nextOffset; |
2512d159 | 1119 | |
1120 | if (available.size() <= skip) | |
62e76326 | 1121 | return; |
1122 | ||
2512d159 | 1123 | available.start += skip; |
62e76326 | 1124 | |
2512d159 | 1125 | buf += skip; |
1126 | ||
1127 | if (copy_sz == 0) | |
1128 | return; | |
528b2c61 | 1129 | } |
1130 | } | |
1131 | ||
63be0a78 | 1132 | /** returns expected content length for multi-range replies |
528b2c61 | 1133 | * note: assumes that httpHdrRangeCanonize has already been called |
1134 | * warning: assumes that HTTP headers for individual ranges at the | |
1135 | * time of the actuall assembly will be exactly the same as | |
1136 | * the headers when clientMRangeCLen() is called */ | |
1137 | int | |
1138 | ClientHttpRequest::mRangeCLen() | |
c8be6d7b | 1139 | { |
47f6e231 | 1140 | int64_t clen = 0; |
c8be6d7b | 1141 | MemBuf mb; |
528b2c61 | 1142 | |
86a2f789 | 1143 | assert(memObject()); |
528b2c61 | 1144 | |
2fe7eff9 | 1145 | mb.init(); |
528b2c61 | 1146 | HttpHdrRange::iterator pos = request->range->begin(); |
62e76326 | 1147 | |
528b2c61 | 1148 | while (pos != request->range->end()) { |
62e76326 | 1149 | /* account for headers for this range */ |
2fe7eff9 | 1150 | mb.reset(); |
86a2f789 | 1151 | clientPackRangeHdr(memObject()->getReply(), |
62e76326 | 1152 | *pos, range_iter.boundary, &mb); |
1153 | clen += mb.size; | |
528b2c61 | 1154 | |
62e76326 | 1155 | /* account for range content */ |
1156 | clen += (*pos)->length; | |
528b2c61 | 1157 | |
4a7a3d56 | 1158 | debugs(33, 6, "clientMRangeCLen: (clen += " << mb.size << " + " << (*pos)->length << ") == " << clen); |
62e76326 | 1159 | ++pos; |
528b2c61 | 1160 | } |
62e76326 | 1161 | |
528b2c61 | 1162 | /* account for the terminating boundary */ |
2fe7eff9 | 1163 | mb.reset(); |
62e76326 | 1164 | |
528b2c61 | 1165 | clientPackTermBound(range_iter.boundary, &mb); |
62e76326 | 1166 | |
528b2c61 | 1167 | clen += mb.size; |
1168 | ||
2fe7eff9 | 1169 | mb.clean(); |
62e76326 | 1170 | |
528b2c61 | 1171 | return clen; |
1172 | } | |
1173 | ||
63be0a78 | 1174 | /** |
528b2c61 | 1175 | * returns true if If-Range specs match reply, false otherwise |
1176 | */ | |
1177 | static int | |
59a1efb2 | 1178 | clientIfRangeMatch(ClientHttpRequest * http, HttpReply * rep) |
528b2c61 | 1179 | { |
a9925b40 | 1180 | const TimeOrTag spec = http->request->header.getTimeOrTag(HDR_IF_RANGE); |
528b2c61 | 1181 | /* check for parsing falure */ |
62e76326 | 1182 | |
528b2c61 | 1183 | if (!spec.valid) |
62e76326 | 1184 | return 0; |
1185 | ||
528b2c61 | 1186 | /* got an ETag? */ |
1187 | if (spec.tag.str) { | |
a9925b40 | 1188 | ETag rep_tag = rep->header.getETag(HDR_ETAG); |
bf8fe701 | 1189 | debugs(33, 3, "clientIfRangeMatch: ETags: " << spec.tag.str << " and " << |
1190 | (rep_tag.str ? rep_tag.str : "<none>")); | |
62e76326 | 1191 | |
1192 | if (!rep_tag.str) | |
1193 | return 0; /* entity has no etag to compare with! */ | |
1194 | ||
1195 | if (spec.tag.weak || rep_tag.weak) { | |
bf8fe701 | 1196 | debugs(33, 1, "clientIfRangeMatch: Weak ETags are not allowed in If-Range: " << spec.tag.str << " ? " << rep_tag.str); |
62e76326 | 1197 | return 0; /* must use strong validator for sub-range requests */ |
1198 | } | |
1199 | ||
bd76482d | 1200 | return etagIsStrongEqual(rep_tag, spec.tag); |
528b2c61 | 1201 | } |
62e76326 | 1202 | |
528b2c61 | 1203 | /* got modification time? */ |
1204 | if (spec.time >= 0) { | |
86a2f789 | 1205 | return http->storeEntry()->lastmod <= spec.time; |
528b2c61 | 1206 | } |
62e76326 | 1207 | |
528b2c61 | 1208 | assert(0); /* should not happen */ |
1209 | return 0; | |
1210 | } | |
1211 | ||
63be0a78 | 1212 | /** |
1213 | * generates a "unique" boundary string for multipart responses | |
528b2c61 | 1214 | * the caller is responsible for cleaning the string */ |
30abd221 | 1215 | String |
528b2c61 | 1216 | ClientHttpRequest::rangeBoundaryStr() const |
1217 | { | |
1218 | assert(this); | |
1219 | const char *key; | |
7dbca7a4 AJ |
1220 | String b(APP_FULLNAME); |
1221 | b.append(":",1); | |
86a2f789 | 1222 | key = storeEntry()->getMD5Text(); |
528b2c61 | 1223 | b.append(key, strlen(key)); |
1224 | return b; | |
1225 | } | |
1226 | ||
63be0a78 | 1227 | /** adds appropriate Range headers if needed */ |
528b2c61 | 1228 | void |
1229 | ClientSocketContext::buildRangeHeader(HttpReply * rep) | |
1230 | { | |
1231 | HttpHeader *hdr = rep ? &rep->header : 0; | |
1232 | const char *range_err = NULL; | |
190154cf | 1233 | HttpRequest *request = http->request; |
528b2c61 | 1234 | assert(request->range); |
1235 | /* check if we still want to do ranges */ | |
62e76326 | 1236 | |
11e3fa1c AJ |
1237 | int64_t roffLimit = request->getRangeOffsetLimit(); |
1238 | ||
528b2c61 | 1239 | if (!rep) |
62e76326 | 1240 | range_err = "no [parse-able] reply"; |
528b2c61 | 1241 | else if ((rep->sline.status != HTTP_OK) && (rep->sline.status != HTTP_PARTIAL_CONTENT)) |
62e76326 | 1242 | range_err = "wrong status code"; |
a9925b40 | 1243 | else if (hdr->has(HDR_CONTENT_RANGE)) |
62e76326 | 1244 | range_err = "origin server does ranges"; |
528b2c61 | 1245 | else if (rep->content_length < 0) |
62e76326 | 1246 | range_err = "unknown length"; |
86a2f789 | 1247 | else if (rep->content_length != http->memObject()->getReply()->content_length) |
62e76326 | 1248 | range_err = "INCONSISTENT length"; /* a bug? */ |
96cbbe03 | 1249 | |
1250 | /* hits only - upstream peer determines correct behaviour on misses, and client_side_reply determines | |
9e008dda | 1251 | * hits candidates |
96cbbe03 | 1252 | */ |
a9925b40 | 1253 | else if (logTypeIsATcpHit(http->logType) && http->request->header.has(HDR_IF_RANGE) && !clientIfRangeMatch(http, rep)) |
62e76326 | 1254 | range_err = "If-Range match failed"; |
528b2c61 | 1255 | else if (!http->request->range->canonize(rep)) |
62e76326 | 1256 | range_err = "canonization failed"; |
528b2c61 | 1257 | else if (http->request->range->isComplex()) |
62e76326 | 1258 | range_err = "too complex range header"; |
11e3fa1c | 1259 | else if (!logTypeIsATcpHit(http->logType) && http->request->range->offsetLimitExceeded(roffLimit)) |
62e76326 | 1260 | range_err = "range outside range_offset_limit"; |
1261 | ||
528b2c61 | 1262 | /* get rid of our range specs on error */ |
1263 | if (range_err) { | |
b631f31c | 1264 | /* XXX We do this here because we need canonisation etc. However, this current |
9e008dda | 1265 | * code will lead to incorrect store offset requests - the store will have the |
b631f31c | 1266 | * offset data, but we won't be requesting it. |
1267 | * So, we can either re-request, or generate an error | |
1268 | */ | |
bf8fe701 | 1269 | debugs(33, 3, "clientBuildRangeHeader: will not do ranges: " << range_err << "."); |
00d77d6b | 1270 | delete http->request->range; |
62e76326 | 1271 | http->request->range = NULL; |
c8be6d7b | 1272 | } else { |
3cff087f | 1273 | /* XXX: TODO: Review, this unconditional set may be wrong. - TODO: review. */ |
1274 | httpStatusLineSet(&rep->sline, rep->sline.version, | |
1275 | HTTP_PARTIAL_CONTENT, NULL); | |
fedd1531 | 1276 | // web server responded with a valid, but unexpected range. |
1277 | // will (try-to) forward as-is. | |
1278 | //TODO: we should cope with multirange request/responses | |
1279 | bool replyMatchRequest = rep->content_range != NULL ? | |
1280 | request->range->contains(rep->content_range->spec) : | |
1281 | true; | |
62e76326 | 1282 | const int spec_count = http->request->range->specs.count; |
47f6e231 | 1283 | int64_t actual_clen = -1; |
62e76326 | 1284 | |
47f6e231 | 1285 | debugs(33, 3, "clientBuildRangeHeader: range spec count: " << |
9e008dda | 1286 | spec_count << " virgin clen: " << rep->content_length); |
62e76326 | 1287 | assert(spec_count > 0); |
62e76326 | 1288 | /* append appropriate header(s) */ |
1289 | ||
1290 | if (spec_count == 1) { | |
fedd1531 | 1291 | if (!replyMatchRequest) { |
1292 | hdr->delById(HDR_CONTENT_RANGE); | |
1293 | hdr->putContRange(rep->content_range); | |
1294 | actual_clen = rep->content_length; | |
1295 | //http->range_iter.pos = rep->content_range->spec.begin(); | |
1296 | (*http->range_iter.pos)->offset = rep->content_range->spec.offset; | |
1297 | (*http->range_iter.pos)->length = rep->content_range->spec.length; | |
1298 | ||
1299 | } else { | |
1300 | HttpHdrRange::iterator pos = http->request->range->begin(); | |
1301 | assert(*pos); | |
1302 | /* append Content-Range */ | |
1303 | ||
1304 | if (!hdr->has(HDR_CONTENT_RANGE)) { | |
1305 | /* No content range, so this was a full object we are | |
1306 | * sending parts of. | |
1307 | */ | |
1308 | httpHeaderAddContRange(hdr, **pos, rep->content_length); | |
1309 | } | |
1310 | ||
1311 | /* set new Content-Length to the actual number of bytes | |
1312 | * transmitted in the message-body */ | |
1313 | actual_clen = (*pos)->length; | |
62e76326 | 1314 | } |
62e76326 | 1315 | } else { |
1316 | /* multipart! */ | |
1317 | /* generate boundary string */ | |
1318 | http->range_iter.boundary = http->rangeBoundaryStr(); | |
1319 | /* delete old Content-Type, add ours */ | |
a9925b40 | 1320 | hdr->delById(HDR_CONTENT_TYPE); |
62e76326 | 1321 | httpHeaderPutStrf(hdr, HDR_CONTENT_TYPE, |
826a1fed FC |
1322 | "multipart/byteranges; boundary=\"" SQUIDSTRINGPH "\"", |
1323 | SQUIDSTRINGPRINT(http->range_iter.boundary)); | |
62e76326 | 1324 | /* Content-Length is not required in multipart responses |
1325 | * but it is always nice to have one */ | |
1326 | actual_clen = http->mRangeCLen(); | |
2512d159 | 1327 | /* http->out needs to start where we want data at */ |
1328 | http->out.offset = http->range_iter.currentSpec()->offset; | |
62e76326 | 1329 | } |
1330 | ||
1331 | /* replace Content-Length header */ | |
1332 | assert(actual_clen >= 0); | |
1333 | ||
a9925b40 | 1334 | hdr->delById(HDR_CONTENT_LENGTH); |
62e76326 | 1335 | |
47f6e231 | 1336 | hdr->putInt64(HDR_CONTENT_LENGTH, actual_clen); |
62e76326 | 1337 | |
bf8fe701 | 1338 | debugs(33, 3, "clientBuildRangeHeader: actual content length: " << actual_clen); |
62e76326 | 1339 | |
1340 | /* And start the range iter off */ | |
1341 | http->range_iter.updateSpec(); | |
c8be6d7b | 1342 | } |
528b2c61 | 1343 | } |
1344 | ||
1345 | void | |
1346 | ClientSocketContext::prepareReply(HttpReply * rep) | |
1347 | { | |
fedd1531 | 1348 | reply = rep; |
1349 | ||
528b2c61 | 1350 | if (http->request->range) |
62e76326 | 1351 | buildRangeHeader(rep); |
528b2c61 | 1352 | } |
1353 | ||
1354 | void | |
1355 | ClientSocketContext::sendStartOfMessage(HttpReply * rep, StoreIOBuffer bodyData) | |
1356 | { | |
1357 | prepareReply(rep); | |
528b2c61 | 1358 | assert (rep); |
06a5ae20 | 1359 | MemBuf *mb = rep->pack(); |
528b2c61 | 1360 | /* Save length of headers for persistent conn checks */ |
032785bf | 1361 | http->out.headers_sz = mb->contentSize(); |
528b2c61 | 1362 | #if HEADERS_LOG |
62e76326 | 1363 | |
528b2c61 | 1364 | headersLog(0, 0, http->request->method, rep); |
1365 | #endif | |
62e76326 | 1366 | |
c8be6d7b | 1367 | if (bodyData.data && bodyData.length) { |
4ad60609 AR |
1368 | if (multipartRangeRequest()) |
1369 | packRange(bodyData, mb); | |
1370 | else if (http->request->flags.chunked_reply) { | |
1371 | packChunk(bodyData, *mb); | |
1372 | } else { | |
2512d159 | 1373 | size_t length = lengthToSend(bodyData.range()); |
62e76326 | 1374 | noteSentBodyBytes (length); |
1375 | ||
2fe7eff9 | 1376 | mb->append(bodyData.data, length); |
62e76326 | 1377 | } |
c8be6d7b | 1378 | } |
62e76326 | 1379 | |
c8be6d7b | 1380 | /* write */ |
425802c8 | 1381 | debugs(33,7, HERE << "sendStartOfMessage schedules clientWriteComplete"); |
9e008dda AJ |
1382 | AsyncCall::Pointer call = commCbCall(33, 5, "clientWriteComplete", |
1383 | CommIoCbPtrFun(clientWriteComplete, this)); | |
ec41b64c | 1384 | Comm::Write(fd(), mb, call); |
62e76326 | 1385 | |
032785bf | 1386 | delete mb; |
c8be6d7b | 1387 | } |
1388 | ||
63be0a78 | 1389 | /** |
7dc5f514 | 1390 | * Write a chunk of data to a client socket. If the reply is present, |
1391 | * send the reply headers down the wire too, and clean them up when | |
1392 | * finished. | |
9e008dda | 1393 | * Pre-condition: |
edce4d98 | 1394 | * The request is one backed by a connection, not an internal request. |
1395 | * data context is not NULL | |
1396 | * There are no more entries in the stream chain. | |
2246b732 | 1397 | */ |
edce4d98 | 1398 | static void |
59a1efb2 | 1399 | clientSocketRecipient(clientStreamNode * node, ClientHttpRequest * http, |
2324cda2 | 1400 | HttpReply * rep, StoreIOBuffer receivedData) |
edce4d98 | 1401 | { |
1402 | int fd; | |
edce4d98 | 1403 | /* Test preconditions */ |
1404 | assert(node != NULL); | |
559da936 | 1405 | PROF_start(clientSocketRecipient); |
62e76326 | 1406 | /* TODO: handle this rather than asserting |
9e008dda AJ |
1407 | * - it should only ever happen if we cause an abort and |
1408 | * the callback chain loops back to here, so we can simply return. | |
1409 | * However, that itself shouldn't happen, so it stays as an assert for now. | |
edce4d98 | 1410 | */ |
1411 | assert(cbdataReferenceValid(node)); | |
edce4d98 | 1412 | assert(node->node.next == NULL); |
0655fa4d | 1413 | ClientSocketContext::Pointer context = dynamic_cast<ClientSocketContext *>(node->data.getRaw()); |
94a396a3 | 1414 | assert(context != NULL); |
98242069 | 1415 | assert(connIsUsable(http->getConn())); |
1416 | fd = http->getConn()->fd; | |
528b2c61 | 1417 | /* TODO: check offset is what we asked for */ |
62e76326 | 1418 | |
98242069 | 1419 | if (context != http->getConn()->getCurrentContext()) { |
2324cda2 | 1420 | context->deferRecipientForLater(node, rep, receivedData); |
559da936 | 1421 | PROF_stop(clientSocketRecipient); |
62e76326 | 1422 | return; |
edce4d98 | 1423 | } |
62e76326 | 1424 | |
4ad60609 AR |
1425 | // After sending Transfer-Encoding: chunked (at least), always send |
1426 | // the last-chunk if there was no error, ignoring responseFinishedOrFailed. | |
1427 | const bool mustSendLastChunk = http->request->flags.chunked_reply && | |
4cb2536f | 1428 | !http->request->flags.stream_error && !context->startOfOutput(); |
4ad60609 | 1429 | if (responseFinishedOrFailed(rep, receivedData) && !mustSendLastChunk) { |
0655fa4d | 1430 | context->writeComplete(fd, NULL, 0, COMM_OK); |
559da936 | 1431 | PROF_stop(clientSocketRecipient); |
62e76326 | 1432 | return; |
edce4d98 | 1433 | } |
62e76326 | 1434 | |
0655fa4d | 1435 | if (!context->startOfOutput()) |
2324cda2 | 1436 | context->sendBody(rep, receivedData); |
7684c4b1 | 1437 | else { |
a4785954 | 1438 | assert(rep); |
90a8964c | 1439 | http->al.reply = HTTPMSGLOCK(rep); |
2324cda2 | 1440 | context->sendStartOfMessage(rep, receivedData); |
7684c4b1 | 1441 | } |
fc68f6b1 | 1442 | |
559da936 | 1443 | PROF_stop(clientSocketRecipient); |
edce4d98 | 1444 | } |
1445 | ||
63be0a78 | 1446 | /** |
1447 | * Called when a downstream node is no longer interested in | |
edce4d98 | 1448 | * our data. As we are a terminal node, this means on aborts |
1449 | * only | |
1450 | */ | |
1451 | void | |
59a1efb2 | 1452 | clientSocketDetach(clientStreamNode * node, ClientHttpRequest * http) |
edce4d98 | 1453 | { |
edce4d98 | 1454 | /* Test preconditions */ |
1455 | assert(node != NULL); | |
62e76326 | 1456 | /* TODO: handle this rather than asserting |
9e008dda AJ |
1457 | * - it should only ever happen if we cause an abort and |
1458 | * the callback chain loops back to here, so we can simply return. | |
edce4d98 | 1459 | * However, that itself shouldn't happen, so it stays as an assert for now. |
1460 | */ | |
1461 | assert(cbdataReferenceValid(node)); | |
1462 | /* Set null by ContextFree */ | |
edce4d98 | 1463 | assert(node->node.next == NULL); |
0655fa4d | 1464 | /* this is the assert discussed above */ |
e4a67a80 | 1465 | assert(NULL == dynamic_cast<ClientSocketContext *>(node->data.getRaw())); |
edce4d98 | 1466 | /* We are only called when the client socket shutsdown. |
1467 | * Tell the prev pipeline member we're finished | |
1468 | */ | |
1469 | clientStreamDetach(node, http); | |
7a2f978b | 1470 | } |
1471 | ||
f4f278b5 | 1472 | static void |
25f651c1 | 1473 | clientWriteBodyComplete(int fd, char *buf, size_t size, comm_err_t errflag, int xerrno, void *data) |
f4f278b5 | 1474 | { |
425802c8 | 1475 | debugs(33,7, HERE << "clientWriteBodyComplete schedules clientWriteComplete"); |
2b663917 | 1476 | clientWriteComplete(fd, NULL, size, errflag, xerrno, data); |
c8be6d7b | 1477 | } |
1478 | ||
1479 | void | |
a46d2c0e | 1480 | ConnStateData::readNextRequest() |
c8be6d7b | 1481 | { |
bf8fe701 | 1482 | debugs(33, 5, "ConnStateData::readNextRequest: FD " << fd << " reading next req"); |
1483 | ||
a46d2c0e | 1484 | fd_note(fd, "Waiting for next request"); |
63be0a78 | 1485 | /** |
c8be6d7b | 1486 | * Set the timeout BEFORE calling clientReadRequest(). |
1487 | */ | |
1cf238db | 1488 | typedef CommCbMemFunT<ConnStateData, CommTimeoutCbParams> TimeoutDialer; |
4299f876 | 1489 | AsyncCall::Pointer timeoutCall = JobCallback(33, 5, |
4cb2536f | 1490 | TimeoutDialer, this, ConnStateData::requestTimeout); |
1cf238db | 1491 | commSetTimeout(fd, Config.Timeout.persistent_request, timeoutCall); |
1492 | ||
a46d2c0e | 1493 | readSomeData(); |
63be0a78 | 1494 | /** Please don't do anything with the FD past here! */ |
c8be6d7b | 1495 | } |
1496 | ||
09d3938c | 1497 | static void |
1cf238db | 1498 | ClientSocketContextPushDeferredIfNeeded(ClientSocketContext::Pointer deferredRequest, ConnStateData * conn) |
c8be6d7b | 1499 | { |
bf8fe701 | 1500 | debugs(33, 2, "ClientSocketContextPushDeferredIfNeeded: FD " << conn->fd << " Sending next"); |
1501 | ||
63be0a78 | 1502 | /** If the client stream is waiting on a socket write to occur, then */ |
62e76326 | 1503 | |
c8be6d7b | 1504 | if (deferredRequest->flags.deferred) { |
63be0a78 | 1505 | /** NO data is allowed to have been sent. */ |
62e76326 | 1506 | assert(deferredRequest->http->out.size == 0); |
63be0a78 | 1507 | /** defer now. */ |
62e76326 | 1508 | clientSocketRecipient(deferredRequest->deferredparams.node, |
1509 | deferredRequest->http, | |
1510 | deferredRequest->deferredparams.rep, | |
1511 | deferredRequest->deferredparams.queuedBuffer); | |
c8be6d7b | 1512 | } |
62e76326 | 1513 | |
63be0a78 | 1514 | /** otherwise, the request is still active in a callbacksomewhere, |
c8be6d7b | 1515 | * and we are done |
f4f278b5 | 1516 | */ |
f4f278b5 | 1517 | } |
1518 | ||
0655fa4d | 1519 | void |
1520 | ClientSocketContext::keepaliveNextRequest() | |
1a92a1e2 | 1521 | { |
1cf238db | 1522 | ConnStateData * conn = http->getConn(); |
f900210a | 1523 | bool do_next_read = false; |
bd4e6ec8 | 1524 | |
bf8fe701 | 1525 | debugs(33, 3, "ClientSocketContext::keepaliveNextRequest: FD " << conn->fd); |
0655fa4d | 1526 | connIsFinished(); |
1527 | ||
d67acb4e AJ |
1528 | if (conn->pinning.pinned && conn->pinning.fd == -1) { |
1529 | debugs(33, 2, "clientKeepaliveNextRequest: FD " << conn->fd << " Connection was pinned but server side gone. Terminating client connection"); | |
1530 | comm_close(conn->fd); | |
1531 | return; | |
1532 | } | |
1533 | ||
63be0a78 | 1534 | /** \par |
f900210a | 1535 | * Attempt to parse a request from the request buffer. |
1536 | * If we've been fed a pipelined request it may already | |
1537 | * be in our read buffer. | |
1538 | * | |
63be0a78 | 1539 | \par |
f900210a | 1540 | * This needs to fall through - if we're unlucky and parse the _last_ request |
1541 | * from our read buffer we may never re-register for another client read. | |
1542 | */ | |
1543 | ||
1544 | if (clientParseRequest(conn, do_next_read)) { | |
bf8fe701 | 1545 | debugs(33, 3, "clientSocketContext::keepaliveNextRequest: FD " << conn->fd << ": parsed next request from buffer"); |
f900210a | 1546 | } |
1547 | ||
63be0a78 | 1548 | /** \par |
f900210a | 1549 | * Either we need to kick-start another read or, if we have |
1550 | * a half-closed connection, kill it after the last request. | |
1551 | * This saves waiting for half-closed connections to finished being | |
1552 | * half-closed _AND_ then, sometimes, spending "Timeout" time in | |
1553 | * the keepalive "Waiting for next request" state. | |
1554 | */ | |
1555 | if (commIsHalfClosed(conn->fd) && (conn->getConcurrentRequestCount() == 0)) { | |
bf8fe701 | 1556 | debugs(33, 3, "ClientSocketContext::keepaliveNextRequest: half-closed client with no pending requests, closing"); |
f900210a | 1557 | comm_close(conn->fd); |
1558 | return; | |
1559 | } | |
1560 | ||
0655fa4d | 1561 | ClientSocketContext::Pointer deferredRequest; |
62e76326 | 1562 | |
63be0a78 | 1563 | /** \par |
f900210a | 1564 | * At this point we either have a parsed request (which we've |
1565 | * kicked off the processing for) or not. If we have a deferred | |
1566 | * request (parsed but deferred for pipeling processing reasons) | |
1567 | * then look at processing it. If not, simply kickstart | |
1568 | * another read. | |
1569 | */ | |
1570 | ||
1571 | if ((deferredRequest = conn->getCurrentContext()).getRaw()) { | |
bf8fe701 | 1572 | debugs(33, 3, "ClientSocketContext:: FD " << conn->fd << ": calling PushDeferredIfNeeded"); |
62e76326 | 1573 | ClientSocketContextPushDeferredIfNeeded(deferredRequest, conn); |
f900210a | 1574 | } else { |
bf8fe701 | 1575 | debugs(33, 3, "ClientSocketContext:: FD " << conn->fd << ": calling conn->readNextRequest()"); |
f900210a | 1576 | conn->readNextRequest(); |
1577 | } | |
1a92a1e2 | 1578 | } |
1579 | ||
c8be6d7b | 1580 | void |
1581 | clientUpdateSocketStats(log_type logType, size_t size) | |
1582 | { | |
1583 | if (size == 0) | |
62e76326 | 1584 | return; |
1585 | ||
c8be6d7b | 1586 | kb_incr(&statCounter.client_http.kbytes_out, size); |
62e76326 | 1587 | |
c8be6d7b | 1588 | if (logTypeIsATcpHit(logType)) |
62e76326 | 1589 | kb_incr(&statCounter.client_http.hit_kbytes_out, size); |
c8be6d7b | 1590 | } |
1591 | ||
63be0a78 | 1592 | /** |
528b2c61 | 1593 | * increments iterator "i" |
63be0a78 | 1594 | * used by clientPackMoreRanges |
1595 | * | |
1596 | \retval true there is still data available to pack more ranges | |
9e008dda | 1597 | \retval false |
63be0a78 | 1598 | */ |
528b2c61 | 1599 | bool |
1600 | ClientSocketContext::canPackMoreRanges() const | |
1601 | { | |
63be0a78 | 1602 | /** first update iterator "i" if needed */ |
62e76326 | 1603 | |
528b2c61 | 1604 | if (!http->range_iter.debt()) { |
63be0a78 | 1605 | debugs(33, 5, "ClientSocketContext::canPackMoreRanges: At end of current range spec for FD " << fd()); |
62e76326 | 1606 | |
1607 | if (http->range_iter.pos.incrementable()) | |
1608 | ++http->range_iter.pos; | |
1609 | ||
1610 | http->range_iter.updateSpec(); | |
528b2c61 | 1611 | } |
62e76326 | 1612 | |
528b2c61 | 1613 | assert(!http->range_iter.debt() == !http->range_iter.currentSpec()); |
63be0a78 | 1614 | |
528b2c61 | 1615 | /* paranoid sync condition */ |
1616 | /* continue condition: need_more_data */ | |
bf8fe701 | 1617 | debugs(33, 5, "ClientSocketContext::canPackMoreRanges: returning " << (http->range_iter.currentSpec() ? true : false)); |
528b2c61 | 1618 | return http->range_iter.currentSpec() ? true : false; |
1619 | } | |
1620 | ||
47f6e231 | 1621 | int64_t |
528b2c61 | 1622 | ClientSocketContext::getNextRangeOffset() const |
1623 | { | |
1624 | if (http->request->range) { | |
62e76326 | 1625 | /* offset in range specs does not count the prefix of an http msg */ |
47f6e231 | 1626 | debugs (33, 5, "ClientSocketContext::getNextRangeOffset: http offset " << http->out.offset); |
62e76326 | 1627 | /* check: reply was parsed and range iterator was initialized */ |
1628 | assert(http->range_iter.valid); | |
1629 | /* filter out data according to range specs */ | |
1630 | assert (canPackMoreRanges()); | |
1631 | { | |
47f6e231 | 1632 | int64_t start; /* offset of still missing data */ |
62e76326 | 1633 | assert(http->range_iter.currentSpec()); |
1634 | start = http->range_iter.currentSpec()->offset + http->range_iter.currentSpec()->length - http->range_iter.debt(); | |
47f6e231 | 1635 | debugs(33, 3, "clientPackMoreRanges: in: offset: " << http->out.offset); |
1636 | debugs(33, 3, "clientPackMoreRanges: out:" | |
9e008dda AJ |
1637 | " start: " << start << |
1638 | " spec[" << http->range_iter.pos - http->request->range->begin() << "]:" << | |
1639 | " [" << http->range_iter.currentSpec()->offset << | |
1640 | ", " << http->range_iter.currentSpec()->offset + http->range_iter.currentSpec()->length << ")," | |
1641 | " len: " << http->range_iter.currentSpec()->length << | |
1642 | " debt: " << http->range_iter.debt()); | |
62e76326 | 1643 | if (http->range_iter.currentSpec()->length != -1) |
1644 | assert(http->out.offset <= start); /* we did not miss it */ | |
1645 | ||
1646 | return start; | |
1647 | } | |
1648 | ||
fedd1531 | 1649 | } else if (reply && reply->content_range) { |
1650 | /* request does not have ranges, but reply does */ | |
63be0a78 | 1651 | /** \todo FIXME: should use range_iter_pos on reply, as soon as reply->content_range |
1652 | * becomes HttpHdrRange rather than HttpHdrRangeSpec. | |
1653 | */ | |
fedd1531 | 1654 | return http->out.offset + reply->content_range->spec.offset; |
528b2c61 | 1655 | } |
1656 | ||
1657 | return http->out.offset; | |
1658 | } | |
1659 | ||
c8be6d7b | 1660 | void |
528b2c61 | 1661 | ClientSocketContext::pullData() |
c8be6d7b | 1662 | { |
ec69c304 | 1663 | debugs(33, 5, "ClientSocketContext::pullData: FD " << fd() << |
9e008dda | 1664 | " attempting to pull upstream data"); |
bf8fe701 | 1665 | |
c8be6d7b | 1666 | /* More data will be coming from the stream. */ |
528b2c61 | 1667 | StoreIOBuffer readBuffer; |
1668 | /* XXX: Next requested byte in the range sequence */ | |
1669 | /* XXX: length = getmaximumrangelenfgth */ | |
1670 | readBuffer.offset = getNextRangeOffset(); | |
c8be6d7b | 1671 | readBuffer.length = HTTP_REQBUF_SZ; |
528b2c61 | 1672 | readBuffer.data = reqbuf; |
1673 | /* we may note we have reached the end of the wanted ranges */ | |
1674 | clientStreamRead(getTail(), http, readBuffer); | |
1675 | } | |
1676 | ||
62e76326 | 1677 | clientStream_status_t |
528b2c61 | 1678 | ClientSocketContext::socketState() |
1679 | { | |
1680 | switch (clientStreamStatus(getTail(), http)) { | |
62e76326 | 1681 | |
1682 | case STREAM_NONE: | |
528b2c61 | 1683 | /* check for range support ending */ |
62e76326 | 1684 | |
528b2c61 | 1685 | if (http->request->range) { |
62e76326 | 1686 | /* check: reply was parsed and range iterator was initialized */ |
1687 | assert(http->range_iter.valid); | |
1688 | /* filter out data according to range specs */ | |
1689 | ||
1690 | if (!canPackMoreRanges()) { | |
920ba08d | 1691 | debugs(33, 5, HERE << "Range request at end of returnable " << |
9e008dda | 1692 | "range sequence on FD " << fd()); |
62e76326 | 1693 | |
1694 | if (http->request->flags.proxy_keepalive) | |
1695 | return STREAM_COMPLETE; | |
1696 | else | |
1697 | return STREAM_UNPLANNED_COMPLETE; | |
1698 | } | |
fedd1531 | 1699 | } else if (reply && reply->content_range) { |
425802c8 | 1700 | /* reply has content-range, but Squid is not managing ranges */ |
1701 | const int64_t &bytesSent = http->out.offset; | |
1702 | const int64_t &bytesExpected = reply->content_range->spec.length; | |
fedd1531 | 1703 | |
425802c8 | 1704 | debugs(33, 7, HERE << "body bytes sent vs. expected: " << |
9e008dda AJ |
1705 | bytesSent << " ? " << bytesExpected << " (+" << |
1706 | reply->content_range->spec.offset << ")"); | |
425802c8 | 1707 | |
1708 | // did we get at least what we expected, based on range specs? | |
1709 | ||
65058d64 CT |
1710 | if (bytesSent == bytesExpected) { // got everything |
1711 | if (http->request->flags.proxy_keepalive) | |
1712 | return STREAM_COMPLETE; | |
1713 | else | |
1714 | return STREAM_UNPLANNED_COMPLETE; | |
1715 | } | |
425802c8 | 1716 | |
1717 | // The logic below is not clear: If we got more than we | |
1718 | // expected why would persistency matter? Should not this | |
1719 | // always be an error? | |
1720 | if (bytesSent > bytesExpected) { // got extra | |
fedd1531 | 1721 | if (http->request->flags.proxy_keepalive) |
1722 | return STREAM_COMPLETE; | |
1723 | else | |
1724 | return STREAM_UNPLANNED_COMPLETE; | |
1725 | } | |
425802c8 | 1726 | |
1727 | // did not get enough yet, expecting more | |
62e76326 | 1728 | } |
1729 | ||
1730 | return STREAM_NONE; | |
1731 | ||
1732 | case STREAM_COMPLETE: | |
528b2c61 | 1733 | return STREAM_COMPLETE; |
62e76326 | 1734 | |
1735 | case STREAM_UNPLANNED_COMPLETE: | |
1736 | return STREAM_UNPLANNED_COMPLETE; | |
1737 | ||
1738 | case STREAM_FAILED: | |
1739 | return STREAM_FAILED; | |
528b2c61 | 1740 | } |
62e76326 | 1741 | |
528b2c61 | 1742 | fatal ("unreachable code\n"); |
1743 | return STREAM_NONE; | |
c8be6d7b | 1744 | } |
edce4d98 | 1745 | |
63be0a78 | 1746 | /** |
1747 | * A write has just completed to the client, or we have just realised there is | |
edce4d98 | 1748 | * no more data to send. |
1749 | */ | |
e6ccf245 | 1750 | void |
2b663917 | 1751 | clientWriteComplete(int fd, char *bufnotused, size_t size, comm_err_t errflag, int xerrno, void *data) |
7a2f978b | 1752 | { |
528b2c61 | 1753 | ClientSocketContext *context = (ClientSocketContext *)data; |
0655fa4d | 1754 | context->writeComplete (fd, bufnotused, size, errflag); |
1755 | } | |
1756 | ||
f692498b AJ |
1757 | /// remembers the abnormal connection termination for logging purposes |
1758 | void | |
1759 | ClientSocketContext::noteIoError(const int xerrno) | |
1760 | { | |
1761 | if (http) { | |
1762 | if (xerrno == ETIMEDOUT) | |
1763 | http->al.http.timedout = true; | |
1764 | else // even if xerrno is zero (which means read abort/eof) | |
1765 | http->al.http.aborted = true; | |
1766 | } | |
1767 | } | |
1768 | ||
1769 | ||
55e44db9 | 1770 | void |
1771 | ClientSocketContext::doClose() | |
1772 | { | |
1773 | comm_close(fd()); | |
1774 | } | |
1775 | ||
6e1d409c AR |
1776 | /** Called to initiate (and possibly complete) closing of the context. |
1777 | * The underlying socket may be already closed */ | |
55e44db9 | 1778 | void |
5f8252d2 | 1779 | ClientSocketContext::initiateClose(const char *reason) |
55e44db9 | 1780 | { |
5f8252d2 | 1781 | debugs(33, 5, HERE << "initiateClose: closing for " << reason); |
fc68f6b1 | 1782 | |
3b299123 | 1783 | if (http != NULL) { |
1cf238db | 1784 | ConnStateData * conn = http->getConn(); |
3b299123 | 1785 | |
1786 | if (conn != NULL) { | |
39cb8c41 | 1787 | if (const int64_t expecting = conn->mayNeedToReadMoreBody()) { |
5f8252d2 | 1788 | debugs(33, 5, HERE << "ClientSocketContext::initiateClose: " << |
1789 | "closing, but first " << conn << " needs to read " << | |
1790 | expecting << " request body bytes with " << | |
1791 | conn->in.notYetUsed << " notYetUsed"); | |
1792 | ||
1793 | if (conn->closing()) { | |
1794 | debugs(33, 2, HERE << "avoiding double-closing " << conn); | |
1795 | return; | |
1796 | } | |
fc68f6b1 | 1797 | |
3b299123 | 1798 | /* |
1799 | * XXX We assume the reply fits in the TCP transmit | |
1800 | * window. If not the connection may stall while sending | |
1801 | * the reply (before reaching here) if the client does not | |
1802 | * try to read the response while sending the request body. | |
1803 | * As of yet we have not received any complaints indicating | |
1804 | * this may be an issue. | |
55e44db9 | 1805 | */ |
5f8252d2 | 1806 | conn->startClosing(reason); |
fc68f6b1 | 1807 | |
3b299123 | 1808 | return; |
1809 | } | |
1810 | } | |
55e44db9 | 1811 | } |
1812 | ||
1813 | doClose(); | |
1814 | } | |
1815 | ||
0655fa4d | 1816 | void |
e053c141 | 1817 | ClientSocketContext::writeComplete(int aFileDescriptor, char *bufnotused, size_t size, comm_err_t errflag) |
0655fa4d | 1818 | { |
86a2f789 | 1819 | StoreEntry *entry = http->storeEntry(); |
7a2f978b | 1820 | http->out.size += size; |
e053c141 FC |
1821 | assert(aFileDescriptor > -1); |
1822 | debugs(33, 5, "clientWriteComplete: FD " << aFileDescriptor << ", sz " << size << | |
e4049756 | 1823 | ", err " << errflag << ", off " << http->out.size << ", len " << |
707fdc47 | 1824 | entry ? entry->objectLen() : 0); |
c8be6d7b | 1825 | clientUpdateSocketStats(http->logType, size); |
e053c141 | 1826 | assert (this->fd() == aFileDescriptor); |
62e76326 | 1827 | |
5f8252d2 | 1828 | /* Bail out quickly on COMM_ERR_CLOSING - close handlers will tidy up */ |
fc68f6b1 | 1829 | |
5f8252d2 | 1830 | if (errflag == COMM_ERR_CLOSING) |
1831 | return; | |
1832 | ||
e053c141 | 1833 | if (errflag || clientHttpRequestStatus(aFileDescriptor, http)) { |
5f8252d2 | 1834 | initiateClose("failure or true request status"); |
62e76326 | 1835 | /* Do we leak here ? */ |
1836 | return; | |
edce4d98 | 1837 | } |
62e76326 | 1838 | |
0655fa4d | 1839 | switch (socketState()) { |
62e76326 | 1840 | |
edce4d98 | 1841 | case STREAM_NONE: |
0655fa4d | 1842 | pullData(); |
62e76326 | 1843 | break; |
1844 | ||
edce4d98 | 1845 | case STREAM_COMPLETE: |
e053c141 | 1846 | debugs(33, 5, "clientWriteComplete: FD " << aFileDescriptor << " Keeping Alive"); |
0655fa4d | 1847 | keepaliveNextRequest(); |
62e76326 | 1848 | return; |
1849 | ||
edce4d98 | 1850 | case STREAM_UNPLANNED_COMPLETE: |
6e1d409c AR |
1851 | initiateClose("STREAM_UNPLANNED_COMPLETE"); |
1852 | return; | |
62e76326 | 1853 | |
edce4d98 | 1854 | case STREAM_FAILED: |
6e1d409c | 1855 | initiateClose("STREAM_FAILED"); |
62e76326 | 1856 | return; |
1857 | ||
edce4d98 | 1858 | default: |
62e76326 | 1859 | fatal("Hit unreachable code in clientWriteComplete\n"); |
7a2f978b | 1860 | } |
1861 | } | |
1862 | ||
e6ccf245 | 1863 | extern "C" CSR clientGetMoreData; |
1864 | extern "C" CSS clientReplyStatus; | |
1865 | extern "C" CSD clientReplyDetach; | |
edce4d98 | 1866 | |
528b2c61 | 1867 | static ClientSocketContext * |
1cf238db | 1868 | parseHttpRequestAbort(ConnStateData * conn, const char *uri) |
038eb4ed | 1869 | { |
59a1efb2 | 1870 | ClientHttpRequest *http; |
528b2c61 | 1871 | ClientSocketContext *context; |
1872 | StoreIOBuffer tempBuffer; | |
a0355e95 | 1873 | http = new ClientHttpRequest(conn); |
c8be6d7b | 1874 | http->req_sz = conn->in.notYetUsed; |
edce4d98 | 1875 | http->uri = xstrdup(uri); |
c4b7a5a9 | 1876 | setLogUri (http, uri); |
528b2c61 | 1877 | context = ClientSocketContextNew(http); |
c8be6d7b | 1878 | tempBuffer.data = context->reqbuf; |
1879 | tempBuffer.length = HTTP_REQBUF_SZ; | |
edce4d98 | 1880 | clientStreamInit(&http->client_stream, clientGetMoreData, clientReplyDetach, |
0655fa4d | 1881 | clientReplyStatus, new clientReplyContext(http), clientSocketRecipient, |
62e76326 | 1882 | clientSocketDetach, context, tempBuffer); |
edce4d98 | 1883 | return context; |
038eb4ed | 1884 | } |
1885 | ||
c8be6d7b | 1886 | char * |
1887 | skipLeadingSpace(char *aString) | |
1888 | { | |
1889 | char *result = aString; | |
62e76326 | 1890 | |
c8be6d7b | 1891 | while (xisspace(*aString)) |
62e76326 | 1892 | ++aString; |
1893 | ||
c8be6d7b | 1894 | return result; |
1895 | } | |
1896 | ||
63be0a78 | 1897 | /** |
d4a04ed5 | 1898 | * 'end' defaults to NULL for backwards compatibility |
1899 | * remove default value if we ever get rid of NULL-terminated | |
1900 | * request buffers. | |
1901 | */ | |
1902 | const char * | |
1903 | findTrailingHTTPVersion(const char *uriAndHTTPVersion, const char *end) | |
c8be6d7b | 1904 | { |
d4a04ed5 | 1905 | if (NULL == end) { |
1906 | end = uriAndHTTPVersion + strcspn(uriAndHTTPVersion, "\r\n"); | |
1907 | assert(end); | |
1908 | } | |
62e76326 | 1909 | |
d4a04ed5 | 1910 | for (; end > uriAndHTTPVersion; end--) { |
1911 | if (*end == '\n' || *end == '\r') | |
62e76326 | 1912 | continue; |
1913 | ||
d4a04ed5 | 1914 | if (xisspace(*end)) { |
1915 | if (strncasecmp(end + 1, "HTTP/", 5) == 0) | |
1916 | return end + 1; | |
62e76326 | 1917 | else |
1918 | break; | |
1919 | } | |
c8be6d7b | 1920 | } |
62e76326 | 1921 | |
3f38a55e | 1922 | return NULL; |
c8be6d7b | 1923 | } |
1924 | ||
c8be6d7b | 1925 | void |
59a1efb2 | 1926 | setLogUri(ClientHttpRequest * http, char const *uri) |
c8be6d7b | 1927 | { |
a46d0227 | 1928 | safe_free(http->log_uri); |
62e76326 | 1929 | |
c8be6d7b | 1930 | if (!stringHasCntl(uri)) |
62e76326 | 1931 | http->log_uri = xstrndup(uri, MAX_URL); |
c8be6d7b | 1932 | else |
62e76326 | 1933 | http->log_uri = xstrndup(rfc1738_escape_unescaped(uri), MAX_URL); |
c8be6d7b | 1934 | } |
1935 | ||
3f38a55e | 1936 | static void |
1cf238db | 1937 | prepareAcceleratedURL(ConnStateData * conn, ClientHttpRequest *http, char *url, const char *req_hdr) |
62e76326 | 1938 | { |
3f38a55e | 1939 | int vhost = conn->port->vhost; |
1940 | int vport = conn->port->vport; | |
1941 | char *host; | |
de12d836 | 1942 | char ipbuf[MAX_IPSTRLEN]; |
c8be6d7b | 1943 | |
3f38a55e | 1944 | http->flags.accel = 1; |
c8be6d7b | 1945 | |
3f38a55e | 1946 | /* BUG: Squid cannot deal with '*' URLs (RFC2616 5.1.2) */ |
c8be6d7b | 1947 | |
34399323 | 1948 | if (strncasecmp(url, "cache_object://", 15) == 0) |
1949 | return; /* already in good shape */ | |
1950 | ||
3f38a55e | 1951 | if (*url != '/') { |
62e76326 | 1952 | if (conn->port->vhost) |
1953 | return; /* already in good shape */ | |
1954 | ||
1955 | /* else we need to ignore the host name */ | |
1956 | url = strstr(url, "//"); | |
1957 | ||
3f38a55e | 1958 | #if SHOULD_REJECT_UNKNOWN_URLS |
62e76326 | 1959 | |
719c7e0a AJ |
1960 | if (!url) { |
1961 | hp->request_parse_status = HTTP_BAD_REQUEST; | |
62e76326 | 1962 | return parseHttpRequestAbort(conn, "error:invalid-request"); |
719c7e0a | 1963 | } |
c8be6d7b | 1964 | #endif |
62e76326 | 1965 | |
1966 | if (url) | |
1967 | url = strchr(url + 2, '/'); | |
1968 | ||
1969 | if (!url) | |
1970 | url = (char *) "/"; | |
3f38a55e | 1971 | } |
1972 | ||
1973 | if (internalCheck(url)) { | |
62e76326 | 1974 | /* prepend our name & port */ |
1975 | http->uri = xstrdup(internalLocalUri(NULL, url)); | |
ae7ff0b8 | 1976 | return; |
1977 | } | |
1978 | ||
1979 | const bool switchedToHttps = conn->switchedToHttps(); | |
1980 | const bool tryHostHeader = vhost || switchedToHttps; | |
1981 | if (tryHostHeader && (host = mime_get_header(req_hdr, "Host")) != NULL) { | |
62e76326 | 1982 | int url_sz = strlen(url) + 32 + Config.appendDomainLen + |
1983 | strlen(host); | |
1984 | http->uri = (char *)xcalloc(url_sz, 1); | |
ae7ff0b8 | 1985 | const char *protocol = switchedToHttps ? |
9e008dda | 1986 | "https" : conn->port->protocol; |
ae7ff0b8 | 1987 | snprintf(http->uri, url_sz, "%s://%s%s", protocol, host, url); |
bf8fe701 | 1988 | debugs(33, 5, "ACCEL VHOST REWRITE: '" << http->uri << "'"); |
3f38a55e | 1989 | } else if (conn->port->defaultsite) { |
62e76326 | 1990 | int url_sz = strlen(url) + 32 + Config.appendDomainLen + |
1991 | strlen(conn->port->defaultsite); | |
1992 | http->uri = (char *)xcalloc(url_sz, 1); | |
1993 | snprintf(http->uri, url_sz, "%s://%s%s", | |
1994 | conn->port->protocol, conn->port->defaultsite, url); | |
bf8fe701 | 1995 | debugs(33, 5, "ACCEL DEFAULTSITE REWRITE: '" << http->uri <<"'"); |
3f38a55e | 1996 | } else if (vport == -1) { |
62e76326 | 1997 | /* Put the local socket IP address as the hostname. */ |
1998 | int url_sz = strlen(url) + 32 + Config.appendDomainLen; | |
1999 | http->uri = (char *)xcalloc(url_sz, 1); | |
de12d836 | 2000 | http->getConn()->me.ToHostname(ipbuf,MAX_IPSTRLEN); |
62e76326 | 2001 | snprintf(http->uri, url_sz, "%s://%s:%d%s", |
98242069 | 2002 | http->getConn()->port->protocol, |
de12d836 | 2003 | ipbuf, http->getConn()->me.GetPort(), url); |
bf8fe701 | 2004 | debugs(33, 5, "ACCEL VPORT REWRITE: '" << http->uri << "'"); |
3f38a55e | 2005 | } else if (vport > 0) { |
62e76326 | 2006 | /* Put the local socket IP address as the hostname, but static port */ |
2007 | int url_sz = strlen(url) + 32 + Config.appendDomainLen; | |
2008 | http->uri = (char *)xcalloc(url_sz, 1); | |
de12d836 | 2009 | http->getConn()->me.ToHostname(ipbuf,MAX_IPSTRLEN); |
62e76326 | 2010 | snprintf(http->uri, url_sz, "%s://%s:%d%s", |
98242069 | 2011 | http->getConn()->port->protocol, |
de12d836 | 2012 | ipbuf, vport, url); |
bf8fe701 | 2013 | debugs(33, 5, "ACCEL VPORT REWRITE: '" << http->uri << "'"); |
3f38a55e | 2014 | } |
2015 | } | |
2016 | ||
2017 | static void | |
1cf238db | 2018 | prepareTransparentURL(ConnStateData * conn, ClientHttpRequest *http, char *url, const char *req_hdr) |
62e76326 | 2019 | { |
3f38a55e | 2020 | char *host; |
de12d836 | 2021 | char ipbuf[MAX_IPSTRLEN]; |
3f38a55e | 2022 | |
3f38a55e | 2023 | if (*url != '/') |
62e76326 | 2024 | return; /* already in good shape */ |
3f38a55e | 2025 | |
2026 | /* BUG: Squid cannot deal with '*' URLs (RFC2616 5.1.2) */ | |
2027 | ||
f024c970 | 2028 | if ((host = mime_get_header(req_hdr, "Host")) != NULL) { |
62e76326 | 2029 | int url_sz = strlen(url) + 32 + Config.appendDomainLen + |
2030 | strlen(host); | |
2031 | http->uri = (char *)xcalloc(url_sz, 1); | |
2032 | snprintf(http->uri, url_sz, "%s://%s%s", | |
2033 | conn->port->protocol, host, url); | |
bf8fe701 | 2034 | debugs(33, 5, "TRANSPARENT HOST REWRITE: '" << http->uri <<"'"); |
c8be6d7b | 2035 | } else { |
62e76326 | 2036 | /* Put the local socket IP address as the hostname. */ |
2037 | int url_sz = strlen(url) + 32 + Config.appendDomainLen; | |
2038 | http->uri = (char *)xcalloc(url_sz, 1); | |
de12d836 | 2039 | http->getConn()->me.ToHostname(ipbuf,MAX_IPSTRLEN), |
62e76326 | 2040 | snprintf(http->uri, url_sz, "%s://%s:%d%s", |
98242069 | 2041 | http->getConn()->port->protocol, |
de12d836 | 2042 | ipbuf, http->getConn()->me.GetPort(), url); |
bf8fe701 | 2043 | debugs(33, 5, "TRANSPARENT REWRITE: '" << http->uri << "'"); |
c8be6d7b | 2044 | } |
c8be6d7b | 2045 | } |
2046 | ||
63be0a78 | 2047 | /** |
7a2f978b | 2048 | * parseHttpRequest() |
9e008dda | 2049 | * |
7a2f978b | 2050 | * Returns |
c4b7a5a9 | 2051 | * NULL on incomplete requests |
528b2c61 | 2052 | * a ClientSocketContext structure on success or failure. |
c4b7a5a9 | 2053 | * Sets result->flags.parsed_ok to 0 if failed to parse the request. |
2054 | * Sets result->flags.parsed_ok to 1 if we have a good request. | |
7a2f978b | 2055 | */ |
528b2c61 | 2056 | static ClientSocketContext * |
1cf238db | 2057 | parseHttpRequest(ConnStateData *conn, HttpParser *hp, HttpRequestMethod * method_p, HttpVersion *http_ver) |
7a2f978b | 2058 | { |
7a2f978b | 2059 | char *req_hdr = NULL; |
2334c194 | 2060 | char *end; |
c68e9c6b | 2061 | size_t req_sz; |
59a1efb2 | 2062 | ClientHttpRequest *http; |
528b2c61 | 2063 | ClientSocketContext *result; |
2064 | StoreIOBuffer tempBuffer; | |
84cc2635 | 2065 | int r; |
7a2f978b | 2066 | |
6792f0d3 | 2067 | /* pre-set these values to make aborting simpler */ |
6792f0d3 | 2068 | *method_p = METHOD_NONE; |
6792f0d3 | 2069 | |
7ed7d3da AJ |
2070 | /* NP: don't be tempted to move this down or remove again. |
2071 | * It's the only DDoS protection old-String has against long URL */ | |
2072 | if ( hp->bufsiz <= 0) { | |
2073 | debugs(33, 5, "Incomplete request, waiting for end of request line"); | |
2074 | return NULL; | |
e1381638 | 2075 | } else if ( (size_t)hp->bufsiz >= Config.maxRequestHeaderSize && headersEnd(hp->buf, Config.maxRequestHeaderSize) == 0) { |
7ed7d3da | 2076 | debugs(33, 5, "parseHttpRequest: Too large request"); |
719c7e0a | 2077 | hp->request_parse_status = HTTP_HEADER_TOO_LARGE; |
7ed7d3da AJ |
2078 | return parseHttpRequestAbort(conn, "error:request-too-large"); |
2079 | } | |
2080 | ||
84cc2635 | 2081 | /* Attempt to parse the first line; this'll define the method, url, version and header begin */ |
2082 | r = HttpParserParseReqLine(hp); | |
fc68f6b1 | 2083 | |
84cc2635 | 2084 | if (r == 0) { |
bf8fe701 | 2085 | debugs(33, 5, "Incomplete request, waiting for end of request line"); |
fc68f6b1 | 2086 | return NULL; |
7a2f978b | 2087 | } |
fc68f6b1 | 2088 | |
84cc2635 | 2089 | if (r == -1) { |
2090 | return parseHttpRequestAbort(conn, "error:invalid-request"); | |
2091 | } | |
fc68f6b1 | 2092 | |
84cc2635 | 2093 | /* Request line is valid here .. */ |
2094 | *http_ver = HttpVersion(hp->v_maj, hp->v_min); | |
62e76326 | 2095 | |
52512f28 | 2096 | /* This call scans the entire request, not just the headers */ |
84cc2635 | 2097 | if (hp->v_maj > 0) { |
a5baffba | 2098 | if ((req_sz = headersEnd(hp->buf, hp->bufsiz)) == 0) { |
bf8fe701 | 2099 | debugs(33, 5, "Incomplete request, waiting for end of headers"); |
62e76326 | 2100 | return NULL; |
2101 | } | |
3f38a55e | 2102 | } else { |
bf8fe701 | 2103 | debugs(33, 3, "parseHttpRequest: Missing HTTP identifier"); |
84cc2635 | 2104 | req_sz = HttpParserReqSz(hp); |
3f38a55e | 2105 | } |
2106 | ||
bb790702 | 2107 | /* We know the whole request is in hp->buf now */ |
52512f28 | 2108 | |
a5baffba | 2109 | assert(req_sz <= (size_t) hp->bufsiz); |
fc68f6b1 | 2110 | |
a5baffba | 2111 | /* Will the following be true with HTTP/0.9 requests? probably not .. */ |
2112 | /* So the rest of the code will need to deal with '0'-byte headers (ie, none, so don't try parsing em) */ | |
2113 | assert(req_sz > 0); | |
fc68f6b1 | 2114 | |
a5baffba | 2115 | hp->hdr_end = req_sz - 1; |
fc68f6b1 | 2116 | |
a5baffba | 2117 | hp->hdr_start = hp->req_end + 1; |
3f38a55e | 2118 | |
5b648f60 | 2119 | /* Enforce max_request_size */ |
5b648f60 | 2120 | if (req_sz >= Config.maxRequestHeaderSize) { |
bf8fe701 | 2121 | debugs(33, 5, "parseHttpRequest: Too large request"); |
719c7e0a | 2122 | hp->request_parse_status = HTTP_HEADER_TOO_LARGE; |
5b648f60 | 2123 | return parseHttpRequestAbort(conn, "error:request-too-large"); |
2124 | } | |
2125 | ||
84cc2635 | 2126 | /* Set method_p */ |
60745f24 | 2127 | *method_p = HttpRequestMethod(&hp->buf[hp->m_start], &hp->buf[hp->m_end]+1); |
fc68f6b1 | 2128 | |
adf29627 AJ |
2129 | /* deny CONNECT via accelerated ports */ |
2130 | if (*method_p == METHOD_CONNECT && conn && conn->port && conn->port->accel) { | |
2131 | debugs(33, DBG_IMPORTANT, "WARNING: CONNECT method received on " << conn->port->protocol << " Accelerator port " << conn->port->s.GetPort() ); | |
2132 | /* XXX need a way to say "this many character length string" */ | |
2133 | debugs(33, DBG_IMPORTANT, "WARNING: for request: " << hp->buf); | |
719c7e0a | 2134 | hp->request_parse_status = HTTP_METHOD_NOT_ALLOWED; |
adf29627 AJ |
2135 | return parseHttpRequestAbort(conn, "error:method-not-allowed"); |
2136 | } | |
2137 | ||
84cc2635 | 2138 | if (*method_p == METHOD_NONE) { |
fc68f6b1 | 2139 | /* XXX need a way to say "this many character length string" */ |
bf8fe701 | 2140 | debugs(33, 1, "clientParseRequestMethod: Unsupported method in request '" << hp->buf << "'"); |
719c7e0a | 2141 | hp->request_parse_status = HTTP_METHOD_NOT_ALLOWED; |
84cc2635 | 2142 | return parseHttpRequestAbort(conn, "error:unsupported-request-method"); |
3f38a55e | 2143 | } |
7a2f978b | 2144 | |
c68e9c6b | 2145 | /* |
2146 | * Process headers after request line | |
c8be6d7b | 2147 | * TODO: Use httpRequestParse here. |
c68e9c6b | 2148 | */ |
84cc2635 | 2149 | /* XXX this code should be modified to take a const char * later! */ |
2150 | req_hdr = (char *) hp->buf + hp->req_end + 1; | |
fc68f6b1 | 2151 | |
bf8fe701 | 2152 | debugs(33, 3, "parseHttpRequest: req_hdr = {" << req_hdr << "}"); |
fc68f6b1 | 2153 | |
52512f28 | 2154 | end = (char *) hp->buf + hp->hdr_end; |
fc68f6b1 | 2155 | |
bf8fe701 | 2156 | debugs(33, 3, "parseHttpRequest: end = {" << end << "}"); |
99edd1c3 | 2157 | |
bf8fe701 | 2158 | debugs(33, 3, "parseHttpRequest: prefix_sz = " << |
2159 | (int) HttpParserRequestLen(hp) << ", req_line_sz = " << | |
2160 | HttpParserReqSz(hp)); | |
62e76326 | 2161 | |
7a2f978b | 2162 | /* Ok, all headers are received */ |
a0355e95 | 2163 | http = new ClientHttpRequest(conn); |
62e76326 | 2164 | |
a5baffba | 2165 | http->req_sz = HttpParserRequestLen(hp); |
528b2c61 | 2166 | result = ClientSocketContextNew(http); |
c8be6d7b | 2167 | tempBuffer.data = result->reqbuf; |
2168 | tempBuffer.length = HTTP_REQBUF_SZ; | |
62e76326 | 2169 | |
0655fa4d | 2170 | ClientStreamData newServer = new clientReplyContext(http); |
0655fa4d | 2171 | ClientStreamData newClient = result; |
edce4d98 | 2172 | clientStreamInit(&http->client_stream, clientGetMoreData, clientReplyDetach, |
0655fa4d | 2173 | clientReplyStatus, newServer, clientSocketRecipient, |
2174 | clientSocketDetach, newClient, tempBuffer); | |
62e76326 | 2175 | |
bf8fe701 | 2176 | debugs(33, 5, "parseHttpRequest: Request Header is\n" <<(hp->buf) + hp->hdr_start); |
3f38a55e | 2177 | |
3ff65596 AR |
2178 | /* set url */ |
2179 | /* | |
2180 | * XXX this should eventually not use a malloc'ed buffer; the transformation code | |
2181 | * below needs to be modified to not expect a mutable nul-terminated string. | |
2182 | */ | |
2183 | char *url = (char *)xmalloc(hp->u_end - hp->u_start + 16); | |
2184 | ||
2185 | memcpy(url, hp->buf + hp->u_start, hp->u_end - hp->u_start + 1); | |
2186 | ||
2187 | url[hp->u_end - hp->u_start + 1] = '\0'; | |
2188 | ||
ba9ebd0a | 2189 | #if THIS_VIOLATES_HTTP_SPECS_ON_URL_TRANSFORMATION |
62e76326 | 2190 | |
7a2f978b | 2191 | if ((t = strchr(url, '#'))) /* remove HTML anchors */ |
62e76326 | 2192 | *t = '\0'; |
2193 | ||
ba9ebd0a | 2194 | #endif |
7a2f978b | 2195 | |
3f38a55e | 2196 | /* Rewrite the URL in transparent or accelerator mode */ |
89272111 AJ |
2197 | /* NP: there are several cases to traverse here: |
2198 | * - standard mode (forward proxy) | |
2199 | * - transparent mode (TPROXY) | |
2200 | * - transparent mode with failures | |
2201 | * - intercept mode (NAT) | |
2202 | * - intercept mode with failures | |
2203 | * - accelerator mode (reverse proxy) | |
2204 | * - internal URL | |
2205 | * - mixed combos of the above with internal URL | |
2206 | */ | |
a46d2c0e | 2207 | if (conn->transparent()) { |
89272111 | 2208 | /* intercept or transparent mode, properly working with no failures */ |
891de1fe AJ |
2209 | http->flags.intercepted = conn->port->intercepted; |
2210 | http->flags.spoof_client_ip = conn->port->spoof_client_ip; | |
89272111 AJ |
2211 | prepareTransparentURL(conn, http, url, req_hdr); |
2212 | ||
2213 | } else if (conn->port->intercepted || conn->port->spoof_client_ip) { | |
2214 | /* transparent or intercept mode with failures */ | |
62e76326 | 2215 | prepareTransparentURL(conn, http, url, req_hdr); |
89272111 | 2216 | |
ae7ff0b8 | 2217 | } else if (conn->port->accel || conn->switchedToHttps()) { |
89272111 | 2218 | /* accelerator mode */ |
62e76326 | 2219 | prepareAcceleratedURL(conn, http, url, req_hdr); |
89272111 | 2220 | |
2f2749d7 | 2221 | } else if (internalCheck(url)) { |
89272111 | 2222 | /* internal URL mode */ |
2f2749d7 | 2223 | /* prepend our name & port */ |
2224 | http->uri = xstrdup(internalLocalUri(NULL, url)); | |
2f2749d7 | 2225 | http->flags.accel = 1; |
3f38a55e | 2226 | } |
2227 | ||
2228 | if (!http->uri) { | |
62e76326 | 2229 | /* No special rewrites have been applied above, use the |
2230 | * requested url. may be rewritten later, so make extra room */ | |
2231 | int url_sz = strlen(url) + Config.appendDomainLen + 5; | |
2232 | http->uri = (char *)xcalloc(url_sz, 1); | |
2233 | strcpy(http->uri, url); | |
3f38a55e | 2234 | } |
62e76326 | 2235 | |
c8be6d7b | 2236 | setLogUri(http, http->uri); |
bf8fe701 | 2237 | debugs(33, 5, "parseHttpRequest: Complete request received"); |
c4b7a5a9 | 2238 | result->flags.parsed_ok = 1; |
84cc2635 | 2239 | xfree(url); |
c8be6d7b | 2240 | return result; |
7a2f978b | 2241 | } |
2242 | ||
c8be6d7b | 2243 | int |
a46d2c0e | 2244 | ConnStateData::getAvailableBufferLength() const |
c8be6d7b | 2245 | { |
1a419b96 | 2246 | int result = in.allocatedSize - in.notYetUsed - 1; |
2247 | assert (result >= 0); | |
2248 | return result; | |
c8be6d7b | 2249 | } |
2250 | ||
2251 | void | |
a46d2c0e | 2252 | ConnStateData::makeSpaceAvailable() |
c8be6d7b | 2253 | { |
a46d2c0e | 2254 | if (getAvailableBufferLength() < 2) { |
2255 | in.buf = (char *)memReallocBuf(in.buf, in.allocatedSize * 2, &in.allocatedSize); | |
4a7a3d56 | 2256 | debugs(33, 2, "growing request buffer: notYetUsed=" << in.notYetUsed << " size=" << in.allocatedSize); |
c8be6d7b | 2257 | } |
2258 | } | |
2259 | ||
2260 | void | |
0655fa4d | 2261 | ConnStateData::addContextToQueue(ClientSocketContext * context) |
c8be6d7b | 2262 | { |
0655fa4d | 2263 | ClientSocketContext::Pointer *S; |
62e76326 | 2264 | |
0655fa4d | 2265 | for (S = (ClientSocketContext::Pointer *) & currentobject; S->getRaw(); |
3d0ac046 | 2266 | S = &(*S)->next); |
c8be6d7b | 2267 | *S = context; |
62e76326 | 2268 | |
0655fa4d | 2269 | ++nrequests; |
c8be6d7b | 2270 | } |
2271 | ||
2272 | int | |
0655fa4d | 2273 | ConnStateData::getConcurrentRequestCount() const |
c8be6d7b | 2274 | { |
2275 | int result = 0; | |
0655fa4d | 2276 | ClientSocketContext::Pointer *T; |
62e76326 | 2277 | |
0655fa4d | 2278 | for (T = (ClientSocketContext::Pointer *) ¤tobject; |
3d0ac046 | 2279 | T->getRaw(); T = &(*T)->next, ++result); |
c8be6d7b | 2280 | return result; |
2281 | } | |
2282 | ||
2283 | int | |
1cf238db | 2284 | ConnStateData::connReadWasError(comm_err_t flag, int size, int xerrno) |
c8be6d7b | 2285 | { |
c4b7a5a9 | 2286 | if (flag != COMM_OK) { |
1cf238db | 2287 | debugs(33, 2, "connReadWasError: FD " << fd << ": got flag " << flag); |
62e76326 | 2288 | return 1; |
c4b7a5a9 | 2289 | } |
62e76326 | 2290 | |
c8be6d7b | 2291 | if (size < 0) { |
f3400a93 | 2292 | if (!ignoreErrno(xerrno)) { |
1cf238db | 2293 | debugs(33, 2, "connReadWasError: FD " << fd << ": " << xstrerr(xerrno)); |
62e76326 | 2294 | return 1; |
1cf238db | 2295 | } else if (in.notYetUsed == 0) { |
2296 | debugs(33, 2, "connReadWasError: FD " << fd << ": no data to process (" << xstrerr(xerrno) << ")"); | |
62e76326 | 2297 | } |
c8be6d7b | 2298 | } |
62e76326 | 2299 | |
c8be6d7b | 2300 | return 0; |
2301 | } | |
2302 | ||
2303 | int | |
1cf238db | 2304 | ConnStateData::connFinishedWithConn(int size) |
c8be6d7b | 2305 | { |
2306 | if (size == 0) { | |
1cf238db | 2307 | if (getConcurrentRequestCount() == 0 && in.notYetUsed == 0) { |
62e76326 | 2308 | /* no current or pending requests */ |
1cf238db | 2309 | debugs(33, 4, "connFinishedWithConn: FD " << fd << " closed"); |
62e76326 | 2310 | return 1; |
2311 | } else if (!Config.onoff.half_closed_clients) { | |
2312 | /* admin doesn't want to support half-closed client sockets */ | |
1cf238db | 2313 | debugs(33, 3, "connFinishedWithConn: FD " << fd << " aborted (half_closed_clients disabled)"); |
f692498b | 2314 | notifyAllContexts(0); // no specific error implies abort |
62e76326 | 2315 | return 1; |
2316 | } | |
c8be6d7b | 2317 | } |
62e76326 | 2318 | |
c8be6d7b | 2319 | return 0; |
2320 | } | |
2321 | ||
2322 | void | |
3b299123 | 2323 | connNoteUseOfBuffer(ConnStateData* conn, size_t byteCount) |
c8be6d7b | 2324 | { |
2325 | assert(byteCount > 0 && byteCount <= conn->in.notYetUsed); | |
2326 | conn->in.notYetUsed -= byteCount; | |
d5fa7219 | 2327 | debugs(33, 5, HERE << "conn->in.notYetUsed = " << conn->in.notYetUsed); |
c8be6d7b | 2328 | /* |
9e008dda | 2329 | * If there is still data that will be used, |
c8be6d7b | 2330 | * move it to the beginning. |
2331 | */ | |
62e76326 | 2332 | |
c8be6d7b | 2333 | if (conn->in.notYetUsed > 0) |
62e76326 | 2334 | xmemmove(conn->in.buf, conn->in.buf + byteCount, |
2335 | conn->in.notYetUsed); | |
c8be6d7b | 2336 | } |
2337 | ||
39cb8c41 AR |
2338 | /// respond with ERR_TOO_BIG if request header exceeds request_header_max_size |
2339 | void | |
2340 | ConnStateData::checkHeaderLimits() | |
c8be6d7b | 2341 | { |
39cb8c41 AR |
2342 | if (in.notYetUsed < Config.maxRequestHeaderSize) |
2343 | return; // can accumulte more header data | |
3ff65596 | 2344 | |
39cb8c41 | 2345 | debugs(33, 3, "Request header is too large (" << in.notYetUsed << " > " << |
de48b288 | 2346 | Config.maxRequestHeaderSize << " bytes)"); |
c8be6d7b | 2347 | |
39cb8c41 | 2348 | ClientSocketContext *context = parseHttpRequestAbort(this, "error:request-too-large"); |
528b2c61 | 2349 | clientStreamNode *node = context->getClientReplyContext(); |
0655fa4d | 2350 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2351 | assert (repContext); | |
2352 | repContext->setReplyToError(ERR_TOO_BIG, | |
39cb8c41 AR |
2353 | HTTP_BAD_REQUEST, METHOD_NONE, NULL, |
2354 | peer, NULL, NULL, NULL); | |
0655fa4d | 2355 | context->registerWithConn(); |
528b2c61 | 2356 | context->pullData(); |
c8be6d7b | 2357 | } |
2358 | ||
1cf238db | 2359 | void |
2360 | ConnStateData::clientMaybeReadData(int do_next_read) | |
7a2f978b | 2361 | { |
c4b7a5a9 | 2362 | if (do_next_read) { |
1cf238db | 2363 | flags.readMoreRequests = true; |
2364 | readSomeData(); | |
c4b7a5a9 | 2365 | } |
2366 | } | |
2367 | ||
1cf238db | 2368 | void |
2369 | ConnStateData::clientAfterReadingRequests(int do_next_read) | |
c4b7a5a9 | 2370 | { |
39cb8c41 AR |
2371 | // Were we expecting to read more request body from half-closed connection? |
2372 | if (mayNeedToReadMoreBody() && commIsHalfClosed(fd)) { | |
2373 | debugs(33, 3, HERE << "truncated body: closing half-closed FD " << fd); | |
2374 | comm_close(fd); | |
2375 | return; | |
c4b7a5a9 | 2376 | } |
2377 | ||
1cf238db | 2378 | clientMaybeReadData (do_next_read); |
c4b7a5a9 | 2379 | } |
2380 | ||
c4b7a5a9 | 2381 | static void |
1cf238db | 2382 | clientProcessRequest(ConnStateData *conn, HttpParser *hp, ClientSocketContext *context, const HttpRequestMethod& method, HttpVersion http_ver) |
c4b7a5a9 | 2383 | { |
59a1efb2 | 2384 | ClientHttpRequest *http = context->http; |
190154cf | 2385 | HttpRequest *request = NULL; |
5f8252d2 | 2386 | bool notedUseOfBuffer = false; |
39cb8c41 | 2387 | bool chunked = false; |
e18b8316 | 2388 | bool mustReplyToOptions = false; |
3ff65596 | 2389 | bool unsupportedTe = false; |
39cb8c41 | 2390 | bool expectBody = false; |
5f8252d2 | 2391 | |
c4b7a5a9 | 2392 | /* We have an initial client stream in place should it be needed */ |
2393 | /* setup our private context */ | |
0655fa4d | 2394 | context->registerWithConn(); |
c4b7a5a9 | 2395 | |
2396 | if (context->flags.parsed_ok == 0) { | |
62e76326 | 2397 | clientStreamNode *node = context->getClientReplyContext(); |
bf8fe701 | 2398 | debugs(33, 1, "clientProcessRequest: Invalid Request"); |
0655fa4d | 2399 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2400 | assert (repContext); | |
e212e5e3 | 2401 | switch (hp->request_parse_status) { |
719c7e0a | 2402 | case HTTP_HEADER_TOO_LARGE: |
b5bd8515 | 2403 | repContext->setReplyToError(ERR_TOO_BIG, HTTP_BAD_REQUEST, method, http->uri, conn->peer, NULL, conn->in.buf, NULL); |
719c7e0a AJ |
2404 | break; |
2405 | case HTTP_METHOD_NOT_ALLOWED: | |
2406 | repContext->setReplyToError(ERR_UNSUP_REQ, HTTP_METHOD_NOT_ALLOWED, method, http->uri, conn->peer, NULL, conn->in.buf, NULL); | |
2407 | break; | |
2408 | default: | |
2409 | repContext->setReplyToError(ERR_INVALID_REQ, HTTP_BAD_REQUEST, method, http->uri, conn->peer, NULL, conn->in.buf, NULL); | |
2410 | } | |
62e76326 | 2411 | assert(context->http->out.offset == 0); |
2412 | context->pullData(); | |
48962ba8 | 2413 | conn->flags.readMoreRequests = false; |
fc68f6b1 | 2414 | goto finish; |
c4b7a5a9 | 2415 | } |
2416 | ||
c21ad0f5 | 2417 | if ((request = HttpRequest::CreateFromUrlAndMethod(http->uri, method)) == NULL) { |
62e76326 | 2418 | clientStreamNode *node = context->getClientReplyContext(); |
bf8fe701 | 2419 | debugs(33, 5, "Invalid URL: " << http->uri); |
0655fa4d | 2420 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2421 | assert (repContext); | |
cc192b50 | 2422 | repContext->setReplyToError(ERR_INVALID_URL, HTTP_BAD_REQUEST, method, http->uri, conn->peer, NULL, NULL, NULL); |
62e76326 | 2423 | assert(context->http->out.offset == 0); |
2424 | context->pullData(); | |
48962ba8 | 2425 | conn->flags.readMoreRequests = false; |
fc68f6b1 | 2426 | goto finish; |
62e76326 | 2427 | } |
c4b7a5a9 | 2428 | |
e57c1885 AJ |
2429 | /* RFC 2616 section 10.5.6 : handle unsupported HTTP versions cleanly. */ |
2430 | /* We currently only accept 0.9, 1.0, 1.1 */ | |
2431 | if ( (http_ver.major == 0 && http_ver.minor != 9) || | |
af6a12ee AJ |
2432 | (http_ver.major == 1 && http_ver.minor > 1 ) || |
2433 | (http_ver.major > 1) ) { | |
e57c1885 AJ |
2434 | |
2435 | clientStreamNode *node = context->getClientReplyContext(); | |
2436 | debugs(33, 5, "Unsupported HTTP version discovered. :\n" << HttpParserHdrBuf(hp)); | |
2437 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); | |
2438 | assert (repContext); | |
2439 | repContext->setReplyToError(ERR_UNSUP_HTTPVERSION, HTTP_HTTP_VERSION_NOT_SUPPORTED, method, http->uri, conn->peer, NULL, HttpParserHdrBuf(hp), NULL); | |
2440 | assert(context->http->out.offset == 0); | |
2441 | context->pullData(); | |
2442 | conn->flags.readMoreRequests = false; | |
2443 | goto finish; | |
2444 | } | |
2445 | ||
528b2c61 | 2446 | /* compile headers */ |
2447 | /* we should skip request line! */ | |
666f514b | 2448 | /* XXX should actually know the damned buffer size here */ |
38e82382 | 2449 | if (http_ver.major >= 1 && !request->parseHeader(HttpParserHdrBuf(hp), HttpParserHdrSz(hp))) { |
47ac2ebe | 2450 | clientStreamNode *node = context->getClientReplyContext(); |
bf8fe701 | 2451 | debugs(33, 5, "Failed to parse request headers:\n" << HttpParserHdrBuf(hp)); |
47ac2ebe | 2452 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2453 | assert (repContext); | |
38e82382 | 2454 | repContext->setReplyToError(ERR_INVALID_REQ, HTTP_BAD_REQUEST, method, http->uri, conn->peer, NULL, NULL, NULL); |
47ac2ebe | 2455 | assert(context->http->out.offset == 0); |
2456 | context->pullData(); | |
48962ba8 | 2457 | conn->flags.readMoreRequests = false; |
fc68f6b1 | 2458 | goto finish; |
47ac2ebe | 2459 | } |
c4b7a5a9 | 2460 | |
2461 | request->flags.accelerated = http->flags.accel; | |
432bc83c | 2462 | request->flags.ignore_cc = conn->port->ignore_cc; |
7f7bdd96 | 2463 | request->flags.no_direct = request->flags.accelerated ? !conn->port->allow_direct : 0; |
2ad20b4f AJ |
2464 | |
2465 | /** \par | |
2466 | * If transparent or interception mode is working clone the transparent and interception flags | |
2467 | * from the port settings to the request. | |
2468 | */ | |
b7ac5457 | 2469 | if (Ip::Interceptor.InterceptActive()) { |
2ad20b4f AJ |
2470 | request->flags.intercepted = http->flags.intercepted; |
2471 | } | |
b7ac5457 | 2472 | if (Ip::Interceptor.TransparentActive()) { |
f165d2fb | 2473 | request->flags.spoof_client_ip = conn->port->spoof_client_ip; |
2ad20b4f | 2474 | } |
fc68f6b1 | 2475 | |
5b4117d8 | 2476 | if (internalCheck(request->urlpath.termedBuf())) { |
cc192b50 | 2477 | if (internalHostnameIs(request->GetHost()) && |
f024c970 | 2478 | request->port == getMyPort()) { |
2479 | http->flags.internal = 1; | |
9c175897 | 2480 | } else if (Config.onoff.global_internal_static && internalStaticCheck(request->urlpath.termedBuf())) { |
cc192b50 | 2481 | request->SetHost(internalHostname()); |
f024c970 | 2482 | request->port = getMyPort(); |
2483 | http->flags.internal = 1; | |
62e76326 | 2484 | } |
f024c970 | 2485 | } |
e72a0ec0 | 2486 | |
f024c970 | 2487 | if (http->flags.internal) { |
2488 | request->protocol = PROTO_HTTP; | |
2489 | request->login[0] = '\0'; | |
c4b7a5a9 | 2490 | } |
2491 | ||
c4b7a5a9 | 2492 | request->flags.internal = http->flags.internal; |
2493 | setLogUri (http, urlCanonicalClean(request)); | |
cc192b50 | 2494 | request->client_addr = conn->peer; |
a98c2da5 AJ |
2495 | #if USE_SQUID_EUI |
2496 | request->client_eui48 = conn->peer_eui48; | |
2497 | request->client_eui64 = conn->peer_eui64; | |
2498 | #endif | |
3d674977 AJ |
2499 | #if FOLLOW_X_FORWARDED_FOR |
2500 | request->indirect_client_addr = conn->peer; | |
2501 | #endif /* FOLLOW_X_FORWARDED_FOR */ | |
cc192b50 | 2502 | request->my_addr = conn->me; |
35fb56c9 | 2503 | request->myportname = conn->port->name; |
8ae66e43 | 2504 | request->http_ver = http_ver; |
62e76326 | 2505 | |
39cb8c41 AR |
2506 | if (request->header.chunked()) { |
2507 | chunked = true; | |
2508 | } else if (request->header.has(HDR_TRANSFER_ENCODING)) { | |
2509 | const String te = request->header.getList(HDR_TRANSFER_ENCODING); | |
2510 | // HTTP/1.1 requires chunking to be the last encoding if there is one | |
2511 | unsupportedTe = te.size() && te != "identity"; | |
2512 | } // else implied identity coding | |
de48b288 | 2513 | |
34ee6e73 | 2514 | mustReplyToOptions = (method == METHOD_OPTIONS) && |
d916dcb8 | 2515 | (request->header.getInt64(HDR_MAX_FORWARDS) == 0); |
e18b8316 | 2516 | if (!urlCheckRequest(request) || mustReplyToOptions || unsupportedTe) { |
62e76326 | 2517 | clientStreamNode *node = context->getClientReplyContext(); |
0655fa4d | 2518 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2519 | assert (repContext); | |
2520 | repContext->setReplyToError(ERR_UNSUP_REQ, | |
2521 | HTTP_NOT_IMPLEMENTED, request->method, NULL, | |
cc192b50 | 2522 | conn->peer, request, NULL, NULL); |
62e76326 | 2523 | assert(context->http->out.offset == 0); |
2524 | context->pullData(); | |
48962ba8 | 2525 | conn->flags.readMoreRequests = false; |
fc68f6b1 | 2526 | goto finish; |
c4b7a5a9 | 2527 | } |
2528 | ||
2529 | ||
39cb8c41 | 2530 | if (!chunked && !clientIsContentLengthValid(request)) { |
62e76326 | 2531 | clientStreamNode *node = context->getClientReplyContext(); |
0655fa4d | 2532 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2533 | assert (repContext); | |
2534 | repContext->setReplyToError(ERR_INVALID_REQ, | |
2535 | HTTP_LENGTH_REQUIRED, request->method, NULL, | |
cc192b50 | 2536 | conn->peer, request, NULL, NULL); |
62e76326 | 2537 | assert(context->http->out.offset == 0); |
2538 | context->pullData(); | |
48962ba8 | 2539 | conn->flags.readMoreRequests = false; |
fc68f6b1 | 2540 | goto finish; |
c4b7a5a9 | 2541 | } |
2542 | ||
52b601ff | 2543 | if (request->header.has(HDR_EXPECT)) { |
655daa06 AR |
2544 | const String expect = request->header.getList(HDR_EXPECT); |
2545 | const bool supportedExpect = (expect.caseCmp("100-continue") == 0); | |
2546 | if (!supportedExpect) { | |
52b601ff AJ |
2547 | clientStreamNode *node = context->getClientReplyContext(); |
2548 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); | |
2549 | assert (repContext); | |
2550 | repContext->setReplyToError(ERR_INVALID_REQ, HTTP_EXPECTATION_FAILED, request->method, http->uri, conn->peer, request, NULL, NULL); | |
2551 | assert(context->http->out.offset == 0); | |
2552 | context->pullData(); | |
2553 | goto finish; | |
2554 | } | |
2555 | } | |
2556 | ||
6dd9f4bd | 2557 | http->request = HTTPMSGLOCK(request); |
c4b7a5a9 | 2558 | clientSetKeepaliveFlag(http); |
62e76326 | 2559 | |
b66e0e86 | 2560 | /* If this is a CONNECT, don't schedule a read - ssl.c will handle it */ |
2561 | if (http->request->method == METHOD_CONNECT) | |
2562 | context->mayUseConnection(true); | |
fc68f6b1 | 2563 | |
b66e0e86 | 2564 | /* Do we expect a request-body? */ |
39cb8c41 AR |
2565 | expectBody = chunked || request->content_length > 0; |
2566 | if (!context->mayUseConnection() && expectBody) { | |
2567 | request->body_pipe = conn->expectRequestBody( | |
de48b288 | 2568 | chunked ? -1 : request->content_length); |
5f8252d2 | 2569 | |
2570 | // consume header early so that body pipe gets just the body | |
1cf238db | 2571 | connNoteUseOfBuffer(conn, http->req_sz); |
5f8252d2 | 2572 | notedUseOfBuffer = true; |
2573 | ||
62e76326 | 2574 | /* Is it too large? */ |
39cb8c41 | 2575 | if (!chunked && // if chunked, we will check as we accumulate |
de48b288 | 2576 | clientIsRequestBodyTooLargeForPolicy(request->content_length)) { |
62e76326 | 2577 | clientStreamNode *node = context->getClientReplyContext(); |
0655fa4d | 2578 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
2579 | assert (repContext); | |
2580 | repContext->setReplyToError(ERR_TOO_BIG, | |
2581 | HTTP_REQUEST_ENTITY_TOO_LARGE, METHOD_NONE, NULL, | |
cc192b50 | 2582 | conn->peer, http->request, NULL, NULL); |
62e76326 | 2583 | assert(context->http->out.offset == 0); |
2584 | context->pullData(); | |
5f8252d2 | 2585 | goto finish; |
62e76326 | 2586 | } |
2587 | ||
39cb8c41 AR |
2588 | // We may stop producing, comm_close, and/or call setReplyToError() |
2589 | // below, so quit on errors to avoid http->doCallouts() | |
2590 | if (!conn->handleRequestBodyData()) | |
de48b288 | 2591 | goto finish; |
39cb8c41 | 2592 | |
10b06767 AJ |
2593 | if (!request->body_pipe->productionEnded()) |
2594 | conn->readSomeData(); | |
2595 | ||
2596 | context->mayUseConnection(!request->body_pipe->productionEnded()); | |
c4b7a5a9 | 2597 | } |
2598 | ||
de31d06f | 2599 | http->calloutContext = new ClientRequestContext(http); |
2600 | ||
2601 | http->doCallouts(); | |
9e008dda | 2602 | |
4c29340e | 2603 | finish: |
5f8252d2 | 2604 | if (!notedUseOfBuffer) |
1cf238db | 2605 | connNoteUseOfBuffer(conn, http->req_sz); |
52c2c8a8 | 2606 | |
2607 | /* | |
2608 | * DPW 2007-05-18 | |
2609 | * Moved the TCP_RESET feature from clientReplyContext::sendMoreData | |
2610 | * to here because calling comm_reset_close() causes http to | |
2611 | * be freed and the above connNoteUseOfBuffer() would hit an | |
2612 | * assertion, not to mention that we were accessing freed memory. | |
2613 | */ | |
2614 | if (http->request->flags.resetTCP() && conn->fd > -1) { | |
9e008dda AJ |
2615 | debugs(33, 3, HERE << "Sending TCP RST on FD " << conn->fd); |
2616 | conn->flags.readMoreRequests = false; | |
2617 | comm_reset_close(conn->fd); | |
2618 | return; | |
52c2c8a8 | 2619 | } |
c4b7a5a9 | 2620 | } |
2621 | ||
2622 | static void | |
1cf238db | 2623 | connStripBufferWhitespace (ConnStateData * conn) |
c4b7a5a9 | 2624 | { |
2625 | while (conn->in.notYetUsed > 0 && xisspace(conn->in.buf[0])) { | |
62e76326 | 2626 | xmemmove(conn->in.buf, conn->in.buf + 1, conn->in.notYetUsed - 1); |
2627 | --conn->in.notYetUsed; | |
c4b7a5a9 | 2628 | } |
2629 | } | |
2630 | ||
2631 | static int | |
1cf238db | 2632 | connOkToAddRequest(ConnStateData * conn) |
c4b7a5a9 | 2633 | { |
0655fa4d | 2634 | int result = conn->getConcurrentRequestCount() < (Config.onoff.pipeline_prefetch ? 2 : 1); |
62e76326 | 2635 | |
c4b7a5a9 | 2636 | if (!result) { |
bf8fe701 | 2637 | debugs(33, 3, "connOkToAddRequest: FD " << conn->fd << |
2638 | " max concurrent requests reached"); | |
2639 | debugs(33, 5, "connOkToAddRequest: FD " << conn->fd << | |
2640 | " defering new request until one is done"); | |
c4b7a5a9 | 2641 | } |
62e76326 | 2642 | |
c4b7a5a9 | 2643 | return result; |
2644 | } | |
2645 | ||
63be0a78 | 2646 | /** |
f900210a | 2647 | * Attempt to parse one or more requests from the input buffer. |
2648 | * If a request is successfully parsed, even if the next request | |
2649 | * is only partially parsed, it will return TRUE. | |
2650 | * do_next_read is updated to indicate whether a read should be | |
2651 | * scheduled. | |
2652 | */ | |
2653 | static bool | |
1cf238db | 2654 | clientParseRequest(ConnStateData * conn, bool &do_next_read) |
f900210a | 2655 | { |
60745f24 | 2656 | HttpRequestMethod method; |
f900210a | 2657 | ClientSocketContext *context; |
2658 | bool parsed_req = false; | |
8ae66e43 | 2659 | HttpVersion http_ver; |
a5baffba | 2660 | HttpParser hp; |
f900210a | 2661 | |
bf8fe701 | 2662 | debugs(33, 5, "clientParseRequest: FD " << conn->fd << ": attempting to parse"); |
f900210a | 2663 | |
39cb8c41 AR |
2664 | // Loop while we have read bytes that are not needed for producing the body |
2665 | // On errors, bodyPipe may become nil, but readMoreRequests will be cleared | |
2666 | while (conn->in.notYetUsed > 0 && !conn->bodyPipe && | |
de48b288 | 2667 | conn->flags.readMoreRequests) { |
f900210a | 2668 | connStripBufferWhitespace (conn); |
2669 | ||
fc68f6b1 | 2670 | /* Don't try to parse if the buffer is empty */ |
2671 | ||
2672 | if (conn->in.notYetUsed == 0) | |
2673 | break; | |
4681057e | 2674 | |
f900210a | 2675 | /* Limit the number of concurrent requests to 2 */ |
2676 | ||
2677 | if (!connOkToAddRequest(conn)) { | |
2678 | break; | |
2679 | } | |
2680 | ||
2681 | /* Should not be needed anymore */ | |
2682 | /* Terminate the string */ | |
2683 | conn->in.buf[conn->in.notYetUsed] = '\0'; | |
2684 | ||
fc68f6b1 | 2685 | /* Begin the parsing */ |
2686 | HttpParserInit(&hp, conn->in.buf, conn->in.notYetUsed); | |
a5baffba | 2687 | |
f900210a | 2688 | /* Process request */ |
fc68f6b1 | 2689 | PROF_start(parseHttpRequest); |
2690 | ||
a5baffba | 2691 | context = parseHttpRequest(conn, &hp, &method, &http_ver); |
fc68f6b1 | 2692 | |
2693 | PROF_stop(parseHttpRequest); | |
f900210a | 2694 | |
2695 | /* partial or incomplete request */ | |
2696 | if (!context) { | |
39cb8c41 AR |
2697 | // TODO: why parseHttpRequest can just return parseHttpRequestAbort |
2698 | // (which becomes context) but checkHeaderLimits cannot? | |
2699 | conn->checkHeaderLimits(); | |
f900210a | 2700 | break; |
2701 | } | |
2702 | ||
2703 | /* status -1 or 1 */ | |
2704 | if (context) { | |
bf8fe701 | 2705 | debugs(33, 5, "clientParseRequest: FD " << conn->fd << ": parsed a request"); |
f900210a | 2706 | commSetTimeout(conn->fd, Config.Timeout.lifetime, clientLifetimeTimeout, |
2707 | context->http); | |
2708 | ||
a5baffba | 2709 | clientProcessRequest(conn, &hp, context, method, http_ver); |
f900210a | 2710 | |
f900210a | 2711 | parsed_req = true; |
2712 | ||
2713 | if (context->mayUseConnection()) { | |
bf8fe701 | 2714 | debugs(33, 3, "clientParseRequest: Not reading, as this request may need the connection"); |
f900210a | 2715 | do_next_read = 0; |
2716 | break; | |
2717 | } | |
f900210a | 2718 | } |
39cb8c41 | 2719 | } |
fc68f6b1 | 2720 | |
a5baffba | 2721 | /* XXX where to 'finish' the parsing pass? */ |
f900210a | 2722 | |
2723 | return parsed_req; | |
2724 | } | |
2725 | ||
1cf238db | 2726 | void |
2727 | ConnStateData::clientReadRequest(const CommIoCbParams &io) | |
c4b7a5a9 | 2728 | { |
1cf238db | 2729 | debugs(33,5,HERE << "clientReadRequest FD " << io.fd << " size " << io.size); |
f84dd7eb AR |
2730 | Must(reading()); |
2731 | reader = NULL; | |
a46d2c0e | 2732 | bool do_next_read = 1; /* the default _is_ to read data! - adrian */ |
c4b7a5a9 | 2733 | |
1cf238db | 2734 | assert (io.fd == fd); |
c4b7a5a9 | 2735 | |
2736 | /* Bail out quickly on COMM_ERR_CLOSING - close handlers will tidy up */ | |
62e76326 | 2737 | |
1cf238db | 2738 | if (io.flag == COMM_ERR_CLOSING) { |
cc192b50 | 2739 | debugs(33,5, HERE << " FD " << fd << " closing Bailout."); |
c4b7a5a9 | 2740 | return; |
2741 | } | |
62e76326 | 2742 | |
44db45e8 | 2743 | /* |
2744 | * Don't reset the timeout value here. The timeout value will be | |
2745 | * set to Config.Timeout.request by httpAccept() and | |
2746 | * clientWriteComplete(), and should apply to the request as a | |
2747 | * whole, not individual read() calls. Plus, it breaks our | |
2748 | * lame half-close detection | |
2749 | */ | |
1cf238db | 2750 | if (connReadWasError(io.flag, io.size, io.xerrno)) { |
f692498b | 2751 | notifyAllContexts(io.xerrno); |
62e76326 | 2752 | comm_close(fd); |
2753 | return; | |
7a2f978b | 2754 | } |
c4b7a5a9 | 2755 | |
1cf238db | 2756 | if (io.flag == COMM_OK) { |
2757 | if (io.size > 0) { | |
2758 | kb_incr(&statCounter.client_http.kbytes_in, io.size); | |
3b299123 | 2759 | |
39cb8c41 AR |
2760 | // may comm_close or setReplyToError |
2761 | if (!handleReadData(io.buf, io.size)) | |
9e008dda | 2762 | return; |
a31a78fb | 2763 | |
1cf238db | 2764 | } else if (io.size == 0) { |
bf8fe701 | 2765 | debugs(33, 5, "clientReadRequest: FD " << fd << " closed?"); |
62e76326 | 2766 | |
1cf238db | 2767 | if (connFinishedWithConn(io.size)) { |
62e76326 | 2768 | comm_close(fd); |
2769 | return; | |
2770 | } | |
2771 | ||
2772 | /* It might be half-closed, we can't tell */ | |
2773 | fd_table[fd].flags.socket_eof = 1; | |
2774 | ||
a46d2c0e | 2775 | commMarkHalfClosed(fd); |
2776 | ||
2777 | do_next_read = 0; | |
62e76326 | 2778 | |
2779 | fd_note(fd, "half-closed"); | |
2780 | ||
2781 | /* There is one more close check at the end, to detect aborted | |
2782 | * (partial) requests. At this point we can't tell if the request | |
2783 | * is partial. | |
2784 | */ | |
2785 | /* Continue to process previously read data */ | |
2786 | } | |
c4b7a5a9 | 2787 | } |
2788 | ||
94439e4e | 2789 | /* Process next request */ |
1cf238db | 2790 | if (getConcurrentRequestCount() == 0) |
2791 | fd_note(fd, "Reading next request"); | |
c8be6d7b | 2792 | |
1cf238db | 2793 | if (! clientParseRequest(this, do_next_read)) { |
9e008dda AJ |
2794 | if (!isOpen()) |
2795 | return; | |
f900210a | 2796 | /* |
2797 | * If the client here is half closed and we failed | |
2798 | * to parse a request, close the connection. | |
2799 | * The above check with connFinishedWithConn() only | |
2800 | * succeeds _if_ the buffer is empty which it won't | |
2801 | * be if we have an incomplete request. | |
6e1d409c | 2802 | * XXX: This duplicates ClientSocketContext::keepaliveNextRequest |
f900210a | 2803 | */ |
1cf238db | 2804 | if (getConcurrentRequestCount() == 0 && commIsHalfClosed(fd)) { |
bf8fe701 | 2805 | debugs(33, 5, "clientReadRequest: FD " << fd << ": half-closed connection, no completed request parsed, connection closing."); |
f900210a | 2806 | comm_close(fd); |
ee6f0213 | 2807 | return; |
62e76326 | 2808 | } |
f900210a | 2809 | } |
ee6f0213 | 2810 | |
1cf238db | 2811 | if (!isOpen()) |
2e216b1d | 2812 | return; |
2813 | ||
1cf238db | 2814 | clientAfterReadingRequests(do_next_read); |
94439e4e | 2815 | } |
2816 | ||
63be0a78 | 2817 | /** |
2818 | * called when new request data has been read from the socket | |
39cb8c41 AR |
2819 | * |
2820 | * \retval false called comm_close or setReplyToError (the caller should bail) | |
2821 | * \retval true we did not call comm_close or setReplyToError | |
63be0a78 | 2822 | */ |
39cb8c41 | 2823 | bool |
5f8252d2 | 2824 | ConnStateData::handleReadData(char *buf, size_t size) |
94439e4e | 2825 | { |
5f8252d2 | 2826 | char *current_buf = in.addressToReadInto(); |
62e76326 | 2827 | |
5f8252d2 | 2828 | if (buf != current_buf) |
2829 | xmemmove(current_buf, buf, size); | |
3b299123 | 2830 | |
5f8252d2 | 2831 | in.notYetUsed += size; |
fc68f6b1 | 2832 | |
5f8252d2 | 2833 | in.buf[in.notYetUsed] = '\0'; /* Terminate the string */ |
3b299123 | 2834 | |
5f8252d2 | 2835 | // if we are reading a body, stuff data into the body pipe |
2836 | if (bodyPipe != NULL) | |
39cb8c41 AR |
2837 | return handleRequestBodyData(); |
2838 | return true; | |
94439e4e | 2839 | } |
2840 | ||
63be0a78 | 2841 | /** |
bb790702 | 2842 | * called when new request body data has been buffered in in.buf |
63be0a78 | 2843 | * may close the connection if we were closing and piped everything out |
39cb8c41 AR |
2844 | * |
2845 | * \retval false called comm_close or setReplyToError (the caller should bail) | |
2846 | * \retval true we did not call comm_close or setReplyToError | |
63be0a78 | 2847 | */ |
39cb8c41 | 2848 | bool |
5f8252d2 | 2849 | ConnStateData::handleRequestBodyData() |
94439e4e | 2850 | { |
5f8252d2 | 2851 | assert(bodyPipe != NULL); |
2852 | ||
e1381638 | 2853 | size_t putSize = 0; |
3ff65596 | 2854 | |
39cb8c41 AR |
2855 | if (in.bodyParser) { // chunked encoding |
2856 | if (const err_type error = handleChunkedRequestBody(putSize)) { | |
2857 | abortChunkedRequestBody(error); | |
2858 | return false; | |
3ff65596 | 2859 | } |
39cb8c41 | 2860 | } else { // identity encoding |
3ff65596 AR |
2861 | debugs(33,5, HERE << "handling plain request body for FD " << fd); |
2862 | putSize = bodyPipe->putMoreData(in.buf, in.notYetUsed); | |
2863 | if (!bodyPipe->mayNeedMoreData()) { | |
2864 | // BodyPipe will clear us automagically when we produced everything | |
2865 | bodyPipe = NULL; | |
2866 | } | |
2867 | } | |
2868 | ||
2869 | if (putSize > 0) | |
2870 | connNoteUseOfBuffer(this, putSize); | |
5f8252d2 | 2871 | |
3ff65596 | 2872 | if (!bodyPipe) { |
5f8252d2 | 2873 | debugs(33,5, HERE << "produced entire request body for FD " << fd); |
62e76326 | 2874 | |
5f8252d2 | 2875 | if (closing()) { |
2876 | /* we've finished reading like good clients, | |
2877 | * now do the close that initiateClose initiated. | |
5f8252d2 | 2878 | */ |
2879 | comm_close(fd); | |
39cb8c41 AR |
2880 | return false; |
2881 | } | |
2882 | } | |
2883 | ||
2884 | return true; | |
2885 | } | |
2886 | ||
2887 | /// parses available chunked encoded body bytes, checks size, returns errors | |
2888 | err_type | |
2889 | ConnStateData::handleChunkedRequestBody(size_t &putSize) | |
2890 | { | |
2891 | debugs(33,7, HERE << "chunked from FD " << fd << ": " << in.notYetUsed); | |
2892 | ||
2893 | try { // the parser will throw on errors | |
2894 | ||
2895 | if (!in.notYetUsed) // nothing to do (MemBuf::init requires this check) | |
2896 | return ERR_NONE; | |
2897 | ||
2898 | MemBuf raw; // ChunkedCodingParser only works with MemBufs | |
2899 | // add one because MemBuf will assert if it cannot 0-terminate | |
2900 | raw.init(in.notYetUsed, in.notYetUsed+1); | |
2901 | raw.append(in.buf, in.notYetUsed); | |
2902 | ||
2903 | const mb_size_t wasContentSize = raw.contentSize(); | |
2904 | BodyPipeCheckout bpc(*bodyPipe); | |
2905 | const bool parsed = in.bodyParser->parse(&raw, &bpc.buf); | |
2906 | bpc.checkIn(); | |
2907 | putSize = wasContentSize - raw.contentSize(); | |
2908 | ||
2909 | // dechunk then check: the size limit applies to _dechunked_ content | |
2910 | if (clientIsRequestBodyTooLargeForPolicy(bodyPipe->producedSize())) | |
2911 | return ERR_TOO_BIG; | |
2912 | ||
2913 | if (parsed) { | |
2914 | finishDechunkingRequest(true); | |
2915 | Must(!bodyPipe); | |
2916 | return ERR_NONE; // nil bodyPipe implies body end for the caller | |
5f8252d2 | 2917 | } |
39cb8c41 AR |
2918 | |
2919 | // if chunk parser needs data, then the body pipe must need it too | |
2920 | Must(!in.bodyParser->needsMoreData() || bodyPipe->mayNeedMoreData()); | |
2921 | ||
2922 | // if parser needs more space and we can consume nothing, we will stall | |
2923 | Must(!in.bodyParser->needsMoreSpace() || bodyPipe->buf().hasContent()); | |
2924 | } catch (...) { // TODO: be more specific | |
2925 | debugs(33, 3, HERE << "malformed chunks" << bodyPipe->status()); | |
2926 | return ERR_INVALID_REQ; | |
94439e4e | 2927 | } |
39cb8c41 AR |
2928 | |
2929 | debugs(33, 7, HERE << "need more chunked data" << *bodyPipe->status()); | |
2930 | return ERR_NONE; | |
2931 | } | |
2932 | ||
2933 | /// quit on errors related to chunked request body handling | |
2934 | void | |
2935 | ConnStateData::abortChunkedRequestBody(const err_type error) | |
2936 | { | |
2937 | finishDechunkingRequest(false); | |
2938 | ||
2939 | // XXX: The code below works if we fail during initial request parsing, | |
2940 | // but if we fail when the server-side works already, the server may send | |
2941 | // us its response too, causing various assertions. How to prevent that? | |
2942 | #if WE_KNOW_HOW_TO_SEND_ERRORS | |
2943 | ClientSocketContext::Pointer context = getCurrentContext(); | |
2944 | if (context != NULL && !context->http->out.offset) { // output nothing yet | |
2945 | clientStreamNode *node = context->getClientReplyContext(); | |
2946 | clientReplyContext *repContext = dynamic_cast<clientReplyContext*>(node->data.getRaw()); | |
2947 | assert(repContext); | |
2948 | const http_status scode = (error == ERR_TOO_BIG) ? | |
de48b288 | 2949 | HTTP_REQUEST_ENTITY_TOO_LARGE : HTTP_BAD_REQUEST; |
39cb8c41 AR |
2950 | repContext->setReplyToError(error, scode, |
2951 | repContext->http->request->method, | |
2952 | repContext->http->uri, | |
2953 | peer, | |
2954 | repContext->http->request, | |
2955 | in.buf, NULL); | |
2956 | context->pullData(); | |
2957 | } else { | |
2958 | // close or otherwise we may get stuck as nobody will notice the error? | |
de48b288 | 2959 | comm_reset_close(fd); |
39cb8c41 AR |
2960 | } |
2961 | #else | |
2962 | debugs(33, 3, HERE << "aborting chunked request without error " << error); | |
2963 | comm_reset_close(fd); | |
2964 | #endif | |
2965 | flags.readMoreRequests = false; | |
5f8252d2 | 2966 | } |
55e44db9 | 2967 | |
5f8252d2 | 2968 | void |
1cf238db | 2969 | ConnStateData::noteMoreBodySpaceAvailable(BodyPipe::Pointer ) |
5f8252d2 | 2970 | { |
2971 | handleRequestBodyData(); | |
2972 | } | |
2973 | ||
2974 | void | |
1cf238db | 2975 | ConnStateData::noteBodyConsumerAborted(BodyPipe::Pointer ) |
5f8252d2 | 2976 | { |
2977 | if (!closing()) | |
2978 | startClosing("body consumer aborted"); | |
94439e4e | 2979 | } |
2980 | ||
63be0a78 | 2981 | /** general lifetime handler for HTTP requests */ |
1cf238db | 2982 | void |
2983 | ConnStateData::requestTimeout(const CommTimeoutCbParams &io) | |
7a2f978b | 2984 | { |
ad63ceea | 2985 | #if THIS_CONFUSES_PERSISTENT_CONNECTION_AWARE_BROWSERS_AND_USERS |
1cf238db | 2986 | debugs(33, 3, "requestTimeout: FD " << io.fd << ": lifetime is expired."); |
62e76326 | 2987 | |
1cf238db | 2988 | if (COMMIO_FD_WRITECB(io.fd)->active) { |
dec5db5d | 2989 | /* FIXME: If this code is reinstated, check the conn counters, |
2990 | * not the fd table state | |
2991 | */ | |
62e76326 | 2992 | /* |
2993 | * Some data has been sent to the client, just close the FD | |
2994 | */ | |
1cf238db | 2995 | comm_close(io.fd); |
2996 | } else if (nrequests) { | |
62e76326 | 2997 | /* |
2998 | * assume its a persistent connection; just close it | |
2999 | */ | |
1cf238db | 3000 | comm_close(io.fd); |
7a2f978b | 3001 | } else { |
62e76326 | 3002 | /* |
3003 | * Generate an error | |
3004 | */ | |
59a1efb2 | 3005 | ClientHttpRequest **H; |
62e76326 | 3006 | clientStreamNode *node; |
719c7e0a | 3007 | ClientHttpRequest *http = parseHttpRequestAbort(this, "error:Connection%20lifetime%20expired"); |
62e76326 | 3008 | node = http->client_stream.tail->prev->data; |
0655fa4d | 3009 | clientReplyContext *repContext = dynamic_cast<clientReplyContext *>(node->data.getRaw()); |
3010 | assert (repContext); | |
3011 | repContext->setReplyToError(ERR_LIFETIME_EXP, | |
1cf238db | 3012 | HTTP_REQUEST_TIMEOUT, METHOD_NONE, "N/A", &peer.sin_addr, |
0655fa4d | 3013 | NULL, NULL, NULL); |
62e76326 | 3014 | /* No requests can be outstanded */ |
1cf238db | 3015 | assert(chr == NULL); |
62e76326 | 3016 | /* add to the client request queue */ |
3017 | ||
3d0ac046 | 3018 | for (H = &chr; *H; H = &(*H)->next); |
62e76326 | 3019 | *H = http; |
3020 | ||
3021 | clientStreamRead(http->client_stream.tail->data, http, 0, | |
3022 | HTTP_REQBUF_SZ, context->reqbuf); | |
3023 | ||
3024 | /* | |
3025 | * if we don't close() here, we still need a timeout handler! | |
3026 | */ | |
9e008dda | 3027 | typedef CommCbMemFunT<ConnStateData, CommTimeoutCbParams> TimeoutDialer; |
4299f876 AR |
3028 | AsyncCall::Pointer timeoutCall = JobCallback(33, 5, |
3029 | TimeoutDialer, this, ConnStateData::requestTimeout); | |
9e008dda | 3030 | commSetTimeout(io.fd, 30, timeoutCall); |
62e76326 | 3031 | |
3032 | /* | |
3033 | * Aha, but we don't want a read handler! | |
3034 | */ | |
1cf238db | 3035 | commSetSelect(io.fd, COMM_SELECT_READ, NULL, NULL, 0); |
7a2f978b | 3036 | } |
62e76326 | 3037 | |
af57a2e3 | 3038 | #else |
3039 | /* | |
62e76326 | 3040 | * Just close the connection to not confuse browsers |
3041 | * using persistent connections. Some browsers opens | |
3042 | * an connection and then does not use it until much | |
3043 | * later (presumeably because the request triggering | |
3044 | * the open has already been completed on another | |
3045 | * connection) | |
3046 | */ | |
1cf238db | 3047 | debugs(33, 3, "requestTimeout: FD " << io.fd << ": lifetime is expired."); |
62e76326 | 3048 | |
1cf238db | 3049 | comm_close(io.fd); |
62e76326 | 3050 | |
af57a2e3 | 3051 | #endif |
7a2f978b | 3052 | } |
3053 | ||
b5c39993 | 3054 | static void |
3055 | clientLifetimeTimeout(int fd, void *data) | |
3056 | { | |
59a1efb2 | 3057 | ClientHttpRequest *http = (ClientHttpRequest *)data; |
f692498b | 3058 | debugs(33, 1, "WARNING: Closing client " << " connection due to lifetime timeout"); |
bf8fe701 | 3059 | debugs(33, 1, "\t" << http->uri); |
f692498b | 3060 | http->al.http.timedout = true; |
b5c39993 | 3061 | comm_close(fd); |
3062 | } | |
3063 | ||
c8be6d7b | 3064 | ConnStateData * |
b7ac5457 | 3065 | connStateCreate(const Ip::Address &peer, const Ip::Address &me, int fd, http_port_list *port) |
c8be6d7b | 3066 | { |
a46d2c0e | 3067 | ConnStateData *result = new ConnStateData; |
2ad20b4f | 3068 | |
cc192b50 | 3069 | result->peer = peer; |
3070 | result->log_addr = peer; | |
055421ee | 3071 | result->log_addr.ApplyMask(Config.Addrs.client_netmask); |
cc192b50 | 3072 | result->me = me; |
c8be6d7b | 3073 | result->fd = fd; |
e6ccf245 | 3074 | result->in.buf = (char *)memAllocBuf(CLIENT_REQ_BUF_SZ, &result->in.allocatedSize); |
3f38a55e | 3075 | result->port = cbdataReference(port); |
62e76326 | 3076 | |
9e008dda | 3077 | if (port->intercepted || port->spoof_client_ip) { |
b7ac5457 | 3078 | Ip::Address client, dst; |
62e76326 | 3079 | |
b7ac5457 | 3080 | if (Ip::Interceptor.NatLookup(fd, me, peer, client, dst) == 0) { |
482a5c64 AJ |
3081 | result->me = client; |
3082 | result->peer = dst; | |
a46d2c0e | 3083 | result->transparent(true); |
62e76326 | 3084 | } |
3f38a55e | 3085 | } |
62e76326 | 3086 | |
5529ca8a | 3087 | if (port->disable_pmtu_discovery != DISABLE_PMTU_OFF && |
9e008dda | 3088 | (result->transparent() || port->disable_pmtu_discovery == DISABLE_PMTU_ALWAYS)) { |
5529ca8a | 3089 | #if defined(IP_MTU_DISCOVER) && defined(IP_PMTUDISC_DONT) |
3090 | int i = IP_PMTUDISC_DONT; | |
3091 | setsockopt(fd, SOL_IP, IP_MTU_DISCOVER, &i, sizeof i); | |
3092 | ||
3093 | #else | |
3094 | ||
3095 | static int reported = 0; | |
3096 | ||
3097 | if (!reported) { | |
bf8fe701 | 3098 | debugs(33, 1, "Notice: httpd_accel_no_pmtu_disc not supported on your platform"); |
5529ca8a | 3099 | reported = 1; |
3100 | } | |
3101 | ||
3102 | #endif | |
3103 | ||
3104 | } | |
3105 | ||
48962ba8 | 3106 | result->flags.readMoreRequests = true; |
c8be6d7b | 3107 | return result; |
3108 | } | |
3109 | ||
63be0a78 | 3110 | /** Handle a new connection on HTTP socket. */ |
7a2f978b | 3111 | void |
ee0989f2 | 3112 | httpAccept(int sock, int newfd, ConnectionDetail *details, |
62e76326 | 3113 | comm_err_t flag, int xerrno, void *data) |
7a2f978b | 3114 | { |
3f38a55e | 3115 | http_port_list *s = (http_port_list *)data; |
7a2f978b | 3116 | ConnStateData *connState = NULL; |
02d1422b | 3117 | |
62e76326 | 3118 | if (flag != COMM_OK) { |
bf8fe701 | 3119 | debugs(33, 1, "httpAccept: FD " << sock << ": accept failure: " << xstrerr(xerrno)); |
62e76326 | 3120 | return; |
3121 | } | |
3122 | ||
bf8fe701 | 3123 | debugs(33, 4, "httpAccept: FD " << newfd << ": accepted"); |
62e76326 | 3124 | fd_note(newfd, "client http connect"); |
1cf238db | 3125 | connState = connStateCreate(&details->peer, &details->me, newfd, s); |
3126 | ||
3127 | typedef CommCbMemFunT<ConnStateData, CommCloseCbParams> Dialer; | |
4299f876 | 3128 | AsyncCall::Pointer call = JobCallback(33, 5, |
4cb2536f | 3129 | Dialer, connState, ConnStateData::connStateClosed); |
1cf238db | 3130 | comm_add_close_handler(newfd, call); |
62e76326 | 3131 | |
3132 | if (Config.onoff.log_fqdn) | |
cc192b50 | 3133 | fqdncache_gethostbyaddr(details->peer, FQDN_LOOKUP_IF_MISS); |
62e76326 | 3134 | |
9e008dda | 3135 | typedef CommCbMemFunT<ConnStateData, CommTimeoutCbParams> TimeoutDialer; |
4299f876 | 3136 | AsyncCall::Pointer timeoutCall = JobCallback(33, 5, |
4cb2536f | 3137 | TimeoutDialer, connState, ConnStateData::requestTimeout); |
9e008dda | 3138 | commSetTimeout(newfd, Config.Timeout.read, timeoutCall); |
62e76326 | 3139 | |
3898f57f | 3140 | #if USE_IDENT |
4daaf3cb AJ |
3141 | if (Ident::TheConfig.identLookup) { |
3142 | ACLFilledChecklist identChecklist(Ident::TheConfig.identLookup, NULL, NULL); | |
b50e327b AJ |
3143 | identChecklist.src_addr = details->peer; |
3144 | identChecklist.my_addr = details->me; | |
b50e327b | 3145 | if (identChecklist.fastCheck()) |
4daaf3cb | 3146 | Ident::Start(details->me, details->peer, clientIdentDone, connState); |
b50e327b | 3147 | } |
3898f57f | 3148 | #endif |
62e76326 | 3149 | |
a98c2da5 AJ |
3150 | #if USE_SQUID_EUI |
3151 | if (Eui::TheConfig.euiLookup) { | |
3152 | if (details->peer.IsIPv4()) { | |
3153 | connState->peer_eui48.lookup(details->peer); | |
05320519 | 3154 | } else if (details->peer.IsIPv6()) { |
a98c2da5 AJ |
3155 | connState->peer_eui64.lookup(details->peer); |
3156 | } | |
3157 | } | |
3158 | #endif | |
3159 | ||
b2130d58 | 3160 | if (s->tcp_keepalive.enabled) { |
9e008dda | 3161 | commSetTcpKeepalive(newfd, s->tcp_keepalive.idle, s->tcp_keepalive.interval, s->tcp_keepalive.timeout); |
b2130d58 | 3162 | } |
3163 | ||
a46d2c0e | 3164 | connState->readSomeData(); |
62e76326 | 3165 | |
cc192b50 | 3166 | clientdbEstablished(details->peer, 1); |
62e76326 | 3167 | |
b4cd430a CT |
3168 | #if DELAY_POOLS |
3169 | fd_table[newfd].clientInfo = NULL; | |
3170 | ||
f33d34a8 | 3171 | if (Config.onoff.client_db) { |
b4cd430a CT |
3172 | /* it was said several times that client write limiter does not work if client_db is disabled */ |
3173 | ||
3174 | ClientDelayPools& pools(Config.ClientDelay.pools); | |
3175 | for (unsigned int pool = 0; pool < pools.size(); pool++) { | |
3176 | ||
3177 | /* pools require explicit 'allow' to assign a client into them */ | |
3178 | if (!pools[pool].access) | |
3179 | continue; // warned in ClientDelayConfig::Finalize() | |
3180 | ||
3181 | ACLFilledChecklist ch(pools[pool].access, NULL, NULL); | |
3182 | ||
f33d34a8 | 3183 | // TODO: we check early to limit error response bandwith but we |
b4cd430a CT |
3184 | // should recheck when we can honor delay_pool_uses_indirect |
3185 | ||
3186 | ch.src_addr = details->peer; | |
3187 | ch.my_addr = details->me; | |
3188 | ||
3189 | if (ch.fastCheck()) { | |
3190 | ||
3191 | /* request client information from db after we did all checks | |
3192 | this will save hash lookup if client failed checks */ | |
3193 | ClientInfo * cli = clientdbGetInfo(details->peer); | |
3194 | assert(cli); | |
3195 | ||
3196 | /* put client info in FDE */ | |
3197 | fd_table[newfd].clientInfo = cli; | |
3198 | ||
3199 | /* setup write limiter for this request */ | |
3200 | const double burst = floor(0.5 + | |
f33d34a8 | 3201 | (pools[pool].highwatermark * Config.ClientDelay.initial)/100.0); |
b4cd430a CT |
3202 | cli->setWriteLimiter(pools[pool].rate, burst, pools[pool].highwatermark); |
3203 | break; | |
3204 | } | |
3205 | } | |
3206 | } | |
3207 | #endif | |
62e76326 | 3208 | incoming_sockets_accepted++; |
7a2f978b | 3209 | } |
3210 | ||
1f7c9178 | 3211 | #if USE_SSL |
3212 | ||
63be0a78 | 3213 | /** Create SSL connection structure and update fd_table */ |
ae7ff0b8 | 3214 | static SSL * |
3215 | httpsCreate(int newfd, ConnectionDetail *details, SSL_CTX *sslContext) | |
3216 | { | |
3217 | SSL *ssl = SSL_new(sslContext); | |
3218 | ||
3219 | if (!ssl) { | |
3220 | const int ssl_error = ERR_get_error(); | |
3221 | debugs(83, 1, "httpsAccept: Error allocating handle: " << ERR_error_string(ssl_error, NULL) ); | |
3222 | comm_close(newfd); | |
3223 | return NULL; | |
3224 | } | |
3225 | ||
3226 | SSL_set_fd(ssl, newfd); | |
3227 | fd_table[newfd].ssl = ssl; | |
3228 | fd_table[newfd].read_method = &ssl_read_method; | |
3229 | fd_table[newfd].write_method = &ssl_write_method; | |
3230 | ||
3231 | debugs(33, 5, "httpsCreate: will negotate SSL on FD " << newfd); | |
3232 | fd_note(newfd, "client https start"); | |
3233 | ||
3234 | return ssl; | |
3235 | } | |
3236 | ||
63be0a78 | 3237 | /** negotiate an SSL connection */ |
1f7c9178 | 3238 | static void |
3239 | clientNegotiateSSL(int fd, void *data) | |
3240 | { | |
e6ccf245 | 3241 | ConnStateData *conn = (ConnStateData *)data; |
1f7c9178 | 3242 | X509 *client_cert; |
a7ad6e4e | 3243 | SSL *ssl = fd_table[fd].ssl; |
1f7c9178 | 3244 | int ret; |
3245 | ||
a7ad6e4e | 3246 | if ((ret = SSL_accept(ssl)) <= 0) { |
62e76326 | 3247 | int ssl_error = SSL_get_error(ssl, ret); |
3248 | ||
3249 | switch (ssl_error) { | |
3250 | ||
3251 | case SSL_ERROR_WANT_READ: | |
3252 | commSetSelect(fd, COMM_SELECT_READ, clientNegotiateSSL, conn, 0); | |
3253 | return; | |
3254 | ||
3255 | case SSL_ERROR_WANT_WRITE: | |
3256 | commSetSelect(fd, COMM_SELECT_WRITE, clientNegotiateSSL, conn, 0); | |
3257 | return; | |
3258 | ||
6de9e64b | 3259 | case SSL_ERROR_SYSCALL: |
3260 | ||
3261 | if (ret == 0) { | |
bf8fe701 | 3262 | debugs(83, 2, "clientNegotiateSSL: Error negotiating SSL connection on FD " << fd << ": Aborted by client"); |
6de9e64b | 3263 | comm_close(fd); |
3264 | return; | |
3265 | } else { | |
3266 | int hard = 1; | |
3267 | ||
3268 | if (errno == ECONNRESET) | |
3269 | hard = 0; | |
3270 | ||
9e008dda | 3271 | debugs(83, hard ? 1 : 2, "clientNegotiateSSL: Error negotiating SSL connection on FD " << |
bf8fe701 | 3272 | fd << ": " << strerror(errno) << " (" << errno << ")"); |
6de9e64b | 3273 | |
3274 | comm_close(fd); | |
3275 | ||
3276 | return; | |
3277 | } | |
3278 | ||
3279 | case SSL_ERROR_ZERO_RETURN: | |
bf8fe701 | 3280 | debugs(83, 1, "clientNegotiateSSL: Error negotiating SSL connection on FD " << fd << ": Closed by client"); |
6de9e64b | 3281 | comm_close(fd); |
3282 | return; | |
3283 | ||
62e76326 | 3284 | default: |
9e008dda AJ |
3285 | debugs(83, 1, "clientNegotiateSSL: Error negotiating SSL connection on FD " << |
3286 | fd << ": " << ERR_error_string(ERR_get_error(), NULL) << | |
3287 | " (" << ssl_error << "/" << ret << ")"); | |
62e76326 | 3288 | comm_close(fd); |
3289 | return; | |
3290 | } | |
3291 | ||
3292 | /* NOTREACHED */ | |
1f7c9178 | 3293 | } |
62e76326 | 3294 | |
6de9e64b | 3295 | if (SSL_session_reused(ssl)) { |
bf8fe701 | 3296 | debugs(83, 2, "clientNegotiateSSL: Session " << SSL_get_session(ssl) << |
3297 | " reused on FD " << fd << " (" << fd_table[fd].ipaddr << ":" << (int)fd_table[fd].remote_port << ")"); | |
6de9e64b | 3298 | } else { |
3299 | if (do_debug(83, 4)) { | |
3300 | /* Write out the SSL session details.. actually the call below, but | |
3301 | * OpenSSL headers do strange typecasts confusing GCC.. */ | |
3302 | /* PEM_write_SSL_SESSION(debug_log, SSL_get_session(ssl)); */ | |
afdd443f | 3303 | #if defined(OPENSSL_VERSION_NUMBER) && OPENSSL_VERSION_NUMBER >= 0x00908000L |
9f3de01a | 3304 | PEM_ASN1_write((i2d_of_void *)i2d_SSL_SESSION, PEM_STRING_SSL_SESSION, debug_log, (char *)SSL_get_session(ssl), NULL,NULL,0,NULL,NULL); |
2930f303 | 3305 | |
0fd2205b | 3306 | #elif (ALLOW_ALWAYS_SSL_SESSION_DETAIL == 1) |
2930f303 | 3307 | |
0fd2205b | 3308 | /* When using gcc 3.3.x and OpenSSL 0.9.7x sometimes a compile error can occur here. |
3309 | * This is caused by an unpredicatble gcc behaviour on a cast of the first argument | |
3310 | * of PEM_ASN1_write(). For this reason this code section is disabled. To enable it, | |
3311 | * define ALLOW_ALWAYS_SSL_SESSION_DETAIL=1. | |
3312 | * Because there are two possible usable cast, if you get an error here, try the other | |
3313 | * commented line. */ | |
3314 | ||
3315 | PEM_ASN1_write((int(*)())i2d_SSL_SESSION, PEM_STRING_SSL_SESSION, debug_log, (char *)SSL_get_session(ssl), NULL,NULL,0,NULL,NULL); | |
3316 | /* PEM_ASN1_write((int(*)(...))i2d_SSL_SESSION, PEM_STRING_SSL_SESSION, debug_log, (char *)SSL_get_session(ssl), NULL,NULL,0,NULL,NULL); */ | |
2930f303 | 3317 | |
0e33d58c | 3318 | #else |
3319 | ||
bf8fe701 | 3320 | debugs(83, 4, "With " OPENSSL_VERSION_TEXT ", session details are available only defining ALLOW_ALWAYS_SSL_SESSION_DETAIL=1 in the source." ); |
0fd2205b | 3321 | |
0e33d58c | 3322 | #endif |
6de9e64b | 3323 | /* Note: This does not automatically fflush the log file.. */ |
3324 | } | |
3325 | ||
bf8fe701 | 3326 | debugs(83, 2, "clientNegotiateSSL: New session " << |
3327 | SSL_get_session(ssl) << " on FD " << fd << " (" << | |
3328 | fd_table[fd].ipaddr << ":" << (int)fd_table[fd].remote_port << | |
3329 | ")"); | |
6de9e64b | 3330 | } |
3331 | ||
bf8fe701 | 3332 | debugs(83, 3, "clientNegotiateSSL: FD " << fd << " negotiated cipher " << |
3333 | SSL_get_cipher(ssl)); | |
1f7c9178 | 3334 | |
6de9e64b | 3335 | client_cert = SSL_get_peer_certificate(ssl); |
62e76326 | 3336 | |
1f7c9178 | 3337 | if (client_cert != NULL) { |
bf8fe701 | 3338 | debugs(83, 3, "clientNegotiateSSL: FD " << fd << |
3339 | " client certificate: subject: " << | |
3340 | X509_NAME_oneline(X509_get_subject_name(client_cert), 0, 0)); | |
3341 | ||
3342 | debugs(83, 3, "clientNegotiateSSL: FD " << fd << | |
3343 | " client certificate: issuer: " << | |
3344 | X509_NAME_oneline(X509_get_issuer_name(client_cert), 0, 0)); | |
1f7c9178 | 3345 | |
1f7c9178 | 3346 | |
62e76326 | 3347 | X509_free(client_cert); |
1f7c9178 | 3348 | } else { |
bf8fe701 | 3349 | debugs(83, 5, "clientNegotiateSSL: FD " << fd << |
3350 | " has no certificate."); | |
1f7c9178 | 3351 | } |
3352 | ||
a46d2c0e | 3353 | conn->readSomeData(); |
1f7c9178 | 3354 | } |
3355 | ||
63be0a78 | 3356 | /** handle a new HTTPS connection */ |
1f7c9178 | 3357 | static void |
15595aab | 3358 | httpsAccept(int sock, int newfd, ConnectionDetail *details, |
62e76326 | 3359 | comm_err_t flag, int xerrno, void *data) |
1f7c9178 | 3360 | { |
3f38a55e | 3361 | https_port_list *s = (https_port_list *)data; |
95d2589c | 3362 | SSL_CTX *sslContext = s->staticSslContext.get(); |
c4b7a5a9 | 3363 | |
3364 | if (flag != COMM_OK) { | |
62e76326 | 3365 | errno = xerrno; |
bf8fe701 | 3366 | debugs(33, 1, "httpsAccept: FD " << sock << ": accept failure: " << xstrerr(xerrno)); |
62e76326 | 3367 | return; |
c4b7a5a9 | 3368 | } |
62e76326 | 3369 | |
ae7ff0b8 | 3370 | SSL *ssl = NULL; |
3371 | if (!(ssl = httpsCreate(newfd, details, sslContext))) | |
62e76326 | 3372 | return; |
94c3d66f | 3373 | |
1cf238db | 3374 | debugs(33, 5, "httpsAccept: FD " << newfd << " accepted, starting SSL negotiation."); |
3375 | fd_note(newfd, "client https connect"); | |
ae7ff0b8 | 3376 | ConnStateData *connState = connStateCreate(details->peer, details->me, |
9e008dda | 3377 | newfd, &s->http); |
1cf238db | 3378 | typedef CommCbMemFunT<ConnStateData, CommCloseCbParams> Dialer; |
4299f876 | 3379 | AsyncCall::Pointer call = JobCallback(33, 5, |
4cb2536f | 3380 | Dialer, connState, ConnStateData::connStateClosed); |
1cf238db | 3381 | comm_add_close_handler(newfd, call); |
62e76326 | 3382 | |
c4b7a5a9 | 3383 | if (Config.onoff.log_fqdn) |
cc192b50 | 3384 | fqdncache_gethostbyaddr(details->peer, FQDN_LOOKUP_IF_MISS); |
62e76326 | 3385 | |
9e008dda | 3386 | typedef CommCbMemFunT<ConnStateData, CommTimeoutCbParams> TimeoutDialer; |
4299f876 AR |
3387 | AsyncCall::Pointer timeoutCall = JobCallback(33, 5, |
3388 | TimeoutDialer, connState, ConnStateData::requestTimeout); | |
9e008dda | 3389 | commSetTimeout(newfd, Config.Timeout.request, timeoutCall); |
62e76326 | 3390 | |
1f7c9178 | 3391 | #if USE_IDENT |
4daaf3cb AJ |
3392 | if (Ident::TheConfig.identLookup) { |
3393 | ACLFilledChecklist identChecklist(Ident::TheConfig.identLookup, NULL, NULL); | |
b50e327b AJ |
3394 | identChecklist.src_addr = details->peer; |
3395 | identChecklist.my_addr = details->me; | |
b50e327b | 3396 | if (identChecklist.fastCheck()) |
4daaf3cb | 3397 | Ident::Start(details->me, details->peer, clientIdentDone, connState); |
b50e327b | 3398 | } |
1f7c9178 | 3399 | #endif |
62e76326 | 3400 | |
b2130d58 | 3401 | if (s->http.tcp_keepalive.enabled) { |
9e008dda | 3402 | commSetTcpKeepalive(newfd, s->http.tcp_keepalive.idle, s->http.tcp_keepalive.interval, s->http.tcp_keepalive.timeout); |
b2130d58 | 3403 | } |
3404 | ||
c4b7a5a9 | 3405 | commSetSelect(newfd, COMM_SELECT_READ, clientNegotiateSSL, connState, 0); |
62e76326 | 3406 | |
cc192b50 | 3407 | clientdbEstablished(details->peer, 1); |
62e76326 | 3408 | |
3f38a55e | 3409 | incoming_sockets_accepted++; |
1f7c9178 | 3410 | } |
3411 | ||
95d2589c CT |
3412 | void |
3413 | ConnStateData::sslCrtdHandleReplyWrapper(void *data, char *reply) | |
ae7ff0b8 | 3414 | { |
95d2589c CT |
3415 | ConnStateData * state_data = (ConnStateData *)(data); |
3416 | state_data->sslCrtdHandleReply(reply); | |
3417 | } | |
ae7ff0b8 | 3418 | |
95d2589c CT |
3419 | void |
3420 | ConnStateData::sslCrtdHandleReply(const char * reply) | |
3421 | { | |
3422 | if (!reply) { | |
3423 | debugs(1, 1, HERE << "\"ssl_crtd\" helper return <NULL> reply"); | |
3424 | } else { | |
3425 | Ssl::CrtdMessage reply_message; | |
3426 | if (reply_message.parse(reply, strlen(reply)) != Ssl::CrtdMessage::OK) { | |
3427 | debugs(33, 5, HERE << "Reply from ssl_crtd for " << sslHostName << " is incorrect"); | |
3428 | } else { | |
3429 | if (reply_message.getCode() != "ok") { | |
3430 | debugs(33, 5, HERE << "Certificate for " << sslHostName << " cannot be generated. ssl_crtd response: " << reply_message.getBody()); | |
3431 | } else { | |
3432 | debugs(33, 5, HERE << "Certificate for " << sslHostName << " was successfully recieved from ssl_crtd"); | |
3433 | getSslContextDone(Ssl::generateSslContextUsingPkeyAndCertFromMemory(reply_message.getBody().c_str()), true); | |
3434 | return; | |
3435 | } | |
3436 | } | |
3437 | } | |
3438 | getSslContextDone(NULL); | |
3439 | } | |
ae7ff0b8 | 3440 | |
95d2589c CT |
3441 | bool |
3442 | ConnStateData::getSslContextStart() | |
3443 | { | |
3444 | char const * host = sslHostName.termedBuf(); | |
3445 | if (port->generateHostCertificates && host && strcmp(host, "") != 0) { | |
3446 | debugs(33, 5, HERE << "Finding SSL certificate for " << host << " in cache"); | |
3447 | Ssl::LocalContextStorage & ssl_ctx_cache(Ssl::TheGlobalContextStorage.getLocalStorage(port->s)); | |
3448 | SSL_CTX * dynCtx = ssl_ctx_cache.find(host); | |
3449 | if (dynCtx) { | |
3450 | debugs(33, 5, HERE << "SSL certificate for " << host << " have found in cache"); | |
3451 | if (Ssl::verifySslCertificateDate(dynCtx)) { | |
3452 | debugs(33, 5, HERE << "Cached SSL certificate for " << host << " is valid"); | |
3453 | return getSslContextDone(dynCtx); | |
3454 | } else { | |
3455 | debugs(33, 5, HERE << "Cached SSL certificate for " << host << " is out of date. Delete this certificate from cache"); | |
3456 | ssl_ctx_cache.remove(host); | |
3457 | } | |
3458 | } else { | |
3459 | debugs(33, 5, HERE << "SSL certificate for " << host << " haven't found in cache"); | |
3460 | } | |
3461 | ||
b5faa519 | 3462 | #if USE_SSL_CRTD |
95d2589c CT |
3463 | debugs(33, 5, HERE << "Generating SSL certificate for " << host << " using ssl_crtd."); |
3464 | Ssl::CrtdMessage request_message; | |
3465 | request_message.setCode(Ssl::CrtdMessage::code_new_certificate); | |
3466 | Ssl::CrtdMessage::BodyParams map; | |
3467 | map.insert(std::make_pair(Ssl::CrtdMessage::param_host, host)); | |
3468 | std::string bufferToWrite; | |
3469 | Ssl::writeCertAndPrivateKeyToMemory(port->signingCert, port->signPkey, bufferToWrite); | |
3470 | request_message.composeBody(map, bufferToWrite); | |
3471 | Ssl::Helper::GetInstance()->sslSubmit(request_message, sslCrtdHandleReplyWrapper, this); | |
3472 | return true; | |
3473 | #else | |
3474 | debugs(33, 5, HERE << "Generating SSL certificate for " << host); | |
b5faa519 | 3475 | dynCtx = Ssl::generateSslContext(host, port->signingCert, port->signPkey); |
95d2589c CT |
3476 | return getSslContextDone(dynCtx, true); |
3477 | #endif //USE_SSL_CRTD | |
3478 | } | |
3479 | return getSslContextDone(NULL); | |
3480 | } | |
3481 | ||
3482 | bool | |
3483 | ConnStateData::getSslContextDone(SSL_CTX * sslContext, bool isNew) | |
3484 | { | |
3485 | // Try to add generated ssl context to storage. | |
3486 | if (port->generateHostCertificates && isNew) { | |
3487 | Ssl::LocalContextStorage & ssl_ctx_cache(Ssl::TheGlobalContextStorage.getLocalStorage(port->s)); | |
3488 | if (sslContext && sslHostName != "") { | |
3489 | if (!ssl_ctx_cache.add(sslHostName.termedBuf(), sslContext)) { | |
3490 | // If it is not in storage delete after using. Else storage deleted it. | |
3491 | fd_table[fd].dynamicSslContext = sslContext; | |
3492 | } | |
3493 | } else { | |
3494 | debugs(33, 2, HERE << "Failed to generate SSL cert for " << sslHostName); | |
3495 | } | |
3496 | } | |
3497 | ||
3498 | // If generated ssl context = NULL, try to use static ssl context. | |
3499 | if (!sslContext) { | |
3500 | if (!port->staticSslContext) { | |
3501 | debugs(83, 1, "Closing SSL FD " << fd << " as lacking SSL context"); | |
3502 | comm_close(fd); | |
3503 | return false; | |
3504 | } else { | |
3505 | debugs(33, 5, HERE << "Using static ssl context."); | |
3506 | sslContext = port->staticSslContext.get(); | |
3507 | } | |
3508 | } | |
ae7ff0b8 | 3509 | |
3510 | // fake a ConnectionDetail object; XXX: make ConnState a ConnectionDetail? | |
3511 | ConnectionDetail detail; | |
3512 | detail.me = me; | |
3513 | detail.peer = peer; | |
3514 | ||
ae7ff0b8 | 3515 | SSL *ssl = NULL; |
3516 | if (!(ssl = httpsCreate(fd, &detail, sslContext))) | |
3517 | return false; | |
3518 | ||
3519 | // commSetTimeout() was called for this request before we switched. | |
3520 | ||
3521 | // Disable the client read handler until peer selection is complete | |
3522 | commSetSelect(fd, COMM_SELECT_READ, NULL, NULL, 0); | |
3523 | ||
3524 | commSetSelect(fd, COMM_SELECT_READ, clientNegotiateSSL, this, 0); | |
3525 | ||
3526 | switchedToHttps_ = true; | |
3527 | return true; | |
3528 | } | |
3529 | ||
95d2589c CT |
3530 | bool |
3531 | ConnStateData::switchToHttps(const char *host) | |
3532 | { | |
3533 | assert(!switchedToHttps_); | |
3534 | ||
3535 | sslHostName = host; | |
3536 | ||
3537 | //HTTPMSGLOCK(currentobject->http->request); | |
3538 | assert(areAllContextsForThisConnection()); | |
3539 | freeAllContexts(); | |
3540 | //currentobject->connIsFinished(); | |
3541 | ||
3542 | debugs(33, 5, HERE << "converting FD " << fd << " to SSL"); | |
3543 | ||
3544 | return getSslContextStart(); | |
3545 | } | |
3546 | ||
1f7c9178 | 3547 | #endif /* USE_SSL */ |
3548 | ||
00516be1 AR |
3549 | /// check FD after clientHttp[s]ConnectionOpened, adjust HttpSockets as needed |
3550 | static bool | |
3551 | OpenedHttpSocket(int fd, const char *msgIfFail) | |
3552 | { | |
3553 | if (fd < 0) { | |
3554 | Must(NHttpSockets > 0); // we tried to open some | |
3555 | --NHttpSockets; // there will be fewer sockets than planned | |
3556 | Must(HttpSockets[NHttpSockets] < 0); // no extra fds received | |
3557 | ||
3558 | if (!NHttpSockets) // we could not open any listen sockets at all | |
3559 | fatal(msgIfFail); | |
3560 | ||
3561 | return false; | |
3562 | } | |
3563 | return true; | |
3564 | } | |
3565 | ||
3566 | /// find any unused HttpSockets[] slot and store fd there or return false | |
3567 | static bool | |
3568 | AddOpenedHttpSocket(int fd) | |
3569 | { | |
3570 | bool found = false; | |
3571 | for (int i = 0; i < NHttpSockets && !found; i++) { | |
3572 | if ((found = HttpSockets[i] < 0)) | |
3573 | HttpSockets[i] = fd; | |
3574 | } | |
3575 | return found; | |
3576 | } | |
15df8349 | 3577 | |
d193a436 | 3578 | static void |
15df8349 | 3579 | clientHttpConnectionsOpen(void) |
3580 | { | |
cc192b50 | 3581 | http_port_list *s = NULL; |
ae7ff0b8 | 3582 | #if USE_SSL |
3583 | int bumpCount = 0; // counts http_ports with sslBump option | |
3584 | #endif | |
62e76326 | 3585 | |
7e3ce7b9 | 3586 | for (s = Config.Sockaddr.http; s; s = s->next) { |
62e76326 | 3587 | if (MAXHTTPPORTS == NHttpSockets) { |
bf8fe701 | 3588 | debugs(1, 1, "WARNING: You have too many 'http_port' lines."); |
3589 | debugs(1, 1, " The limit is " << MAXHTTPPORTS); | |
62e76326 | 3590 | continue; |
3591 | } | |
3592 | ||
ae7ff0b8 | 3593 | #if USE_SSL |
95d2589c CT |
3594 | if (s->sslBump && |
3595 | !s->staticSslContext && !s->generateHostCertificates) { | |
ae7ff0b8 | 3596 | debugs(1, 1, "Will not bump SSL at http_port " << |
3597 | s->http.s << " due to SSL initialization failure."); | |
3598 | s->sslBump = 0; | |
3599 | } | |
95d2589c | 3600 | if (s->sslBump) { |
ae7ff0b8 | 3601 | ++bumpCount; |
95d2589c CT |
3602 | // Create ssl_ctx cache for this port. |
3603 | Ssl::TheGlobalContextStorage.addLocalStorage(s->s, s->dynamicCertMemCacheSize == std::numeric_limits<size_t>::max() ? 4194304 : s->dynamicCertMemCacheSize); | |
3604 | } | |
ae7ff0b8 | 3605 | #endif |
95d2589c CT |
3606 | #if USE_SSL_CRTD |
3607 | Ssl::Helper::GetInstance(); | |
3608 | #endif //USE_SSL_CRTD | |
ae7ff0b8 | 3609 | |
04f55905 AJ |
3610 | /* AYJ: 2009-12-27: bit bumpy. new ListenStateData(...) should be doing all the Comm:: stuff ... */ |
3611 | ||
fe090a86 | 3612 | const int openFlags = COMM_NONBLOCKING | |
5667a628 | 3613 | (s->spoof_client_ip ? COMM_TRANSPARENT : 0); |
c303f6e3 | 3614 | |
fe090a86 | 3615 | AsyncCall::Pointer callback = asyncCall(33,2, |
5667a628 AR |
3616 | "clientHttpConnectionOpened", |
3617 | ListeningStartedDialer(&clientHttpConnectionOpened, s)); | |
fe090a86 | 3618 | Ipc::StartListening(SOCK_STREAM, IPPROTO_TCP, s->s, openFlags, |
5667a628 | 3619 | Ipc::fdnHttpSocket, callback); |
62e76326 | 3620 | |
fe090a86 | 3621 | HttpSockets[NHttpSockets++] = -1; // set in clientHttpConnectionOpened |
15df8349 | 3622 | } |
ae7ff0b8 | 3623 | |
3624 | #if USE_SSL | |
3625 | if (bumpCount && !Config.accessList.ssl_bump) | |
3626 | debugs(33, 1, "WARNING: http_port(s) with SslBump found, but no " << | |
9e008dda AJ |
3627 | std::endl << "\tssl_bump ACL configured. No requests will be " << |
3628 | "bumped."); | |
ae7ff0b8 | 3629 | #endif |
d193a436 | 3630 | } |
3631 | ||
00516be1 | 3632 | /// process clientHttpConnectionsOpen result |
fe090a86 AR |
3633 | static void |
3634 | clientHttpConnectionOpened(int fd, int, http_port_list *s) | |
3635 | { | |
00516be1 | 3636 | if (!OpenedHttpSocket(fd, "Cannot open HTTP Port")) |
fe090a86 | 3637 | return; |
fe090a86 AR |
3638 | |
3639 | Must(s); | |
62e76326 | 3640 | |
5667a628 AR |
3641 | AsyncCall::Pointer call = commCbCall(5,5, "SomeCommAcceptHandler(httpAccept)", |
3642 | CommAcceptCbPtrFun(httpAccept, s)); | |
62e76326 | 3643 | |
5667a628 | 3644 | s->listener = new Comm::ListenStateData(fd, call, true); |
62e76326 | 3645 | |
5667a628 AR |
3646 | debugs(1, 1, "Accepting " << |
3647 | (s->intercepted ? " intercepted" : "") << | |
3648 | (s->spoof_client_ip ? " spoofing" : "") << | |
3649 | (s->sslBump ? " bumpy" : "") << | |
3650 | (s->accel ? " accelerated" : "") | |
3651 | << " HTTP connections at " << s->s | |
3652 | << ", FD " << fd << "." ); | |
62e76326 | 3653 | |
00516be1 | 3654 | Must(AddOpenedHttpSocket(fd)); // otherwise, we have received a fd we did not ask for |
d193a436 | 3655 | } |
3656 | ||
3657 | #if USE_SSL | |
3658 | static void | |
3659 | clientHttpsConnectionsOpen(void) | |
3660 | { | |
3661 | https_port_list *s; | |
62e76326 | 3662 | |
3f38a55e | 3663 | for (s = Config.Sockaddr.https; s; s = (https_port_list *)s->http.next) { |
62e76326 | 3664 | if (MAXHTTPPORTS == NHttpSockets) { |
ae7ff0b8 | 3665 | debugs(1, 1, "Ignoring 'https_port' lines exceeding the limit."); |
3666 | debugs(1, 1, "The limit is " << MAXHTTPPORTS << " HTTPS ports."); | |
62e76326 | 3667 | continue; |
3668 | } | |
3669 | ||
95d2589c | 3670 | if (!s->staticSslContext) { |
ae7ff0b8 | 3671 | debugs(1, 1, "Ignoring https_port " << s->http.s << |
3672 | " due to SSL initialization failure."); | |
3673 | continue; | |
f9ad0106 | 3674 | } |
3675 | ||
00516be1 | 3676 | AsyncCall::Pointer call = asyncCall(33, 2, "clientHttpsConnectionOpened", |
5667a628 | 3677 | ListeningStartedDialer(&clientHttpsConnectionOpened, &s->http)); |
62e76326 | 3678 | |
00516be1 | 3679 | Ipc::StartListening(SOCK_STREAM, IPPROTO_TCP, s->http.s, COMM_NONBLOCKING, |
5667a628 | 3680 | Ipc::fdnHttpsSocket, call); |
62e76326 | 3681 | |
00516be1 AR |
3682 | HttpSockets[NHttpSockets++] = -1; |
3683 | } | |
3684 | } | |
62e76326 | 3685 | |
00516be1 AR |
3686 | /// process clientHttpsConnectionsOpen result |
3687 | static void | |
3688 | clientHttpsConnectionOpened(int fd, int, http_port_list *s) | |
3689 | { | |
3690 | if (!OpenedHttpSocket(fd, "Cannot open HTTPS Port")) | |
3691 | return; | |
62e76326 | 3692 | |
00516be1 | 3693 | Must(s); |
62e76326 | 3694 | |
5667a628 AR |
3695 | AsyncCall::Pointer call = commCbCall(5,5, "SomeCommAcceptHandler(httpsAccept)", |
3696 | CommAcceptCbPtrFun(httpsAccept, s)); | |
62e76326 | 3697 | |
5667a628 | 3698 | s->listener = new Comm::ListenStateData(fd, call, true); |
62e76326 | 3699 | |
5667a628 | 3700 | debugs(1, 1, "Accepting HTTPS connections at " << s->s << ", FD " << fd << "."); |
62e76326 | 3701 | |
00516be1 | 3702 | Must(AddOpenedHttpSocket(fd)); // otherwise, we have received a fd we did not ask for |
d193a436 | 3703 | } |
3704 | ||
3705 | #endif | |
3706 | ||
3707 | void | |
3708 | clientOpenListenSockets(void) | |
3709 | { | |
3710 | clientHttpConnectionsOpen(); | |
3711 | #if USE_SSL | |
3712 | clientHttpsConnectionsOpen(); | |
1f7c9178 | 3713 | #endif |
62e76326 | 3714 | |
15df8349 | 3715 | if (NHttpSockets < 1) |
598c41da | 3716 | fatal("No HTTP or HTTPS ports configured"); |
15df8349 | 3717 | } |
edce4d98 | 3718 | |
c0fbae16 | 3719 | void |
3720 | clientHttpConnectionsClose(void) | |
3721 | { | |
04f55905 AJ |
3722 | for (http_port_list *s = Config.Sockaddr.http; s; s = s->next) { |
3723 | if (s->listener) { | |
3724 | debugs(1, 1, "FD " << s->listener->fd << " Closing HTTP connection"); | |
3725 | delete s->listener; | |
3726 | s->listener = NULL; | |
3727 | } | |
3728 | } | |
62e76326 | 3729 | |
04f55905 AJ |
3730 | #if USE_SSL |
3731 | for (http_port_list *s = Config.Sockaddr.https; s; s = s->next) { | |
3732 | if (s->listener) { | |
3733 | debugs(1, 1, "FD " << s->listener->fd << " Closing HTTPS connection"); | |
3734 | delete s->listener; | |
3735 | s->listener = NULL; | |
62e76326 | 3736 | } |
c0fbae16 | 3737 | } |
04f55905 AJ |
3738 | #endif |
3739 | ||
3740 | // TODO see if we can drop HttpSockets array entirely */ | |
3741 | for (int i = 0; i < NHttpSockets; i++) { | |
3742 | HttpSockets[i] = -1; | |
3743 | } | |
62e76326 | 3744 | |
c0fbae16 | 3745 | NHttpSockets = 0; |
3746 | } | |
f66a9ef4 | 3747 | |
3748 | int | |
190154cf | 3749 | varyEvaluateMatch(StoreEntry * entry, HttpRequest * request) |
f66a9ef4 | 3750 | { |
3751 | const char *vary = request->vary_headers; | |
a9925b40 | 3752 | int has_vary = entry->getReply()->header.has(HDR_VARY); |
f66a9ef4 | 3753 | #if X_ACCELERATOR_VARY |
62e76326 | 3754 | |
edce4d98 | 3755 | has_vary |= |
a9925b40 | 3756 | entry->getReply()->header.has(HDR_X_ACCELERATOR_VARY); |
f66a9ef4 | 3757 | #endif |
62e76326 | 3758 | |
f66a9ef4 | 3759 | if (!has_vary || !entry->mem_obj->vary_headers) { |
62e76326 | 3760 | if (vary) { |
3761 | /* Oops... something odd is going on here.. */ | |
9e008dda AJ |
3762 | debugs(33, 1, "varyEvaluateMatch: Oops. Not a Vary object on second attempt, '" << |
3763 | entry->mem_obj->url << "' '" << vary << "'"); | |
62e76326 | 3764 | safe_free(request->vary_headers); |
3765 | return VARY_CANCEL; | |
3766 | } | |
3767 | ||
3768 | if (!has_vary) { | |
3769 | /* This is not a varying object */ | |
3770 | return VARY_NONE; | |
3771 | } | |
3772 | ||
3773 | /* virtual "vary" object found. Calculate the vary key and | |
3774 | * continue the search | |
3775 | */ | |
3776 | vary = httpMakeVaryMark(request, entry->getReply()); | |
3777 | ||
3778 | if (vary) { | |
3779 | request->vary_headers = xstrdup(vary); | |
3780 | return VARY_OTHER; | |
3781 | } else { | |
3782 | /* Ouch.. we cannot handle this kind of variance */ | |
3783 | /* XXX This cannot really happen, but just to be complete */ | |
3784 | return VARY_CANCEL; | |
3785 | } | |
f66a9ef4 | 3786 | } else { |
62e76326 | 3787 | if (!vary) { |
3788 | vary = httpMakeVaryMark(request, entry->getReply()); | |
3789 | ||
3790 | if (vary) | |
3791 | request->vary_headers = xstrdup(vary); | |
3792 | } | |
3793 | ||
3794 | if (!vary) { | |
3795 | /* Ouch.. we cannot handle this kind of variance */ | |
3796 | /* XXX This cannot really happen, but just to be complete */ | |
3797 | return VARY_CANCEL; | |
3798 | } else if (strcmp(vary, entry->mem_obj->vary_headers) == 0) { | |
3799 | return VARY_MATCH; | |
3800 | } else { | |
3801 | /* Oops.. we have already been here and still haven't | |
3802 | * found the requested variant. Bail out | |
3803 | */ | |
bf8fe701 | 3804 | debugs(33, 1, "varyEvaluateMatch: Oops. Not a Vary match on second attempt, '" << |
9e008dda | 3805 | entry->mem_obj->url << "' '" << vary << "'"); |
62e76326 | 3806 | return VARY_CANCEL; |
3807 | } | |
f66a9ef4 | 3808 | } |
3809 | } | |
28d4805a | 3810 | |
c0941a6a | 3811 | ACLFilledChecklist * |
59a1efb2 | 3812 | clientAclChecklistCreate(const acl_access * acl, ClientHttpRequest * http) |
28d4805a | 3813 | { |
1cf238db | 3814 | ConnStateData * conn = http->getConn(); |
c0941a6a | 3815 | ACLFilledChecklist *ch = new ACLFilledChecklist(acl, http->request, |
af6a12ee | 3816 | cbdataReferenceValid(conn) && conn != NULL ? conn->rfc931 : dash_str); |
28d4805a | 3817 | |
3818 | /* | |
3819 | * hack for ident ACL. It needs to get full addresses, and a place to store | |
3820 | * the ident result on persistent connections... | |
3821 | */ | |
3822 | /* connection oriented auth also needs these two lines for it's operation. */ | |
3823 | /* | |
3824 | * Internal requests do not have a connection reference, because: A) their | |
3825 | * byte count may be transformed before being applied to an outbound | |
3826 | * connection B) they are internal - any limiting on them should be done on | |
3827 | * the server end. | |
3828 | */ | |
62e76326 | 3829 | |
1cf238db | 3830 | if (conn != NULL) |
c0941a6a | 3831 | ch->conn(conn); /* unreferenced in FilledCheckList.cc */ |
28d4805a | 3832 | |
3833 | return ch; | |
3834 | } | |
a46d2c0e | 3835 | |
3836 | CBDATA_CLASS_INIT(ConnStateData); | |
3837 | ||
95d2589c | 3838 | ConnStateData::ConnStateData() :AsyncJob("ConnStateData"), transparent_ (false), closing_ (false), switchedToHttps_(false) |
b65351fa | 3839 | { |
d67acb4e AJ |
3840 | pinning.fd = -1; |
3841 | pinning.pinned = false; | |
3842 | pinning.auth = false; | |
b65351fa | 3843 | } |
a46d2c0e | 3844 | |
3845 | bool | |
3846 | ConnStateData::transparent() const | |
3847 | { | |
3848 | return transparent_; | |
3849 | } | |
3850 | ||
3851 | void | |
3852 | ConnStateData::transparent(bool const anInt) | |
3853 | { | |
3854 | transparent_ = anInt; | |
3855 | } | |
3856 | ||
3857 | bool | |
3858 | ConnStateData::reading() const | |
3859 | { | |
f84dd7eb | 3860 | return reader != NULL; |
a46d2c0e | 3861 | } |
3862 | ||
3863 | void | |
f84dd7eb | 3864 | ConnStateData::stopReading() |
a46d2c0e | 3865 | { |
f84dd7eb AR |
3866 | if (reading()) { |
3867 | comm_read_cancel(fd, reader); | |
3868 | reader = NULL; | |
3869 | } | |
a46d2c0e | 3870 | } |
3871 | ||
5f8252d2 | 3872 | |
3873 | BodyPipe::Pointer | |
3e62bd58 | 3874 | ConnStateData::expectRequestBody(int64_t size) |
5f8252d2 | 3875 | { |
3876 | bodyPipe = new BodyPipe(this); | |
39cb8c41 AR |
3877 | if (size >= 0) |
3878 | bodyPipe->setBodySize(size); | |
3879 | else | |
3880 | startDechunkingRequest(); | |
5f8252d2 | 3881 | return bodyPipe; |
3882 | } | |
3883 | ||
39cb8c41 AR |
3884 | int64_t |
3885 | ConnStateData::mayNeedToReadMoreBody() const | |
3886 | { | |
3887 | if (!bodyPipe) | |
3888 | return 0; // request without a body or read/produced all body bytes | |
3889 | ||
3890 | if (!bodyPipe->bodySizeKnown()) | |
3891 | return -1; // probably need to read more, but we cannot be sure | |
3892 | ||
3893 | const int64_t needToProduce = bodyPipe->unproducedSize(); | |
3894 | const int64_t haveAvailable = static_cast<int64_t>(in.notYetUsed); | |
3895 | ||
3896 | if (needToProduce <= haveAvailable) | |
3897 | return 0; // we have read what we need (but are waiting for pipe space) | |
3898 | ||
3899 | return needToProduce - haveAvailable; | |
3900 | } | |
3901 | ||
55e44db9 | 3902 | bool |
3903 | ConnStateData::closing() const | |
3904 | { | |
3905 | return closing_; | |
3906 | } | |
3907 | ||
63be0a78 | 3908 | /** |
3909 | * Called by ClientSocketContext to give the connection a chance to read | |
3910 | * the entire body before closing the socket. | |
3911 | */ | |
55e44db9 | 3912 | void |
5f8252d2 | 3913 | ConnStateData::startClosing(const char *reason) |
55e44db9 | 3914 | { |
5f8252d2 | 3915 | debugs(33, 5, HERE << "startClosing " << this << " for " << reason); |
3916 | assert(!closing()); | |
3917 | closing_ = true; | |
3918 | ||
3919 | assert(bodyPipe != NULL); | |
5f8252d2 | 3920 | |
3921 | // We do not have to abort the body pipeline because we are going to | |
3922 | // read the entire body anyway. | |
3923 | // Perhaps an ICAP server wants to log the complete request. | |
3924 | ||
3925 | // If a consumer abort have caused this closing, we may get stuck | |
3926 | // as nobody is consuming our data. Allow auto-consumption. | |
3927 | bodyPipe->enableAutoConsumption(); | |
55e44db9 | 3928 | } |
3929 | ||
39cb8c41 | 3930 | /// initialize dechunking state |
3ff65596 | 3931 | void |
39cb8c41 | 3932 | ConnStateData::startDechunkingRequest() |
3ff65596 | 3933 | { |
39cb8c41 AR |
3934 | Must(bodyPipe != NULL); |
3935 | debugs(33, 5, HERE << "start dechunking" << bodyPipe->status()); | |
3ff65596 AR |
3936 | assert(!in.bodyParser); |
3937 | in.bodyParser = new ChunkedCodingParser; | |
3ff65596 AR |
3938 | } |
3939 | ||
39cb8c41 | 3940 | /// put parsed content into input buffer and clean up |
3ff65596 | 3941 | void |
39cb8c41 | 3942 | ConnStateData::finishDechunkingRequest(bool withSuccess) |
3ff65596 | 3943 | { |
39cb8c41 | 3944 | debugs(33, 5, HERE << "finish dechunking: " << withSuccess); |
3ff65596 | 3945 | |
39cb8c41 AR |
3946 | if (bodyPipe != NULL) { |
3947 | debugs(33, 7, HERE << "dechunked tail: " << bodyPipe->status()); | |
3948 | BodyPipe::Pointer myPipe = bodyPipe; | |
3949 | stopProducingFor(bodyPipe, withSuccess); // sets bodyPipe->bodySize() | |
3950 | Must(!bodyPipe); // we rely on it being nil after we are done with body | |
3951 | if (withSuccess) { | |
3952 | Must(myPipe->bodySizeKnown()); | |
3953 | ClientSocketContext::Pointer context = getCurrentContext(); | |
3954 | if (context != NULL && context->http && context->http->request) | |
3955 | context->http->request->setContentLength(myPipe->bodySize()); | |
3956 | } | |
3ff65596 | 3957 | } |
3ff65596 | 3958 | |
39cb8c41 AR |
3959 | delete in.bodyParser; |
3960 | in.bodyParser = NULL; | |
3ff65596 AR |
3961 | } |
3962 | ||
a46d2c0e | 3963 | char * |
3964 | ConnStateData::In::addressToReadInto() const | |
3965 | { | |
3966 | return buf + notYetUsed; | |
3967 | } | |
3968 | ||
3ff65596 | 3969 | ConnStateData::In::In() : bodyParser(NULL), |
39cb8c41 | 3970 | buf (NULL), notYetUsed (0), allocatedSize (0) |
a46d2c0e | 3971 | {} |
3972 | ||
3973 | ConnStateData::In::~In() | |
3974 | { | |
3975 | if (allocatedSize) | |
3976 | memFreeBuf(allocatedSize, buf); | |
39cb8c41 | 3977 | delete bodyParser; // TODO: pool |
a46d2c0e | 3978 | } |
d67acb4e | 3979 | |
655daa06 AR |
3980 | void |
3981 | ConnStateData::sendControlMsg(HttpControlMsg msg) | |
3982 | { | |
eedd4182 AR |
3983 | if (!isOpen()) { |
3984 | debugs(33, 3, HERE << "ignoring 1xx due to earlier closure"); | |
655daa06 AR |
3985 | return; |
3986 | } | |
3987 | ||
eedd4182 AR |
3988 | ClientSocketContext::Pointer context = getCurrentContext(); |
3989 | if (context != NULL) { | |
3990 | context->writeControlMsg(msg); // will call msg.cbSuccess | |
655daa06 AR |
3991 | return; |
3992 | } | |
3993 | ||
3994 | debugs(33, 3, HERE << " closing due to missing context for 1xx"); | |
3995 | comm_close(fd); | |
3996 | } | |
3997 | ||
d67acb4e AJ |
3998 | /* This is a comm call normally scheduled by comm_close() */ |
3999 | void | |
4000 | ConnStateData::clientPinnedConnectionClosed(const CommCloseCbParams &io) | |
4001 | { | |
4002 | pinning.fd = -1; | |
4003 | if (pinning.peer) { | |
9e008dda | 4004 | cbdataReferenceDone(pinning.peer); |
d67acb4e AJ |
4005 | } |
4006 | safe_free(pinning.host); | |
4007 | /* NOTE: pinning.pinned should be kept. This combined with fd == -1 at the end of a request indicates that the host | |
4008 | * connection has gone away */ | |
4009 | } | |
4010 | ||
8bcf08e0 | 4011 | void ConnStateData::pinConnection(int pinning_fd, HttpRequest *request, struct peer *aPeer, bool auth) |
9e008dda | 4012 | { |
d67acb4e AJ |
4013 | fde *f; |
4014 | char desc[FD_DESC_SZ]; | |
4015 | ||
4016 | if (pinning.fd == pinning_fd) | |
9e008dda | 4017 | return; |
d67acb4e | 4018 | else if (pinning.fd != -1) |
9e008dda AJ |
4019 | comm_close(pinning.fd); |
4020 | ||
4021 | if (pinning.host) | |
4022 | safe_free(pinning.host); | |
4023 | ||
d67acb4e AJ |
4024 | pinning.fd = pinning_fd; |
4025 | pinning.host = xstrdup(request->GetHost()); | |
4026 | pinning.port = request->port; | |
4027 | pinning.pinned = true; | |
4028 | if (pinning.peer) | |
9e008dda | 4029 | cbdataReferenceDone(pinning.peer); |
8bcf08e0 FC |
4030 | if (aPeer) |
4031 | pinning.peer = cbdataReference(aPeer); | |
d67acb4e AJ |
4032 | pinning.auth = auth; |
4033 | f = &fd_table[fd]; | |
4034 | snprintf(desc, FD_DESC_SZ, "%s pinned connection for %s:%d (%d)", | |
8bcf08e0 | 4035 | (auth || !aPeer) ? request->GetHost() : aPeer->name, f->ipaddr, (int) f->remote_port, fd); |
d67acb4e | 4036 | fd_note(pinning_fd, desc); |
9e008dda | 4037 | |
d67acb4e | 4038 | typedef CommCbMemFunT<ConnStateData, CommCloseCbParams> Dialer; |
4299f876 | 4039 | pinning.closeHandler = JobCallback(33, 5, |
4cb2536f | 4040 | Dialer, this, ConnStateData::clientPinnedConnectionClosed); |
d67acb4e AJ |
4041 | comm_add_close_handler(pinning_fd, pinning.closeHandler); |
4042 | ||
4043 | } | |
4044 | ||
8bcf08e0 | 4045 | int ConnStateData::validatePinnedConnection(HttpRequest *request, const struct peer *aPeer) |
d67acb4e AJ |
4046 | { |
4047 | bool valid = true; | |
4048 | if (pinning.fd < 0) | |
9e008dda AJ |
4049 | return -1; |
4050 | ||
d67acb4e | 4051 | if (pinning.auth && request && strcasecmp(pinning.host, request->GetHost()) != 0) { |
9e008dda | 4052 | valid = false; |
d67acb4e | 4053 | } |
9e008dda AJ |
4054 | if (request && pinning.port != request->port) { |
4055 | valid = false; | |
d67acb4e | 4056 | } |
9e008dda AJ |
4057 | if (pinning.peer && !cbdataReferenceValid(pinning.peer)) { |
4058 | valid = false; | |
d67acb4e | 4059 | } |
8bcf08e0 | 4060 | if (aPeer != pinning.peer) { |
9e008dda | 4061 | valid = false; |
d67acb4e AJ |
4062 | } |
4063 | ||
9e008dda AJ |
4064 | if (!valid) { |
4065 | int pinning_fd=pinning.fd; | |
4066 | /* The pinning info is not safe, remove any pinning info*/ | |
4067 | unpinConnection(); | |
d67acb4e | 4068 | |
9e008dda AJ |
4069 | /* also close the server side socket, we should not use it for invalid/unauthenticated |
4070 | requests... | |
4071 | */ | |
4072 | comm_close(pinning_fd); | |
4073 | return -1; | |
d67acb4e AJ |
4074 | } |
4075 | ||
4076 | return pinning.fd; | |
4077 | } | |
4078 | ||
4079 | void ConnStateData::unpinConnection() | |
4080 | { | |
9e008dda AJ |
4081 | if (pinning.peer) |
4082 | cbdataReferenceDone(pinning.peer); | |
d67acb4e | 4083 | |
9e008dda AJ |
4084 | if (pinning.closeHandler != NULL) { |
4085 | comm_remove_close_handler(pinning.fd, pinning.closeHandler); | |
4086 | pinning.closeHandler = NULL; | |
d67acb4e AJ |
4087 | } |
4088 | pinning.fd = -1; | |
4089 | safe_free(pinning.host); | |
4090 | } |