5 * DEBUG: section 11 Hypertext Transfer Protocol (HTTP)
6 * AUTHOR: Harvest Derived
8 * SQUID Web Proxy Cache http://www.squid-cache.org/
9 * ----------------------------------------------------------
11 * Squid is the result of efforts by numerous individuals from
12 * the Internet community; see the CONTRIBUTORS file for full
13 * details. Many organizations have provided support for Squid's
14 * development; see the SPONSORS file for full details. Squid is
15 * Copyrighted (C) 2001 by the Regents of the University of
16 * California; see the COPYRIGHT file for full details. Squid
17 * incorporates software developed and/or copyrighted by other
18 * sources; see the CREDITS file for full details.
20 * This program is free software; you can redistribute it and/or modify
21 * it under the terms of the GNU General Public License as published by
22 * the Free Software Foundation; either version 2 of the License, or
23 * (at your option) any later version.
25 * This program is distributed in the hope that it will be useful,
26 * but WITHOUT ANY WARRANTY; without even the implied warranty of
27 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
28 * GNU General Public License for more details.
30 * You should have received a copy of the GNU General Public License
31 * along with this program; if not, write to the Free Software
32 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA.
37 * Anonymizing patch by lutz@as-node.jena.thur.de
38 * have a look into http-anon.c to get more informations.
42 #include "errorpage.h"
45 #include "AuthUserRequest.h"
47 #include "HttpReply.h"
48 #include "HttpRequest.h"
49 #include "MemObject.h"
50 #include "HttpHdrContRange.h"
51 #include "HttpHdrSc.h"
52 #include "HttpHdrScTarget.h"
53 #include "ACLChecklist.h"
56 #include "DelayPools.h"
58 #include "SquidTime.h"
59 #include "TextException.h"
61 #define SQUID_ENTER_THROWING_CODE() try {
62 #define SQUID_EXIT_THROWING_CODE(status) \
65 catch (const std::exception &e) { \
66 debugs (11, 1, "Exception error:" << e.what()); \
70 CBDATA_CLASS_INIT(HttpStateData
);
72 static const char *const crlf
= "\r\n";
74 static void httpMaybeRemovePublic(StoreEntry
*, http_status
);
75 static void copyOneHeaderFromClientsideRequestToUpstreamRequest(const HttpHeaderEntry
*e
, String strConnection
, HttpRequest
* request
, HttpRequest
* orig_request
,
76 HttpHeader
* hdr_out
, int we_do_ranges
, http_state_flags
);
78 HttpStateData::HttpStateData(FwdState
*theFwdState
) : AsyncJob("HttpStateData"), ServerStateData(theFwdState
),
79 lastChunk(0), header_bytes_read(0), reply_bytes_read(0), httpChunkDecoder(NULL
)
81 debugs(11,5,HERE
<< "HttpStateData " << this << " created");
82 ignoreCacheControl
= false;
83 surrogateNoStore
= false;
86 readBuf
->init(4096, SQUID_TCP_SO_RCVBUF
);
87 orig_request
= HTTPMSGLOCK(fwd
->request
);
90 _peer
= fwd
->servers
->_peer
; /* might be NULL */
95 if (_peer
->options
.originserver
)
96 url
= orig_request
->urlpath
.termedBuf();
100 HttpRequest
* proxy_req
= new HttpRequest(orig_request
->method
,
101 orig_request
->protocol
, url
);
103 proxy_req
->SetHost(_peer
->host
);
105 proxy_req
->port
= _peer
->http_port
;
107 proxy_req
->flags
= orig_request
->flags
;
109 proxy_req
->lastmod
= orig_request
->lastmod
;
111 proxy_req
->flags
.proxying
= 1;
113 HTTPMSGUNLOCK(request
);
115 request
= HTTPMSGLOCK(proxy_req
);
118 * This NEIGHBOR_PROXY_ONLY check probably shouldn't be here.
119 * We might end up getting the object from somewhere else if,
120 * for example, the request to this neighbor fails.
122 if (_peer
->options
.proxy_only
)
123 entry
->releaseRequest();
127 entry
->setNoDelay(_peer
->options
.no_delay
);
133 * register the handler to free HTTP state data when the FD closes
135 typedef CommCbMemFunT
<HttpStateData
, CommCloseCbParams
> Dialer
;
136 closeHandler
= asyncCall(9, 5, "httpStateData::httpStateConnClosed",
137 Dialer(this,&HttpStateData::httpStateConnClosed
));
138 comm_add_close_handler(fd
, closeHandler
);
141 HttpStateData::~HttpStateData()
144 * don't forget that ~ServerStateData() gets called automatically
147 if (!readBuf
->isNull())
152 if (httpChunkDecoder
)
153 delete httpChunkDecoder
;
155 HTTPMSGUNLOCK(orig_request
);
157 debugs(11,5, HERE
<< "HttpStateData " << this << " destroyed; FD " << fd
);
161 HttpStateData::dataDescriptor() const
167 httpStateFree(int fd, void *data)
169 HttpStateData *httpState = static_cast<HttpStateData *>(data);
170 debugs(11, 5, "httpStateFree: FD " << fd << ", httpState=" << data);
175 HttpStateData::httpStateConnClosed(const CommCloseCbParams
¶ms
)
177 debugs(11, 5, "httpStateFree: FD " << params
.fd
<< ", httpState=" << params
.data
);
178 deleteThis("HttpStateData::httpStateConnClosed");
182 httpCachable(const HttpRequestMethod
& method
)
184 /* GET and HEAD are cachable. Others are not. */
186 // TODO: replase to HttpRequestMethod::isCachable() ?
187 if (method
!= METHOD_GET
&& method
!= METHOD_HEAD
)
195 HttpStateData::httpTimeout(const CommTimeoutCbParams
¶ms
)
197 debugs(11, 4, "httpTimeout: FD " << fd
<< ": '" << entry
->url() << "'" );
199 if (entry
->store_status
== STORE_PENDING
) {
200 fwd
->fail(errorCon(ERR_READ_TIMEOUT
, HTTP_GATEWAY_TIMEOUT
, fwd
->request
));
207 httpMaybeRemovePublic(StoreEntry
* e
, http_status status
)
213 if (!EBIT_TEST(e
->flags
, KEY_PRIVATE
))
220 case HTTP_NON_AUTHORITATIVE_INFORMATION
:
222 case HTTP_MULTIPLE_CHOICES
:
224 case HTTP_MOVED_PERMANENTLY
:
226 case HTTP_MOVED_TEMPORARILY
:
237 case HTTP_METHOD_NOT_ALLOWED
:
244 case HTTP_UNAUTHORIZED
:
254 * Any 2xx response should eject previously cached entities...
257 if (status
>= 200 && status
< 300)
265 if (!remove
&& !forbidden
)
270 if (e
->mem_obj
->request
)
271 pe
= storeGetPublicByRequest(e
->mem_obj
->request
);
273 pe
= storeGetPublic(e
->mem_obj
->url
, e
->mem_obj
->method
);
278 neighborsHtcpClear(e
, NULL
, e
->mem_obj
->request
, e
->mem_obj
->method
, HTCP_CLR_INVALIDATION
);
284 * Also remove any cached HEAD response in case the object has
287 if (e
->mem_obj
->request
)
288 pe
= storeGetPublicByRequestMethod(e
->mem_obj
->request
, METHOD_HEAD
);
290 pe
= storeGetPublic(e
->mem_obj
->url
, METHOD_HEAD
);
295 neighborsHtcpClear(e
, NULL
, e
->mem_obj
->request
, HttpRequestMethod(METHOD_HEAD
), HTCP_CLR_INVALIDATION
);
302 HttpStateData::processSurrogateControl(HttpReply
*reply
)
306 if (request
->flags
.accelerated
&& reply
->surrogate_control
) {
307 HttpHdrScTarget
*sctusable
=
308 httpHdrScGetMergedTarget(reply
->surrogate_control
,
309 Config
.Accel
.surrogate_id
);
312 if (EBIT_TEST(sctusable
->mask
, SC_NO_STORE
) ||
313 (Config
.onoff
.surrogate_is_remote
314 && EBIT_TEST(sctusable
->mask
, SC_NO_STORE_REMOTE
))) {
315 surrogateNoStore
= true;
316 entry
->makePrivate();
319 /* The HttpHeader logic cannot tell if the header it's parsing is a reply to an
320 * accelerated request or not...
321 * Still, this is an abtraction breach. - RC
323 if (sctusable
->max_age
!= -1) {
324 if (sctusable
->max_age
< sctusable
->max_stale
)
325 reply
->expires
= reply
->date
+ sctusable
->max_age
;
327 reply
->expires
= reply
->date
+ sctusable
->max_stale
;
329 /* And update the timestamps */
330 entry
->timestampsSet();
333 /* We ignore cache-control directives as per the Surrogate specification */
334 ignoreCacheControl
= true;
336 httpHdrScTargetDestroy(sctusable
);
344 HttpStateData::cacheableReply()
346 HttpReply
const *rep
= finalReply();
347 HttpHeader
const *hdr
= &rep
->header
;
348 const int cc_mask
= (rep
->cache_control
) ? rep
->cache_control
->mask
: 0;
352 const refresh_t
*R
= NULL
;
354 /* This strange looking define first looks up the refresh pattern
355 * and then checks if the specified flag is set. The main purpose
356 * of this is to simplify the refresh pattern lookup and HTTP_VIOLATIONS
359 #define REFRESH_OVERRIDE(flag) \
360 ((R = (R ? R : refreshLimits(entry->mem_obj->url))) , \
361 (R && R->flags.flag))
363 #define REFRESH_OVERRIDE(flag) 0
366 if (surrogateNoStore
)
369 if (!ignoreCacheControl
) {
370 if (EBIT_TEST(cc_mask
, CC_PRIVATE
)) {
371 if (!REFRESH_OVERRIDE(ignore_private
))
375 if (EBIT_TEST(cc_mask
, CC_NO_CACHE
)) {
376 if (!REFRESH_OVERRIDE(ignore_no_cache
))
380 if (EBIT_TEST(cc_mask
, CC_NO_STORE
)) {
381 if (!REFRESH_OVERRIDE(ignore_no_store
))
386 if (request
->flags
.auth
|| request
->flags
.auth_sent
) {
388 * Responses to requests with authorization may be cached
389 * only if a Cache-Control: public reply header is present.
390 * RFC 2068, sec 14.9.4
393 if (!EBIT_TEST(cc_mask
, CC_PUBLIC
)) {
394 if (!REFRESH_OVERRIDE(ignore_auth
))
399 /* Pragma: no-cache in _replies_ is not documented in HTTP,
400 * but servers like "Active Imaging Webcast/2.0" sure do use it */
401 if (hdr
->has(HDR_PRAGMA
)) {
402 String s
= hdr
->getList(HDR_PRAGMA
);
403 const int no_cache
= strListIsMember(&s
, "no-cache", ',');
407 if (!REFRESH_OVERRIDE(ignore_no_cache
))
413 * The "multipart/x-mixed-replace" content type is used for
414 * continuous push replies. These are generally dynamic and
415 * probably should not be cachable
417 if ((v
= hdr
->getStr(HDR_CONTENT_TYPE
)))
418 if (!strncasecmp(v
, "multipart/x-mixed-replace", 25))
421 switch (rep
->sline
.status
) {
422 /* Responses that are cacheable */
426 case HTTP_NON_AUTHORITATIVE_INFORMATION
:
428 case HTTP_MULTIPLE_CHOICES
:
430 case HTTP_MOVED_PERMANENTLY
:
434 * Don't cache objects that need to be refreshed on next request,
435 * unless we know how to refresh it.
438 if (!refreshIsCachable(entry
)) {
439 debugs(22, 3, "refreshIsCachable() returned non-cacheable..");
443 /* don't cache objects from peers w/o LMT, Date, or Expires */
444 /* check that is it enough to check headers @?@ */
447 else if (rep
->last_modified
> -1)
452 /* @?@ (here and 302): invalid expires header compiles to squid_curtime */
453 else if (rep
->expires
> -1)
461 /* Responses that only are cacheable if the server says so */
463 case HTTP_MOVED_TEMPORARILY
:
464 case HTTP_TEMPORARY_REDIRECT
:
465 if (rep
->expires
> rep
->date
&& rep
->date
> 0)
473 /* Errors can be negatively cached */
475 case HTTP_NO_CONTENT
:
479 case HTTP_BAD_REQUEST
:
485 case HTTP_METHOD_NOT_ALLOWED
:
487 case HTTP_REQUEST_URI_TOO_LARGE
:
489 case HTTP_INTERNAL_SERVER_ERROR
:
491 case HTTP_NOT_IMPLEMENTED
:
493 case HTTP_BAD_GATEWAY
:
495 case HTTP_SERVICE_UNAVAILABLE
:
497 case HTTP_GATEWAY_TIMEOUT
:
503 /* Some responses can never be cached */
505 case HTTP_PARTIAL_CONTENT
: /* Not yet supported */
509 case HTTP_NOT_MODIFIED
:
511 case HTTP_UNAUTHORIZED
:
513 case HTTP_PROXY_AUTHENTICATION_REQUIRED
:
515 case HTTP_INVALID_HEADER
: /* Squid header parsing error */
517 case HTTP_HEADER_TOO_LARGE
:
519 case HTTP_PAYMENT_REQUIRED
:
520 case HTTP_NOT_ACCEPTABLE
:
521 case HTTP_REQUEST_TIMEOUT
:
523 case HTTP_LENGTH_REQUIRED
:
524 case HTTP_PRECONDITION_FAILED
:
525 case HTTP_REQUEST_ENTITY_TOO_LARGE
:
526 case HTTP_UNSUPPORTED_MEDIA_TYPE
:
527 case HTTP_UNPROCESSABLE_ENTITY
:
529 case HTTP_FAILED_DEPENDENCY
:
530 case HTTP_INSUFFICIENT_STORAGE
:
531 case HTTP_REQUESTED_RANGE_NOT_SATISFIABLE
:
532 case HTTP_EXPECTATION_FAILED
:
536 default: /* Unknown status code */
537 debugs (11, 0, HERE
<< "HttpStateData::cacheableReply: unexpected http status code " << rep
->sline
.status
);
549 * For Vary, store the relevant request headers as
550 * virtual headers in the reply
551 * Returns false if the variance cannot be stored
554 httpMakeVaryMark(HttpRequest
* request
, HttpReply
const * reply
)
557 const char *pos
= NULL
;
564 vary
= reply
->header
.getList(HDR_VARY
);
566 while (strListGetItem(&vary
, ',', &item
, &ilen
, &pos
)) {
567 char *name
= (char *)xmalloc(ilen
+ 1);
568 xstrncpy(name
, item
, ilen
+ 1);
571 if (strcmp(name
, "*") == 0) {
572 /* Can not handle "Vary: *" withtout ETag support */
578 strListAdd(&vstr
, name
, ',');
579 hdr
= request
->header
.getByName(name
);
581 value
= hdr
.termedBuf();
584 value
= rfc1738_escape_part(value
);
585 vstr
.append("=\"", 2);
587 vstr
.append("\"", 1);
594 #if X_ACCELERATOR_VARY
597 vary
= reply
->header
.getList(HDR_X_ACCELERATOR_VARY
);
599 while (strListGetItem(&vary
, ',', &item
, &ilen
, &pos
)) {
600 char *name
= (char *)xmalloc(ilen
+ 1);
601 xstrncpy(name
, item
, ilen
+ 1);
603 strListAdd(&vstr
, name
, ',');
604 hdr
= request
->header
.getByName(name
);
606 value
= hdr
.termedBuf();
609 value
= rfc1738_escape_part(value
);
610 vstr
.append("=\"", 2);
612 vstr
.append("\"", 1);
621 debugs(11, 3, "httpMakeVaryMark: " << vstr
);
622 return vstr
.termedBuf();
626 HttpStateData::keepaliveAccounting(HttpReply
*reply
)
630 _peer
->stats
.n_keepalives_sent
++;
632 if (reply
->keep_alive
) {
634 _peer
->stats
.n_keepalives_recv
++;
636 if (Config
.onoff
.detect_broken_server_pconns
637 && reply
->bodySize(request
->method
) == -1 && !flags
.chunked
) {
638 debugs(11, 1, "keepaliveAccounting: Impossible keep-alive header from '" << entry
->url() << "'" );
639 // debugs(11, 2, "GOT HTTP REPLY HDR:\n---------\n" << readBuf->content() << "\n----------" );
640 flags
.keepalive_broken
= 1;
646 HttpStateData::checkDateSkew(HttpReply
*reply
)
648 if (reply
->date
> -1 && !_peer
) {
649 int skew
= abs((int)(reply
->date
- squid_curtime
));
652 debugs(11, 3, "" << request
->GetHost() << "'s clock is skewed by " << skew
<< " seconds!");
657 * This creates the error page itself.. its likely
658 * that the forward ported reply header max size patch
659 * generates non http conformant error pages - in which
660 * case the errors where should be 'BAD_GATEWAY' etc
663 HttpStateData::processReplyHeader()
665 /** Creates a blank header. If this routine is made incremental, this will not do */
666 Ctx ctx
= ctx_enter(entry
->mem_obj
->url
);
667 debugs(11, 3, "processReplyHeader: key '" << entry
->getMD5Text() << "'");
669 assert(!flags
.headers_parsed
);
671 http_status error
= HTTP_STATUS_NONE
;
673 HttpReply
*newrep
= new HttpReply
;
674 const bool parsed
= newrep
->parse(readBuf
, eof
, &error
);
676 if (!parsed
&& readBuf
->contentSize() > 5 && strncmp(readBuf
->content(), "HTTP/", 5) != 0) {
678 HttpReply
*tmprep
= new HttpReply
;
679 tmprep
->sline
.version
= HttpVersion(1, 0);
680 tmprep
->sline
.status
= HTTP_OK
;
681 tmprep
->header
.putTime(HDR_DATE
, squid_curtime
);
682 tmprep
->header
.putExt("X-Transformed-From", "HTTP/0.9");
684 newrep
->parse(mb
, eof
, &error
);
687 if (!parsed
&& error
> 0) { // unrecoverable parsing error
688 debugs(11, 3, "processReplyHeader: Non-HTTP-compliant header: '" << readBuf
->content() << "'");
689 flags
.headers_parsed
= 1;
690 newrep
->sline
.version
= HttpVersion(1, 0);
691 newrep
->sline
.status
= error
;
692 HttpReply
*vrep
= setVirginReply(newrep
);
693 entry
->replaceHttpReply(vrep
);
698 if (!parsed
) { // need more data
706 debugs(11, 9, "GOT HTTP REPLY HDR:\n---------\n" << readBuf
->content() << "\n----------");
708 header_bytes_read
= headersEnd(readBuf
->content(), readBuf
->contentSize());
709 readBuf
->consume(header_bytes_read
);
713 if (newrep
->header
.hasListMember(HDR_TRANSFER_ENCODING
, "chunked", ',')) {
715 httpChunkDecoder
= new ChunkedCodingParser
;
718 if (!peerSupportsConnectionPinning())
719 orig_request
->flags
.connection_auth_disabled
= 1;
721 HttpReply
*vrep
= setVirginReply(newrep
);
722 flags
.headers_parsed
= 1;
724 keepaliveAccounting(vrep
);
728 processSurrogateControl (vrep
);
730 /** \todo IF the reply is a 1.0 reply, AND it has a Connection: Header
731 * Parse the header and remove all referenced headers
739 * returns true if the peer can support connection pinning
741 bool HttpStateData::peerSupportsConnectionPinning() const
743 const HttpReply
*rep
= entry
->mem_obj
->getReply();
744 const HttpHeader
*hdr
= &rep
->header
;
751 /*If this peer does not support connection pinning (authenticated
752 connections) return false
754 if (!_peer
->connection_auth
)
757 /*The peer supports connection pinning and the http reply status
758 is not unauthorized, so the related connection can be pinned
760 if (rep
->sline
.status
!= HTTP_UNAUTHORIZED
)
763 /*The server respond with HTTP_UNAUTHORIZED and the peer configured
764 with "connection-auth=on" we know that the peer supports pinned
767 if (_peer
->connection_auth
== 1)
770 /*At this point peer has configured with "connection-auth=auto"
771 parameter so we need some extra checks to decide if we are going
772 to allow pinned connections or not
775 /*if the peer configured with originserver just allow connection
776 pinning (squid 2.6 behaviour)
778 if (_peer
->options
.originserver
)
781 /*if the connections it is already pinned it is OK*/
782 if (request
->flags
.pinned
)
785 /*Allow pinned connections only if the Proxy-support header exists in
786 reply and has in its list the "Session-Based-Authentication"
787 which means that the peer supports connection pinning.
789 if (!hdr
->has(HDR_PROXY_SUPPORT
))
792 header
= hdr
->getStrOrList(HDR_PROXY_SUPPORT
);
793 /* XXX This ought to be done in a case-insensitive manner */
794 rc
= (strstr(header
.termedBuf(), "Session-Based-Authentication") != NULL
);
799 // Called when we parsed (and possibly adapted) the headers but
800 // had not starting storing (a.k.a., sending) the body yet.
802 HttpStateData::haveParsedReplyHeaders()
804 ServerStateData::haveParsedReplyHeaders();
806 Ctx ctx
= ctx_enter(entry
->mem_obj
->url
);
807 HttpReply
*rep
= finalReply();
809 if (rep
->sline
.status
== HTTP_PARTIAL_CONTENT
&&
811 currentOffset
= rep
->content_range
->spec
.offset
;
813 entry
->timestampsSet();
815 /* Check if object is cacheable or not based on reply code */
816 debugs(11, 3, "haveParsedReplyHeaders: HTTP CODE: " << rep
->sline
.status
);
818 if (neighbors_do_private_keys
)
819 httpMaybeRemovePublic(entry
, rep
->sline
.status
);
821 if (rep
->header
.has(HDR_VARY
)
822 #if X_ACCELERATOR_VARY
823 || rep
->header
.has(HDR_X_ACCELERATOR_VARY
)
826 const char *vary
= httpMakeVaryMark(orig_request
, rep
);
829 entry
->makePrivate();
834 entry
->mem_obj
->vary_headers
= xstrdup(vary
);
842 * If its not a reply that we will re-forward, then
843 * allow the client to get it.
845 if (!fwd
->reforwardableStatus(rep
->sline
.status
))
846 EBIT_CLR(entry
->flags
, ENTRY_FWD_HDR_WAIT
);
848 switch (cacheableReply()) {
855 entry
->makePrivate();
861 if (Config
.negativeTtl
> 0)
862 entry
->cacheNegatively();
865 entry
->makePrivate();
877 if (!ignoreCacheControl
&& rep
->cache_control
) {
878 if (EBIT_TEST(rep
->cache_control
->mask
, CC_PROXY_REVALIDATE
))
879 EBIT_SET(entry
->flags
, ENTRY_REVALIDATE
);
880 else if (EBIT_TEST(rep
->cache_control
->mask
, CC_MUST_REVALIDATE
))
881 EBIT_SET(entry
->flags
, ENTRY_REVALIDATE
);
885 headersLog(1, 0, request
->method
, rep
);
892 HttpStateData::ConnectionStatus
893 HttpStateData::statusIfComplete() const
895 const HttpReply
*rep
= virginReply();
897 * If the reply wants to close the connection, it takes precedence */
899 if (httpHeaderHasConnDir(&rep
->header
, "close"))
900 return COMPLETE_NONPERSISTENT_MSG
;
903 * If we didn't send a keep-alive request header, then this
904 * can not be a persistent connection.
906 if (!flags
.keepalive
)
907 return COMPLETE_NONPERSISTENT_MSG
;
910 * If we haven't sent the whole request then this can not be a persistent
913 if (!flags
.request_sent
) {
914 debugs(11, 1, "statusIfComplete: Request not yet fully sent \"" << RequestMethodStr(orig_request
->method
) << " " << entry
->url() << "\"" );
915 return COMPLETE_NONPERSISTENT_MSG
;
919 * What does the reply have to say about keep-alive?
923 * If the origin server (HTTP/1.0) does not send a keep-alive
924 * header, but keeps the connection open anyway, what happens?
925 * We'll return here and http.c waits for an EOF before changing
926 * store_status to STORE_OK. Combine this with ENTRY_FWD_HDR_WAIT
927 * and an error status code, and we might have to wait until
928 * the server times out the socket.
930 if (!rep
->keep_alive
)
931 return COMPLETE_NONPERSISTENT_MSG
;
933 return COMPLETE_PERSISTENT_MSG
;
936 HttpStateData::ConnectionStatus
937 HttpStateData::persistentConnStatus() const
939 debugs(11, 3, "persistentConnStatus: FD " << fd
<< " eof=" << eof
);
940 const HttpReply
*vrep
= virginReply();
941 debugs(11, 5, "persistentConnStatus: content_length=" << vrep
->content_length
);
943 /* If we haven't seen the end of reply headers, we are not done */
944 debugs(11, 5, "persistentConnStatus: flags.headers_parsed=" << flags
.headers_parsed
);
946 if (!flags
.headers_parsed
)
947 return INCOMPLETE_MSG
;
949 if (eof
) // already reached EOF
950 return COMPLETE_NONPERSISTENT_MSG
;
953 * In chunked response we do not know the content length but we are absolutely
954 * sure about the end of response, so we are calling the statusIfComplete to
955 * decide if we can be persistant
957 if (lastChunk
&& flags
.chunked
)
958 return statusIfComplete();
960 const int64_t clen
= vrep
->bodySize(request
->method
);
962 debugs(11, 5, "persistentConnStatus: clen=" << clen
);
964 /* If the body size is unknown we must wait for EOF */
966 return INCOMPLETE_MSG
;
969 * If the body size is known, we must wait until we've gotten all of it. */
972 // if (entry->mem_obj->endOffset() < vrep->content_length + vrep->hdr_sz)
973 const int64_t body_bytes_read
= reply_bytes_read
- header_bytes_read
;
974 debugs(11,5, "persistentConnStatus: body_bytes_read=" <<
975 body_bytes_read
<< " content_length=" << vrep
->content_length
);
977 if (body_bytes_read
< vrep
->content_length
)
978 return INCOMPLETE_MSG
;
982 * If there is no message body or we got it all, we can be persistent */
983 return statusIfComplete();
987 * This is the callback after some data has been read from the network
991 HttpStateData::ReadReplyWrapper(int fd, char *buf, size_t len, comm_err_t flag, int xerrno, void *data)
993 HttpStateData *httpState = static_cast<HttpStateData *>(data);
994 assert (fd == httpState->fd);
995 // assert(buf == readBuf->content());
996 PROF_start(HttpStateData_readReply);
997 httpState->readReply (len, flag, xerrno);
998 PROF_stop(HttpStateData_readReply);
1002 /* XXX this function is too long! */
1004 HttpStateData::readReply (const CommIoCbParams
&io
)
1010 assert(fd
== io
.fd
);
1012 flags
.do_next_read
= 0;
1014 debugs(11, 5, "httpReadReply: FD " << fd
<< ": len " << len
<< ".");
1016 // Bail out early on COMM_ERR_CLOSING - close handlers will tidy up for us
1017 if (io
.flag
== COMM_ERR_CLOSING
) {
1018 debugs(11, 3, "http socket closing");
1022 if (EBIT_TEST(entry
->flags
, ENTRY_ABORTED
)) {
1023 maybeReadVirginBody();
1027 // handle I/O errors
1028 if (io
.flag
!= COMM_OK
|| len
< 0) {
1029 debugs(11, 2, "httpReadReply: FD " << fd
<< ": read failure: " << xstrerror() << ".");
1031 if (ignoreErrno(io
.xerrno
)) {
1032 flags
.do_next_read
= 1;
1035 err
= errorCon(ERR_READ_ERROR
, HTTP_BAD_GATEWAY
, fwd
->request
);
1036 err
->xerrno
= io
.xerrno
;
1038 flags
.do_next_read
= 0;
1047 readBuf
->appended(len
);
1048 reply_bytes_read
+= len
;
1051 DelayId delayId
= entry
->mem_obj
->mostBytesAllowed();
1052 delayId
.bytesIn(len
);
1055 kb_incr(&statCounter
.server
.all
.kbytes_in
, len
);
1056 kb_incr(&statCounter
.server
.http
.kbytes_in
, len
);
1057 IOStats
.Http
.reads
++;
1059 for (clen
= len
- 1, bin
= 0; clen
; bin
++)
1062 IOStats
.Http
.read_hist
[bin
]++;
1066 * Here the RFC says we should ignore whitespace between replies, but we can't as
1067 * doing so breaks HTTP/0.9 replies beginning with witespace, and in addition
1068 * the response splitting countermeasures is extremely likely to trigger on this,
1069 * not allowing connection reuse in the first place.
1072 if (!flags
.headers_parsed
&& len
> 0 && fd_table
[fd
].uses
> 1) {
1073 /* Skip whitespace between replies */
1075 while (len
> 0 && xisspace(*buf
))
1076 xmemmove(buf
, buf
+ 1, len
--);
1079 /* Continue to read... */
1080 /* Timeout NOT increased. This whitespace was from previous reply */
1081 flags
.do_next_read
= 1;
1082 maybeReadVirginBody();
1089 if (len
== 0) { // reached EOF?
1091 flags
.do_next_read
= 0;
1094 if (!flags
.headers_parsed
) { // have not parsed headers yet?
1095 PROF_start(HttpStateData_processReplyHeader
);
1096 processReplyHeader();
1097 PROF_stop(HttpStateData_processReplyHeader
);
1099 if (!continueAfterParsingHeader()) // parsing error or need more data
1100 return; // TODO: send errors to ICAP
1102 adaptOrFinalizeReply();
1105 // kick more reads if needed and/or process the response body, if any
1106 PROF_start(HttpStateData_processReplyBody
);
1107 processReplyBody(); // may call serverComplete()
1108 PROF_stop(HttpStateData_processReplyBody
);
1112 \retval true if we can continue with processing the body or doing ICAP.
1115 HttpStateData::continueAfterParsingHeader()
1117 if (!flags
.headers_parsed
&& !eof
) {
1118 debugs(11, 9, HERE
<< "needs more at " << readBuf
->contentSize());
1119 flags
.do_next_read
= 1;
1120 /** \retval false If we have not finished parsing the headers and may get more data.
1121 * Schedules more reads to retrieve the missing data.
1123 maybeReadVirginBody(); // schedules all kinds of reads; TODO: rename
1127 /** If we are done with parsing, check for errors */
1129 err_type error
= ERR_NONE
;
1131 if (flags
.headers_parsed
) { // parsed headers, possibly with errors
1132 // check for header parsing errors
1133 if (HttpReply
*vrep
= virginReply()) {
1134 const http_status s
= vrep
->sline
.status
;
1135 const HttpVersion
&v
= vrep
->sline
.version
;
1136 if (s
== HTTP_INVALID_HEADER
&& v
!= HttpVersion(0,9)) {
1137 error
= ERR_INVALID_RESP
;
1139 if (s
== HTTP_HEADER_TOO_LARGE
) {
1140 fwd
->dontRetry(true);
1141 error
= ERR_TOO_BIG
;
1143 return true; // done parsing, got reply, and no error
1146 // parsed headers but got no reply
1147 error
= ERR_INVALID_RESP
;
1151 error
= readBuf
->hasContent() ?
1152 ERR_INVALID_RESP
: ERR_ZERO_SIZE_OBJECT
;
1155 assert(error
!= ERR_NONE
);
1157 fwd
->fail(errorCon(error
, HTTP_BAD_GATEWAY
, fwd
->request
));
1158 flags
.do_next_read
= 0;
1160 return false; // quit on error
1164 * Call this when there is data from the origin server
1165 * which should be sent to either StoreEntry, or to ICAP...
1168 HttpStateData::writeReplyBody()
1170 const char *data
= readBuf
->content();
1171 int len
= readBuf
->contentSize();
1172 addVirginReplyBody(data
, len
);
1173 readBuf
->consume(len
);
1177 HttpStateData::decodeAndWriteReplyBody()
1179 const char *data
= NULL
;
1181 bool status
= false;
1182 assert(flags
.chunked
);
1183 assert(httpChunkDecoder
);
1184 SQUID_ENTER_THROWING_CODE();
1187 const bool done
= httpChunkDecoder
->parse(readBuf
,&decodedData
);
1188 len
= decodedData
.contentSize();
1189 data
=decodedData
.content();
1190 addVirginReplyBody(data
, len
);
1193 flags
.do_next_read
= 0;
1195 SQUID_EXIT_THROWING_CODE(status
);
1200 * processReplyBody has two purposes:
1201 * 1 - take the reply body data, if any, and put it into either
1202 * the StoreEntry, or give it over to ICAP.
1203 * 2 - see if we made it to the end of the response (persistent
1204 * connections and such)
1207 HttpStateData::processReplyBody()
1209 AsyncCall::Pointer call
;
1210 IpAddress client_addr
;
1211 bool ispinned
= false;
1213 if (!flags
.headers_parsed
) {
1214 flags
.do_next_read
= 1;
1215 maybeReadVirginBody();
1220 if (adaptationAccessCheckPending
)
1226 * At this point the reply headers have been parsed and consumed.
1227 * That means header content has been removed from readBuf and
1228 * it contains only body data.
1230 if (flags
.chunked
) {
1231 if (!decodeAndWriteReplyBody()) {
1232 flags
.do_next_read
= 0;
1239 if (EBIT_TEST(entry
->flags
, ENTRY_ABORTED
)) {
1241 * The above writeReplyBody() call could ABORT this entry,
1242 * in that case, the server FD should already be closed.
1243 * there's nothing for us to do.
1247 switch (persistentConnStatus()) {
1248 case INCOMPLETE_MSG
:
1249 debugs(11, 5, "processReplyBody: INCOMPLETE_MSG");
1250 /* Wait for more data or EOF condition */
1251 if (flags
.keepalive_broken
) {
1253 commSetTimeout(fd
, 10, call
);
1256 commSetTimeout(fd
, Config
.Timeout
.read
, call
);
1259 flags
.do_next_read
= 1;
1262 case COMPLETE_PERSISTENT_MSG
:
1263 debugs(11, 5, "processReplyBody: COMPLETE_PERSISTENT_MSG");
1264 /* yes we have to clear all these! */
1266 commSetTimeout(fd
, -1, call
);
1267 flags
.do_next_read
= 0;
1269 comm_remove_close_handler(fd
, closeHandler
);
1270 closeHandler
= NULL
;
1271 fwd
->unregister(fd
);
1273 if (orig_request
->flags
.spoof_client_ip
)
1274 client_addr
= orig_request
->client_addr
;
1277 if (request
->flags
.pinned
) {
1279 } else if (request
->flags
.connection_auth
&& request
->flags
.auth_sent
) {
1283 if (orig_request
->pinnedConnection() && ispinned
) {
1284 orig_request
->pinnedConnection()->pinConnection(fd
, orig_request
, _peer
,
1285 (request
->flags
.connection_auth
!= 0));
1287 fwd
->pconnPush(fd
, _peer
, request
, orig_request
->GetHost(), client_addr
);
1295 case COMPLETE_NONPERSISTENT_MSG
:
1296 debugs(11, 5, "processReplyBody: COMPLETE_NONPERSISTENT_MSG");
1301 maybeReadVirginBody();
1305 HttpStateData::maybeReadVirginBody()
1307 int read_sz
= replyBodySpace(readBuf
->spaceSize());
1309 debugs(11,9, HERE
<< (flags
.do_next_read
? "may" : "wont") <<
1310 " read up to " << read_sz
<< " bytes from FD " << fd
);
1313 * why <2? Because delayAwareRead() won't actually read if
1314 * you ask it to read 1 byte. The delayed read request
1315 * just gets re-queued until the client side drains, then
1316 * the I/O thread hangs. Better to not register any read
1317 * handler until we get a notification from someone that
1318 * its okay to read again.
1321 if (flags
.headers_parsed
)
1327 if (flags
.do_next_read
) {
1328 flags
.do_next_read
= 0;
1329 typedef CommCbMemFunT
<HttpStateData
, CommIoCbParams
> Dialer
;
1330 entry
->delayAwareRead(fd
, readBuf
->space(read_sz
), read_sz
,
1331 asyncCall(11, 5, "HttpStateData::readReply",
1332 Dialer(this, &HttpStateData::readReply
)));
1337 * This will be called when request write is complete.
1340 HttpStateData::sendComplete(const CommIoCbParams
&io
)
1342 debugs(11, 5, "httpSendComplete: FD " << fd
<< ": size " << io
.size
<< ": errflag " << io
.flag
<< ".");
1343 #if URL_CHECKSUM_DEBUG
1345 entry
->mem_obj
->checkUrlChecksum();
1349 fd_bytes(fd
, io
.size
, FD_WRITE
);
1350 kb_incr(&statCounter
.server
.all
.kbytes_out
, io
.size
);
1351 kb_incr(&statCounter
.server
.http
.kbytes_out
, io
.size
);
1354 if (io
.flag
== COMM_ERR_CLOSING
)
1359 err
= errorCon(ERR_WRITE_ERROR
, HTTP_BAD_GATEWAY
, fwd
->request
);
1360 err
->xerrno
= io
.xerrno
;
1367 * Set the read timeout here because it hasn't been set yet.
1368 * We only set the read timeout after the request has been
1369 * fully written to the server-side. If we start the timeout
1370 * after connection establishment, then we are likely to hit
1371 * the timeout for POST/PUT requests that have very large
1374 typedef CommCbMemFunT
<HttpStateData
, CommTimeoutCbParams
> TimeoutDialer
;
1375 AsyncCall::Pointer timeoutCall
= asyncCall(11, 5, "HttpStateData::httpTimeout",
1376 TimeoutDialer(this,&HttpStateData::httpTimeout
));
1378 commSetTimeout(fd
, Config
.Timeout
.read
, timeoutCall
);
1380 flags
.request_sent
= 1;
1383 // Close the HTTP server connection. Used by serverComplete().
1385 HttpStateData::closeServer()
1387 debugs(11,5, HERE
<< "closing HTTP server FD " << fd
<< " this " << this);
1390 fwd
->unregister(fd
);
1391 comm_remove_close_handler(fd
, closeHandler
);
1392 closeHandler
= NULL
;
1399 HttpStateData::doneWithServer() const
1405 * build request headers and append them to a given MemBuf
1406 * used by buildRequestPrefix()
1407 * note: initialised the HttpHeader, the caller is responsible for Clean()-ing
1410 HttpStateData::httpBuildRequestHeader(HttpRequest
* request
,
1411 HttpRequest
* orig_request
,
1413 HttpHeader
* hdr_out
,
1414 http_state_flags flags
)
1416 /* building buffer for complex strings */
1417 #define BBUF_SZ (MAX_URL+32)
1418 LOCAL_ARRAY(char, bbuf
, BBUF_SZ
);
1419 LOCAL_ARRAY(char, ntoabuf
, MAX_IPSTRLEN
);
1420 const HttpHeader
*hdr_in
= &orig_request
->header
;
1421 const HttpHeaderEntry
*e
= NULL
;
1423 HttpHeaderPos pos
= HttpHeaderInitPos
;
1424 assert (hdr_out
->owner
== hoRequest
);
1426 /* append our IMS header */
1427 if (request
->lastmod
> -1)
1428 hdr_out
->putTime(HDR_IF_MODIFIED_SINCE
, request
->lastmod
);
1430 bool we_do_ranges
= decideIfWeDoRanges (orig_request
);
1432 String
strConnection (hdr_in
->getList(HDR_CONNECTION
));
1434 while ((e
= hdr_in
->getEntry(&pos
)))
1435 copyOneHeaderFromClientsideRequestToUpstreamRequest(e
, strConnection
, request
, orig_request
, hdr_out
, we_do_ranges
, flags
);
1437 /* Abstraction break: We should interpret multipart/byterange responses
1438 * into offset-length data, and this works around our inability to do so.
1440 if (!we_do_ranges
&& orig_request
->multipartRangeRequest()) {
1441 /* don't cache the result */
1442 orig_request
->flags
.cachable
= 0;
1443 /* pretend it's not a range request */
1444 delete orig_request
->range
;
1445 orig_request
->range
= NULL
;
1446 orig_request
->flags
.range
= 0;
1450 if (Config
.onoff
.via
) {
1452 strVia
= hdr_in
->getList(HDR_VIA
);
1453 snprintf(bbuf
, BBUF_SZ
, "%d.%d %s",
1454 orig_request
->http_ver
.major
,
1455 orig_request
->http_ver
.minor
, ThisCache
);
1456 strListAdd(&strVia
, bbuf
, ',');
1457 hdr_out
->putStr(HDR_VIA
, strVia
.termedBuf());
1463 /* Append Surrogate-Capabilities */
1464 String
strSurrogate (hdr_in
->getList(HDR_SURROGATE_CAPABILITY
));
1465 snprintf(bbuf
, BBUF_SZ
, "%s=\"Surrogate/1.0 ESI/1.0\"",
1466 Config
.Accel
.surrogate_id
);
1467 strListAdd(&strSurrogate
, bbuf
, ',');
1468 hdr_out
->putStr(HDR_SURROGATE_CAPABILITY
, strSurrogate
.termedBuf());
1472 strFwd
= hdr_in
->getList(HDR_X_FORWARDED_FOR
);
1474 /** \pre Handle X-Forwarded-For */
1475 if (strcmp(opt_forwarded_for
, "delete") != 0) {
1476 if (strcmp(opt_forwarded_for
, "on") == 0) {
1477 /** If set to ON - append client IP or 'unknown'. */
1478 strFwd
= hdr_in
->getList(HDR_X_FORWARDED_FOR
);
1479 if ( orig_request
->client_addr
.IsNoAddr() )
1480 strListAdd(&strFwd
, "unknown", ',');
1482 strListAdd(&strFwd
, orig_request
->client_addr
.NtoA(ntoabuf
, MAX_IPSTRLEN
), ',');
1483 } else if (strcmp(opt_forwarded_for
, "off") == 0) {
1484 /** If set to OFF - append 'unknown'. */
1485 strFwd
= hdr_in
->getList(HDR_X_FORWARDED_FOR
);
1486 strListAdd(&strFwd
, "unknown", ',');
1487 } else if (strcmp(opt_forwarded_for
, "transparent") == 0) {
1488 /** If set to TRANSPARENT - pass through unchanged. */
1489 strFwd
= hdr_in
->getList(HDR_X_FORWARDED_FOR
);
1490 } else if (strcmp(opt_forwarded_for
, "truncate") == 0) {
1491 /** If set to TRUNCATE - drop existing list and replace with client IP or 'unknown'. */
1492 if ( orig_request
->client_addr
.IsNoAddr() )
1495 strFwd
= orig_request
->client_addr
.NtoA(ntoabuf
, MAX_IPSTRLEN
);
1497 if (strFwd
.size() > 0)
1498 hdr_out
->putStr(HDR_X_FORWARDED_FOR
, strFwd
.termedBuf());
1500 /** If set to DELETE - do not copy through. */
1503 /* append Host if not there already */
1504 if (!hdr_out
->has(HDR_HOST
)) {
1505 if (orig_request
->peer_domain
) {
1506 hdr_out
->putStr(HDR_HOST
, orig_request
->peer_domain
);
1507 } else if (orig_request
->port
== urlDefaultPort(orig_request
->protocol
)) {
1508 /* use port# only if not default */
1509 hdr_out
->putStr(HDR_HOST
, orig_request
->GetHost());
1511 httpHeaderPutStrf(hdr_out
, HDR_HOST
, "%s:%d",
1512 orig_request
->GetHost(),
1513 (int) orig_request
->port
);
1517 /* append Authorization if known in URL, not in header and going direct */
1518 if (!hdr_out
->has(HDR_AUTHORIZATION
)) {
1519 if (!request
->flags
.proxying
&& *request
->login
) {
1520 httpHeaderPutStrf(hdr_out
, HDR_AUTHORIZATION
, "Basic %s",
1521 base64_encode(request
->login
));
1525 /* append Proxy-Authorization if configured for peer, and proxying */
1526 if (request
->flags
.proxying
&& orig_request
->peer_login
&&
1527 !hdr_out
->has(HDR_PROXY_AUTHORIZATION
)) {
1528 if (*orig_request
->peer_login
== '*') {
1529 /* Special mode, to pass the username to the upstream cache */
1531 const char *username
= "-";
1533 if (orig_request
->extacl_user
.size())
1534 username
= orig_request
->extacl_user
.termedBuf();
1535 else if (orig_request
->auth_user_request
)
1536 username
= orig_request
->auth_user_request
->username();
1538 snprintf(loginbuf
, sizeof(loginbuf
), "%s%s", username
, orig_request
->peer_login
+ 1);
1540 httpHeaderPutStrf(hdr_out
, HDR_PROXY_AUTHORIZATION
, "Basic %s",
1541 base64_encode(loginbuf
));
1542 } else if (strcmp(orig_request
->peer_login
, "PASS") == 0) {
1543 if (orig_request
->extacl_user
.size() && orig_request
->extacl_passwd
.size()) {
1545 snprintf(loginbuf
, sizeof(loginbuf
), "%.*s:%.*s",
1546 orig_request
->extacl_user
.size(),
1547 orig_request
->extacl_user
.rawBuf(),
1548 orig_request
->extacl_passwd
.size(),
1549 orig_request
->extacl_passwd
.rawBuf());
1550 httpHeaderPutStrf(hdr_out
, HDR_PROXY_AUTHORIZATION
, "Basic %s",
1551 base64_encode(loginbuf
));
1553 } else if (strcmp(orig_request
->peer_login
, "PROXYPASS") == 0) {
1556 httpHeaderPutStrf(hdr_out
, HDR_PROXY_AUTHORIZATION
, "Basic %s",
1557 base64_encode(orig_request
->peer_login
));
1561 /* append WWW-Authorization if configured for peer */
1562 if (flags
.originpeer
&& orig_request
->peer_login
&&
1563 !hdr_out
->has(HDR_AUTHORIZATION
)) {
1564 if (strcmp(orig_request
->peer_login
, "PASS") == 0) {
1565 /* No credentials to forward.. (should have been done above if available) */
1566 } else if (strcmp(orig_request
->peer_login
, "PROXYPASS") == 0) {
1567 /* Special mode, convert proxy authentication to WWW authentication
1568 * (also applies to authentication provided by external acl)
1570 const char *auth
= hdr_in
->getStr(HDR_PROXY_AUTHORIZATION
);
1572 if (auth
&& strncasecmp(auth
, "basic ", 6) == 0) {
1573 hdr_out
->putStr(HDR_AUTHORIZATION
, auth
);
1574 } else if (orig_request
->extacl_user
.size() && orig_request
->extacl_passwd
.size()) {
1576 snprintf(loginbuf
, sizeof(loginbuf
), "%.*s:%.*s",
1577 orig_request
->extacl_user
.size(),
1578 orig_request
->extacl_user
.rawBuf(),
1579 orig_request
->extacl_passwd
.size(),
1580 orig_request
->extacl_passwd
.rawBuf());
1581 httpHeaderPutStrf(hdr_out
, HDR_AUTHORIZATION
, "Basic %s",
1582 base64_encode(loginbuf
));
1584 } else if (*orig_request
->peer_login
== '*') {
1585 /* Special mode, to pass the username to the upstream cache */
1587 const char *username
= "-";
1589 if (orig_request
->auth_user_request
)
1590 username
= orig_request
->auth_user_request
->username();
1591 else if (orig_request
->extacl_user
.size())
1592 username
= orig_request
->extacl_user
.termedBuf();
1594 snprintf(loginbuf
, sizeof(loginbuf
), "%s%s", username
, orig_request
->peer_login
+ 1);
1596 httpHeaderPutStrf(hdr_out
, HDR_AUTHORIZATION
, "Basic %s",
1597 base64_encode(loginbuf
));
1599 /* Fixed login string */
1600 httpHeaderPutStrf(hdr_out
, HDR_AUTHORIZATION
, "Basic %s",
1601 base64_encode(orig_request
->peer_login
));
1605 /* append Cache-Control, add max-age if not there already */ {
1606 HttpHdrCc
*cc
= hdr_in
->getCc();
1609 cc
= httpHdrCcCreate();
1611 #if 0 /* see bug 2330 */
1612 /* Set no-cache if determined needed but not found */
1613 if (orig_request
->flags
.nocache
)
1614 EBIT_SET(cc
->mask
, CC_NO_CACHE
);
1617 /* Add max-age only without no-cache */
1618 if (!EBIT_TEST(cc
->mask
, CC_MAX_AGE
) && !EBIT_TEST(cc
->mask
, CC_NO_CACHE
)) {
1620 entry
? entry
->url() : urlCanonical(orig_request
);
1621 httpHdrCcSetMaxAge(cc
, getMaxAge(url
));
1623 if (request
->urlpath
.size())
1624 assert(strstr(url
, request
->urlpath
.termedBuf()));
1627 /* Enforce sibling relations */
1628 if (flags
.only_if_cached
)
1629 EBIT_SET(cc
->mask
, CC_ONLY_IF_CACHED
);
1633 httpHdrCcDestroy(cc
);
1636 /* maybe append Connection: keep-alive */
1637 if (flags
.keepalive
) {
1638 if (flags
.proxying
) {
1639 hdr_out
->putStr(HDR_PROXY_CONNECTION
, "keep-alive");
1641 hdr_out
->putStr(HDR_CONNECTION
, "keep-alive");
1645 /* append Front-End-Https */
1646 if (flags
.front_end_https
) {
1647 if (flags
.front_end_https
== 1 || request
->protocol
== PROTO_HTTPS
)
1648 hdr_out
->putStr(HDR_FRONT_END_HTTPS
, "On");
1651 /* Now mangle the headers. */
1652 if (Config2
.onoff
.mangle_request_headers
)
1653 httpHdrMangleList(hdr_out
, request
, ROR_REQUEST
);
1655 strConnection
.clean();
1659 copyOneHeaderFromClientsideRequestToUpstreamRequest(const HttpHeaderEntry
*e
, String strConnection
, HttpRequest
* request
, HttpRequest
* orig_request
, HttpHeader
* hdr_out
, int we_do_ranges
, http_state_flags flags
)
1661 debugs(11, 5, "httpBuildRequestHeader: " << e
->name
<< ": " << e
->value
);
1663 if (!httpRequestHdrAllowed(e
, &strConnection
)) {
1664 debugs(11, 2, "'" << e
->name
<< "' header denied by anonymize_headers configuration");
1670 case HDR_PROXY_AUTHORIZATION
:
1671 /* Only pass on proxy authentication to peers for which
1672 * authentication forwarding is explicitly enabled
1675 if (flags
.proxying
&& orig_request
->peer_login
&&
1676 (strcmp(orig_request
->peer_login
, "PASS") == 0 ||
1677 strcmp(orig_request
->peer_login
, "PROXYPASS") == 0)) {
1678 hdr_out
->addEntry(e
->clone());
1683 case HDR_AUTHORIZATION
:
1684 /* Pass on WWW authentication */
1686 if (!flags
.originpeer
) {
1687 hdr_out
->addEntry(e
->clone());
1689 /* In accelerators, only forward authentication if enabled
1690 * (see also below for proxy->server authentication)
1693 if (orig_request
->peer_login
&&
1694 (strcmp(orig_request
->peer_login
, "PASS") == 0 ||
1695 strcmp(orig_request
->peer_login
, "PROXYPASS") == 0)) {
1696 hdr_out
->addEntry(e
->clone());
1704 * Normally Squid rewrites the Host: header.
1705 * However, there is one case when we don't: If the URL
1706 * went through our redirector and the admin configured
1707 * 'redir_rewrites_host' to be off.
1709 if (orig_request
->peer_domain
)
1710 hdr_out
->putStr(HDR_HOST
, orig_request
->peer_domain
);
1711 else if (request
->flags
.redirected
&& !Config
.onoff
.redir_rewrites_host
)
1712 hdr_out
->addEntry(e
->clone());
1714 /* use port# only if not default */
1716 if (orig_request
->port
== urlDefaultPort(orig_request
->protocol
)) {
1717 hdr_out
->putStr(HDR_HOST
, orig_request
->GetHost());
1719 httpHeaderPutStrf(hdr_out
, HDR_HOST
, "%s:%d",
1720 orig_request
->GetHost(),
1721 (int) orig_request
->port
);
1727 case HDR_IF_MODIFIED_SINCE
:
1728 /* append unless we added our own;
1729 * note: at most one client's ims header can pass through */
1731 if (!hdr_out
->has(HDR_IF_MODIFIED_SINCE
))
1732 hdr_out
->addEntry(e
->clone());
1736 case HDR_MAX_FORWARDS
:
1737 if (orig_request
->method
== METHOD_TRACE
) {
1738 const int hops
= e
->getInt();
1741 hdr_out
->putInt(HDR_MAX_FORWARDS
, hops
- 1);
1747 /* If Via is disabled then forward any received header as-is */
1749 if (!Config
.onoff
.via
)
1750 hdr_out
->addEntry(e
->clone());
1758 case HDR_REQUEST_RANGE
:
1760 hdr_out
->addEntry(e
->clone());
1764 case HDR_PROXY_CONNECTION
:
1766 case HDR_CONNECTION
:
1768 case HDR_X_FORWARDED_FOR
:
1770 case HDR_CACHE_CONTROL
:
1771 /* append these after the loop if needed */
1774 case HDR_FRONT_END_HTTPS
:
1775 if (!flags
.front_end_https
)
1776 hdr_out
->addEntry(e
->clone());
1781 /* pass on all other header fields */
1782 hdr_out
->addEntry(e
->clone());
1787 HttpStateData::decideIfWeDoRanges (HttpRequest
* orig_request
)
1790 /* decide if we want to do Ranges ourselves
1791 * and fetch the whole object now)
1792 * We want to handle Ranges ourselves iff
1793 * - we can actually parse client Range specs
1794 * - the specs are expected to be simple enough (e.g. no out-of-order ranges)
1795 * - reply will be cachable
1796 * (If the reply will be uncachable we have to throw it away after
1797 * serving this request, so it is better to forward ranges to
1798 * the server and fetch only the requested content)
1801 if (NULL
== orig_request
->range
|| !orig_request
->flags
.cachable
1802 || orig_request
->range
->offsetLimitExceeded() || orig_request
->flags
.connection_auth
)
1805 debugs(11, 8, "decideIfWeDoRanges: range specs: " <<
1806 orig_request
->range
<< ", cachable: " <<
1807 orig_request
->flags
.cachable
<< "; we_do_ranges: " << result
);
1812 /* build request prefix and append it to a given MemBuf;
1813 * return the length of the prefix */
1815 HttpStateData::buildRequestPrefix(HttpRequest
* request
,
1816 HttpRequest
* orig_request
,
1819 http_state_flags flags
)
1821 const int offset
= mb
->size
;
1822 HttpVersion
httpver(1, 0);
1823 mb
->Printf("%s %s HTTP/%d.%d\r\n",
1824 RequestMethodStr(request
->method
),
1825 request
->urlpath
.size() ? request
->urlpath
.termedBuf() : "/",
1826 httpver
.major
,httpver
.minor
);
1827 /* build and pack headers */
1829 HttpHeader
hdr(hoRequest
);
1831 httpBuildRequestHeader(request
, orig_request
, entry
, &hdr
, flags
);
1833 if (request
->flags
.pinned
&& request
->flags
.connection_auth
)
1834 request
->flags
.auth_sent
= 1;
1835 else if (hdr
.has(HDR_AUTHORIZATION
))
1836 request
->flags
.auth_sent
= 1;
1838 packerToMemInit(&p
, mb
);
1843 /* append header terminator */
1844 mb
->append(crlf
, 2);
1845 return mb
->size
- offset
;
1848 /* This will be called when connect completes. Write request. */
1850 HttpStateData::sendRequest()
1854 debugs(11, 5, "httpSendRequest: FD " << fd
<< ", request " << request
<< ", this " << this << ".");
1855 typedef CommCbMemFunT
<HttpStateData
, CommTimeoutCbParams
> TimeoutDialer
;
1856 AsyncCall::Pointer timeoutCall
= asyncCall(11, 5, "HttpStateData::httpTimeout",
1857 TimeoutDialer(this,&HttpStateData::httpTimeout
));
1858 commSetTimeout(fd
, Config
.Timeout
.lifetime
, timeoutCall
);
1859 flags
.do_next_read
= 1;
1860 maybeReadVirginBody();
1862 if (orig_request
->body_pipe
!= NULL
) {
1863 if (!startRequestBodyFlow()) // register to receive body data
1865 typedef CommCbMemFunT
<HttpStateData
, CommIoCbParams
> Dialer
;
1866 Dialer
dialer(this, &HttpStateData::sentRequestBody
);
1867 requestSender
= asyncCall(11,5, "HttpStateData::sentRequestBody", dialer
);
1869 assert(!requestBodySource
);
1870 typedef CommCbMemFunT
<HttpStateData
, CommIoCbParams
> Dialer
;
1871 Dialer
dialer(this, &HttpStateData::sendComplete
);
1872 requestSender
= asyncCall(11,5, "HttpStateData::SendComplete", dialer
);
1875 if (_peer
!= NULL
) {
1876 if (_peer
->options
.originserver
) {
1878 flags
.originpeer
= 1;
1881 flags
.originpeer
= 0;
1885 flags
.originpeer
= 0;
1889 * Is keep-alive okay for all request methods?
1891 if (orig_request
->flags
.must_keepalive
)
1892 flags
.keepalive
= 1;
1893 else if (!Config
.onoff
.server_pconns
)
1894 flags
.keepalive
= 0;
1895 else if (_peer
== NULL
)
1896 flags
.keepalive
= 1;
1897 else if (_peer
->stats
.n_keepalives_sent
< 10)
1898 flags
.keepalive
= 1;
1899 else if ((double) _peer
->stats
.n_keepalives_recv
/
1900 (double) _peer
->stats
.n_keepalives_sent
> 0.50)
1901 flags
.keepalive
= 1;
1904 if (neighborType(_peer
, request
) == PEER_SIBLING
&&
1905 !_peer
->options
.allow_miss
)
1906 flags
.only_if_cached
= 1;
1908 flags
.front_end_https
= _peer
->front_end_https
;
1912 buildRequestPrefix(request
, orig_request
, entry
, &mb
, flags
);
1913 debugs(11, 6, "httpSendRequest: FD " << fd
<< ":\n" << mb
.buf
);
1914 comm_write_mbuf(fd
, &mb
, requestSender
);
1920 httpStart(FwdState
*fwd
)
1922 debugs(11, 3, "httpStart: \"" << RequestMethodStr(fwd
->request
->method
) << " " << fwd
->entry
->url() << "\"" );
1923 HttpStateData
*httpState
= new HttpStateData(fwd
);
1925 if (!httpState
->sendRequest()) {
1926 debugs(11, 3, "httpStart: aborted");
1931 statCounter
.server
.all
.requests
++;
1932 statCounter
.server
.http
.requests
++;
1935 * We used to set the read timeout here, but not any more.
1936 * Now its set in httpSendComplete() after the full request,
1937 * including request body, has been written to the server.
1942 HttpStateData::doneSendingRequestBody()
1945 debugs(11,5, HERE
<< "doneSendingRequestBody: FD " << fd
);
1946 ch
.request
= HTTPMSGLOCK(request
);
1948 if (Config
.accessList
.brokenPosts
)
1949 ch
.accessList
= cbdataReference(Config
.accessList
.brokenPosts
);
1951 /* cbdataReferenceDone() happens in either fastCheck() or ~ACLCheckList */
1953 if (!Config
.accessList
.brokenPosts
) {
1954 debugs(11, 5, "doneSendingRequestBody: No brokenPosts list");
1955 CommIoCbParams
io(NULL
);
1959 } else if (!ch
.fastCheck()) {
1960 debugs(11, 5, "doneSendingRequestBody: didn't match brokenPosts");
1961 CommIoCbParams
io(NULL
);
1966 debugs(11, 2, "doneSendingRequestBody: matched brokenPosts");
1967 typedef CommCbMemFunT
<HttpStateData
, CommIoCbParams
> Dialer
;
1968 Dialer
dialer(this, &HttpStateData::sendComplete
);
1969 AsyncCall::Pointer call
= asyncCall(11,5, "HttpStateData::SendComplete", dialer
);
1970 comm_write(fd
, "\r\n", 2, call
);
1974 // more origin request body data is available
1976 HttpStateData::handleMoreRequestBodyAvailable()
1978 if (eof
|| fd
< 0) {
1979 // XXX: we should check this condition in other callbacks then!
1980 // TODO: Check whether this can actually happen: We should unsubscribe
1981 // as a body consumer when the above condition(s) are detected.
1982 debugs(11, 1, HERE
<< "Transaction aborted while reading HTTP body");
1986 assert(requestBodySource
!= NULL
);
1988 if (requestBodySource
->buf().hasContent()) {
1989 // XXX: why does not this trigger a debug message on every request?
1991 if (flags
.headers_parsed
&& !flags
.abuse_detected
) {
1992 flags
.abuse_detected
= 1;
1993 debugs(11, 1, "http handleMoreRequestBodyAvailable: Likely proxy abuse detected '" << orig_request
->client_addr
<< "' -> '" << entry
->url() << "'" );
1995 if (virginReply()->sline
.status
== HTTP_INVALID_HEADER
) {
2002 HttpStateData::handleMoreRequestBodyAvailable();
2005 // premature end of the request body
2007 HttpStateData::handleRequestBodyProducerAborted()
2009 ServerStateData::handleRequestBodyProducerAborted();
2010 // XXX: SendComplete(COMM_ERR_CLOSING) does little. Is it enough?
2011 CommIoCbParams
io(NULL
);
2013 io
.flag
=COMM_ERR_CLOSING
;
2017 // called when we wrote request headers(!) or a part of the body
2019 HttpStateData::sentRequestBody(const CommIoCbParams
&io
)
2022 kb_incr(&statCounter
.server
.http
.kbytes_out
, io
.size
);
2024 ServerStateData::sentRequestBody(io
);
2027 // Quickly abort the transaction
2028 // TODO: destruction should be sufficient as the destructor should cleanup,
2029 // including canceling close handlers
2031 HttpStateData::abortTransaction(const char *reason
)
2033 debugs(11,5, HERE
<< "aborting transaction for " << reason
<<
2034 "; FD " << fd
<< ", this " << this);
2041 fwd
->handleUnregisteredServerEnd();
2042 deleteThis("HttpStateData::abortTransaction");
2047 httpBuildVersion(HttpVersion
* version
, unsigned int major
, unsigned int minor
)
2049 version
->major
= major
;
2050 version
->minor
= minor
;
2055 HttpStateData::originalRequest()
2057 return orig_request
;