/* * Copyright (C) 1996-2023 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 73 HTTP Request */ #include "squid.h" #include "AccessLogEntry.h" #include "acl/AclSizeLimit.h" #include "acl/FilledChecklist.h" #include "CachePeer.h" #include "client_side.h" #include "client_side_request.h" #include "dns/LookupDetails.h" #include "Downloader.h" #include "error/Detail.h" #include "globals.h" #include "gopher.h" #include "http.h" #include "http/ContentLengthInterpreter.h" #include "http/one/RequestParser.h" #include "http/Stream.h" #include "HttpHdrCc.h" #include "HttpHeaderRange.h" #include "HttpRequest.h" #include "log/Config.h" #include "MemBuf.h" #include "sbuf/StringConvert.h" #include "SquidConfig.h" #include "Store.h" #if USE_AUTH #include "auth/UserRequest.h" #endif #if ICAP_CLIENT #include "adaptation/icap/icap_log.h" #endif HttpRequest::HttpRequest(const MasterXaction::Pointer &mx) : Http::Message(hoRequest), masterXaction(mx) { assert(mx); init(); } HttpRequest::HttpRequest(const HttpRequestMethod& aMethod, AnyP::ProtocolType aProtocol, const char *aSchemeImg, const char *aUrlpath, const MasterXaction::Pointer &mx) : Http::Message(hoRequest), masterXaction(mx) { assert(mx); static unsigned int id = 1; debugs(93,7, HERE << "constructed, this=" << this << " id=" << ++id); init(); initHTTP(aMethod, aProtocol, aSchemeImg, aUrlpath); } HttpRequest::~HttpRequest() { clean(); debugs(93,7, HERE << "destructed, this=" << this); } void HttpRequest::initHTTP(const HttpRequestMethod& aMethod, AnyP::ProtocolType aProtocol, const char *aSchemeImg, const char *aUrlpath) { method = aMethod; url.setScheme(aProtocol, aSchemeImg); url.path(aUrlpath); } void HttpRequest::init() { method = Http::METHOD_NONE; url.clear(); #if USE_AUTH auth_user_request = NULL; #endif flags = RequestFlags(); range = NULL; ims = -1; imslen = 0; lastmod = -1; client_addr.setEmpty(); my_addr.setEmpty(); body_pipe = NULL; // hier dnsWait = -1; error.clear(); peer_login = NULL; // not allocated/deallocated by this class peer_domain = NULL; // not allocated/deallocated by this class peer_host = NULL; vary_headers = SBuf(); myportname = null_string; tag = null_string; #if USE_AUTH extacl_user = null_string; extacl_passwd = null_string; #endif extacl_log = null_string; extacl_message = null_string; pstate = Http::Message::psReadyToParseStartLine; #if FOLLOW_X_FORWARDED_FOR indirect_client_addr.setEmpty(); #endif /* FOLLOW_X_FORWARDED_FOR */ #if USE_ADAPTATION adaptHistory_ = NULL; #endif #if ICAP_CLIENT icapHistory_ = NULL; #endif rangeOffsetLimit = -2; //a value of -2 means not checked yet forcedBodyContinuation = false; } void HttpRequest::clean() { // we used to assert that the pipe is NULL, but now the request only // points to a pipe that is owned and initiated by another object. body_pipe = NULL; #if USE_AUTH auth_user_request = NULL; #endif vary_headers.clear(); url.clear(); header.clean(); if (cache_control) { delete cache_control; cache_control = NULL; } if (range) { delete range; range = NULL; } myportname.clean(); theNotes = nullptr; tag.clean(); #if USE_AUTH extacl_user.clean(); extacl_passwd.clean(); #endif extacl_log.clean(); extacl_message.clean(); etag.clean(); #if USE_ADAPTATION adaptHistory_ = NULL; #endif #if ICAP_CLIENT icapHistory_ = NULL; #endif } void HttpRequest::reset() { clean(); init(); } HttpRequest * HttpRequest::clone() const { HttpRequest *copy = new HttpRequest(masterXaction); copy->method = method; // TODO: move common cloning clone to Msg::copyTo() or copy ctor copy->header.append(&header); copy->hdrCacheInit(); copy->hdr_sz = hdr_sz; copy->http_ver = http_ver; copy->pstate = pstate; // TODO: should we assert a specific state here? copy->body_pipe = body_pipe; copy->url = url; // range handled in hdrCacheInit() copy->ims = ims; copy->imslen = imslen; copy->hier = hier; // Is it safe to copy? Should we? copy->error = error; // XXX: what to do with copy->peer_login? copy->lastmod = lastmod; copy->etag = etag; copy->vary_headers = vary_headers; // XXX: what to do with copy->peer_domain? copy->tag = tag; copy->extacl_log = extacl_log; copy->extacl_message = extacl_message; const bool inheritWorked = copy->inheritProperties(this); assert(inheritWorked); return copy; } bool HttpRequest::inheritProperties(const Http::Message *aMsg) { const HttpRequest* aReq = dynamic_cast(aMsg); if (!aReq) return false; client_addr = aReq->client_addr; #if FOLLOW_X_FORWARDED_FOR indirect_client_addr = aReq->indirect_client_addr; #endif my_addr = aReq->my_addr; dnsWait = aReq->dnsWait; #if USE_ADAPTATION adaptHistory_ = aReq->adaptHistory(); #endif #if ICAP_CLIENT icapHistory_ = aReq->icapHistory(); #endif // This may be too conservative for the 204 No Content case // may eventually need cloneNullAdaptationImmune() for that. flags = aReq->flags.cloneAdaptationImmune(); error = aReq->error; #if USE_AUTH auth_user_request = aReq->auth_user_request; extacl_user = aReq->extacl_user; extacl_passwd = aReq->extacl_passwd; #endif myportname = aReq->myportname; forcedBodyContinuation = aReq->forcedBodyContinuation; // main property is which connection the request was received on (if any) clientConnectionManager = aReq->clientConnectionManager; downloader = aReq->downloader; theNotes = aReq->theNotes; sources = aReq->sources; return true; } /** * Checks the first line of an HTTP request is valid * currently just checks the request method is present. * * NP: Other errors are left for detection later in the parse. */ bool HttpRequest::sanityCheckStartLine(const char *buf, const size_t hdr_len, Http::StatusCode *scode) { // content is long enough to possibly hold a reply // 2 being magic size of a 1-byte request method plus space delimiter if (hdr_len < 2) { // this is ony a real error if the headers apparently complete. if (hdr_len > 0) { debugs(58, 3, HERE << "Too large request header (" << hdr_len << " bytes)"); *scode = Http::scInvalidHeader; } return false; } /* See if the request buffer starts with a non-whitespace HTTP request 'method'. */ HttpRequestMethod m; m.HttpRequestMethodXXX(buf); if (m == Http::METHOD_NONE) { debugs(73, 3, "HttpRequest::sanityCheckStartLine: did not find HTTP request method"); *scode = Http::scInvalidHeader; return false; } return true; } bool HttpRequest::parseFirstLine(const char *start, const char *end) { method.HttpRequestMethodXXX(start); if (method == Http::METHOD_NONE) return false; // XXX: performance regression, strcspn() over the method bytes a second time. // cheaper than allocate+copy+deallocate cycle to SBuf convert a piece of start. const char *t = start + strcspn(start, w_space); start = t + strspn(t, w_space); // skip w_space after method const char *ver = findTrailingHTTPVersion(start, end); if (ver) { end = ver - 1; while (xisspace(*end)) // find prev non-space --end; ++end; // back to space if (2 != sscanf(ver + 5, "%d.%d", &http_ver.major, &http_ver.minor)) { debugs(73, DBG_IMPORTANT, "parseRequestLine: Invalid HTTP identifier."); return false; } } else { http_ver.major = 0; http_ver.minor = 9; } if (end < start) // missing URI return false; return url.parse(method, SBuf(start, size_t(end-start))); } /* swaps out request using httpRequestPack */ void HttpRequest::swapOut(StoreEntry * e) { assert(e); e->buffer(); pack(e); e->flush(); } /* packs request-line and headers, appends terminator */ void HttpRequest::pack(Packable * p) const { assert(p); /* pack request-line */ p->appendf(SQUIDSBUFPH " " SQUIDSBUFPH " HTTP/%d.%d\r\n", SQUIDSBUFPRINT(method.image()), SQUIDSBUFPRINT(url.path()), http_ver.major, http_ver.minor); /* headers */ header.packInto(p); /* trailer */ p->append("\r\n", 2); } /* * A wrapper for debugObj() */ void httpRequestPack(void *obj, Packable *p) { HttpRequest *request = static_cast(obj); request->pack(p); } /* returns the length of request line + headers + crlf */ int HttpRequest::prefixLen() const { return method.image().length() + 1 + url.path().length() + 1 + 4 + 1 + 3 + 2 + header.len + 2; } /* sync this routine when you update HttpRequest struct */ void HttpRequest::hdrCacheInit() { Http::Message::hdrCacheInit(); assert(!range); range = header.getRange(); } #if ICAP_CLIENT Adaptation::Icap::History::Pointer HttpRequest::icapHistory() const { if (!icapHistory_) { if (Log::TheConfig.hasIcapToken || IcapLogfileStatus == LOG_ENABLE) { icapHistory_ = new Adaptation::Icap::History(); debugs(93,4, HERE << "made " << icapHistory_ << " for " << this); } } return icapHistory_; } #endif #if USE_ADAPTATION Adaptation::History::Pointer HttpRequest::adaptHistory(bool createIfNone) const { if (!adaptHistory_ && createIfNone) { adaptHistory_ = new Adaptation::History(); debugs(93,4, HERE << "made " << adaptHistory_ << " for " << this); } return adaptHistory_; } Adaptation::History::Pointer HttpRequest::adaptLogHistory() const { return HttpRequest::adaptHistory(Log::TheConfig.hasAdaptToken); } void HttpRequest::adaptHistoryImport(const HttpRequest &them) { if (!adaptHistory_) { adaptHistory_ = them.adaptHistory_; // may be nil } else { // check that histories did not diverge Must(!them.adaptHistory_ || them.adaptHistory_ == adaptHistory_); } } #endif bool HttpRequest::multipartRangeRequest() const { return (range && range->specs.size() > 1); } bool HttpRequest::bodyNibbled() const { return body_pipe != NULL && body_pipe->consumedSize() > 0; } void HttpRequest::prepForPeering(const CachePeer &peer) { // XXX: Saving two pointers to memory controlled by an independent object. peer_login = peer.login; peer_domain = peer.domain; flags.auth_no_keytab = peer.options.auth_no_keytab; debugs(11, 4, this << " to " << peer.host << (!peer.options.originserver ? " proxy" : " origin")); } void HttpRequest::prepForDirect() { peer_login = nullptr; peer_domain = nullptr; flags.auth_no_keytab = false; debugs(11, 4, this); } void HttpRequest::clearError() { debugs(11, 7, "old: " << error); error.clear(); } void HttpRequest::packFirstLineInto(Packable * p, bool full_uri) const { const SBuf tmp(full_uri ? effectiveRequestUri() : url.path()); // form HTTP request-line p->appendf(SQUIDSBUFPH " " SQUIDSBUFPH " HTTP/%d.%d\r\n", SQUIDSBUFPRINT(method.image()), SQUIDSBUFPRINT(tmp), http_ver.major, http_ver.minor); } /* * Indicate whether or not we would expect an entity-body * along with this request */ bool HttpRequest::expectingBody(const HttpRequestMethod &, int64_t &theSize) const { bool expectBody = false; /* * Note: Checks for message validity is in clientIsContentLengthValid(). * this just checks if a entity-body is expected based on HTTP message syntax */ if (header.chunked()) { expectBody = true; theSize = -1; } else if (content_length >= 0) { expectBody = true; theSize = content_length; } else { expectBody = false; // theSize undefined } return expectBody; } /* * Create a Request from a URL and METHOD. * * If the METHOD is CONNECT, then a host:port pair is looked for instead of a URL. * If the request cannot be created cleanly, NULL is returned */ HttpRequest * HttpRequest::FromUrl(const SBuf &url, const MasterXaction::Pointer &mx, const HttpRequestMethod& method) { std::unique_ptr req(new HttpRequest(mx)); if (req->url.parse(method, url)) { req->method = method; return req.release(); } return nullptr; } HttpRequest * HttpRequest::FromUrlXXX(const char * url, const MasterXaction::Pointer &mx, const HttpRequestMethod& method) { return FromUrl(SBuf(url), mx, method); } /** * Are responses to this request possible cacheable ? * If false then no matter what the response must not be cached. */ bool HttpRequest::maybeCacheable() { // Intercepted request with Host: header which cannot be trusted. // Because it failed verification, or someone bypassed the security tests // we cannot cache the reponse for sharing between clients. // TODO: update cache to store for particular clients only (going to same Host: and destination IP) if (!flags.hostVerified && (flags.intercepted || flags.interceptTproxy)) return false; switch (url.getScheme()) { case AnyP::PROTO_HTTP: case AnyP::PROTO_HTTPS: if (!method.respMaybeCacheable()) return false; // RFC 7234 section 5.2.1.5: // "cache MUST NOT store any part of either this request or any response to it" // // NP: refresh_pattern ignore-no-store only applies to response messages // this test is handling request message CC header. if (!flags.ignoreCc && cache_control && cache_control->hasNoStore()) return false; break; case AnyP::PROTO_GOPHER: if (!gopherCachable(this)) return false; break; case AnyP::PROTO_CACHE_OBJECT: return false; //case AnyP::PROTO_FTP: default: break; } return true; } bool HttpRequest::conditional() const { return flags.ims || header.has(Http::HdrType::IF_MATCH) || header.has(Http::HdrType::IF_NONE_MATCH); } void HttpRequest::recordLookup(const Dns::LookupDetails &dns) { if (dns.wait >= 0) { // known delay if (dnsWait >= 0) { // have recorded DNS wait before debugs(78, 7, this << " " << dnsWait << " += " << dns); dnsWait += dns.wait; } else { debugs(78, 7, this << " " << dns); dnsWait = dns.wait; } } } int64_t HttpRequest::getRangeOffsetLimit() { /* -2 is the starting value of rangeOffsetLimit. * If it is -2, that means we haven't checked it yet. * Otherwise, return the current value */ if (rangeOffsetLimit != -2) return rangeOffsetLimit; rangeOffsetLimit = 0; // default value for rangeOffsetLimit ACLFilledChecklist ch(NULL, this, NULL); ch.src_addr = client_addr; ch.my_addr = my_addr; for (AclSizeLimit *l = Config.rangeOffsetLimit; l; l = l -> next) { /* if there is no ACL list or if the ACLs listed match use this limit value */ if (!l->aclList || ch.fastCheck(l->aclList).allowed()) { rangeOffsetLimit = l->size; // may be -1 debugs(58, 4, rangeOffsetLimit); break; } } return rangeOffsetLimit; } void HttpRequest::ignoreRange(const char *reason) { if (range) { debugs(73, 3, static_cast(range) << " for " << reason); delete range; range = NULL; } // Some callers also reset isRanged but it may not be safe for all callers: // isRanged is used to determine whether a weak ETag comparison is allowed, // and that check should not ignore the Range header if it was present. // TODO: Some callers also delete HDR_RANGE, HDR_REQUEST_RANGE. Should we? } bool HttpRequest::canHandle1xx() const { // old clients do not support 1xx unless they sent Expect: 100-continue // (we reject all other Http::HdrType::EXPECT values so just check for Http::HdrType::EXPECT) if (http_ver <= Http::ProtocolVersion(1,0) && !header.has(Http::HdrType::EXPECT)) return false; // others must support 1xx control messages return true; } bool HttpRequest::parseHeader(Http1::Parser &hp) { Http::ContentLengthInterpreter clen; return Message::parseHeader(hp, clen); } bool HttpRequest::parseHeader(const char *buffer, const size_t size) { Http::ContentLengthInterpreter clen; return header.parse(buffer, size, clen); } ConnStateData * HttpRequest::pinnedConnection() { if (clientConnectionManager.valid() && clientConnectionManager->pinning.pinned) return clientConnectionManager.get(); return NULL; } const SBuf HttpRequest::storeId() { if (store_id.size() != 0) { debugs(73, 3, "sent back store_id: " << store_id); return StringToSBuf(store_id); } debugs(73, 3, "sent back effectiveRequestUrl: " << effectiveRequestUri()); return effectiveRequestUri(); } const SBuf & HttpRequest::effectiveRequestUri() const { if (method.id() == Http::METHOD_CONNECT || url.getScheme() == AnyP::PROTO_AUTHORITY_FORM) return url.authority(true); // host:port return url.absolute(); } NotePairs::Pointer HttpRequest::notes() { if (!theNotes) theNotes = new NotePairs; return theNotes; } void UpdateRequestNotes(ConnStateData *csd, HttpRequest &request, NotePairs const &helperNotes) { // Tag client connection if the helper responded with clt_conn_tag=tag. const char *cltTag = "clt_conn_tag"; if (const char *connTag = helperNotes.findFirst(cltTag)) { if (csd) { csd->notes()->remove(cltTag); csd->notes()->add(cltTag, connTag); } } request.notes()->replaceOrAdd(&helperNotes); } void HttpRequest::manager(const CbcPointer &aMgr, const AccessLogEntryPointer &al) { clientConnectionManager = aMgr; if (!clientConnectionManager.valid()) return; AnyP::PortCfgPointer port = clientConnectionManager->port; if (port) { myportname = port->name; flags.ignoreCc = port->ignore_cc; } if (auto clientConnection = clientConnectionManager->clientConnection) { client_addr = clientConnection->remote; // XXX: remove request->client_addr member. #if FOLLOW_X_FORWARDED_FOR // indirect client gets stored here because it is an HTTP header result (from X-Forwarded-For:) // not details about the TCP connection itself indirect_client_addr = clientConnection->remote; #endif /* FOLLOW_X_FORWARDED_FOR */ my_addr = clientConnection->local; flags.intercepted = ((clientConnection->flags & COMM_INTERCEPTION) != 0); flags.interceptTproxy = ((clientConnection->flags & COMM_TRANSPARENT) != 0 ) ; const bool proxyProtocolPort = port ? port->flags.proxySurrogate : false; if (flags.interceptTproxy && !proxyProtocolPort) { if (Config.accessList.spoof_client_ip) { ACLFilledChecklist *checklist = new ACLFilledChecklist(Config.accessList.spoof_client_ip, this, clientConnection->rfc931); checklist->al = al; checklist->syncAle(this, nullptr); flags.spoofClientIp = checklist->fastCheck().allowed(); delete checklist; } else flags.spoofClientIp = true; } else flags.spoofClientIp = false; } } char * HttpRequest::canonicalCleanUrl() const { return urlCanonicalCleanWithoutRequest(effectiveRequestUri(), method, url.getScheme()); } /// a helper for validating FindListeningPortAddress()-found address candidates static const Ip::Address * FindListeningPortAddressInAddress(const Ip::Address *ip) { // FindListeningPortAddress() callers do not want INADDR_ANY addresses return (ip && !ip->isAnyAddr()) ? ip : nullptr; } /// a helper for handling PortCfg cases of FindListeningPortAddress() static const Ip::Address * FindListeningPortAddressInPort(const AnyP::PortCfgPointer &port) { return port ? FindListeningPortAddressInAddress(&port->s) : nullptr; } /// a helper for handling Connection cases of FindListeningPortAddress() static const Ip::Address * FindListeningPortAddressInConn(const Comm::ConnectionPointer &conn) { return conn ? FindListeningPortAddressInAddress(&conn->local) : nullptr; } const Ip::Address * FindListeningPortAddress(const HttpRequest *callerRequest, const AccessLogEntry *ale) { // Check all sources of usable listening port information, giving // HttpRequest and masterXaction a preference over ALE. const HttpRequest *request = callerRequest; if (!request && ale) request = ale->request; if (!request) return nullptr; // not enough information const Ip::Address *ip = FindListeningPortAddressInPort(request->masterXaction->squidPort); if (!ip && ale) ip = FindListeningPortAddressInPort(ale->cache.port); // XXX: also handle PROXY protocol here when we have a flag to identify such request if (ip || request->flags.interceptTproxy || request->flags.intercepted) return ip; /* handle non-intercepted cases that were not handled above */ ip = FindListeningPortAddressInConn(request->masterXaction->tcpClient); if (!ip && ale) ip = FindListeningPortAddressInConn(ale->tcpClient); return ip; // may still be nil }