=== modified file 'doc/release-notes/release-3.5.sgml' --- doc/release-notes/release-3.5.sgml 2014-08-11 16:09:06 +0000 +++ doc/release-notes/release-3.5.sgml 2014-08-12 14:53:59 +0000 @@ -27,40 +27,41 @@

Although this release is deemed good enough for use in many setups, please note the existence of . Changes since earlier releases of Squid-3.5

The 3.5 change history can be . Major new features since Squid-3.4

Squid 3.5 represents a new feature release above 3.4.

The most important of these new features are: Support libecap v1.0 Authentication helper query extensions Support named services Upgraded squidclient tool Helper support for concurrency channels Native FTP Relay + Receive PROXY protocol, Versions 1 & 2 Most user-facing changes are reflected in squid.conf (see below). Support libecap v1.0

Details at .

The new libecap version allows Squid to better check the version of the eCAP adapter being loaded as well as the version of the eCAP library being used.

Squid-3.5 can support eCAP adapters built with libecap v1.0, but no longer supports adapters built with earlier libecap versions due to API changes. Authentication helper query extensions

Details at . @@ -188,72 +189,111 @@

FTP Relay highlights:

Added ftp_port directive telling Squid to relay native FTP commands. Active and passive FTP support on the user-facing side; require passive connections to come from the control connection source IP address. IPv6 support (EPSV and, on the user-facing side, EPRT). Intelligent adaptation of relayed FTP FEAT responses. Relaying of multi-line FTP control responses using various formats. Support relaying of FTP MLSD and MLST commands (RFC 3659). Several Microsoft FTP server compatibility features. ICAP/eCAP support (at individual FTP command/response level). Optional "current FTP directory" tracking with the assistance of injected (by Squid) PWD commands (cannot be 100% reliable due to symbolic links and such, but is helpful in some common use cases). No caching support -- no reliable Request URIs for that (see above). +Receive PROXY protocol, Versions 1 & 2 +

More info at + +

PROXY protocol provides a simple way for proxies and tunnels of any kind to + relay the original client source details without having to alter or understand + the protocol being relayed on the connection. + +

Squid currently supports receiving HTTP traffic from a client proxy using this protocol. + An http_port which has been configured to receive this protocol may only be used to + receive traffic from client software sending in this protocol. + HTTP traffic without the PROXY header is not accepted on such a port. + +

The accel and intercept options are still used to identify the + traffic syntax being delivered by the client proxy. + +

Squid can be configured by adding an http_port + with the require-proxy-header mode flag. The proxy_protocol_access + must also be configured with src ACLs to whitelist proxies which are + trusted to send correct client details. + +

Forward-proxy traffic from a client proxy: + + http_port 3128 require-proxy-header + proxy_protocol_access allow localhost + + +

Intercepted traffic from a client proxy or tunnel: + + http_port 3128 intercept require-proxy-header + proxy_protocol_access allow localhost + + +

Known Issue: + Use of require-proxy-header on https_port is not supported. + Changes to squid.conf since Squid-3.4

There have been changes to Squid's configuration file since Squid-3.4.

Squid supports reading configuration option parameters from external files using the syntax parameters("/path/filename"). For example: acl whitelist dstdomain parameters("/etc/squid/whitelist.txt")

The squid.conf macro ${service_name} is added to provide the service name of the process parsing the config.

There have also been changes to individual directives in the config file. This section gives a thorough account of those changes in three categories:

New tags

collapsed_forwarding

Ported from Squid-2 with no configuration or visible behaviour changes. Collapsing of requests is performed across SMP workers. + proxy_protocol_access +

New directive to control which clients are permitted to open PROXY + protocol connections on a port flagged with require-proxy-header. + send_hit

New configuration directive to enable/disable sending cached content based on ACL selection. ACL can be based on client request or cached response details. sslproxy_session_cache_size

New directive which sets the cache size to use for TLS/SSL sessions cache. sslproxy_session_ttl

New directive to specify the time in seconds the TLS/SSL session is valid. store_id_extras

New directive to send additional lookup parameters to the configured Store-ID helper program. It takes a string which may contain logformat %macros.

The Store-ID helper input format is now: [channel-ID] url [extras]

The default value for extras is: "%>a/%>A %un %>rm myip=%la myport=%lp" @@ -318,40 +358,42 @@

These connections differ from HTTP persistent connections in that they have not been used for HTTP messaging (and may never be). They may be turned into persistent connections after their first use subject to the same keep-alive critera any HTTP connection is checked for. forward_max_tries

Default value increased to 25 destinations to allow better contact and IPv4 failover with domains using long lists of IPv6 addresses. ftp_epsv

Converted into an Access List with allow/deny value driven by ACLs using Squid standard first line wins matching basis.

The old values of on and off imply allow all and deny all respectively and are now deprecated. Do not combine use of on/off values with ACL configuration. http_port

protocol= option altered to accept protocol version details. Currently supported values are: HTTP, HTTP/1.1, HTTPS, HTTPS/1.1 +

New option require-proxy-header to mark ports receiving PROXY + protocol version 1 or 2 traffic. https_port

protocol= option altered to accept protocol version details. Currently supported values are: HTTP, HTTP/1.1, HTTPS, HTTPS/1.1 logformat

New format code %credentials to log the client credentials token.

New format code %tS to log transaction start time in "seconds.milliseconds" format, similar to the existing access.log "current time" field (%ts.%03tu) which logs the corresponding transaction finish time. Removed tags

cache_dir

COSS storage type is formally replaced by Rock storage type. === modified file 'doc/rfc/1-index.txt' --- doc/rfc/1-index.txt 2014-06-09 01:38:06 +0000 +++ doc/rfc/1-index.txt 2014-07-25 09:18:15 +0000 @@ -1,40 +1,43 @@ draft-ietf-radext-digest-auth-06.txt RADIUS Extension for Digest Authentication A proposed extension to Radius for Digest authentication via RADIUS servers. draft-cooper-webi-wpad-00.txt draft-ietf-svrloc-wpad-template-00.txt Web Proxy Auto-Discovery Protocol -- WPAD documents how MSIE and several other browsers automatically find their proxy settings from DHCP and/or DNS draft-forster-wrec-wccp-v1-00.txt WCCP 1.0 draft-wilson-wccp-v2-12-oct-2001.txt WCCP 2.0 draft-vinod-carp-v1-03.txt Microsoft CARP peering algorithm +proxy-protocol.txt + The PROXY protocol, Versions 1 & 2 + rfc0959.txt FTP rfc1035.txt DNS for IPv4 rfc1157.txt A Simple Network Management Protocol (SNMP) SNMP v1 Specification. SNMP v2 is documented in several RFCs, namely, 1902,1903,1904,1905,1906,1907. rfc1738.txt Uniform Resource Locators (URL) (updated by RFC 3986, but not obsoleted) rfc1902.txt Structure of Managament Information (SMI) for SNMPv2 Management information is viewed as a collection of managed objects, the Management Information Base (MIB). MIB modules are written using an adapted subset of OSI's Abstract Syntax === modified file 'src/Makefile.am' --- src/Makefile.am 2014-08-07 17:31:05 +0000 +++ src/Makefile.am 2014-08-12 14:52:27 +0000 @@ -1618,40 +1618,41 @@ parser/libsquid-parser.la \ base/libbase.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ comm/libcomm.la \ eui/libeui.la \ icmp/libicmp.la icmp/libicmp-core.la \ log/liblog.la \ format/libformat.la \ $(REPL_OBJS) \ $(DISK_LIBS) \ $(DISK_OS_LIBS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ $(SSL_LIBS) \ anyp/libanyp.la \ ipc/libipc.la \ mgr/libmgr.la \ $(SNMP_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(NETTLELIB) \ $(REGEXLIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_testCacheManager_LDFLAGS = $(LIBADD_DL) tests_testCacheManager_DEPENDENCIES = \ $(REPL_OBJS) \ $(SQUID_CPPUNIT_LA) tests_testDiskIO_SOURCES = \ CacheDigest.h \ tests/stub_CacheDigest.cc \ cbdata.cc \ @@ -2048,40 +2049,41 @@ http/libsquid-http.la \ ftp/libftp.la \ ident/libident.la \ acl/libacls.la \ acl/libstate.la \ acl/libapi.la \ parser/libsquid-parser.la \ base/libbase.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ anyp/libanyp.la \ icmp/libicmp.la icmp/libicmp-core.la \ comm/libcomm.la \ log/liblog.la \ format/libformat.la \ $(REPL_OBJS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ $(SSL_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(DISK_LIBS) \ $(DISK_OS_LIBS) \ ipc/libipc.la \ mgr/libmgr.la \ $(SNMP_LIBS) \ $(NETTLELIB) \ $(REGEXLIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_testEvent_LDFLAGS = $(LIBADD_DL) tests_testEvent_DEPENDENCIES = \ $(REPL_OBJS) \ $(SQUID_CPPUNIT_LA) @@ -2300,40 +2302,41 @@ http/libsquid-http.la \ ftp/libftp.la \ ident/libident.la \ acl/libacls.la \ acl/libstate.la \ acl/libapi.la \ parser/libsquid-parser.la \ base/libbase.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ anyp/libanyp.la \ icmp/libicmp.la icmp/libicmp-core.la \ comm/libcomm.la \ log/liblog.la \ format/libformat.la \ $(REPL_OBJS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ $(SSL_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(DISK_LIBS) \ $(DISK_OS_LIBS) \ ipc/libipc.la \ mgr/libmgr.la \ $(SNMP_LIBS) \ $(NETTLELIB) \ $(REGEXLIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_testEventLoop_LDFLAGS = $(LIBADD_DL) tests_testEventLoop_DEPENDENCIES = \ $(REPL_OBJS) \ $(SQUID_CPPUNIT_LA) @@ -2550,40 +2553,41 @@ acl/libapi.la \ parser/libsquid-parser.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ anyp/libanyp.la \ icmp/libicmp.la icmp/libicmp-core.la \ comm/libcomm.la \ log/liblog.la \ format/libformat.la \ $(REPL_OBJS) \ $(DISK_LIBS) \ $(DISK_OS_LIBS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ $(SSL_LIBS) \ ipc/libipc.la \ base/libbase.la \ mgr/libmgr.la \ $(SNMP_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(NETTLELIB) \ $(REGEXLIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_test_http_range_LDFLAGS = $(LIBADD_DL) tests_test_http_range_DEPENDENCIES = \ $(SQUID_CPPUNIT_LA) tests_testHttpParser_SOURCES = \ Debug.h \ HttpParser.cc \ HttpParser.h \ MemBuf.cc \ @@ -2842,40 +2846,41 @@ acl/libstate.la \ acl/libapi.la \ parser/libsquid-parser.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ $(SSL_LIBS) \ ipc/libipc.la \ base/libbase.la \ mgr/libmgr.la \ anyp/libanyp.la \ $(SNMP_LIBS) \ icmp/libicmp.la icmp/libicmp-core.la \ comm/libcomm.la \ log/liblog.la \ format/libformat.la \ http/libsquid-http.la \ $(REPL_OBJS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(DISK_OS_LIBS) \ $(NETTLELIB) \ $(REGEXLIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_testHttpRequest_LDFLAGS = $(LIBADD_DL) tests_testHttpRequest_DEPENDENCIES = \ $(REPL_OBJS) \ $(SQUID_CPPUNIT_LA) ## why so many sources? well httpHeaderTools requites ACLChecklist & friends. ## first line - what we are testing. tests_testStore_SOURCES= \ @@ -3688,40 +3693,41 @@ acl/libstate.la \ acl/libapi.la \ parser/libsquid-parser.la \ base/libbase.la \ libsquid.la \ ip/libip.la \ fs/libfs.la \ $(SSL_LIBS) \ ipc/libipc.la \ mgr/libmgr.la \ $(SNMP_LIBS) \ icmp/libicmp.la icmp/libicmp-core.la \ comm/libcomm.la \ log/liblog.la \ $(DISK_OS_LIBS) \ format/libformat.la \ $(REGEXLIB) \ $(REPL_OBJS) \ $(ADAPTATION_LIBS) \ $(ESI_LIBS) \ + parser/libsquid-parser.la \ $(top_builddir)/lib/libmisccontainers.la \ $(top_builddir)/lib/libmiscencoding.la \ $(top_builddir)/lib/libmiscutil.la \ $(NETTLELIB) \ $(COMPAT_LIB) \ $(SQUID_CPPUNIT_LIBS) \ $(SQUID_CPPUNIT_LA) \ $(SSLLIB) \ $(KRB5LIBS) \ $(COMPAT_LIB) \ $(XTRA_LIBS) tests_testURL_LDFLAGS = $(LIBADD_DL) tests_testURL_DEPENDENCIES = \ $(REPL_OBJS) \ $(SQUID_CPPUNIT_LA) tests_testSBuf_SOURCES= \ tests/testSBuf.h \ tests/testSBuf.cc \ tests/testMain.cc \ === modified file 'src/SquidConfig.h' --- src/SquidConfig.h 2014-08-11 16:09:06 +0000 +++ src/SquidConfig.h 2014-08-12 14:52:27 +0000 @@ -372,40 +372,43 @@ #if USE_HTTP_VIOLATIONS acl_access *brokenPosts; #endif acl_access *redirector; acl_access *store_id; acl_access *reply; AclAddress *outgoing_address; #if USE_HTCP acl_access *htcp; acl_access *htcp_clr; #endif #if USE_OPENSSL acl_access *ssl_bump; #endif #if FOLLOW_X_FORWARDED_FOR acl_access *followXFF; #endif /* FOLLOW_X_FORWARDED_FOR */ + /// acceptible PROXY protocol clients + acl_access *proxyProtocol; + /// spoof_client_ip squid.conf acl. /// nil unless configured acl_access* spoof_client_ip; acl_access *ftp_epsv; } accessList; AclDenyInfoList *denyInfoList; struct { size_t list_width; int list_wrap; char *anon_user; int passive; int epsv_all; int epsv; int eprt; int sanitycheck; int telnet; } Ftp; RefreshPattern *Refresh; === modified file 'src/anyp/TrafficMode.h' --- src/anyp/TrafficMode.h 2013-02-04 09:47:50 +0000 +++ src/anyp/TrafficMode.h 2014-07-25 06:12:42 +0000 @@ -8,40 +8,50 @@ * Set of 'mode' flags defining types of trafic which can be received. * * Use to determine the processing steps which need to be applied * to this traffic under any special circumstances which may apply. */ class TrafficMode { public: TrafficMode() : accelSurrogate(false), natIntercept(false), tproxyIntercept(false), tunnelSslBumping(false) {} TrafficMode(const TrafficMode &rhs) { operator =(rhs); } TrafficMode &operator =(const TrafficMode &rhs) { memcpy(this, &rhs, sizeof(TrafficMode)); return *this; } /** marks HTTP accelerator (reverse/surrogate proxy) traffic * * Indicating the following are required: * - URL translation from relative to absolute form * - restriction to origin peer relay recommended */ bool accelSurrogate; + /** marks ports receiving PROXY protocol traffic + * + * Indicating the following are required: + * - PROXY protocol magic header + * - src/dst IP retrieved from magic PROXY header + * - indirect client IP trust verification is mandatory + * - TLS is not supported + */ + bool proxySurrogate; + /** marks NAT intercepted traffic * * Indicating the following are required: * - NAT lookups * - URL translation from relative to absolute form * - Same-Origin verification is mandatory * - destination pinning is recommended * - authentication prohibited */ bool natIntercept; /** marks TPROXY intercepted traffic * * Indicating the following are required: * - src/dst IP inversion must be performed * - client IP should be spoofed if possible * - URL translation from relative to absolute form * - Same-Origin verification is mandatory * - destination pinning is recommended * - authentication prohibited === modified file 'src/cache_cf.cc' --- src/cache_cf.cc 2014-08-10 23:18:33 +0000 +++ src/cache_cf.cc 2014-08-12 15:44:59 +0000 @@ -3603,45 +3603,57 @@ } else if (strcmp(token, "transparent") == 0 || strcmp(token, "intercept") == 0) { if (s->flags.accelSurrogate || s->flags.tproxyIntercept) { debugs(3, DBG_CRITICAL, "FATAL: " << cfg_directive << ": Intercept mode requires its own interception port. It cannot be shared with other modes."); self_destruct(); } s->flags.natIntercept = true; Ip::Interceptor.StartInterception(); /* Log information regarding the port modes under interception. */ debugs(3, DBG_IMPORTANT, "Starting Authentication on port " << s->s); debugs(3, DBG_IMPORTANT, "Disabling Authentication on port " << s->s << " (interception enabled)"); } else if (strcmp(token, "tproxy") == 0) { if (s->flags.natIntercept || s->flags.accelSurrogate) { debugs(3,DBG_CRITICAL, "FATAL: " << cfg_directive << ": TPROXY option requires its own interception port. It cannot be shared with other modes."); self_destruct(); } s->flags.tproxyIntercept = true; Ip::Interceptor.StartTransparency(); /* Log information regarding the port modes under transparency. */ debugs(3, DBG_IMPORTANT, "Disabling Authentication on port " << s->s << " (TPROXY enabled)"); + if (s->flags.proxySurrogate) { + debugs(3, DBG_IMPORTANT, "Disabling TPROXY Spoofing on port " << s->s << " (require-proxy-header enabled)"); + } + if (!Ip::Interceptor.ProbeForTproxy(s->s)) { debugs(3, DBG_CRITICAL, "FATAL: " << cfg_directive << ": TPROXY support in the system does not work."); self_destruct(); } + } else if (strcmp(token, "require-proxy-header") == 0) { + s->flags.proxySurrogate = true; + if (s->flags.tproxyIntercept) { + // receiving is still permitted, so we do not unset the TPROXY flag + // spoofing access control override takes care of the spoof disable later + debugs(3, DBG_IMPORTANT, "Disabling TPROXY Spoofing on port " << s->s << " (require-proxy-header enabled)"); + } + } else if (strncmp(token, "defaultsite=", 12) == 0) { if (!s->flags.accelSurrogate) { debugs(3, DBG_CRITICAL, "FATAL: " << cfg_directive << ": defaultsite option requires Acceleration mode flag."); self_destruct(); } safe_free(s->defaultsite); s->defaultsite = xstrdup(token + 12); } else if (strcmp(token, "vhost") == 0) { if (!s->flags.accelSurrogate) { debugs(3, DBG_CRITICAL, "WARNING: " << cfg_directive << ": vhost option is deprecated. Use 'accel' mode flag instead."); } s->flags.accelSurrogate = true; s->vhost = true; } else if (strcmp(token, "no-vhost") == 0) { if (!s->flags.accelSurrogate) { debugs(3, DBG_IMPORTANT, "ERROR: " << cfg_directive << ": no-vhost option requires Acceleration mode flag."); } s->vhost = false; } else if (strcmp(token, "vport") == 0) { if (!s->flags.accelSurrogate) { @@ -3809,90 +3821,102 @@ self_destruct(); return; } char *token = ConfigParser::NextToken(); if (!token) { self_destruct(); return; } AnyP::PortCfgPointer s = new AnyP::PortCfg(); s->transport = parsePortProtocol(protoName); // default; protocol=... overwrites parsePortSpecification(s, token); /* parse options ... */ while ((token = ConfigParser::NextToken())) { parse_port_option(s, token); } -#if USE_OPENSSL if (s->transport.protocol == AnyP::PROTO_HTTPS) { +#if USE_OPENSSL /* ssl-bump on https_port configuration requires either tproxy or intercept, and vice versa */ const bool hijacked = s->flags.isIntercepted(); if (s->flags.tunnelSslBumping && !hijacked) { debugs(3, DBG_CRITICAL, "FATAL: ssl-bump on https_port requires tproxy/intercept which is missing."); self_destruct(); } if (hijacked && !s->flags.tunnelSslBumping) { debugs(3, DBG_CRITICAL, "FATAL: tproxy/intercept on https_port requires ssl-bump which is missing."); self_destruct(); } +#endif + if (s->flags.proxySurrogate) { + debugs(3,DBG_CRITICAL, "FATAL: https_port: require-proxy-header option is not supported on HTTPS ports."); + self_destruct(); + } } else if (protoName.cmp("FTP") == 0) { /* ftp_port does not support ssl-bump */ if (s->flags.tunnelSslBumping) { debugs(3, DBG_CRITICAL, "FATAL: ssl-bump is not supported for ftp_port."); self_destruct(); } + if (s->flags.proxySurrogate) { + // Passive FTP data channel does not work without deep protocol inspection in the frontend. + debugs(3,DBG_CRITICAL, "FATAL: require-proxy-header option is not supported on ftp_port."); + self_destruct(); + } } -#endif if (Ip::EnableIpv6&IPV6_SPECIAL_SPLITSTACK && s->s.isAnyAddr()) { // clone the port options from *s to *(s->next) s->next = s->clone(); s->next->s.setIPv4(); debugs(3, 3, AnyP::UriScheme(s->transport.protocol).c_str() << "_port: clone wildcard address for split-stack: " << s->s << " and " << s->next->s); } while (*head != NULL) head = &((*head)->next); *head = s; } static void dump_generic_port(StoreEntry * e, const char *n, const AnyP::PortCfgPointer &s) { char buf[MAX_IPSTRLEN]; storeAppendPrintf(e, "%s %s", n, s->s.toUrl(buf,MAX_IPSTRLEN)); // MODES and specific sub-options. if (s->flags.natIntercept) storeAppendPrintf(e, " intercept"); else if (s->flags.tproxyIntercept) storeAppendPrintf(e, " tproxy"); + else if (s->flags.proxySurrogate) + storeAppendPrintf(e, " require-proxy-header"); + else if (s->flags.accelSurrogate) { storeAppendPrintf(e, " accel"); if (s->vhost) storeAppendPrintf(e, " vhost"); if (s->vport < 0) storeAppendPrintf(e, " vport"); else if (s->vport > 0) storeAppendPrintf(e, " vport=%d", s->vport); if (s->defaultsite) storeAppendPrintf(e, " defaultsite=%s", s->defaultsite); // TODO: compare against prefix of 'n' instead of assuming http_port if (s->transport.protocol != AnyP::PROTO_HTTP) storeAppendPrintf(e, " protocol=%s", AnyP::UriScheme(s->transport.protocol).c_str()); if (s->allow_direct) storeAppendPrintf(e, " allow-direct"); === modified file 'src/cf.data.pre' --- src/cf.data.pre 2014-08-11 16:09:06 +0000 +++ src/cf.data.pre 2014-08-12 14:52:27 +0000 @@ -1134,79 +1134,127 @@ acl localnet src 172.16.0.0/12 # RFC1918 possible internal network acl localnet src 192.168.0.0/16 # RFC1918 possible internal network acl localnet src fc00::/7 # RFC 4193 local private network range acl localnet src fe80::/10 # RFC 4291 link-local (directly plugged) machines acl SSL_ports port 443 acl Safe_ports port 80 # http acl Safe_ports port 21 # ftp acl Safe_ports port 443 # https acl Safe_ports port 70 # gopher acl Safe_ports port 210 # wais acl Safe_ports port 1025-65535 # unregistered ports acl Safe_ports port 280 # http-mgmt acl Safe_ports port 488 # gss-http acl Safe_ports port 591 # filemaker acl Safe_ports port 777 # multiling http acl CONNECT method CONNECT NOCOMMENT_END DOC_END +NAME: proxy_protocol_access +TYPE: acl_access +LOC: Config.accessList.proxyProtocol +DEFAULT: none +DEFAULT_DOC: all TCP connections to ports with require-proxy-header will be denied +DOC_START + Determine which client proxies can be trusted to provide correct + information regarding real client IP address using PROXY protocol. + + Requests may pass through a chain of several other proxies + before reaching us. The original source details may by sent in: + * HTTP message Forwarded header, or + * HTTP message X-Forwarded-For header, or + * PROXY protocol connection header. + + This directive is solely for validating new PROXY protocol + connections received from a port flagged with require-proxy-header. + It is checked only once after TCP connection setup. + + A deny match results in TCP connection closure. + + An allow match is required for Squid to permit the corresponding + TCP connection, before Squid even looks for HTTP request headers. + If there is an allow match, Squid starts using PROXY header information + to determine the source address of the connection for all future ACL + checks, logging, etc. + + SECURITY CONSIDERATIONS: + + Any host from which we accept client IP details can place + incorrect information in the relevant header, and Squid + will use the incorrect information as if it were the + source address of the request. This may enable remote + hosts to bypass any access control restrictions that are + based on the client's source addresses. + + This clause only supports fast acl types. + See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details. +DOC_END + NAME: follow_x_forwarded_for TYPE: acl_access IFDEF: FOLLOW_X_FORWARDED_FOR LOC: Config.accessList.followXFF DEFAULT_IF_NONE: deny all DEFAULT_DOC: X-Forwarded-For header will be ignored. DOC_START - Allowing or Denying the X-Forwarded-For header to be followed to - find the original source of a request. + Determine which client proxies can be trusted to provide correct + information regarding real client IP address. Requests may pass through a chain of several other proxies - before reaching us. The X-Forwarded-For header will contain a - comma-separated list of the IP addresses in the chain, with the - rightmost address being the most recent. + before reaching us. The original source details may by sent in: + * HTTP message Forwarded header, or + * HTTP message X-Forwarded-For header, or + * PROXY protocol connection header. + + PROXY protocol connections are controlled by the proxy_protocol_access + directive which is checked before this. If a request reaches us from a source that is allowed by this - configuration item, then we consult the X-Forwarded-For header - to see where that host received the request from. If the - X-Forwarded-For header contains multiple addresses, we continue - backtracking until we reach an address for which we are not allowed - to follow the X-Forwarded-For header, or until we reach the first - address in the list. For the purpose of ACL used in the - follow_x_forwarded_for directive the src ACL type always matches - the address we are testing and srcdomain matches its rDNS. + directive, then we trust the information it provides regarding + the IP of the client it received from (if any). + + For the purpose of ACLs used in this directive the src ACL type always + matches the address we are testing and srcdomain matches its rDNS. + + On each HTTP request Squid checks for X-Forwarded-For header fields. + If found the header values are iterated in reverse order and an allow + match is required for Squid to continue on to the next value. + The verification ends when a value receives a deny match, cannot be + tested, or there are no more values to test. + NOTE: Squid does not yet follow the Forwarded HTTP header. The end result of this process is an IP address that we will refer to as the indirect client address. This address may be treated as the client address for access control, ICAP, delay pools and logging, depending on the acl_uses_indirect_client, icap_uses_indirect_client, delay_pool_uses_indirect_client, log_uses_indirect_client and tproxy_uses_indirect_client options. This clause only supports fast acl types. See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details. SECURITY CONSIDERATIONS: - Any host for which we follow the X-Forwarded-For header - can place incorrect information in the header, and Squid + Any host from which we accept client IP details can place + incorrect information in the relevant header, and Squid will use the incorrect information as if it were the source address of the request. This may enable remote hosts to bypass any access control restrictions that are based on the client's source addresses. For example: acl localhost src 127.0.0.1 acl my_other_proxy srcdomain .proxy.example.com follow_x_forwarded_for allow localhost follow_x_forwarded_for allow my_other_proxy DOC_END NAME: acl_uses_indirect_client COMMENT: on|off TYPE: onoff IFDEF: FOLLOW_X_FORWARDED_FOR DEFAULT: on LOC: Config.onoff.acl_uses_indirect_client DOC_START @@ -1761,40 +1809,45 @@ always disable always PMTU discovery. In many setups of transparently intercepting proxies Path-MTU discovery can not work on traffic towards the clients. This is the case when the intercepting device does not fully track connections and fails to forward ICMP must fragment messages to the cache server. If you have such setup and experience that certain clients sporadically hang or never complete requests set disable-pmtu-discovery option to 'transparent'. name= Specifies a internal name for the port. Defaults to the port specification (port or addr:port) tcpkeepalive[=idle,interval,timeout] Enable TCP keepalive probes of idle connections. In seconds; idle is the initial time before TCP starts probing the connection, interval how often to probe, and timeout the time before giving up. + require-proxy-header + Require PROXY protocol version 1 or 2 connections. + The proxy_protocol_access is required to whitelist + downstream proxies which can be trusted. + If you run Squid on a dual-homed machine with an internal and an external interface we recommend you to specify the internal address:port in http_port. This way Squid will only be visible on the internal address. NOCOMMENT_START # Squid normally listens to port 3128 http_port @DEFAULT_HTTP_PORT@ NOCOMMENT_END DOC_END NAME: https_port IFDEF: USE_OPENSSL TYPE: PortCfg DEFAULT: none LOC: HttpsPortList DOC_START Usage: [ip:]port cert=certificate.pem [key=key.pem] [mode] [options...] === modified file 'src/client_side.cc' --- src/client_side.cc 2014-08-11 16:09:06 +0000 +++ src/client_side.cc 2014-08-19 07:29:11 +0000 @@ -102,40 +102,41 @@ #include "fd.h" #include "fde.h" #include "fqdncache.h" #include "FwdState.h" #include "globals.h" #include "http.h" #include "HttpHdrContRange.h" #include "HttpHeaderTools.h" #include "HttpReply.h" #include "HttpRequest.h" #include "ident/Config.h" #include "ident/Ident.h" #include "internal.h" #include "ipc/FdNotes.h" #include "ipc/StartListening.h" #include "log/access_log.h" #include "Mem.h" #include "MemBuf.h" #include "MemObject.h" #include "mime_header.h" +#include "parser/Tokenizer.h" #include "profiler/Profiler.h" #include "rfc1738.h" #include "servers/forward.h" #include "SquidConfig.h" #include "SquidTime.h" #include "StatCounters.h" #include "StatHist.h" #include "Store.h" #include "TimeOrTag.h" #include "tools.h" #include "URL.h" #if USE_AUTH #include "auth/UserRequest.h" #endif #if USE_DELAY_POOLS #include "ClientInfo.h" #endif #if USE_OPENSSL #include "ssl/context_storage.h" @@ -2282,40 +2283,42 @@ #if THIS_VIOLATES_HTTP_SPECS_ON_URL_TRANSFORMATION if ((t = strchr(url, '#'))) /* remove HTML anchors */ *t = '\0'; #endif debugs(33,5, HERE << "repare absolute URL from " << (csd->transparent()?"intercept":(csd->port->flags.accelSurrogate ? "accel":""))); /* Rewrite the URL in transparent or accelerator mode */ /* NP: there are several cases to traverse here: * - standard mode (forward proxy) * - transparent mode (TPROXY) * - transparent mode with failures * - intercept mode (NAT) * - intercept mode with failures * - accelerator mode (reverse proxy) * - internal URL * - mixed combos of the above with internal URL + * - remote interception with PROXY protocol + * - remote reverse-proxy with PROXY protocol */ if (csd->transparent()) { /* intercept or transparent mode, properly working with no failures */ prepareTransparentURL(csd, http, url, req_hdr); } else if (internalCheck(url)) { /* internal URL mode */ /* prepend our name & port */ http->uri = xstrdup(internalLocalUri(NULL, url)); // We just re-wrote the URL. Must replace the Host: header. // But have not parsed there yet!! flag for local-only handling. http->flags.internal = true; } else if (csd->port->flags.accelSurrogate || csd->switchedToHttps()) { /* accelerator mode */ prepareAcceleratedURL(csd, http, url, req_hdr); } if (!http->uri) { /* No special rewrites have been applied above, use the @@ -2657,41 +2660,42 @@ request->flags.accelerated = http->flags.accel; request->flags.sslBumped=conn->switchedToHttps(); request->flags.ignoreCc = conn->port->ignore_cc; // TODO: decouple http->flags.accel from request->flags.sslBumped request->flags.noDirect = (request->flags.accelerated && !request->flags.sslBumped) ? !conn->port->allow_direct : 0; #if USE_AUTH if (request->flags.sslBumped) { if (conn->getAuth() != NULL) request->auth_user_request = conn->getAuth(); } #endif /** \par * If transparent or interception mode is working clone the transparent and interception flags * from the port settings to the request. */ if (http->clientConnection != NULL) { request->flags.intercepted = ((http->clientConnection->flags & COMM_INTERCEPTION) != 0); request->flags.interceptTproxy = ((http->clientConnection->flags & COMM_TRANSPARENT) != 0 ) ; - if (request->flags.interceptTproxy) { + static const bool proxyProtocolPort = (conn->port != NULL) ? conn->port->flags.proxySurrogate : false; + if (request->flags.interceptTproxy && !proxyProtocolPort) { if (Config.accessList.spoof_client_ip) { ACLFilledChecklist *checklist = clientAclChecklistCreate(Config.accessList.spoof_client_ip, http); request->flags.spoofClientIp = (checklist->fastCheck() == ACCESS_ALLOWED); delete checklist; } else request->flags.spoofClientIp = true; } else request->flags.spoofClientIp = false; } if (internalCheck(request->urlpath.termedBuf())) { if (internalHostnameIs(request->GetHost()) && request->port == getMyPort()) { debugs(33, 2, "internal URL found: " << request->url.getScheme() << "://" << request->GetHost() << ':' << request->port); http->flags.internal = true; } else if (Config.onoff.global_internal_static && internalStaticCheck(request->urlpath.termedBuf())) { debugs(33, 2, "internal URL found: " << request->url.getScheme() << "://" << request->GetHost() << ':' << request->port << " (global_internal_static on)"); request->SetHost(internalHostname()); request->port = getMyPort(); @@ -2878,64 +2882,334 @@ bool ConnStateData::concurrentRequestQueueFilled() const { const int existingRequestCount = getConcurrentRequestCount(); // default to the configured pipeline size. // add 1 because the head of pipeline is counted in concurrent requests and not prefetch queue const int concurrentRequestLimit = pipelinePrefetchMax() + 1; // when queue filled already we cant add more. if (existingRequestCount >= concurrentRequestLimit) { debugs(33, 3, clientConnection << " max concurrent requests reached (" << concurrentRequestLimit << ")"); debugs(33, 5, clientConnection << " deferring new request until one is done"); return true; } return false; } /** + * Perform proxy_protocol_access ACL tests on the client which + * connected to PROXY protocol port to see if we trust the + * sender enough to accept their PROXY header claim. + */ +bool +ConnStateData::proxyProtocolValidateClient() +{ + if (!Config.accessList.proxyProtocol) + return proxyProtocolError("PROXY client not permitted by default ACL"); + + ACLFilledChecklist ch(Config.accessList.proxyProtocol, NULL, clientConnection->rfc931); + ch.src_addr = clientConnection->remote; + ch.my_addr = clientConnection->local; + ch.conn(this); + + if (ch.fastCheck() != ACCESS_ALLOWED) + return proxyProtocolError("PROXY client not permitted by ACLs"); + + return true; +} + +/** + * Perform cleanup on PROXY protocol errors. + * If header parsing hits a fatal error terminate the connection, + * otherwise wait for more data. + */ +bool +ConnStateData::proxyProtocolError(const char *msg) +{ + if (msg) { + // This is important to know, but maybe not so much that flooding the log is okay. +#if QUIET_PROXY_PROTOCOL + // display the first of every 32 occurances at level 1, the others at level 2. + static uint8_t hide = 0; + debugs(33, (hide++ % 32 == 0 ? DBG_IMPORTANT : 2), msg << " from " << clientConnection); +#else + debugs(33, DBG_IMPORTANT, msg << " from " << clientConnection); +#endif + mustStop(msg); + } + return false; +} + +/// magic octet prefix for PROXY protocol version 1 +static const SBuf Proxy1p0magic("PROXY ", 6); + +/// magic octet prefix for PROXY protocol version 2 +static const SBuf Proxy2p0magic("\x0D\x0A\x0D\x0A\x00\x0D\x0A\x51\x55\x49\x54\x0A", 12); + +/** + * Test the connection read buffer for PROXY protocol header. + * Version 1 and 2 header currently supported. + */ +bool +ConnStateData::parseProxyProtocolHeader() +{ + // http://www.haproxy.org/download/1.5/doc/proxy-protocol.txt + + // detect and parse PROXY/2.0 protocol header + if (in.buf.startsWith(Proxy2p0magic)) + return parseProxy2p0(); + + // detect and parse PROXY/1.0 protocol header + if (in.buf.startsWith(Proxy1p0magic)) + return parseProxy1p0(); + + // detect and terminate other protocols + if (in.buf.length() >= Proxy2p0magic.length()) { + // PROXY/1.0 magic is shorter, so we know that + // the input does not start with any PROXY magic + return proxyProtocolError("PROXY protocol error: invalid header"); + } + + // TODO: detect short non-magic prefixes earlier to avoid + // waiting for more data which may never come + + // not enough bytes to parse yet. + return false; +} + +/// parse the PROXY/1.0 protocol header from the connection read buffer +bool +ConnStateData::parseProxy1p0() +{ + ::Parser::Tokenizer tok(in.buf); + tok.skip(Proxy1p0magic); + + // skip to first LF (assumes it is part of CRLF) + static const CharacterSet lineContent = CharacterSet::LF.complement("non-LF"); + SBuf line; + if (tok.prefix(line, lineContent, 107-Proxy1p0magic.length())) { + if (tok.skip('\n')) { + // found valid header + in.buf = tok.remaining(); + needProxyProtocolHeader_ = false; + // reset the tokenizer to work on found line only. + tok.reset(line); + } else + return false; // no LF yet + + } else // protocol error only if there are more than 107 bytes prefix header + return proxyProtocolError(in.buf.length() > 107? "PROXY/1.0 error: missing CRLF" : NULL); + + static const SBuf unknown("UNKNOWN"), tcpName("TCP"); + if (tok.skip(tcpName)) { + + // skip TCP/IP version number + static const CharacterSet tcpVersions("TCP-version","46"); + if(!tok.skipOne(tcpVersions)) + return proxyProtocolError("PROXY/1.0 error: missing TCP version"); + + // skip SP after protocol version + if (!tok.skip(' ')) + return proxyProtocolError("PROXY/1.0 error: missing SP"); + + SBuf ipa, ipb; + int64_t porta, portb; + static const CharacterSet ipChars = CharacterSet("IP Address",".:") + CharacterSet::HEXDIG; + + // parse: src-IP SP dst-IP SP src-port SP dst-port CR + // leave the LF until later. + const bool correct = tok.prefix(ipa, ipChars) && tok.skip(' ') && + tok.prefix(ipb, ipChars) && tok.skip(' ') && + tok.int64(porta) && tok.skip(' ') && + tok.int64(portb) && + tok.skip('\r'); + if (!correct) + return proxyProtocolError("PROXY/1.0 error: invalid syntax"); + + // parse IP and port strings + Ip::Address originalClient, originalDest; + + if (!originalClient.GetHostByName(ipa.c_str())) + return proxyProtocolError("PROXY/1.0 error: invalid src-IP address"); + + if (!originalDest.GetHostByName(ipb.c_str())) + return proxyProtocolError("PROXY/1.0 error: invalid dst-IP address"); + + if (porta > 0 && porta <= 0xFFFF) // max uint16_t + originalClient.port(static_cast(porta)); + else + return proxyProtocolError("PROXY/1.0 error: invalid src port"); + + if (portb > 0 && portb <= 0xFFFF) // max uint16_t + originalDest.port(static_cast(portb)); + else + return proxyProtocolError("PROXY/1.0 error: invalid dst port"); + + // we have original client and destination details now + // replace the client connection values + debugs(33, 5, "PROXY/1.0 protocol on connection " << clientConnection); + clientConnection->local = originalDest; + clientConnection->remote = originalClient; + clientConnection->flags ^= COMM_TRANSPARENT; // prevent TPROXY spoofing of this new IP. + debugs(33, 5, "PROXY/1.0 upgrade: " << clientConnection); + + // repeat fetch ensuring the new client FQDN can be logged + if (Config.onoff.log_fqdn) + fqdncache_gethostbyaddr(clientConnection->remote, FQDN_LOOKUP_IF_MISS); + + return true; + + } else if (tok.skip(unknown)) { + // found valid but unusable header + return true; + + } else + return proxyProtocolError("PROXY/1.0 error: invalid protocol family"); + + return false; +} + +/// parse the PROXY/2.0 protocol header from the connection read buffer +bool +ConnStateData::parseProxy2p0() +{ + static const SBuf::size_type prefixLen = Proxy2p0magic.length(); + if (in.buf.length() < prefixLen + 4) + return false; // need more bytes + + if ((in.buf[prefixLen] & 0xF0) != 0x20) // version == 2 is mandatory + return proxyProtocolError("PROXY/2.0 error: invalid version"); + + const char command = (in.buf[prefixLen] & 0x0F); + if ((command & 0xFE) != 0x00) // values other than 0x0-0x1 are invalid + return proxyProtocolError("PROXY/2.0 error: invalid command"); + + const char family = (in.buf[prefixLen+1] & 0xF0) >>4; + if (family > 0x3) // values other than 0x0-0x3 are invalid + return proxyProtocolError("PROXY/2.0 error: invalid family"); + + const char proto = (in.buf[prefixLen+1] & 0x0F); + if (proto > 0x2) // values other than 0x0-0x2 are invalid + return proxyProtocolError("PROXY/2.0 error: invalid protocol type"); + + const char *clen = in.buf.rawContent() + prefixLen + 2; + uint16_t len; + memcpy(&len, clen, sizeof(len)); + len = ntohs(len); + + if (in.buf.length() < prefixLen + 4 + len) + return false; // need more bytes + + in.buf.consume(prefixLen + 4); // 4 being the extra bytes + const SBuf extra = in.buf.consume(len); + needProxyProtocolHeader_ = false; // found successfully + + // LOCAL connections do nothing with the extras + if (command == 0x00/* LOCAL*/) + return true; + + union pax { + struct { /* for TCP/UDP over IPv4, len = 12 */ + struct in_addr src_addr; + struct in_addr dst_addr; + uint16_t src_port; + uint16_t dst_port; + } ipv4_addr; + struct { /* for TCP/UDP over IPv6, len = 36 */ + struct in6_addr src_addr; + struct in6_addr dst_addr; + uint16_t src_port; + uint16_t dst_port; + } ipv6_addr; +#if NOT_SUPPORTED + struct { /* for AF_UNIX sockets, len = 216 */ + uint8_t src_addr[108]; + uint8_t dst_addr[108]; + } unix_addr; +#endif + }; + + pax ipu; + memcpy(&ipu, extra.rawContent(), sizeof(pax)); + + // replace the client connection values + debugs(33, 5, "PROXY/2.0 protocol on connection " << clientConnection); + switch (family) + { + case 0x1: // IPv4 + clientConnection->local = ipu.ipv4_addr.dst_addr; + clientConnection->local.port(ntohs(ipu.ipv4_addr.dst_port)); + clientConnection->remote = ipu.ipv4_addr.src_addr; + clientConnection->remote.port(ntohs(ipu.ipv4_addr.src_port)); + clientConnection->flags ^= COMM_TRANSPARENT; // prevent TPROXY spoofing of this new IP. + break; + case 0x2: // IPv6 + clientConnection->local = ipu.ipv6_addr.dst_addr; + clientConnection->local.port(ntohs(ipu.ipv6_addr.dst_port)); + clientConnection->remote = ipu.ipv6_addr.src_addr; + clientConnection->remote.port(ntohs(ipu.ipv6_addr.src_port)); + clientConnection->flags ^= COMM_TRANSPARENT; // prevent TPROXY spoofing of this new IP. + break; + default: // do nothing + break; + } + debugs(33, 5, "PROXY/2.0 upgrade: " << clientConnection); + + // repeat fetch ensuring the new client FQDN can be logged + if (Config.onoff.log_fqdn) + fqdncache_gethostbyaddr(clientConnection->remote, FQDN_LOOKUP_IF_MISS); + + return true; +} + +/** * Attempt to parse one or more requests from the input buffer. * If a request is successfully parsed, even if the next request * is only partially parsed, it will return TRUE. */ bool ConnStateData::clientParseRequests() { bool parsed_req = false; debugs(33, 5, HERE << clientConnection << ": attempting to parse"); // Loop while we have read bytes that are not needed for producing the body // On errors, bodyPipe may become nil, but readMore will be cleared while (!in.buf.isEmpty() && !bodyPipe && flags.readMore) { connStripBufferWhitespace(this); /* Don't try to parse if the buffer is empty */ if (in.buf.isEmpty()) break; /* Limit the number of concurrent requests */ if (concurrentRequestQueueFilled()) break; + // try to parse the PROXY protocol header magic bytes + if (needProxyProtocolHeader_ && !parseProxyProtocolHeader()) + break; + Http::ProtocolVersion http_ver; ClientSocketContext *context = parseOneRequest(http_ver); /* partial or incomplete request */ if (!context) { // TODO: why parseHttpRequest can just return parseHttpRequestAbort // (which becomes context) but checkHeaderLimits cannot? checkHeaderLimits(); break; } /* status -1 or 1 */ if (context) { debugs(33, 5, HERE << clientConnection << ": parsed a request"); AsyncCall::Pointer timeoutCall = commCbCall(5, 4, "clientLifetimeTimeout", CommTimeoutCbPtrFun(clientLifetimeTimeout, context->http)); commSetConnTimeout(clientConnection, Config.Timeout.lifetime, timeoutCall); processParsedRequest(context, http_ver); @@ -3235,88 +3509,93 @@ #if USE_OPENSSL sslBumpMode(Ssl::bumpEnd), switchedToHttps_(false), sslServerBump(NULL), #endif stoppedSending_(NULL), stoppedReceiving_(NULL) { pinning.host = NULL; pinning.port = -1; pinning.pinned = false; pinning.auth = false; pinning.zeroReply = false; pinning.peer = NULL; // store the details required for creating more MasterXaction objects as new requests come in clientConnection = xact->tcpClient; port = xact->squidPort; log_addr = xact->tcpClient->remote; log_addr.applyMask(Config.Addrs.client_netmask); - flags.readMore = true; // kids may overwrite } void ConnStateData::start() { BodyProducer::start(); HttpControlMsgSink::start(); - // ensure a buffer is present for this connection - in.maybeMakeSpaceAvailable(); - if (port->disable_pmtu_discovery != DISABLE_PMTU_OFF && (transparent() || port->disable_pmtu_discovery == DISABLE_PMTU_ALWAYS)) { #if defined(IP_MTU_DISCOVER) && defined(IP_PMTUDISC_DONT) int i = IP_PMTUDISC_DONT; if (setsockopt(clientConnection->fd, SOL_IP, IP_MTU_DISCOVER, &i, sizeof(i)) < 0) debugs(33, 2, "WARNING: Path MTU discovery disabling failed on " << clientConnection << " : " << xstrerror()); #else static bool reported = false; if (!reported) { debugs(33, DBG_IMPORTANT, "NOTICE: Path MTU discovery disabling is not supported on your platform."); reported = true; } #endif } + // ensure a buffer is present for this connection + in.maybeMakeSpaceAvailable(); + typedef CommCbMemFunT Dialer; AsyncCall::Pointer call = JobCallback(33, 5, Dialer, this, ConnStateData::connStateClosed); comm_add_close_handler(clientConnection->fd, call); if (Config.onoff.log_fqdn) fqdncache_gethostbyaddr(clientConnection->remote, FQDN_LOOKUP_IF_MISS); #if USE_IDENT if (Ident::TheConfig.identLookup) { ACLFilledChecklist identChecklist(Ident::TheConfig.identLookup, NULL, NULL); identChecklist.src_addr = clientConnection->remote; identChecklist.my_addr = clientConnection->local; if (identChecklist.fastCheck() == ACCESS_ALLOWED) Ident::Start(clientConnection, clientIdentDone, this); } #endif clientdbEstablished(clientConnection->remote, 1); + needProxyProtocolHeader_ = port->flags.proxySurrogate; + if (needProxyProtocolHeader_) { + if (!proxyProtocolValidateClient()) // will close the connection on failure + return; + } + #if USE_DELAY_POOLS fd_table[clientConnection->fd].clientInfo = NULL; if (Config.onoff.client_db) { /* it was said several times that client write limiter does not work if client_db is disabled */ ClientDelayPools& pools(Config.ClientDelay.pools); ACLFilledChecklist ch(NULL, NULL, NULL); // TODO: we check early to limit error response bandwith but we // should recheck when we can honor delay_pool_uses_indirect // TODO: we should also pass the port details for myportname here. ch.src_addr = clientConnection->remote; ch.my_addr = clientConnection->local; for (unsigned int pool = 0; pool < pools.size(); ++pool) { /* pools require explicit 'allow' to assign a client into them */ if (pools[pool].access) { ch.accessList = pools[pool].access; @@ -3499,41 +3778,41 @@ debugs(83, 3, "clientNegotiateSSL: FD " << fd << " negotiated cipher " << SSL_get_cipher(ssl)); client_cert = SSL_get_peer_certificate(ssl); if (client_cert != NULL) { debugs(83, 3, "clientNegotiateSSL: FD " << fd << " client certificate: subject: " << X509_NAME_oneline(X509_get_subject_name(client_cert), 0, 0)); debugs(83, 3, "clientNegotiateSSL: FD " << fd << " client certificate: issuer: " << X509_NAME_oneline(X509_get_issuer_name(client_cert), 0, 0)); X509_free(client_cert); } else { debugs(83, 5, "clientNegotiateSSL: FD " << fd << " has no certificate."); } - conn->readSomeData(); + AsyncJob::Start(conn); } /** * If SSL_CTX is given, starts reading the SSL handshake. * Otherwise, calls switchToHttps to generate a dynamic SSL_CTX. */ static void httpsEstablish(ConnStateData *connState, SSL_CTX *sslContext, Ssl::BumpMode bumpMode) { SSL *ssl = NULL; assert(connState); const Comm::ConnectionPointer &details = connState->clientConnection; if (sslContext && !(ssl = httpsCreate(details, sslContext))) return; typedef CommCbMemFunT TimeoutDialer; AsyncCall::Pointer timeoutCall = JobCallback(33, 5, TimeoutDialer, connState, ConnStateData::requestTimeout); commSetConnTimeout(details, Config.Timeout.request, timeoutCall); === modified file 'src/client_side.h' --- src/client_side.h 2014-08-10 02:28:33 +0000 +++ src/client_side.h 2014-08-12 14:55:00 +0000 @@ -420,40 +420,50 @@ virtual ClientSocketContext *parseOneRequest(Http::ProtocolVersion &ver) = 0; /// start processing a freshly parsed request virtual void processParsedRequest(ClientSocketContext *context, const Http::ProtocolVersion &ver) = 0; /// returning N allows a pipeline of 1+N requests (see pipeline_prefetch) virtual int pipelinePrefetchMax() const; /// timeout to use when waiting for the next request virtual time_t idleTimeout() const = 0; BodyPipe::Pointer bodyPipe; ///< set when we are reading request body private: int connFinishedWithConn(int size); void clientAfterReadingRequests(); bool concurrentRequestQueueFilled() const; void pinNewConnection(const Comm::ConnectionPointer &pinServer, HttpRequest *request, CachePeer *aPeer, bool auth); + /* PROXY protocol functionality */ + bool proxyProtocolValidateClient(); + bool parseProxyProtocolHeader(); + bool parseProxy1p0(); + bool parseProxy2p0(); + bool proxyProtocolError(const char *reason); + + /// whether PROXY protocol header is still expected + bool needProxyProtocolHeader_; + #if USE_AUTH /// some user details that can be used to perform authentication on this connection Auth::UserRequest::Pointer auth_; #endif #if USE_OPENSSL bool switchedToHttps_; /// The SSL server host name appears in CONNECT request or the server ip address for the intercepted requests String sslConnectHostOrIp; ///< The SSL server host name as passed in the CONNECT request String sslCommonName; ///< CN name for SSL certificate generation String sslBumpCertKey; ///< Key to use to store/retrieve generated certificate /// HTTPS server cert. fetching state for bump-ssl-server-first Ssl::ServerBump *sslServerBump; Ssl::CertSignAlgorithm signAlgorithm; ///< The signing algorithm to use #endif /// the reason why we no longer write the response or nil const char *stoppedSending_; /// the reason why we no longer read the request or nil