sni
4 TopicsTLS server_name extension based routing without clientssl profile
Problem this snippet solves: Some configuration requires to not decrypt SSL traffic on F5 appliances to select pool based on HTTP Host header. I found a useful irule and this code keeps the structure and most of binary commands of it. I'm not sure if the first author was Kevin Stewart or Colin Walker. thanks both of them to have provided such code. I worked to understand it reading TLS 1.2 RFC 5246 and TLS 1.3 draft-23 and provided some enhancements and following description with irule variables references. According to TLS 1.3 draft-23, this code will still be valid with next TLS version. the following network diagram shows one use cases where this code will help. This diagram show how this code works based on the tls_servername_routing_dg Datagroup values and detected server name and TLS versions detected in the CLIENT_HELLO packet. For performances reasons, only the first TCP data packet is analyzed. Versions : 1.1 : Updated to support TLS version detection and SSL offload feature. (05/03/2018) 1.2 : Updated to support TLS Handshake Failure Messages instead of reject. (09/03/2018) 1.3 : Updated to support node forwarding, logs only for debug (disabled with static variable), and changed the Datagroup name to tls_servername_routing_dg . (16/03/2018) 1.4 : Added 16K handshake length limit defined in RFC 1.2 in variable payload. (13/04/2018) 1.5 : Added supported version extension recursion, to bypass unknown TLS version if a known and allowed version is in the list. This correct an issue with Google chrome which include not documented TLS version on top of the list. (30/04/2018) How to use this snippet: create a virtual server with following configuration: type : Standard SSL Profile (client) : Only if you want to enable SSL offload for some pools irule : code bellow create all objects used in following datagroup (virtual servers, pools) create a data-group named tls_servername_routing_dg. if you want to forward to pool, add the value pool NameOfPool if you want to forward to pool and enable SSL Offload (ClientSSL profile must be enabled on virtual server), add the value pool NameOfPool ssl_offload if you want to forward to virtual server, add the value virtual NameOfVirtual if you want to forward to an IP address, add the value node IPOfServer , backend server will not be translated if you want to reject the connection with RFC compliant handshake_failure message, add the value handshake_failure if you want to reject the connection, add the value reject if you want to drop the connection, add the value drop The default value keyword is search if there is no TLS server name extension or if TLS server name extension is not found in the data group. here is an example: ltm data-group internal tls_servername_routing_dg { records { app1.company.com { data "virtual vs_app1.company.com" } app2.company.com { data "pool p_app2" } app3.company.com { data "pool p_app3 ssl_offload" } app4.company.com { reject } default { data "handshake_failure" } } type string } Code : when RULE_INIT { set static::sni_routing_debug 0 } when CLIENT_ACCEPTED { if { [PROFILE::exists clientssl] } { # We have a clientssl profile attached to this VIP but we need # to find an SNI record in the client handshake. To do so, we'll # disable SSL processing and collect the initial TCP payload. set ssldisable "SSL::disable" set sslenable "SSL::enable" eval $ssldisable } TCP::collect set default_pool [LB::server pool] set tls_servername "" set tls_handshake_prefered_version "0000" } when CLIENT_DATA { # Store TCP Payload up to 2^14 + 5 bytes (Handshake length is up to 2^14) set payload [TCP::payload 16389] set payloadlen [TCP::payload length] # - Record layer content-type (1 byte) --> variable tls_record_content_type # Handshake value is 22 (required for CLIENT_HELLO packet) # - SSLv3 / TLS version. (2 byte) --> variable tls_version # SSLv3 value is 0x0300 (doesn't support SNI, not valid in first condition) # TLS_1.0 value is 0x0301 # TLS_1.1 value is 0x0302, 0x0301 in CLIENT_HELLO handskake packet for backward compatibility (not specified in RFC, that's why the value 0x0302 is allowed in condition) # TLS_1.2 value is 0x0303, 0x0301 in CLIENT_HELLO handskake packet for backward compatibility (not specified in RFC, that's why the value 0x0303 is allowed in condition) # TLS_1.3 value is 0x0304, 0x0301 in CLIENT_HELLO handskake packet for backward compatibility (explicitly specified in RFC) # TLS_1.3 drafts values are 0x7FXX (XX is the hexadecimal encoded draft version), 0x0301 in CLIENT_HELLO handskake packet for backward compatibility (explicitly specified in RFC) # - Record layer content length (2 bytes) : must match payload length --> variable tls_recordlen # - TLS Hanshake protocol (length defined by Record layer content length value) # - Handshake action (1 byte) : CLIENT_HELLO = 1 --> variable tls_handshake_action # - handshake length (3 bytes) # - SSL / TLS handshake version (2 byte) # In TLS 1.3 CLIENT_HELLO handskake packet, TLS hanshake version is sent whith 0303 (TLS 1.2) version for backward compatibility. a new TLS extension add version negociation. # - hanshake random (32 bytes) # - handshake sessionID length (1 byte) --> variable tls_handshake_sessidlen # - handshake sessionID (length defined by sessionID length value, max 32-bit) # - CipherSuites length (2 bytes) --> variable tls_ciphlen # - CipherSuites (length defined by CipherSuites length value) # - Compression length (2 bytes) --> variable tls_complen # - Compression methods (length defined by Compression length value) # - Extensions # - Extension length (2 bytes) --> variable tls_extension_length # - list of Extensions records (length defined by extension length value) # - extension record type (2 bytes) : server_name = 0, supported_versions = 43--> variable tls_extension_type # - extension record length (2 bytes) --> variable tls_extension_record_length # - extension data (length defined by extension record length value) # # TLS server_name extension data format: # - SNI record length (2 bytes) # - SNI record data (length defined by SNI record length value) # - SNI record type (1 byte) # - SNI record value length (2 bytes) # - SNI record value (length defined by SNI record value length value) --> variable tls_servername # # TLS supported_version extension data format (added in TLS 1.3): # - supported version length (1 bytes) --> variable tls_supported_versions_length # - List of supported versions (2 bytes per version) --> variable tls_supported_versions # If valid TLS 1.X CLIENT_HELLO handshake packet if { [binary scan $payload cH4Scx3H4x32c tls_record_content_type tls_version tls_recordlen tls_handshake_action tls_handshake_version tls_handshake_sessidlen] == 6 && \ ($tls_record_content_type == 22) && \ ([string match {030[1-3]} $tls_version]) && \ ($tls_handshake_action == 1) && \ ($payloadlen == $tls_recordlen+5)} { # store in a variable the handshake version set tls_handshake_prefered_version $tls_handshake_version # skip past the session id set record_offset [expr {44 + $tls_handshake_sessidlen}] # skip past the cipher list binary scan $payload @${record_offset}S tls_ciphlen set record_offset [expr {$record_offset + 2 + $tls_ciphlen}] # skip past the compression list binary scan $payload @${record_offset}c tls_complen set record_offset [expr {$record_offset + 1 + $tls_complen}] # check for the existence of ssl extensions if { ($payloadlen > $record_offset) } { # skip to the start of the first extension binary scan $payload @${record_offset}S tls_extension_length set record_offset [expr {$record_offset + 2}] # Check if extension length + offset equals payload length if {$record_offset + $tls_extension_length == $payloadlen} { # for each extension while { $record_offset < $payloadlen } { binary scan $payload @${record_offset}SS tls_extension_type tls_extension_record_length if { $tls_extension_type == 0 } { # if it's a servername extension read the servername # SNI record value start after extension type (2 bytes), extension record length (2 bytes), record type (2 bytes), record type (1 byte), record value length (2 bytes) = 9 bytes binary scan $payload @[expr {$record_offset + 9}]A[expr {$tls_extension_record_length - 5}] tls_servername set record_offset [expr {$record_offset + $tls_extension_record_length + 4}] } elseif { $tls_extension_type == 43 } { # if it's a supported_version extension (starting with TLS 1.3), extract supported version in a list binary scan $payload @[expr {${record_offset} + 4}]cS[expr {($tls_extension_record_length -1)/2}] tls_supported_versions_length tls_supported_versions set tls_handshake_prefered_version [list] foreach version $tls_supported_versions { lappend tls_handshake_prefered_version [format %04X [expr { $version & 0xffff }] ] } if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : prefered version list : $tls_handshake_prefered_version"} set record_offset [expr {$record_offset + $tls_extension_record_length + 4}] } else { # skip over other extensions set record_offset [expr {$record_offset + $tls_extension_record_length + 4}] } } } } } elseif { [binary scan $payload cH4 ssl_record_content_type ssl_version] == 2 && \ ($tls_record_content_type == 22) && \ ($tls_version == 0300)} { # SSLv3 detected set tls_handshake_prefered_version "0300" } elseif { [binary scan $payload H2x1H2 ssl_version handshake_protocol_message] == 2 && \ ($ssl_version == 80) && \ ($handshake_protocol_message == 01)} { # SSLv2 detected set tls_handshake_prefered_version "0200" } unset -nocomplain payload payloadlen tls_record_content_type tls_recordlen tls_handshake_action tls_handshake_sessidlen record_offset tls_ciphlen tls_complen tls_extension_length tls_extension_type tls_extension_record_length tls_supported_versions_length tls_supported_versions foreach version $tls_handshake_prefered_version { switch -glob -- $version { "0200" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : SSLv2 ; connection is rejected"} reject return } "0300" - "0301" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : SSL/TLS ; connection is rejected (0x$version)"} # Handshake Failure packet format: # # - Record layer content-type (1 byte) --> variable tls_record_content_type # Alert value is 21 (required for Handshake Failure packet) # - SSLv3 / TLS version. (2 bytes) --> from variable tls_version # - Record layer content length (2 bytes) : value is 2 for Alert message # - TLS Message (length defined by Record layer content length value) # - Level (1 byte) : value is 2 (fatal) # - Description (1 bytes) : value is 40 (Handshake Failure) TCP::respond [binary format cH4Scc 21 $tls_version 2 2 40] after 10 TCP::close #drop #reject return } "030[2-9]" - "7F[0-9A-F][0-9A-F]" { # TLS version allowed, do nothing break } "0000" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : No SSL/TLS protocol detected ; connection is rejected (0x$version)"} reject return } default { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : Unknown CLIENT_HELLO TLS handshake prefered version : 0x$version"} } } } if { $tls_servername equals "" || ([set sni_dg_value [class match -value [string tolower $tls_servername] equals tls_servername_routing_dg]] equals "")} { set sni_dg_value [class match -value "default" equals tls_servername_routing_dg] } switch [lindex $sni_dg_value 0] { "virtual" { if {[catch {virtual [lindex $sni_dg_value 1]}]} { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; Virtual server [lindex $sni_dg_value 1] doesn't exist"} } else { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; forwarded to Virtual server [lindex $sni_dg_value 1]"} } } "pool" { if {[catch {pool [lindex $sni_dg_value 1]}]} { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; Pool [lindex $sni_dg_value 1] doesn't exist"} } else { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; forwarded to Pool [lindex $sni_dg_value 1]"} } if {[lindex $sni_dg_value 2] equals "ssl_offload" && [info exists sslenable]} { eval $sslenable } } "node" { if {[catch {node [lindex $sni_dg_value 1]}]} { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; Invalid Node value [lindex $sni_dg_value 1]"} } else { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; forwarded to Node [lindex $sni_dg_value 1]"} } } "handshake_failure" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; connection is rejected (with Handshake Failure message)"} TCP::respond [binary format cH4Scc 21 $tls_handshake_prefered_version 2 2 40] after 10 TCP::close return } "reject" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; connection is rejected"} reject return } "drop" { if {$static::sni_routing_debug} {log local0. "[IP::remote_addr] : TLS server_name value = ${tls_servername} ; TLS prefered version = 0x${tls_handshake_prefered_version} ; connection is dropped"} drop return } } TCP::release }3.6KViews6likes10CommentsServerside SNI injection iRule
Problem this snippet solves: Hi Folks, the iRule below can be used to inject a TLS SNI extension to the server side based on e.g. HOST-Header values. The iRule is usefull if your pool servers depending on valid SNI records and you don't want to configure dedicated Server SSL Profiles for each single web application. Cheers, Kai How to use this snippet: Attach the iRule to the Virtual Server where you need to insert a TLS SNI expension Tweak the $sni_value variable within the HTTP_REQUEST to meet your requirements or move it to a different event as needed. Make sure you've cleared the "Server Name" option in your Server_SSL_Profile. Code : when HTTP_REQUEST { #Set the SNI value (e.g. HTTP::host) set sni_value [getfield [HTTP::host] ":" 1] } when SERVERSSL_CLIENTHELLO_SEND { # SNI extension record as defined in RFC 3546/3.1 # # - TLS Extension Type = int16( 0 = SNI ) # - TLS Extension Length = int16( $sni_length + 5 byte ) # - SNI Record Length = int16( $sni_length + 3 byte) # - SNI Record Type = int8( 0 = HOST ) # - SNI Record Value Length = int16( $sni_length ) # - SNI Record Value = str( $sni_value ) # # Calculate the length of the SNI value, Compute the SNI Record / TLS extension fields and add the result to the SERVERSSL_CLIENTHELLO SSL::extensions insert [binary format SSScSa* 0 [expr { [set sni_length [string length $sni_value]] + 5 }] [expr { $sni_length + 3 }] 0 $sni_length $sni_value] } Tested this on version: 12.06.3KViews7likes30CommentsSNI Routing with DNS Lookup
SNI (Server Name Indication) is an extension of the TLS protocol that is used by the client to indicate the hostname it is attempting to connect to at the start of the SSLhandshake. In the case of the BIG-IP the SNI can be used to select which client SSL profile should be applied to the ingress traffic but it requires at least one client SSL profile to be attached to the virtual server. In other words the SSL data must still be decrypted. This iRule which is suitable for some SSLO use cases does not require SSL traffic to be terminated (i.e. decrypted) on the BIG-IP. It only needs a generic SSL persistence profile to be attached to the virtual server and this just to circumvent MCP validation issues. Once the CLIENTSSL_CLIENTHELLO iRule event is triggered, the SNI can then be determined and used to steer traffic. In this example below, once the SNI is found, an attempt is made to resolve it using DNS and then route the request using the BIG-IP to a gateway which could (in the case of SSLO) be a Secure Web Gateway device. Note SSL::extensions -type <extension type value> returns the opaque extension byte array corresponding to the specified extension type value, or an empty string if not found. Extension Type 0 is the server name. The "node" command is useful if you want to send traffic to a specific IP/port combination that is not defined as a pool member iRule [root@sslo:Active:Standalone] config # tmsh list ltm rule bluecoat ltm rule bluecoat { when RULE_INIT { set static::resolver "8.8.8.8" } when CLIENT_ACCEPTED { HTTP::disable } when CLIENTSSL_CLIENTHELLO { set s_sni "NULL" set sni_exists [SSL::extensions exists -type 0] if {$sni_exists} { binary scan [SSL::extensions -type 0] @9a* s_sni log local0. "sni: $s_sni" if { [catch "RESOLV::lookup @$static::resolver -a ${s_sni}" addrs] } { log local0. "DNS resolution error" reject } else { log local0. "Resolved: [lindex ${addrs} 0]" node [lindex ${addrs} 0] [TCP::local_port] } } } }2.1KViews2likes3CommentsClient side to server side SNI relay iRule
Problem this snippet solves: Hi Folks, the iRule below can be used to relay client side provided TLS SNI extensions to the server side. The iRule is usefull if your pool servers depending on matching SNI records and you don't want to configure dedicated Server SSL Profiles for each single web application. Cheers, Kai How to use this snippet: Attach the iRule to the Virtual Server where you need to relay the TLS SNI expensions Make sure you've cleared the "Server Name" option in your Server_SSL_Profile Code : when CLIENTSSL_HANDSHAKE { if { [SSL::extensions exists -type 0] } then { set tls_sni_extension [SSL::extensions -type 0] } else { set tls_sni_extension "" } } when SERVERSSL_CLIENTHELLO_SEND { if { $tls_sni_extension ne "" } then { SSL::extensions insert $tls_sni_extension } } Tested this on version: 12.0750Views0likes0Comments