#
# Copyright (C) 1997-2000 Matt Newman <[email protected]>
#
# $Header: /home/rkeene/tmp/cvs2fossil/../tcltls/tls/tls/tls.tcl,v 1.12 2010/07/27 17:15:47 hobbs2 Exp $
#
namespace eval tls {
variable logcmd tclLog
variable debug 0
# Default flags passed to tls::import
variable defaults {}
# Maps UID to Server Socket
variable srvmap
variable srvuid 0
# Over-ride this if you are using a different socket command
variable socketCmd
if {![info exists socketCmd]} {
set socketCmd [info command ::socket]
}
}
proc tls::initlib {dir dll} {
# Package index cd's into the package directory for loading.
# Irrelevant to unixoids, but for Windows this enables the OS to find
# the dependent DLL's in the CWD, where they may be.
set cwd [pwd]
catch {cd $dir}
if {[string equal $::tcl_platform(platform) "windows"] &&
![string equal [lindex [file system $dir] 0] "native"]} {
# If it is a wrapped executable running on windows, the openssl
# dlls must be copied out of the virtual filesystem to the disk
# where Windows will find them when resolving the dependency in
# the tls dll. We choose to make them siblings of the executable.
package require starkit
set dst [file nativename [file dirname $starkit::topdir]]
foreach sdll [glob -nocomplain -directory $dir -tails *eay32.dll] {
catch {file delete -force $dst/$sdll}
catch {file copy -force $dir/$sdll $dst/$sdll}
}
}
set res [catch {uplevel #0 [list load [file join [pwd] $dll]]} err]
catch {cd $cwd}
if {$res} {
namespace eval [namespace parent] {namespace delete tls}
return -code $res $err
}
rename tls::initlib {}
}
#
# Backwards compatibility, also used to set the default
# context options
#
proc tls::init {args} {
variable defaults
set defaults $args
}
#
# Helper function - behaves exactly as the native socket command.
#
proc tls::socket {args} {
variable socketCmd
variable defaults
set idx [lsearch $args -server]
if {$idx != -1} {
set server 1
set callback [lindex $args [expr {$idx+1}]]
set args [lreplace $args $idx [expr {$idx+1}]]
set usage "wrong # args: should be \"tls::socket -server command ?options? port\""
set options "-cadir, -cafile, -certfile, -cipher, -command, -keyfile, -myaddr, -password, -request, -require, -ssl2, -ssl3, or -tls1"
} else {
set server 0
set usage "wrong # args: should be \"tls::socket ?options? host port\""
set options "-async, -cadir, -cafile, -certfile, -cipher, -command, -keyfile, -myaddr, -myport, -password, -request, -require, -ssl2, -ssl3, or -tls1"
}
set argc [llength $args]
set sopts {}
set iopts [concat [list -server $server] $defaults] ;# Import options
for {set idx 0} {$idx < $argc} {incr idx} {
set arg [lindex $args $idx]
switch -glob -- $server,$arg {
0,-async {lappend sopts $arg}
0,-myport -
*,-type -
*,-myaddr {lappend sopts $arg [lindex $args [incr idx]]}
*,-cadir -
*,-cafile -
*,-certfile -
*,-cipher -
*,-command -
*,-keyfile -
*,-password -
*,-request -
*,-require -
*,-ssl2 -
*,-ssl3 -
*,-tls1 {lappend iopts $arg [lindex $args [incr idx]]}
-* {return -code error "bad option \"$arg\": must be one of $options"}
default {break}
}
}
if {$server} {
if {($idx + 1) != $argc} {
return -code error $usage
}
set uid [incr ::tls::srvuid]
set port [lindex $args [expr {$argc-1}]]
lappend sopts $port
#set sopts [linsert $sopts 0 -server $callback]
set sopts [linsert $sopts 0 -server [list tls::_accept $iopts $callback]]
#set sopts [linsert $sopts 0 -server [list tls::_accept $uid $callback]]
} else {
if {($idx + 2) != $argc} {
return -code error $usage
}
set host [lindex $args [expr {$argc-2}]]
set port [lindex $args [expr {$argc-1}]]
lappend sopts $host $port
}
#
# Create TCP/IP socket
#
set chan [eval $socketCmd $sopts]
if {!$server && [catch {
#
# Push SSL layer onto socket
#
eval [list tls::import] $chan $iopts
} err]} {
set info ${::errorInfo}
catch {close $chan}
return -code error -errorinfo $info $err
}
return $chan
}
# tls::_accept --
#
# This is the actual accept that TLS sockets use, which then calls
# the callback registered by tls::socket.
#
# Arguments:
# iopts tls::import opts
# callback server callback to invoke
# chan socket channel to accept/deny
# ipaddr calling IP address
# port calling port
#
# Results:
# Returns an error if the callback throws one.
#
proc tls::_accept { iopts callback chan ipaddr port } {
log 2 [list tls::_accept $iopts $callback $chan $ipaddr $port]
set chan [eval [list tls::import $chan] $iopts]
lappend callback $chan $ipaddr $port
if {[catch {
uplevel #0 $callback
} err]} {
log 1 "tls::_accept error: ${::errorInfo}"
close $chan
error $err $::errorInfo $::errorCode
} else {
log 2 "tls::_accept - called \"$callback\" succeeded"
}
}
#
# Sample callback for hooking: -
#
# error
# verify
# info
#
proc tls::callback {option args} {
variable debug
#log 2 [concat $option $args]
switch -- $option {
"error" {
foreach {chan msg} $args break
log 0 "TLS/$chan: error: $msg"
}
"verify" {
# poor man's lassign
foreach {chan depth cert rc err} $args break
array set c $cert
if {$rc != "1"} {
log 1 "TLS/$chan: verify/$depth: Bad Cert: $err (rc = $rc)"
} else {
log 2 "TLS/$chan: verify/$depth: $c(subject)"
}
if {$debug > 0} {
return 1; # FORCE OK
} else {
return $rc
}
}
"info" {
# poor man's lassign
foreach {chan major minor state msg} $args break
if {$msg != ""} {
append state ": $msg"
}
# For tracing
upvar #0 tls::$chan cb
set cb($major) $minor
log 2 "TLS/$chan: $major/$minor: $state"
}
default {
return -code error "bad option \"$option\":\
must be one of error, info, or verify"
}
}
}
proc tls::xhandshake {chan} {
upvar #0 tls::$chan cb
if {[info exists cb(handshake)] && \
$cb(handshake) == "done"} {
return 1
}
while {1} {
vwait tls::${chan}(handshake)
if {![info exists cb(handshake)]} {
return 0
}
if {$cb(handshake) == "done"} {
return 1
}
}
}
proc tls::password {} {
log 0 "TLS/Password: did you forget to set your passwd!"
# Return the worlds best kept secret password.
return "secret"
}
proc tls::log {level msg} {
variable debug
variable logcmd
if {$level > $debug || $logcmd == ""} {
return
}
set cmd $logcmd
lappend cmd $msg
uplevel #0 $cmd
}