#! /usr/pkg/bin/expect --
##
## $Id: blogin.in 3519 2016-12-01 00:23:58Z heas $
##
## rancid 3.6.2
## Copyright (c) 1997-2016 by Henry Kilmer and John Heasley
## All rights reserved.
##
## This code is derived from software contributed to and maintained by
## Henry Kilmer, John Heasley, Andrew Partan,
## Pete Whiting, Austin Schutz, and Andrew Fort.
##
## Redistribution and use in source and binary forms, with or without
## modification, are permitted provided that the following conditions
## are met:
## 1. Redistributions of source code must retain the above copyright
##    notice, this list of conditions and the following disclaimer.
## 2. Redistributions in binary form must reproduce the above copyright
##    notice, this list of conditions and the following disclaimer in the
##    documentation and/or other materials provided with the distribution.
## 3. All advertising materials mentioning features or use of this software
##    must display the following acknowledgement:
##        This product includes software developed by Henry Kilmer and John
##        Heasley and its contributors for RANCID.
## 4. Neither the name of RANCID nor the names of its
##    contributors may be used to endorse or promote products derived from
##    this software without specific prior written permission.
## 5. It is requested that non-binding fixes and modifications be contributed
##    back to RANCID.
##
## THIS SOFTWARE IS PROVIDED BY Henry Kilmer, John Heasley AND CONTRIBUTORS
## ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
## TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
## PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COMPANY OR CONTRIBUTORS
## BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
## CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
## SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
## INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
## CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
## ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
## POSSIBILITY OF SUCH DAMAGE.
##
## It is the request of the authors, but not a condition of license, that
## parties packaging or redistributing RANCID NOT distribute altered versions
## of the etc/rancid.types.base file nor alter how this file is processed nor
## when in relation to etc/rancid.types.conf.  The goal of this is to help
## suppress our support costs.  If it becomes a problem, this could become a
## condition of license.
# 
#  The expect login scripts were based on Erik Sherk's gwtn, by permission.
# 
#  The original looking glass software was written by Ed Kern, provided by
#  permission and modified beyond recognition.
#
# blogin - Bay Networks(Nortel) login
#
# Unlike the Cisco's, there is no enable function on the Bay's.  Instead
# there are seperate User and Manager accounts.  A 'system' command exists,
# which I am told does nothing.
#
# The "bcc>" prompt changes to "box#", not "bcc#" after the config command.
#

# Usage line
set usage "Usage: $argv0 \[-dSV\] \[-autoenable\] \[-noenable\] \[-c command\] \
\[-Evar=x\] \[-e enable-password\] \[-f cloginrc-file\] \[-p user-password\] \
\[-s script-file\] \[-t timeout\] \[-u username\] \
\[-v vty-password\] \[-w enable-username\] \[-x command-file\] \
\[-y ssh_cypher_type\] router \[router...\]\n"

# env(CLOGIN) may contain:
#	x == do not set xterm banner or name

# Password file
set password_file $env(HOME)/.cloginrc
# Default is to login to the router
set do_command 0
set do_script 0
# The default is to automatically enable
set avenable 0
# The default is that you login non-enabled (tacacs can have you login already
# enabled)
set avautoenable 0
# The default is to look in the password file to find the passwords.  This
# tracks if we receive them on the command line.
set do_passwd 1
set do_enapasswd 0
# Save config, if prompted
set do_saveconfig 0
# Sometimes routers take awhile to answer (the default is 10 sec)
set timeoutdflt 45
# Some CLIs having problems if we write too fast (Extreme, PIX, Cat)
set send_human {.2 .1 .4 .2 1}

# Find the user in the ENV, or use the unix userid.
if {[ info exists env(CISCO_USER) ]} {
    set default_user $env(CISCO_USER)
} elseif {[ info exists env(USER) ]} {
    set default_user $env(USER)
} elseif {[ info exists env(LOGNAME) ]} {
    set default_user $env(LOGNAME)
} else {
    # This uses "id" which I think is portable.  At least it has existed
    # (without options) on all machines/OSes I've been on recently -
    # unlike whoami or id -nu.
    if [ catch {exec id} reason ] {
	send_error "\nError: could not exec id: $reason\n"
	exit 1
    }
    regexp {\(([^)]*)} "$reason" junk default_user
}
if {[ info exists env(CLOGINRC) ]} {
    set password_file $env(CLOGINRC)
}

# Process the command line
for {set i 0} {$i < $argc} {incr i} {
    set arg [lindex $argv $i]

    switch  -glob -- $arg {
	# Expect debug mode
	-d* {
	    exp_internal 1
	# Username
	} -u* {
	    if {! [  regexp .\[uU\](.+) $arg ignore user]} {
		incr i
		set username [ lindex $argv $i ]
	    }
	# VTY Password
	} -p* {
	    if {! [  regexp .\[pP\](.+) $arg ignore userpasswd]} {
		incr i
		set userpasswd [ lindex $argv $i ]
	    }
	    set do_passwd 0
	# ssh passphrase
	} -r* {
	    # ignore -r
	# VTY Password
	} -v* {
	    if {! [  regexp .\[vV\](.+) $arg ignore passwd]} {
		incr i
		set passwd [ lindex $argv $i ]
	    }
	    set do_passwd 0
	# Version string
	} -V* {
	    send_user "rancid 3.6.2\n"
	    exit 0
	# Enable Username
	} -w* {
	    if {! [  regexp .\[wW\](.+) $arg ignore enauser]} {
		incr i
		set enausername [ lindex $argv $i ]
	    }
        # Environment variable to pass to -s scripts
	} -E* {
	    if {[ regexp .\[E\](.+)=(.+) $arg ignore varname varvalue]} {
		set E$varname $varvalue
	    } else {
		send_user "\nError: invalid format for -E in $arg\n"
		exit 1
	    }
	# Enable Password
	} -e* {
	    if {! [  regexp .\[eE\](.+) $arg ignore enapasswd]} {
		incr i
		set enapasswd [ lindex $argv $i ]
	    }
	    set do_enapasswd 0
	# Command to run.
	} -c* {
	    if {! [  regexp .\[cC\](.+) $arg ignore command]} {
		incr i
		set command [ lindex $argv $i ]
	    }
	    set do_command 1
	# Expect script to run.
	} -s* {
	    if {! [  regexp .\[sS\](.+) $arg ignore sfile]} {
		incr i
		set sfile [ lindex $argv $i ]
	    }
	    if { ! [ file readable $sfile ] } {
		send_user "\nError: Can't read $sfile\n"
		exit 1
	    }
	    set do_script 1
	# save config on exit
	} -S* {
	    set do_saveconfig 1
	# 'ssh -c' cypher type
	} -y* {
	    if {! [  regexp .\[eE\](.+) $arg ignore cypher]} {
		incr i
		set cypher [ lindex $argv $i ]
	    }
	# alternate cloginrc file
	} -f* {
	    if {! [ regexp .\[fF\](.+) $arg ignore password_file]} {
		incr i
		set password_file [ lindex $argv $i ]
	    }
	# Timeout
	} -t* {
	    if {! [ regexp .\[tT\](.+) $arg ignore timeout]} {
		incr i
	        set timeoutdflt [ lindex $argv $i ]
	    }
	# Command file
	} -x* {
	    if {! [  regexp .\[xX\](.+) $arg ignore cmd_file]} {
		incr i
		set cmd_file [ lindex $argv $i ]
	    }
	    set cmd_fd [open $cmd_file r]
	    set cmd_text [read $cmd_fd]
	    close $cmd_fd
	    set command [join [split $cmd_text \n] \;]
	    set do_command 1
	# Do we enable?
	} -noenable {
	    set avenable 0
	# Does tacacs automatically enable us?
	} -autoenable {
	    set avautoenable 1
	    set avenable 0
	} -* {
	    send_user "\nError: Unknown argument! $arg\n"
	    send_user $usage
	    exit 1
	} default {
	    break
	}
    }
}
# Process routers...no routers listed is an error.
if { $i == $argc } {
    send_user "\nError: $usage"
}

# Only be quiet if we are running a script (it can log its output
# on its own)
if { $do_script } {
    log_user 0
} else {
    log_user 1
}

#
# Done configuration/variable setting.  Now run with it...
#

# Sets Xterm title if interactive...if its an xterm and the user cares
proc label { host } {
    global env
    # if CLOGIN has an 'x' in it, don't set the xterm name/banner
    if [info exists env(CLOGIN)] {
	if {[string first "x" $env(CLOGIN)] != -1} { return }
    }
    # take host from ENV(TERM)
    if [info exists env(TERM)] {
	if [regexp \^(xterm|vs) $env(TERM) ignore ] {
	    send_user "\033]1;[lindex [split $host "."] 0]\a"
	    send_user "\033]2;$host\a"
	}
    }
}

# This is a helper function to make the password file easier to
# maintain.  Using this the password file has the form:
# add password sl*	pete cow
# add password at*	steve
# add password *	hanky-pie
proc add {var args} { global int_$var ; lappend int_$var $args}
proc include {args} {
    global env
    regsub -all "(^{|}$)" $args {} args
    if { [ regexp "^/" $args ignore ] == 0 } {
	set args $env(HOME)/$args
    }
    source_password_file $args
}

proc find {var router} {
    upvar int_$var list
    if { [info exists list] } {
	foreach line $list {
	    if { [string match -nocase [lindex $line 0] $router ] } {
		return [lrange $line 1 end]
	    }
	}
    }
    return {}
}

# Loads the password file.  Note that as this file is tcl, and that
# it is sourced, the user better know what to put in there, as it
# could install more than just password info...  I will assume however,
# that a "bad guy" could just as easy put such code in the clogin
# script, so I will leave .cloginrc as just an extention of that script
proc source_password_file { password_file } {
    global env
    if { ! [file exists $password_file] } {
	send_user "\nError: password file ($password_file) does not exist\n"
	exit 1
    }
    file stat $password_file fileinfo
    if { [expr ($fileinfo(mode) & 007)] != 0000 } {
	send_user "\nError: $password_file must not be world readable/writable\n"
	exit 1
    }
    if [ catch {source $password_file} reason ] {
	send_user "\nError: $reason\n"
	exit 1
    }
}

# Log into the router.
# returns: 0 on success, 1 on failure
proc login { router user userpswd passwd enapasswd prompt cmethod cyphertype } {
    global spawn_id in_proc do_command do_script
    global u_prompt p_prompt e_prompt sshcmd
    set in_proc 1

    # try each of the connection methods in $cmethod until one is successful
    set progs [llength $cmethod]
    foreach prog [lrange $cmethod 0 end] {
	incr progs -1
	if [string match "telnet*" $prog] {
	    regexp {telnet(:([^[:space:]]+))*} $prog command suffix port
	    if {"$port" == ""} {
		set retval [ catch {spawn telnet $router} reason ]
	    } else {
		set retval [ catch {spawn telnet $router $port} reason ]
	    }
	    if { $retval } {
		send_user "\nError: telnet failed: $reason\n"
		return 1
	    }
	} elseif ![string compare $prog "ssh"] {
	    regexp {ssh(:([^[:space:]]+))*} $prog methcmd suffix port
	    set cmd $sshcmd
	    if {"$port" != ""} {
		set cmd "$cmd -p $port"
	    }
	    if {"$cyphertype" != ""} {
		set cmd "$cmd -c $cyphertype"
	    }
	    set retval [ catch {eval spawn [split "$cmd -x -l $user $router" { }]} reason ]
	    if { $retval } {
		send_user "\nError: $cmd failed: $reason\n"
		return 1
	    }
	} elseif ![string compare $prog "rsh"] {
	    send_error "\nError: unsupported method: rsh\n"
	    if { $progs == 0 } {
		return 1
	    }
	    continue;
	} else {
	    send_user "\nError: unknown connection method: $prog\n"
	    return 1
	}
	sleep 0.3

	# This helps cleanup each expect clause.
	expect_after {
	    timeout {
		global in_proc
		send_user "\nError: TIMEOUT reached\n"
		catch {close}; catch {wait};
		if {$in_proc} {
		    return 1
		} else {
		    continue
		}
	    } eof {
		global in_proc
		send_user "\nError: EOF received\n"
		catch {close}; catch {wait};
		if {$in_proc} {
		    return 1
		} else {
		    continue
		}
	    }
	}

    # Here we get a little tricky.  There are several possibilities:
    # the router can ask for a username and passwd and then
    # talk to the TACACS server to authenticate you, or if the
    # TACACS server is not working, then it will use the enable
    # passwd.  Or, the router might not have TACACS turned on,
    # then it will just send the passwd.
    # if telnet fails with connection refused, try ssh
    expect {
	-re "(Connection refused|Secure connection \[^\n\r]+ refused|Connection closed by)" {
	    catch {close}; catch {wait};
	    if !$progs {
		send_user "\nError: Connection Refused ($prog)\n"; return 1
	    }
	}
	eof { send_user "\nError: Couldn't login\n"; wait; return 1
	} -nocase "unknown host\r" {
	    catch {close}; catch {wait};
	    send_user "\nError: Unknown host\n"; wait; return 1
	} "Host is unreachable" {
	    catch {close}; catch {wait};
	    send_user "\nError: Host Unreachable!\n"; wait; return 1
	} "No address associated with name" {
	    catch {close}; catch {wait};
	    send_user "\nError: Unknown host\n"; wait; return 1
	}
	-re "(Host key not found |The authenticity of host .* be established).* \\(yes/no\\)\\?" {
	    send "yes\r"
	    send_user "\nHost $router added to the list of known hosts.\n"
	    exp_continue }
	-re "HOST IDENTIFICATION HAS CHANGED.* \\(yes/no\\)\\?" {
	    send "no\r"
	    send_user "\nError: The host key for $router has changed.  Update the SSH known_hosts file accordingly.\n"
	    return 1
	}
	-re "HOST IDENTIFICATION HAS CHANGED\[^\n\r]+" {
	    send_user "\nError: The host key for $router has changed.  Update the SSH known_hosts file accordingly.\n"
	    return 1
	}
	-re "Offending key for .* \\(yes/no\\)\\?" {
	    send "no\r"
	    send_user "\nError: host key mismatch for $router.  Update the SSH known_hosts file accordingly.\n"
	    return 1
	}
	-nocase -re "^warning: remote host denied authentication agent forwarding." {
	    exp_continue;
	}
	-re "$u_prompt"	{ send -- "$user\r"
	    expect {
		eof			{ send_user "\nError: Couldn't login\n"; wait; return 1 }
		"Login invalid"		{ send_user "\nError: Invalid login\n";
					  catch {close}; catch {wait};
					  return 1 }
		-re "$p_prompt"		{ send -- "$userpswd\r" }
		"$prompt"		{ set in_proc 0; return 0 }
	    }
	    exp_continue
	}
	-re "$p_prompt"	{
	    if ![string compare $prog "ssh"] {
		send -- "$userpswd\r"
	    } else {
		send -- "$passwd\r"
	    }
	    expect {
		eof		{ send_user "\nError: Couldn't login\n"; wait; return 1 }
		-re "$e_prompt"	{ send -- "$enapasswd\r" }
		"$prompt"	{ set in_proc 0; return 0 }
	    }
	    exp_continue
	}
	"$prompt"	{ break; }
	denied		{ send_user "\nError: Check your passwd for $router\n"
			  catch {close}; catch {wait}; return 1
			}
	"% Bad passwords" {send_user "\nError: Check your passwd for $router\n"; return 1 }
    }
}
    set in_proc 0
    return 0
}

# Enable
proc do_enable { enauser enapasswd } {
    global prompt in_proc
    global u_prompt e_prompt
    set in_proc 1

    send "enable\r"
    expect {
	-re "$u_prompt"	{ send -- "$enauser\r"; exp_continue}
	-re "$e_prompt"	{ send -- "$enapasswd\r"; exp_continue}
	"#"		{ set prompt "#" }
	"(enable)"	{ set prompt "> (enable) " }
	denied		{ send_user "\nError: Check your Enable passwd\n"
			  return 1
			}
	"% Bad passwords" {
			  send_user "\nError: Check your Enable passwd\n"
	  		  return 1
			}
    }
    # We set the prompt variable (above) so script files don't need
    # to know what it is.
    set in_proc 0
    return 0
}

# Run commands given on the command line.
proc run_commands { prompt command } {
    global in_proc
    set in_proc 1

    send "more off\r"

    expect $prompt {}

    regsub -all "\[)(]" $prompt {\\&} reprompt

    # handle escaped ;s in commands, and ;; and ^;
    regsub -all {([^\\]);;} $command "\\1;\u002;" esccommand
    regsub {^;} $esccommand "\u002;" command
    set sep "\\1\u001"
    regsub -all {([^\\])\;} $command "$sep" esccommand
    set sep "\u001"
    set commands [split $esccommand $sep]
    set num_commands [llength $commands]
    for {set i 0} {$i < $num_commands} { incr i} {
	send -- "[subst -nocommands [lindex $commands $i]]\r"
	expect {
	    -re "^\[^\n\r *]*$reprompt"		{}
	    -re "^\[^\n\r]*$reprompt."		{ exp_continue }
	    -re "\[\n\r]+"			{ exp_continue }
	}
    }
    send "logout\r"
    expect {
	"\n"					{ exp_continue }
	timeout					{ catch {close}; catch {wait};
						  return 0
						}
	eof					{ return 0 }
    }
    set in_proc 0
}

#
# For each router... (this is main loop)
#
source_password_file $password_file
set in_proc 0
set exitval 0
foreach router [lrange $argv $i end] {
    set router [string tolower $router]
    send_user "$router\n"

    # device timeout
    set timeout [find timeout $router]
    if { [llength $timeout] == 0 } {
	set timeout $timeoutdflt
    }

    # Figure out prompt.
    # Since autoenable is off by default, if we have it defined, it
    # was done on the command line. If it is not specifically set on the
    # command line, check the password file.
    if $avautoenable {
	set autoenable 1
	set enable 0
	set prompt "#"
    } else {
	set ae [find autoenable $router]
	if { "$ae" == "1" } {
	    set autoenable 1
	    set enable 0
	    set prompt "#"
	} else {
	    set autoenable 0
	    set enable $avenable
	    set prompt ">"
	}
    }

    # look for noenable option in .cloginrc
    if { [find noenable $router] == "1" } {
	set enable 0
    }

    # Figure out passwords
    if { $do_passwd || $do_enapasswd } {
      set pswd [find password $router]
      if { [llength $pswd] == 0 } {
	send_user "\nError - no password for $router in $password_file.\n"
	continue
      }
      if { $do_enapasswd && $autoenable == 0 && [llength $pswd] < 2 } {
	send_user "\nError - no enable password for $router in $password_file.\n"
	continue
      }
      set passwd [join [lindex $pswd 0] ""]
      set enapasswd [join [lindex $pswd 1] ""]
    } else {
	set passwd $userpasswd
	set enapasswd $enapasswd
    }

    # Figure out username
    if {[info exists username]} {
      # command line username
      set ruser $username
    } else {
      set ruser [join [find user $router] ""]
      if { "$ruser" == "" } { set ruser $default_user }
    }

    # Figure out username's password (if different from the vty password)
    if {[info exists userpasswd]} {
      # command line username
      set userpswd $userpasswd
    } else {
      set userpswd [join [find userpassword $router] ""]
      if { "$userpswd" == "" } { set userpswd $passwd }
    }

    # Figure out enable username
    if {[info exists enausername]} {
      # command line enausername
      set enauser $enausername
    } else {
      set enauser [join [find enauser $router] ""]
      if { "$enauser" == "" } { set enauser $ruser }
    }

    # Figure out prompts
    set u_prompt [find userprompt $router]
    if { "$u_prompt" == "" } {
	set u_prompt "(Username|login|user name):"
    } else {
	set u_prompt [join [lindex $u_prompt 0] ""]
    }
    set p_prompt [find passprompt $router]
    if { "$p_prompt" == "" } {
	set p_prompt "(\[Pp]assword|passwd):"
    } else {
	set p_prompt [join [lindex $p_prompt 0] ""]
    }
    set e_prompt [find enableprompt $router]
    if { "$e_prompt" == "" } {
	set e_prompt "\[Pp]assword:"
    } else {
	set e_prompt [join [lindex $e_prompt 0] ""]
    }

    # Figure out cypher type
    if {[info exists cypher]} {
      # command line cypher type
      set cyphertype $cypher
    } else {
      set cyphertype [find cyphertype $router]
    }

    # Figure out connection method
    set cmethod [find method $router]
    if { "$cmethod" == "" } { set cmethod {{telnet}} }

    # Figure out the SSH executable name
    set sshcmd [join [lindex [find sshcmd $router] 0] ""]
    if { "$sshcmd" == "" } { set sshcmd {ssh} }

    # Login to the router
    if {[login $router $ruser $userpswd $passwd $enapasswd $prompt $cmethod $cyphertype]} {
	incr exitval
	continue
    }
    if { $enable } {
	if {[do_enable $enauser $enapasswd]} {
	    if { $do_command || $do_script } {
		incr exitval
		catch {close}; catch {wait};
		continue
	    }
	}
    }

    if { $do_command } {
	if {[run_commands $prompt $command]} {
	    incr exitval
	    continue
	}
    } elseif { $do_script } {
	send "more off\r"
	expect $prompt	{}
	source $sfile
	catch {close};
    } else {
	label $router
	log_user 1
	interact
    }

    # End of for each router
    catch {wait};
    sleep 0.3
}
exit $exitval
