/usr/share/tcltk/tcllib1.14/bee/bee.tcl is in tcllib 1.14-dfsg-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# BitTorrent Bee de- and encoder.
#
# Copyright (c) 2004 by Andreas Kupries <andreas_kupries@users.sourceforge.net>
# See the file license.terms.
package require Tcl 8.4
namespace eval ::bee {
# Encoder commands
namespace export \
encodeString encodeNumber \
encodeListArgs encodeList \
encodeDictArgs encodeDict
# Decoder commands.
namespace export \
decode \
decodeChannel \
decodeCancel \
decodePush
# Channel decoders, reference to state information, keyed by
# channel handle.
variable bee
array set bee {}
# Counter for generation of names for the state variables.
variable count 0
# State information for the channel decoders.
# stateN, with N an integer number counting from 0 on up.
# ...(chan) Handle of channel the decoder is for.
# ...(cmd) Command prefix, completion callback
# ...(exact) Boolean flag, set for exact processing.
# ...(read) Buffer for new characters to process.
# ...(type) Type of current value (integer, string, list, dict)
# ...(value) Buffer for assembling the current value.
# ...(pend) Stack of pending 'value' buffers, for nested
# containers.
# ...(state) Current state of the decoding state machine.
# States of the finite automaton ...
# intro - One char, type of value, or 'e' as stop of container.
# signum - sign or digit, for integer.
# idigit - digit, for integer, or 'e' as stop
# ldigit - digit, for length of string, or :
# data - string data, 'get' characters.
# Containers via 'pend'.
#Debugging help, nesting level
#variable X 0
}
# ::bee::encodeString --
#
# Encode a string to bee-format.
#
# Arguments:
# string The string to encode.
#
# Results:
# The bee-encoded form of the string.
proc ::bee::encodeString {string} {
return "[string length $string]:$string"
}
# ::bee::encodeNumber --
#
# Encode an integer number to bee-format.
#
# Arguments:
# num The integer number to encode.
#
# Results:
# The bee-encoded form of the integer number.
proc ::bee::encodeNumber {num} {
if {![string is integer -strict $num]} {
return -code error "Expected integer number, got \"$num\""
}
# The reformatting deals with hex, octal and other tcl
# representation of the value. In other words we normalize the
# string representation of the input value.
set num [format %d $num]
return "i${num}e"
}
# ::bee::encodeList --
#
# Encode a list of bee-coded values to bee-format.
#
# Arguments:
# list The list to encode.
#
# Results:
# The bee-encoded form of the list.
proc ::bee::encodeList {list} {
return "l[join $list ""]e"
}
# ::bee::encodeListArgs --
#
# Encode a variable list of bee-coded values to bee-format.
#
# Arguments:
# args The values to encode.
#
# Results:
# The bee-encoded form of the list of values.
proc ::bee::encodeListArgs {args} {
return [encodeList $args]
}
# ::bee::encodeDict --
#
# Encode a dictionary of keys and bee-coded values to bee-format.
#
# Arguments:
# dict The dictionary to encode.
#
# Results:
# The bee-encoded form of the dictionary.
proc ::bee::encodeDict {dict} {
if {([llength $dict] % 2) == 1} {
return -code error "Expected even number of elements, got \"[llength $dict]\""
}
set temp [list]
foreach {k v} $dict {
lappend temp [list $k $v]
}
set res "d"
foreach item [lsort -index 0 $temp] {
foreach {k v} $item break
append res [encodeString $k]$v
}
append res "e"
return $res
}
# ::bee::encodeDictArgs --
#
# Encode a variable dictionary of keys and bee-coded values to bee-format.
#
# Arguments:
# args The keys and values to encode.
#
# Results:
# The bee-encoded form of the dictionary.
proc ::bee::encodeDictArgs {args} {
return [encodeDict $args]
}
# ::bee::decode --
#
# Decode a bee-encoded value and returns the embedded tcl
# value. For containers this recurses into the contained value.
#
# Arguments:
# value The string containing the bee-encoded value to decode.
# evar Optional. If set the name of the variable to store the
# index of the first character after the decoded value to.
# start Optional. If set the index of the first character of the
# value to decode. Defaults to 0, i.e. the beginning of the
# string.
#
# Results:
# The tcl value embedded in the encoded string.
proc ::bee::decode {value {evar {}} {start 0}} {
#variable X
#puts -nonewline "[string repeat " " $X]decode @$start" ; flush stdout
if {$evar ne ""} {upvar 1 $evar end} else {set end _}
if {[string length $value] < ($start+2)} {
# This checked that the 'start' index is still in the string,
# and the end of the value most likely as well. Note that each
# encoded value consists of at least two characters (the
# bracketing characters for integer, list, and dict, and for
# string at least one digit length and the colon).
#puts \t[string length $value]\ <\ ($start+2)
return -code error "String not large enough for value"
}
set type [string index $value $start]
#puts -nonewline " $type=" ; flush stdout
if {$type eq "i"} {
# Extract integer
#puts -nonewline integer ; flush stdout
incr start ; # Skip over intro 'i'.
set end [string first e $value $start]
if {$end < 0} {
return -code error "End of integer number not found"
}
incr end -1 ; # Get last character before closing 'e'.
set num [string range $value $start $end]
if {
[regexp {^-0+$} $num] ||
![string is integer -strict $num] ||
(([string length $num] > 1) && [string match 0* $num])
} {
return -code error "Expected integer number, got \"$num\""
}
incr end 2 ; # Step after closing 'e' to the beginning of
# ........ ; # the next bee-value behind the current one.
#puts " ($num) @$end"
return $num
} elseif {($type eq "l") || ($type eq "d")} {
#puts -nonewline $type\n ; flush stdout
# Extract list or dictionary, recursively each contained
# element. From the perspective of the decoder this is the
# same, the tcl representation of both is a list, and for a
# dictionary keys and values are also already in the correct
# order.
set result [list]
incr start ; # Step over intro 'e' to beginning of the first
# ........ ; # contained value, or behind the container (if
# ........ ; # empty).
set end $start
#incr X
while {[string index $value $start] ne "e"} {
lappend result [decode $value end $start]
set start $end
}
#incr X -1
incr end
#puts "[string repeat " " $X]($result) @$end"
if {$type eq "d" && ([llength $result] % 2 == 1)} {
return -code error "Dictionary has to be of even length"
}
return $result
} elseif {[string match {[0-9]} $type]} {
#puts -nonewline string ; flush stdout
# Extract string. First the length, bounded by a colon, then
# the appropriate number of characters.
set end [string first : $value $start]
if {$end < 0} {
return -code error "End of string length not found"
}
incr end -1
set length [string range $value $start $end]
incr end 2 ;# Skip to beginning of the string after the colon
if {![string is integer -strict $length]} {
return -code error "Expected integer number for string length, got \"$length\""
} elseif {$length < 0} {
# This cannot happen. To happen "-" has to be first character,
# and this is caught as unknown bee-type.
return -code error "Illegal negative string length"
} elseif {($end + $length) > [string length $value]} {
return -code error "String not large enough for value"
}
#puts -nonewline \[$length\] ; flush stdout
if {$length > 0} {
set start $end
incr end $length
incr end -1
set result [string range $value $start $end]
incr end
} else {
set result ""
}
#puts " ($result) @$end"
return $result
} else {
return -code error "Unknown bee-type \"$type\""
}
}
# ::bee::decodeIndices --
#
# Similar to 'decode', but does not return the decoded tcl values,
# but a structure containing the start- and end-indices for all
# values in the structure.
#
# Arguments:
# value The string containing the bee-encoded value to decode.
# evar Optional. If set the name of the variable to store the
# index of the first character after the decoded value to.
# start Optional. If set the index of the first character of the
# value to decode. Defaults to 0, i.e. the beginning of the
# string.
#
# Results:
# The structure of the value, with indices and types for all
# contained elements.
proc ::bee::decodeIndices {value {evar {}} {start 0}} {
#variable X
#puts -nonewline "[string repeat " " $X]decode @$start" ; flush stdout
if {$evar ne ""} {upvar 1 $evar end} else {set end _}
if {[string length $value] < ($start+2)} {
# This checked that the 'start' index is still in the string,
# and the end of the value most likely as well. Note that each
# encoded value consists of at least two characters (the
# bracketing characters for integer, list, and dict, and for
# string at least one digit length and the colon).
#puts \t[string length $value]\ <\ ($start+2)
return -code error "String not large enough for value"
}
set type [string index $value $start]
#puts -nonewline " $type=" ; flush stdout
if {$type eq "i"} {
# Extract integer
#puts -nonewline integer ; flush stdout
set begin $start
incr start ; # Skip over intro 'i'.
set end [string first e $value $start]
if {$end < 0} {
return -code error "End of integer number not found"
}
incr end -1 ; # Get last character before closing 'e'.
set num [string range $value $start $end]
if {
[regexp {^-0+$} $num] ||
![string is integer -strict $num] ||
(([string length $num] > 1) && [string match 0* $num])
} {
return -code error "Expected integer number, got \"$num\""
}
incr end
set stop $end
incr end 1 ; # Step after closing 'e' to the beginning of
# ........ ; # the next bee-value behind the current one.
#puts " ($num) @$end"
return [list integer $begin $stop]
} elseif {$type eq "l"} {
#puts -nonewline $type\n ; flush stdout
# Extract list, recursively each contained element.
set result [list]
lappend result list $start @
incr start ; # Step over intro 'e' to beginning of the first
# ........ ; # contained value, or behind the container (if
# ........ ; # empty).
set end $start
#incr X
set contained [list]
while {[string index $value $start] ne "e"} {
lappend contained [decodeIndices $value end $start]
set start $end
}
lappend result $contained
#incr X -1
set stop $end
incr end
#puts "[string repeat " " $X]($result) @$end"
return [lreplace $result 2 2 $stop]
} elseif {($type eq "l") || ($type eq "d")} {
#puts -nonewline $type\n ; flush stdout
# Extract dictionary, recursively each contained element.
set result [list]
lappend result dict $start @
incr start ; # Step over intro 'e' to beginning of the first
# ........ ; # contained value, or behind the container (if
# ........ ; # empty).
set end $start
set atkey 1
#incr X
set contained [list]
set val [list]
while {[string index $value $start] ne "e"} {
if {$atkey} {
lappend contained [decode $value {} $start]
lappend val [decodeIndices $value end $start]
set atkey 0
} else {
lappend val [decodeIndices $value end $start]
lappend contained $val
set val [list]
set atkey 1
}
set start $end
}
lappend result $contained
#incr X -1
set stop $end
incr end
#puts "[string repeat " " $X]($result) @$end"
if {[llength $result] % 2 == 1} {
return -code error "Dictionary has to be of even length"
}
return [lreplace $result 2 2 $stop]
} elseif {[string match {[0-9]} $type]} {
#puts -nonewline string ; flush stdout
# Extract string. First the length, bounded by a colon, then
# the appropriate number of characters.
set end [string first : $value $start]
if {$end < 0} {
return -code error "End of string length not found"
}
incr end -1
set length [string range $value $start $end]
incr end 2 ;# Skip to beginning of the string after the colon
if {![string is integer -strict $length]} {
return -code error "Expected integer number for string length, got \"$length\""
} elseif {$length < 0} {
# This cannot happen. To happen "-" has to be first character,
# and this is caught as unknown bee-type.
return -code error "Illegal negative string length"
} elseif {($end + $length) > [string length $value]} {
return -code error "String not large enough for value"
}
#puts -nonewline \[$length\] ; flush stdout
incr end -1
if {$length > 0} {
incr end $length
set stop $end
} else {
set stop $end
}
incr end
#puts " ($result) @$end"
return [list string $start $stop]
} else {
return -code error "Unknown bee-type \"$type\""
}
}
# ::bee::decodeChannel --
#
# Attach decoder for a bee-value to a channel. See the
# documentation for details.
#
# Arguments:
# chan Channel to attach to.
# -command cmdprefix Completion callback. Required.
# -exact Keep running after completion.
# -prefix data Seed for decode buffer.
#
# Results:
# A token to use when referring to the decoder.
# For example when canceling it.
proc ::bee::decodeChannel {chan args} {
variable bee
if {[info exists bee($chan)]} {
return -code error "bee-Decoder already active for channel"
}
# Create state and token.
variable count
variable [set st state$count]
array set $st {}
set bee($chan) $st
upvar 0 $st state
incr count
# Initialize the decoder state, process the options. When
# encountering errors here destroy the half-baked state before
# throwing the message.
set state(chan) $chan
array set state {
exact 0
type ?
read {}
value {}
pend {}
state intro
get 1
}
while {[llength $args]} {
set option [lindex $args 0]
set args [lrange $args 1 end]
if {$option eq "-command"} {
if {![llength $args]} {
unset bee($chan)
unset state
return -code error "Missing value for option -command."
}
set state(cmd) [lindex $args 0]
set args [lrange $args 1 end]
} elseif {$option eq "-prefix"} {
if {![llength $args]} {
unset bee($chan)
unset state
return -code error "Missing value for option -prefix."
}
set state(read) [lindex $args 0]
set args [lrange $args 1 end]
} elseif {$option eq "-exact"} {
set state(exact) 1
} else {
unset bee($chan)
unset state
return -code error "Illegal option \"$option\",\
expected \"-command\", \"-prefix\", or \"-keep\""
}
}
if {![info exists state(cmd)]} {
unset bee($chan)
unset state
return -code error "Missing required completion callback."
}
# Set up the processing of incoming data.
fileevent $chan readable [list ::bee::Process $chan $bee($chan)]
# Return the name of the state array as token.
return $bee($chan)
}
# ::bee::Parse --
#
# Internal helper. Fileevent handler for a decoder.
# Parses input and handles both error and eof conditions.
#
# Arguments:
# token The decoder to run on its input.
#
# Results:
# None.
proc ::bee::Process {chan token} {
if {[catch {Parse $token} msg]} {
# Something failed. Destroy and report.
Command $token error $msg
return
}
if {[eof $chan]} {
# Having data waiting, either in the input queue, or in the
# output stack (of nested containers) is a failure. Report
# this instead of the eof.
variable $token
upvar 0 $token state
if {
[string length $state(read)] ||
[llength $state(pend)] ||
[string length $state(value)] ||
($state(state) ne "intro")
} {
Command $token error "Incomplete value at end of channel"
} else {
Command $token eof
}
}
return
}
# ::bee::Parse --
#
# Internal helper. Reading from the channel and parsing the input.
# Uses a hardwired state machine.
#
# Arguments:
# token The decoder to run on its input.
#
# Results:
# None.
proc ::bee::Parse {token} {
variable $token
upvar 0 $token state
upvar 0 state(state) current
upvar 0 state(read) input
upvar 0 state(type) type
upvar 0 state(value) value
upvar 0 state(pend) pend
upvar 0 state(exact) exact
upvar 0 state(get) get
set chan $state(chan)
#puts Parse/$current
if {!$exact} {
# Add all waiting characters to the buffer so that we can process as
# much as is possible in one go.
append input [read $chan]
} else {
# Exact reading. Usually one character, but when in the data
# section for a string value we know for how many characters
# we are looking for.
append input [read $chan $get]
}
# We got nothing, do nothing.
if {![string length $input]} return
if {$current eq "data"} {
# String data, this can be done faster, as we read longer
# sequences of characters for this.
set l [string length $input]
if {$l < $get} {
# Not enough, wait for more.
append value $input
incr get -$l
return
} elseif {$l == $get} {
# Got all, exactly. Prepare state machine for next value.
if {[Complete $token $value$input]} return
set current intro
set get 1
set value ""
set input ""
return
} else {
# Got more than required (only for !exact).
incr get -1
if {[Complete $token $value[string range $input 0 $get]]} {return}
incr get
set input [string range $input $get end]
set get 1
set value ""
set current intro
# This now falls into the loop below.
}
}
set where 0
set n [string length $input]
#puts Parse/$n
while {$where < $n} {
# Hardwired state machine. Get current character.
set ch [string index $input $where]
#puts Parse/@$where/$current/$ch/
if {$current eq "intro"} {
# First character of a value.
if {$ch eq "i"} {
# Begin reading integer.
set type integer
set current signum
} elseif {$ch eq "l"} {
# Begin a list.
set type list
lappend pend list {}
#set current intro
} elseif {$ch eq "d"} {
# Begin a dictionary.
set type dict
lappend pend dict {}
#set current intro
} elseif {$ch eq "e"} {
# Close a container. Throw an error if there is no
# container to close.
if {![llength $pend]} {
return -code error "End of container outside of container."
}
set v [lindex $pend end]
set t [lindex $pend end-1]
set pend [lrange $pend 0 end-2]
if {$t eq "dict" && ([llength $v] % 2 == 1)} {
return -code error "Dictionary has to be of even length"
}
if {[Complete $token $v]} {return}
set current intro
} elseif {[string match {[0-9]} $ch]} {
# Begin reading a string, length section first.
set type string
set current ldigit
set value $ch
} else {
# Unknown type. Throw error.
return -code error "Unknown bee-type \"$ch\""
}
# To next character.
incr where
} elseif {$current eq "signum"} {
# Integer number, a minus sign, or a digit.
if {[string match {[-0-9]} $ch]} {
append value $ch
set current idigit
} else {
return -code error "Syntax error in integer,\
expected sign or digit, got \"$ch\""
}
incr where
} elseif {$current eq "idigit"} {
# Integer number, digit or closing 'e'.
if {[string match {[-0-9]} $ch]} {
append value $ch
} elseif {$ch eq "e"} {
# Integer closes. Validate and report.
#puts validate
if {
[regexp {^-0+$} $value] ||
![string is integer -strict $value] ||
(([string length $value] > 1) && [string match 0* $value])
} {
return -code error "Expected integer number, got \"$value\""
}
if {[Complete $token $value]} {return}
set value ""
set current intro
} else {
return -code error "Syntax error in integer,\
expected digit, or 'e', got \"$ch\""
}
incr where
} elseif {$current eq "ldigit"} {
# String, length section, digit, or :
if {[string match {[-0-9]} $ch]} {
append value $ch
} elseif {$ch eq ":"} {
# Length section closes, validate,
# then perform data processing.
set num $value
if {
[regexp {^-0+$} $num] ||
![string is integer -strict $num] ||
(([string length $num] > 1) && [string match 0* $num])
} {
return -code error "Expected integer number as string length, got \"$num\""
}
set value ""
# We may have already part of the data in
# memory. Process that piece before looking for more.
incr where
set have [expr {$n - $where}]
if {$num < $have} {
# More than enough in the buffer.
set end $where
incr end $num
incr end -1
if {[Complete $token [string range $input $where $end]]} {return}
set where $end ;# Further processing behind the string.
set current intro
} elseif {$num == $have} {
# Just enough.
if {[Complete $token [string range $input $where end]]} {return}
set where $n
set current intro
} else {
# Not enough. Initialize value with the data we
# have (after the colon) and stop processing for
# now.
set value [string range $input $where end]
set current data
set get $num
set input ""
return
}
} else {
return -code error "Syntax error in string length,\
expected digit, or ':', got \"$ch\""
}
incr where
} else {
# unknown state = internal error
return -code error "Unknown decoder state \"$current\", internal error"
}
}
set input ""
return
}
# ::bee::Command --
#
# Internal helper. Runs the decoder command callback.
#
# Arguments:
# token The decoder invoking its callback
# how Which method to invoke (value, error, eof)
# args Arguments for the method.
#
# Results:
# A boolean flag. Set if further processing has to stop.
proc ::bee::Command {token how args} {
variable $token
upvar 0 $token state
#puts Report/$token/$how/$args/
set cmd $state(cmd)
set chan $state(chan)
# We catch the fileevents because they will fail when this is
# called from the 'Close'. The channel will already be gone in
# that case.
set stop 0
if {($how eq "error") || ($how eq "eof")} {
variable bee
set stop 1
fileevent $chan readable {}
unset bee($chan)
unset state
if {$how eq "eof"} {
#puts \tclosing/$chan
close $chan
}
}
lappend cmd $how $token
foreach a $args {lappend cmd $a}
uplevel #0 $cmd
if {![info exists state]} {
# The decoder token was killed by the callback, stop
# processing.
set stop 1
}
#puts /$stop/[file channels]
return $stop
}
# ::bee::Complete --
#
# Internal helper. Reports a completed value.
#
# Arguments:
# token The decoder reporting the value.
# value The value to report.
#
# Results:
# A boolean flag. Set if further processing has to stop.
proc ::bee::Complete {token value} {
variable $token
upvar 0 $token state
upvar 0 state(pend) pend
if {[llength $pend]} {
# The value is part of a container. Add the value to its end
# and keep processing.
set pend [lreplace $pend end end \
[linsert [lindex $pend end] end \
$value]]
# Don't stop.
return 0
}
# The value is at the top, report it. The callback determines if
# we keep processing.
return [Command $token value $value]
}
# ::bee::decodeCancel --
#
# Destroys the decoder referenced by the token.
#
# Arguments:
# token The decoder to destroy.
#
# Results:
# None.
proc ::bee::decodeCancel {token} {
variable bee
variable $token
upvar 0 $token state
unset bee($state(chan))
unset state
return
}
# ::bee::decodePush --
#
# Push data into the decoder input buffer.
#
# Arguments:
# token The decoder to extend.
# string The characters to add.
#
# Results:
# None.
proc ::bee::decodePush {token string} {
variable $token
upvar 0 $token state
append state(read) $string
return
}
package provide bee 0.1
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