/usr/share/tcltk/tcl8.6/tcl8/http-2.8.7.tm is in libtcl8.6 8.6.1-4ubuntu1.
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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 | # http.tcl --
#
# Client-side HTTP for GET, POST, and HEAD commands. These routines can
# be used in untrusted code that uses the Safesock security policy.
# These procedures use a callback interface to avoid using vwait, which
# is not defined in the safe base.
#
# See the file "license.terms" for information on usage and redistribution of
# this file, and for a DISCLAIMER OF ALL WARRANTIES.
package require Tcl 8.6
# Keep this in sync with pkgIndex.tcl and with the install directories in
# Makefiles
package provide http 2.8.7
namespace eval http {
# Allow resourcing to not clobber existing data
variable http
if {![info exists http]} {
array set http {
-accept */*
-proxyhost {}
-proxyport {}
-proxyfilter http::ProxyRequired
-urlencoding utf-8
}
# We need a useragent string of this style or various servers will refuse to
# send us compressed content even when we ask for it. This follows the
# de-facto layout of user-agent strings in current browsers.
set http(-useragent) "Mozilla/5.0\
([string totitle $::tcl_platform(platform)]; U;\
$::tcl_platform(os) $::tcl_platform(osVersion))\
http/[package provide http] Tcl/[package provide Tcl]"
}
proc init {} {
# Set up the map for quoting chars. RFC3986 Section 2.3 say percent
# encode all except: "... percent-encoded octets in the ranges of
# ALPHA (%41-%5A and %61-%7A), DIGIT (%30-%39), hyphen (%2D), period
# (%2E), underscore (%5F), or tilde (%7E) should not be created by URI
# producers ..."
for {set i 0} {$i <= 256} {incr i} {
set c [format %c $i]
if {![string match {[-._~a-zA-Z0-9]} $c]} {
set map($c) %[format %.2X $i]
}
}
# These are handled specially
set map(\n) %0D%0A
variable formMap [array get map]
# Create a map for HTTP/1.1 open sockets
variable socketmap
if {[info exists socketmap]} {
# Close but don't remove open sockets on re-init
foreach {url sock} [array get socketmap] {
catch {close $sock}
}
}
array set socketmap {}
}
init
variable urlTypes
if {![info exists urlTypes]} {
set urlTypes(http) [list 80 ::socket]
}
variable encodings [string tolower [encoding names]]
# This can be changed, but iso8859-1 is the RFC standard.
variable defaultCharset
if {![info exists defaultCharset]} {
set defaultCharset "iso8859-1"
}
# Force RFC 3986 strictness in geturl url verification?
variable strict
if {![info exists strict]} {
set strict 1
}
# Let user control default keepalive for compatibility
variable defaultKeepalive
if {![info exists defaultKeepalive]} {
set defaultKeepalive 0
}
namespace export geturl config reset wait formatQuery register unregister
# Useful, but not exported: data size status code
}
# http::Log --
#
# Debugging output -- define this to observe HTTP/1.1 socket usage.
# Should echo any args received.
#
# Arguments:
# msg Message to output
#
if {[info command http::Log] eq {}} {proc http::Log {args} {}}
# http::register --
#
# See documentation for details.
#
# Arguments:
# proto URL protocol prefix, e.g. https
# port Default port for protocol
# command Command to use to create socket
# Results:
# list of port and command that was registered.
proc http::register {proto port command} {
variable urlTypes
set urlTypes($proto) [list $port $command]
}
# http::unregister --
#
# Unregisters URL protocol handler
#
# Arguments:
# proto URL protocol prefix, e.g. https
# Results:
# list of port and command that was unregistered.
proc http::unregister {proto} {
variable urlTypes
if {![info exists urlTypes($proto)]} {
return -code error "unsupported url type \"$proto\""
}
set old $urlTypes($proto)
unset urlTypes($proto)
return $old
}
# http::config --
#
# See documentation for details.
#
# Arguments:
# args Options parsed by the procedure.
# Results:
# TODO
proc http::config {args} {
variable http
set options [lsort [array names http -*]]
set usage [join $options ", "]
if {[llength $args] == 0} {
set result {}
foreach name $options {
lappend result $name $http($name)
}
return $result
}
set options [string map {- ""} $options]
set pat ^-(?:[join $options |])$
if {[llength $args] == 1} {
set flag [lindex $args 0]
if {![regexp -- $pat $flag]} {
return -code error "Unknown option $flag, must be: $usage"
}
return $http($flag)
} else {
foreach {flag value} $args {
if {![regexp -- $pat $flag]} {
return -code error "Unknown option $flag, must be: $usage"
}
set http($flag) $value
}
}
}
# http::Finish --
#
# Clean up the socket and eval close time callbacks
#
# Arguments:
# token Connection token.
# errormsg (optional) If set, forces status to error.
# skipCB (optional) If set, don't call the -command callback. This
# is useful when geturl wants to throw an exception instead
# of calling the callback. That way, the same error isn't
# reported to two places.
#
# Side Effects:
# Closes the socket
proc http::Finish {token {errormsg ""} {skipCB 0}} {
variable $token
upvar 0 $token state
global errorInfo errorCode
if {$errormsg ne ""} {
set state(error) [list $errormsg $errorInfo $errorCode]
set state(status) "error"
}
if {
($state(status) eq "timeout") || ($state(status) eq "error") ||
([info exists state(connection)] && ($state(connection) eq "close"))
} {
CloseSocket $state(sock) $token
}
if {[info exists state(after)]} {
after cancel $state(after)
}
if {[info exists state(-command)] && !$skipCB
&& ![info exists state(done-command-cb)]} {
set state(done-command-cb) yes
if {[catch {eval $state(-command) {$token}} err] && $errormsg eq ""} {
set state(error) [list $err $errorInfo $errorCode]
set state(status) error
}
}
}
# http::CloseSocket -
#
# Close a socket and remove it from the persistent sockets table. If
# possible an http token is included here but when we are called from a
# fileevent on remote closure we need to find the correct entry - hence
# the second section.
proc ::http::CloseSocket {s {token {}}} {
variable socketmap
catch {fileevent $s readable {}}
set conn_id {}
if {$token ne ""} {
variable $token
upvar 0 $token state
if {[info exists state(socketinfo)]} {
set conn_id $state(socketinfo)
}
} else {
set map [array get socketmap]
set ndx [lsearch -exact $map $s]
if {$ndx != -1} {
incr ndx -1
set conn_id [lindex $map $ndx]
}
}
if {$conn_id eq {} || ![info exists socketmap($conn_id)]} {
Log "Closing socket $s (no connection info)"
if {[catch {close $s} err]} {
Log "Error: $err"
}
} else {
if {[info exists socketmap($conn_id)]} {
Log "Closing connection $conn_id (sock $socketmap($conn_id))"
if {[catch {close $socketmap($conn_id)} err]} {
Log "Error: $err"
}
unset socketmap($conn_id)
} else {
Log "Cannot close connection $conn_id - no socket in socket map"
}
}
}
# http::reset --
#
# See documentation for details.
#
# Arguments:
# token Connection token.
# why Status info.
#
# Side Effects:
# See Finish
proc http::reset {token {why reset}} {
variable $token
upvar 0 $token state
set state(status) $why
catch {fileevent $state(sock) readable {}}
catch {fileevent $state(sock) writable {}}
Finish $token
if {[info exists state(error)]} {
set errorlist $state(error)
unset state
eval ::error $errorlist
}
}
# http::geturl --
#
# Establishes a connection to a remote url via http.
#
# Arguments:
# url The http URL to goget.
# args Option value pairs. Valid options include:
# -blocksize, -validate, -headers, -timeout
# Results:
# Returns a token for this connection. This token is the name of an
# array that the caller should unset to garbage collect the state.
proc http::geturl {url args} {
variable http
variable urlTypes
variable defaultCharset
variable defaultKeepalive
variable strict
# Initialize the state variable, an array. We'll return the name of this
# array as the token for the transaction.
if {![info exists http(uid)]} {
set http(uid) 0
}
set token [namespace current]::[incr http(uid)]
variable $token
upvar 0 $token state
reset $token
# Process command options.
array set state {
-binary false
-blocksize 8192
-queryblocksize 8192
-validate 0
-headers {}
-timeout 0
-type application/x-www-form-urlencoded
-queryprogress {}
-protocol 1.1
binary 0
state connecting
meta {}
coding {}
currentsize 0
totalsize 0
querylength 0
queryoffset 0
type text/html
body {}
status ""
http ""
connection close
}
set state(-keepalive) $defaultKeepalive
set state(-strict) $strict
# These flags have their types verified [Bug 811170]
array set type {
-binary boolean
-blocksize integer
-queryblocksize integer
-strict boolean
-timeout integer
-validate boolean
}
set state(charset) $defaultCharset
set options {
-binary -blocksize -channel -command -handler -headers -keepalive
-method -myaddr -progress -protocol -query -queryblocksize
-querychannel -queryprogress -strict -timeout -type -validate
}
set usage [join [lsort $options] ", "]
set options [string map {- ""} $options]
set pat ^-(?:[join $options |])$
foreach {flag value} $args {
if {[regexp -- $pat $flag]} {
# Validate numbers
if {
[info exists type($flag)] &&
![string is $type($flag) -strict $value]
} {
unset $token
return -code error \
"Bad value for $flag ($value), must be $type($flag)"
}
set state($flag) $value
} else {
unset $token
return -code error "Unknown option $flag, can be: $usage"
}
}
# Make sure -query and -querychannel aren't both specified
set isQueryChannel [info exists state(-querychannel)]
set isQuery [info exists state(-query)]
if {$isQuery && $isQueryChannel} {
unset $token
return -code error "Can't combine -query and -querychannel options!"
}
# Validate URL, determine the server host and port, and check proxy case
# Recognize user:pass@host URLs also, although we do not do anything with
# that info yet.
# URLs have basically four parts.
# First, before the colon, is the protocol scheme (e.g. http)
# Second, for HTTP-like protocols, is the authority
# The authority is preceded by // and lasts up to (but not including)
# the following / or ? and it identifies up to four parts, of which
# only one, the host, is required (if an authority is present at all).
# All other parts of the authority (user name, password, port number)
# are optional.
# Third is the resource name, which is split into two parts at a ?
# The first part (from the single "/" up to "?") is the path, and the
# second part (from that "?" up to "#") is the query. *HOWEVER*, we do
# not need to separate them; we send the whole lot to the server.
# Both, path and query are allowed to be missing, including their
# delimiting character.
# Fourth is the fragment identifier, which is everything after the first
# "#" in the URL. The fragment identifier MUST NOT be sent to the server
# and indeed, we don't bother to validate it (it could be an error to
# pass it in here, but it's cheap to strip).
#
# An example of a URL that has all the parts:
#
# http://jschmoe:xyzzy@www.bogus.net:8000/foo/bar.tml?q=foo#changes
#
# The "http" is the protocol, the user is "jschmoe", the password is
# "xyzzy", the host is "www.bogus.net", the port is "8000", the path is
# "/foo/bar.tml", the query is "q=foo", and the fragment is "changes".
#
# Note that the RE actually combines the user and password parts, as
# recommended in RFC 3986. Indeed, that RFC states that putting passwords
# in URLs is a Really Bad Idea, something with which I would agree utterly.
#
# From a validation perspective, we need to ensure that the parts of the
# URL that are going to the server are correctly encoded. This is only
# done if $state(-strict) is true (inherited from $::http::strict).
set URLmatcher {(?x) # this is _expanded_ syntax
^
(?: (\w+) : ) ? # <protocol scheme>
(?: //
(?:
(
[^@/\#?]+ # <userinfo part of authority>
) @
)?
( # <host part of authority>
[^/:\#?]+ | # host name or IPv4 address
\[ [^/\#?]+ \] # IPv6 address in square brackets
)
(?: : (\d+) )? # <port part of authority>
)?
( [/\?] [^\#]*)? # <path> (including query)
(?: \# (.*) )? # <fragment>
$
}
# Phase one: parse
if {![regexp -- $URLmatcher $url -> proto user host port srvurl]} {
unset $token
return -code error "Unsupported URL: $url"
}
# Phase two: validate
set host [string trim $host {[]}]; # strip square brackets from IPv6 address
if {$host eq ""} {
# Caller has to provide a host name; we do not have a "default host"
# that would enable us to handle relative URLs.
unset $token
return -code error "Missing host part: $url"
# Note that we don't check the hostname for validity here; if it's
# invalid, we'll simply fail to resolve it later on.
}
if {$port ne "" && $port > 65535} {
unset $token
return -code error "Invalid port number: $port"
}
# The user identification and resource identification parts of the URL can
# have encoded characters in them; take care!
if {$user ne ""} {
# Check for validity according to RFC 3986, Appendix A
set validityRE {(?xi)
^
(?: [-\w.~!$&'()*+,;=:] | %[0-9a-f][0-9a-f] )+
$
}
if {$state(-strict) && ![regexp -- $validityRE $user]} {
unset $token
# Provide a better error message in this error case
if {[regexp {(?i)%(?![0-9a-f][0-9a-f]).?.?} $user bad]} {
return -code error \
"Illegal encoding character usage \"$bad\" in URL user"
}
return -code error "Illegal characters in URL user"
}
}
if {$srvurl ne ""} {
# RFC 3986 allows empty paths (not even a /), but servers
# return 400 if the path in the HTTP request doesn't start
# with / , so add it here if needed.
if {[string index $srvurl 0] ne "/"} {
set srvurl /$srvurl
}
# Check for validity according to RFC 3986, Appendix A
set validityRE {(?xi)
^
# Path part (already must start with / character)
(?: [-\w.~!$&'()*+,;=:@/] | %[0-9a-f][0-9a-f] )*
# Query part (optional, permits ? characters)
(?: \? (?: [-\w.~!$&'()*+,;=:@/?] | %[0-9a-f][0-9a-f] )* )?
$
}
if {$state(-strict) && ![regexp -- $validityRE $srvurl]} {
unset $token
# Provide a better error message in this error case
if {[regexp {(?i)%(?![0-9a-f][0-9a-f])..} $srvurl bad]} {
return -code error \
"Illegal encoding character usage \"$bad\" in URL path"
}
return -code error "Illegal characters in URL path"
}
} else {
set srvurl /
}
if {$proto eq ""} {
set proto http
}
if {![info exists urlTypes($proto)]} {
unset $token
return -code error "Unsupported URL type \"$proto\""
}
set defport [lindex $urlTypes($proto) 0]
set defcmd [lindex $urlTypes($proto) 1]
if {$port eq ""} {
set port $defport
}
if {![catch {$http(-proxyfilter) $host} proxy]} {
set phost [lindex $proxy 0]
set pport [lindex $proxy 1]
}
# OK, now reassemble into a full URL
set url ${proto}://
if {$user ne ""} {
append url $user
append url @
}
append url $host
if {$port != $defport} {
append url : $port
}
append url $srvurl
# Don't append the fragment!
set state(url) $url
# If a timeout is specified we set up the after event and arrange for an
# asynchronous socket connection.
set sockopts [list -async]
if {$state(-timeout) > 0} {
set state(after) [after $state(-timeout) \
[list http::reset $token timeout]]
}
# If we are using the proxy, we must pass in the full URL that includes
# the server name.
if {[info exists phost] && ($phost ne "")} {
set srvurl $url
set targetAddr [list $phost $pport]
} else {
set targetAddr [list $host $port]
}
# Proxy connections aren't shared among different hosts.
set state(socketinfo) $host:$port
# See if we are supposed to use a previously opened channel.
if {$state(-keepalive)} {
variable socketmap
if {[info exists socketmap($state(socketinfo))]} {
if {[catch {fconfigure $socketmap($state(socketinfo))}]} {
Log "WARNING: socket for $state(socketinfo) was closed"
unset socketmap($state(socketinfo))
} else {
set sock $socketmap($state(socketinfo))
Log "reusing socket $sock for $state(socketinfo)"
catch {fileevent $sock writable {}}
catch {fileevent $sock readable {}}
}
}
# don't automatically close this connection socket
set state(connection) {}
}
if {![info exists sock]} {
# Pass -myaddr directly to the socket command
if {[info exists state(-myaddr)]} {
lappend sockopts -myaddr $state(-myaddr)
}
if {[catch {eval $defcmd $sockopts $targetAddr} sock]} {
# something went wrong while trying to establish the connection.
# Clean up after events and such, but DON'T call the command
# callback (if available) because we're going to throw an
# exception from here instead.
set state(sock) $sock
Finish $token "" 1
cleanup $token
return -code error $sock
}
}
set state(sock) $sock
Log "Using $sock for $state(socketinfo)" \
[expr {$state(-keepalive)?"keepalive":""}]
if {$state(-keepalive)} {
set socketmap($state(socketinfo)) $sock
}
if {![info exists phost]} {
set phost ""
}
fileevent $sock writable [list http::Connect $token $proto $phost $srvurl]
# Wait for the connection to complete.
if {![info exists state(-command)]} {
# geturl does EVERYTHING asynchronously, so if the user
# calls it synchronously, we just do a wait here.
http::wait $token
if {![info exists state]} {
# If we timed out then Finish has been called and the users
# command callback may have cleaned up the token. If so we end up
# here with nothing left to do.
return $token
} elseif {$state(status) eq "error"} {
# Something went wrong while trying to establish the connection.
# Clean up after events and such, but DON'T call the command
# callback (if available) because we're going to throw an
# exception from here instead.
set err [lindex $state(error) 0]
cleanup $token
return -code error $err
}
}
return $token
}
proc http::Connected { token proto phost srvurl} {
variable http
variable urlTypes
variable $token
upvar 0 $token state
# Set back the variables needed here
set sock $state(sock)
set isQueryChannel [info exists state(-querychannel)]
set isQuery [info exists state(-query)]
set host [lindex [split $state(socketinfo) :] 0]
set port [lindex [split $state(socketinfo) :] 1]
set defport [lindex $urlTypes($proto) 0]
# Send data in cr-lf format, but accept any line terminators
fconfigure $sock -translation {auto crlf} -buffersize $state(-blocksize)
# The following is disallowed in safe interpreters, but the socket is
# already in non-blocking mode in that case.
catch {fconfigure $sock -blocking off}
set how GET
if {$isQuery} {
set state(querylength) [string length $state(-query)]
if {$state(querylength) > 0} {
set how POST
set contDone 0
} else {
# There's no query data.
unset state(-query)
set isQuery 0
}
} elseif {$state(-validate)} {
set how HEAD
} elseif {$isQueryChannel} {
set how POST
# The query channel must be blocking for the async Write to
# work properly.
fconfigure $state(-querychannel) -blocking 1 -translation binary
set contDone 0
}
if {[info exists state(-method)] && $state(-method) ne ""} {
set how $state(-method)
}
# We cannot handle chunked encodings with -handler, so force HTTP/1.0
# until we can manage this.
if {[info exists state(-handler)]} {
set state(-protocol) 1.0
}
if {[catch {
puts $sock "$how $srvurl HTTP/$state(-protocol)"
puts $sock "Accept: $http(-accept)"
array set hdrs $state(-headers)
if {[info exists hdrs(Host)]} {
# Allow Host spoofing. [Bug 928154]
puts $sock "Host: $hdrs(Host)"
} elseif {$port == $defport} {
# Don't add port in this case, to handle broken servers. [Bug
# #504508]
puts $sock "Host: $host"
} else {
puts $sock "Host: $host:$port"
}
unset hdrs
puts $sock "User-Agent: $http(-useragent)"
if {$state(-protocol) == 1.0 && $state(-keepalive)} {
puts $sock "Connection: keep-alive"
}
if {$state(-protocol) > 1.0 && !$state(-keepalive)} {
puts $sock "Connection: close" ;# RFC2616 sec 8.1.2.1
}
if {[info exists phost] && ($phost ne "") && $state(-keepalive)} {
puts $sock "Proxy-Connection: Keep-Alive"
}
set accept_encoding_seen 0
set content_type_seen 0
foreach {key value} $state(-headers) {
if {[string equal -nocase $key "host"]} {
continue
}
if {[string equal -nocase $key "accept-encoding"]} {
set accept_encoding_seen 1
}
if {[string equal -nocase $key "content-type"]} {
set content_type_seen 1
}
set value [string map [list \n "" \r ""] $value]
set key [string trim $key]
if {[string equal -nocase $key "content-length"]} {
set contDone 1
set state(querylength) $value
}
if {[string length $key]} {
puts $sock "$key: $value"
}
}
if {!$accept_encoding_seen && ![info exists state(-handler)]} {
puts $sock "Accept-Encoding: deflate,gzip,compress"
}
if {$isQueryChannel && $state(querylength) == 0} {
# Try to determine size of data in channel. If we cannot seek, the
# surrounding catch will trap us
set start [tell $state(-querychannel)]
seek $state(-querychannel) 0 end
set state(querylength) \
[expr {[tell $state(-querychannel)] - $start}]
seek $state(-querychannel) $start
}
# Flush the request header and set up the fileevent that will either
# push the POST data or read the response.
#
# fileevent note:
#
# It is possible to have both the read and write fileevents active at
# this point. The only scenario it seems to affect is a server that
# closes the connection without reading the POST data. (e.g., early
# versions TclHttpd in various error cases). Depending on the
# platform, the client may or may not be able to get the response from
# the server because of the error it will get trying to write the post
# data. Having both fileevents active changes the timing and the
# behavior, but no two platforms (among Solaris, Linux, and NT) behave
# the same, and none behave all that well in any case. Servers should
# always read their POST data if they expect the client to read their
# response.
if {$isQuery || $isQueryChannel} {
if {!$content_type_seen} {
puts $sock "Content-Type: $state(-type)"
}
if {!$contDone} {
puts $sock "Content-Length: $state(querylength)"
}
puts $sock ""
fconfigure $sock -translation {auto binary}
fileevent $sock writable [list http::Write $token]
} else {
puts $sock ""
flush $sock
fileevent $sock readable [list http::Event $sock $token]
}
} err]} {
# The socket probably was never connected, or the connection dropped
# later.
# if state(status) is error, it means someone's already called Finish
# to do the above-described clean up.
if {$state(status) ne "error"} {
Finish $token $err
}
}
}
# Data access functions:
# Data - the URL data
# Status - the transaction status: ok, reset, eof, timeout
# Code - the HTTP transaction code, e.g., 200
# Size - the size of the URL data
proc http::data {token} {
variable $token
upvar 0 $token state
return $state(body)
}
proc http::status {token} {
if {![info exists $token]} {
return "error"
}
variable $token
upvar 0 $token state
return $state(status)
}
proc http::code {token} {
variable $token
upvar 0 $token state
return $state(http)
}
proc http::ncode {token} {
variable $token
upvar 0 $token state
if {[regexp {[0-9]{3}} $state(http) numeric_code]} {
return $numeric_code
} else {
return $state(http)
}
}
proc http::size {token} {
variable $token
upvar 0 $token state
return $state(currentsize)
}
proc http::meta {token} {
variable $token
upvar 0 $token state
return $state(meta)
}
proc http::error {token} {
variable $token
upvar 0 $token state
if {[info exists state(error)]} {
return $state(error)
}
return ""
}
# http::cleanup
#
# Garbage collect the state associated with a transaction
#
# Arguments
# token The token returned from http::geturl
#
# Side Effects
# unsets the state array
proc http::cleanup {token} {
variable $token
upvar 0 $token state
if {[info exists state]} {
unset state
}
}
# http::Connect
#
# This callback is made when an asyncronous connection completes.
#
# Arguments
# token The token returned from http::geturl
#
# Side Effects
# Sets the status of the connection, which unblocks
# the waiting geturl call
proc http::Connect {token proto phost srvurl} {
variable $token
upvar 0 $token state
set err "due to unexpected EOF"
if {
[eof $state(sock)] ||
[set err [fconfigure $state(sock) -error]] ne ""
} {
Finish $token "connect failed $err"
} else {
fileevent $state(sock) writable {}
::http::Connected $token $proto $phost $srvurl
}
return
}
# http::Write
#
# Write POST query data to the socket
#
# Arguments
# token The token for the connection
#
# Side Effects
# Write the socket and handle callbacks.
proc http::Write {token} {
variable $token
upvar 0 $token state
set sock $state(sock)
# Output a block. Tcl will buffer this if the socket blocks
set done 0
if {[catch {
# Catch I/O errors on dead sockets
if {[info exists state(-query)]} {
# Chop up large query strings so queryprogress callback can give
# smooth feedback.
puts -nonewline $sock \
[string range $state(-query) $state(queryoffset) \
[expr {$state(queryoffset) + $state(-queryblocksize) - 1}]]
incr state(queryoffset) $state(-queryblocksize)
if {$state(queryoffset) >= $state(querylength)} {
set state(queryoffset) $state(querylength)
set done 1
}
} else {
# Copy blocks from the query channel
set outStr [read $state(-querychannel) $state(-queryblocksize)]
puts -nonewline $sock $outStr
incr state(queryoffset) [string length $outStr]
if {[eof $state(-querychannel)]} {
set done 1
}
}
} err]} {
# Do not call Finish here, but instead let the read half of the socket
# process whatever server reply there is to get.
set state(posterror) $err
set done 1
}
if {$done} {
catch {flush $sock}
fileevent $sock writable {}
fileevent $sock readable [list http::Event $sock $token]
}
# Callback to the client after we've completely handled everything.
if {[string length $state(-queryprogress)]} {
eval $state(-queryprogress) \
[list $token $state(querylength) $state(queryoffset)]
}
}
# http::Event
#
# Handle input on the socket
#
# Arguments
# sock The socket receiving input.
# token The token returned from http::geturl
#
# Side Effects
# Read the socket and handle callbacks.
proc http::Event {sock token} {
variable $token
upvar 0 $token state
if {![info exists state]} {
Log "Event $sock with invalid token '$token' - remote close?"
if {![eof $sock]} {
if {[set d [read $sock]] ne ""} {
Log "WARNING: additional data left on closed socket"
}
}
CloseSocket $sock
return
}
if {$state(state) eq "connecting"} {
if {[catch {gets $sock state(http)} n]} {
return [Finish $token $n]
} elseif {$n >= 0} {
set state(state) "header"
}
} elseif {$state(state) eq "header"} {
if {[catch {gets $sock line} n]} {
return [Finish $token $n]
} elseif {$n == 0} {
# We have now read all headers
# We ignore HTTP/1.1 100 Continue returns. RFC2616 sec 8.2.3
if {$state(http) == "" || ([regexp {^\S+\s(\d+)} $state(http) {} x] && $x == 100)} {
return
}
set state(state) body
# If doing a HEAD, then we won't get any body
if {$state(-validate)} {
Eof $token
return
}
# For non-chunked transfer we may have no body - in this case we
# may get no further file event if the connection doesn't close
# and no more data is sent. We can tell and must finish up now -
# not later.
if {
!(([info exists state(connection)]
&& ($state(connection) eq "close"))
|| [info exists state(transfer)])
&& ($state(totalsize) == 0)
} {
Log "body size is 0 and no events likely - complete."
Eof $token
return
}
# We have to use binary translation to count bytes properly.
fconfigure $sock -translation binary
if {
$state(-binary) || ![string match -nocase text* $state(type)]
} {
# Turn off conversions for non-text data
set state(binary) 1
}
if {[info exists state(-channel)]} {
if {$state(binary) || [llength [ContentEncoding $token]]} {
fconfigure $state(-channel) -translation binary
}
if {![info exists state(-handler)]} {
# Initiate a sequence of background fcopies
fileevent $sock readable {}
CopyStart $sock $token
return
}
}
} elseif {$n > 0} {
# Process header lines
if {[regexp -nocase {^([^:]+):(.+)$} $line x key value]} {
switch -- [string tolower $key] {
content-type {
set state(type) [string trim [string tolower $value]]
# grab the optional charset information
if {[regexp -nocase \
{charset\s*=\s*\"((?:[^""]|\\\")*)\"} \
$state(type) -> cs]} {
set state(charset) [string map {{\"} \"} $cs]
} else {
regexp -nocase {charset\s*=\s*(\S+?);?} \
$state(type) -> state(charset)
}
}
content-length {
set state(totalsize) [string trim $value]
}
content-encoding {
set state(coding) [string trim $value]
}
transfer-encoding {
set state(transfer) \
[string trim [string tolower $value]]
}
proxy-connection -
connection {
set state(connection) \
[string trim [string tolower $value]]
}
}
lappend state(meta) $key [string trim $value]
}
}
} else {
# Now reading body
if {[catch {
if {[info exists state(-handler)]} {
set n [eval $state(-handler) [list $sock $token]]
} elseif {[info exists state(transfer_final)]} {
set line [getTextLine $sock]
set n [string length $line]
if {$n > 0} {
Log "found $n bytes following final chunk"
append state(transfer_final) $line
} else {
Log "final chunk part"
Eof $token
}
} elseif {
[info exists state(transfer)]
&& $state(transfer) eq "chunked"
} {
set size 0
set chunk [getTextLine $sock]
set n [string length $chunk]
if {[string trim $chunk] ne ""} {
scan $chunk %x size
if {$size != 0} {
set bl [fconfigure $sock -blocking]
fconfigure $sock -blocking 1
set chunk [read $sock $size]
fconfigure $sock -blocking $bl
set n [string length $chunk]
if {$n >= 0} {
append state(body) $chunk
}
if {$size != [string length $chunk]} {
Log "WARNING: mis-sized chunk:\
was [string length $chunk], should be $size"
}
getTextLine $sock
} else {
set state(transfer_final) {}
}
}
} else {
#Log "read non-chunk $state(currentsize) of $state(totalsize)"
set block [read $sock $state(-blocksize)]
set n [string length $block]
if {$n >= 0} {
append state(body) $block
}
}
if {[info exists state]} {
if {$n >= 0} {
incr state(currentsize) $n
}
# If Content-Length - check for end of data.
if {
($state(totalsize) > 0)
&& ($state(currentsize) >= $state(totalsize))
} {
Eof $token
}
}
} err]} {
return [Finish $token $err]
} else {
if {[info exists state(-progress)]} {
eval $state(-progress) \
[list $token $state(totalsize) $state(currentsize)]
}
}
}
# catch as an Eof above may have closed the socket already
if {![catch {eof $sock} eof] && $eof} {
if {[info exists $token]} {
set state(connection) close
Eof $token
} else {
# open connection closed on a token that has been cleaned up.
CloseSocket $sock
}
return
}
}
# http::getTextLine --
#
# Get one line with the stream in blocking crlf mode
#
# Arguments
# sock The socket receiving input.
#
# Results:
# The line of text, without trailing newline
proc http::getTextLine {sock} {
set tr [fconfigure $sock -translation]
set bl [fconfigure $sock -blocking]
fconfigure $sock -translation crlf -blocking 1
set r [gets $sock]
fconfigure $sock -translation $tr -blocking $bl
return $r
}
# http::CopyStart
#
# Error handling wrapper around fcopy
#
# Arguments
# sock The socket to copy from
# token The token returned from http::geturl
#
# Side Effects
# This closes the connection upon error
proc http::CopyStart {sock token {initial 1}} {
upvar #0 $token state
if {[info exists state(transfer)] && $state(transfer) eq "chunked"} {
foreach coding [ContentEncoding $token] {
lappend state(zlib) [zlib stream $coding]
}
make-transformation-chunked $sock [namespace code [list CopyChunk $token]]
} else {
if {$initial} {
foreach coding [ContentEncoding $token] {
zlib push $coding $sock
}
}
if {[catch {
fcopy $sock $state(-channel) -size $state(-blocksize) -command \
[list http::CopyDone $token]
} err]} {
Finish $token $err
}
}
}
proc http::CopyChunk {token chunk} {
upvar 0 $token state
if {[set count [string length $chunk]]} {
incr state(currentsize) $count
if {[info exists state(zlib)]} {
foreach stream $state(zlib) {
set chunk [$stream add $chunk]
}
}
puts -nonewline $state(-channel) $chunk
if {[info exists state(-progress)]} {
eval [linsert $state(-progress) end \
$token $state(totalsize) $state(currentsize)]
}
} else {
Log "CopyChunk Finish $token"
if {[info exists state(zlib)]} {
set excess ""
foreach stream $state(zlib) {
catch {set excess [$stream add -finalize $excess]}
}
puts -nonewline $state(-channel) $excess
foreach stream $state(zlib) { $stream close }
unset state(zlib)
}
Eof $token ;# FIX ME: pipelining.
}
}
# http::CopyDone
#
# fcopy completion callback
#
# Arguments
# token The token returned from http::geturl
# count The amount transfered
#
# Side Effects
# Invokes callbacks
proc http::CopyDone {token count {error {}}} {
variable $token
upvar 0 $token state
set sock $state(sock)
incr state(currentsize) $count
if {[info exists state(-progress)]} {
eval $state(-progress) \
[list $token $state(totalsize) $state(currentsize)]
}
# At this point the token may have been reset
if {[string length $error]} {
Finish $token $error
} elseif {[catch {eof $sock} iseof] || $iseof} {
Eof $token
} else {
CopyStart $sock $token 0
}
}
# http::Eof
#
# Handle eof on the socket
#
# Arguments
# token The token returned from http::geturl
#
# Side Effects
# Clean up the socket
proc http::Eof {token {force 0}} {
variable $token
upvar 0 $token state
if {$state(state) eq "header"} {
# Premature eof
set state(status) eof
} else {
set state(status) ok
}
if {[string length $state(body)] > 0} {
if {[catch {
foreach coding [ContentEncoding $token] {
set state(body) [zlib $coding $state(body)]
}
} err]} {
Log "error doing $coding '$state(body)'"
return [Finish $token $err]
}
if {!$state(binary)} {
# If we are getting text, set the incoming channel's encoding
# correctly. iso8859-1 is the RFC default, but this could be any IANA
# charset. However, we only know how to convert what we have
# encodings for.
set enc [CharsetToEncoding $state(charset)]
if {$enc ne "binary"} {
set state(body) [encoding convertfrom $enc $state(body)]
}
# Translate text line endings.
set state(body) [string map {\r\n \n \r \n} $state(body)]
}
}
Finish $token
}
# http::wait --
#
# See documentation for details.
#
# Arguments:
# token Connection token.
#
# Results:
# The status after the wait.
proc http::wait {token} {
variable $token
upvar 0 $token state
if {![info exists state(status)] || $state(status) eq ""} {
# We must wait on the original variable name, not the upvar alias
vwait ${token}(status)
}
return [status $token]
}
# http::formatQuery --
#
# See documentation for details. Call http::formatQuery with an even
# number of arguments, where the first is a name, the second is a value,
# the third is another name, and so on.
#
# Arguments:
# args A list of name-value pairs.
#
# Results:
# TODO
proc http::formatQuery {args} {
set result ""
set sep ""
foreach i $args {
append result $sep [mapReply $i]
if {$sep eq "="} {
set sep &
} else {
set sep =
}
}
return $result
}
# http::mapReply --
#
# Do x-www-urlencoded character mapping
#
# Arguments:
# string The string the needs to be encoded
#
# Results:
# The encoded string
proc http::mapReply {string} {
variable http
variable formMap
# The spec says: "non-alphanumeric characters are replaced by '%HH'". Use
# a pre-computed map and [string map] to do the conversion (much faster
# than [regsub]/[subst]). [Bug 1020491]
if {$http(-urlencoding) ne ""} {
set string [encoding convertto $http(-urlencoding) $string]
return [string map $formMap $string]
}
set converted [string map $formMap $string]
if {[string match "*\[\u0100-\uffff\]*" $converted]} {
regexp "\[\u0100-\uffff\]" $converted badChar
# Return this error message for maximum compatability... :^/
return -code error \
"can't read \"formMap($badChar)\": no such element in array"
}
return $converted
}
# http::ProxyRequired --
# Default proxy filter.
#
# Arguments:
# host The destination host
#
# Results:
# The current proxy settings
proc http::ProxyRequired {host} {
variable http
if {[info exists http(-proxyhost)] && [string length $http(-proxyhost)]} {
if {
![info exists http(-proxyport)] ||
![string length $http(-proxyport)]
} {
set http(-proxyport) 8080
}
return [list $http(-proxyhost) $http(-proxyport)]
}
}
# http::CharsetToEncoding --
#
# Tries to map a given IANA charset to a tcl encoding. If no encoding
# can be found, returns binary.
#
proc http::CharsetToEncoding {charset} {
variable encodings
set charset [string tolower $charset]
if {[regexp {iso-?8859-([0-9]+)} $charset -> num]} {
set encoding "iso8859-$num"
} elseif {[regexp {iso-?2022-(jp|kr)} $charset -> ext]} {
set encoding "iso2022-$ext"
} elseif {[regexp {shift[-_]?js} $charset]} {
set encoding "shiftjis"
} elseif {[regexp {(?:windows|cp)-?([0-9]+)} $charset -> num]} {
set encoding "cp$num"
} elseif {$charset eq "us-ascii"} {
set encoding "ascii"
} elseif {[regexp {(?:iso-?)?lat(?:in)?-?([0-9]+)} $charset -> num]} {
switch -- $num {
5 {set encoding "iso8859-9"}
1 - 2 - 3 {
set encoding "iso8859-$num"
}
}
} else {
# other charset, like euc-xx, utf-8,... may directly map to encoding
set encoding $charset
}
set idx [lsearch -exact $encodings $encoding]
if {$idx >= 0} {
return $encoding
} else {
return "binary"
}
}
# Return the list of content-encoding transformations we need to do in order.
proc http::ContentEncoding {token} {
upvar 0 $token state
set r {}
if {[info exists state(coding)]} {
foreach coding [split $state(coding) ,] {
switch -exact -- $coding {
deflate { lappend r inflate }
gzip - x-gzip { lappend r gunzip }
compress - x-compress { lappend r decompress }
identity {}
default {
return -code error "unsupported content-encoding \"$coding\""
}
}
}
}
return $r
}
proc http::make-transformation-chunked {chan command} {
set lambda {{chan command} {
set data ""
set size -1
yield
while {1} {
chan configure $chan -translation {crlf binary}
while {[gets $chan line] < 1} { yield }
chan configure $chan -translation {binary binary}
if {[scan $line %x size] != 1} { return -code error "invalid size: \"$line\"" }
set chunk ""
while {$size && ![chan eof $chan]} {
set part [chan read $chan $size]
incr size -[string length $part]
append chunk $part
}
if {[catch {
uplevel #0 [linsert $command end $chunk]
}]} {
http::Log "Error in callback: $::errorInfo"
}
if {[string length $chunk] == 0} {
# channel might have been closed in the callback
catch {chan event $chan readable {}}
return
}
}
}}
coroutine dechunk$chan ::apply $lambda $chan $command
chan event $chan readable [namespace origin dechunk$chan]
return
}
# Local variables:
# indent-tabs-mode: t
# End:
|