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Diffstat (limited to 'Master/tlpkg/tltcl/lib/tcl8/8.6/http-2.9.1.tm')
-rw-r--r-- | Master/tlpkg/tltcl/lib/tcl8/8.6/http-2.9.1.tm | 3427 |
1 files changed, 3427 insertions, 0 deletions
diff --git a/Master/tlpkg/tltcl/lib/tcl8/8.6/http-2.9.1.tm b/Master/tlpkg/tltcl/lib/tcl8/8.6/http-2.9.1.tm new file mode 100644 index 00000000000..0aa283f00dd --- /dev/null +++ b/Master/tlpkg/tltcl/lib/tcl8/8.6/http-2.9.1.tm @@ -0,0 +1,3427 @@ +# 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 2.9.1 + +namespace eval http { + # Allow resourcing to not clobber existing data + + variable http + if {![info exists http]} { + array set http { + -accept */* + -pipeline 1 + -postfresh 0 + -proxyhost {} + -proxyport {} + -proxyfilter http::ProxyRequired + -repost 0 + -urlencoding utf-8 + -zip 1 + } + # 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. + # Safe interpreters do not have ::tcl_platform(os) or + # ::tcl_platform(osVersion). + if {[interp issafe]} { + set http(-useragent) "Mozilla/5.0\ + (Windows; U;\ + Windows NT 10.0)\ + http/[package provide http] Tcl/[package provide Tcl]" + } else { + 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 $i] + } + } + # These are handled specially + set map(\n) %0D%0A + variable formMap [array get map] + + # Create a map for HTTP/1.1 open sockets + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + if {[info exists socketMapping]} { + # Close open sockets on re-init. Do not permit retries. + foreach {url sock} [array get socketMapping] { + unset -nocomplain socketClosing($url) + unset -nocomplain socketPlayCmd($url) + CloseSocket $sock + } + } + + # CloseSocket should have unset the socket* arrays, one element at + # a time. Now unset anything that was overlooked. + # Traces on "unset socketRdState(*)" will call CancelReadPipeline and + # cancel any queued responses. + # Traces on "unset socketWrState(*)" will call CancelWritePipeline and + # cancel any queued requests. + array unset socketMapping + array unset socketRdState + array unset socketWrState + array unset socketRdQueue + array unset socketWrQueue + array unset socketClosing + array unset socketPlayCmd + array set socketMapping {} + array set socketRdState {} + array set socketWrState {} + array set socketRdQueue {} + array set socketWrQueue {} + array set socketClosing {} + array set socketPlayCmd {} + } + 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 quoteString + namespace export register unregister registerError + # - Useful, but not exported: data, size, status, code, cleanup, error, + # meta, ncode, mapReply, init. Comments suggest that "init" can be used + # for re-initialisation, although the command is undocumented. + # - Not exported, probably should be upper-case initial letter as part + # of the internals: getTextLine, make-transformation-chunked. +} + +# 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([string tolower $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 + set lower [string tolower $proto] + if {![info exists urlTypes($lower)]} { + return -code error "unsupported url type \"$proto\"" + } + set old $urlTypes($lower) + unset urlTypes($lower) + 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: +# May close the socket. + +proc http::Finish {token {errormsg ""} {skipCB 0}} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + global errorInfo errorCode + set closeQueue 0 + if {$errormsg ne ""} { + set state(error) [list $errormsg $errorInfo $errorCode] + set state(status) "error" + } + if {[info commands ${token}EventCoroutine] ne {}} { + rename ${token}EventCoroutine {} + } + if { ($state(status) eq "timeout") + || ($state(status) eq "error") + || ($state(status) eq "eof") + || ([info exists state(-keepalive)] && !$state(-keepalive)) + || ([info exists state(connection)] && ($state(connection) eq "close")) + } { + set closeQueue 1 + set connId $state(socketinfo) + set sock $state(sock) + CloseSocket $state(sock) $token + } elseif { + ([info exists state(-keepalive)] && $state(-keepalive)) + && ([info exists state(connection)] && ($state(connection) ne "close")) + } { + KeepSocket $token + } + if {[info exists state(after)]} { + after cancel $state(after) + unset state(after) + } + if {[info exists state(-command)] && (!$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 + } + } + + if { $closeQueue + && [info exists socketMapping($connId)] + && ($socketMapping($connId) eq $sock) + } { + http::CloseQueuedQueries $connId $token + } +} + +# http::KeepSocket - +# +# Keep a socket in the persistent sockets table and connect it to its next +# queued task if possible. Otherwise leave it idle and ready for its next +# use. +# +# If $socketClosing(*), then ($state(connection) eq "close") and therefore +# this command will not be called by Finish. +# +# Arguments: +# token Connection token. + +proc http::KeepSocket {token} { + variable http + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + set tk [namespace tail $token] + + # Keep this socket open for another request ("Keep-Alive"). + # React if the server half-closes the socket. + # Discussion is in http::geturl. + catch {fileevent $state(sock) readable [list http::CheckEof $state(sock)]} + + # The line below should not be changed in production code. + # It is edited by the test suite. + set TEST_EOF 0 + if {$TEST_EOF} { + # ONLY for testing reaction to server eof. + # No server timeouts will be caught. + catch {fileevent $state(sock) readable {}} + } + + if { [info exists state(socketinfo)] + && [info exists socketMapping($state(socketinfo))] + } { + set connId $state(socketinfo) + # The value "Rready" is set only here. + set socketRdState($connId) Rready + + if { $state(-pipeline) + && [info exists socketRdQueue($connId)] + && [llength $socketRdQueue($connId)] + } { + # The usual case for pipelined responses - if another response is + # queued, arrange to read it. + set token3 [lindex $socketRdQueue($connId) 0] + set socketRdQueue($connId) [lrange $socketRdQueue($connId) 1 end] + variable $token3 + upvar 0 $token3 state3 + set tk2 [namespace tail $token3] + + #Log pipelined, GRANT read access to $token3 in KeepSocket + set socketRdState($connId) $token3 + ReceiveResponse $token3 + + # Other pipelined cases. + # - The test above ensures that, for the pipelined cases in the two + # tests below, the read queue is empty. + # - In those two tests, check whether the next write will be + # nonpipeline. + } elseif { + $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "peNding") + + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && (![set token3 [lindex $socketWrQueue($connId) 0] + set ${token3}(-pipeline) + ] + ) + } { + # This case: + # - Now it the time to run the "pending" request. + # - The next token in the write queue is nonpipeline, and + # socketWrState has been marked "pending" (in + # http::NextPipelinedWrite or http::geturl) so a new pipelined + # request cannot jump the queue. + # + # Tests: + # - In this case the read queue (tested above) is empty and this + # "pending" write token is in front of the rest of the write + # queue. + # - The write state is not Wready and therefore appears to be busy, + # but because it is "pending" we know that it is reserved for the + # first item in the write queue, a non-pipelined request that is + # waiting for the read queue to empty. That has now happened: so + # give that request read and write access. + variable $token3 + set conn [set ${token3}(tmpConnArgs)] + #Log nonpipeline, GRANT r/w access to $token3 in KeepSocket + set socketRdState($connId) $token3 + set socketWrState($connId) $token3 + set socketWrQueue($connId) [lrange $socketWrQueue($connId) 1 end] + # Connect does its own fconfigure. + fileevent $state(sock) writable [list http::Connect $token3 {*}$conn] + #Log ---- $state(sock) << conn to $token3 for HTTP request (c) + + } elseif { + $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "peNding") + + } { + # Should not come here. The second block in the previous "elseif" + # test should be tautologous (but was needed in an earlier + # implementation) and will be removed after testing. + # If we get here, the value "pending" was assigned in error. + # This error would block the queue for ever. + Log ^X$tk <<<<< Error in queueing of requests >>>>> - token $token + + } elseif { + $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "Wready") + + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && (![set token3 [lindex $socketWrQueue($connId) 0] + set ${token3}(-pipeline) + ] + ) + } { + # This case: + # - The next token in the write queue is nonpipeline, and + # socketWrState is Wready. Get the next event from socketWrQueue. + # Tests: + # - In this case the read state (tested above) is Rready and the + # write state (tested here) is Wready - there is no "pending" + # request. + # Code: + # - The code is the same as the code below for the nonpipelined + # case with a queued request. + variable $token3 + set conn [set ${token3}(tmpConnArgs)] + #Log nonpipeline, GRANT r/w access to $token3 in KeepSocket + set socketRdState($connId) $token3 + set socketWrState($connId) $token3 + set socketWrQueue($connId) [lrange $socketWrQueue($connId) 1 end] + # Connect does its own fconfigure. + fileevent $state(sock) writable [list http::Connect $token3 {*}$conn] + #Log ---- $state(sock) << conn to $token3 for HTTP request (c) + + } elseif { + (!$state(-pipeline)) + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && ($state(connection) ne "close") + } { + # If not pipelined, (socketRdState eq Rready) tells us that we are + # ready for the next write - there is no need to check + # socketWrState. Write the next request, if one is waiting. + # If the next request is pipelined, it receives premature read + # access to the socket. This is not a problem. + set token3 [lindex $socketWrQueue($connId) 0] + variable $token3 + set conn [set ${token3}(tmpConnArgs)] + #Log nonpipeline, GRANT r/w access to $token3 in KeepSocket + set socketRdState($connId) $token3 + set socketWrState($connId) $token3 + set socketWrQueue($connId) [lrange $socketWrQueue($connId) 1 end] + # Connect does its own fconfigure. + fileevent $state(sock) writable [list http::Connect $token3 {*}$conn] + #Log ---- $state(sock) << conn to $token3 for HTTP request (d) + + } elseif {(!$state(-pipeline))} { + set socketWrState($connId) Wready + # Rready and Wready and idle: nothing to do. + } + + } else { + CloseSocket $state(sock) $token + # There is no socketMapping($state(socketinfo)), so it does not matter + # that CloseQueuedQueries is not called. + } +} + +# http::CheckEof - +# +# Read from a socket and close it if eof. +# The command is bound to "fileevent readable" on an idle socket, and +# "eof" is the only event that should trigger the binding, occurring when +# the server times out and half-closes the socket. +# +# A read is necessary so that [eof] gives a meaningful result. +# Any bytes sent are junk (or a bug). + +proc http::CheckEof {sock} { + set junk [read $sock] + set n [string length $junk] + if {$n} { + Log "WARNING: $n bytes received but no HTTP request sent" + } + + if {[catch {eof $sock} res] || $res} { + # The server has half-closed the socket. + # If a new write has started, its transaction will fail and + # will then be error-handled. + CloseSocket $sock + } +} + +# 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 "else" block of the first "if" command. + +proc http::CloseSocket {s {token {}}} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + set tk [namespace tail $token] + + catch {fileevent $s readable {}} + set connId {} + if {$token ne ""} { + variable $token + upvar 0 $token state + if {[info exists state(socketinfo)]} { + set connId $state(socketinfo) + } + } else { + set map [array get socketMapping] + set ndx [lsearch -exact $map $s] + if {$ndx != -1} { + incr ndx -1 + set connId [lindex $map $ndx] + } + } + if { ($connId ne {}) + && [info exists socketMapping($connId)] + && ($socketMapping($connId) eq $s) + } { + Log "Closing connection $connId (sock $socketMapping($connId))" + if {[catch {close $socketMapping($connId)} err]} { + Log "Error closing connection: $err" + } + if {$token eq {}} { + # Cases with a non-empty token are handled by Finish, so the tokens + # are finished in connection order. + http::CloseQueuedQueries $connId + } + } else { + Log "Closing socket $s (no connection info)" + if {[catch {close $s} err]} { + Log "Error closing socket: $err" + } + } +} + +# http::CloseQueuedQueries +# +# connId - identifier "domain:port" for the connection +# token - (optional) used only for logging +# +# Called from http::CloseSocket and http::Finish, after a connection is closed, +# to clear the read and write queues if this has not already been done. + +proc http::CloseQueuedQueries {connId {token {}}} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + if {![info exists socketMapping($connId)]} { + # Command has already been called. + # Don't come here again - especially recursively. + return + } + + # Used only for logging. + if {$token eq {}} { + set tk {} + } else { + set tk [namespace tail $token] + } + + if { [info exists socketPlayCmd($connId)] + && ($socketPlayCmd($connId) ne {ReplayIfClose Wready {} {}}) + } { + # Before unsetting, there is some unfinished business. + # - If the server sent "Connection: close", we have stored the command + # for retrying any queued requests in socketPlayCmd, so copy that + # value for execution below. socketClosing(*) was also set. + # - Also clear the queues to prevent calls to Finish that would set the + # state for the requests that will be retried to "finished with error + # status". + set unfinished $socketPlayCmd($connId) + set socketRdQueue($connId) {} + set socketWrQueue($connId) {} + } else { + set unfinished {} + } + + Unset $connId + + if {$unfinished ne {}} { + Log ^R$tk Any unfinished transactions (excluding $token) failed \ + - token $token + {*}$unfinished + } +} + +# http::Unset +# +# The trace on "unset socketRdState(*)" will call CancelReadPipeline +# and cancel any queued responses. +# The trace on "unset socketWrState(*)" will call CancelWritePipeline +# and cancel any queued requests. + +proc http::Unset {connId} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + unset socketMapping($connId) + unset socketRdState($connId) + unset socketWrState($connId) + unset -nocomplain socketRdQueue($connId) + unset -nocomplain socketWrQueue($connId) + unset -nocomplain socketClosing($connId) + unset -nocomplain socketPlayCmd($connId) +} + +# 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)] + ##Log Starting http::geturl - token $token + variable $token + upvar 0 $token state + set tk [namespace tail $token] + reset $token + Log ^A$tk URL $url - token $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 created + meta {} + method {} + 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 + } + set lower [string tolower $proto] + if {![info exists urlTypes($lower)]} { + unset $token + return -code error "Unsupported URL type \"$proto\"" + } + set defport [lindex $urlTypes($lower) 0] + set defcmd [lindex $urlTypes($lower) 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) $url + + set sockopts [list -async] + + # If we are using the proxy, we must pass in the full URL that includes + # the server name. + + if {[info exists phost] && ($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 + + # Save the accept types at this point to prevent a race condition. [Bug + # c11a51c482] + set state(accept-types) $http(-accept) + + if {$isQuery || $isQueryChannel} { + # It's a POST. + # A client wishing to send a non-idempotent request SHOULD wait to send + # that request until it has received the response status for the + # previous request. + if {$http(-postfresh)} { + # Override -keepalive for a POST. Use a new connection, and thus + # avoid the small risk of a race against server timeout. + set state(-keepalive) 0 + } else { + # Allow -keepalive but do not -pipeline - wait for the previous + # transaction to finish. + # There is a small risk of a race against server timeout. + set state(-pipeline) 0 + } + } else { + # It's a GET or HEAD. + set state(-pipeline) $http(-pipeline) + } + + # See if we are supposed to use a previously opened channel. + # - In principle, ANY call to http::geturl could use a previously opened + # channel if it is available - the "Connection: keep-alive" header is a + # request to leave the channel open AFTER completion of this call. + # - In fact, we try to use an existing channel only if -keepalive 1 -- this + # means that at most one channel is left open for each value of + # $state(socketinfo). This property simplifies the mapping of open + # channels. + set reusing 0 + set alreadyQueued 0 + if {$state(-keepalive)} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + if {[info exists socketMapping($state(socketinfo))]} { + # - If the connection is idle, it has a "fileevent readable" binding + # to http::CheckEof, in case the server times out and half-closes + # the socket (http::CheckEof closes the other half). + # - We leave this binding in place until just before the last + # puts+flush in http::Connected (GET/HEAD) or http::Write (POST), + # after which the HTTP response might be generated. + + if { [info exists socketClosing($state(socketinfo))] + && $socketClosing($state(socketinfo)) + } { + # socketClosing(*) is set because the server has sent a + # "Connection: close" header. + # Do not use the persistent socket again. + # Since we have only one persistent socket per server, and the + # old socket is not yet dead, add the request to the write queue + # of the dying socket, which will be replayed by ReplayIfClose. + # Also add it to socketWrQueue(*) which is used only if an error + # causes a call to Finish. + set reusing 1 + set sock $socketMapping($state(socketinfo)) + Log "reusing socket $sock for $state(socketinfo) - token $token" + + set alreadyQueued 1 + lassign $socketPlayCmd($state(socketinfo)) com0 com1 com2 com3 + lappend com3 $token + set socketPlayCmd($state(socketinfo)) [list $com0 $com1 $com2 $com3] + lappend socketWrQueue($state(socketinfo)) $token + } elseif {[catch {fconfigure $socketMapping($state(socketinfo))}]} { + # FIXME Is it still possible for this code to be executed? If + # so, this could be another place to call TestForReplay, + # rather than discarding the queued transactions. + Log "WARNING: socket for $state(socketinfo) was closed\ + - token $token" + Log "WARNING - if testing, pay special attention to this\ + case (GH) which is seldom executed - token $token" + + # This will call CancelReadPipeline, CancelWritePipeline, and + # cancel any queued requests, responses. + Unset $state(socketinfo) + } else { + # Use the persistent socket. + # The socket may not be ready to write: an earlier request might + # still be still writing (in the pipelined case) or + # writing/reading (in the nonpipeline case). This possibility + # is handled by socketWrQueue later in this command. + set reusing 1 + set sock $socketMapping($state(socketinfo)) + Log "reusing socket $sock for $state(socketinfo) - token $token" + + } + # Do not automatically close the connection socket. + set state(connection) {} + } + } + + if {$reusing} { + # Define state(tmpState) and state(tmpOpenCmd) for use + # by http::ReplayIfDead if the persistent connection has died. + set state(tmpState) [array get state] + + # Pass -myaddr directly to the socket command + if {[info exists state(-myaddr)]} { + lappend sockopts -myaddr $state(-myaddr) + } + + set state(tmpOpenCmd) [list {*}$defcmd {*}$sockopts {*}$targetAddr] + } + + set state(reusing) $reusing + # Excluding ReplayIfDead and the decision whether to call it, there are four + # places outside http::geturl where state(reusing) is used: + # - Connected - if reusing and not pipelined, start the state(-timeout) + # timeout (when writing). + # - DoneRequest - if reusing and pipelined, send the next pipelined write + # - Event - if reusing and pipelined, start the state(-timeout) + # timeout (when reading). + # - Event - if (not reusing) and pipelined, send the next pipelined + # write + + # See comments above re the start of this timeout in other cases. + if {(!$state(reusing)) && ($state(-timeout) > 0)} { + set state(after) [after $state(-timeout) \ + [list http::reset $token timeout]] + } + + if {![info exists sock]} { + # Pass -myaddr directly to the socket command + if {[info exists state(-myaddr)]} { + lappend sockopts -myaddr $state(-myaddr) + } + set pre [clock milliseconds] + ##Log pre socket opened, - token $token + ##Log [concat $defcmd $sockopts $targetAddr] - token $token + if {[catch {eval $defcmd $sockopts $targetAddr} sock errdict]} { + # 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) NONE + Finish $token $sock 1 + cleanup $token + dict unset errdict -level + return -options $errdict $sock + } else { + # Initialisation of a new socket. + ##Log post socket opened, - token $token + ##Log socket opened, now fconfigure - token $token + set delay [expr {[clock milliseconds] - $pre}] + if {$delay > 3000} { + Log socket delay $delay - token $token + } + fconfigure $sock -translation {auto crlf} \ + -buffersize $state(-blocksize) + ##Log socket opened, DONE fconfigure - token $token + } + } + # Command [socket] is called with -async, but takes 5s to 5.1s to return, + # with probability of order 1 in 10,000. This may be a bizarre scheduling + # issue with my (KJN's) system (Fedora Linux). + # This does not cause a problem (unless the request times out when this + # command returns). + + set state(sock) $sock + Log "Using $sock for $state(socketinfo) - token $token" \ + [expr {$state(-keepalive)?"keepalive":""}] + + if { $state(-keepalive) + && (![info exists socketMapping($state(socketinfo))]) + } { + # Freshly-opened socket that we would like to become persistent. + set socketMapping($state(socketinfo)) $sock + + if {![info exists socketRdState($state(socketinfo))]} { + set socketRdState($state(socketinfo)) {} + set varName ::http::socketRdState($state(socketinfo)) + trace add variable $varName unset ::http::CancelReadPipeline + } + if {![info exists socketWrState($state(socketinfo))]} { + set socketWrState($state(socketinfo)) {} + set varName ::http::socketWrState($state(socketinfo)) + trace add variable $varName unset ::http::CancelWritePipeline + } + + if {$state(-pipeline)} { + #Log new, init for pipelined, GRANT write access to $token in geturl + # Also grant premature read access to the socket. This is OK. + set socketRdState($state(socketinfo)) $token + set socketWrState($state(socketinfo)) $token + } else { + # socketWrState is not used by this non-pipelined transaction. + # We cannot leave it as "Wready" because the next call to + # http::geturl with a pipelined transaction would conclude that the + # socket is available for writing. + #Log new, init for nonpipeline, GRANT r/w access to $token in geturl + set socketRdState($state(socketinfo)) $token + set socketWrState($state(socketinfo)) $token + } + + set socketRdQueue($state(socketinfo)) {} + set socketWrQueue($state(socketinfo)) {} + set socketClosing($state(socketinfo)) 0 + set socketPlayCmd($state(socketinfo)) {ReplayIfClose Wready {} {}} + } + + if {![info exists phost]} { + set phost "" + } + if {$reusing} { + # For use by http::ReplayIfDead if the persistent connection has died. + # Also used by NextPipelinedWrite. + set state(tmpConnArgs) [list $proto $phost $srvurl] + } + + # The element socketWrState($connId) has a value which is either the name of + # the token that is permitted to write to the socket, or "Wready" if no + # token is permitted to write. + # + # The code that sets the value to Wready immediately calls + # http::NextPipelinedWrite, which examines socketWrQueue($connId) and + # processes the next request in the queue, if there is one. The value + # Wready is not found when the interpreter is in the event loop unless the + # socket is idle. + # + # The element socketRdState($connId) has a value which is either the name of + # the token that is permitted to read from the socket, or "Rready" if no + # token is permitted to read. + # + # The code that sets the value to Rready then examines + # socketRdQueue($connId) and processes the next request in the queue, if + # there is one. The value Rready is not found when the interpreter is in + # the event loop unless the socket is idle. + + if {$alreadyQueued} { + # A write may or may not be in progress. There is no need to set + # socketWrState to prevent another call stealing write access - all + # subsequent calls on this socket will come here because the socket + # will close after the current read, and its + # socketClosing($connId) is 1. + ##Log "HTTP request for token $token is queued" + + } elseif { $reusing + && $state(-pipeline) + && ($socketWrState($state(socketinfo)) ne "Wready") + } { + ##Log "HTTP request for token $token is queued for pipelined use" + lappend socketWrQueue($state(socketinfo)) $token + + } elseif { $reusing + && (!$state(-pipeline)) + && ($socketWrState($state(socketinfo)) ne "Wready") + } { + # A write is queued or in progress. Lappend to the write queue. + ##Log "HTTP request for token $token is queued for nonpipeline use" + lappend socketWrQueue($state(socketinfo)) $token + + } elseif { $reusing + && (!$state(-pipeline)) + && ($socketWrState($state(socketinfo)) eq "Wready") + && ($socketRdState($state(socketinfo)) ne "Rready") + } { + # A read is queued or in progress, but not a write. Cannot start the + # nonpipeline transaction, but must set socketWrState to prevent a + # pipelined request jumping the queue. + ##Log "HTTP request for token $token is queued for nonpipeline use" + #Log re-use nonpipeline, GRANT delayed write access to $token in geturl + + set socketWrState($state(socketinfo)) peNding + lappend socketWrQueue($state(socketinfo)) $token + + } else { + if {$reusing && $state(-pipeline)} { + #Log re-use pipelined, GRANT write access to $token in geturl + set socketWrState($state(socketinfo)) $token + + } elseif {$reusing} { + # Cf tests above - both are ready. + #Log re-use nonpipeline, GRANT r/w access to $token in geturl + set socketRdState($state(socketinfo)) $token + set socketWrState($state(socketinfo)) $token + } + + # All (!$reusing) cases come here, and also some $reusing cases if the + # connection is ready. + #Log ---- $state(socketinfo) << conn to $token for HTTP request (a) + # Connect does its own fconfigure. + 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 + } + } + ##Log Leaving http::geturl - token $token + return $token +} + +# http::Connected -- +# +# Callback used when the connection to the HTTP server is actually +# established. +# +# Arguments: +# token State token. +# proto What protocol (http, https, etc.) was used to connect. +# phost Are we using keep-alive? Non-empty if yes. +# srvurl Service-local URL that we're requesting +# Results: +# None. + +proc http::Connected {token proto phost srvurl} { + variable http + variable urlTypes + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + set tk [namespace tail $token] + + if {$state(reusing) && (!$state(-pipeline)) && ($state(-timeout) > 0)} { + set state(after) [after $state(-timeout) \ + [list http::reset $token timeout]] + } + + # 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 lower [string tolower $proto] + set defport [lindex $urlTypes($lower) 0] + + # Send data in cr-lf format, but accept any line terminators. + # Initialisation to {auto *} now done in geturl, KeepSocket and DoneRequest. + # We are concerned here with the request (write) not the response (read). + lassign [fconfigure $sock -translation] trRead trWrite + fconfigure $sock -translation [list $trRead 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. + lassign [fconfigure $sock -translation] trRead trWrite + fconfigure $state(-querychannel) -blocking 1 \ + -translation [list $trRead binary] + set contDone 0 + } + if {[info exists state(-method)] && ($state(-method) ne "")} { + set how $state(-method) + } + # We cannot handle chunked encodings with -handler, so force HTTP/1.0 + # until we can manage this. + if {[info exists state(-handler)]} { + set state(-protocol) 1.0 + } + set accept_types_seen 0 + + Log ^B$tk begin sending request - token $token + + if {[catch { + set state(method) $how + puts $sock "$how $srvurl HTTP/$state(-protocol)" + if {[dict exists $state(-headers) Host]} { + # Allow Host spoofing. [Bug 928154] + puts $sock "Host: [dict get $state(-headers) Host]" + } elseif {$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" + } + puts $sock "User-Agent: $http(-useragent)" + if {($state(-protocol) >= 1.0) && $state(-keepalive)} { + # Send this header, because a 1.1 server is not compelled to treat + # this as the default. + 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 + dict for {key value} $state(-headers) { + set value [string map [list \n "" \r ""] $value] + set key [string map {" " -} [string trim $key]] + if {[string equal -nocase $key "host"]} { + continue + } + if {[string equal -nocase $key "accept-encoding"]} { + set accept_encoding_seen 1 + } + if {[string equal -nocase $key "accept"]} { + set accept_types_seen 1 + } + if {[string equal -nocase $key "content-type"]} { + set content_type_seen 1 + } + if {[string equal -nocase $key "content-length"]} { + set contDone 1 + set state(querylength) $value + } + if {[string length $key]} { + puts $sock "$key: $value" + } + } + # Allow overriding the Accept header on a per-connection basis. Useful + # for working with REST services. [Bug c11a51c482] + if {!$accept_types_seen} { + puts $sock "Accept: $state(accept-types)" + } + if { (!$accept_encoding_seen) + && (![info exists state(-handler)]) + && $http(-zip) + } { + puts $sock "Accept-Encoding: gzip,deflate,compress" + } + if {$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 || $isQueryChannel} { + # POST method. + if {!$content_type_seen} { + puts $sock "Content-Type: $state(-type)" + } + if {!$contDone} { + puts $sock "Content-Length: $state(querylength)" + } + puts $sock "" + flush $sock + # Flush flushes the error in the https case with a bad handshake: + # else the socket never becomes writable again, and hangs until + # timeout (if any). + + lassign [fconfigure $sock -translation] trRead trWrite + fconfigure $sock -translation [list $trRead binary] + fileevent $sock writable [list http::Write $token] + # The http::Write command decides when to make the socket readable, + # using the same test as the GET/HEAD case below. + } else { + # GET or HEAD method. + if { (![catch {fileevent $sock readable} binding]) + && ($binding eq [list http::CheckEof $sock]) + } { + # Remove the "fileevent readable" binding of an idle persistent + # socket to http::CheckEof. We can no longer treat bytes + # received as junk. The server might still time out and + # half-close the socket if it has not yet received the first + # "puts". + fileevent $sock readable {} + } + puts $sock "" + flush $sock + Log ^C$tk end sending request - token $token + # End of writing (GET/HEAD methods). The request has been sent. + + DoneRequest $token + } + + } err]} { + # The socket probably was never connected, OR the connection dropped + # later, OR https handshake error, which may be discovered as late as + # the "flush" command above... + Log "WARNING - if testing, pay special attention to this\ + case (GI) which is seldom executed - token $token" + if {[info exists state(reusing)] && $state(reusing)} { + # The socket was closed at the server end, and closed at + # this end by http::CheckEof. + if {[TestForReplay $token write $err a]} { + return + } else { + Finish $token {failed to re-use socket} + } + + # else: + # This is NOT a persistent socket that has been closed since its + # last use. + # If any other requests are in flight or pipelined/queued, they will + # be discarded. + } elseif {$state(status) eq ""} { + # ...https handshake errors come here. + set msg [registerError $sock] + registerError $sock {} + if {$msg eq {}} { + set msg {failed to use socket} + } + Finish $token $msg + } elseif {$state(status) ne "error"} { + Finish $token $err + } + } +} + +# http::registerError +# +# Called (for example when processing TclTLS activity) to register +# an error for a connection on a specific socket. This helps +# http::Connected to deliver meaningful error messages, e.g. when a TLS +# certificate fails verification. +# +# Usage: http::registerError socket ?newValue? +# +# "set" semantics, except that a "get" (a call without a new value) for a +# non-existent socket returns {}, not an error. + +proc http::registerError {sock args} { + variable registeredErrors + + if { ([llength $args] == 0) + && (![info exists registeredErrors($sock)]) + } { + return + } elseif { ([llength $args] == 1) + && ([lindex $args 0] eq {}) + } { + unset -nocomplain registeredErrors($sock) + return + } + set registeredErrors($sock) {*}$args +} + +# http::DoneRequest -- +# +# Command called when a request has been sent. It will arrange the +# next request and/or response as appropriate. +# +# If this command is called when $socketClosing(*), the request $token +# that calls it must be pipelined and destined to fail. + +proc http::DoneRequest {token} { + variable http + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + set tk [namespace tail $token] + set sock $state(sock) + + # If pipelined, connect the next HTTP request to the socket. + if {$state(reusing) && $state(-pipeline)} { + # Enable next token (if any) to write. + # The value "Wready" is set only here, and + # in http::Event after reading the response-headers of a + # non-reusing transaction. + # Previous value is $token. It cannot be pending. + set socketWrState($state(socketinfo)) Wready + + # Now ready to write the next pipelined request (if any). + http::NextPipelinedWrite $token + } else { + # If pipelined, this is the first transaction on this socket. We wait + # for the response headers to discover whether the connection is + # persistent. (If this is not done and the connection is not + # persistent, we SHOULD retry and then MUST NOT pipeline before knowing + # that we have a persistent connection + # (rfc2616 8.1.2.2)). + } + + # Connect to receive the response, unless the socket is pipelined + # and another response is being sent. + # This code block is separate from the code below because there are + # cases where socketRdState already has the value $token. + if { $state(-keepalive) + && $state(-pipeline) + && [info exists socketRdState($state(socketinfo))] + && ($socketRdState($state(socketinfo)) eq "Rready") + } { + #Log pipelined, GRANT read access to $token in Connected + set socketRdState($state(socketinfo)) $token + } + + if { $state(-keepalive) + && $state(-pipeline) + && [info exists socketRdState($state(socketinfo))] + && ($socketRdState($state(socketinfo)) ne $token) + } { + # Do not read from the socket until it is ready. + ##Log "HTTP response for token $token is queued for pipelined use" + # If $socketClosing(*), then the caller will be a pipelined write and + # execution will come here. + # This token has already been recorded as "in flight" for writing. + # When the socket is closed, the read queue will be cleared in + # CloseQueuedQueries and so the "lappend" here has no effect. + lappend socketRdQueue($state(socketinfo)) $token + } else { + # In the pipelined case, connection for reading depends on the + # value of socketRdState. + # In the nonpipeline case, connection for reading always occurs. + ReceiveResponse $token + } +} + +# http::ReceiveResponse +# +# Connects token to its socket for reading. + +proc http::ReceiveResponse {token} { + variable $token + upvar 0 $token state + set tk [namespace tail $token] + set sock $state(sock) + + #Log ---- $state(socketinfo) >> conn to $token for HTTP response + lassign [fconfigure $sock -translation] trRead trWrite + fconfigure $sock -translation [list auto $trWrite] \ + -buffersize $state(-blocksize) + Log ^D$tk begin receiving response - token $token + + coroutine ${token}EventCoroutine http::Event $sock $token + fileevent $sock readable ${token}EventCoroutine +} + +# http::NextPipelinedWrite +# +# - Connecting a socket to a token for writing is done by this command and by +# command KeepSocket. +# - If another request has a pipelined write scheduled for $token's socket, +# and if the socket is ready to accept it, connect the write and update +# the queue accordingly. +# - This command is called from http::DoneRequest and http::Event, +# IF $state(-pipeline) AND (the current transfer has reached the point at +# which the socket is ready for the next request to be written). +# - This command is called when a token has write access and is pipelined and +# keep-alive, and sets socketWrState to Wready. +# - The command need not consider the case where socketWrState is set to a token +# that does not yet have write access. Such a token is waiting for Rready, +# and the assignment of the connection to the token will be done elsewhere (in +# http::KeepSocket). +# - This command cannot be called after socketWrState has been set to a +# "pending" token value (that is then overwritten by the caller), because that +# value is set by this command when it is called by an earlier token when it +# relinquishes its write access, and the pending token is always the next in +# line to write. + +proc http::NextPipelinedWrite {token} { + variable http + variable socketRdState + variable socketWrState + variable socketWrQueue + variable socketClosing + variable $token + upvar 0 $token state + set connId $state(socketinfo) + + if { [info exists socketClosing($connId)] + && $socketClosing($connId) + } { + # socketClosing(*) is set because the server has sent a + # "Connection: close" header. + # Behave as if the queues are empty - so do nothing. + } elseif { $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "Wready") + + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && ([set token2 [lindex $socketWrQueue($connId) 0] + set ${token2}(-pipeline) + ] + ) + } { + # - The usual case for a pipelined connection, ready for a new request. + #Log pipelined, GRANT write access to $token2 in NextPipelinedWrite + set conn [set ${token2}(tmpConnArgs)] + set socketWrState($connId) $token2 + set socketWrQueue($connId) [lrange $socketWrQueue($connId) 1 end] + # Connect does its own fconfigure. + fileevent $state(sock) writable [list http::Connect $token2 {*}$conn] + #Log ---- $connId << conn to $token2 for HTTP request (b) + + # In the tests below, the next request will be nonpipeline. + } elseif { $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "Wready") + + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && (![ set token3 [lindex $socketWrQueue($connId) 0] + set ${token3}(-pipeline) + ] + ) + + && [info exists socketRdState($connId)] + && ($socketRdState($connId) eq "Rready") + } { + # The case in which the next request will be non-pipelined, and the read + # and write queues is ready: which is the condition for a non-pipelined + # write. + variable $token3 + upvar 0 $token3 state3 + set conn [set ${token3}(tmpConnArgs)] + #Log nonpipeline, GRANT r/w access to $token3 in NextPipelinedWrite + set socketRdState($connId) $token3 + set socketWrState($connId) $token3 + set socketWrQueue($connId) [lrange $socketWrQueue($connId) 1 end] + # Connect does its own fconfigure. + fileevent $state(sock) writable [list http::Connect $token3 {*}$conn] + #Log ---- $state(sock) << conn to $token3 for HTTP request (c) + + } elseif { $state(-pipeline) + && [info exists socketWrState($connId)] + && ($socketWrState($connId) eq "Wready") + + && [info exists socketWrQueue($connId)] + && [llength $socketWrQueue($connId)] + && (![set token2 [lindex $socketWrQueue($connId) 0] + set ${token2}(-pipeline) + ] + ) + } { + # - The case in which the next request will be non-pipelined, but the + # read queue is NOT ready. + # - A read is queued or in progress, but not a write. Cannot start the + # nonpipeline transaction, but must set socketWrState to prevent a new + # pipelined request (in http::geturl) jumping the queue. + # - Because socketWrState($connId) is not set to Wready, the assignment + # of the connection to $token2 will be done elsewhere - by command + # http::KeepSocket when $socketRdState($connId) is set to "Rready". + + #Log re-use nonpipeline, GRANT delayed write access to $token in NextP.. + set socketWrState($connId) peNding + } +} + +# http::CancelReadPipeline +# +# Cancel pipelined responses on a closing "Keep-Alive" socket. +# +# - Called by a variable trace on "unset socketRdState($connId)". +# - The variable relates to a Keep-Alive socket, which has been closed. +# - Cancels all pipelined responses. The requests have been sent, +# the responses have not yet been received. +# - This is a hard cancel that ends each transaction with error status, +# and closes the connection. Do not use it if you want to replay failed +# transactions. +# - N.B. Always delete ::http::socketRdState($connId) before deleting +# ::http::socketRdQueue($connId), or this command will do nothing. +# +# Arguments +# As for a trace command on a variable. + +proc http::CancelReadPipeline {name1 connId op} { + variable socketRdQueue + ##Log CancelReadPipeline $name1 $connId $op + if {[info exists socketRdQueue($connId)]} { + set msg {the connection was closed by CancelReadPipeline} + foreach token $socketRdQueue($connId) { + set tk [namespace tail $token] + Log ^X$tk end of response "($msg)" - token $token + set ${token}(status) eof + Finish $token ;#$msg + } + set socketRdQueue($connId) {} + } +} + +# http::CancelWritePipeline +# +# Cancel queued events on a closing "Keep-Alive" socket. +# +# - Called by a variable trace on "unset socketWrState($connId)". +# - The variable relates to a Keep-Alive socket, which has been closed. +# - In pipelined or nonpipeline case: cancels all queued requests. The +# requests have not yet been sent, the responses are not due. +# - This is a hard cancel that ends each transaction with error status, +# and closes the connection. Do not use it if you want to replay failed +# transactions. +# - N.B. Always delete ::http::socketWrState($connId) before deleting +# ::http::socketWrQueue($connId), or this command will do nothing. +# +# Arguments +# As for a trace command on a variable. + +proc http::CancelWritePipeline {name1 connId op} { + variable socketWrQueue + + ##Log CancelWritePipeline $name1 $connId $op + if {[info exists socketWrQueue($connId)]} { + set msg {the connection was closed by CancelWritePipeline} + foreach token $socketWrQueue($connId) { + set tk [namespace tail $token] + Log ^X$tk end of response "($msg)" - token $token + set ${token}(status) eof + Finish $token ;#$msg + } + set socketWrQueue($connId) {} + } +} + +# http::ReplayIfDead -- +# +# - A query on a re-used persistent socket failed at the earliest opportunity, +# because the socket had been closed by the server. Keep the token, tidy up, +# and try to connect on a fresh socket. +# - The connection is monitored for eof by the command http::CheckEof. Thus +# http::ReplayIfDead is needed only when a server event (half-closing an +# apparently idle connection), and a client event (sending a request) occur at +# almost the same time, and neither client nor server detects the other's +# action before performing its own (an "asynchronous close event"). +# - To simplify testing of http::ReplayIfDead, set TEST_EOF 1 in +# http::KeepSocket, and then http::ReplayIfDead will be called if http::geturl +# is called at any time after the server timeout. +# +# Arguments: +# token Connection token. +# +# Side Effects: +# Use the same token, but try to open a new socket. + +proc http::ReplayIfDead {tokenArg doing} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $tokenArg + upvar 0 $tokenArg stateArg + + Log running http::ReplayIfDead for $tokenArg $doing + + # 1. Merge the tokens for transactions in flight, the read (response) queue, + # and the write (request) queue. + + set InFlightR {} + set InFlightW {} + + # Obtain the tokens for transactions in flight. + if {$stateArg(-pipeline)} { + # Two transactions may be in flight. The "read" transaction was first. + # It is unlikely that the server would close the socket if a response + # was pending; however, an earlier request (as well as the present + # request) may have been sent and ignored if the socket was half-closed + # by the server. + + if { [info exists socketRdState($stateArg(socketinfo))] + && ($socketRdState($stateArg(socketinfo)) ne "Rready") + } { + lappend InFlightR $socketRdState($stateArg(socketinfo)) + } elseif {($doing eq "read")} { + lappend InFlightR $tokenArg + } + + if { [info exists socketWrState($stateArg(socketinfo))] + && $socketWrState($stateArg(socketinfo)) ni {Wready peNding} + } { + lappend InFlightW $socketWrState($stateArg(socketinfo)) + } elseif {($doing eq "write")} { + lappend InFlightW $tokenArg + } + + # Report any inconsistency of $tokenArg with socket*state. + if { ($doing eq "read") + && [info exists socketRdState($stateArg(socketinfo))] + && ($tokenArg ne $socketRdState($stateArg(socketinfo))) + } { + Log WARNING - ReplayIfDead pipelined tokenArg $tokenArg $doing \ + ne socketRdState($stateArg(socketinfo)) \ + $socketRdState($stateArg(socketinfo)) + + } elseif { + ($doing eq "write") + && [info exists socketWrState($stateArg(socketinfo))] + && ($tokenArg ne $socketWrState($stateArg(socketinfo))) + } { + Log WARNING - ReplayIfDead pipelined tokenArg $tokenArg $doing \ + ne socketWrState($stateArg(socketinfo)) \ + $socketWrState($stateArg(socketinfo)) + } + } else { + # One transaction should be in flight. + # socketRdState, socketWrQueue are used. + # socketRdQueue should be empty. + + # Report any inconsistency of $tokenArg with socket*state. + if {$tokenArg ne $socketRdState($stateArg(socketinfo))} { + Log WARNING - ReplayIfDead nonpipeline tokenArg $tokenArg $doing \ + ne socketRdState($stateArg(socketinfo)) \ + $socketRdState($stateArg(socketinfo)) + } + + # Report the inconsistency that socketRdQueue is non-empty. + if { [info exists socketRdQueue($stateArg(socketinfo))] + && ($socketRdQueue($stateArg(socketinfo)) ne {}) + } { + Log WARNING - ReplayIfDead nonpipeline tokenArg $tokenArg $doing \ + has read queue socketRdQueue($stateArg(socketinfo)) \ + $socketRdQueue($stateArg(socketinfo)) ne {} + } + + lappend InFlightW $socketRdState($stateArg(socketinfo)) + set socketRdQueue($stateArg(socketinfo)) {} + } + + set newQueue {} + lappend newQueue {*}$InFlightR + lappend newQueue {*}$socketRdQueue($stateArg(socketinfo)) + lappend newQueue {*}$InFlightW + lappend newQueue {*}$socketWrQueue($stateArg(socketinfo)) + + + # 2. Tidy up tokenArg. This is a cut-down form of Finish/CloseSocket. + # Do not change state(status). + # No need to after cancel stateArg(after) - either this is done in + # ReplayCore/ReInit, or Finish is called. + + catch {close $stateArg(sock)} + + # 2a. Tidy the tokens in the queues - this is done in ReplayCore/ReInit. + # - Transactions, if any, that are awaiting responses cannot be completed. + # They are listed for re-sending in newQueue. + # - All tokens are preserved for re-use by ReplayCore, and their variables + # will be re-initialised by calls to ReInit. + # - The relevant element of socketMapping, socketRdState, socketWrState, + # socketRdQueue, socketWrQueue, socketClosing, socketPlayCmd will be set + # to new values in ReplayCore. + + ReplayCore $newQueue +} + +# http::ReplayIfClose -- +# +# A request on a socket that was previously "Connection: keep-alive" has +# received a "Connection: close" response header. The server supplies +# that response correctly, but any later requests already queued on this +# connection will be lost when the socket closes. +# +# This command takes arguments that represent the socketWrState, +# socketRdQueue and socketWrQueue for this connection. The socketRdState +# is not needed because the server responds in full to the request that +# received the "Connection: close" response header. +# +# Existing request tokens $token (::http::$n) are preserved. The caller +# will be unaware that the request was processed this way. + +proc http::ReplayIfClose {Wstate Rqueue Wqueue} { + Log running http::ReplayIfClose for $Wstate $Rqueue $Wqueue + + if {$Wstate in $Rqueue || $Wstate in $Wqueue} { + Log WARNING duplicate token in http::ReplayIfClose - token $Wstate + set Wstate Wready + } + + # 1. Create newQueue + set InFlightW {} + if {$Wstate ni {Wready peNding}} { + lappend InFlightW $Wstate + } + + set newQueue {} + lappend newQueue {*}$Rqueue + lappend newQueue {*}$InFlightW + lappend newQueue {*}$Wqueue + + # 2. Cleanup - none needed, done by the caller. + + ReplayCore $newQueue +} + +# http::ReInit -- +# +# Command to restore a token's state to a condition that +# makes it ready to replay a request. +# +# Command http::geturl stores extra state in state(tmp*) so +# we don't need to do the argument processing again. +# +# The caller must: +# - Set state(reusing) and state(sock) to their new values after calling +# this command. +# - Unset state(tmpState), state(tmpOpenCmd) if future calls to ReplayCore +# or ReInit are inappropriate for this token. Typically only one retry +# is allowed. +# The caller may also unset state(tmpConnArgs) if this value (and the +# token) will be used immediately. The value is needed by tokens that +# will be stored in a queue. +# +# Arguments: +# token Connection token. +# +# Return Value: (boolean) true iff the re-initialisation was successful. + +proc http::ReInit {token} { + variable $token + upvar 0 $token state + + if {!( + [info exists state(tmpState)] + && [info exists state(tmpOpenCmd)] + && [info exists state(tmpConnArgs)] + ) + } { + Log FAILED in http::ReInit via ReplayCore - NO tmp vars for $token + return 0 + } + + if {[info exists state(after)]} { + after cancel $state(after) + unset state(after) + } + + # Don't alter state(status) - this would trigger http::wait if it is in use. + set tmpState $state(tmpState) + set tmpOpenCmd $state(tmpOpenCmd) + set tmpConnArgs $state(tmpConnArgs) + foreach name [array names state] { + if {$name ne "status"} { + unset state($name) + } + } + + # Don't alter state(status). + # Restore state(tmp*) - the caller may decide to unset them. + # Restore state(tmpConnArgs) which is needed for connection. + # state(tmpState), state(tmpOpenCmd) are needed only for retries. + + dict unset tmpState status + array set state $tmpState + set state(tmpState) $tmpState + set state(tmpOpenCmd) $tmpOpenCmd + set state(tmpConnArgs) $tmpConnArgs + + return 1 +} + +# http::ReplayCore -- +# +# Command to replay a list of requests, using existing connection tokens. +# +# Abstracted from http::geturl which stores extra state in state(tmp*) so +# we don't need to do the argument processing again. +# +# Arguments: +# newQueue List of connection tokens. +# +# Side Effects: +# Use existing tokens, but try to open a new socket. + +proc http::ReplayCore {newQueue} { + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + if {[llength $newQueue] == 0} { + # Nothing to do. + return + } + + ##Log running ReplayCore for {*}$newQueue + set newToken [lindex $newQueue 0] + set newQueue [lrange $newQueue 1 end] + + # 3. Use newToken, and restore its values of state(*). Do not restore + # elements tmp* - we try again only once. + + set token $newToken + variable $token + upvar 0 $token state + + if {![ReInit $token]} { + Log FAILED in http::ReplayCore - NO tmp vars + Finish $token {cannot send this request again} + return + } + + set tmpState $state(tmpState) + set tmpOpenCmd $state(tmpOpenCmd) + set tmpConnArgs $state(tmpConnArgs) + unset state(tmpState) + unset state(tmpOpenCmd) + unset state(tmpConnArgs) + + set state(reusing) 0 + + if {$state(-timeout) > 0} { + set resetCmd [list http::reset $token timeout] + set state(after) [after $state(-timeout) $resetCmd] + } + + set pre [clock milliseconds] + ##Log pre socket opened, - token $token + ##Log $tmpOpenCmd - token $token + # 4. Open a socket. + if {[catch {eval $tmpOpenCmd} sock]} { + # Something went wrong while trying to establish the connection. + Log FAILED - $sock + set state(sock) NONE + Finish $token $sock + return + } + ##Log post socket opened, - token $token + set delay [expr {[clock milliseconds] - $pre}] + if {$delay > 3000} { + Log socket delay $delay - token $token + } + # Command [socket] is called with -async, but takes 5s to 5.1s to return, + # with probability of order 1 in 10,000. This may be a bizarre scheduling + # issue with my (KJN's) system (Fedora Linux). + # This does not cause a problem (unless the request times out when this + # command returns). + + # 5. Configure the persistent socket data. + if {$state(-keepalive)} { + set socketMapping($state(socketinfo)) $sock + + if {![info exists socketRdState($state(socketinfo))]} { + set socketRdState($state(socketinfo)) {} + set varName ::http::socketRdState($state(socketinfo)) + trace add variable $varName unset ::http::CancelReadPipeline + } + + if {![info exists socketWrState($state(socketinfo))]} { + set socketWrState($state(socketinfo)) {} + set varName ::http::socketWrState($state(socketinfo)) + trace add variable $varName unset ::http::CancelWritePipeline + } + + if {$state(-pipeline)} { + #Log new, init for pipelined, GRANT write acc to $token ReplayCore + set socketRdState($state(socketinfo)) $token + set socketWrState($state(socketinfo)) $token + } else { + #Log new, init for nonpipeline, GRANT r/w acc to $token ReplayCore + set socketRdState($state(socketinfo)) $token + set socketWrState($state(socketinfo)) $token + } + + set socketRdQueue($state(socketinfo)) {} + set socketWrQueue($state(socketinfo)) $newQueue + set socketClosing($state(socketinfo)) 0 + set socketPlayCmd($state(socketinfo)) {ReplayIfClose Wready {} {}} + } + + ##Log pre newQueue ReInit, - token $token + # 6. Configure sockets in the queue. + foreach tok $newQueue { + if {[ReInit $tok]} { + set ${tok}(reusing) 1 + set ${tok}(sock) $sock + } else { + set ${tok}(reusing) 1 + set ${tok}(sock) NONE + Finish $token {cannot send this request again} + } + } + + # 7. Configure the socket for newToken to send a request. + set state(sock) $sock + Log "Using $sock for $state(socketinfo) - token $token" \ + [expr {$state(-keepalive)?"keepalive":""}] + + # Initialisation of a new socket. + ##Log socket opened, now fconfigure - token $token + fconfigure $sock -translation {auto crlf} -buffersize $state(-blocksize) + ##Log socket opened, DONE fconfigure - token $token + + # Connect does its own fconfigure. + fileevent $sock writable [list http::Connect $token {*}$tmpConnArgs] + #Log ---- $sock << conn to $token for HTTP request (e) +} + +# Data access functions: +# Data - the URL data +# Status - the transaction status: ok, reset, eof, timeout, error +# 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 commands ${token}EventCoroutine] ne {}} { + rename ${token}EventCoroutine {} + } + if {[info exists state(after)]} { + after cancel $state(after) + unset state(after) + } + 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 tk [namespace tail $token] + set err "due to unexpected EOF" + if { + [eof $state(sock)] || + [set err [fconfigure $state(sock) -error]] ne "" + } { + Log "WARNING - if testing, pay special attention to this\ + case (GJ) which is seldom executed - token $token" + if {[info exists state(reusing)] && $state(reusing)} { + # The socket was closed at the server end, and closed at + # this end by http::CheckEof. + if {[TestForReplay $token write $err b]} { + return + } + + # else: + # This is NOT a persistent socket that has been closed since its + # last use. + # If any other requests are in flight or pipelined/queued, they will + # be discarded. + } + Finish $token "connect failed $err" + } else { + set state(state) connecting + fileevent $state(sock) writable {} + ::http::Connected $token $proto $phost $srvurl + } +} + +# 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 http + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + set tk [namespace tail $token] + 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. + if { $state(queryoffset) + $state(-queryblocksize) + >= $state(querylength) + } { + # This will be the last puts for the request-body. + if { (![catch {fileevent $sock readable} binding]) + && ($binding eq [list http::CheckEof $sock]) + } { + # Remove the "fileevent readable" binding of an idle + # persistent socket to http::CheckEof. We can no longer + # treat bytes received as junk. The server might still time + # out and half-close the socket if it has not yet received + # the first "puts". + fileevent $sock readable {} + } + } + 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)] + if {[eof $state(-querychannel)]} { + # This will be the last puts for the request-body. + if { (![catch {fileevent $sock readable} binding]) + && ($binding eq [list http::CheckEof $sock]) + } { + # Remove the "fileevent readable" binding of an idle + # persistent socket to http::CheckEof. We can no longer + # treat bytes received as junk. The server might still time + # out and half-close the socket if it has not yet received + # the first "puts". + fileevent $sock readable {} + } + } + 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 $sock writable {} + Log ^C$tk end sending request - token $token + # End of writing (POST method). The request has been sent. + + DoneRequest $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. This command is the core of +# the coroutine commands ${token}EventCoroutine that are +# bound to "fileevent $sock readable" and process input. +# +# 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 http + variable socketMapping + variable socketRdState + variable socketWrState + variable socketRdQueue + variable socketWrQueue + variable socketClosing + variable socketPlayCmd + + variable $token + upvar 0 $token state + set tk [namespace tail $token] + while 1 { + yield + ##Log Event call - token $token + + 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\ + - token $token" + } + } + Log ^X$tk end of response (token error) - token $token + CloseSocket $sock + return + } + if {$state(state) eq "connecting"} { + ##Log - connecting - token $token + if { $state(reusing) + && $state(-pipeline) + && ($state(-timeout) > 0) + && (![info exists state(after)]) + } { + set state(after) [after $state(-timeout) \ + [list http::reset $token timeout]] + } + + if {[catch {gets $sock state(http)} nsl]} { + Log "WARNING - if testing, pay special attention to this\ + case (GK) which is seldom executed - token $token" + if {[info exists state(reusing)] && $state(reusing)} { + # The socket was closed at the server end, and closed at + # this end by http::CheckEof. + + if {[TestForReplay $token read $nsl c]} { + return + } + + # else: + # This is NOT a persistent socket that has been closed since + # its last use. + # If any other requests are in flight or pipelined/queued, + # they will be discarded. + } else { + Log ^X$tk end of response (error) - token $token + Finish $token $nsl + return + } + } elseif {$nsl >= 0} { + ##Log - connecting 1 - token $token + set state(state) "header" + } elseif { [eof $sock] + && [info exists state(reusing)] + && $state(reusing) + } { + # The socket was closed at the server end, and we didn't notice. + # This is the first read - where the closure is usually first + # detected. + + if {[TestForReplay $token read {} d]} { + return + } + + # else: + # This is NOT a persistent socket that has been closed since its + # last use. + # If any other requests are in flight or pipelined/queued, they + # will be discarded. + } + } elseif {$state(state) eq "header"} { + if {[catch {gets $sock line} nhl]} { + ##Log header failed - token $token + Log ^X$tk end of response (error) - token $token + Finish $token $nhl + return + } elseif {$nhl == 0} { + ##Log header done - token $token + Log ^E$tk end of response headers - token $token + # We have now read all headers + # We ignore HTTP/1.1 100 Continue returns. RFC2616 sec 8.2.3 + if { ($state(http) == "") + || ([regexp {^\S+\s(\d+)} $state(http) {} x] && $x == 100) + } { + set state(state) "connecting" + continue + # This was a "return" in the pre-coroutine code. + } + + if { ([info exists state(connection)]) + && ([info exists socketMapping($state(socketinfo))]) + && ($state(connection) eq "keep-alive") + && ($state(-keepalive)) + && (!$state(reusing)) + && ($state(-pipeline)) + } { + # Response headers received for first request on a + # persistent socket. Now ready for pipelined writes (if + # any). + # Previous value is $token. It cannot be "pending". + set socketWrState($state(socketinfo)) Wready + http::NextPipelinedWrite $token + } + + # Once a "close" has been signaled, the client MUST NOT send any + # more requests on that connection. + # + # If either the client or the server sends the "close" token in + # the Connection header, that request becomes the last one for + # the connection. + + if { ([info exists state(connection)]) + && ([info exists socketMapping($state(socketinfo))]) + && ($state(connection) eq "close") + && ($state(-keepalive)) + } { + # The server warns that it will close the socket after this + # response. + ##Log WARNING - socket will close after response for $token + # Prepare data for a call to ReplayIfClose. + if { ($socketRdQueue($state(socketinfo)) ne {}) + || ($socketWrQueue($state(socketinfo)) ne {}) + || ($socketWrState($state(socketinfo)) ni + [list Wready peNding $token]) + } { + set InFlightW $socketWrState($state(socketinfo)) + if {$InFlightW in [list Wready peNding $token]} { + set InFlightW Wready + } else { + set msg "token ${InFlightW} is InFlightW" + ##Log $msg - token $token + } + + set socketPlayCmd($state(socketinfo)) \ + [list ReplayIfClose $InFlightW \ + $socketRdQueue($state(socketinfo)) \ + $socketWrQueue($state(socketinfo))] + + # - All tokens are preserved for re-use by ReplayCore. + # - Queues are preserved in case of Finish with error, + # but are not used for anything else because + # socketClosing(*) is set below. + # - Cancel the state(after) timeout events. + foreach tokenVal $socketRdQueue($state(socketinfo)) { + if {[info exists ${tokenVal}(after)]} { + after cancel [set ${tokenVal}(after)] + unset ${tokenVal}(after) + } + } + + } else { + set socketPlayCmd($state(socketinfo)) \ + {ReplayIfClose Wready {} {}} + } + + # Do not allow further connections on this socket. + set socketClosing($state(socketinfo)) 1 + } + + set state(state) body + + # If doing a HEAD, then we won't get any body + if {$state(-validate)} { + Log ^F$tk end of response for HEAD request - token $token + set state(state) complete + Eot $token + return + } + + # - For non-chunked transfer we may have no body - in this case + # we may get no further file event if the connection doesn't + # close and no more data is sent. We can tell and must finish + # up now - not later - the alternative would be to wait until + # the server times out. + # - In this case, the server has NOT told the client it will + # close the connection, AND it has NOT indicated the resource + # length EITHER by setting the Content-Length (totalsize) OR + # by using chunked Transfer-Encoding. + # - Do not worry here about the case (Connection: close) because + # the server should close the connection. + # - IF (NOT Connection: close) AND (NOT chunked encoding) AND + # (totalsize == 0). + + if { (!( [info exists state(connection)] + && ($state(connection) eq "close") + ) + ) + && (![info exists state(transfer)]) + && ($state(totalsize) == 0) + } { + set msg {body size is 0 and no events likely - complete} + Log "$msg - token $token" + set msg {(length unknown, set to 0)} + Log ^F$tk end of response body {*}$msg - token $token + set state(state) complete + Eot $token + return + } + + # We have to use binary translation to count bytes properly. + lassign [fconfigure $sock -translation] trRead trWrite + fconfigure $sock -translation [list binary $trWrite] + + if { + $state(-binary) || [IsBinaryContentType $state(type)] + } { + # Turn off conversions for non-text data. + set state(binary) 1 + } + if {[info exists state(-channel)]} { + if {$state(binary) || [llength [ContentEncoding $token]]} { + fconfigure $state(-channel) -translation binary + } + if {![info exists state(-handler)]} { + # Initiate a sequence of background fcopies. + fileevent $sock readable {} + rename ${token}EventCoroutine {} + CopyStart $sock $token + return + } + } + } elseif {$nhl > 0} { + # Process header lines. + ##Log header - token $token - $line + if {[regexp -nocase {^([^:]+):(.+)$} $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 + ##Log body - token $token + if {[catch { + if {[info exists state(-handler)]} { + set n [eval $state(-handler) [list $sock $token]] + ##Log handler $n - token $token + # N.B. the protocol has been set to 1.0 because the -handler + # logic is not expected to handle chunked encoding. + # FIXME Allow -handler with 1.1 on dechunked stacked chan. + if {$state(totalsize) == 0} { + # We know the transfer is complete only when the server + # closes the connection - i.e. eof is not an error. + set state(state) complete + } + if {![string is integer -strict $n]} { + if 1 { + # Do not tolerate bad -handler - fail with error + # status. + set msg {the -handler command for http::geturl must\ + return an integer (the number of bytes\ + read)} + Log ^X$tk end of response (handler error) -\ + token $token + Eot $token $msg + } else { + # Tolerate the bad -handler, and continue. The + # penalty: + # (a) Because the handler returns nonsense, we know + # the transfer is complete only when the server + # closes the connection - i.e. eof is not an + # error. + # (b) http::size will not be accurate. + # (c) The transaction is already downgraded to 1.0 + # to avoid chunked transfer encoding. It MUST + # also be forced to "Connection: close" or the + # HTTP/1.0 equivalent; or it MUST fail (as + # above) if the server sends + # "Connection: keep-alive" or the HTTP/1.0 + # equivalent. + set n 0 + set state(state) complete + } + } + } elseif {[info exists state(transfer_final)]} { + # This code forgives EOF in place of the final CRLF. + set line [getTextLine $sock] + set n [string length $line] + set state(state) complete + if {$n > 0} { + # - HTTP trailers (late response headers) are permitted + # by Chunked Transfer-Encoding, and can be safely + # ignored. + # - Do not count these bytes in the total received for + # the response body. + Log "trailer of $n bytes after final chunk -\ + token $token" + append state(transfer_final) $line + set n 0 + } else { + Log ^F$tk end of response body (chunked) - token $token + Log "final chunk part - token $token" + Eot $token + } + } elseif { [info exists state(transfer)] + && ($state(transfer) eq "chunked") + } { + ##Log chunked - token $token + set size 0 + set hexLenChunk [getTextLine $sock] + #set ntl [string length $hexLenChunk] + if {[string trim $hexLenChunk] ne ""} { + scan $hexLenChunk %x size + if {$size != 0} { + ##Log chunk-measure $size - token $token + set chunk [BlockingRead $sock $size] + set n [string length $chunk] + if {$n >= 0} { + append state(body) $chunk + incr state(log_size) [string length $chunk] + ##Log chunk $n cumul $state(log_size) -\ + token $token + } + if {$size != [string length $chunk]} { + Log "WARNING: mis-sized chunk:\ + was [string length $chunk], should be\ + $size - token $token" + set n 0 + set state(connection) close + Log ^X$tk end of response (chunk error) \ + - token $token + set msg {error in chunked encoding - fetch\ + terminated} + Eot $token $msg + } + # CRLF that follows chunk. + # If eof, this is handled at the end of this proc. + getTextLine $sock + } else { + set n 0 + set state(transfer_final) {} + } + } else { + # Line expected to hold chunk length is empty, or eof. + ##Log bad-chunk-measure - token $token + set n 0 + set state(connection) close + Log ^X$tk end of response (chunk error) - token $token + Eot $token {error in chunked encoding -\ + fetch terminated} + } + } else { + ##Log unchunked - token $token + if {$state(totalsize) == 0} { + # We know the transfer is complete only when the server + # closes the connection. + set state(state) complete + set reqSize $state(-blocksize) + } else { + # Ask for the whole of the unserved response-body. + # This works around a problem with a tls::socket - for + # https in keep-alive mode, and a request for + # $state(-blocksize) bytes, the last part of the + # resource does not get read until the server times out. + set reqSize [expr { $state(totalsize) + - $state(currentsize)}] + + # The workaround fails if reqSize is + # capped at $state(-blocksize). + # set reqSize [expr {min($reqSize, $state(-blocksize))}] + } + set c $state(currentsize) + set t $state(totalsize) + ##Log non-chunk currentsize $c of totalsize $t -\ + token $token + set block [read $sock $reqSize] + set n [string length $block] + if {$n >= 0} { + append state(body) $block + ##Log non-chunk [string length $state(body)] -\ + token $token + } + } + # This calculation uses n from the -handler, chunked, or + # unchunked case as appropriate. + if {[info exists state]} { + if {$n >= 0} { + incr state(currentsize) $n + set c $state(currentsize) + set t $state(totalsize) + ##Log another $n currentsize $c totalsize $t -\ + token $token + } + # If Content-Length - check for end of data. + if { + ($state(totalsize) > 0) + && ($state(currentsize) >= $state(totalsize)) + } { + Log ^F$tk end of response body (unchunked) -\ + token $token + set state(state) complete + Eot $token + } + } + } err]} { + Log ^X$tk end of response (error ${err}) - token $token + Finish $token $err + return + } else { + if {[info exists state(-progress)]} { + eval $state(-progress) \ + [list $token $state(totalsize) $state(currentsize)] + } + } + } + + # catch as an Eot above may have closed the socket already + # $state(state) may be connecting, header, body, or complete + if {![set cc [catch {eof $sock} eof]] && $eof} { + ##Log eof - token $token + if {[info exists $token]} { + set state(connection) close + if {$state(state) eq "complete"} { + # This includes all cases in which the transaction + # can be completed by eof. + # The value "complete" is set only in http::Event, and it is + # used only in the test above. + Log ^F$tk end of response body (unchunked, eof) -\ + token $token + Eot $token + } else { + # Premature eof. + Log ^X$tk end of response (unexpected eof) - token $token + Eot $token eof + } + } else { + # open connection closed on a token that has been cleaned up. + Log ^X$tk end of response (token error) - token $token + CloseSocket $sock + } + } elseif {$cc} { + return + } + } +} + +# http::TestForReplay +# +# Command called if eof is discovered when a socket is first used for a +# new transaction. Typically this occurs if a persistent socket is used +# after a period of idleness and the server has half-closed the socket. +# +# token - the connection token returned by http::geturl +# doing - "read" or "write" +# err - error message, if any +# caller - code to identify the caller - used only in logging +# +# Return Value: boolean, true iff the command calls http::ReplayIfDead. + +proc http::TestForReplay {token doing err caller} { + variable http + variable $token + upvar 0 $token state + set tk [namespace tail $token] + if {$doing eq "read"} { + set code Q + set action response + set ing reading + } else { + set code P + set action request + set ing writing + } + + if {$err eq {}} { + set err "detect eof when $ing (server timed out?)" + } + + if {$state(method) eq "POST" && !$http(-repost)} { + # No Replay. + # The present transaction will end when Finish is called. + # That call to Finish will abort any other transactions + # currently in the write queue. + # For calls from http::Event this occurs when execution + # reaches the code block at the end of that proc. + set msg {no retry for POST with http::config -repost 0} + Log reusing socket failed "($caller)" - $msg - token $token + Log error - $err - token $token + Log ^X$tk end of $action (error) - token $token + return 0 + } else { + # Replay. + set msg {try a new socket} + Log reusing socket failed "($caller)" - $msg - token $token + Log error - $err - token $token + Log ^$code$tk Any unfinished (incl this one) failed - token $token + ReplayIfDead $token $doing + return 1 + } +} + +# http::IsBinaryContentType -- +# +# Determine if the content-type means that we should definitely transfer +# the data as binary. [Bug 838e99a76d] +# +# Arguments +# type The content-type of the data. +# +# Results: +# Boolean, true if we definitely should be binary. + +proc http::IsBinaryContentType {type} { + lassign [split [string tolower $type] "/;"] major minor + if {$major eq "text"} { + return false + } + # There's a bunch of XML-as-application-format things about. See RFC 3023 + # and so on. + if {$major eq "application"} { + set minor [string trimright $minor] + if {$minor in {"json" "xml" "xml-external-parsed-entity" "xml-dtd"}} { + return false + } + } + # Not just application/foobar+xml but also image/svg+xml, so let us not + # restrict things for now... + if {[string match "*+xml" $minor]} { + return false + } + return true +} + +# http::getTextLine -- +# +# Get one line with the stream in crlf mode. +# Used if Transfer-Encoding is chunked. +# Empty line is not distinguished from eof. The caller must +# be able to handle this. +# +# Arguments +# sock The socket receiving input. +# +# Results: +# The line of text, without trailing newline + +proc http::getTextLine {sock} { + set tr [fconfigure $sock -translation] + lassign $tr trRead trWrite + fconfigure $sock -translation [list crlf $trWrite] + set r [BlockingGets $sock] + fconfigure $sock -translation $tr + return $r +} + +# http::BlockingRead +# +# Replacement for a blocking read. +# The caller must be a coroutine. + +proc http::BlockingRead {sock size} { + if {$size < 1} { + return + } + set result {} + while 1 { + set need [expr {$size - [string length $result]}] + set block [read $sock $need] + set eof [eof $sock] + append result $block + if {[string length $result] >= $size || $eof} { + return $result + } else { + yield + } + } +} + +# http::BlockingGets +# +# Replacement for a blocking gets. +# The caller must be a coroutine. +# Empty line is not distinguished from eof. The caller must +# be able to handle this. + +proc http::BlockingGets {sock} { + while 1 { + set count [gets $sock line] + set eof [eof $sock] + if {$count > -1 || $eof} { + return $line + } else { + yield + } + } +} + +# 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 { + # FIXME Keep-Alive on https tls::socket with unchunked transfer + # hangs until the server times out. A workaround is possible, as for + # the case without -channel, but it does not use the neat "fcopy" + # solution. + 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 $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) + } + Eot $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} { + Eot $token + } else { + CopyStart $sock $token 0 + } +} + +# http::Eot +# +# Called when either: +# a. An eof condition is detected on the socket. +# b. The client decides that the response is complete. +# c. The client detects an inconsistency and aborts the transaction. +# +# Does: +# 1. Set state(status) +# 2. Reverse any Content-Encoding +# 3. Convert charset encoding and line ends if necessary +# 4. Call http::Finish +# +# Arguments +# token The token returned from http::geturl +# force (previously) optional, has no effect +# reason - "eof" means premature EOF (not EOF as the natural end of +# the response) +# - "" means completion of response, with or without EOF +# - anything else describes an error confition other than +# premature EOF. +# +# Side Effects +# Clean up the socket + +proc http::Eot {token {reason {}}} { + variable $token + upvar 0 $token state + if {$reason eq "eof"} { + # Premature eof. + set state(status) eof + set reason {} + } elseif {$reason ne ""} { + # Abort the transaction. + set state(status) $reason + } else { + # The response is complete. + 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 decompression for token $token: $err" + Finish $token $err + return + } + + if {!$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 $reason +} + +# 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} { + if {[llength $args] % 2} { + return \ + -code error \ + -errorcode [list HTTP BADARGCNT $args] \ + {Incorrect number of arguments, must be an even number.} + } + 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 "\[\u0100-\uffff\]" $converted badChar + # Return this error message for maximum compatibility... :^/ + return -code error \ + "can't read \"formMap($badChar)\": no such element in array" + } + return $converted +} +interp alias {} http::quoteString {} http::mapReply + +# 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::ReceiveChunked {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 $chan readable {}} + return + } + } +} + +proc http::make-transformation-chunked {chan command} { + coroutine [namespace current]::dechunk$chan ::http::ReceiveChunked $chan $command + chan event $chan readable [namespace current]::dechunk$chan +} + +# Local variables: +# indent-tabs-mode: t +# End: |