[vset COMM_VERSION 4.6.3] [manpage_begin comm n [vset COMM_VERSION]] [see_also send(n)] [keywords comm] [keywords communication] [keywords ipc] [keywords message] [keywords {remote communication}] [keywords {remote execution}] [keywords rpc] [keywords secure] [keywords send] [keywords socket] [keywords ssl] [keywords tls] [copyright {1995-1998 The Open Group. All Rights Reserved.}] [copyright {2003-2004 ActiveState Corporation.}] [copyright {2006-2009 Andreas Kupries }] [moddesc {Remote communication}] [titledesc {A remote communication facility for Tcl (8.3 and later)}] [category {Programming tools}] [require Tcl 8.3] [require comm [opt [vset COMM_VERSION]]] [description] [para] The [package comm] command provides an inter-interpreter remote execution facility much like Tk's [cmd send(n)], except that it uses sockets rather than the X server for the communication path. As a result, [package comm] works with multiple interpreters, works on Windows and Macintosh systems, and provides control over the remote execution path. [para] These commands work just like [cmd send] and [cmd {winfo interps}] : [para] [example { ::comm::comm send ?-async? id cmd ?arg arg ...? ::comm::comm interps }] [para] This is all that is really needed to know in order to use [package comm] [subsection Commands] The package initializes [cmd ::comm::comm] as the default [emph chan]. [para] [package comm] names communication endpoints with an [emph id] unique to each machine. Before sending commands, the [emph id] of another interpreter is needed. Unlike Tk's send, [package comm] doesn't implicitly know the [emph id]'s of all the interpreters on the system. The following four methods make up the basic [package comm] interface. [list_begin definitions] [call [cmd {::comm::comm send}] [opt -async] \ [opt "-command [arg callback]"] \ [arg id] [arg cmd] [opt [arg {arg arg ...}]]] This invokes the given command in the interpreter named by [arg id]. The command waits for the result and remote errors are returned unless the [option -async] or [option -command] option is given. If [option -async] is given, send returns immediately and there is no further notification of result. If [option -command] is used, [emph callback] specifies a command to invoke when the result is received. These options are mutually exclusive. The callback will receive arguments in the form [emph {-option value}], suitable for [cmd {array set}]. The options are: [emph -id], the comm id of the interpreter that received the command; [emph -serial], a unique serial for each command sent to a particular comm interpreter; [emph -chan], the comm channel name; [emph -code], the result code of the command; [emph -errorcode], the errorcode, if any, of the command; [emph -errorinfo], the errorinfo, if any, of the command; and [emph -result], the return value of the command. If connection is lost before a reply is received, the callback will be invoked with a connection lost message with -code equal to -1. When [option -command] is used, the command returns the unique serial for the command. [call [cmd {::comm::comm self}]] Returns the [emph id] for this channel. [call [cmd {::comm::comm interps}]] Returns a list of all the remote [emph id]'s to which this channel is connected. [package comm] learns a new remote [emph id] when a command is first issued it, or when a remote [emph id] first issues a command to this comm channel. [cmd {::comm::comm ids}] is an alias for this method. [call [cmd {::comm::comm connect}] [opt [arg id]]] Whereas [cmd {::comm::comm send}] will automatically connect to the given [arg id], this forces a connection to a remote [emph id] without sending a command. After this, the remote [emph id] will appear in [cmd {::comm::comm interps}]. [list_end] [subsection {Eval Semantics}] [para] The evaluation semantics of [cmd {::comm::comm send}] are intended to match Tk's [cmd send] [emph exactly]. This means that [package comm] evaluates arguments on the remote side. [para] If you find that [cmd {::comm::comm send}] doesn't work for a particular command, try the same thing with Tk's send and see if the result is different. If there is a problem, please report it. For instance, there was had one report that this command produced an error. Note that the equivalent [cmd send] command also produces the same error. [para] [example { % ::comm::comm send id llength {a b c} wrong # args: should be "llength list" % send name llength {a b c} wrong # args: should be "llength list" }] [para] The [cmd eval] hook (described below) can be used to change from [cmd send]'s double eval semantics to single eval semantics. [subsection {Multiple Channels}] [para] More than one [cmd comm] channel (or [emph listener]) can be created in each Tcl interpreter. This allows flexibility to create full and restricted channels. For instance, [term hook] scripts are specific to the channel they are defined against. [list_begin definitions] [call [cmd {::comm::comm new}] [arg chan] [opt [arg {name value ...}]]] This creates a new channel and Tcl command with the given channel name. This new command controls the new channel and takes all the same arguments as [cmd ::comm::comm]. Any remaining arguments are passed to the [cmd config] method. The fully qualified channel name is returned. [call [cmd {::comm::comm channels}]] This lists all the channels allocated in this Tcl interpreter. [list_end] [para] The default configuration parameters for a new channel are: [para] [example { "-port 0 -local 1 -listen 0 -silent 0" }] [para] The default channel [cmd ::comm::comm] is created with: [para] [example { "::comm::comm new ::comm::comm -port 0 -local 1 -listen 1 -silent 0" }] [subsection {Channel Configuration}] [para] The [cmd config] method acts similar to [cmd fconfigure] in that it sets or queries configuration variables associated with a channel. [list_begin definitions] [call [cmd {::comm::comm config}]] [call [cmd {::comm::comm config}] [arg name]] [call [cmd {::comm::comm config}] [opt "[arg name] [arg value] [arg ...]"]] When given no arguments, [cmd config] returns a list of all variables and their value With one argument, [cmd config] returns the value of just that argument. With an even number of arguments, the given variables are set to the given values. [list_end] [para] These configuration variables can be changed (descriptions of them are elsewhere in this manual page): [list_begin definitions] [def "[option -listen] [opt [arg 0|1]]"] [def "[option -local] [opt [arg 0|1]]"] [def "[option -port] [opt [arg port]]"] [def "[option -silent] [opt [arg 0|1]]"] [def "[option -socketcmd] [opt [arg commandname]]"] [def "[option -interp] [opt [arg interpreter]]"] [def "[option -events] [opt [arg eventlist]]"] [list_end] [para] These configuration variables are read only: [list_begin definitions] [def "[option -chan] [arg chan]"] [def "[option -serial] [arg n]"] [def "[option -socket] sock[arg In]"] [list_end] [para] When [cmd config] changes the parameters of an existing channel (with the exception of [option -interp] and [option -events]), it closes and reopens the listening socket. An automatically assigned channel [emph id] will change when this happens. Recycling the socket is done by invoking [cmd {::comm::comm abort}], which causes all active sends to terminate. [subsection {Id/port Assignments}] [para] [package comm] uses a TCP port for endpoint [emph id]. The [method interps] (or [method ids]) method merely lists all the TCP ports to which the channel is connected. By default, each channel's [emph id] is randomly assigned by the operating system (but usually starts at a low value around 1024 and increases each time a new socket is opened). This behavior is accomplished by giving the [option -port] config option a value of 0. Alternately, a specific TCP port number may be provided for a given channel. As a special case, comm contains code to allocate a a high-numbered TCP port (>10000) by using [option {-port {}}]. Note that a channel won't be created and initialized unless the specific port can be allocated. [para] As a special case, if the channel is configured with [option {-listen 0}], then it will not create a listening socket and will use an id of [const 0] for itself. Such a channel is only good for outgoing connections (although once a connection is established, it can carry send traffic in both directions). As another special case, if the channel is configured with [option {-silent 0}], then the listening side will ignore connection attempts where the protocol negotiation phase failed, instead of throwing an error. [subsection {Execution Environment}] A communication channel in its default configuration will use the current interpreter for the execution of all received scripts, and of the event scripts associated with the various hooks. [para] This insecure setup can be changed by the user via the two options [option -interp], and [option -events]. [para] When [option -interp] is set all received scripts are executed in the slave interpreter specified as the value of the option. This interpreter is expected to exist before configuration. I.e. it is the responsibility of the user to create it. However afterward the communication channel takes ownership of this interpreter, and will destroy it when the communication channel is destroyed. Note that reconfiguration of the communication channel to either a different interpreter or the empty string will release the ownership [emph without] destroying the previously configured interpreter. The empty string has a special meaning, it restores the default behaviour of executing received scripts in the current interpreter. [para] [emph {Also of note}] is that replies and callbacks (a special form of reply) are [emph not] considered as received scripts. They are trusted, part of the internal machinery of comm, and therefore always executed in the current interpreter. [para] Even if an interpreter has been configured as the execution environment for received scripts the event scripts associated with the various hooks will by default still be executed in the current interpreter. To change this use the option [option -events] to declare a list of the events whose scripts should be executed in the declared interpreter as well. The contents of this option are ignored if the communication channel is configured to execute received scripts in the current interpreter. [subsection {Remote Interpreters}] [para] By default, each channel is restricted to accepting connections from the local system. This can be overridden by using the [option {-local 0}] configuration option For such channels, the [emph id] parameter takes the form [emph "\{ id host \}"]. [para] [emph WARNING]: The [emph host] must always be specified in the same form (e.g., as either a fully qualified domain name, plain hostname or an IP address). [subsection {Closing Connections}] [para] These methods give control over closing connections: [list_begin definitions] [call [cmd {::comm::comm shutdown}] [arg id]] This closes the connection to [arg id], aborting all outstanding commands in progress. Note that nothing prevents the connection from being immediately reopened by another incoming or outgoing command. [call [cmd {::comm::comm abort}]] This invokes shutdown on all open connections in this comm channel. [call [cmd {::comm::comm destroy}]] This aborts all connections and then destroys the this comm channel itself, including closing the listening socket. Special code allows the default [cmd ::comm::comm] channel to be closed such that the [cmd ::comm::comm] command it is not destroyed. Doing so closes the listening socket, preventing both incoming and outgoing commands on the channel. This sequence reinitializes the default channel: [para] [example { "::comm::comm destroy; ::comm::comm new ::comm::comm" }] [list_end] [para] When a remote connection is lost (because the remote exited or called [cmd shutdown]), [package comm] can invoke an application callback. This can be used to cleanup or restart an ancillary process, for instance. See the [term lost] callback below. [subsection Callbacks] [para] This is a mechanism for setting hooks for particular events: [list_begin definitions] [call [cmd {::comm::comm hook}] [arg event] [opt [const +]] [opt [arg script]]] This uses a syntax similar to Tk's [cmd bind] command. Prefixing [arg script] with a [const +] causes the new script to be appended. Without this, a new [arg script] replaces any existing script. When invoked without a script, no change is made. In all cases, the new hook script is returned by the command. [para] When an [arg event] occurs, the [arg script] associated with it is evaluated with the listed variables in scope and available. The return code ([emph not] the return value) of the script is commonly used decide how to further process after the hook. [para] Common variables include: [list_begin definitions] [def [var chan]] the name of the comm channel (and command) [def [var id]] the id of the remote in question [def [var fid]] the file id for the socket of the connection [list_end] [list_end] [para] These are the defined [emph events]: [list_begin definitions] [def [const connecting]] Variables: [var chan], [var id] [comment {[var host], and [var port] are NOT defined when this is called}] [para] This hook is invoked before making a connection to the remote named in [arg id]. An error return (via [cmd error]) will abort the connection attempt with the error. Example: [para] [example { % ::comm::comm hook connecting { if {[string match {*[02468]} $id]} { error "Can't connect to even ids" } } % ::comm::comm send 10000 puts ok Connect to remote failed: Can't connect to even ids % }] [def [const connected]] Variables: [var chan], [var fid], [var id], [var host], and [var port]. [para] This hook is invoked immediately after making a remote connection to [arg id], allowing arbitrary authentication over the socket named by [arg fid]. An error return (via [cmd error] ) will close the connection with the error. [arg host] and [arg port] are merely extracted from the [arg id]; changing any of these will have no effect on the connection, however. It is also possible to substitute and replace [arg fid]. [def [const incoming]] Variables: [var chan], [var fid], [var addr], and [var remport]. [para] Hook invoked when receiving an incoming connection, allowing arbitrary authentication over socket named by [arg fid]. An error return (via [cmd error]) will close the connection with the error. Note that the peer is named by [arg remport] and [arg addr] but that the remote [emph id] is still unknown. Example: [para] [example { ::comm::comm hook incoming { if {[string match 127.0.0.1 $addr]} { error "I don't talk to myself" } } }] [def [const eval]] Variables: [var chan], [var id], [var cmd], and [var buffer]. [para] This hook is invoked after collecting a complete script from a remote but [emph before] evaluating it. This allows complete control over the processing of incoming commands. [arg cmd] contains either [const send] or [const async]. [arg buffer] holds the script to evaluate. At the time the hook is called, [arg {$chan remoteid}] is identical in value to [arg id]. [para] By changing [arg buffer], the hook can change the script to be evaluated. The hook can short circuit evaluation and cause a value to be immediately returned by using [cmd return] [arg result] (or, from within a procedure, [cmd {return -code return}] [arg result]). An error return (via [cmd error]) will return an error result, as is if the script caused the error. Any other return will evaluate the script in [arg buffer] as normal. For compatibility with 3.2, [cmd break] and [cmd {return -code break}] [arg result] is supported, acting similarly to [cmd {return {}}] and [cmd {return -code return}] [arg result]. [para] Examples: [list_begin enumerated] [enum] augmenting a command [para] [example { % ::comm::comm send [::comm::comm self] pid 5013 % ::comm::comm hook eval {puts "going to execute $buffer"} % ::comm::comm send [::comm::comm self] pid going to execute pid 5013 }] [enum] short circuiting a command [para] [example { % ::comm::comm hook eval {puts "would have executed $buffer"; return 0} % ::comm::comm send [::comm::comm self] pid would have executed pid 0 }] [enum] Replacing double eval semantics [para] [example { % ::comm::comm send [::comm::comm self] llength {a b c} wrong # args: should be "llength list" % ::comm::comm hook eval {return [uplevel #0 $buffer]} return [uplevel #0 $buffer] % ::comm::comm send [::comm::comm self] llength {a b c} 3 }] [enum] Using a slave interpreter [para] [example { % interp create foo % ::comm::comm hook eval {return [foo eval $buffer]} % ::comm::comm send [::comm::comm self] set myvar 123 123 % set myvar can't read "myvar": no such variable % foo eval set myvar 123 }] [enum] Using a slave interpreter (double eval) [para] [example { % ::comm::comm hook eval {return [eval foo eval $buffer]} }] [enum] Subverting the script to execute [para] [example { % ::comm::comm hook eval { switch -- $buffer { a {return A-OK} b {return B-OK} default {error "$buffer is a no-no"} } } % ::comm::comm send [::comm::comm self] pid pid is a no-no % ::comm::comm send [::comm::comm self] a A-OK }] [list_end] [def [const reply]] Variables: [var chan], [var id], [var buffer], [var ret], and [var return()]. [para] This hook is invoked after collecting a complete reply script from a remote but [emph before] evaluating it. This allows complete control over the processing of replies to sent commands. The reply [arg buffer] is in one of the following forms [list_begin itemized] [item] return result [item] return -code code result [item] return -code code -errorinfo info -errorcode ecode msg [list_end] [para] For safety reasons, this is decomposed. The return result is in [arg ret], and the return switches are in the return array: [list_begin itemized] [item] [emph return(-code)] [item] [emph return(-errorinfo)] [item] [emph return(-errorcode)] [list_end] [para] Any of these may be the empty string. Modifying these four variables can change the return value, whereas modifying [arg buffer] has no effect. [def [const callback]] Variables: [var chan], [var id], [var buffer], [var ret], and [var return()]. [para] Similar to [emph reply], but used for callbacks. [def [const lost]] Variables: [var chan], [var id], and [var reason]. [para] This hook is invoked when the connection to [var id] is lost. Return value (or thrown error) is ignored. [arg reason] is an explanatory string indicating why the connection was lost. Example: [para] [example { ::comm::comm hook lost { global myvar if {$myvar(id) == $id} { myfunc return } } }] [list_end] [subsection Unsupported] [para] These interfaces may change or go away in subsequence releases. [list_begin definitions] [call [cmd {::comm::comm remoteid}]] Returns the [arg id] of the sender of the last remote command executed on this channel. If used by a proc being invoked remotely, it must be called before any events are processed. Otherwise, another command may get invoked and change the value. [call [cmd ::comm::comm_send]] Invoking this procedure will substitute the Tk [cmd send] and [cmd {winfo interps}] commands with these equivalents that use [cmd ::comm::comm]. [para] [example { proc send {args} { eval ::comm::comm send $args } rename winfo tk_winfo proc winfo {cmd args} { if {![string match in* $cmd]} { return [eval [list tk_winfo $cmd] $args] } return [::comm::comm interps] } }] [list_end] [subsection Security] Starting with version 4.6 of the package an option [option -socketcmd] is supported, allowing the user of a comm channel to specify which command to use when opening a socket. Anything which is API-compatible with the builtin [cmd ::socket] (the default) can be used. [para] The envisioned main use is the specification of the [cmd tls::socket] command, see package [package tls], to secure the communication. [para] [example { # Load and initialize tls package require tls tls::init -cafile /path/to/ca/cert -keyfile ... # Create secured comm channel ::comm::comm new SECURE -socketcmd tls::socket -listen 1 ... }] [para] The sections [sectref {Execution Environment}] and [sectref Callbacks] are also relevant to the security of the system, providing means to restrict the execution to a specific environment, perform additional authentication, and the like. [subsection {Blocking Semantics}] [para] There is one outstanding difference between [package comm] and [cmd send]. When blocking in a synchronous remote command, [cmd send] uses an internal C hook (Tk_RestrictEvents) to the event loop to look ahead for send-related events and only process those without processing any other events. In contrast, [package comm] uses the [cmd vwait] command as a semaphore to indicate the return message has arrived. The difference is that a synchronous [cmd send] will block the application and prevent all events (including window related ones) from being processed, while a synchronous [cmd {::comm::comm send}] will block the application but still allow other events to get processed. In particular, [cmd {after idle}] handlers will fire immediately when comm blocks. [para] What can be done about this? First, note that this behavior will come from any code using [cmd vwait] to block and wait for an event to occur. At the cost of multiple channel support, [package comm] could be changed to do blocking I/O on the socket, giving send-like blocking semantics. However, multiple channel support is a very useful feature of comm that it is deemed too important to lose. The remaining approaches involve a new loadable module written in C (which is somewhat against the philosophy of [cmd comm ]) One way would be to create a modified version of the [cmd vwait] command that allow the event flags passed to Tcl_DoOneEvent to be specified. For [cmd comm], just the TCL_FILE_EVENTS would be processed. Another way would be to implement a mechanism like Tk_RestrictEvents, but apply it to the Tcl event loop (since [package comm] doesn't require Tk). One of these approaches will be available in a future [package comm] release as an optional component. [subsection {Asynchronous Result Generation}] By default the result returned by a remotely invoked command is the result sent back to the invoker. This means that the result is generated synchronously, and the server handling the call is blocked for the duration of the command. [para] While this is tolerable as long as only short-running commands are invoked on the server long-running commands, like database queries make this a problem. One command can prevent the processing requests of all other clients for an arbitrary period of time. [para] Before version 4.5 of comm the only solution was to rewrite the server command to use the Tcl builtin command [cmd vwait], or one of its relatives like [cmd tkwait], to open a new event loop which processes requests while the long-running operation is executed. This however has its own perils, as this makes it possible to both overflow the Tcl stack with a large number of event loop, and to have a newer requests block the return of older ones, as the eventloop have to be unwound in the order of their creation. [para] The proper solution is to have the invoked command indicate to [package comm] that it cannot or will not deliver an immediate, synchronous result, but will do so later. At that point the framework can put sending the actual result on hold and continue processing requests using the main event loop. No blocking, no nesting of event loops. At some future date the long running operation delivers the result to comm, via the future object, which is then forwarded to the invoker as usual. [para] The necessary support for this solution has been added to comm since version 4.5, in the form of the new method [method return_async]. [list_begin definitions] [call [cmd {::comm::comm return_async}]] This command is used by a remotely invoked script to notify the comm channel which invoked it that the result to send back to the invoker is not generated synchronously. If this command is not called the default/standard behaviour of comm is to send the synchronously generated result of the script itself to the invoker. [para] The result of [cmd return_async] is an object. This object, called a [term future] is where the result of the script has to be delivered to when it becomes ready. When that happens it will take all the necessary actions to deliver the result to the invoker of the script, and then destroy itself. Should comm have lost the connection to the invoker while the result is being computed the future will not try to deliver the result it got, but just destroy itself. The future can be configured with a command to call when the invoker is lost. This enables the user to implement an early abort of the long-running operation, should this be supported by it. [para] An example: [example { # Procedure invoked by remote clients to run database operations. proc select {sql} { # Signal the async generation of the result set future [::comm::comm return_async] # Generate an async db operation and tell it where to deliver the result. set query [db query -command [list $future return] $sql] # Tell the database system which query to cancel if the connection # goes away while it is running. $future configure -command [list db cancel $query] # Note: The above will work without problem only if the async # query will nover run its completion callback immediately, but # only from the eventloop. Because otherwise the future we wish to # configure may already be gone. If that is possible use 'catch' # to prevent the error from propagating. return } }] [para] The API of a future object is: [list_begin definitions] [call [cmd \$future] [method return] [opt "[option -code] [arg code]"] [opt [arg value]]] Use this method to tell the future that long-running operation has completed. Arguments are an optional return value (defaults to the empty string), and the Tcl return code (defaults to OK). [para] The future will deliver this information to invoker, if the connection was not lost in the meantime, and then destroy itself. If the connection was lost it will do nothing but destroy itself. [call [cmd \$future] [method configure] [opt "[option -command] [opt [arg cmdprefix]]"]] [call [cmd \$future] [method cget] [option -command]] These methods allow the user to retrieve and set a command to be called if the connection the future belongs to has been lost. [list_end] [list_end] [subsection Compatibility] [para] [package comm] exports itself as a package. The package version number is in the form [emph "major . minor"], where the major version will only change when a non-compatible change happens to the API or protocol. Minor bug fixes and changes will only affect the minor version. To load [package comm] this command is usually used: [para] [example { package require comm 3 }] [para] Note that requiring no version (or a specific version) can also be done. [para] The revision history of [package comm] includes these releases: [list_begin definitions] [def 4.6.3] Fixed ticket [lb]ced0d60fc9[rb]. Added proper detection of eof on a socket, properly closing it. [def 4.6.2] Fixed bugs 2972571 and 3066872, the first a misdetection of quoted brace after double backslash, the other a blocking gets making for an obvious (hinsight) DoS attack on comm channels. [def 4.6.1] Changed the implementation of [cmd comm::commCollect] to emulate lindex's pre-Tcl 8 behaviour, i.e. it was given the ability to parse out the first word of a list, even if the whole buffer is not a well-formed list. Without this change the first word could only be extracted if the whole buffer was a well-formed list (ever since Tcl 8), and in a ver-high-load situation, i.e. a server sending lots and/or large commands very fast, this may never happen, eventually crashing the receiver when it runs out of memory. With the change the receiver is always able to process the first word when it becomes well-formed, regardless of the structure of the remainder of the buffer. [def 4.6] Added the option [option -socketcmd] enabling users to override how a socket is opened. The envisioned main use is the specification of the [cmd tls::socket] command, see package [package tls], to secure the communication. [def 4.5.7] Changed handling of ports already in use to provide a proper error message. [def 4.5.6] Bugfix in the replacement for [cmd vwait], made robust against of variable names containing spaces. [def 4.5.5] Bugfix in the handling of hooks, typo in variable name. [def 4.5.4] Bugfix in the handling of the result received by the [method send] method. Replaced an [emph {after idle unset result}] with an immediate [cmd unset], with the information saved to a local variable. [para] The [cmd {after idle}] can spill into a forked child process if there is no event loop between its setup and the fork. This may bork the child if the next event loop is the [cmd vwait] of [package comm]'s [method send] a few lines above the [cmd {after idle}], and the child used the same serial number for its next request. In that case the parent's [cmd {after idle unset}] will delete the very array element the child is waiting for, unlocking the [cmd vwait], causing it to access a now missing array element, instead of the expected result. [def 4.5.3] Bugfixes in the wrappers for the builtin [cmd update] and [cmd vwait] commands. [def 4.5.2] Bugfix in the wrapper for the builtin [cmd update] command. [def 4.5.1] Bugfixes in the handling of -interp for regular scripts. The handling of the buffer was wrong for scripts which are a single statement as list. Fixed missing argument to new command [cmd commSendReply], introduced by version 4.5. Affected debugging. [def 4.5] New server-side feature. The command invoked on the server can now switch comm from the standard synchronous return of its result to an asynchronous (defered) return. Due to the use of snit to implement the [term future] objects used by this feature from this version on comm requires at least Tcl 8.3 to run. Please read the section [sectref {Asynchronous Result Generation}] for more details. [def 4.4.1] Bugfix in the execution of hooks. [def 4.4] Bugfixes in the handling of -interp for regular and hook scripts. Bugfixes in channel cleanup. [def 4.3.1] Introduced -interp and -events to enable easy use of a slave interp for execution of received scripts, and of event scripts. [def 4.3] Bugfixes, and introduces -silent to allow the user to force the server/listening side to silently ignore connection attempts where the protocol negotiation failed. [def 4.2] Bugfixes, and most important, switched to utf-8 as default encoding for full i18n without any problems. [def 4.1] Rewrite of internal code to remove old pseudo-object model. Addition of send -command asynchronous callback option. [def 4.0] Per request by John LoVerso. Improved handling of error for async invoked commands. [def 3.7] Moved into tcllib and placed in a proper namespace. [def 3.6] A bug in the looking up of the remoteid for a executed command could be triggered when the connection was closed while several asynchronous sends were queued to be executed. [def 3.5] Internal change to how reply messages from a [cmd send] are handled. Reply messages are now decoded into the [arg value] to pass to [cmd return]; a new return statement is then cons'd up to with this value. Previously, the return code was passed in from the remote as a command to evaluate. Since the wire protocol has not changed, this is still the case. Instead, the reply handling code decodes the [const reply] message. [def 3.4] Added more source commentary, as well as documenting config variables in this man page. Fixed bug were loss of connection would give error about a variable named [var pending] rather than the message about the lost connection. [cmd {comm ids}] is now an alias for [cmd {comm interps}] (previously, it an alias for [cmd {comm chans}]). Since the method invocation change of 3.0, break and other exceptional conditions were not being returned correctly from [cmd {comm send}]. This has been fixed by removing the extra level of indirection into the internal procedure [cmd commSend]. Also added propagation of the [arg errorCode] variable. This means that these commands return exactly as they would with [cmd send]: [para] [example { comm send id break catch {comm send id break} comm send id expr 1 / 0 }] [para] Added a new hook for reply messages. Reworked method invocation to avoid the use of comm:* procedures; this also cut the invocation time down by 40%. Documented [cmd {comm config}] (as this manual page still listed the defunct [cmd {comm init}]!) [def 3.3] Some minor bugs were corrected and the documentation was cleaned up. Added some examples for hooks. The return semantics of the [cmd eval] hook were changed. [def 3.2] A new wire protocol, version 3, was added. This is backwards compatible with version 2 but adds an exchange of supported protocol versions to allow protocol negotiation in the future. Several bugs with the hook implementation were fixed. A new section of the man page on blocking semantics was added. [def 3.1] All the documented hooks were implemented. [cmd commLostHook] was removed. A bug in [cmd {comm new}] was fixed. [def 3.0] This is a new version of [package comm] with several major changes. There is a new way of creating the methods available under the [cmd comm] command. The [cmd {comm init}] method has been retired and is replaced by [cmd {comm configure}] which allows access to many of the well-defined internal variables. This also generalizes the options available to [cmd {comm new}]. Finally, there is now a protocol version exchanged when a connection is established. This will allow for future on-wire protocol changes. Currently, the protocol version is set to 2. [def 2.3] [cmd {comm ids}] was renamed to [cmd {comm channels}]. General support for [cmd {comm hook}] was fully implemented, but only the [term lost] hook exists, and it was changed to follow the general hook API. [cmd commLostHook] was unsupported (replaced by [cmd {comm hook lost}]) and [cmd commLost] was removed. [def 2.2] The [term died] hook was renamed [term lost], to be accessed by [cmd commLostHook] and an early implementation of [cmd {comm lost hook}]. As such, [cmd commDied] is now [cmd commLost]. [def 2.1] Unsupported method [cmd {comm remoteid}] was added. [def 2.0] [package comm] has been rewritten from scratch (but is fully compatible with Comm 1.0, without the requirement to use obTcl). [list_end] [include ../common-text/tls-security-notes.inc] [section Author] John LoVerso, John@LoVerso.Southborough.MA.US [para] [emph http://www.opengroup.org/~loverso/tcl-tk/#comm] [section License] Please see the file [emph comm.LICENSE] that accompanied this source, or [uri http://www.opengroup.org/www/dist_client/caubweb/COPYRIGHT.free.html]. [para] This license for [package comm], new as of version 3.2, allows it to be used for free, without any licensing fee or royalty. [section Bugs] [list_begin itemized] [item] If there is a failure initializing a channel created with [cmd {::comm::comm new}], then the channel should be destroyed. Currently, it is left in an inconsistent state. [item] There should be a way to force a channel to quiesce when changing the configuration. [list_end] [para] The following items can be implemented with the existing hooks and are listed here as a reminder to provide a sample hook in a future version. [list_begin itemized] [item] Allow easier use of a slave interp for actual command execution (especially when operating in "not local" mode). [item] Add host list (xhost-like) or "magic cookie" (xauth-like) authentication to initial handshake. [list_end] [para] The following are outstanding todo items. [list_begin itemized] [item] Add an interp discovery and name->port mapping. This is likely to be in a separate, optional nameserver. (See also the related work, below.) [item] Fix the [emph {{id host}}] form so as not to be dependent upon canonical hostnames. This requires fixes to Tcl to resolve hostnames! [list_end] [para] This man page is bigger than the source file. [section {On Using Old Versions Of Tcl}] [para] Tcl7.5 under Windows contains a bug that causes the interpreter to hang when EOF is reached on non-blocking sockets. This can be triggered with a command such as this: [para] [example { "comm send $other exit" }] [para] Always make sure the channel is quiescent before closing/exiting or use at least Tcl7.6 under Windows. [para] Tcl7.6 on the Mac contains several bugs. It is recommended you use at least Tcl7.6p2. [para] Tcl8.0 on UNIX contains a socket bug that can crash Tcl. It is recommended you use Tcl8.0p1 (or Tcl7.6p2). [section {Related Work}] [para] Tcl-DP provides an RPC-based remote execution interface, but is a compiled Tcl extension. See [uri http://www.cs.cornell.edu/Info/Projects/zeno/Projects/Tcl-DP.html]. [para] Michael Doyle has code that implements the Tcl-DP RPC interface using standard Tcl sockets, much like [package comm]. [para] Andreas Kupries uses [package comm] and has built a simple nameserver as part of his Pool library. See [uri http://www.purl.org/net/akupries/soft/pool/index.htm]. [vset CATEGORY comm] [include ../doctools2base/include/feedback.inc] [manpage_end]