ns_ictl(3aolserver) AOLserver Built-In Commands ns_ictl(3aolserver)
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NAME
ns_ictl - Facility to control AOLserver multi-threaded Tcl interpreters
SYNOPSIS
ns_ictl addmodule module
ns_ictl cancel thread
ns_ictl cleanup
ns_ictl epoch
ns_ictl get
ns_ictl getmodules
ns_ictl gettraces which
ns_ictl once key script
ns_ictl oncleanup script
ns_ictl oncreate script
ns_ictl ondelete script
ns_ictl oninit script
ns_ictl package ?-exact? package ?version?
ns_ictl runtraces which
ns_ictl save script
ns_ictl threads
ns_ictl trace when script
ns_ictl update
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DESCRIPTION
This command provides access to the internal facilities to control and configure multi-threaded Tcl interpreters in the context of
AOLserver virtual servers. It is normally used in startup initialization scripts to define how new interpreters are initialized when cre-
ated and to support cleanup and re-initalization between transactions (e.g., HTTP connections).
ns_ictl addmodule module
Add a module to the list of modules to be initialized at startup. This command is not normally required as each module specified in
the AOLserver modules config section for the corresponding server (e.g., ns/server/server1/modules) is automatically added to the
list.
ns_ictl cancel thread
Send an asynchronous interrupt request to the specified thread, cancelling any script currently executing on any AOLserver created
interpreter (note the interrupt is not virtual-server specific). This command utilizes the facilities of Tcl_AsyncMark to mark as
ready a callback registered with Tcl_AsyncCreate. The callback places an error message in the interpreter result and returns
TCL_ERROR to unwind the call stack. The underlying Tcl facility has limitations, e.g., the interrupt will only be noticed when Tcl
checks via Tcl_AsyncReady calls between commands and the interrupt can be caught with a catch command. See the man page for
Tcl_AsyncCreate for details.
ns_ictl cleanup
This command invokes any callbacks registered during a transaction via the C-level Ns_TclRegisterDefer routine. Unlike callbacks
registered with the ns_ictl trace deallocate command or Ns_TclRegisterTrace routine, these callbacks are executed only once and
there is no Tcl-level access to the underlying Ns_TclRegisterDefer routine.
ns_ictl epoch
This command returns the unique id for the current duplication script for the virtual server. The id starts as 0 when the virtual
server is created and is incremented each time a new script is saved via the ns_ictl save command.
ns_ictl get
Return the current duplication script for the virtual server. This command is useful to view the duplication script created by the
initialization script at startup.
ns_ictl getmodules
Return the list of modules to be initialized at startup. This list corresponds to the names of modules specified in the virtual
server modules config section, e.g., ns/server/server1/modules unless additional modules are added via the ns_ictl addmodule com-
mand.
ns_ictl gettraces which
Return the list of traces which will be invoked at the specified time. The which argument can be one of create, delete, allocate,
deallocate, getconn, or freeconn. The traces are returned in the order in which they will be executed. Script level traces are
returns as strings to evaluate and C-level traces are returned with strings which specify the address of the underlying C procedure
and argument.
ns_ictl once key script
Evaluate given script once in the virtual server. The given key is a string name which uniquely identifies the corresponding script.
This command is useful in a Tcl package which includes one-time initialization routines, e.g., calls to ns_register_proc or initial-
ization of shared variables using nsv_set (see EXAMPLES below).
ns_ictl oncleanup script
This command is equivalent to ns_ictl trace deallocate script.
ns_ictl oncreate script
This command is equivalent to ns_ictl trace create script.
ns_ictl ondelete script
This command is equivalent to ns_ictl trace delete script.
ns_ictl oninit script
This command is equivalent to ns_ictl trace allocate script.
ns_ictl package ?-exact? package ?version?
This command is used to require a package in the calling interpreter and, if successfully loaded, in all other interpreters for the
virtual server. In addition to ensuring version consistency for the package, it is equivalent to:
set version [package require package ?version?]
ns_ictl trace allocate [list package require package $version]
ns_ictl runtraces which
This command runs the requested traces. The which argument must be one of create, delete, allocate, deallocate, getconn, or
freeconn. Direct calls to this command are not normally necessary as the underlying C code will invoke the callbacks at the
required times. Exceptions include calling ns_ictl runtraces or testing purposes or to mimic the normal cleanup and initialization
work performed on between transactions in a long running thread (see EXAMPLES below).
ns_ictl save script
Save the given script as the duplication script, incrementing the virtual server epoch number. This command is normally called by
the bootstrap script after constructing the script to duplicate the procedures defined by sourcing the various module initialization
script files.
ns_ictl threads
Return a list of all threads with interpreters for the virtual server. The ids return are small strings which represent the underly-
ing thread ids and can be passed to the ns_ictl cancel command to send an asynchronous cancel request.
ns_ictl trace create script
Register script to be called when an interpreter is first created. This is useful to create procedures, require packages, or ini-
tialize other state to be used during the lifetime of the interpreter.
ns_ictl trace delete script
Register script to be called before an interpreter is destroyed. This is useful to free any resources which may have been allocated
for the interpreter during the lifetime of the interpreter.
ns_ictl trace allocate script
Register script to be called each time an interpreter is allocated for use by the Ns_TclAllocateInterp routine. This is useful for
reinitializing resources which may be used during a single transaction in the interpreter.
ns_ictl trace deallocate script
Register script to be called each time an interpreter is returned after a transaction with the Ns_TclDeAllocateInterp routine. This
is useful for garbage collection, i.e., freeing any resources which may be used during a single transaction in the interpreter.
ns_ictl trace getconn script
Register script to be called each time an interpreter is returned and associated with an HTTP connection with the Ns_GetConnInterp
routine. This could be useful to define variables relative to the HTTP request.
ns_ictl trace freeconn script
Register script to be called each time an HTTP connection is closed. This could be used to log information about the request, e.g.,
timing statistics. Note that the interpreter may still be actively evaluating a script after the connection is closed, i.e., this
is not equivalent to ns_ictl trace deallocate for connection-related interpreters.
ns_ictl update
This command can be used to atomically compare the epoch of the current duplication script with the epoch of the interpreter, evalu-
ating the script and updating the epoch in the interpreter if they do not match. This command is generally registered as a callback
with ns_ictl trace allocate by the legacy initialization code.
INTERPRETER ALLOCATION
Tcl interpreter in AOLserver are available on demand with state specific to a virtual server. These interpreters are also expected to be
reused for multiple transactions (e.g., HTTP connections, scheduled procedures, socket callbacks).
To support reuse, AOLserver provides the C-level Ns_TclAllocateInterp routine to allocate an interpreter from a per-thread cache (creating
and initializing a new interpreter if necessary) and the Ns_TclDeAllocateInterp routine to return an interpreter to the cache when no
longer required. All interpreters in the per-thread cache are destroyed when a thread exists.
In general, only C-level extension writers need to call the C-level API's directly; the various Tcl-level interfaces in AOLserver (e.g.,
ADP pages, ns_regiseter_proc, ns_schedule_proc, ns_thread, etc.) allocate and reuse interpreters using the C-level API's automatically
before invoking the cooresponding script or ADP page.
INTERPRETER TRACES
To ensure a consistent state of interpreters when allocated and enable cleanup and reinitialization between transactions, each virtual
server maintains a list of callbacks to be invoked at various points in the lifetime of an interpreter. These callbacks are generally
installed when the server is initialized at startup and then called automatically by the Ns_TclAllocateInterp and Ns_TclDeAllocateInterp
API's at the appropriate times and in consistent order. The Ns_TclRegisterTrace routine can be used to register C-level callbacks and the
ns_ictl trace command can be used to register Tcl script callbacks. The ns_ictl gettraces command can be used to list all currently regis-
tered callbacks, both at the Tcl script and C level.
Callbacks registered via the tracing facility are invoked in a specific order depending on the type. Initialization style callbacks
including create, allocate, and getconn are invoked in FIFO order, with all script callbacks invoked after all C-level callbacks. This
enables extension writers to utilize the facilities of previously initialized extensions. Correspondingly, cleanup style callbacks includ-
ing freeconn, deallocate, and delete are invoked in LIFO order, with all scripts callbacks invoked before C-level callbacks. This helps
avoid the possibility that a cleanup callback utilizes features of a previously cleaned up extension.
In addition, the ns_ictl package command can be used to consistently manage the loading of a Tcl package in all interpreters for a virtual
server. This feature is mostly a convenience routine built above the generic trace framework with additional checks to ensure version num-
ber consistency. Coupled with ns_ictl once, the ns_ictl package command provides a clean framework to utilize Tcl packages in multi-
threaded AOLserver (see EXAMPLES).
VIRTUAL SERVER TCL INITIALIZATION
AOLserver also supports a Tcl initialization framework for virtual servers based on callbacks registered by loadable modules and the sourc-
ing of scripts files located in corresponding directories. Options to ns_ictl to support this framework include save, get, epoch, and
update and are used in conjunction with the generic tracing facility by the virtual server bootstrap script (normally bin/init.tcl). The
ns_eval command also relies on this framework to support dynamic update of the state of interpreters.
This initialization framework pre-dates the Tcl package facilities and utilizes introspection of the state of a startup interpreter at the
end of initialization to construct a single script which attempts to duplicate the state in subsequent interpreters. Steps taken during
this initialization include:
1. Load all modules in the server's module config section, e.g.,
ns/server/server1/modules. Modules with Tcl C-level extensions typically call the legacy Ns_TclInitInterps routine or the more gen-
eral Ns_TclRegisterTrace routine with the NS_TCL_TRACE_CREATE flag in their module init routine to register a callback to invoke
when new interpreters are created. The callback normally creates one or more new commands in the interpreter with Tcl_CreateObjCom-
mand but may perform any per-interpreter initialization required, e.g., creating and saving private state with the Tcl_SetAssocData
facility. In addition, as modules are loaded, the string name of the module is added to the list of known modules.
2. After all C modules are loaded, AOLserver creates a new Tcl
interpreter for the virtual server, executing any trace callbacks already registered via the loaded C modules (e.g., any Ns_TclInit-
Interps callbacks) and then sources the virtual server bootstrap script, normally bin/init.tcl. This script creates a few utility
procedures and then sources all private and public script files in directories which correspond to loaded modules in the order in
which they were loaded. These directories are normally relative to the virtual server and to the AOLserver installation directory,
e.g., initialization script files for the module mymod in the server1 virtual server would be searched for in the
servers/server1/modules/tcl/mymod/ and modules/tcl/mymod/. Any init.tcl file found in each directory is sourced first with all
remaining files sourced in alphabetical order. In addition, any files in the public directory with identical names to files in the
private directory are skipped as a means to enable overloading of specific functionality on a per-server basis. In practice, most
modules only contain shared utility procedures defined in the public directories and the private directories are empty or non-exis-
tant. The script files normally contain a mix of commands to evaluate once for server configuration (e.g., a call to ns_regis-
ter_proc to bind a Tcl procedure to an HTTP request URL) with proc and namespace commands to provide additional functionality in the
interpreter.
3. After all script files have been sourced, the bootstrap script
code then uses a collection of recursive procedures to extract the definitions of all procedures defined in all namespaces. The
definitions are used to construct a script which attempts to duplicate the state of the initialization interpreters. This scripts
is then saved as the per-virtual server duplication script with the ns_ictl save command which also increments the epoch to 1.
There are limits to this approach to determine the full state, e.g., it does not attempt to duplicate any global variables which may
have been defined in the startup scripts. Typically, startup scripts will use nsv_set or other mechanisms to store such shared
state.
4. The bootstrap code then uses the ns_ictl trace allocate
command to register a callback to the ns_ictl update command each time an interpreter is allocated for use. In practice, inter-
preters are created with the default epoch of 0 and the first call to ns_ictl update determines an out-of-date condition, evaluates
the duplication script, and increments the interpreter's epoch to 1 to match the state created by the startup interp.
5. Subsequent calls the ns_eval, if any, will evaluate the
given script and then re-generate and save the duplication script as was done at startup, incrementing the epoch once again. In
this way, dynamic updates which are detected in other interpreters on their next call to ns_ictl update can be supported in a lim-
ited fashion.
In practice, while generally successful, this duplication technique has inhibited the clean use of proper Tcl package extensions and
encouraged the use of the ns_eval command which is generally not recommended for the non-deterministic manner in which it attempts to
dynamically reconfigure a server. Also, commands required to configure the server once (e.g., calls to ns_register_proc) are inter-mixed
with proc commands designed to extend functionality in all interpreters, complicating configuration management.
As an alternative, the example below illustrates a means to more explicitly manage configuration through a combination of direct calls to
ns_ictl trace create and ns_ictl once. Unfortunately, the all encompassing nature of the legacy initialization approach makes it difficult
to incrementally move to this cleaner approach because the duplication script construction code is unable to distinguish between state cre-
ated with the newer, cleaner ns_ictl commands and state created as a side effect of one or more script files being sourced. As such, it is
expected the legacy initialization framework will remain in place until AOLserver 5.x when it will be removed entirely in a non-backwards
compatible move towards the cleaner API's.
EXAMPLES
This example illustrates the use of ns_ictl package and ns_ictl once to load an AOLserver-aware Tcl package into a virtual server. The
following code could be added to the virtual server bootstrap script, bin/init.tcl, to load MyPkg in the virtual server:
#
# Startup code in bin/init.tcl:
#
# Load MyPkg in all interps (including this one).
#
ns_ictl package require MyPkg
This call will result in the package being loaded into the startup interpreter in the ordinary Tcl fashion (see the package man page for
details). Ordinary Tcl extension packages would need no modifications but packages which utilize AOLserver-specific features or require
garbage collection between transactions could also use ns_ictl for finer grained control. For example, the init.tcl script specified by the
package ifneeded command in the MyPkg package's pkgIndex.tcl file could contains:
#
# Package code in lib/myPkg1.0/init.tcl:
#
#
package provide MyPkg 1.0
#
# Server init which will be executed the first time called,
# normally in the context of the startup interpreter as above.
#
ns_ictl once MyPkg {
# Register the run Tcl proc HTTP handler.
ns_register_proc /mypkg mkpkg::run
# Register a garbage collection callback.
ns_ictl trace deallocate mypkg::cleanup
}
#
# Code which will be invoked to initialize the package in
# all interpreters when required.
#
proc mypkg::run {} {
... handle /mypkg requests ...
}
proc mkpkg::cleanup {} {
... cleanup transaction resources for mypkg, e.g., db handles ...
}
SEE ALSO
Ns_TclAllocateInterp(3), Ns_TclDeAllocateInterp(3), Ns_GetConnInterp(3), Ns_FreeConnInterp(3), Ns_TclInitInterps(3), Ns_TclRegister-
Trace(3), Ns_TclRegisterDeferred(3), ns_atclose(n), ns_eval(n).
KEYWORDS
threads, interpreters, traces, initialization
AOLserver 4.5 ns_ictl(3aolserver)