libjit/jit/jit-context.c

/*
 * jit-context.c - Functions for manipulating JIT contexts.
 *
 * Copyright (C) 2004  Southern Storm Software, Pty Ltd.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include "jit-internal.h"
#include "jit-cache.h"

/*@

Everything that is done with @code{libjit} is done relative to a context.
It is possible to have more than one context at a time - each acts as an
independent environment for compiling and managing code.

When you want to compile a function, you create it with
@code{jit_function_create}, and then populate its body with
calls to the value and instruction functions.  See @xref{Values}, and
@ref{Instructions} for more information on how to do this.

@section Using libjit in a multi-threaded environment

The library does not handle the creation, management, and destruction
of threads itself.  It is up to the front-end environment to take
care of that.  But the library is thread-aware, as long as you take
some very simple steps.

In a multi-threaded environment, you must ensure that only one
thread can build functions at any one time.  Otherwise the
JIT's context may become corrupted.  To protect the system,
you should call @code{jit_context_build_start} before
creating the function.  And then call @code{jit_context_build_end}
once the function has been fully compiled.

You can compile multiple functions during the one build process
if you wish, which is the normal case when compiling a class.

It is usually a good idea to suspend the finalization of
garbage-collected objects while function building is in progress.
Otherwise you may get a deadlock when the finalizer thread tries
to call the builder to compile a finalization routine.  Suspension
of finalization is the responsibility of the caller.

@section Context functions
@cindex jit-context.h

The following functions are available to create, manage, and
ultimately destroy JIT contexts:

@*/

/*@
 * @deftypefun jit_context_t jit_context_create (void)
 * Create a new context block for the JIT.  Returns NULL
 * if out of memory.
 * @end deftypefun
@*/
jit_context_t jit_context_create(void)
{
	jit_context_t context;

	/* Make sure that the JIT is initialized */
	jit_init();

	/* Allocate memory for the context */
	context = jit_cnew(struct _jit_context);
	if(!context)
	{
		return 0;
	}

	/* Initialize the context and return it */
	jit_mutex_create(&(context->builder_lock));
	jit_mutex_create(&(context->cache_lock));
	context->functions = 0;
	context->last_function = 0;
	return context;
}

/*@
 * @deftypefun void jit_context_destroy (jit_context_t context)
 * Destroy a JIT context block and everything that is associated with it.
 * It is very important that no threads within the program are currently
 * running compiled code when this function is called.
 * @end deftypefun
@*/
void jit_context_destroy(jit_context_t context)
{
	int sym;
	if(context)
	{
		while(context->functions != 0)
		{
			_jit_function_destroy(context->functions);
		}
		if(context->cache)
		{
			_jit_cache_destroy(context->cache);
		}
		for(sym = 0; sym < context->num_registered_symbols; ++sym)
		{
			jit_free(context->registered_symbols[sym]);
		}
		jit_free(context->registered_symbols);
		jit_mutex_destroy(&(context->cache_lock));
		jit_mutex_destroy(&(context->builder_lock));
		jit_free(context);
	}
}

/*@
 * @deftypefun int jit_context_supports_threads (jit_context_t context)
 * Determine if the JIT supports threads.
 * @end deftypefun
@*/
int jit_context_supports_threads(jit_context_t context)
{
	return JIT_THREADS_SUPPORTED;
}

/*@
 * @deftypefun void jit_context_build_start (jit_context_t context)
 * This routine should be called before you start building a function
 * to be JIT'ed.  It acquires a lock on the context to prevent other
 * threads from accessing the build process, since only one thread
 * can be performing build operations at any one time.
 * @end deftypefun
@*/
void jit_context_build_start(jit_context_t context)
{
	jit_mutex_lock(&(context->builder_lock));
}

/*@
 * @deftypefun void jit_context_build_end (jit_context_t context)
 * This routine should be called once you have finished building
 * and compiling a function and are ready to resume normal execution.
 * This routine will release the build lock, allowing other threads
 * that are waiting on the builder to proceed.
 * @end deftypefun
@*/
void jit_context_build_end(jit_context_t context)
{
	jit_mutex_unlock(&(context->builder_lock));
}

/*@
 * @deftypefun int jit_context_set_meta (jit_context_t context, int type, {void *} data, jit_meta_free_func free_data)
 * Tag a context with some metadata.  Returns zero if out of memory.
 *
 * Metadata may be used to store dependency graphs, branch prediction
 * information, or any other information that is useful to optimizers
 * or code generators.  It can also be used by higher level user code
 * to store information about the context that is specific to the
 * virtual machine or language.
 *
 * If the @code{type} already has some metadata associated with it, then
 * the previous value will be freed.
 * @end deftypefun
@*/
int jit_context_set_meta
	(jit_context_t context, int type, void *data,
	 jit_meta_free_func free_data)
{
	return jit_meta_set(&(context->meta), type, data, free_data, 0);
}

/*@
 * @deftypefun int jit_context_set_meta_numeric (jit_context_t context, int type, jit_nuint data)
 * Tag a context with numeric metadata.  Returns zero if out of memory.
 * This function is more convenient for accessing the context's
 * special option values:
 *
 * @table @code
 * @vindex JIT_OPTION_CACHE_LIMIT
 * @item JIT_OPTION_CACHE_LIMIT
 * A numeric option that indicates the maximum size in bytes of the function
 * cache.  If set to zero (the default), the function cache is unlimited
 * in size.
 *
 * @vindex JIT_OPTION_CACHE_PAGE_SIZE
 * @item JIT_OPTION_CACHE_PAGE_SIZE
 * A numeric option that indicates the size in bytes of a single page in the
 * function cache.  Memory is allocated for the cache in chunks of
 * this size.  If set to zero, the cache page size is set to an
 * internally-determined default (usually 128k).  The cache page size
 * also determines the maximum size of a single compiled function.
 *
 * @vindex JIT_OPTION_PRE_COMPILE
 * @item JIT_OPTION_PRE_COMPILE
 * A numeric option that indicates that this context is being used
 * for pre-compilation if it is set to a non-zero value.  Code within
 * pre-compiled contexts cannot be executed directly.  Instead, they
 * can be written out to disk in ELF format to be reloaded at
 * some future time.
 *
 * @vindex JIT_OPTION_DONT_FOLD
 * @item JIT_OPTION_DONT_FOLD
 * A numeric option that disables constant folding when it is set to a
 * non-zero value.  This is useful for debugging, as it forces @code{libjit} to
 * always execute constant expressions at run time, instead of at compile time.
 * @end table
 *
 * Metadata type values of 10000 or greater are reserved for internal use.
 * @end deftypefun
@*/
int jit_context_set_meta_numeric
	(jit_context_t context, int type, jit_nuint data)
{
	return jit_meta_set(&(context->meta), type, (void *)data, 0, 0);
}

/*@
 * @deftypefun {void *} jit_context_get_meta (jit_context_t context, int type)
 * Get the metadata associated with a particular tag.  Returns NULL
 * if @code{type} does not have any metadata associated with it.
 * @end deftypefun
@*/
void *jit_context_get_meta(jit_context_t context, int type)
{
	return jit_meta_get(context->meta, type);
}

/*@
 * @deftypefun jit_nuint jit_context_get_meta_numeric (jit_context_t context, int type)
 * Get the metadata associated with a particular tag.  Returns zero
 * if @code{type} does not have any metadata associated with it.
 * This version is more convenient for the pre-defined numeric option values.
 * @end deftypefun
@*/
jit_nuint jit_context_get_meta_numeric(jit_context_t context, int type)
{
	return (jit_nuint)jit_meta_get(context->meta, type);
}

/*@
 * @deftypefun void jit_context_free_meta (jit_context_t context, int type)
 * Free metadata of a specific type on a context.  Does nothing if
 * the @code{type} does not have any metadata associated with it.
 * @end deftypefun
@*/
void jit_context_free_meta(jit_context_t context, int type)
{
	jit_meta_free(&(context->meta), type);
}

struct jit_cache *_jit_context_get_cache(jit_context_t context)
{
	if(!(context->cache))
	{
		context->cache = _jit_cache_create
			((long)jit_context_get_meta_numeric
				(context, JIT_OPTION_CACHE_LIMIT),
			 (long)jit_context_get_meta_numeric
				(context, JIT_OPTION_CACHE_PAGE_SIZE));
	}
	return context->cache;
}