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NetBSD/usr.sbin/acpitools/aml/aml_parse.c

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/* $NetBSD: aml_parse.c,v 1.4 2013/10/19 17:16:37 christos Exp $ */
/*-
* Copyright (c) 1999 Doug Rabson
* Copyright (c) 1999, 2000 Mitsuru IWASAKI <iwasaki@FreeBSD.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* Id: aml_parse.c,v 1.32 2000/08/12 15:20:45 iwasaki Exp
* $FreeBSD: src/usr.sbin/acpi/amldb/aml/aml_parse.c,v 1.7 2001/10/23 14:54:15 takawata Exp $
*/
#include <sys/cdefs.h>
__RCSID("$NetBSD: aml_parse.c,v 1.4 2013/10/19 17:16:37 christos Exp $");
#include <sys/param.h>
#include <acpi_common.h>
#include <aml/aml_amlmem.h>
#include <aml/aml_common.h>
#include <aml/aml_env.h>
#include <aml/aml_evalobj.h>
#include <aml/aml_name.h>
#include <aml/aml_obj.h>
#include <aml/aml_parse.h>
#include <aml/aml_status.h>
#include <aml/aml_store.h>
#ifndef _KERNEL
#include <sys/stat.h>
#include <sys/mman.h>
#include <assert.h>
#include <err.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "debug.h"
#else /* _KERNEL */
#include <sys/systm.h>
#include <sys/bus.h>
#include <dev/acpi/acpireg.h>
#include <dev/acpi/acpivar.h>
#ifndef ACPI_NO_OSDFUNC_INLINE
#include <machine/acpica_osd.h>
#endif
#endif /* !_KERNEL */
static int findsetleftbit(int num);
static int findsetrightbit(int num);
static int frombcd(int num);
static int tobcd(int num);
static u_int32_t aml_parse_pkglength(struct aml_environ *env);
static u_int8_t aml_parse_bytedata(struct aml_environ *env);
static u_int16_t aml_parse_worddata(struct aml_environ *env);
static u_int32_t aml_parse_dworddata(struct aml_environ *env);
static u_int8_t *aml_parse_namestring(struct aml_environ *env);
static void aml_parse_defscope(struct aml_environ *env,
int indent);
static union aml_object *aml_parse_defbuffer(struct aml_environ *env,
int indent);
static struct aml_name *aml_parse_concat_number(struct aml_environ *env,
int num1, int indent);
static struct aml_name *aml_parse_concat_buffer(struct aml_environ *env,
union aml_object *obj,
int indent);
static struct aml_name *aml_parse_concat_string(struct aml_environ *env,
union aml_object *obj,
int indent);
static struct aml_name *aml_parse_concatop(struct aml_environ *env,
int indent);
static union aml_object *aml_parse_defpackage(struct aml_environ *env,
int indent);
static void aml_parse_defmethod(struct aml_environ *env,
int indent);
static void aml_parse_defopregion(struct aml_environ *env,
int indent);
static int aml_parse_field(struct aml_environ *env,
struct aml_field *template);
static void aml_parse_fieldlist(struct aml_environ *env,
struct aml_field *template,
int indent);
static void aml_parse_deffield(struct aml_environ *env,
int indent);
static void aml_parse_defindexfield(struct aml_environ *env,
int indent);
static void aml_parse_defbankfield(struct aml_environ *env,
int indent);
static void aml_parse_defdevice(struct aml_environ *env,
int indent);
static void aml_parse_defprocessor(struct aml_environ *env,
int indent);
static void aml_parse_defpowerres(struct aml_environ *env,
int indent);
static void aml_parse_defthermalzone(struct aml_environ *env,
int indent);
static struct aml_name *aml_parse_defelse(struct aml_environ *env,
int indent, int num);
static struct aml_name *aml_parse_defif(struct aml_environ *env,
int indent);
static struct aml_name *aml_parse_defwhile(struct aml_environ *env,
int indent);
static void aml_parse_defmutex(struct aml_environ *env,
int indent);
static void aml_createfield_generic(struct aml_environ *env,
union aml_object *srcbuf,
int idx, int len,
char *newname);
static void aml_parse_defcreatefield(struct aml_environ *env,
int indent);
static int
findsetleftbit(int num)
{
int i, filter;
filter = 0;
for (i = 0; i < 32; i++) {
filter = filter >> 1;
filter |= 1 << 31;
if (filter & num) {
break;
}
}
i = (i == 32) ? 0 : i + 1;
return (i);
}
static int
findsetrightbit(int num)
{
int i, filter;
filter = 0;
for (i = 0; i < 32; i++) {
filter = filter << 1;
filter |= 1;
if (filter & num) {
break;
}
}
i = (i == 32) ? 0 : i + 1;
return (i);
}
static int
frombcd(int num)
{
int res, factor;
res = 0;
factor = 1;
while (num != 0) {
res += ((num & 0xf) * factor);
num = num / 16;
factor *= 10;
}
return (res);
}
static int
tobcd(int num)
{
int res, factor;
res = 0;
factor = 1;
while (num != 0) {
res += ((num % 10) * factor);
num = num / 10;
factor *= 16;
}
return (res);
}
static u_int32_t
aml_parse_pkglength(struct aml_environ *env)
{
u_int8_t *dp;
u_int32_t pkglength;
dp = env->dp;
pkglength = *dp++;
switch (pkglength >> 6) {
case 0:
break;
case 1:
pkglength = (pkglength & 0xf) + (dp[0] << 4);
dp += 1;
break;
case 2:
pkglength = (pkglength & 0xf) + (dp[0] << 4) + (dp[1] << 12);
dp += 2;
break;
case 3:
pkglength = (pkglength & 0xf)
+ (dp[0] << 4) + (dp[1] << 12) + (dp[2] << 20);
dp += 3;
break;
}
env->dp = dp;
return (pkglength);
}
static u_int8_t
aml_parse_bytedata(struct aml_environ *env)
{
u_int8_t data;
data = env->dp[0];
env->dp++;
return (data);
}
static u_int16_t
aml_parse_worddata(struct aml_environ *env)
{
u_int16_t data;
data = env->dp[0] + (env->dp[1] << 8);
env->dp += 2;
return (data);
}
static u_int32_t
aml_parse_dworddata(struct aml_environ *env)
{
u_int32_t data;
data = env->dp[0] + (env->dp[1] << 8) +
(env->dp[2] << 16) + (env->dp[3] << 24);
env->dp += 4;
return (data);
}
static u_int8_t *
aml_parse_namestring(struct aml_environ *env)
{
u_int8_t *name;
int segcount;
name = env->dp;
if (env->dp[0] == '\\')
env->dp++;
else if (env->dp[0] == '^')
while (env->dp[0] == '^')
env->dp++;
if (env->dp[0] == 0x00) /* NullName */
env->dp++;
else if (env->dp[0] == 0x2e) /* DualNamePrefix */
env->dp += 1 + 4 + 4; /* NameSeg, NameSeg */
else if (env->dp[0] == 0x2f) { /* MultiNamePrefix */
segcount = env->dp[1];
env->dp += 1 + 1 + segcount * 4; /* segcount * NameSeg */
} else
env->dp += 4; /* NameSeg */
return (name);
}
struct aml_name *
aml_parse_objectlist(struct aml_environ *env, int indent)
{
union aml_object *obj;
obj = NULL;
while (env->dp < env->end) {
aml_print_indent(indent);
obj = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT("\n");
if (env->stat == aml_stat_step) {
AML_DEBUGGER(env, env);
continue;
}
if (env->stat != aml_stat_none) {
env->tempname.property = obj;
return (&env->tempname);
}
}
return (NULL);
}
#define AML_CREATE_NAME(amlname, env, namestr, ret) do { \
amlname = aml_create_name(env, namestr); \
if (env->stat == aml_stat_panic) \
return ret; \
} while(0)
#define AML_COPY_OBJECT(dest, env, src, ret) do { \
dest = aml_copy_object(env, src); \
if (dest == NULL) { \
env->stat = aml_stat_panic; \
return ret; \
} \
} while(0)
#define AML_ALLOC_OBJECT(dest, env, type, ret) do { \
dest = aml_alloc_object(type, NULL); \
if (dest == NULL) { \
env->stat= aml_stat_panic; \
return ret; \
} \
} while(0)
static void
aml_parse_defscope(struct aml_environ *env, int indent)
{
u_int8_t *start, *end, *oend;
u_int8_t *name;
u_int32_t pkglength;
struct aml_name *oname;
start = env->dp;
pkglength = aml_parse_pkglength(env);
AML_DEBUGPRINT("Scope(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_DEBUGPRINT(") {\n");
oname = env->curname;
AML_CREATE_NAME(env->curname, env, name,);
oend = env->end;
env->end = end = start + pkglength;
aml_parse_objectlist(env, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
AML_SYSASSERT(env->dp == env->end);
env->dp = end;
env->end = oend;
env->curname = oname;
env->stat = aml_stat_none;
}
static union aml_object *
aml_parse_defbuffer(struct aml_environ *env, int indent)
{
u_int8_t *start;
u_int8_t *end;
u_int8_t *buffer;
u_int32_t pkglength;
int size1, size2, size;
union aml_object *obj;
start = env->dp;
pkglength = aml_parse_pkglength(env);
end = start + pkglength;
AML_DEBUGPRINT("Buffer(");
obj = aml_eval_name(env, aml_parse_termobj(env, indent));
size1 = aml_objtonum(env, obj);
size2 = end - env->dp;
size = (size1 < size2) ? size1 : size2;
if (size1 > 0) {
buffer = memman_alloc_flexsize(aml_memman, size1);
if (buffer == NULL) {
AML_DEBUGPRINT("NO MEMORY\n");
env->stat = aml_stat_panic;
return (NULL);
}
bzero(buffer, size1);
bcopy(env->dp, buffer, size);
} else {
buffer = NULL;
}
obj = &env->tempobject;
obj->type = aml_t_buffer;
obj->buffer.size = size1;
obj->buffer.data = buffer;
AML_DEBUGPRINT(") ");
env->dp = end;
return (obj);
}
static struct aml_name *
aml_parse_concat_number(struct aml_environ *env, int num1, int indent)
{
int num2;
struct aml_name *destname;
union aml_object *obj;
num2 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(", ");
destname = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
obj = &env->tempobject;
obj->type = aml_t_buffer;
obj->buffer.size = 2;
obj->buffer.data = memman_alloc_flexsize(aml_memman, 2);
if (obj->buffer.data == NULL) {
env->stat = aml_stat_panic;
return (NULL);
}
obj->buffer.data[0] = num1 & 0xff;
obj->buffer.data[1] = num2 & 0xff;
aml_store_to_name(env, obj, destname);
return (&env->tempname);
}
static struct aml_name *
aml_parse_concat_buffer(struct aml_environ *env, union aml_object *obj,
int indent)
{
union aml_object *tmpobj, *tmpobj2, *resobj;
struct aml_name *destname;
tmpobj = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT(", ");
if (tmpobj->type != aml_t_buffer) {
env->stat = aml_stat_panic;
return (NULL);
}
AML_COPY_OBJECT(tmpobj2, env, tmpobj, NULL);
destname = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
resobj = &env->tempobject;
env->tempname.property = resobj;
resobj->buffer.type = aml_t_buffer;
resobj->buffer.size = tmpobj2->buffer.size + obj->buffer.size;
if (resobj->buffer.size > 0) {
resobj->buffer.data = memman_alloc_flexsize(aml_memman,
resobj->buffer.size);
if (resobj->buffer.data == NULL) {
env->stat = aml_stat_panic;
return (NULL);
}
bcopy(obj->buffer.data, resobj->buffer.data, obj->buffer.size);
bcopy(tmpobj2->buffer.data,
resobj->buffer.data + obj->buffer.size,
tmpobj2->buffer.size);
} else {
resobj->buffer.data = NULL;
}
aml_free_object(&tmpobj2);
aml_store_to_name(env, resobj, destname);
return (&env->tempname);
}
static struct aml_name *
aml_parse_concat_string(struct aml_environ *env, union aml_object *obj,
int indent)
{
int len;
union aml_object *tmpobj, *tmpobj2, *resobj;
struct aml_name *destname;
tmpobj = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT(", ");
if (tmpobj->type != aml_t_string) {
env->stat = aml_stat_panic;
return (NULL);
}
AML_COPY_OBJECT(tmpobj2, env, tmpobj, NULL);
destname = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
resobj = &env->tempobject;
env->tempname.property = resobj;
resobj->type = aml_t_buffer;
resobj->str.needfree = 1;
len = strlen((const char *)obj->str.string) +
strlen((const char *)tmpobj2->str.string) + 1;
if (len > 0) {
resobj->str.string = memman_alloc_flexsize(aml_memman, len);
if (resobj->str.string == NULL) {
env->stat = aml_stat_panic;
return (NULL);
}
strlcpy((char *)resobj->str.string, (const char *)obj->str.string, len);
strlcat((char *)resobj->str.string, (const char *)tmpobj->str.string, len);
} else {
resobj->str.string = NULL;
}
aml_free_object(&tmpobj2);
aml_store_to_name(env, resobj, destname);
return (&env->tempname);
}
static struct aml_name *
aml_parse_concatop(struct aml_environ *env, int indent)
{
union aml_object *obj, *tmpobj;
struct aml_name *aname;
AML_DEBUGPRINT("Concat(");
obj = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT(", ");
switch (obj->type) {
case aml_t_num:
aname = aml_parse_concat_number(env, aml_objtonum(env, obj), indent);
break;
case aml_t_buffer:
/* obj may be temporal object */
AML_COPY_OBJECT(tmpobj, env, obj, NULL);
aname = aml_parse_concat_buffer(env, obj, indent);
aml_free_object(&tmpobj);
break;
case aml_t_string:
/* obj may be temporal object */
AML_COPY_OBJECT(tmpobj, env, obj, NULL);
aname = aml_parse_concat_string(env, obj, indent);
aml_free_object(&tmpobj);
break;
default:
env->stat = aml_stat_panic;
aname = NULL;
break;
}
AML_DEBUGPRINT("\n");
return (aname);
}
static union aml_object *
aml_parse_defpackage(struct aml_environ *env, int indent)
{
u_int8_t numelements;
u_int8_t *start;
u_int32_t pkglength;
int i;
struct aml_environ *copy;
struct aml_name *tmpname;
union aml_object *obj, **objects;
start = env->dp;
pkglength = aml_parse_pkglength(env);
numelements = aml_parse_bytedata(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return (NULL);
}
if (numelements > 0) {
objects = memman_alloc_flexsize(aml_memman,
numelements * sizeof(union aml_object *));
if (objects == NULL) {
env->stat = aml_stat_panic;
return (NULL);
} else {
bzero(objects, numelements * sizeof(union aml_object *));
}
} else {
objects = NULL;
}
*copy = *env;
env->dp = copy->end = start + pkglength;
AML_DEBUGPRINT("Package() {\n");
i = 0;
while ((copy->dp < copy->end) && (i < numelements)) {
aml_print_indent(indent + 1);
tmpname = aml_parse_termobj(copy, indent + 1);
if (tmpname != NULL) {
objects[i] = aml_copy_object(copy, tmpname->property);
}
AML_DEBUGPRINT(",\n");
i++;
}
aml_free_objectcontent(&copy->tempobject);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
obj = &env->tempobject;
obj->type = aml_t_package;
obj->package.elements = numelements;
obj->package.objects = objects;
memman_free(aml_memman, memid_aml_environ, copy);
return (obj);
}
static void
aml_parse_defmethod(struct aml_environ *env, int indent)
{
u_int8_t flags;
u_int8_t *start;
u_int32_t pkglength;
char *name;
struct aml_environ *copy;
struct aml_method *meth;
struct aml_name *aname;
union aml_object *aobj;
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("Method(");
name = (char *)aml_parse_namestring(env);
aml_print_namestring((unsigned char *)name);
AML_CREATE_NAME(aname, env, (unsigned char *)name,);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
goto out;
}
AML_ALLOC_OBJECT(aobj, env, aml_t_method,);
meth = &aobj->meth;
aname->property = aobj;
flags = *env->dp++;
if (flags) {
AML_DEBUGPRINT(", %d", flags);
}
AML_DEBUGPRINT(") {\n");
*copy = *env;
meth->argnum = flags;
meth->from = env->dp;
meth->to = env->dp = copy->end = start + pkglength;
aml_print_indent(indent);
AML_DEBUGPRINT("}");
out:
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defopregion(struct aml_environ *env, int indent)
{
u_int8_t *name;
struct aml_name *aname;
struct aml_opregion *opregion;
union aml_object *obj;
const char *regions[] = {
"SystemMemory",
"SystemIO",
"PCI_Config",
"EmbeddedControl",
"SMBus",
};
AML_DEBUGPRINT("OperationRegion(");
/* Name */
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_CREATE_NAME(aname, env, name,);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
return;
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_opregion,);
opregion = &aname->property->opregion;
opregion->space = *env->dp;
AML_DEBUGPRINT(", %s, ", regions[*env->dp]); /* Space */
env->dp++;
obj = aml_eval_name(env, aml_parse_termobj(env, indent)); /* Offset */
opregion->offset = aml_objtonum(env, obj);
AML_DEBUGPRINT(", ");
obj = aml_eval_name(env, aml_parse_termobj(env, indent)); /* Length */
opregion->length = aml_objtonum(env, obj);
AML_DEBUGPRINT(")");
}
static const char *accessnames[] = {
"AnyAcc",
"ByteAcc",
"WordAcc",
"DWordAcc",
"BlockAcc",
"SMBSendRecvAcc",
"SMBQuickAcc"
};
static int
aml_parse_field(struct aml_environ *env, struct aml_field *template)
{
u_int8_t *name;
u_int8_t acc, attribute;
u_int32_t width;
struct aml_name *aname;
struct aml_field *prop;
switch (*env->dp) {
case '\\':
case '^':
case 'A'...'Z':
case '_':
case '.':
case '/':
name = aml_parse_namestring(env);
width = aml_parse_pkglength(env);
template->bitlen = width;
aml_print_namestring(name);
AML_CREATE_NAME(aname, env, name, 0);
/* Allignment */
if (width == 16) {
template->bitoffset += 15;
template->bitoffset &= (~15);
}
if (width == 32) {
template->bitoffset += 31;
template->bitoffset &= (~31);
} else if ((width & 7) == 0) {
template->bitoffset += 7;
template->bitoffset &= (~7);
} else if ((width > 32) && (width & 7) != 0) {
AML_DEBUGPRINT("??? Can I treat it?\n");
}
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
return (0);
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_field, 0);
prop = &aname->property->field;
*prop = *template;
template->bitoffset += width;
AML_DEBUGPRINT(",\t%d", width);
break;
case 0x00:
env->dp++;
width = aml_parse_pkglength(env);
template->bitoffset += width;
AML_DEBUGPRINT("Offset(0x%x)", template->bitoffset);
break;
case 0x01:
acc = env->dp[1];
attribute = env->dp[2];
env->dp += 3;
AML_DEBUGPRINT("AccessAs(%s, %d)", accessnames[acc], attribute);
template->bitoffset = attribute;
template->flags = (template->flags | 0xf0) | acc;
break;
}
return (template->bitoffset);
}
static void
aml_parse_fieldlist(struct aml_environ *env, struct aml_field *template,
int indent)
{
while (env->dp < env->end) {
aml_print_indent(indent);
(void)aml_parse_field(env, template);
if (env->dp < env->end) {
AML_DEBUGPRINT(",\n");
} else {
AML_DEBUGPRINT("\n");
}
}
}
static void
aml_parse_deffield(struct aml_environ *env, int indent)
{
u_int8_t flags;
u_int8_t *start, *name;
u_int32_t pkglength;
struct aml_environ *copy;
struct aml_field fieldtemplate;
static const char *lockrules[] = {"NoLock", "Lock"};
static const char *updaterules[] = {"Preserve", "WriteAsOnes",
"WriteAsZeros", "*Error*"};
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("Field(");
aml_print_namestring(name = aml_parse_namestring(env));
fieldtemplate.type = aml_t_field;
flags = aml_parse_bytedata(env);
fieldtemplate.flags = flags;
*copy = *env;
env->dp = copy->end = start + pkglength;
fieldtemplate.bitoffset = 0;
fieldtemplate.bitlen = 0;
fieldtemplate.f.ftype = f_t_field;
fieldtemplate.f.fld.regname = name;
AML_DEBUGPRINT(", %s, %s, %s) {\n",
accessnames[flags & 0xf],
lockrules[(flags >> 4) & 1],
updaterules[(flags >> 5) & 3]);
aml_parse_fieldlist(copy, &fieldtemplate, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defindexfield(struct aml_environ *env, int indent)
{
u_int8_t flags;
u_int8_t *start, *iname, *dname;
u_int32_t pkglength;
struct aml_environ *copy;
struct aml_field template;
static const char *lockrules[] = {"NoLock", "Lock"};
static const char *updaterules[] = {"Preserve", "WriteAsOnes",
"WriteAsZeros", "*Error*"};
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("IndexField(");
aml_print_namestring(iname = aml_parse_namestring(env)); /* Name1 */
AML_DEBUGPRINT(", ");
aml_print_namestring(dname = aml_parse_namestring(env)); /* Name2 */
template.type = aml_t_field;
template.flags = flags = aml_parse_bytedata(env);
template.bitoffset = 0;
template.bitlen = 0;
template.f.ftype = f_t_index;
template.f.ifld.indexname = iname;
template.f.ifld.dataname = dname;
AML_DEBUGPRINT(", %s, %s, %s) {\n",
accessnames[flags & 0xf],
lockrules[(flags >> 4) & 1],
updaterules[(flags >> 5) & 3]);
*copy = *env;
env->dp = copy->end = start + pkglength;
aml_parse_fieldlist(copy, &template, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defbankfield(struct aml_environ *env, int indent)
{
u_int8_t flags;
u_int8_t *start, *rname, *bname;
u_int32_t pkglength, bankvalue;
struct aml_environ *copy;
struct aml_field template;
union aml_object *obj;
static const char *lockrules[] = {"NoLock", "Lock"};
static const char *updaterules[] = {"Preserve", "WriteAsOnes",
"WriteAsZeros", "*Error*"};
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("BankField(");
aml_print_namestring(rname = aml_parse_namestring(env)); /* Name1 */
AML_DEBUGPRINT(", ");
aml_print_namestring(bname = aml_parse_namestring(env)); /* Name2 */
AML_DEBUGPRINT(", ");
obj = aml_eval_name(env, aml_parse_termobj(env, indent)); /* BankValue */
bankvalue = aml_objtonum(env, obj);
template.type = aml_t_field;
template.flags = flags = aml_parse_bytedata(env);
template.bitoffset = 0;
template.bitlen = 0;
template.f.ftype = f_t_bank;
template.f.bfld.regname = rname;
template.f.bfld.bankname = bname;
template.f.bfld.bankvalue = bankvalue;
*copy = *env;
env->dp = copy->end = start + pkglength;
AML_DEBUGPRINT(", %s, %s, %s) {\n",
accessnames[flags & 0xf],
lockrules[(flags >> 4) & 1],
updaterules[(flags >> 5) & 3]);
aml_parse_fieldlist(copy, &template, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defdevice(struct aml_environ *env, int indent)
{
u_int8_t *start;
u_int8_t *name;
u_int32_t pkglength;
struct aml_environ *copy;
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("Device(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_DEBUGPRINT(") {\n");
*copy = *env;
AML_CREATE_NAME(copy->curname, env, name,);
if (copy->curname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
goto out;
}
AML_ALLOC_OBJECT(copy->curname->property, env, aml_t_device,);
env->dp = copy->end = start + pkglength;
aml_parse_objectlist(copy, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
out:
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defprocessor(struct aml_environ *env, int indent)
{
u_int8_t *start;
u_int8_t *name;
u_int32_t pkglength;
struct aml_environ *copy;
struct aml_processor *proc;
union aml_object *obj;
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_ALLOC_OBJECT(obj, env, aml_t_processor,);
proc = &obj->proc;
AML_DEBUGPRINT("Processor(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
proc->id = aml_parse_bytedata(env);
proc->addr = aml_parse_dworddata(env);
proc->len = aml_parse_bytedata(env);
AML_DEBUGPRINT(", %d, 0x%x, 0x%x) {\n", proc->id, proc->addr, proc->len);
*copy = *env;
AML_CREATE_NAME(copy->curname, env, name,);
if (copy->curname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
goto out;
}
copy->curname->property = obj;
env->dp = copy->end = start + pkglength;
aml_parse_objectlist(copy, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
out:
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defpowerres(struct aml_environ *env, int indent)
{
u_int8_t *start;
u_int8_t *name;
u_int32_t pkglength;
struct aml_environ *copy;
struct aml_powerres *pres;
union aml_object *obj;
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("PowerResource(");
AML_ALLOC_OBJECT(obj, env, aml_t_powerres,);
name = aml_parse_namestring(env);
aml_print_namestring(name);
pres = &obj->pres;
pres->level = aml_parse_bytedata(env);
pres->order = aml_parse_worddata(env);
AML_DEBUGPRINT(", %d, %d) {\n", pres->level, pres->order);
*copy = *env;
AML_CREATE_NAME(copy->curname, env, name,);
if (copy->curname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
goto out;
}
copy->curname->property = obj;
env->dp = copy->end = start + pkglength;
aml_parse_objectlist(copy, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
out:
memman_free(aml_memman, memid_aml_environ, copy);
}
static void
aml_parse_defthermalzone(struct aml_environ *env, int indent)
{
u_int8_t *start;
u_int8_t *name;
u_int32_t pkglength;
struct aml_environ *copy;
start = env->dp;
pkglength = aml_parse_pkglength(env);
copy = memman_alloc(aml_memman, memid_aml_environ);
if (copy == NULL) {
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT("ThermalZone(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_DEBUGPRINT(") {\n");
*copy = *env;
AML_CREATE_NAME(copy->curname, env, name,);
if (copy->curname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
goto out;
}
AML_ALLOC_OBJECT(copy->curname->property, env, aml_t_therm,);
env->dp = copy->end = start + pkglength;
aml_parse_objectlist(copy, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
aml_free_objectcontent(&copy->tempobject);
AML_SYSASSERT(copy->dp == copy->end);
out:
memman_free(aml_memman, memid_aml_environ, copy);
}
static struct aml_name *
aml_parse_defelse(struct aml_environ *env, int indent, int num)
{
u_int8_t *start, *end, *oend;
u_int32_t pkglength;
struct aml_name *aname;
start = env->dp;
pkglength = aml_parse_pkglength(env);
oend = env->end;
env->end = end = start + pkglength;
aname = NULL;
AML_DEBUGPRINT("Else {\n");
if (num == 0) {
aname = aml_parse_objectlist(env, indent + 1);
aml_print_indent(indent);
}
AML_DEBUGPRINT("}");
env->dp = end;
env->end = oend;
return (aname);
}
static struct aml_name *
aml_parse_defif(struct aml_environ *env, int indent)
{
u_int8_t *start, *end, *oend;
u_int32_t pkglength;
int num;
struct aml_name *aname, *aname1;
start = env->dp;
pkglength = aml_parse_pkglength(env);
aname = NULL;
AML_DEBUGPRINT("If(");
num = aml_objtonum(env, aml_eval_name
(env, aml_parse_termobj(env, indent)));
oend = env->end;
end = start + pkglength;
AML_DEBUGPRINT(")");
if (num) {
AML_DEBUGPRINT("{\n");
env->end = end;
aname = aml_parse_objectlist(env, indent + 1);
aml_print_indent(indent);
AML_DEBUGPRINT("}");
}
env->dp = end;
env->end = oend;
if ((end < oend) && *(env->dp) == 0xa1) {
env->dp++;
aname1 = aml_parse_defelse(env, indent, num);
aname = (num == 0) ? aname1 : aname;
}
return (aname);
}
static struct aml_name *
aml_parse_defwhile(struct aml_environ *env, int indent)
{
u_int8_t *start, *end, *oend;
u_int32_t pkglength;
int num;
struct aml_name *aname;
start = env->dp;
pkglength = aml_parse_pkglength(env);
oend = env->end;
end = start + pkglength;
aname = NULL;
for (;;) {
env->dp = start;
aml_parse_pkglength(env);
AML_DEBUGPRINT("While(");
num = aml_objtonum(env, aml_eval_name
(env, aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(")");
if (num == 0) {
break;
}
AML_DEBUGPRINT(" {\n");
env->end = end;
aname = aml_parse_objectlist(env, indent + 1);
if (env->stat == aml_stat_step) {
AML_DEBUGGER(env, env);
continue;
}
if (env->stat != aml_stat_none)
break;
aml_print_indent(indent);
AML_DEBUGPRINT("}");
}
AML_DEBUGPRINT("\n");
env->dp = end;
env->end = oend;
if (env->stat == aml_stat_break) {
env->stat = aml_stat_none;
aname = NULL;
}
return (aname);
}
static void
aml_parse_defmutex(struct aml_environ *env, int indent)
{
char *name;
struct aml_name *aname;
struct aml_mutex *mut;
/* MutexOp */
AML_DEBUGPRINT("Mutex(");
name = (char *)aml_parse_namestring(env);
aml_print_namestring((unsigned char *)name);
AML_CREATE_NAME(aname, env, (unsigned char *)name,);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
return;
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_mutex,);
mut = &aname->property->mutex;
mut->level = *env->dp++;
STAILQ_INIT(&mut->queue);
AML_DEBUGPRINT(", %d)", mut->level);
}
static void
aml_createfield_generic(struct aml_environ *env,
union aml_object *srcbuf, int idx,
int len, char *newname)
{
struct aml_bufferfield *field;
struct aml_name *aname;
if (srcbuf == NULL || srcbuf->type != aml_t_buffer) {
AML_DEBUGPRINT("Not Buffer assigned,");
env->stat = aml_stat_panic;
return;
}
AML_CREATE_NAME(aname, env, (unsigned char *)newname,);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
return;
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_bufferfield,);
field = &aname->property->bfld;
field->bitoffset = idx;
field->bitlen = len;
field->origin = srcbuf->buffer.data;
}
static void
aml_parse_defcreatefield(struct aml_environ *env, int indent)
{
int idx, len;
char *newname;
union aml_object *obj, *srcbuf;
/* CreateFieldOp */
AML_DEBUGPRINT("CreateField(");
srcbuf = aml_eval_name(env, aml_parse_termobj(env, indent));
if (srcbuf == &env->tempobject) {
AML_DEBUGPRINT("NONAMED BUFFER\n");
env->stat = aml_stat_panic;
return;
}
AML_DEBUGPRINT(", ");
obj = aml_eval_name(env, aml_parse_termobj(env, indent));
idx = aml_objtonum(env, obj);
AML_DEBUGPRINT(", ");
obj = aml_eval_name(env, aml_parse_termobj(env, indent));
len = aml_objtonum(env, obj);
AML_DEBUGPRINT(", ");
newname = (char *)aml_parse_namestring(env);
aml_print_namestring((unsigned char *)newname);
aml_createfield_generic(env, srcbuf, idx, len, newname);
AML_DEBUGPRINT(") ");
}
/*
* Returns Named object or parser buffer. The object need not be free because
* it returns preallocated buffer in env or Contain of named object. If You
* need to preserve object, create a copy and then store. And The object
* returned from this function is not valid after another call is
* shared, tempolary buffer may be shared.
*/
struct aml_name *
aml_parse_termobj(struct aml_environ *env, int indent)
{
u_int8_t opcode;
u_int8_t *name;
int value;
int num1, num2;
int len;
int match1, match2, i, pkgval, start;
int widthindex, idx;
char *newname;
struct aml_name *aname;
struct aml_name *destname1, *destname2;
struct aml_name *tmpname, *srcname;
struct aml_name *src;
union aml_object *ret;
union aml_object *tmpobj;
union aml_object anum;
union aml_object *objref;
union aml_object *srcobj;
union aml_object *obj;
union aml_object *srcbuf;
static int widthtbl[4] = {32, 16, 8, 1};
const char *opname[4] = {"CreateDWordField", "CreateWordField",
"CreateByteField", "CreateBitField"};
aname = &env->tempname;
ret = &env->tempobject;
anum.type = aml_t_num;
aname->property = ret;
aml_free_objectcontent(ret);
if (env->stat == aml_stat_panic) {
/*
* If previosuly parser panic , parsing next instruction is
* prohibited.
*/
return (NULL);
}
aname = NULL;
opcode = *env->dp++;
switch (opcode) {
case '\\':
case '^':
case 'A' ... 'Z':
case '_':
case '.':
case '/':
env->dp--;
ret->type = aml_t_namestr;
ret->nstr.dp = aml_parse_namestring(env);
aml_print_namestring(ret->nstr.dp);
aname = &env->tempname;
break;
case 0x0a: /* BytePrefix */
ret->type = aml_t_num;
value = aml_parse_bytedata(env);
ret->num.number = value;
AML_DEBUGPRINT("0x%x", value);
aname = &env->tempname;
break;
case 0x0b: /* WordPrefix */
ret->type = aml_t_num;
value = aml_parse_worddata(env);
ret->num.number = value;
AML_DEBUGPRINT("0x%x", value);
aname = &env->tempname;
break;
case 0x0c: /* DWordPrefix */
ret->type = aml_t_num;
value = aml_parse_dworddata(env);
ret->num.number = value;
AML_DEBUGPRINT("0x%x", value);
aname = &env->tempname;
break;
case 0x0d: /* StringPrefix */
ret->type = aml_t_string;
ret->str.string = env->dp;
len = strlen((const char *)env->dp);
ret->str.needfree = 0;
AML_DEBUGPRINT("\"%s\"", (const char *)ret->str.string);
env->dp += (len + 1);
aname = &env->tempname;
break;
case 0x00: /* ZeroOp */
ret->type = aml_t_num;
ret->num.number = 0;
ret->num.constant = 1;
AML_DEBUGPRINT("Zero");
aname = &env->tempname;
break;
case 0x01: /* OneOp */
ret->type = aml_t_num;
ret->num.number = 1;
ret->num.constant = 1;
AML_DEBUGPRINT("One");
aname = &env->tempname;
break;
case 0xff: /* OnesOp */
ret->type = aml_t_num;
ret->num.number = 0xffffffff;
ret->num.constant = 1;
AML_DEBUGPRINT("Ones");
aname = &env->tempname;
break;
case 0x06: /* AliasOp */
AML_DEBUGPRINT("Alias(");
tmpname = aml_parse_termobj(env, indent);
if (env->stat == aml_stat_panic) {
return (NULL);
}
if (tmpname->property == NULL ||
tmpname->property->type != aml_t_namestr) {
env->stat = aml_stat_panic;
return (NULL);
}
/*
* XXX if srcname is deleted after this object, what
* shall I do?
*/
srcname = aml_search_name(env, tmpname->property->nstr.dp);
AML_DEBUGPRINT(", ");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_CREATE_NAME(aname, env, name, 0);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
aml_print_curname(aname);
return (NULL);
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_objref, NULL);
objref = aname->property;
objref->objref.nameref = srcname;
objref->objref.ref = srcname->property;
objref->objref.offset = -1;
objref->objref.alias = 1; /* Yes, this is an alias */
AML_DEBUGPRINT(")");
/* shut the interpreter up during the namespace initializing */
return (NULL);
case 0x08: /* NameOp */
AML_DEBUGPRINT("Name(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_CREATE_NAME(aname, env, name, 0);
if (env->stat == aml_stat_panic) {
AML_DEBUGPRINT("Already Defined \n");
aml_print_curname(aname);
return (NULL);
}
AML_DEBUGPRINT(", ");
AML_COPY_OBJECT(aname->property, env,
aml_eval_name(env,
aml_parse_termobj(env, indent)),
NULL);
AML_DEBUGPRINT(")");
break;
case 0x10: /* ScopeOp */
aml_parse_defscope(env, indent);
break;
case 0x11: /* BufferOp */
aname = &env->tempname;
aname->property = aml_parse_defbuffer(env, indent);
break;
case 0x12: /* PackageOp */
aname = &env->tempname;
aname->property = aml_parse_defpackage(env, indent);
break;
case 0x14: /* MethodOp */
aml_parse_defmethod(env, indent);
break;
case 0x5b: /* ExtOpPrefix */
opcode = *env->dp++;
switch (opcode) {
case 0x01:
aml_parse_defmutex(env, indent);
break;
case 0x02: /* EventOp */
AML_DEBUGPRINT("Event(");
name = aml_parse_namestring(env);
aml_print_namestring(name);
AML_CREATE_NAME(aname, env, name, 0);
if (aname->property != NULL) {
env->stat = aml_stat_panic;
AML_DEBUGPRINT("Already Defined \n");
return (NULL);
}
AML_ALLOC_OBJECT(aname->property, env, aml_t_event, NULL);
AML_DEBUGPRINT(")");
return (NULL);
break;
case 0x12: /* CondRefOfOp */
AML_DEBUGPRINT("CondRefOf(");
src = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(", ");
if (src == &env->tempname || src == NULL) {
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
anum.num.number = 0xffffffff;
env->tempobject.num = anum.num;
aname = &env->tempname;
break;
}
AML_ALLOC_OBJECT(objref, env, aml_t_objref, NULL);
if (src->property == NULL ||
src->property->type != aml_t_namestr) {
objref->objref.nameref = src;
} else {
objref->objref.nameref = aml_create_local_object();
}
objref->objref.ref = src->property;
objref->objref.offset = -1; /* different from IndexOp */
destname1 = aml_parse_termobj(env, indent);
aml_store_to_name(env, objref, destname1);
anum.num.number = 0;
env->tempobject.num = anum.num;
aname = &env->tempname;
AML_DEBUGPRINT(")");
break;
case 0x13:
aml_parse_defcreatefield(env, indent);
break;
case 0x20: /* LoadOp *//* XXX Not Impremented */
AML_DEBUGPRINT("Load(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(", ");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x21: /* StallOp */
AML_DEBUGPRINT("Stall(");
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(")");
AML_STALL(num1);
break;
case 0x22: /* SleepOp */
AML_DEBUGPRINT("Sleep(");
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_SLEEP(0, num1);
AML_DEBUGPRINT(")");
break;
case 0x23: /* AcquireOp *//* XXX Not yet */
AML_DEBUGPRINT("Acquire(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(", 0x%x)", aml_parse_worddata(env));
break;
case 0x24: /* SignalOp *//* XXX Not yet */
AML_DEBUGPRINT("Signal(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x25: /* WaitOp *//* XXX Not yet impremented */
AML_DEBUGPRINT("Wait(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(", ");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x26: /* ResetOp *//* XXX Not yet impremented */
AML_DEBUGPRINT("Reset(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x27: /* ReleaseOp *//* XXX Not yet impremented */
AML_DEBUGPRINT("Release(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
#define NUMOP2(opname, operation) do { \
AML_DEBUGPRINT(opname); \
AML_DEBUGPRINT("("); \
num1 = aml_objtonum(env, aml_eval_name(env, \
aml_parse_termobj(env, indent))); \
AML_DEBUGPRINT(", "); \
anum.num.number = operation (num1); \
destname1 = aml_parse_termobj(env, indent); \
AML_DEBUGPRINT(")"); \
aml_store_to_name(env, &anum, destname1); \
env->tempobject.num = anum.num; \
env->tempname.property = &env->tempobject; \
aname = &env->tempname; \
} while(0)
case 0x28: /* FromBCDOp */
NUMOP2("FromBCD", frombcd);
break;
case 0x29: /* ToBCDOp */
NUMOP2("ToBCD", tobcd);
break;
case 0x2a: /* UnloadOp *//* XXX Not yet impremented */
AML_DEBUGPRINT("Unload(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x30:
env->tempobject.type = aml_t_num;
env->tempobject.num.number = 0;
env->tempobject.num.constant = 1;
AML_DEBUGPRINT("Revision");
break;
case 0x31:
env->tempobject.type = aml_t_debug;
aname = &env->tempname;
AML_DEBUGPRINT("Debug");
break;
case 0x32: /* FatalOp */
AML_DEBUGPRINT("Fatal(");
AML_DEBUGPRINT("0x%x, ", aml_parse_bytedata(env));
AML_DEBUGPRINT("0x%x, ", aml_parse_dworddata(env));
aml_parse_termobj(env, indent);
env->stat = aml_stat_panic;
AML_DEBUGPRINT(")");
break;
case 0x80: /* OpRegionOp */
aml_parse_defopregion(env, indent);
break;
case 0x81: /* FieldOp */
aml_parse_deffield(env, indent);
break;
case 0x82: /* DeviceOp */
aml_parse_defdevice(env, indent);
break;
case 0x83: /* ProcessorOp */
aml_parse_defprocessor(env, indent);
break;
case 0x84: /* PowerResOp */
aml_parse_defpowerres(env, indent);
break;
case 0x85: /* ThermalZoneOp */
aml_parse_defthermalzone(env, indent);
break;
case 0x86: /* IndexFieldOp */
aml_parse_defindexfield(env, indent);
break;
case 0x87: /* BankFieldOp */
aml_parse_defbankfield(env, indent);
break;
default:
AML_SYSERRX(1, "strange opcode 0x5b, 0x%x\n", opcode);
AML_SYSABORT();
}
break;
case 0x68 ... 0x6e: /* ArgN */
AML_DEBUGPRINT("Arg%d", opcode - 0x68);
return (aml_local_stack_getArgX(NULL, opcode - 0x68));
break;
case 0x60 ... 0x67:
AML_DEBUGPRINT("Local%d", opcode - 0x60);
return (aml_local_stack_getLocalX(opcode - 0x60));
break;
case 0x70: /* StoreOp */
AML_DEBUGPRINT("Store(");
aname = aml_create_local_object();
AML_COPY_OBJECT(tmpobj, env,
aml_eval_name(env, aml_parse_termobj(env, indent)), NULL);
aname->property = tmpobj;
AML_DEBUGPRINT(", ");
destname1 = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
/* XXX
* temporary object may change during aml_store_to_name()
* operation, so we make a copy of it on stack.
*/
if (destname1 == &env->tempname &&
destname1->property == &env->tempobject) {
destname1 = aml_create_local_object();
AML_COPY_OBJECT(destname1->property, env,
&env->tempobject, NULL);
}
aml_store_to_name(env, tmpobj, destname1);
if (env->stat == aml_stat_panic) {
AML_DEBUGPRINT("StoreOp failed");
return (NULL);
}
aname = aml_create_local_object();
AML_COPY_OBJECT(tmpobj, env, destname1->property, NULL);
aname->property = tmpobj;
if (tmpobj == NULL) {
printf("???");
break;
}
break;
case 0x71: /* RefOfOp */
AML_DEBUGPRINT("RefOf(");
src = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
aname = aml_create_local_object();
AML_ALLOC_OBJECT(aname->property, env, aml_t_objref, NULL);
objref = aname->property;
if (src->property == NULL ||
src->property->type != aml_t_namestr) {
objref->objref.nameref = src;
} else {
objref->objref.nameref = aml_create_local_object();
}
objref->objref.ref = src->property;
objref->objref.offset = -1; /* different from IndexOp */
break;
#define NUMOP3_2(opname, oparation, ope2) do { \
AML_DEBUGPRINT(opname); \
AML_DEBUGPRINT("("); \
num1 = aml_objtonum(env, aml_eval_name(env, \
aml_parse_termobj(env, indent))); \
AML_DEBUGPRINT(", "); \
num2 = aml_objtonum(env, aml_eval_name(env, \
aml_parse_termobj(env, indent))); \
AML_DEBUGPRINT(", "); \
anum.num.number = ope2(num1 oparation num2); \
destname1 = aml_parse_termobj(env, indent); \
AML_DEBUGPRINT(")"); \
aml_store_to_name(env, &anum, destname1); \
env->tempobject.num = anum.num; \
env->tempname.property = &env->tempobject; \
aname = &env->tempname; \
} while(0)
#define NUMOP3(opname, operation) NUMOP3_2(opname, operation, )
#define NUMOPN3(opname, operation) NUMOP3_2(opname, operation, ~)
case 0x72: /* AddOp */
NUMOP3("Add", +);
break;
case 0x73: /* ConcatOp */
aname = aml_parse_concatop(env, indent);
break;
case 0x74: /* SubtractOp */
NUMOP3("Subtract", -);
break;
case 0x75: /* IncrementOp */
AML_DEBUGPRINT("Increment(");
aname = aml_parse_termobj(env, indent);
num1 = aml_objtonum(env, aml_eval_name(env, aname));
num1++;
anum.num.number = num1;
AML_DEBUGPRINT(")");
aml_store_to_name(env, &anum, aname);
aname = &env->tempname;
env->tempobject.num = anum.num;
break;
case 0x76: /* DecrementOp */
AML_DEBUGPRINT("Decrement(");
aname = aml_parse_termobj(env, indent);
num1 = aml_objtonum(env, aml_eval_name(env, aname));
num1--;
anum.num.number = num1;
AML_DEBUGPRINT(")");
aml_store_to_name(env, &anum, aname);
aname = &env->tempname;
env->tempobject.num = anum.num;
break;
case 0x77: /* MultiplyOp */
NUMOP3("Multiply", *);
break;
case 0x78: /* DivideOp */
AML_DEBUGPRINT("Divide(");
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(", ");
num2 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(", ");
anum.num.number = num1 % num2;
destname1 = aml_parse_termobj(env, indent);
aml_store_to_name(env, &anum, destname1);
AML_DEBUGPRINT(", ");
anum.num.number = num1 / num2;
destname2 = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
aml_store_to_name(env, &anum, destname2);
env->tempobject.num = anum.num;
aname = &env->tempname;
break;
case 0x79: /* ShiftLeftOp */
NUMOP3("ShiftLeft", <<);
break;
case 0x7a: /* ShiftRightOp */
NUMOP3("ShiftRight", >>);
break;
case 0x7b: /* AndOp */
NUMOP3("And", &);
break;
case 0x7c: /* NAndOp */
NUMOPN3("NAnd", &);
break;
case 0x7d: /* OrOp */
NUMOP3("Or", |);
break;
case 0x7e: /* NOrOp */
NUMOPN3("NOr", |);
break;
case 0x7f: /* XOrOp */
NUMOP3("XOr", ^);
break;
case 0x80: /* NotOp */
NUMOP2("Not", ~);
break;
case 0x81: /* FindSetLeftBitOp */
NUMOP2("FindSetLeftBit", findsetleftbit);
break;
case 0x82: /* FindSetRightBitOp */
NUMOP2("FindSetRightBit", findsetrightbit);
break;
case 0x83: /* DerefOp */
AML_DEBUGPRINT("DerefOf(");
objref = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT(")");
if (objref->objref.ref == NULL) {
env->tempname.property = objref->objref.ref;
aname = &env->tempname;
break;
}
switch (objref->objref.ref->type) {
case aml_t_package:
case aml_t_buffer:
if (objref->objref.offset < 0) {
env->tempname.property = objref->objref.ref;
} else {
objref->objref.deref = 1;
env->tempname.property = objref;
}
break;
default:
env->tempname.property = objref->objref.ref;
break;
}
aname = &env->tempname;
break;
case 0x86: /* NotifyOp *//* XXX Not yet impremented */
AML_DEBUGPRINT("Notify(");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(", ");
aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
break;
case 0x87: /* SizeOfOp */
AML_DEBUGPRINT("SizeOf(");
aname = aml_parse_termobj(env, indent);
tmpobj = aml_eval_name(env, aname);
AML_DEBUGPRINT(")");
num1 = 0;
switch (tmpobj->type) {
case aml_t_buffer:
num1 = tmpobj->buffer.size;
break;
case aml_t_string:
num1 = strlen((const char *)tmpobj->str.string);
break;
case aml_t_package:
num1 = tmpobj->package.elements;
break;
default:
AML_DEBUGPRINT("Args of SizeOf should be "
"buffer/string/package only\n");
break;
}
anum.num.number = num1;
env->tempobject.num = anum.num;
aname = &env->tempname;
break;
case 0x88: /* IndexOp */
AML_DEBUGPRINT("Index(");
srcobj = aml_eval_name(env, aml_parse_termobj(env, indent));
AML_DEBUGPRINT(", ");
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(", ");
destname1 = aml_parse_termobj(env, indent);
AML_DEBUGPRINT(")");
aname = aml_create_local_object();
switch (srcobj->type) {
case aml_t_package:
case aml_t_buffer:
AML_ALLOC_OBJECT(objref, env, aml_t_objref, NULL);
aname->property = objref;
objref->objref.ref = srcobj;
objref->objref.offset = num1;
objref->objref.deref = 0;
break;
default:
AML_DEBUGPRINT("Arg0 of Index should be either "
"buffer or package\n");
return (aname);
}
aml_store_to_name(env, objref, destname1);
break;
case 0x89: /* MatchOp *//* XXX Not yet Impremented */
AML_DEBUGPRINT("Match(");
AML_COPY_OBJECT(obj, env, aml_eval_name(env,
aml_parse_termobj(env, indent)), NULL);
if (obj->type != aml_t_package) {
env->stat = aml_stat_panic;
return (NULL);
}
anum.num.number = 0xffffffff;
match1 = *env->dp;
AML_DEBUGPRINT(", %d", *env->dp);
env->dp++;
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
match2 = *env->dp;
AML_DEBUGPRINT(", %d", *env->dp);
env->dp++;
num2 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
AML_DEBUGPRINT(", ");
start = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
#define MATCHOP(opnum, arg1, arg2) ((opnum == 0) ? (1) : \
(opnum == 1) ? ((arg1) == (arg2)) : \
(opnum == 2) ? ((arg1) <= (arg2)) : \
(opnum == 3) ? ((arg1) < (arg2)) : \
(opnum == 4) ? ((arg1) >= (arg2)) : \
(opnum == 5) ? ((arg1) > (arg2)) : 0 )
for (i = start; i < obj->package.elements; i++) {
pkgval = aml_objtonum(env, obj->package.objects[i]);
if (MATCHOP(match1, pkgval, num1) &&
MATCHOP(match2, pkgval, num2)) {
anum.num.number = i;
break;
}
}
AML_DEBUGPRINT(")");
aml_free_object(&obj);
aname = &env->tempname;
env->tempname.property = &env->tempobject;
env->tempobject.num = anum.num;
break;
#undef MATCHOP
case 0x8a ... 0x8d: /* CreateDWordFieldOp */
widthindex = *(env->dp - 1) - 0x8a;
AML_DEBUGPRINT("%s(", opname[widthindex]);
srcbuf = aml_eval_name(env, aml_parse_termobj(env, indent));
if (srcbuf == &env->tempobject) {
AML_DEBUGPRINT("NOT NAMEDBUF\n");
env->stat = aml_stat_panic;
return (NULL);
}
AML_DEBUGPRINT(", ");
idx = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
if (widthindex != 3) {
idx *= 8;
}
AML_DEBUGPRINT(", ");
newname = (char *)aml_parse_namestring(env);
aml_print_namestring((unsigned char *)newname);
aml_createfield_generic(env, srcbuf, idx,
widthtbl[widthindex], newname);
AML_DEBUGPRINT(")");
break;
case 0x8e: /* ObjectTypeOp */
AML_DEBUGPRINT("ObjectType(");
aname = aml_parse_termobj(env, indent);
if (aname == NULL) {
env->tempobject.type = aml_t_num;
env->tempobject.num.number = aml_t_null;
} else {
env->tempobject.type = aml_t_num;
env->tempobject.num.number = aname->property->type;
}
aname = &env->tempname;
AML_DEBUGPRINT(")");
break;
#define CMPOP(opname,operation) do { \
AML_DEBUGPRINT(opname); \
AML_DEBUGPRINT("("); \
num1 = aml_objtonum(env, aml_eval_name(env, \
aml_parse_termobj(env, indent))); \
AML_DEBUGPRINT(", "); \
num2 = aml_objtonum(env, aml_eval_name(env, \
aml_parse_termobj(env, indent))); \
aname = &env->tempname; \
env->tempobject.type = aml_t_num; \
env->tempobject.num.number = (num1 operation num2) ? 0xffffffff : 0; \
aname->property = &env->tempobject; \
AML_DEBUGPRINT(")"); \
} while(0)
case 0x90:
CMPOP("LAnd", &&);
break;
case 0x91:
CMPOP("LOr", ||);
break;
case 0x92:
AML_DEBUGPRINT("LNot(");
num1 = aml_objtonum(env, aml_eval_name(env,
aml_parse_termobj(env, indent)));
aname = &env->tempname;
env->tempobject.type = aml_t_num;
env->tempobject.num.number = (!num1) ? 0xffffffff : 0;
aname->property = &env->tempobject;
AML_DEBUGPRINT(")");
break;
case 0x93:
CMPOP("LEqual", ==);
break;
case 0x94:
CMPOP("LGreater", >);
break;
case 0x95:
CMPOP("LLess", <);
break;
case 0xa0: /* IfOp */
aname = aml_parse_defif(env, indent);
break;
#if 0
case 0xa1: /* ElseOp should not be treated in Main parser
* But If Op */
aml_parse_defelse(env, indent);
break;
#endif
case 0xa2: /* WhileOp */
aname = aml_parse_defwhile(env, indent);
break;
case 0xa3: /* NoopOp */
AML_DEBUGPRINT("Noop");
break;
case 0xa5: /* BreakOp */
AML_DEBUGPRINT("Break");
env->stat = aml_stat_break;
break;
case 0xa4: /* ReturnOp */
AML_DEBUGPRINT("Return(");
AML_COPY_OBJECT(env->tempname.property, env, aml_eval_name(env,
aml_parse_termobj(env, indent)), NULL);
aname = &env->tempname;
env->stat = aml_stat_return;
AML_DEBUGPRINT(")");
break;
case 0xcc: /* BreakPointOp */
/* XXX Not Yet Impremented (Not need?) */
AML_DEBUGPRINT("BreakPoint");
break;
default:
AML_SYSERRX(1, "strange opcode 0x%x\n", opcode);
AML_SYSABORT();
}
return (aname);
}
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