diff options
author | Jordan Hargrave <jordan@cvs.openbsd.org> | 2006-01-17 23:42:15 +0000 |
---|---|---|
committer | Jordan Hargrave <jordan@cvs.openbsd.org> | 2006-01-17 23:42:15 +0000 |
commit | 35c46c822b37e8f2433ba75e2f746e630ffe69dc (patch) | |
tree | 3be7a09704365d0bcc4accd971a276d015f47a3e /sys/dev | |
parent | 75aafb822c2214f8cbda123e0ab019aac79418c0 (diff) |
Major overhaul of the aml parser. Evaluater temporarily disabled.
ok marco@
Diffstat (limited to 'sys/dev')
-rw-r--r-- | sys/dev/acpi/acpi.c | 8 | ||||
-rw-r--r-- | sys/dev/acpi/acpibat.c | 36 | ||||
-rw-r--r-- | sys/dev/acpi/acpivar.h | 5 | ||||
-rw-r--r-- | sys/dev/acpi/amltypes.h | 56 | ||||
-rw-r--r-- | sys/dev/acpi/dsdt.c | 2830 |
5 files changed, 1616 insertions, 1319 deletions
diff --git a/sys/dev/acpi/acpi.c b/sys/dev/acpi/acpi.c index b0de17b77f9..e69d73c823e 100644 --- a/sys/dev/acpi/acpi.c +++ b/sys/dev/acpi/acpi.c @@ -1,4 +1,4 @@ -/* $OpenBSD: acpi.c,v 1.19 2006/01/06 08:59:58 grange Exp $ */ +/* $OpenBSD: acpi.c,v 1.20 2006/01/17 23:42:14 jordan Exp $ */ /* * Copyright (c) 2005 Thorsten Lockert <tholo@sigmasoft.com> * Copyright (c) 2005 Jordan Hargrave <jordan@openbsd.org> @@ -817,8 +817,10 @@ acpi_init_states(struct acpi_softc *sc) sc->sc_sleeptype[i].slp_typb = -1; if (aml_eval_name(sc, aml_root.child, name, &res, &env)) continue; - sc->sc_sleeptype[i].slp_typa = aml_intval(&res.v_package[0]); - sc->sc_sleeptype[i].slp_typb = aml_intval(&res.v_package[1]); + if (res.type == AML_OBJTYPE_PACKAGE) { + sc->sc_sleeptype[i].slp_typa = aml_intval(res.v_package[0]); + sc->sc_sleeptype[i].slp_typb = aml_intval(res.v_package[1]); + } } } diff --git a/sys/dev/acpi/acpibat.c b/sys/dev/acpi/acpibat.c index 335e236a919..7926a9b67e3 100644 --- a/sys/dev/acpi/acpibat.c +++ b/sys/dev/acpi/acpibat.c @@ -1,4 +1,4 @@ -/* $OpenBSD: acpibat.c,v 1.8 2006/01/06 09:06:21 grange Exp $ */ +/* $OpenBSD: acpibat.c,v 1.9 2006/01/17 23:42:14 jordan Exp $ */ /* * Copyright (c) 2005 Marco Peereboom <marco@openbsd.org> * @@ -103,19 +103,19 @@ acpibat_getbif(struct acpibat_softc *sc) return (1); } - sc->sc_bif.bif_power_unit = aml_intval(&res.v_package[0]); - sc->sc_bif.bif_capacity = aml_intval(&res.v_package[1]); - sc->sc_bif.bif_last_capacity = aml_intval(&res.v_package[2]); - sc->sc_bif.bif_technology = aml_intval(&res.v_package[3]); - sc->sc_bif.bif_voltage = aml_intval(&res.v_package[4]); - sc->sc_bif.bif_warning = aml_intval(&res.v_package[5]); - sc->sc_bif.bif_low = aml_intval(&res.v_package[6]); - sc->sc_bif.bif_cap_granu1 = aml_intval(&res.v_package[7]); - sc->sc_bif.bif_cap_granu2 = aml_intval(&res.v_package[8]); - sc->sc_bif.bif_model = aml_strval(&res.v_package[9]); - sc->sc_bif.bif_serial = aml_strval(&res.v_package[10]); - sc->sc_bif.bif_type = aml_strval(&res.v_package[11]); - sc->sc_bif.bif_oem = aml_strval(&res.v_package[12]); + sc->sc_bif.bif_power_unit = aml_intval(res.v_package[0]); + sc->sc_bif.bif_capacity = aml_intval(res.v_package[1]); + sc->sc_bif.bif_last_capacity = aml_intval(res.v_package[2]); + sc->sc_bif.bif_technology = aml_intval(res.v_package[3]); + sc->sc_bif.bif_voltage = aml_intval(res.v_package[4]); + sc->sc_bif.bif_warning = aml_intval(res.v_package[5]); + sc->sc_bif.bif_low = aml_intval(res.v_package[6]); + sc->sc_bif.bif_cap_granu1 = aml_intval(res.v_package[7]); + sc->sc_bif.bif_cap_granu2 = aml_intval(res.v_package[8]); + sc->sc_bif.bif_model = aml_strval(res.v_package[9]); + sc->sc_bif.bif_serial = aml_strval(res.v_package[10]); + sc->sc_bif.bif_type = aml_strval(res.v_package[11]); + sc->sc_bif.bif_oem = aml_strval(res.v_package[12]); dnprintf(20, "power_unit: %u capacity: %u last_cap: %u tech: %u " "volt: %u warn: %u low: %u gran1: %u gran2: %d model: %s " @@ -157,10 +157,10 @@ acpibat_getbst(struct acpibat_softc *sc) return (1); } - sc->sc_bst.bst_state = aml_intval(&res.v_package[0]); - sc->sc_bst.bst_rate = aml_intval(&res.v_package[1]); - sc->sc_bst.bst_capacity = aml_intval(&res.v_package[2]); - sc->sc_bst.bst_voltage = aml_intval(&res.v_package[3]); + sc->sc_bst.bst_state = aml_intval(res.v_package[0]); + sc->sc_bst.bst_rate = aml_intval(res.v_package[1]); + sc->sc_bst.bst_capacity = aml_intval(res.v_package[2]); + sc->sc_bst.bst_voltage = aml_intval(res.v_package[3]); dnprintf(20, "state: %u rate: %u cap: %u volt: %u ", sc->sc_bst.bst_state, diff --git a/sys/dev/acpi/acpivar.h b/sys/dev/acpi/acpivar.h index 367910fada3..31abd0ded15 100644 --- a/sys/dev/acpi/acpivar.h +++ b/sys/dev/acpi/acpivar.h @@ -1,4 +1,4 @@ -/* $OpenBSD: acpivar.h,v 1.11 2006/01/06 10:57:15 grange Exp $ */ +/* $OpenBSD: acpivar.h,v 1.12 2006/01/17 23:42:14 jordan Exp $ */ /* * Copyright (c) 2005 Thorsten Lockert <tholo@sigmasoft.com> * @@ -20,6 +20,7 @@ #include <sys/timeout.h> +/* #define ACPI_DEBUG */ #ifdef ACPI_DEBUG extern int acpi_debug; #define dprintf(x...) do { if (acpi_debug) printf(x); } while(0) @@ -124,8 +125,6 @@ struct acpi_softc { int sc_powerbtn; int sc_sleepbtn; - struct acpi_parsestate amlpc; - struct { int slp_typa; int slp_typb; diff --git a/sys/dev/acpi/amltypes.h b/sys/dev/acpi/amltypes.h index 1a50e6eba1a..800c5cb37ed 100644 --- a/sys/dev/acpi/amltypes.h +++ b/sys/dev/acpi/amltypes.h @@ -1,4 +1,4 @@ -/* $OpenBSD: amltypes.h,v 1.8 2005/12/28 03:04:56 jordan Exp $ */ +/* $OpenBSD: amltypes.h,v 1.9 2006/01/17 23:42:14 jordan Exp $ */ /* * Copyright (c) 2005 Jordan Hargrave <jordan@openbsd.org> * @@ -222,35 +222,47 @@ struct aml_node; /* AML Object Value */ struct aml_value { - int type; - int length; + int type; + int length; + int dynamic; union { int64_t vinteger; - const char *vstring; + char *vstring; u_int8_t *vbuffer; - struct aml_value *vpackage; - struct acpi_gas vopregion; + struct aml_value **vpackage; + struct { + u_int8_t iospace; + u_int64_t iobase; + u_int32_t iolen; + } vopregion; struct { struct aml_value *args; struct aml_value *locals; struct aml_value *result; } vmethod; struct { - int bitpos; - int bitlen; + u_int16_t flags; + u_int16_t bitpos; + u_int16_t bitlen; + u_int16_t ftype; struct aml_node *ref; } vfield; struct { - u_int8_t proc_id; - u_int32_t proc_addr; - u_int8_t proc_len; + u_int8_t proc_id; + u_int32_t proc_addr; + u_int8_t proc_len; } vprocessor; struct { - u_int8_t pwr_level; - u_int16_t pwr_order; + int index; + struct aml_node *refobj; + } vindex; + struct { + u_int8_t pwr_level; + u_int16_t pwr_order; } vpowerrsrc; } _; }; + #define v_integer _.vinteger #define v_string _.vstring #define v_buffer _.vbuffer @@ -263,8 +275,12 @@ struct aml_value #define v_thrmzone _.vthrmzone #define aml_intval(v) ((v)->v_integer) +#define aml_strlen(v) ((v)->length) #define aml_strval(v) ((v)->v_string) +#define aml_buflen(v) ((v)->length) #define aml_bufval(v) ((v)->v_buffer) +#define aml_pkglen(v) ((v)->length) +#define aml_pkgval(v,i) (&(v)->v_package[(i)]) struct aml_node { @@ -272,14 +288,14 @@ struct aml_node struct aml_node *child; struct aml_node *sibling; - u_int16_t opcode; - u_int8_t *start; - u_int8_t *end; - u_int8_t flag; - const char *name; - const char *mnem; + u_int16_t opcode; + u_int8_t *start; + u_int8_t *end; + u_int8_t flag; + const char *name; + const char *mnem; - struct aml_value value; + struct aml_value *value; }; #endif /* __DEV_ACPI_AMLTYPES_H__ */ diff --git a/sys/dev/acpi/dsdt.c b/sys/dev/acpi/dsdt.c index dd6ce793b01..6c00853a1f2 100644 --- a/sys/dev/acpi/dsdt.c +++ b/sys/dev/acpi/dsdt.c @@ -1,4 +1,4 @@ -/* $OpenBSD: dsdt.c,v 1.15 2006/01/06 08:37:32 grange Exp $ */ +/* $OpenBSD: dsdt.c,v 1.16 2006/01/17 23:42:14 jordan Exp $ */ /* * Copyright (c) 2005 Jordan Hargrave <jordan@openbsd.org> * @@ -29,39 +29,64 @@ struct aml_optable { - u_int16_t opcode; - const char *mnem; - const char *args; + u_int16_t opcode; + const char *mnem; + const char *args; }; struct aml_stream { - u_int8_t *start; - u_int8_t *end; - u_int8_t *pos; + u_int8_t *start; + u_int8_t *end; + u_int8_t *pos; }; struct acpi_stack { - struct aml_value *locals; - struct aml_value *args; - struct aml_value result; - struct acpi_stack *next; + struct aml_value *locals; + struct aml_value *args; + struct aml_value result; + struct acpi_stack *next; }; struct acpi_context { - struct acpi_softc *sc; - struct acpi_stack *stack; + struct acpi_softc *sc; + struct acpi_stack *stack; + + u_int8_t *start; + u_int8_t *end; + u_int8_t *pos; }; +#ifdef ACPI_DEBUG +const char *opregion(int id); + +const char * +opregion(int id) +{ + switch(id) { + case 0: return "SystemMemory"; + case 1: return "SystemIO"; + case 2: return "PCIConfig"; + case 3: return "Embedded"; + case 4: return "SMBus"; + case 5: return "CMOS"; + case 6: return "PCIBAR"; + } + return ""; +} +#endif + int aml_isnamedop(u_int16_t); -void aml_parsefieldlist(struct acpi_softc *sc, struct aml_node *parent); -int aml_parselength(struct acpi_softc *sc); -const char *aml_parsename(struct acpi_softc *sc, const char *); -u_int16_t aml_getopcode(struct acpi_softc *sc); -int aml_parseargs(struct acpi_softc *, struct aml_node *, const char *); -struct aml_node *aml_parse_object(struct acpi_softc *, struct aml_node *); +void aml_parsefieldlist(struct acpi_context *, struct aml_node *parent); +int aml_parselength(struct acpi_context *); +const char *aml_parsename(struct acpi_context *, const char *); +u_int16_t aml_getopcode(struct acpi_context *); +int aml_parseargs(struct acpi_context *, struct aml_node *, const char *); + +int aml_parse_objlist(struct acpi_context *, struct aml_node *); +struct aml_node *aml_parse_object(struct acpi_context *, struct aml_node *); void aml_shownode(struct aml_node *); u_int64_t aml_bcd2dec(u_int64_t); @@ -72,7 +97,7 @@ int aml_msb(u_int32_t val); void aml_walkroot(void); void aml_addchildnode(struct aml_node *, struct aml_node *); -struct aml_node *aml_create_node(struct acpi_softc *, struct aml_node *, int opcode); +struct aml_node *aml_create_node(struct acpi_context *, struct aml_node *, int opcode); struct aml_node *aml_find_name(struct acpi_softc *, struct aml_node *, const char *); int64_t aml_evalmath(u_int16_t, int64_t, int64_t); @@ -81,7 +106,9 @@ int aml_strcmp(u_int16_t opcode, const char *lhs, const char *rhs); int aml_evalint(struct acpi_softc *, struct aml_node *, struct aml_value *); int aml_eval_object(struct acpi_softc *, struct aml_node *, struct aml_value *, struct aml_value *); +#if 0 void aml_copyvalue(struct aml_value *, const struct aml_value *); +#endif void aml_setinteger(struct aml_value *, int64_t); void aml_setstring(struct aml_value *, const char *); void aml_setbuffer(struct aml_value *, int, u_int8_t *); @@ -97,74 +124,275 @@ void aml_setnodeinteger(struct acpi_softc *, struct aml_node *, int64_t, struct int aml_match(struct acpi_softc *, int, const struct aml_value *, const struct aml_value *); int aml_cmpobj(struct acpi_softc *, const struct aml_value *, const struct aml_value *); -const char *aml_parsestr(struct acpi_softc *); -u_int64_t aml_parseint(struct acpi_softc *, int); +const char *aml_parsestr(struct acpi_context *); +u_int64_t aml_parseint(struct acpi_context *, int); + +struct aml_value *aml_allocvalue(int, int64_t, const void *, const char *); +struct aml_value *aml_copyvalue(const struct aml_value *); +void aml_freevalue(struct aml_value **); + +struct aml_value *aml_allocint(uint64_t); +struct aml_value *aml_allocstr(const char *); + +struct aml_value * +aml_allocint(uint64_t ival) +{ + return aml_allocvalue(AML_OBJTYPE_INTEGER, ival, NULL, "integer"); +} + +struct aml_value * +aml_allocstr(const char *str) +{ + return aml_allocvalue(AML_OBJTYPE_STRING, strlen(str), str, "string"); +} + +void *acpi_os_allocmem(size_t); +void acpi_os_freemem(void *); struct aml_node aml_root; +void * +acpi_os_allocmem(size_t size) +{ + return malloc(size, M_DEVBUF, M_WAITOK); +} + +void +acpi_os_freemem(void *ptr) +{ + free(ptr, M_DEVBUF); +} + + +/* Allocate dynamic AML value + * type : Type of object to allocate (AML_OBJTYPE_XXXX) + * ival : Integer value (action depends on type) + * bval : Buffer value (action depends on type) + * lbl : Debugging label + */ +struct aml_value * +aml_allocvalue(int type, int64_t ival, const void *bval, + const char *lbl) +{ + struct aml_value *rv; + + //printf("alloc value: %.2x : %s (%llx)\n", type, lbl, ival); + + rv = (struct aml_value *)acpi_os_allocmem(sizeof(struct aml_value)); + memset(rv, 0, sizeof(struct aml_value)); + rv->type = type; + rv->dynamic = 1; + + switch (type) { +#if 0 + xxx + case AML_OBJTYPE_REFOF: + rv->v_index.index = ival; + rv->v_index.refobj = bval; + break; + case AML_OBJTYPE_ERROR: + rv->v_error.error = ival; + rv->v_error.errobj = bval; + break; +#endif + case AML_OBJTYPE_INTEGER: + rv->v_integer = ival; + break; + case AML_OBJTYPE_STRING: + /* Allocate string: if pointer valid, copy data */ + rv->length = ival; + rv->v_string = NULL; + if (ival) { + rv->v_string = acpi_os_allocmem(ival+1); + memset(rv->v_string, 0, ival+1); + if (bval) { + strncpy(rv->v_string, bval, ival); + } + } + break; + case AML_OBJTYPE_BUFFER: + /* Allocate buffer: if pointer valid, copy data */ + rv->length = ival; + rv->v_buffer = NULL; + if (ival) { + rv->v_buffer = acpi_os_allocmem(ival); + memset(rv->v_buffer, 0, ival); + if (bval) { + memcpy(rv->v_buffer, bval, ival); + } + } + break; + case AML_OBJTYPE_PACKAGE: + /* Allocate package pointers */ + rv->length = ival; + rv->v_package = (struct aml_value **)acpi_os_allocmem(rv->length * sizeof(struct aml_value *)); + memset(rv->v_package, 0, rv->length * sizeof(struct aml_value *)); + break; + case AML_OBJTYPE_METHOD: + /* Allocate method stack */ + rv->v_method.locals = (struct aml_value *)acpi_os_allocmem(8 * sizeof(struct aml_value)); + rv->v_method.args = (struct aml_value *)acpi_os_allocmem(ival * sizeof(struct aml_value)); + memset(rv->v_method.locals, 0, 8 * sizeof(struct aml_value)); + memset(rv->v_method.args, 0, ival * sizeof(struct aml_value)); + break; +#if 0 + xxx + case AML_OBJTYPE_MUTEX: + case AML_OBJTYPE_DEVICE: + case AML_OBJTYPE_EVENT: + rv->v_device = bval; + break; +#endif + } + return rv; +} + +void aml_freevalue(struct aml_value **pv) +{ + int idx; + struct aml_value *v = *pv; + + /* Don't free static values */ + if (v == NULL || !v->dynamic) + return; + + printf("freeing value : %x\n", v->type); + switch (v->type) { + case AML_OBJTYPE_STRING: + if (v->v_string) { + acpi_os_freemem((void *)v->v_string); + v->v_string = NULL; + } + break; + case AML_OBJTYPE_BUFFER: + if (v->v_buffer) { + acpi_os_freemem(v->v_buffer); + v->v_buffer = NULL; + } + break; + case AML_OBJTYPE_PACKAGE: + for (idx=0; idx<v->length; idx++) { + aml_freevalue(&v->v_package[idx]); + } + acpi_os_freemem(v->v_package); + break; + case AML_OBJTYPE_METHOD: + for (idx=0; idx<8; idx++) { +#if 0 + xxx + aml_freevalue(v->v_method.locals[idx]); + aml_freevalue(v->v_method.args[idx]); +#endif + } + acpi_os_freemem(v->v_method.locals); + acpi_os_freemem(v->v_method.args); + } + v->type = 0; + acpi_os_freemem(v); + *pv = 0; +} + +#if 0 +xxx +void +aml_showvalue(struct aml_value *val) +{ + int idx; + + if (val == NULL) + return; + switch(val->type) { + case AML_OBJTYPE_INTEGER: + dnprintf("integer: 0x%x", val->v_integer); + break; + case AML_OBJTYPE_STRING: + dnprintf("string: %s", val->v_string); + break; + case AML_OBJTYPE_PACKAGE: + printf("package: len = %ld {\n", (unsigned long)val->length); + for(idx=0; idx<val->length; idx++) { + aml_showvalue(val->v_package[idx]); + } + printf("}\n"); + break; + case AML_OBJTYPE_BUFFER: + printf("buffer: len = %ld { ", (unsigned long)val->length); + for(idx=0; idx<val->length; idx++) { + printf("%s0x%.2x", (idx ? ", " : ""), val->v_buffer[idx]); + } + printf(" }\n"); + break; + default: + printf("xxx"); + break; + } + printf("\n"); +} +#endif + const char * -aml_parsestr(struct acpi_softc *sc) +aml_parsestr(struct acpi_context *ctx) { - const char *str = sc->amlpc.pos; + const char *str = ctx->pos; - sc->amlpc.pos += strlen(str)+1; - return str; + ctx->pos += strlen(str)+1; + return str; } /* Read value from AML bytestream */ uint64_t -aml_parseint(struct acpi_softc *sc, int size) +aml_parseint(struct acpi_context *ctx, int size) { - u_int8_t *pc = sc->amlpc.pos; - - sc->amlpc.pos += size; - switch (size) { - case 1: - return *(u_int8_t *)pc; - case 2: - return *(u_int16_t *)pc; - case 4: - return *(u_int32_t *)pc; - case 8: - return *(u_int64_t *)pc; - } - - return (0); + u_int8_t *pc = ctx->pos; + + ctx->pos += size; + switch (size) { + case 1: + return *(u_int8_t *)pc; + case 2: + return *(u_int16_t *)pc; + case 4: + return *(u_int32_t *)pc; + case 8: + return *(u_int64_t *)pc; + } + + return (0); } void aml_setinteger(struct aml_value *val, int64_t value) { - val->type = AML_OBJTYPE_INTEGER; - val->v_integer = value; - val->length = 0; + val->type = AML_OBJTYPE_INTEGER; + val->v_integer = value; + val->length = 0; } void aml_setstring(struct aml_value *val, const char *str) { - val->type = AML_OBJTYPE_STRING; - val->length = strlen(str); - val->v_string = str; + val->type = AML_OBJTYPE_STRING; + val->length = strlen(str); + val->v_string = (char *)str; } void aml_setbuffer(struct aml_value *val, int size, u_int8_t *ptr) { - val->type = AML_OBJTYPE_STRING; - val->length = size; - val->v_buffer = ptr; + val->type = AML_OBJTYPE_STRING; + val->length = size; + val->v_buffer = ptr; } void aml_setfield(struct aml_value *val, int bitpos, int bitlen, struct aml_node *ref, struct aml_node *node) { - dnprintf(50, "setfield: pos=%.8x len=%.8x ref=%s name=%s\n", bitpos, bitlen, ref->name, node->name); - val->type = AML_OBJTYPE_FIELDUNIT; - val->length = (bitlen + 7) / 8; - val->v_field.bitpos = bitpos; - val->v_field.bitlen = bitlen; - val->v_field.ref = ref; + dnprintf(50, "setfield: pos=%.8x len=%.8x ref=%s name=%s\n", bitpos, bitlen, ref->name, node->name); + val->type = AML_OBJTYPE_FIELDUNIT; + val->length = (bitlen + 7) / 8; + val->v_field.bitpos = bitpos; + val->v_field.bitlen = bitlen; + val->v_field.ref = ref; } void @@ -175,10 +403,10 @@ aml_setpackage(struct aml_value *val, struct aml_node *node) void aml_setprocessor(struct aml_value *val, u_int8_t id, u_int32_t addr, u_int8_t len) { - val->type = AML_OBJTYPE_PROCESSOR; - val->v_processor.proc_id = id; - val->v_processor.proc_addr = addr; - val->v_processor.proc_len = len; + val->type = AML_OBJTYPE_PROCESSOR; + val->v_processor.proc_id = id; + val->v_processor.proc_addr = addr; + val->v_processor.proc_len = len; } /* SetOpRegion addresses @@ -190,13 +418,11 @@ aml_setprocessor(struct aml_value *val, u_int8_t id, u_int32_t addr, u_int8_t le void aml_setopregion(struct aml_value *val, int addrtype, int size, u_int64_t addr) { - dnprintf(50, "setopregion: %.2x %.4x %.8x\n", addrtype, size, addr); - val->type = AML_OBJTYPE_OPREGION; - val->v_opregion.address_space_id = addrtype; - val->v_opregion.register_bit_width = 0; - val->v_opregion.register_bit_offset = 0; - val->v_opregion.access_size = size; - val->v_opregion.address = addr; + dnprintf(50, "setopregion: %.2x %.4x %.8x\n", addrtype, size, addr); + val->type = AML_OBJTYPE_OPREGION; + val->v_opregion.iospace = addrtype; + val->v_opregion.iobase = addr; + val->v_opregion.iolen = size; } /* Decode AML Package length @@ -207,272 +433,272 @@ aml_setopregion(struct aml_value *val, int addrtype, int size, u_int64_t addr) * 0xC0 = length is lower 4 bits + 3 bytes */ int -aml_parselength(struct acpi_softc *sc) +aml_parselength(struct acpi_context *ctx) { - u_int8_t lcode; - int ival; + u_int8_t lcode; + int ival; - lcode = aml_parseint(sc, 1); - if (lcode <= 0x3F) { - return lcode; - } + lcode = aml_parseint(ctx, 1); + if (lcode <= 0x3F) { + return lcode; + } - ival = lcode & 0xF; - if (lcode >= 0x40) ival |= aml_parseint(sc, 1) << 4; - if (lcode >= 0x80) ival |= aml_parseint(sc, 1) << 12; - if (lcode >= 0xC0) ival |= aml_parseint(sc, 1) << 20; + ival = lcode & 0xF; + if (lcode >= 0x40) ival |= aml_parseint(ctx, 1) << 4; + if (lcode >= 0x80) ival |= aml_parseint(ctx, 1) << 12; + if (lcode >= 0xC0) ival |= aml_parseint(ctx, 1) << 20; - return ival; + return ival; } void -aml_parsefieldlist(struct acpi_softc *sc, struct aml_node *node) +aml_parsefieldlist(struct acpi_context *ctx, struct aml_node *node) { - u_int8_t type, attr; - int len, start; - struct aml_node *pf; - - start = 0; - dnprintf(50, "-- parsefield\n"); - while (sc->amlpc.pos < node->end) { - switch (aml_parseint(sc, 1)) { - case 0x00: /* reserved */ - len = aml_parselength(sc); - start += len; - break; - case 0x01: /* access field */ - type = aml_parseint(sc, 1); - attr = aml_parseint(sc, 1); - dnprintf(50, " type=%.2x attr=%.2x\n", type, attr); - break; - default: /* named field */ - --sc->amlpc.pos; - pf = aml_create_node(sc, node, AMLOP_CREATEFIELD); - pf->name = aml_parsename(sc, "field"); - len = aml_parselength(sc); - - aml_setfield(&pf->value, start, len, node, pf); - start += len; - } - } + u_int8_t type, attr; + int len, start; + struct aml_node *pf; + + start = 0; + dnprintf(50, "-- parsefield\n"); + while (ctx->pos < node->end) { + switch (aml_parseint(ctx, 1)) { + case 0x00: /* reserved */ + len = aml_parselength(ctx); + start += len; + break; + case 0x01: /* access field */ + type = aml_parseint(ctx, 1); + attr = aml_parseint(ctx, 1); + dnprintf(50, " type=%.2x attr=%.2x\n", type, attr); + break; + default: /* named field */ + --ctx->pos; + pf = aml_create_node(ctx, node, AMLOP_CREATEFIELD); + pf->name = aml_parsename(ctx, "field"); + len = aml_parselength(ctx); + + //aml_setfield(pf->value, start, len, node, pf); + start += len; + } + } } /* Decode AML Namestring from stream */ const char * -aml_parsename(struct acpi_softc *sc, const char *lbl) +aml_parsename(struct acpi_context *ctx, const char *lbl) { - int count, pfxlen; - char *name, *pn; - u_int8_t *base; - - pfxlen = 0; - if (sc->amlpc.pos[pfxlen] == AMLOP_ROOTCHAR) { - pfxlen++; - } - while (sc->amlpc.pos[pfxlen] == AMLOP_PARENTPREFIX) { - pfxlen++; - } - - switch (sc->amlpc.pos[pfxlen]) { - case 0x00: - count = 0; - base = sc->amlpc.pos + pfxlen + 1; - break; - case AMLOP_MULTINAMEPREFIX: - count = sc->amlpc.pos[pfxlen+1]; - base = sc->amlpc.pos + pfxlen + 2; - break; - case AMLOP_DUALNAMEPREFIX: - count = 2; - base = sc->amlpc.pos + pfxlen + 1; - break; - default: - count = 1; - base = sc->amlpc.pos + pfxlen; - break; - } - - name = malloc(pfxlen + count * 5, M_DEVBUF, M_WAITOK); - pn = name; - - while (pfxlen--) - *(pn++) = *(sc->amlpc.pos++); + int count, pfxlen; + char *name, *pn; + u_int8_t *base; + + pfxlen = 0; + if (ctx->pos[pfxlen] == AMLOP_ROOTCHAR) { + pfxlen++; + } + while (ctx->pos[pfxlen] == AMLOP_PARENTPREFIX) { + pfxlen++; + } + + switch (ctx->pos[pfxlen]) { + case 0x00: + count = 0; + base = ctx->pos + pfxlen + 1; + break; + case AMLOP_MULTINAMEPREFIX: + count = ctx->pos[pfxlen+1]; + base = ctx->pos + pfxlen + 2; + break; + case AMLOP_DUALNAMEPREFIX: + count = 2; + base = ctx->pos + pfxlen + 1; + break; + default: + count = 1; + base = ctx->pos + pfxlen; + break; + } + + name = acpi_os_allocmem(pfxlen + count * 5); + pn = name; + + while (pfxlen--) + *(pn++) = *(ctx->pos++); - /* Copy name segments in chunks of 4 bytes */ - while (count--) { - memcpy(pn, base, 4); - if (count) { - *(pn + 4) = '.'; - pn++; - } - pn += 4; - base += 4; - } - *pn = 0; - - dnprintf(50, " acpi_name (%s): %s\n", lbl, name); - - sc->amlpc.pos = base; - - return name; + /* Copy name segments in chunks of 4 bytes */ + while (count--) { + memcpy(pn, base, 4); + if (count) { + *(pn + 4) = '.'; + pn++; + } + pn += 4; + base += 4; + } + *pn = 0; + + dnprintf(50, " acpi_name (%s): %s\n", lbl, name); + + ctx->pos = base; + + return name; } /* Is this opcode an encoded name? */ int aml_isnamedop(u_int16_t opcode) { - switch (opcode) { - case AMLOP_ROOTCHAR: - case AMLOP_PARENTPREFIX: - case AMLOP_MULTINAMEPREFIX: - case AMLOP_DUALNAMEPREFIX: - case AMLOP_NAMECHAR: - return (1); - } - - if (opcode >= 'A' && opcode <= 'Z') - return (1); - - return (0); + switch (opcode) { + case AMLOP_ROOTCHAR: + case AMLOP_PARENTPREFIX: + case AMLOP_MULTINAMEPREFIX: + case AMLOP_DUALNAMEPREFIX: + case AMLOP_NAMECHAR: + return (1); + } + + if (opcode >= 'A' && opcode <= 'Z') + return (1); + + return (0); } u_int64_t aml_bcd2dec(u_int64_t val) { - u_int64_t rval; - int n,pos; - - pos=1; - for (rval=0; val; val >>= 4) { - n = (val & 0xF); - if (n > 9) - return (0); - - rval += (n * pos); - pos *= 10; - } - return rval; + u_int64_t rval; + int n,pos; + + pos=1; + for (rval=0; val; val >>= 4) { + n = (val & 0xF); + if (n > 9) + return (0); + + rval += (n * pos); + pos *= 10; + } + return rval; } u_int64_t aml_dec2bcd(u_int64_t val) { - u_int64_t rval; - int n,pos; + u_int64_t rval; + int n,pos; - pos=0; - for (rval=0; val; val /= 10) { - n = (val % 10); + pos=0; + for (rval=0; val; val /= 10) { + n = (val % 10); - rval += (n << pos); - pos += 4; - } - return rval; + rval += (n << pos); + pos += 4; + } + return rval; } /* Calculate LSB */ int aml_lsb(u_int32_t val) { - int n = 31; - - if (!val) return -1; - if (val & 0x0000FFFF) { val <<= 16; n -= 16; }; - if (val & 0x00FF0000) { val <<= 8; n -= 8; }; - if (val & 0x0F000000) { val <<= 4; n -= 4; }; - if (val & 0x30000000) { val <<= 2; n -= 2; }; - return (val & 0x40000000) ? n-1 : n; + int n = 31; + + if (!val) return -1; + if (val & 0x0000FFFF) { val <<= 16; n -= 16; }; + if (val & 0x00FF0000) { val <<= 8; n -= 8; }; + if (val & 0x0F000000) { val <<= 4; n -= 4; }; + if (val & 0x30000000) { val <<= 2; n -= 2; }; + return (val & 0x40000000) ? n-1 : n; } /* Calculate MSB */ int aml_msb(u_int32_t val) { - int n=0; - - if (!val) return -1; - if (val & 0xFFFF0000) { val >>= 16; n += 16; }; - if (val & 0x0000FF00) { val >>= 8; n += 8; }; - if (val & 0x000000F0) { val >>= 4; n += 4; }; - if (val & 0x0000000C) { val >>= 2; n += 2; }; - return (val & 0x00000002) ? n+1 : n; + int n=0; + + if (!val) return -1; + if (val & 0xFFFF0000) { val >>= 16; n += 16; }; + if (val & 0x0000FF00) { val >>= 8; n += 8; }; + if (val & 0x000000F0) { val >>= 4; n += 4; }; + if (val & 0x0000000C) { val >>= 2; n += 2; }; + return (val & 0x00000002) ? n+1 : n; } /* Evaluate Math operands */ int64_t aml_evalmath(u_int16_t opcode, int64_t lhs, int64_t rhs) { - switch (opcode) { - case AMLOP_ADD: - return (lhs + rhs); - case AMLOP_SUBTRACT: - return (lhs - rhs); - case AMLOP_MULTIPLY: - return (lhs * rhs); - case AMLOP_DIVIDE: - return (lhs / rhs); - case AMLOP_MOD: - return (lhs % rhs); - case AMLOP_SHL: - return (lhs << rhs); - case AMLOP_SHR: - return (lhs >> rhs); - case AMLOP_AND: - return (lhs & rhs); - case AMLOP_NAND: - return ~(lhs & rhs); - case AMLOP_OR: - return (lhs | rhs); - case AMLOP_NOR: - return ~(lhs | rhs); - case AMLOP_XOR: - return (lhs ^ rhs); - case AMLOP_INCREMENT: - return (lhs + 1); - case AMLOP_DECREMENT: - return (lhs - 1); - case AMLOP_FINDSETLEFTBIT: - return aml_msb(lhs); - case AMLOP_FINDSETRIGHTBIT: - return aml_lsb(lhs); - case AMLOP_NOT: - return ~(lhs); - } - - return (0); + switch (opcode) { + case AMLOP_ADD: + return (lhs + rhs); + case AMLOP_SUBTRACT: + return (lhs - rhs); + case AMLOP_MULTIPLY: + return (lhs * rhs); + case AMLOP_DIVIDE: + return (lhs / rhs); + case AMLOP_MOD: + return (lhs % rhs); + case AMLOP_SHL: + return (lhs << rhs); + case AMLOP_SHR: + return (lhs >> rhs); + case AMLOP_AND: + return (lhs & rhs); + case AMLOP_NAND: + return ~(lhs & rhs); + case AMLOP_OR: + return (lhs | rhs); + case AMLOP_NOR: + return ~(lhs | rhs); + case AMLOP_XOR: + return (lhs ^ rhs); + case AMLOP_INCREMENT: + return (lhs + 1); + case AMLOP_DECREMENT: + return (lhs - 1); + case AMLOP_FINDSETLEFTBIT: + return aml_msb(lhs); + case AMLOP_FINDSETRIGHTBIT: + return aml_lsb(lhs); + case AMLOP_NOT: + return ~(lhs); + } + + return (0); } int aml_strcmp(u_int16_t opcode, const char *lhs, const char *rhs) { - return (0); + return (0); } /* Evaluate logical test operands */ int aml_testlogical(u_int16_t opcode, long lhs, long rhs) { - switch(opcode) { - case AMLOP_LAND: - return (lhs && rhs); - case AMLOP_LOR: - return (lhs || rhs); - case AMLOP_LNOT: - return (!lhs); - case AMLOP_LNOTEQUAL: - return (lhs != rhs); - case AMLOP_LLESSEQUAL: - return (lhs <= rhs); - case AMLOP_LGREATEREQUAL: - return (lhs >= rhs); - case AMLOP_LEQUAL: - return (lhs == rhs); - case AMLOP_LGREATER: - return (lhs > rhs); - case AMLOP_LLESS: - return (lhs < rhs); - } - return 0; + switch(opcode) { + case AMLOP_LAND: + return (lhs && rhs); + case AMLOP_LOR: + return (lhs || rhs); + case AMLOP_LNOT: + return (!lhs); + case AMLOP_LNOTEQUAL: + return (lhs != rhs); + case AMLOP_LLESSEQUAL: + return (lhs <= rhs); + case AMLOP_LGREATEREQUAL: + return (lhs >= rhs); + case AMLOP_LEQUAL: + return (lhs == rhs); + case AMLOP_LGREATER: + return (lhs > rhs); + case AMLOP_LLESS: + return (lhs < rhs); + } + return 0; } /* Extract opcode from AML bytestream @@ -481,201 +707,205 @@ aml_testlogical(u_int16_t opcode, long lhs, long rhs) * Strings can also be embedded within the stream */ u_int16_t -aml_getopcode(struct acpi_softc *sc) +aml_getopcode(struct acpi_context *ctx) { - u_int16_t twocode; - u_int16_t opcode; - - /* Check for encoded name */ - if (aml_isnamedop(*sc->amlpc.pos)) { - return AMLOP_NAMECHAR; - } - - opcode = aml_parseint(sc, 1); - twocode = (opcode << 8L) + *sc->amlpc.pos; - - /* Check multi-byte opcodes */ - if (twocode == AMLOP_LNOTEQUAL || - twocode == AMLOP_LLESSEQUAL || - twocode == AMLOP_LGREATEREQUAL || - opcode == AMLOP_EXTPREFIX) { - sc->amlpc.pos++; - return twocode; - } - - return opcode; + u_int16_t twocode; + u_int16_t opcode; + + /* Check for encoded name */ + if (aml_isnamedop(*ctx->pos)) { + return AMLOP_NAMECHAR; + } + + opcode = aml_parseint(ctx, 1); + twocode = (opcode << 8L) + *ctx->pos; + + /* Check multi-byte opcodes */ + if (twocode == AMLOP_LNOTEQUAL || + twocode == AMLOP_LLESSEQUAL || + twocode == AMLOP_LGREATEREQUAL || + opcode == AMLOP_EXTPREFIX) { + ctx->pos++; + return twocode; + } + + return opcode; } struct aml_optable aml_table[] = { - /* Simple types */ - { AMLOP_ZERO, "Zero", "!", }, - { AMLOP_ONE, "One", "!", }, - { AMLOP_ONES, "Ones", "!", }, - { AMLOP_BYTEPREFIX, "Byte", "b", }, - { AMLOP_WORDPREFIX, "Word", "w", }, - { AMLOP_DWORDPREFIX, "DWord", "d", }, - { AMLOP_QWORDPREFIX, "QWord", "q", }, - { AMLOP_REVISION, "Revision", "", }, - { AMLOP_STRINGPREFIX, "String", "s", }, - { AMLOP_BUFFER, "Buffer", "piB", }, - - /* Simple objects */ - { AMLOP_DEBUG, "DebugOp", "", }, - { AMLOP_LOCAL0, "Local0", "", }, - { AMLOP_LOCAL1, "Local1", "", }, - { AMLOP_LOCAL2, "Local2", "", }, - { AMLOP_LOCAL3, "Local3", "", }, - { AMLOP_LOCAL4, "Local4", "", }, - { AMLOP_LOCAL5, "Local5", "", }, - { AMLOP_LOCAL6, "Local6", "", }, - { AMLOP_LOCAL7, "Local7", "", }, - { AMLOP_ARG0, "Arg0", "", }, - { AMLOP_ARG1, "Arg1", "", }, - { AMLOP_ARG2, "Arg2", "", }, - { AMLOP_ARG3, "Arg3", "", }, - { AMLOP_ARG4, "Arg4", "", }, - { AMLOP_ARG5, "Arg5", "", }, - { AMLOP_ARG6, "Arg6", "", }, - - /* Control flow */ - { AMLOP_IF, "If", "piT", }, - { AMLOP_ELSE, "Else", "pT", }, - { AMLOP_WHILE, "While", "piT", }, - { AMLOP_BREAK, "Break", "", }, - { AMLOP_CONTINUE, "Continue", "", }, - { AMLOP_RETURN, "Return", "t", }, - { AMLOP_FATAL, "Fatal", "bdi", }, - { AMLOP_NOP, "Nop", "", }, - { AMLOP_BREAKPOINT, "BreakPoint", "", }, - - /* Arithmetic operations */ - { AMLOP_INCREMENT, "Increment", "t", }, - { AMLOP_DECREMENT, "Decrement", "t", }, - { AMLOP_ADD, "Add", "iit", }, - { AMLOP_SUBTRACT, "Subtract", "iit", }, - { AMLOP_MULTIPLY, "Multiply", "iit", }, - { AMLOP_DIVIDE, "Divide", "iitt", }, - { AMLOP_SHL, "ShiftLeft", "iit", }, - { AMLOP_SHR, "ShiftRight", "iit", }, - { AMLOP_AND, "And", "iit", }, - { AMLOP_NAND, "Nand", "iit", }, - { AMLOP_OR, "Or", "iit", }, - { AMLOP_NOR, "Nor", "iit", }, - { AMLOP_XOR, "Xor", "iit", }, - { AMLOP_NOT, "Not", "it", }, - { AMLOP_MOD, "Mod", "iit", }, - { AMLOP_FINDSETLEFTBIT, "FindSetLeftBit", "it", }, - { AMLOP_FINDSETRIGHTBIT, "FindSetRightBit", "it", }, - - /* Logical test operations */ - { AMLOP_LAND, "LAnd", "ii", }, - { AMLOP_LOR, "LOr", "ii", }, - { AMLOP_LNOT, "LNot", "i", }, - { AMLOP_LNOTEQUAL, "LNotEqual", "tt", }, - { AMLOP_LLESSEQUAL, "LLessEqual", "tt", }, - { AMLOP_LGREATEREQUAL, "LGreaterEqual", "tt", }, - { AMLOP_LEQUAL, "LEqual", "tt", }, - { AMLOP_LGREATER, "LGreater", "tt", }, - { AMLOP_LLESS, "LLess", "tt", }, - - /* Named objects */ - { AMLOP_EVENT, "Event", "N", }, - { AMLOP_NAME, "Name", "Nt", }, - { AMLOP_MUTEX, "Mutex", "Nb", }, - { AMLOP_ALIAS, "Alias", "Nt", }, - { AMLOP_DATAREGION, "DataRegion", "Nttt" }, - { AMLOP_OPREGION, "OpRegion", "Nbii" }, - { AMLOP_SCOPE, "Scope", "pNT" }, - { AMLOP_DEVICE, "Device", "pNT" }, - { AMLOP_POWERRSRC, "Power Resource", "pNbwT" }, - { AMLOP_THERMALZONE, "ThermalZone", "pNT" }, - { AMLOP_METHOD, "Method", "pNfM", }, - { AMLOP_PROCESSOR, "Processor", "pNbdbT", }, - { AMLOP_FIELD, "Field", "pNfF" }, - { AMLOP_INDEXFIELD, "IndexField", "pNtfF" }, - { AMLOP_BANKFIELD, "BankField", "pNtifF" }, - - /* Field operations */ - { AMLOP_CREATEFIELD, "CreateField", "tiiN", }, - { AMLOP_CREATEQWORDFIELD, "CreateQWordField","tiN", }, - { AMLOP_CREATEDWORDFIELD, "CreateDWordField","tiN", }, - { AMLOP_CREATEWORDFIELD, "CreateWordField", "tiN", }, - { AMLOP_CREATEBYTEFIELD, "CreateByteField", "tiN", }, - { AMLOP_CREATEBITFIELD, "CreateBitField", "tiN", }, - - /* Conversion operations */ - { AMLOP_TOINTEGER, "ToInteger", "tt", }, - { AMLOP_TOBUFFER, "ToBuffer", "tt", }, - { AMLOP_TODECSTRING, "ToDecString", "it", }, - { AMLOP_TOHEXSTRING, "ToHexString", "it", }, - { AMLOP_TOSTRING, "ToString", "t", }, - { AMLOP_FROMBCD, "FromBCD", "it", }, - { AMLOP_TOBCD, "ToBCD", "it", }, - { AMLOP_MID, "Mid", "tiit", }, - - /* Mutex/Signal operations */ - { AMLOP_ACQUIRE, "Acquire", "tw", }, - { AMLOP_RELEASE, "Release", "t", }, - { AMLOP_SIGNAL, "Signal", "t", }, - { AMLOP_WAIT, "Wait", "ti", }, - { AMLOP_RESET, "Reset", "t", }, + /* Simple types */ + { AMLOP_ZERO, "Zero", "!" }, + { AMLOP_ONE, "One", "!" }, + { AMLOP_ONES, "Ones", "!" }, + { AMLOP_BYTEPREFIX, "Byte", "b" }, + { AMLOP_WORDPREFIX, "Word", "w" }, + { AMLOP_DWORDPREFIX, "DWord", "d" }, + { AMLOP_QWORDPREFIX, "QWord", "q" }, + { AMLOP_REVISION, "Revision", "" }, + { AMLOP_STRINGPREFIX, "String", "s" }, + { AMLOP_DEBUG, "DebugOp", "", }, + { AMLOP_BUFFER, "Buffer", "piB" }, + { AMLOP_PACKAGE, "Package", "pbT" }, + { AMLOP_VARPACKAGE, "VarPackage", "piT" }, + + /* Simple objects */ + { AMLOP_LOCAL0, "Local0", "", }, + { AMLOP_LOCAL1, "Local1", "", }, + { AMLOP_LOCAL2, "Local2", "", }, + { AMLOP_LOCAL3, "Local3", "", }, + { AMLOP_LOCAL4, "Local4", "", }, + { AMLOP_LOCAL5, "Local5", "", }, + { AMLOP_LOCAL6, "Local6", "", }, + { AMLOP_LOCAL7, "Local7", "", }, + { AMLOP_ARG0, "Arg0", "", }, + { AMLOP_ARG1, "Arg1", "", }, + { AMLOP_ARG2, "Arg2", "", }, + { AMLOP_ARG3, "Arg3", "", }, + { AMLOP_ARG4, "Arg4", "", }, + { AMLOP_ARG5, "Arg5", "", }, + { AMLOP_ARG6, "Arg6", "", }, + + /* Control flow */ + { AMLOP_IF, "If", "piT", }, + { AMLOP_ELSE, "Else", "pT", }, + { AMLOP_WHILE, "While", "piT", }, + { AMLOP_BREAK, "Break", "", }, + { AMLOP_CONTINUE, "Continue", "", }, + { AMLOP_RETURN, "Return", "t", }, + { AMLOP_FATAL, "Fatal", "bdi", }, + { AMLOP_NOP, "Nop", "", }, + { AMLOP_BREAKPOINT, "BreakPoint", "", }, + + /* Arithmetic operations */ + { AMLOP_INCREMENT, "Increment", "t", }, + { AMLOP_DECREMENT, "Decrement", "t", }, + { AMLOP_ADD, "Add", "iit", }, + { AMLOP_SUBTRACT, "Subtract", "iit", }, + { AMLOP_MULTIPLY, "Multiply", "iit", }, + { AMLOP_DIVIDE, "Divide", "iitt", }, + { AMLOP_SHL, "ShiftLeft", "iit", }, + { AMLOP_SHR, "ShiftRight", "iit", }, + { AMLOP_AND, "And", "iit", }, + { AMLOP_NAND, "Nand", "iit", }, + { AMLOP_OR, "Or", "iit", }, + { AMLOP_NOR, "Nor", "iit", }, + { AMLOP_XOR, "Xor", "iit", }, + { AMLOP_NOT, "Not", "it", }, + { AMLOP_MOD, "Mod", "iit", }, + { AMLOP_FINDSETLEFTBIT, "FindSetLeftBit", "it", }, + { AMLOP_FINDSETRIGHTBIT, "FindSetRightBit", "it", }, + + /* Logical test operations */ + { AMLOP_LAND, "LAnd", "ii", }, + { AMLOP_LOR, "LOr", "ii", }, + { AMLOP_LNOT, "LNot", "i", }, + { AMLOP_LNOTEQUAL, "LNotEqual", "tt", }, + { AMLOP_LLESSEQUAL, "LLessEqual", "tt", }, + { AMLOP_LGREATEREQUAL, "LGreaterEqual", "tt", }, + { AMLOP_LEQUAL, "LEqual", "tt", }, + { AMLOP_LGREATER, "LGreater", "tt", }, + { AMLOP_LLESS, "LLess", "tt", }, + + /* Named objects */ + { AMLOP_NAMECHAR, "NameRef", "n" }, + { AMLOP_ALIAS, "Alias", "nN", }, + { AMLOP_NAME, "Name", "Nt", }, + { AMLOP_EVENT, "Event", "N", }, + { AMLOP_MUTEX, "Mutex", "Nb", }, + { AMLOP_DATAREGION, "DataRegion", "Nttt" }, + { AMLOP_OPREGION, "OpRegion", "Nbii" }, + { AMLOP_SCOPE, "Scope", "pNT" }, + { AMLOP_DEVICE, "Device", "pNT" }, + { AMLOP_POWERRSRC, "Power Resource", "pNbwT" }, + { AMLOP_THERMALZONE, "ThermalZone", "pNT" }, + { AMLOP_PROCESSOR, "Processor", "pNbdbT", }, + { AMLOP_METHOD, "Method", "pNfM", }, + + /* Field operations */ + { AMLOP_FIELD, "Field", "pnfF" }, + { AMLOP_INDEXFIELD, "IndexField", "pntfF" }, + { AMLOP_BANKFIELD, "BankField", "pnnifF" }, + { AMLOP_CREATEFIELD, "CreateField", "tiiN", }, + { AMLOP_CREATEQWORDFIELD, "CreateQWordField","tiN", }, + { AMLOP_CREATEDWORDFIELD, "CreateDWordField","tiN", }, + { AMLOP_CREATEWORDFIELD, "CreateWordField", "tiN", }, + { AMLOP_CREATEBYTEFIELD, "CreateByteField", "tiN", }, + { AMLOP_CREATEBITFIELD, "CreateBitField", "tiN", }, + + /* Conversion operations */ + { AMLOP_TOINTEGER, "ToInteger", "tt", }, + { AMLOP_TOBUFFER, "ToBuffer", "tt", }, + { AMLOP_TODECSTRING, "ToDecString", "it", }, + { AMLOP_TOHEXSTRING, "ToHexString", "it", }, + { AMLOP_TOSTRING, "ToString", "t", }, + { AMLOP_FROMBCD, "FromBCD", "it", }, + { AMLOP_TOBCD, "ToBCD", "it", }, + { AMLOP_MID, "Mid", "tiit", }, + + /* Mutex/Signal operations */ + { AMLOP_ACQUIRE, "Acquire", "tw", }, + { AMLOP_RELEASE, "Release", "t", }, + { AMLOP_SIGNAL, "Signal", "t", }, + { AMLOP_WAIT, "Wait", "ti", }, + { AMLOP_RESET, "Reset", "t", }, - { AMLOP_INDEX, "Index", "ttt", }, - { AMLOP_PACKAGE, "Package", "pbT", }, - { AMLOP_VARPACKAGE, "VarPackage", "piT", }, - { AMLOP_DEREFOF, "DerefOf", "t", }, - { AMLOP_REFOF, "RefOf", "t", }, - { AMLOP_CONDREFOF, "CondRef", "tt", }, - - { AMLOP_LOADTABLE, "LoadTable", "tttttt" }, - { AMLOP_STALL, "Stall", "i", }, - { AMLOP_SLEEP, "Sleep", "i", }, - { AMLOP_LOAD, "Load", "tt" }, - { AMLOP_UNLOAD, "Unload", "t" }, - { AMLOP_STORE, "Store", "tt", }, - { AMLOP_CONCAT, "Concat", "ttt" }, - { AMLOP_CONCATRES, "ConcatRes", "ttt" }, - { AMLOP_NOTIFY, "Notify", "ti" }, - { AMLOP_SIZEOF, "Sizeof", "t", }, - { AMLOP_MATCH, "Match", "tbibii", }, - { AMLOP_OBJECTTYPE, "ObjectType", "t", }, - { AMLOP_COPYOBJECT, "CopyObject", "tt" }, - { 0xFFFF } + { AMLOP_INDEX, "Index", "tit", }, + { AMLOP_DEREFOF, "DerefOf", "t", }, + { AMLOP_REFOF, "RefOf", "t", }, + { AMLOP_CONDREFOF, "CondRef", "tt", }, + + { AMLOP_LOADTABLE, "LoadTable", "tttttt" }, + { AMLOP_STALL, "Stall", "i", }, + { AMLOP_SLEEP, "Sleep", "i", }, + { AMLOP_LOAD, "Load", "nt" }, + { AMLOP_UNLOAD, "Unload", "t" }, + { AMLOP_STORE, "Store", "tt", }, + { AMLOP_CONCAT, "Concat", "ttt" }, + { AMLOP_CONCATRES, "ConcatRes", "ttt" }, + { AMLOP_NOTIFY, "Notify", "ti" }, + { AMLOP_SIZEOF, "Sizeof", "t", }, + { AMLOP_MATCH, "Match", "tbibii", }, + { AMLOP_OBJECTTYPE, "ObjectType", "t", }, + { AMLOP_COPYOBJECT, "CopyObject", "tt" }, + { 0xFFFF } }; +#if 0 +xxx /* Copy an AML value object */ void aml_copyvalue(struct aml_value *dst, const struct aml_value *src) { - dst->type = src->type; - dst->length = src->length; - - switch (dst->type) { - case AML_OBJTYPE_INTEGER: - dst->v_integer = src->v_integer; - break; - case AML_OBJTYPE_STRING: - dst->v_string = src->v_string; - break; - case AML_OBJTYPE_BUFFER: - dst->v_buffer = src->v_buffer; - break; - case AML_OBJTYPE_PACKAGE: - dst->v_package = src->v_package; - break; - } + dst->type = src->type; + dst->length = src->length; + + switch (dst->type) { + case AML_OBJTYPE_INTEGER: + dst->v_integer = src->v_integer; + break; + case AML_OBJTYPE_STRING: + dst->v_string = src->v_string; + break; + case AML_OBJTYPE_BUFFER: + dst->v_buffer = src->v_buffer; + break; + case AML_OBJTYPE_PACKAGE: + dst->v_package = src->v_package; + break; + } } +#endif struct aml_node *childOf(struct aml_node *, int); struct aml_node * childOf(struct aml_node *parent, int child) { - struct aml_node *node = parent->child; + struct aml_node *node = parent->child; - while(node && child--) { - node = node->sibling; - } - return node; + while(node && child--) { + node = node->sibling; + } + return node; } #define AML_NUM_LOCALS 8 @@ -687,881 +917,917 @@ struct aml_value * aml_getnodevalue(struct acpi_softc *sc, struct aml_node *node, struct aml_value *env) { - int id; - - if (node == NULL) { - printf("aml_getnodevalue: null\n"); - return NULL; - } - switch (node->opcode) { - case AMLOP_DEBUG: - return &aml_debugobj; - - case AMLOP_LOCAL0: - case AMLOP_LOCAL1: - case AMLOP_LOCAL2: - case AMLOP_LOCAL3: - case AMLOP_LOCAL4: - case AMLOP_LOCAL5: - case AMLOP_LOCAL6: - case AMLOP_LOCAL7: - id = node->opcode - AMLOP_LOCAL0; - return &env->v_method.locals[id]; - - case AMLOP_ARG0: - case AMLOP_ARG1: - case AMLOP_ARG2: - case AMLOP_ARG3: - case AMLOP_ARG4: - case AMLOP_ARG5: - case AMLOP_ARG6: - id = node->opcode - AMLOP_ARG0; - return &env->v_method.args[id]; - - case AMLOP_ZERO: - case AMLOP_ONE: - case AMLOP_ONES: - case AMLOP_BYTEPREFIX: - case AMLOP_WORDPREFIX: - case AMLOP_DWORDPREFIX: - case AMLOP_QWORDPREFIX: - case AMLOP_STRINGPREFIX: - return &node->value; - - default: - printf("aml_getnodevalue: no type: %.4x\n", node->opcode); - break; - } - return NULL; + int id; + + if (node == NULL) { + printf("aml_getnodevalue: null\n"); + return NULL; + } + switch (node->opcode) { + case AMLOP_DEBUG: + return &aml_debugobj; + + case AMLOP_LOCAL0: + case AMLOP_LOCAL1: + case AMLOP_LOCAL2: + case AMLOP_LOCAL3: + case AMLOP_LOCAL4: + case AMLOP_LOCAL5: + case AMLOP_LOCAL6: + case AMLOP_LOCAL7: + id = node->opcode - AMLOP_LOCAL0; + return &env->v_method.locals[id]; + + case AMLOP_ARG0: + case AMLOP_ARG1: + case AMLOP_ARG2: + case AMLOP_ARG3: + case AMLOP_ARG4: + case AMLOP_ARG5: + case AMLOP_ARG6: + id = node->opcode - AMLOP_ARG0; + return &env->v_method.args[id]; + + case AMLOP_ZERO: + case AMLOP_ONE: + case AMLOP_ONES: + case AMLOP_BYTEPREFIX: + case AMLOP_WORDPREFIX: + case AMLOP_DWORDPREFIX: + case AMLOP_QWORDPREFIX: + case AMLOP_STRINGPREFIX: + return node->value; + + default: + printf("aml_getnodevalue: no type: %.4x\n", node->opcode); + break; + } + return NULL; } void aml_setnodevalue(struct acpi_softc *sc, struct aml_node *node, const struct aml_value *val, struct aml_value *env) { - struct aml_value *dest = NULL; - struct aml_value lhs; - int id; - - if (node == NULL) { - printf("aml_setnodevalue: null\n"); - return; - } - dnprintf(50, "--- setnodevalue:\n"); - aml_shownode(node); - aml_showvalue((struct aml_value *)val); - switch (node->opcode) { - case AMLOP_DEBUG: - dest = &aml_debugobj; - break; - - case AMLOP_LOCAL0: - case AMLOP_LOCAL1: - case AMLOP_LOCAL2: - case AMLOP_LOCAL3: - case AMLOP_LOCAL4: - case AMLOP_LOCAL5: - case AMLOP_LOCAL6: - case AMLOP_LOCAL7: - id = node->opcode - AMLOP_LOCAL0; - dest = &env->v_method.locals[id]; - break; - - case AMLOP_ARG0: - case AMLOP_ARG1: - case AMLOP_ARG2: - case AMLOP_ARG3: - case AMLOP_ARG4: - case AMLOP_ARG5: - case AMLOP_ARG6: - id = node->opcode - AMLOP_ARG0; - dest = &env->v_method.args[id]; - break; - - case AMLOP_NAMECHAR: - return aml_setnodevalue(sc, aml_find_name(sc, NULL, node->name), val, env); - - case AMLOP_CREATEFIELD: - case AMLOP_CREATEBITFIELD: - case AMLOP_CREATEBYTEFIELD: - case AMLOP_CREATEWORDFIELD: - case AMLOP_CREATEDWORDFIELD: - case AMLOP_CREATEQWORDFIELD: - aml_eval_object(sc, node, &lhs, env); - aml_showvalue(&lhs); - for(;;); - break; - - case AMLOP_ZERO: - case AMLOP_ONE: - case AMLOP_ONES: - case AMLOP_REVISION: - case AMLOP_BYTEPREFIX: - case AMLOP_WORDPREFIX: - case AMLOP_DWORDPREFIX: - case AMLOP_QWORDPREFIX: - default: - printf("aml_setnodeval: read-only %.4x\n", node->opcode); - break; - } - if (dest) { - dnprintf(50, "aml_setnodeval: %.4x\n", node->opcode); - aml_copyvalue(dest, val); - } + struct aml_value *dest = NULL; + struct aml_value lhs; + int id; + + if (node == NULL) { + printf("aml_setnodevalue: null\n"); + return; + } + dnprintf(50, "--- setnodevalue:\n"); + aml_shownode(node); + aml_showvalue((struct aml_value *)val); + switch (node->opcode) { + case AMLOP_DEBUG: + dest = &aml_debugobj; + break; + + case AMLOP_LOCAL0: + case AMLOP_LOCAL1: + case AMLOP_LOCAL2: + case AMLOP_LOCAL3: + case AMLOP_LOCAL4: + case AMLOP_LOCAL5: + case AMLOP_LOCAL6: + case AMLOP_LOCAL7: + id = node->opcode - AMLOP_LOCAL0; + dest = &env->v_method.locals[id]; + break; + + case AMLOP_ARG0: + case AMLOP_ARG1: + case AMLOP_ARG2: + case AMLOP_ARG3: + case AMLOP_ARG4: + case AMLOP_ARG5: + case AMLOP_ARG6: + id = node->opcode - AMLOP_ARG0; + dest = &env->v_method.args[id]; + break; + + case AMLOP_NAMECHAR: + return aml_setnodevalue(sc, aml_find_name(sc, NULL, node->name), val, env); + + case AMLOP_CREATEFIELD: + case AMLOP_CREATEBITFIELD: + case AMLOP_CREATEBYTEFIELD: + case AMLOP_CREATEWORDFIELD: + case AMLOP_CREATEDWORDFIELD: + case AMLOP_CREATEQWORDFIELD: + aml_eval_object(sc, node, &lhs, env); + aml_showvalue(&lhs); + for(;;); + break; + + case AMLOP_ZERO: + case AMLOP_ONE: + case AMLOP_ONES: + case AMLOP_REVISION: + case AMLOP_BYTEPREFIX: + case AMLOP_WORDPREFIX: + case AMLOP_DWORDPREFIX: + case AMLOP_QWORDPREFIX: + default: + printf("aml_setnodeval: read-only %.4x\n", node->opcode); + break; + } + if (dest) { + dnprintf(50, "aml_setnodeval: %.4x\n", node->opcode); +#if 0 + xxx + aml_copyvalue(dest, val); +#endif + } } void aml_setnodeinteger(struct acpi_softc *sc, struct aml_node *node, int64_t value, struct aml_value *env) { - struct aml_value ival; + struct aml_value ival; - aml_setinteger(&ival, value); - aml_setnodevalue(sc, node, &ival, env); + aml_setinteger(&ival, value); + aml_setnodevalue(sc, node, &ival, env); } int aml_cmpobj(struct acpi_softc *sc, const struct aml_value *lhs, const struct aml_value *rhs) { - /* ASSERT: lhs and rhs are of same type */ - switch (lhs->type) { - case AML_OBJTYPE_INTEGER: - return (lhs->v_integer - rhs->v_integer); - case AML_OBJTYPE_STRING: - return strcmp(lhs->v_string, rhs->v_string); - default: - printf("Unknown compare type for cmpobj\n"); - break; - } - - return (0); + /* ASSERT: lhs and rhs are of same type */ + switch (lhs->type) { + case AML_OBJTYPE_INTEGER: + return (lhs->v_integer - rhs->v_integer); + case AML_OBJTYPE_STRING: + return strcmp(lhs->v_string, rhs->v_string); + default: + printf("Unknown compare type for cmpobj\n"); + break; + } + + return (0); } int aml_match(struct acpi_softc *sc, int mtype, const struct aml_value *lhs, const struct aml_value *rhs) { - int rc; - - if (mtype == AML_MATCH_TR) - return (1); - - if (lhs->type != rhs->type) - return (0); - - rc = aml_cmpobj(sc, lhs, rhs); - switch (mtype) { - case AML_MATCH_EQ: - return (rc == 0); - case AML_MATCH_LT: - return (rc < 0); - case AML_MATCH_LE: - return (rc <= 0); - case AML_MATCH_GE: - return (rc >= 0); - case AML_MATCH_GT: - return (rc > 0); - } - - return (0); + int rc; + + if (mtype == AML_MATCH_TR) + return (1); + + if (lhs->type != rhs->type) + return (0); + + rc = aml_cmpobj(sc, lhs, rhs); + switch (mtype) { + case AML_MATCH_EQ: + return (rc == 0); + case AML_MATCH_LT: + return (rc < 0); + case AML_MATCH_LE: + return (rc <= 0); + case AML_MATCH_GE: + return (rc >= 0); + case AML_MATCH_GT: + return (rc > 0); + } + + return (0); } struct aml_node * -aml_create_node(struct acpi_softc *sc, struct aml_node *parent, int opcode) +aml_create_node(struct acpi_context *ctx, struct aml_node *parent, int opcode) { - struct aml_node *node; + struct aml_node *node; - node = malloc(sizeof(struct aml_node), M_DEVBUF, M_WAITOK); - memset(node, 0, sizeof(struct aml_node)); + node = acpi_os_allocmem(sizeof(struct aml_node)); + memset(node, 0, sizeof(struct aml_node)); - node->start = sc->amlpc.pos; - node->opcode = (opcode == -1) ? aml_getopcode(sc) : opcode; - aml_addchildnode(parent, node); + node->start = ctx->pos; + node->opcode = (opcode == -1) ? aml_getopcode(ctx) : opcode; + aml_addchildnode(parent, node); - return node; + return node; } int aml_evalint(struct acpi_softc *sc, struct aml_node *node, struct aml_value *env) { - struct aml_value ival; + struct aml_value ival; - aml_eval_object(sc, node, &ival, env); - if (ival.type == AML_OBJTYPE_INTEGER) - return ival.v_integer; + aml_eval_object(sc, node, &ival, env); + if (ival.type == AML_OBJTYPE_INTEGER) + return ival.v_integer; - return (0); + return (0); } struct aml_node * aml_find_name(struct acpi_softc *sc, struct aml_node *root, const char *name) { - struct aml_node *ret; - const char *sname; - - if (*name == AMLOP_ROOTCHAR) { - root = &aml_root; - name++; - } - while (*name == AMLOP_PARENTPREFIX) { - if (root) root = root->parent; - name++; - } - if (root == NULL) - root = &aml_root; - - for (ret=NULL; root && !ret; root = root->sibling) { - if ((sname = root->name) != NULL) { - if (*sname == AMLOP_ROOTCHAR) - sname++; - while (*sname == AMLOP_PARENTPREFIX) - sname++; - if (!strcmp(name, sname)) { - return root; - } - } - if (root->child) - ret = aml_find_name(sc, root->child, name); - } - return ret; + struct aml_node *ret; + const char *sname; + + if (*name == AMLOP_ROOTCHAR) { + root = &aml_root; + name++; + } + while (*name == AMLOP_PARENTPREFIX) { + if (root) root = root->parent; + name++; + } + if (root == NULL) + root = &aml_root; + + for (ret=NULL; root && !ret; root = root->sibling) { + if ((sname = root->name) != NULL) { + if (*sname == AMLOP_ROOTCHAR) + sname++; + while (*sname == AMLOP_PARENTPREFIX) + sname++; + if (!strcmp(name, sname)) { + return root; + } + } + if (root->child) + ret = aml_find_name(sc, root->child, name); + } + return ret; } int aml_eval_name(struct acpi_softc *sc, struct aml_node *root, const char *name, struct aml_value *result, struct aml_value *env) { - root = aml_find_name(sc, root, name); + root = aml_find_name(sc, root, name); - if (root != NULL) { - dnprintf(50, "found eval object : %s, %.4x\n", root->name, root->opcode); - return aml_eval_object(sc, root, result, env); - } - return (1); + if (root != NULL) { + dnprintf(50, "found eval object : %s, %.4x\n", root->name, root->opcode); + return aml_eval_object(sc, root, result, env); + } + return (1); } int aml_eval_object(struct acpi_softc *sc, struct aml_node *node, struct aml_value *result, - struct aml_value *env) + struct aml_value *env) { - struct aml_value lhs, rhs, tmp, pkg; - struct aml_value *px; - int64_t iresult, id, idx; - struct aml_node *cflow = NULL; - int i1, i2, i3; - char *tmpstr; - - if (node == NULL) - return (-1); - - dnprintf(50, "--- Evaluating object:\n"); - aml_shownode(node); - - switch (node->opcode) { - case AMLOP_ZERO: - case AMLOP_ONE: - case AMLOP_ONES: - case AMLOP_BYTEPREFIX: - case AMLOP_WORDPREFIX: - case AMLOP_DWORDPREFIX: - case AMLOP_QWORDPREFIX: - case AMLOP_STRINGPREFIX: - case AMLOP_REVISION: - aml_copyvalue(result, &node->value); - break; - - case AMLOP_BUFFER: - i1 = aml_evalint(sc, childOf(node, 0), env); - dnprintf(50, "@@@@@@@@@@@@@@ buffer: %.4x %.4x\n", i1, node->value.length); - break; - - case AMLOP_STORE: - aml_eval_object(sc, childOf(node, 0), &lhs, env); - aml_setnodevalue(sc, childOf(node, 1), &lhs, env); - break; - - case AMLOP_DEBUG: - aml_copyvalue(result, &aml_debugobj); - break; - - case AMLOP_NAME: - case AMLOP_ALIAS: - return aml_eval_object(sc, childOf(node, 0), result, env); - - case AMLOP_PROCESSOR: - i1 = aml_evalint(sc, childOf(node, 0), env); - i2 = aml_evalint(sc, childOf(node, 1), env); - i3 = aml_evalint(sc, childOf(node, 2), env); - aml_setprocessor(result, i1, i2, i3); - break; - - case AMLOP_OPREGION: - i1 = aml_evalint(sc, childOf(node, 0), env); - i2 = aml_evalint(sc, childOf(node, 1), env); - aml_setopregion(result, node->flag, i1, i2); - break; - - case AMLOP_IF: - i1 = aml_evalint(sc, childOf(node,0), env); - if (i1 != 0) { - /* Test true, select 'If' block */ - cflow = childOf(node, 1); - } - else if (node->sibling->opcode == AMLOP_ELSE) { - /* Test false, select 'Else' block */ - cflow = node->sibling->child; - } - while (cflow) { - /* Execute all instructions in scope block */ - aml_eval_object(sc, cflow, result, env); - cflow = cflow->sibling; - } - break; - - case AMLOP_WHILE: - for (;;) { - if (cflow == NULL) { - /* Perform While test */ - cflow = childOf(node, 1); - i1 = aml_evalint(sc, childOf(node, 0), env); - if (i1 == 0) - break; - } - else if (cflow->opcode == AMLOP_BREAK) - break; - else if (cflow->opcode == AMLOP_CONTINUE) - /* Reset cflow to NULL; restart block */ - cflow = NULL; - else { - /* Execute all instructions in scope block */ - aml_eval_object(sc, cflow, result, env); - cflow = cflow->sibling; - } - } - break; + memset(result, 0, sizeof(struct aml_value)); +#if 0 + xxx + struct aml_value lhs, rhs, tmp, pkg; + struct aml_value *px; + int64_t iresult, id, idx; + struct aml_node *cflow = NULL; + int i1, i2, i3; + char *tmpstr; + + if (node == NULL) + return (-1); + + dnprintf(50, "--- Evaluating object:\n"); + aml_shownode(node); + + switch (node->opcode) { + case AMLOP_ZERO: + case AMLOP_ONE: + case AMLOP_ONES: + case AMLOP_BYTEPREFIX: + case AMLOP_WORDPREFIX: + case AMLOP_DWORDPREFIX: + case AMLOP_QWORDPREFIX: + case AMLOP_STRINGPREFIX: + case AMLOP_REVISION: +#if 0 + aml_copyvalue(result, &node->value); +#endif + break; + + case AMLOP_BUFFER: + i1 = aml_evalint(sc, childOf(node, 0), env); + dnprintf(50, "@@@@@@@@@@@@@@ buffer: %.4x %.4x\n", i1, node->value->length); + break; + + case AMLOP_STORE: + aml_eval_object(sc, childOf(node, 0), &lhs, env); + aml_setnodevalue(sc, childOf(node, 1), &lhs, env); + break; + + case AMLOP_DEBUG: +#if 0 + aml_copyvalue(result, &aml_debugobj); +#endif + break; + + case AMLOP_NAME: + case AMLOP_ALIAS: + return aml_eval_object(sc, childOf(node, 0), result, env); + + case AMLOP_PROCESSOR: + i1 = aml_evalint(sc, childOf(node, 0), env); + i2 = aml_evalint(sc, childOf(node, 1), env); + i3 = aml_evalint(sc, childOf(node, 2), env); + aml_setprocessor(result, i1, i2, i3); + break; + + case AMLOP_OPREGION: + i1 = aml_evalint(sc, childOf(node, 0), env); + i2 = aml_evalint(sc, childOf(node, 1), env); + aml_setopregion(result, node->flag, i1, i2); + break; + + case AMLOP_IF: + i1 = aml_evalint(sc, childOf(node,0), env); + if (i1 != 0) { + /* Test true, select 'If' block */ + cflow = childOf(node, 1); + } + else if (node->sibling->opcode == AMLOP_ELSE) { + /* Test false, select 'Else' block */ + cflow = node->sibling->child; + } + while (cflow) { + /* Execute all instructions in scope block */ + aml_eval_object(sc, cflow, result, env); + cflow = cflow->sibling; + } + break; + + case AMLOP_WHILE: + for (;;) { + if (cflow == NULL) { + /* Perform While test */ + cflow = childOf(node, 1); + i1 = aml_evalint(sc, childOf(node, 0), env); + if (i1 == 0) + break; + } + else if (cflow->opcode == AMLOP_BREAK) + break; + else if (cflow->opcode == AMLOP_CONTINUE) + /* Reset cflow to NULL; restart block */ + cflow = NULL; + else { + /* Execute all instructions in scope block */ + aml_eval_object(sc, cflow, result, env); + cflow = cflow->sibling; + } + } + break; - case AMLOP_RETURN: - aml_eval_object(sc, childOf(node, 0), result, env); - break; - - case AMLOP_ARG0: - case AMLOP_ARG1: - case AMLOP_ARG2: - case AMLOP_ARG3: - case AMLOP_ARG4: - case AMLOP_ARG5: - case AMLOP_ARG6: - id = node->opcode - AMLOP_ARG0; - if (id < env->length) - aml_copyvalue(result, &node->value.v_method.locals[id]); - break; - - case AMLOP_LOCAL0: - case AMLOP_LOCAL1: - case AMLOP_LOCAL2: - case AMLOP_LOCAL3: - case AMLOP_LOCAL4: - case AMLOP_LOCAL5: - case AMLOP_LOCAL6: - case AMLOP_LOCAL7: - id = node->opcode - AMLOP_LOCAL0; - aml_copyvalue(result, &env->v_method.locals[id]); - break; - - case AMLOP_PACKAGE: - case AMLOP_VARPACKAGE: - i1 = aml_evalint(sc, childOf(node, 0), env); - dnprintf(50, "package = %d\n", i1); - result->type = AML_OBJTYPE_PACKAGE; - result->length = i1; - - result->v_package = malloc(i1 * sizeof(struct aml_value), M_DEVBUF, M_WAITOK); - for (i2=0; i2<i1; i2++) { - aml_eval_object(sc, childOf(node, i2+1), &result->v_package[i2], env); - } - break; + case AMLOP_RETURN: + aml_eval_object(sc, childOf(node, 0), result, env); + break; + + case AMLOP_ARG0: + case AMLOP_ARG1: + case AMLOP_ARG2: + case AMLOP_ARG3: + case AMLOP_ARG4: + case AMLOP_ARG5: + case AMLOP_ARG6: + id = node->opcode - AMLOP_ARG0; +#if 0 + if (id < env->length) + aml_copyvalue(result, &node->value->v_method.locals[id]); +#endif + break; + + case AMLOP_LOCAL0: + case AMLOP_LOCAL1: + case AMLOP_LOCAL2: + case AMLOP_LOCAL3: + case AMLOP_LOCAL4: + case AMLOP_LOCAL5: + case AMLOP_LOCAL6: + case AMLOP_LOCAL7: + id = node->opcode - AMLOP_LOCAL0; +#if 0 + aml_copyvalue(result, &env->v_method.locals[id]); +#endif + break; + + case AMLOP_PACKAGE: + case AMLOP_VARPACKAGE: + i1 = aml_evalint(sc, childOf(node, 0), env); + dnprintf(50, "package = %d\n", i1); + result->type = AML_OBJTYPE_PACKAGE; + result->length = i1; + + result->v_package = acpi_os_allocmem(i1 * sizeof(struct aml_value)); + for (i2=0; i2<i1; i2++) { + aml_eval_object(sc, childOf(node, i2+1), result->v_package[i2], env); + } + break; - case AMLOP_INCREMENT: - case AMLOP_DECREMENT: - i1 = aml_evalint(sc, childOf(node, 0), env); - iresult = aml_evalmath(node->opcode, i1, 0); - aml_setnodeinteger(sc, childOf(node, 0), iresult, env); - break; - - case AMLOP_NOT: - case AMLOP_FINDSETLEFTBIT: - case AMLOP_FINDSETRIGHTBIT: - i1 = aml_evalint(sc, childOf(node, 0), env); - iresult = aml_evalmath(node->opcode, i1, 0); - aml_setnodeinteger(sc, childOf(node, 1), iresult, env); - break; - - case AMLOP_DIVIDE: - i1 = aml_evalint(sc, childOf(node, 0), env); - i2 = aml_evalint(sc, childOf(node, 1), env); - - /* Set remainder */ - iresult = aml_evalmath(AMLOP_MOD, i1, i2); - aml_setnodeinteger(sc, childOf(node, 2), iresult, env); - - /* Set quotient */ - iresult = aml_evalmath(node->opcode, i1, i2); - aml_setnodeinteger(sc, childOf(node, 3), iresult, env); - break; - - case AMLOP_ADD: - case AMLOP_SUBTRACT: - case AMLOP_MULTIPLY: - case AMLOP_SHL: - case AMLOP_SHR: - case AMLOP_AND: - case AMLOP_NAND: - case AMLOP_OR: - case AMLOP_NOR: - case AMLOP_XOR: - case AMLOP_MOD: - i1 = aml_evalint(sc, childOf(node, 0), env); - i2 = aml_evalint(sc, childOf(node, 1), env); - - iresult = aml_evalmath(node->opcode, i1, i2); - aml_setnodeinteger(sc, childOf(node, 2), iresult, env); - break; - - case AMLOP_LNOT: - i1 = aml_evalint(sc, childOf(node, 0), env); - iresult = aml_testlogical(node->opcode, i1, 0); - aml_setinteger(result, iresult); - break; - - case AMLOP_LAND: - case AMLOP_LOR: - i1 = aml_evalint(sc, childOf(node, 0), env); - i2 = aml_evalint(sc, childOf(node, 1), env); - iresult = aml_testlogical(node->opcode, i1, i2); - aml_setinteger(result, iresult); - break; - - case AMLOP_LEQUAL: - case AMLOP_LNOTEQUAL: - case AMLOP_LLESSEQUAL: - case AMLOP_LGREATEREQUAL: - case AMLOP_LGREATER: - case AMLOP_LLESS: - aml_eval_object(sc, childOf(node, 0), &lhs, env); - aml_eval_object(sc, childOf(node, 1), &rhs, env); - if (lhs.type == AML_OBJTYPE_INTEGER && rhs.type == AML_OBJTYPE_INTEGER) { - iresult = aml_testlogical(node->opcode, lhs.v_integer, rhs.v_integer); - } - else if (lhs.type == AML_OBJTYPE_STRING && rhs.type == AML_OBJTYPE_STRING) { - iresult = aml_strcmp(node->opcode, lhs.v_string, rhs.v_string); - } - aml_setinteger(result, iresult); - break; - - case AMLOP_CREATEFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - i2 = aml_evalint(sc, childOf(node, 2), env); - aml_setfield(&lhs, i1, i2, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 3), &lhs, env); - break; - case AMLOP_CREATEBITFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_setfield(&lhs, i1, 1, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 2), &lhs, env); - break; - case AMLOP_CREATEBYTEFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_setfield(&lhs, i1 * 8, 8, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 2), &lhs, env); - break; - case AMLOP_CREATEWORDFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_setfield(&lhs, i1 * 8, 16, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 2), &lhs, env); - break; - case AMLOP_CREATEDWORDFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_setfield(&lhs, i1 * 8, 32, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 2), &lhs, env); - break; - case AMLOP_CREATEQWORDFIELD: - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_setfield(&lhs, i1 * 8, 64, childOf(node, 0), node); - aml_setnodevalue(sc, childOf(node, 2), &lhs, env); - break; + case AMLOP_INCREMENT: + case AMLOP_DECREMENT: + i1 = aml_evalint(sc, childOf(node, 0), env); + iresult = aml_evalmath(node->opcode, i1, 0); + aml_setnodeinteger(sc, childOf(node, 0), iresult, env); + break; + + case AMLOP_NOT: + case AMLOP_FINDSETLEFTBIT: + case AMLOP_FINDSETRIGHTBIT: + i1 = aml_evalint(sc, childOf(node, 0), env); + iresult = aml_evalmath(node->opcode, i1, 0); + aml_setnodeinteger(sc, childOf(node, 1), iresult, env); + break; + + case AMLOP_DIVIDE: + i1 = aml_evalint(sc, childOf(node, 0), env); + i2 = aml_evalint(sc, childOf(node, 1), env); + + /* Set remainder */ + iresult = aml_evalmath(AMLOP_MOD, i1, i2); + aml_setnodeinteger(sc, childOf(node, 2), iresult, env); + + /* Set quotient */ + iresult = aml_evalmath(node->opcode, i1, i2); + aml_setnodeinteger(sc, childOf(node, 3), iresult, env); + break; + + case AMLOP_ADD: + case AMLOP_SUBTRACT: + case AMLOP_MULTIPLY: + case AMLOP_SHL: + case AMLOP_SHR: + case AMLOP_AND: + case AMLOP_NAND: + case AMLOP_OR: + case AMLOP_NOR: + case AMLOP_XOR: + case AMLOP_MOD: + i1 = aml_evalint(sc, childOf(node, 0), env); + i2 = aml_evalint(sc, childOf(node, 1), env); + + iresult = aml_evalmath(node->opcode, i1, i2); + aml_setnodeinteger(sc, childOf(node, 2), iresult, env); + break; + + case AMLOP_LNOT: + i1 = aml_evalint(sc, childOf(node, 0), env); + iresult = aml_testlogical(node->opcode, i1, 0); + aml_setinteger(result, iresult); + break; + + case AMLOP_LAND: + case AMLOP_LOR: + i1 = aml_evalint(sc, childOf(node, 0), env); + i2 = aml_evalint(sc, childOf(node, 1), env); + iresult = aml_testlogical(node->opcode, i1, i2); + aml_setinteger(result, iresult); + break; + + case AMLOP_LEQUAL: + case AMLOP_LNOTEQUAL: + case AMLOP_LLESSEQUAL: + case AMLOP_LGREATEREQUAL: + case AMLOP_LGREATER: + case AMLOP_LLESS: + aml_eval_object(sc, childOf(node, 0), &lhs, env); + aml_eval_object(sc, childOf(node, 1), &rhs, env); + if (lhs.type == AML_OBJTYPE_INTEGER && rhs.type == AML_OBJTYPE_INTEGER) { + iresult = aml_testlogical(node->opcode, lhs.v_integer, rhs.v_integer); + } + else if (lhs.type == AML_OBJTYPE_STRING && rhs.type == AML_OBJTYPE_STRING) { + iresult = aml_strcmp(node->opcode, lhs.v_string, rhs.v_string); + } + aml_setinteger(result, iresult); + break; + + case AMLOP_CREATEFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + i2 = aml_evalint(sc, childOf(node, 2), env); + aml_setfield(&lhs, i1, i2, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 3), &lhs, env); + break; + case AMLOP_CREATEBITFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_setfield(&lhs, i1, 1, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 2), &lhs, env); + break; + case AMLOP_CREATEBYTEFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_setfield(&lhs, i1 * 8, 8, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 2), &lhs, env); + break; + case AMLOP_CREATEWORDFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_setfield(&lhs, i1 * 8, 16, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 2), &lhs, env); + break; + case AMLOP_CREATEDWORDFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_setfield(&lhs, i1 * 8, 32, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 2), &lhs, env); + break; + case AMLOP_CREATEQWORDFIELD: + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_setfield(&lhs, i1 * 8, 64, childOf(node, 0), node); + aml_setnodevalue(sc, childOf(node, 2), &lhs, env); + break; - case AMLOP_TOBCD: - i1 = aml_evalint(sc, childOf(node, 0), env); - iresult = aml_dec2bcd(i1); - aml_setnodeinteger(sc, childOf(node, 1), iresult, env); - break; - case AMLOP_FROMBCD: - i1 = aml_evalint(sc, childOf(node, 0), env); - iresult = aml_bcd2dec(i1); - aml_setnodeinteger(sc, childOf(node, 1), iresult, env); - break; - case AMLOP_TODECSTRING: - tmpstr = malloc(AML_INTSTRLEN+1, M_DEVBUF, M_WAITOK); - if (tmpstr != NULL) { - aml_eval_object(sc, childOf(node, 0), &lhs, env); - if (lhs.type == AML_OBJTYPE_INTEGER) - snprintf(tmpstr, AML_INTSTRLEN, "%d", lhs.v_integer); - } - break; - case AMLOP_TOHEXSTRING: - tmpstr = malloc(AML_INTSTRLEN+1, M_DEVBUF, M_WAITOK); - if (tmpstr != NULL) { - aml_eval_object(sc, childOf(node, 0), &lhs, env); - if (lhs.type == AML_OBJTYPE_INTEGER) - snprintf(tmpstr, AML_INTSTRLEN, "%x", lhs.v_integer); - } - break; - - case AMLOP_MID: - aml_eval_object(sc, childOf(node, 0), &tmp, env); - aml_eval_object(sc, childOf(node, 1), &lhs, env); - aml_eval_object(sc, childOf(node, 2), &rhs, env); - if (tmp.type != AML_OBJTYPE_STRING) - return (-1); - - tmpstr = malloc(rhs.v_integer+1, M_DEVBUF, M_WAITOK); - if (tmpstr != NULL) { - strncpy(tmpstr, tmp.v_string + lhs.v_integer, rhs.v_integer); - } - break; - - case AMLOP_STALL: - i1 = aml_evalint(sc, childOf(node, 0), env); - dnprintf(50, "aml_stall: %d\n", i1); - break; - case AMLOP_SLEEP: - i1 = aml_evalint(sc, childOf(node, 0), env); - dnprintf(50, "aml_sleep: %d\n", i1); - break; - case AMLOP_OBJECTTYPE: - aml_eval_object(sc, childOf(node, 0), &lhs, env); - aml_setinteger(result, lhs.type); - break; - - case AMLOP_NAMECHAR: /* Inline method call */ - aml_eval_name(sc, NULL, node->name, result, env); - break; - - case AMLOP_METHOD: - dnprintf(50, "eval-method : %s argcount:%d\n", - node->name, AML_METHOD_ARGCOUNT(node->flag)); - - lhs.type = AML_OBJTYPE_METHOD; - lhs.length = AML_METHOD_ARGCOUNT(node->flag); - if (lhs.length > 0) { - lhs.v_method.args = malloc(lhs.length * sizeof(struct aml_value), M_DEVBUF, M_WAITOK); - memset(lhs.v_method.args, 0, lhs.length * sizeof(struct aml_value)); - } - lhs.v_method.locals = malloc(8 * sizeof(struct aml_value), M_DEVBUF, M_WAITOK); - - for (i1=0; i1<lhs.length; i1++) { - dnprintf(50, " evalmeth: %s:%d\n", node->name, i1); - aml_eval_object(sc, childOf(node, i1), &lhs.v_method.args[i1], env); - aml_showvalue(&lhs.v_method.args[i1]); - } - while (childOf(node, i1)) { - aml_eval_object(sc, childOf(node, i1++), result, &lhs); - } - break; - - case AMLOP_CONCAT: - aml_eval_object(sc, childOf(node, 0), &lhs, env); - aml_eval_object(sc, childOf(node, 1), &rhs, env); - break; - - case AMLOP_NOP: - break; - - case AMLOP_SIZEOF: - aml_eval_object(sc, childOf(node, 0), &lhs, env); - px = aml_getnodevalue(sc, childOf(node, 0), env); - aml_showvalue(px); - for(;;); - break; - - case AMLOP_MATCH: - aml_eval_object(sc, childOf(node, 0), &pkg, env); - i1 = aml_evalint(sc, childOf(node, 1), env); - aml_eval_object(sc, childOf(node, 2), &lhs, env); - i2 = aml_evalint(sc, childOf(node, 3), env); - aml_eval_object(sc, childOf(node, 4), &lhs, env); - idx = aml_evalint(sc, childOf(node, 5), env); - if (pkg.type == AML_OBJTYPE_PACKAGE) { - iresult = -1; - while (idx < pkg.length) { - if (aml_match(sc, i1, &pkg.v_package[idx], &lhs) || - aml_match(sc, i2, &pkg.v_package[idx], &rhs)) { - iresult = idx; - break; - } - idx++; - } - aml_setinteger(result, iresult); - } - break; - - default: - printf("Unknown eval: %.4x %s\n", node->opcode, node->mnem); - break; + case AMLOP_TOBCD: + i1 = aml_evalint(sc, childOf(node, 0), env); + iresult = aml_dec2bcd(i1); + aml_setnodeinteger(sc, childOf(node, 1), iresult, env); + break; + case AMLOP_FROMBCD: + i1 = aml_evalint(sc, childOf(node, 0), env); + iresult = aml_bcd2dec(i1); + aml_setnodeinteger(sc, childOf(node, 1), iresult, env); + break; + case AMLOP_TODECSTRING: + tmpstr = acpi_os_allocmem(AML_INTSTRLEN+1); + if (tmpstr != NULL) { + aml_eval_object(sc, childOf(node, 0), &lhs, env); + if (lhs.type == AML_OBJTYPE_INTEGER) + snprintf(tmpstr, AML_INTSTRLEN, "%d", lhs.v_integer); + } + break; + case AMLOP_TOHEXSTRING: + tmpstr = acpi_os_allocmem(AML_INTSTRLEN+1); + if (tmpstr != NULL) { + aml_eval_object(sc, childOf(node, 0), &lhs, env); + if (lhs.type == AML_OBJTYPE_INTEGER) + snprintf(tmpstr, AML_INTSTRLEN, "%x", lhs.v_integer); + } + break; + + case AMLOP_MID: + aml_eval_object(sc, childOf(node, 0), &tmp, env); + aml_eval_object(sc, childOf(node, 1), &lhs, env); + aml_eval_object(sc, childOf(node, 2), &rhs, env); + if (tmp.type != AML_OBJTYPE_STRING) + return (-1); + + tmpstr = acpi_os_allocmem(rhs.v_integer+1); + if (tmpstr != NULL) { + strncpy(tmpstr, tmp.v_string + lhs.v_integer, rhs.v_integer); + } + break; + + case AMLOP_STALL: + i1 = aml_evalint(sc, childOf(node, 0), env); + dnprintf(50, "aml_stall: %d\n", i1); + break; + case AMLOP_SLEEP: + i1 = aml_evalint(sc, childOf(node, 0), env); + dnprintf(50, "aml_sleep: %d\n", i1); + break; + case AMLOP_OBJECTTYPE: + aml_eval_object(sc, childOf(node, 0), &lhs, env); + aml_setinteger(result, lhs.type); + break; + + case AMLOP_NAMECHAR: /* Inline method call */ + aml_eval_name(sc, NULL, node->name, result, env); + break; + + case AMLOP_METHOD: + dnprintf(50, "eval-method : %s argcount:%d\n", + node->name, AML_METHOD_ARGCOUNT(node->flag)); + + lhs.type = AML_OBJTYPE_METHOD; + lhs.length = AML_METHOD_ARGCOUNT(node->flag); + if (lhs.length > 0) { + lhs.v_method.args = acpi_os_allocmem(lhs.length * sizeof(struct aml_value)); + memset(lhs.v_method.args, 0, lhs.length * sizeof(struct aml_value)); + } + lhs.v_method.locals = acpi_os_allocmem(8 * sizeof(struct aml_value)); + + for (i1=0; i1<lhs.length; i1++) { + dnprintf(50, " evalmeth: %s:%d\n", node->name, i1); + aml_eval_object(sc, childOf(node, i1), &lhs.v_method.args[i1], env); + aml_showvalue(&lhs.v_method.args[i1]); + } + while (childOf(node, i1)) { + aml_eval_object(sc, childOf(node, i1++), result, &lhs); + } + break; + + case AMLOP_CONCAT: + aml_eval_object(sc, childOf(node, 0), &lhs, env); + aml_eval_object(sc, childOf(node, 1), &rhs, env); + break; + + case AMLOP_NOP: + break; + + case AMLOP_SIZEOF: + aml_eval_object(sc, childOf(node, 0), &lhs, env); + px = aml_getnodevalue(sc, childOf(node, 0), env); + aml_showvalue(px); + for(;;); + break; + + case AMLOP_MATCH: + aml_eval_object(sc, childOf(node, 0), &pkg, env); + i1 = aml_evalint(sc, childOf(node, 1), env); + aml_eval_object(sc, childOf(node, 2), &lhs, env); + i2 = aml_evalint(sc, childOf(node, 3), env); + aml_eval_object(sc, childOf(node, 4), &lhs, env); + idx = aml_evalint(sc, childOf(node, 5), env); + if (pkg.type == AML_OBJTYPE_PACKAGE) { + iresult = -1; + while (idx < pkg.length) { + if (aml_match(sc, i1, &pkg.v_package[idx], &lhs) || + aml_match(sc, i2, &pkg.v_package[idx], &rhs)) { + iresult = idx; + break; } - return (0); + idx++; + } + aml_setinteger(result, iresult); + } + break; + + default: + printf("Unknown eval: %.4x %s\n", node->opcode, node->mnem); + break; + } +#endif + return (0); } int -aml_parseargs(struct acpi_softc *sc, struct aml_node *node, const char *arg) +aml_parseargs(struct acpi_context *ctx, struct aml_node *node, const char *arg) { - struct aml_node *pnode; - //struct aml_value *i1, *i2; - - while (*arg) { - pnode = node; - switch (*arg) { - case AML_ARG_FLAG: - node->flag = aml_parseint(sc, 1); - if (node->opcode == AMLOP_METHOD) { - dnprintf(50, " method %s %.2x argcount:%d serialized:%d synclevel:%d\n", - node->name, node->flag, - AML_METHOD_ARGCOUNT(node->flag), - AML_METHOD_SERIALIZED(node->flag), - AML_METHOD_SYNCLEVEL(node->flag)); - } - else { - dnprintf(50, " field %s %.2x access:%d lock:%d update:%d\n", - node->name, node->flag, - AML_FIELD_ACCESS(node->flag), - AML_FIELD_LOCK(node->flag), - AML_FIELD_UPDATE(node->flag)); - } - break; - case AML_ARG_IMPBYTE: - /* Implied byte: same as opcode */ - aml_setinteger(&node->value, (int8_t)node->opcode); - dnprintf(50, " ibyte: %x\n", (int8_t)node->opcode); - break; - case AML_ARG_BYTE: - if (node->opcode != AMLOP_BYTEPREFIX) { - pnode = aml_create_node(sc, node, AMLOP_BYTEPREFIX); - } - aml_setinteger(&pnode->value, (int8_t)aml_parseint(sc, 1)); - dnprintf(50, " byte: %x\n", pnode->value.v_integer); - break; - case AML_ARG_WORD: - if (node->opcode != AMLOP_WORDPREFIX) { - pnode = aml_create_node(sc, node, AMLOP_WORDPREFIX); - } - aml_setinteger(&pnode->value, (int16_t)aml_parseint(sc, 2)); - dnprintf(50, " word: %x\n", pnode->value.v_integer); - break; - case AML_ARG_DWORD: - if (node->opcode != AMLOP_DWORDPREFIX) { - pnode = aml_create_node(sc, node, AMLOP_DWORDPREFIX); - } - aml_setinteger(&pnode->value, (int32_t)aml_parseint(sc, 4)); - dnprintf(50, " dword: %x\n", pnode->value.v_integer); - break; - case AML_ARG_QWORD: - if (node->opcode == AMLOP_QWORDPREFIX) { - pnode = aml_create_node(sc, node, AMLOP_QWORDPREFIX); - } - aml_setinteger(&pnode->value, aml_parseint(sc, 8)); - dnprintf(50, " qword: %x\n", pnode->value.v_integer); - break; - case AML_ARG_FIELDLIST: - dnprintf(50, " fieldlist\n"); - aml_parsefieldlist(sc, node); - break; - case AML_ARG_BYTELIST: - dnprintf(50, " bytelist\n"); - aml_setbuffer(&node->value, node->end - sc->amlpc.pos, sc->amlpc.pos); - sc->amlpc.pos = node->end; - break; - case AML_ARG_STRING: - aml_setstring(&node->value, aml_parsestr(sc)); - dnprintf(50, " string: %s\n", node->value.v_string); - break; - case AML_ARG_NAMESTRING: - node->name = aml_parsename(sc, "name"); - break; - case AML_ARG_NAMEREF: - pnode = aml_create_node(sc, node, AMLOP_NAMECHAR); - pnode->name = aml_parsename(sc, "nameref"); - break; - case AML_ARG_OBJLEN: - node->end = sc->amlpc.pos; - node->end += aml_parselength(sc); - break; - case AML_ARG_INTEGER: - case AML_ARG_TERMOBJ: - /* Recursively parse children */ - aml_parse_object(sc, node); - break; - case AML_ARG_TERMOBJLIST: - case AML_ARG_METHOD: - /* Recursively parse children */ - while (sc->amlpc.pos < node->end) { - aml_parse_object(sc, node); - } - sc->amlpc.pos = node->end; - break; - - default: - printf("Unknown arg: %c\n", *arg); - break; - } - - arg++; - } - - return (0); + struct aml_node *pnode; + + while (*arg) { + pnode = node; + switch (*arg) { + case AML_ARG_FLAG: + node->flag = aml_parseint(ctx, 1); + if (node->opcode == AMLOP_METHOD) { + dnprintf(50, " method %s %.2x argcount:%d serialized:%d synclevel:%d\n", + node->name, node->flag, + AML_METHOD_ARGCOUNT(node->flag), + AML_METHOD_SERIALIZED(node->flag), + AML_METHOD_SYNCLEVEL(node->flag)); + } + else { + dnprintf(50, " field %s %.2x access:%d lock:%d update:%d\n", + node->name, node->flag, + AML_FIELD_ACCESS(node->flag), + AML_FIELD_LOCK(node->flag), + AML_FIELD_UPDATE(node->flag)); + } + break; + case AML_ARG_IMPBYTE: + /* Implied byte: same as opcode */ + node->value = aml_allocint((char)node->opcode); + dnprintf(50, " ibyte: %x\n", (int8_t)node->opcode); + break; + case AML_ARG_BYTE: + if (node->opcode != AMLOP_BYTEPREFIX) { + pnode = aml_create_node(ctx, node, AMLOP_BYTEPREFIX); + } + pnode->value = aml_allocint(aml_parseint(ctx, 1)); + dnprintf(50, " byte: %x\n", pnode->value->v_integer); + break; + case AML_ARG_WORD: + if (node->opcode != AMLOP_WORDPREFIX) { + pnode = aml_create_node(ctx, node, AMLOP_WORDPREFIX); + } + pnode->value = aml_allocint(aml_parseint(ctx, 2)); + dnprintf(50, " word: %x\n", pnode->value->v_integer); + break; + case AML_ARG_DWORD: + if (node->opcode != AMLOP_DWORDPREFIX) { + pnode = aml_create_node(ctx, node, AMLOP_DWORDPREFIX); + } + pnode->value = aml_allocint(aml_parseint(ctx, 4)); + dnprintf(50, " dword: %x\n", pnode->value->v_integer); + break; + case AML_ARG_QWORD: + if (node->opcode == AMLOP_QWORDPREFIX) { + pnode = aml_create_node(ctx, node, AMLOP_QWORDPREFIX); + } + pnode->value = aml_allocint(aml_parseint(ctx, 8)); + dnprintf(50, " qword: %x\n", pnode->value->v_integer); + break; + case AML_ARG_FIELDLIST: + dnprintf(50, " fieldlist\n"); + aml_parsefieldlist(ctx, node); + break; + case AML_ARG_BYTELIST: + dnprintf(50, " bytelist\n"); + node->start = ctx->pos; + ctx->pos = node->end; + break; + case AML_ARG_STRING: + node->value = aml_allocstr(aml_parsestr(ctx)); + dnprintf(50, " string: %s\n", node->value->v_string); + break; + case AML_ARG_NAMESTRING: + node->name = aml_parsename(ctx, "name"); + break; + case AML_ARG_NAMEREF: + pnode = aml_create_node(ctx, node, AMLOP_NAMECHAR); + pnode->name = aml_parsename(ctx, "nameref"); + break; + case AML_ARG_OBJLEN: + dnprintf(50, " pkglen\n"); + node->end = ctx->pos; + node->end += aml_parselength(ctx); + break; + case AML_ARG_METHOD: + dnprintf(50, " method\n"); + node->start = ctx->pos; + ctx->pos = node->end; + break; + case AML_ARG_INTEGER: + case AML_ARG_TERMOBJ: + /* Recursively parse children */ + aml_parse_object(ctx, node); + break; + case AML_ARG_TERMOBJLIST: + /* Recursively parse children */ + aml_parse_objlist(ctx, node); + break; + + default: + printf("Unknown arg: %c\n", *arg); + break; + } + + arg++; + } + + return (0); } void aml_addchildnode(struct aml_node *parent, struct aml_node *child) { - struct aml_node *psib; - - child->parent = parent; - child->sibling = NULL; - for (psib = parent->child; psib; psib = psib->sibling) { - if (psib->sibling == NULL) { - psib->sibling = child; - return; - } - } - parent->child = child; + struct aml_node *psib; + + child->parent = parent; + child->sibling = NULL; + for (psib = parent->child; psib; psib = psib->sibling) { + if (psib->sibling == NULL) { + psib->sibling = child; + return; + } + } + parent->child = child; } void aml_showvalue(struct aml_value *value) { - int idx; - - switch (value->type) { - case AML_OBJTYPE_INTEGER: - dnprintf(50, "integer: %x\n", value->v_integer); - break; - case AML_OBJTYPE_STRING: - dnprintf(50, "string: %s\n", value->v_string); - break; - case AML_OBJTYPE_BUFFER: - dnprintf(50, "buffer: %d {\n", value->length); - for (idx=0; idx<value->length; idx++) { - dnprintf(50, "%s0x%.2x", (idx ? "," : ""), value->v_buffer[idx]); - } - dnprintf(50, "}\n"); - break; - case AML_OBJTYPE_PACKAGE: - dnprintf(50, "package: %d {\n", value->length); - for (idx=0; idx<value->length; idx++) - aml_showvalue(&value->v_package[idx]); - dnprintf(50, "}\n"); - break; - default: - printf("unknown: %d\n", value->type); - break; - } + int idx; + + if (value == NULL) + return; + switch (value->type) { + case AML_OBJTYPE_INTEGER: + dnprintf(50, "integer: %x\n", value->v_integer); + break; + case AML_OBJTYPE_STRING: + dnprintf(50, "string: %s\n", value->v_string); + break; + case AML_OBJTYPE_BUFFER: + dnprintf(50, "buffer: %d {\n", value->length); + for (idx=0; idx<value->length; idx++) { + dnprintf(50, "%s0x%.2x", (idx ? "," : ""), value->v_buffer[idx]); + } + dnprintf(50, "}\n"); + break; + case AML_OBJTYPE_PACKAGE: + dnprintf(50, "package: %d {\n", value->length); + for (idx=0; idx<value->length; idx++) + aml_showvalue(value->v_package[idx]); + dnprintf(50, "}\n"); + break; + case AML_OBJTYPE_DEBUGOBJ: + dnprintf(50, "debug"); + break; + case AML_OBJTYPE_DEVICE: +#if 0 + xxx + dnprintf(50, "device: %s", val->v_device->name); +#endif + break; + case AML_OBJTYPE_PROCESSOR: + dnprintf(50, "cpu: %x,%x,%x\n", + value->v_processor.proc_id, + value->v_processor.proc_addr, + value->v_processor.proc_len); + break; + case AML_OBJTYPE_FIELDUNIT: + dnprintf(50, "field: %.4x %x,%x\n", + value->v_field.ftype, + value->v_field.bitpos, + value->v_field.bitlen); + break; + case AML_OBJTYPE_BUFFERFIELD: + dnprintf(50, "bufferfield: %.4x %x,%x\n", + value->v_field.ftype, + value->v_field.bitpos, + value->v_field.bitlen); + break; + case AML_OBJTYPE_OPREGION: + dnprintf(50, "opregion: %s,0x%x,0x%x\n", + opregion(value->v_opregion.iospace), + value->v_opregion.iobase, + value->v_opregion.iolen); + break; + default: + printf("unknown: %d\n", value->type); + break; + } } void aml_shownode(struct aml_node *node) { - dnprintf(50, " opcode:%.4x mnem:%s %s %.2x ", - node->opcode, node->mnem ? node->mnem : "", - node->name ? node->name : "", - node->flag); - switch(node->opcode) { - case AMLOP_METHOD: - dnprintf(50, "argcount:%d serialized:%d synclevel:%d", - AML_METHOD_ARGCOUNT(node->flag), - AML_METHOD_SERIALIZED(node->flag), - AML_METHOD_SYNCLEVEL(node->flag)); - break; - case AMLOP_FIELD: - case AMLOP_BANKFIELD: - case AMLOP_INDEXFIELD: - dnprintf(50, "access:%d lock:%d update:%d\n", - AML_FIELD_ACCESS(node->flag), - AML_FIELD_LOCK(node->flag), - AML_FIELD_UPDATE(node->flag)); - break; + dnprintf(50, " opcode:%.4x mnem:%s %s %.2x ", + node->opcode, node->mnem ? node->mnem : "", + node->name ? node->name : "", + node->flag); + switch(node->opcode) { + case AMLOP_METHOD: + dnprintf(50, "argcount:%d serialized:%d synclevel:%d", + AML_METHOD_ARGCOUNT(node->flag), + AML_METHOD_SERIALIZED(node->flag), + AML_METHOD_SYNCLEVEL(node->flag)); + break; + case AMLOP_FIELD: + case AMLOP_BANKFIELD: + case AMLOP_INDEXFIELD: + dnprintf(50, "access:%d lock:%d update:%d\n", + AML_FIELD_ACCESS(node->flag), + AML_FIELD_LOCK(node->flag), + AML_FIELD_UPDATE(node->flag)); + break; - case AMLOP_BYTEPREFIX: - dnprintf(50, "byte: %.2x", node->value.v_integer); - break; - case AMLOP_WORDPREFIX: - dnprintf(50, "word: %.4x", node->value.v_integer); - break; - case AMLOP_DWORDPREFIX: - dnprintf(50, "dword: %.8x", node->value.v_integer); - break; - case AMLOP_STRINGPREFIX: - dnprintf(50, "string: %s", node->value.v_string); - break; - } - dnprintf(50, "\n"); + case AMLOP_BYTEPREFIX: + dnprintf(50, "byte: %.2x", node->value->v_integer); + break; + case AMLOP_WORDPREFIX: + dnprintf(50, "word: %.4x", node->value->v_integer); + break; + case AMLOP_DWORDPREFIX: + dnprintf(50, "dword: %.8x", node->value->v_integer); + break; + case AMLOP_STRINGPREFIX: + dnprintf(50, "string: %s", node->value->v_string); + break; + } + dnprintf(50, "\n"); } struct aml_node * -aml_parse_object(struct acpi_softc *sc, struct aml_node *parent) +aml_parse_object(struct acpi_context *ctx, struct aml_node *parent) { - struct aml_optable *optab = aml_table; - struct aml_node *node, *pr; - int idx; - - /* Get AML Opcode; if it is an embedded name, extract name */ - node = aml_create_node(sc, parent, -1); - if (node->opcode == AMLOP_NAMECHAR) { - node->name = aml_parsename(sc, "embed"); - node->mnem = "embed"; - - pr = aml_find_name(sc, NULL, node->name); - if (pr != NULL && pr->opcode == AMLOP_METHOD) { - /* Parse method arguments as siblings */ - for (idx=0; idx<AML_METHOD_ARGCOUNT(pr->flag); idx++) { - dnprintf(50, " parsing method %s:%d\n", pr->name, idx); - aml_parse_object(sc, node); - } - } - return (node); - } - while (optab->opcode != 0xFFFF) { - if (optab->opcode == node->opcode) { - node->mnem = optab->mnem; - aml_parseargs(sc, node, optab->args); - return node; - } - optab++; - } - printf("Invalid AML Opcode : @ %.4x %.4x\n", sc->amlpc.pos - sc->amlpc.start, node->opcode); - free(node, M_DEVBUF); - - return NULL; + struct aml_optable *optab = aml_table; + struct aml_node *node; + + /* Get AML Opcode; if it is an embedded name, extract name */ + node = aml_create_node(ctx, parent, -1); + while (optab->opcode != 0xFFFF) { + if (optab->opcode == node->opcode) { + node->mnem = optab->mnem; + aml_parseargs(ctx, node, optab->args); + return node; + } + optab++; + } + printf("Invalid AML Opcode : @ %.4x %.4x\n", ctx->pos - ctx->start, node->opcode); + acpi_os_freemem(node); + + return NULL; } void aml_walktree(struct aml_node *node, int depth) { - int idx; - - while(node) { - dnprintf(50, " %d ", depth); - for(idx=0; idx<depth; idx++) { - dnprintf(50, ".."); - } - aml_shownode(node); - aml_walktree(node->child, depth+1); - node = node->sibling; - } + int idx; + + while(node) { + dnprintf(50, " %d ", depth); + for(idx=0; idx<depth; idx++) { + dnprintf(50, ".."); + } + aml_shownode(node); + aml_walktree(node->child, depth+1); + node = node->sibling; + } } void aml_walkroot() { - aml_walktree(aml_root.child, 0); + aml_walktree(aml_root.child, 0); } int @@ -1569,19 +1835,19 @@ aml_find_node(struct aml_node *node, const char *name, void (*cbproc)(struct aml_node *, void *arg), void *arg) { - const char *nn; - - while (node) { - if ((nn = node->name) != NULL) { - if (*nn == AMLOP_ROOTCHAR) nn++; - while (*nn == AMLOP_PARENTPREFIX) nn++; - if (!strcmp(name, nn)) - cbproc(node, arg); - } - aml_find_node(node->child, name, cbproc, arg); - node = node->sibling; - } - return (0); + const char *nn; + + while (node) { + if ((nn = node->name) != NULL) { + if (*nn == AMLOP_ROOTCHAR) nn++; + while (*nn == AMLOP_PARENTPREFIX) nn++; + if (!strcmp(name, nn)) + cbproc(node, arg); + } + aml_find_node(node->child, name, cbproc, arg); + node = node->sibling; + } + return (0); } const char hext[] = "0123456789ABCDEF"; @@ -1589,18 +1855,18 @@ const char hext[] = "0123456789ABCDEF"; const char * aml_eisaid(u_int32_t pid) { - static char id[8]; - - id[0] = '@' + ((pid >> 2) & 0x1F); - id[1] = '@' + ((pid << 3) & 0x18) + ((pid >> 13) & 0x7); - id[2] = '@' + ((pid >> 8) & 0x1F); - id[3] = hext[(pid >> 20) & 0xF]; - id[4] = hext[(pid >> 16) & 0xF]; - id[5] = hext[(pid >> 28) & 0xF]; - id[6] = hext[(pid >> 24) & 0xF]; - id[7] = 0; - - return id; + static char id[8]; + + id[0] = '@' + ((pid >> 2) & 0x1F); + id[1] = '@' + ((pid << 3) & 0x18) + ((pid >> 13) & 0x7); + id[2] = '@' + ((pid >> 8) & 0x1F); + id[3] = hext[(pid >> 20) & 0xF]; + id[4] = hext[(pid >> 16) & 0xF]; + id[5] = hext[(pid >> 28) & 0xF]; + id[6] = hext[(pid >> 24) & 0xF]; + id[7] = 0; + + return id; } void ex5(struct aml_node *, void *); @@ -1608,32 +1874,46 @@ void ex5(struct aml_node *, void *); void ex5(struct aml_node *node, void *arg) { - struct acpi_softc *sc = arg; - struct aml_value res, env; + struct acpi_softc *sc = arg; + struct aml_value res, env; - memset(&res, 0, sizeof(res)); - memset(&env, 0, sizeof(env)); + memset(&res, 0, sizeof(res)); + memset(&env, 0, sizeof(env)); - dnprintf(50, "Value is: %s\n", node->name); - aml_eval_object(sc, node->child, &res, &env); - aml_showvalue(&res); + dnprintf(50, "Value is: %s\n", node->name); + aml_eval_object(sc, node->child, &res, &env); + aml_showvalue(&res); +} + +int +aml_parse_objlist(struct acpi_context *ctx, struct aml_node *parent) +{ + while (ctx->pos < parent->end) { + aml_parse_object(ctx, parent); + } + if (ctx->pos != parent->end) { + dnprintf(50, "parseobjlist: invalid end!\n"); + ctx->pos = parent->end; + return (1); + } + return (0); } int acpi_parse_aml(struct acpi_softc *sc, u_int8_t *start, u_int32_t length) { - struct aml_value rv, env; + struct acpi_context ctx; - sc->amlpc.pos = start; - sc->amlpc.start = start; - sc->amlpc.end = start+length; + memset(&ctx, 0, sizeof(ctx)); + ctx.pos = start; + ctx.start = start; + ctx.end = ctx.start + length; - memset(&rv, 0, sizeof(rv)); - memset(&env, 0, sizeof(env)); - while (sc->amlpc.pos < sc->amlpc.end) { - aml_parse_object(sc, &aml_root); - } - dnprintf(50, " : parsed %d AML bytes\n", length); + aml_root.start = start; + aml_root.end = start + length; + + aml_parse_objlist(&ctx, &aml_root); + dnprintf(50, " : parsed %d AML bytes\n", length); - return (0); + return (0); } |