/* $OpenBSD: dsdt.c,v 1.7 2005/12/09 02:27:28 jordan Exp $ */ /* * Copyright (c) 2005 Jordan Hargrave * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include struct dsdt_softc { struct device sc_dev; bus_space_tag_t sc_iot; bus_space_handle_t sc_ioh; }; int dsdtmatch(struct device *, void *, void *); void dsdtattach(struct device *, struct device *, void *); int dsdt_parse_aml(struct dsdt_softc *, u_int8_t *, u_int32_t); struct cfattach dsdt_ca = { sizeof(struct dsdt_softc), dsdtmatch, dsdtattach }; struct cfdriver dsdt_cd = { NULL, "dsdt", DV_DULL }; #ifdef AML_DEBUG int amldebug=3; #define dprintf(x...) do { if (amldebug) printf(x); } while(0) #define dnprintf(n,x...) do { if (amldebug > (n)) printf(x); } while(0) #else #define dprintf(x...) #define dnprintf(n,x...) #endif int dsdtmatch(struct device *parent, void *match, void *aux) { struct acpi_attach_args *aaa = aux; struct acpi_table_header *hdr; /* if we do not have a table, it is not us */ if (aaa->aaa_table == NULL) return (0); /* if it is an DSDT table, we can attach */ hdr = (struct acpi_table_header *)aaa->aaa_table; if (memcmp(hdr->signature, DSDT_SIG, sizeof(DSDT_SIG) - 1) == 0) return (1); /* Attach SSDT tables */ if (memcmp(hdr->signature, SSDT_SIG, sizeof(SSDT_SIG) - 1) == 0) return (1); return (0); } void dsdtattach(struct device *parent, struct device *self, void *aux) { struct acpi_attach_args *aa = aux; struct dsdt_softc *sc = (struct dsdt_softc *) self; struct acpi_dsdt *dsdt = (struct acpi_dsdt *)aa->aaa_table; dsdt_parse_aml(sc, dsdt->aml, dsdt->hdr_length - sizeof(dsdt->hdr)); } struct aml_optable { 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; }; int aml_isnamedop(u_int16_t); u_int8_t *aml_decodelength(u_int8_t *, int *); u_int8_t *aml_decodename(u_int8_t *, const char **, const char *); u_int8_t *aml_getopcode(u_int8_t *, u_int16_t *); u_int8_t *aml_parseargs(struct dsdt_softc *, struct aml_node *, u_int8_t *, const char *); u_int8_t *aml_parse_object(struct dsdt_softc *, struct aml_node *, u_int8_t *); u_int64_t aml_bcd2dec(u_int64_t); u_int64_t aml_dec2bcd(u_int64_t); int aml_lsb(u_int32_t val); int aml_msb(u_int32_t val); void aml_addchildnode(struct aml_node *, struct aml_node *); void aml_walktree(struct aml_node *, int); void aml_walkroot(void); int aml_find_node(struct aml_node *, const char *, void (*)(struct aml_node *, void *), void *); long aml_evalmath(u_int16_t, long, long); int aml_testlogical(u_int16_t, long, long); int aml_strcmp(u_int16_t opcode, const char *lhs, const char *rhs); void aml_setinteger(struct aml_value *, int, int64_t); void aml_setstring(struct aml_value *, const char *); void aml_setbuffer(struct aml_value *, int, u_int8_t *); void aml_setfield(struct aml_value *, int, int, struct aml_node *); void aml_setopregion(struct aml_value *, int, int, u_int64_t); void aml_setpackage(struct aml_value *, struct aml_node *); void aml_setnodevalue(struct dsdt_softc *, struct aml_node *, const struct aml_value *); void aml_setinteger(struct aml_value *val, int size, int64_t value) { val->type = AML_OBJTYPE_INTEGER; val->length = size; val->v_integer = value; } void aml_setstring(struct aml_value *val, const char *str) { val->type = AML_OBJTYPE_STRING; val->length = strlen(str); val->v_string = 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; } void aml_setfield(struct aml_value *val, int bitpos, int bitlen, struct aml_node *ref) { 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 aml_setpackage(struct aml_value *val, struct aml_node *node) { } /* SetOpRegion addresses * 0 = SystemMem * 1 = SystemIO * 2 = PCIConfSpace * dw offset,fn,dev,reserved */ void aml_setopregion(struct aml_value *val, int addrtype, int size, u_int64_t addr) { val->type = AML_OBJTYPE_OPREGION; val->v_gas.address_space_id = addrtype; val->v_gas.register_bit_width = 0; val->v_gas.register_bit_offset = 0; val->v_gas.access_size = size; val->v_gas.address = addr; } /* Decode AML Package length * Upper two bits of first byte denote length * 0x00 = length is in lower 6 bits * 0x40 = length is lower 4 bits + 1 byte * 0x80 = length is lower 4 bits + 2 bytes * 0xC0 = length is lower 4 bits + 3 bytes */ u_int8_t * aml_decodelength(u_int8_t *pos, int *length) { u_int8_t lcode; lcode = *(pos++); *length = (lcode & 0xF); switch(lcode >> 6) { case 0x01: *length += (pos[0] << 4L); return pos+1; case 0x02: *length += (pos[0] << 4L) + (pos[1] << 12L); return pos+2; case 0x03: *length += (pos[0] << 4L) + (pos[1] << 12L) + (pos[2] << 20L); return pos+3; default: *length = (lcode & 0x3F); return pos; } } /* Decode AML Namestring from stream */ u_int8_t * aml_decodename(u_int8_t *pos, const char **ref, const char *lbl) { int count, pfxlen, idx; char *name; u_int8_t *base; base = pos; if (*pos == AMLOP_ROOTCHAR) { pos++; } while (*pos == AMLOP_PARENTPREFIX) { pos++; } pfxlen = pos - base; count = 1; if (*pos == AMLOP_MULTINAMEPREFIX) { count = *(++pos); pos++; } else if (*pos == AMLOP_DUALNAMEPREFIX) { count = 2; pos++; } else if (*pos == 0) { count = 0; pos++; } name = malloc(pfxlen + count * 5, M_DEVBUF, M_WAITOK); if (name == NULL) return pos; if (pfxlen > 0) { memcpy(name, base, pfxlen); } /* Copy name segments in chunks of 4 bytes */ base = name+pfxlen; for(idx=0; idx= '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 aml_dec2bcd(u_int64_t val) { u_int64_t rval; int n,pos; pos=0; for (rval=0; val; val /= 10) { n = (val % 10); 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; } /* 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; } /* Evaluate Math operands */ long aml_evalmath(u_int16_t opcode, long lhs, long 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); } int aml_strcmp(u_int16_t opcode, const char *lhs, const char *rhs) { 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; } /* Extract opcode from AML bytestream * * Some opcodes are multibyte * Strings can also be embedded within the stream */ u_int8_t * aml_getopcode(u_int8_t *pos, u_int16_t *opcode) { u_int16_t twocode; /* Check for encoded name */ if (aml_isnamedop(*pos)) { *opcode = AMLOP_NAMECHAR; return pos; } *opcode = *(pos++); twocode = (*opcode << 8L) + *pos; /* Check multi-byte opcodes */ if (twocode == AMLOP_LNOTEQUAL || twocode == AMLOP_LLESSEQUAL || twocode == AMLOP_LGREATEREQUAL || *opcode == AMLOP_EXTPREFIX) { pos++; *opcode = twocode; } return pos; } 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", "o", }, { AMLOP_FATAL, "Fatal", "bdi", }, { AMLOP_NOP, "Nop", "", }, { AMLOP_BREAKPOINT, "BreakPoint", "", }, /* Arithmetic operations */ { AMLOP_INCREMENT, "Increment", "S", }, { AMLOP_DECREMENT, "Decrement", "S", }, { AMLOP_ADD, "Add", "iir", }, { AMLOP_SUBTRACT, "Subtract", "iir", }, { AMLOP_MULTIPLY, "Multiply", "iir", }, { AMLOP_DIVIDE, "Divide", "iirr", }, { AMLOP_SHL, "ShiftLeft", "iir", }, { AMLOP_SHR, "ShiftRight", "iir", }, { AMLOP_AND, "And", "iir", }, { AMLOP_NAND, "Nand", "iir", }, { AMLOP_OR, "Or", "iir", }, { AMLOP_NOR, "Nor", "iir", }, { AMLOP_XOR, "Xor", "iir", }, { AMLOP_NOT, "Not", "ir", }, { AMLOP_MOD, "Mod", "iir", }, { AMLOP_FINDSETLEFTBIT, "FindSetLeftBit", "ir", }, { AMLOP_FINDSETRIGHTBIT, "FindSetRightBit", "ir", }, /* 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", "No", }, { AMLOP_MUTEX, "Mutex", "Nb", }, { AMLOP_ALIAS, "Alias", "Nn", }, { AMLOP_DATAREGION, "DataRegion", "Nttt" }, { AMLOP_OPREGION, "OpRegion", "Nfii" }, { AMLOP_SCOPE, "Scope", "pNT" }, { AMLOP_DEVICE, "Device", "pNO" }, { AMLOP_POWERRSRC, "Power Resource", "pNbwO" }, { AMLOP_THERMALZONE, "ThermalZone", "pNT" }, { AMLOP_METHOD, "Method", "pNfT", }, { AMLOP_PROCESSOR, "Processor", "pNbdbO", }, { AMLOP_FIELD, "Field", "pNfF" }, { AMLOP_INDEXFIELD, "IndexField", "pNnfF" }, { AMLOP_BANKFIELD, "BankField", "pNnifF" }, /* 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", "tr", }, { AMLOP_TOBUFFER, "ToBuffer", "tr", }, { AMLOP_TODECSTRING, "ToDecString", "ir", }, { AMLOP_TOHEXSTRING, "ToHexString", "ir", }, { AMLOP_TOSTRING, "ToString", "t", }, { AMLOP_FROMBCD, "FromBCD", "ir", }, { AMLOP_TOBCD, "ToBCD", "ir", }, { AMLOP_MID, "Mid", "tiir", }, /* Mutex/Signal operations */ { AMLOP_ACQUIRE, "Acquire", "Sw", }, { AMLOP_RELEASE, "Release", "S", }, { AMLOP_SIGNAL, "Signal", "S", }, { AMLOP_WAIT, "Wait", "Si", }, { AMLOP_RESET, "Reset", "S", }, { AMLOP_INDEX, "Index", "ttr", }, { AMLOP_PACKAGE, "Package", "pbT", }, { AMLOP_VARPACKAGE, "VarPackage", "piT", }, { AMLOP_DEREFOF, "DerefOf", "t", }, { AMLOP_REFOF, "RefOf", "S", }, { AMLOP_CONDREFOF, "CondRef", "SS", }, { AMLOP_LOADTABLE, "LoadTable", "tttttt" }, { AMLOP_STALL, "Stall", "i", }, { AMLOP_SLEEP, "Sleep", "i", }, { AMLOP_LOAD, "Load", "NS" }, { AMLOP_UNLOAD, "Unload", "S" }, { AMLOP_STORE, "Store", "oS", }, { AMLOP_CONCAT, "Concat", "ttr" }, { AMLOP_CONCATRES, "ConcatRes", "ttr" }, { AMLOP_NOTIFY, "Notify", "Si" }, { AMLOP_SIZEOF, "Sizeof", "S", }, { AMLOP_MATCH, "Match", "tbibii", }, { AMLOP_OBJECTTYPE, "ObjectType", "S", }, { AMLOP_COPYOBJECT, "CopyObject", "tS" }, { 0xFFFF } }; int aml_evalnode(struct dsdt_softc *, struct aml_node *, struct aml_value *, struct aml_value *); void aml_copyvalue(struct aml_value *, const struct aml_value *); /* 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; } } struct aml_node *childOf(struct aml_node *, int); struct aml_node * childOf(struct aml_node *parent, int child) { struct aml_node *node = parent->child; while(node && child--) { node = node->sibling; } return node; } #define AML_INTSTRLEN 16 struct aml_value aml_debug; void aml_setnodevalue(struct dsdt_softc *sc, struct aml_node *node, const struct aml_value *val) { switch (node->opcode) { case AMLOP_DEBUG: aml_copyvalue(&aml_debug, val); 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: printf("read-only\n"); break; default: aml_copyvalue(&node->value, val); break; } } int aml_evalnode(struct dsdt_softc *sc, struct aml_node *node, struct aml_value *result, struct aml_value *env) { struct aml_value lhs, rhs, tmp; long iresult, id; struct aml_node *cflow; char *tmpstr; cflow = NULL; 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: case AMLOP_BUFFER: aml_copyvalue(result, &node->value); break; case AMLOP_DEBUG: aml_copyvalue(result, &aml_debug); break; case AMLOP_OPREGION: aml_evalnode(sc, childOf(node, 0), &lhs, env); aml_evalnode(sc, childOf(node, 1), &rhs, env); aml_setopregion(result, node->flag, rhs.v_integer, lhs.v_integer); break; case AMLOP_IF: aml_evalnode(sc, childOf(node, 0), &lhs, env); if (lhs.v_integer) { cflow = childOf(node, 1); } else if (node->sibling->opcode == AMLOP_ELSE) { cflow = node->sibling->child; } while (cflow) { aml_evalnode(sc, cflow, result, env); cflow = cflow->sibling; } break; case AMLOP_WHILE: do { aml_evalnode(sc, childOf(node, 0), &lhs, env); if (lhs.v_integer == 0) break; cflow = childOf(node, 1); while (cflow) { if (cflow->opcode == AMLOP_BREAK) { cflow = NULL; } else if (cflow->opcode == AMLOP_CONTINUE) { break; } else { aml_evalnode(sc, cflow, result, env); } cflow = cflow->sibling; } } while (cflow); break; case AMLOP_RETURN: aml_evalnode(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->v_method.argcount) { aml_copyvalue(result, &env->v_method.args[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: break; case AMLOP_INCREMENT: case AMLOP_DECREMENT: aml_evalnode(sc, childOf(node, 0), &lhs, env); /* ASSERT: lhs.type == AML_OBJTYPE_INTEGER */ if (lhs.type == AML_OBJTYPE_INTEGER) { iresult = aml_evalmath(node->opcode, lhs.v_integer, 0); } break; case AMLOP_FINDSETLEFTBIT: case AMLOP_FINDSETRIGHTBIT: aml_evalnode(sc, childOf(node, 0), &lhs, env); /* ASSERT: lhs.type == AML_OBJTYPE_INTEGER */ if (lhs.type == AML_OBJTYPE_INTEGER) { iresult = aml_evalmath(node->opcode, lhs.v_integer, 0); } break; case AMLOP_DIVIDE: aml_evalnode(sc, childOf(node, 0), &lhs, env); aml_evalnode(sc, childOf(node, 1), &rhs, env); iresult = aml_evalmath(AMLOP_MOD, lhs.v_integer, rhs.v_integer); iresult = aml_evalmath(node->opcode, lhs.v_integer, rhs.v_integer); 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_NOT: case AMLOP_MOD: aml_evalnode(sc, childOf(node, 0), &lhs, env); aml_evalnode(sc, childOf(node, 1), &rhs, env); iresult = aml_evalmath(node->opcode, lhs.v_integer, rhs.v_integer); break; case AMLOP_LAND: case AMLOP_LOR: case AMLOP_LNOTEQUAL: case AMLOP_LLESSEQUAL: case AMLOP_LGREATEREQUAL: case AMLOP_LEQUAL: case AMLOP_LGREATER: case AMLOP_LLESS: aml_evalnode(sc, childOf(node, 0), &lhs, env); aml_evalnode(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); } break; case AMLOP_CREATEFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); aml_evalnode(sc, childOf(node, 2), &rhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer, rhs.v_integer, childOf(node, 0)); } break; case AMLOP_CREATEBITFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer, 1, childOf(node, 0)); } break; case AMLOP_CREATEBYTEFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer * 8, 8, childOf(node, 0)); } break; case AMLOP_CREATEWORDFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer * 8, 16, childOf(node, 0)); } break; case AMLOP_CREATEDWORDFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer * 8, 32, childOf(node, 0)); } break; case AMLOP_CREATEQWORDFIELD: aml_evalnode(sc, childOf(node, 1), &lhs, env); if (lhs.type == AML_OBJTYPE_INTEGER) { aml_setfield(result, lhs.v_integer * 8, 64, childOf(node, 0)); } break; case AMLOP_TOBCD: aml_evalnode(sc, childOf(node, 0), &lhs, env); iresult = aml_dec2bcd(lhs.v_integer); break; case AMLOP_FROMBCD: aml_evalnode(sc, childOf(node, 0), &lhs, env); iresult = aml_bcd2dec(lhs.v_integer); break; case AMLOP_TODECSTRING: tmpstr = malloc(AML_INTSTRLEN+1, M_DEVBUF, M_WAITOK); if (tmpstr != NULL) { aml_evalnode(sc, childOf(node, 0), &lhs, env); 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_evalnode(sc, childOf(node, 0), &lhs, env); snprintf(tmpstr, AML_INTSTRLEN, "%x", lhs.v_integer); } break; case AMLOP_MID: aml_evalnode(sc, childOf(node, 0), &tmp, env); aml_evalnode(sc, childOf(node, 1), &lhs, env); aml_evalnode(sc, childOf(node, 2), &rhs, env); 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: aml_evalnode(sc, childOf(node, 0), &lhs, env); dprintf("aml_stall: %d\n", lhs.v_integer); break; case AMLOP_SLEEP: aml_evalnode(sc, childOf(node, 0), &lhs, env); dprintf("aml_sleep: %d\n", lhs.v_integer); break; case AMLOP_OBJECTTYPE: aml_evalnode(sc, childOf(node, 0), &lhs, env); aml_setinteger(result, 1, lhs.type); break; case AMLOP_NAMECHAR: /* Inline method call */ /* pnode = aml_findnode(sc, node->mnem); if (pnode->opcode == AMLOP_METHOD) { } */ break; default: printf("Unknown eval: %.4x %s\n", node->opcode, node->mnem); break; } return (0); } u_int8_t * aml_parseargs(struct dsdt_softc *sc, struct aml_node *node, u_int8_t *pos, const char *arg) { int len; u_int8_t *nxtpos; nxtpos = pos; while (*arg) { switch (*arg) { case AML_ARG_FLAG: node->flag = *(u_int8_t *)pos; if (node->opcode == AMLOP_METHOD) { dprintf(" method %s %x 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 { dprintf(" field %s %x 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)); } nxtpos = pos+1; break; case AML_ARG_IMPBYTE: /* Implied byte: same as opcode */ dprintf(" ibyte: %x\n", (int8_t)node->opcode); aml_setinteger(&node->value, 1, (int8_t)node->opcode); break; case AML_ARG_BYTE: dprintf(" byte: %x\n", *(u_int8_t *)pos); if (node->opcode == AMLOP_BYTEPREFIX) { aml_setinteger(&node->value, 1, *(int8_t *)pos); } nxtpos = pos+1; break; case AML_ARG_WORD: dprintf(" word: %x\n", *(u_int16_t *)pos); if (node->opcode == AMLOP_WORDPREFIX) { aml_setinteger(&node->value, 2, (int16_t)letoh16(*(u_int16_t *)pos)); } nxtpos = pos+2; break; case AML_ARG_DWORD: dprintf(" dword: %x\n", *(u_int32_t *)pos); if (node->opcode == AMLOP_DWORDPREFIX) { aml_setinteger(&node->value, 4, (int32_t)letoh32(*(u_int32_t *)pos)); } nxtpos = pos+4; break; case AML_ARG_QWORD: dprintf(" qword: %x\n", *(u_int32_t *)pos); if (node->opcode == AMLOP_QWORDPREFIX) { aml_setinteger(&node->value, 8, (int64_t)letoh64(*(u_int64_t *)pos)); } nxtpos = pos+8; break; case AML_ARG_FIELDLIST: dprintf(" fieldlist\n"); nxtpos = node->end; break; case AML_ARG_BYTELIST: dprintf(" bytelist\n"); aml_setbuffer(&node->value, node->end - pos, pos); nxtpos = node->end; break; case AML_ARG_STRING: dprintf(" string: %s\n", pos); len = strlen((const char *)pos); aml_setstring(&node->value, (const char *)pos); nxtpos = pos + len + 1; break; case AML_ARG_NAMESTRING: nxtpos = aml_decodename(pos, &node->name, "name"); break; case AML_ARG_NAMEREF: nxtpos = aml_decodename(pos, NULL, "ref"); break; case AML_ARG_OBJLEN: nxtpos = aml_decodelength(pos, &len); node->end = pos + len; break; case AML_ARG_INTEGER: case AML_ARG_DATAOBJ: case AML_ARG_TERMOBJ: case AML_ARG_RESULT: case AML_ARG_SUPERNAME: nxtpos = aml_parse_object(sc, node, pos); break; case AML_ARG_TERMOBJLIST: case AML_ARG_DATAOBJLIST: while (nxtpos && nxtpos < node->end) { nxtpos = aml_parse_object(sc, node, nxtpos); } break; default: printf("Unknown arg: %c\n", *arg); break; } pos = nxtpos; arg++; } return pos; } 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; } u_int8_t * aml_parse_object(struct dsdt_softc *sc, struct aml_node *parent, u_int8_t *pos) { struct aml_optable *optab = aml_table; u_int8_t *nxtpos; struct aml_node *node; node = malloc(sizeof(struct aml_node), M_DEVBUF, M_WAITOK); if (node == NULL) return pos; memset(node, 0, sizeof(struct aml_node)); /* Get AML Opcode; if it is an embedded name, extract name */ node->start = pos; nxtpos = aml_getopcode(pos, &node->opcode); if (node->opcode == AMLOP_NAMECHAR) { aml_addchildnode(parent, node); dprintf("opcode: xxxx \n"); return aml_decodename(pos, &node->mnem, "embed"); } while (optab->opcode != 0xFFFF) { if (optab->opcode == node->opcode) { dprintf("opcode: %.4x = %s\n", node->opcode, optab->mnem); aml_addchildnode(parent, node); node->mnem = optab->mnem; return aml_parseargs(sc, node, nxtpos, optab->args); } optab++; } printf("Invalid AML Opcode : %.4x\n", node->opcode); free(node, M_DEVBUF); return NULL; } void aml_walktree(struct aml_node *node, int depth) { int idx; while(node) { printf(" %d ", depth); for(idx=0; idxopcode, node->mnem, node->name ? node->name : ""); switch(node->opcode) { case AMLOP_METHOD: printf(" 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: dprintf(" 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: printf("byte: %.2x", node->value.v_integer); break; case AMLOP_WORDPREFIX: printf("word: %.4x", node->value.v_integer); break; case AMLOP_DWORDPREFIX: printf("dword: %.4x", node->value.v_integer); break; case AMLOP_STRINGPREFIX: printf("string: %s", node->value.v_string); break; } printf("\n"); aml_walktree(node->child, depth+1); node = node->sibling; } } struct aml_node aml_root; void aml_walkroot() { aml_walktree(aml_root.child, 0); } int aml_find_node(struct aml_node *node, const char *name, void (*cbproc)(struct aml_node *, void *arg), void *arg) { while (node) { if (node->name && !strcmp(name, node->name)) cbproc(node, arg); aml_find_node(node->child, name, cbproc, arg); node = node->sibling; } return (0); } void foundhid(struct aml_node *, void *); const char *aml_eisaid(u_int32_t pid); 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; } void foundhid(struct aml_node *node, void *arg) { const char *dev; printf("found hid device: %s ", node->parent->name); switch(node->child->value.type) { case AML_OBJTYPE_STRING: dev = node->child->value.v_string; break; case AML_OBJTYPE_INTEGER: dev = aml_eisaid(node->child->value.v_integer); break; default: dev = "unknown"; break; } printf(" device: %s\n", dev); } int dsdt_parse_aml(struct dsdt_softc *sc, u_int8_t *start, u_int32_t length) { u_int8_t *pos, *nxtpos; for (pos = start; pos && pos < start+length; pos=nxtpos) { nxtpos = aml_parse_object(sc, &aml_root, pos); } printf(" : parsed %d AML bytes\n", length); /* aml_find_node(aml_root.child, "_HID", foundhid, NULL); */ return (0); }