/* $OpenBSD: dsdt.c,v 1.66 2006/11/27 23:43:47 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 #ifdef DDB #include #include #endif #include #include #include #include #define opsize(opcode) (((opcode) & 0xFF00) ? 2 : 1) #define AML_CHECKSTACK() #define AML_FIELD_RESERVED 0x00 #define AML_FIELD_ATTRIB 0x01 #define AML_REVISION 0x01 #define AML_INTSTRLEN 16 #define AML_NAMESEG_LEN 4 #define aml_valid(pv) ((pv) != NULL) #define aml_ipaddr(n) ((n)-aml_root.start) extern int hz; struct aml_scope; /* New jordan code */ int aml_cmpvalue(struct aml_value *, struct aml_value *, int); void aml_copyvalue(struct aml_value *, struct aml_value *); void aml_setvalue(struct aml_scope *, struct aml_value *, struct aml_value *, int64_t); void aml_freevalue(struct aml_value *); struct aml_value *aml_allocvalue(int, int64_t, const void *); struct aml_value *_aml_setvalue(struct aml_value *, int, int64_t, const void *); u_int64_t aml_convradix(u_int64_t, int, int); int64_t aml_evalexpr(int64_t, int64_t, int); int aml_lsb(u_int64_t); int aml_msb(u_int64_t); void aml_dump(int, u_int8_t *); int aml_tstbit(const u_int8_t *, int); void aml_setbit(u_int8_t *, int, int); void aml_bufcpy(void *, int, const void *, int, int); int aml_evalinteger(struct acpi_softc *, struct aml_node *, const char *, int, struct aml_value *, int64_t *); void _aml_delref(struct aml_value **val, const char *, int); void aml_delref(struct aml_value **); void aml_addref(struct aml_value *); int aml_pc(uint8_t *); #define aml_delref(x) _aml_delref(x,__FUNCTION__,__LINE__) struct aml_value *aml_parseop(struct aml_scope *, struct aml_value *); struct aml_value *aml_parsetarget(struct aml_scope *, struct aml_value *, struct aml_value **); struct aml_value *aml_parseterm(struct aml_scope *, struct aml_value *); struct aml_value *aml_evaltarget(struct aml_scope *scope, struct aml_value *res); int aml_evalterm(struct aml_scope *scope, struct aml_value *raw, struct aml_value *dst); void aml_gasio(struct acpi_softc *, int, uint64_t, uint64_t, int, int, int, void *, int); struct aml_opcode *aml_findopcode(int); void *_acpi_os_malloc(size_t, const char *, int); void _acpi_os_free(void *, const char *, int); void acpi_sleep(int); void acpi_stall(int); struct aml_value *aml_evalmethod(struct aml_scope *,struct aml_node *, int, struct aml_value *, struct aml_value *); /* * @@@: Global variables */ int aml_intlen=64; struct aml_node aml_root; struct aml_value *aml_global_lock; struct acpi_softc *dsdt_softc; /* Perfect hash function for valid AML bytecodes */ #define HASH_OFF 6904 #define HASH_SIZE 179 #define HASH_KEY(k) (((k) ^ HASH_OFF) % HASH_SIZE) #define HASH_MAGIC(v) (0xC0DE0000L + (v)) #define HTE(v,f...) [ HASH_KEY(v) ] { HASH_MAGIC(v), f } struct aml_value *aml_parsenamed(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsenamedscope(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsemath(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsecompare(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parseif(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsewhile(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsebufpkg(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsemethod(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsesimple(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsefieldunit(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsebufferfield(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsemisc3(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsemuxaction(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsemisc2(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsematch(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parseref(struct aml_scope *, int, struct aml_value *); struct aml_value *aml_parsestring(struct aml_scope *, int, struct aml_value *); struct aml_opcode aml_table[] = { /* Simple types */ HTE(AMLOP_ZERO, "Zero", "c", aml_parsesimple ), HTE(AMLOP_ONE, "One", "c", aml_parsesimple ), HTE(AMLOP_ONES, "Ones", "c", aml_parsesimple ), HTE(AMLOP_REVISION, "Revision", "R", aml_parsesimple ), HTE(AMLOP_BYTEPREFIX, ".Byte", "b", aml_parsesimple ), HTE(AMLOP_WORDPREFIX, ".Word", "w", aml_parsesimple ), HTE(AMLOP_DWORDPREFIX, ".DWord", "d", aml_parsesimple ), HTE(AMLOP_QWORDPREFIX, ".QWord", "q", aml_parsesimple ), HTE(AMLOP_STRINGPREFIX, ".String", "a", aml_parsesimple ), HTE(AMLOP_DEBUG, "DebugOp", "D", aml_parsesimple ), HTE(AMLOP_BUFFER, "Buffer", "piB", aml_parsebufpkg ), HTE(AMLOP_PACKAGE, "Package", "pbT", aml_parsebufpkg ), HTE(AMLOP_VARPACKAGE, "VarPackage", "piT", aml_parsebufpkg ), /* Simple objects */ HTE(AMLOP_LOCAL0, "Local0", "L", aml_parseref ), HTE(AMLOP_LOCAL1, "Local1", "L", aml_parseref ), HTE(AMLOP_LOCAL2, "Local2", "L", aml_parseref ), HTE(AMLOP_LOCAL3, "Local3", "L", aml_parseref ), HTE(AMLOP_LOCAL4, "Local4", "L", aml_parseref ), HTE(AMLOP_LOCAL5, "Local5", "L", aml_parseref ), HTE(AMLOP_LOCAL6, "Local6", "L", aml_parseref ), HTE(AMLOP_LOCAL7, "Local7", "L", aml_parseref ), HTE(AMLOP_ARG0, "Arg0", "A", aml_parseref ), HTE(AMLOP_ARG1, "Arg1", "A", aml_parseref ), HTE(AMLOP_ARG2, "Arg2", "A", aml_parseref ), HTE(AMLOP_ARG3, "Arg3", "A", aml_parseref ), HTE(AMLOP_ARG4, "Arg4", "A", aml_parseref ), HTE(AMLOP_ARG5, "Arg5", "A", aml_parseref ), HTE(AMLOP_ARG6, "Arg6", "A", aml_parseref ), /* Control flow */ HTE(AMLOP_IF, "If", "pI", aml_parseif ), HTE(AMLOP_ELSE, "Else", "pT" ), HTE(AMLOP_WHILE, "While", "piT", aml_parsewhile ), HTE(AMLOP_BREAK, "Break", "" ), HTE(AMLOP_CONTINUE, "Continue", "" ), HTE(AMLOP_RETURN, "Return", "t", aml_parseref ), HTE(AMLOP_FATAL, "Fatal", "bdi", aml_parsemisc2 ), HTE(AMLOP_NOP, "Nop", "", aml_parsesimple ), HTE(AMLOP_BREAKPOINT, "BreakPoint", "" ), /* Arithmetic operations */ HTE(AMLOP_INCREMENT, "Increment", "t", aml_parsemath ), HTE(AMLOP_DECREMENT, "Decrement", "t", aml_parsemath ), HTE(AMLOP_ADD, "Add", "iir", aml_parsemath ), HTE(AMLOP_SUBTRACT, "Subtract", "iir", aml_parsemath ), HTE(AMLOP_MULTIPLY, "Multiply", "iir", aml_parsemath ), HTE(AMLOP_DIVIDE, "Divide", "iirr", aml_parsemath ), HTE(AMLOP_SHL, "ShiftLeft", "iir", aml_parsemath ), HTE(AMLOP_SHR, "ShiftRight", "iir", aml_parsemath ), HTE(AMLOP_AND, "And", "iir", aml_parsemath ), HTE(AMLOP_NAND, "Nand", "iir", aml_parsemath ), HTE(AMLOP_OR, "Or", "iir", aml_parsemath ), HTE(AMLOP_NOR, "Nor", "iir", aml_parsemath ), HTE(AMLOP_XOR, "Xor", "iir", aml_parsemath ), HTE(AMLOP_NOT, "Not", "ir", aml_parsemath ), HTE(AMLOP_MOD, "Mod", "iir", aml_parsemath ), HTE(AMLOP_FINDSETLEFTBIT, "FindSetLeftBit", "ir", aml_parsemath ), HTE(AMLOP_FINDSETRIGHTBIT,"FindSetRightBit", "ir", aml_parsemath ), /* Logical test operations */ HTE(AMLOP_LAND, "LAnd", "ii", aml_parsemath ), HTE(AMLOP_LOR, "LOr", "ii", aml_parsemath ), HTE(AMLOP_LNOT, "LNot", "i", aml_parsemath ), HTE(AMLOP_LNOTEQUAL, "LNotEqual", "tt", aml_parsecompare ), HTE(AMLOP_LLESSEQUAL, "LLessEqual", "tt", aml_parsecompare ), HTE(AMLOP_LGREATEREQUAL, "LGreaterEqual", "tt", aml_parsecompare ), HTE(AMLOP_LEQUAL, "LEqual", "tt", aml_parsecompare ), HTE(AMLOP_LGREATER, "LGreater", "tt", aml_parsecompare ), HTE(AMLOP_LLESS, "LLess", "tt", aml_parsecompare ), /* Named objects */ HTE(AMLOP_NAMECHAR, ".NameRef", "n", aml_parsesimple ), HTE(AMLOP_ALIAS, "Alias", "nN", aml_parsenamed ), HTE(AMLOP_NAME, "Name", "Nt", aml_parsenamed ), HTE(AMLOP_EVENT, "Event", "N", aml_parsenamed ), HTE(AMLOP_MUTEX, "Mutex", "Nb", aml_parsenamed ), HTE(AMLOP_DATAREGION, "DataRegion", "Nttt", aml_parsenamed ), HTE(AMLOP_OPREGION, "OpRegion", "Nbii", aml_parsenamed ), HTE(AMLOP_SCOPE, "Scope", "pNT", aml_parsenamedscope ), HTE(AMLOP_DEVICE, "Device", "pNT", aml_parsenamedscope ), HTE(AMLOP_POWERRSRC, "Power Resource", "pNbwT", aml_parsenamedscope ), HTE(AMLOP_THERMALZONE, "ThermalZone", "pNT", aml_parsenamedscope ), HTE(AMLOP_PROCESSOR, "Processor", "pNbdbT", aml_parsenamedscope ), HTE(AMLOP_METHOD, "Method", "pNfM", aml_parsemethod ), /* Field operations */ HTE(AMLOP_FIELD, "Field", "pnfF", aml_parsefieldunit ), HTE(AMLOP_INDEXFIELD, "IndexField", "pntfF",aml_parsefieldunit ), HTE(AMLOP_BANKFIELD, "BankField", "pnnifF",aml_parsefieldunit ), HTE(AMLOP_CREATEFIELD, "CreateField", "tiiN", aml_parsebufferfield ), HTE(AMLOP_CREATEQWORDFIELD, "CreateQWordField","tiN", aml_parsebufferfield ), HTE(AMLOP_CREATEDWORDFIELD, "CreateDWordField","tiN", aml_parsebufferfield ), HTE(AMLOP_CREATEWORDFIELD, "CreateWordField", "tiN", aml_parsebufferfield ), HTE(AMLOP_CREATEBYTEFIELD, "CreateByteField", "tiN", aml_parsebufferfield ), HTE(AMLOP_CREATEBITFIELD, "CreateBitField", "tiN", aml_parsebufferfield ), /* Conversion operations */ HTE(AMLOP_TOINTEGER, "ToInteger", "tr", aml_parsemath ), HTE(AMLOP_TOBUFFER, "ToBuffer", "tr", ), HTE(AMLOP_TODECSTRING, "ToDecString", "ir", aml_parsestring ), HTE(AMLOP_TOHEXSTRING, "ToHexString", "ir", aml_parsestring ), HTE(AMLOP_TOSTRING, "ToString", "t", aml_parsestring ), HTE(AMLOP_MID, "Mid", "tiir", aml_parsestring ), HTE(AMLOP_FROMBCD, "FromBCD", "ir", aml_parsemath ), HTE(AMLOP_TOBCD, "ToBCD", "ir", aml_parsemath ), /* Mutex/Signal operations */ HTE(AMLOP_ACQUIRE, "Acquire", "tw", aml_parsemuxaction ), HTE(AMLOP_RELEASE, "Release", "t", aml_parsemuxaction ), HTE(AMLOP_SIGNAL, "Signal", "t", aml_parsemuxaction ), HTE(AMLOP_WAIT, "Wait", "ti", aml_parsemuxaction ), HTE(AMLOP_RESET, "Reset", "t", aml_parsemuxaction ), HTE(AMLOP_INDEX, "Index", "tir", aml_parseref ), HTE(AMLOP_DEREFOF, "DerefOf", "t", aml_parseref ), HTE(AMLOP_REFOF, "RefOf", "t", aml_parseref ), HTE(AMLOP_CONDREFOF, "CondRef", "nr", aml_parseref ), HTE(AMLOP_LOADTABLE, "LoadTable", "tttttt" ), HTE(AMLOP_STALL, "Stall", "i", aml_parsemisc2 ), HTE(AMLOP_SLEEP, "Sleep", "i", aml_parsemisc2 ), HTE(AMLOP_LOAD, "Load", "nt", aml_parseref ), HTE(AMLOP_UNLOAD, "Unload", "t" ), HTE(AMLOP_STORE, "Store", "tr", aml_parseref ), HTE(AMLOP_CONCAT, "Concat", "ttr", aml_parsestring ), HTE(AMLOP_CONCATRES, "ConcatRes", "ttt" ), HTE(AMLOP_NOTIFY, "Notify", "ti", aml_parsemisc2 ), HTE(AMLOP_SIZEOF, "Sizeof", "t", aml_parsemisc3 ), HTE(AMLOP_MATCH, "Match", "tbibii", aml_parsematch ), HTE(AMLOP_OBJECTTYPE, "ObjectType", "t", aml_parsemisc3 ), HTE(AMLOP_COPYOBJECT, "CopyObject", "tr", aml_parseref ), }; void _aml_die(const char *fn, int line, const char *fmt, ...); int aml_pc(uint8_t *src) { return src - aml_root.start; } struct aml_scope *aml_lastscope; void _aml_die(const char *fn, int line, const char *fmt, ...) { struct aml_scope *root; char tmpbuf[256]; va_list ap; int idx; va_start(ap, fmt); vprintf(fmt, ap); printf("\n"); va_end(ap); for (root=aml_lastscope; root && root->pos; root=root->parent) { printf("%.4x Called: %s\n", aml_pc(root->pos), aml_nodename(root->node)); for (idx=0; idxnargs; idx++) { printf(" arg%d: ", idx); aml_showvalue(&root->args[idx], 0); } for (idx=0; root->locals && idx < AML_MAX_LOCAL; idx++) { if (root->locals[idx].type) { printf(" local%d: ", idx); aml_showvalue(&root->locals[idx], 0); } } } /* XXX: don't panic */ snprintf(tmpbuf,sizeof(tmpbuf),"aml_die %s:%d ", fn, line); panic(tmpbuf); } #define aml_die(x...) _aml_die(__FUNCTION__,__LINE__,x) struct aml_opcode * aml_findopcode(int opcode) { struct aml_opcode *tab; tab = &aml_table[HASH_KEY(opcode)]; if (tab->opcode == HASH_MAGIC(opcode)) return tab; return NULL; } const char * aml_mnem(int opcode) { struct aml_opcode *tab; if ((tab = aml_findopcode(opcode)) != NULL) return tab->mnem; return ("xxx"); } const char * aml_args(int opcode) { struct aml_opcode *tab; if ((tab = aml_findopcode(opcode)) != NULL) return tab->args; return (""); } struct aml_notify_data { struct aml_node *node; char pnpid[20]; void *cbarg; int (*cbproc)(struct aml_node *, int, void *); SLIST_ENTRY(aml_notify_data) link; }; SLIST_HEAD(aml_notify_head, aml_notify_data); struct aml_notify_head aml_notify_list = SLIST_HEAD_INITIALIZER(&aml_notify_list); /* * @@@: Memory management functions */ #define acpi_os_malloc(sz) _acpi_os_malloc(sz, __FUNCTION__, __LINE__) #define acpi_os_free(ptr) _acpi_os_free(ptr, __FUNCTION__, __LINE__) long acpi_nalloc; struct acpi_memblock { size_t size; }; void * _acpi_os_malloc(size_t size, const char *fn, int line) { struct acpi_memblock *sptr; sptr = malloc(size+sizeof(*sptr), M_DEVBUF, M_WAITOK); dnprintf(99,"alloc: %x %s:%d\n", sptr, fn, line); if (sptr) { acpi_nalloc += size; sptr->size = size; memset(&sptr[1], 0, size); return &sptr[1]; } return NULL; } void _acpi_os_free(void *ptr, const char *fn, int line) { struct acpi_memblock *sptr; if (ptr != NULL) { sptr = &(((struct acpi_memblock *)ptr)[-1]); acpi_nalloc -= sptr->size; dnprintf(99,"free: %x %s:%d\n", sptr, fn, line); free(sptr, M_DEVBUF); } } void acpi_sleep(int ms) { if (cold) delay(ms * 1000); else while (tsleep(dsdt_softc, PWAIT, "asleep", ms / hz) != EWOULDBLOCK); } void acpi_stall(int us) { delay(us); } int acpi_mutex_acquire(struct aml_value *val, int timeout) { struct acpi_mutex *mtx = val->v_mutex; int rv = 0, ts, tries = 0; if (val->type != AML_OBJTYPE_MUTEX) { printf("acpi_mutex_acquire: invalid mutex\n"); return (1); } if (timeout == 0xffff) timeout = 0; /* lock recursion be damned, panic if that happens */ rw_enter_write(&mtx->amt_lock); while (mtx->amt_ref_count) { rw_exit_write(&mtx->amt_lock); /* block access */ ts = tsleep(mtx, PWAIT, mtx->amt_name, timeout / hz); if (ts == EWOULDBLOCK) { rv = 1; /* mutex not acquired */ goto done; } tries++; rw_enter_write(&mtx->amt_lock); } mtx->amt_ref_count++; rw_exit_write(&mtx->amt_lock); done: return (rv); } void acpi_mutex_release(struct aml_value *val) { struct acpi_mutex *mtx = val->v_mutex; /* sanity */ if (val->type != AML_OBJTYPE_MUTEX) { printf("acpi_mutex_acquire: invalid mutex\n"); return; } rw_enter_write(&mtx->amt_lock); if (mtx->amt_ref_count == 0) { printf("acpi_mutex_release underflow %s\n", mtx->amt_name); goto done; } mtx->amt_ref_count--; wakeup(mtx); /* wake all of them up */ done: rw_exit_write(&mtx->amt_lock); } /* * @@@: Misc utility functions */ void aml_dump(int len, u_int8_t *buf) { int idx; dnprintf(50, "{ "); for (idx = 0; idx < len; idx++) { dnprintf(50, "%s0x%.2x", idx ? ", " : "", buf[idx]); } dnprintf(50, " }\n"); } /* Bit mangling code */ int aml_tstbit(const u_int8_t *pb, int bit) { pb += aml_bytepos(bit); return (*pb & aml_bitmask(bit)); } void aml_setbit(u_int8_t *pb, int bit, int val) { pb += aml_bytepos(bit); if (val) *pb |= aml_bitmask(bit); else *pb &= ~aml_bitmask(bit); } /* Read/Write to hardware I/O fields */ void aml_gasio(struct acpi_softc *sc, int type, uint64_t base, uint64_t length, int bitpos, int bitlen, int size, void *buf, int mode) { dnprintf(10,"-- aml_gasio: %.2x base:%llx len:%llx bitpos:%.4x bitlen:%.4x sz:%.2x mode=%s\n", type, base, length, bitpos, bitlen, size, mode==ACPI_IOREAD?"read":"write"); acpi_gasio(sc, mode, type, base+(bitpos>>3), (size>>3), (bitlen>>3), buf); #ifdef ACPI_DEBUG while (bitlen > 0) { dnprintf(10,"%.2x ", *(uint8_t *)buf); buf++; bitlen -=8; } dnprintf(10,"\n"); #endif } /* * @@@: Notify functions */ void aml_register_notify(struct aml_node *node, const char *pnpid, int (*proc)(struct aml_node *, int, void *), void *arg) { struct aml_notify_data *pdata; dnprintf(10, "aml_register_notify: %s %s %x\n", node->name, pnpid ? pnpid : "", proc); pdata = acpi_os_malloc(sizeof(struct aml_notify_data)); pdata->node = node; pdata->cbarg = arg; pdata->cbproc = proc; if (pnpid) strlcpy(pdata->pnpid, pnpid, sizeof(pdata->pnpid)); SLIST_INSERT_HEAD(&aml_notify_list, pdata, link); } void aml_notify(struct aml_node *node, int notify_value) { struct aml_notify_data *pdata = NULL; if (node == NULL) return; SLIST_FOREACH(pdata, &aml_notify_list, link) if (pdata->node == node) pdata->cbproc(pdata->node, notify_value, pdata->cbarg); } void aml_notify_dev(const char *pnpid, int notify_value) { struct aml_notify_data *pdata = NULL; if (pnpid == NULL) return; SLIST_FOREACH(pdata, &aml_notify_list, link) if (pdata->pnpid && !strcmp(pdata->pnpid, pnpid)) pdata->cbproc(pdata->node, notify_value, pdata->cbarg); } /* * @@@: Namespace functions */ struct aml_node *__aml_search(struct aml_node *, uint8_t *); void aml_delchildren(struct aml_node *); const char *aml_getname(const char *); /* Search for a name in children nodes */ struct aml_node * __aml_search(struct aml_node *root, uint8_t *nameseg) { if (root == NULL) return NULL; for (root=root->child; root; root=root->sibling) { if (!memcmp(root->name, nameseg, AML_NAMESEG_LEN)) return root; } return NULL; } /* Get absolute pathname of AML node */ const char * aml_nodename(struct aml_node *node) { static char namebuf[128]; namebuf[0] = 0; if (node) { aml_nodename(node->parent); if (node->parent != &aml_root) strlcat(namebuf, ".", sizeof(namebuf)); strlcat(namebuf, node->name, sizeof(namebuf)); return namebuf+1; } return namebuf; } const char * aml_getname(const char *name) { static char namebuf[128], *p; int count; p = namebuf; while (*name == AMLOP_ROOTCHAR || *name == AMLOP_PARENTPREFIX) { *(p++) = *(name++); } switch (*name) { case 0x00: count = 0; break; case AMLOP_MULTINAMEPREFIX: count = name[1]; name += 2; break; case AMLOP_DUALNAMEPREFIX: count = 2; name += 1; break; default: count = 1; } while (count--) { memcpy(p, name, 4); p[4] = '.'; p += 5; name += 4; if (*name == '.') name++; } *(--p) = 0; return namebuf; } /* Create name/value pair in namespace */ struct aml_node * aml_createname(struct aml_node *root, const void *vname, struct aml_value *value) { struct aml_node *node, **pp; uint8_t *name = (uint8_t *)vname; int count; if (*name == AMLOP_ROOTCHAR) { root = &aml_root; name++; } while (*name == AMLOP_PARENTPREFIX && root) { root = root->parent; name++; } switch (*name) { case 0x00: return root; case AMLOP_MULTINAMEPREFIX: count = name[1]; name += 2; break; case AMLOP_DUALNAMEPREFIX: count = 2; name += 1; break; default: count = 1; break; } node = NULL; while (count-- && root) { /* Create new name if it does not exist */ if ((node = __aml_search(root, name)) == NULL) { node = acpi_os_malloc(sizeof(struct aml_node)); memcpy((void *)node->name, name, AML_NAMESEG_LEN); for (pp = &root->child; *pp; pp=&(*pp)->sibling) ; node->parent = root; node->sibling = NULL; *pp = node; } root = node; name += AML_NAMESEG_LEN; } /* If node created, set value pointer */ if (node && value) { node->value = value; value->node = node; } return node; } /* Search namespace for a named node */ struct aml_node * aml_searchname(struct aml_node *root, const void *vname) { struct aml_node *node; uint8_t *name = (uint8_t *)vname; int count; if (*name == AMLOP_ROOTCHAR) { root = &aml_root; name++; } while (*name == AMLOP_PARENTPREFIX && root) { root = root->parent; name++; } if (strlen(name) < AML_NAMESEG_LEN) { aml_die("bad name"); } switch (*name) { case 0x00: return root; case AMLOP_MULTINAMEPREFIX: count = name[1]; name += 2; break; case AMLOP_DUALNAMEPREFIX: count = 2; name += 1; break; default: if (name[4] == '.') { /* Called from user code */ while (*name && (root = __aml_search(root, name)) != NULL) { name += AML_NAMESEG_LEN+1; } return root; } /* Special case.. search relative for name */ while (root && (node = __aml_search(root, name)) == NULL) { root = root->parent; } return node; } /* Search absolute for name*/ while (count-- && (root = __aml_search(root, name)) != NULL) { name += AML_NAMESEG_LEN; } return root; } /* Free all children nodes/values */ void aml_delchildren(struct aml_node *node) { struct aml_node *onode; if (node == NULL) return; while ((onode = node->child) != NULL) { node->child = onode->sibling; aml_delchildren(onode); /* Decrease reference count */ aml_delref(&onode->value); /* Delete node */ acpi_os_free(onode); } } /* * @@@: Value functions */ struct aml_value *aml_alloctmp(struct aml_scope *, int); struct aml_scope *aml_pushscope(struct aml_scope *, uint8_t *, uint8_t *, struct aml_node *); struct aml_scope *aml_popscope(struct aml_scope *); int aml_parsenode(struct aml_scope *,struct aml_node *, uint8_t *, uint8_t **, struct aml_value *); #define LHS 0 #define RHS 1 #define DST 2 #define DST2 3 /* Allocate temporary storage in this scope */ struct aml_value * aml_alloctmp(struct aml_scope *scope, int narg) { struct aml_vallist *tmp; /* Allocate array of temp values */ tmp = (struct aml_vallist *)acpi_os_malloc(sizeof(struct aml_vallist) + narg * sizeof(struct aml_value)); tmp->obj = (struct aml_value *)&tmp[1]; tmp->nobj = narg; /* Link into scope */ tmp->next = scope->tmpvals; scope->tmpvals = tmp; /* Return array of values */ return tmp->obj; } /* Allocate+push parser scope */ struct aml_scope * aml_pushscope(struct aml_scope *parent, uint8_t *start, uint8_t *end, struct aml_node *node) { struct aml_scope *scope; scope = acpi_os_malloc(sizeof(struct aml_scope)); scope->pos = start; scope->end = end; scope->node = node; scope->parent = parent; scope->sc = dsdt_softc; aml_lastscope = scope; return scope; } struct aml_scope * aml_popscope(struct aml_scope *scope) { struct aml_scope *nscope; struct aml_vallist *ol; int idx; if (scope == NULL) return NULL; nscope = scope->parent; /* Free temporary values */ while ((ol = scope->tmpvals) != NULL) { scope->tmpvals = ol->next; for (idx=0; idxnobj; idx++) { aml_freevalue(&ol->obj[idx]); } acpi_os_free(ol); } acpi_os_free(scope); aml_lastscope = nscope; return nscope; } int aml_parsenode(struct aml_scope *parent, struct aml_node *node, uint8_t *start, uint8_t **end, struct aml_value *res) { struct aml_scope *scope; /* Don't parse zero-length scope */ if (start == *end) return 0; scope = aml_pushscope(parent, start, *end, node); if (res == NULL) res = aml_alloctmp(scope, 1); while (scope != parent) { while (scope->pos < scope->end) aml_parseop(scope, res); scope = aml_popscope(scope); } return 0; } /* * Field I/O code */ void aml_setbufint(struct aml_value *, int, int, struct aml_value *); void aml_getbufint(struct aml_value *, int, int, struct aml_value *); void aml_fieldio(struct aml_scope *, struct aml_value *, struct aml_value *, int); void aml_unlockfield(struct aml_scope *, struct aml_value *); void aml_lockfield(struct aml_scope *, struct aml_value *); /* Copy from a bufferfield to an integer/buffer */ void aml_setbufint(struct aml_value *dst, int bitpos, int bitlen, struct aml_value *src) { if (src->type != AML_OBJTYPE_BUFFER) aml_die("wrong setbufint type\n"); #if 1 /* Return buffer type */ _aml_setvalue(dst, AML_OBJTYPE_BUFFER, (bitlen+7)>>3, NULL); aml_bufcpy(dst->v_buffer, 0, src->v_buffer, bitpos, bitlen); #else if (bitlen < aml_intlen) { /* XXX: Endian issues?? */ /* Return integer type */ _aml_setvalue(dst, AML_OBJTYPE_INTEGER, 0, NULL); aml_bufcpy(&dst->v_integer, 0, src->v_buffer, bitpos, bitlen); } else { /* Return buffer type */ _aml_setvalue(dst, AML_OBJTYPE_BUFFER, (bitlen+7)>>3, NULL); aml_bufcpy(dst->v_buffer, 0, src->v_buffer, bitpos, bitlen); } #endif } /* Copy from a string/integer/buffer to a bufferfield */ void aml_getbufint(struct aml_value *src, int bitpos, int bitlen, struct aml_value *dst) { if (dst->type != AML_OBJTYPE_BUFFER) aml_die("wrong getbufint type\n"); switch (src->type) { case AML_OBJTYPE_INTEGER: if (bitlen >= aml_intlen) bitlen = aml_intlen; aml_bufcpy(dst->v_buffer, bitpos, &src->v_integer, 0, bitlen); break; case AML_OBJTYPE_BUFFER: if (bitlen >= 8*src->length) bitlen = 8*src->length; aml_bufcpy(dst->v_buffer, bitpos, src->v_buffer, 0, bitlen); break; case AML_OBJTYPE_STRING: if (bitlen >= 8*src->length) bitlen = 8*src->length; aml_bufcpy(dst->v_buffer, bitpos, src->v_string, 0, bitlen); break; } } void aml_lockfield(struct aml_scope *scope, struct aml_value *field) { if (AML_FIELD_LOCK(field->v_field.flags) == AML_FIELD_LOCK_ON) { /* XXX: do locking here */ } } void aml_unlockfield(struct aml_scope *scope, struct aml_value *field) { if (AML_FIELD_LOCK(field->v_field.flags) == AML_FIELD_LOCK_ON) { /* XXX: do unlocking here */ } } /* * Buffer/Region: read/write to bitfields */ void aml_fieldio(struct aml_scope *scope, struct aml_value *field, struct aml_value *res, int mode) { struct aml_value *pop, *tmp; int bpos, blen, aligned, mask; uint64_t iobase; pop = field->v_field.ref1; bpos = field->v_field.bitpos; blen = field->v_field.bitlen; aml_lockfield(scope, field); switch (field->v_field.type) { case AMLOP_INDEXFIELD: /* Set Index */ aml_setvalue(scope, pop, NULL, bpos>>3); aml_fieldio(scope, field->v_field.ref2, res, mode); break; case AMLOP_BANKFIELD: /* Set Bank */ aml_setvalue(scope, pop, NULL, field->v_field.ref3); aml_fieldio(scope, field->v_field.ref2, res, mode); break; case AMLOP_FIELD: /* This is an I/O field */ if (pop->type != AML_OBJTYPE_OPREGION) aml_die("Not an opregion!\n"); /* Get field access size */ switch (AML_FIELD_ACCESS(field->v_field.flags)) { case AML_FIELD_ANYACC: case AML_FIELD_BYTEACC: mask = 7; break; case AML_FIELD_WORDACC: mask = 15; break; case AML_FIELD_DWORDACC: mask = 31; break; case AML_FIELD_QWORDACC: mask = 63; break; } /* Get aligned bitpos/bitlength */ blen = ((bpos & mask) + blen + mask) & ~mask; bpos = bpos & ~mask; aligned = (bpos == field->v_field.bitpos && blen == field->v_field.bitlen); iobase = pop->v_opregion.iobase; /* Verify that I/O is in range */ #if 0 /* XXX: some I/O ranges are on dword boundaries, but their length is incorrect * eg. dword access, but length of opregion is 2 bytes. */ if ((bpos+blen) >= (pop->v_opregion.iolen * 8)) { aml_die("Out of bounds I/O!!! region:%x:%llx:%x %x\n", pop->v_opregion.iospace, pop->v_opregion.iobase, pop->v_opregion.iolen, bpos+blen); } #endif /* Allocate temporary space for field read * XXX: not needed if aligned?? */ tmp = aml_alloctmp(scope, 1); _aml_setvalue(tmp, AML_OBJTYPE_BUFFER, blen>>3, NULL); if (mode == ACPI_IOREAD) { /* Read from GAS space */ aml_gasio(scope->sc, pop->v_opregion.iospace, iobase, pop->v_opregion.iolen, bpos, blen, mask+1, tmp->v_buffer, ACPI_IOREAD); aml_setbufint(res, field->v_field.bitpos & mask, field->v_field.bitlen, tmp); } else { switch (AML_FIELD_UPDATE(field->v_field.flags)) { case AML_FIELD_WRITEASONES: if (!aligned) { dnprintf(50,"fpr:WriteOnes\n"); memset(tmp->v_buffer, 0xff, tmp->length); } break; case AML_FIELD_PRESERVE: if (!aligned) { /* Non-aligned I/O: need to read current value */ /* XXX: only need to read 1st/last mask chunk */ dnprintf(50,"fpr:Preserve\n"); aml_gasio(scope->sc, pop->v_opregion.iospace, iobase, pop->v_opregion.iolen, bpos, blen, mask+1, tmp->v_buffer, ACPI_IOREAD); } break; } /* Copy Bits into destination buffer */ aml_getbufint(res, field->v_field.bitpos & mask, field->v_field.bitlen, tmp); aml_gasio(scope->sc, pop->v_opregion.iospace, iobase, pop->v_opregion.iolen, bpos, blen, mask+1, tmp->v_buffer, ACPI_IOWRITE); } break; default: /* This is a buffer field */ if (mode == ACPI_IOREAD) aml_setbufint(res, bpos, blen, pop); else aml_getbufint(res, bpos, blen, pop); break; } aml_unlockfield(scope, field); } /* * @@@: Value set/compare/alloc/free routines */ int64_t aml_str2int(const char *, int); struct aml_value *aml_derefvalue(struct aml_scope *, struct aml_value *, int); #define aml_dereftarget(s,v) aml_derefvalue(s,v,ACPI_IOWRITE) #define aml_derefterm(s,v,m) aml_derefvalue(s,v,ACPI_IOREAD) void aml_showvalue(struct aml_value *val, int lvl) { int idx; if (val == NULL) return; if (val->node) { printf(" [%s]", aml_nodename(val->node)); } printf(" %p cnt:%.2x", val, val->refcnt); switch (val->type) { case AML_OBJTYPE_INTEGER: printf(" integer: %llx\n", val->v_integer); break; case AML_OBJTYPE_STRING: printf(" string: %s\n", val->v_string); break; case AML_OBJTYPE_METHOD: printf(" method: %.2x\n", val->v_method.flags); break; case AML_OBJTYPE_PACKAGE: printf(" package: %.2x\n", val->length); for (idx=0; idxlength; idx++) aml_showvalue(val->v_package[idx], lvl); break; case AML_OBJTYPE_BUFFER: printf(" buffer: %.2x {", val->length); for (idx=0; idxlength; idx++) printf("%s%.2x", idx ? ", " : "", val->v_buffer[idx]); printf("}\n"); break; case AML_OBJTYPE_FIELDUNIT: case AML_OBJTYPE_BUFFERFIELD: printf(" field: bitpos=%.4x bitlen=%.4x ref1:%x ref2:%x [%s]\n", val->v_field.bitpos, val->v_field.bitlen, val->v_field.ref1, val->v_field.ref2, aml_mnem(val->v_field.type)); aml_showvalue(val->v_field.ref1, lvl); aml_showvalue(val->v_field.ref2, lvl); break; case AML_OBJTYPE_MUTEX: printf(" mutex: %s ref: %d\n", val->v_mutex ? val->v_mutex->amt_name : "", val->v_mutex ? val->v_mutex->amt_ref_count : 0); break; case AML_OBJTYPE_EVENT: printf(" event:\n"); break; case AML_OBJTYPE_OPREGION: printf(" opregion: %.2x,%.8llx,%x\n", val->v_opregion.iospace, val->v_opregion.iobase, val->v_opregion.iolen); break; case AML_OBJTYPE_NAMEREF: printf(" nameref: %s\n", aml_getname(val->v_nameref)); break; case AML_OBJTYPE_DEVICE: printf(" device:\n"); break; case AML_OBJTYPE_PROCESSOR: printf(" cpu: %.2x,%.4x,%.2x\n", val->v_processor.proc_id, val->v_processor.proc_addr, val->v_processor.proc_len); break; case AML_OBJTYPE_THERMZONE: printf(" thermzone:\n"); break; case AML_OBJTYPE_POWERRSRC: printf(" pwrrsrc: %.2x,%.2x\n", val->v_powerrsrc.pwr_level, val->v_powerrsrc.pwr_order); break; case AML_OBJTYPE_OBJREF: printf(" objref: %p index:%x\n", val->v_objref.ref, val->v_objref.index); aml_showvalue(val->v_objref.ref, lvl); break; default: printf(" !!type: %x\n", val->type); } } /* Perform DeRef on value. If ACPI_IOREAD, will perform buffer/IO field read */ struct aml_value * aml_derefvalue(struct aml_scope *scope, struct aml_value *ref, int mode) { struct aml_node *node; struct aml_value *tmp; int64_t tmpint; int argc, index; for (;;) { switch (ref->type) { case AML_OBJTYPE_NAMEREF: node = aml_searchname(scope->node, ref->v_nameref); if (node == NULL || node->value == NULL) return ref; ref = node->value; break; case AML_OBJTYPE_OBJREF: index = ref->v_objref.index; ref = aml_dereftarget(scope, ref->v_objref.ref); if (index != -1) { if (index >= ref->length) aml_die("index.buf out of bounds: %d/%d\n", index, ref->length); switch (ref->type) { case AML_OBJTYPE_PACKAGE: ref = ref->v_package[index]; break; case AML_OBJTYPE_INTEGER: /* Convert to temporary buffer */ if (ref->node) aml_die("named integer index\n"); tmpint = ref->v_integer; _aml_setvalue(ref, AML_OBJTYPE_BUFFER, aml_intlen>>3, &tmpint); /* FALLTHROUGH */ case AML_OBJTYPE_BUFFER: case AML_OBJTYPE_STRING: /* Return contents at this index */ tmp = aml_alloctmp(scope, 1); if (mode == ACPI_IOREAD) { /* Shortcut: return integer contents of buffer at index */ _aml_setvalue(tmp, AML_OBJTYPE_INTEGER, ref->v_buffer[index], NULL); } else { _aml_setvalue(tmp, AML_OBJTYPE_BUFFERFIELD, 0, NULL); tmp->v_field.type = AMLOP_CREATEBYTEFIELD; tmp->v_field.bitpos = index * 8; tmp->v_field.bitlen = 8; tmp->v_field.ref1 = ref; aml_addref(ref); } return tmp; default: aml_die("unknown index type: %d", ref->type); break; } } break; case AML_OBJTYPE_METHOD: /* Read arguments from current scope */ argc = AML_METHOD_ARGCOUNT(ref->v_method.flags); tmp = aml_alloctmp(scope, argc+1); for (index=0; indexnode, argc, tmp, &tmp[argc]); break; case AML_OBJTYPE_BUFFERFIELD: case AML_OBJTYPE_FIELDUNIT: if (mode == ACPI_IOREAD) { /* Read I/O field into temporary storage */ tmp = aml_alloctmp(scope, 1); aml_fieldio(scope, ref, tmp, ACPI_IOREAD); return tmp; } return ref; default: return ref; } } } int64_t aml_str2int(const char *str, int radix) { /* XXX: fixme */ return 0; } int64_t aml_val2int(struct aml_value *rval) { int64_t ival = 0; if (rval == NULL) { dnprintf(50,"null val2int\n"); return (0); } switch (rval->type & ~AML_STATIC) { case AML_OBJTYPE_INTEGER: ival = rval->v_integer; break; case AML_OBJTYPE_BUFFER: aml_bufcpy(&ival, 0, rval->v_buffer, 0, min(aml_intlen, rval->length*8)); break; case AML_OBJTYPE_STRING: ival = (strncmp(rval->v_string, "0x", 2) == 0) ? aml_str2int(rval->v_string+2, 16) : aml_str2int(rval->v_string, 10); break; } return (ival); } /* Sets value into LHS: lhs must already be cleared */ struct aml_value * _aml_setvalue(struct aml_value *lhs, int type, int64_t ival, const void *bval) { memset(&lhs->_, 0x0, sizeof(lhs->_)); lhs->type = type; switch (lhs->type & ~AML_STATIC) { case AML_OBJTYPE_INTEGER: lhs->length = aml_intlen>>3; lhs->v_integer = ival; break; case AML_OBJTYPE_METHOD: lhs->v_method.flags = ival; break; case AML_OBJTYPE_NAMEREF: lhs->v_nameref = (uint8_t *)bval; break; case AML_OBJTYPE_OBJREF: lhs->v_objref.index = ival; lhs->v_objref.ref = (struct aml_value *)bval; break; case AML_OBJTYPE_BUFFER: lhs->length = ival; lhs->v_buffer = (uint8_t *)acpi_os_malloc(ival); if (bval) memcpy(lhs->v_buffer, bval, ival); break; case AML_OBJTYPE_STRING: if (ival == -1) ival = strlen((const char *)bval); lhs->length = ival; lhs->v_string = (char *)acpi_os_malloc(ival+1); if (bval) strncpy(lhs->v_string, (const char *)bval, ival); break; case AML_OBJTYPE_PACKAGE: lhs->length = ival; lhs->v_package = (struct aml_value **)acpi_os_malloc(ival * sizeof(struct aml_value *)); for (ival=0; ivallength; ival++) lhs->v_package[ival] = aml_allocvalue(AML_OBJTYPE_UNINITIALIZED, 0, NULL); break; } return lhs; } /* Copy object to another value: lhs must already be cleared */ void aml_copyvalue(struct aml_value *lhs, struct aml_value *rhs) { int idx; lhs->type = rhs->type; switch (lhs->type & ~AML_STATIC) { case AML_OBJTYPE_UNINITIALIZED: break; case AML_OBJTYPE_INTEGER: case AML_OBJTYPE_MUTEX: _aml_setvalue(lhs, rhs->type, rhs->v_integer, NULL); break; case AML_OBJTYPE_BUFFER: _aml_setvalue(lhs, rhs->type, rhs->length, rhs->v_buffer); break; case AML_OBJTYPE_STRING: _aml_setvalue(lhs, rhs->type, rhs->length, rhs->v_string); break; case AML_OBJTYPE_OPREGION: lhs->v_opregion = rhs->v_opregion; break; case AML_OBJTYPE_PROCESSOR: lhs->v_processor = rhs->v_processor; break; case AML_OBJTYPE_NAMEREF: _aml_setvalue(lhs, rhs->type, 0, rhs->v_nameref); break; case AML_OBJTYPE_PACKAGE: _aml_setvalue(lhs, rhs->type, rhs->length, NULL); for (idx=0; idxlength; idx++) aml_copyvalue(lhs->v_package[idx], rhs->v_package[idx]); break; case AML_OBJTYPE_OBJREF: _aml_setvalue(lhs, rhs->type, rhs->v_objref.index, rhs->v_objref.ref); break; default: printf("copyvalue: %x", rhs->type); break; } } /* Guts of the code: Assign one value to another. LHS may contain a previous value */ void aml_setvalue(struct aml_scope *scope, struct aml_value *lhs, struct aml_value *rhs, int64_t ival) { struct aml_value tmpint; /* Use integer as result */ if (rhs == NULL) { memset(&tmpint, 0, sizeof(tmpint)); rhs = _aml_setvalue(&tmpint, AML_OBJTYPE_INTEGER, ival, NULL); } lhs = aml_dereftarget(scope, lhs); if (lhs->stack) { /* ACPI: Overwrite writing to LocalX */ aml_freevalue(lhs); } switch (lhs->type) { case AML_OBJTYPE_UNINITIALIZED: aml_copyvalue(lhs, rhs); break; case AML_OBJTYPE_BUFFERFIELD: case AML_OBJTYPE_FIELDUNIT: aml_fieldio(scope, lhs, rhs, ACPI_IOWRITE); break; case AML_OBJTYPE_DEBUGOBJ: printf("-- debug --\n"); aml_showvalue(rhs, 50); break; case AML_OBJTYPE_INTEGER+AML_STATIC: break; case AML_OBJTYPE_INTEGER: lhs->v_integer = aml_val2int(rhs); break; case AML_OBJTYPE_BUFFER: if (lhs->node) dnprintf(40,"named.buffer\n"); aml_freevalue(lhs); if (rhs->type == AML_OBJTYPE_BUFFER) _aml_setvalue(lhs, AML_OBJTYPE_BUFFER, rhs->length, rhs->v_buffer); else if (rhs->type == AML_OBJTYPE_INTEGER) _aml_setvalue(lhs, AML_OBJTYPE_BUFFER, sizeof(rhs->v_integer), &rhs->v_integer); else if (rhs->type == AML_OBJTYPE_STRING) _aml_setvalue(lhs, AML_OBJTYPE_BUFFER, rhs->length+1, rhs->v_string); else { //aml_showvalue(rhs); aml_die("setvalue.buf : %x", aml_pc(scope->pos)); } break; case AML_OBJTYPE_STRING: if (lhs->node) dnprintf(40,"named string\n"); aml_freevalue(lhs); if (rhs->type == AML_OBJTYPE_STRING) _aml_setvalue(lhs, AML_OBJTYPE_STRING, rhs->length, rhs->v_string); else if (rhs->type == AML_OBJTYPE_BUFFER) _aml_setvalue(lhs, AML_OBJTYPE_STRING, rhs->length, rhs->v_buffer); else if (rhs->type == AML_OBJTYPE_INTEGER) { _aml_setvalue(lhs, AML_OBJTYPE_STRING, 10, NULL); snprintf(lhs->v_string, lhs->length, "%lld", rhs->v_integer); } else { //aml_showvalue(rhs); aml_die("setvalue.str"); } break; default: /* XXX: */ dnprintf(10,"setvalue.unknown: %x", lhs->type); break; } } /* 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) */ struct aml_value * aml_allocvalue(int type, int64_t ival, const void *bval) { struct aml_value *rv; rv = (struct aml_value *)acpi_os_malloc(sizeof(struct aml_value)); if (rv != NULL) { aml_addref(rv); return _aml_setvalue(rv, type, ival, bval); } return NULL; } void aml_freevalue(struct aml_value *val) { int idx; if (val == NULL) return; switch (val->type) { case AML_OBJTYPE_STRING: acpi_os_free(val->v_string); break; case AML_OBJTYPE_BUFFER: acpi_os_free(val->v_buffer); break; case AML_OBJTYPE_PACKAGE: for (idx=0; idxlength; idx++) { aml_freevalue(val->v_package[idx]); acpi_os_free(val->v_package[idx]); } acpi_os_free(val->v_package); break; case AML_OBJTYPE_BUFFERFIELD: case AML_OBJTYPE_FIELDUNIT: aml_delref(&val->v_field.ref1); aml_delref(&val->v_field.ref2); break; } val->type = 0; memset(&val->_, 0, sizeof(val->_)); } /* Increase reference count */ void aml_addref(struct aml_value *val) { if (val) val->refcnt++; } /* Decrease reference count + delete value */ void _aml_delref(struct aml_value **val, const char *fn, int line) { if (val == NULL || *val == NULL) return; if ((*val)->stack > 0) { /* Don't delete locals */ return; } if ((*val)->refcnt & ~0xFF) { printf("-- invalid ref: %x:%s:%d\n", (*val)->refcnt, fn, line); } if (--(*val)->refcnt == 0) { aml_freevalue(*val); acpi_os_free(*val); *val = NULL; } } /* * @@@: Math eval routines */ /* Convert number from one radix to another * Used in BCD conversion routines */ u_int64_t aml_convradix(u_int64_t val, int iradix, int oradix) { u_int64_t rv = 0, pwr; rv = 0; pwr = 1; while (val) { rv += (val % iradix) * pwr; val /= iradix; pwr *= oradix; } return rv; } /* Calculate LSB */ int aml_lsb(u_int64_t val) { int lsb; if (val == 0) return (0); for (lsb = 1; !(val & 0x1); lsb++) val >>= 1; return (lsb); } /* Calculate MSB */ int aml_msb(u_int64_t val) { int msb; if (val == 0) return (0); for (msb = 1; val != 0x1; msb++) val >>= 1; return (msb); } /* Evaluate Math operands */ int64_t aml_evalexpr(int64_t lhs, int64_t rhs, int opcode) { dnprintf(50, "evalexpr: %s %lld %lld\n", aml_mnem(opcode), lhs, rhs); switch (opcode) { /* Math operations */ case AMLOP_INCREMENT: case AMLOP_ADD: return (lhs + rhs); case AMLOP_DECREMENT: 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_NOT: return ~(lhs); /* Conversion/misc */ case AMLOP_FINDSETLEFTBIT: return aml_msb(lhs); case AMLOP_FINDSETRIGHTBIT: return aml_lsb(lhs); case AMLOP_TOINTEGER: return (lhs); case AMLOP_FROMBCD: return aml_convradix(lhs, 16, 10); case AMLOP_TOBCD: return aml_convradix(lhs, 10, 16); /* Logical/Comparison */ 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); } int aml_cmpvalue(struct aml_value *lhs, struct aml_value *rhs, int opcode) { int rc, lt, rt; rc = 0; lt = lhs->type & ~AML_STATIC; rt = rhs->type & ~AML_STATIC; if (lt == rt ) { switch (lhs->type) { case AML_OBJTYPE_INTEGER: rc = (lhs->v_integer - rhs->v_integer); break; case AML_OBJTYPE_STRING: rc = strncmp(lhs->v_string, rhs->v_string, min(lhs->length, rhs->length)); if (rc == 0) rc = lhs->length - rhs->length; break; case AML_OBJTYPE_BUFFER: rc = memcmp(lhs->v_buffer, rhs->v_buffer, min(lhs->length, rhs->length)); if (rc == 0) rc = lhs->length - rhs->length; break; } } else if (lt == AML_OBJTYPE_INTEGER) { rc = lhs->v_integer - aml_val2int(rhs); } else if (rt == AML_OBJTYPE_INTEGER) { rc = aml_val2int(lhs) - rhs->v_integer; } else { aml_die("mismatched compare\n"); } return aml_evalexpr(rc, 0, opcode); } /* * aml_bufcpy copies/shifts buffer data, special case for aligned transfers * dstPos/srcPos are bit positions within destination/source buffers */ void aml_bufcpy(void *pvDst, int dstPos, const void *pvSrc, int srcPos, int len) { const u_int8_t *pSrc = pvSrc; u_int8_t *pDst = pvDst; int idx; if (aml_bytealigned(dstPos|srcPos|len)) { /* Aligned transfer: use memcpy */ memcpy(pDst+aml_bytepos(dstPos), pSrc+aml_bytepos(srcPos), aml_bytelen(len)); return; } /* Misaligned transfer: perform bitwise copy (slow) */ for (idx = 0; idx < len; idx++) aml_setbit(pDst, idx + dstPos, aml_tstbit(pSrc, idx + srcPos)); } /* * Evaluate an AML method * * Returns a copy of the result in res (must be freed by user) */ struct aml_value * aml_evalmethod(struct aml_scope *parent, struct aml_node *node, int argc, struct aml_value *argv, struct aml_value *res) { struct aml_scope *scope; scope = aml_pushscope(parent, node->value->v_method.start, node->value->v_method.end, node); scope->args = argv; scope->nargs = argc; if (res == NULL) res = aml_alloctmp(scope, 1); #ifdef ACPI_DEBUG dnprintf(10,"calling [%s] (%d args)\n", aml_nodename(node), scope->nargs); for (argc=0; argcnargs; argc++) { dnprintf(10, " arg%d: ", argc); aml_showvalue(&scope->args[argc], 10); } while (scope->pos < scope->end) aml_parseterm(scope, res); dnprintf(10, "[%s] returns: ", aml_nodename(node)); aml_showvalue(res, 10); #else while (scope->pos < scope->end) aml_parseterm(scope, res); #endif /* Free any temporary children nodes */ aml_delchildren(node); aml_popscope(scope); return res; } /* * @@@: External API * * evaluate an AML node * Returns a copy of the value in res (must be freed by user) */ int aml_evalnode(struct acpi_softc *sc, struct aml_node *node, int argc, struct aml_value *argv, struct aml_value *res) { static int lastck; struct aml_node *ref; if (res) memset(res, 0, sizeof(struct aml_value)); if (node == NULL || node->value == NULL) return (ACPI_E_BADVALUE); switch (node->value->type) { case AML_OBJTYPE_METHOD: aml_evalmethod(NULL, node, argc, argv, res); if (acpi_nalloc > lastck) { /* Check if our memory usage has increased */ dnprintf(10,"Leaked: [%s] %d\n", aml_nodename(node), acpi_nalloc); lastck = acpi_nalloc; } break; case AML_OBJTYPE_INTEGER: case AML_OBJTYPE_STRING: case AML_OBJTYPE_BUFFER: case AML_OBJTYPE_PACKAGE: case AML_OBJTYPE_EVENT: case AML_OBJTYPE_DEVICE: case AML_OBJTYPE_MUTEX: case AML_OBJTYPE_OPREGION: case AML_OBJTYPE_POWERRSRC: case AML_OBJTYPE_PROCESSOR: case AML_OBJTYPE_THERMZONE: case AML_OBJTYPE_DEBUGOBJ: if (res) aml_copyvalue(res, node->value); break; case AML_OBJTYPE_NAMEREF: if (res == NULL) break; if ((ref = aml_searchname(node, node->value->v_nameref)) != NULL) _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, ref); else aml_copyvalue(res, node->value); break; default: break; } return (0); } /* * evaluate an AML name * Returns a copy of the value in res (must be freed by user) */ int aml_evalname(struct acpi_softc *sc, struct aml_node *parent, const char *name, int argc, struct aml_value *argv, struct aml_value *res) { return aml_evalnode(sc, aml_searchname(parent, name), argc, argv, res); } int aml_evalinteger(struct acpi_softc *sc, struct aml_node *parent, const char *name, int argc, struct aml_value *argv, int64_t *ival) { struct aml_value res; if (name != NULL) { parent = aml_searchname(parent, name); } if (aml_evalnode(sc, parent, argc, argv, &res) == 0) { *ival = aml_val2int(&res); aml_freevalue(&res); return 0; } return 1; } void aml_walknodes(struct aml_node *node, int mode, int (*nodecb)(struct aml_node *, void *), void *arg) { struct aml_node *child; if (node == NULL) return; if (mode == AML_WALK_PRE) nodecb(node, arg); for (child=node->child; child; child=child->sibling) aml_walknodes(child, mode, nodecb, arg); if (mode == AML_WALK_POST) nodecb(node, arg); } void aml_walktree(struct aml_node *node) { while(node) { aml_showvalue(node->value, 0); aml_walktree(node->child); node = node->sibling; } } void aml_walkroot(void) { aml_walktree(aml_root.child); } int 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); } /* * @@@: Parser functions */ uint8_t *aml_parsename(struct aml_scope *); uint8_t *aml_parseend(struct aml_scope *scope); int aml_parselength(struct aml_scope *); int aml_parseopcode(struct aml_scope *); /* Get AML Opcode */ int aml_parseopcode(struct aml_scope *scope) { int opcode = (scope->pos[0]); int twocode = (scope->pos[0]<<8) + scope->pos[1]; /* Check if this is an embedded name */ switch (opcode) { case AMLOP_ROOTCHAR: case AMLOP_PARENTPREFIX: case AMLOP_MULTINAMEPREFIX: case AMLOP_DUALNAMEPREFIX: case AMLOP_NAMECHAR: case 'A' ... 'Z': return AMLOP_NAMECHAR; } if (twocode == AMLOP_LNOTEQUAL || twocode == AMLOP_LLESSEQUAL || twocode == AMLOP_LGREATEREQUAL || opcode == AMLOP_EXTPREFIX) { scope->pos += 2; return twocode; } scope->pos += 1; return opcode; } /* Decode embedded AML Namestring */ uint8_t * aml_parsename(struct aml_scope *scope) { uint8_t *name = scope->pos; while (*scope->pos == AMLOP_ROOTCHAR || *scope->pos == AMLOP_PARENTPREFIX) scope->pos++; switch (*scope->pos) { case 0x00: break; case AMLOP_MULTINAMEPREFIX: scope->pos += 2+AML_NAMESEG_LEN*scope->pos[1]; break; case AMLOP_DUALNAMEPREFIX: scope->pos += 1+AML_NAMESEG_LEN*2; break; default: scope->pos += AML_NAMESEG_LEN; break; } return name; } /* Decode AML Length field */ int aml_parselength(struct aml_scope *scope) { int len = (*scope->pos & 0xF); switch (*scope->pos >> 6) { case 0x00: len = scope->pos[0] & 0x3F; scope->pos += 1; break; case 0x01: len += (scope->pos[1]<<4L); scope->pos += 2; break; case 0x02: len += (scope->pos[1]<<4L) + (scope->pos[2]<<12L); scope->pos += 3; break; case 0x03: len += (scope->pos[1]<<4L) + (scope->pos[2]<<12L) + (scope->pos[3]<<20L); scope->pos += 4; break; } return len; } /* Get address of end of scope; based on current address */ uint8_t * aml_parseend(struct aml_scope *scope) { uint8_t *pos = scope->pos; int len; len = aml_parselength(scope); if (pos+len > scope->end) { dnprintf(10,"Bad scope... runover pos:%.4x new end:%.4x scope end:%.4x\n", aml_pc(pos), aml_pc(pos+len), aml_pc(scope->end)); pos = scope->end; } return pos+len; } /* * @@@: Opcode utility functions */ int aml_match(int, int64_t, struct aml_value *); void aml_fixref(struct aml_value **); int64_t aml_parseint(struct aml_scope *, int); void aml_resize(struct aml_value *val, int newsize); void aml_resize(struct aml_value *val, int newsize) { void *oldptr; int oldsize; if (val->length >= newsize) return; oldsize = val->length; switch (val->type) { case AML_OBJTYPE_BUFFER: oldptr = val->v_buffer; _aml_setvalue(val, val->type, newsize, NULL); memcpy(val->v_buffer, oldptr, oldsize); acpi_os_free(oldptr); break; case AML_OBJTYPE_STRING: oldptr = val->v_string; _aml_setvalue(val, val->type, newsize+1, NULL); memcpy(val->v_string, oldptr, oldsize); acpi_os_free(oldptr); break; } } int aml_match(int op, int64_t mv1, struct aml_value *mv2) { struct aml_value tmpint; memset(&tmpint, 0, sizeof(tmpint)); _aml_setvalue(&tmpint, AML_OBJTYPE_INTEGER, mv1, NULL); switch (op) { case AML_MATCH_EQ: return aml_cmpvalue(&tmpint, mv2, AMLOP_LEQUAL); case AML_MATCH_LT: return aml_cmpvalue(&tmpint, mv2, AMLOP_LLESS); case AML_MATCH_LE: return aml_cmpvalue(&tmpint, mv2, AMLOP_LLESSEQUAL); case AML_MATCH_GE: return aml_cmpvalue(&tmpint, mv2, AMLOP_LGREATEREQUAL); case AML_MATCH_GT: return aml_cmpvalue(&tmpint, mv2, AMLOP_LGREATER); } return (1); } int amlop_delay; u_int64_t aml_getpciaddr(struct acpi_softc *sc, struct aml_node *root) { struct aml_value tmpres; u_int64_t pciaddr; /* PCI */ pciaddr = 0; if (!aml_evalname(dsdt_softc, root, "_ADR", 0, NULL, &tmpres)) { /* Device:Function are bits 16-31,32-47 */ pciaddr += (aml_val2int(&tmpres) << 16L); aml_freevalue(&tmpres); dnprintf(20,"got _adr [%s]\n", aml_nodename(root)); } else { /* Mark invalid */ pciaddr += (0xFFFF << 16L); return pciaddr; } if (!aml_evalname(dsdt_softc, root, "_BBN", 0, NULL, &tmpres)) { /* PCI bus is in bits 48-63 */ pciaddr += (aml_val2int(&tmpres) << 48L); aml_freevalue(&tmpres); dnprintf(20,"got _bbn [%s]\n", aml_nodename(root)); } dnprintf(20,"got pciaddr: %s:%llx\n", aml_nodename(root), pciaddr); return pciaddr; } /* Fixup references for BufferFields/FieldUnits */ void aml_fixref(struct aml_value **res) { struct aml_value *oldres; while (*res && (*res)->type == AML_OBJTYPE_OBJREF && (*res)->v_objref.index == -1) { oldres = (*res)->v_objref.ref; aml_delref(res); aml_addref(oldres); *res = oldres; } } int64_t aml_parseint(struct aml_scope *scope, int opcode) { uint8_t *np = scope->pos; struct aml_value *tmpval; int64_t rval; if (opcode == AML_ANYINT) opcode = aml_parseopcode(scope); switch (opcode) { case AMLOP_ZERO: rval = 0; break; case AMLOP_ONE: rval = 1; break; case AMLOP_ONES: rval = -1; break; case AMLOP_REVISION: rval = AML_REVISION; break; case AMLOP_BYTEPREFIX: rval = *(uint8_t *)scope->pos; scope->pos += 1; break; case AMLOP_WORDPREFIX: rval = aml_letohost16(*(uint16_t *)scope->pos); scope->pos += 2; break; case AMLOP_DWORDPREFIX: rval = aml_letohost32(*(uint32_t *)scope->pos); scope->pos += 4; break; case AMLOP_QWORDPREFIX: rval = aml_letohost64(*(uint64_t *)scope->pos); scope->pos += 8; break; default: scope->pos = np; tmpval = aml_alloctmp(scope, 1); aml_parseterm(scope, tmpval); return aml_val2int(tmpval); } dnprintf(15,"%.4x: [%s] %s\n", aml_pc(scope->pos-opsize(opcode)), aml_nodename(scope->node), aml_mnem(opcode)); return rval; } struct aml_value * aml_evaltarget(struct aml_scope *scope, struct aml_value *res) { return res; } int aml_evalterm(struct aml_scope *scope, struct aml_value *raw, struct aml_value *dst) { struct aml_value *deref; aml_freevalue(dst); deref = aml_derefterm(scope, raw, 0); aml_copyvalue(dst, deref); return 0; } /* * @@@: Opcode functions */ /* Parse named objects */ struct aml_value * aml_parsenamed(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *name; int s, offs = 0; AML_CHECKSTACK(); name = aml_parsename(scope); res = aml_allocvalue(AML_OBJTYPE_UNINITIALIZED, 0, NULL); switch (opcode) { case AMLOP_NAME: aml_parseop(scope, res); break; case AMLOP_ALIAS: _aml_setvalue(res, AML_OBJTYPE_NAMEREF, 0, name); name = aml_parsename(scope); break; case AMLOP_EVENT: _aml_setvalue(res, AML_OBJTYPE_EVENT, 0, NULL); break; case AMLOP_MUTEX: _aml_setvalue(res, AML_OBJTYPE_MUTEX, 0, NULL); res->v_mutex = (struct acpi_mutex *)acpi_os_malloc( sizeof(struct acpi_mutex)); res->v_mutex->amt_synclevel = aml_parseint(scope, AMLOP_BYTEPREFIX); s = strlen(aml_getname(name)); if (s > 4) offs = s - 4; strlcpy(res->v_mutex->amt_name, aml_getname(name) + offs, ACPI_MTX_MAXNAME); rw_init(&res->v_mutex->amt_lock, res->v_mutex->amt_name); break; case AMLOP_OPREGION: _aml_setvalue(res, AML_OBJTYPE_OPREGION, 0, NULL); res->v_opregion.iospace = aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_opregion.iobase = aml_parseint(scope, AML_ANYINT); res->v_opregion.iolen = aml_parseint(scope, AML_ANYINT); if (res->v_opregion.iospace == GAS_PCI_CFG_SPACE) { res->v_opregion.iobase += aml_getpciaddr(dsdt_softc, scope->node); dnprintf(20,"got ioaddr: %s.%s:%llx\n", aml_nodename(scope->node), aml_getname(name), res->v_opregion.iobase); } break; } aml_createname(scope->node, name, res); return res; } /* Parse Named objects with scope */ struct aml_value * aml_parsenamedscope(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *end, *name; struct aml_node *node; AML_CHECKSTACK(); end = aml_parseend(scope); name = aml_parsename(scope); switch (opcode) { case AMLOP_DEVICE: res = aml_allocvalue(AML_OBJTYPE_DEVICE, 0, NULL); break; case AMLOP_SCOPE: res = NULL; break; case AMLOP_PROCESSOR: res = aml_allocvalue(AML_OBJTYPE_PROCESSOR, 0, NULL); res->v_processor.proc_id = aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_processor.proc_addr = aml_parseint(scope, AMLOP_DWORDPREFIX); res->v_processor.proc_len = aml_parseint(scope, AMLOP_BYTEPREFIX); break; case AMLOP_POWERRSRC: res = aml_allocvalue(AML_OBJTYPE_POWERRSRC, 0, NULL); res->v_powerrsrc.pwr_level = aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_powerrsrc.pwr_order = aml_parseint(scope, AMLOP_BYTEPREFIX); break; case AMLOP_THERMALZONE: res = aml_allocvalue(AML_OBJTYPE_THERMZONE, 0, NULL); break; } node = aml_createname(scope->node, name, res); aml_parsenode(scope, node, scope->pos, &end, NULL); scope->pos = end; return res; } /* Parse math opcodes */ struct aml_value * aml_parsemath(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg; int64_t i1, i2, i3; tmparg = aml_alloctmp(scope, 1); AML_CHECKSTACK(); switch (opcode) { case AMLOP_LNOT: i2 = 0; i1 = aml_parseint(scope, AML_ANYINT); break; case AMLOP_LAND: case AMLOP_LOR: i1 = aml_parseint(scope, AML_ANYINT); i2 = aml_parseint(scope, AML_ANYINT); break; case AMLOP_NOT: case AMLOP_TOBCD: case AMLOP_FROMBCD: case AMLOP_TOINTEGER: case AMLOP_FINDSETLEFTBIT: case AMLOP_FINDSETRIGHTBIT: i2 = 0; i1 = aml_parseint(scope, AML_ANYINT); aml_parsetarget(scope, tmparg, NULL); break; case AMLOP_INCREMENT: case AMLOP_DECREMENT: aml_parsetarget(scope, tmparg, NULL); i1 = aml_val2int(aml_derefterm(scope, tmparg, 0)); i2 = 1; break; case AMLOP_DIVIDE: i1 = aml_parseint(scope, AML_ANYINT); i2 = aml_parseint(scope, AML_ANYINT); aml_parsetarget(scope, tmparg, NULL); // remainder aml_setvalue(scope, tmparg, NULL, (i1 % i2)); aml_parsetarget(scope, tmparg, NULL); // quotient break; default: i1 = aml_parseint(scope, AML_ANYINT); i2 = aml_parseint(scope, AML_ANYINT); aml_parsetarget(scope, tmparg, NULL); break; } i3 = aml_evalexpr(i1, i2, opcode); aml_setvalue(scope, res, NULL, i3); aml_setvalue(scope, tmparg, NULL, i3); return (res); } /* Parse logical comparison opcodes */ struct aml_value * aml_parsecompare(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg; int rc; AML_CHECKSTACK(); tmparg = aml_alloctmp(scope, 2); aml_parseterm(scope, &tmparg[LHS]); aml_parseterm(scope, &tmparg[RHS]); /* Compare both values */ rc = aml_cmpvalue(&tmparg[LHS], &tmparg[RHS], opcode); aml_setvalue(scope, res, NULL, rc); return res; } /* Parse IF/ELSE opcodes */ struct aml_value * aml_parseif(struct aml_scope *scope, int opcode, struct aml_value *res) { int64_t test; uint8_t *end; AML_CHECKSTACK(); end = aml_parseend(scope); test = aml_parseint(scope, AML_ANYINT); dnprintf(40, "@ iftest: %llx\n", test); while (test && scope->pos < end) { /* Parse if scope */ aml_parseterm(scope, res); } if (scope->pos >= scope->end) return res; if (*end == AMLOP_ELSE) { scope->pos = ++end; end = aml_parseend(scope); while (!test && scope->pos < end) { /* Parse ELSE scope */ aml_parseterm(scope, res); } } if (scope->pos < end) scope->pos = end; return res; } struct aml_value * aml_parsewhile(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *end, *start; int test, cnt; AML_CHECKSTACK(); end = aml_parseend(scope); start = scope->pos; cnt = 0; do { test = 1; if (scope->pos == start || scope->pos == end) { scope->pos = start; test = aml_parseint(scope, AML_ANYINT); dnprintf(40, "@whiletest = %d %x\n", test, cnt++); } else if (*scope->pos == AMLOP_BREAK) { scope->pos++; test = 0; } else if (*scope->pos == AMLOP_CONTINUE) { scope->pos = start; } else { aml_parseterm(scope, res); } } while (test && scope->pos <= end && cnt < 0x199); /* XXX: shouldn't need breakout counter */ dnprintf(40,"Set While end : %x\n", cnt); if (scope->pos < end) scope->pos = end; return res; } /* Parse Buffer/Package opcodes */ struct aml_value * aml_parsebufpkg(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *end; int len; AML_CHECKSTACK(); end = aml_parseend(scope); len = aml_parseint(scope, (opcode == AMLOP_PACKAGE) ? AMLOP_BYTEPREFIX : AML_ANYINT); switch (opcode) { case AMLOP_BUFFER: _aml_setvalue(res, AML_OBJTYPE_BUFFER, len, NULL); if (scope->pos < end) { memcpy(res->v_buffer, scope->pos, end-scope->pos); } if (len != end-scope->pos) { dnprintf(99,"buffer: %.4x %.4x\n", len, end-scope->pos); } break; case AMLOP_PACKAGE: case AMLOP_VARPACKAGE: _aml_setvalue(res, AML_OBJTYPE_PACKAGE, len, NULL); for (len=0; len < res->length && scope->pos < end; len++) { aml_parseop(scope, res->v_package[len]); } if (scope->pos != end) { dnprintf(99,"Package not equiv!! %.4x %.4x %d of %d\n", aml_pc(scope->pos), aml_pc(end), len, res->length); } break; } scope->pos = end; return res; } struct aml_value * aml_parsemethod(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *end, *name; AML_CHECKSTACK(); end = aml_parseend(scope); name = aml_parsename(scope); res = aml_allocvalue(AML_OBJTYPE_METHOD, 0, NULL); res->v_method.flags = aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_method.start = scope->pos; res->v_method.end = end; aml_createname(scope->node, name, res); scope->pos = end; return res; } /* Parse simple type opcodes */ struct aml_value * aml_parsesimple(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_node *node; AML_CHECKSTACK(); switch (opcode) { case AMLOP_ZERO: _aml_setvalue(res, AML_OBJTYPE_INTEGER+AML_STATIC, aml_parseint(scope, opcode), NULL); break; case AMLOP_ONE: case AMLOP_ONES: case AMLOP_BYTEPREFIX: case AMLOP_WORDPREFIX: case AMLOP_DWORDPREFIX: case AMLOP_QWORDPREFIX: case AMLOP_REVISION: _aml_setvalue(res, AML_OBJTYPE_INTEGER, aml_parseint(scope, opcode), NULL); break; case AMLOP_DEBUG: _aml_setvalue(res, AML_OBJTYPE_DEBUGOBJ, 0, NULL); break; case AMLOP_STRINGPREFIX: _aml_setvalue(res, AML_OBJTYPE_STRING, -1, scope->pos); scope->pos += res->length+1; break; case AMLOP_NAMECHAR: _aml_setvalue(res, AML_OBJTYPE_NAMEREF, 0, NULL); res->v_nameref = aml_parsename(scope); node = aml_searchname(scope->node, res->v_nameref); if (node && node->value) { _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, node->value); } break; } return res; } /* Parse field unit opcodes */ struct aml_value * aml_parsefieldunit(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *end, *name; struct aml_value *fld; AML_CHECKSTACK(); end = aml_parseend(scope); switch (opcode) { case AMLOP_FIELD: aml_parsetarget(scope, NULL, &res->v_field.ref1); break; case AMLOP_INDEXFIELD: aml_parsetarget(scope, NULL, &res->v_field.ref1); aml_parsetarget(scope, NULL, &res->v_field.ref2); break; case AMLOP_BANKFIELD: aml_parsetarget(scope, NULL, &res->v_field.ref1); aml_parsetarget(scope, NULL, &res->v_field.ref2); res->v_field.ref3 = aml_parseint(scope, AML_ANYINT); break; } res->v_field.flags = aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_field.type = opcode; aml_fixref(&res->v_field.ref1); aml_fixref(&res->v_field.ref2); while (scope->pos < end) { switch (*scope->pos) { case 0x00: // reserved scope->pos++; res->v_field.bitlen = aml_parselength(scope); break; case 0x01: // attrib scope->pos++; /* XXX: do something with this */ aml_parseint(scope, AMLOP_BYTEPREFIX); aml_parseint(scope, AMLOP_BYTEPREFIX); res->v_field.bitlen = 0; break; default: name = aml_parsename(scope); res->v_field.bitlen = aml_parselength(scope); /* Allocate new fieldunit */ fld = aml_allocvalue(AML_OBJTYPE_FIELDUNIT, 0, NULL); /* Increase reference count on field */ fld->v_field = res->v_field; aml_addref(fld->v_field.ref1); aml_addref(fld->v_field.ref2); aml_createname(scope->node, name, fld); break; } res->v_field.bitpos += res->v_field.bitlen; } /* Delete redundant reference */ aml_delref(&res->v_field.ref1); aml_delref(&res->v_field.ref2); return res; } /* Parse CreateXXXField opcodes */ struct aml_value * aml_parsebufferfield(struct aml_scope *scope, int opcode, struct aml_value *res) { uint8_t *name; AML_CHECKSTACK(); res = aml_allocvalue(AML_OBJTYPE_BUFFERFIELD, 0, NULL); res->v_field.type = opcode; aml_parsetarget(scope, NULL, &res->v_field.ref1); res->v_field.bitpos = aml_parseint(scope, AML_ANYINT); aml_fixref(&res->v_field.ref1); switch (opcode) { case AMLOP_CREATEFIELD: res->v_field.bitlen = aml_parseint(scope, AML_ANYINT); break; case AMLOP_CREATEBITFIELD: res->v_field.bitlen = 1; break; case AMLOP_CREATEBYTEFIELD: res->v_field.bitlen = 8; res->v_field.bitpos *= 8; break; case AMLOP_CREATEWORDFIELD: res->v_field.bitlen = 16; res->v_field.bitpos *= 8; break; case AMLOP_CREATEDWORDFIELD: res->v_field.bitlen = 32; res->v_field.bitpos *= 8; break; case AMLOP_CREATEQWORDFIELD: res->v_field.bitlen = 64; res->v_field.bitpos *= 8; break; } name = aml_parsename(scope); aml_createname(scope->node, name, res); return res; } /* Parse Mutex/Event action */ struct aml_value * aml_parsemuxaction(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg; int64_t i1; int rv; AML_CHECKSTACK(); tmparg = aml_alloctmp(scope, 1); aml_parsetarget(scope, tmparg, NULL); switch (opcode) { case AMLOP_ACQUIRE: /* Assert: tmparg is AML_OBJTYPE_MUTEX */ i1 = aml_parseint(scope, AMLOP_WORDPREFIX); rv = acpi_mutex_acquire(tmparg->v_objref.ref, i1); /* Return true if timed out */ aml_setvalue(scope, res, NULL, rv); break; case AMLOP_RELEASE: acpi_mutex_release(tmparg->v_objref.ref); break; case AMLOP_WAIT: /* Assert: tmparg is AML_OBJTYPE_EVENT */ i1 = aml_parseint(scope, AML_ANYINT); /* Return true if timed out */ aml_setvalue(scope, res, NULL, 0); break; case AMLOP_SIGNAL: break; case AMLOP_RESET: break; } return res; } /* Parse Miscellaneous opcodes */ struct aml_value * aml_parsemisc2(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg, *dev; int i1, i2, i3; AML_CHECKSTACK(); switch (opcode) { case AMLOP_NOTIFY: /* Assert: tmparg is nameref or objref */ tmparg = aml_alloctmp(scope, 1); aml_parseop(scope, tmparg); dev = aml_dereftarget(scope, tmparg); i1 = aml_parseint(scope, AML_ANYINT); if (dev && dev->node) { dnprintf(10,"Notify: [%s] %.2x\n", aml_nodename(dev->node), i1); aml_notify(dev->node, i1); } break; case AMLOP_SLEEP: i1 = aml_parseint(scope, AML_ANYINT); dnprintf(50,"SLEEP: %x\n", i1); if (i1) acpi_sleep(i1); else { dnprintf(10, "acpi_sleep(0)\n"); } break; case AMLOP_STALL: i1 = aml_parseint(scope, AML_ANYINT); dnprintf(50,"STALL: %x\n", i1); if (i1) acpi_stall(i1); else { dnprintf(10, "acpi_stall(0)\n"); } break; case AMLOP_FATAL: i1 = aml_parseint(scope, AMLOP_BYTEPREFIX); i2 = aml_parseint(scope, AMLOP_DWORDPREFIX); i3 = aml_parseint(scope, AML_ANYINT); aml_die("FATAL: %x %x %x\n", i1, i2, i3); break; } return res; } /* Parse Miscellaneous opcodes */ struct aml_value * aml_parsemisc3(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg; AML_CHECKSTACK(); tmparg = aml_alloctmp(scope, 1); aml_parseterm(scope, tmparg); switch (opcode) { case AMLOP_SIZEOF: aml_setvalue(scope, res, NULL, tmparg->length); break; case AMLOP_OBJECTTYPE: aml_setvalue(scope, res, NULL, tmparg->type); break; } return res; } /* Parse AMLOP_MATCH */ struct aml_value * aml_parsematch(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *pkg; int op1, op2, idx, mv1, mv2; AML_CHECKSTACK(); pkg = aml_parseterm(scope, NULL); op1 = aml_parseint(scope, AMLOP_BYTEPREFIX); mv1 = aml_parseint(scope, AML_ANYINT); op2 = aml_parseint(scope, AMLOP_BYTEPREFIX); mv2 = aml_parseint(scope, AML_ANYINT); idx = aml_parseint(scope, AML_ANYINT); aml_setvalue(scope, res, NULL, -1); while (idx < pkg->length) { if (aml_match(op1, mv1, pkg->v_package[idx]) || aml_match(op2, mv2, pkg->v_package[idx])) { aml_setvalue(scope, res, NULL, idx); break; } idx++; } aml_delref(&pkg); return res; } /* Parse referenced objects */ struct aml_value * aml_parseref(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmparg; AML_CHECKSTACK(); switch (opcode) { case AMLOP_INDEX: tmparg = aml_alloctmp(scope, 1); _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, NULL); aml_parsetarget(scope, tmparg, NULL); res->v_objref.index = aml_parseint(scope, AML_ANYINT); res->v_objref.ref = aml_dereftarget(scope, tmparg); aml_parsetarget(scope, tmparg, NULL); aml_setvalue(scope, tmparg, res, 0); break; case AMLOP_DEREFOF: aml_parseop(scope, res); break; case AMLOP_RETURN: tmparg = aml_alloctmp(scope, 1); aml_parseterm(scope, tmparg); aml_setvalue(scope, res, tmparg, 0); scope->pos = scope->end; break; case AMLOP_ARG0 ... AMLOP_ARG6: opcode -= AMLOP_ARG0; if (scope->args == NULL || opcode >= scope->nargs) aml_die("arg %d out of range", opcode); /* Create OBJREF to stack variable */ _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, &scope->args[opcode]); break; case AMLOP_LOCAL0 ... AMLOP_LOCAL7: opcode -= AMLOP_LOCAL0; /* No locals exist.. lazy allocate */ if (scope->locals == NULL) { dnprintf(10, "Lazy alloc locals\n"); scope->locals = aml_alloctmp(scope, AML_MAX_LOCAL); } /* Create OBJREF to stack variable */ _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, &scope->locals[opcode]); res->v_objref.ref->stack = opcode+AMLOP_LOCAL0; break; case AMLOP_LOAD: tmparg = aml_alloctmp(scope, 2); aml_parseop(scope, &tmparg[0]); aml_parseop(scope, &tmparg[1]); break; case AMLOP_STORE: tmparg = aml_alloctmp(scope, 1); aml_parseterm(scope, res); aml_parsetarget(scope, tmparg, NULL); aml_setvalue(scope, tmparg, res, 0); break; case AMLOP_REFOF: _aml_setvalue(res, AML_OBJTYPE_OBJREF, -1, NULL); aml_parsetarget(scope, NULL, &res->v_objref.ref); break; case AMLOP_CONDREFOF: /* Returns true if object exists */ tmparg = aml_alloctmp(scope, 2); aml_parseterm(scope, &tmparg[0]); aml_parsetarget(scope, &tmparg[1], NULL); if (tmparg[0].type != AML_OBJTYPE_NAMEREF) { /* Object exists */ aml_setvalue(scope, &tmparg[1], &tmparg[0], 0); aml_setvalue(scope, res, NULL, 1); } else { /* Object doesn't exist */ aml_setvalue(scope, res, NULL, 0); } break; } return res; } struct aml_value * aml_parsestring(struct aml_scope *scope, int opcode, struct aml_value *res) { struct aml_value *tmpval; int i1, i2; AML_CHECKSTACK(); switch (opcode) { case AMLOP_CONCAT: tmpval = aml_alloctmp(scope, 4); aml_parseterm(scope, &tmpval[LHS]); aml_parseterm(scope, &tmpval[RHS]); aml_parsetarget(scope, &tmpval[DST], NULL); if (tmpval[LHS].type == AML_OBJTYPE_BUFFER && tmpval[RHS].type == AML_OBJTYPE_BUFFER) { aml_resize(&tmpval[LHS], tmpval[LHS].length+tmpval[RHS].length); memcpy(&tmpval[LHS].v_buffer+tmpval[LHS].length, tmpval[RHS].v_buffer, tmpval[RHS].length); aml_setvalue(scope, &tmpval[DST], &tmpval[LHS], 0); } if (tmpval[LHS].type == AML_OBJTYPE_STRING && tmpval[RHS].type == AML_OBJTYPE_STRING) { aml_resize(&tmpval[LHS], tmpval[LHS].length+tmpval[RHS].length); memcpy(&tmpval[LHS].v_string+tmpval[LHS].length, tmpval[RHS].v_buffer, tmpval[RHS].length); aml_setvalue(scope, &tmpval[DST], &tmpval[LHS], 0); } else { aml_die("concat"); } break; case AMLOP_MID: tmpval = aml_alloctmp(scope, 2); aml_parseterm(scope, &tmpval[0]); i1 = aml_parseint(scope, AML_ANYINT); // start i2 = aml_parseint(scope, AML_ANYINT); // length aml_parsetarget(scope, &tmpval[1], NULL); if (i1 > tmpval[0].length) i1 = tmpval[0].length; if (i1+i2 > tmpval[0].length) i2 = tmpval[0].length-i1; _aml_setvalue(res, AML_OBJTYPE_STRING, i2, tmpval[0].v_string+i1); break; case AMLOP_TODECSTRING: case AMLOP_TOHEXSTRING: i1 = aml_parseint(scope, AML_ANYINT); _aml_setvalue(res, AML_OBJTYPE_STRING, 20, NULL); snprintf(res->v_string, res->length, ((opcode == AMLOP_TODECSTRING) ? "%d" : "%x"), i1); break; default: aml_die("to_string"); break; } return res; } struct aml_value * aml_parseterm(struct aml_scope *scope, struct aml_value *res) { struct aml_value *tmpres; /* If no value specified, allocate dynamic */ if (res == NULL) res = aml_allocvalue(AML_OBJTYPE_UNINITIALIZED, 0, NULL); tmpres = aml_alloctmp(scope, 1); aml_parseop(scope, tmpres); aml_evalterm(scope, tmpres, res); return res; } struct aml_value * aml_parsetarget(struct aml_scope *scope, struct aml_value *res, struct aml_value **opt) { struct aml_value *dummy; /* If no value specified, allocate dynamic */ if (res == NULL) res = aml_allocvalue(AML_OBJTYPE_UNINITIALIZED, 0, NULL); aml_parseop(scope, res); if (opt == NULL) opt = &dummy; *opt = aml_evaltarget(scope, res); return res; } int odp; /* Main Opcode Parser/Evaluator */ struct aml_value * aml_parseop(struct aml_scope *scope, struct aml_value *res) { int opcode; struct aml_opcode *htab; struct aml_value *rv = NULL; if (odp++ > 25) panic("depth"); aml_freevalue(res); opcode = aml_parseopcode(scope); dnprintf(15,"%.4x: [%s] %s\n", aml_pc(scope->pos-opsize(opcode)), aml_nodename(scope->node), aml_mnem(opcode)); delay(amlop_delay); htab = aml_findopcode(opcode); if (htab && htab->handler) { rv = htab->handler(scope, opcode, res); } else { /* No opcode handler */ aml_die("Unknown opcode: %.4x @ %.4x", opcode, aml_pc(scope->pos - opsize(opcode))); } odp--; return rv; } 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; } /* * @@@: Fixup DSDT code */ struct aml_fixup { int offset; u_int8_t oldv; u_int8_t newv; }; struct aml_blacklist { const char *oem; const char *oemtbl; u_int8_t cksum; struct aml_fixup *fixtab; }; struct aml_fixup __ibm300gl[] = { { 0x19, 0x3a, 0x3b }, { -1 } }; struct aml_blacklist amlfix_list[] = { { "IBM ", "CDTPWSNH", 0x41, __ibm300gl }, { NULL }, }; void aml_fixup_dsdt(u_int8_t *acpi_hdr, u_int8_t *base, int len) { struct acpi_table_header *hdr = (struct acpi_table_header *)acpi_hdr; struct aml_blacklist *fixlist; struct aml_fixup *fixtab; for (fixlist=amlfix_list; fixlist->oem; fixlist++) { if (!memcmp(fixlist->oem, hdr->oemid, 6) && !memcmp(fixlist->oemtbl, hdr->oemtableid, 8) && fixlist->cksum == hdr->checksum) { /* Found a potential fixup entry */ for (fixtab = fixlist->fixtab; fixtab->offset != -1; fixtab++) { if (base[fixtab->offset] == fixtab->oldv) base[fixtab->offset] = fixtab->newv; } } } } /* * @@@: Default Object creation */ struct aml_defval { const char *name; int type; int64_t ival; const void *bval; struct aml_value **gval; }; struct aml_defval aml_defobj[] = { { "_OS_", AML_OBJTYPE_STRING, -1, "OpenBSD" }, { "_REV", AML_OBJTYPE_INTEGER, 2, NULL }, { "_GL", AML_OBJTYPE_MUTEX, 1, NULL, &aml_global_lock }, { NULL } }; void aml_create_defaultobjects() { struct aml_value *tmp; struct aml_defval *def; for (def = aml_defobj; def->name; def++) { /* Allocate object value + add to namespace */ tmp = aml_allocvalue(def->type, def->ival, def->bval); aml_createname(&aml_root, def->name, tmp); if (def->gval) { /* Set root object pointer */ *def->gval = tmp; } } } int aml_print_resource(union acpi_resource *crs, void *arg) { int typ = AML_CRSTYPE(crs); switch (typ) { case LR_EXTIRQ: printf("extirq: flags:%x len:%x irq:%x\n", crs->lr_extirq.flags, crs->lr_extirq.irq_count, aml_letohost32(crs->lr_extirq.irq[0])); break; case SR_IRQ: printf("irq %.4x %.2x", aml_letohost16(crs->sr_irq.irq_mask), crs->sr_irq.irq_info); break; case SR_DMA: printf("dma %.2x %.2x", crs->sr_dma.dma_chan, crs->sr_dma.dma_info); break; case SR_IOPORT: printf("io %.2x _min:%.4x _max:%.4x _aln:%.2x _len:%.2x\n", crs->sr_ioport.io_info, crs->sr_ioport.io_min, crs->sr_ioport.io_max, crs->sr_ioport.io_aln, crs->sr_ioport.io_len); break; case SR_STARTDEP: printf("startdep"); break; case SR_ENDDEP: printf("enddep"); break; default: printf("unknown type: %x\n", typ); break; } return (0); } int aml_parse_resource(int length, uint8_t *buffer, int (*crs_enum)(union acpi_resource *, void *), void *arg) { int off, rlen; union acpi_resource *crs; for (off=0; offhdr.typecode == 0x79) break; //aml_print_resource(crs, NULL); crs_enum(crs, arg); } return 0; } int acpi_parse_aml(struct acpi_softc *sc, u_int8_t *start, u_int32_t length) { u_int8_t *end; dsdt_softc = sc; strlcpy(aml_root.name, "\\", sizeof(aml_root.name)); if (aml_root.start == NULL) { aml_root.start = start; aml_root.end = start+length; } end = start+length; aml_parsenode(NULL, &aml_root, start, &end, NULL); dnprintf(50, " : parsed %d AML bytes\n", length); return (0); } /* * Walk nodes and perform fixups for nameref */ int aml_fixup_node(struct aml_node *, void *); int aml_fixup_node(struct aml_node *node, void *arg) { struct aml_value *val = arg; int i; if (node->value == NULL) return (0); if (arg == NULL) aml_fixup_node(node, node->value); else if (val->type == AML_OBJTYPE_NAMEREF) { node = aml_searchname(node, val->v_nameref); if (node && node->value) { _aml_setvalue(val, AML_OBJTYPE_OBJREF, -1, node->value); } } else if (val->type == AML_OBJTYPE_PACKAGE) { for (i=0; ilength; i++) aml_fixup_node(node, val->v_package[i]); } else if (val->type == AML_OBJTYPE_OPREGION) { if (val->v_opregion.iospace != GAS_PCI_CFG_SPACE) return (0); if (ACPI_PCI_FN(val->v_opregion.iobase) != 0xFFFF) return (0); val->v_opregion.iobase = ACPI_PCI_REG(val->v_opregion.iobase) + aml_getpciaddr(dsdt_softc, node); dnprintf(20,"late ioaddr : %s:%llx\n", aml_nodename(node), val->v_opregion.iobase); } return (0); } void aml_postparse() { aml_walknodes(&aml_root, AML_WALK_PRE, aml_fixup_node, NULL); }