/* $OpenBSD: acpidebug.c,v 1.32 2020/09/11 09:27:10 mpi Exp $ */ /* * Copyright (c) 2006 Marco Peereboom * * 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 #include #include #include #include #include #ifdef DDB extern int aml_pc(uint8_t *); extern const char *aml_mnem(int opcode, uint8_t *); extern const char *aml_nodename(struct aml_node *); extern void aml_disasm(struct aml_scope *scope, int lvl, void (*dbprintf)(void *, const char *, ...), void *arg); const char *db_aml_objtype(struct aml_value *); const char *db_opregion(int); int db_parse_name(void); void db_aml_dump(int, uint8_t *); void db_aml_showvalue(struct aml_value *); void db_aml_walktree(struct aml_node *); void db_disprint(void *, const char *, ...); const char *db_aml_fieldacc(int); const char *db_aml_fieldlock(int); const char *db_aml_fieldupdate(int); extern struct aml_node aml_root; /* name of scope for lexer */ char scope[80]; const char * db_opregion(int id) { switch (id) { case 0: return "SystemMemory"; case 1: return "SystemIO"; case 2: return "PCIConfig"; case 3: return "Embedded"; case 4: return "SMBus"; case 5: return "CMOS"; case 6: return "PCIBAR"; } return ""; } void db_aml_dump(int len, uint8_t *buf) { int idx; db_printf("{ "); for (idx = 0; idx < len; idx++) db_printf("%s0x%.2x", idx ? ", " : "", buf[idx]); db_printf(" }\n"); } void db_aml_showvalue(struct aml_value *value) { int idx; if (value == NULL) return; if (value->node) db_printf("[%s] ", aml_nodename(value->node)); switch (value->type) { case AML_OBJTYPE_OBJREF: db_printf("refof: %x {\n", value->v_objref.index); db_aml_showvalue(value->v_objref.ref); db_printf("}\n"); break; case AML_OBJTYPE_NAMEREF: db_printf("nameref: %s\n", value->v_nameref); break; case AML_OBJTYPE_INTEGER: db_printf("integer: %llx\n", value->v_integer); break; case AML_OBJTYPE_STRING: db_printf("string: %s\n", value->v_string); break; case AML_OBJTYPE_PACKAGE: db_printf("package: %d {\n", value->length); for (idx = 0; idx < value->length; idx++) db_aml_showvalue(value->v_package[idx]); db_printf("}\n"); break; case AML_OBJTYPE_BUFFER: db_printf("buffer: %d ", value->length); db_aml_dump(value->length, value->v_buffer); break; case AML_OBJTYPE_DEBUGOBJ: db_printf("debug"); break; case AML_OBJTYPE_MUTEX: db_printf("mutex : %llx\n", value->v_integer); break; case AML_OBJTYPE_DEVICE: db_printf("device\n"); break; case AML_OBJTYPE_EVENT: db_printf("event\n"); break; case AML_OBJTYPE_PROCESSOR: db_printf("cpu: %x,%x,%x\n", value->v_processor.proc_id, value->v_processor.proc_addr, value->v_processor.proc_len); break; case AML_OBJTYPE_METHOD: db_printf("method: args=%d, serialized=%d, synclevel=%d\n", AML_METHOD_ARGCOUNT(value->v_method.flags), AML_METHOD_SERIALIZED(value->v_method.flags), AML_METHOD_SYNCLEVEL(value->v_method.flags)); break; case AML_OBJTYPE_FIELDUNIT: db_printf("%s: access=%x,lock=%x,update=%x pos=%.4x " "len=%.4x\n", aml_mnem(value->v_field.type, NULL), AML_FIELD_ACCESS(value->v_field.flags), AML_FIELD_LOCK(value->v_field.flags), AML_FIELD_UPDATE(value->v_field.flags), value->v_field.bitpos, value->v_field.bitlen); if (value->v_field.ref2) db_printf(" index: %.3x %s\n", value->v_field.ref3, aml_nodename(value->v_field.ref2->node)); if (value->v_field.ref1) db_printf(" data: %s\n", aml_nodename(value->v_field.ref1->node)); break; case AML_OBJTYPE_BUFFERFIELD: db_printf("%s: pos=%.4x len=%.4x\n", aml_mnem(value->v_field.type, NULL), value->v_field.bitpos, value->v_field.bitlen); db_printf(" buffer: %s\n", aml_nodename(value->v_field.ref1->node)); break; case AML_OBJTYPE_OPREGION: db_printf("opregion: %s,0x%llx,0x%x\n", db_opregion(value->v_opregion.iospace), value->v_opregion.iobase, value->v_opregion.iolen); break; default: db_printf("unknown: %d\n", value->type); break; } } const char * db_aml_objtype(struct aml_value *val) { if (val == NULL) return "nil"; switch (val->type) { case AML_OBJTYPE_INTEGER: return "integer"; case AML_OBJTYPE_STRING: return "string"; case AML_OBJTYPE_BUFFER: return "buffer"; case AML_OBJTYPE_PACKAGE: return "package"; case AML_OBJTYPE_DEVICE: return "device"; case AML_OBJTYPE_EVENT: return "event"; case AML_OBJTYPE_METHOD: return "method"; case AML_OBJTYPE_MUTEX: return "mutex"; case AML_OBJTYPE_OPREGION: return "opregion"; case AML_OBJTYPE_POWERRSRC: return "powerrsrc"; case AML_OBJTYPE_PROCESSOR: return "processor"; case AML_OBJTYPE_THERMZONE: return "thermzone"; case AML_OBJTYPE_DDBHANDLE: return "ddbhandle"; case AML_OBJTYPE_DEBUGOBJ: return "debugobj"; case AML_OBJTYPE_NAMEREF: return "nameref"; case AML_OBJTYPE_OBJREF: return "refof"; case AML_OBJTYPE_FIELDUNIT: case AML_OBJTYPE_BUFFERFIELD: return aml_mnem(val->v_field.type, NULL); } return (""); } void db_aml_walktree(struct aml_node *node) { while (node) { db_aml_showvalue(node->value); db_aml_walktree(SIMPLEQ_FIRST(&node->son)); node = SIMPLEQ_NEXT(node, sib); } } int db_parse_name(void) { int t, rv = 1; memset(scope, 0, sizeof scope); do { t = db_read_token(); if (t == tIDENT) { if (strlcat(scope, db_tok_string, sizeof scope) >= sizeof scope) { printf("Input too long\n"); goto error; } t = db_read_token(); if (t == tDOT) if (strlcat(scope, ".", sizeof scope) >= sizeof scope) { printf("Input too long 2\n"); goto error; } } } while (t != tEOL); if (!strlen(scope)) { db_printf("Invalid input\n"); goto error; } rv = 0; error: /* get rid of the rest of input */ db_flush_lex(); return (rv); } /* ddb interface */ void db_acpi_showval(db_expr_t addr, int haddr, db_expr_t count, char *modif) { struct aml_node *node; if (db_parse_name()) return; node = aml_searchname(&aml_root, scope); if (node) db_aml_showvalue(node->value); else db_printf("Not a valid value\n"); } void db_disprint(void *arg, const char *fmt, ...) { va_list ap; va_start(ap,fmt); db_vprintf(fmt, ap); va_end(ap); } void db_acpi_disasm(db_expr_t addr, int haddr, db_expr_t count, char *modif) { struct aml_node *node; if (db_parse_name()) return; node = aml_searchname(&aml_root, scope); if (node && node->value && node->value->type == AML_OBJTYPE_METHOD) { struct aml_scope ns; memset(&ns, 0, sizeof(ns)); ns.pos = node->value->v_method.start; ns.end = node->value->v_method.end; ns.node = node; while (ns.pos < ns.end) aml_disasm(&ns, 0, db_disprint, 0); } else db_printf("Not a valid method\n"); } void db_acpi_tree(db_expr_t addr, int haddr, db_expr_t count, char *modif) { db_aml_walktree(&aml_root); } void db_acpi_trace(db_expr_t addr, int haddr, db_expr_t count, char *modif) { struct aml_scope *root; struct aml_value *sp; int idx; extern struct aml_scope *aml_lastscope; for (root=aml_lastscope; root && root->pos; root=root->parent) { db_printf("%.4x Called: %s\n", aml_pc(root->pos), aml_nodename(root->node)); for (idx = 0; idx< AML_MAX_ARG; idx++) { sp = aml_getstack(root, AMLOP_ARG0 + idx); if (sp && sp->type) { db_printf(" arg%d: ", idx); db_aml_showvalue(sp); } } for (idx = 0; idx < AML_MAX_LOCAL; idx++) { sp = aml_getstack(root, AMLOP_LOCAL0 + idx); if (sp && sp->type) { db_printf(" local%d: ", idx); db_aml_showvalue(sp); } } } } #endif /* DDB */