psparse.c revision 1.1.1.11
1 1.1 jruoho /****************************************************************************** 2 1.1 jruoho * 3 1.1 jruoho * Module Name: psparse - Parser top level AML parse routines 4 1.1 jruoho * 5 1.1 jruoho *****************************************************************************/ 6 1.1 jruoho 7 1.1.1.2 jruoho /* 8 1.1.1.9 christos * Copyright (C) 2000 - 2017, Intel Corp. 9 1.1 jruoho * All rights reserved. 10 1.1 jruoho * 11 1.1.1.2 jruoho * Redistribution and use in source and binary forms, with or without 12 1.1.1.2 jruoho * modification, are permitted provided that the following conditions 13 1.1.1.2 jruoho * are met: 14 1.1.1.2 jruoho * 1. Redistributions of source code must retain the above copyright 15 1.1.1.2 jruoho * notice, this list of conditions, and the following disclaimer, 16 1.1.1.2 jruoho * without modification. 17 1.1.1.2 jruoho * 2. Redistributions in binary form must reproduce at minimum a disclaimer 18 1.1.1.2 jruoho * substantially similar to the "NO WARRANTY" disclaimer below 19 1.1.1.2 jruoho * ("Disclaimer") and any redistribution must be conditioned upon 20 1.1.1.2 jruoho * including a substantially similar Disclaimer requirement for further 21 1.1.1.2 jruoho * binary redistribution. 22 1.1.1.2 jruoho * 3. Neither the names of the above-listed copyright holders nor the names 23 1.1.1.2 jruoho * of any contributors may be used to endorse or promote products derived 24 1.1.1.2 jruoho * from this software without specific prior written permission. 25 1.1.1.2 jruoho * 26 1.1.1.2 jruoho * Alternatively, this software may be distributed under the terms of the 27 1.1.1.2 jruoho * GNU General Public License ("GPL") version 2 as published by the Free 28 1.1.1.2 jruoho * Software Foundation. 29 1.1.1.2 jruoho * 30 1.1.1.2 jruoho * NO WARRANTY 31 1.1.1.2 jruoho * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 32 1.1.1.2 jruoho * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 33 1.1.1.2 jruoho * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR 34 1.1.1.2 jruoho * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 35 1.1.1.2 jruoho * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 36 1.1.1.2 jruoho * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 37 1.1.1.2 jruoho * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 38 1.1.1.2 jruoho * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 39 1.1.1.2 jruoho * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING 40 1.1.1.2 jruoho * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 41 1.1.1.2 jruoho * POSSIBILITY OF SUCH DAMAGES. 42 1.1.1.2 jruoho */ 43 1.1 jruoho 44 1.1 jruoho /* 45 1.1 jruoho * Parse the AML and build an operation tree as most interpreters, 46 1.1.1.3 christos * like Perl, do. Parsing is done by hand rather than with a YACC 47 1.1 jruoho * generated parser to tightly constrain stack and dynamic memory 48 1.1.1.3 christos * usage. At the same time, parsing is kept flexible and the code 49 1.1 jruoho * fairly compact by parsing based on a list of AML opcode 50 1.1 jruoho * templates in AmlOpInfo[] 51 1.1 jruoho */ 52 1.1 jruoho 53 1.1 jruoho #include "acpi.h" 54 1.1 jruoho #include "accommon.h" 55 1.1 jruoho #include "acparser.h" 56 1.1 jruoho #include "acdispat.h" 57 1.1 jruoho #include "amlcode.h" 58 1.1 jruoho #include "acinterp.h" 59 1.1.1.11 christos #include "acnamesp.h" 60 1.1 jruoho 61 1.1 jruoho #define _COMPONENT ACPI_PARSER 62 1.1 jruoho ACPI_MODULE_NAME ("psparse") 63 1.1 jruoho 64 1.1 jruoho 65 1.1 jruoho /******************************************************************************* 66 1.1 jruoho * 67 1.1 jruoho * FUNCTION: AcpiPsGetOpcodeSize 68 1.1 jruoho * 69 1.1 jruoho * PARAMETERS: Opcode - An AML opcode 70 1.1 jruoho * 71 1.1 jruoho * RETURN: Size of the opcode, in bytes (1 or 2) 72 1.1 jruoho * 73 1.1 jruoho * DESCRIPTION: Get the size of the current opcode. 74 1.1 jruoho * 75 1.1 jruoho ******************************************************************************/ 76 1.1 jruoho 77 1.1 jruoho UINT32 78 1.1 jruoho AcpiPsGetOpcodeSize ( 79 1.1 jruoho UINT32 Opcode) 80 1.1 jruoho { 81 1.1 jruoho 82 1.1 jruoho /* Extended (2-byte) opcode if > 255 */ 83 1.1 jruoho 84 1.1 jruoho if (Opcode > 0x00FF) 85 1.1 jruoho { 86 1.1 jruoho return (2); 87 1.1 jruoho } 88 1.1 jruoho 89 1.1 jruoho /* Otherwise, just a single byte opcode */ 90 1.1 jruoho 91 1.1 jruoho return (1); 92 1.1 jruoho } 93 1.1 jruoho 94 1.1 jruoho 95 1.1 jruoho /******************************************************************************* 96 1.1 jruoho * 97 1.1 jruoho * FUNCTION: AcpiPsPeekOpcode 98 1.1 jruoho * 99 1.1 jruoho * PARAMETERS: ParserState - A parser state object 100 1.1 jruoho * 101 1.1 jruoho * RETURN: Next AML opcode 102 1.1 jruoho * 103 1.1 jruoho * DESCRIPTION: Get next AML opcode (without incrementing AML pointer) 104 1.1 jruoho * 105 1.1 jruoho ******************************************************************************/ 106 1.1 jruoho 107 1.1 jruoho UINT16 108 1.1 jruoho AcpiPsPeekOpcode ( 109 1.1 jruoho ACPI_PARSE_STATE *ParserState) 110 1.1 jruoho { 111 1.1 jruoho UINT8 *Aml; 112 1.1 jruoho UINT16 Opcode; 113 1.1 jruoho 114 1.1 jruoho 115 1.1 jruoho Aml = ParserState->Aml; 116 1.1 jruoho Opcode = (UINT16) ACPI_GET8 (Aml); 117 1.1 jruoho 118 1.1.1.10 christos if (Opcode == AML_EXTENDED_PREFIX) 119 1.1 jruoho { 120 1.1 jruoho /* Extended opcode, get the second opcode byte */ 121 1.1 jruoho 122 1.1 jruoho Aml++; 123 1.1 jruoho Opcode = (UINT16) ((Opcode << 8) | ACPI_GET8 (Aml)); 124 1.1 jruoho } 125 1.1 jruoho 126 1.1 jruoho return (Opcode); 127 1.1 jruoho } 128 1.1 jruoho 129 1.1 jruoho 130 1.1 jruoho /******************************************************************************* 131 1.1 jruoho * 132 1.1 jruoho * FUNCTION: AcpiPsCompleteThisOp 133 1.1 jruoho * 134 1.1 jruoho * PARAMETERS: WalkState - Current State 135 1.1 jruoho * Op - Op to complete 136 1.1 jruoho * 137 1.1 jruoho * RETURN: Status 138 1.1 jruoho * 139 1.1 jruoho * DESCRIPTION: Perform any cleanup at the completion of an Op. 140 1.1 jruoho * 141 1.1 jruoho ******************************************************************************/ 142 1.1 jruoho 143 1.1 jruoho ACPI_STATUS 144 1.1 jruoho AcpiPsCompleteThisOp ( 145 1.1 jruoho ACPI_WALK_STATE *WalkState, 146 1.1 jruoho ACPI_PARSE_OBJECT *Op) 147 1.1 jruoho { 148 1.1 jruoho ACPI_PARSE_OBJECT *Prev; 149 1.1 jruoho ACPI_PARSE_OBJECT *Next; 150 1.1 jruoho const ACPI_OPCODE_INFO *ParentInfo; 151 1.1 jruoho ACPI_PARSE_OBJECT *ReplacementOp = NULL; 152 1.1 jruoho ACPI_STATUS Status = AE_OK; 153 1.1 jruoho 154 1.1 jruoho 155 1.1 jruoho ACPI_FUNCTION_TRACE_PTR (PsCompleteThisOp, Op); 156 1.1 jruoho 157 1.1 jruoho 158 1.1 jruoho /* Check for null Op, can happen if AML code is corrupt */ 159 1.1 jruoho 160 1.1 jruoho if (!Op) 161 1.1 jruoho { 162 1.1 jruoho return_ACPI_STATUS (AE_OK); /* OK for now */ 163 1.1 jruoho } 164 1.1 jruoho 165 1.1.1.6 christos AcpiExStopTraceOpcode (Op, WalkState); 166 1.1.1.6 christos 167 1.1 jruoho /* Delete this op and the subtree below it if asked to */ 168 1.1 jruoho 169 1.1 jruoho if (((WalkState->ParseFlags & ACPI_PARSE_TREE_MASK) != ACPI_PARSE_DELETE_TREE) || 170 1.1 jruoho (WalkState->OpInfo->Class == AML_CLASS_ARGUMENT)) 171 1.1 jruoho { 172 1.1 jruoho return_ACPI_STATUS (AE_OK); 173 1.1 jruoho } 174 1.1 jruoho 175 1.1 jruoho /* Make sure that we only delete this subtree */ 176 1.1 jruoho 177 1.1 jruoho if (Op->Common.Parent) 178 1.1 jruoho { 179 1.1 jruoho Prev = Op->Common.Parent->Common.Value.Arg; 180 1.1 jruoho if (!Prev) 181 1.1 jruoho { 182 1.1 jruoho /* Nothing more to do */ 183 1.1 jruoho 184 1.1 jruoho goto Cleanup; 185 1.1 jruoho } 186 1.1 jruoho 187 1.1 jruoho /* 188 1.1 jruoho * Check if we need to replace the operator and its subtree 189 1.1 jruoho * with a return value op (placeholder op) 190 1.1 jruoho */ 191 1.1 jruoho ParentInfo = AcpiPsGetOpcodeInfo (Op->Common.Parent->Common.AmlOpcode); 192 1.1 jruoho 193 1.1 jruoho switch (ParentInfo->Class) 194 1.1 jruoho { 195 1.1 jruoho case AML_CLASS_CONTROL: 196 1.1.1.3 christos 197 1.1 jruoho break; 198 1.1 jruoho 199 1.1 jruoho case AML_CLASS_CREATE: 200 1.1 jruoho /* 201 1.1.1.3 christos * These opcodes contain TermArg operands. The current 202 1.1 jruoho * op must be replaced by a placeholder return op 203 1.1 jruoho */ 204 1.1.1.7 christos ReplacementOp = AcpiPsAllocOp ( 205 1.1.1.7 christos AML_INT_RETURN_VALUE_OP, Op->Common.Aml); 206 1.1 jruoho if (!ReplacementOp) 207 1.1 jruoho { 208 1.1 jruoho Status = AE_NO_MEMORY; 209 1.1 jruoho } 210 1.1 jruoho break; 211 1.1 jruoho 212 1.1 jruoho case AML_CLASS_NAMED_OBJECT: 213 1.1 jruoho /* 214 1.1.1.3 christos * These opcodes contain TermArg operands. The current 215 1.1 jruoho * op must be replaced by a placeholder return op 216 1.1 jruoho */ 217 1.1 jruoho if ((Op->Common.Parent->Common.AmlOpcode == AML_REGION_OP) || 218 1.1 jruoho (Op->Common.Parent->Common.AmlOpcode == AML_DATA_REGION_OP) || 219 1.1 jruoho (Op->Common.Parent->Common.AmlOpcode == AML_BUFFER_OP) || 220 1.1 jruoho (Op->Common.Parent->Common.AmlOpcode == AML_PACKAGE_OP) || 221 1.1 jruoho (Op->Common.Parent->Common.AmlOpcode == AML_BANK_FIELD_OP) || 222 1.1.1.10 christos (Op->Common.Parent->Common.AmlOpcode == AML_VARIABLE_PACKAGE_OP)) 223 1.1 jruoho { 224 1.1.1.7 christos ReplacementOp = AcpiPsAllocOp ( 225 1.1.1.7 christos AML_INT_RETURN_VALUE_OP, Op->Common.Aml); 226 1.1 jruoho if (!ReplacementOp) 227 1.1 jruoho { 228 1.1 jruoho Status = AE_NO_MEMORY; 229 1.1 jruoho } 230 1.1 jruoho } 231 1.1 jruoho else if ((Op->Common.Parent->Common.AmlOpcode == AML_NAME_OP) && 232 1.1 jruoho (WalkState->PassNumber <= ACPI_IMODE_LOAD_PASS2)) 233 1.1 jruoho { 234 1.1 jruoho if ((Op->Common.AmlOpcode == AML_BUFFER_OP) || 235 1.1 jruoho (Op->Common.AmlOpcode == AML_PACKAGE_OP) || 236 1.1.1.10 christos (Op->Common.AmlOpcode == AML_VARIABLE_PACKAGE_OP)) 237 1.1 jruoho { 238 1.1.1.6 christos ReplacementOp = AcpiPsAllocOp (Op->Common.AmlOpcode, 239 1.1.1.7 christos Op->Common.Aml); 240 1.1 jruoho if (!ReplacementOp) 241 1.1 jruoho { 242 1.1 jruoho Status = AE_NO_MEMORY; 243 1.1 jruoho } 244 1.1 jruoho else 245 1.1 jruoho { 246 1.1 jruoho ReplacementOp->Named.Data = Op->Named.Data; 247 1.1 jruoho ReplacementOp->Named.Length = Op->Named.Length; 248 1.1 jruoho } 249 1.1 jruoho } 250 1.1 jruoho } 251 1.1 jruoho break; 252 1.1 jruoho 253 1.1 jruoho default: 254 1.1 jruoho 255 1.1.1.7 christos ReplacementOp = AcpiPsAllocOp ( 256 1.1.1.7 christos AML_INT_RETURN_VALUE_OP, Op->Common.Aml); 257 1.1 jruoho if (!ReplacementOp) 258 1.1 jruoho { 259 1.1 jruoho Status = AE_NO_MEMORY; 260 1.1 jruoho } 261 1.1 jruoho } 262 1.1 jruoho 263 1.1 jruoho /* We must unlink this op from the parent tree */ 264 1.1 jruoho 265 1.1 jruoho if (Prev == Op) 266 1.1 jruoho { 267 1.1 jruoho /* This op is the first in the list */ 268 1.1 jruoho 269 1.1 jruoho if (ReplacementOp) 270 1.1 jruoho { 271 1.1.1.7 christos ReplacementOp->Common.Parent = Op->Common.Parent; 272 1.1.1.7 christos ReplacementOp->Common.Value.Arg = NULL; 273 1.1.1.7 christos ReplacementOp->Common.Node = Op->Common.Node; 274 1.1 jruoho Op->Common.Parent->Common.Value.Arg = ReplacementOp; 275 1.1.1.7 christos ReplacementOp->Common.Next = Op->Common.Next; 276 1.1 jruoho } 277 1.1 jruoho else 278 1.1 jruoho { 279 1.1 jruoho Op->Common.Parent->Common.Value.Arg = Op->Common.Next; 280 1.1 jruoho } 281 1.1 jruoho } 282 1.1 jruoho 283 1.1 jruoho /* Search the parent list */ 284 1.1 jruoho 285 1.1 jruoho else while (Prev) 286 1.1 jruoho { 287 1.1 jruoho /* Traverse all siblings in the parent's argument list */ 288 1.1 jruoho 289 1.1 jruoho Next = Prev->Common.Next; 290 1.1 jruoho if (Next == Op) 291 1.1 jruoho { 292 1.1 jruoho if (ReplacementOp) 293 1.1 jruoho { 294 1.1.1.7 christos ReplacementOp->Common.Parent = Op->Common.Parent; 295 1.1 jruoho ReplacementOp->Common.Value.Arg = NULL; 296 1.1.1.7 christos ReplacementOp->Common.Node = Op->Common.Node; 297 1.1.1.7 christos Prev->Common.Next = ReplacementOp; 298 1.1.1.7 christos ReplacementOp->Common.Next = Op->Common.Next; 299 1.1 jruoho Next = NULL; 300 1.1 jruoho } 301 1.1 jruoho else 302 1.1 jruoho { 303 1.1 jruoho Prev->Common.Next = Op->Common.Next; 304 1.1 jruoho Next = NULL; 305 1.1 jruoho } 306 1.1 jruoho } 307 1.1 jruoho Prev = Next; 308 1.1 jruoho } 309 1.1 jruoho } 310 1.1 jruoho 311 1.1 jruoho 312 1.1 jruoho Cleanup: 313 1.1 jruoho 314 1.1 jruoho /* Now we can actually delete the subtree rooted at Op */ 315 1.1 jruoho 316 1.1 jruoho AcpiPsDeleteParseTree (Op); 317 1.1 jruoho return_ACPI_STATUS (Status); 318 1.1 jruoho } 319 1.1 jruoho 320 1.1 jruoho 321 1.1 jruoho /******************************************************************************* 322 1.1 jruoho * 323 1.1 jruoho * FUNCTION: AcpiPsNextParseState 324 1.1 jruoho * 325 1.1 jruoho * PARAMETERS: WalkState - Current state 326 1.1 jruoho * Op - Current parse op 327 1.1 jruoho * CallbackStatus - Status from previous operation 328 1.1 jruoho * 329 1.1 jruoho * RETURN: Status 330 1.1 jruoho * 331 1.1 jruoho * DESCRIPTION: Update the parser state based upon the return exception from 332 1.1 jruoho * the parser callback. 333 1.1 jruoho * 334 1.1 jruoho ******************************************************************************/ 335 1.1 jruoho 336 1.1 jruoho ACPI_STATUS 337 1.1 jruoho AcpiPsNextParseState ( 338 1.1 jruoho ACPI_WALK_STATE *WalkState, 339 1.1 jruoho ACPI_PARSE_OBJECT *Op, 340 1.1 jruoho ACPI_STATUS CallbackStatus) 341 1.1 jruoho { 342 1.1 jruoho ACPI_PARSE_STATE *ParserState = &WalkState->ParserState; 343 1.1 jruoho ACPI_STATUS Status = AE_CTRL_PENDING; 344 1.1 jruoho 345 1.1 jruoho 346 1.1 jruoho ACPI_FUNCTION_TRACE_PTR (PsNextParseState, Op); 347 1.1 jruoho 348 1.1 jruoho 349 1.1 jruoho switch (CallbackStatus) 350 1.1 jruoho { 351 1.1 jruoho case AE_CTRL_TERMINATE: 352 1.1 jruoho /* 353 1.1 jruoho * A control method was terminated via a RETURN statement. 354 1.1 jruoho * The walk of this method is complete. 355 1.1 jruoho */ 356 1.1 jruoho ParserState->Aml = ParserState->AmlEnd; 357 1.1 jruoho Status = AE_CTRL_TERMINATE; 358 1.1 jruoho break; 359 1.1 jruoho 360 1.1 jruoho case AE_CTRL_BREAK: 361 1.1 jruoho 362 1.1 jruoho ParserState->Aml = WalkState->AmlLastWhile; 363 1.1 jruoho WalkState->ControlState->Common.Value = FALSE; 364 1.1 jruoho Status = AE_CTRL_BREAK; 365 1.1 jruoho break; 366 1.1 jruoho 367 1.1 jruoho case AE_CTRL_CONTINUE: 368 1.1 jruoho 369 1.1 jruoho ParserState->Aml = WalkState->AmlLastWhile; 370 1.1 jruoho Status = AE_CTRL_CONTINUE; 371 1.1 jruoho break; 372 1.1 jruoho 373 1.1 jruoho case AE_CTRL_PENDING: 374 1.1 jruoho 375 1.1 jruoho ParserState->Aml = WalkState->AmlLastWhile; 376 1.1 jruoho break; 377 1.1 jruoho 378 1.1 jruoho #if 0 379 1.1 jruoho case AE_CTRL_SKIP: 380 1.1 jruoho 381 1.1 jruoho ParserState->Aml = ParserState->Scope->ParseScope.PkgEnd; 382 1.1 jruoho Status = AE_OK; 383 1.1 jruoho break; 384 1.1 jruoho #endif 385 1.1 jruoho 386 1.1 jruoho case AE_CTRL_TRUE: 387 1.1 jruoho /* 388 1.1 jruoho * Predicate of an IF was true, and we are at the matching ELSE. 389 1.1 jruoho * Just close out this package 390 1.1 jruoho */ 391 1.1 jruoho ParserState->Aml = AcpiPsGetNextPackageEnd (ParserState); 392 1.1 jruoho Status = AE_CTRL_PENDING; 393 1.1 jruoho break; 394 1.1 jruoho 395 1.1 jruoho case AE_CTRL_FALSE: 396 1.1 jruoho /* 397 1.1 jruoho * Either an IF/WHILE Predicate was false or we encountered a BREAK 398 1.1.1.3 christos * opcode. In both cases, we do not execute the rest of the 399 1.1 jruoho * package; We simply close out the parent (finishing the walk of 400 1.1 jruoho * this branch of the tree) and continue execution at the parent 401 1.1 jruoho * level. 402 1.1 jruoho */ 403 1.1 jruoho ParserState->Aml = ParserState->Scope->ParseScope.PkgEnd; 404 1.1 jruoho 405 1.1 jruoho /* In the case of a BREAK, just force a predicate (if any) to FALSE */ 406 1.1 jruoho 407 1.1 jruoho WalkState->ControlState->Common.Value = FALSE; 408 1.1 jruoho Status = AE_CTRL_END; 409 1.1 jruoho break; 410 1.1 jruoho 411 1.1 jruoho case AE_CTRL_TRANSFER: 412 1.1 jruoho 413 1.1 jruoho /* A method call (invocation) -- transfer control */ 414 1.1 jruoho 415 1.1 jruoho Status = AE_CTRL_TRANSFER; 416 1.1 jruoho WalkState->PrevOp = Op; 417 1.1 jruoho WalkState->MethodCallOp = Op; 418 1.1 jruoho WalkState->MethodCallNode = (Op->Common.Value.Arg)->Common.Node; 419 1.1 jruoho 420 1.1 jruoho /* Will return value (if any) be used by the caller? */ 421 1.1 jruoho 422 1.1 jruoho WalkState->ReturnUsed = AcpiDsIsResultUsed (Op, WalkState); 423 1.1 jruoho break; 424 1.1 jruoho 425 1.1 jruoho default: 426 1.1 jruoho 427 1.1 jruoho Status = CallbackStatus; 428 1.1 jruoho if ((CallbackStatus & AE_CODE_MASK) == AE_CODE_CONTROL) 429 1.1 jruoho { 430 1.1 jruoho Status = AE_OK; 431 1.1 jruoho } 432 1.1 jruoho break; 433 1.1 jruoho } 434 1.1 jruoho 435 1.1 jruoho return_ACPI_STATUS (Status); 436 1.1 jruoho } 437 1.1 jruoho 438 1.1 jruoho 439 1.1 jruoho /******************************************************************************* 440 1.1 jruoho * 441 1.1 jruoho * FUNCTION: AcpiPsParseAml 442 1.1 jruoho * 443 1.1 jruoho * PARAMETERS: WalkState - Current state 444 1.1 jruoho * 445 1.1 jruoho * 446 1.1 jruoho * RETURN: Status 447 1.1 jruoho * 448 1.1 jruoho * DESCRIPTION: Parse raw AML and return a tree of ops 449 1.1 jruoho * 450 1.1 jruoho ******************************************************************************/ 451 1.1 jruoho 452 1.1 jruoho ACPI_STATUS 453 1.1 jruoho AcpiPsParseAml ( 454 1.1 jruoho ACPI_WALK_STATE *WalkState) 455 1.1 jruoho { 456 1.1 jruoho ACPI_STATUS Status; 457 1.1 jruoho ACPI_THREAD_STATE *Thread; 458 1.1 jruoho ACPI_THREAD_STATE *PrevWalkList = AcpiGbl_CurrentWalkList; 459 1.1 jruoho ACPI_WALK_STATE *PreviousWalkState; 460 1.1 jruoho 461 1.1 jruoho 462 1.1 jruoho ACPI_FUNCTION_TRACE (PsParseAml); 463 1.1 jruoho 464 1.1 jruoho ACPI_DEBUG_PRINT ((ACPI_DB_PARSE, 465 1.1 jruoho "Entered with WalkState=%p Aml=%p size=%X\n", 466 1.1 jruoho WalkState, WalkState->ParserState.Aml, 467 1.1 jruoho WalkState->ParserState.AmlSize)); 468 1.1 jruoho 469 1.1 jruoho if (!WalkState->ParserState.Aml) 470 1.1 jruoho { 471 1.1 jruoho return_ACPI_STATUS (AE_NULL_OBJECT); 472 1.1 jruoho } 473 1.1 jruoho 474 1.1 jruoho /* Create and initialize a new thread state */ 475 1.1 jruoho 476 1.1 jruoho Thread = AcpiUtCreateThreadState (); 477 1.1 jruoho if (!Thread) 478 1.1 jruoho { 479 1.1 jruoho if (WalkState->MethodDesc) 480 1.1 jruoho { 481 1.1 jruoho /* Executing a control method - additional cleanup */ 482 1.1 jruoho 483 1.1 jruoho AcpiDsTerminateControlMethod (WalkState->MethodDesc, WalkState); 484 1.1 jruoho } 485 1.1 jruoho 486 1.1 jruoho AcpiDsDeleteWalkState (WalkState); 487 1.1 jruoho return_ACPI_STATUS (AE_NO_MEMORY); 488 1.1 jruoho } 489 1.1 jruoho 490 1.1 jruoho WalkState->Thread = Thread; 491 1.1 jruoho 492 1.1 jruoho /* 493 1.1 jruoho * If executing a method, the starting SyncLevel is this method's 494 1.1 jruoho * SyncLevel 495 1.1 jruoho */ 496 1.1 jruoho if (WalkState->MethodDesc) 497 1.1 jruoho { 498 1.1.1.7 christos WalkState->Thread->CurrentSyncLevel = 499 1.1.1.7 christos WalkState->MethodDesc->Method.SyncLevel; 500 1.1 jruoho } 501 1.1 jruoho 502 1.1 jruoho AcpiDsPushWalkState (WalkState, Thread); 503 1.1 jruoho 504 1.1 jruoho /* 505 1.1 jruoho * This global allows the AML debugger to get a handle to the currently 506 1.1 jruoho * executing control method. 507 1.1 jruoho */ 508 1.1 jruoho AcpiGbl_CurrentWalkList = Thread; 509 1.1 jruoho 510 1.1 jruoho /* 511 1.1.1.3 christos * Execute the walk loop as long as there is a valid Walk State. This 512 1.1 jruoho * handles nested control method invocations without recursion. 513 1.1 jruoho */ 514 1.1 jruoho ACPI_DEBUG_PRINT ((ACPI_DB_PARSE, "State=%p\n", WalkState)); 515 1.1 jruoho 516 1.1 jruoho Status = AE_OK; 517 1.1 jruoho while (WalkState) 518 1.1 jruoho { 519 1.1 jruoho if (ACPI_SUCCESS (Status)) 520 1.1 jruoho { 521 1.1 jruoho /* 522 1.1 jruoho * The ParseLoop executes AML until the method terminates 523 1.1 jruoho * or calls another method. 524 1.1 jruoho */ 525 1.1 jruoho Status = AcpiPsParseLoop (WalkState); 526 1.1 jruoho } 527 1.1 jruoho 528 1.1 jruoho ACPI_DEBUG_PRINT ((ACPI_DB_PARSE, 529 1.1 jruoho "Completed one call to walk loop, %s State=%p\n", 530 1.1 jruoho AcpiFormatException (Status), WalkState)); 531 1.1 jruoho 532 1.1 jruoho if (Status == AE_CTRL_TRANSFER) 533 1.1 jruoho { 534 1.1 jruoho /* 535 1.1 jruoho * A method call was detected. 536 1.1 jruoho * Transfer control to the called control method 537 1.1 jruoho */ 538 1.1 jruoho Status = AcpiDsCallControlMethod (Thread, WalkState, NULL); 539 1.1 jruoho if (ACPI_FAILURE (Status)) 540 1.1 jruoho { 541 1.1 jruoho Status = AcpiDsMethodError (Status, WalkState); 542 1.1 jruoho } 543 1.1 jruoho 544 1.1 jruoho /* 545 1.1.1.7 christos * If the transfer to the new method method call worked 546 1.1.1.7 christos *, a new walk state was created -- get it 547 1.1 jruoho */ 548 1.1 jruoho WalkState = AcpiDsGetCurrentWalkState (Thread); 549 1.1 jruoho continue; 550 1.1 jruoho } 551 1.1 jruoho else if (Status == AE_CTRL_TERMINATE) 552 1.1 jruoho { 553 1.1 jruoho Status = AE_OK; 554 1.1 jruoho } 555 1.1 jruoho else if ((Status != AE_OK) && (WalkState->MethodDesc)) 556 1.1 jruoho { 557 1.1 jruoho /* Either the method parse or actual execution failed */ 558 1.1 jruoho 559 1.1.1.8 christos AcpiExExitInterpreter (); 560 1.1.1.11 christos if (Status == AE_ABORT_METHOD) 561 1.1.1.11 christos { 562 1.1.1.11 christos AcpiNsPrintNodePathname ( 563 1.1.1.11 christos WalkState->MethodNode, "Method aborted:"); 564 1.1.1.11 christos AcpiOsPrintf ("\n"); 565 1.1.1.11 christos } 566 1.1.1.11 christos else 567 1.1.1.11 christos { 568 1.1.1.11 christos ACPI_ERROR_METHOD ("Method parse/execution failed", 569 1.1.1.11 christos WalkState->MethodNode, NULL, Status); 570 1.1.1.11 christos } 571 1.1.1.8 christos AcpiExEnterInterpreter (); 572 1.1 jruoho 573 1.1 jruoho /* Check for possible multi-thread reentrancy problem */ 574 1.1 jruoho 575 1.1 jruoho if ((Status == AE_ALREADY_EXISTS) && 576 1.1.1.7 christos (!(WalkState->MethodDesc->Method.InfoFlags & 577 1.1.1.7 christos ACPI_METHOD_SERIALIZED))) 578 1.1 jruoho { 579 1.1 jruoho /* 580 1.1.1.2 jruoho * Method is not serialized and tried to create an object 581 1.1.1.2 jruoho * twice. The probable cause is that the method cannot 582 1.1.1.2 jruoho * handle reentrancy. Mark as "pending serialized" now, and 583 1.1.1.2 jruoho * then mark "serialized" when the last thread exits. 584 1.1 jruoho */ 585 1.1.1.2 jruoho WalkState->MethodDesc->Method.InfoFlags |= 586 1.1.1.2 jruoho ACPI_METHOD_SERIALIZED_PENDING; 587 1.1 jruoho } 588 1.1 jruoho } 589 1.1 jruoho 590 1.1 jruoho /* We are done with this walk, move on to the parent if any */ 591 1.1 jruoho 592 1.1 jruoho WalkState = AcpiDsPopWalkState (Thread); 593 1.1 jruoho 594 1.1 jruoho /* Reset the current scope to the beginning of scope stack */ 595 1.1 jruoho 596 1.1 jruoho AcpiDsScopeStackClear (WalkState); 597 1.1 jruoho 598 1.1 jruoho /* 599 1.1 jruoho * If we just returned from the execution of a control method or if we 600 1.1 jruoho * encountered an error during the method parse phase, there's lots of 601 1.1 jruoho * cleanup to do 602 1.1 jruoho */ 603 1.1.1.7 christos if (((WalkState->ParseFlags & ACPI_PARSE_MODE_MASK) == 604 1.1.1.8 christos ACPI_PARSE_EXECUTE && 605 1.1.1.8 christos !(WalkState->ParseFlags & ACPI_PARSE_MODULE_LEVEL)) || 606 1.1 jruoho (ACPI_FAILURE (Status))) 607 1.1 jruoho { 608 1.1 jruoho AcpiDsTerminateControlMethod (WalkState->MethodDesc, WalkState); 609 1.1 jruoho } 610 1.1 jruoho 611 1.1 jruoho /* Delete this walk state and all linked control states */ 612 1.1 jruoho 613 1.1 jruoho AcpiPsCleanupScope (&WalkState->ParserState); 614 1.1 jruoho PreviousWalkState = WalkState; 615 1.1 jruoho 616 1.1 jruoho ACPI_DEBUG_PRINT ((ACPI_DB_PARSE, 617 1.1 jruoho "ReturnValue=%p, ImplicitValue=%p State=%p\n", 618 1.1 jruoho WalkState->ReturnDesc, WalkState->ImplicitReturnObj, WalkState)); 619 1.1 jruoho 620 1.1 jruoho /* Check if we have restarted a preempted walk */ 621 1.1 jruoho 622 1.1 jruoho WalkState = AcpiDsGetCurrentWalkState (Thread); 623 1.1 jruoho if (WalkState) 624 1.1 jruoho { 625 1.1 jruoho if (ACPI_SUCCESS (Status)) 626 1.1 jruoho { 627 1.1 jruoho /* 628 1.1 jruoho * There is another walk state, restart it. 629 1.1 jruoho * If the method return value is not used by the parent, 630 1.1 jruoho * The object is deleted 631 1.1 jruoho */ 632 1.1 jruoho if (!PreviousWalkState->ReturnDesc) 633 1.1 jruoho { 634 1.1 jruoho /* 635 1.1 jruoho * In slack mode execution, if there is no return value 636 1.1 jruoho * we should implicitly return zero (0) as a default value. 637 1.1 jruoho */ 638 1.1 jruoho if (AcpiGbl_EnableInterpreterSlack && 639 1.1 jruoho !PreviousWalkState->ImplicitReturnObj) 640 1.1 jruoho { 641 1.1 jruoho PreviousWalkState->ImplicitReturnObj = 642 1.1 jruoho AcpiUtCreateIntegerObject ((UINT64) 0); 643 1.1 jruoho if (!PreviousWalkState->ImplicitReturnObj) 644 1.1 jruoho { 645 1.1 jruoho return_ACPI_STATUS (AE_NO_MEMORY); 646 1.1 jruoho } 647 1.1 jruoho } 648 1.1 jruoho 649 1.1 jruoho /* Restart the calling control method */ 650 1.1 jruoho 651 1.1 jruoho Status = AcpiDsRestartControlMethod (WalkState, 652 1.1.1.7 christos PreviousWalkState->ImplicitReturnObj); 653 1.1 jruoho } 654 1.1 jruoho else 655 1.1 jruoho { 656 1.1 jruoho /* 657 1.1 jruoho * We have a valid return value, delete any implicit 658 1.1 jruoho * return value. 659 1.1 jruoho */ 660 1.1 jruoho AcpiDsClearImplicitReturn (PreviousWalkState); 661 1.1 jruoho 662 1.1 jruoho Status = AcpiDsRestartControlMethod (WalkState, 663 1.1.1.7 christos PreviousWalkState->ReturnDesc); 664 1.1 jruoho } 665 1.1 jruoho if (ACPI_SUCCESS (Status)) 666 1.1 jruoho { 667 1.1 jruoho WalkState->WalkType |= ACPI_WALK_METHOD_RESTART; 668 1.1 jruoho } 669 1.1 jruoho } 670 1.1 jruoho else 671 1.1 jruoho { 672 1.1 jruoho /* On error, delete any return object or implicit return */ 673 1.1 jruoho 674 1.1 jruoho AcpiUtRemoveReference (PreviousWalkState->ReturnDesc); 675 1.1 jruoho AcpiDsClearImplicitReturn (PreviousWalkState); 676 1.1 jruoho } 677 1.1 jruoho } 678 1.1 jruoho 679 1.1 jruoho /* 680 1.1 jruoho * Just completed a 1st-level method, save the final internal return 681 1.1 jruoho * value (if any) 682 1.1 jruoho */ 683 1.1 jruoho else if (PreviousWalkState->CallerReturnDesc) 684 1.1 jruoho { 685 1.1 jruoho if (PreviousWalkState->ImplicitReturnObj) 686 1.1 jruoho { 687 1.1 jruoho *(PreviousWalkState->CallerReturnDesc) = 688 1.1 jruoho PreviousWalkState->ImplicitReturnObj; 689 1.1 jruoho } 690 1.1 jruoho else 691 1.1 jruoho { 692 1.1 jruoho /* NULL if no return value */ 693 1.1 jruoho 694 1.1 jruoho *(PreviousWalkState->CallerReturnDesc) = 695 1.1 jruoho PreviousWalkState->ReturnDesc; 696 1.1 jruoho } 697 1.1 jruoho } 698 1.1 jruoho else 699 1.1 jruoho { 700 1.1 jruoho if (PreviousWalkState->ReturnDesc) 701 1.1 jruoho { 702 1.1 jruoho /* Caller doesn't want it, must delete it */ 703 1.1 jruoho 704 1.1 jruoho AcpiUtRemoveReference (PreviousWalkState->ReturnDesc); 705 1.1 jruoho } 706 1.1 jruoho if (PreviousWalkState->ImplicitReturnObj) 707 1.1 jruoho { 708 1.1 jruoho /* Caller doesn't want it, must delete it */ 709 1.1 jruoho 710 1.1 jruoho AcpiUtRemoveReference (PreviousWalkState->ImplicitReturnObj); 711 1.1 jruoho } 712 1.1 jruoho } 713 1.1 jruoho 714 1.1 jruoho AcpiDsDeleteWalkState (PreviousWalkState); 715 1.1 jruoho } 716 1.1 jruoho 717 1.1 jruoho /* Normal exit */ 718 1.1 jruoho 719 1.1 jruoho AcpiExReleaseAllMutexes (Thread); 720 1.1 jruoho AcpiUtDeleteGenericState (ACPI_CAST_PTR (ACPI_GENERIC_STATE, Thread)); 721 1.1 jruoho AcpiGbl_CurrentWalkList = PrevWalkList; 722 1.1 jruoho return_ACPI_STATUS (Status); 723 1.1 jruoho } 724
Indexes created Mon Sep 22 21:09:42 GMT 2025