dist/dispatcher/dswexec.c

     1.1    jruoho /******************************************************************************
     1.1    jruoho  *
     1.1    jruoho  * Module Name: dswexec - Dispatcher method execution callbacks;
     1.1    jruoho  *                        dispatch to interpreter.
     1.1    jruoho  *
     1.1    jruoho  *****************************************************************************/
     1.1    jruoho
 1.1.1.2    jruoho /*
1.1.1.11  christos  * Copyright (C) 2000 - 2018, Intel Corp.
     1.1    jruoho  * All rights reserved.
     1.1    jruoho  *
 1.1.1.2    jruoho  * Redistribution and use in source and binary forms, with or without
 1.1.1.2    jruoho  * modification, are permitted provided that the following conditions
 1.1.1.2    jruoho  * are met:
 1.1.1.2    jruoho  * 1. Redistributions of source code must retain the above copyright
 1.1.1.2    jruoho  *    notice, this list of conditions, and the following disclaimer,
 1.1.1.2    jruoho  *    without modification.
 1.1.1.2    jruoho  * 2. Redistributions in binary form must reproduce at minimum a disclaimer
 1.1.1.2    jruoho  *    substantially similar to the "NO WARRANTY" disclaimer below
 1.1.1.2    jruoho  *    ("Disclaimer") and any redistribution must be conditioned upon
 1.1.1.2    jruoho  *    including a substantially similar Disclaimer requirement for further
 1.1.1.2    jruoho  *    binary redistribution.
 1.1.1.2    jruoho  * 3. Neither the names of the above-listed copyright holders nor the names
 1.1.1.2    jruoho  *    of any contributors may be used to endorse or promote products derived
 1.1.1.2    jruoho  *    from this software without specific prior written permission.
 1.1.1.2    jruoho  *
 1.1.1.2    jruoho  * Alternatively, this software may be distributed under the terms of the
 1.1.1.2    jruoho  * GNU General Public License ("GPL") version 2 as published by the Free
 1.1.1.2    jruoho  * Software Foundation.
 1.1.1.2    jruoho  *
 1.1.1.2    jruoho  * NO WARRANTY
 1.1.1.2    jruoho  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 1.1.1.2    jruoho  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 1.1.1.2    jruoho  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR
 1.1.1.2    jruoho  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 1.1.1.2    jruoho  * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1.1.2    jruoho  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1.1.2    jruoho  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1.1.2    jruoho  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
 1.1.1.2    jruoho  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
 1.1.1.2    jruoho  * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1.1.2    jruoho  * POSSIBILITY OF SUCH DAMAGES.
 1.1.1.2    jruoho  */
     1.1    jruoho
     1.1    jruoho #include "acpi.h"
     1.1    jruoho #include "accommon.h"
     1.1    jruoho #include "acparser.h"
     1.1    jruoho #include "amlcode.h"
     1.1    jruoho #include "acdispat.h"
     1.1    jruoho #include "acinterp.h"
     1.1    jruoho #include "acnamesp.h"
     1.1    jruoho #include "acdebug.h"
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho #define _COMPONENT          ACPI_DISPATCHER
     1.1    jruoho         ACPI_MODULE_NAME    ("dswexec")
     1.1    jruoho
     1.1    jruoho /*
     1.1    jruoho  * Dispatch table for opcode classes
     1.1    jruoho  */
     1.1    jruoho static ACPI_EXECUTE_OP      AcpiGbl_OpTypeDispatch [] =
     1.1    jruoho {
     1.1    jruoho     AcpiExOpcode_0A_0T_1R,
     1.1    jruoho     AcpiExOpcode_1A_0T_0R,
     1.1    jruoho     AcpiExOpcode_1A_0T_1R,
     1.1    jruoho     AcpiExOpcode_1A_1T_0R,
     1.1    jruoho     AcpiExOpcode_1A_1T_1R,
     1.1    jruoho     AcpiExOpcode_2A_0T_0R,
     1.1    jruoho     AcpiExOpcode_2A_0T_1R,
     1.1    jruoho     AcpiExOpcode_2A_1T_1R,
     1.1    jruoho     AcpiExOpcode_2A_2T_1R,
     1.1    jruoho     AcpiExOpcode_3A_0T_0R,
     1.1    jruoho     AcpiExOpcode_3A_1T_1R,
     1.1    jruoho     AcpiExOpcode_6A_0T_1R
     1.1    jruoho };
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho /*****************************************************************************
     1.1    jruoho  *
     1.1    jruoho  * FUNCTION:    AcpiDsGetPredicateValue
     1.1    jruoho  *
     1.1    jruoho  * PARAMETERS:  WalkState       - Current state of the parse tree walk
     1.1    jruoho  *              ResultObj       - if non-zero, pop result from result stack
     1.1    jruoho  *
     1.1    jruoho  * RETURN:      Status
     1.1    jruoho  *
     1.1    jruoho  * DESCRIPTION: Get the result of a predicate evaluation
     1.1    jruoho  *
     1.1    jruoho  ****************************************************************************/
     1.1    jruoho
     1.1    jruoho ACPI_STATUS
     1.1    jruoho AcpiDsGetPredicateValue (
     1.1    jruoho     ACPI_WALK_STATE         *WalkState,
     1.1    jruoho     ACPI_OPERAND_OBJECT     *ResultObj)
     1.1    jruoho {
     1.1    jruoho     ACPI_STATUS             Status = AE_OK;
     1.1    jruoho     ACPI_OPERAND_OBJECT     *ObjDesc;
     1.1    jruoho     ACPI_OPERAND_OBJECT     *LocalObjDesc = NULL;
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     ACPI_FUNCTION_TRACE_PTR (DsGetPredicateValue, WalkState);
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     WalkState->ControlState->Common.State = 0;
     1.1    jruoho
     1.1    jruoho     if (ResultObj)
     1.1    jruoho     {
     1.1    jruoho         Status = AcpiDsResultPop (&ObjDesc, WalkState);
     1.1    jruoho         if (ACPI_FAILURE (Status))
     1.1    jruoho         {
     1.1    jruoho             ACPI_EXCEPTION ((AE_INFO, Status,
     1.1    jruoho                 "Could not get result from predicate evaluation"));
     1.1    jruoho
     1.1    jruoho             return_ACPI_STATUS (Status);
     1.1    jruoho         }
     1.1    jruoho     }
     1.1    jruoho     else
     1.1    jruoho     {
     1.1    jruoho         Status = AcpiDsCreateOperand (WalkState, WalkState->Op, 0);
     1.1    jruoho         if (ACPI_FAILURE (Status))
     1.1    jruoho         {
     1.1    jruoho             return_ACPI_STATUS (Status);
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         Status = AcpiExResolveToValue (&WalkState->Operands [0], WalkState);
     1.1    jruoho         if (ACPI_FAILURE (Status))
     1.1    jruoho         {
     1.1    jruoho             return_ACPI_STATUS (Status);
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         ObjDesc = WalkState->Operands [0];
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     if (!ObjDesc)
     1.1    jruoho     {
     1.1    jruoho         ACPI_ERROR ((AE_INFO,
     1.1    jruoho             "No predicate ObjDesc=%p State=%p",
     1.1    jruoho             ObjDesc, WalkState));
     1.1    jruoho
     1.1    jruoho         return_ACPI_STATUS (AE_AML_NO_OPERAND);
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * Result of predicate evaluation must be an Integer
     1.1    jruoho      * object. Implicitly convert the argument if necessary.
     1.1    jruoho      */
 1.1.1.7  christos     Status = AcpiExConvertToInteger (ObjDesc, &LocalObjDesc,
1.1.1.10  christos         ACPI_IMPLICIT_CONVERSION);
     1.1    jruoho     if (ACPI_FAILURE (Status))
     1.1    jruoho     {
     1.1    jruoho         goto Cleanup;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     if (LocalObjDesc->Common.Type != ACPI_TYPE_INTEGER)
     1.1    jruoho     {
     1.1    jruoho         ACPI_ERROR ((AE_INFO,
     1.1    jruoho             "Bad predicate (not an integer) ObjDesc=%p State=%p Type=0x%X",
     1.1    jruoho             ObjDesc, WalkState, ObjDesc->Common.Type));
     1.1    jruoho
     1.1    jruoho         Status = AE_AML_OPERAND_TYPE;
     1.1    jruoho         goto Cleanup;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /* Truncate the predicate to 32-bits if necessary */
     1.1    jruoho
 1.1.1.3  christos     (void) AcpiExTruncateFor32bitTable (LocalObjDesc);
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * Save the result of the predicate evaluation on
     1.1    jruoho      * the control stack
     1.1    jruoho      */
     1.1    jruoho     if (LocalObjDesc->Integer.Value)
     1.1    jruoho     {
     1.1    jruoho         WalkState->ControlState->Common.Value = TRUE;
     1.1    jruoho     }
     1.1    jruoho     else
     1.1    jruoho     {
     1.1    jruoho         /*
     1.1    jruoho          * Predicate is FALSE, we will just toss the
     1.1    jruoho          * rest of the package
     1.1    jruoho          */
     1.1    jruoho         WalkState->ControlState->Common.Value = FALSE;
     1.1    jruoho         Status = AE_CTRL_FALSE;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /* Predicate can be used for an implicit return value */
     1.1    jruoho
     1.1    jruoho     (void) AcpiDsDoImplicitReturn (LocalObjDesc, WalkState, TRUE);
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho Cleanup:
     1.1    jruoho
 1.1.1.6  christos     ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
 1.1.1.6  christos         "Completed a predicate eval=%X Op=%p\n",
     1.1    jruoho         WalkState->ControlState->Common.Value, WalkState->Op));
     1.1    jruoho
 1.1.1.6  christos     /* Break to debugger to display result */
     1.1    jruoho
 1.1.1.6  christos     AcpiDbDisplayResultObject (LocalObjDesc, WalkState);
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * Delete the predicate result object (we know that
     1.1    jruoho      * we don't need it anymore)
     1.1    jruoho      */
     1.1    jruoho     if (LocalObjDesc != ObjDesc)
     1.1    jruoho     {
     1.1    jruoho         AcpiUtRemoveReference (LocalObjDesc);
     1.1    jruoho     }
     1.1    jruoho     AcpiUtRemoveReference (ObjDesc);
     1.1    jruoho
     1.1    jruoho     WalkState->ControlState->Common.State = ACPI_CONTROL_NORMAL;
     1.1    jruoho     return_ACPI_STATUS (Status);
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho /*****************************************************************************
     1.1    jruoho  *
     1.1    jruoho  * FUNCTION:    AcpiDsExecBeginOp
     1.1    jruoho  *
     1.1    jruoho  * PARAMETERS:  WalkState       - Current state of the parse tree walk
     1.1    jruoho  *              OutOp           - Where to return op if a new one is created
     1.1    jruoho  *
     1.1    jruoho  * RETURN:      Status
     1.1    jruoho  *
     1.1    jruoho  * DESCRIPTION: Descending callback used during the execution of control
 1.1.1.3  christos  *              methods. This is where most operators and operands are
     1.1    jruoho  *              dispatched to the interpreter.
     1.1    jruoho  *
     1.1    jruoho  ****************************************************************************/
     1.1    jruoho
     1.1    jruoho ACPI_STATUS
     1.1    jruoho AcpiDsExecBeginOp (
     1.1    jruoho     ACPI_WALK_STATE         *WalkState,
     1.1    jruoho     ACPI_PARSE_OBJECT       **OutOp)
     1.1    jruoho {
     1.1    jruoho     ACPI_PARSE_OBJECT       *Op;
     1.1    jruoho     ACPI_STATUS             Status = AE_OK;
     1.1    jruoho     UINT32                  OpcodeClass;
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     ACPI_FUNCTION_TRACE_PTR (DsExecBeginOp, WalkState);
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     Op = WalkState->Op;
     1.1    jruoho     if (!Op)
     1.1    jruoho     {
     1.1    jruoho         Status = AcpiDsLoad2BeginOp (WalkState, OutOp);
     1.1    jruoho         if (ACPI_FAILURE (Status))
     1.1    jruoho         {
     1.1    jruoho             goto ErrorExit;
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         Op = *OutOp;
     1.1    jruoho         WalkState->Op = Op;
     1.1    jruoho         WalkState->Opcode = Op->Common.AmlOpcode;
     1.1    jruoho         WalkState->OpInfo = AcpiPsGetOpcodeInfo (Op->Common.AmlOpcode);
     1.1    jruoho
     1.1    jruoho         if (AcpiNsOpensScope (WalkState->OpInfo->ObjectType))
     1.1    jruoho         {
     1.1    jruoho             ACPI_DEBUG_PRINT ((ACPI_DB_DISPATCH,
     1.1    jruoho                 "(%s) Popping scope for Op %p\n",
     1.1    jruoho                 AcpiUtGetTypeName (WalkState->OpInfo->ObjectType), Op));
     1.1    jruoho
     1.1    jruoho             Status = AcpiDsScopeStackPop (WalkState);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 goto ErrorExit;
     1.1    jruoho             }
     1.1    jruoho         }
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     if (Op == WalkState->Origin)
     1.1    jruoho     {
     1.1    jruoho         if (OutOp)
     1.1    jruoho         {
     1.1    jruoho             *OutOp = Op;
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         return_ACPI_STATUS (AE_OK);
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * If the previous opcode was a conditional, this opcode
     1.1    jruoho      * must be the beginning of the associated predicate.
     1.1    jruoho      * Save this knowledge in the current scope descriptor
     1.1    jruoho      */
     1.1    jruoho     if ((WalkState->ControlState) &&
     1.1    jruoho         (WalkState->ControlState->Common.State ==
     1.1    jruoho             ACPI_CONTROL_CONDITIONAL_EXECUTING))
     1.1    jruoho     {
 1.1.1.6  christos         ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
 1.1.1.6  christos             "Exec predicate Op=%p State=%p\n",
 1.1.1.6  christos             Op, WalkState));
     1.1    jruoho
 1.1.1.6  christos         WalkState->ControlState->Common.State =
 1.1.1.6  christos             ACPI_CONTROL_PREDICATE_EXECUTING;
     1.1    jruoho
     1.1    jruoho         /* Save start of predicate */
     1.1    jruoho
     1.1    jruoho         WalkState->ControlState->Control.PredicateOp = Op;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     OpcodeClass = WalkState->OpInfo->Class;
     1.1    jruoho
     1.1    jruoho     /* We want to send namepaths to the load code */
     1.1    jruoho
     1.1    jruoho     if (Op->Common.AmlOpcode == AML_INT_NAMEPATH_OP)
     1.1    jruoho     {
     1.1    jruoho         OpcodeClass = AML_CLASS_NAMED_OBJECT;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * Handle the opcode based upon the opcode type
     1.1    jruoho      */
     1.1    jruoho     switch (OpcodeClass)
     1.1    jruoho     {
     1.1    jruoho     case AML_CLASS_CONTROL:
     1.1    jruoho
     1.1    jruoho         Status = AcpiDsExecBeginControlOp (WalkState, Op);
     1.1    jruoho         break;
     1.1    jruoho
     1.1    jruoho     case AML_CLASS_NAMED_OBJECT:
     1.1    jruoho
     1.1    jruoho         if (WalkState->WalkType & ACPI_WALK_METHOD)
     1.1    jruoho         {
     1.1    jruoho             /*
     1.1    jruoho              * Found a named object declaration during method execution;
 1.1.1.3  christos              * we must enter this object into the namespace. The created
     1.1    jruoho              * object is temporary and will be deleted upon completion of
     1.1    jruoho              * the execution of this method.
 1.1.1.2    jruoho              *
 1.1.1.2    jruoho              * Note 10/2010: Except for the Scope() op. This opcode does
 1.1.1.2    jruoho              * not actually create a new object, it refers to an existing
 1.1.1.2    jruoho              * object. However, for Scope(), we want to indeed open a
 1.1.1.2    jruoho              * new scope.
     1.1    jruoho              */
 1.1.1.2    jruoho             if (Op->Common.AmlOpcode != AML_SCOPE_OP)
 1.1.1.2    jruoho             {
 1.1.1.2    jruoho                 Status = AcpiDsLoad2BeginOp (WalkState, NULL);
 1.1.1.2    jruoho             }
 1.1.1.2    jruoho             else
 1.1.1.2    jruoho             {
 1.1.1.6  christos                 Status = AcpiDsScopeStackPush (
 1.1.1.6  christos                     Op->Named.Node, Op->Named.Node->Type, WalkState);
 1.1.1.2    jruoho                 if (ACPI_FAILURE (Status))
 1.1.1.2    jruoho                 {
 1.1.1.2    jruoho                     return_ACPI_STATUS (Status);
 1.1.1.2    jruoho                 }
 1.1.1.2    jruoho             }
     1.1    jruoho         }
     1.1    jruoho         break;
     1.1    jruoho
     1.1    jruoho     case AML_CLASS_EXECUTE:
     1.1    jruoho     case AML_CLASS_CREATE:
     1.1    jruoho
     1.1    jruoho         break;
     1.1    jruoho
     1.1    jruoho     default:
 1.1.1.3  christos
     1.1    jruoho         break;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /* Nothing to do here during method execution */
     1.1    jruoho
     1.1    jruoho     return_ACPI_STATUS (Status);
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho ErrorExit:
     1.1    jruoho     Status = AcpiDsMethodError (Status, WalkState);
     1.1    jruoho     return_ACPI_STATUS (Status);
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho /*****************************************************************************
     1.1    jruoho  *
     1.1    jruoho  * FUNCTION:    AcpiDsExecEndOp
     1.1    jruoho  *
     1.1    jruoho  * PARAMETERS:  WalkState       - Current state of the parse tree walk
     1.1    jruoho  *
     1.1    jruoho  * RETURN:      Status
     1.1    jruoho  *
     1.1    jruoho  * DESCRIPTION: Ascending callback used during the execution of control
 1.1.1.3  christos  *              methods. The only thing we really need to do here is to
     1.1    jruoho  *              notice the beginning of IF, ELSE, and WHILE blocks.
     1.1    jruoho  *
     1.1    jruoho  ****************************************************************************/
     1.1    jruoho
     1.1    jruoho ACPI_STATUS
     1.1    jruoho AcpiDsExecEndOp (
     1.1    jruoho     ACPI_WALK_STATE         *WalkState)
     1.1    jruoho {
     1.1    jruoho     ACPI_PARSE_OBJECT       *Op;
     1.1    jruoho     ACPI_STATUS             Status = AE_OK;
     1.1    jruoho     UINT32                  OpType;
     1.1    jruoho     UINT32                  OpClass;
     1.1    jruoho     ACPI_PARSE_OBJECT       *NextOp;
     1.1    jruoho     ACPI_PARSE_OBJECT       *FirstArg;
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho     ACPI_FUNCTION_TRACE_PTR (DsExecEndOp, WalkState);
     1.1    jruoho
     1.1    jruoho
 1.1.1.6  christos     Op = WalkState->Op;
 1.1.1.6  christos     OpType = WalkState->OpInfo->Type;
     1.1    jruoho     OpClass = WalkState->OpInfo->Class;
     1.1    jruoho
     1.1    jruoho     if (OpClass == AML_CLASS_UNKNOWN)
     1.1    jruoho     {
     1.1    jruoho         ACPI_ERROR ((AE_INFO, "Unknown opcode 0x%X", Op->Common.AmlOpcode));
     1.1    jruoho         return_ACPI_STATUS (AE_NOT_IMPLEMENTED);
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     FirstArg = Op->Common.Value.Arg;
     1.1    jruoho
     1.1    jruoho     /* Init the walk state */
     1.1    jruoho
     1.1    jruoho     WalkState->NumOperands = 0;
     1.1    jruoho     WalkState->OperandIndex = 0;
     1.1    jruoho     WalkState->ReturnDesc = NULL;
     1.1    jruoho     WalkState->ResultObj = NULL;
     1.1    jruoho
     1.1    jruoho     /* Call debugger for single step support (DEBUG build only) */
     1.1    jruoho
 1.1.1.6  christos     Status = AcpiDbSingleStep (WalkState, Op, OpClass);
 1.1.1.6  christos     if (ACPI_FAILURE (Status))
 1.1.1.6  christos     {
 1.1.1.6  christos         return_ACPI_STATUS (Status);
 1.1.1.6  christos     }
     1.1    jruoho
     1.1    jruoho     /* Decode the Opcode Class */
     1.1    jruoho
     1.1    jruoho     switch (OpClass)
     1.1    jruoho     {
     1.1    jruoho     case AML_CLASS_ARGUMENT:    /* Constants, literals, etc. */
     1.1    jruoho
     1.1    jruoho         if (WalkState->Opcode == AML_INT_NAMEPATH_OP)
     1.1    jruoho         {
     1.1    jruoho             Status = AcpiDsEvaluateNamePath (WalkState);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 goto Cleanup;
     1.1    jruoho             }
     1.1    jruoho         }
     1.1    jruoho         break;
     1.1    jruoho
     1.1    jruoho     case AML_CLASS_EXECUTE:     /* Most operators with arguments */
     1.1    jruoho
     1.1    jruoho         /* Build resolved operand stack */
     1.1    jruoho
     1.1    jruoho         Status = AcpiDsCreateOperands (WalkState, FirstArg);
     1.1    jruoho         if (ACPI_FAILURE (Status))
     1.1    jruoho         {
     1.1    jruoho             goto Cleanup;
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         /*
     1.1    jruoho          * All opcodes require operand resolution, with the only exceptions
     1.1    jruoho          * being the ObjectType and SizeOf operators.
     1.1    jruoho          */
     1.1    jruoho         if (!(WalkState->OpInfo->Flags & AML_NO_OPERAND_RESOLVE))
     1.1    jruoho         {
     1.1    jruoho             /* Resolve all operands */
     1.1    jruoho
     1.1    jruoho             Status = AcpiExResolveOperands (WalkState->Opcode,
 1.1.1.6  christos                 &(WalkState->Operands [WalkState->NumOperands -1]),
 1.1.1.6  christos                 WalkState);
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         if (ACPI_SUCCESS (Status))
     1.1    jruoho         {
     1.1    jruoho             /*
     1.1    jruoho              * Dispatch the request to the appropriate interpreter handler
 1.1.1.3  christos              * routine. There is one routine per opcode "type" based upon the
     1.1    jruoho              * number of opcode arguments and return type.
     1.1    jruoho              */
     1.1    jruoho             Status = AcpiGbl_OpTypeDispatch[OpType] (WalkState);
     1.1    jruoho         }
     1.1    jruoho         else
     1.1    jruoho         {
     1.1    jruoho             /*
     1.1    jruoho              * Treat constructs of the form "Store(LocalX,LocalX)" as noops when the
     1.1    jruoho              * Local is uninitialized.
     1.1    jruoho              */
     1.1    jruoho             if  ((Status == AE_AML_UNINITIALIZED_LOCAL) &&
     1.1    jruoho                 (WalkState->Opcode == AML_STORE_OP) &&
     1.1    jruoho                 (WalkState->Operands[0]->Common.Type == ACPI_TYPE_LOCAL_REFERENCE) &&
     1.1    jruoho                 (WalkState->Operands[1]->Common.Type == ACPI_TYPE_LOCAL_REFERENCE) &&
     1.1    jruoho                 (WalkState->Operands[0]->Reference.Class ==
     1.1    jruoho                  WalkState->Operands[1]->Reference.Class) &&
     1.1    jruoho                 (WalkState->Operands[0]->Reference.Value ==
     1.1    jruoho                  WalkState->Operands[1]->Reference.Value))
     1.1    jruoho             {
     1.1    jruoho                 Status = AE_OK;
     1.1    jruoho             }
     1.1    jruoho             else
     1.1    jruoho             {
     1.1    jruoho                 ACPI_EXCEPTION ((AE_INFO, Status,
     1.1    jruoho                     "While resolving operands for [%s]",
     1.1    jruoho                     AcpiPsGetOpcodeName (WalkState->Opcode)));
     1.1    jruoho             }
     1.1    jruoho         }
     1.1    jruoho
     1.1    jruoho         /* Always delete the argument objects and clear the operand stack */
     1.1    jruoho
     1.1    jruoho         AcpiDsClearOperands (WalkState);
     1.1    jruoho
     1.1    jruoho         /*
     1.1    jruoho          * If a result object was returned from above, push it on the
     1.1    jruoho          * current result stack
     1.1    jruoho          */
     1.1    jruoho         if (ACPI_SUCCESS (Status) &&
     1.1    jruoho             WalkState->ResultObj)
     1.1    jruoho         {
     1.1    jruoho             Status = AcpiDsResultPush (WalkState->ResultObj, WalkState);
     1.1    jruoho         }
     1.1    jruoho         break;
     1.1    jruoho
     1.1    jruoho     default:
     1.1    jruoho
     1.1    jruoho         switch (OpType)
     1.1    jruoho         {
     1.1    jruoho         case AML_TYPE_CONTROL:    /* Type 1 opcode, IF/ELSE/WHILE/NOOP */
     1.1    jruoho
     1.1    jruoho             /* 1 Operand, 0 ExternalResult, 0 InternalResult */
     1.1    jruoho
     1.1    jruoho             Status = AcpiDsExecEndControlOp (WalkState, Op);
     1.1    jruoho
     1.1    jruoho             break;
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_METHOD_CALL:
     1.1    jruoho             /*
     1.1    jruoho              * If the method is referenced from within a package
     1.1    jruoho              * declaration, it is not a invocation of the method, just
     1.1    jruoho              * a reference to it.
     1.1    jruoho              */
     1.1    jruoho             if ((Op->Asl.Parent) &&
     1.1    jruoho                ((Op->Asl.Parent->Asl.AmlOpcode == AML_PACKAGE_OP) ||
 1.1.1.9  christos                 (Op->Asl.Parent->Asl.AmlOpcode == AML_VARIABLE_PACKAGE_OP)))
     1.1    jruoho             {
     1.1    jruoho                 ACPI_DEBUG_PRINT ((ACPI_DB_DISPATCH,
     1.1    jruoho                     "Method Reference in a Package, Op=%p\n", Op));
     1.1    jruoho
 1.1.1.6  christos                 Op->Common.Node = (ACPI_NAMESPACE_NODE *)
 1.1.1.6  christos                     Op->Asl.Value.Arg->Asl.Node;
     1.1    jruoho                 AcpiUtAddReference (Op->Asl.Value.Arg->Asl.Node->Object);
     1.1    jruoho                 return_ACPI_STATUS (AE_OK);
     1.1    jruoho             }
     1.1    jruoho
 1.1.1.3  christos             ACPI_DEBUG_PRINT ((ACPI_DB_DISPATCH,
 1.1.1.3  christos                 "Method invocation, Op=%p\n", Op));
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * (AML_METHODCALL) Op->Asl.Value.Arg->Asl.Node contains
     1.1    jruoho              * the method Node pointer
     1.1    jruoho              */
     1.1    jruoho             /* NextOp points to the op that holds the method name */
     1.1    jruoho
     1.1    jruoho             NextOp = FirstArg;
     1.1    jruoho
     1.1    jruoho             /* NextOp points to first argument op */
     1.1    jruoho
     1.1    jruoho             NextOp = NextOp->Common.Next;
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * Get the method's arguments and put them on the operand stack
     1.1    jruoho              */
     1.1    jruoho             Status = AcpiDsCreateOperands (WalkState, NextOp);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 break;
     1.1    jruoho             }
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * Since the operands will be passed to another control method,
     1.1    jruoho              * we must resolve all local references here (Local variables,
     1.1    jruoho              * arguments to *this* method, etc.)
     1.1    jruoho              */
     1.1    jruoho             Status = AcpiDsResolveOperands (WalkState);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 /* On error, clear all resolved operands */
     1.1    jruoho
     1.1    jruoho                 AcpiDsClearOperands (WalkState);
     1.1    jruoho                 break;
     1.1    jruoho             }
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * Tell the walk loop to preempt this running method and
     1.1    jruoho              * execute the new method
     1.1    jruoho              */
     1.1    jruoho             Status = AE_CTRL_TRANSFER;
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * Return now; we don't want to disturb anything,
     1.1    jruoho              * especially the operand count!
     1.1    jruoho              */
     1.1    jruoho             return_ACPI_STATUS (Status);
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_CREATE_FIELD:
     1.1    jruoho
     1.1    jruoho             ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
     1.1    jruoho                 "Executing CreateField Buffer/Index Op=%p\n", Op));
     1.1    jruoho
     1.1    jruoho             Status = AcpiDsLoad2EndOp (WalkState);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 break;
     1.1    jruoho             }
     1.1    jruoho
     1.1    jruoho             Status = AcpiDsEvalBufferFieldOperands (WalkState, Op);
     1.1    jruoho             break;
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_CREATE_OBJECT:
     1.1    jruoho
     1.1    jruoho             ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
1.1.1.11  christos                 "Executing CreateObject (Buffer/Package) Op=%p Child=%p ParentOpcode=%4.4X\n",
1.1.1.11  christos                 Op, Op->Named.Value.Arg, Op->Common.Parent->Common.AmlOpcode));
     1.1    jruoho
     1.1    jruoho             switch (Op->Common.Parent->Common.AmlOpcode)
     1.1    jruoho             {
     1.1    jruoho             case AML_NAME_OP:
     1.1    jruoho                 /*
     1.1    jruoho                  * Put the Node on the object stack (Contains the ACPI Name
     1.1    jruoho                  * of this object)
     1.1    jruoho                  */
 1.1.1.6  christos                 WalkState->Operands[0] = (void *)
 1.1.1.6  christos                     Op->Common.Parent->Common.Node;
     1.1    jruoho                 WalkState->NumOperands = 1;
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsCreateNode (WalkState,
 1.1.1.6  christos                     Op->Common.Parent->Common.Node, Op->Common.Parent);
     1.1    jruoho                 if (ACPI_FAILURE (Status))
     1.1    jruoho                 {
     1.1    jruoho                     break;
     1.1    jruoho                 }
     1.1    jruoho
     1.1    jruoho                 /* Fall through */
     1.1    jruoho                 /*lint -fallthrough */
     1.1    jruoho
     1.1    jruoho             case AML_INT_EVAL_SUBTREE_OP:
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsEvalDataObjectOperands (WalkState, Op,
 1.1.1.6  christos                     AcpiNsGetAttachedObject (Op->Common.Parent->Common.Node));
     1.1    jruoho                 break;
     1.1    jruoho
     1.1    jruoho             default:
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsEvalDataObjectOperands (WalkState, Op, NULL);
     1.1    jruoho                 break;
     1.1    jruoho             }
     1.1    jruoho
     1.1    jruoho             /*
     1.1    jruoho              * If a result object was returned from above, push it on the
     1.1    jruoho              * current result stack
     1.1    jruoho              */
     1.1    jruoho             if (WalkState->ResultObj)
     1.1    jruoho             {
     1.1    jruoho                 Status = AcpiDsResultPush (WalkState->ResultObj, WalkState);
     1.1    jruoho             }
     1.1    jruoho             break;
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_NAMED_FIELD:
     1.1    jruoho         case AML_TYPE_NAMED_COMPLEX:
     1.1    jruoho         case AML_TYPE_NAMED_SIMPLE:
     1.1    jruoho         case AML_TYPE_NAMED_NO_OBJ:
     1.1    jruoho
     1.1    jruoho             Status = AcpiDsLoad2EndOp (WalkState);
     1.1    jruoho             if (ACPI_FAILURE (Status))
     1.1    jruoho             {
     1.1    jruoho                 break;
     1.1    jruoho             }
     1.1    jruoho
     1.1    jruoho             if (Op->Common.AmlOpcode == AML_REGION_OP)
     1.1    jruoho             {
     1.1    jruoho                 ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
     1.1    jruoho                     "Executing OpRegion Address/Length Op=%p\n", Op));
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsEvalRegionOperands (WalkState, Op);
     1.1    jruoho                 if (ACPI_FAILURE (Status))
     1.1    jruoho                 {
     1.1    jruoho                     break;
     1.1    jruoho                 }
     1.1    jruoho             }
     1.1    jruoho             else if (Op->Common.AmlOpcode == AML_DATA_REGION_OP)
     1.1    jruoho             {
     1.1    jruoho                 ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
     1.1    jruoho                     "Executing DataTableRegion Strings Op=%p\n", Op));
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsEvalTableRegionOperands (WalkState, Op);
     1.1    jruoho                 if (ACPI_FAILURE (Status))
     1.1    jruoho                 {
     1.1    jruoho                     break;
     1.1    jruoho                 }
     1.1    jruoho             }
     1.1    jruoho             else if (Op->Common.AmlOpcode == AML_BANK_FIELD_OP)
     1.1    jruoho             {
     1.1    jruoho                 ACPI_DEBUG_PRINT ((ACPI_DB_EXEC,
     1.1    jruoho                     "Executing BankField Op=%p\n", Op));
     1.1    jruoho
     1.1    jruoho                 Status = AcpiDsEvalBankFieldOperands (WalkState, Op);
     1.1    jruoho                 if (ACPI_FAILURE (Status))
     1.1    jruoho                 {
     1.1    jruoho                     break;
     1.1    jruoho                 }
     1.1    jruoho             }
     1.1    jruoho             break;
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_UNDEFINED:
     1.1    jruoho
     1.1    jruoho             ACPI_ERROR ((AE_INFO,
     1.1    jruoho                 "Undefined opcode type Op=%p", Op));
     1.1    jruoho             return_ACPI_STATUS (AE_NOT_IMPLEMENTED);
     1.1    jruoho
     1.1    jruoho         case AML_TYPE_BOGUS:
     1.1    jruoho
     1.1    jruoho             ACPI_DEBUG_PRINT ((ACPI_DB_DISPATCH,
     1.1    jruoho                 "Internal opcode=%X type Op=%p\n",
     1.1    jruoho                 WalkState->Opcode, Op));
     1.1    jruoho             break;
     1.1    jruoho
     1.1    jruoho         default:
     1.1    jruoho
     1.1    jruoho             ACPI_ERROR ((AE_INFO,
 1.1.1.6  christos                 "Unimplemented opcode, class=0x%X "
 1.1.1.6  christos                 "type=0x%X Opcode=0x%X Op=%p",
     1.1    jruoho                 OpClass, OpType, Op->Common.AmlOpcode, Op));
     1.1    jruoho
     1.1    jruoho             Status = AE_NOT_IMPLEMENTED;
     1.1    jruoho             break;
     1.1    jruoho         }
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * ACPI 2.0 support for 64-bit integers: Truncate numeric
     1.1    jruoho      * result value if we are executing from a 32-bit ACPI table
     1.1    jruoho      */
 1.1.1.3  christos     (void) AcpiExTruncateFor32bitTable (WalkState->ResultObj);
     1.1    jruoho
     1.1    jruoho     /*
     1.1    jruoho      * Check if we just completed the evaluation of a
     1.1    jruoho      * conditional predicate
     1.1    jruoho      */
     1.1    jruoho     if ((ACPI_SUCCESS (Status)) &&
     1.1    jruoho         (WalkState->ControlState) &&
     1.1    jruoho         (WalkState->ControlState->Common.State ==
     1.1    jruoho             ACPI_CONTROL_PREDICATE_EXECUTING) &&
     1.1    jruoho         (WalkState->ControlState->Control.PredicateOp == Op))
     1.1    jruoho     {
     1.1    jruoho         Status = AcpiDsGetPredicateValue (WalkState, WalkState->ResultObj);
     1.1    jruoho         WalkState->ResultObj = NULL;
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho
     1.1    jruoho Cleanup:
     1.1    jruoho
     1.1    jruoho     if (WalkState->ResultObj)
     1.1    jruoho     {
     1.1    jruoho         /* Break to debugger to display result */
     1.1    jruoho
 1.1.1.6  christos         AcpiDbDisplayResultObject (WalkState->ResultObj,WalkState);
     1.1    jruoho
     1.1    jruoho         /*
     1.1    jruoho          * Delete the result op if and only if:
     1.1    jruoho          * Parent will not use the result -- such as any
     1.1    jruoho          * non-nested type2 op in a method (parent will be method)
     1.1    jruoho          */
     1.1    jruoho         AcpiDsDeleteResultIfNotUsed (Op, WalkState->ResultObj, WalkState);
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho #ifdef _UNDER_DEVELOPMENT
     1.1    jruoho
     1.1    jruoho     if (WalkState->ParserState.Aml == WalkState->ParserState.AmlEnd)
     1.1    jruoho     {
     1.1    jruoho         AcpiDbMethodEnd (WalkState);
     1.1    jruoho     }
     1.1    jruoho #endif
     1.1    jruoho
     1.1    jruoho     /* Invoke exception handler on error */
     1.1    jruoho
     1.1    jruoho     if (ACPI_FAILURE (Status))
     1.1    jruoho     {
     1.1    jruoho         Status = AcpiDsMethodError (Status, WalkState);
     1.1    jruoho     }
     1.1    jruoho
     1.1    jruoho     /* Always clear the object stack */
     1.1    jruoho
     1.1    jruoho     WalkState->NumOperands = 0;
     1.1    jruoho     return_ACPI_STATUS (Status);
     1.1    jruoho }