%{
/******************************************************************************
*
* Module Name: aslcompiler.l - Flex/lex input file
*
*****************************************************************************/
/******************************************************************************
*
* 1. Copyright Notice
*
* Some or all of this work - Copyright (c) 1999 - 2020, Intel Corp.
* All rights reserved.
*
* 2. License
*
* 2.1. This is your license from Intel Corp. under its intellectual property
* rights. You may have additional license terms from the party that provided
* you this software, covering your right to use that party's intellectual
* property rights.
*
* 2.2. Intel grants, free of charge, to any person ("Licensee") obtaining a
* copy of the source code appearing in this file ("Covered Code") an
* irrevocable, perpetual, worldwide license under Intel's copyrights in the
* base code distributed originally by Intel ("Original Intel Code") to copy,
* make derivatives, distribute, use and display any portion of the Covered
* Code in any form, with the right to sublicense such rights; and
*
* 2.3. Intel grants Licensee a non-exclusive and non-transferable patent
* license (with the right to sublicense), under only those claims of Intel
* patents that are infringed by the Original Intel Code, to make, use, sell,
* offer to sell, and import the Covered Code and derivative works thereof
* solely to the minimum extent necessary to exercise the above copyright
* license, and in no event shall the patent license extend to any additions
* to or modifications of the Original Intel Code. No other license or right
* is granted directly or by implication, estoppel or otherwise;
*
* The above copyright and patent license is granted only if the following
* conditions are met:
*
* 3. Conditions
*
* 3.1. Redistribution of Source with Rights to Further Distribute Source.
* Redistribution of source code of any substantial portion of the Covered
* Code or modification with rights to further distribute source must include
* the above Copyright Notice, the above License, this list of Conditions,
* and the following Disclaimer and Export Compliance provision. In addition,
* Licensee must cause all Covered Code to which Licensee contributes to
* contain a file documenting the changes Licensee made to create that Covered
* Code and the date of any change. Licensee must include in that file the
* documentation of any changes made by any predecessor Licensee. Licensee
* must include a prominent statement that the modification is derived,
* directly or indirectly, from Original Intel Code.
*
* 3.2. Redistribution of Source with no Rights to Further Distribute Source.
* Redistribution of source code of any substantial portion of the Covered
* Code or modification without rights to further distribute source must
* include the following Disclaimer and Export Compliance provision in the
* documentation and/or other materials provided with distribution. In
* addition, Licensee may not authorize further sublicense of source of any
* portion of the Covered Code, and must include terms to the effect that the
* license from Licensee to its licensee is limited to the intellectual
* property embodied in the software Licensee provides to its licensee, and
* not to intellectual property embodied in modifications its licensee may
* make.
*
* 3.3. Redistribution of Executable. Redistribution in executable form of any
* substantial portion of the Covered Code or modification must reproduce the
* above Copyright Notice, and the following Disclaimer and Export Compliance
* provision in the documentation and/or other materials provided with the
* distribution.
*
* 3.4. Intel retains all right, title, and interest in and to the Original
* Intel Code.
*
* 3.5. Neither the name Intel nor any other trademark owned or controlled by
* Intel shall be used in advertising or otherwise to promote the sale, use or
* other dealings in products derived from or relating to the Covered Code
* without prior written authorization from Intel.
*
* 4. Disclaimer and Export Compliance
*
* 4.1. INTEL MAKES NO WARRANTY OF ANY KIND REGARDING ANY SOFTWARE PROVIDED
* HERE. ANY SOFTWARE ORIGINATING FROM INTEL OR DERIVED FROM INTEL SOFTWARE
* IS PROVIDED "AS IS," AND INTEL WILL NOT PROVIDE ANY SUPPORT, ASSISTANCE,
* INSTALLATION, TRAINING OR OTHER SERVICES. INTEL WILL NOT PROVIDE ANY
* UPDATES, ENHANCEMENTS OR EXTENSIONS. INTEL SPECIFICALLY DISCLAIMS ANY
* IMPLIED WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT AND FITNESS FOR A
* PARTICULAR PURPOSE.
*
* 4.2. IN NO EVENT SHALL INTEL HAVE ANY LIABILITY TO LICENSEE, ITS LICENSEES
* OR ANY OTHER THIRD PARTY, FOR ANY LOST PROFITS, LOST DATA, LOSS OF USE OR
* COSTS OF PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES, OR FOR ANY INDIRECT,
* SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THIS AGREEMENT, UNDER ANY
* CAUSE OF ACTION OR THEORY OF LIABILITY, AND IRRESPECTIVE OF WHETHER INTEL
* HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES. THESE LIMITATIONS
* SHALL APPLY NOTWITHSTANDING THE FAILURE OF THE ESSENTIAL PURPOSE OF ANY
* LIMITED REMEDY.
*
* 4.3. Licensee shall not export, either directly or indirectly, any of this
* software or system incorporating such software without first obtaining any
* required license or other approval from the U. S. Department of Commerce or
* any other agency or department of the United States Government. In the
* event Licensee exports any such software from the United States or
* re-exports any such software from a foreign destination, Licensee shall
* ensure that the distribution and export/re-export of the software is in
* compliance with all laws, regulations, orders, or other restrictions of the
* U.S. Export Administration Regulations. Licensee agrees that neither it nor
* any of its subsidiaries will export/re-export any technical data, process,
* software, or service, directly or indirectly, to any country for which the
* United States government or any agency thereof requires an export license,
* other governmental approval, or letter of assurance, without first obtaining
* such license, approval or letter.
*
*****************************************************************************
*
* Alternatively, you may choose to be licensed under the terms of the
* following license:
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions, and the following disclaimer,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* substantially similar to the "NO WARRANTY" disclaimer below
* ("Disclaimer") and any redistribution must be conditioned upon
* including a substantially similar Disclaimer requirement for further
* binary redistribution.
* 3. Neither the names of the above-listed copyright holders nor the names
* of any contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Alternatively, you may choose to be licensed under the terms of the
* GNU General Public License ("GPL") version 2 as published by the Free
* Software Foundation.
*
*****************************************************************************/
#include <contrib/dev/acpica/compiler/aslcompiler.h>
#include "aslcompiler.y.h"
#include <contrib/dev/acpica/include/acconvert.h>
#include <stdlib.h>
#include <string.h>
/*
* Generation: Use the following command line:
*
* flex.exe -PAslCompiler -i -o$(InputPath).c $(InputPath)
*
* -i: Scanner must be case-insensitive
*/
#define _COMPONENT ACPI_COMPILER
ACPI_MODULE_NAME ("aslscanner")
/* Local prototypes */
static void
AslDoLineDirective (void);
static BOOLEAN
AslDoComment (void);
static BOOLEAN
AslDoCommentType2 (void);
static char
AslDoStringLiteral (void);
static void
count (int type);
/*! [Begin] no source code translation */
%}
/* Definitions */
LeadNameChar [A-Za-z_]
DigitChar [0-9]
ErrorCode [(][ ]*[1-9][0-9][0-9][0-9][ ]*[)]
OctalChar [0-7]
HexDigitChar [A-Fa-f0-9]
RootChar [\\]
Nothing []
NameChar [A-Za-z_0-9]
NameSeg1 {LeadNameChar}{NameChar}
NameSeg2 {LeadNameChar}{NameChar}{NameChar}
NameSeg3 {LeadNameChar}{NameChar}{NameChar}{NameChar}
NameSeg {LeadNameChar}|{NameSeg1}|{NameSeg2}|{NameSeg3}
NameString {RootChar}|{RootChar}{NamePath}|[\^]+{NamePath}|{NonEmptyNamePath}
NamePath {NonEmptyNamePath}?
NonEmptyNamePath {NameSeg}{NamePathTail}*
NamePathTail [.]{NameSeg}
%%
/* Rules */
[ ] { count (0); }
[\n] { count (0); } /* Handle files with both LF and CR/LF */
[\r] { count (0); } /* termination on both Unix and Windows */
[ \t] { count (0); }
"/*" { if (!AslDoComment ()) {yyterminate ();} }
"//" { if (!AslDoCommentType2 ()) {yyterminate ();} }
"\"" { if (AslDoStringLiteral ()) {return (PARSEOP_STRING_LITERAL);}
else {yyterminate ();} }
";" { count (0); return(';'); }
/* ASL Extension: Standard C operators */
"~" { count (3); return (PARSEOP_EXP_NOT); }
"!" { count (3); return (PARSEOP_EXP_LOGICAL_NOT); }
"*" { count (3); return (PARSEOP_EXP_MULTIPLY); }
"/" { count (3); return (PARSEOP_EXP_DIVIDE); }
"%" { count (3); return (PARSEOP_EXP_MODULO); }
"+" { count (3); return (PARSEOP_EXP_ADD); }
"-" { count (3); return (PARSEOP_EXP_SUBTRACT); }
">>" { count (3); return (PARSEOP_EXP_SHIFT_RIGHT); }
"<<" { count (3); return (PARSEOP_EXP_SHIFT_LEFT); }
"<" { count (3); return (PARSEOP_EXP_LESS); }
">" { count (3); return (PARSEOP_EXP_GREATER); }
"&" { count (3); return (PARSEOP_EXP_AND); }
"<=" { count (3); return (PARSEOP_EXP_LESS_EQUAL); }
">=" { count (3); return (PARSEOP_EXP_GREATER_EQUAL); }
"==" { count (3); return (PARSEOP_EXP_EQUAL); }
"!=" { count (3); return (PARSEOP_EXP_NOT_EQUAL); }
"|" { count (3); return (PARSEOP_EXP_OR); }
"&&" { count (3); return (PARSEOP_EXP_LOGICAL_AND); }
"||" { count (3); return (PARSEOP_EXP_LOGICAL_OR); }
"++" { count (3); return (PARSEOP_EXP_INCREMENT); }
"--" { count (3); return (PARSEOP_EXP_DECREMENT); }
"^ " { count (3); return (PARSEOP_EXP_XOR); }
/* ASL Extension: Standard C assignment operators */
"=" { count (3); return (PARSEOP_EXP_EQUALS); }
"+=" { count (3); return (PARSEOP_EXP_ADD_EQ); }
"-=" { count (3); return (PARSEOP_EXP_SUB_EQ); }
"*=" { count (3); return (PARSEOP_EXP_MUL_EQ); }
"/=" { count (3); return (PARSEOP_EXP_DIV_EQ); }
"%=" { count (3); return (PARSEOP_EXP_MOD_EQ); }
"<<=" { count (3); return (PARSEOP_EXP_SHL_EQ); }
">>=" { count (3); return (PARSEOP_EXP_SHR_EQ); }
"&=" { count (3); return (PARSEOP_EXP_AND_EQ); }
"^=" { count (3); return (PARSEOP_EXP_XOR_EQ); }
"|=" { count (3); return (PARSEOP_EXP_OR_EQ); }
"[" { count (3); return (PARSEOP_EXP_INDEX_LEFT); }
"]" { count (0); return (PARSEOP_EXP_INDEX_RIGHT); }
"(" { count (0); return (PARSEOP_OPEN_PAREN); }
")" { count (0); return (PARSEOP_CLOSE_PAREN); }
"{" { count (0); return ('{'); }
"}" { count (0); return ('}'); }
"," { count (0); return (','); }
/*
* Begin standard ASL grammar
*/
[0-9][a-zA-Z0-9]* { count (1); AslCompilerlval.i = UtDoConstant ((char *) AslCompilertext);
return (PARSEOP_INTEGER); }
"Include" { count (1); return (PARSEOP_INCLUDE); }
"External" { count (1); return (PARSEOP_EXTERNAL); }
/*
* The #line directive is emitted by the preprocessor and handled
* here in the main iASL lexer - simply set the line number and
* optionally the current filename.
*/
"#line" { AslDoLineDirective ();}
/****************************************************************************
*
* Main ASL operators
*
****************************************************************************/
"AccessAs" { count (1); return (PARSEOP_ACCESSAS); }
"Acquire" { count (3); return (PARSEOP_ACQUIRE); }
"Add" { count (3); return (PARSEOP_ADD); }
"Alias" { count (2); return (PARSEOP_ALIAS); }
"And" { count (3); return (PARSEOP_AND); }
"BankField" { count (2); return (PARSEOP_BANKFIELD); }
"Break" { count (3); return (PARSEOP_BREAK); }
"BreakPoint" { count (3); return (PARSEOP_BREAKPOINT); }
"Buffer" { count (1); return (PARSEOP_BUFFER); }
"Case" { count (3); return (PARSEOP_CASE); }
"Concatenate" { count (3); return (PARSEOP_CONCATENATE); }
"ConcatenateResTemplate" { count (3); return (PARSEOP_CONCATENATERESTEMPLATE); }
"CondRefOf" { count (3); return (PARSEOP_CONDREFOF); }
"Connection" { count (2); return (PARSEOP_CONNECTION); }
"Continue" { count (3); return (PARSEOP_CONTINUE); }
"CopyObject" { count (3); return (PARSEOP_COPYOBJECT); }
"CreateBitField" { count (2); return (PARSEOP_CREATEBITFIELD); }
"CreateByteField" { count (2); return (PARSEOP_CREATEBYTEFIELD); }
"CreateDWordField" { count (2); return (PARSEOP_CREATEDWORDFIELD); }
"CreateField" { count (2); return (PARSEOP_CREATEFIELD); }
"CreateQWordField" { count (2); return (PARSEOP_CREATEQWORDFIELD); }
"CreateWordField" { count (2); return (PARSEOP_CREATEWORDFIELD); }
"DataTableRegion" { count (2); return (PARSEOP_DATATABLEREGION); }
"Debug" { count (1); return (PARSEOP_DEBUG); }
"Decrement" { count (3); return (PARSEOP_DECREMENT); }
"Default" { count (3); return (PARSEOP_DEFAULT); }
"DefinitionBlock" { count (1); return (PARSEOP_DEFINITION_BLOCK); }
"DeRefOf" { count (3); return (PARSEOP_DEREFOF); }
"Device" { count (2); return (PARSEOP_DEVICE); }
"Divide" { count (3); return (PARSEOP_DIVIDE); }
"Eisaid" { count (1); return (PARSEOP_EISAID); }
"Else" { count (3); return (PARSEOP_ELSE); }
"ElseIf" { count (3); return (PARSEOP_ELSEIF); }
"Event" { count (2); return (PARSEOP_EVENT); }
"Fatal" { count (3); return (PARSEOP_FATAL); }
"Field" { count (2); return (PARSEOP_FIELD); }
"FindSetLeftBit" { count (3); return (PARSEOP_FINDSETLEFTBIT); }
"FindSetRightBit" { count (3); return (PARSEOP_FINDSETRIGHTBIT); }
"FromBcd" { count (3); return (PARSEOP_FROMBCD); }
"Function" { count (2); return (PARSEOP_FUNCTION); }
"If" { count (3); return (PARSEOP_IF); }
"Increment" { count (3); return (PARSEOP_INCREMENT); }
"Index" { count (3); return (PARSEOP_INDEX); }
"IndexField" { count (2); return (PARSEOP_INDEXFIELD); }
"LAnd" { count (3); return (PARSEOP_LAND); }
"LEqual" { count (3); return (PARSEOP_LEQUAL); }
"LGreater" { count (3); return (PARSEOP_LGREATER); }
"LGreaterEqual" { count (3); return (PARSEOP_LGREATEREQUAL); }
"LLess" { count (3); return (PARSEOP_LLESS); }
"LLessEqual" { count (3); return (PARSEOP_LLESSEQUAL); }
"LNot" { count (3); return (PARSEOP_LNOT); }
"LNotEqual" { count (3); return (PARSEOP_LNOTEQUAL); }
"Load" { count (3); return (PARSEOP_LOAD); }
"LoadTable" { count (3); return (PARSEOP_LOADTABLE); }
"LOr" { count (3); return (PARSEOP_LOR); }
"Match" { count (3); return (PARSEOP_MATCH); }
"Method" { count (2); return (PARSEOP_METHOD); }
"Mid" { count (3); return (PARSEOP_MID); }
"Mod" { count (3); return (PARSEOP_MOD); }
"Multiply" { count (3); return (PARSEOP_MULTIPLY); }
"Mutex" { count (2); return (PARSEOP_MUTEX); }
"Name" { count (2); return (PARSEOP_NAME); }
"NAnd" { count (3); return (PARSEOP_NAND); }
"Noop" { if (!AcpiGbl_IgnoreNoopOperator) {count (3); return (PARSEOP_NOOP);} }
"NOr" { count (3); return (PARSEOP_NOR); }
"Not" { count (3); return (PARSEOP_NOT); }
"Notify" { count (3); return (PARSEOP_NOTIFY); }
"ObjectType" { count (3); return (PARSEOP_OBJECTTYPE); }
"Offset" { count (1); return (PARSEOP_OFFSET); }
"One" { count (1); return (PARSEOP_ONE); }
"Ones" { count (1); return (PARSEOP_ONES); }
"OperationRegion" { count (2); return (PARSEOP_OPERATIONREGION); }
"Or" { count (3); return (PARSEOP_OR); }
"Package" { count (1); return (PARSEOP_PACKAGE); }
"PowerResource" { count (2); return (PARSEOP_POWERRESOURCE); }
"Processor" { count (2); return (PARSEOP_PROCESSOR); }
"RefOf" { count (3); return (PARSEOP_REFOF); }
"Release" { count (3); return (PARSEOP_RELEASE); }
"Reset" { count (3); return (PARSEOP_RESET); }
"Return" { count (3); return (PARSEOP_RETURN); }
"Revision" { count (1); return (PARSEOP_REVISION); }
"Scope" { count (2); return (PARSEOP_SCOPE); }
"ShiftLeft" { count (3); return (PARSEOP_SHIFTLEFT); }
"ShiftRight" { count (3); return (PARSEOP_SHIFTRIGHT); }
"Signal" { count (3); return (PARSEOP_SIGNAL); }
"SizeOf" { count (3); return (PARSEOP_SIZEOF); }
"Sleep" { count (3); return (PARSEOP_SLEEP); }
"Stall" { count (3); return (PARSEOP_STALL); }
"Store" { count (3); return (PARSEOP_STORE); }
"Subtract" { count (3); return (PARSEOP_SUBTRACT); }
"Switch" { count (3); return (PARSEOP_SWITCH); }
"ThermalZone" { count (2); return (PARSEOP_THERMALZONE); }
"Timer" { count (3); return (PARSEOP_TIMER); }
"ToBcd" { count (3); return (PARSEOP_TOBCD); }
"ToBuffer" { count (3); return (PARSEOP_TOBUFFER); }
"ToDecimalString" { count (3); return (PARSEOP_TODECIMALSTRING); }
"ToHexString" { count (3); return (PARSEOP_TOHEXSTRING); }
"ToInteger" { count (3); return (PARSEOP_TOINTEGER); }
"ToString" { count (3); return (PARSEOP_TOSTRING); }
"ToUuid" { count (1); return (PARSEOP_TOUUID); }
"Unicode" { count (1); return (PARSEOP_UNICODE); }
"Unload" { count (3); return (PARSEOP_UNLOAD); }
"Wait" { count (3); return (PARSEOP_WAIT); }
"While" { count (3); return (PARSEOP_WHILE); }
"XOr" { count (3); return (PARSEOP_XOR); }
"Zero" { count (1); return (PARSEOP_ZERO); }
/* Control method arguments and locals */
"Arg0" { count (1); return (PARSEOP_ARG0); }
"Arg1" { count (1); return (PARSEOP_ARG1); }
"Arg2" { count (1); return (PARSEOP_ARG2); }
"Arg3" { count (1); return (PARSEOP_ARG3); }
"Arg4" { count (1); return (PARSEOP_ARG4); }
"Arg5" { count (1); return (PARSEOP_ARG5); }
"Arg6" { count (1); return (PARSEOP_ARG6); }
"Local0" { count (1); return (PARSEOP_LOCAL0); }
"Local1" { count (1); return (PARSEOP_LOCAL1); }
"Local2" { count (1); return (PARSEOP_LOCAL2); }
"Local3" { count (1); return (PARSEOP_LOCAL3); }
"Local4" { count (1); return (PARSEOP_LOCAL4); }
"Local5" { count (1); return (PARSEOP_LOCAL5); }
"Local6" { count (1); return (PARSEOP_LOCAL6); }
"Local7" { count (1); return (PARSEOP_LOCAL7); }
/****************************************************************************
*
* Resource Descriptor macros
*
****************************************************************************/
"ResourceTemplate" { count (1); return (PARSEOP_RESOURCETEMPLATE); }
"RawDataBuffer" { count (1); return (PARSEOP_DATABUFFER); }
"DMA" { count (1); return (PARSEOP_DMA); }
"DWordIO" { count (1); return (PARSEOP_DWORDIO); }
"DWordMemory" { count (1); return (PARSEOP_DWORDMEMORY); }
"DWordSpace" { count (1); return (PARSEOP_DWORDSPACE); }
"EndDependentFn" { count (1); return (PARSEOP_ENDDEPENDENTFN); }
"ExtendedIO" { count (1); return (PARSEOP_EXTENDEDIO); }
"ExtendedMemory" { count (1); return (PARSEOP_EXTENDEDMEMORY); }
"ExtendedSpace" { count (1); return (PARSEOP_EXTENDEDSPACE); }
"FixedDma" { count (1); return (PARSEOP_FIXEDDMA); }
"FixedIO" { count (1); return (PARSEOP_FIXEDIO); }
"GpioInt" { count (1); return (PARSEOP_GPIO_INT); }
"GpioIo" { count (1); return (PARSEOP_GPIO_IO); }
"I2cSerialBus" { count (1); return (PARSEOP_I2C_SERIALBUS); }
"I2cSerialBusV2" { count (1); return (PARSEOP_I2C_SERIALBUS_V2); }
"Interrupt" { count (1); return (PARSEOP_INTERRUPT); }
"IO" { count (1); return (PARSEOP_IO); }
"IRQ" { count (1); return (PARSEOP_IRQ); }
"IRQNoFlags" { count (1); return (PARSEOP_IRQNOFLAGS); }
"Memory24" { count (1); return (PARSEOP_MEMORY24); }
"Memory32" { count (1); return (PARSEOP_MEMORY32); }
"Memory32Fixed" { count (1); return (PARSEOP_MEMORY32FIXED); }
"PinConfig" { count (1); return (PARSEOP_PINCONFIG); }
"PinFunction" { count (1); return (PARSEOP_PINFUNCTION); }
"PinGroup" { count (1); return (PARSEOP_PINGROUP); }
"PinGroupConfig" { count (1); return (PARSEOP_PINGROUPCONFIG); }
"PinGroupFunction" { count (1); return (PARSEOP_PINGROUPFUNCTION); }
"QWordIO" { count (1); return (PARSEOP_QWORDIO); }
"QWordMemory" { count (1); return (PARSEOP_QWORDMEMORY); }
"QWordSpace" { count (1); return (PARSEOP_QWORDSPACE); }
"Register" { count (1); return (PARSEOP_REGISTER); }
"SpiSerialBus" { count (1); return (PARSEOP_SPI_SERIALBUS); }
"SpiSerialBusV2" { count (1); return (PARSEOP_SPI_SERIALBUS_V2); }
"StartDependentFn" { count (1); return (PARSEOP_STARTDEPENDENTFN); }
"StartDependentFnNoPri" { count (1); return (PARSEOP_STARTDEPENDENTFN_NOPRI); }
"UartSerialBus" { count (1); return (PARSEOP_UART_SERIALBUS); }
"UartSerialBusV2" { count (1); return (PARSEOP_UART_SERIALBUS_V2); }
"VendorLong" { count (1); return (PARSEOP_VENDORLONG); }
"VendorShort" { count (1); return (PARSEOP_VENDORSHORT); }
"WordBusNumber" { count (1); return (PARSEOP_WORDBUSNUMBER); }
"WordIO" { count (1); return (PARSEOP_WORDIO); }
"WordSpace" { count (1); return (PARSEOP_WORDSPACE); }
/****************************************************************************
*
* Keywords used as arguments to ASL operators and macros
*
****************************************************************************/
/* AccessAttribKeyword: Serial Bus Attributes (ACPI 5.0) */
"AttribQuick" { count (0); return (PARSEOP_ACCESSATTRIB_QUICK); }
"AttribSendReceive" { count (0); return (PARSEOP_ACCESSATTRIB_SND_RCV); }
"AttribByte" { count (0); return (PARSEOP_ACCESSATTRIB_BYTE); }
"AttribWord" { count (0); return (PARSEOP_ACCESSATTRIB_WORD); }
"AttribBlock" { count (0); return (PARSEOP_ACCESSATTRIB_BLOCK); }
"AttribProcessCall" { count (0); return (PARSEOP_ACCESSATTRIB_WORD_CALL); }
"AttribBlockProcessCall" { count (0); return (PARSEOP_ACCESSATTRIB_BLOCK_CALL); }
/* AccessAttribKeyword: Legacy synonyms for above (pre-ACPI 5.0) */
"SMBQuick" { count (0); return (PARSEOP_ACCESSATTRIB_QUICK); }
"SMBSendReceive" { count (0); return (PARSEOP_ACCESSATTRIB_SND_RCV); }
"SMBByte" { count (0); return (PARSEOP_ACCESSATTRIB_BYTE); }
"SMBWord" { count (0); return (PARSEOP_ACCESSATTRIB_WORD); }
"SMBBlock" { count (0); return (PARSEOP_ACCESSATTRIB_BLOCK); }
"SMBProcessCall" { count (0); return (PARSEOP_ACCESSATTRIB_WORD_CALL); }
"SMBBlockProcessCall" { count (0); return (PARSEOP_ACCESSATTRIB_BLOCK_CALL); }
/* AccessTypeKeyword: Field Access Types */
"AnyAcc" { count (0); return (PARSEOP_ACCESSTYPE_ANY); }
"ByteAcc" { count (0); return (PARSEOP_ACCESSTYPE_BYTE); }
"WordAcc" { count (0); return (PARSEOP_ACCESSTYPE_WORD); }
"DWordAcc" { count (0); return (PARSEOP_ACCESSTYPE_DWORD); }
"QWordAcc" { count (0); return (PARSEOP_ACCESSTYPE_QWORD); }
"BufferAcc" { count (0); return (PARSEOP_ACCESSTYPE_BUF); }
/* AddressingModeKeyword: Mode - Resource Descriptors (ACPI 5.0) */
"AddressingMode7Bit" { count (0); return (PARSEOP_ADDRESSINGMODE_7BIT); }
"AddressingMode10Bit" { count (0); return (PARSEOP_ADDRESSINGMODE_10BIT); }
/* AddressKeyword: ACPI memory range types */
"AddressRangeMemory" { count (0); return (PARSEOP_ADDRESSTYPE_MEMORY); }
"AddressRangeReserved" { count (0); return (PARSEOP_ADDRESSTYPE_RESERVED); }
"AddressRangeNVS" { count (0); return (PARSEOP_ADDRESSTYPE_NVS); }
"AddressRangeACPI" { count (0); return (PARSEOP_ADDRESSTYPE_ACPI); }
/* BusMasterKeyword: DMA Bus Mastering */
"BusMaster" { count (0); return (PARSEOP_BUSMASTERTYPE_MASTER); }
"NotBusMaster" { count (0); return (PARSEOP_BUSMASTERTYPE_NOTMASTER); }
/* ByteLengthKeyword: Bits per Byte - Resource Descriptors (ACPI 5.0) */
"DataBitsFive" { count (0); return (PARSEOP_BITSPERBYTE_FIVE); }
"DataBitsSix" { count (0); return (PARSEOP_BITSPERBYTE_SIX); }
"DataBitsSeven" { count (0); return (PARSEOP_BITSPERBYTE_SEVEN); }
"DataBitsEight" { count (0); return (PARSEOP_BITSPERBYTE_EIGHT); }
"DataBitsNine" { count (0); return (PARSEOP_BITSPERBYTE_NINE); }
/* ClockPhaseKeyword: Resource Descriptors (ACPI 5.0) */
"ClockPhaseFirst" { count (0); return (PARSEOP_CLOCKPHASE_FIRST); }
"ClockPhaseSecond" { count (0); return (PARSEOP_CLOCKPHASE_SECOND); }
/* ClockPolarityKeyword: Resource Descriptors (ACPI 5.0) */
"ClockPolarityLow" { count (0); return (PARSEOP_CLOCKPOLARITY_LOW); }
"ClockPolarityHigh" { count (0); return (PARSEOP_CLOCKPOLARITY_HIGH); }
/* DecodeKeyword: Type of Memory Decoding - Resource Descriptors */
"PosDecode" { count (0); return (PARSEOP_DECODETYPE_POS); }
"SubDecode" { count (0); return (PARSEOP_DECODETYPE_SUB); }
/* DmaTypeKeyword: DMA Types - DMA Resource Descriptor */
"Compatibility" { count (0); return (PARSEOP_DMATYPE_COMPATIBILITY); }
"TypeA" { count (0); return (PARSEOP_DMATYPE_A); }
"TypeB" { count (0); return (PARSEOP_DMATYPE_B); }
"TypeF" { count (0); return (PARSEOP_DMATYPE_F); }
/* EndianKeyword: Endian type - Resource Descriptor (ACPI 5.0) */
"LittleEndian" { count (0); return (PARSEOP_ENDIAN_LITTLE); }
"BigEndian" { count (0); return (PARSEOP_ENDIAN_BIG); }
/* ExtendedAttribKeyword: Bus attributes, AccessAs operator (ACPI 5.0) */
"AttribBytes" { count (0); return (PARSEOP_ACCESSATTRIB_BYTES); }
"AttribRawBytes" { count (0); return (PARSEOP_ACCESSATTRIB_RAW_BYTES); }
"AttribRawProcessBytes" { count (0); return (PARSEOP_ACCESSATTRIB_RAW_PROCESS); }
/* FlowControlKeyword: Resource Descriptors (ACPI 5.0) */
"FlowControlHardware" { count (0); return (PARSEOP_FLOWCONTROL_HW); }
"FlowControlNone" { count (0); return (PARSEOP_FLOWCONTROL_NONE); }
"FlowControlXon" { count (0); return (PARSEOP_FLOWCONTROL_SW); }
/* InterruptLevelKeyword: Interrupt Active Types */
"ActiveBoth" { count (0); return (PARSEOP_INTLEVEL_ACTIVEBOTH); }
"ActiveHigh" { count (0); return (PARSEOP_INTLEVEL_ACTIVEHIGH); }
"ActiveLow" { count (0); return (PARSEOP_INTLEVEL_ACTIVELOW); }
/* InterruptTypeKeyword: Interrupt Types */
"Edge" { count (0); return (PARSEOP_INTTYPE_EDGE); }
"Level" { count (0); return (PARSEOP_INTTYPE_LEVEL); }
/* IoDecodeKeyword: Type of Memory Decoding - Resource Descriptors */
"Decode10" { count (0); return (PARSEOP_IODECODETYPE_10); }
"Decode16" { count (0); return (PARSEOP_IODECODETYPE_16); }
/* IoRestrictionKeyword: I/O Restriction - GPIO Resource Descriptors (ACPI 5.0) */
"IoRestrictionNone" { count (0); return (PARSEOP_IORESTRICT_NONE); }
"IoRestrictionInputOnly" { count (0); return (PARSEOP_IORESTRICT_IN); }
"IoRestrictionOutputOnly" { count (0); return (PARSEOP_IORESTRICT_OUT); }
"IoRestrictionNoneAndPreserve" { count (0); return (PARSEOP_IORESTRICT_PRESERVE); }
/* LockRuleKeyword: Global Lock use for Field Operator */
"Lock" { count (0); return (PARSEOP_LOCKRULE_LOCK); }
"NoLock" { count (0); return (PARSEOP_LOCKRULE_NOLOCK); }
/* MatchOpKeyword: Types for Match Operator */
"MTR" { count (0); return (PARSEOP_MATCHTYPE_MTR); }
"MEQ" { count (0); return (PARSEOP_MATCHTYPE_MEQ); }
"MLE" { count (0); return (PARSEOP_MATCHTYPE_MLE); }
"MLT" { count (0); return (PARSEOP_MATCHTYPE_MLT); }
"MGE" { count (0); return (PARSEOP_MATCHTYPE_MGE); }
"MGT" { count (0); return (PARSEOP_MATCHTYPE_MGT); }
/* MaxKeyword: Max Range Type - Resource Descriptors */
"MaxFixed" { count (0); return (PARSEOP_MAXTYPE_FIXED); }
"MaxNotFixed" { count (0); return (PARSEOP_MAXTYPE_NOTFIXED); }
/* MemTypeKeyword: Memory Types - Resource Descriptors */
"Cacheable" { count (0); return (PARSEOP_MEMTYPE_CACHEABLE); }
"WriteCombining" { count (0); return (PARSEOP_MEMTYPE_WRITECOMBINING); }
"Prefetchable" { count (0); return (PARSEOP_MEMTYPE_PREFETCHABLE); }
"NonCacheable" { count (0); return (PARSEOP_MEMTYPE_NONCACHEABLE); }
/* MinKeyword: Min Range Type - Resource Descriptors */
"MinFixed" { count (0); return (PARSEOP_MINTYPE_FIXED); }
"MinNotFixed" { count (0); return (PARSEOP_MINTYPE_NOTFIXED); }
/* ObjectTypeKeyword: ACPI Object Types */
"UnknownObj" { count (0); return (PARSEOP_OBJECTTYPE_UNK); }
"IntObj" { count (0); return (PARSEOP_OBJECTTYPE_INT); }
"StrObj" { count (0); return (PARSEOP_OBJECTTYPE_STR); }
"BuffObj" { count (0); return (PARSEOP_OBJECTTYPE_BUF); }
"PkgObj" { count (0); return (PARSEOP_OBJECTTYPE_PKG); }
"FieldUnitObj" { count (0); return (PARSEOP_OBJECTTYPE_FLD); }
"DeviceObj" { count (0); return (PARSEOP_OBJECTTYPE_DEV); }
"EventObj" { count (0); return (PARSEOP_OBJECTTYPE_EVT); }
"MethodObj" { count (0); return (PARSEOP_OBJECTTYPE_MTH); }
"MutexObj" { count (0); return (PARSEOP_OBJECTTYPE_MTX); }
"OpRegionObj" { count (0); return (PARSEOP_OBJECTTYPE_OPR); }
"PowerResObj" { count (0); return (PARSEOP_OBJECTTYPE_POW); }
"ProcessorObj" { count (0); return (PARSEOP_OBJECTTYPE_PRO); }
"ThermalZoneObj" { count (0); return (PARSEOP_OBJECTTYPE_THZ); }
"BuffFieldObj" { count (0); return (PARSEOP_OBJECTTYPE_BFF); }
"DDBHandleObj" { count (0); return (PARSEOP_OBJECTTYPE_DDB); }
/* ParityKeyword: Resource Descriptors (ACPI 5.0) */
"ParityTypeSpace" { count (0); return (PARSEOP_PARITYTYPE_SPACE); }
"ParityTypeMark" { count (0); return (PARSEOP_PARITYTYPE_MARK); }
"ParityTypeOdd" { count (0); return (PARSEOP_PARITYTYPE_ODD); }
"ParityTypeEven" { count (0); return (PARSEOP_PARITYTYPE_EVEN); }
"ParityTypeNone" { count (0); return (PARSEOP_PARITYTYPE_NONE); }
/* PinConfigKeyword: Pin Configuration - GPIO Resource Descriptors (ACPI 5.0) */
"PullDefault" { count (0); return (PARSEOP_PIN_PULLDEFAULT); }
"PullUp" { count (0); return (PARSEOP_PIN_PULLUP); }
"PullDown" { count (0); return (PARSEOP_PIN_PULLDOWN); }
"PullNone" { count (0); return (PARSEOP_PIN_NOPULL); }
/* PolarityKeyword: Resource Descriptors (ACPI 5.0) */
"PolarityLow" { count (0); return (PARSEOP_DEVICEPOLARITY_LOW); }
"PolarityHigh" { count (0); return (PARSEOP_DEVICEPOLARITY_HIGH); }
/* RangeTypeKeyword: I/O Range Types - Resource Descriptors */
"ISAOnlyRanges" { count (0); return (PARSEOP_RANGETYPE_ISAONLY); }
"NonISAOnlyRanges" { count (0); return (PARSEOP_RANGETYPE_NONISAONLY); }
"EntireRange" { count (0); return (PARSEOP_RANGETYPE_ENTIRE); }
/* ReadWriteKeyword: Memory Access Types - Resource Descriptors */
"ReadWrite" { count (0); return (PARSEOP_READWRITETYPE_BOTH); }
"ReadOnly" { count (0); return (PARSEOP_READWRITETYPE_READONLY); }
/* RegionSpaceKeyword: Operation Region Address Space Types */
"SystemIO" { count (0); return (PARSEOP_REGIONSPACE_IO); }
"SystemMemory" { count (0); return (PARSEOP_REGIONSPACE_MEM); }
"PCI_Config" { count (0); return (PARSEOP_REGIONSPACE_PCI); }
"EmbeddedControl" { count (0); return (PARSEOP_REGIONSPACE_EC); }
"SMBus" { count (0); return (PARSEOP_REGIONSPACE_SMBUS); }
"SystemCMOS" { count (0); return (PARSEOP_REGIONSPACE_CMOS); }
"PciBarTarget" { count (0); return (PARSEOP_REGIONSPACE_PCIBAR); }
"IPMI" { count (0); return (PARSEOP_REGIONSPACE_IPMI); }
"GeneralPurposeIo" { count (0); return (PARSEOP_REGIONSPACE_GPIO); } /* ACPI 5.0 */
"GenericSerialBus" { count (0); return (PARSEOP_REGIONSPACE_GSBUS); } /* ACPI 5.0 */
"PCC" { count (0); return (PARSEOP_REGIONSPACE_PCC); } /* ACPI 5.0 */
"PlatformRtMechanism" { count (0); return (PARSEOP_REGIONSPACE_PRM); }
"FFixedHW" { count (0); return (PARSEOP_REGIONSPACE_FFIXEDHW); }
/* ResourceTypeKeyword: Resource Usage - Resource Descriptors */
"ResourceConsumer" { count (0); return (PARSEOP_RESOURCETYPE_CONSUMER); }
"ResourceProducer" { count (0); return (PARSEOP_RESOURCETYPE_PRODUCER); }
/* SerializeRuleKeyword: Control Method Serialization */
"Serialized" { count (0); return (PARSEOP_SERIALIZERULE_SERIAL); }
"NotSerialized" { count (0); return (PARSEOP_SERIALIZERULE_NOTSERIAL); }
/* ShareTypeKeyword: Interrupt Sharing - Resource Descriptors */
"Shared" { count (0); return (PARSEOP_SHARETYPE_SHARED); }
"Exclusive" { count (0); return (PARSEOP_SHARETYPE_EXCLUSIVE); }
"SharedAndWake" { count (0); return (PARSEOP_SHARETYPE_SHAREDWAKE); } /* ACPI 5.0 */
"ExclusiveAndWake" { count (0); return (PARSEOP_SHARETYPE_EXCLUSIVEWAKE); } /* ACPI 5.0 */
/* SlaveModeKeyword: Resource Descriptors (ACPI 5.0) */
"ControllerInitiated" { count (0); return (PARSEOP_SLAVEMODE_CONTROLLERINIT); }
"DeviceInitiated" { count (0); return (PARSEOP_SLAVEMODE_DEVICEINIT); }
/* StopBitsKeyword: Resource Descriptors (ACPI 5.0) */
"StopBitsOne" { count (0); return (PARSEOP_STOPBITS_ONE); }
"StopBitsOnePlusHalf" { count (0); return (PARSEOP_STOPBITS_ONEPLUSHALF); }
"StopBitsTwo" { count (0); return (PARSEOP_STOPBITS_TWO); }
"StopBitsZero" { count (0); return (PARSEOP_STOPBITS_ZERO); }
/* TransferWidthKeyword: DMA Widths - Fixed DMA Resource Descriptor (ACPI 5.0) */
"Width8bit" { count (0); return (PARSEOP_XFERSIZE_8); }
"Width16bit" { count (0); return (PARSEOP_XFERSIZE_16); }
"Width32bit" { count (0); return (PARSEOP_XFERSIZE_32); }
"Width64bit" { count (0); return (PARSEOP_XFERSIZE_64); }
"Width128bit" { count (0); return (PARSEOP_XFERSIZE_128); }
"Width256bit" { count (0); return (PARSEOP_XFERSIZE_256); }
/* TranslationKeyword: Translation Density Types - Resource Descriptors */
"SparseTranslation" { count (0); return (PARSEOP_TRANSLATIONTYPE_SPARSE); }
"DenseTranslation" { count (0); return (PARSEOP_TRANSLATIONTYPE_DENSE); }
/* TypeKeyword: Translation Types - Resource Descriptors */
"TypeTranslation" { count (0); return (PARSEOP_TYPE_TRANSLATION); }
"TypeStatic" { count (0); return (PARSEOP_TYPE_STATIC); }
/* UpdateRuleKeyword: Field Update Rules */
"Preserve" { count (0); return (PARSEOP_UPDATERULE_PRESERVE); }
"WriteAsOnes" { count (0); return (PARSEOP_UPDATERULE_ONES); }
"WriteAsZeros" { count (0); return (PARSEOP_UPDATERULE_ZEROS); }
/* WireModeKeyword: SPI Wire Mode - Resource Descriptors (ACPI 5.0) */
"FourWireMode" { count (0); return (PARSEOP_WIREMODE_FOUR); }
"ThreeWireMode" { count (0); return (PARSEOP_WIREMODE_THREE); }
/* XferTypeKeyword: DMA Transfer Types */
"Transfer8" { count (0); return (PARSEOP_XFERTYPE_8); }
"Transfer8_16" { count (0); return (PARSEOP_XFERTYPE_8_16); }
"Transfer16" { count (0); return (PARSEOP_XFERTYPE_16); }
/* ToPld macro */
"ToPLD" { count (0); return (PARSEOP_TOPLD); }
"PLD_Revision" { count (0); return (PARSEOP_PLD_REVISION); }
"PLD_IgnoreColor" { count (0); return (PARSEOP_PLD_IGNORECOLOR); }
"PLD_Red" { count (0); return (PARSEOP_PLD_RED); }
"PLD_Green" { count (0); return (PARSEOP_PLD_GREEN); }
"PLD_Blue" { count (0); return (PARSEOP_PLD_BLUE); }
"PLD_Width" { count (0); return (PARSEOP_PLD_WIDTH); }
"PLD_Height" { count (0); return (PARSEOP_PLD_HEIGHT); }
"PLD_UserVisible" { count (0); return (PARSEOP_PLD_USERVISIBLE); }
"PLD_Dock" { count (0); return (PARSEOP_PLD_DOCK); }
"PLD_Lid" { count (0); return (PARSEOP_PLD_LID); }
"PLD_Panel" { count (0); return (PARSEOP_PLD_PANEL); }
"PLD_VerticalPosition" { count (0); return (PARSEOP_PLD_VERTICALPOSITION); }
"PLD_HorizontalPosition" { count (0); return (PARSEOP_PLD_HORIZONTALPOSITION); }
"PLD_Shape" { count (0); return (PARSEOP_PLD_SHAPE); }
"PLD_GroupOrientation" { count (0); return (PARSEOP_PLD_GROUPORIENTATION); }
"PLD_GroupToken" { count (0); return (PARSEOP_PLD_GROUPTOKEN); }
"PLD_GroupPosition" { count (0); return (PARSEOP_PLD_GROUPPOSITION); }
"PLD_Bay" { count (0); return (PARSEOP_PLD_BAY); }
"PLD_Ejectable" { count (0); return (PARSEOP_PLD_EJECTABLE); }
"PLD_EjectRequired" { count (0); return (PARSEOP_PLD_EJECTREQUIRED); }
"PLD_CabinetNumber" { count (0); return (PARSEOP_PLD_CABINETNUMBER); }
"PLD_CardCageNumber" { count (0); return (PARSEOP_PLD_CARDCAGENUMBER); }
"PLD_Reference" { count (0); return (PARSEOP_PLD_REFERENCE); }
"PLD_Rotation" { count (0); return (PARSEOP_PLD_ROTATION); }
"PLD_Order" { count (0); return (PARSEOP_PLD_ORDER); }
"PLD_Reserved" { count (0); return (PARSEOP_PLD_RESERVED); }
"PLD_VerticalOffset" { count (0); return (PARSEOP_PLD_VERTICALOFFSET); }
"PLD_HorizontalOffset" { count (0); return (PARSEOP_PLD_HORIZONTALOFFSET); }
/* printf debug macros */
"printf" { count (0); return (PARSEOP_PRINTF); }
"fprintf" { count (0); return (PARSEOP_FPRINTF); }
/* Other macros */
"For" { count (0); return (PARSEOP_FOR); }
/* Predefined compiler names */
"__DATE__" { count (0); return (PARSEOP___DATE__); }
"__FILE__" { count (0); return (PARSEOP___FILE__); }
"__LINE__" { count (0); return (PARSEOP___LINE__); }
"__PATH__" { count (0); return (PARSEOP___PATH__); }
"__METHOD__" { count (0); return (PARSEOP___METHOD__); }
"__EXPECT__"{ErrorCode} { char *s;
int index = 0;
count (0);
while (!isdigit (AslCompilertext[index]))
{
index++;
}
/*
* The error code is contained inside the
* {ErrorCode} pattern. Extract it and log it
* as the expected error code.
*/
s = UtLocalCacheCalloc (ASL_ERROR_CODE_LENGTH + 1);
memcpy (s, AslCompilertext + index, ASL_ERROR_CODE_LENGTH);
AslLogExpectedExceptionByLine (s); }
{NameSeg} { char *s;
count (0);
s=UtLocalCacheCalloc (ACPI_NAMESEG_SIZE + 1);
if (strcmp (AslCompilertext, "\\"))
{
/*
* According to the ACPI specification,
* NameSegments must have length of 4. If
* the NameSegment has length less than 4,
* they are padded with underscores to meet
* the required length.
*/
strcpy (s, "____");
}
memcpy (s, AslCompilertext, strlen (AslCompilertext));
AslCompilerlval.s = s;
DbgPrint (ASL_PARSE_OUTPUT, "NameSeg: %s\n", s);
return (PARSEOP_NAMESEG); }
{NameString} { char *s;
count (0);
s=UtLocalCacheCalloc (strlen (AslCompilertext)+1);
strcpy (s, AslCompilertext);
AslCompilerlval.s = s;
DbgPrint (ASL_PARSE_OUTPUT, "NameString: %s\n", s);
return (PARSEOP_NAMESTRING); }
. { count (1);
if (isprint ((int) *AslCompilertext))
{
sprintf (AslGbl_MsgBuffer,
"Invalid character (%c), expecting ASL keyword or name",
*AslCompilertext);
}
else
{
sprintf (AslGbl_MsgBuffer,
"Invalid character (0x%2.2X), expecting ASL keyword or name",
*AslCompilertext);
}
AslCompilererror (AslGbl_MsgBuffer);}
<<EOF>> { if (AslPopInputFileStack ())
{yyterminate();}
else
{return (PARSEOP_INCLUDE_END);} };
%%
/*! [End] no source code translation !*/
/*
* Bring in the scanner support routines
*/
#include <contrib/dev/acpica/compiler/aslsupport.l>