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authorlhauch <lhauch@6f19259b-4bc3-4df7-8a09-765794883524>2008-12-31 16:26:40 +0000
committerlhauch <lhauch@6f19259b-4bc3-4df7-8a09-765794883524>2008-12-31 16:26:40 +0000
commit808def96aa4589fba9c2d0ea55837754a3b7a4f7 (patch)
tree0ea221c59abb2474c694e7ab5bd61006be77e47e /Tools/CCode/Source/VfrCompile
parent9216450d1143056a50a5f916984a2d7faf590488 (diff)
downloadedk2-platforms-808def96aa4589fba9c2d0ea55837754a3b7a4f7.tar.xz
Retiring the ANT/JAVA build and removing the older EDK II packages that required ANT/JAVA.
Last Ant/Java build was r7166 Developers requiring the Java/Ant packages should checkout the branch from: https://edk2.tianocore.org/svn/edk2/branches/AntJava git-svn-id: https://edk2.svn.sourceforge.net/svnroot/edk2/trunk/edk2@7168 6f19259b-4bc3-4df7-8a09-765794883524
Diffstat (limited to 'Tools/CCode/Source/VfrCompile')
-rw-r--r--Tools/CCode/Source/VfrCompile/EfiVfr.h181
-rw-r--r--Tools/CCode/Source/VfrCompile/VfrCompile.g3529
-rw-r--r--Tools/CCode/Source/VfrCompile/VfrServices.cpp758
-rw-r--r--Tools/CCode/Source/VfrCompile/VfrServices.h227
-rw-r--r--Tools/CCode/Source/VfrCompile/build.xml123
5 files changed, 0 insertions, 4818 deletions
diff --git a/Tools/CCode/Source/VfrCompile/EfiVfr.h b/Tools/CCode/Source/VfrCompile/EfiVfr.h
deleted file mode 100644
index 6419ad7e71..0000000000
--- a/Tools/CCode/Source/VfrCompile/EfiVfr.h
+++ /dev/null
@@ -1,181 +0,0 @@
-/*++
-
-Copyright (c) 2004 - 2005, Intel Corporation
-All rights reserved. This program and the accompanying materials
-are licensed and made available under the terms and conditions of the BSD License
-which accompanies this distribution. The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-
-Module Name:
-
- EfiVfr.h
-
-Abstract:
-
- Defines and prototypes for the EFI internal forms representation
- setup protocol and drivers
-
---*/
-
-#ifndef _EFI_VFR_H_
-#define _EFI_VFR_H_
-
-#include <string.h>
-
-#include <Common/UefiBaseTypes.h>
-#include <Common/InternalFormRepresentation.h>
-
-//
-// This number should be incremented with each change to the VFR compiler.
-// We write the version to the output list file for debug purposes.
-//
-#define VFR_COMPILER_VERSION "1.88"
-
-//
-// Maximum file path for filenames
-//
-#ifndef MAX_PATH
-#define MAX_PATH 255
-#endif
-#define MAX_QUEUE_COUNT 255
-#define MAX_LINE_LEN 1024
-#define PROGRAM_NAME "VfrCompile"
-
-//
-// We parse C-style structure definitions which can then be referenced
-// in VFR statements.
-// We need to define an internal structure that can be used to
-// track the fields in a structure definition, and another structure
-// to keep track of the structure name and subfields.
-//
-typedef struct _STRUCT_FIELD_DEFINITION {
- struct _STRUCT_FIELD_DEFINITION *Next;
- int DataSize;
- int Offset; // from the start of the structure
- int ArrayLength;
- char IsArray;
- char *Name;
-} STRUCT_FIELD_DEFINITION;
-
-typedef struct _STRUCT_DEFINITION {
- struct _STRUCT_DEFINITION *Next;
- int Size;
- int LineNum; // line number where the structure was defined
- int IsNonNV; // if this is the non-NV data structure definition
- int Referenced; // if it's referenced anywhere in the VFR
- int VarStoreIdValid; // found a 'varstore' statement for it in the VFR
- unsigned short VarStoreId; // key from a varstore IFR statement
- int VarStoreLineNum; // line number where VARSTORE was defined
- char *Name;
- STRUCT_FIELD_DEFINITION *Field;
- STRUCT_FIELD_DEFINITION *LastField;
-} STRUCT_DEFINITION;
-
-//
-// For the IdEqValList variable list of UINT16's, keep track of them using
-// a linked list until we know how many there are.
-// We also use a linked list of these to keep track of labels used in
-// the VFR script so we can catch duplicates.
-// We'll also use it to keep track of defined varstore id's so we can
-// detect duplicate definitions.
-//
-typedef struct _UINT16_LIST {
- struct _UINT16_LIST *Next;
- UINT16 Value;
- UINT32 LineNum;
-} UINT16_LIST;
-
-typedef struct _GOTO_REFERENCE {
- struct _GOTO_REFERENCE *Next;
- UINT32 RefLineNum; // line number of source file where referenced
- UINT16 Value;
-} GOTO_REFERENCE;
-
-typedef struct _FORM_ID_VALUE {
- struct _FORM_ID_VALUE *Next;
- UINT32 LineNum;
- UINT16 Value;
-} FORM_ID_VALUE;
-
-//
-// We keep track in the parser of all "#line 4 "x.y"" strings so we
-// can cross-reference the line numbers in the preprocessor output .i file
-// to the original input files.
-//
-typedef struct _PARSER_LINE_DEFINITION {
- struct _PARSER_LINE_DEFINITION *Next;
- UINT32 HashLineNum; // from the #line stmt
- UINT32 TokenLineNum; // line number in the .i file
- CHAR8 *FileName; // from the #line stmt
-} PARSER_LINE_DEFINITION;
-
-extern PARSER_LINE_DEFINITION *gLineDefinition;
-extern PARSER_LINE_DEFINITION *gLastLineDefinition;
-
-extern
-char *
-ConvertLineNumber (
- UINT32 *LineNum
- )
-/*++
-
-Routine Description:
- Given the line number in the preprocessor-output file, use the line number
- information we've saved to determine the source file name and line number
- where the code originally came from. This is required for error reporting.
-
-Arguments:
- LineNum - the line number in the preprocessor-output file.
-
-Returns:
- Returns a pointer to the source file name. Also returns the line number
- in the provided LineNum argument
-
---*/
-;
-
-typedef struct _IFR_BYTE {
- struct _IFR_BYTE *Next;
- UINT32 LineNum;
- UINT8 OpcodeByte;
- UINT8 KeyByte;
-} IFR_BYTE;
-
-typedef struct {
- CHAR8 VfrFileName[MAX_PATH];
- CHAR8 VfrListFileName[MAX_PATH];
- INT8 CreateListFile;
- INT8 CreateIfrBinFile;
- CHAR8 IfrOutputFileName[MAX_PATH];
- CHAR8 OutputDirectory[MAX_PATH];
- CHAR8 PreprocessorOutputFileName[MAX_PATH];
- CHAR8 VfrBaseFileName[MAX_PATH]; // name of input VFR file with no path or extension
- CHAR8 *IncludePaths;
- CHAR8 *CPreprocessorOptions;
-} OPTIONS;
-
-extern OPTIONS gOptions;
-
-VOID
-WriteStandardFileHeader (
- FILE *OutFptr
- )
-/*++
-
-Routine Description:
- This function is invoked to emit a standard header to an
- output text file.
-
-Arguments:
- OutFptr - file to write the header to
-
-Returns:
- None
-
---*/
-;
-
-#endif // #ifndef _EFI_VFR_H_
diff --git a/Tools/CCode/Source/VfrCompile/VfrCompile.g b/Tools/CCode/Source/VfrCompile/VfrCompile.g
deleted file mode 100644
index 9fdd7caca6..0000000000
--- a/Tools/CCode/Source/VfrCompile/VfrCompile.g
+++ /dev/null
@@ -1,3529 +0,0 @@
-/*++
-
-Copyright (c) 2004 - 2005, Intel Corporation
-All rights reserved. This program and the accompanying materials
-are licensed and made available under the terms and conditions of the BSD License
-which accompanies this distribution. The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-
-Module Name:
-
- VfrCompile.g
-
-Abstract:
-
- PCCTS parser and lexer definitions for the EFI VFR forms compiler
-
---*/
-
-#header<<
-
-#include <Common/UefiBaseTypes.h>
-#include <Common/MultiPhase.h>
-#include <Common/InternalFormRepresentation.h>
-#include <Protocol/UgaDraw.h>
-#include <Protocol/Hii.h>
-
-#include "CommonLib.h"
-#include "EfiUtilityMsgs.h"
-#include "EfiVfr.h"
-#include "VfrServices.h"
-
-#include <ctype.h>
-#ifndef __GNUC__
-#include <direct.h>
-#include <process.h> // for spawn functions
-#else
-#include <unistd.h>
-#endif
-
->>
-
-<<
-
-//
-// Base info for DLG-generated scanner
-//
-#include "DLexerBase.h"
-
-//
-// Include the scanner file generated by DLG
-//
-#include "DLGLexer.h"
-
-class DLGLexerVfr : public DLGLexer
-{
-public:
- DLGLexerVfr (DLGFileInput *F) : DLGLexer (F) {};
- INT32 errstd (char *Text)
- {
- printf ("unrecognized input '%s'\n", Text);
- }
-
-};
-
-//
-// Base token definitions for ANTLR
-//
-#include "AToken.h"
-
-//
-// This is how we invoke the C preprocessor on the VFR source file
-// to resolve #defines, #includes, etc. To make C source files
-// shareable between VFR and drivers, define VFRCOMPILE so that
-// #ifdefs can be used in shared .h files.
-//
-#ifdef __GNUC__
-#define PREPROCESSOR_COMMAND "gcc "
-#define PREPROCESSOR_OPTIONS "-x c -E -P -DVFRCOMPILE "
-#define FILE_SEP_CHAR '/'
-#define FILE_SEP_STRING "/"
-#else
-#define PREPROCESSOR_COMMAND "cl.exe "
-#define PREPROCESSOR_OPTIONS "/nologo /P /TC /DVFRCOMPILE "
-#define FILE_SEP_CHAR '/'
-#define FILE_SEP_STRING "/"
-#endif
-
-typedef ANTLRCommonToken ANTLRToken;
-
-//
-// Specify the filename extensions for the files we generate.
-//
-#define VFR_BINARY_FILENAME_EXTENSION ".c"
-#define VFR_LIST_FILENAME_EXTENSION ".lst"
-
-static
-VOID
-Usage ();
-
-static
-STATUS
-ProcessArgs (
- int Argc,
- char *Argv[]
- );
-
-static
-VOID
-Cleanup ();
-
-//
-// Globals
-//
-OPTIONS gOptions;
-
-int
-main (
- int argc,
- char **argv
- )
-/*++
-
-Routine Description:
- Application entry point function. Parse command-line arguments,
- invoke the parser, clean up, and return.
-
-Arguments:
- argc - standard argc passed to main() per C conventions
- argv - standard argv passed to main() per C conventions
-
-Returns:
- STATUS_SUCCESS - program executed with no errors or warnings
- STATUS_WARNING - program executed with warnings
- STATUS_ERROR - non-recoverable errors encountered while processing
-
---*/
-{
- FILE *VfrFptr;
- char *Cmd;
- char *Cptr;
- int Len;
- STATUS Status;
-
- //
- // Set our program name for the error printing routines.
- // Then set printing limits.
- //
- SetUtilityName (PROGRAM_NAME);
- SetPrintLimits (20, 20, 30);
- //
- // Process the command-line arguments
- //
- if (ProcessArgs (argc, argv) != STATUS_SUCCESS) {
- Usage ();
- Cleanup();
- return STATUS_ERROR;
- }
- VfrFptr = NULL;
- //
- // Verify the VFR script file exists
- //
- if ((VfrFptr = fopen (gOptions.VfrFileName, "r")) == NULL) {
- Error (PROGRAM_NAME, 0, 0, gOptions.VfrFileName, "could not open input VFR file");
- Cleanup();
- return STATUS_ERROR;
- }
- //
- // Now close the file and make a system call to run the preprocessor
- // on it.
- //
- fclose (VfrFptr);
-// Len = strlen (PREPROCESSOR_OPTIONS) + strlen (gOptions.VfrFileName) + 10;
-// if (gOptions.CPreprocessorOptions != NULL) {
-// Len += strlen (gOptions.CPreprocessorOptions) + 1;
-// }
-// if (gOptions.IncludePaths != NULL) {
-// Len += strlen (gOptions.IncludePaths) + 1;
-// }
-// Cmd = (char *)malloc (Len);
-// if (Cmd == NULL) {
-// Error (PROGRAM_NAME, 0, 0, NULL, "could not allocate memory");
-// Cleanup();
-// return STATUS_ERROR;
-// }
-// strcpy (Cmd, PREPROCESSOR_OPTIONS);
-// if (gOptions.IncludePaths != NULL) {
-// strcat (Cmd, gOptions.IncludePaths);
-// strcat (Cmd, " ");
-// }
-// if (gOptions.CPreprocessorOptions != NULL) {
-// strcat (Cmd, gOptions.CPreprocessorOptions);
-// strcat (Cmd, " ");
-// }
-// strcat (Cmd, gOptions.VfrFileName);
-//#ifndef __GNUC__
-// Status = _spawnlp (_P_WAIT, PREPROCESSOR_COMMAND, Cmd, NULL);
-//#else
-// {
-// char CommandLine[1000];
-// char *p;
-//
-// //
-// // Lean the slashes forward.
-// //
-// for (p = gOptions.PreprocessorOutputFileName; *p; p++) {
-// if (*p=='\\') {
-// *p=FILE_SEP_CHAR;
-// }
-// }
-//
-// //
-// // Lean the slashes forward.
-// //
-// for (p = Cmd; *p; p++) {
-// if (*p=='\\') {
-// *p=FILE_SEP_CHAR;
-// }
-// }
-//
-// sprintf(CommandLine, "%s %s > %s", PREPROCESSOR_COMMAND, Cmd, gOptions.PreprocessorOutputFileName);
-// Status = system (CommandLine);
-// }
-//#endif
-// if (Status != 0) {
-// Error (PROGRAM_NAME, 0, 0, gOptions.VfrFileName, "failed to spawn C preprocessor on VFR file");
-// printf ("Command: '%s %s'\n", PREPROCESSOR_COMMAND, Cmd);
-// Cleanup();
-// return STATUS_ERROR;
-// }
-// free (Cmd);
- //
- // Open the preprocessor output file
- //
- if ((VfrFptr = fopen (gOptions.VfrFileName, "r")) == NULL) {
- Error (PROGRAM_NAME, 0, 0, "failed to open input VFR preprocessor output file",
- gOptions.PreprocessorOutputFileName);
- Cleanup();
- return STATUS_ERROR;
- }
- //
- // Define input VFR file
- //
- DLGFileInput InputFile (VfrFptr);
- //
- // Define an instance of the scanner
- //
- DLGLexerVfr Scanner (&InputFile);
- //
- // Define token buffer between scanner and parser
- //
- ANTLRTokenBuffer Pipe (&Scanner);
- //
- // Create a token to use as a model
- //
- ANTLRToken Tok;
- //
- // Tell the scanner what type the token is
- //
- Scanner.setToken (&Tok);
- //
- // Create an instance of our parser
- //
- EfiVfrParser Parser (&Pipe);
- //
- // Initialize the parser
- //
- Parser.init ();
- Status = GetUtilityStatus ();
- if (Status != STATUS_SUCCESS) {
- Cleanup();
- return Status;
- }
- //
- // Start the first rule
- //
- Parser.program ();
- //
- // Close the input script file
- //
- fclose (VfrFptr);
- Parser.WriteIfrBytes ();
- //
- // Call cleanup, which does some extra checking of the script
- //
- Parser.Cleanup ();
- Cleanup();
- //
- // If we had an error somewhere, delete our output files so that
- // a subsequent build will rebuild them.
- //
- Status = GetUtilityStatus ();
- if (Status == STATUS_ERROR) {
- remove (gOptions.IfrOutputFileName);
- }
- return Status;
-}
-static
-VOID
-Cleanup ()
-/*++
-
-Routine Description:
- Free up memory allocated during parsing.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- //
- // Free up our string we allocated to track the include paths
- //
- if (gOptions.IncludePaths != NULL) {
- free (gOptions.IncludePaths);
- gOptions.IncludePaths = NULL;
- }
- //
- // Free up our string we allocated to track preprocessor options
- //
- if (gOptions.CPreprocessorOptions != NULL) {
- free (gOptions.CPreprocessorOptions);
- gOptions.CPreprocessorOptions = NULL;
- }
-}
-
-static
-STATUS
-ProcessArgs (
- int Argc,
- char *Argv[]
- )
-/*++
-
-Routine Description:
- Process the command-line arguments.
-
-Arguments:
- Argc - standard argc passed to main()
- Argv - standard argv passed to main()
-
-Returns:
- STATUS_SUCCESS - program should continue (all args ok)
-
---*/
-{
- char *IncludePaths;
- char *CPreprocessorOptions;
- int Len;
- char CopyStr[MAX_PATH];
- char *Cptr;
-
- //
- // Put options in known state.
- //
- memset ((char *)&gOptions, 0, sizeof (OPTIONS));
- //
- // Go through all the arguments that start with '-'
- //
- Argc--;
- Argv++;
- while ((Argc > 0) && (Argv[0][0] == '-')) {
- //
- // -? or -h help option -- return an error for printing usage
- //
- if ((stricmp (Argv[0], "-?") == 0) || (stricmp (Argv[0], "-h") == 0)) {
- return STATUS_ERROR;
- break;
- //
- // -l to create a listing output file
- //
- } else if (stricmp (Argv[0], "-l") == 0) {
- gOptions.CreateListFile = 1;
- //
- // -I include_path option for finding include files. We'll pass this
- // to the preprocessor. Turn them all into a single include string.
- //
- } else if (stricmp (Argv[0], "-i") == 0) {
- if ((Argc < 2) || (Argv[1][0] == '-')) {
- Error (PROGRAM_NAME, 0, 0, Argv[0], "missing path argument");
- return STATUS_ERROR;
- }
- Argc--;
- Argv++;
- Len = strlen (" -I ");
- Len += strlen (Argv[0]) + 2;
- if (gOptions.IncludePaths != NULL) {
- Len += strlen (gOptions.IncludePaths);
- }
- IncludePaths = (CHAR8 *)malloc (Len);
- if (IncludePaths == NULL) {
- Error (PROGRAM_NAME, 0, 0, NULL, "memory allocation failure");
- return STATUS_ERROR;
- }
- IncludePaths[0] = 0;
- if (gOptions.IncludePaths != NULL) {
- strcpy (IncludePaths, gOptions.IncludePaths);
- free (gOptions.IncludePaths);
- }
- strcat (IncludePaths, " -I ");
- strcat (IncludePaths, Argv[0]);
- gOptions.IncludePaths = IncludePaths;
- //
- // -od OutputDirectory to define a common directory for output files
- //
- } else if (stricmp (Argv[0], "-od") == 0) {
- if ((Argc < 2) || (Argv[1][0] == '-')) {
- Error (PROGRAM_NAME, 0, 0, Argv[0], "missing output directory name");
- return STATUS_ERROR;
- }
- Argc--;
- Argv++;
- strcpy (gOptions.OutputDirectory, Argv[0]);
- } else if (stricmp (Argv[0], "-ibin") == 0) {
- gOptions.CreateIfrBinFile = 1;
- } else if (stricmp (Argv[0], "-nostrings") == 0) {
- // deprecated option
- //
- // -ppflag C-preprocessor-flag option for passing options to the C preprocessor.
- // Turn them all into a single string.
- //
- } else if (stricmp (Argv[0], "-ppflag") == 0) {
- if (Argc < 2) {
- Error (PROGRAM_NAME, 0, 0, Argv[0], "missing C-preprocessor argument");
- return STATUS_ERROR;
- }
- Argc--;
- Argv++;
- Len = strlen (Argv[0]) + 2;
- if (gOptions.CPreprocessorOptions != NULL) {
- Len += strlen (gOptions.CPreprocessorOptions);
- }
- CPreprocessorOptions = (CHAR8 *)malloc (Len);
- if (CPreprocessorOptions == NULL) {
- Error (PROGRAM_NAME, 0, 0, NULL, "memory allocation failure");
- return STATUS_ERROR;
- }
- CPreprocessorOptions[0] = 0;
- if (gOptions.CPreprocessorOptions != NULL) {
- strcpy (CPreprocessorOptions, gOptions.CPreprocessorOptions);
- free (gOptions.CPreprocessorOptions);
- }
- strcat (CPreprocessorOptions, " ");
- strcat (CPreprocessorOptions, Argv[0]);
- gOptions.CPreprocessorOptions = CPreprocessorOptions;
- } else {
- Error (PROGRAM_NAME, 0, 0, Argv[0], "unrecognized option");
- return STATUS_ERROR;
- }
- Argc--;
- Argv++;
- }
- //
- // Must specify at least the vfr file name
- //
- if (Argc > 1) {
- Error (PROGRAM_NAME, 0, 0, Argv[1], "unrecognized argument after VFR file name");
- return STATUS_ERROR;
- } else if (Argc < 1) {
- Error (PROGRAM_NAME, 0, 0, NULL, "must specify VFR file name");
- return STATUS_ERROR;
- }
- strcpy (gOptions.VfrFileName, Argv[0]);
- //
- // We run the preprocessor on the VFR file to manage #include statements.
- // Unfortunately the preprocessor does not allow you to specify the
- // output name or path of the resultant .i file, so we have to do
- // some work. Here we'll extract the basename of the VFR file, then
- // append .i on the end.
- //
- strcpy (CopyStr, gOptions.VfrFileName);
- Cptr = CopyStr + strlen (CopyStr) - 1;
- for (;(Cptr > CopyStr) && (*Cptr != '\\') && (*Cptr != ':') && (*Cptr != '/'); Cptr--);
- if (Cptr == CopyStr) {
- strcpy (gOptions.PreprocessorOutputFileName, Cptr);
- strcpy (gOptions.VfrBaseFileName, Cptr);
- } else {
- strcpy (gOptions.PreprocessorOutputFileName, Cptr+1);
- strcpy (gOptions.VfrBaseFileName, Cptr+1);
- }
- for (Cptr = gOptions.PreprocessorOutputFileName; *Cptr && (*Cptr != '.'); Cptr++);
- strcpy (Cptr, ".i");
- //
- // Terminate the vfr file basename at the extension
- //
- for (Cptr = gOptions.VfrBaseFileName; *Cptr && (*Cptr != '.'); Cptr++) {
- }
- *Cptr = 0;
- //
- // If they defined an output directory, prepend all output files
- // with the working directory. Output files of interest:
- // VfrListFileName -- list file
- // IfrOutputFileName -- IFR bytes
- // StringOutputFileName -- string bytes
- // StringListFileName -- not used
- // StringDefineFileName -- #defines of string identifiers
- //
- // We have two cases:
- // 1. Output directory (-od) not specified, in which case output files
- // go to the current working directory.
- // 2. Output directory specified, in which case the output files
- // go directly to the specified directory.
- //
- if (gOptions.OutputDirectory[0] == 0) {
- CopyStr[0] = 0;
-#ifndef __GNUC__
- _getcwd (CopyStr, sizeof (CopyStr));
-#else
- getcwd (CopyStr, sizeof (CopyStr));
-#endif
- strcpy (gOptions.OutputDirectory, CopyStr);
- }
- //
- // Make sure output directory has a trailing backslash
- //
- if (gOptions.OutputDirectory[strlen (gOptions.OutputDirectory) - 1] != '\\' ||
- gOptions.OutputDirectory[strlen (gOptions.OutputDirectory) - 1] != '/') {
- strcat (gOptions.OutputDirectory, FILE_SEP_STRING);
- }
- //
- // Create the base output file name as: path\base, copy it to all the output
- // filenames, and then add the appropriate extension to each.
- //
- strcpy (gOptions.VfrListFileName, gOptions.OutputDirectory);
- strcat (gOptions.VfrListFileName, gOptions.VfrBaseFileName);
- strcpy (gOptions.IfrOutputFileName, gOptions.VfrListFileName);
- strcat (gOptions.VfrListFileName, VFR_LIST_FILENAME_EXTENSION);
- strcat (gOptions.IfrOutputFileName, VFR_BINARY_FILENAME_EXTENSION);
- //
- // We set a default list file name, so if they do not
- // want a list file, null out the name now.
- //
- if (gOptions.CreateListFile == 0) {
- gOptions.VfrListFileName[0] = 0;
- }
- return STATUS_SUCCESS;
-}
-static
-VOID
-Usage ()
-/*++
-
-Routine Description:
- Print utility usage instructions
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- int Index;
- const char *Help[] = {
- " ",
- "VfrCompile version " VFR_COMPILER_VERSION,
- " ",
- " Usage: VfrCompile {options} [VfrFile]",
- " ",
- " where options include:",
- " -? or -h prints this help",
- " -l create an output IFR listing file",
- " -i IncPath add IncPath to the search path for VFR included files",
- " -od OutputDir deposit all output files to directory OutputDir (default=cwd)",
- " -ibin create an IFR HII pack file",
- " where parameters include:",
- " VfrFile name of the input VFR script file",
- " ",
- NULL
- };
- for (Index = 0; Help[Index] != NULL; Index++) {
- fprintf (stdout, "%s\n", Help[Index]);
- }
-}
-
->>
-
-
-#lexaction
-<<
-
-#include "EfiVfr.h"
-
-PARSER_LINE_DEFINITION *gLineDefinition = NULL;
-PARSER_LINE_DEFINITION *gLastLineDefinition = NULL;
-
-VOID
-AddFileLine (
- char *TokenString,
- UINT32 TokenLine
- )
-/*++
-
-Routine Description:
- During the lexer phase, if we encounter a #line statement output by
- the preprocessor, this function gets called. We'll save off the info
- for error reporting purposes. The preprocessor line information has the
- form:
-
- #line 3 "FileName.c"
-
-Arguments:
- TokenString - the parsed string as shown above
- TokenLine - the line number in the preprocessed output file
-
-Returns:
- NA
-
---*/
-{
- PARSER_LINE_DEFINITION *LineDef;
- CHAR8 *Cptr;
-
- //
- // Allocate a structure in which we can keep track of this line information.
- //
- LineDef = (PARSER_LINE_DEFINITION *)malloc (sizeof (PARSER_LINE_DEFINITION));
- memset ((char *)LineDef, 0, sizeof (PARSER_LINE_DEFINITION));
- LineDef->TokenLineNum = TokenLine;
- LineDef->HashLineNum = atoi (TokenString + 6);
- //
- // Find the quotes in the filename, then allocate space in the line
- // def structure for a copy of the filename. Finally, copy it without
- // quotes to the line def.
- //
- for (Cptr = TokenString + 7; *Cptr && (*Cptr != '"'); Cptr++);
- if (*Cptr == '"') {
- LineDef->FileName = (CHAR8 *)malloc (strlen (Cptr));
- Cptr++;
- strcpy (LineDef->FileName, Cptr);
- for (Cptr = LineDef->FileName; *Cptr && (*Cptr != '"'); Cptr++);
- *Cptr = 0;
- //
- // Now add this new one to the list
- //
- if (gLineDefinition == NULL) {
- gLineDefinition = LineDef;
- } else {
- gLastLineDefinition->Next = LineDef;
- }
- gLastLineDefinition = LineDef;
- } else {
- Error (PROGRAM_NAME, 0, 0, "invalid line definition in preprocessor output file", TokenString);
- free (LineDef);
- return;
- }
-}
-char *
-ConvertLineNumber (
- UINT32 *LineNum
- )
-/*++
-
-Routine Description:
- Given the line number in the preprocessor-output file, use the line number
- information we've saved to determine the source file name and line number
- where the code originally came from. This is required for error reporting.
-
-Arguments:
- LineNum - the line number in the preprocessor-output file.
-
-Returns:
- Returns a pointer to the source file name. Also returns the line number
- in the provided LineNum argument
-
---*/
-{
- PARSER_LINE_DEFINITION *LineDef;
- //
- // Step through our linked list of #line information we saved off.
- // For each one, look at its line number, and the line number of the
- // next record, and see if the passed-in line number is in the range.
- // If it is, then convert the line number to the appropriate line number
- // of the original source file.
- //
- for (LineDef = gLineDefinition; LineDef != NULL; LineDef = LineDef->Next) {
- //
- // The given LineNum is the line number from the .i file.
- // Find a line definition whose range includes this line number,
- // convert the line number, and return the filename.
- //
- if (LineDef->TokenLineNum <= *LineNum) {
- if (LineDef->Next != NULL) {
- if (LineDef->Next->TokenLineNum > *LineNum) {
- *LineNum = *LineNum - LineDef->TokenLineNum + LineDef->HashLineNum;
- return LineDef->FileName;
- }
- } else {
- //
- // Last one in the list of line definitions, so has to be right
- //
- *LineNum = *LineNum - LineDef->TokenLineNum + LineDef->HashLineNum;
- return LineDef->FileName;
- }
- }
- }
- return NULL;
-}
-
->>
-
-//
-// Define a lexical class for parsing quoted strings. Basically
-// starts with a double quote, and ends with a double quote that
-// is not preceeded with a backslash.
-//
-#lexclass QUOTED_STRING
-#token TheString "~[\"]*\"" << mode (START); >>
-
-//
-// Define a lexical class for parsing "#pragma pack" statements.
-// We do this just for convenience (since we skip them here) so
-// that users can include some minimal .h files.
-//
-#lexclass PRAGMA_PACK
-#token "pack" << skip (); >>
-#token "[\ \t]" << skip (); >>
-#token "\(" << skip (); >>
-#token "[0-9]*" << skip (); >>
-#token "\)" << skip (); mode (START); >>
-
-//
-// Define a lexclass for skipping over C++ style comments
-//
-#lexclass CPP_COMMENT
-#token "~[\n]*" << skip (); >>
-#token "\n" << skip (); mode (START); newline (); >>
-
-//
-// Standard lexclass is START
-//
-#lexclass START
-
-//
-// Find start of C++ style comments
-//
-#token "//" << skip (); mode (CPP_COMMENT); >>
-
-//
-// Skip whitespace
-//
-#token "[\ \t]" << skip (); >>
-
-//
-// Skip over newlines, but count them
-//
-#token "\n" << skip (); newline (); >>
-
-//
-// Skip pragma pack statements
-//
-#token "\#pragma" << skip (); mode(PRAGMA_PACK); >>
-
-//
-// Skip over 'extern' in any included .H file
-//
-#token "extern" << skip (); >>
-
-//
-// Tokens for the different keywords. Syntax is:
-// TokenName("ErrorMessageText") "TokenString"
-// where:
-// TokenName is the token name (must be capitalized) that is used in the rules
-// ErrorMessageText is the string the compiler emits when it detects a syntax error
-// TokenString is the actual matching string used in the user script
-//
-#token LineDefinition "#line\ [0-9]+\ \"~[\"]+\"[\ \t]*\n" << AddFileLine (begexpr (), line ()); skip (); >>
-#token FormSet("formset") "formset"
-#token EndFormSet("endformset") "endformset"
-#token Title("title") "title"
-#token FormId("formid") "formid"
-#token OneOf("oneof") "oneof"
-#token Prompt("prompt") "prompt"
-#token OrderedList("orderedlist") "orderedlist"
-#token EndList("endlist") "endlist"
-#token EndForm("endform") "endform"
-#token EndOneOf("endoneof") "endoneof"
-#token Form("form") "form"
-#token Subtitle("subtitle") "subtitle"
-#token Help("help") "help"
-#token VarId("varid") "varid"
-#token Text("text") "text"
-#token Option("option") "option"
-#token Value("value") "value"
-#token Flags("flags") "flags"
-#token Date("date") "date"
-#token EndDate("enddate") "enddate"
-#token Year("year") "year"
-#token Month("month") "month"
-#token Day("day") "day"
-#token Time("time") "time"
-#token EndTime("endtime") "endtime"
-#token Hour("hour") "hour"
-#token Minute("minute") "minute"
-#token Second("second") "second"
-#token AND("AND") "AND"
-#token OR("OR") "OR"
-#token GrayOutIf("grayoutif") "grayoutif"
-#token NOT("NOT") "NOT"
-#token Label("label") "label"
-#token Timeout("timeout") "timeout"
-#token Inventory("inventory") "inventory"
-#token StringToken("STRING_TOKEN") "STRING_TOKEN"
-#token NonNvDataMap("_NON_NV_DATA_MAP") "_NON_NV_DATA_MAP"
-#token Struct("struct") "struct"
-#token Uint64("UINT64") "UINT64"
-#token Uint32("UINT32") "UINT32"
-#token Uint16("UINT16") "UINT16"
-#token Char16("CHAR16") "CHAR16"
-#token Uint8("UINT8") "UINT8"
-#token Guid("guid") "guid"
-#token CheckBox("checkbox") "checkbox"
-#token EndCheckBox("endcheckbox") "endcheckbox"
-#token Numeric("numeric") "numeric"
-#token EndNumeric("endnumeric") "endnumeric"
-#token Minimum("minimum") "minimum"
-#token Maximum("maximum") "maximum"
-#token Step("step") "step"
-#token Default("default") "default"
-#token Password("password") "password"
-#token EndPassword("endpassword") "endpassword"
-#token String("string") "string"
-#token EndString("endstring") "endstring"
-#token MinSize("minsize") "minsize"
-#token MaxSize("maxsize") "maxsize"
-#token Encoding("encoding") "encoding"
-#token SuppressIf("suppressif") "suppressif"
-#token Hidden("hidden") "hidden"
-#token Goto("goto") "goto"
-#token InconsistentIf "inconsistentif"
-#token EndIf("endif") "endif"
-#token IdEqId("ideqid") "ideqid"
-#token IdEqVal("ideqval") "ideqval"
-#token VarEqVal("vareqval") "vareqval"
-#token Var("var") "var"
-#token IdEqValList("ideqvallist") "ideqvallist"
-#token Length("length") "length"
-#token Values("values") "values"
-#token Key("key") "key"
-#token DefaultFlag("DEFAULT") "DEFAULT"
-#token ManufacturingFlag("MANUFACTURING") "MANUFACTURING"
-#token InteractiveFlag("INTERACTIVE") "INTERACTIVE"
-#token NVAccessFlag("NV_ACCESS") "NV_ACCESS"
-#token ResetRequiredFlag("RESET_REQUIRED") "RESET_REQUIRED"
-#token LateCheckFlag("LATE_CHECK") "LATE_CHECK"
-#token Class("class") "class"
-#token Subclass("subclass") "subclass"
-#token TypeDef("typedef") "typedef"
-#token Restore("restore") "restore"
-#token Save("save") "save"
-#token Defaults("defaults") "defaults"
-#token Banner("banner") "banner"
-#token Align("align") "align"
-#token Left("left") "left"
-#token Right("right") "right"
-#token Center("center") "center"
-#token Line("line") "line"
-#token VarStore("varstore") "varstore"
-#token Name("name") "name"
-#token Oem("oem") "oem"
-#token True("TRUE") "TRUE"
-#token False("FALSE") "FALSE"
-#token GreaterThan(">") ">"
-#token GreaterEqual(">=") ">="
-#token LessThan("<") "<"
-#token LessEqual("<=") "<="
-
-//
-// Define the class and subclass tokens
-//
-#token ClassNonDevice("NONDEVICE") "NON_DEVICE"
-#token ClassDiskDevice("DISK_DEVICE") "DISK_DEVICE"
-#token ClassVideoDevice("VIDEO_DEVICE") "VIDEO_DEVICE"
-#token ClassNetworkDevice("NETWORK_DEVICE") "NETWORK_DEVICE"
-#token ClassInputDevice("INPUT_DEVICE") "INPUT_DEVICE"
-#token ClassOnBoardDevice("ONBOARD_DEVICE") "ONBOARD_DEVICE"
-#token ClassOtherDevice("OTHER_DEVICE") "OTHER_DEVICE"
-
-#token SubclassSetupApplication("SETUP_APPLICATION") "SETUP_APPLICATION"
-#token SubclassGeneralApplication("GENERAL_APPLICATION") "GENERAL_APPLICATION"
-#token SubclassFrontPage("FRONT_PAGE") "FRONT_PAGE"
-#token SubclassSingleUse("SINGLE_USE") "SINGLE_USE"
-
-#token LanguageIdentifier("language identifier") "[a-z][a-z][a-z]" // 3 lowercase characters
-#token StringIdentifier("string identifier") "[A-Za-z_][A-Za-z_0-9]*"
-#token Number("numeric value") "(0x[0-9A-Fa-f]+) | [0-9]+"
-#token OpenBrace("{") "\{"
-#token CloseBrace("}") "\}"
-#token OpenParen("(") "\("
-#token CloseParen(")") "\)"
-#token OpenBracket("[") "\["
-#token CloseBracket("]") "\]"
-
-//
-// Define all other invalid characters so that they get through the lexical phase
-// and we can catch them during the parse phase. We get much better error
-// messages then.
-//
-#token InvalidCharacters("invalid characters") "~[;:=,\.\|]"
-
-//
-// This is the overall definition of a VFR form definition script.
-//
-program :
- ( dataStructDefinition )*
- formSetStatement
- ( vfrStatementVarStore )*
- ( formDefinition )*
- EFS:EndFormSet ";" << WriteOpByte (EFS->getLine(), EFI_IFR_END_FORM_SET_OP); >>
- "@" // end of file
- ;
-
-formSetStatement :
- FS:FormSet << WriteOpByte (FS->getLine(), EFI_IFR_FORM_SET_OP); >>
- Guid "="
- OpenBrace
- G1:Number ","
- G2:Number ","
- G3:Number ","
- OpenBrace
- G4:Number ","
- G5:Number ","
- G6:Number ","
- G7:Number ","
- G8:Number ","
- G9:Number ","
- G10:Number ","
- G11:Number
- CloseBrace
- CloseBrace << WriteGuidValue (G1->getLine (), G1->getText (), G2->getText (), G3->getText (),
- G4->getText (), G5->getText (), G6->getText (), G7->getText (),
- G8->getText (), G9->getText (), G10->getText (), G11->getText ()
- );
- >>
- ","
- Title "=" getStringId ","
- Help "=" getStringId ","
- //
- // insert padding for an EFI_PHYSICAL_ADDRESS (UINT64)
- //
- << WriteDWord (0, 0); WriteDWord (0, 0); >>
- Class "=" CVAL:classDefinition "," << WriteClass (); >>
- Subclass "=" SVAL:subclassDefinition "," << WriteSubclass (); >>
- << WriteWord (mNvDataStructSize); >>
- ;
-
-//
-// A form can be of multiple classes, thus allow CLASS_A | CLASS_B | CLASS_C
-//
-classDefinition :
- validClassNames ( "\|" validClassNames )*
- ;
-
-validClassNames :
- CND:ClassNonDevice << SetClass (CND->getLine(), EFI_NON_DEVICE_CLASS); >>
- | CDD:ClassDiskDevice << SetClass (CDD->getLine(), EFI_DISK_DEVICE_CLASS); >>
- | CVD:ClassVideoDevice << SetClass (CVD->getLine(), EFI_VIDEO_DEVICE_CLASS); >>
- | CNW:ClassNetworkDevice << SetClass (CNW->getLine(), EFI_NETWORK_DEVICE_CLASS); >>
- | CID:ClassInputDevice << SetClass (CID->getLine(), EFI_INPUT_DEVICE_CLASS); >>
- | COB:ClassOnBoardDevice << SetClass (COB->getLine(), EFI_ON_BOARD_DEVICE_CLASS); >>
- | COD:ClassOtherDevice << SetClass (COD->getLine(), EFI_OTHER_DEVICE_CLASS); >>
- | CNUM:Number << SetClass (CNUM->getLine(), GetNumber (CNUM->getText(), CNUM->getLine(), 4)); >>
- ; << PrintErrorMessage (LT(1)->getLine(), LT(1)->getText(), "invalid class"); >>
-
-//
-// A form can only be of one subclass type.
-//
-subclassDefinition :
- SSA:SubclassSetupApplication << SetSubclass (SSA->getLine(), EFI_SETUP_APPLICATION_SUBCLASS); >>
- | SGA:SubclassGeneralApplication << SetSubclass (SGA->getLine(), EFI_GENERAL_APPLICATION_SUBCLASS); >>
- | SFP:SubclassFrontPage << SetSubclass (SFP->getLine(), EFI_FRONT_PAGE_SUBCLASS); >>
- | SSU:SubclassSingleUse << SetSubclass (SSU->getLine(), EFI_SINGLE_USE_SUBCLASS); >>
- | SNUM:Number << SetSubclass (SNUM->getLine(), GetNumber (SNUM->getText(), SNUM->getLine(), 4)); >>
- ; << PrintErrorMessage (LT(1)->getLine(), LT(1)->getText(), "invalid subclass"); >>
-
-//
-// Parse a C type data structure for storing VFR setup data. Allow:
-// typedef struct _XXX_ {
-// (fields)
-// } MY_NV_DATA;
-//
-dataStructDefinition :
- << int IsNonNV = 0; >>
- { TypeDef }
- S:Struct
- (
- NonNvDataMap << IsNonNV = 1; >>
- |
- { StringIdentifier }
- ) << StartStructDefinition (IsNonNV, S->getLine()); >>
- OpenBrace
- dataStructFields
- CloseBrace NAME:StringIdentifier << EndStructDefinition (NAME->getText(), NAME->getLine()); >>
- ";"
- ;
-
-//
-// Parse a C type data structure for defining data that is not stored in NV.
-// typedef struct _NON_NV_DATA_MAP {
-// (fields)
-// } NON_NV_DATA_MAP;
-//
-nonNvDataStructDefinition :
- { TypeDef }
- Struct NonNvDataMap
- { StringIdentifier }
- OpenBrace
- dataStructFields
- CloseBrace NAME:StringIdentifier << AddStructField (NAME->getText(), NAME->getLine(), 0, 0, 0); >>
- ";"
- ;
-
-dataStructFields :
- ( dataStructField64 | dataStructField32 | dataStructField16 | dataStructField8 ) *
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// UINT64 Name[4];
-// UINT64 Name;
-//
-// Used while parsing the NV data map structures.
-//
-dataStructField64 :
- << int ArrayLength = 1; char IsArray = 0; >>
- "UINT64"
- NAME:StringIdentifier
- ( ";" | OpenBracket IVal:Number CloseBracket ";" << ArrayLength = GetNumber (IVal->getText(), IVal->getLine(), 4); IsArray = 1; >> )
- << AddStructField (NAME->getText(), NAME->getLine(), 8, ArrayLength, IsArray); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// UINT32 Name[4];
-// UINT32 Name;
-//
-// Used while parsing the NV data map structures.
-//
-dataStructField32 :
- << int ArrayLength = 1; char IsArray = 0; >>
- "UINT32"
- NAME:StringIdentifier
- ( ";" | OpenBracket IVal:Number CloseBracket ";" << ArrayLength = GetNumber (IVal->getText(), IVal->getLine(), 4); IsArray = 1; >> )
- << AddStructField (NAME->getText(), NAME->getLine(), 4, ArrayLength, IsArray); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// UINT16 Name[4];
-// UINT16 Name;
-//
-// Used while parsing the NV data map structures.
-//
-dataStructField16 :
- << int ArrayLength = 1; char IsArray = 0; >>
- ( "UINT16" | "CHAR16" )
- NAME:StringIdentifier
- ( ";" | OpenBracket IVal:Number CloseBracket ";" << ArrayLength = GetNumber (IVal->getText(), IVal->getLine(), 4); IsArray = 1; >> )
- << AddStructField (NAME->getText(), NAME->getLine(), 2, ArrayLength, IsArray); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// UINT8 Name[4];
-// UINT8 Name;
-//
-// Used while parsing the NV data map structures.
-//
-dataStructField8 :
- << int ArrayLength = 1; char IsArray = 0; >>
- "UINT8"
- NAME:StringIdentifier
- ( ";" | OpenBracket IVal:Number CloseBracket ";" << ArrayLength = GetNumber (IVal->getText(), IVal->getLine(), 4); IsArray = 1; >> )
- << AddStructField (NAME->getText(), NAME->getLine(), 1, ArrayLength, IsArray); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// form formid = 1,
-// title = STRING_TOKEN(STR_FORM_TITLE);
-// -- form statements --
-// endform;
-//
-// The Form ID cannot be 0
-//
-formDefinition :
- FRM:Form FormId << WriteOpByte (FRM->getLine(), EFI_IFR_FORM_OP); >>
- "="
- VAL:Number << WriteWord (GetNumber (VAL->getText(), VAL->getLine(), 2)); AddFormId (GetNumber (VAL->getText(), VAL->getLine(), 2), VAL->getLine()); >>
- ","
- Title "=" getStringId ";" // writes string identifier
- ( vfrStatements )*
- ENDF:EndForm ";" << WriteOpByte (ENDF->getLine(), EFI_IFR_END_FORM_OP); >>
- ;
-
-//
-// VFR statements in a formset
-//
-vfrStatements :
- vfrStatementSubTitle |
- vfrStatementOneOf |
- vfrStatementTextText |
- vfrStatementCheckBox |
- vfrStatementNumeric |
- vfrStatementDate |
- vfrStatementTime |
- vfrStatementPassword |
- vfrStatementString |
- vfrStatementSuppressIf |
- vfrStatementHidden |
- vfrStatementGoto |
- vfrStatementGrayOutIf |
- vfrStatementInconsistentIf |
- vfrStatementLabel |
- vfrStatementBanner |
- vfrStatementInventory |
- vfrStatementOrderedList |
- vfrStatementOem |
- vfrStatementSaveRestoreDefaults
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// label 100;
-//
-vfrStatementLabel :
- OPID:Label << WriteOpByte (OPID->getLine(), EFI_IFR_LABEL_OP); >>
- VAL:Number <<
- WriteWord (GetNumber (VAL->getText(), VAL->getLine(), 2));
- AddLabel (GetNumber (VAL->getText(), VAL->getLine(), 2), VAL->getLine());
- >>
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// oem 0x12, 0x34, 0x56;
-//
-vfrStatementOem :
- OPID:Oem << WriteOpByte (OPID->getLine(), EFI_IFR_OEM_DEFINED_OP); >>
- ( VAL1:Number << WriteByte (GetNumber (VAL1->getText(), VAL1->getLine(), 1), 0); >> )
- ( "," VAL2:Number << WriteByte (GetNumber (VAL2->getText(), VAL2->getLine(), 1), 0); >> )*
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// inconsistentif NOT .... AND NOT .... OR ... endif;
-//
-vfrStatementInconsistentIf :
- << ResetFlags (); >>
- IIFOP:InconsistentIf << WriteOpByte (IIFOP->getLine(), EFI_IFR_INCONSISTENT_IF_OP); >>
- Prompt "=" getStringId ","
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- EOP:EndIf ";" << WriteOpByte (EOP->getLine(), EFI_IFR_END_IF_OP); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// TRUE AND (ideqval SomeStruct.SomeMember >= 0x10 OR
-// ideqid SomeStruct.SomeMember < SomeStruct.SomeOtherMember) AND
-// (ideqlist SomeStruct.SomeOtherMember == 0x10, 0x20, 0x30 OR
-// vareqval var(VAR_EQ_TEST_NAME) == 0x1)
-//
-// For supporting complex express, divide the vfrBooleanExpression to two parts
-// so that pred-LL(k) parser can parse incrementally.
-//
-vfrBooleanExpression :
- leftPartVfrBooleanExp { rightPartVfrBooleanExp }
- ;
-
-leftPartVfrBooleanExp :
- OpenParen vfrBooleanExpression CloseParen |
- (ideqval | ideqid | ideqvallist | vareqval | truefalse) |
- NOPID:NOT leftPartVfrBooleanExp << WriteOpByte (NOPID->getLine(), EFI_IFR_NOT_OP); >>
- ;
-
-rightPartVfrBooleanExp :
- AOPID:AND vfrBooleanExpression << WriteOpByte (AOPID->getLine(), EFI_IFR_AND_OP); >> |
- OOPID:OR vfrBooleanExpression << WriteOpByte (OOPID->getLine(), EFI_IFR_OR_OP); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// TRUE
-//
-truefalse :
- TOPID:True << WriteOpByte (TOPID->getLine(), EFI_IFR_TRUE_OP); >> |
- FOPID:False << WriteOpByte (FOPID->getLine(), EFI_IFR_FALSE_OP); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// varstore MY_STRUCT_NAME, key = 0x1234, name = "MyVariableName", guid = {...};
-//
-vfrStatementVarStore :
- OP:VarStore << WriteOpByte (OP->getLine(), EFI_IFR_VARSTORE_OP); >>
- STRUCT_NAME:StringIdentifier ","
- Key "=" KNUM:Number ","
- Name "=" VAR_NAME:StringIdentifier ","
- Guid "="
- OpenBrace
- G1:Number ","
- G2:Number ","
- G3:Number ","
- OpenBrace
- G4:Number ","
- G5:Number ","
- G6:Number ","
- G7:Number ","
- G8:Number ","
- G9:Number ","
- G10:Number ","
- G11:Number
- CloseBrace
- CloseBrace << WriteGuidValue (G1->getLine (), G1->getText (), G2->getText (), G3->getText (),
- G4->getText (), G5->getText (), G6->getText (), G7->getText (),
- G8->getText (), G9->getText (), G10->getText (), G11->getText ()
- );
- WriteWord (GetNumber (KNUM->getText(), KNUM->getLine(), 2));
- AddVarStore (STRUCT_NAME->getText(), VAR_NAME->getText(), GetNumber (KNUM->getText(), KNUM->getLine(), 2), STRUCT_NAME->getLine());
- >>
-
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// vareqval var(0x100) == 0x20
-//
-vareqval :
- OPID:VarEqVal << WriteOpByte (OPID->getLine(), EFI_IFR_EQ_VAR_VAL_OP); >>
- Var OpenParen
- VAR:Number << WriteWord (GetNumber (VAR->getText(), VAR->getLine(), 2)); >>
- CloseParen
- compareNumber
- ;
-
-ideqval :
- OPID:IdEqVal << WriteOpByte (OPID->getLine(), EFI_IFR_EQ_ID_VAL_OP); >>
- vfrStructFieldName[0]
- compareNumber
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// ideqid MyNVData3.Field16A == MyNVData3.Field16B
-//
-// NOTE: Before processing the second variable store in the ideqid statement, set a global flag
-// so that when we parse the second variable we set the secondary variable store id.
-//
-ideqid :
- OPID:IdEqId << WriteOpByte (OPID->getLine(), EFI_IFR_EQ_ID_ID_OP); >>
- vfrStructFieldName[0]
- compareVfrStructFieldNameNL0
- ;
-
-//*****************************************************************************
-//
-// compareNumber is the combination of compare operation and Number
-//
-compareNumber :
- (
- "=="
- VAL1:Number << WriteWord (GetNumber (VAL1->getText(), VAL1->getLine(), 2)); >>
- ) |
- (
- GTOPID:GreaterThan
- VAL2:Number << WriteWord (GetNumber (VAL2->getText(), VAL2->getLine(), 2));
- WriteOpByte (GTOPID->getLine(), EFI_IFR_GT_OP); >>
- ) |
- (
- GEOPID:GreaterEqual
- VAL3:Number << WriteWord (GetNumber (VAL3->getText(), VAL3->getLine(), 2));
- WriteOpByte (GEOPID->getLine(), EFI_IFR_GE_OP); >>
- ) |
- (
- LTOPID:LessThan
- VAL4:Number << WriteWord (GetNumber (VAL4->getText(), VAL4->getLine(), 2));
- WriteOpByte (LTOPID->getLine(), EFI_IFR_GE_OP);
- WriteOpByte (LTOPID->getLine(), EFI_IFR_NOT_OP); >>
- ) |
- (
- LEOPID:LessEqual
- VAL5:Number << WriteWord (GetNumber (VAL5->getText(), VAL5->getLine(), 2));
- WriteOpByte (LEOPID->getLine(), EFI_IFR_GT_OP);
- WriteOpByte (LEOPID->getLine(), EFI_IFR_NOT_OP); >>
- )
- ;
-
-//*****************************************************************************
-//
-// compareVfrStructFieldNameNL0 is the combination of compare operation and vfrStructFieldNameNL[0]
-//
-compareVfrStructFieldNameNL0 :
- (
- "==" << mIdEqIdStmt = 1; >>
- vfrStructFieldNameNL[0] << mIdEqIdStmt = 0; >>
- ) |
- (
- GTOPID:GreaterThan << mIdEqIdStmt = 1; >>
- vfrStructFieldNameNL[0] << mIdEqIdStmt = 0;
- WriteOpByte (GTOPID->getLine(), EFI_IFR_GT_OP); >>
- ) |
- (
- GEOPID:GreaterEqual << mIdEqIdStmt = 1; >>
- vfrStructFieldNameNL[0] << mIdEqIdStmt = 0;
- WriteOpByte (GEOPID->getLine(), EFI_IFR_GE_OP); >>
- ) |
- (
- LTOPID:LessThan << mIdEqIdStmt = 1; >>
- vfrStructFieldNameNL[0] << mIdEqIdStmt = 0;
- WriteOpByte (LTOPID->getLine(), EFI_IFR_GE_OP);
- WriteOpByte (LTOPID->getLine(), EFI_IFR_NOT_OP); >>
- ) |
- (
- LEOPID:LessEqual << mIdEqIdStmt = 1; >>
- vfrStructFieldNameNL[0] << mIdEqIdStmt = 0;
- WriteOpByte (LEOPID->getLine(), EFI_IFR_GT_OP);
- WriteOpByte (LEOPID->getLine(), EFI_IFR_NOT_OP); >>
- )
- ;
-
-
-ideqvallist :
- OPID:IdEqValList << WriteOpByte (OPID->getLine(), EFI_IFR_EQ_ID_LIST_OP); >>
- vfrStructFieldName[0]
- "=="
- ( VAL:Number << QueueIdEqValList (GetNumber (VAL->getText(), VAL->getLine(), 2)); >> ) +
- << FlushQueueIdEqValList(); >>
- ;
-
-vfrStatementGoto :
- << UINT32 LineNum, KeyValue = 0; ResetFlags (); >>
- IDG:Goto << WriteOpByte (IDG->getLine(), EFI_IFR_REF_OP); >>
- VAL:Number "," << WriteWord (GetNumber (VAL->getText(), VAL->getLine(), 2));
- AddGotoReference (GetNumber (VAL->getText(), VAL->getLine(), 2), VAL->getLine());
- >>
- KP:Prompt "=" getStringId "," << LineNum = KP->getLine(); >>
- Help "=" getStringId
- {
- ","
- FF:Flags "=" flagsField ( "\|" flagsField )* << LineNum = FF->getLine(); >>
- }
- {
- "," Key "=" KNUM:Number << LineNum = KNUM->getLine(); KeyValue = GetNumber(KNUM->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- ";"
- ;
-
-vfrStatementHidden :
- IDH:Hidden << WriteOpByte (IDH->getLine(), EFI_IFR_HIDDEN_OP); >>
- Value "="
- VAL:Number "," << WriteWord (GetNumber (VAL->getText(), VAL->getLine(), 2)); >>
- Key "="
- KVAL:Number << WriteWord (GetNumber (KVAL->getText(), KVAL->getLine(), 2)); >>
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// suppressif <boolean_expression> { grayoutif } <statements>+ endif;
-// Note:
-// You can have: suppressif:grayoutif:statements:endif
-// suppressif:grayoutif:endif -- serves no purpose
-// suppressif:statements:endif
-// suppressif:endif -- serves no purpose
-//
-vfrStatementSuppressIf :
- << ResetFlags (); >>
- OPID:SuppressIf << WriteOpByte (OPID->getLine(), EFI_IFR_SUPPRESS_IF_OP); SetIfStart (OPID->getLine()); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- { suppressIfGrayOutIf } ( suppressIfAndGrayoutIfSubstatements )+
- ENDOP:EndIf ";" << WriteOpByte (ENDOP->getLine(), EFI_IFR_END_IF_OP); SetIfStart (0); >>
- ;
-
-//
-// This is the form for a grayoutif nested in a suppressif statement
-//
-suppressIfGrayOutIf :
- << ResetFlags (); >>
- OPID:GrayOutIf << WriteOpByte (OPID->getLine(), EFI_IFR_GRAYOUT_IF_OP); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// grayoutif { flags = n, } <boolean_expression> endif;
-// Note:
-// You can have: grayoutif:suppressif:statements:endif
-// grayoutif:statements:endif
-//
-//
-vfrStatementGrayOutIf :
- << ResetFlags (); >>
- OPID:GrayOutIf << WriteOpByte (OPID->getLine(), EFI_IFR_GRAYOUT_IF_OP); SetIfStart (OPID->getLine()); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- { grayoutIfSuppressIf } ( suppressIfAndGrayoutIfSubstatements )+
- ENDOP:EndIf ";" << WriteOpByte (ENDOP->getLine(), EFI_IFR_END_IF_OP); SetIfStart (0); >>
- ;
-
-//
-// This is the format for a suppressif nested in a grayoutif
-//
-grayoutIfSuppressIf :
- << ResetFlags (); >>
- OPID:SuppressIf << WriteOpByte (OPID->getLine(), EFI_IFR_SUPPRESS_IF_OP); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- ;
-
-//
-// These are the VFR statements that are valid inside a suppressif or grayoutif statement.
-//
-suppressIfAndGrayoutIfSubstatements :
- vfrStatementOneOf |
- vfrStatementTextText |
- vfrStatementCheckBox |
- vfrStatementNumeric |
- vfrStatementDate |
- vfrStatementTime |
- vfrStatementPassword |
- vfrStatementString |
- vfrStatementHidden |
- vfrStatementGoto |
- vfrStatementLabel |
- vfrStatementInventory |
- vfrStatementOrderedList |
- vfrStatementSaveRestoreDefaults
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// password varid = MyNvData.Password,
-// prompt = STRING_TOKEN(STR_PASSWORD_PROMPT),
-// help = STRING_TOKEN(STR_PASSWORD_HELP),
-// minsize = 6,
-// maxsize = 20,
-// encoding = 1,
-// endpassword;
-
-vfrStatementPassword :
- << UINT32 KeyValue = 0; UINT32 LineNum; ResetFlags (); >>
- IDPW:Password << WriteOpByte (IDPW->getLine(), EFI_IFR_PASSWORD_OP); >>
- VarId "=" vfrStructFieldNameArray[0] ","
- Prompt "=" getStringId ","
- KH:Help "=" getStringId "," << LineNum = KH->getLine(); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* "," << LineNum = FF->getLine(); >>
- }
- {
- Key "=" KNUM:Number "," << LineNum = KNUM->getLine(); KeyValue = GetNumber(KNUM->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- MinSize "=" MIN:Number "," << WriteByte (GetNumber (MIN->getText(), MIN->getLine(), 1), 0); >>
- MaxSize "=" MAX:Number "," << WriteByte (GetNumber (MAX->getText(), MAX->getLine(), 1), 0); >>
- Encoding "=" ENC:Number "," << WriteWord (GetNumber (ENC->getText(), ENC->getLine(), 2)); >>
- EndPassword ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// string varid = MyNv.String,
-// prompt = STRING_TOKEN(STR_STRING_PROMPT),
-// help = STRING_TOKEN(STR_STRING_HELP),
-// flags = INTERACTIVE,
-// key = 0x1234,
-// minsize = 6,
-// maxsize = 0x14,
-// endstring;
-//
-// Since flags and key are optional, we can't use Flags->getLine(). Therefore for error
-// reporting we save the line number of the "help" keyword.
-//
-vfrStatementString :
- << unsigned int KeyValue = 0; UINT32 LineNum; ResetFlags (); >>
- IDS:String << WriteOpByte (IDS->getLine(), EFI_IFR_STRING_OP); >>
- VarId "=" vfrStructFieldNameArray[0] ","
- Prompt "=" getStringId ","
- KH:Help "=" getStringId "," << LineNum = KH->getLine(); >>
- {
- FF:Flags "="
- flagsField ( "\|" flagsField )* << LineNum = FF->getLine(); >>
- ","
- }
- {
- Key "=" KNUM:Number "," << LineNum = KNUM->getLine(); KeyValue = GetNumber(KNUM->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- MinSize "=" MIN:Number "," << WriteByte (GetNumber (MIN->getText(), MIN->getLine(), 1), 0); >>
- MaxSize "=" MAX:Number "," << WriteByte (GetNumber (MAX->getText(), MAX->getLine(), 1), 0); >>
- EndString ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// numeric varid = MyIfrNVData.HowOldAreYouInYears,
-// prompt = STRING_TOKEN(STR_NUMERIC_PROMPT),
-// help = STRING_TOKEN(STR_NUMERIC_HELP),
-// flags = INTERACTIVE, // flags is optional
-// key = 0x1234, // key is optional if (flags & INTERACTIVE = 0)
-// minimum = 0x0,
-// maximum = 0xf0,
-// step = 1, // step is option, and step=1 if not specified
-// default = 0; // default is optional, and default=minimum if not specified
-// endnumeric;
-//
-// Make flags and key optional. However if flags includes INTERACTIVE, then a key is required.
-// That check is done in WriteFlagsKey() function.
-//
-vfrStatementNumeric :
- << UINT32 LineNum, KeyValue = 0; ResetFlags (); >>
- IDN:Numeric << WriteOpByte (IDN->getLine(), EFI_IFR_NUMERIC_OP); >>
- VarId "=" vfrStructFieldName[2] ","
- Prompt "=" getStringId ","
- KH:Help "=" getStringId "," << LineNum = KH->getLine(); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* "," << LineNum = FF->getLine (); >>
- }
- {
- Key "=" KNUM:Number "," << LineNum = KNUM->getLine(); KeyValue = GetNumber(KNUM->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- minMaxStepDefault
- EndNumeric ";" << WriteMinMaxStepDefault (); >>
- ;
-
-//
-// Parse minimum/maximum/step/default statements. Special cases:
-// - if step not specified, then the value is 1
-// - if default not specified, then the value is the min value specified
-// - if max < min, print a warning and swap the values (changes default too)
-//
-minMaxStepDefault :
- << InitMinMaxStepDefault (); >>
- Minimum "=" MIN:Number "," << SetMinMaxStepDefault (GetNumber (MIN->getText(), MIN->getLine(), 2), 0, MIN->getLine()); >>
- Maximum "=" MAX:Number "," << SetMinMaxStepDefault (GetNumber (MAX->getText(), MAX->getLine(), 2), 1, MAX->getLine()); >>
- { Step "=" STEP:Number "," << SetMinMaxStepDefault (GetNumber (STEP->getText(), STEP->getLine(), 2), 2, STEP->getLine()); >> }
- { Default "=" DEF:Number "," << SetMinMaxStepDefault (GetNumber (DEF->getText(), DEF->getLine(), 2), 3, DEF->getLine()); >> }
- ;
-
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// date year varid = Date.Year, // "Date.Year" is a special case we recognize
-// prompt = STRING_TOKEN(STR_DATE_PROMPT),
-// help = STRING_TOKEN(STR_DATE_YEAR_HELP),
-// minimum = 1939,
-// maximum = 2101,
-// step = 1,
-// default = 1964,
-//
-// month varid = Date.Month,
-// prompt = STRING_TOKEN(STR_DATE_PROMPT),
-// help = STRING_TOKEN(STR_DATE_MONTH_HELP),
-// minimum = 1,
-// maximum = 12,
-// step = 1,
-// default = 1,
-//
-// day varid = Date.Day,
-// prompt = STRING_TOKEN(STR_DATE_PROMPT),
-// help = STRING_TOKEN(STR_DATE_DAY_HELP),
-// minimum = 1,
-// maximum = 31,
-// step = 0x1,
-// default = 1,
-//
-// enddate;
-//
-vfrStatementDate :
- Date
- IDY:Year VarId "=" << WriteOpByte (IDY->getLine(), EFI_IFR_DATE_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- IDM:Month VarId "=" << WriteOpByte (IDM->getLine(), EFI_IFR_DATE_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- IDD:Day VarId "=" << WriteOpByte (IDD->getLine(), EFI_IFR_DATE_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- EndDate ";"
- ;
-
-vfrStatementTime :
- Time
- IDH:Hour VarId "=" << WriteOpByte (IDH->getLine(), EFI_IFR_TIME_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- IDM:Minute VarId "=" << WriteOpByte (IDM->getLine(), EFI_IFR_TIME_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- IDS:Second VarId "=" << WriteOpByte (IDS->getLine(), EFI_IFR_TIME_OP); >>
- vfrStructFieldName[2] ","
- dateTimeSubStatement
- EndTime ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// text text = STRING_ID;
-// text text = STRING_ID, text = STRING_ID;
-// text text = STRING_ID, text = STRING_ID, flags = x, key = y;
-//
-vfrStatementTextText :
- << ResetFlags (); >>
- IDT:Text << WriteOpByte (IDT->getLine(), EFI_IFR_TEXT_OP); >>
- Help "=" getStringId ","
- Text "="
- getStringId // writes string identifier
- { "," Text "=" getStringId
- "," Flags "=" flagsField ( "\|" flagsField )* << WriteFlags (); >>
- ","
- Key "=" KNUM:Number << WriteWord (GetNumber(KNUM->getText(), KNUM->getLine(), 2)); >>
- }
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// inventory help = ID, text = ID;
-// inventory help = ID, text = id, text = ID;
-//
-vfrStatementInventory :
- IDI:Inventory << WriteOpByte (IDI->getLine(), EFI_IFR_INVENTORY_OP); >>
- Help "=" getStringId ","
- Text "=" getStringId // writes string identifier
- { "," Text "=" getStringId
- }
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// restore defaults,
-// formid = 4,
-// prompt = STRING_TOKEN(STR_RESTORE_DEFAULTS_PROMPT),
-// help = STRING_TOKEN(STR_RESTORE_DEFAULTS_HELP),
-// flags = 0,
-// key = 0;
-//
-// save defaults,
-// formid = 4,
-// prompt = STRING_TOKEN(STR_SAVE_DEFAULTS_PROMPT),
-// help = STRING_TOKEN(STR_SAVE_DEFAULTS_HELP),
-// flags = 0,
-// key = 0;
-//
-vfrStatementSaveRestoreDefaults :
- << unsigned int KeyValue = 0; UINT32 LineNum; ResetFlags (); >>
- ( IDS:Save << WriteOpByte (IDS->getLine(), EFI_IFR_SAVE_DEFAULTS_OP); >>
- | IDR:Restore << WriteOpByte (IDR->getLine(), EFI_IFR_RESTORE_DEFAULTS_OP); >>
- )
- Defaults ","
- FormId "=" FRMID:Number "," << WriteWord (GetNumber (FRMID->getText(), FRMID->getLine(), 2));
- AddGotoReference (GetNumber (FRMID->getText(), FRMID->getLine(), 2), FRMID->getLine());
- >>
- Prompt "=" getStringId ","
- KH:Help "=" getStringId << LineNum = KH->getLine(); >>
- {
- "," FF:Flags "=" flagsField ( "\|" flagsField )* << LineNum = FF->getLine(); >>
- }
- {
- "," Key "=" KNUM:Number << LineNum = KNUM->getLine(); KeyValue = GetNumber(KNUM->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// flags = 0x10 | DEFAULT | MANUFACTURING | INTERACTIVE | NV_ACCESS | RESET_REQUIRED | LATE_CHECK
-//
-//
-flagsField :
- VAL:Number << SetFlags (GetNumber(VAL->getText(), VAL->getLine(), 4), VAL->getLine()); >>
- | IF:InteractiveFlag << SetFlags (EFI_IFR_FLAG_INTERACTIVE, IF->getLine()); >>
- | MF:ManufacturingFlag << SetFlags (EFI_IFR_FLAG_MANUFACTURING, MF->getLine()); >>
- | DF:DefaultFlag << SetFlags (EFI_IFR_FLAG_DEFAULT, DF->getLine()); >>
- | NV:NVAccessFlag << SetFlags (EFI_IFR_FLAG_NV_ACCESS, NV->getLine()); >>
- | RR:ResetRequiredFlag << SetFlags (EFI_IFR_FLAG_RESET_REQUIRED, RR->getLine()); >>
- | LC:LateCheckFlag << SetFlags (EFI_IFR_FLAG_LATE_CHECK, LC->getLine()); >>
- ;
-
-dateTimeSubStatement :
- Prompt "=" getStringId ","
- Help "=" getStringId ","
- << WriteByte (0, 0); WriteWord (0); >> // bogus flags and key
- minMaxStepDefault << WriteMinMaxStepDefault (); >>
- ;
-
-vfrStatementCheckBox :
- << UINT32 LineNum, KeyValue = 0; ResetFlags (); >>
- IDCB:CheckBox << WriteOpByte (IDCB->getLine(), EFI_IFR_CHECKBOX_OP); >>
- VarId "=" vfrStructFieldName[1] ","
- Prompt "=" getStringId ","
- Help "=" getStringId ","
- FF:Flags "=" flagsField ( "\|" flagsField )* "," << LineNum = FF->getLine(); >>
- {
- Key "=" KV:Number "," << LineNum = KV->getLine(); KeyValue = GetNumber(KV->getText(), LineNum, 2); >>
- }
- << WriteFlagsKey (KeyValue, LineNum); >>
- EndCheckBox ";"
- ;
-
-vfrStatementSubTitle :
- IDS:Subtitle Text "=" << WriteOpByte (IDS->getLine(), EFI_IFR_SUBTITLE_OP); >>
- getStringId // writes string indentifier
- ";"
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// banner
-// title = STRING_TOKEN(STR_BANNER_TITLE),
-// line 1,
-// align center; // or left or right
-//
-// banner,
-// title = STRING_TOKEN(STR_BANNER_TITLE), timeout = 100;
-//
-vfrStatementBanner :
- IDB:Banner { "," } << WriteOpByte (IDB->getLine(), EFI_IFR_BANNER_OP); >>
- Title "=" getStringId ","
- (
- Line VAL:Number "," << WriteWord (GetNumber(VAL->getText(), VAL->getLine(), 2)); >>
- Align
- ( Left << WriteByte (EFI_IFR_BANNER_ALIGN_LEFT, 0); >>
- | Center << WriteByte (EFI_IFR_BANNER_ALIGN_CENTER, 0); >>
- | Right << WriteByte (EFI_IFR_BANNER_ALIGN_RIGHT, 0); >>
- ) ";"
- |
- Timeout "=" TO:Number ";" << WriteWord (GetNumber(TO->getText(), TO->getLine(), 2)); >>
- << WriteByte (EFI_IFR_BANNER_TIMEOUT, 0); >>
- )
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// oneof varid = MyNv.OneOfData,
-// prompt = STRING_TOKEN(STR_ONE_OF_PROMPT),
-// help = STRING_TOKEN(STR_ONE_OF_HELP),
-// option text = STRING_TOKEN(STR_ONE_OF_TEXT),
-// value = 0,
-// flags = DEFAULT | INTERACTIVE;
-//
-// supressif/grayoutif are supported inside oneof stmt.
-// We do not restrict the number of oneOfOptionText to >=2, but >=1.
-// The situation that all oneOfOptionText are suppressed is also possiable.
-//
-vfrStatementOneOf :
- << ResetFlags (); >>
- IDOO:OneOf << WriteOpByte (IDOO->getLine(), EFI_IFR_ONE_OF_OP); >>
- VarId "=" vfrStructFieldName[2] ","
- Prompt "=" getStringId "," // writes string identifier
- Help "=" getStringId "," // writes string identifier
- ( oneOfOptionText )+ // there must be at least 1 option to be choosed, not 2.
- IDEOO:EndOneOf ";" << TestOneOfFlags (IDEOO->getLine()); WriteOpByte (IDEOO->getLine(), EFI_IFR_END_ONE_OF_OP); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// orderedlist varid = MyNv.OrderedListData,
-// prompt = STRING_TOKEN(STR_ORDERED_LIST_PROMPT),
-// help = STRING_TOKEN(STR_ORDERED_LIST_HELP),
-// option text = STRING_TOKEN(STR_ORDERED_LIST_TEXT), value = 0, flags = INTERACTIVE;
-// -- additional option text --
-// endlist;
-//
-vfrStatementOrderedList :
- << ResetFlags (); InitOrderedList(); >>
- IDOL:OrderedList << WriteOpByte (IDOL->getLine(), EFI_IFR_ORDERED_LIST_OP); >>
- VarId "=" vfrStructFieldNameArray[1] ","
- Prompt "=" getStringId "," // writes string identifier
- Help "=" getStringId "," // writes string identifier
- orderedListOptionText ( orderedListOptionText )+
- IDEOL:EndList ";" << WriteOpByte (IDEOL->getLine(), EFI_IFR_END_OP); EndOrderedList(IDEOL->getLine()); >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// option text = STRING_TOKEN(STRING_ID), value = 0 flags = 99;
-//
-// Differs from the oneOfOptionText in that we don't allow the DEFAULT flag to
-// be set, and value cannot be 0.
-//
-orderedListOptionText :
- << UINT32 KeyValue = 0; >>
- IDO:Option << WriteOpByte (IDO->getLine(), EFI_IFR_ONE_OF_OPTION_OP); >>
- Text "=" getStringId "," // writes string identifier
- Value "=" WVAL:Number "," <<
- if (GetNumber(WVAL->getText(), WVAL->getLine(), 2) == 0) {
- PrintErrorMessage (WVAL->getLine(), "value=0 is invalid for ordered lists", NULL);
- } else {
- WriteWord (GetNumber(WVAL->getText(), WVAL->getLine(), 2));
- }
- >>
- FF:Flags "=" orderedListFlagsField
- ("\|" orderedListFlagsField )*
- {
- "," Key "=" KV:Number << KeyValue = GetNumber (KV->getText(), KV->getLine(), 2); >>
- }
- << WriteFlagsKey (KeyValue, FF->getLine()); >>
- ";" << mOptionCount++; >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// flags = 0x10 | DEFAULT | MANUFACTURING | INTERACTIVE | NV_ACCESS | RESET_REQUIRED | LATE_CHECK
-//
-// The ordered list flags field cannot have a default.
-//
-orderedListFlagsField :
- VAL:Number << SetFlags (GetNumber(VAL->getText(), VAL->getLine(), 4), VAL->getLine()); >>
- | IF:InteractiveFlag << SetFlags (EFI_IFR_FLAG_INTERACTIVE, IF->getLine()); >>
- | MF:ManufacturingFlag << SetFlags (EFI_IFR_FLAG_MANUFACTURING, MF->getLine()); >>
- | NV:NVAccessFlag << SetFlags (EFI_IFR_FLAG_NV_ACCESS, NV->getLine()); >>
- | RR:ResetRequiredFlag << SetFlags (EFI_IFR_FLAG_RESET_REQUIRED, RR->getLine()); >>
- | LC:LateCheckFlag << SetFlags (EFI_IFR_FLAG_LATE_CHECK, LC->getLine()); >>
- | DF:DefaultFlag << PrintWarningMessage (DF->getLine(), "DEFAULT flag not valid for ordered lists", NULL); >>
- ;
-
-//
-// Parse references to VFR structure field names of form "MyNvStructure.Field".
-// This implementation is specific to strings, passwords, and references in an
-// ordered list statement because we want to specify the size of the entire
-// field, rather than just one element. Then call a function to write out its
-// offset and length.
-//
-vfrStructFieldNameArray[int FieldWidth] :
- << int ArrayIndex = 1; char IsArrayIndex = 0; >>
- SName:StringIdentifier
- "."
- SFieldName:StringIdentifier
- { OpenBracket AIndex:Number CloseBracket << ArrayIndex = GetNumber(AIndex->getText(), AIndex->getLine(), 4); IsArrayIndex = 1; >> }
- <<
- WriteFieldOffset (1,
- SName->getText(),
- SName->getLine(),
- SFieldName->getText(),
- SFieldName->getLine(),
- ArrayIndex,
- IsArrayIndex,
- FieldWidth,
- 1
- );
- >>
- ;
-
-//
-// Parse references to VFR structure field names of form "MyNvStructure.Field",
-// then call a function to write out its offset and length.
-//
-vfrStructFieldName[int FieldWidth] :
- << int ArrayIndex = 1; char IsArrayIndex = 0; >>
- SName:StringIdentifier
- "."
- SFieldName:StringIdentifier
- { OpenBracket AIndex:Number CloseBracket << ArrayIndex = GetNumber(AIndex->getText(), AIndex->getLine(), 4); IsArrayIndex = 1; >> }
- <<
- WriteFieldOffset (1,
- SName->getText(),
- SName->getLine(),
- SFieldName->getText(),
- SFieldName->getLine(),
- ArrayIndex,
- IsArrayIndex,
- FieldWidth,
- 0
- );
- >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-//
-// MyNvStructure.FieldName[4]
-//
-// Parse references to VFR structure field names of form "MyNvStructure.Field",
-// then call a function to write out the offset with no length.
-//
-vfrStructFieldNameNL[int FieldWidth] :
- << int ArrayIndex = 1; char IsArrayIndex = 0; >>
- SName:StringIdentifier
- "."
- SFieldName:StringIdentifier
- { OpenBracket AIndex:Number CloseBracket << ArrayIndex = GetNumber(AIndex->getText(), AIndex->getLine(), 4); IsArrayIndex = 1; >> }
- <<
- WriteFieldOffset (0,
- SName->getText(),
- SName->getLine(),
- SFieldName->getText(),
- SFieldName->getLine(),
- ArrayIndex,
- IsArrayIndex,
- FieldWidth,
- 0
- );
- >>
- ;
-
-//*****************************************************************************
-//
-// PARSE:
-// suppressif TRUE OR FALSE;
-// grayoutif FALSE OR TRUE;
-// option text = STRING_TOKEN(STRING_ID), value = 0 flags = 99;
-// option text = STRING_TOKEN(STRING_ID2), value = 1 flags = 98;
-// endif;
-//
-oneOfOptionText :
- suppressIfOptionText |
- grayOutIfOptionText |
- commonOptionText
- ;
-
-suppressIfOptionText :
- << ResetFlags (); >>
- OPID:SuppressIf << WriteOpByte (OPID->getLine(), EFI_IFR_SUPPRESS_IF_OP); SetIfStart (OPID->getLine()); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- { suppressIfGrayOutIf } ( commonOptionText )+
- ENDOP:EndIf ";" << WriteOpByte (ENDOP->getLine(), EFI_IFR_END_IF_OP); SetIfStart (0); >>
- ;
-
-grayOutIfOptionText :
- << ResetFlags (); >>
- OPID:GrayOutIf << WriteOpByte (OPID->getLine(), EFI_IFR_GRAYOUT_IF_OP); SetIfStart (OPID->getLine()); >>
- {
- FF:Flags "=" flagsField ( "\|" flagsField )* ","
- }
- << WriteFlags (); >> // write the flags field
- vfrBooleanExpression
- ";"
- { grayoutIfSuppressIf } ( commonOptionText )+
- ENDOP:EndIf ";" << WriteOpByte (ENDOP->getLine(), EFI_IFR_END_IF_OP); SetIfStart (0); >>
- ;
-
-commonOptionText :
- << UINT32 KeyValue = 0; >>
- IDO:Option << WriteOpByte (IDO->getLine(), EFI_IFR_ONE_OF_OPTION_OP); >>
- Text "=" getStringId "," // writes string identifier
- Value "=" WVal:Number "," << WriteWord (GetNumber(WVal->getText(), WVal->getLine(), 2)); >>
- FF:Flags "=" flagsField ("\|" flagsField )*
- {
- "," Key "=" KV:Number << KeyValue = GetNumber (KV->getText(), KV->getLine(), 2); >>
- }
- << WriteFlagsKey (KeyValue, FF->getLine()); >>
- ";" << mOptionCount++; >>
- ;
-
-//
-// Gets a string identifier. It must be a numeric value of form:
-//
-// STRING_TOKEN(100)
-//
-getStringId :
- << unsigned short StrId; >>
- StringToken OpenParen
- IdVal:Number << StrId = GetNumber (IdVal->getText(), IdVal->getLine(), 2); WriteStringIdWord (StrId); >>
- CloseParen
- ;
-
-//******************************************************************************
-//
-// Parser class definition.
-//
-class EfiVfrParser {
-<<
-//
-// Parser definitions go here
-//
-private:
- STRUCT_DEFINITION *mFirstStructDefinition;
- STRUCT_DEFINITION *mLastStructDefinition;
- INT32 mNvDataStructSize;
- INT32 mNonNvDataStructSize;
- //
- // Flag to indicate that we're processing a ideqid VFR statement so that
- // we can do late checks on the statement.
- //
- INT32 mIdEqIdStmt;
- INT32 mLastNVVariableDataSize;
- GOTO_REFERENCE *mGotoReferences;
- FORM_ID_VALUE *mFormIdValues;
- VfrOpcodeHandler mOpcodeHandler;
- UINT16_LIST *mUint16List;
- UINT16_LIST *mLastUint16;
- UINT16_LIST *mDefinedLabels;
- UINT16_LIST *mDefinedVarStoreId;
- UINT16_LIST *mLastDefinedVarStoreId;
- UINT32 mMinimumValue, mMaximumValue, mStepValue, mDefaultValue;
- UINT32 mStmtFlags;
- UINT32 mSubStmtFlags;
- UINT32 mSubStmtFlagsLineNum;
- EFI_GUID mFormSetGuid;
- UINT8 mNvDataStructDefined;
- UINT16 mClass, mSubclass;
- UINT32 mIfStart;
- UINT32 mOptionCount; // how many "option" fields in a given statement
- UINT32 mLastVarIdSize;
- UINT8 mOutput;
-public:
-
-VOID
-EfiVfrParser::SetIfStart (
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- Invoked during VFR parsing when an "if" is encountered. Save the
- source line number so we can point to it if we don't find a
- corresponding endif later.
-
-Arguments:
- LineNum - source line number where the "if" was parsed.
-
-Returns:
- None
-
---*/
-{
- mIfStart = LineNum;
-}
-VOID
-EfiVfrParser::SetClass (
- UINT32 LineNum,
- UINT32 Value
- )
-/*++
-
-Routine Description:
- Invoked during VFR parsing when a "class" statement is found. Check the
- range on the class value and save it for later.
-
-Arguments:
- LineNum - source line number where the class statement was parsed.
- Value - the class value
-
-Returns:
- None
-
---*/
-{
- if (Value & 0xFFFF0000) {
- PrintWarningMessage (LineNum, NULL, "class value exceeds maximum allowed");
- }
- mClass |= (UINT16)Value;
-}
-VOID
-EfiVfrParser::SetSubclass (
- UINT32 LineNum,
- UINT32 Value
- )
-/*++
-
-Routine Description:
- Invoked during VFR parsing when a subclass statement is found. Check the
- range on the value and save it for later.
-
-Arguments:
- LineNum - source line number where the class statement was parsed.
- Value - the subclass value from the VFR statement
-
-Returns:
- None
-
---*/
-{
- if (Value & 0xFFFF0000) {
- PrintWarningMessage (LineNum, NULL, "subclass value exceeds maximum allowed");
- }
- mSubclass |= (UINT16)Value;
-}
-VOID EfiVfrParser::WriteClass ()
-{
- WriteWord (mClass);
- mClass = 0;
-}
-VOID EfiVfrParser::WriteSubclass ()
-{
- WriteWord (mSubclass);
- mSubclass = 0;
-}
-VOID EfiVfrParser::WriteIfrBytes ()
-{
- mOpcodeHandler.WriteIfrBytes ();
-}
-VOID
-EfiVfrParser::WriteFlagsKey (
- UINT32 KeyValue,
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- Write out the flags and key values from the previous VFR statement.
- Many statements take a flags/key pair. If not specified, then 0
- values are written out. However do not allow an interactive flags field
- to be specified if no key value is specified. Also, if NV_ACCESS flag
- is set but INTERACTIVE is not, then set interactive and issue a warning.
-
-Arguments:
- KeyValue - the key value from the VFR statement
- LineNum - source line number where the statement was parsed
-
-Returns:
- None
-
---*/
-{
- if ((mSubStmtFlags & EFI_IFR_FLAG_INTERACTIVE) && (KeyValue == 0)) {
- PrintErrorMessage (LineNum, NULL, "invalid or missing key value - required with INTERACTIVE");
- }
- if ((mSubStmtFlags & EFI_IFR_FLAG_NV_ACCESS) && !(mSubStmtFlags & EFI_IFR_FLAG_INTERACTIVE)) {
- PrintWarningMessage (LineNum, NULL, "NV_ACCESS without INTERACTIVE has no effect -- setting INTERACTIVE");
- mSubStmtFlags |= EFI_IFR_FLAG_INTERACTIVE;
- }
- WriteFlags ();
- WriteWord (KeyValue);
-}
-VOID
-EfiVfrParser::InitOrderedList ()
-{
- mOptionCount = 0;
-}
-VOID
-EfiVfrParser::EndOrderedList (
- UINT32 LineNum
- )
-{
- if (mLastVarIdSize < mOptionCount) {
- PrintErrorMessage (LineNum, NULL, "number of options exceeds the variable store size");
- }
-}
-VOID
-EfiVfrParser::ResetFlags ()
-/*++
-
-Routine Description:
-
- Flags are set for each substatement in a given one-of statement.
- To make sure there are no conflicts, for example setting DEFAULT on
- more than one substatement, we keep track of the flags at a statement
- level and a substatement level. This function resets the flags so
- we get a fresh start.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- mStmtFlags = 0;
- mSubStmtFlagsLineNum = 0;
- mSubStmtFlags = 0;
-}
-//
-// Test validity of flags value for a one-of statement.
-//
-VOID
-EfiVfrParser::TestOneOfFlags (
- UINT32 LineNum
- )
-{
- //
- // One of the fields must have had the default bit set
- //
- if ((mStmtFlags & EFI_IFR_FLAG_DEFAULT) == 0) {
- PrintWarningMessage (LineNum, "default value must be specified", NULL);
- }
-}
-VOID
-EfiVfrParser::SetFlags (
- UINT32 Flags,
- UINT32 LineNum
- )
-{
- //
- // Check for redefinitions and invalid combinations
- //
- if (mStmtFlags & Flags & EFI_IFR_FLAG_MANUFACTURING) {
- PrintErrorMessage (LineNum, "MANUFACTURING", "a field with this flag already defined");
- }
- if (mStmtFlags & Flags & EFI_IFR_FLAG_DEFAULT) {
- PrintErrorMessage (LineNum, "DEFAULT", "a field with this flag already defined");
- }
- mSubStmtFlags |= Flags;
- mSubStmtFlagsLineNum = LineNum;
-}
-VOID
-EfiVfrParser::WriteFlags ()
-{
- //
- // Check value for validity
- //
- if (mSubStmtFlags & ~(EFI_IFR_FLAG_DEFAULT |
- EFI_IFR_FLAG_MANUFACTURING |
- EFI_IFR_FLAG_INTERACTIVE |
- EFI_IFR_FLAG_NV_ACCESS |
- EFI_IFR_FLAG_RESET_REQUIRED |
- EFI_IFR_FLAG_LATE_CHECK )) {
- PrintWarningMessage (mSubStmtFlagsLineNum, "invalid bits defined in flag", NULL);
- }
- WriteByte ((UINT8)mSubStmtFlags, 'F');
- //
- // We can now clear the substatement flags
- //
- mStmtFlags |= mSubStmtFlags;
- mSubStmtFlags = 0;
-}
-//
-// When we parse a min/max/step/default sequence, save off the values for
-// later use. Call this first to init the values.
-//
-VOID
-EfiVfrParser::InitMinMaxStepDefault ()
-{
- mMinimumValue = 0;
- mMaximumValue = 0;
- mStepValue = 1;
- mDefaultValue = 0;
-}
-VOID
-EfiVfrParser::WriteMinMaxStepDefault ()
-{
- WriteWord (mMinimumValue);
- WriteWord (mMaximumValue);
- WriteWord (mStepValue);
- WriteWord (mDefaultValue);
-}
-VOID
-EfiVfrParser::SetMinMaxStepDefault (
- UINT16 Value,
- INT32 MMSD,
- INT32 LineNum
- )
-{
- UINT16 TempValue;
- //
- // Min specified
- //
- if (MMSD == 0) {
- mMinimumValue = Value;
- mDefaultValue = Value;
- //
- // Max specified
- //
- } else if (MMSD == 1) {
- mMaximumValue = Value;
- //
- // If min > max, then swap the values. That includes resetting the default
- // value as well.
- //
- if (mMinimumValue > mMaximumValue) {
- PrintWarningMessage (LineNum, NULL, "maximum < minimum");
- TempValue = Value;
- mMaximumValue = mMinimumValue;
- mMinimumValue = TempValue;
- mDefaultValue = mMinimumValue;
- }
- //
- // Step specified
- //
- } else if (MMSD == 2) {
- mStepValue = Value;
- //
- // Default specified. Make sure min <= default <= max.
- //
- } else if (MMSD == 3) {
- mDefaultValue = Value;
- if (mMinimumValue > Value) {
- PrintErrorMessage (LineNum, NULL, "default value < minimum value");
- } else if (Value > mMaximumValue) {
- PrintErrorMessage (LineNum, NULL, "default value > maximum value");
- }
- } else {
- PrintErrorMessage (LineNum, "application error", "internal MMSD error");
- }
-}
-VOID
-EfiVfrParser::AddLabel (
- UINT32 LabelNumber,
- UINT32 LineNum
- )
-{
- UINT16_LIST *Label;
-
- //
- // Added a label from the user VFR script. Make sure they haven't already
- // defined the same label elsewhere
- //
- for (Label = mDefinedLabels; Label != NULL; Label = Label->Next) {
- if (Label->Value == LabelNumber) {
- PrintErrorMessage (LineNum, NULL, "label already defined");
- PrintErrorMessage (Label->LineNum, NULL, "previous definition of redefined label");
- break;
- }
- }
- Label = (UINT16_LIST *)malloc (sizeof (UINT16_LIST));
- if (Label == NULL) {
- PrintErrorMessage (0, NULL, "memory allocation error");
- return;
- }
- memset ((char *)Label, 0, sizeof (UINT16_LIST));
- Label->Value = LabelNumber;
- Label->LineNum = LineNum;
- Label->Next = mDefinedLabels;
- mDefinedLabels = Label;
-}
-VOID
-EfiVfrParser::QueueIdEqValList (
- UINT16 Value
- )
-{
- UINT16_LIST *U16;
-
- U16 = (UINT16_LIST *)malloc (sizeof (UINT16_LIST));
- if (U16 == NULL) {
- Error (PROGRAM_NAME, 0, 0, NULL, "memory allocation failed");
- } else {
- memset ((char *)U16, 0, sizeof (UINT16_LIST));
- U16->Value = Value;
- if (mUint16List == NULL) {
- mUint16List = U16;
- } else {
- mLastUint16->Next = U16;
- }
- mLastUint16 = U16;
- }
-}
-VOID
-EfiVfrParser::FlushQueueIdEqValList ()
-{
- UINT32 Count;
-
- //
- // We queued up a list of IdEqValList items. The IFR requires a count
- // followed by the actual values. Do it.
- //
- Count = 0;
- mLastUint16 = mUint16List;
- while (mLastUint16 != NULL) {
- Count++;
- mLastUint16 = mLastUint16->Next;
- }
- // BUGBUG -- check for more than 16K items?
- WriteWord (Count);
- //
- // Now write the values.
- //
- mLastUint16 = mUint16List;
- while (mLastUint16 != NULL) {
- WriteWord ((UINT32)mLastUint16->Value);
- mLastUint16 = mLastUint16->Next;
- }
- //
- // Free up the list
- //
- mLastUint16 = mUint16List;
- while (mUint16List != NULL) {
- mLastUint16 = mUint16List->Next;
- free (mUint16List);
- mUint16List = mLastUint16;
- }
-}
-VOID
-EfiVfrParser::PrintErrorMessage (
- UINT32 LineNum,
- CHAR8 *Msg1,
- CHAR8 *Msg2
- )
-{
- char *FileName;
-
- if (LineNum != 0) {
- FileName = ConvertLineNumber ((UINT32 *)&LineNum);
- Error (FileName, LineNum, 0, Msg1, Msg2);
- } else {
- Error (PROGRAM_NAME, 0, 0, Msg1, Msg2);
- }
-}
-VOID
-EfiVfrParser::PrintWarningMessage (
- UINT32 LineNum,
- CHAR8 *Msg1,
- CHAR8 *Msg2
- )
-{
- char *FileName;
-
- if (LineNum != 0) {
- FileName = ConvertLineNumber ((UINT32 *)&LineNum);
- Warning (FileName, LineNum, 0, Msg1, Msg2);
- } else {
- Warning (PROGRAM_NAME, 0, 0, Msg1, Msg2);
- }
-}
-VOID
-EfiVfrParser::syn (
- ANTLRAbstractToken *Tok,
- ANTLRChar *Egroup,
- SetWordType *Eset,
- ANTLRTokenType ETok,
- INT32 Huh
- )
-/*++
-
-Routine Description:
- Called by the parser base class as a result of parse syntax errors.
-
-Arguments:
- Tok - token that caused the error
- Egroup - not sure
- Eset - index in token table of the expected token
- Huh - not sure
-
-Returns:
- NA
-
---*/
-{
- char *FileName;
- UINT32 LineNum;
-
- LineNum = Tok->getLine ();
- FileName = ConvertLineNumber ((UINT32 *)&LineNum);
- //
- // Sometimes the token number is 0, in which case I don't know what to
- // print.
- //
- if (ETok == 0) {
- Error (FileName, LineNum, 0, Tok->getText (), "unexpected token");
- } else {
- //
- // If we were expecting an endif, then report the line where the corresponding
- // IF began.
- //
- if ((strcmp (_token_tbl[ETok], "endif") == 0) && (mIfStart != 0)) {
- LineNum = mIfStart;
- FileName = ConvertLineNumber (&LineNum);
- Error (FileName, LineNum, 0, "statement missing corresponding endif", NULL);
- } else {
- Error (FileName, LineNum, 0, Tok->getText (), "expected %s", _token_tbl[ETok]);
- }
- }
-}
-
-VOID
-EfiVfrParser::init()
-/*++
-
-Routine Description:
- Initializations function for our parser.
-
-Arguments:
- None.
-
-Returns:
- None.
-
---*/
-{
- ANTLRParser::init();
-
- //
- // Used for queuing a variable list of UINT16's
- //
- mUint16List = NULL;
- mLastUint16 = NULL;
- mFirstStructDefinition = NULL;
- mLastStructDefinition = NULL;
- mNvDataStructSize = 0;
- mNonNvDataStructSize = 0;
- mNvDataStructDefined = 0;
- mGotoReferences = NULL;
- mFormIdValues = NULL;
- mDefinedLabels = NULL;
- mClass = 0;
- mSubclass = 0;
- mIfStart = 0;
- mDefinedVarStoreId = NULL;
- mLastDefinedVarStoreId = NULL;
- mIdEqIdStmt = 0;
- mLastNVVariableDataSize = 0;
-
- memset ((char *)&mFormSetGuid, 0, sizeof (EFI_GUID));
-}
-//
-// Destructor for the parser.
-//
-EfiVfrParser::~EfiVfrParser(VOID)
-{
- Cleanup();
-}
-VOID
-EfiVfrParser::Cleanup (VOID)
-/*++
-
-Routine Description:
- Free memory allocated during parsing
-
-Arguments:
- None.
-
-Returns:
- None.
-
---*/
-{
- STRUCT_DEFINITION *NextStruct;
- STRUCT_FIELD_DEFINITION *NextField;
- UINT8 Buff[6];
- UINT16_LIST *NextU16List;
-
- //
- // Free up the structure definitions if any
- //
- while (mFirstStructDefinition != NULL) {
- //
- // Free up all the fields for this struct
- //
- while (mFirstStructDefinition->Field != NULL) {
- NextField = mFirstStructDefinition->Field->Next;
- free (mFirstStructDefinition->Field->Name);
- free (mFirstStructDefinition->Field);
- mFirstStructDefinition->Field = NextField;
- }
- NextStruct = mFirstStructDefinition->Next;
- free (mFirstStructDefinition->Name);
- free (mFirstStructDefinition);
- mFirstStructDefinition = NextStruct;
- }
- //
- // Free up the goto references and form id defines
- //
- FreeGotoReferences ();
- //
- // Free up label list
- //
- while (mDefinedLabels != NULL) {
- NextU16List = mDefinedLabels->Next;
- delete (mDefinedLabels);
- mDefinedLabels = NextU16List;
- }
- //
- // Free up the list of defined variable storage IDs
- //
- while (mDefinedVarStoreId != NULL) {
- NextU16List = mDefinedVarStoreId->Next;
- delete (mDefinedVarStoreId);
- mDefinedVarStoreId = NextU16List;
- }
-}
-
-INT32
-EfiVfrParser::AtoX (
- CHAR8 *HexString,
- INT32 NumBytes,
- UINT32 *HexValue
- )
-/*++
-
-Routine Description:
- Given a pointer to a ascii hex string, convert to a number with the given
- number of bytes.
-
-Arguments:
- HexString - pointer to a string of format 30BCA
- Size - number of bytes to convert
- HexValue - return result
-
-Returns:
- The number of bytes converted.
-
---*/
-{
- INT32 Count;
- INT32 Value;
-
- *HexValue = 0;
- Count = 0;
- while (Count < NumBytes) {
- if ((*HexString >= '0') && (*HexString <= '9')) {
- Value = *HexString - '0';
- } else if ((*HexString >= 'a') && (*HexString <= 'f')) {
- Value = *HexString - 'a' + 10;
- } else if ((*HexString >= 'A') && (*HexString <= 'F')) {
- Value = *HexString - 'A' + 10;
- } else {
- return Count;
- }
- HexString++;
- *HexValue = (*HexValue << 4) | Value;
- if ((*HexString >= '0') && (*HexString <= '9')) {
- Value = *HexString - '0';
- } else if ((*HexString >= 'a') && (*HexString <= 'f')) {
- Value = *HexString - 'a' + 10;
- } else if ((*HexString >= 'A') && (*HexString <= 'F')) {
- Value = *HexString - 'A' + 10;
- } else {
- return Count;
- }
- *HexValue = (*HexValue << 4) | Value;
- HexString++;
- Count++;
- }
- return Count;
-}
-VOID
-EfiVfrParser::WriteGuidValue (
- UINT32 TokenLineNum,
- CHAR8 *G1,
- CHAR8 *G2,
- CHAR8 *G3,
- CHAR8 *G4,
- CHAR8 *G5,
- CHAR8 *G6,
- CHAR8 *G7,
- CHAR8 *G8,
- CHAR8 *G9,
- CHAR8 *G10,
- CHAR8 *G11
- )
-/*++
-
-Routine Description:
- A Guid was parsed, likely of format:
- #define MY_GUID { 0x12345678, 0xAABB, 0xCCDD, 0xEE, 0xFF, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66 }
-
- Write out the value.
-
-Arguments:
- TokenLineNum - line number where the guid was used
- G1-G11 - the 11 fields of the guid value
-
-Returns:
- None.
-
---*/
-{
- UINT32 Value;
- INT32 Loop;
-
- mFormSetGuid.Data1 = GetNumber (G1, TokenLineNum, 4);
- mFormSetGuid.Data2 = (UINT16)GetNumber (G2, TokenLineNum, 2);
- mFormSetGuid.Data3 = (UINT16)GetNumber (G3, TokenLineNum, 2);
- mFormSetGuid.Data4[0] = (UINT8)GetNumber (G4, TokenLineNum, 1);
- mFormSetGuid.Data4[1] = (UINT8)GetNumber (G5, TokenLineNum, 1);
- mFormSetGuid.Data4[2] = (UINT8)GetNumber (G6, TokenLineNum, 1);
- mFormSetGuid.Data4[3] = (UINT8)GetNumber (G7, TokenLineNum, 1);
- mFormSetGuid.Data4[4] = (UINT8)GetNumber (G8, TokenLineNum, 1);
- mFormSetGuid.Data4[5] = (UINT8)GetNumber (G9, TokenLineNum, 1);
- mFormSetGuid.Data4[6] = (UINT8)GetNumber (G10, TokenLineNum, 1);
- mFormSetGuid.Data4[7] = (UINT8)GetNumber (G11, TokenLineNum, 1);
-
- WriteDWord (mFormSetGuid.Data1, 'G');
- WriteWord (mFormSetGuid.Data2);
- WriteWord (mFormSetGuid.Data3);
- WriteByte (mFormSetGuid.Data4[0], 0);
- WriteByte (mFormSetGuid.Data4[1], 0);
- WriteByte (mFormSetGuid.Data4[2], 0);
- WriteByte (mFormSetGuid.Data4[3], 0);
- WriteByte (mFormSetGuid.Data4[4], 0);
- WriteByte (mFormSetGuid.Data4[5], 0);
- WriteByte (mFormSetGuid.Data4[6], 0);
- WriteByte (mFormSetGuid.Data4[7], 0);
-}
-VOID
-EfiVfrParser::WriteFieldOffset (
- INT8 WriteLength,
- CHAR8 *StructName,
- INT32 LineNum1,
- CHAR8 *FieldName,
- INT32 LineNum2,
- INT32 ArrayIndex,
- INT8 IsArrayIndex,
- INT32 FieldWidth,
- INT8 WriteArraySize
- )
-/*++
-
-Routine Description:
- A VFR script referenced the NV store structure. Given the structure's name
- and the field's name, write the offset of the field to the output file.
-
-Arguments:
- WriteLength - write the field length byte out
- StructName - name of the NV store structure
- LineNum1 - line number in the VFR where we are (for error printing)
- FieldName - the name of the field within the NV store structure
- LineNum2 - line number in the VFR where FieldName is referenced
- ArrayIndex - the index specified, for example NV_DATA.Field[ArrayIndex]
- IsArrayIndex - non-zero if an array index was specified
- FieldWidth - expected size for the Field (1 byte? 2 bytes?)
- WriteArraySize - write the size of the entire field, not the size of a single element
-
-Returns:
- None.
-
---*/
-{
- STRUCT_DEFINITION *StructDef;
- STRUCT_FIELD_DEFINITION *FieldDef;
- UINT32 Offset;
- UINT32 VarSize;
- CHAR8 Msg[100];
- //
- // If we're writing an array size, then they better have referenced the field without an
- // index.
- //
- if (WriteArraySize && IsArrayIndex) {
- sprintf (Msg, "array index specified where an array is required");
- PrintErrorMessage (LineNum2, FieldName, Msg);
- return;
- }
- //
- // Look through our list of known structures for a match
- //
- for (StructDef = mFirstStructDefinition; StructDef != NULL; StructDef = StructDef->Next) {
- //
- // Check for matching structure name
- //
- if (strcmp (StructDef->Name, StructName) == 0) {
- //
- // Mark it as referenced (for debug purposes only). Check the
- // flag that indicates that we have already found a varstore VFR
- // statement for it.
- //
- StructDef->Referenced++;
- if (StructDef->VarStoreIdValid == 0) {
- //
- // Set it valid so we don't flag it multiple times, then emit the error
- //
- StructDef->VarStoreIdValid = 1;
- PrintErrorMessage (LineNum1, StructName, "varstore statement missing for this variable store");
- }
- //
- // Let the opcode-handler know which variable storage we're now using
- //
- if (mIdEqIdStmt) {
- mOpcodeHandler.SetSecondaryVarStoreId (StructDef->VarStoreId);
- } else {
- mOpcodeHandler.SetVarStoreId (StructDef->VarStoreId);
- }
- //
- // Found matching structure name. Now find the matching field name
- //
- for (FieldDef = StructDef->Field; FieldDef != NULL; FieldDef = FieldDef->Next) {
- if (strcmp (FieldDef->Name, FieldName) == 0) {
- //
- // Make sure the variable size is valid
- //
- if ((FieldWidth != 0) && (FieldDef->DataSize > FieldWidth)) {
- sprintf (Msg, "field width exceeds %d byte%c", FieldWidth, FieldWidth == 1 ? ' ' : 's');
- PrintErrorMessage (LineNum2, FieldName, Msg);
- }
- //
- // If they specified an index (MyVfrData.FieldX[10]), then make sure that the
- // data structure was declared as an array, and that the index is in bounds.
- // If they did not specify an index, then we'll assume 0. This is required for
- // strings.
- //
- if (IsArrayIndex) {
- VarSize = FieldDef->DataSize;
- if (FieldDef->IsArray == 0) {
- PrintErrorMessage (LineNum2, FieldName, "field is not declared as an array");
- return;
- }
- if (FieldDef->ArrayLength < ArrayIndex) {
- PrintErrorMessage (LineNum2, FieldName, "array index exceeds declared size of field");
- return;
- }
- } else {
- if (FieldDef->IsArray) {
- VarSize = FieldDef->DataSize * FieldDef->ArrayLength;
- } else {
- VarSize = FieldDef->DataSize;
- }
- }
- //
- // If we're in the middle of a ideqid VFR statement, then this is the second
- // variable ID that we're now processing. Make sure that its size is the same
- // as the first variable.
- //
- if (mIdEqIdStmt) {
- if (mLastVarIdSize != VarSize) {
- PrintErrorMessage (LineNum2, FieldName, "variables must have the same size");
- return;
- }
- }
- mLastVarIdSize = VarSize;
- //
- // If we're supposed to write an array size, then require it to be an array
- //
- if (WriteArraySize && !FieldDef->IsArray) {
- PrintErrorMessage (LineNum2, FieldName, "array required");
- return;
- }
- //
- // Write the variable offset and size. If we're in the non-NV structure, then
- // set the offset beyond the NV data structure size.
- //
- Offset = FieldDef->Offset + FieldDef->DataSize * (ArrayIndex - 1);
- if (StructDef->IsNonNV) Offset += mNvDataStructSize;
- WriteWord (Offset);
- if (WriteLength) {
- if (WriteArraySize) {
- if (FieldDef->DataSize * FieldDef->ArrayLength > 255) {
- PrintErrorMessage (LineNum2, FieldName, "array size exceeds 255 maximum encoding limit");
- return;
- }
- WriteByte (FieldDef->DataSize * FieldDef->ArrayLength, 0);
- } else {
- WriteByte (FieldDef->DataSize, 0);
- }
- }
- return;
- }
- }
- sprintf (Msg, "structure %s does not have a field named '%s'", StructName, FieldName);
- PrintErrorMessage (LineNum2, Msg, NULL);
- PrintErrorMessage (StructDef->LineNum, "see structure definition", NULL);
- return;
- }
- }
- //
- // The structure was not found in the defined list. See if it's the "Date" structure
- //
- if (strcmp (StructName, "Date") == 0) {
- //
- // BUGBUG -- remove support for Date and Time as valid structure
- // names. They should use the NON_NV_DATA_MAP structure for this.
- //
- // Someone specified Date.Years|Months|Days
- // BUGBUG -- define some constants for the IDs used here
- // Length == 0 implies that this is not user NV data storage.
- //
- if (strcmp (FieldName, "Year") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 0);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else if (strcmp (FieldName, "Month") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 2);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else if (strcmp (FieldName, "Day") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 4);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else {
- PrintErrorMessage (LineNum1, FieldName, "expected valid field name TheYear/TheMonth/TheDay");
- }
- return;
- } else if (strcmp (StructName, "Time") == 0) {
- //
- // Someone specified Time.Hours|Minutes|Seconds
- // BUGBUG -- define some constants for the IDs used here
- //
- if (strcmp (FieldName, "Hours") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 6);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else if (strcmp (FieldName, "Minutes") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 8);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else if (strcmp (FieldName, "Seconds") == 0) {
- //
- // Write ID (offset), ID, and size
- //
- WriteWord (mNvDataStructSize + mNonNvDataStructSize + 10);
- if (WriteLength) {
- WriteByte (0, 0);
- }
- } else {
- PrintErrorMessage (LineNum1, FieldName, "expected valid field name Hours/Minutes/Seconds");
- }
- return;
- } else {
- PrintErrorMessage (LineNum1, StructName, "undefined structure");
- return;
- }
-}
-VOID
-EfiVfrParser::StartStructDefinition (
- INT32 IsNonNV,
- INT32 LineNum
- )
-/*++
-
-Routine Description:
- Called when we encounter a new "struct _MY_STRUCT..." statement while parsing.
- Initialize internal data and structures for parsing the fields of the structure.
-
-Arguments:
- LineNum - line number in the source file (for error reporting purposes)
- IsNonNv - flag indicating (if nonzero) that the variable referred to is not in
- the standard NV store.
-Returns:
- None
-
---*/
-{
- STRUCT_DEFINITION *StructDef;
- //
- // Allocate memory for the structure record
- //
- StructDef = (STRUCT_DEFINITION *)malloc (sizeof (STRUCT_DEFINITION));
- memset (StructDef, 0, sizeof (STRUCT_DEFINITION));
- StructDef->LineNum = LineNum;
- //
- // Set flag indicating non-NV data structure or not
- //
- StructDef->IsNonNV = IsNonNV;
- //
- // Add it to the end of our linked list. If it's the first one
- // defined, then it's the default varstore ID, so set it valid.
- //
- if (mFirstStructDefinition == NULL) {
- mFirstStructDefinition = StructDef;
- StructDef->VarStoreIdValid = 1;
- } else {
- mLastStructDefinition->Next = StructDef;
- }
- mLastStructDefinition = StructDef;
-}
-VOID
-EfiVfrParser::EndStructDefinition (
- CHAR8 *StructName,
- INT32 LineNum
- )
-{
- STRUCT_DEFINITION *StructDef;
- STRUCT_FIELD_DEFINITION *FieldDef;
- UINT32 Offset;
- //
- // Make sure they have not already defined a structure with this name
- //
- for (StructDef = mFirstStructDefinition; StructDef != NULL; StructDef = StructDef->Next) {
- if ((StructDef->Name != NULL) && (strcmp (StructDef->Name, StructName) == 0)) {
- PrintErrorMessage (LineNum, StructName, "structure with this name already defined");
- //
- // Fall through and fill in the rest of the structure information. We do
- // this because the structure has already been added to our global list,
- // so will be used elsewhere, so we want it to contain valid fields.
- //
- }
- }
- //
- // Allocate memory for the structure name
- //
- mLastStructDefinition->Name = (char *)malloc (strlen (StructName) + 1);
- strcpy (mLastStructDefinition->Name, StructName);
- //
- // Compute the structure size, and the offsets to each field
- //
- Offset = 0;
- for (FieldDef = mLastStructDefinition->Field; FieldDef != NULL; FieldDef = FieldDef->Next) {
- FieldDef->Offset = Offset;
- Offset += FieldDef->ArrayLength * FieldDef->DataSize;
- }
- mLastStructDefinition->Size = Offset;
- //
- // Go through all the structure we have so far and figure out (if we can)
- // the size of the non-NV storage. We also assume that the first structure
- // definition is the primary/default storage for the VFR form.
- //
- if (mNonNvDataStructSize == 0) {
- for (StructDef = mFirstStructDefinition; StructDef != NULL; StructDef = StructDef->Next) {
- if (StructDef->IsNonNV) {
- mNonNvDataStructSize = StructDef->Size;
- break;
- }
- }
- }
- if (mNvDataStructSize == 0) {
- for (StructDef = mFirstStructDefinition; StructDef != NULL; StructDef = StructDef->Next) {
- if (StructDef->IsNonNV == 0) {
- mNvDataStructSize = StructDef->Size;
- break;
- }
- }
- }
-}
-VOID
-EfiVfrParser::AddStructField (
- CHAR8 *FieldName,
- INT32 LineNum,
- INT32 DataSize,
- INT32 ArrayLength,
- INT8 IsArray
- )
-/*++
-
-Routine Description:
- We're parsing the VFR structure definition. Add another defined field to
- our definition.
-
-Arguments:
- FieldName - name of the field in the structure.
- LineNum - the line number from the input (preprocessor output) file
- DataSize - the size of the field (1, 2, or 4 bytes)
- ArrayLength - the number of elements (for array)
- IsArray - non-zero if the field is an array
-
-Returns:
- None.
-
---*/
-{
- STRUCT_FIELD_DEFINITION *FieldDef;
- STRUCT_FIELD_DEFINITION *Temp;
- //
- // Make sure we don't already have a field of this name in our structure
- //
- for (FieldDef = mLastStructDefinition->Field; FieldDef != NULL; FieldDef = FieldDef->Next) {
- if (strcmp (FieldDef->Name, FieldName) == 0) {
- PrintErrorMessage (LineNum, FieldName, "field with this name already defined");
- return;
- }
- }
- //
- // If it's an array, then they better not have a size of 0. For example:
- // UINT8 MyBytes[0];
- //
- if (IsArray && (ArrayLength <= 0)) {
- PrintErrorMessage (LineNum, FieldName, "invalid array size");
- return;
- }
- //
- // Allocate memory for a new structure field definition
- //
- FieldDef = (STRUCT_FIELD_DEFINITION *)malloc (sizeof (STRUCT_FIELD_DEFINITION));
- memset ((char *)FieldDef, 0, sizeof (STRUCT_FIELD_DEFINITION));
- FieldDef->ArrayLength = ArrayLength;
- FieldDef->DataSize = DataSize;
- FieldDef->IsArray = IsArray;
- FieldDef->Name = (char *)malloc (strlen (FieldName) + 1);
- strcpy (FieldDef->Name, FieldName);
- //
- // Add it to the end of the field list for the currently active structure
- //
- if (mLastStructDefinition->Field == NULL) {
- mLastStructDefinition->Field = FieldDef;
- } else {
- mLastStructDefinition->LastField->Next = FieldDef;
- }
- mLastStructDefinition->LastField = FieldDef;
-}
-VOID
-EfiVfrParser::AddVarStore (
- CHAR8 *StructName, // actual name of the structure
- CHAR8 *VarName, // actual NV variable name
- UINT16 VarStoreId, // key value
- INT32 LineNum // parse line number (for error reporting)
- )
-/*++
-
-Routine Description:
- Called while parsing a varstore statement. Add the variable store
- to our linked list.
-
-Arguments:
- StructName - the name of the typedef'ed structure to use
- VarName - the NV variable name as specified in the varstore statement
- VarStoreId - the variable store ID as specified in the varstore statememt
- LineNum - the line number from the input (preprocessor output) file
-
-Returns:
- None.
-
---*/
-{
- STRUCT_DEFINITION *StructDef;
- UINT16_LIST *L16Ptr;
- //
- // Go through our list of previously-defined variable store IDs and
- // make sure this one is not a duplicate in name or key value.
- //
- for (L16Ptr = mDefinedVarStoreId; L16Ptr != NULL; L16Ptr = L16Ptr->Next) {
- if (L16Ptr->Value == VarStoreId) {
- PrintErrorMessage (LineNum, "variable storage key already used", NULL);
- PrintErrorMessage (L16Ptr->LineNum, "previous usage of storage key", NULL);
- }
- }
- //
- // Key value of 0 is invalid since that's assigned by default to the default
- // variable store (the first structure parsed).
- //
- if (VarStoreId == 0) {
- PrintErrorMessage (LineNum, "variable storage key of 0 is invalid", NULL);
- }
- //
- // Create a new element to add to the list
- //
- L16Ptr = (UINT16_LIST *)malloc(sizeof (UINT16_LIST));
- memset (L16Ptr, 0, sizeof (UINT16_LIST));
- L16Ptr->LineNum = LineNum;
- L16Ptr->Value = VarStoreId;
- if (mDefinedVarStoreId == NULL) {
- mDefinedVarStoreId = L16Ptr;
- } else {
- mLastDefinedVarStoreId->Next = L16Ptr;
- }
- mLastDefinedVarStoreId = L16Ptr;
- //
- // Find the structure definition with this name
- //
- for (StructDef = mFirstStructDefinition; StructDef != NULL; StructDef = StructDef->Next) {
- if (strcmp (StructDef->Name, StructName) == 0) {
- //
- // Make sure they did not already define a variable storage ID
- // for this structure.
- //
- if (StructDef->VarStoreId != 0) {
- PrintErrorMessage (LineNum, StructName, "variable storage already defined for this structure");
- PrintErrorMessage (StructDef->VarStoreLineNum, StructName, "previous definition for variable storage");
- }
- StructDef->VarStoreId = VarStoreId;
- StructDef->VarStoreIdValid = 1;
- StructDef->VarStoreLineNum = LineNum;
- WriteWord (StructDef->Size);
- while (*VarName) {
- WriteByte(*VarName, 0);
- VarName++;
- }
- WriteByte(0,0);
- return;
- }
- }
- PrintErrorMessage (LineNum, StructName, "structure with this name not defined");
-}
-VOID
-EfiVfrParser::WriteDWord (
- UINT32 Value,
- UINT8 KeyByte
- )
-/*++
-
-Routine Description:
- During parsing, we came upon some code that requires a 32-bit value be
- written to the VFR binary file. Queue up the 4 bytes.
-
-Arguments:
- Value - the 32-bit value to write
- KeyByte - a single character which gets written out beside the first byte.
- This is used to tag the data in the output file so that during
- debug you have an idea what the value is.
-
-Returns:
- None.
-
---*/
-{
- //
- // Write 4 bytes, little endian. Specify a key byte only on the first one
- //
- mOpcodeHandler.AddByte ((UINT8)Value, KeyByte);
- Value \>>= 8;
- mOpcodeHandler.AddByte ((UINT8)Value, 0);
- Value \>>= 8;
- mOpcodeHandler.AddByte ((UINT8)Value, 0);
- Value \>>= 8;
- mOpcodeHandler.AddByte ((UINT8)Value, 0);
-}
-VOID
-EfiVfrParser::WriteOpByte (
- UINT32 LineNum,
- UINT8 ByteValue
- )
-/*++
-
-Routine Description:
-
- During parsing, we came upon a new VFR opcode. At this point we flush
- the output queue and then queue up this byte (with 'O' for opcode tag).
-
-Arguments:
-
- ByteValue - opcode value
-
-Returns:
-
- None.
-
---*/
-{
- mOpcodeHandler.AddOpcodeByte (ByteValue, LineNum);
-}
-VOID
-EfiVfrParser::WriteByte (
- UINT8 ByteValue,
- UINT8 Key
- )
-/*++
-
-Routine Description:
-
- During parsing of the VFR we spoonfeed this function with bytes to write to
- the output VFR binary file. This function simply queues up the bytes, and
- the queue gets flushed each time a new VFR opcode is encountered.
-
-Arguments:
-
- ByteValue - raw byte to write
- Key - character to tag the byte with when we write ByteValue to the
- output file.
-
-Returns:
-
- None.
-
---*/
-{
- mOpcodeHandler.AddByte (ByteValue, Key);
-}
-VOID
-EfiVfrParser::WriteWord (
- UINT32 Value
- )
-/*++
-
-Routine Description:
- During VFR parsing we came upon a case where we need to write out a
- 16-bit value. Queue it up.
-
-Arguments:
- Value - value to write.
-
-Returns:
- None.
-
---*/
-{
- mOpcodeHandler.AddByte ((UINT8)Value, 0);
- mOpcodeHandler.AddByte ((UINT8)((Value \>> 8) & 0xFF), 0);
-}
-VOID
-EfiVfrParser::WriteStringIdWord (
- UINT16 WordValue
- )
-{
- mOpcodeHandler.AddByte ((UINT8)WordValue, 'S');
- mOpcodeHandler.AddByte ((UINT8)((WordValue \>> 8) & 0xFF), 0);
-}
-VOID
-EfiVfrParser::FreeGotoReferences ()
-/*++
-
-Routine Description:
- Called during cleanup to free up the memory we allocated when
- keeping track of VFR goto statements.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- GOTO_REFERENCE *CurrRef;
- GOTO_REFERENCE *NextRef;
- FORM_ID_VALUE *CurrFormId;
- FORM_ID_VALUE *NextFormId;
- UINT8 Found;
- CHAR8 Name[20];
-
- //
- // Go through all the "goto" references and make sure there was a
- // form ID of that value defined.
- //
- for (CurrRef = mGotoReferences; CurrRef != NULL; CurrRef = CurrRef->Next) {
- Found = 0;
- for (CurrFormId = mFormIdValues; CurrFormId != NULL; CurrFormId = CurrFormId->Next) {
- if (CurrRef->Value == CurrFormId->Value) {
- Found = 1;
- break;
- }
- }
- if (!Found) {
- sprintf (Name, "%d", (UINT32)CurrRef->Value);
- PrintErrorMessage (CurrRef->RefLineNum, Name, "undefined form ID");
- }
- }
- //
- // Now free up the form id and goto references
- //
- CurrFormId = mFormIdValues;
- while (CurrFormId != NULL) {
- NextFormId = CurrFormId->Next;
- free (CurrFormId);
- CurrFormId = NextFormId;
- }
- mFormIdValues = NULL;
- CurrRef = mGotoReferences;
- while (CurrRef != NULL) {
- NextRef = CurrRef->Next;
- free (CurrRef);
- CurrRef = NextRef;
- }
- mGotoReferences = NULL;
-}
-VOID
-EfiVfrParser::AddGotoReference (
- UINT32 GotoNumber,
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- During VFR parsing we came upon a goto statement. Since we support
- forward references, save the referenced label and at the end of parsing
- we'll check that the label was actually defined somewhere.
-
-Arguments:
- GotoNumber - the label number referenced
- LineNum - the line number where the reference was made (used for
- error reporting)
-
-Returns:
- None
-
---*/
-{
- GOTO_REFERENCE *NewRef;
-
- NewRef = (GOTO_REFERENCE *)malloc (sizeof (GOTO_REFERENCE));
- if (NewRef == NULL) {
- Error (PROGRAM_NAME, 0, 0, NULL, "memory allocation failure");
- return;
- }
- memset ((char *)NewRef, 0, sizeof (GOTO_REFERENCE));
- NewRef->Value = (UINT16)GotoNumber;
- NewRef->RefLineNum = LineNum;
- NewRef->Next = mGotoReferences;
- mGotoReferences = NewRef;
-}
-VOID
-EfiVfrParser::AddFormId (
- INT32 FormIdValue,
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- This function is called when we parse "form formid = 3" statements.
- We save the form ID valud so we can verify that duplicates are not
- defined. Also, these are the targets of goto statements, so when we're
- done parsing the script we also go through all the goto statements to
- check that there was a target FormId defined as referenced by each
- goto statement.
-
- Note that formid = 0 is invalid.
-
-Arguments:
- FormIdValue - the parsed value for the Form ID
- LineNum - line number of the source file we're parsing
-
-Returns:
- NA
-
---*/
-{
- FORM_ID_VALUE *NewFormId;
- char *FileName;
- char *FileName2;
- UINT32 LineNum2;
- //
- // Verify that FormId != 0
- //
- if (FormIdValue == 0) {
- FileName = ConvertLineNumber (&LineNum);
- Error (FileName, LineNum, 0, "form ID cannot be 0", NULL);
- return;
- }
- //
- // First go through all previously defined form IDs and make sure they have not defined
- // duplicates.
- //
- for (NewFormId = mFormIdValues; NewFormId != NULL; NewFormId = NewFormId->Next) {
- if ((UINT16)FormIdValue == NewFormId->Value) {
- FileName = ConvertLineNumber (&LineNum);
- LineNum2 = NewFormId->LineNum;
- FileName2 = ConvertLineNumber (&LineNum2);
- Error (FileName, LineNum, 0, NULL, "form ID %d already defined", FormIdValue);
- Error (FileName2, LineNum2, 0, NULL, "form ID %d previous definition", FormIdValue);
- return;
- }
- }
- //
- // Allocate memory for a new one
- //
- NewFormId = (FORM_ID_VALUE *)malloc (sizeof (FORM_ID_VALUE));
- if (NewFormId == NULL) {
- Error (PROGRAM_NAME, 0, 0, NULL, "memory allocation failure");
- return;
- }
- memset ((char *)NewFormId, 0, sizeof (FORM_ID_VALUE));
- NewFormId->LineNum = LineNum;
- NewFormId->Next = mFormIdValues;
- NewFormId->Value = (UINT16)FormIdValue;
- mFormIdValues = NewFormId;
-}
-UINT32
-EfiVfrParser::GetNumber (
- CHAR8 *NumStr,
- UINT32 LineNum,
- UINT32 NumBytes
- )
-{
- UINT32 Value;
-
- if ((NumStr[0] == '0') && (NumStr[1] == 'x')) {
- AtoX (NumStr + 2, 4, &Value);
- } else {
- Value = (UINT32)atoi (NumStr);
- }
- //
- // Check range
- //
- if ((NumBytes < 4) && (Value & ((UINT32)0xFFFFFFFF << (NumBytes * 8)))) {
- PrintErrorMessage (LineNum, NumStr, "value out of range");
- return 0;
- }
- return Value;
-}
-
->>
-
-} // end grammar class
-
diff --git a/Tools/CCode/Source/VfrCompile/VfrServices.cpp b/Tools/CCode/Source/VfrCompile/VfrServices.cpp
deleted file mode 100644
index d338672060..0000000000
--- a/Tools/CCode/Source/VfrCompile/VfrServices.cpp
+++ /dev/null
@@ -1,758 +0,0 @@
-/*++
-
-Copyright (c) 2004 - 2005, Intel Corporation
-All rights reserved. This program and the accompanying materials
-are licensed and made available under the terms and conditions of the BSD License
-which accompanies this distribution. The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-
-Module Name:
-
- VfrServices.cpp
-
-Abstract:
-
- Support routines for the VFR compiler
-
---*/
-
-#include <stdio.h> // for FILE routines
-#include <stdlib.h> // for malloc() and free()
-
-#include <Common/UefiBaseTypes.h>
-#include <Common/MultiPhase.h>
-#include <Common/InternalFormRepresentation.h>
-#include <Protocol/UgaDraw.h> // for EFI_UGA_PIXEL definition
-#include <Protocol/Hii.h>
-
-#include "EfiUtilityMsgs.h"
-#include "EfiVfr.h"
-#include "VfrServices.h"
-
-
-static const char *mSourceFileHeader[] = {
- "//",
- "// DO NOT EDIT -- auto-generated file",
- "//",
- "// This file is generated by the VFR compiler.",
- "//",
- NULL
-};
-
-typedef struct {
- CHAR8 *Name;
- INT32 Size;
-} IFR_OPCODE_SIZES;
-
-//
-// Create a table that can be used to do internal checking on the IFR
-// bytes we emit.
-//
-static const IFR_OPCODE_SIZES mOpcodeSizes[] = {
- { 0, 0 }, // invalid
- { "EFI_IFR_FORM", sizeof (EFI_IFR_FORM) },
- { "EFI_IFR_SUBTITLE", sizeof (EFI_IFR_SUBTITLE) },
- { "EFI_IFR_TEXT", -6 }, //sizeof (EFI_IFR_TEXT) },
- { "unused 0x04 opcode", 0 }, // EFI_IFR_GRAPHIC_OP
- { "EFI_IFR_ONE_OF", sizeof (EFI_IFR_ONE_OF) },
- { "EFI_IFR_CHECKBOX", sizeof (EFI_IFR_CHECKBOX) },
- { "EFI_IFR_NUMERIC", sizeof (EFI_IFR_NUMERIC) },
- { "EFI_IFR_PASSWORD", sizeof (EFI_IFR_PASSWORD) },
- { "EFI_IFR_ONE_OF_OPTION", sizeof (EFI_IFR_ONE_OF_OPTION) },
- { "EFI_IFR_SUPPRESS", sizeof (EFI_IFR_SUPPRESS) },
- { "EFI_IFR_END_FORM", sizeof (EFI_IFR_END_FORM) },
- { "EFI_IFR_HIDDEN", sizeof (EFI_IFR_HIDDEN) },
- { "EFI_IFR_END_FORM_SET", sizeof (EFI_IFR_END_FORM_SET) },
- { "EFI_IFR_FORM_SET", sizeof (EFI_IFR_FORM_SET) },
- { "EFI_IFR_REF", sizeof (EFI_IFR_REF) },
- { "EFI_IFR_END_ONE_OF", sizeof (EFI_IFR_END_ONE_OF) },
- { "EFI_IFR_INCONSISTENT", sizeof (EFI_IFR_INCONSISTENT) },
- { "EFI_IFR_EQ_ID_VAL", sizeof (EFI_IFR_EQ_ID_VAL) },
- { "EFI_IFR_EQ_ID_ID", sizeof (EFI_IFR_EQ_ID_ID) },
- { "EFI_IFR_EQ_ID_LIST", -sizeof (EFI_IFR_EQ_ID_LIST) },
- { "EFI_IFR_AND", sizeof (EFI_IFR_AND) },
- { "EFI_IFR_OR", sizeof (EFI_IFR_OR) },
- { "EFI_IFR_NOT", sizeof (EFI_IFR_NOT) },
- { "EFI_IFR_END_EXPR", sizeof (EFI_IFR_END_EXPR) },
- { "EFI_IFR_GRAY_OUT", sizeof (EFI_IFR_GRAY_OUT) },
- { "EFI_IFR_DATE", sizeof (EFI_IFR_DATE) / 3 },
- { "EFI_IFR_TIME", sizeof (EFI_IFR_TIME) / 3 },
- { "EFI_IFR_STRING", sizeof (EFI_IFR_STRING) },
- { "EFI_IFR_LABEL", sizeof (EFI_IFR_LABEL) },
- { "EFI_IFR_SAVE_DEFAULTS", sizeof (EFI_IFR_SAVE_DEFAULTS) },
- { "EFI_IFR_RESTORE_DEFAULTS", sizeof (EFI_IFR_RESTORE_DEFAULTS) },
- { "EFI_IFR_BANNER", sizeof (EFI_IFR_BANNER) },
- { "EFI_IFR_INVENTORY", sizeof (EFI_IFR_INVENTORY) },
- { "EFI_IFR_EQ_VAR_VAL_OP", sizeof (EFI_IFR_EQ_VAR_VAL) },
- { "EFI_IFR_ORDERED_LIST_OP", sizeof (EFI_IFR_ORDERED_LIST) },
- { "EFI_IFR_VARSTORE_OP", -sizeof (EFI_IFR_VARSTORE) },
- { "EFI_IFR_VARSTORE_SELECT_OP", sizeof (EFI_IFR_VARSTORE_SELECT) },
- { "EFI_IFR_VARSTORE_SELECT_PAIR_OP", sizeof (EFI_IFR_VARSTORE_SELECT_PAIR) },
- { "EFI_IFR_TRUE", sizeof (EFI_IFR_TRUE)},
- { "EFI_IFR_FALSE", sizeof (EFI_IFR_FALSE)},
- { "EFI_IFR_GT", sizeof (EFI_IFR_GT)},
- { "EFI_IFR_GE", sizeof (EFI_IFR_GE)},
- { "EFI_IFR_OEM_DEFINED_OP", -2 },
-};
-
-
-VfrOpcodeHandler::VfrOpcodeHandler (
- )
-/*++
-
-Routine Description:
- Constructor for the VFR opcode handling class.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- mIfrBytes = NULL;
- mLastIfrByte = NULL;
- mBytesWritten = 0;
- mQueuedByteCount = 0;
- mQueuedOpcodeByteValid = 0;
- mPrimaryVarStoreId = 0;
- mSecondaryVarStoreId = 0;
- mSecondaryVarStoreIdSet = 0;
- mPrimaryVarStoreIdSet = 0;
- mDefaultVarStoreId = 0;
-}
-
-VOID
-VfrOpcodeHandler::SetVarStoreId (
- UINT16 VarStoreId
- )
-/*++
-
-Routine Description:
- This function is invoked by the parser when a variable is referenced in the
- VFR. Save the variable store (and set a flag) so that we can later determine
- if we need to emit a varstore-select or varstore-select-pair opcode.
-
-Arguments:
- VarStoreId - ID of the variable store referenced in the VFR
-
-Returns:
- None
-
---*/
-{
- mPrimaryVarStoreId = VarStoreId;
- mPrimaryVarStoreIdSet = 1;
-}
-
-VOID
-VfrOpcodeHandler::SetSecondaryVarStoreId (
- UINT16 VarStoreId
- )
-/*++
-
-Routine Description:
- This function is invoked by the parser when a secondary variable is
- referenced in the VFR. Save the variable store (and set a flag) so
- that we can later determine if we need to emit a varstore-select or
- varstore-pair opcode.
-
-Arguments:
- VarStoreId - ID of the variable store referenced in the VFR
-
-Returns:
- None
-
---*/
-{
- mSecondaryVarStoreId = VarStoreId;
- mSecondaryVarStoreIdSet = 1;
-}
-
-VOID
-VfrOpcodeHandler::WriteIfrBytes (
- )
-/*++
-
-Routine Description:
- This function is invoked at the end of parsing. Its purpose
- is to write out all the IFR bytes that were queued up while
- parsing.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- IFR_BYTE *Curr;
- IFR_BYTE *Next;
- UINT32 Count;
- UINT32 LineCount;
- UINT32 PoundLines;
- UINT32 ByteCount;
- CHAR8 Line[MAX_LINE_LEN];
- CHAR8 *Cptr;
- FILE *InFptr;
- FILE *OutFptr;
- UINT32 ListFile;
- EFI_HII_IFR_PACK_HEADER IfrHeader;
- UINT8 *Ptr;
- FILE *IfrBinFptr;
- UINT32 BytesLeftThisOpcode;
- //
- // If someone added a new opcode and didn't update our opcode sizes structure, error out.
- //
- if (sizeof(mOpcodeSizes) / sizeof (mOpcodeSizes[0]) != EFI_IFR_LAST_OPCODE + 1) {
- Error (__FILE__, __LINE__, 0, "application error", "internal IFR binary table size is incorrect");
- return;
- }
- //
- // Flush the queue
- //
- FlushQueue ();
- //
- // If there have been any errors to this point, then skip dumping the IFR
- // binary data. This way doing an nmake again will try to build it again, and
- // the build will fail if they did not fix the problem.
- //
- if (GetUtilityStatus () != STATUS_ERROR) {
- if ((IfrBinFptr = fopen (gOptions.IfrOutputFileName, "w")) == NULL) {
- Error (PROGRAM_NAME, 0, 0, gOptions.IfrOutputFileName, "could not open file for writing");
- return;
- }
- //
- // Write the standard file header to the output file
- //
- WriteStandardFileHeader (IfrBinFptr);
- //
- // Write the structure header
- //
- fprintf (IfrBinFptr, "\nunsigned char %sBin[] = {", gOptions.VfrBaseFileName);
- //
- // Write the header
- //
- memset ((char *)&IfrHeader, 0, sizeof (IfrHeader));
- IfrHeader.Header.Type = EFI_HII_IFR;
- IfrHeader.Header.Length = mBytesWritten + sizeof (IfrHeader);
- Ptr = (UINT8 *)&IfrHeader;
- for (Count = 0; Count < sizeof (IfrHeader); Count++, Ptr++) {
- if ((Count & 0x03) == 0) {
- fprintf (IfrBinFptr, "\n ");
- }
- fprintf (IfrBinFptr, "0x%02X, ", *Ptr);
- }
- //
- //
- // Write all the IFR bytes
- //
- fprintf (IfrBinFptr, "\n // start of IFR data");
- Curr = mIfrBytes;
- Count = 0;
- while (Curr != NULL) {
- if ((Count & 0x0F) == 0) {
- fprintf (IfrBinFptr, "\n ");
- }
- if (Curr->KeyByte != 0) {
- fprintf (IfrBinFptr, "/*%c*/ ", Curr->KeyByte);
- }
- fprintf (IfrBinFptr, "0x%02X, ", Curr->OpcodeByte);
- Count++;
- Curr = Curr->Next;
- }
- fprintf (IfrBinFptr, "\n};\n\n");
- //
- //
- // Close the file
- //
- fclose (IfrBinFptr);
- IfrBinFptr = NULL;
- }
- //
- // Write the bytes as binary data if the user specified to do so
- //
- if ((GetUtilityStatus () != STATUS_ERROR) && (gOptions.CreateIfrBinFile != 0)) {
- //
- // Use the Ifr output file name with a ".hpk" extension.
- //
- for (Cptr = gOptions.IfrOutputFileName + strlen (gOptions.IfrOutputFileName) - 1;
- (*Cptr != '.') && (Cptr > gOptions.IfrOutputFileName) && (*Cptr != '\\');
- Cptr--) {
- //
- // do nothing
- //
- }
- if (*Cptr == '.') {
- strcpy (Cptr, ".hpk");
- } else {
- strcat (gOptions.IfrOutputFileName, ".hpk");
- }
- if ((IfrBinFptr = fopen (gOptions.IfrOutputFileName, "wb")) == NULL) {
- Error (PROGRAM_NAME, 0, 0, gOptions.IfrOutputFileName, "could not open file for writing");
- return;
- }
- //
- // Write the structure header
- //
- memset ((char *)&IfrHeader, 0, sizeof (IfrHeader));
- IfrHeader.Header.Type = EFI_HII_IFR;
- IfrHeader.Header.Length = mBytesWritten + sizeof (IfrHeader);
- Ptr = (UINT8 *)&IfrHeader;
- for (Count = 0; Count < sizeof (IfrHeader); Count++, Ptr++) {
- fwrite (Ptr, 1, 1, IfrBinFptr);
- }
- //
- //
- // Write all the IFR bytes
- //
- Curr = mIfrBytes;
- Count = 0;
- while (Curr != NULL) {
- fwrite (&Curr->OpcodeByte, 1, 1, IfrBinFptr);
- Curr = Curr->Next;
- }
- //
- //
- // Close the file
- //
- fclose (IfrBinFptr);
- IfrBinFptr = NULL;
- }
- //
- // If creating a listing file, then open the input and output files
- //
- ListFile = 0;
- if (gOptions.CreateListFile) {
- //
- // Open the input VFR file and the output list file
- //
- if ((InFptr = fopen (gOptions.VfrFileName, "r")) == NULL) {
- Warning (PROGRAM_NAME, 0, 0, gOptions.VfrFileName, "could not open file for creating a list file");
- } else {
- if ((OutFptr = fopen (gOptions.VfrListFileName, "w")) == NULL) {
- Warning (PROGRAM_NAME, 0, 0, gOptions.VfrListFileName, "could not open output list file for writing");
- fclose (InFptr);
- InFptr = NULL;
- } else {
- LineCount = 0;
- ListFile = 1;
- PoundLines = 0;
- ByteCount = 0;
- }
- }
- }
- //
- // Write the list file
- //
- if (ListFile) {
- //
- // Write out the VFR compiler version
- //
- fprintf (OutFptr, "//\n// VFR compiler version " VFR_COMPILER_VERSION "\n//\n");
- Curr = mIfrBytes;
- while (Curr != NULL) {
- //
- // Print lines until we reach the line of the current opcode
- //
- while (LineCount < PoundLines + Curr->LineNum) {
- if (fgets (Line, sizeof (Line), InFptr) != NULL) {
- //
- // We should check for line length exceeded on the fgets(). Otherwise it
- // throws the listing file output off. Future enhancement perhaps.
- //
- fprintf (OutFptr, "%s", Line);
- if (strncmp (Line, "#line", 5) == 0) {
- PoundLines++;
- }
- }
- LineCount++;
- }
- //
- // Print all opcodes with line numbers less than where we are now
- //
- BytesLeftThisOpcode = 0;
- while ((Curr != NULL) && ((Curr->LineNum == 0) || (LineCount >= PoundLines + Curr->LineNum))) {
- if (BytesLeftThisOpcode == 0) {
- fprintf (OutFptr, ">%08X: ", ByteCount);
- if (Curr->Next != NULL) {
- BytesLeftThisOpcode = (UINT32)Curr->Next->OpcodeByte;
- }
- }
- fprintf (OutFptr, "%02X ", (UINT32)Curr->OpcodeByte);
- ByteCount++;
- BytesLeftThisOpcode--;
- if (BytesLeftThisOpcode == 0) {
- fprintf (OutFptr, "\n");
- }
- Curr = Curr->Next;
- }
- }
- //
- // Dump any remaining lines from the input file
- //
- while (fgets (Line, sizeof (Line), InFptr) != NULL) {
- fprintf (OutFptr, "%s", Line);
- }
- fclose (InFptr);
- fclose (OutFptr);
- }
- //
- // Debug code to make sure that each opcode we write out has as many
- // bytes as the IFR structure requires. If there were errors, then
- // don't do this step.
- //
- if (GetUtilityStatus () != STATUS_ERROR) {
- Curr = mIfrBytes;
- ByteCount = 0;
- while (Curr != NULL) {
- //
- // First byte is the opcode, second byte is the length
- //
- if (Curr->Next == NULL) {
- Error (__FILE__, __LINE__, 0, "application error", "last opcode written does not contain a length byte");
- break;
- }
- Count = (UINT32)Curr->Next->OpcodeByte;
- if (Count == 0) {
- Error (
- __FILE__,
- __LINE__,
- 0,
- "application error",
- "opcode with 0 length specified in output at offset 0x%X",
- ByteCount
- );
- break;
- }
- //
- // Check the length
- //
- if ((Curr->OpcodeByte > EFI_IFR_LAST_OPCODE) || (Curr->OpcodeByte == 0)) {
- Error (
- __FILE__,
- __LINE__,
- 0,
- "application error",
- "invalid opcode 0x%X in output at offset 0x%X",
- (UINT32) Curr->OpcodeByte, ByteCount
- );
- } else if (mOpcodeSizes[Curr->OpcodeByte].Size < 0) {
- //
- // For those cases where the length is variable, the size is negative, and indicates
- // the miniumum size.
- //
- if ((mOpcodeSizes[Curr->OpcodeByte].Size * -1) > Count) {
- Error (
- __FILE__,
- __LINE__,
- 0,
- "application error",
- "insufficient number of bytes written for %s at offset 0x%X",
- mOpcodeSizes[Curr->OpcodeByte].Name,
- ByteCount
- );
- }
- } else {
- //
- // Check for gaps
- //
- if (mOpcodeSizes[Curr->OpcodeByte].Size == 0) {
- Error (
- __FILE__,
- __LINE__,
- 0,
- "application error",
- "invalid opcode 0x%X in output at offset 0x%X",
- (UINT32)Curr->OpcodeByte,
- ByteCount
- );
- } else {
- //
- // Check size
- //
- if (mOpcodeSizes[Curr->OpcodeByte].Size != Count) {
- Error (
- __FILE__,
- __LINE__,
- 0,
- "application error",
- "invalid number of bytes (%d written s/b %d) written for %s at offset 0x%X",
- Count,
- mOpcodeSizes[Curr->OpcodeByte].Size,
- mOpcodeSizes[Curr->OpcodeByte].Name,
- ByteCount
- );
- }
- }
- }
- //
- // Skip to next opcode
- //
- while (Count > 0) {
- ByteCount++;
- if (Curr == NULL) {
- Error (__FILE__, __LINE__, 0, "application error", "last opcode written has invalid length");
- break;
- }
- Curr = Curr->Next;
- Count--;
- }
- }
- }
-}
-
-VfrOpcodeHandler::~VfrOpcodeHandler(
- )
-/*++
-
-Routine Description:
- Destructor for the VFR opcode handler. Free up memory allocated
- while parsing the VFR script.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
-{
- IFR_BYTE *Curr;
- IFR_BYTE *Next;
- //
- // Free up the IFR bytes
- //
- Curr = mIfrBytes;
- while (Curr != NULL) {
- Next = Curr->Next;
- free (Curr);
- Curr = Next;
- }
-}
-
-int
-VfrOpcodeHandler::AddOpcodeByte (
- UINT8 OpcodeByte,
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- This function is invoked by the parser when a new IFR
- opcode should be emitted.
-
-Arguments:
- OpcodeByte - the IFR opcode
- LineNum - the line number from the source file that resulted
- in the opcode being emitted.
-
-Returns:
- 0 always
-
---*/
-{
- UINT32 Count;
-
- FlushQueue();
- //
- // Now add this new byte
- //
- mQueuedOpcodeByte = OpcodeByte;
- mQueuedLineNum = LineNum;
- mQueuedOpcodeByteValid = 1;
- return 0;
-}
-
-VOID
-VfrOpcodeHandler::AddByte (
- UINT8 ByteVal,
- UINT8 KeyByte
- )
-/*++
-
-Routine Description:
- This function is invoked by the parser when it determines
- that more raw IFR bytes should be emitted to the output stream.
- Here we just queue them up into an output buffer.
-
-Arguments:
- ByteVal - the raw byte to emit to the output IFR stream
- KeyByte - a value that can be used for debug.
-
-Returns:
- None
-
---*/
-{
- //
- // Check for buffer overflow
- //
- if (mQueuedByteCount > MAX_QUEUE_COUNT) {
- Error (PROGRAM_NAME, 0, 0, NULL, "opcode queue overflow");
- } else {
- mQueuedBytes[mQueuedByteCount] = ByteVal;
- mQueuedKeyBytes[mQueuedByteCount] = KeyByte;
- mQueuedByteCount++;
- }
-}
-
-int
-VfrOpcodeHandler::FlushQueue (
- )
-/*++
-
-Routine Description:
- This function is invoked to flush the internal IFR buffer.
-
-Arguments:
- None
-
-Returns:
- 0 always
-
---*/
-{
- UINT32 Count;
- UINT32 EmitNoneOnePair;
-
- EmitNoneOnePair = 0;
- //
- // If the secondary varstore was specified, then we have to emit
- // a varstore-select-pair opcode, which only applies to the following
- // statement.
- //
- if (mSecondaryVarStoreIdSet) {
- mSecondaryVarStoreIdSet = 0;
- //
- // If primary and secondary are the same as the current default
- // varstore, then we don't have to do anything.
- // Note that the varstore-select-pair only applies to the following
- // opcode.
- //
- if ((mPrimaryVarStoreId != mSecondaryVarStoreId) || (mPrimaryVarStoreId != mDefaultVarStoreId)) {
- IAddByte (EFI_IFR_VARSTORE_SELECT_PAIR_OP, 'O', mQueuedLineNum);
- IAddByte ((UINT8)sizeof (EFI_IFR_VARSTORE_SELECT_PAIR), 'L', 0);
- IAddByte ((UINT8)mPrimaryVarStoreId, 0, 0);
- IAddByte ((UINT8)(mPrimaryVarStoreId >> 8), 0, 0);
- IAddByte ((UINT8)mSecondaryVarStoreId, 0, 0);
- IAddByte ((UINT8)(mSecondaryVarStoreId >> 8), 0, 0);
- }
- } else if (mPrimaryVarStoreIdSet != 0) {
- mPrimaryVarStoreIdSet = 0;
- if (mDefaultVarStoreId != mPrimaryVarStoreId) {
- //
- // The VFR statement referenced a different variable store
- // than the last one we reported. Insert a new varstore select
- // statement.
- //
- IAddByte (EFI_IFR_VARSTORE_SELECT_OP, 'O', mQueuedLineNum);
- IAddByte ((UINT8)sizeof (EFI_IFR_VARSTORE_SELECT), 'L', 0);
- IAddByte ((UINT8)mPrimaryVarStoreId, 0, 0);
- IAddByte ((UINT8)(mPrimaryVarStoreId >> 8), 0, 0);
- mDefaultVarStoreId = mPrimaryVarStoreId;
- }
- }
- //
- // Likely a new opcode is being added. Since each opcode item in the IFR has
- // a header that specifies the size of the opcode item (which we don't
- // know until we find the next opcode in the VFR), we queue up bytes
- // until we know the size. Then we write them out. So flush the queue
- // now.
- //
- if (mQueuedOpcodeByteValid != 0) {
- //
- // Add the previous opcode byte, the length byte, and the binary
- // data.
- //
- IAddByte (mQueuedOpcodeByte, 'O', mQueuedLineNum);
- IAddByte ((UINT8)(mQueuedByteCount + 2), 'L', 0);
- for (Count = 0; Count < mQueuedByteCount; Count++) {
- IAddByte (mQueuedBytes[Count], mQueuedKeyBytes[Count], 0);
- }
- mQueuedByteCount = 0;
- mQueuedOpcodeByteValid = 0;
- }
- return 0;
-}
-
-int
-VfrOpcodeHandler::IAddByte (
- UINT8 ByteVal,
- UINT8 KeyByte,
- UINT32 LineNum
- )
-/*++
-
-Routine Description:
- This internal function is used to add actual IFR bytes to
- the output stream. Most other functions queue up the bytes
- in an internal buffer. Once they come here, there's no
- going back.
-
-
-Arguments:
- ByteVal - value to write to output
- KeyByte - key value tied to the byte -- useful for debug
- LineNum - line number from source file the byte resulted from
-
-Returns:
- 0 - if successful
- 1 - failed due to memory allocation failure
-
---*/
-{
- IFR_BYTE *NewByte;
- NewByte = (IFR_BYTE *)malloc (sizeof (IFR_BYTE));
- if (NewByte == NULL) {
- return 1;
- }
- memset ((char *)NewByte, 0, sizeof (IFR_BYTE));
- NewByte->OpcodeByte = ByteVal;
- NewByte->KeyByte = KeyByte;
- NewByte->LineNum = LineNum;
- //
- // Add to the list
- //
- if (mIfrBytes == NULL) {
- mIfrBytes = NewByte;
- } else {
- mLastIfrByte->Next = NewByte;
- }
- mLastIfrByte = NewByte;
- mBytesWritten++;
- return 0;
-}
-
-VOID
-WriteStandardFileHeader (
- FILE *OutFptr
- )
-/*++
-
-Routine Description:
- This function is invoked to emit a standard header to an
- output text file.
-
-Arguments:
- OutFptr - file to write the header to
-
-Returns:
- None
-
---*/
-{
- UINT32 TempIndex;
- for (TempIndex = 0; mSourceFileHeader[TempIndex] != NULL; TempIndex++) {
- fprintf (OutFptr, "%s\n", mSourceFileHeader[TempIndex]);
- }
- //
- // Write out the VFR compiler version
- //
- fprintf (OutFptr, "// VFR compiler version " VFR_COMPILER_VERSION "\n//\n");
-}
diff --git a/Tools/CCode/Source/VfrCompile/VfrServices.h b/Tools/CCode/Source/VfrCompile/VfrServices.h
deleted file mode 100644
index 6b8c560d63..0000000000
--- a/Tools/CCode/Source/VfrCompile/VfrServices.h
+++ /dev/null
@@ -1,227 +0,0 @@
-/*++
-
-Copyright (c) 2004, Intel Corporation
-All rights reserved. This program and the accompanying materials
-are licensed and made available under the terms and conditions of the BSD License
-which accompanies this distribution. The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-
-Module Name:
-
- VfrServices.h
-
-Abstract:
-
- Prototypes and defines for routines and classes used by the
- EFI VFR compiler.
-
---*/
-
-#ifndef _VFR_SERVICES_H_
-#define _VFR_SERVICES_H_
-
-class VfrOpcodeHandler
-{
-public:
- VfrOpcodeHandler (
- VOID
- )
- /*++
-
-Routine Description:
- Constructor for the VFR opcode handling class.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
- ;
- ~VfrOpcodeHandler (
- VOID
- )
- /*++
-
-Routine Description:
- Destructor for the VFR opcode handler. Free up memory allocated
- while parsing the VFR script.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
- ;
- void
- WriteIfrBytes (
- VOID
- )
- /*++
-
-Routine Description:
- This function is invoked at the end of parsing. Its purpose
- is to write out all the IFR bytes that were queued up while
- parsing.
-
-Arguments:
- None
-
-Returns:
- None
-
---*/
- ;
- int
- AddOpcodeByte (
- UINT8 OpcodeByte,
- UINT32 LineNum
- )
- /*++
-
-Routine Description:
- This function is invoked by the parser when a new IFR
- opcode should be emitted.
-
-Arguments:
- OpcodeByte - the IFR opcode
- LineNum - the line number from the source file that resulted
- in the opcode being emitted.
-
-Returns:
- 0 always
-
---*/
- ;
- void
- AddByte (
- UINT8 ByteVal,
- UINT8 KeyByte
- )
- /*++
-
-Routine Description:
- This function is invoked by the parser when it determines
- that more raw IFR bytes should be emitted to the output stream.
- Here we just queue them up into an output buffer.
-
-Arguments:
- ByteVal - the raw byte to emit to the output IFR stream
- KeyByte - a value that can be used for debug.
-
-Returns:
- None
-
---*/
- ;
- void
- SetVarStoreId (
- UINT16 VarStoreId
- )
- /*++
-
-Routine Description:
- This function is invoked by the parser when a variable is referenced in the
- VFR. Save the variable store (and set a flag) so that we can later determine
- if we need to emit a varstore-select or varstore-select-pair opcode.
-
-Arguments:
- VarStoreId - ID of the variable store referenced in the VFR
-
-Returns:
- None
-
---*/
- ;
- void
- SetSecondaryVarStoreId (
- UINT16 VarStoreId
- )
- /*++
-
-Routine Description:
- This function is invoked by the parser when a secondary variable is
- referenced in the VFR. Save the variable store (and set a flag) so
- that we can later determine if we need to emit a varstore-select or
- varstore-pair opcode.
-
-Arguments:
- VarStoreId - ID of the variable store referenced in the VFR
-
-Returns:
- None
-
---*/
- ;
-
-/* */
-private:
- int
- FlushQueue (
- VOID
- )
- /*++
-
-Routine Description:
- This function is invoked to flush the internal IFR buffer.
-
-Arguments:
- None
-
-Returns:
- 0 always
-
---*/
- ;
- int
- IAddByte (
- UINT8 ByteVal,
- UINT8 KeyByte,
- UINT32 LineNum
- )
- /*++
-
-Routine Description:
- This internal function is used to add actual IFR bytes to
- the output stream. Most other functions queue up the bytes
- in an internal buffer. Once they come here, there's no
- going back.
-
-
-Arguments:
- ByteVal - value to write to output
- KeyByte - key value tied to the byte -- useful for debug
- LineNum - line number from source file the byte resulted from
-
-Returns:
- 0 - if successful
- 1 - failed due to memory allocation failure
-
---*/
- ;
-
-/* */
-private:
- IFR_BYTE *mIfrBytes;
- IFR_BYTE *mLastIfrByte;
- UINT32 mQueuedByteCount;
- UINT32 mBytesWritten;
- UINT32 mQueuedLineNum;
- UINT8 mQueuedBytes[MAX_QUEUE_COUNT];
- UINT8 mQueuedKeyBytes[MAX_QUEUE_COUNT];
- UINT8 mQueuedOpcodeByte;
- UINT32 mQueuedOpcodeByteValid;
- UINT16 mPrimaryVarStoreId;
- UINT8 mPrimaryVarStoreIdSet;
- UINT16 mSecondaryVarStoreId;
- UINT8 mSecondaryVarStoreIdSet;
- UINT16 mDefaultVarStoreId;
-};
-
-#endif // #ifndef _VFR_SERVICES_H_
diff --git a/Tools/CCode/Source/VfrCompile/build.xml b/Tools/CCode/Source/VfrCompile/build.xml
deleted file mode 100644
index 7b69070bcf..0000000000
--- a/Tools/CCode/Source/VfrCompile/build.xml
+++ /dev/null
@@ -1,123 +0,0 @@
-<?xml version="1.0" ?>
-<!--
-Copyright (c) 2006, Intel Corporation
-All rights reserved. This program and the accompanying materials
-are licensed and made available under the terms and conditions of the BSD License
-which accompanies this distribution. The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
--->
-<project default="GenTool" basedir="." name="VfrCompile">
-<!--
- EDK VfrCompile Tool
- Copyright (c) 2006, Intel Corporation
--->
- <property name="ToolName" value="VfrCompile"/>
- <property name="FileSet" value="*.cpp"/>
- <property name="FileSetPccts" value="ATokenBuffer.cpp DLexerBase.cpp AParser.cpp"/>
- <taskdef resource="net/sf/antcontrib/antlib.xml"/>
-
- <property name="LINK_OUTPUT_TYPE" value="static"/>
- <property name="BUILD_DIR" value="${PACKAGE_DIR}/${ToolName}/tmp"/>
-
- <target name="GenTool" depends="init, Antlr, Dlg, Tool">
- <echo message="The EDK Tool: ${ToolName} build has completed"/>
- </target>
-
- <target name="init">
-
- <echo message="Building the EDK Tool: ${ToolName}"/>
- <mkdir dir="${BUILD_DIR}"/>
-
- <condition property="AntlrDepends">
- <uptodate targetfile="${PACKAGE_DIR}/VfrCompile/parser.dlg" srcfile="${PACKAGE_DIR}/VfrCompile/VfrCompile.g" value="true"/>
- </condition>
-
- <condition property="DlgDepends">
- <uptodate targetfile="${PACKAGE_DIR}/VfrCompile/DLGLexer.cpp" srcfile="${PACKAGE_DIR}/VfrCompile/parser.dlg" value="true"/>
- </condition>
-
- <condition property="CheckDepends">
- <or>
- <isset property="AntlrDepends"/>
- <isset property="DlgDepends"/>
- </or>
- </condition>
-
- <condition property="gxx_extra_libs" value="stdc++ System gcc_s.10.4 gcc">
- <os family="mac"/>
- </condition>
-
- <condition property="gxx_extra_libs" value="stdc++">
- <os name="linux"/>
- </condition>
-
- <condition property="gxx_extra_libs" value="stdc++">
- <os family="windows"/>
- </condition>
-
- </target>
-
- <target name="Antlr" depends="init" unless="AntlrDepends">
- <echo message="Executing ANTLR"/>
- <exec dir="${basedir}/${ToolName}" executable="${env.FRAMEWORK_TOOLS_PATH}/antlr" failonerror="TRUE">
- <arg line="-CC -e3 -ck 3 -o . VfrCompile.g"/>
- </exec>
- </target>
-
- <target name="Dlg" depends="Antlr" unless="DlgDepends">
- <echo message="Executing DLG"/>
- <exec dir="${basedir}/${ToolName}" executable="${env.FRAMEWORK_TOOLS_PATH}/dlg" failonerror="TRUE">
- <arg line="-C2 -i -CC -o . parser.dlg"/>
- </exec>
- </target>
-
- <target name="Tool" depends="init">
- <cc name="${ToolChain}" objdir="${BUILD_DIR}"
- outfile="${BIN_DIR}/${ToolName}"
- outtype="executable"
- debug="true"
- optimize="speed">
-
- <compilerarg value="-fpermissive" if="gcc"/>
- <fileset dir="${basedir}/${ToolName}"
- includes="${FileSet}" />
-
- <fileset dir="${basedir}/Pccts/h"
- includes="${FileSetPccts}" />
-
- <includepath path="${PACKAGE_DIR}/Pccts/h"/>
- <includepath path="${PACKAGE_DIR}/Include"/>
- <includepath path="${PACKAGE_DIR}/Include/${HostArch}"/>
- <includepath path="${PACKAGE_DIR}/Common"/>
- <libset dir="${LIB_DIR}" libs="CommonTools"/>
- <syslibset libs="${gxx_extra_libs}" if="gcc"/>
- </cc>
- </target>
-
- <target name="clean">
- <echo message="Removing Intermediate Files Only"/>
- <delete>
- <fileset dir="${BUILD_DIR}" includes="*.obj"/>
- </delete>
- </target>
-
- <target name="cleanall">
- <echo message="Removing Object Files and the Executable: ${ToolName}${ext_exe}"/>
- <delete failonerror="false" quiet="true" includeEmptyDirs="true">
- <fileset dir="${BUILD_DIR}"/>
- <fileset file="${basedir}/${ToolName}/DLGLexer.cpp"/>
- <fileset file="${basedir}/${ToolName}/DLGLexer.h"/>
- <fileset file="${basedir}/${ToolName}/EfiVfrParser.cpp"/>
- <fileset file="${basedir}/${ToolName}/EfiVfrParser.h"/>
- <fileset file="${basedir}/${ToolName}/parser.dlg"/>
- <fileset file="${basedir}/${ToolName}/tokens.h"/>
- <fileset file="${basedir}/${ToolName}/VfrCompile.cpp"/>
- <fileset file="${BIN_DIR}/${ToolName}${ext_exe}"/>
- <fileset file="${BIN_DIR}/${ToolName}.pdb"/>
- </delete>
- </target>
-
-</project>