/****************************************************************************** * * Module Name: asfile - Main module for the acpi source processor utility * *****************************************************************************/ /* * Copyright (C) 2000 - 2015, Intel Corp. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * 3. Neither the names of the above-listed copyright holders nor the names * of any contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. */ #include "acpisrc.h" #include "acapps.h" /* Local prototypes */ void AsDoWildcard ( ACPI_CONVERSION_TABLE *ConversionTable, char *SourcePath, char *TargetPath, int MaxPathLength, int FileType, char *WildcardSpec); BOOLEAN AsDetectLoneLineFeeds ( char *Filename, char *Buffer); static ACPI_INLINE int AsMaxInt (int a, int b) { return (a > b ? a : b); } /****************************************************************************** * * FUNCTION: AsDoWildcard * * DESCRIPTION: Process files via wildcards * ******************************************************************************/ void AsDoWildcard ( ACPI_CONVERSION_TABLE *ConversionTable, char *SourcePath, char *TargetPath, int MaxPathLength, int FileType, char *WildcardSpec) { void *DirInfo; char *Filename; char *SourceDirPath; char *TargetDirPath; char RequestedFileType; if (FileType == FILE_TYPE_DIRECTORY) { RequestedFileType = REQUEST_DIR_ONLY; } else { RequestedFileType = REQUEST_FILE_ONLY; } VERBOSE_PRINT (("Checking for %s source files in directory \"%s\"\n", WildcardSpec, SourcePath)); /* Open the directory for wildcard search */ DirInfo = AcpiOsOpenDirectory (SourcePath, WildcardSpec, RequestedFileType); if (DirInfo) { /* * Get all of the files that match both the * wildcard and the requested file type */ while ((Filename = AcpiOsGetNextFilename (DirInfo))) { /* Looking for directory files, must check file type */ switch (RequestedFileType) { case REQUEST_DIR_ONLY: /* If we actually have a dir, process the subtree */ if (!AsCheckForDirectory (SourcePath, TargetPath, Filename, &SourceDirPath, &TargetDirPath)) { VERBOSE_PRINT (("Subdirectory: %s\n", Filename)); AsProcessTree (ConversionTable, SourceDirPath, TargetDirPath); free (SourceDirPath); free (TargetDirPath); } break; case REQUEST_FILE_ONLY: /* Otherwise, this is a file, not a directory */ VERBOSE_PRINT (("File: %s\n", Filename)); AsProcessOneFile (ConversionTable, SourcePath, TargetPath, MaxPathLength, Filename, FileType); break; default: break; } } /* Cleanup */ AcpiOsCloseDirectory (DirInfo); } } /****************************************************************************** * * FUNCTION: AsProcessTree * * DESCRIPTION: Process the directory tree. Files with the extension ".C" and * ".H" are processed as the tree is traversed. * ******************************************************************************/ ACPI_NATIVE_INT AsProcessTree ( ACPI_CONVERSION_TABLE *ConversionTable, char *SourcePath, char *TargetPath) { int MaxPathLength; MaxPathLength = AsMaxInt (strlen (SourcePath), strlen (TargetPath)); if (!(ConversionTable->Flags & FLG_NO_FILE_OUTPUT)) { if (ConversionTable->Flags & FLG_LOWERCASE_DIRNAMES) { AsStrlwr (TargetPath); } VERBOSE_PRINT (("Creating Directory \"%s\"\n", TargetPath)); if (mkdir (TargetPath)) { if (errno != EEXIST) { printf ("Could not create target directory\n"); return (-1); } } } /* Do the C source files */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_SOURCE, "*.c"); /* Do the C header files */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_HEADER, "*.h"); /* Do the Lex file(s) */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_SOURCE, "*.l"); /* Do the yacc file(s) */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_SOURCE, "*.y"); /* Do any ASL files */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_HEADER, "*.asl"); /* Do any subdirectories */ AsDoWildcard (ConversionTable, SourcePath, TargetPath, MaxPathLength, FILE_TYPE_DIRECTORY, "*"); return (0); } /****************************************************************************** * * FUNCTION: AsDetectLoneLineFeeds * * DESCRIPTION: Find LF without CR. * ******************************************************************************/ BOOLEAN AsDetectLoneLineFeeds ( char *Filename, char *Buffer) { UINT32 i = 1; UINT32 LfCount = 0; UINT32 LineCount = 0; if (!Buffer[0]) { return (FALSE); } while (Buffer[i]) { if (Buffer[i] == 0x0A) { if (Buffer[i-1] != 0x0D) { LfCount++; } LineCount++; } i++; } if (LfCount) { if (LineCount == LfCount) { if (!Gbl_IgnoreLoneLineFeeds) { printf ("%s: ****File has UNIX format**** (LF only, not CR/LF) %u lines\n", Filename, LfCount); } } else { printf ("%s: %u lone linefeeds in file\n", Filename, LfCount); } return (TRUE); } return (FALSE); } /****************************************************************************** * * FUNCTION: AsConvertFile * * DESCRIPTION: Perform the requested transforms on the file buffer (as * determined by the ConversionTable and the FileType). * ******************************************************************************/ void AsConvertFile ( ACPI_CONVERSION_TABLE *ConversionTable, char *FileBuffer, char *Filename, ACPI_NATIVE_INT FileType) { UINT32 i; UINT32 Functions; ACPI_STRING_TABLE *StringTable; ACPI_IDENTIFIER_TABLE *ConditionalTable; ACPI_IDENTIFIER_TABLE *LineTable; ACPI_IDENTIFIER_TABLE *MacroTable; ACPI_TYPED_IDENTIFIER_TABLE *StructTable; ACPI_IDENTIFIER_TABLE *SpecialMacroTable; switch (FileType) { case FILE_TYPE_SOURCE: Functions = ConversionTable->SourceFunctions; StringTable = ConversionTable->SourceStringTable; LineTable = ConversionTable->SourceLineTable; ConditionalTable = ConversionTable->SourceConditionalTable; MacroTable = ConversionTable->SourceMacroTable; StructTable = ConversionTable->SourceStructTable; SpecialMacroTable = ConversionTable->SourceSpecialMacroTable; break; case FILE_TYPE_HEADER: Functions = ConversionTable->HeaderFunctions; StringTable = ConversionTable->HeaderStringTable; LineTable = ConversionTable->HeaderLineTable; ConditionalTable = ConversionTable->HeaderConditionalTable; MacroTable = ConversionTable->HeaderMacroTable; StructTable = ConversionTable->HeaderStructTable; SpecialMacroTable = ConversionTable->HeaderSpecialMacroTable; break; case FILE_TYPE_PATCH: Functions = ConversionTable->PatchFunctions; StringTable = ConversionTable->PatchStringTable; LineTable = ConversionTable->PatchLineTable; ConditionalTable = ConversionTable->PatchConditionalTable; MacroTable = ConversionTable->PatchMacroTable; StructTable = ConversionTable->PatchStructTable; SpecialMacroTable = ConversionTable->PatchSpecialMacroTable; break; default: printf ("Unknown file type, cannot process\n"); return; } Gbl_StructDefs = strstr (FileBuffer, "/* acpisrc:StructDefs"); Gbl_Files++; VERBOSE_PRINT (("Processing %u bytes\n", (unsigned int) strlen (FileBuffer))); if (Gbl_Cleanup) { AsRemoveExtraLines (FileBuffer, Filename); AsRemoveSpacesAfterPeriod (FileBuffer, Filename); } if (ConversionTable->LowerCaseTable) { for (i = 0; ConversionTable->LowerCaseTable[i].Identifier; i++) { AsLowerCaseString (ConversionTable->LowerCaseTable[i].Identifier, FileBuffer); } } /* Process all the string replacements */ if (StringTable) { for (i = 0; StringTable[i].Target; i++) { AsReplaceString (StringTable[i].Target, StringTable[i].Replacement, StringTable[i].Type, FileBuffer); } } if (LineTable) { for (i = 0; LineTable[i].Identifier; i++) { AsRemoveLine (FileBuffer, LineTable[i].Identifier); } } if (ConditionalTable) { for (i = 0; ConditionalTable[i].Identifier; i++) { AsRemoveConditionalCompile (FileBuffer, ConditionalTable[i].Identifier); } } if (MacroTable) { for (i = 0; MacroTable[i].Identifier; i++) { AsRemoveMacro (FileBuffer, MacroTable[i].Identifier); } } if (StructTable) { for (i = 0; StructTable[i].Identifier; i++) { AsInsertPrefix (FileBuffer, StructTable[i].Identifier, StructTable[i].Type); } } if (SpecialMacroTable) { for (i = 0; SpecialMacroTable[i].Identifier; i++) { AsCleanupSpecialMacro (FileBuffer, SpecialMacroTable[i].Identifier); } } /* Process the function table */ for (i = 0; i < 32; i++) { /* Decode the function bitmap */ switch ((1 << i) & Functions) { case 0: /* This function not configured */ break; case CVT_COUNT_TABS: AsCountTabs (FileBuffer, Filename); break; case CVT_COUNT_NON_ANSI_COMMENTS: AsCountNonAnsiComments (FileBuffer, Filename); break; case CVT_CHECK_BRACES: AsCheckForBraces (FileBuffer, Filename); break; case CVT_TRIM_LINES: AsTrimLines (FileBuffer, Filename); break; case CVT_COUNT_LINES: AsCountSourceLines (FileBuffer, Filename); break; case CVT_BRACES_ON_SAME_LINE: AsBracesOnSameLine (FileBuffer); break; case CVT_MIXED_CASE_TO_UNDERSCORES: AsMixedCaseToUnderscores (FileBuffer, Filename); break; case CVT_LOWER_CASE_IDENTIFIERS: AsLowerCaseIdentifiers (FileBuffer); break; case CVT_REMOVE_DEBUG_MACROS: AsRemoveDebugMacros (FileBuffer); break; case CVT_TRIM_WHITESPACE: AsTrimWhitespace (FileBuffer); break; case CVT_REMOVE_EMPTY_BLOCKS: AsRemoveEmptyBlocks (FileBuffer, Filename); break; case CVT_REDUCE_TYPEDEFS: AsReduceTypedefs (FileBuffer, "typedef union"); AsReduceTypedefs (FileBuffer, "typedef struct"); break; case CVT_SPACES_TO_TABS4: AsTabify4 (FileBuffer); break; case CVT_SPACES_TO_TABS8: AsTabify8 (FileBuffer); break; case CVT_COUNT_SHORTMULTILINE_COMMENTS: #ifdef ACPI_FUTURE_IMPLEMENTATION AsTrimComments (FileBuffer, Filename); #endif break; default: printf ("Unknown conversion subfunction opcode\n"); break; } } if (ConversionTable->NewHeader) { AsReplaceHeader (FileBuffer, ConversionTable->NewHeader); } } /****************************************************************************** * * FUNCTION: AsProcessOneFile * * DESCRIPTION: Process one source file. The file is opened, read entirely * into a buffer, converted, then written to a new file. * ******************************************************************************/ ACPI_NATIVE_INT AsProcessOneFile ( ACPI_CONVERSION_TABLE *ConversionTable, char *SourcePath, char *TargetPath, int MaxPathLength, char *Filename, ACPI_NATIVE_INT FileType) { char *Pathname; char *OutPathname = NULL; /* Allocate a file pathname buffer for both source and target */ Pathname = calloc (MaxPathLength + strlen (Filename) + 2, 1); if (!Pathname) { printf ("Could not allocate buffer for file pathnames\n"); return (-1); } Gbl_FileType = FileType; /* Generate the source pathname and read the file */ if (SourcePath) { strcpy (Pathname, SourcePath); strcat (Pathname, "/"); } strcat (Pathname, Filename); if (AsGetFile (Pathname, &Gbl_FileBuffer, &Gbl_FileSize)) { return (-1); } Gbl_HeaderSize = 0; if (strstr (Filename, ".asl")) { Gbl_HeaderSize = LINES_IN_ASL_HEADER; /* Lines in default ASL header */ } else if (strstr (Gbl_FileBuffer, LEGAL_HEADER_SIGNATURE)) { Gbl_HeaderSize = LINES_IN_LEGAL_HEADER; /* Normal C file and H header */ } else if (strstr (Gbl_FileBuffer, LINUX_HEADER_SIGNATURE)) { Gbl_HeaderSize = LINES_IN_LINUX_HEADER; /* Linuxized C file and H header */ } /* Process the file in the buffer */ Gbl_MadeChanges = FALSE; if (!Gbl_IgnoreLoneLineFeeds && Gbl_HasLoneLineFeeds) { /* * All lone LFs will be converted to CR/LF * (when file is written, Windows version only) */ printf ("Converting lone linefeeds\n"); Gbl_MadeChanges = TRUE; } AsConvertFile (ConversionTable, Gbl_FileBuffer, Pathname, FileType); if (!(ConversionTable->Flags & FLG_NO_FILE_OUTPUT)) { if (!(Gbl_Overwrite && !Gbl_MadeChanges)) { /* Generate the target pathname and write the file */ OutPathname = calloc (MaxPathLength + strlen (Filename) + 2 + strlen (TargetPath), 1); if (!OutPathname) { printf ("Could not allocate buffer for file pathnames\n"); return (-1); } strcpy (OutPathname, TargetPath); if (SourcePath) { strcat (OutPathname, "/"); strcat (OutPathname, Filename); } AsPutFile (OutPathname, Gbl_FileBuffer, ConversionTable->Flags); } } free (Gbl_FileBuffer); free (Pathname); if (OutPathname) { free (OutPathname); } return (0); } /****************************************************************************** * * FUNCTION: AsCheckForDirectory * * DESCRIPTION: Check if the current file is a valid directory. If not, * construct the full pathname for the source and target paths. * Checks for the dot and dot-dot files (they are ignored) * ******************************************************************************/ ACPI_NATIVE_INT AsCheckForDirectory ( char *SourceDirPath, char *TargetDirPath, char *Filename, char **SourcePath, char **TargetPath) { char *SrcPath; char *TgtPath; if (!(strcmp (Filename, ".")) || !(strcmp (Filename, ".."))) { return (-1); } SrcPath = calloc (strlen (SourceDirPath) + strlen (Filename) + 2, 1); if (!SrcPath) { printf ("Could not allocate buffer for directory source pathname\n"); return (-1); } TgtPath = calloc (strlen (TargetDirPath) + strlen (Filename) + 2, 1); if (!TgtPath) { printf ("Could not allocate buffer for directory target pathname\n"); free (SrcPath); return (-1); } strcpy (SrcPath, SourceDirPath); strcat (SrcPath, "/"); strcat (SrcPath, Filename); strcpy (TgtPath, TargetDirPath); strcat (TgtPath, "/"); strcat (TgtPath, Filename); *SourcePath = SrcPath; *TargetPath = TgtPath; return (0); } /****************************************************************************** * * FUNCTION: AsGetFile * * DESCRIPTION: Open a file and read it entirely into a an allocated buffer * ******************************************************************************/ int AsGetFile ( char *Filename, char **FileBuffer, UINT32 *FileSize) { FILE *File; UINT32 Size; char *Buffer; size_t Actual; /* Binary mode leaves CR/LF pairs */ File = fopen (Filename, "rb"); if (!File) { printf ("Could not open file %s\n", Filename); return (-1); } /* Need file size to allocate a buffer */ Size = CmGetFileSize (File); if (Size == ACPI_UINT32_MAX) { printf ("Could not get file size for %s\n", Filename); goto ErrorExit; } /* * Create a buffer for the entire file * Add plenty extra buffer to accommodate string replacements */ Gbl_TotalSize += Size; Buffer = calloc (Size * 2, 1); if (!Buffer) { printf ("Could not allocate buffer of size %u\n", Size * 2); goto ErrorExit; } /* Read the entire file */ Actual = fread (Buffer, 1, Size, File); if (Actual != Size) { printf ("Could not read the input file %s (%u bytes)\n", Filename, Size); goto ErrorExit; } Buffer [Size] = 0; /* Null terminate the buffer */ fclose (File); /* Check for unix contamination */ Gbl_HasLoneLineFeeds = AsDetectLoneLineFeeds (Filename, Buffer); /* * Convert all CR/LF pairs to LF only. We do this locally so that * this code is portable across operating systems. */ AsConvertToLineFeeds (Buffer); *FileBuffer = Buffer; *FileSize = Size; return (0); ErrorExit: fclose (File); return (-1); } /****************************************************************************** * * FUNCTION: AsPutFile * * DESCRIPTION: Create a new output file and write the entire contents of the * buffer to the new file. Buffer must be a zero terminated string * ******************************************************************************/ int AsPutFile ( char *Pathname, char *FileBuffer, UINT32 SystemFlags) { FILE *File; UINT32 FileSize; size_t Actual; int Status = 0; /* Create the target file */ if (!(SystemFlags & FLG_NO_CARRIAGE_RETURNS)) { /* Put back the CR before each LF */ AsInsertCarriageReturns (FileBuffer); } File = fopen (Pathname, "w+b"); if (!File) { perror ("Could not create destination file"); printf ("Could not create destination file \"%s\"\n", Pathname); return (-1); } /* Write the buffer to the file */ FileSize = strlen (FileBuffer); Actual = fwrite (FileBuffer, 1, FileSize, File); if (Actual != FileSize) { printf ("Error writing output file \"%s\"\n", Pathname); Status = -1; } fclose (File); return (Status); }