/** @file This file contains the PcdValue structure definition. Copyright (c) 2017 - 2018, Intel Corporation. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include #include #include #include "CommonLib.h" #include "PcdValueCommon.h" typedef enum { PcdDataTypeBoolean, PcdDataTypeUint8, PcdDataTypeUint16, PcdDataTypeUint32, PcdDataTypeUint64, PcdDataTypePointer } PCD_DATA_TYPE; typedef struct { CHAR8 *SkuName; CHAR8 *DefaultValueName; CHAR8 *TokenSpaceGuidName; CHAR8 *TokenName; CHAR8 *DataType; CHAR8 *Value; PCD_DATA_TYPE PcdDataType; } PCD_ENTRY; PCD_ENTRY *PcdList; UINT32 PcdListLength; VOID STATIC RecordToken ( UINT8 *FileBuffer, UINT32 PcdIndex, UINT32 TokenIndex, UINT32 TokenStart, UINT32 TokenEnd ) /*++ Routine Description: Record new token information Arguments: FileBuffer File Buffer to be record PcdIndex Index of PCD in database TokenIndex Index of Token TokenStart Start of Token TokenEnd End of Token Returns: None --*/ { CHAR8 *Token; Token = malloc (TokenEnd - TokenStart + 1); if (Token == NULL) { return; } memcpy (Token, &FileBuffer[TokenStart], TokenEnd - TokenStart); Token[TokenEnd - TokenStart] = 0; switch (TokenIndex) { case 0: PcdList[PcdIndex].SkuName = Token; break; case 1: PcdList[PcdIndex].DefaultValueName = Token; break; case 2: PcdList[PcdIndex].TokenSpaceGuidName = Token; break; case 3: PcdList[PcdIndex].TokenName = Token; break; case 4: PcdList[PcdIndex].DataType = Token; if (strcmp (Token, "BOOLEAN") == 0) { PcdList[PcdIndex].PcdDataType = PcdDataTypeBoolean; } else if (strcmp (Token, "UINT8") == 0) { PcdList[PcdIndex].PcdDataType = PcdDataTypeUint8; } else if (strcmp (Token, "UINT16") == 0) { PcdList[PcdIndex].PcdDataType = PcdDataTypeUint16; } else if (strcmp (Token, "UINT32") == 0) { PcdList[PcdIndex].PcdDataType = PcdDataTypeUint32; } else if (strcmp (Token, "UINT64") == 0) { PcdList[PcdIndex].PcdDataType = PcdDataTypeUint64; } else { PcdList[PcdIndex].PcdDataType = PcdDataTypePointer; } break; case 5: PcdList[PcdIndex].Value = Token; break; default: free (Token); break; } } int STATIC LookupPcdIndex ( CHAR8 *SkuName OPTIONAL, CHAR8 *DefaultValueName OPTIONAL, CHAR8 *TokenSpaceGuidName, CHAR8 *TokenName ) /*++ Routine Description: Get PCD index in Pcd database Arguments: SkuName SkuName String DefaultValueName DefaultValueName String TokenSpaceGuidName TokenSpaceGuidName String TokenName TokenName String Returns: Index of PCD in Pcd database --*/ { UINT32 Index; if (SkuName == NULL) { SkuName = "DEFAULT"; } if (DefaultValueName == NULL) { DefaultValueName = "DEFAULT"; } for (Index = 0; Index < PcdListLength; Index++) { if (strcmp(PcdList[Index].TokenSpaceGuidName, TokenSpaceGuidName) != 0) { continue; } if (strcmp(PcdList[Index].TokenName, TokenName) != 0) { continue; } if (strcmp(PcdList[Index].SkuName, SkuName) != 0) { continue; } if (strcmp(PcdList[Index].DefaultValueName, DefaultValueName) != 0) { continue; } return Index; } return -1; } UINT64 __PcdGet ( CHAR8 *SkuName OPTIONAL, CHAR8 *DefaultValueName OPTIONAL, CHAR8 *TokenSpaceGuidName, CHAR8 *TokenName ) /*++ Routine Description: Get PCD value Arguments: SkuName SkuName String DefaultValueName DefaultValueName String TokenSpaceGuidName TokenSpaceGuidName String TokenName TokenName String Returns: PCD value --*/ { int Index; CHAR8 *End; Index = LookupPcdIndex (SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); if (Index < 0) { fprintf (stderr, "PCD %s.%s.%s.%s is not in database\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); } switch (PcdList[Index].PcdDataType) { case PcdDataTypeBoolean: case PcdDataTypeUint8: case PcdDataTypeUint16: case PcdDataTypeUint32: return (UINT64)strtoul(PcdList[Index].Value, &End, 16); break; case PcdDataTypeUint64: return (UINT64)strtoul(PcdList[Index].Value, &End, 16); break; case PcdDataTypePointer: fprintf (stderr, "PCD %s.%s.%s.%s is structure. Use PcdGetPtr()\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); break; } return 0; } VOID __PcdSet ( CHAR8 *SkuName OPTIONAL, CHAR8 *DefaultValueName OPTIONAL, CHAR8 *TokenSpaceGuidName, CHAR8 *TokenName, UINT64 Value ) /*++ Routine Description: Set PCD value Arguments: SkuName SkuName String DefaultValueName DefaultValueName String TokenSpaceGuidName TokenSpaceGuidName String TokenName TokenName String Value PCD value to be set Returns: None --*/ { int Index; Index = LookupPcdIndex (SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); if (Index < 0) { fprintf (stderr, "PCD %s.%s.%s.%s is not in database\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); } free(PcdList[Index].Value); PcdList[Index].Value = malloc(20); switch (PcdList[Index].PcdDataType) { case PcdDataTypeBoolean: if (Value == 0) { strcpy (PcdList[Index].Value, "0x00"); } else { strcpy (PcdList[Index].Value, "0x01"); } break; case PcdDataTypeUint8: sprintf(PcdList[Index].Value, "0x%02x", (UINT8)(Value & 0xff)); break; case PcdDataTypeUint16: sprintf(PcdList[Index].Value, "0x%04x", (UINT16)(Value & 0xffff)); break; case PcdDataTypeUint32: sprintf(PcdList[Index].Value, "0x%08x", (UINT32)(Value & 0xffffffff)); break; case PcdDataTypeUint64: sprintf(PcdList[Index].Value, "0x%016llx", (unsigned long long)Value); break; case PcdDataTypePointer: fprintf (stderr, "PCD %s.%s.%s.%s is structure. Use PcdSetPtr()\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); break; } } VOID * __PcdGetPtr ( CHAR8 *SkuName OPTIONAL, CHAR8 *DefaultValueName OPTIONAL, CHAR8 *TokenSpaceGuidName, CHAR8 *TokenName, UINT32 *Size ) /*++ Routine Description: Get PCD value buffer Arguments: SkuName SkuName String DefaultValueName DefaultValueName String TokenSpaceGuidName TokenSpaceGuidName String TokenName TokenName String Size Size of PCD value buffer Returns: PCD value buffer --*/ { int Index; CHAR8 *Value; UINT8 *Buffer; CHAR8 *End; Index = LookupPcdIndex (SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); if (Index < 0) { fprintf (stderr, "PCD %s.%s.%s.%s is not in database\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); } switch (PcdList[Index].PcdDataType) { case PcdDataTypeBoolean: case PcdDataTypeUint8: case PcdDataTypeUint16: case PcdDataTypeUint32: case PcdDataTypeUint64: fprintf (stderr, "PCD %s.%s.%s.%s is a value. Use PcdGet()\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); break; case PcdDataTypePointer: Value = &PcdList[Index].Value[1]; for (*Size = 0, strtoul(Value, &End, 16); Value != End; strtoul(Value, &End, 16), *Size = *Size + 1) { Value = End + 1; } Buffer = malloc(*Size + 1); if (Buffer == NULL) { *Size = 0; return NULL; } Value = &PcdList[Index].Value[1]; for (*Size = 0, Buffer[*Size] = (UINT8) strtoul(Value, &End, 16); Value != End; *Size = *Size + 1, Buffer[*Size] = (UINT8) strtoul(Value, &End, 16)) { Value = End + 1; } return Buffer; } *Size = 0; return 0; } VOID __PcdSetPtr ( CHAR8 *SkuName OPTIONAL, CHAR8 *DefaultValueName OPTIONAL, CHAR8 *TokenSpaceGuidName, CHAR8 *TokenName, UINT32 Size, UINT8 *Value ) /*++ Routine Description: Set PCD value buffer Arguments: SkuName SkuName String DefaultValueName DefaultValueName String TokenSpaceGuidName TokenSpaceGuidName String TokenName TokenName String Size Size of PCD value Value Pointer to the updated PCD value buffer Returns: None --*/ { int Index; UINT32 ValueIndex; Index = LookupPcdIndex (SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); if (Index < 0) { fprintf (stderr, "PCD %s.%s.%s.%s is not in database\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); } switch (PcdList[Index].PcdDataType) { case PcdDataTypeBoolean: case PcdDataTypeUint8: case PcdDataTypeUint16: case PcdDataTypeUint32: case PcdDataTypeUint64: fprintf (stderr, "PCD %s.%s.%s.%s is a value. Use PcdGet()\n", SkuName, DefaultValueName, TokenSpaceGuidName, TokenName); exit (EXIT_FAILURE); break; case PcdDataTypePointer: free(PcdList[Index].Value); PcdList[Index].Value = malloc(Size * 5 + 3); PcdList[Index].Value[0] = '{'; for (ValueIndex = 0; ValueIndex < Size; ValueIndex++) { sprintf(&PcdList[Index].Value[1 + ValueIndex * 5], "0x%02x,", Value[ValueIndex]); } PcdList[Index].Value[1 + Size * 5 - 1] = '}'; PcdList[Index].Value[1 + Size * 5 ] = 0; break; } } VOID STATIC ReadInputFile ( CHAR8 *InputFileName, UINT8 **FileBuffer, UINT32 *FileSize ) /*++ Routine Description: Read the file buffer from the input file. Arguments: InputFileName Point to the input file name. FileBuffer Point to the input file buffer. FileSize Size of the file buffer. Returns: None --*/ { FILE *InputFile; UINT32 BytesRead; // // Open Input file and read file data. // InputFile = fopen (InputFileName, "rb"); if (InputFile == NULL) { fprintf (stderr, "Error opening file %s\n", InputFileName); exit (EXIT_FAILURE); } // // Go to the end so that we can determine the file size // if (fseek (InputFile, 0, SEEK_END)) { fprintf (stderr, "Error reading input file %s\n", InputFileName); fclose (InputFile); exit (EXIT_FAILURE); } // // Get the file size // *FileSize = ftell (InputFile); if (*FileSize == -1) { fprintf (stderr, "Error parsing the input file %s\n", InputFileName); fclose (InputFile); exit (EXIT_FAILURE); } // // Allocate a buffer // *FileBuffer = malloc (*FileSize); if (*FileBuffer == NULL) { fprintf (stderr, "Can not allocate buffer for input input file %s\n", InputFileName); fclose (InputFile); exit (EXIT_FAILURE); } // // Reset to the beginning of the file // if (fseek (InputFile, 0, SEEK_SET)) { fprintf (stderr, "Error reading the input file %s\n", InputFileName); fclose (InputFile); free (*FileBuffer); exit (EXIT_FAILURE); } // // Read all of the file contents. // BytesRead = fread (*FileBuffer, sizeof (UINT8), *FileSize, InputFile); if (BytesRead != *FileSize * sizeof (UINT8)) { fprintf (stderr, "Error reading the input file %s\n", InputFileName); fclose (InputFile); free (*FileBuffer); exit (EXIT_FAILURE); } // // Close the file // fclose (InputFile); } VOID STATIC ParseFile ( UINT8 *FileBuffer, UINT32 FileSize ) /*++ Routine Description: Read the initial PCD value from the input file buffer. Arguments: FileBuffer Point to the input file buffer. FileSize Size of the file buffer. Returns: None --*/ { UINT32 Index; UINT32 NumLines; UINT32 TokenIndex; UINT32 TokenStart; for (Index = 0, NumLines = 0; Index < FileSize; Index++) { if (FileBuffer[Index] == '\n') { NumLines++; } } PcdList = malloc((NumLines + 1) * sizeof(PcdList[0])); for (Index = 0, TokenIndex = 0, PcdListLength = 0, TokenStart = 0; Index < FileSize; Index++) { if (FileBuffer[Index] == ' ') { continue; } if (FileBuffer[Index] == '|' || FileBuffer[Index] == '.' || FileBuffer[Index] == '\n' || FileBuffer[Index] == '\r') { RecordToken (FileBuffer, PcdListLength, TokenIndex, TokenStart, Index); if (FileBuffer[Index] == '\n' || FileBuffer[Index] == '\r') { if (TokenIndex != 0) { PcdListLength++; TokenIndex = 0; } } else { TokenIndex++; } TokenStart = Index + 1; continue; } } if (Index > TokenStart) { RecordToken (FileBuffer, PcdListLength, TokenIndex, TokenStart, Index); if (TokenIndex != 0) { PcdListLength++; } } } VOID STATIC WriteOutputFile ( CHAR8 *OutputFileName ) /*++ Routine Description: Write the updated PCD value into the output file name. Arguments: OutputFileName Point to the output file name. Returns: None --*/ { FILE *OutputFile; UINT32 Index; // // Open output file // OutputFile = fopen (OutputFileName, "wb"); if (OutputFile == NULL) { fprintf (stderr, "Error opening file %s\n", OutputFileName); exit (EXIT_FAILURE); } for (Index = 0; Index < PcdListLength; Index++) { fprintf ( OutputFile, "%s.%s.%s.%s|%s|%s\n", PcdList[Index].SkuName, PcdList[Index].DefaultValueName, PcdList[Index].TokenSpaceGuidName, PcdList[Index].TokenName, PcdList[Index].DataType, PcdList[Index].Value ); } // // Done, write output file. // if (OutputFile != NULL) { fclose (OutputFile); } } VOID STATIC Usage ( VOID ) /*++ Routine Description: Displays the utility usage syntax to STDOUT Arguments: None Returns: None --*/ { fprintf (stdout, "Usage: -i -o \n\n"); fprintf (stdout, "optional arguments:\n"); fprintf (stdout, " -h, --help Show this help message and exit\n"); fprintf (stdout, " -i INPUT_FILENAME, --input INPUT_FILENAME\n\ PCD Database Input file name\n"); fprintf (stdout, " -o OUTPUT_FILENAME, --output OUTPUT_FILENAME\n\ PCD Database Output file name\n"); } VOID STATIC ParseArguments ( int argc, char *argv[], CHAR8 **InputFileName, CHAR8 **OutputFileName ) /*++ Routine Description: Parse the input parameters to get the input/output file name. Arguments: argc Number of command line parameters. argv Array of pointers to parameter strings. InputFileName Point to the input file name. OutputFileName Point to the output file name. Returns: None --*/ { if (argc == 1) { fprintf (stderr, "Missing options\n"); exit (EXIT_FAILURE); } // // Parse command line // argc--; argv++; if ((stricmp (argv[0], "-h") == 0) || (stricmp (argv[0], "--help") == 0)) { Usage (); exit (EXIT_SUCCESS); } while (argc > 0) { if ((stricmp (argv[0], "-i") == 0) || (stricmp (argv[0], "--input") == 0)) { if (argv[1] == NULL || argv[1][0] == '-') { fprintf (stderr, "Invalid option value. Input File name is missing for -i option\n"); exit (EXIT_FAILURE); } *InputFileName = argv[1]; argc -= 2; argv += 2; continue; } if ((stricmp (argv[0], "-o") == 0) || (stricmp (argv[0], "--output") == 0)) { if (argv[1] == NULL || argv[1][0] == '-') { fprintf (stderr, "Invalid option value. Output File name is missing for -i option\n"); exit (EXIT_FAILURE); } *OutputFileName = argv[1]; argc -= 2; argv += 2; continue; } if (argv[0][0] == '-') { fprintf (stderr, "Unknown option %s\n", argv[0]); exit (EXIT_FAILURE); } argc --; argv ++; } // // Check Input parameters // if (*InputFileName == NULL) { fprintf (stderr, "Missing option. Input files is not specified\n"); exit (EXIT_FAILURE); } if (*OutputFileName == NULL) { fprintf (stderr, "Missing option. Output file is not specified\n"); exit (EXIT_FAILURE); } } int PcdValueMain ( int argc, char *argv[] ) /*++ Routine Description: Main function updates PCD values. Arguments: argc Number of command line parameters. argv Array of pointers to parameter strings. Returns: EXIT_SUCCESS --*/ { CHAR8 *InputFileName; CHAR8 *OutputFileName; UINT8 *FileBuffer; UINT32 FileSize; InputFileName = NULL; OutputFileName = NULL; // // Parse the input arguments // ParseArguments (argc, argv, &InputFileName, &OutputFileName); // // Open Input file and read file data. // ReadInputFile (InputFileName, &FileBuffer, &FileSize); // // Read the initial Pcd value // ParseFile (FileBuffer, FileSize); // // Customize PCD values in the PCD Database // PcdEntryPoint (); // // Save the updated PCD value // WriteOutputFile (OutputFileName); exit (EXIT_SUCCESS); }