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## @file
# Convert a binary file to a VOID* PCD value or DSC file VOID* PCD statement.
#
# Copyright (c) 2016 - 2018, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#

'''
BinToPcd
'''
from __future__ import print_function

import argparse
import io
import math
import re
import struct
import sys

#
# Globals for help information
#
__prog__        = 'BinToPcd'
__copyright__   = 'Copyright (c) 2016 - 2018, Intel Corporation. All rights reserved.'
__description__ = 'Convert one or more binary files to a VOID* PCD value or DSC file VOID* PCD statement.\n'

if __name__ == '__main__':
    def ValidateUnsignedInteger (Argument):
        try:
            Value = int (Argument, 0)
        except:
            Message = '{Argument} is not a valid integer value.'.format (Argument = Argument)
            raise argparse.ArgumentTypeError (Message)
        if Value < 0:
            Message = '{Argument} is a negative value.'.format (Argument = Argument)
            raise argparse.ArgumentTypeError (Message)
        return Value

    def ValidatePcdName (Argument):
        if re.split (r'[a-zA-Z\_][a-zA-Z0-9\_]*\.[a-zA-Z\_][a-zA-Z0-9\_]*', Argument) != ['', '']:
            Message = '{Argument} is not in the form <PcdTokenSpaceGuidCName>.<PcdCName>'.format (Argument = Argument)
            raise argparse.ArgumentTypeError (Message)
        return Argument

    def ValidateGuidName (Argument):
        if re.split (r'[a-zA-Z\_][a-zA-Z0-9\_]*', Argument) != ['', '']:
            Message = '{Argument} is not a valid GUID C name'.format (Argument = Argument)
            raise argparse.ArgumentTypeError (Message)
        return Argument

    def XdrPackBuffer (buffer):
        packed_bytes = io.BytesIO()
        for unpacked_bytes in buffer:
            n = len(unpacked_bytes)
            packed_bytes.write(struct.pack('>L',n))
            data = unpacked_bytes[:n]
            n = math.ceil(n/4)*4
            data = data + (n - len(data)) * b'\0'
            packed_bytes.write(data)
        return packed_bytes.getvalue()

    def ByteArray (Buffer, Xdr = False):
        if Xdr:
            #
            # If Xdr flag is set then encode data using the Variable-Length Opaque
            # Data format of RFC 4506 External Data Representation Standard (XDR).
            #
            Buffer = bytearray (XdrPackBuffer (Buffer))
        else:
            #
            # If Xdr flag is not set, then concatenate all the data
            #
            Buffer = bytearray (b''.join (Buffer))
        #
        # Return a PCD value of the form '{0x01, 0x02, ...}' along with the PCD length in bytes
        #
        return '{' + (', '.join (['0x{Byte:02X}'.format (Byte = Item) for Item in Buffer])) + '}', len (Buffer)

    #
    # Create command line argument parser object
    #
    parser = argparse.ArgumentParser (prog = __prog__,
                                      description = __description__ + __copyright__,
                                      conflict_handler = 'resolve')
    parser.add_argument ("-i", "--input", dest = 'InputFile', type = argparse.FileType ('rb'), action='append', required = True,
                         help = "Input binary filename.  Multiple input files are combined into a single PCD.")
    parser.add_argument ("-o", "--output", dest = 'OutputFile', type = argparse.FileType ('w'),
                         help = "Output filename for PCD value or PCD statement")
    parser.add_argument ("-p", "--pcd", dest = 'PcdName', type = ValidatePcdName,
                         help = "Name of the PCD in the form <PcdTokenSpaceGuidCName>.<PcdCName>")
    parser.add_argument ("-t", "--type", dest = 'PcdType', default = None, choices = ['VPD', 'HII'],
                         help = "PCD statement type (HII or VPD).  Default is standard.")
    parser.add_argument ("-m", "--max-size", dest = 'MaxSize', type = ValidateUnsignedInteger,
                         help = "Maximum size of the PCD.  Ignored with --type HII.")
    parser.add_argument ("-f", "--offset", dest = 'Offset', type = ValidateUnsignedInteger,
                         help = "VPD offset if --type is VPD.  UEFI Variable offset if --type is HII.  Must be 8-byte aligned.")
    parser.add_argument ("-n", "--variable-name", dest = 'VariableName',
                         help = "UEFI variable name.  Only used with --type HII.")
    parser.add_argument ("-g", "--variable-guid", type = ValidateGuidName, dest = 'VariableGuid',
                         help = "UEFI variable GUID C name.  Only used with --type HII.")
    parser.add_argument ("-x", "--xdr", dest = 'Xdr', action = "store_true",
                         help = "Encode PCD using the Variable-Length Opaque Data format of RFC 4506 External Data Representation Standard (XDR)")
    parser.add_argument ("-v", "--verbose", dest = 'Verbose', action = "store_true",
                         help = "Increase output messages")
    parser.add_argument ("-q", "--quiet", dest = 'Quiet', action = "store_true",
                         help = "Reduce output messages")
    parser.add_argument ("--debug", dest = 'Debug', type = int, metavar = '[0-9]', choices = range (0, 10), default = 0,
                         help = "Set debug level")

    #
    # Parse command line arguments
    #
    args = parser.parse_args ()

    #
    # Read all binary input files
    #
    Buffer = []
    for File in args.InputFile:
        try:
            Buffer.append (File.read ())
            File.close ()
        except:
            print ('BinToPcd: error: can not read binary input file {File}'.format (File = File))
            sys.exit (1)

    #
    # Convert PCD to an encoded string of hex values and determine the size of
    # the encoded PCD in bytes.
    #
    PcdValue, PcdSize = ByteArray (Buffer, args.Xdr)

    #
    # Convert binary buffer to a DSC file PCD statement
    #
    if args.PcdName is None:
        #
        # If PcdName is None, then only a PCD value is being requested.
        #
        Pcd = PcdValue
        if args.Verbose:
            print ('BinToPcd: Convert binary file to PCD Value')
    elif args.PcdType is None:
        #
        # If --type is neither VPD nor HII, then use PCD statement syntax that is
        # compatible with [PcdsFixedAtBuild], [PcdsPatchableInModule],
        # [PcdsDynamicDefault], and [PcdsDynamicExDefault].
        #
        if args.MaxSize is None:
            #
            # If --max-size is not provided, then do not generate the syntax that
            # includes the maximum size.
            #
            Pcd = '  {Name}|{Value}'.format (Name = args.PcdName, Value = PcdValue)
        elif args.MaxSize < PcdSize:
            print ('BinToPcd: error: argument --max-size is smaller than input file.')
            sys.exit (1)
        else:
            Pcd = '  {Name}|{Value}|VOID*|{Size}'.format (Name = args.PcdName, Value = PcdValue, Size = args.MaxSize)

        if args.Verbose:
            print ('BinToPcd: Convert binary file to PCD statement compatible with PCD sections:')
            print ('    [PcdsFixedAtBuild]')
            print ('    [PcdsPatchableInModule]')
            print ('    [PcdsDynamicDefault]')
            print ('    [PcdsDynamicExDefault]')
    elif args.PcdType == 'VPD':
        if args.MaxSize is None:
            #
            # If --max-size is not provided, then set maximum size to the size of the
            # binary input file
            #
            args.MaxSize = PcdSize
        if args.MaxSize < PcdSize:
            print ('BinToPcd: error: argument --max-size is smaller than input file.')
            sys.exit (1)
        if args.Offset is None:
            #
            # if --offset is not provided, then set offset field to '*' so build
            # tools will compute offset of PCD in VPD region.
            #
            Pcd = '  {Name}|*|{Size}|{Value}'.format (Name = args.PcdName, Size = args.MaxSize, Value = PcdValue)
        else:
            #
            # --offset value must be 8-byte aligned
            #
            if (args.Offset % 8) != 0:
                print ('BinToPcd: error: argument --offset must be 8-byte aligned.')
                sys.exit (1)
            #
            # Use the --offset value provided.
            #
            Pcd = '  {Name}|{Offset}|{Size}|{Value}'.format (Name = args.PcdName, Offset = args.Offset, Size = args.MaxSize, Value = PcdValue)
        if args.Verbose:
            print ('BinToPcd: Convert binary file to PCD statement compatible with PCD sections')
            print ('    [PcdsDynamicVpd]')
            print ('    [PcdsDynamicExVpd]')
    elif args.PcdType == 'HII':
        if args.VariableGuid is None or args.VariableName is None:
            print ('BinToPcd: error: arguments --variable-guid and --variable-name are required for --type HII.')
            sys.exit (1)
        if args.Offset is None:
            #
            # Use UEFI Variable offset of 0 if --offset is not provided
            #
            args.Offset = 0
        #
        # --offset value must be 8-byte aligned
        #
        if (args.Offset % 8) != 0:
            print ('BinToPcd: error: argument --offset must be 8-byte aligned.')
            sys.exit (1)
        Pcd = '  {Name}|L"{VarName}"|{VarGuid}|{Offset}|{Value}'.format (Name = args.PcdName, VarName = args.VariableName, VarGuid = args.VariableGuid, Offset = args.Offset, Value = PcdValue)
        if args.Verbose:
            print ('BinToPcd: Convert binary file to PCD statement compatible with PCD sections')
            print ('    [PcdsDynamicHii]')
            print ('    [PcdsDynamicExHii]')

    #
    # Write PCD value or PCD statement to the output file
    #
    try:
        args.OutputFile.write (Pcd)
        args.OutputFile.close ()
    except:
        #
        # If output file is not specified or it can not be written, then write the
        # PCD value or PCD statement to the console
        #
        print (Pcd)