mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-12-11 14:28:08 +01:00
410 lines
17 KiB
Python
410 lines
17 KiB
Python
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## @file
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# Module that encodes and decodes a capsule dependency.
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#
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# Copyright (c) 2019, Intel Corporation. All rights reserved.<BR>
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# SPDX-License-Identifier: BSD-2-Clause-Patent
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#
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import struct
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import json
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import sys
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import uuid
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import re
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'''
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CapsuleDependency
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'''
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class OpConvert (object):
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def __init__ (self):
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# Opcode: (OperandSize, PackSize, PackFmt, EncodeConvert, DecodeConvert)
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self._DepexOperations = {0x00: (16, 16, 's', self.Str2Guid, self.Guid2Str),
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0x01: (4, 1, 'I', self.Str2Uint, self.Uint2Str),
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0x02: (1, 0, 's', self.Str2Utf8, self.Byte2Str),
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}
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def Str2Uint (self, Data):
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try:
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Value = int (Data, 16)
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except:
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Message = '{Data} is not a valid integer value.'.format (Data = Data)
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raise ValueError (Message)
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if Value < 0 or Value > 0xFFFFFFFF:
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Message = '{Data} is not an UINT32.'.format (Data = Data)
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raise ValueError (Message)
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return Value
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def Uint2Str (self, Data):
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if Data < 0 or Data > 0xFFFFFFFF:
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Message = '{Data} is not an UINT32.'.format (Data = Data)
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raise ValueError (Message)
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return "0x{Data:08x}".format (Data = Data)
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def Str2Guid (self, Data):
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try:
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Guid = uuid.UUID (Data)
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except:
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Message = '{Data} is not a valid registry format GUID value.'.format (Data = Data)
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raise ValueError (Message)
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return Guid.bytes_le
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def Guid2Str (self, Data):
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try:
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Guid = uuid.UUID (bytes_le = Data)
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except:
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Message = '{Data} is not a valid binary format GUID value.'.format (Data = Data)
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raise ValueError (Message)
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return str (Guid).upper ()
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def Str2Utf8 (self, Data):
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if isinstance (Data, str):
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return Data.encode ('utf-8')
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else:
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Message = '{Data} is not a valid string.'.format (Data = Data)
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raise ValueError (Message)
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def Byte2Str (self, Data):
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if isinstance (Data, bytes):
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if Data[-1:] == b'\x00':
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return str (Data[:-1], 'utf-8')
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else:
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return str (Data, 'utf-8')
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else:
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Message = '{Data} is not a valid binary string.'.format (Data = Data)
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raise ValueError (Message)
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def OpEncode (self, Opcode, Operand = None):
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BinTemp = struct.pack ('<b', Opcode)
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if Opcode <= 0x02 and Operand != None:
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OperandSize, PackSize, PackFmt, EncodeConvert, DecodeConvert = self._DepexOperations[Opcode]
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Value = EncodeConvert (Operand)
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if Opcode == 0x02:
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PackSize = len (Value) + 1
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BinTemp += struct.pack ('<{PackSize}{PackFmt}'.format (PackSize = PackSize, PackFmt = PackFmt), Value)
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return BinTemp
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def OpDecode (self, Buffer):
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Opcode = struct.unpack ('<b', Buffer[0:1])[0]
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if Opcode <= 0x02:
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OperandSize, PackSize, PackFmt, EncodeConvert, DecodeConvert = self._DepexOperations[Opcode]
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if Opcode == 0x02:
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try:
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PackSize = Buffer[1:].index (b'\x00') + 1
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OperandSize = PackSize
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except:
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Message = 'CapsuleDependency: OpConvert: error: decode failed with wrong opcode/string.'
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raise ValueError (Message)
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try:
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Operand = DecodeConvert (struct.unpack ('<{PackSize}{PackFmt}'.format (PackSize = PackSize, PackFmt = PackFmt), Buffer[1:1+OperandSize])[0])
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except:
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Message = 'CapsuleDependency: OpConvert: error: decode failed with unpack failure.'
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raise ValueError (Message)
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else:
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Operand = None
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OperandSize = 0
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return (Opcode, Operand, OperandSize)
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class CapsuleDependencyClass (object):
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# //**************************************************************
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# // Image Attribute - Dependency
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# //**************************************************************
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# typedef struct {
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# UINT8 Dependencies[];
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# } EFI_FIRMWARE_IMAGE_DEP
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# {expression operator : [precedence, opcode, type (1:unary/2:binocular)]}
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_opReference = {'&&': [2, 0x03, 2],
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'||': [1, 0x04, 2],
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'~': [5, 0x05, 1],
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'==': [3, 0x08, 2],
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'>': [4, 0x09, 2],
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'>=': [4, 0x0A, 2],
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'<': [4, 0x0B, 2],
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'<=': [4, 0x0C, 2],
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}
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def __init__ (self):
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self.Payload = b''
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self._DepexExp = None
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self._DepexList = []
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self._DepexDump = []
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self.Depex = b''
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self._Valid = False
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self._DepexSize = 0
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self._opReferenceReverse = {v[1] : k for k, v in self._opReference.items ()}
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self.OpConverter = OpConvert ()
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@property
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def DepexExp (self):
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return self._DepexExp
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@DepexExp.setter
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def DepexExp (self, DepexExp = ''):
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if isinstance (DepexExp, str):
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DepexExp = re.sub (r'\n',r' ',DepexExp)
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DepexExp = re.sub (r'\(',r' ( ',DepexExp)
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DepexExp = re.sub (r'\)',r' ) ',DepexExp)
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DepexExp = re.sub (r'~',r' ~ ',DepexExp)
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self._DepexList = re.findall(r"[^\s\"\']+|\"[^\"]*\"|\'[^\']*\'",DepexExp)
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self._DepexExp = " ".join(self._DepexList)
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else:
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Msg = 'Input Depex Expression is not valid string.'
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raise ValueError (Msg)
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def IsValidOperator (self, op):
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return op in self._opReference.keys ()
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def IsValidUnaryOperator (self, op):
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return op in self._opReference.keys () and self._opReference[op][2] == 1
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def IsValidBinocularOperator (self, op):
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return op in self._opReference.keys () and self._opReference[op][2] == 2
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def IsValidGuid (self, operand):
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try:
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uuid.UUID (operand)
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except:
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return False
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return True
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def IsValidVersion (self, operand):
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try:
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Value = int (operand, 16)
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if Value < 0 or Value > 0xFFFFFFFF:
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return False
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except:
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return False
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return True
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def IsValidBoolean (self, operand):
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try:
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return operand.upper () in ['TRUE', 'FALSE']
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except:
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return False
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def IsValidOperand (self, operand):
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return self.IsValidVersion (operand) or self.IsValidGuid (operand) or self.IsValidBoolean (operand)
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def IsValidString (self, operand):
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return operand[0] == "\"" and operand[-1] == "\"" and len(operand) >= 2
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# Check if priority of current operater is greater than pervious op
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def PriorityNotGreater (self, prevOp, currOp):
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return self._opReference[currOp][0] <= self._opReference[prevOp][0]
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def ValidateDepex (self):
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OpList = self._DepexList
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i = 0
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while i < len (OpList):
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Op = OpList[i]
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if Op == 'DECLARE':
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i += 1
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if i >= len (OpList):
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Msg = 'No more Operand after {Op}.'.format (Op = OpList[i-1])
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raise IndexError (Msg)
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# Check valid string
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if not self.IsValidString(OpList[i]):
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Msg = '{Operand} after {Op} is not a valid expression input.'.format (Operand = OpList[i], Op = OpList[i-1])
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raise ValueError (Msg)
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elif Op == '(':
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# Expression cannot end with (
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if i == len (OpList) - 1:
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Msg = 'Expression cannot end with \'(\''
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raise ValueError (Msg)
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# The previous op after '(' cannot be a binocular operator
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if self.IsValidBinocularOperator (OpList[i+1]) :
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Msg = '{Op} after \'(\' is not a valid expression input.'.format (Op = OpList[i+1])
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raise ValueError (Msg)
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elif Op == ')':
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# Expression cannot start with )
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if i == 0:
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Msg = 'Expression cannot start with \')\''
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raise ValueError (Msg)
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# The previous op before ')' cannot be an operator
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if self.IsValidOperator (OpList[i-1]):
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Msg = '{Op} before \')\' is not a valid expression input.'.format (Op = OpList[i-1])
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raise ValueError (Msg)
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# The next op after ')' cannot be operand or unary operator
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if (i + 1) < len (OpList) and (self.IsValidOperand (OpList[i+1]) or self.IsValidUnaryOperator (OpList[i+1])):
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Msg = '{Op} after \')\' is not a valid expression input.'.format (Op = OpList[i+1])
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raise ValueError (Msg)
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elif self.IsValidOperand (Op):
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# The next expression of operand cannot be operand or unary operator
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if (i + 1) < len (OpList) and (self.IsValidOperand (OpList[i+1]) or self.IsValidUnaryOperator (OpList[i+1])):
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Msg = '{Op} after {PrevOp} is not a valid expression input.'.format (Op = OpList[i+1], PrevOp = Op)
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raise ValueError (Msg)
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elif self.IsValidOperator (Op):
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# The next op of operator cannot binocular operator
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if (i + 1) < len (OpList) and self.IsValidBinocularOperator (OpList[i+1]):
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Msg = '{Op} after {PrevOp} is not a valid expression input.'.format (Op = OpList[i+1], PrevOp = Op)
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raise ValueError (Msg)
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# The first op can not be binocular operator
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if i == 0 and self.IsValidBinocularOperator (Op):
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Msg = 'Expression cannot start with an operator {Op}.'.format (Op = Op)
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raise ValueError (Msg)
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# The last op can not be operator
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if i == len (OpList) - 1:
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Msg = 'Expression cannot ended with an operator {Op}.'.format (Op = Op)
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raise ValueError (Msg)
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# The next op of unary operator cannot be guid / version
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if self.IsValidUnaryOperator (Op) and (self.IsValidGuid (OpList[i+1]) or self.IsValidVersion (OpList[i+1])):
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Msg = '{Op} after {PrevOp} is not a valid expression input.'.format (Op = OpList[i+1], PrevOp = Op)
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raise ValueError (Msg)
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else:
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Msg = '{Op} is not a valid expression input.'.format (Op = Op)
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raise ValueError (Msg)
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i += 1
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def Encode (self):
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# initialize
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self.Depex = b''
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self._DepexDump = []
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OperandStack = []
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OpeartorStack = []
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OpList = self._DepexList
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self.ValidateDepex ()
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# convert
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i = 0
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while i < len (OpList):
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Op = OpList[i]
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if Op == 'DECLARE':
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# This declare next expression value is a VERSION_STRING
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i += 1
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self.Depex += self.OpConverter.OpEncode (0x02, OpList[i][1:-1])
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elif Op == '(':
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OpeartorStack.append (Op)
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elif Op == ')':
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while (OpeartorStack and OpeartorStack[-1] != '('):
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Operator = OpeartorStack.pop ()
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self.Depex += self.OpConverter.OpEncode (self._opReference[Operator][1])
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try:
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OpeartorStack.pop () # pop out '('
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except:
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Msg = 'Pop out \'(\' failed, too many \')\''
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raise ValueError (Msg)
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elif self.IsValidGuid (Op):
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if not OperandStack:
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OperandStack.append (self.OpConverter.OpEncode (0x00, Op))
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else:
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# accroding to uefi spec 2.8, the guid/version operands is a reversed order in firmware comparison.
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self.Depex += self.OpConverter.OpEncode (0x00, Op)
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self.Depex += OperandStack.pop ()
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elif self.IsValidVersion (Op):
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if not OperandStack:
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OperandStack.append (self.OpConverter.OpEncode (0x01, Op))
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else:
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# accroding to uefi spec 2.8, the guid/version operands is a reversed order in firmware comparison.
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self.Depex += self.OpConverter.OpEncode (0x01, Op)
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self.Depex += OperandStack.pop ()
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elif self.IsValidBoolean (Op):
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if Op.upper () == 'FALSE':
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self.Depex += self.OpConverter.OpEncode (0x07)
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elif Op.upper () == 'TRUE':
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self.Depex += self.OpConverter.OpEncode (0x06)
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elif self.IsValidOperator (Op):
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while (OpeartorStack and OpeartorStack[-1] != '(' and self.PriorityNotGreater (OpeartorStack[-1], Op)):
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Operator = OpeartorStack.pop ()
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self.Depex += self.OpConverter.OpEncode (self._opReference[Operator][1])
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OpeartorStack.append (Op)
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i += 1
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while OpeartorStack:
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Operator = OpeartorStack.pop ()
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if Operator == '(':
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Msg = 'Too many \'(\'.'
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raise ValueError (Msg)
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self.Depex += self.OpConverter.OpEncode (self._opReference[Operator][1])
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self.Depex += self.OpConverter.OpEncode (0x0D)
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self._Valid = True
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self._DepexSize = len (self.Depex)
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return self.Depex + self.Payload
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def Decode (self, Buffer):
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# initialize
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self.Depex = Buffer
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OperandStack = []
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DepexLen = 0
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while True:
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Opcode, Operand, OperandSize = self.OpConverter.OpDecode (Buffer[DepexLen:])
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DepexLen += OperandSize + 1
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if Opcode == 0x0D:
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break
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elif Opcode == 0x02:
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if not OperandStack:
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OperandStack.append ('DECLARE \"{String}\"'.format (String = Operand))
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else:
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PrevOperand = OperandStack.pop ()
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OperandStack.append ('{Operand} DECLARE \"{String}\"'.format (Operand = PrevOperand, String = Operand))
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elif Opcode in [0x00, 0x01]:
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OperandStack.append (Operand)
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elif Opcode == 0x06:
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OperandStack.append ('TRUE')
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elif Opcode == 0x07:
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OperandStack.append ('FALSE')
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elif self.IsValidOperator (self._opReferenceReverse[Opcode]):
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Operator = self._opReferenceReverse[Opcode]
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if self.IsValidUnaryOperator (self._opReferenceReverse[Opcode]) and len (OperandStack) >= 1:
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Oprand = OperandStack.pop ()
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OperandStack.append (' ( {Operator} {Oprand} )'.format (Operator = Operator, Oprand = Oprand))
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elif self.IsValidBinocularOperator (self._opReferenceReverse[Opcode]) and len (OperandStack) >= 2:
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Oprand1 = OperandStack.pop ()
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Oprand2 = OperandStack.pop ()
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OperandStack.append (' ( {Oprand1} {Operator} {Oprand2} )'.format (Operator = Operator, Oprand1 = Oprand1, Oprand2 = Oprand2))
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else:
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Msg = 'No enough Operands for {Opcode:02X}.'.format (Opcode = Opcode)
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raise ValueError (Msg)
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else:
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Msg = '{Opcode:02X} is not a valid OpCode.'.format (Opcode = Opcode)
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raise ValueError (Msg)
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self.DepexExp = OperandStack[0].strip (' ')
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self.Payload = Buffer[DepexLen:]
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self._Valid = True
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self._DepexSize = DepexLen
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return self.Payload
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def DumpInfo (self):
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DepexLen = 0
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Opcode = None
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Buffer = self.Depex
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if self._Valid == True:
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print ('EFI_FIRMWARE_IMAGE_DEP.Dependencies = {')
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while Opcode != 0x0D:
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Opcode, Operand, OperandSize = self.OpConverter.OpDecode (Buffer[DepexLen:])
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DepexLen += OperandSize + 1
|
||
|
if Operand:
|
||
|
print (' {Opcode:02X}, {Operand},'.format (Opcode = Opcode, Operand = Operand))
|
||
|
else:
|
||
|
print (' {Opcode:02X},'.format (Opcode = Opcode))
|
||
|
print ('}')
|
||
|
|
||
|
print ('sizeof (EFI_FIRMWARE_IMAGE_DEP.Dependencies) = {Size:08X}'.format (Size = self._DepexSize))
|
||
|
print ('sizeof (Payload) = {Size:08X}'.format (Size = len (self.Payload)))
|