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|
## @file
# This file is used to check PCD logical expression
#
# Copyright (c) 2011 - 2018, Intel Corporation. All rights reserved.<BR>
#
# SPDX-License-Identifier: BSD-2-Clause-Patent
'''
ExpressionValidate
'''
from __future__ import print_function
##
# Import Modules
#
import re
from Logger import StringTable as ST
## IsValidBareCString
#
# Check if String is comprised by whitespace(0x20), !(0x21), 0x23 - 0x7E
# or '\n', '\t', '\f', '\r', '\b', '\0', '\\'
#
# @param String: string to be checked
#
def IsValidBareCString(String):
EscapeList = ['n', 't', 'f', 'r', 'b', '0', '\\', '"']
PreChar = ''
LastChar = ''
for Char in String:
LastChar = Char
if PreChar == '\\':
if Char not in EscapeList:
return False
if Char == '\\':
PreChar = ''
continue
else:
IntChar = ord(Char)
if IntChar != 0x20 and IntChar != 0x09 and IntChar != 0x21 \
and (IntChar < 0x23 or IntChar > 0x7e):
return False
PreChar = Char
# Last char cannot be \ if PreChar is not \
if LastChar == '\\' and PreChar == LastChar:
return False
return True
def _ValidateToken(Token):
Token = Token.strip()
Index = Token.find("\"")
if Index != -1:
return IsValidBareCString(Token[Index+1:-1])
return True
## _ExprError
#
# @param Exception: Exception
#
class _ExprError(Exception):
def __init__(self, Error = ''):
Exception.__init__(self)
self.Error = Error
## _ExprBase
#
class _ExprBase:
HEX_PATTERN = '[\t\s]*0[xX][a-fA-F0-9]+'
INT_PATTERN = '[\t\s]*[0-9]+'
MACRO_PATTERN = '[\t\s]*\$\(([A-Z][_A-Z0-9]*)\)'
PCD_PATTERN = \
'[\t\s]*[_a-zA-Z][a-zA-Z0-9_]*[\t\s]*\.[\t\s]*[_a-zA-Z][a-zA-Z0-9_]*'
QUOTED_PATTERN = '[\t\s]*L?"[^"]*"'
BOOL_PATTERN = '[\t\s]*(true|True|TRUE|false|False|FALSE)'
def __init__(self, Token):
self.Token = Token
self.Index = 0
self.Len = len(Token)
## SkipWhitespace
#
def SkipWhitespace(self):
for Char in self.Token[self.Index:]:
if Char not in ' \t':
break
self.Index += 1
## IsCurrentOp
#
# @param OpList: option list
#
def IsCurrentOp(self, OpList):
self.SkipWhitespace()
LetterOp = ["EQ", "NE", "GE", "LE", "GT", "LT", "NOT", "and", "AND",
"or", "OR", "XOR"]
OpMap = {
'|' : '|',
'&' : '&',
'!' : '=',
'>' : '=',
'<' : '='
}
for Operator in OpList:
if not self.Token[self.Index:].startswith(Operator):
continue
self.Index += len(Operator)
Char = self.Token[self.Index : self.Index + 1]
if (Operator in LetterOp and (Char == '_' or Char.isalnum())) \
or (Operator in OpMap and OpMap[Operator] == Char):
self.Index -= len(Operator)
break
return True
return False
## _LogicalExpressionParser
#
# @param _ExprBase: _ExprBase object
#
class _LogicalExpressionParser(_ExprBase):
#
# STRINGITEM can only be logical field according to spec
#
STRINGITEM = -1
#
# Evaluate to True or False
#
LOGICAL = 0
REALLOGICAL = 2
#
# Just arithmetic expression
#
ARITH = 1
def __init__(self, Token):
_ExprBase.__init__(self, Token)
self.Parens = 0
def _CheckToken(self, MatchList):
for Match in MatchList:
if Match and Match.start() == 0:
if not _ValidateToken(
self.Token[self.Index:self.Index+Match.end()]
):
return False
self.Index += Match.end()
if self.Token[self.Index - 1] == '"':
return True
if self.Token[self.Index:self.Index+1] == '_' or \
self.Token[self.Index:self.Index+1].isalnum():
self.Index -= Match.end()
return False
Token = self.Token[self.Index - Match.end():self.Index]
if Token.strip() in ["EQ", "NE", "GE", "LE", "GT", "LT",
"NOT", "and", "AND", "or", "OR", "XOR"]:
self.Index -= Match.end()
return False
return True
return False
def IsAtomicNumVal(self):
#
# Hex number
#
Match1 = re.compile(self.HEX_PATTERN).match(self.Token[self.Index:])
#
# Number
#
Match2 = re.compile(self.INT_PATTERN).match(self.Token[self.Index:])
#
# Macro
#
Match3 = re.compile(self.MACRO_PATTERN).match(self.Token[self.Index:])
#
# PcdName
#
Match4 = re.compile(self.PCD_PATTERN).match(self.Token[self.Index:])
return self._CheckToken([Match1, Match2, Match3, Match4])
def IsAtomicItem(self):
#
# Macro
#
Match1 = re.compile(self.MACRO_PATTERN).match(self.Token[self.Index:])
#
# PcdName
#
Match2 = re.compile(self.PCD_PATTERN).match(self.Token[self.Index:])
#
# Quoted string
#
Match3 = re.compile(self.QUOTED_PATTERN).\
match(self.Token[self.Index:].replace('\\\\', '//').\
replace('\\\"', '\\\''))
return self._CheckToken([Match1, Match2, Match3])
## A || B
#
def LogicalExpression(self):
Ret = self.SpecNot()
while self.IsCurrentOp(['||', 'OR', 'or', '&&', 'AND', 'and', 'XOR', 'xor', '^']):
if self.Token[self.Index-1] == '|' and self.Parens <= 0:
raise _ExprError(ST.ERR_EXPR_OR % self.Token)
if Ret not in [self.ARITH, self.LOGICAL, self.REALLOGICAL, self.STRINGITEM]:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.SpecNot()
if Ret not in [self.ARITH, self.LOGICAL, self.REALLOGICAL, self.STRINGITEM]:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.REALLOGICAL
return Ret
def SpecNot(self):
if self.IsCurrentOp(["NOT", "!", "not"]):
return self.SpecNot()
return self.Rel()
## A < B, A > B, A <= B, A >= B
#
def Rel(self):
Ret = self.Expr()
if self.IsCurrentOp(["<=", ">=", ">", "<", "GT", "LT", "GE", "LE",
"==", "EQ", "!=", "NE"]):
if Ret == self.STRINGITEM:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.Expr()
if Ret == self.REALLOGICAL:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.REALLOGICAL
return Ret
## A + B, A - B
#
def Expr(self):
Ret = self.Factor()
while self.IsCurrentOp(["+", "-", "&", "|", "^", "XOR", "xor"]):
if self.Token[self.Index-1] == '|' and self.Parens <= 0:
raise _ExprError(ST.ERR_EXPR_OR)
if Ret == self.STRINGITEM or Ret == self.REALLOGICAL:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.Factor()
if Ret == self.STRINGITEM or Ret == self.REALLOGICAL:
raise _ExprError(ST.ERR_EXPR_LOGICAL % self.Token)
Ret = self.ARITH
return Ret
## Factor
#
def Factor(self):
if self.IsCurrentOp(["("]):
self.Parens += 1
Ret = self.LogicalExpression()
if not self.IsCurrentOp([")"]):
raise _ExprError(ST.ERR_EXPR_RIGHT_PAREN % \
(self.Token, self.Token[self.Index:]))
self.Parens -= 1
return Ret
if self.IsAtomicItem():
if self.Token[self.Index - 1] == '"':
return self.STRINGITEM
return self.LOGICAL
elif self.IsAtomicNumVal():
return self.ARITH
else:
raise _ExprError(ST.ERR_EXPR_FACTOR % \
(self.Token[self.Index:], self.Token))
## IsValidLogicalExpression
#
def IsValidLogicalExpression(self):
if self.Len == 0:
return False, ST.ERR_EXPRESS_EMPTY
try:
if self.LogicalExpression() not in [self.ARITH, self.LOGICAL, self.REALLOGICAL, self.STRINGITEM]:
return False, ST.ERR_EXPR_LOGICAL % self.Token
except _ExprError as XExcept:
return False, XExcept.Error
self.SkipWhitespace()
if self.Index != self.Len:
return False, (ST.ERR_EXPR_BOOLEAN % \
(self.Token[self.Index:], self.Token))
return True, ''
## _ValidRangeExpressionParser
#
class _ValidRangeExpressionParser(_ExprBase):
INT_RANGE_PATTERN = '[\t\s]*[0-9]+[\t\s]*-[\t\s]*[0-9]+'
HEX_RANGE_PATTERN = \
'[\t\s]*0[xX][a-fA-F0-9]+[\t\s]*-[\t\s]*0[xX][a-fA-F0-9]+'
def __init__(self, Token):
_ExprBase.__init__(self, Token)
self.Parens = 0
self.HEX = 1
self.INT = 2
self.IsParenHappen = False
self.IsLogicalOpHappen = False
## IsValidRangeExpression
#
def IsValidRangeExpression(self):
if self.Len == 0:
return False, ST.ERR_EXPR_RANGE_EMPTY
try:
if self.RangeExpression() not in [self.HEX, self.INT]:
return False, ST.ERR_EXPR_RANGE % self.Token
except _ExprError as XExcept:
return False, XExcept.Error
self.SkipWhitespace()
if self.Index != self.Len:
return False, (ST.ERR_EXPR_RANGE % self.Token)
return True, ''
## RangeExpression
#
def RangeExpression(self):
Ret = self.Unary()
while self.IsCurrentOp(['OR', 'AND', 'and', 'or']):
self.IsLogicalOpHappen = True
if not self.IsParenHappen:
raise _ExprError(ST.ERR_PAREN_NOT_USED % self.Token)
self.IsParenHappen = False
Ret = self.Unary()
if self.IsCurrentOp(['XOR']):
Ret = self.Unary()
return Ret
## Unary
#
def Unary(self):
if self.IsCurrentOp(["NOT"]):
return self.Unary()
return self.ValidRange()
## ValidRange
#
def ValidRange(self):
Ret = -1
if self.IsCurrentOp(["("]):
self.IsLogicalOpHappen = False
self.IsParenHappen = True
self.Parens += 1
if self.Parens > 1:
raise _ExprError(ST.ERR_EXPR_RANGE_DOUBLE_PAREN_NESTED % self.Token)
Ret = self.RangeExpression()
if not self.IsCurrentOp([")"]):
raise _ExprError(ST.ERR_EXPR_RIGHT_PAREN % self.Token)
self.Parens -= 1
return Ret
if self.IsLogicalOpHappen:
raise _ExprError(ST.ERR_PAREN_NOT_USED % self.Token)
if self.IsCurrentOp(["LT", "GT", "LE", "GE", "EQ", "XOR"]):
IntMatch = \
re.compile(self.INT_PATTERN).match(self.Token[self.Index:])
HexMatch = \
re.compile(self.HEX_PATTERN).match(self.Token[self.Index:])
if HexMatch and HexMatch.start() == 0:
self.Index += HexMatch.end()
Ret = self.HEX
elif IntMatch and IntMatch.start() == 0:
self.Index += IntMatch.end()
Ret = self.INT
else:
raise _ExprError(ST.ERR_EXPR_RANGE_FACTOR % (self.Token[self.Index:], self.Token))
else:
IntRangeMatch = re.compile(
self.INT_RANGE_PATTERN).match(self.Token[self.Index:]
)
HexRangeMatch = re.compile(
self.HEX_RANGE_PATTERN).match(self.Token[self.Index:]
)
if HexRangeMatch and HexRangeMatch.start() == 0:
self.Index += HexRangeMatch.end()
Ret = self.HEX
elif IntRangeMatch and IntRangeMatch.start() == 0:
self.Index += IntRangeMatch.end()
Ret = self.INT
else:
raise _ExprError(ST.ERR_EXPR_RANGE % self.Token)
return Ret
## _ValidListExpressionParser
#
class _ValidListExpressionParser(_ExprBase):
VALID_LIST_PATTERN = '(0[xX][0-9a-fA-F]+|[0-9]+)([\t\s]*,[\t\s]*(0[xX][0-9a-fA-F]+|[0-9]+))*'
def __init__(self, Token):
_ExprBase.__init__(self, Token)
self.NUM = 1
def IsValidListExpression(self):
if self.Len == 0:
return False, ST.ERR_EXPR_LIST_EMPTY
try:
if self.ListExpression() not in [self.NUM]:
return False, ST.ERR_EXPR_LIST % self.Token
except _ExprError as XExcept:
return False, XExcept.Error
self.SkipWhitespace()
if self.Index != self.Len:
return False, (ST.ERR_EXPR_LIST % self.Token)
return True, ''
def ListExpression(self):
Ret = -1
self.SkipWhitespace()
ListMatch = re.compile(self.VALID_LIST_PATTERN).match(self.Token[self.Index:])
if ListMatch and ListMatch.start() == 0:
self.Index += ListMatch.end()
Ret = self.NUM
else:
raise _ExprError(ST.ERR_EXPR_LIST % self.Token)
return Ret
## _StringTestParser
#
class _StringTestParser(_ExprBase):
def __init__(self, Token):
_ExprBase.__init__(self, Token)
## IsValidStringTest
#
def IsValidStringTest(self):
if self.Len == 0:
return False, ST.ERR_EXPR_EMPTY
try:
self.StringTest()
except _ExprError as XExcept:
return False, XExcept.Error
return True, ''
## StringItem
#
def StringItem(self):
Match1 = re.compile(self.QUOTED_PATTERN)\
.match(self.Token[self.Index:].replace('\\\\', '//')\
.replace('\\\"', '\\\''))
Match2 = re.compile(self.MACRO_PATTERN).match(self.Token[self.Index:])
Match3 = re.compile(self.PCD_PATTERN).match(self.Token[self.Index:])
MatchList = [Match1, Match2, Match3]
for Match in MatchList:
if Match and Match.start() == 0:
if not _ValidateToken(
self.Token[self.Index:self.Index+Match.end()]
):
raise _ExprError(ST.ERR_EXPR_STRING_ITEM % \
(self.Token, self.Token[self.Index:]))
self.Index += Match.end()
Token = self.Token[self.Index - Match.end():self.Index]
if Token.strip() in ["EQ", "NE"]:
raise _ExprError(ST.ERR_EXPR_STRING_ITEM % \
(self.Token, self.Token[self.Index:]))
return
else:
raise _ExprError(ST.ERR_EXPR_STRING_ITEM % \
(self.Token, self.Token[self.Index:]))
## StringTest
#
def StringTest(self):
self.StringItem()
if not self.IsCurrentOp(["==", "EQ", "!=", "NE"]):
raise _ExprError(ST.ERR_EXPR_EQUALITY % \
(self.Token[self.Index:], self.Token))
self.StringItem()
if self.Index != self.Len:
raise _ExprError(ST.ERR_EXPR_BOOLEAN % \
(self.Token[self.Index:], self.Token))
##
# Check syntax of string test
#
# @param Token: string test token
#
def IsValidStringTest(Token, Flag=False):
#
# Not do the check right now, keep the implementation for future enhancement.
#
if not Flag:
return True, ""
return _StringTestParser(Token).IsValidStringTest()
##
# Check syntax of logical expression
#
# @param Token: expression token
#
def IsValidLogicalExpr(Token, Flag=False):
#
# Not do the check right now, keep the implementation for future enhancement.
#
if not Flag:
return True, ""
return _LogicalExpressionParser(Token).IsValidLogicalExpression()
##
# Check syntax of range expression
#
# @param Token: range expression token
#
def IsValidRangeExpr(Token):
return _ValidRangeExpressionParser(Token).IsValidRangeExpression()
##
# Check syntax of value list expression token
#
# @param Token: value list expression token
#
def IsValidListExpr(Token):
return _ValidListExpressionParser(Token).IsValidListExpression()
##
# Check whether the feature flag expression is valid or not
#
# @param Token: feature flag expression
#
def IsValidFeatureFlagExp(Token, Flag=False):
#
# Not do the check right now, keep the implementation for future enhancement.
#
if not Flag:
return True, "", Token
else:
if Token in ['TRUE', 'FALSE', 'true', 'false', 'True', 'False',
'0x1', '0x01', '0x0', '0x00']:
return True, ""
Valid, Cause = IsValidStringTest(Token, Flag)
if not Valid:
Valid, Cause = IsValidLogicalExpr(Token, Flag)
if not Valid:
return False, Cause
return True, ""
if __name__ == '__main__':
# print IsValidRangeExpr('LT 9')
print(_LogicalExpressionParser('gCrownBayTokenSpaceGuid.PcdPciDevice1BridgeAddressLE0').IsValidLogicalExpression())
|