diff options
Diffstat (limited to 'miasm2/expression')
| -rw-r--r-- | miasm2/expression/expression_reduce.py | 177 |
1 files changed, 177 insertions, 0 deletions
diff --git a/miasm2/expression/expression_reduce.py b/miasm2/expression/expression_reduce.py new file mode 100644 index 00000000..f4a68be4 --- /dev/null +++ b/miasm2/expression/expression_reduce.py @@ -0,0 +1,177 @@ +""" +Expression reducer: +Apply reduction rules to an Expression ast +""" + +import logging +from miasm2.expression.expression import ExprInt, ExprId, ExprOp, ExprSlice,\ + ExprCompose, ExprMem, ExprCond + +log_reduce = logging.getLogger("expr_reduce") +console_handler = logging.StreamHandler() +console_handler.setFormatter(logging.Formatter("%(levelname)-5s: %(message)s")) +log_reduce.addHandler(console_handler) +log_reduce.setLevel(logging.WARNING) + + +class ExprNode(object): + """Clone of Expression object with additionnal information""" + + def __init__(self, expr): + self.expr = expr + # Generic field to store custom node information + self.info = None + + self.arg, self.args = None, None + self.cond, self.src1, self.src2 = None, None, None + + def __repr__(self): + expr = self.expr + if self.info is not None: + out = repr(self.info) + elif isinstance(expr, (ExprInt, ExprId)): + out = str(None) + elif isinstance(expr, ExprMem): + out = "@%d[%r]" % (self.expr.size, self.arg) + elif isinstance(expr, ExprSlice): + out = "%r[%d:%d]" % (self.arg, expr.start, expr.stop) + elif isinstance(expr, ExprOp): + if len(self.args) == 1: + out = "%s(%s)" % (expr.op, self.args[0]) + else: + out = expr.op.join([repr(arg) for arg in self.args]) + elif isinstance(expr, ExprCompose): + out = "{%s}" % ', '.join([repr(arg) for arg in self.args]) + elif isinstance(expr, ExprCond): + out = "%r?%r:%r" % (self.cond, self.src1, self.src2) + else: + raise TypeError("Unknown node Type %r", type(expr)) + return out + + +class ExprReducer(object): + """Apply reduction rules to an expr + + reduction_rules: list of ordered reduction rules + + List of function representing reduction rules + Function API: + reduction_xxx(self, node, lvl=0) + with: + * node: the ExprNode to qualify + * lvl: [optional] the recursion level + Returns: + * None if the reduction rule is not applied + * the resulting information to store in the ExprNode.info + + allow_none_result: allow missing reduction rules + """ + + reduction_rules = [] + allow_none_result = False + + def expr2node(self, expr): + """Build ExprNode mirror of @expr + + @expr: Expression to analyze + """ + + if isinstance(expr, (ExprId, ExprInt)): + node = ExprNode(expr) + elif isinstance(expr, (ExprMem, ExprSlice)): + son = self.expr2node(expr.arg) + node = ExprNode(expr) + node.arg = son + elif isinstance(expr, ExprOp): + sons = [self.expr2node(arg) for arg in expr.args] + node = ExprNode(expr) + node.args = sons + elif isinstance(expr, ExprCompose): + sons = [self.expr2node(arg) for arg in expr.args] + node = ExprNode(expr) + node.args = sons + elif isinstance(expr, ExprCond): + node = ExprNode(expr) + node.cond = self.expr2node(expr.cond) + node.src1 = self.expr2node(expr.src1) + node.src2 = self.expr2node(expr.src2) + else: + raise TypeError("Unknown Expr Type %r", type(expr)) + return node + + def reduce(self, expr): + """Returns an ExprNode tree mirroring @expr tree. The ExprNode is + computed by applying reduction rules to the expression @expr + + @expr: an Expression + """ + + node = self.expr2node(expr) + return self.categorize(node, 0) + + def categorize(self, node, lvl=0): + """Recursively apply rules to @node + + @node: ExprNode to analyze + @lvl: actual recusion level + """ + + expr = node.expr + log_reduce.debug("\t" * lvl + "Reduce...: %s", node.expr) + if isinstance(expr, (ExprId, ExprInt)): + pass + elif isinstance(expr, ExprMem): + arg = self.categorize(node.arg, lvl + 1) + node = ExprNode(ExprMem(arg.expr, expr.size)) + node.arg = arg + elif isinstance(expr, ExprSlice): + arg = self.categorize(node.arg, lvl + 1) + node = ExprNode(ExprSlice(arg.expr, expr.start, expr.stop)) + node.arg = arg + elif isinstance(expr, ExprOp): + new_args = [] + for arg in node.args: + new_a = self.categorize(arg, lvl + 1) + assert new_a.expr.size == arg.expr.size + new_args.append(new_a) + node = ExprNode(ExprOp(expr.op, *[x.expr for x in new_args])) + node.args = new_args + expr = node.expr + elif isinstance(expr, ExprCompose): + new_args = [] + new_expr_args = [] + for arg in node.args: + arg = self.categorize(arg, lvl + 1) + new_args.append(arg) + new_expr_args.append(arg.expr) + new_expr = ExprCompose(*new_expr_args) + node = ExprNode(new_expr) + node.args = new_args + elif isinstance(expr, ExprCond): + cond = self.categorize(node.cond, lvl + 1) + src1 = self.categorize(node.src1, lvl + 1) + src2 = self.categorize(node.src2, lvl + 1) + node = ExprNode(ExprCond(cond.expr, src1.expr, src2.expr)) + node.cond, node.src1, node.src2 = cond, src1, src2 + else: + raise TypeError("Unknown Expr Type %r", type(expr)) + + node.info = self.apply_rules(node, lvl) + log_reduce.debug("\t" * lvl + "Reduce result: %s %r", + node.expr, node.info) + return node + + def apply_rules(self, node, lvl=0): + """Find and apply reduction rules to @node + + @node: ExprNode to analyse + @lvl: actuel recusion level + """ + + for rule in self.reduction_rules: + ret = rule(self, node, lvl) + if ret is not None: + log_reduce.debug("\t" * lvl + "Rule found: %r", rule) + return ret + if not self.allow_none_result: + raise RuntimeError('Missing reduction rule for %r' % node.expr) |