X-Git-Url: https://git.rapsys.eu/youtubedl/blobdiff_plain/c512650955de0b16d37e7fa7fb29ea0985e415bb..ced7488f6d3a519b2c1b1cbd31048743fb8285bd:/youtube_dl/jsinterp.py diff --git a/youtube_dl/jsinterp.py b/youtube_dl/jsinterp.py index 449482d..9737f70 100644 --- a/youtube_dl/jsinterp.py +++ b/youtube_dl/jsinterp.py @@ -1,116 +1,258 @@ from __future__ import unicode_literals +import json +import operator import re from .utils import ( ExtractorError, ) +_OPERATORS = [ + ('|', operator.or_), + ('^', operator.xor), + ('&', operator.and_), + ('>>', operator.rshift), + ('<<', operator.lshift), + ('-', operator.sub), + ('+', operator.add), + ('%', operator.mod), + ('/', operator.truediv), + ('*', operator.mul), +] +_ASSIGN_OPERATORS = [(op + '=', opfunc) for op, opfunc in _OPERATORS] +_ASSIGN_OPERATORS.append(('=', lambda cur, right: right)) + +_NAME_RE = r'[a-zA-Z_$][a-zA-Z_$0-9]*' + class JSInterpreter(object): - def __init__(self, code): + def __init__(self, code, objects=None): + if objects is None: + objects = {} self.code = code self._functions = {} + self._objects = objects - def interpret_statement(self, stmt, local_vars, allow_recursion=20): + def interpret_statement(self, stmt, local_vars, allow_recursion=100): if allow_recursion < 0: raise ExtractorError('Recursion limit reached') - if stmt.startswith('var '): - stmt = stmt[len('var '):] - ass_m = re.match(r'^(?P[a-z]+)(?:\[(?P[^\]]+)\])?' + - r'=(?P.*)$', stmt) - if ass_m: - if ass_m.groupdict().get('index'): - def assign(val): - lvar = local_vars[ass_m.group('out')] - idx = self.interpret_expression( - ass_m.group('index'), local_vars, allow_recursion) - assert isinstance(idx, int) - lvar[idx] = val - return val - expr = ass_m.group('expr') - else: - def assign(val): - local_vars[ass_m.group('out')] = val - return val - expr = ass_m.group('expr') - elif stmt.startswith('return '): - assign = lambda v: v - expr = stmt[len('return '):] + should_abort = False + stmt = stmt.lstrip() + stmt_m = re.match(r'var\s', stmt) + if stmt_m: + expr = stmt[len(stmt_m.group(0)):] else: - raise ExtractorError( - 'Cannot determine left side of statement in %r' % stmt) + return_m = re.match(r'return(?:\s+|$)', stmt) + if return_m: + expr = stmt[len(return_m.group(0)):] + should_abort = True + else: + # Try interpreting it as an expression + expr = stmt v = self.interpret_expression(expr, local_vars, allow_recursion) - return assign(v) + return v, should_abort def interpret_expression(self, expr, local_vars, allow_recursion): + expr = expr.strip() + + if expr == '': # Empty expression + return None + + if expr.startswith('('): + parens_count = 0 + for m in re.finditer(r'[()]', expr): + if m.group(0) == '(': + parens_count += 1 + else: + parens_count -= 1 + if parens_count == 0: + sub_expr = expr[1:m.start()] + sub_result = self.interpret_expression( + sub_expr, local_vars, allow_recursion) + remaining_expr = expr[m.end():].strip() + if not remaining_expr: + return sub_result + else: + expr = json.dumps(sub_result) + remaining_expr + break + else: + raise ExtractorError('Premature end of parens in %r' % expr) + + for op, opfunc in _ASSIGN_OPERATORS: + m = re.match(r'''(?x) + (?P%s)(?:\[(?P[^\]]+?)\])? + \s*%s + (?P.*)$''' % (_NAME_RE, re.escape(op)), expr) + if not m: + continue + right_val = self.interpret_expression( + m.group('expr'), local_vars, allow_recursion - 1) + + if m.groupdict().get('index'): + lvar = local_vars[m.group('out')] + idx = self.interpret_expression( + m.group('index'), local_vars, allow_recursion) + assert isinstance(idx, int) + cur = lvar[idx] + val = opfunc(cur, right_val) + lvar[idx] = val + return val + else: + cur = local_vars.get(m.group('out')) + val = opfunc(cur, right_val) + local_vars[m.group('out')] = val + return val + if expr.isdigit(): return int(expr) - if expr.isalpha(): - return local_vars[expr] + var_m = re.match( + r'(?!if|return|true|false)(?P%s)$' % _NAME_RE, + expr) + if var_m: + return local_vars[var_m.group('name')] + + try: + return json.loads(expr) + except ValueError: + pass - m = re.match(r'^(?P[a-z]+)\.(?P.*)$', expr) + m = re.match( + r'(?P%s)\.(?P[^(]+)(?:\(+(?P[^()]*)\))?$' % _NAME_RE, + expr) if m: + variable = m.group('var') member = m.group('member') - val = local_vars[m.group('in')] - if member == 'split("")': - return list(val) - if member == 'join("")': - return u''.join(val) - if member == 'length': - return len(val) - if member == 'reverse()': - return val[::-1] - slice_m = re.match(r'slice\((?P.*)\)', member) - if slice_m: - idx = self.interpret_expression( - slice_m.group('idx'), local_vars, allow_recursion - 1) - return val[idx:] + arg_str = m.group('args') + + if variable in local_vars: + obj = local_vars[variable] + else: + if variable not in self._objects: + self._objects[variable] = self.extract_object(variable) + obj = self._objects[variable] + + if arg_str is None: + # Member access + if member == 'length': + return len(obj) + return obj[member] + + assert expr.endswith(')') + # Function call + if arg_str == '': + argvals = tuple() + else: + argvals = tuple([ + self.interpret_expression(v, local_vars, allow_recursion) + for v in arg_str.split(',')]) + + if member == 'split': + assert argvals == ('',) + return list(obj) + if member == 'join': + assert len(argvals) == 1 + return argvals[0].join(obj) + if member == 'reverse': + assert len(argvals) == 0 + obj.reverse() + return obj + if member == 'slice': + assert len(argvals) == 1 + return obj[argvals[0]:] + if member == 'splice': + assert isinstance(obj, list) + index, howMany = argvals + res = [] + for i in range(index, min(index + howMany, len(obj))): + res.append(obj.pop(index)) + return res + + return obj[member](argvals) m = re.match( - r'^(?P[a-z]+)\[(?P.+)\]$', expr) + r'(?P%s)\[(?P.+)\]$' % _NAME_RE, expr) if m: val = local_vars[m.group('in')] idx = self.interpret_expression( m.group('idx'), local_vars, allow_recursion - 1) return val[idx] - m = re.match(r'^(?P.+?)(?P[%])(?P.+?)$', expr) - if m: - a = self.interpret_expression( - m.group('a'), local_vars, allow_recursion) - b = self.interpret_expression( - m.group('b'), local_vars, allow_recursion) - return a % b + for op, opfunc in _OPERATORS: + m = re.match(r'(?P.+?)%s(?P.+)' % re.escape(op), expr) + if not m: + continue + x, abort = self.interpret_statement( + m.group('x'), local_vars, allow_recursion - 1) + if abort: + raise ExtractorError( + 'Premature left-side return of %s in %r' % (op, expr)) + y, abort = self.interpret_statement( + m.group('y'), local_vars, allow_recursion - 1) + if abort: + raise ExtractorError( + 'Premature right-side return of %s in %r' % (op, expr)) + return opfunc(x, y) m = re.match( - r'^(?P[a-zA-Z$]+)\((?P[a-z0-9,]+)\)$', expr) + r'^(?P%s)\((?P[a-zA-Z0-9_$,]+)\)$' % _NAME_RE, expr) if m: fname = m.group('func') + argvals = tuple([ + int(v) if v.isdigit() else local_vars[v] + for v in m.group('args').split(',')]) if fname not in self._functions: self._functions[fname] = self.extract_function(fname) - argvals = [int(v) if v.isdigit() else local_vars[v] - for v in m.group('args').split(',')] return self._functions[fname](argvals) + raise ExtractorError('Unsupported JS expression %r' % expr) + def extract_object(self, objname): + obj = {} + obj_m = re.search( + (r'(?:var\s+)?%s\s*=\s*\{' % re.escape(objname)) + + r'\s*(?P([a-zA-Z$0-9]+\s*:\s*function\(.*?\)\s*\{.*?\}(?:,\s*)?)*)' + + r'\}\s*;', + self.code) + fields = obj_m.group('fields') + # Currently, it only supports function definitions + fields_m = re.finditer( + r'(?P[a-zA-Z$0-9]+)\s*:\s*function' + r'\((?P[a-z,]+)\){(?P[^}]+)}', + fields) + for f in fields_m: + argnames = f.group('args').split(',') + obj[f.group('key')] = self.build_function(argnames, f.group('code')) + + return obj + def extract_function(self, funcname): func_m = re.search( - (r'(?:function %s|%s\s*=\s*function)' % ( - re.escape(funcname), re.escape(funcname))) + - r'\((?P[a-z,]+)\){(?P[^}]+)}', + r'''(?x) + (?:function\s+%s|[{;,]\s*%s\s*=\s*function|var\s+%s\s*=\s*function)\s* + \((?P[^)]*)\)\s* + \{(?P[^}]+)\}''' % ( + re.escape(funcname), re.escape(funcname), re.escape(funcname)), self.code) if func_m is None: raise ExtractorError('Could not find JS function %r' % funcname) argnames = func_m.group('args').split(',') + return self.build_function(argnames, func_m.group('code')) + + def call_function(self, funcname, *args): + f = self.extract_function(funcname) + return f(args) + + def build_function(self, argnames, code): def resf(args): local_vars = dict(zip(argnames, args)) - for stmt in func_m.group('code').split(';'): - res = self.interpret_statement(stmt, local_vars) + for stmt in code.split(';'): + res, abort = self.interpret_statement(stmt, local_vars) + if abort: + break return res return resf -