Sandbox ======= The Jinja sandbox can be used to evaluate untrusted code. Access to unsafe attributes and methods is prohibited. Assuming `env` is a :class:`SandboxedEnvironment` in the default configuration the following piece of code shows how it works: >>> env.from_string("{{ func.func_code }}").render(func=lambda:None) u'' >>> env.from_string("{{ func.func_code.do_something }}").render(func=lambda:None) Traceback (most recent call last): ... SecurityError: access to attribute 'func_code' of 'function' object is unsafe. API --- .. module:: jinja2.sandbox .. autoclass:: SandboxedEnvironment([options]) :members: is_safe_attribute, is_safe_callable, default_binop_table, default_unop_table, intercepted_binops, intercepted_unops, call_binop, call_unop .. autoclass:: ImmutableSandboxedEnvironment([options]) .. autoexception:: SecurityError .. autofunction:: unsafe .. autofunction:: is_internal_attribute .. autofunction:: modifies_known_mutable .. admonition:: Note The Jinja sandbox alone is no solution for perfect security. Especially for web applications you have to keep in mind that users may create templates with arbitrary HTML in so it's crucial to ensure that (if you are running multiple users on the same server) they can't harm each other via JavaScript insertions and much more. Also the sandbox is only as good as the configuration. We strongly recommend only passing non-shared resources to the template and use some sort of whitelisting for attributes. Also keep in mind that templates may raise runtime or compile time errors, so make sure to catch them. Operator Intercepting --------------------- .. versionadded:: 2.6 For maximum performance Jinja will let operators call directly the type specific callback methods. This means that it's not possible to have this intercepted by overriding :meth:`Environment.call`. Furthermore a conversion from operator to special method is not always directly possible due to how operators work. For instance for divisions more than one special method exist. With Jinja 2.6 there is now support for explicit operator intercepting. This can be used to customize specific operators as necessary. In order to intercept an operator one has to override the :attr:`SandboxedEnvironment.intercepted_binops` attribute. Once the operator that needs to be intercepted is added to that set Jinja will generate bytecode that calls the :meth:`SandboxedEnvironment.call_binop` function. For unary operators the `unary` attributes and methods have to be used instead. The default implementation of :attr:`SandboxedEnvironment.call_binop` will use the :attr:`SandboxedEnvironment.binop_table` to translate operator symbols into callbacks performing the default operator behavior. This example shows how the power (``**``) operator can be disabled in Jinja:: from jinja2.sandbox import SandboxedEnvironment class MyEnvironment(SandboxedEnvironment): intercepted_binops = frozenset(['**']) def call_binop(self, context, operator, left, right): if operator == '**': return self.undefined('the power operator is unavailable') return SandboxedEnvironment.call_binop(self, context, operator, left, right) Make sure to always call into the super method, even if you are not intercepting the call. Jinja might internally call the method to evaluate expressions.