mirror of https://github.com/python/cpython
276 lines
12 KiB
TeX
276 lines
12 KiB
TeX
\section{\module{rexec} ---
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Restricted execution framework}
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\declaremodule{standard}{rexec}
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\modulesynopsis{Basic restricted execution framework.}
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\versionchanged[Disabled module]{2.3}
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\begin{notice}[warning]
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The documentation has been left in place to help in reading old code
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that uses the module.
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\end{notice}
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This module contains the \class{RExec} class, which supports
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\method{r_eval()}, \method{r_execfile()}, \method{r_exec()}, and
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\method{r_import()} methods, which are restricted versions of the standard
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Python functions \method{eval()}, \method{execfile()} and
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the \keyword{exec} and \keyword{import} statements.
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Code executed in this restricted environment will
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only have access to modules and functions that are deemed safe; you
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can subclass \class{RExec} to add or remove capabilities as desired.
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\begin{notice}[warning]
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While the \module{rexec} module is designed to perform as described
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below, it does have a few known vulnerabilities which could be
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exploited by carefully written code. Thus it should not be relied
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upon in situations requiring ``production ready'' security. In such
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situations, execution via sub-processes or very careful
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``cleansing'' of both code and data to be processed may be
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necessary. Alternatively, help in patching known \module{rexec}
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vulnerabilities would be welcomed.
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\end{notice}
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\begin{notice}
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The \class{RExec} class can prevent code from performing unsafe
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operations like reading or writing disk files, or using TCP/IP
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sockets. However, it does not protect against code using extremely
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large amounts of memory or processor time.
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\end{notice}
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\begin{classdesc}{RExec}{\optional{hooks\optional{, verbose}}}
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Returns an instance of the \class{RExec} class.
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\var{hooks} is an instance of the \class{RHooks} class or a subclass of it.
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If it is omitted or \code{None}, the default \class{RHooks} class is
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instantiated.
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Whenever the \module{rexec} module searches for a module (even a
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built-in one) or reads a module's code, it doesn't actually go out to
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the file system itself. Rather, it calls methods of an \class{RHooks}
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instance that was passed to or created by its constructor. (Actually,
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the \class{RExec} object doesn't make these calls --- they are made by
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a module loader object that's part of the \class{RExec} object. This
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allows another level of flexibility, which can be useful when changing
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the mechanics of \keyword{import} within the restricted environment.)
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By providing an alternate \class{RHooks} object, we can control the
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file system accesses made to import a module, without changing the
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actual algorithm that controls the order in which those accesses are
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made. For instance, we could substitute an \class{RHooks} object that
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passes all filesystem requests to a file server elsewhere, via some
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RPC mechanism such as ILU. Grail's applet loader uses this to support
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importing applets from a URL for a directory.
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If \var{verbose} is true, additional debugging output may be sent to
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standard output.
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\end{classdesc}
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It is important to be aware that code running in a restricted
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environment can still call the \function{sys.exit()} function. To
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disallow restricted code from exiting the interpreter, always protect
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calls that cause restricted code to run with a
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\keyword{try}/\keyword{except} statement that catches the
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\exception{SystemExit} exception. Removing the \function{sys.exit()}
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function from the restricted environment is not sufficient --- the
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restricted code could still use \code{raise SystemExit}. Removing
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\exception{SystemExit} is not a reasonable option; some library code
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makes use of this and would break were it not available.
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\begin{seealso}
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\seetitle[http://grail.sourceforge.net/]{Grail Home Page}{Grail is a
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Web browser written entirely in Python. It uses the
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\module{rexec} module as a foundation for supporting
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Python applets, and can be used as an example usage of
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this module.}
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\end{seealso}
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\subsection{RExec Objects \label{rexec-objects}}
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\class{RExec} instances support the following methods:
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\begin{methoddesc}{r_eval}{code}
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\var{code} must either be a string containing a Python expression, or
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a compiled code object, which will be evaluated in the restricted
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environment's \module{__main__} module. The value of the expression or
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code object will be returned.
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\end{methoddesc}
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\begin{methoddesc}{r_exec}{code}
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\var{code} must either be a string containing one or more lines of
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Python code, or a compiled code object, which will be executed in the
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restricted environment's \module{__main__} module.
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\end{methoddesc}
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\begin{methoddesc}{r_execfile}{filename}
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Execute the Python code contained in the file \var{filename} in the
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restricted environment's \module{__main__} module.
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\end{methoddesc}
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Methods whose names begin with \samp{s_} are similar to the functions
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beginning with \samp{r_}, but the code will be granted access to
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restricted versions of the standard I/O streams \code{sys.stdin},
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\code{sys.stderr}, and \code{sys.stdout}.
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\begin{methoddesc}{s_eval}{code}
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\var{code} must be a string containing a Python expression, which will
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be evaluated in the restricted environment.
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\end{methoddesc}
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\begin{methoddesc}{s_exec}{code}
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\var{code} must be a string containing one or more lines of Python code,
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which will be executed in the restricted environment.
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\end{methoddesc}
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\begin{methoddesc}{s_execfile}{code}
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Execute the Python code contained in the file \var{filename} in the
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restricted environment.
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\end{methoddesc}
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\class{RExec} objects must also support various methods which will be
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implicitly called by code executing in the restricted environment.
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Overriding these methods in a subclass is used to change the policies
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enforced by a restricted environment.
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\begin{methoddesc}{r_import}{modulename\optional{, globals\optional{,
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locals\optional{, fromlist}}}}
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Import the module \var{modulename}, raising an \exception{ImportError}
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exception if the module is considered unsafe.
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\end{methoddesc}
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\begin{methoddesc}{r_open}{filename\optional{, mode\optional{, bufsize}}}
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Method called when \function{open()} is called in the restricted
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environment. The arguments are identical to those of \function{open()},
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and a file object (or a class instance compatible with file objects)
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should be returned. \class{RExec}'s default behaviour is allow opening
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any file for reading, but forbidding any attempt to write a file. See
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the example below for an implementation of a less restrictive
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\method{r_open()}.
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\end{methoddesc}
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\begin{methoddesc}{r_reload}{module}
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Reload the module object \var{module}, re-parsing and re-initializing it.
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\end{methoddesc}
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\begin{methoddesc}{r_unload}{module}
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Unload the module object \var{module} (remove it from the
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restricted environment's \code{sys.modules} dictionary).
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\end{methoddesc}
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And their equivalents with access to restricted standard I/O streams:
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\begin{methoddesc}{s_import}{modulename\optional{, globals\optional{,
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locals\optional{, fromlist}}}}
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Import the module \var{modulename}, raising an \exception{ImportError}
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exception if the module is considered unsafe.
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\end{methoddesc}
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\begin{methoddesc}{s_reload}{module}
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Reload the module object \var{module}, re-parsing and re-initializing it.
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\end{methoddesc}
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\begin{methoddesc}{s_unload}{module}
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Unload the module object \var{module}.
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% XXX what are the semantics of this?
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\end{methoddesc}
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\subsection{Defining restricted environments \label{rexec-extension}}
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The \class{RExec} class has the following class attributes, which are
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used by the \method{__init__()} method. Changing them on an existing
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instance won't have any effect; instead, create a subclass of
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\class{RExec} and assign them new values in the class definition.
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Instances of the new class will then use those new values. All these
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attributes are tuples of strings.
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\begin{memberdesc}{nok_builtin_names}
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Contains the names of built-in functions which will \emph{not} be
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available to programs running in the restricted environment. The
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value for \class{RExec} is \code{('open', 'reload', '__import__')}.
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(This gives the exceptions, because by far the majority of built-in
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functions are harmless. A subclass that wants to override this
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variable should probably start with the value from the base class and
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concatenate additional forbidden functions --- when new dangerous
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built-in functions are added to Python, they will also be added to
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this module.)
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\end{memberdesc}
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\begin{memberdesc}{ok_builtin_modules}
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Contains the names of built-in modules which can be safely imported.
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The value for \class{RExec} is \code{('audioop', 'array', 'binascii',
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'cmath', 'errno', 'imageop', 'marshal', 'math', 'md5', 'operator',
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'parser', 'regex', 'rotor', 'select', 'sha', '_sre', 'strop',
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'struct', 'time')}. A similar remark about overriding this variable
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applies --- use the value from the base class as a starting point.
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\end{memberdesc}
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\begin{memberdesc}{ok_path}
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Contains the directories which will be searched when an \keyword{import}
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is performed in the restricted environment.
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The value for \class{RExec} is the same as \code{sys.path} (at the time
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the module is loaded) for unrestricted code.
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\end{memberdesc}
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\begin{memberdesc}{ok_posix_names}
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% Should this be called ok_os_names?
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Contains the names of the functions in the \refmodule{os} module which will be
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available to programs running in the restricted environment. The
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value for \class{RExec} is \code{('error', 'fstat', 'listdir',
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'lstat', 'readlink', 'stat', 'times', 'uname', 'getpid', 'getppid',
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'getcwd', 'getuid', 'getgid', 'geteuid', 'getegid')}.
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\end{memberdesc}
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\begin{memberdesc}{ok_sys_names}
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Contains the names of the functions and variables in the \refmodule{sys}
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module which will be available to programs running in the restricted
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environment. The value for \class{RExec} is \code{('ps1', 'ps2',
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'copyright', 'version', 'platform', 'exit', 'maxint')}.
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\end{memberdesc}
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\begin{memberdesc}{ok_file_types}
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Contains the file types from which modules are allowed to be loaded.
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Each file type is an integer constant defined in the \refmodule{imp} module.
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The meaningful values are \constant{PY_SOURCE}, \constant{PY_COMPILED}, and
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\constant{C_EXTENSION}. The value for \class{RExec} is \code{(C_EXTENSION,
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PY_SOURCE)}. Adding \constant{PY_COMPILED} in subclasses is not recommended;
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an attacker could exit the restricted execution mode by putting a forged
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byte-compiled file (\file{.pyc}) anywhere in your file system, for example
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by writing it to \file{/tmp} or uploading it to the \file{/incoming}
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directory of your public FTP server.
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\end{memberdesc}
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\subsection{An example}
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Let us say that we want a slightly more relaxed policy than the
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standard \class{RExec} class. For example, if we're willing to allow
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files in \file{/tmp} to be written, we can subclass the \class{RExec}
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class:
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\begin{verbatim}
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class TmpWriterRExec(rexec.RExec):
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def r_open(self, file, mode='r', buf=-1):
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if mode in ('r', 'rb'):
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pass
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elif mode in ('w', 'wb', 'a', 'ab'):
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# check filename : must begin with /tmp/
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if file[:5]!='/tmp/':
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raise IOError, "can't write outside /tmp"
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elif (string.find(file, '/../') >= 0 or
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file[:3] == '../' or file[-3:] == '/..'):
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raise IOError, "'..' in filename forbidden"
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else: raise IOError, "Illegal open() mode"
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return open(file, mode, buf)
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\end{verbatim}
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%
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Notice that the above code will occasionally forbid a perfectly valid
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filename; for example, code in the restricted environment won't be
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able to open a file called \file{/tmp/foo/../bar}. To fix this, the
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\method{r_open()} method would have to simplify the filename to
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\file{/tmp/bar}, which would require splitting apart the filename and
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performing various operations on it. In cases where security is at
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stake, it may be preferable to write simple code which is sometimes
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overly restrictive, instead of more general code that is also more
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complex and may harbor a subtle security hole.
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