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author | Guido van Rossum <guido@python.org> | 1996-10-22 01:11:19 (GMT) |
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committer | Guido van Rossum <guido@python.org> | 1996-10-22 01:11:19 (GMT) |
commit | 095538dd104f245cc10e7b0339b81b561c0be77a (patch) | |
tree | 419729e3870f33220de1bef79a9b6169b895e440 /Doc/lib/librexec.tex | |
parent | c3d090cd4bf3784c9582b70dd58537ce51ed1b59 (diff) | |
download | cpython-095538dd104f245cc10e7b0339b81b561c0be77a.zip cpython-095538dd104f245cc10e7b0339b81b561c0be77a.tar.gz cpython-095538dd104f245cc10e7b0339b81b561c0be77a.tar.bz2 |
Actual text submitted by AMK.
Diffstat (limited to 'Doc/lib/librexec.tex')
-rw-r--r-- | Doc/lib/librexec.tex | 197 |
1 files changed, 196 insertions, 1 deletions
diff --git a/Doc/lib/librexec.tex b/Doc/lib/librexec.tex index 76e63fc..32a565f 100644 --- a/Doc/lib/librexec.tex +++ b/Doc/lib/librexec.tex @@ -2,4 +2,199 @@ \stmodindex{rexec} \renewcommand{\indexsubitem}{(in module rexec)} -XXX To be provided. +This module contains the \code{RExec} class, which supports +\code{r_exec()}, \code{r_eval()}, \code{r_execfile()}, and +\code{r_import()} methods, which are restricted versions of the standard +Python functions \code{exec()}, \code{eval()}, \code{execfile()}, and +\code{import()}. Code executed in this restricted environment will +only have access to modules and functions that are deemed safe; you +can subclass \code{RExec} to add or remove capabilities as desired. + +\emph{Note:} The \code{RExec} class can prevent code from performing +unsafe operations like reading or writing disk files, or using TCP/IP +sockets. However, it does not protect against code using extremely +large amounts of memory or CPU time. +% XXX is there any protection against this? + +\begin{funcdesc}{RExec}{\optional{hooks\, verbose} } +Returns an instance of the \code{RExec} class. + +% XXX is ihooks.py documented? If yes, there should be a ref here + +\var{hooks} is an instance of the \code{RHooks} class or a subclass of it. +Whenever the RExec module searches for a module (even a built-in one) +or reads a module's code, it doesn't actually go out to the file +system itself. Rather, it calls methods of an RHooks instance that +was passed to or created by its constructor. (Actually, the RExec +object doesn't make these calls---they are made by a module loader +object that's part of the RExec object. This allows another level of +flexibility, e.g. using packages.) + +By providing an alternate RHooks object, we can control the actual +file system accesses made to import a module, without changing the +actual algorithm that controls the order in which those accesses are +made. For instance, we could substitute an RHooks object that passes +all filesystem requests to a file server elsewhere, via some RPC +mechanism such as ILU. Grail's applet loader uses this to support +importing applets from a URL for a directory. + +% XXX does verbose actually do anything at the moment? +If \var{verbose} is true, additional debugging output will be sent to +standard output. +\end{funcdesc} + +RExec instances have the following attributes, which are used by the +\code{__init__} method. Changing them on an existing instance won't +have any effect; instead, create a subclass of \code{RExec} and assign +them new values in the class definition. Instances of the new class +will then use those new values. All these attributes are tuples of +strings. + +\renewcommand{\indexsubitem}{(RExec object attribute)} +\begin{datadesc}{nok_builtin_names} +Contains the names of built-in functions which will \emph{not} be + available to programs running in the restricted environment. The + value for \code{RExec} is \code{('open',} \code{reload',} + \code{__import__')}. +\end{datadesc} + +\begin{datadesc}{ok_builtin_modules} +Contains the names of built-in modules which can be safely imported. +The value for \code{RExec} is \code{('array',} \code{'binascii',} \code{'audioop',} +\code{'imageop',} \code{'marshal',} \code{'math',} \code{'md5',} \code{'parser',} \code{'regex',} \code{'rotor',} +\code{'select',} \code{'strop',} \code{'struct',} \code{'time')}. +\end{datadesc} + +\begin{datadesc}{ok_path} +Contains the directories which will be searched when an \code{import} +is performed in the restricted environment. +The value for \code{RExec} is the same as \code{sys.path} for +unrestricted code. +\end{datadesc} + +\begin{datadesc}{ok_posix_names} +% Should this be called ok_os_names? +Contains the names of the functions in the \code{os} module which will be +available to programs running in the restricted environment. The +value for \code{RExec} is \code{('error',} \code{'fstat',} +\code{'listdir',} \code{'lstat',} \code{'readlink',} \code{'stat',} +\code{'times',} \code{'uname',} \code{'getpid',} \code{'getppid',} +\code{'getcwd',} \code{'getuid',} \code{'getgid',} \code{'geteuid',} +\code{'getegid')}. +\end{datadesc} + +\begin{datadesc}{ok_sys_names} +Contains the names of the functions and variables in the \code{sys} module which will be +available to programs running in the restricted environment. The +value for \code{RExec} is \code{('ps1',} \code{'ps2',} +\code{'copyright',} \code{'version',} \code{'platform',} \code{'exit',} +\code{'maxint')}. +\end{datadesc} + +RExec instances support the following methods: +\renewcommand{\indexsubitem}{(RExec object method)} + +\begin{funcdesc}{r_eval}{code} +\var{code} must either be a string containing a Python expression, or a compiled code object, which will +be evaluated in the restricted environment. The value of the expression or code object will be returned. +\end{funcdesc} + +\begin{funcdesc}{r_exec}{code} +\var{code} must either be a string containing one or more lines of Python code, or a compiled code object, +which will be executed in the restricted environment. +\end{funcdesc} + +\begin{funcdesc}{r_execfile}{filename} +Execute the Python code contained in the file \var{filename} in the +restricted environment. +\end{funcdesc} + +Methods whose names begin with \code{s_} are similar to the functions +beginning with \code{r_}, but the code will be granted access to +restricted versions of \code{sys.stdin}, \code{sys.stderr}, and +\code{sys.stdout}. + +\begin{funcdesc}{s_eval}{code} +\var{code} must be a string containing a Python expression, which will +be evaluated in the restricted environment. +\end{funcdesc} + +\begin{funcdesc}{s_exec}{code} +\var{code} must be a string containing one or more lines of Python code, +which will be executed in the restricted environment. +\end{funcdesc} + +\begin{funcdesc}{s_execfile}{code} +Execute the Python code contained in the file \var{filename} in the +restricted environment. +\end{funcdesc} + +\code{RExec} objects must also support various methods which will be implicitly called +by code executing in the restricted environment. Overriding these +methods in a subclass is used to change the policies enforced by a restricted environment. + +\begin{funcdesc}{r_import}{modulename\optional{\, globals, locals, fromlist}} +Import the module \var{modulename}, raising an \code{ImportError} exception +if the module is considered unsafe. +\end{funcdesc} + +\begin{funcdesc}{r_open}{filename\optional{\, mode\optional{\, bufsize}}} +Method called when \code{open()} is called in the restricted +environment. The arguments are identical to those of \code{open()}, +and a file object (or a class instance compatible with file objects) +should be returned. \code{RExec}'s default behaviour is allow opening +any file for reading, but forbidding any attempt to write a file. See +the example below for an implementation of a less restrictive \code{r_open()}. +\end{funcdesc} + +\begin{funcdesc}{r_reload}{module} +Reload the module object \var{module}, re-parsing and re-initializing it. +\end{funcdesc} + +\begin{funcdesc}{r_unload}{module} +Unload the module object \var{module}. +% XXX what are the semantics of this? +\end{funcdesc} + +\begin{funcdesc}{s_import}{modulename\optional{\, globals, locals, fromlist}} +Import the module \var{modulename}, raising an \code{ImportError} exception +if the module is considered unsafe. +\end{funcdesc} + +\begin{funcdesc}{s_reload}{module} +Reload the module object \var{module}, re-parsing and re-initializing it. +\end{funcdesc} + +\begin{funcdesc}{s_unload}{module} +Unload the module object \var{module}. +% XXX what are the semantics of this? +\end{funcdesc} + +\subsection{An example} + +Let us say that we want a slightly more relaxed policy than the +standard RExec class. For example, if we're willing to allow files in +\file{/tmp} to be written, we can subclass the \code{RExec} class: + +\bcode\begin{verbatim} +class TmpWriterRExec(rexec.RExec): + def r_open(self, file, mode='r', buf=-1): + if mode in ('r', 'rb'): pass + elif mode in ('w', 'wb'): + # check filename : must begin with /tmp/ + if file[0:5]!='/tmp/': + raise IOError, "can't open files for writing outside of /tmp" + elif string.find(file, '/../')!=-1: + raise IOError, "'..' in filename; open for writing forbidden" + return open(file, mode, buf) +\end{verbatim}\ecode + +Notice that the above code will occasionally forbid a perfectly valid +filename; for example, code in the restricted environment won't be +able to open a file called \file{/tmp/foo/../bar}. To fix this, the +\code{r_open} method would have to simplify the filename to +\file{/tmp/bar}, which would require splitting apart the filename and +performing various operations on it. In cases where security is at +stake, it may be preferable to write simple code which is sometimes +overly restrictive, instead of more general code that is also more +complex and may harbor a subtle security hole. |