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README.md
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A pure-lua solution for running untrusted Lua code. A pure-lua solution for running untrusted Lua code.
The default behavior is restricting access to "dangerous" functions in Lua, such as `os.execute`.
It's possible to provide extra functions via the `options.env` parameter.
Infinite loops are prevented via the `debug` library.
For now, sandbox.lua only works with Lua 5.1.x. For now, sandbox.lua only works with Lua 5.1.x.
Usage Usage
===== =====
local sandbox = require 'sandbox' Require the module like this:
#### `sf = sandbox(f, options)` and `sf = sandbox.protect(f, options)` ``` lua
Those two are synonyms. They return a sandboxed version of `f`. local sandbox = require 'sandbox'
`options` is not required. So far the only possible options are `env` and `quota` ```
local sandboxed_f = sandbox(function() return 'hey' end) ### sandbox.protect
local msg = sandboxed_f() -- msg is now 'hey'
Only safe modules and operations can be accessed from a sandboxed function. See the source code for a list of safe/unsafe operations. `sandbox.protect(f)` (or `sandbox(f)`) produces a sandboxed version of `f`. `f` can be a Lua function or a string with Lua code.
local f1 = sandbox.protect(function() A sandboxed function works as regular functions as long as they don't access any insecure features:
return string.upper('string.upper is a safe operation.')
end)
local f2 = sandbox.protect(function() ```lua
os.execute('rm -rf /') -- this will throw an error, no damage done
end)
f1() -- ok local sandboxed_f = sandbox(function() return 'hey' end)
f2() -- error: os.execute not found local msg = sandboxed_f() -- msg is now 'hey'
##### `options.quota` ```
Sandboxed options can not access unsafe Lua modules. (See the [source code](https://github.com/kikito/sandbox.lua/blob/master/sandbox.lua#L35) for a list)
When a sandboxed function tries to access an unsafe module, an error is produced.
```lua
local sf = sandbox.protect(function()
os.execute('rm -rf /') -- this will throw an error, no damage done
end)
sf() -- error: os.execute not found
```
Sandboxed functions will eventually throw an error if they contain infinite loops:
```lua
local sf = sandbox.protect(function()
while true do end
end)
sf() -- error: quota exceeded
```
### options.quota
`sandbox.lua` prevents infinite loops from halting the program by hooking the `debug` library to the sandboxed function, and "counting instructions". When
the instructions reach a certain limit, an error is produced.
This limit can be tweaked via the `quota` option. But default, it is 500000.
It is not possible to exhaust the machine with infinite loops; the following will throw an error after invoking 500000 instructions: It is not possible to exhaust the machine with infinite loops; the following will throw an error after invoking 500000 instructions:
sandbox.run('while true do end') ``` lua
sandbox.run('while true do end') -- raise errors after 500000 instructions
sandbox.run('while true do end', {quota=10000}) -- raise error after 10000 instructions
```
The amount of instructions executed can be tweaked via the `quota` option (default value: 500000 instructions) Note that if the quota is low enough, sandboxed functions that do lots of calculations might fail:
sandbox.run('while true do end', {quota=10000}) -- throw error after 10000 instructions ``` lua
local f = function()
local count = 1
for i=1, 400 do count = count + 1 end
return count
end
##### `options.env` sandbox.run(f, {quota=100}) -- raises error before the function ends
```
Use the `env` option to add additional variables to the environment ### options.env
local msg = sandbox.run('return foo', {env = {foo = 'This is on the environment'}}) Use the `env` option to inject additional variables to the environment in which the sandboxed function is executed.
If provided, the `env` variable will be modified by the sanbox (adding base modules like `string`) local msg = sandbox.run('return foo', {env = {foo = 'This is a global var on the the environment'}})
The sandboxed code can also modify the sandboxed function. Make sure to securize it if needed.
Note that the `env` variable will be modified by the sandbox (adding base modules like `string`). The sandboxed code can also modify it. It is
recommended to discard it after use.
local env = {amount = 1} local env = {amount = 1}
sandbox.run('amount = amount + 1', {env = env}) sandbox.run('amount = amount + 1', {env = env})
assert(env.amount = 2) assert(env.amount = 2)
#### `result = sandbox.run(f, options, ...)` ### sandbox.run
`sandbox.run` sanboxes a function and executes it. `f` can be either a string or a function `sandbox.run(f)` sanboxes and executes `f` in a single line. `f` can be either a string or a function
local msg = sandbox.run(function() return 'this is untrusted code' end) You can pass `options` param, and it will work like in `sandbox.protect`.
local msg2 = sandbox.run("return 'this is also untrusted code'") Any extra parameters will just be passed to the sandboxed function when executed.
`sandbox.run(f, o, ...)` is equivalent to `sandbox.protect(f,o)(...)`. In other words, `sandbox.run(f, o, ...)` is equivalent to `sandbox.protect(f,o)(...)`.
`options` works exactly like in `sandbox.protect`.
`sandbox.run` also returns the result of executing `f` with the given params after `options`, if any (notice that strings can't accept parameters).
Notice that if `f` throws an error, it is *NOT* captured by `sandbox.run`. Use `pcall` if you want your app to be immune to errors, like this: Notice that if `f` throws an error, it is *NOT* captured by `sandbox.run`. Use `pcall` if you want your app to be immune to errors, like this:
``` lua
local ok, result = pcall(sandbox.run, 'error("this just throws an error")') local ok, result = pcall(sandbox.run, 'error("this just throws an error")')
```
Installation Installation
============ ============