In some languages (Java, C# without unsafe code, ...) it is (should be) impossible to corrupt memory - no manual memory management, etc. This allows them to restrict resources (access to files, access to net, maximum memory usage, ...) to applications quite easily - e.g. Java applets (Java web start). It's sometimes called sandboxing.
My question is: is it possible with native programs (e.g. written in memory-unsafe language like C, C++; but without having source code)? I don't mean simple bypass-able sandbox, or anti-virus software.
I think about two possibilities:
- run application as different OS user, set restrictions for this user. Disadvantage - many users, for every combination of parameters, access rights?
- (somehow) limit (OS API) functions, that can be called I don't know if any of possibilities allow (at least in theory) in full protection, without possibility of bypass.
Edit: I'm interested more in theory - I don't care that e.g. some OS has some undocumented functions, or how to sandbox any application on given OS. For example, I want to sandbox application and allow only two functions: get char from console, put char to console. How is it possible to do it unbreakably, no possibility of bypassing?
- Google Native Client, uses subset of x86 - in development, together with (possible?) PNaCl - portable native client
- full VM - obviously overkill, imagine tens of programs...
In other words, could native (unsafe memory access) code be used within restricted environment, e.g. in web browser, with 100% (at least in theory) security?
Edit2: Google Native Client is exactly what I would like - any language, safe or unsafe, run at native speed, sandbox, even in web browser. Everybody use whatever language you want, in web or on desktop.