I need a stable way to attempt to run an unsigned executable on an iOS device in order to test if the device has been jailbroken (i.e. allows the running of unsigned code).
I have written a small executable which essentially does nothing.
int main(int argc, char *argv[]) {
return 23;
}
Which I have compiled and run successfully on an iOS device (both Jailbroken and not).
I have then added this executable to an App bundle and deployed the app to an iOS device.
This results in a read only version of the executable on the device. I attempted to chmod this file to give it execute permissions, but this failed, so I copied it into the tmp directory for the app, where I was able to chmod with executable permissions.
Other questions have suggested using execve to call the executable, but this will replace the running process with the new one, which will kill the app. Fork() always fails, so that is not an option. System() requires a shell, and it would be possible to have a jailbreak without a shell which still allows unsigned code to run, so that's out. Popen() forks, so that won't work.
Interestingly, from what I have discovered, calling execv on my executable in a normal device causes an "Operation not permitted" error, whereas calling it on a jailbroken device causes a "Permission denied" error. This alone would work for jailbreak detection, except for the case that if a jailbreak ever occurs in which the execv is allowed to proceed, the App will then crash immediately as it's process will be replaced.
According to this, iBooks performs jailbreak detection doing this, but it appears to use the fairplayd binary to perform it's execve calls.
Does anyone have any suggestions for either running an executable or using fairplayd?