First of all, you are cutting out the middleman;
subprocess.call by default avoids spawning a shell that examines your command, and directly spawns the requested process. This is important because, besides the efficiency side of the matter, you don't have much control over the default shell behavior, and it actually typically works against you regarding escaping.
In particular, generally you never do this:
subprocess.call("netsh interface set interface \"Wi-Fi\" enable")
If passing a single string, either
shell must be
True (see below) or else the string must simply name the program to be executed without specifying any arguments.
Instead, you'll do:
subprocess.call(["netsh", "interface", "set", "interface", "Wi-Fi", "enable"])
Notice that here all the escaping nightmares are gone.
subprocess handles escaping (if the OS wants arguments as a single string - such as Windows) or passes the separated arguments straight to the relevant syscall (
execvp on UNIX).
Compare this with having to handle the escaping yourself, especially in a cross-platform way (
cmd doesn't escape in the same way as POSIX
sh), especially with the shell in the middle messing with your stuff (trust me, you don't want to know what unholy mess is to provide a 100% safe escaping for your command when calling
Also, when using
subprocess without the shell in the middle you are sure you are getting correct return codes. If there's a failure launching the process you get a Python exception, if you get a return code it's actually the return code of the launched program. With
os.system you have no way to know if the return code you get comes from the launched command (which is generally the default behavior if the shell manages to launch it) or it is some error from the shell (if it didn't manage to launch it).
Besides arguments splitting/escaping and return code, you have way better control over the launched process. Even with
subprocess.call (which is the most basic utility function over
subprocess functionalities) you can redirect
stderr, possibly communicating with the launched process.
check_call is similar and it avoids the risk of ignoring a failure exit code.
check_output covers the common use case of
check_call + capturing all the program output into a string variable.
Once you get past
call & friends (which is blocking just as
os.system), there are way more powerful functionalities - in particular, the
Popen object allows you to work with the launched process asynchronously. You can start it, possibly talk with it through the redirected streams, check if it is running from time to time while doing other stuff, waiting for it to complete, sending signals to it and killing it - all stuff that is way besides the mere synchronous "start process with default stdin/stdout/stderr through the shell and wait it to finish" that
So, to sum it up, with
- even at the most basic level (
call & friends), you:
- avoid escaping problems by passing a Python list of arguments;
- avoid the shell messing with your command line;
- either you have an exception or the true exit code of the process you launched; no confusion about program/shell exit code;
- have the possibility to capture stdout and in general redirect the standard streams;
- when you use
- you aren't restricted to a synchronous interface, but you can actually do other stuff while the subprocess run;
- you can control the subprocess (check if it is running, communicate with it, kill it).
subprocess does way more than
os.system can do - and in a safer, more flexible (if you need it) way - there's just no reason to use