[Q-3] Does the
terminate variable in my example have to be
seen many examples where this variable is volatile, and others where
it is not.
terminate should be
Because handler functions can be called asynchronously. That is, a handler might be called at any point in the program, unpredictably. If two signals arrive during a very short interval, one handler can run within another. And It is considered better practice to declare
volatile sigatomic_t, this type are always accessed atomically, avoid uncertainty about interrupting access to a variable.
volatile tells the compiler not to optimize and put it into register. (read: Atomic Data Access and Signal Handling for detail expiation).
One more reference: 24.4.7 Atomic Data Access and Signal Handling
[Q-4] I've read that
signal() is now deprecated, and to use
there any really good examples to show how to convert from the
signal() call? I'm having trouble with the new structure that
I have to create/pass and how it all fits together.
Below an example and a link can be helpful (read comments):
//1. Prepare struct
struct sigaction sa;
sa.sa_handler = sighandler;
//2. To restart functions if interrupted by handler (as handlers called asynchronously)
sa.sa_flags = SA_RESTART;
//3. Set zero
// uncomment if you wants to block
// some signals while one is executing.
sigaddset( &sa.sa_mask, SIGINT );
// Register signals
sigaction( SIGINT, &sa, NULL );
1. Beginning Linux Programming, 4th Edition, In this book exactly your code is explained with
sigaction() nicely in "Chapter 11: Processes and Signals".
2. The sigaction documentation, including an example (quick learning).
3. The GNU C Library: Signal Handling
*I started from 1, Presently I am reading 3 GNU-library
[Q-5] Is the second call to
signal() necessary? Is there something similar that I need to be concerned with for
Why you set it to default-action before program termination (unclear to me). I think following paragraph will answer you.
The call to signal establishes signal handling for only one occurrence of a signal. Before the signal-handling function is called, the library resets the signal so that the default action is performed if the same signal occurs again. Resetting signal handling helps to prevent an infinite loop if, for example, an action performed in the signal handler raises the same signal again. If you want your handler to be used for a signal each time it occurs, you must call signal within the handler to reinstate it. You should be cautious in reinstating signal handling. For example, if you continually reinstate
SIGINT handling, you may lose the ability to interrupt and terminate your program.
signal() function defines the handling of the next received signal only, after which the default handling is reinstated. So it is necessary for the signal handler to call
signal() if the program needs to continue handling signals using a non-default handler.
read a discussion for further reference: When to re-enable signal handlers.
[Q-1a] Is any signal handling necessary?
Yes, Linux OS will do cleanup for you. For example if you don't close a file, socket, Linux system will do cleanup activity after process terminates. But not necessary Linux perform clean up immediately it may take some time (may be to keep system performance high or some other issues).
for example if you not close a tcp-socket and program terminates then kernel will not close socket immediately to ensure all data has been transmitted, TCP guarantees delivery if possible.
[Q-1b] Therefore, can I just replace the signal handler with just an infinite loop and let the OS gracefully exit the threads, de-allocate the memory, etc?
No, Operating system performs clean-up activities only after program terminals. While a process executes resources are allocated to that process doesn't freed by OS. (OS can't know whether your process is in finite loop or not - its unsolvable problem). If you want after process termination OS perform clean-up operations for you you don't need to handle signals (even in case your process abnormally terminated by a signal).
[Q] All I'm trying to accomplish to to have my: main loop run until either ctrlc or power is disconnected or something really bad happens.
No, there is a limitation! you can't catch all signals, some signals are not catchable e.g.
SIGSTOP and both are termination signals (I am quoting for one).
— Macro: int
SIGKILL signal is used to cause immediate program termination. It cannot be handled or ignored, and is therefore always fatal. It is also not possible to block this signal.
So you can't make a program that cannot be interrupted (an uninterrupted program)!
I am not sure but may be you can do something like this in Windows systems: by writing TSRs (some sort of kernel-mode hooking). I remember from my thesis time some viruses couldn't be terminated even from task manager but I also believe that they trick user by admin permissions.
I hope answer will help you.