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// file : tests/process-term/driver.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#ifndef _WIN32
# include <time.h>
# include <signal.h>
# include <unistd.h>
# include <sys/types.h>
#else
# include <libbutl/win32-utility.hxx>
#endif
#include <cassert>
#ifndef __cpp_lib_modules_ts
#include <string>
#include <cerrno> // ERANGE
#include <utility> // move()
#include <cstdlib> // atexit(), exit(), strtoull()
#include <cstring> // memset()
#include <cstdint> // uint64_t
#include <iostream>
#ifndef _WIN32
# include <chrono>
#endif
#endif
// Other includes.
#ifdef __cpp_modules_ts
#ifdef __cpp_lib_modules_ts
import std.core;
import std.io;
#endif
import butl.process;
import butl.optional;
import butl.fdstream;
#else
#include <libbutl/process.mxx>
#include <libbutl/optional.mxx>
#include <libbutl/fdstream.mxx>
#endif
using namespace std;
using namespace butl;
void
atexit_func ()
{
cout << "exiting";
}
#ifndef _WIN32
volatile sig_atomic_t term_sig = 0;
static void
term (int sig)
{
term_sig = sig;
}
#endif
// Usages:
//
// argv[0]
// argv[0] -s <sec> [-t (ignore|exit|default)] [-e] [-c <num>]
//
// In the first form run some basic process termination tests, running its
// child in the second form.
//
// In the second form optionally register the SIGTERM signal handler
// (POSIX-only) and the atexit function, then sleep for the requested number
// of seconds and exit with the specified status.
//
// -s <sec>
// Sleep for the specified timeout.
//
// -t (ignore|exit|default)
// Register the SIGTERM signal handler. If the signal is received than
// either ignore it, interrupt the sleep and exit, or call the default
// handler.
//
// -e
// Register the function with atexit() that prints the 'exiting' string to
// stdout.
//
// -c <num>
// Exit with the specified status (zero by default).
//
int
main (int argc, const char* argv[])
{
using butl::optional;
auto num = [] (const string& s)
{
assert (!s.empty ());
char* e (nullptr);
uint64_t r (strtoull (s.c_str (), &e, 10)); // Can't throw.
assert (errno != ERANGE && e == s.c_str () + s.size ());
return r;
};
int ec (0);
optional<uint64_t> sec;
#ifndef _WIN32
enum class sig_action
{
ignore,
exit,
default_
};
optional<sig_action> term_action;
struct sigaction def_handler;
#endif
for (int i (1); i != argc; ++i)
{
string o (argv[i]);
if (o == "-s")
{
assert (++i != argc);
sec = num (argv[i]);
}
else if (o == "-c")
{
assert (++i != argc);
ec = static_cast<int> (num (argv[i]));
}
else if (o == "-e")
{
assert (atexit (atexit_func) == 0);
}
else if (o == "-t")
{
assert (++i != argc);
#ifndef _WIN32
string v (argv[i]);
if (v == "ignore")
term_action = sig_action::ignore;
else if (v == "exit")
term_action = sig_action::exit;
else if (v == "default")
term_action = sig_action::default_;
else
assert (false);
struct sigaction action;
memset (&action, 0, sizeof (action));
action.sa_handler = term;
assert (sigaction (SIGTERM, &action, &def_handler) == 0);
#endif
}
else
assert (false);
}
#ifndef _WIN32
auto sleep = [&term_action, &def_handler] (uint64_t sec)
{
// Wait until timeout expires or SIGTERM is received and is not ignored.
//
for (timespec tm {static_cast<time_t> (sec), 0};
nanosleep (&tm, &tm) == -1; )
{
assert (term_action && errno == EINTR && term_sig == SIGTERM);
if (*term_action == sig_action::ignore)
continue;
if (*term_action == sig_action::default_)
{
assert (sigaction (term_sig, &def_handler, nullptr) == 0);
kill (getpid (), term_sig);
}
break;
}
};
#else
auto sleep = [] (uint64_t sec)
{
Sleep (static_cast<DWORD> (sec) * 1000);
};
#endif
// Child process.
//
if (sec)
{
if (*sec != 0)
sleep (*sec);
return ec;
}
// Main process.
//
// Return true if the child process has written the specified string to
// stdout, represented by the reading end of the specified pipe.
//
auto test_out = [] (fdpipe&& pipe, const char* out)
{
pipe.out.close ();
ifdstream is (move (pipe.in));
bool r (is.read_text () == out);
is.close ();
return r;
};
#ifndef _WIN32
// Terminate a process with the default SIGTERM handler.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60, "-e"));
sleep (3); // Give the child some time to initialize.
p.term ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
assert (p.exit->signal () == SIGTERM);
}
// Terminate a process that exits on SIGTERM. Make sure it exits normally
// and atexit function is called.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2,
argv[0], "-s", 60, "-t", "exit", "-e", "-c", 5));
sleep (3); // Give the child some time to initialize.
p.term ();
assert (test_out (move (pipe), "exiting"));
assert (!p.wait ());
assert (p.exit);
assert (p.exit->normal ());
assert (p.exit->code () == 5);
}
// Terminate a process that calls the default handler on SIGTERM.
//
{
fdpipe pipe (fdopen_pipe ());
process p (
process_start (0, pipe, 2,
argv[0], "-s", 60, "-t", "default", "-e", "-c", 5));
sleep (3); // Give the child some time to initialize.
p.term ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
assert (p.exit->signal () == SIGTERM);
}
// Terminate and then kill still running process.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2,
argv[0], "-s", 60, "-t", "ignore", "-e"));
sleep (3); // Give the child some time to initialize.
p.term ();
assert (!p.timed_wait (chrono::seconds (1)));
p.kill ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
assert (p.exit->signal () == SIGKILL);
}
// Terminate an already terminated process.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 0, "-c", 5));
sleep (4); // Give the child some time to terminate.
p.term ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (p.exit->normal ());
assert (p.exit->code () == 5);
}
// Terminate a process being terminated.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60));
p.term ();
p.term ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
}
// Kill a process being terminated.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60));
p.term ();
p.kill ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
assert (p.exit->signal () == SIGTERM || p.exit->signal () == SIGKILL);
}
// Kill a process being killed.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60));
p.kill ();
p.kill ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
}
#endif
// Terminate and wait a process.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60, "-e"));
sleep (3); // Give the child some time to initialize.
p.term ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
}
// Kill and wait a process.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 60, "-e"));
sleep (3); // Give the child some time to initialize.
p.kill ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (!p.exit->normal ());
}
// Kill a terminated process.
//
{
fdpipe pipe (fdopen_pipe ());
process p (process_start (0, pipe, 2, argv[0], "-s", 0, "-c", 5));
sleep (4); // Give the child some time to terminate.
p.kill ();
assert (test_out (move (pipe), ""));
assert (!p.wait ());
assert (p.exit);
assert (p.exit->normal ());
assert (p.exit->code () == 5);
}
}
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