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v/vlib/os/process_nix.c.v
2020-11-16 17:32:50 +01:00

135 lines
3.3 KiB
V

module os
fn (mut p Process) unix_spawn_process() int {
mut pipeset := [6]int{}
if p.use_stdio_ctl {
C.pipe(&pipeset[0]) // pipe read end 0 <- 1 pipe write end
C.pipe(&pipeset[2]) // pipe read end 2 <- 3 pipe write end
C.pipe(&pipeset[4]) // pipe read end 4 <- 5 pipe write end
}
pid := fork()
if pid != 0 {
// This is the parent process after the fork.
// NB: pid contains the process ID of the child process
if p.use_stdio_ctl {
p.stdio_fd[0] = pipeset[1] // store the write end of child's in
p.stdio_fd[1] = pipeset[2] // store the read end of child's out
p.stdio_fd[2] = pipeset[4] // store the read end of child's err
// close the rest of the pipe fds, the parent does not need them
fd_close(pipeset[0])
fd_close(pipeset[3])
fd_close(pipeset[5])
}
return pid
}
//
// Here, we are in the child process.
// It still shares file descriptors with the parent process,
// but it is otherwise independant and can do stuff *without*
// affecting the parent process.
if p.use_stdio_ctl {
// Redirect the child standart in/out/err to the pipes that
// were created in the parent.
// Close the parent's pipe fds, the child do not need them:
fd_close(pipeset[1])
fd_close(pipeset[2])
fd_close(pipeset[4])
// redirect the pipe fds to the child's in/out/err fds:
C.dup2(pipeset[0], 0)
C.dup2(pipeset[3], 1)
C.dup2(pipeset[5], 2)
// close the pipe fdsx after the redirection
fd_close(pipeset[0])
fd_close(pipeset[3])
fd_close(pipeset[5])
}
mut cargv := []charptr{}
mut cenvs := []charptr{}
cargv << p.filename.str
for i in 0 .. p.args.len {
cargv << p.args[i].str
}
for i in 0 .. p.env.len {
cenvs << p.env[i].str
}
cargv << charptr(0)
cenvs << charptr(0)
C.execve(p.filename.str, cargv.data, cenvs.data)
// NB: normally execve does not return at all.
// If it returns, then something went wrong...
eprintln(posix_get_error_msg(C.errno))
exit(1)
return 0
}
fn (mut p Process) unix_stop_process() {
C.kill(p.pid, C.SIGSTOP)
}
fn (mut p Process) unix_resume_process() {
C.kill(p.pid, C.SIGCONT)
}
fn (mut p Process) unix_kill_process() {
C.kill(p.pid, C.SIGKILL)
}
fn (mut p Process) unix_wait() {
cstatus := 0
ret := C.waitpid(p.pid, &cstatus, 0)
if ret == -1 {
p.err = posix_get_error_msg(C.errno)
return
}
pret, is_signaled := posix_wait4_to_exit_status(cstatus)
if is_signaled {
p.status = .aborted
p.err = 'Terminated by signal ${ret:2d} (${sigint_to_signal_name(pret)})'
} else {
p.status = .exited
}
p.code = pret
}
fn (mut p Process) unix_is_alive() bool {
cstatus := 0
ret := C.waitpid(p.pid, &cstatus, C.WNOHANG)
if ret == -1 {
p.err = posix_get_error_msg(C.errno)
return false
}
if ret == 0 {
return true
}
pret, is_signaled := posix_wait4_to_exit_status(cstatus)
if is_signaled {
p.status = .aborted
p.err = 'Terminated by signal ${ret:2d} (${sigint_to_signal_name(pret)})'
} else {
p.status = .exited
}
p.code = pret
return false
}
// these are here to make v_win.c/v.c generation work in all cases:
fn (mut p Process) win_spawn_process() int {
return 0
}
fn (mut p Process) win_stop_process() {
}
fn (mut p Process) win_resume_process() {
}
fn (mut p Process) win_kill_process() {
}
fn (mut p Process) win_wait() {
}
fn (mut p Process) win_is_alive() bool {
return false
}