/* sigproc.h This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #pragma once #include #include "sync.h" #ifdef _NSIG enum { __SIGFLUSH = -(_NSIG + 1), __SIGSTRACE = -(_NSIG + 2), __SIGCOMMUNE = -(_NSIG + 3), __SIGPENDING = -(_NSIG + 4), __SIGDELETE = -(_NSIG + 5), /* Not currently used */ __SIGFLUSHFAST = -(_NSIG + 6), __SIGHOLD = -(_NSIG + 7), __SIGNOHOLD = -(_NSIG + 8), __SIGSETPGRP = -(_NSIG + 9), __SIGTHREADEXIT = -(_NSIG + 10), __SIGPENDINGALL = -(_NSIG + 11), __SIGNONCYGCHLD = -(_NSIG + 12), }; #endif #define SIG_BAD_MASK (1 << (SIGKILL - 1)) enum procstuff { PROC_ADD_CHILD = 1, // set up a new child PROC_ATTACH_CHILD = 2, // attach child or reattach after exec PROC_EXEC_CLEANUP = 3, // cleanup waiting children after exec PROC_CLEARWAIT = 4, // clear all waits - signal arrived PROC_WAIT = 5, // setup for wait() for subproc PROC_EXECING = 6, // used to get a lock when execing PROC_NOTHING = 7 // nothing, really }; struct sigpacket { siginfo_t si; pid_t pid; class _cygtls *sigtls; sigset_t *mask; union { HANDLE wakeup; HANDLE thread_handle; struct sigpacket *next; }; int process (); int setup_handler (void *, struct sigaction&, _cygtls *); }; void sig_dispatch_pending (bool fast = false); void set_signal_mask (sigset_t&, sigset_t); int handle_sigprocmask (int sig, const sigset_t *set, sigset_t *oldset, sigset_t& opmask); void sig_clear (int); void sig_set_pending (int); int __stdcall handle_sigsuspend (sigset_t); int proc_subproc (DWORD, uintptr_t); class _pinfo; void proc_terminate (); void sigproc_init (); bool pid_exists (pid_t); sigset_t sig_send (_pinfo *, siginfo_t&, class _cygtls * = NULL); sigset_t sig_send (_pinfo *, int, class _cygtls * = NULL); void signal_fixup_after_exec (); void sigalloc (); int kill_pgrp (pid_t, siginfo_t&); void exit_thread (DWORD) __attribute__ ((noreturn)); void setup_signal_exit (int); int sigwait_common (const sigset_t *, siginfo_t *, PLARGE_INTEGER); class no_thread_exit_protect { static bool flag; bool modify; public: no_thread_exit_protect (int) {flag = true; modify = true;} ~no_thread_exit_protect () { if (modify) flag = false; } no_thread_exit_protect () {modify = false;} operator int () {return flag;} }; extern "C" void sigdelayed (); extern char myself_nowait_dummy[]; extern struct sigaction *global_sigs; class lock_signals { bool worked; public: lock_signals () { worked = (bool) sig_send (NULL, __SIGHOLD) == 0; } operator int () const { return worked; } void dont_bother () { worked = false; } ~lock_signals () { if (worked) sig_send (NULL, __SIGNOHOLD); } }; class lock_pthread { bool bother; public: lock_pthread (): bother (1) { pthread::atforkprepare (); } void dont_bother () { bother = false; } ~lock_pthread () { if (bother) pthread::atforkparent (); } }; class hold_everything { bool& ischild; /* Note the order of the locks below. It is important, to avoid races, that the lock order be preserved. pthread is first because it serves as a master lock against other forks being attempted while this one is active. signals is next to stop signal processing for the duration of the fork. process is last. If it is put before signals, then a deadlock could be introduced if the process attempts to exit due to a signal. */ lock_pthread pthread; lock_signals signals; lock_process process; public: hold_everything (bool& x): ischild (x) {} operator int () const {return signals;} ~hold_everything() { if (ischild) { pthread.dont_bother (); process.dont_bother (); signals.dont_bother (); } } }; #define myself_nowait ((_pinfo *) myself_nowait_dummy)