...199506L || _XOPEN_SOURCE >= 500 DESCRIPTION The pthread_sigmask () function is just like sigprocmask (2), with the difference that its use in multithreaded programs is explicitl….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.) The sigset () function modifies the disposition of the signal si….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.) The sigset () function modifies the disposition of the signal si….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.) The sigset () function modifies the disposition of the signal si….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.) The sigset () function modifies the disposition of the signal si….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.). The sigvec () function sets and/or gets the disposition of the ….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.). The sigvec () function sets and/or gets the disposition of the ….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.). The sigvec () function sets and/or gets the disposition of the ….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.). The sigvec () function sets and/or gets the disposition of the ….... This API is obsolete: new applications should use the POSIX signal API ( sigaction (2), sigprocmask (2), etc.). The sigvec () function sets and/or gets the disposition of the …...nherit a copy of the creating thread's signal mask. For more details on signal masks, see sigprocmask (2). For a description of a set of macros that can be used to manipulate an…...nherit a copy of the creating thread's signal mask. For more details on signal masks, see sigprocmask (2). For a description of a set of macros that can be used to manipulate an…...ted using makecontext (3)), uc_sigmask is the set of signals blocked in this context (see sigprocmask (2)), uc_stack is the stack used by this context (see sigaltstack (2)), and…...ted using makecontext (3)), uc_sigmask is the set of signals blocked in this context (see sigprocmask (2)), uc_stack is the stack used by this context (see sigaltstack (2)), and…...al set set becomes pending. For a signal to become pending, it must first be blocked with sigprocmask (2). The function accepts the signal (removes it from the pending list of s…...that takes a sigset_t * argument (instead of an int ). SEE ALSO kill (2), sigaction (2), sigprocmask (2), sigsuspend (2), sigblock (3), sigvec (3), feature_test_macros (7)...haves as pselect () called with NULL sigmask . sigmask is a pointer to a signal mask (see sigprocmask (2)); if it is not NULL, then pselect () first replaces the current signal …...haves as pselect () called with NULL sigmask . sigmask is a pointer to a signal mask (see sigprocmask (2)); if it is not NULL, then pselect () first replaces the current signal …...haves as pselect () called with NULL sigmask . sigmask is a pointer to a signal mask (see sigprocmask (2)); if it is not NULL, then pselect () first replaces the current signal …...haves as pselect () called with NULL sigmask . sigmask is a pointer to a signal mask (see sigprocmask (2)); if it is not NULL, then pselect () first replaces the current signal …