#define _XOPEN_SOURCE 600 #ifdef HAVE_SYS_SELECT_H # include #endif #ifdef HAVE_SIGNAL_H # include #endif #ifdef HAVE_PTHREAD_H # include #endif #include #include #include #include #include #include #include #include #if defined(__linux__) # define MQD_TO_FD(mqd) (int)(mqd) #elif defined(HAVE___MQ_OSHANDLE) /* FreeBSD */ # define MQD_TO_FD(mqd) __mq_oshandle(mqd) #else # warning mqd_t is not select()-able on your OS # define MQ_IO_MARK(mq) ((void)(0)) # define MQ_IO_SET(mq,val) ((void)(0)) #endif #ifdef MQD_TO_FD # define MQ_IO_MARK(mq) rb_gc_mark((mq)->io) # define MQ_IO_SET(mq,val) do { (mq)->io = (val); } while (0) #endif struct posix_mq { mqd_t des; long msgsize; VALUE name; VALUE thread; #ifdef MQD_TO_FD VALUE io; #endif }; static VALUE cPOSIX_MQ, cAttr; static ID id_new, id_kill, id_fileno; static ID sym_r, sym_w, sym_rw; static const mqd_t MQD_INVALID = (mqd_t)-1; /* Ruby 1.8.6+ macros (for compatibility with Ruby 1.9) */ #ifndef RSTRING_PTR # define RSTRING_PTR(s) (RSTRING(s)->ptr) #endif #ifndef RSTRING_LEN # define RSTRING_LEN(s) (RSTRING(s)->len) #endif #ifndef RSTRUCT_PTR # define RSTRUCT_PTR(s) (RSTRUCT(s)->ptr) #endif #ifndef RSTRUCT_LEN # define RSTRUCT_LEN(s) (RSTRUCT(s)->len) #endif #ifndef HAVE_RB_STR_SET_LEN # ifdef RUBINIUS # define rb_str_set_len(str,len) rb_str_resize(str,len) # else /* 1.8.6 optimized version */ /* this is taken from Ruby 1.8.7, 1.8.6 may not have it */ static void rb_18_str_set_len(VALUE str, long len) { RSTRING(str)->len = len; RSTRING(str)->ptr[len] = '\0'; } # define rb_str_set_len(str,len) rb_18_str_set_len(str,len) # endif /* ! RUBINIUS */ #endif /* !defined(HAVE_RB_STR_SET_LEN) */ #ifndef HAVE_RB_STRUCT_ALLOC_NOINIT static VALUE rb_struct_alloc_noinit(VALUE class) { return rb_funcall(class, id_new, 0, 0); } #endif /* !defined(HAVE_RB_STRUCT_ALLOC_NOINIT) */ /* partial emulation of the 1.9 rb_thread_blocking_region under 1.8 */ #ifndef HAVE_RB_THREAD_BLOCKING_REGION # include # define RUBY_UBF_IO ((rb_unblock_function_t *)-1) typedef void rb_unblock_function_t(void *); typedef VALUE rb_blocking_function_t(void *); static VALUE rb_thread_blocking_region( rb_blocking_function_t *func, void *data1, rb_unblock_function_t *ubf, void *data2) { VALUE rv; assert(RUBY_UBF_IO == ubf && "RUBY_UBF_IO required for emulation"); TRAP_BEG; rv = func(data1); TRAP_END; return rv; } #endif /* ! HAVE_RB_THREAD_BLOCKING_REGION */ /* used to pass arguments to mq_open inside blocking region */ struct open_args { int argc; const char *name; int oflags; mode_t mode; struct mq_attr attr; }; /* used to pass arguments to mq_send/mq_receive inside blocking region */ struct rw_args { mqd_t des; char *msg_ptr; size_t msg_len; unsigned msg_prio; struct timespec *timeout; }; /* hope it's there..., TODO: a better version that works in rbx */ struct timeval rb_time_interval(VALUE); static struct timespec *convert_timeout(struct timespec *dest, VALUE time) { struct timeval tv, now; if (NIL_P(time)) return NULL; tv = rb_time_interval(time); /* aggregate return :( */ gettimeofday(&now, NULL); dest->tv_sec = now.tv_sec + tv.tv_sec; dest->tv_nsec = (now.tv_usec + tv.tv_usec) * 1000; if (dest->tv_nsec > 1000000000) { dest->tv_nsec -= 1000000000; dest->tv_sec++; } return dest; } /* runs without GVL */ static VALUE xopen(void *ptr) { struct open_args *x = ptr; mqd_t rv; switch (x->argc) { case 2: rv = mq_open(x->name, x->oflags); break; case 3: rv = mq_open(x->name, x->oflags, x->mode, NULL); break; case 4: rv = mq_open(x->name, x->oflags, x->mode, &x->attr); break; default: rv = MQD_INVALID; } return (VALUE)rv; } /* runs without GVL */ static VALUE xsend(void *ptr) { struct rw_args *x = ptr; if (x->timeout) return (VALUE)mq_timedsend(x->des, x->msg_ptr, x->msg_len, x->msg_prio, x->timeout); return (VALUE)mq_send(x->des, x->msg_ptr, x->msg_len, x->msg_prio); } /* runs without GVL */ static VALUE xrecv(void *ptr) { struct rw_args *x = ptr; if (x->timeout) return (VALUE)mq_timedreceive(x->des, x->msg_ptr, x->msg_len, &x->msg_prio, x->timeout); return (VALUE)mq_receive(x->des, x->msg_ptr, x->msg_len, &x->msg_prio); } /* runs without GVL, path resolution may be slow */ static VALUE xunlink(void *ptr) { VALUE name = (VALUE)ptr; return (VALUE)mq_unlink(RSTRING_PTR(name)); } /* called by GC */ static void mark(void *ptr) { struct posix_mq *mq = ptr; rb_gc_mark(mq->name); rb_gc_mark(mq->thread); MQ_IO_MARK(mq); } /* called by GC */ static void _free(void *ptr) { struct posix_mq *mq = ptr; if (mq->des != MQD_INVALID) { /* we ignore errors when gc-ing */ int saved_errno = errno; mq_close(mq->des); errno = saved_errno; mq->des = MQD_INVALID; } } /* automatically called at creation (before initialize) */ static VALUE alloc(VALUE klass) { struct posix_mq *mq; VALUE rv = Data_Make_Struct(klass, struct posix_mq, mark, _free, mq); mq->des = MQD_INVALID; mq->msgsize = -1; mq->name = Qnil; mq->thread = Qnil; MQ_IO_SET(mq, Qnil); return rv; } /* unwraps the posix_mq struct from self */ static struct posix_mq *get(VALUE self, int need_valid) { struct posix_mq *mq; Data_Get_Struct(self, struct posix_mq, mq); if (need_valid && mq->des == MQD_INVALID) rb_raise(rb_eIOError, "closed queue descriptor"); return mq; } /* converts the POSIX_MQ::Attr astruct into a struct mq_attr attr */ static void attr_from_struct(struct mq_attr *attr, VALUE astruct, int all) { VALUE *ptr; if (CLASS_OF(astruct) != cAttr) rb_raise(rb_eArgError, "not a POSIX_MQ::Attr: %s", RSTRING_PTR(rb_inspect(astruct))); ptr = RSTRUCT_PTR(astruct); attr->mq_flags = NUM2LONG(ptr[0]); if (all || !NIL_P(ptr[1])) attr->mq_maxmsg = NUM2LONG(ptr[1]); if (all || !NIL_P(ptr[2])) attr->mq_msgsize = NUM2LONG(ptr[2]); if (!NIL_P(ptr[3])) attr->mq_curmsgs = NUM2LONG(ptr[3]); } /* * call-seq: * POSIX_MQ.new(name [, flags [, mode [, mq_attr]]) => mq * * Opens a POSIX message queue given by +name+. +name+ should start * with a slash ("/") for portable applications. * * If a Symbol is given in place of integer +flags+, then: * * * +:r+ is equivalent to IO::RDONLY * * +:w+ is equivalent to IO::CREAT|IO::WRONLY * * +:rw+ is equivalent to IO::CREAT|IO::RDWR * * +mode+ is an integer and only used when IO::CREAT is used. * +mq_attr+ is a POSIX_MQ::Attr and only used if IO::CREAT is used. * If +mq_attr+ is not specified when creating a queue, then the * system defaults will be used. * * See the manpage for mq_open(3) for more details on this function. */ static VALUE init(int argc, VALUE *argv, VALUE self) { struct posix_mq *mq = get(self, 0); struct open_args x; VALUE name, oflags, mode, attr; rb_scan_args(argc, argv, "13", &name, &oflags, &mode, &attr); if (TYPE(name) != T_STRING) rb_raise(rb_eArgError, "name must be a string"); switch (TYPE(oflags)) { case T_NIL: x.oflags = O_RDONLY; break; case T_SYMBOL: if (oflags == sym_r) x.oflags = O_RDONLY; else if (oflags == sym_w) x.oflags = O_CREAT|O_WRONLY; else if (oflags == sym_rw) x.oflags = O_CREAT|O_RDWR; else rb_raise(rb_eArgError, "symbol must be :r, :w, or :rw: %s", RSTRING_PTR(rb_inspect(oflags))); break; case T_BIGNUM: case T_FIXNUM: x.oflags = NUM2INT(oflags); break; default: rb_raise(rb_eArgError, "flags must be an int, :r, :w, or :wr"); } x.name = RSTRING_PTR(name); x.argc = 2; switch (TYPE(mode)) { case T_FIXNUM: x.argc = 3; x.mode = NUM2UINT(mode); break; case T_NIL: if (x.oflags & O_CREAT) { x.argc = 3; x.mode = 0666; } break; default: rb_raise(rb_eArgError, "mode not an integer"); } switch (TYPE(attr)) { case T_STRUCT: x.argc = 4; attr_from_struct(&x.attr, attr, 1); /* principle of least surprise */ if (x.attr.mq_flags & O_NONBLOCK) x.oflags |= O_NONBLOCK; break; case T_NIL: break; default: rb_raise(rb_eArgError, "attr must be a POSIX_MQ::Attr: %s", RSTRING_PTR(rb_inspect(attr))); } mq->des = (mqd_t)rb_thread_blocking_region(xopen, &x, RUBY_UBF_IO, 0); if (mq->des == MQD_INVALID) rb_sys_fail("mq_open"); mq->name = rb_str_dup(name); return self; } /* * call-seq: * POSIX_MQ.unlink(name) => 1 * * Unlinks the message queue given by +name+. The queue will be destroyed * when the last process with the queue open closes its queue descriptors. */ static VALUE s_unlink(VALUE self, VALUE name) { mqd_t rv; void *ptr = (void *)name; if (TYPE(name) != T_STRING) rb_raise(rb_eArgError, "argument must be a string"); rv = (mqd_t)rb_thread_blocking_region(xunlink, ptr, RUBY_UBF_IO, 0); if (rv == MQD_INVALID) rb_sys_fail("mq_unlink"); return INT2NUM(1); } /* * call-seq: * mq.unlink => mq * * Unlinks the message queue to prevent other processes from accessing it. * All existing queue descriptors to this queue including those opened by * other processes are unaffected. The queue will only be destroyed * when the last process with open descriptors to this queue closes * the descriptors. */ static VALUE _unlink(VALUE self) { struct posix_mq *mq = get(self, 0); mqd_t rv; void *ptr = (void *)mq->name; assert(TYPE(mq->name) == T_STRING && "mq->name is not a string"); rv = (mqd_t)rb_thread_blocking_region(xunlink, ptr, RUBY_UBF_IO, 0); if (rv == MQD_INVALID) rb_sys_fail("mq_unlink"); return self; } static void setup_send_buffer(struct rw_args *x, VALUE buffer) { buffer = rb_obj_as_string(buffer); x->msg_ptr = RSTRING_PTR(buffer); x->msg_len = (size_t)RSTRING_LEN(buffer); } /* * call-seq: * mq.send(string [,priority[, timeout]]) => nil * * Inserts the given +string+ into the message queue with an optional, * unsigned integer +priority+. If the optional +timeout+ is specified, * then Errno::ETIMEDOUT will be raised if the operation cannot complete * before +timeout+ seconds has elapsed. Without +timeout+, this method * may block until the queue is writable. */ static VALUE _send(int argc, VALUE *argv, VALUE self) { struct posix_mq *mq = get(self, 1); struct rw_args x; VALUE buffer, prio, timeout; mqd_t rv; struct timespec expire; rb_scan_args(argc, argv, "12", &buffer, &prio, &timeout); setup_send_buffer(&x, buffer); x.des = mq->des; x.timeout = convert_timeout(&expire, timeout); x.msg_prio = NIL_P(prio) ? 0 : NUM2UINT(prio); rv = (mqd_t)rb_thread_blocking_region(xsend, &x, RUBY_UBF_IO, 0); if (rv == MQD_INVALID) rb_sys_fail("mq_send"); return Qnil; } /* * call-seq: * mq << string => mq * * Inserts the given +string+ into the message queue with a * default priority of 0 and no timeout. */ static VALUE send0(VALUE self, VALUE buffer) { struct posix_mq *mq = get(self, 1); struct rw_args x; mqd_t rv; setup_send_buffer(&x, buffer); x.des = mq->des; x.timeout = NULL; x.msg_prio = 0; rv = (mqd_t)rb_thread_blocking_region(xsend, &x, RUBY_UBF_IO, 0); if (rv == MQD_INVALID) rb_sys_fail("mq_send"); return self; } #ifdef MQD_TO_FD /* * call-seq: * mq.to_io => IO * * Returns an IO.select-able +IO+ object. This method is only available * under Linux and is not intended to be portable. */ static VALUE to_io(VALUE self) { struct posix_mq *mq = get(self, 1); int fd = MQD_TO_FD(mq->des); if (NIL_P(mq->io)) mq->io = rb_funcall(rb_cIO, id_new, 1, INT2NUM(fd)); return mq->io; } #endif static void get_msgsize(struct posix_mq *mq) { struct mq_attr attr; if (mq_getattr(mq->des, &attr) < 0) rb_sys_fail("mq_getattr"); mq->msgsize = attr.mq_msgsize; } static VALUE _receive(int wantarray, int argc, VALUE *argv, VALUE self); /* * call-seq: * mq.receive([buffer, [timeout]]) => [ message, priority ] * * Takes the highest priority message off the queue and returns * an array containing the message as a String and the Integer * priority of the message. * * If the optional +buffer+ is present, then it must be a String * which will receive the data. * * If the optional +timeout+ is present, then it may be a Float * or Integer specifying the timeout in seconds. Errno::ETIMEDOUT * will be raised if +timeout+ has elapsed and there are no messages * in the queue. */ static VALUE receive(int argc, VALUE *argv, VALUE self) { return _receive(1, argc, argv, self); } /* * call-seq: * mq.shift([buffer, [timeout]]) => message * * Takes the highest priority message off the queue and returns * the message as a String. * * If the optional +buffer+ is present, then it must be a String * which will receive the data. * * If the optional +timeout+ is present, then it may be a Float * or Integer specifying the timeout in seconds. Errno::ETIMEDOUT * will be raised if +timeout+ has elapsed and there are no messages * in the queue. */ static VALUE shift(int argc, VALUE *argv, VALUE self) { return _receive(0, argc, argv, self); } static VALUE _receive(int wantarray, int argc, VALUE *argv, VALUE self) { struct posix_mq *mq = get(self, 1); struct rw_args x; VALUE buffer, timeout; ssize_t r; struct timespec expire; if (mq->msgsize < 0) get_msgsize(mq); rb_scan_args(argc, argv, "02", &buffer, &timeout); x.timeout = convert_timeout(&expire, timeout); if (NIL_P(buffer)) { buffer = rb_str_new(0, mq->msgsize); } else { StringValue(buffer); rb_str_modify(buffer); rb_str_resize(buffer, mq->msgsize); } OBJ_TAINT(buffer); x.msg_ptr = RSTRING_PTR(buffer); x.msg_len = (size_t)mq->msgsize; x.des = mq->des; r = (ssize_t)rb_thread_blocking_region(xrecv, &x, RUBY_UBF_IO, 0); if (r < 0) rb_sys_fail("mq_receive"); rb_str_set_len(buffer, r); if (wantarray) return rb_ary_new3(2, buffer, UINT2NUM(x.msg_prio)); return buffer; } /* * call-seq: * mq.attr => mq_attr * * Returns a POSIX_MQ::Attr struct containing the attributes * of the message queue. See the mq_getattr(3) manpage for * more details. */ static VALUE getattr(VALUE self) { struct posix_mq *mq = get(self, 1); struct mq_attr attr; VALUE astruct; VALUE *ptr; if (mq_getattr(mq->des, &attr) < 0) rb_sys_fail("mq_getattr"); astruct = rb_struct_alloc_noinit(cAttr); ptr = RSTRUCT_PTR(astruct); ptr[0] = LONG2NUM(attr.mq_flags); ptr[1] = LONG2NUM(attr.mq_maxmsg); ptr[2] = LONG2NUM(attr.mq_msgsize); ptr[3] = LONG2NUM(attr.mq_curmsgs); return astruct; } /* * call-seq: * mq.attr = POSIX_MQ::Attr(IO::NONBLOCK) => mq_attr * * Only the IO::NONBLOCK flag may be set or unset (zero) in this manner. * See the mq_setattr(3) manpage for more details. * * Consider using the POSIX_MQ#nonblock= method as it is easier and * more natural to use. */ static VALUE setattr(VALUE self, VALUE astruct) { struct posix_mq *mq = get(self, 1); struct mq_attr newattr; attr_from_struct(&newattr, astruct, 0); if (mq_setattr(mq->des, &newattr, NULL) < 0) rb_sys_fail("mq_setattr"); return astruct; } /* * call-seq: * mq.close => nil * * Closes the underlying message queue descriptor. * If this descriptor had a registered notification request, the request * will be removed so another descriptor or process may register a * notification request. Message queue descriptors are automatically * closed by garbage collection. */ static VALUE _close(VALUE self) { struct posix_mq *mq = get(self, 1); if (mq_close(mq->des) < 0) rb_sys_fail("mq_close"); mq->des = MQD_INVALID; MQ_IO_SET(mq, Qnil); return Qnil; } /* * call-seq: * mq.closed? => true or false * * Returns +true+ if the message queue descriptor is closed and therefore * unusable, otherwise +false+ */ static VALUE closed(VALUE self) { struct posix_mq *mq = get(self, 0); return mq->des == MQD_INVALID ? Qtrue : Qfalse; } /* * call-seq: * mq.name => string * * Returns the string name of message queue associated with +mq+ */ static VALUE name(VALUE self) { struct posix_mq *mq = get(self, 0); return mq->name; } static int lookup_sig(VALUE sig) { static VALUE list; const char *ptr; long len; sig = rb_obj_as_string(sig); len = RSTRING_LEN(sig); ptr = RSTRING_PTR(sig); if (len > 3 && !memcmp("SIG", ptr, 3)) sig = rb_str_new(ptr + 3, len - 3); if (!list) { VALUE mSignal = rb_define_module("Signal"""); /* avoid RDoc */ list = rb_funcall(mSignal, rb_intern("list"), 0, 0); rb_global_variable(&list); } sig = rb_hash_aref(list, sig); if (NIL_P(sig)) rb_raise(rb_eArgError, "invalid signal: %s\n", RSTRING_PTR(rb_inspect(sig))); return NUM2INT(sig); } /* we spawn a thread just to write ONE byte into an fd (usually a pipe) */ static void thread_notify_fd(union sigval sv) { int fd = sv.sival_int; while ((write(fd, "", 1) < 0) && (errno == EINTR || errno == EAGAIN)); } static void setup_notify_io(struct sigevent *not, VALUE io) { VALUE fileno = rb_funcall(io, id_fileno, 0, 0); int fd = NUM2INT(fileno); pthread_attr_t attr; int e; if ((e = pthread_attr_init(&attr))) goto err; if ((e = pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED))) goto err; #ifdef PTHREAD_STACK_MIN (void)pthread_attr_setstacksize(&attr, PTHREAD_STACK_MIN); #else # warning PTHREAD_STACK_MIN not available, #endif not->sigev_notify = SIGEV_THREAD; not->sigev_notify_function = thread_notify_fd; not->sigev_notify_attributes = &attr; not->sigev_value.sival_int = fd; return; err: rb_raise(rb_eRuntimeError, "pthread failure: %s\n", strerror(e)); } /* * call-seq: * mq.notify = signal => signal * * Registers the notification request to deliver a given +signal+ * to the current process when message is received. * If +signal+ is +nil+, it will unregister and disable the notification * request to allow other processes to register a request. * If +signal+ is +false+, it will register a no-op notification request * which will prevent other processes from registering a notification. * If +signal+ is an +IO+ object, it will spawn a thread upon the * arrival of the next message and write one "\\0" byte to the file * descriptor belonging to that IO object. * Only one process may have a notification request for a queue * at a time, Errno::EBUSY will be raised if there is already * a notification request registration for the queue. * * Notifications are only fired once and processes must reregister * for subsequent notifications. * * For readers of the mq_notify(3) manpage, passing +false+ * is equivalent to SIGEV_NONE, and passing +nil+ is equivalent * of passing a NULL notification pointer to mq_notify(3). */ static VALUE setnotify(VALUE self, VALUE arg) { struct posix_mq *mq = get(self, 1); struct sigevent not; struct sigevent * notification = ¬ VALUE rv = arg; if (!NIL_P(mq->thread)) { rb_funcall(mq->thread, id_kill, 0, 0); mq->thread = Qnil; } not.sigev_notify = SIGEV_SIGNAL; switch (TYPE(arg)) { case T_FALSE: not.sigev_notify = SIGEV_NONE; break; case T_NIL: notification = NULL; break; case T_FIXNUM: not.sigev_signo = NUM2INT(arg); break; case T_SYMBOL: case T_STRING: not.sigev_signo = lookup_sig(arg); rv = INT2NUM(not.sigev_signo); break; case T_FILE: setup_notify_io(¬, arg); break; default: /* maybe support Proc+thread via sigev_notify_function.. */ rb_raise(rb_eArgError, "must be a signal or nil"); } if (mq_notify(mq->des, notification) < 0) rb_sys_fail("mq_notify"); return rv; } /* * call-seq: * mq.nonblock? => true or false * * Returns the current non-blocking state of the message queue descriptor. */ static VALUE getnonblock(VALUE self) { struct mq_attr attr; struct posix_mq *mq = get(self, 1); if (mq_getattr(mq->des, &attr) < 0) rb_sys_fail("mq_getattr"); mq->msgsize = attr.mq_msgsize; /* optimization */ return attr.mq_flags & O_NONBLOCK ? Qtrue : Qfalse; } /* * call-seq: * mq.nonblock = boolean => boolean * * Enables or disables non-blocking operation for the message queue * descriptor. Errno::EAGAIN will be raised in situations where * the queue would block. This is not compatible with +timeout+ * arguments to POSIX_MQ#send and POSIX_MQ#receive. */ static VALUE setnonblock(VALUE self, VALUE nb) { struct mq_attr newattr, oldattr; struct posix_mq *mq = get(self, 1); if (nb == Qtrue) newattr.mq_flags = O_NONBLOCK; else if (nb == Qfalse) newattr.mq_flags = 0; else rb_raise(rb_eArgError, "must be true or false"); if (mq_setattr(mq->des, &newattr, &oldattr) < 0) rb_sys_fail("mq_setattr"); mq->msgsize = oldattr.mq_msgsize; /* optimization */ return nb; } /* :nodoc: */ static VALUE setnotifythread(VALUE self, VALUE thread) { struct posix_mq *mq = get(self, 1); mq->thread = thread; return thread; } void Init_posix_mq_ext(void) { cPOSIX_MQ = rb_define_class("POSIX_MQ", rb_cObject); rb_define_alloc_func(cPOSIX_MQ, alloc); cAttr = rb_const_get(cPOSIX_MQ, rb_intern("Attr")); /* * The maximum number of open message descriptors supported * by the system. This may be -1, in which case it is dynamically * set at runtime. Consult your operating system documentation * for system-specific information about this. */ rb_define_const(cPOSIX_MQ, "OPEN_MAX", LONG2NUM(sysconf(_SC_MQ_OPEN_MAX))); /* * The maximum priority that may be specified for POSIX_MQ#send * On POSIX-compliant systems, this is at least 31, but some * systems allow higher limits. * The minimum priority is always zero. */ rb_define_const(cPOSIX_MQ, "PRIO_MAX", LONG2NUM(sysconf(_SC_MQ_PRIO_MAX))); rb_define_singleton_method(cPOSIX_MQ, "unlink", s_unlink, 1); rb_define_method(cPOSIX_MQ, "initialize", init, -1); rb_define_method(cPOSIX_MQ, "send", _send, -1); rb_define_method(cPOSIX_MQ, "<<", send0, 1); rb_define_method(cPOSIX_MQ, "receive", receive, -1); rb_define_method(cPOSIX_MQ, "shift", shift, -1); rb_define_method(cPOSIX_MQ, "attr", getattr, 0); rb_define_method(cPOSIX_MQ, "attr=", setattr, 1); rb_define_method(cPOSIX_MQ, "close", _close, 0); rb_define_method(cPOSIX_MQ, "closed?", closed, 0); rb_define_method(cPOSIX_MQ, "unlink", _unlink, 0); rb_define_method(cPOSIX_MQ, "name", name, 0); rb_define_method(cPOSIX_MQ, "notify=", setnotify, 1); rb_define_method(cPOSIX_MQ, "nonblock=", setnonblock, 1); rb_define_method(cPOSIX_MQ, "notify_thread=", setnotifythread, 1); rb_define_method(cPOSIX_MQ, "nonblock?", getnonblock, 0); #ifdef MQD_TO_FD rb_define_method(cPOSIX_MQ, "to_io", to_io, 0); #endif id_new = rb_intern("new"); id_kill = rb_intern("kill"); id_fileno = rb_intern("fileno"); sym_r = ID2SYM(rb_intern("r")); sym_w = ID2SYM(rb_intern("w")); sym_rw = ID2SYM(rb_intern("rw")); }