git.saurik.com Git - apple/launchd.git/blame_incremental

... / ...

Commit	Line	Data
	1	/*
	2	* Copyright (c) 1999-2008 Apple Computer, Inc. All rights reserved.
	3	*
	4	* @APPLE_APACHE_LICENSE_HEADER_START@
	5	*
	6	* Licensed under the Apache License, Version 2.0 (the "License");
	7	* you may not use this file except in compliance with the License.
	8	* You may obtain a copy of the License at
	9	*
	10	* http://www.apache.org/licenses/LICENSE-2.0
	11	*
	12	* Unless required by applicable law or agreed to in writing, software
	13	* distributed under the License is distributed on an "AS IS" BASIS,
	14	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	15	* See the License for the specific language governing permissions and
	16	* limitations under the License.
	17	*
	18	* @APPLE_APACHE_LICENSE_HEADER_END@
	19	*/
	20
	21	#include "config.h"
	22	#include "runtime.h"
	23
	24	#include <mach/mach.h>
	25	#include <mach/mach_error.h>
	26	#include <mach/boolean.h>
	27	#include <mach/message.h>
	28	#include <mach/notify.h>
	29	#include <mach/mig_errors.h>
	30	#include <mach/mach_traps.h>
	31	#include <mach/mach_interface.h>
	32	#include <mach/host_info.h>
	33	#include <mach/mach_host.h>
	34	#include <mach/mach_time.h>
	35	#include <mach/exception.h>
	36	#include <sys/types.h>
	37	#include <sys/stat.h>
	38	#include <sys/sysctl.h>
	39	#include <sys/time.h>
	40	#include <sys/proc.h>
	41	#include <sys/proc_info.h>
	42	#include <libproc.h>
	43	#include <sys/event.h>
	44	#include <sys/queue.h>
	45	#include <sys/socket.h>
	46	#include <sys/mount.h>
	47	#include <sys/reboot.h>
	48	#include <sys/fcntl.h>
	49	#include <sys/kdebug.h>
	50	#include <bsm/libbsm.h>
	51	#include <malloc/malloc.h>
	52	#include <unistd.h>
	53	#include <pthread.h>
	54	#include <errno.h>
	55	#include <string.h>
	56	#include <ctype.h>
	57	#include <stdio.h>
	58	#include <stdlib.h>
	59	#include <stdbool.h>
	60	#include <syslog.h>
	61	#include <signal.h>
	62	#include <dlfcn.h>
	63	#include <os/assumes.h>
	64
	65	#include "internalServer.h"
	66	#include "internal.h"
	67	#include "notifyServer.h"
	68	#include "mach_excServer.h"
	69
	70	/* We shouldn't be including these */
	71	#include "launch.h"
	72	#include "launchd.h"
	73	#include "core.h"
	74	#include "vproc.h"
	75	#include "vproc_priv.h"
	76	#include "vproc_internal.h"
	77	#include "jobServer.h"
	78	#include "job_reply.h"
	79
	80	#include <xpc/launchd.h>
	81
	82	static mach_port_t ipc_port_set;
	83	static mach_port_t demand_port_set;
	84	static mach_port_t launchd_internal_port;
	85	static int mainkq;
	86
	87	#define BULK_KEV_MAX 100
	88	static struct kevent *bulk_kev;
	89	static int bulk_kev_i;
	90	static int bulk_kev_cnt;
	91
	92	static pthread_t kqueue_demand_thread;
	93
	94	static void mportset_callback(void);
	95	static kq_callback kqmportset_callback = (kq_callback)mportset_callback;
	96	static void kqueue_demand_loop(void arg);
	97
	98	boolean_t launchd_internal_demux(mach_msg_header_t Request, mach_msg_header_t Reply);
	99	static void launchd_runtime2(mach_msg_size_t msg_size);
	100	static mach_msg_size_t max_msg_size;
	101	static mig_callback *mig_cb_table;
	102	static size_t mig_cb_table_sz;
	103	static timeout_callback runtime_idle_callback;
	104	static mach_msg_timeout_t runtime_idle_timeout;
	105	static struct ldcred ldc;
	106	static audit_token_t ldc_token;
	107	static size_t runtime_standby_cnt;
	108
	109	static void do_file_init(void) __attribute__((constructor));
	110	static mach_timebase_info_data_t tbi;
	111	static uint64_t tbi_safe_math_max;
	112	static uint64_t time_of_mach_msg_return;
	113	static double tbi_float_val;
	114
	115	static const int sigigns[] = { SIGHUP, SIGINT, SIGPIPE, SIGALRM, SIGTERM,
	116	SIGURG, SIGTSTP, SIGTSTP, SIGCONT, SIGTTIN, SIGTTOU, SIGIO, SIGXCPU,
	117	SIGXFSZ, SIGVTALRM, SIGPROF, SIGWINCH, SIGINFO, SIGUSR1, SIGUSR2
	118	};
	119	static sigset_t sigign_set;
	120	bool pid1_magic;
	121	bool launchd_apple_internal;
	122	bool launchd_flat_mach_namespace = true;
	123	bool launchd_malloc_log_stacks = false;
	124	bool launchd_use_gmalloc = false;
	125	bool launchd_log_per_user_shutdown = false;
	126	#if !TARGET_OS_EMBEDDED
	127	bool launchd_log_shutdown = true;
	128	#else
	129	bool launchd_log_shutdown = false;
	130	#endif
	131	bool launchd_log_perf = false;
	132	bool launchd_log_debug = false;
	133	bool launchd_trap_sigkill_bugs = false;
	134	bool launchd_no_jetsam_perm_check = false;
	135	bool launchd_osinstaller = false;
	136	bool launchd_allow_global_dyld_envvars = false;
	137	#if TARGET_OS_EMBEDDED
	138	bool launchd_appletv = false;
	139	#endif
	140	pid_t launchd_wsp = 0;
	141	size_t runtime_busy_cnt;
	142
	143	#if TARGET_OS_EMBEDDED
	144	#define LAUNCHD_CONFIG_PREFIX "/"
	145	#else
	146	#define LAUNCHD_CONFIG_PREFIX "/private/var/db/"
	147	#endif
	148
	149	#define config_check(s, sb) (stat(LAUNCHD_CONFIG_PREFIX s, &sb) == 0)
	150
	151	mach_port_t
	152	runtime_get_kernel_port(void)
	153	{
	154	return launchd_internal_port;
	155	}
	156
	157	union vproc_mig_max_sz {
	158	union __RequestUnion__job_mig_job_subsystem req;
	159	union __ReplyUnion__job_mig_job_subsystem rep;
	160	};
	161
	162	union internal_max_sz {
	163	union __RequestUnion__x_internal_subsystem req;
	164	union __ReplyUnion__internal_subsystem rep;
	165	};
	166
	167	union xpc_domain_max_sz {
	168	union __RequestUnion__xpc_domain_xpc_domain_subsystem req;
	169	union __ReplyUnion__xpc_domain_xpc_domain_subsystem rep;
	170	};
	171
	172	union mach_exc_max_sz {
	173	union __RequestUnion__catch_mach_exc_subsystem req;
	174	union __ReplyUnion__catch_mach_exc_subsystem rep;
	175	};
	176
	177	union do_notify_max_sz {
	178	union __RequestUnion__do_notify_subsystem req;
	179	union __ReplyUnion__do_notify_subsystem rep;
	180	};
	181
	182	void
	183	launchd_runtime_init(void)
	184	{
	185	pid_t p = getpid();
	186
	187	(void)posix_assert_zero((mainkq = kqueue()));
	188
	189	os_assert_zero(mach_port_allocate(mach_task_self(), MACH_PORT_RIGHT_PORT_SET, &demand_port_set));
	190	os_assert_zero(mach_port_allocate(mach_task_self(), MACH_PORT_RIGHT_PORT_SET, &ipc_port_set));
	191	posix_assert_zero(kevent_mod(demand_port_set, EVFILT_MACHPORT, EV_ADD, 0, 0, &kqmportset_callback));
	192
	193	os_assert_zero(launchd_mport_create_recv(&launchd_internal_port));
	194	os_assert_zero(launchd_mport_make_send(launchd_internal_port));
	195
	196	max_msg_size = sizeof(union vproc_mig_max_sz);
	197	if (sizeof(union xpc_domain_max_sz) > max_msg_size) {
	198	max_msg_size = sizeof(union xpc_domain_max_sz);
	199	}
	200
	201	os_assert_zero(runtime_add_mport(launchd_internal_port, launchd_internal_demux));
	202	os_assert_zero(pthread_create(&kqueue_demand_thread, NULL, kqueue_demand_loop, NULL));
	203	os_assert_zero(pthread_detach(kqueue_demand_thread));
	204
	205	(void)posix_assumes_zero(sysctlbyname("vfs.generic.noremotehang", NULL, NULL, &p, sizeof(p)));
	206	}
	207
	208	void
	209	launchd_runtime_init2(void)
	210	{
	211	size_t i;
	212
	213	__OS_COMPILETIME_ASSERT__(SIG_ERR == (typeof(SIG_ERR))-1);
	214	for (i = 0; i < (sizeof(sigigns) / sizeof(int)); i++) {
	215	sigaddset(&sigign_set, sigigns[i]);
	216	(void)posix_assumes_zero(signal(sigigns[i], SIG_IGN));
	217	}
	218	}
	219
	220	#define FLAGIF(f) if (flags & f) { flags_off += sprintf(flags_off, #f); flags &= ~f; }
	221	const char *
	222	reboot_flags_to_C_names(unsigned int flags)
	223	{
	224	#define MAX_RB_STR "RB_ASKNAME\|RB_SINGLE\|RB_NOSYNC\|RB_HALT\|RB_INITNAME\|RB_DFLTROOT\|RB_ALTBOOT\|RB_UNIPROC\|RB_SAFEBOOT\|RB_UPSDELAY\|0xdeadbeeffeedface"
	225	static char flags_buf[sizeof(MAX_RB_STR)];
	226	char *flags_off = NULL;
	227
	228	if (flags == 0) {
	229	return "RB_AUTOBOOT";
	230	}
	231
	232	while (flags) {
	233	if (flags_off) {
	234	*flags_off = '\|';
	235	flags_off++;
	236	*flags_off = '\0';
	237	} else {
	238	flags_off = flags_buf;
	239	}
	240
	241	FLAGIF(RB_ASKNAME)
	242	else FLAGIF(RB_SINGLE)
	243	else FLAGIF(RB_NOSYNC)
	244	else FLAGIF(RB_HALT)
	245	else FLAGIF(RB_INITNAME)
	246	else FLAGIF(RB_DFLTROOT)
	247	else FLAGIF(RB_ALTBOOT)
	248	else FLAGIF(RB_UNIPROC)
	249	else FLAGIF(RB_SAFEBOOT)
	250	else FLAGIF(RB_UPSDELAY)
	251	else {
	252	flags_off += sprintf(flags_off, "0x%x", flags);
	253	flags = 0;
	254	}
	255	}
	256
	257	return flags_buf;
	258	}
	259
	260	const char *
	261	signal_to_C_name(unsigned int sig)
	262	{
	263	static char unknown[25];
	264
	265	#define SIG2CASE(sg) case sg: return #sg
	266
	267	switch (sig) {
	268	SIG2CASE(SIGHUP);
	269	SIG2CASE(SIGINT);
	270	SIG2CASE(SIGQUIT);
	271	SIG2CASE(SIGILL);
	272	SIG2CASE(SIGTRAP);
	273	SIG2CASE(SIGABRT);
	274	SIG2CASE(SIGFPE);
	275	SIG2CASE(SIGKILL);
	276	SIG2CASE(SIGBUS);
	277	SIG2CASE(SIGSEGV);
	278	SIG2CASE(SIGSYS);
	279	SIG2CASE(SIGPIPE);
	280	SIG2CASE(SIGALRM);
	281	SIG2CASE(SIGTERM);
	282	SIG2CASE(SIGURG);
	283	SIG2CASE(SIGSTOP);
	284	SIG2CASE(SIGTSTP);
	285	SIG2CASE(SIGCONT);
	286	SIG2CASE(SIGCHLD);
	287	SIG2CASE(SIGTTIN);
	288	SIG2CASE(SIGTTOU);
	289	SIG2CASE(SIGIO);
	290	SIG2CASE(SIGXCPU);
	291	SIG2CASE(SIGXFSZ);
	292	SIG2CASE(SIGVTALRM);
	293	SIG2CASE(SIGPROF);
	294	SIG2CASE(SIGWINCH);
	295	SIG2CASE(SIGINFO);
	296	SIG2CASE(SIGUSR1);
	297	SIG2CASE(SIGUSR2);
	298	default:
	299	snprintf(unknown, sizeof(unknown), "%u", sig);
	300	return unknown;
	301	}
	302	}
	303
	304	void
	305	log_kevent_struct(int level, struct kevent *kev_base, int indx)
	306	{
	307	struct kevent *kev = &kev_base[indx];
	308	const char *filter_str;
	309	char ident_buf[100];
	310	char filter_buf[100];
	311	char fflags_buf[1000];
	312	char flags_buf[1000] = "0x0";
	313	char *flags_off = NULL;
	314	char *fflags_off = NULL;
	315	unsigned short flags = kev->flags;
	316	unsigned int fflags = kev->fflags;
	317
	318	if (likely(!(LOG_MASK(level & ~LOG_CONSOLE) & LOG_DEBUG))) {
	319	return;
	320	}
	321
	322	if (flags) while (flags) {
	323	if (flags_off) {
	324	*flags_off = '\|';
	325	flags_off++;
	326	*flags_off = '\0';
	327	} else {
	328	flags_off = flags_buf;
	329	}
	330
	331	FLAGIF(EV_ADD)
	332	else FLAGIF(EV_RECEIPT)
	333	else FLAGIF(EV_DELETE)
	334	else FLAGIF(EV_ENABLE)
	335	else FLAGIF(EV_DISABLE)
	336	else FLAGIF(EV_CLEAR)
	337	else FLAGIF(EV_EOF)
	338	else FLAGIF(EV_ONESHOT)
	339	else FLAGIF(EV_ERROR)
	340	else {
	341	flags_off += sprintf(flags_off, "0x%hx", flags);
	342	flags = 0;
	343	}
	344	}
	345
	346	snprintf(ident_buf, sizeof(ident_buf), "%ld", kev->ident);
	347	snprintf(fflags_buf, sizeof(fflags_buf), "0x%x", fflags);
	348
	349	switch (kev->filter) {
	350	case EVFILT_READ:
	351	filter_str = "EVFILT_READ";
	352	break;
	353	case EVFILT_WRITE:
	354	filter_str = "EVFILT_WRITE";
	355	break;
	356	case EVFILT_AIO:
	357	filter_str = "EVFILT_AIO";
	358	break;
	359	case EVFILT_VNODE:
	360	filter_str = "EVFILT_VNODE";
	361	if (fflags) while (fflags) {
	362	if (fflags_off) {
	363	*fflags_off = '\|';
	364	fflags_off++;
	365	*fflags_off = '\0';
	366	} else {
	367	fflags_off = fflags_buf;
	368	}
	369
	370	#define FFLAGIF(ff) if (fflags & ff) { fflags_off += sprintf(fflags_off, #ff); fflags &= ~ff; }
	371
	372	FFLAGIF(NOTE_DELETE)
	373	else FFLAGIF(NOTE_WRITE)
	374	else FFLAGIF(NOTE_EXTEND)
	375	else FFLAGIF(NOTE_ATTRIB)
	376	else FFLAGIF(NOTE_LINK)
	377	else FFLAGIF(NOTE_RENAME)
	378	else FFLAGIF(NOTE_REVOKE)
	379	else {
	380	fflags_off += sprintf(fflags_off, "0x%x", fflags);
	381	fflags = 0;
	382	}
	383	}
	384	break;
	385	case EVFILT_PROC:
	386	filter_str = "EVFILT_PROC";
	387	if (fflags) while (fflags) {
	388	if (fflags_off) {
	389	*fflags_off = '\|';
	390	fflags_off++;
	391	*fflags_off = '\0';
	392	} else {
	393	fflags_off = fflags_buf;
	394	}
	395
	396	FFLAGIF(NOTE_EXIT)
	397	else FFLAGIF(NOTE_REAP)
	398	else FFLAGIF(NOTE_FORK)
	399	else FFLAGIF(NOTE_EXEC)
	400	else FFLAGIF(NOTE_SIGNAL)
	401	else FFLAGIF(NOTE_TRACK)
	402	else FFLAGIF(NOTE_TRACKERR)
	403	else FFLAGIF(NOTE_CHILD)
	404	else {
	405	fflags_off += sprintf(fflags_off, "0x%x", fflags);
	406	fflags = 0;
	407	}
	408	}
	409	break;
	410	case EVFILT_SIGNAL:
	411	filter_str = "EVFILT_SIGNAL";
	412	strcpy(ident_buf, signal_to_C_name(kev->ident));
	413	break;
	414	case EVFILT_TIMER:
	415	filter_str = "EVFILT_TIMER";
	416	snprintf(ident_buf, sizeof(ident_buf), "0x%lx", kev->ident);
	417	if (fflags) while (fflags) {
	418	if (fflags_off) {
	419	*fflags_off = '\|';
	420	fflags_off++;
	421	*fflags_off = '\0';
	422	} else {
	423	fflags_off = fflags_buf;
	424	}
	425
	426	FFLAGIF(NOTE_SECONDS)
	427	else FFLAGIF(NOTE_USECONDS)
	428	else FFLAGIF(NOTE_NSECONDS)
	429	else FFLAGIF(NOTE_ABSOLUTE)
	430	else {
	431	fflags_off += sprintf(fflags_off, "0x%x", fflags);
	432	fflags = 0;
	433	}
	434	}
	435	break;
	436	case EVFILT_MACHPORT:
	437	filter_str = "EVFILT_MACHPORT";
	438	snprintf(ident_buf, sizeof(ident_buf), "0x%lx", kev->ident);
	439	break;
	440	case EVFILT_FS:
	441	filter_str = "EVFILT_FS";
	442	snprintf(ident_buf, sizeof(ident_buf), "0x%lx", kev->ident);
	443	if (fflags) while (fflags) {
	444	if (fflags_off) {
	445	*fflags_off = '\|';
	446	fflags_off++;
	447	*fflags_off = '\0';
	448	} else {
	449	fflags_off = fflags_buf;
	450	}
	451
	452	FFLAGIF(VQ_NOTRESP)
	453	else FFLAGIF(VQ_NEEDAUTH)
	454	else FFLAGIF(VQ_LOWDISK)
	455	else FFLAGIF(VQ_MOUNT)
	456	else FFLAGIF(VQ_UNMOUNT)
	457	else FFLAGIF(VQ_DEAD)
	458	else FFLAGIF(VQ_ASSIST)
	459	else FFLAGIF(VQ_NOTRESPLOCK)
	460	else FFLAGIF(VQ_UPDATE)
	461	else {
	462	fflags_off += sprintf(fflags_off, "0x%x", fflags);
	463	fflags = 0;
	464	}
	465	}
	466	break;
	467	default:
	468	snprintf(filter_buf, sizeof(filter_buf), "%hd", kev->filter);
	469	filter_str = filter_buf;
	470	break;
	471	}
	472
	473	launchd_syslog(level, "KEVENT[%d]: udata = %p data = 0x%lx ident = %s filter = %s flags = %s fflags = %s",
	474	indx, kev->udata, kev->data, ident_buf, filter_str, flags_buf, fflags_buf);
	475	}
	476
	477	void
	478	mportset_callback(void)
	479	{
	480	mach_port_name_array_t members;
	481	mach_msg_type_number_t membersCnt;
	482	mach_port_status_t status;
	483	mach_msg_type_number_t statusCnt;
	484	struct kevent kev;
	485	unsigned int i;
	486
	487	if (os_assumes_zero(mach_port_get_set_status(mach_task_self(), demand_port_set, &members, &membersCnt)) != 0) {
	488	return;
	489	}
	490
	491	for (i = 0; i < membersCnt; i++) {
	492	statusCnt = MACH_PORT_RECEIVE_STATUS_COUNT;
	493	if (mach_port_get_attributes(mach_task_self(), members[i], MACH_PORT_RECEIVE_STATUS, (mach_port_info_t)&status,
	494	&statusCnt) != KERN_SUCCESS) {
	495	continue;
	496	}
	497	if (status.mps_msgcount) {
	498	EV_SET(&kev, members[i], EVFILT_MACHPORT, 0, 0, 0, job_find_by_service_port(members[i]));
	499	#if 0
	500	if (kev.udata != NULL) {
	501	#endif
	502	log_kevent_struct(LOG_DEBUG, &kev, 0);
	503	(((kq_callback )kev.udata))(kev.udata, &kev);
	504	#if 0
	505	} else {
	506	log_kevent_struct(LOG_ERR, &kev, 0);
	507	}
	508	#endif
	509	/* the callback may have tainted our ability to continue this for loop */
	510	break;
	511	}
	512	}
	513
	514	(void)os_assumes_zero(vm_deallocate(mach_task_self(), (vm_address_t)members, (vm_size_t) membersCnt * sizeof(mach_port_name_t)));
	515	}
	516
	517	void *
	518	kqueue_demand_loop(void *arg __attribute__((unused)))
	519	{
	520	fd_set rfds;
	521
	522	/*
	523	* Yes, at first glance, calling select() on a kqueue seems silly.
	524	*
	525	* This avoids a race condition between the main thread and this helper
	526	* thread by ensuring that we drain kqueue events on the same thread
	527	* that manipulates the kqueue.
	528	*/
	529
	530	for (;;) {
	531	FD_ZERO(&rfds);
	532	FD_SET(mainkq, &rfds);
	533	int r = select(mainkq + 1, &rfds, NULL, NULL, NULL);
	534	if (r == 1) {
	535	(void)os_assumes_zero(handle_kqueue(launchd_internal_port, mainkq));
	536	} else if (posix_assumes_zero(r) != -1) {
	537	(void)os_assumes_zero(r);
	538	}
	539	}
	540
	541	return NULL;
	542	}
	543
	544	kern_return_t
	545	x_handle_kqueue(mach_port_t junk __attribute__((unused)), integer_t fd)
	546	{
	547	struct timespec ts = { 0, 0 };
	548	struct kevent *kevi, kev[BULK_KEV_MAX];
	549	int i;
	550
	551	bulk_kev = kev;
	552
	553	if ((bulk_kev_cnt = kevent(fd, NULL, 0, kev, BULK_KEV_MAX, &ts)) != -1) {
	554	#if 0
	555	for (i = 0; i < bulk_kev_cnt; i++) {
	556	log_kevent_struct(LOG_DEBUG, &kev[0], i);
	557	}
	558	#endif
	559	for (i = 0; i < bulk_kev_cnt; i++) {
	560	bulk_kev_i = i;
	561	kevi = &kev[i];
	562
	563	if (kevi->filter) {
	564	launchd_syslog(LOG_DEBUG, "Dispatching kevent (ident/filter): %lu/%hd", kevi->ident, kevi->filter);
	565	log_kevent_struct(LOG_DEBUG, kev, i);
	566
	567	struct job_check_s {
	568	kq_callback kqc;
	569	};
	570
	571	struct job_check_s *check = kevi->udata;
	572	if (check && check->kqc) {
	573	runtime_ktrace(RTKT_LAUNCHD_BSD_KEVENT\|DBG_FUNC_START, kevi->ident, kevi->filter, kevi->fflags);
	574	(((kq_callback )kevi->udata))(kevi->udata, kevi);
	575	runtime_ktrace0(RTKT_LAUNCHD_BSD_KEVENT\|DBG_FUNC_END);
	576	} else {
	577	launchd_syslog(LOG_ERR, "The following kevent had invalid context data. Please file a bug with the following information:");
	578	log_kevent_struct(LOG_EMERG, &kev[0], i);
	579	}
	580	launchd_syslog(LOG_DEBUG, "Handled kevent.");
	581	}
	582	}
	583	} else {
	584	(void)os_assumes_zero(errno);
	585	}
	586
	587	bulk_kev = NULL;
	588
	589	return 0;
	590	}
	591
	592	void
	593	launchd_runtime(void)
	594	{
	595	launchd_runtime2(max_msg_size);
	596	dispatch_main();
	597	}
	598
	599	kern_return_t
	600	launchd_set_bport(mach_port_t name)
	601	{
	602	return errno = task_set_bootstrap_port(mach_task_self(), name);
	603	}
	604
	605	kern_return_t
	606	launchd_get_bport(mach_port_t *name)
	607	{
	608	return errno = task_get_bootstrap_port(mach_task_self(), name);
	609	}
	610
	611	kern_return_t
	612	launchd_mport_notify_req(mach_port_t name, mach_msg_id_t which)
	613	{
	614	mach_port_mscount_t msgc = (which == MACH_NOTIFY_PORT_DESTROYED) ? 0 : 1;
	615	mach_port_t previous, where = (which == MACH_NOTIFY_NO_SENDERS) ? name : launchd_internal_port;
	616
	617	if (which == MACH_NOTIFY_NO_SENDERS) {
	618	/* Always make sure the send count is zero, in case a receive right is
	619	* reused
	620	*/
	621	errno = mach_port_set_mscount(mach_task_self(), name, 0);
	622	if (unlikely(errno != KERN_SUCCESS)) {
	623	return errno;
	624	}
	625	}
	626
	627	errno = mach_port_request_notification(mach_task_self(), name, which, msgc, where, MACH_MSG_TYPE_MAKE_SEND_ONCE, &previous);
	628
	629	if (likely(errno == 0) && previous != MACH_PORT_NULL) {
	630	(void)os_assumes_zero(launchd_mport_deallocate(previous));
	631	}
	632
	633	return errno;
	634	}
	635
	636	pid_t
	637	runtime_fork(mach_port_t bsport)
	638	{
	639	sigset_t emptyset, oset;
	640	pid_t r = -1;
	641	int saved_errno;
	642	size_t i;
	643
	644	sigemptyset(&emptyset);
	645
	646	(void)os_assumes_zero(launchd_mport_make_send(bsport));
	647	(void)os_assumes_zero(launchd_set_bport(bsport));
	648	(void)os_assumes_zero(launchd_mport_deallocate(bsport));
	649
	650	__OS_COMPILETIME_ASSERT__(SIG_ERR == (typeof(SIG_ERR))-1);
	651	(void)posix_assumes_zero(sigprocmask(SIG_BLOCK, &sigign_set, &oset));
	652	for (i = 0; i < (sizeof(sigigns) / sizeof(int)); i++) {
	653	(void)posix_assumes_zero(signal(sigigns[i], SIG_DFL));
	654	}
	655
	656	r = fork();
	657	saved_errno = errno;
	658
	659	if (r != 0) {
	660	for (i = 0; i < (sizeof(sigigns) / sizeof(int)); i++) {
	661	(void)posix_assumes_zero(signal(sigigns[i], SIG_IGN));
	662	}
	663	(void)posix_assumes_zero(sigprocmask(SIG_SETMASK, &oset, NULL));
	664	(void)os_assumes_zero(launchd_set_bport(MACH_PORT_NULL));
	665	} else {
	666	pid_t p = -getpid();
	667	(void)posix_assumes_zero(sysctlbyname("vfs.generic.noremotehang", NULL, NULL, &p, sizeof(p)));
	668	(void)posix_assumes_zero(sigprocmask(SIG_SETMASK, &emptyset, NULL));
	669	}
	670
	671	errno = saved_errno;
	672
	673	return r;
	674	}
	675
	676
	677	void
	678	runtime_set_timeout(timeout_callback to_cb, unsigned int sec)
	679	{
	680	if (sec == 0 \|\| to_cb == NULL) {
	681	runtime_idle_callback = NULL;
	682	runtime_idle_timeout = 0;
	683	}
	684
	685	runtime_idle_callback = to_cb;
	686	runtime_idle_timeout = sec * 1000;
	687	}
	688
	689	kern_return_t
	690	runtime_add_mport(mach_port_t name, mig_callback demux)
	691	{
	692	size_t needed_table_sz = (MACH_PORT_INDEX(name) + 1) * sizeof(mig_callback);
	693	mach_port_t target_set = demux ? ipc_port_set : demand_port_set;
	694
	695	if (unlikely(needed_table_sz > mig_cb_table_sz)) {
	696	needed_table_sz = 2; / Let's try and avoid realloc'ing for a while */
	697	mig_callback *new_table = malloc(needed_table_sz);
	698
	699	if (!new_table) {
	700	return KERN_RESOURCE_SHORTAGE;
	701	}
	702
	703	if (likely(mig_cb_table)) {
	704	memcpy(new_table, mig_cb_table, mig_cb_table_sz);
	705	free(mig_cb_table);
	706	}
	707
	708	mig_cb_table_sz = needed_table_sz;
	709	mig_cb_table = new_table;
	710	}
	711
	712	mig_cb_table[MACH_PORT_INDEX(name)] = demux;
	713
	714	return errno = mach_port_move_member(mach_task_self(), name, target_set);
	715	}
	716
	717	kern_return_t
	718	runtime_remove_mport(mach_port_t name)
	719	{
	720	mig_cb_table[MACH_PORT_INDEX(name)] = NULL;
	721
	722	return errno = mach_port_move_member(mach_task_self(), name, MACH_PORT_NULL);
	723	}
	724
	725	kern_return_t
	726	launchd_mport_make_send(mach_port_t name)
	727	{
	728	return errno = mach_port_insert_right(mach_task_self(), name, name, MACH_MSG_TYPE_MAKE_SEND);
	729	}
	730
	731	kern_return_t
	732	launchd_mport_copy_send(mach_port_t name)
	733	{
	734	return errno = mach_port_insert_right(mach_task_self(), name, name, MACH_MSG_TYPE_COPY_SEND);
	735	}
	736
	737	kern_return_t
	738	launchd_mport_make_send_once(mach_port_t name, mach_port_t *so)
	739	{
	740	mach_msg_type_name_t right = 0;
	741	return errno = mach_port_extract_right(mach_task_self(), name, MACH_MSG_TYPE_MAKE_SEND_ONCE, so, &right);
	742	}
	743
	744	kern_return_t
	745	launchd_mport_close_recv(mach_port_t name)
	746	{
	747	return errno = mach_port_mod_refs(mach_task_self(), name, MACH_PORT_RIGHT_RECEIVE, -1);
	748	}
	749
	750	kern_return_t
	751	launchd_mport_create_recv(mach_port_t *name)
	752	{
	753	return errno = mach_port_allocate(mach_task_self(), MACH_PORT_RIGHT_RECEIVE, name);
	754	}
	755
	756	kern_return_t
	757	launchd_mport_deallocate(mach_port_t name)
	758	{
	759	return errno = mach_port_deallocate(mach_task_self(), name);
	760	}
	761
	762	int
	763	kevent_bulk_mod(struct kevent *kev, size_t kev_cnt)
	764	{
	765	size_t i;
	766
	767	for (i = 0; i < kev_cnt; i++) {
	768	kev[i].flags \|= EV_CLEAR\|EV_RECEIPT;
	769	}
	770
	771	return kevent(mainkq, kev, kev_cnt, kev, kev_cnt, NULL);
	772	}
	773
	774	int
	775	kevent_mod(uintptr_t ident, short filter, u_short flags, u_int fflags, intptr_t data, void *udata)
	776	{
	777	struct kevent kev;
	778	int r;
	779
	780	switch (filter) {
	781	case EVFILT_READ:
	782	case EVFILT_WRITE:
	783	break;
	784	case EVFILT_TIMER:
	785	/* Workaround 5225889 */
	786	if (flags & EV_ADD) {
	787	(void)kevent_mod(ident, EVFILT_TIMER, EV_DELETE, 0, 0, NULL);
	788	}
	789	/* fall through */
	790	default:
	791	flags \|= EV_CLEAR;
	792	break;
	793	}
	794
	795	flags \|= EV_RECEIPT;
	796
	797	if (flags & EV_ADD && !udata) {
	798	errno = EINVAL;
	799	return -1;
	800	} else if ((flags & EV_DELETE) && bulk_kev) {
	801	int i = 0;
	802	for (i = bulk_kev_i + 1; i < bulk_kev_cnt; i++) {
	803	if (bulk_kev[i].filter == filter && bulk_kev[i].ident == ident) {
	804	launchd_syslog(LOG_DEBUG, "Pruning the following kevent:");
	805	log_kevent_struct(LOG_DEBUG, &bulk_kev[0], i);
	806	bulk_kev[i].filter = (short)0;
	807	}
	808	}
	809	}
	810
	811	EV_SET(&kev, ident, filter, flags, fflags, data, udata);
	812
	813	r = kevent(mainkq, &kev, 1, &kev, 1, NULL);
	814
	815	if (r != 1) {
	816	return -1;
	817	}
	818
	819	if (kev.flags & EV_ERROR) {
	820	if ((flags & EV_ADD) && kev.data) {
	821	launchd_syslog(LOG_DEBUG, "%s(): See the next line...", __func__);
	822	log_kevent_struct(LOG_DEBUG, &kev, 0);
	823	errno = kev.data;
	824	return -1;
	825	}
	826	} else {
	827	(void)os_assert_zero(kev.flags);
	828	}
	829
	830	return r;
	831	}
	832
	833	boolean_t
	834	launchd_internal_demux(mach_msg_header_t Request, mach_msg_header_t Reply)
	835	{
	836	if (internal_server_routine(Request)) {
	837	return internal_server(Request, Reply);
	838	} else if (notify_server_routine(Request)) {
	839	return notify_server(Request, Reply);
	840	} else {
	841	return mach_exc_server(Request, Reply);
	842	}
	843	}
	844
	845	kern_return_t
	846	do_mach_notify_port_destroyed(mach_port_t notify __attribute__((unused)), mach_port_t rights)
	847	{
	848	/* This message is sent to us when a receive right is returned to us. */
	849	if (!job_ack_port_destruction(rights)) {
	850	(void)os_assumes_zero(launchd_mport_close_recv(rights));
	851	}
	852
	853	return KERN_SUCCESS;
	854	}
	855
	856	kern_return_t
	857	do_mach_notify_port_deleted(mach_port_t notify __attribute__((unused)), mach_port_name_t name __attribute__((unused)))
	858	{
	859	/* If we deallocate/destroy/mod_ref away a port with a pending
	860	* notification, the original notification message is replaced with
	861	* this message. To quote a Mach kernel expert, "the kernel has a
	862	* send-once right that has to be used somehow."
	863	*/
	864	return KERN_SUCCESS;
	865	}
	866
	867	kern_return_t
	868	do_mach_notify_no_senders(mach_port_t notify, mach_port_mscount_t mscount __attribute__((unused)))
	869	{
	870	job_t j = job_mig_intran(notify);
	871
	872	/* This message is sent to us when the last customer of one of our objects
	873	* goes away.
	874	*/
	875
	876	if (!j) {
	877	return KERN_FAILURE;
	878	}
	879
	880	job_ack_no_senders(j);
	881
	882	return KERN_SUCCESS;
	883	}
	884
	885	kern_return_t
	886	do_mach_notify_send_once(mach_port_t notify __attribute__((unused)))
	887	{
	888	/*
	889	* This message is sent for each send-once right that is deallocated without
	890	* being used.
	891	*/
	892
	893	return KERN_SUCCESS;
	894	}
	895
	896	kern_return_t
	897	do_mach_notify_dead_name(mach_port_t notify __attribute__((unused)), mach_port_name_t name)
	898	{
	899	/* This message is sent to us when one of our send rights no longer has a
	900	* receiver somewhere else on the system.
	901	*/
	902	if (name == launchd_drain_reply_port) {
	903	(void)os_assumes_zero(launchd_mport_deallocate(name));
	904	launchd_drain_reply_port = MACH_PORT_NULL;
	905	}
	906
	907	if (root_jobmgr) {
	908	root_jobmgr = jobmgr_delete_anything_with_port(root_jobmgr, name);
	909	}
	910
	911	/* A dead-name notification about a port appears to increment the rights on
	912	* said port. Let's deallocate it so that we don't leak dead-name ports.
	913	*/
	914	(void)os_assumes_zero(launchd_mport_deallocate(name));
	915
	916	return KERN_SUCCESS;
	917	}
	918
	919	mach_msg_return_t
	920	launchd_exc_runtime_once(mach_port_t port, mach_msg_size_t rcv_msg_size, mach_msg_size_t send_msg_size, mig_reply_error_t bufRequest, mig_reply_error_t bufReply, mach_msg_timeout_t to)
	921	{
	922	mach_msg_return_t mr = ~MACH_MSG_SUCCESS;
	923	mach_msg_option_t rcv_options = MACH_RCV_MSG
	924	\| MACH_RCV_TIMEOUT
	925	\| MACH_RCV_TRAILER_ELEMENTS(MACH_RCV_TRAILER_AUDIT)
	926	\| MACH_RCV_TRAILER_TYPE(MACH_MSG_TRAILER_FORMAT_0);
	927
	928	do {
	929	mr = mach_msg(&bufRequest->Head, rcv_options, 0, rcv_msg_size, port, to, MACH_PORT_NULL);
	930	switch (mr) {
	931	case MACH_RCV_TIMED_OUT:
	932	launchd_syslog(LOG_DEBUG, "Message queue is empty.");
	933	break;
	934	case MACH_RCV_TOO_LARGE:
	935	launchd_syslog(LOG_INFO, "Message is larger than %u bytes.", rcv_msg_size);
	936	break;
	937	default:
	938	(void)os_assumes_zero(mr);
	939	}
	940
	941	if (mr == MACH_MSG_SUCCESS) {
	942	if (!mach_exc_server(&bufRequest->Head, &bufReply->Head)) {
	943	launchd_syslog(LOG_WARNING, "Exception server routine failed.");
	944	break;
	945	}
	946
	947	mach_msg_return_t smr = ~MACH_MSG_SUCCESS;
	948	mach_msg_option_t send_options = MACH_SEND_MSG \| MACH_SEND_TIMEOUT;
	949
	950	(void)os_assumes(bufReply->Head.msgh_size <= send_msg_size);
	951	smr = mach_msg(&bufReply->Head, send_options, bufReply->Head.msgh_size, 0, MACH_PORT_NULL, to + 100, MACH_PORT_NULL);
	952	switch (smr) {
	953	case MACH_SEND_TIMED_OUT:
	954	launchd_syslog(LOG_WARNING, "Timed out while trying to send reply to exception message.");
	955	break;
	956	case MACH_SEND_INVALID_DEST:
	957	launchd_syslog(LOG_WARNING, "Tried sending a message to a port that we don't possess a send right to.");
	958	break;
	959	default:
	960	if (smr) {
	961	launchd_syslog(LOG_WARNING, "Couldn't deliver exception reply: 0x%x", smr);
	962	}
	963	break;
	964	}
	965	}
	966	} while (0);
	967
	968	return mr;
	969	}
	970
	971	void
	972	runtime_record_caller_creds(audit_token_t *token)
	973	{
	974	(void)memcpy(&ldc_token, token, sizeof(*token));
	975	audit_token_to_au32(*token, NULL, &ldc.euid,&ldc.egid, &ldc.uid, &ldc.gid,
	976	&ldc.pid, &ldc.asid, NULL);
	977	}
	978
	979	struct ldcred *
	980	runtime_get_caller_creds(void)
	981	{
	982	return &ldc;
	983	}
	984
	985	audit_token_t *
	986	runtime_get_caller_token(void)
	987	{
	988	return &ldc_token;
	989	}
	990
	991	static boolean_t
	992	launchd_mig_demux(mach_msg_header_t request, mach_msg_header_t reply)
	993	{
	994	boolean_t result = false;
	995
	996	time_of_mach_msg_return = runtime_get_opaque_time();
	997	launchd_syslog(LOG_DEBUG, "MIG callout: %u", request->msgh_id);
	998	mig_callback the_demux = mig_cb_table[MACH_PORT_INDEX(request->msgh_local_port)];
	999	mach_msg_audit_trailer_t tp = (mach_msg_audit_trailer_t )((vm_offset_t)request + round_msg(request->msgh_size));
	1000	runtime_record_caller_creds(&tp->msgh_audit);
	1001
	1002	result = the_demux(request, reply);
	1003	if (!result) {
	1004	launchd_syslog(LOG_DEBUG, "Demux failed. Trying other subsystems...");
	1005	if (request->msgh_id == MACH_NOTIFY_NO_SENDERS) {
	1006	launchd_syslog(LOG_DEBUG, "MACH_NOTIFY_NO_SENDERS");
	1007	result = notify_server(request, reply);
	1008	} else if (the_demux == job_server) {
	1009	launchd_syslog(LOG_DEBUG, "Trying domain subsystem...");
	1010	result = xpc_domain_server(request, reply);
	1011	} else {
	1012	launchd_syslog(LOG_ERR, "Cannot handle MIG request with ID: 0x%x", request->msgh_id);
	1013	}
	1014	} else {
	1015	launchd_syslog(LOG_DEBUG, "MIG demux succeeded.");
	1016	}
	1017
	1018	return result;
	1019	}
	1020
	1021	void
	1022	launchd_runtime2(mach_msg_size_t msg_size)
	1023	{
	1024	for (;;) {
	1025	launchd_log_push();
	1026
	1027	mach_port_t recvp = MACH_PORT_NULL;
	1028	xpc_object_t request = NULL;
	1029	int result = xpc_pipe_try_receive(ipc_port_set, &request, &recvp, launchd_mig_demux, msg_size, 0);
	1030	if (result == 0 && request) {
	1031	boolean_t handled = false;
	1032	time_of_mach_msg_return = runtime_get_opaque_time();
	1033	launchd_syslog(LOG_DEBUG, "XPC request.");
	1034
	1035	xpc_object_t reply = NULL;
	1036	if (xpc_event_demux(recvp, request, &reply)) {
	1037	handled = true;
	1038	} else if (xpc_process_demux(recvp, request, &reply)) {
	1039	handled = true;
	1040	}
	1041
	1042	if (!handled) {
	1043	launchd_syslog(LOG_DEBUG, "XPC routine could not be handled.");
	1044	xpc_release(request);
	1045	continue;
	1046	}
	1047
	1048	launchd_syslog(LOG_DEBUG, "XPC routine was handled.");
	1049	if (reply) {
	1050	launchd_syslog(LOG_DEBUG, "Sending reply.");
	1051	result = xpc_pipe_routine_reply(reply);
	1052	if (result == 0) {
	1053	launchd_syslog(LOG_DEBUG, "Reply sent successfully.");
	1054	} else if (result != EPIPE) {
	1055	launchd_syslog(LOG_ERR, "Failed to send reply message: 0x%x", result);
	1056	}
	1057
	1058	xpc_release(reply);
	1059	}
	1060
	1061	xpc_release(request);
	1062	} else if (result == 0) {
	1063	launchd_syslog(LOG_DEBUG, "MIG request.");
	1064	} else if (result == EINVAL) {
	1065	launchd_syslog(LOG_ERR, "Rejected invalid request message.");
	1066	}
	1067	}
	1068	}
	1069
	1070	int
	1071	runtime_close(int fd)
	1072	{
	1073	int i;
	1074
	1075	if (bulk_kev) for (i = bulk_kev_i + 1; i < bulk_kev_cnt; i++) {
	1076	switch (bulk_kev[i].filter) {
	1077	case EVFILT_VNODE:
	1078	case EVFILT_WRITE:
	1079	case EVFILT_READ:
	1080	if (unlikely((int)bulk_kev[i].ident == fd)) {
	1081	launchd_syslog(LOG_DEBUG, "Skipping kevent index: %d", i);
	1082	bulk_kev[i].filter = 0;
	1083	}
	1084	default:
	1085	break;
	1086	}
	1087	}
	1088
	1089	return close(fd);
	1090	}
	1091
	1092	int
	1093	runtime_fsync(int fd)
	1094	{
	1095	#if 0
	1096	if (launchd_apple_internal) {
	1097	return fcntl(fd, F_FULLFSYNC, NULL);
	1098	} else {
	1099	return fsync(fd);
	1100	}
	1101	#else
	1102	return fsync(fd);
	1103	#endif
	1104	}
	1105
	1106	/*
	1107	* We should break this into two reference counts.
	1108	*
	1109	* One for hard references that would prevent exiting.
	1110	* One for soft references that would only prevent idle exiting.
	1111	*
	1112	* In the long run, reference counting should completely automate when a
	1113	* process can and should exit.
	1114	*/
	1115	void
	1116	runtime_add_ref(void)
	1117	{
	1118	if (!pid1_magic) {
	1119	#if !TARGET_OS_EMBEDDED
	1120	vproc_transaction_begin(NULL);
	1121	#endif
	1122	}
	1123
	1124	runtime_busy_cnt++;
	1125	launchd_syslog(LOG_PERF, "Incremented busy count. Now: %lu", runtime_busy_cnt);
	1126	runtime_remove_timer();
	1127	}
	1128
	1129	void
	1130	runtime_del_ref(void)
	1131	{
	1132	if (!pid1_magic) {
	1133	#if !TARGET_OS_EMBEDDED
	1134	if (_vproc_transaction_count() == 0) {
	1135	launchd_syslog(LOG_PERF, "Exiting cleanly.");
	1136	}
	1137
	1138	vproc_transaction_end(NULL, NULL);
	1139	#endif
	1140	}
	1141
	1142	runtime_busy_cnt--;
	1143	launchd_syslog(LOG_PERF, "Decremented busy count. Now: %lu", runtime_busy_cnt);
	1144	runtime_install_timer();
	1145	}
	1146
	1147	void
	1148	runtime_add_weak_ref(void)
	1149	{
	1150	if (!pid1_magic) {
	1151	#if !TARGET_OS_EMBEDDED
	1152	_vproc_standby_begin();
	1153	#endif
	1154	}
	1155	runtime_standby_cnt++;
	1156	}
	1157
	1158	void
	1159	runtime_del_weak_ref(void)
	1160	{
	1161	if (!pid1_magic) {
	1162	#if !TARGET_OS_EMBEDDED
	1163	_vproc_standby_end();
	1164	#endif
	1165	}
	1166	runtime_standby_cnt--;
	1167	}
	1168
	1169	void
	1170	runtime_install_timer(void)
	1171	{
	1172	if (!pid1_magic && runtime_busy_cnt == 0) {
	1173	launchd_syslog(LOG_PERF, "Gone idle. Installing idle-exit timer.");
	1174	(void)posix_assumes_zero(kevent_mod((uintptr_t)&launchd_runtime_busy_time, EVFILT_TIMER, EV_ADD, NOTE_SECONDS, 10, root_jobmgr));
	1175	}
	1176	}
	1177
	1178	void
	1179	runtime_remove_timer(void)
	1180	{
	1181	if (!pid1_magic && runtime_busy_cnt > 0) {
	1182	if (runtime_busy_cnt == 1) {
	1183	launchd_syslog(LOG_PERF, "No longer idle. Removing idle-exit timer.");
	1184	}
	1185	(void)posix_assumes_zero(kevent_mod((uintptr_t)&launchd_runtime_busy_time, EVFILT_TIMER, EV_DELETE, 0, 0, NULL));
	1186	}
	1187	}
	1188
	1189	kern_return_t
	1190	catch_mach_exception_raise(mach_port_t exception_port __attribute__((unused)), mach_port_t thread, mach_port_t task,
	1191	exception_type_t exception, mach_exception_data_t code, mach_msg_type_number_t codeCnt)
	1192	{
	1193	pid_t p4t = -1;
	1194
	1195	(void)os_assumes_zero(pid_for_task(task, &p4t));
	1196
	1197	launchd_syslog(LOG_NOTICE, "%s(): PID: %u thread: 0x%x type: 0x%x code: %p codeCnt: 0x%x",
	1198	__func__, p4t, thread, exception, code, codeCnt);
	1199
	1200	(void)os_assumes_zero(launchd_mport_deallocate(thread));
	1201	(void)os_assumes_zero(launchd_mport_deallocate(task));
	1202
	1203	return KERN_SUCCESS;
	1204	}
	1205
	1206	kern_return_t
	1207	catch_mach_exception_raise_state(mach_port_t exception_port __attribute__((unused)),
	1208	exception_type_t exception, const mach_exception_data_t code, mach_msg_type_number_t codeCnt,
	1209	int *flavor, const thread_state_t old_state, mach_msg_type_number_t old_stateCnt,
	1210	thread_state_t new_state, mach_msg_type_number_t *new_stateCnt)
	1211	{
	1212	launchd_syslog(LOG_NOTICE, "%s(): type: 0x%x code: %p codeCnt: 0x%x flavor: %p old_state: %p old_stateCnt: 0x%x new_state: %p new_stateCnt: %p",
	1213	__func__, exception, code, codeCnt, flavor, old_state, old_stateCnt, new_state, new_stateCnt);
	1214
	1215	memcpy(new_state, old_state, old_stateCnt * sizeof(old_state[0]));
	1216	*new_stateCnt = old_stateCnt;
	1217
	1218	return KERN_SUCCESS;
	1219	}
	1220
	1221	kern_return_t
	1222	catch_mach_exception_raise_state_identity(mach_port_t exception_port __attribute__((unused)), mach_port_t thread, mach_port_t task,
	1223	exception_type_t exception, mach_exception_data_t code, mach_msg_type_number_t codeCnt,
	1224	int *flavor, thread_state_t old_state, mach_msg_type_number_t old_stateCnt,
	1225	thread_state_t new_state, mach_msg_type_number_t *new_stateCnt)
	1226	{
	1227	pid_t p4t = -1;
	1228
	1229	(void)os_assumes_zero(pid_for_task(task, &p4t));
	1230
	1231	launchd_syslog(LOG_NOTICE, "%s(): PID: %u thread: 0x%x type: 0x%x code: %p codeCnt: 0x%x flavor: %p old_state: %p old_stateCnt: 0x%x new_state: %p new_stateCnt: %p",
	1232	__func__, p4t, thread, exception, code, codeCnt, flavor, old_state, old_stateCnt, new_state, new_stateCnt);
	1233
	1234	memcpy(new_state, old_state, old_stateCnt * sizeof(old_state[0]));
	1235	*new_stateCnt = old_stateCnt;
	1236
	1237	(void)os_assumes_zero(launchd_mport_deallocate(thread));
	1238	(void)os_assumes_zero(launchd_mport_deallocate(task));
	1239
	1240	return KERN_SUCCESS;
	1241	}
	1242
	1243	// FIXME: should this be thread safe? With dispatch_once?
	1244	uint64_t
	1245	runtime_get_uniqueid(void)
	1246	{
	1247	static bool once;
	1248	static uint64_t uniqueid;
	1249	if (unlikely(!once)) {
	1250	once = true;
	1251
	1252	struct proc_uniqidentifierinfo info;
	1253	int size;
	1254	size = proc_pidinfo(getpid(), PROC_PIDUNIQIDENTIFIERINFO, 0, &info, sizeof(info));
	1255	if (size == PROC_PIDUNIQIDENTIFIERINFO_SIZE) {
	1256	uniqueid = info.p_uniqueid;
	1257	}
	1258	}
	1259	return uniqueid;
	1260	}
	1261
	1262	void
	1263	launchd_log_vm_stats(void)
	1264	{
	1265	static struct vm_statistics orig_stats;
	1266	static bool did_first_pass;
	1267	unsigned int count = HOST_VM_INFO_COUNT;
	1268	struct vm_statistics stats, *statsp;
	1269	mach_port_t mhs = mach_host_self();
	1270
	1271	statsp = did_first_pass ? &stats : &orig_stats;
	1272
	1273	if (os_assumes_zero(host_statistics(mhs, HOST_VM_INFO, (host_info_t)statsp, &count)) != KERN_SUCCESS) {
	1274	return;
	1275	}
	1276
	1277	if (count != HOST_VM_INFO_COUNT) {
	1278	(void)os_assumes_zero(count);
	1279	}
	1280
	1281	if (did_first_pass) {
	1282	launchd_syslog(LOG_DEBUG, "VM statistics (now - orig): Free: %d Active: %d Inactive: %d Reactivations: %d PageIns: %d PageOuts: %d Faults: %d COW-Faults: %d Purgeable: %d Purges: %d",
	1283	stats.free_count - orig_stats.free_count,
	1284	stats.active_count - orig_stats.active_count,
	1285	stats.inactive_count - orig_stats.inactive_count,
	1286	stats.reactivations - orig_stats.reactivations,
	1287	stats.pageins - orig_stats.pageins,
	1288	stats.pageouts - orig_stats.pageouts,
	1289	stats.faults - orig_stats.faults,
	1290	stats.cow_faults - orig_stats.cow_faults,
	1291	stats.purgeable_count - orig_stats.purgeable_count,
	1292	stats.purges - orig_stats.purges);
	1293	} else {
	1294	launchd_syslog(LOG_DEBUG, "VM statistics (now): Free: %d Active: %d Inactive: %d Reactivations: %d PageIns: %d PageOuts: %d Faults: %d COW-Faults: %d Purgeable: %d Purges: %d",
	1295	orig_stats.free_count,
	1296	orig_stats.active_count,
	1297	orig_stats.inactive_count,
	1298	orig_stats.reactivations,
	1299	orig_stats.pageins,
	1300	orig_stats.pageouts,
	1301	orig_stats.faults,
	1302	orig_stats.cow_faults,
	1303	orig_stats.purgeable_count,
	1304	orig_stats.purges);
	1305
	1306	did_first_pass = true;
	1307	}
	1308
	1309	launchd_mport_deallocate(mhs);
	1310	}
	1311
	1312	int64_t
	1313	runtime_get_wall_time(void)
	1314	{
	1315	struct timeval tv;
	1316	int64_t r;
	1317
	1318	(void)posix_assumes_zero(gettimeofday(&tv, NULL));
	1319
	1320	r = tv.tv_sec;
	1321	r *= USEC_PER_SEC;
	1322	r += tv.tv_usec;
	1323
	1324	return r;
	1325	}
	1326
	1327	uint64_t
	1328	runtime_get_opaque_time(void)
	1329	{
	1330	return mach_absolute_time();
	1331	}
	1332
	1333	uint64_t
	1334	runtime_get_opaque_time_of_event(void)
	1335	{
	1336	return time_of_mach_msg_return;
	1337	}
	1338
	1339	uint64_t
	1340	runtime_get_nanoseconds_since(uint64_t o)
	1341	{
	1342	return runtime_opaque_time_to_nano(runtime_get_opaque_time_of_event() - o);
	1343	}
	1344
	1345	uint64_t
	1346	runtime_opaque_time_to_nano(uint64_t o)
	1347	{
	1348	#if defined(__i386__) \|\| defined(__x86_64__)
	1349	if (unlikely(tbi.numer != tbi.denom)) {
	1350	#elif defined(__ppc__) \|\| defined(__ppc64__)
	1351	if (likely(tbi.numer != tbi.denom)) {
	1352	#else
	1353	if (tbi.numer != tbi.denom) {
	1354	#endif
	1355	#ifdef __LP64__
	1356	__uint128_t tmp = o;
	1357	tmp *= tbi.numer;
	1358	tmp /= tbi.denom;
	1359	o = tmp;
	1360	#else
	1361	if (o <= tbi_safe_math_max) {
	1362	o *= tbi.numer;
	1363	o /= tbi.denom;
	1364	} else {
	1365	double d = o;
	1366	d *= tbi_float_val;
	1367	o = d;
	1368	}
	1369	#endif
	1370	}
	1371
	1372	return o;
	1373	}
	1374
	1375	void
	1376	do_file_init(void)
	1377	{
	1378	struct stat sb;
	1379
	1380	os_assert_zero(mach_timebase_info(&tbi));
	1381	tbi_float_val = tbi.numer;
	1382	tbi_float_val /= tbi.denom;
	1383	tbi_safe_math_max = UINT64_MAX / tbi.numer;
	1384
	1385	launchd_system_start = runtime_get_wall_time();
	1386
	1387	if (getpid() == 1) {
	1388	pid1_magic = true;
	1389	}
	1390
	1391	if (stat("/AppleInternal", &sb) == 0 && stat("/var/db/disableAppleInternal", &sb) == -1) {
	1392	launchd_apple_internal = true;
	1393	}
	1394
	1395	if (config_check(".launchd_use_gmalloc", sb)) {
	1396	launchd_use_gmalloc = true;
	1397	}
	1398
	1399	if (config_check(".launchd_log_shutdown", sb)) {
	1400	launchd_log_shutdown = true;
	1401	}
	1402
	1403	if (config_check(".launchd_log_debug", sb)) {
	1404	launchd_log_debug = true;
	1405	}
	1406
	1407	if (config_check(".launchd_log_perf", sb)) {
	1408	launchd_log_perf = true;
	1409	}
	1410
	1411	if (config_check("/etc/rc.cdrom", sb)) {
	1412	launchd_osinstaller = true;
	1413	}
	1414
	1415	if (!pid1_magic && config_check(".launchd_allow_global_dyld_envvars", sb)) {
	1416	launchd_allow_global_dyld_envvars = true;
	1417	}
	1418
	1419	char buff[1024];
	1420	size_t len = sizeof(buff) - 1;
	1421	int r = pid1_magic ? sysctlbyname("kern.bootargs", buff, &len, NULL, 0) : -1;
	1422	if (r == 0) {
	1423	if (strnstr(buff, "-v", len)) {
	1424	launchd_verbose_boot = true;
	1425	}
	1426	if (strnstr(buff, "launchd_trap_sigkill_bugs", len)) {
	1427	launchd_trap_sigkill_bugs = true;
	1428	}
	1429	if (strnstr(buff, "launchd_no_jetsam_perm_check", len)) {
	1430	launchd_no_jetsam_perm_check = true;
	1431	}
	1432	}
	1433
	1434	len = sizeof(buff) - 1;
	1435	#if TARGET_OS_EMBEDDED
	1436	r = sysctlbyname("hw.machine", buff, &len, NULL, 0);
	1437	if (r == 0) {
	1438	if (strnstr(buff, "AppleTV", len)) {
	1439	launchd_appletv = true;
	1440	}
	1441	}
	1442	#endif
	1443
	1444	#if !TARGET_OS_EMBEDDED
	1445	if (pid1_magic && launchd_verbose_boot && config_check(".launchd_shutdown_debugging", sb)) {
	1446	launchd_shutdown_debugging = true;
	1447	}
	1448	#else
	1449	if (pid1_magic && config_check(".launchd_shutdown_debugging", sb)) {
	1450	launchd_shutdown_debugging = true;
	1451	}
	1452	#endif
	1453	}