Ejemplo n.º 1
0
void server::wificonnected()
{
    //清除
    delete udpsender;
    delete tcpServer;
    udpbro->stop();
    socketinit();
}
Ejemplo n.º 2
0
server::server(QWidget *parent) :
    QWidget(parent),
    ui(new Ui::server)
{
    setAttribute(Qt::WA_DeleteOnClose);             //关闭窗口后调用析构函数
    ui->setupUi(this);

    //添加工具栏
    QToolBar *toolbar = new QToolBar(this); //变量还必须在堆中
    toolbar->setIconSize(QSize(16,16));
    toolbar->addAction(QString("主页"));
    toolbar->addAction(QString("传输文件"));
    toolbar->addAction(QString("传输中"));
    toolbar->addAction(QString("传输历史"));
    toolbar->addAction(QString("二维码"));
    connect(toolbar,SIGNAL(actionTriggered(QAction*)),this,SLOT(toolbar_actiontriggered(QAction*)));    //处理工具栏点击
    ui->tool->layout()->addWidget(toolbar);
    ui->tool->layout()->setAlignment(Qt::AlignTop);

    ui->transfering->hide();
    ui->qrcode->hide();
    ui->verticalLayout_3->setAlignment(Qt::AlignTop);

    ui->tableWidget->setEditTriggers(QAbstractItemView::NoEditTriggers);   //表格禁止编辑
    connect(ui->tableWidget,SIGNAL(cellClicked(int,int)),this,SLOT(tablewidget_clicked(int,int)));

    lastpoint.setX(0);
    lastpoint.setY(0);
    endpoint.setX(0);
    endpoint.setY(0);

    udpbro = NULL;  //udp广播
    socketinit();   //初始化udp广播、tcp监听
    //初始化http_server
    http_server = new httpserver(this);
    http_server->listen(QHostAddress::Any,80);

}
Ejemplo n.º 3
0
void
bsd_init(void)
{
	struct uthread *ut;
	unsigned int i;
	struct vfs_context context;
	kern_return_t	ret;
	struct ucred temp_cred;
	struct posix_cred temp_pcred;
#if NFSCLIENT || CONFIG_IMAGEBOOT
	boolean_t       netboot = FALSE;
#endif

#define bsd_init_kprintf(x...) /* kprintf("bsd_init: " x) */

	throttle_init();

	printf(copyright);
	
	bsd_init_kprintf("calling kmeminit\n");
	kmeminit();
	
	bsd_init_kprintf("calling parse_bsd_args\n");
	parse_bsd_args();

#if CONFIG_DEV_KMEM
	bsd_init_kprintf("calling dev_kmem_init\n");
	dev_kmem_init();
#endif

	/* Initialize kauth subsystem before instancing the first credential */
	bsd_init_kprintf("calling kauth_init\n");
	kauth_init();

	/* Initialize process and pgrp structures. */
	bsd_init_kprintf("calling procinit\n");
	procinit();

	/* Initialize the ttys (MUST be before kminit()/bsd_autoconf()!)*/
	tty_init();

	kernproc = &proc0;	/* implicitly bzero'ed */

	/* kernel_task->proc = kernproc; */
	set_bsdtask_info(kernel_task,(void *)kernproc);

	/* give kernproc a name */
	bsd_init_kprintf("calling process_name\n");
	process_name("kernel_task", kernproc);

	/* allocate proc lock group attribute and group */
	bsd_init_kprintf("calling lck_grp_attr_alloc_init\n");
	proc_lck_grp_attr= lck_grp_attr_alloc_init();

	proc_lck_grp = lck_grp_alloc_init("proc",  proc_lck_grp_attr);
#if CONFIG_FINE_LOCK_GROUPS
	proc_slock_grp = lck_grp_alloc_init("proc-slock",  proc_lck_grp_attr);
	proc_fdmlock_grp = lck_grp_alloc_init("proc-fdmlock",  proc_lck_grp_attr);
	proc_ucred_mlock_grp = lck_grp_alloc_init("proc-ucred-mlock",  proc_lck_grp_attr);
	proc_mlock_grp = lck_grp_alloc_init("proc-mlock",  proc_lck_grp_attr);
#endif
	/* Allocate proc lock attribute */
	proc_lck_attr = lck_attr_alloc_init();
#if 0
#if __PROC_INTERNAL_DEBUG
	lck_attr_setdebug(proc_lck_attr);
#endif
#endif

#if CONFIG_FINE_LOCK_GROUPS
	proc_list_mlock = lck_mtx_alloc_init(proc_mlock_grp, proc_lck_attr);
	proc_klist_mlock = lck_mtx_alloc_init(proc_mlock_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_mlock, proc_mlock_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_fdmlock, proc_fdmlock_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_ucred_mlock, proc_ucred_mlock_grp, proc_lck_attr);
	lck_spin_init(&kernproc->p_slock, proc_slock_grp, proc_lck_attr);
#else
	proc_list_mlock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	proc_klist_mlock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_mlock, proc_lck_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_fdmlock, proc_lck_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_ucred_mlock, proc_lck_grp, proc_lck_attr);
	lck_spin_init(&kernproc->p_slock, proc_lck_grp, proc_lck_attr);
#endif

	assert(bsd_simul_execs != 0);
	execargs_cache_lock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	execargs_cache_size = bsd_simul_execs;
	execargs_free_count = bsd_simul_execs;
	execargs_cache = (vm_offset_t *)kalloc(bsd_simul_execs * sizeof(vm_offset_t));
	bzero(execargs_cache, bsd_simul_execs * sizeof(vm_offset_t));
	
	if (current_task() != kernel_task)
		printf("bsd_init: We have a problem, "
				"current task is not kernel task\n");
	
	bsd_init_kprintf("calling get_bsdthread_info\n");
	ut = (uthread_t)get_bsdthread_info(current_thread());

#if CONFIG_MACF
	/*
	 * Initialize the MAC Framework
	 */
	mac_policy_initbsd();
	kernproc->p_mac_enforce = 0;

#if defined (__i386__) || defined (__x86_64__)
	/*
	 * We currently only support this on i386/x86_64, as that is the
	 * only lock code we have instrumented so far.
	 */
	check_policy_init(policy_check_flags);
#endif
#endif /* MAC */

	/* Initialize System Override call */
	init_system_override();
	
	/*
	 * Create process 0.
	 */
	proc_list_lock();
	LIST_INSERT_HEAD(&allproc, kernproc, p_list);
	kernproc->p_pgrp = &pgrp0;
	LIST_INSERT_HEAD(PGRPHASH(0), &pgrp0, pg_hash);
	LIST_INIT(&pgrp0.pg_members);
#ifdef CONFIG_FINE_LOCK_GROUPS
	lck_mtx_init(&pgrp0.pg_mlock, proc_mlock_grp, proc_lck_attr);
#else
	lck_mtx_init(&pgrp0.pg_mlock, proc_lck_grp, proc_lck_attr);
#endif
	/* There is no other bsd thread this point and is safe without pgrp lock */
	LIST_INSERT_HEAD(&pgrp0.pg_members, kernproc, p_pglist);
	kernproc->p_listflag |= P_LIST_INPGRP;
	kernproc->p_pgrpid = 0;
	kernproc->p_uniqueid = 0;

	pgrp0.pg_session = &session0;
	pgrp0.pg_membercnt = 1;

	session0.s_count = 1;
	session0.s_leader = kernproc;
	session0.s_listflags = 0;
#ifdef CONFIG_FINE_LOCK_GROUPS
	lck_mtx_init(&session0.s_mlock, proc_mlock_grp, proc_lck_attr);
#else
	lck_mtx_init(&session0.s_mlock, proc_lck_grp, proc_lck_attr);
#endif
	LIST_INSERT_HEAD(SESSHASH(0), &session0, s_hash);
	proc_list_unlock();

	kernproc->task = kernel_task;
	
	kernproc->p_stat = SRUN;
	kernproc->p_flag = P_SYSTEM;
	kernproc->p_lflag = 0;
	kernproc->p_ladvflag = 0;
	
#if DEVELOPMENT || DEBUG
	if (bootarg_disable_aslr)
		kernproc->p_flag |= P_DISABLE_ASLR;
#endif

	kernproc->p_nice = NZERO;
	kernproc->p_pptr = kernproc;

	TAILQ_INIT(&kernproc->p_uthlist);
	TAILQ_INSERT_TAIL(&kernproc->p_uthlist, ut, uu_list);
	
	kernproc->sigwait = FALSE;
	kernproc->sigwait_thread = THREAD_NULL;
	kernproc->exit_thread = THREAD_NULL;
	kernproc->p_csflags = CS_VALID;

	/*
	 * Create credential.  This also Initializes the audit information.
	 */
	bsd_init_kprintf("calling bzero\n");
	bzero(&temp_cred, sizeof(temp_cred));
	bzero(&temp_pcred, sizeof(temp_pcred));
	temp_pcred.cr_ngroups = 1;
	/* kern_proc, shouldn't call up to DS for group membership */
	temp_pcred.cr_flags = CRF_NOMEMBERD;
	temp_cred.cr_audit.as_aia_p = audit_default_aia_p;
	
	bsd_init_kprintf("calling kauth_cred_create\n");
	/*
	 * We have to label the temp cred before we create from it to
	 * properly set cr_ngroups, or the create will fail.
	 */
	posix_cred_label(&temp_cred, &temp_pcred);
	kernproc->p_ucred = kauth_cred_create(&temp_cred); 

	/* update cred on proc */
	PROC_UPDATE_CREDS_ONPROC(kernproc);

	/* give the (already exisiting) initial thread a reference on it */
	bsd_init_kprintf("calling kauth_cred_ref\n");
	kauth_cred_ref(kernproc->p_ucred);
	ut->uu_context.vc_ucred = kernproc->p_ucred;
	ut->uu_context.vc_thread = current_thread();

	TAILQ_INIT(&kernproc->p_aio_activeq);
	TAILQ_INIT(&kernproc->p_aio_doneq);
	kernproc->p_aio_total_count = 0;
	kernproc->p_aio_active_count = 0;

	bsd_init_kprintf("calling file_lock_init\n");
	file_lock_init();

#if CONFIG_MACF
	mac_cred_label_associate_kernel(kernproc->p_ucred);
#endif

	/* Create the file descriptor table. */
	kernproc->p_fd = &filedesc0;
	filedesc0.fd_cmask = cmask;
	filedesc0.fd_knlistsize = -1;
	filedesc0.fd_knlist = NULL;
	filedesc0.fd_knhash = NULL;
	filedesc0.fd_knhashmask = 0;

	/* Create the limits structures. */
	kernproc->p_limit = &limit0;
	for (i = 0; i < sizeof(kernproc->p_rlimit)/sizeof(kernproc->p_rlimit[0]); i++)
		limit0.pl_rlimit[i].rlim_cur = 
			limit0.pl_rlimit[i].rlim_max = RLIM_INFINITY;
	limit0.pl_rlimit[RLIMIT_NOFILE].rlim_cur = NOFILE;
	limit0.pl_rlimit[RLIMIT_NPROC].rlim_cur = maxprocperuid;
	limit0.pl_rlimit[RLIMIT_NPROC].rlim_max = maxproc;
	limit0.pl_rlimit[RLIMIT_STACK] = vm_initial_limit_stack;
	limit0.pl_rlimit[RLIMIT_DATA] = vm_initial_limit_data;
	limit0.pl_rlimit[RLIMIT_CORE] = vm_initial_limit_core;
	limit0.pl_refcnt = 1;

	kernproc->p_stats = &pstats0;
	kernproc->p_sigacts = &sigacts0;

	/*
	 * Charge root for one process: launchd.
	 */
	bsd_init_kprintf("calling chgproccnt\n");
	(void)chgproccnt(0, 1);

	/*
	 *	Allocate a kernel submap for pageable memory
	 *	for temporary copying (execve()).
	 */
	{
		vm_offset_t	minimum;

		bsd_init_kprintf("calling kmem_suballoc\n");
		assert(bsd_pageable_map_size != 0);
		ret = kmem_suballoc(kernel_map,
				&minimum,
				(vm_size_t)bsd_pageable_map_size,
				TRUE,
				VM_FLAGS_ANYWHERE | VM_MAKE_TAG(VM_KERN_MEMORY_BSD),
				&bsd_pageable_map);
		if (ret != KERN_SUCCESS) 
			panic("bsd_init: Failed to allocate bsd pageable map");
	}

	/*
	 * Initialize buffers and hash links for buffers
	 *
	 * SIDE EFFECT: Starts a thread for bcleanbuf_thread(), so must
	 *		happen after a credential has been associated with
	 *		the kernel task.
	 */
	bsd_init_kprintf("calling bsd_bufferinit\n");
	bsd_bufferinit();

	/* Initialize the execve() semaphore */
	bsd_init_kprintf("calling semaphore_create\n");

	if (ret != KERN_SUCCESS)
		panic("bsd_init: Failed to create execve semaphore");

	/*
	 * Initialize the calendar.
	 */
	bsd_init_kprintf("calling IOKitInitializeTime\n");
	IOKitInitializeTime();

	bsd_init_kprintf("calling ubc_init\n");
	ubc_init();

	/*
	 * Initialize device-switches.
	 */
	bsd_init_kprintf("calling devsw_init() \n");
	devsw_init();

	/* Initialize the file systems. */
	bsd_init_kprintf("calling vfsinit\n");
	vfsinit();

#if CONFIG_PROC_UUID_POLICY
	/* Initial proc_uuid_policy subsystem */
	bsd_init_kprintf("calling proc_uuid_policy_init()\n");
	proc_uuid_policy_init();
#endif

#if SOCKETS
	/* Initialize per-CPU cache allocator */
	mcache_init();

	/* Initialize mbuf's. */
	bsd_init_kprintf("calling mbinit\n");
	mbinit();
	net_str_id_init(); /* for mbuf tags */
#endif /* SOCKETS */

	/*
	 * Initializes security event auditing.
	 * XXX: Should/could this occur later?
	 */
#if CONFIG_AUDIT
	bsd_init_kprintf("calling audit_init\n");
 	audit_init();  
#endif

	/* Initialize kqueues */
	bsd_init_kprintf("calling knote_init\n");
	knote_init();

	/* Initialize for async IO */
	bsd_init_kprintf("calling aio_init\n");
	aio_init();

	/* Initialize pipes */
	bsd_init_kprintf("calling pipeinit\n");
	pipeinit();

	/* Initialize SysV shm subsystem locks; the subsystem proper is
	 * initialized through a sysctl.
	 */
#if SYSV_SHM
	bsd_init_kprintf("calling sysv_shm_lock_init\n");
	sysv_shm_lock_init();
#endif
#if SYSV_SEM
	bsd_init_kprintf("calling sysv_sem_lock_init\n");
	sysv_sem_lock_init();
#endif
#if SYSV_MSG
	bsd_init_kprintf("sysv_msg_lock_init\n");
	sysv_msg_lock_init();
#endif
	bsd_init_kprintf("calling pshm_lock_init\n");
	pshm_lock_init();
	bsd_init_kprintf("calling psem_lock_init\n");
	psem_lock_init();

	pthread_init();
	/* POSIX Shm and Sem */
	bsd_init_kprintf("calling pshm_cache_init\n");
	pshm_cache_init();
	bsd_init_kprintf("calling psem_cache_init\n");
	psem_cache_init();
	bsd_init_kprintf("calling time_zone_slock_init\n");
	time_zone_slock_init();
	bsd_init_kprintf("calling select_waitq_init\n");
	select_waitq_init();

	/*
	 * Initialize protocols.  Block reception of incoming packets
	 * until everything is ready.
	 */
	bsd_init_kprintf("calling sysctl_register_fixed\n");
	sysctl_register_fixed(); 
	bsd_init_kprintf("calling sysctl_mib_init\n");
	sysctl_mib_init();
#if NETWORKING
	bsd_init_kprintf("calling dlil_init\n");
	dlil_init();
	bsd_init_kprintf("calling proto_kpi_init\n");
	proto_kpi_init();
#endif /* NETWORKING */
#if SOCKETS
	bsd_init_kprintf("calling socketinit\n");
	socketinit();
	bsd_init_kprintf("calling domaininit\n");
	domaininit();
	iptap_init();
#if FLOW_DIVERT
	flow_divert_init();
#endif	/* FLOW_DIVERT */
#endif /* SOCKETS */

	kernproc->p_fd->fd_cdir = NULL;
	kernproc->p_fd->fd_rdir = NULL;

#if CONFIG_FREEZE
#ifndef CONFIG_MEMORYSTATUS
    #error "CONFIG_FREEZE defined without matching CONFIG_MEMORYSTATUS"
#endif
	/* Initialise background freezing */
	bsd_init_kprintf("calling memorystatus_freeze_init\n");
	memorystatus_freeze_init();
#endif

#if CONFIG_MEMORYSTATUS
	/* Initialize kernel memory status notifications */
	bsd_init_kprintf("calling memorystatus_init\n");
	memorystatus_init();
#endif /* CONFIG_MEMORYSTATUS */

	bsd_init_kprintf("calling macx_init\n");
	macx_init();

	bsd_init_kprintf("calling acct_init\n");
	acct_init();

#ifdef GPROF
	/* Initialize kernel profiling. */
	kmstartup();
#endif

	bsd_init_kprintf("calling bsd_autoconf\n");
	bsd_autoconf();

#if CONFIG_DTRACE
	dtrace_postinit();
#endif

	/*
	 * We attach the loopback interface *way* down here to ensure
	 * it happens after autoconf(), otherwise it becomes the
	 * "primary" interface.
	 */
#include <loop.h>
#if NLOOP > 0
	bsd_init_kprintf("calling loopattach\n");
	loopattach();			/* XXX */
#endif
#if NGIF
	/* Initialize gif interface (after lo0) */
	gif_init();
#endif

#if PFLOG
	/* Initialize packet filter log interface */
	pfloginit();
#endif /* PFLOG */

#if NETHER > 0
	/* Register the built-in dlil ethernet interface family */
	bsd_init_kprintf("calling ether_family_init\n");
	ether_family_init();
#endif /* ETHER */

#if NETWORKING
	/* Call any kext code that wants to run just after network init */
	bsd_init_kprintf("calling net_init_run\n");
	net_init_run();
	
#if CONTENT_FILTER
	cfil_init();
#endif

#if PACKET_MANGLER
	pkt_mnglr_init();
#endif	

#if NECP
	/* Initialize Network Extension Control Policies */
	necp_init();
#endif

	netagent_init();

	/* register user tunnel kernel control handler */
	utun_register_control();
#if IPSEC
	ipsec_register_control();
#endif /* IPSEC */
	netsrc_init();
	nstat_init();
	tcp_cc_init();
#if MPTCP
	mptcp_control_register();
#endif /* MPTCP */
#endif /* NETWORKING */

	bsd_init_kprintf("calling vnode_pager_bootstrap\n");
	vnode_pager_bootstrap();

	bsd_init_kprintf("calling inittodr\n");
	inittodr(0);

	/* Mount the root file system. */
	while( TRUE) {
		int err;

		bsd_init_kprintf("calling setconf\n");
		setconf();
#if NFSCLIENT
		netboot = (mountroot == netboot_mountroot);
#endif

		bsd_init_kprintf("vfs_mountroot\n");
		if (0 == (err = vfs_mountroot()))
			break;
		rootdevice[0] = '\0';
#if NFSCLIENT
		if (netboot) {
			PE_display_icon( 0, "noroot");  /* XXX a netboot-specific icon would be nicer */
			vc_progress_set(FALSE, 0);
			for (i=1; 1; i*=2) {
				printf("bsd_init: failed to mount network root, error %d, %s\n",
					err, PE_boot_args());
				printf("We are hanging here...\n");
				IOSleep(i*60*1000);
			}
			/*NOTREACHED*/
		}
#endif
		printf("cannot mount root, errno = %d\n", err);
		boothowto |= RB_ASKNAME;
	}

	IOSecureBSDRoot(rootdevice);

	context.vc_thread = current_thread();
	context.vc_ucred = kernproc->p_ucred;
	mountlist.tqh_first->mnt_flag |= MNT_ROOTFS;

	bsd_init_kprintf("calling VFS_ROOT\n");
	/* Get the vnode for '/'.  Set fdp->fd_fd.fd_cdir to reference it. */
	if (VFS_ROOT(mountlist.tqh_first, &rootvnode, &context))
		panic("bsd_init: cannot find root vnode: %s", PE_boot_args());
	rootvnode->v_flag |= VROOT;
	(void)vnode_ref(rootvnode);
	(void)vnode_put(rootvnode);
	filedesc0.fd_cdir = rootvnode;

#if NFSCLIENT
	if (netboot) {
		int err;

		netboot = TRUE;
		/* post mount setup */
		if ((err = netboot_setup()) != 0) {
			PE_display_icon( 0, "noroot");  /* XXX a netboot-specific icon would be nicer */
			vc_progress_set(FALSE, 0);
			for (i=1; 1; i*=2) {
				printf("bsd_init: NetBoot could not find root, error %d: %s\n",
					err, PE_boot_args());
				printf("We are hanging here...\n");
				IOSleep(i*60*1000);
			}
			/*NOTREACHED*/
		}
	}
#endif
	

#if CONFIG_IMAGEBOOT
	/*
	 * See if a system disk image is present. If so, mount it and
	 * switch the root vnode to point to it
	 */ 
	if (netboot == FALSE && imageboot_needed()) {
		/* 
		 * An image was found.  No turning back: we're booted
		 * with a kernel from the disk image.
		 */
		imageboot_setup(); 
	}
#endif /* CONFIG_IMAGEBOOT */
  
	/* set initial time; all other resource data is  already zero'ed */
	microtime_with_abstime(&kernproc->p_start, &kernproc->p_stats->ps_start);

#if DEVFS
	{
	    char mounthere[] = "/dev";	/* !const because of internal casting */

	    bsd_init_kprintf("calling devfs_kernel_mount\n");
	    devfs_kernel_mount(mounthere);
	}
#endif /* DEVFS */

	/* Initialize signal state for process 0. */
	bsd_init_kprintf("calling siginit\n");
	siginit(kernproc);

	bsd_init_kprintf("calling bsd_utaskbootstrap\n");
	bsd_utaskbootstrap();

#if defined(__LP64__)
	kernproc->p_flag |= P_LP64;
#endif

	pal_kernel_announce();

	bsd_init_kprintf("calling mountroot_post_hook\n");

	/* invoke post-root-mount hook */
	if (mountroot_post_hook != NULL)
		mountroot_post_hook();

#if 0 /* not yet */
	consider_zone_gc(FALSE);
#endif


	bsd_init_kprintf("done\n");
}
Ejemplo n.º 4
0
/*
 * This function is called very early on in the Mach startup, from the
 * function start_kernel_threads() in osfmk/kern/startup.c.  It's called
 * in the context of the current (startup) task using a call to the
 * function kernel_thread_create() to jump into start_kernel_threads().
 * Internally, kernel_thread_create() calls thread_create_internal(),
 * which calls uthread_alloc().  The function of uthread_alloc() is
 * normally to allocate a uthread structure, and fill out the uu_sigmask,
 * uu_context fields.  It skips filling these out in the case of the "task"
 * being "kernel_task", because the order of operation is inverted.  To
 * account for that, we need to manually fill in at least the contents
 * of the uu_context.vc_ucred field so that the uthread structure can be
 * used like any other.
 */
void
bsd_init(void)
{
	struct uthread *ut;
	unsigned int i;
#if __i386__ || __x86_64__
	int error;
#endif	
	struct vfs_context context;
	kern_return_t	ret;
	struct ucred temp_cred;

#define bsd_init_kprintf(x...) /* kprintf("bsd_init: " x) */

	kernel_flock = funnel_alloc(KERNEL_FUNNEL);
	if (kernel_flock == (funnel_t *)0 ) {
		panic("bsd_init: Failed to allocate kernel funnel");
	}
        
	printf(copyright);
	
	bsd_init_kprintf("calling kmeminit\n");
	kmeminit();
	
	bsd_init_kprintf("calling parse_bsd_args\n");
	parse_bsd_args();

	/* Initialize kauth subsystem before instancing the first credential */
	bsd_init_kprintf("calling kauth_init\n");
	kauth_init();

	/* Initialize process and pgrp structures. */
	bsd_init_kprintf("calling procinit\n");
	procinit();

	/* Initialize the ttys (MUST be before kminit()/bsd_autoconf()!)*/
	tty_init();

	kernproc = &proc0;	/* implicitly bzero'ed */

	/* kernel_task->proc = kernproc; */
	set_bsdtask_info(kernel_task,(void *)kernproc);

	/* give kernproc a name */
	bsd_init_kprintf("calling process_name\n");
	process_name("kernel_task", kernproc);

	/* allocate proc lock group attribute and group */
	bsd_init_kprintf("calling lck_grp_attr_alloc_init\n");
	proc_lck_grp_attr= lck_grp_attr_alloc_init();

	proc_lck_grp = lck_grp_alloc_init("proc",  proc_lck_grp_attr);
#ifndef CONFIG_EMBEDDED
	proc_slock_grp = lck_grp_alloc_init("proc-slock",  proc_lck_grp_attr);
	proc_fdmlock_grp = lck_grp_alloc_init("proc-fdmlock",  proc_lck_grp_attr);
	proc_mlock_grp = lck_grp_alloc_init("proc-mlock",  proc_lck_grp_attr);
#endif
	/* Allocate proc lock attribute */
	proc_lck_attr = lck_attr_alloc_init();
#if 0
#if __PROC_INTERNAL_DEBUG
	lck_attr_setdebug(proc_lck_attr);
#endif
#endif

#ifdef CONFIG_EMBEDDED
	proc_list_mlock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	proc_klist_mlock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_mlock, proc_lck_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_fdmlock, proc_lck_grp, proc_lck_attr);
	lck_spin_init(&kernproc->p_slock, proc_lck_grp, proc_lck_attr);
#else	
	proc_list_mlock = lck_mtx_alloc_init(proc_mlock_grp, proc_lck_attr);
	proc_klist_mlock = lck_mtx_alloc_init(proc_mlock_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_mlock, proc_mlock_grp, proc_lck_attr);
	lck_mtx_init(&kernproc->p_fdmlock, proc_fdmlock_grp, proc_lck_attr);
	lck_spin_init(&kernproc->p_slock, proc_slock_grp, proc_lck_attr);
#endif

	execargs_cache_lock = lck_mtx_alloc_init(proc_lck_grp, proc_lck_attr);
	execargs_cache_size = bsd_simul_execs;
	execargs_free_count = bsd_simul_execs;
	execargs_cache = (vm_offset_t *)kalloc(bsd_simul_execs * sizeof(vm_offset_t));
	bzero(execargs_cache, bsd_simul_execs * sizeof(vm_offset_t));
	
	if (current_task() != kernel_task)
		printf("bsd_init: We have a problem, "
				"current task is not kernel task\n");
	
	bsd_init_kprintf("calling get_bsdthread_info\n");
	ut = (uthread_t)get_bsdthread_info(current_thread());

#if CONFIG_MACF
	/*
	 * Initialize the MAC Framework
	 */
	mac_policy_initbsd();
	kernproc->p_mac_enforce = 0;
#endif /* MAC */

	/*
	 * Create process 0.
	 */
	proc_list_lock();
	LIST_INSERT_HEAD(&allproc, kernproc, p_list);
	kernproc->p_pgrp = &pgrp0;
	LIST_INSERT_HEAD(PGRPHASH(0), &pgrp0, pg_hash);
	LIST_INIT(&pgrp0.pg_members);
#ifdef CONFIG_EMBEDDED
	lck_mtx_init(&pgrp0.pg_mlock, proc_lck_grp, proc_lck_attr);	
#else
	lck_mtx_init(&pgrp0.pg_mlock, proc_mlock_grp, proc_lck_attr);
#endif
	/* There is no other bsd thread this point and is safe without pgrp lock */
	LIST_INSERT_HEAD(&pgrp0.pg_members, kernproc, p_pglist);
	kernproc->p_listflag |= P_LIST_INPGRP;
	kernproc->p_pgrpid = 0;

	pgrp0.pg_session = &session0;
	pgrp0.pg_membercnt = 1;

	session0.s_count = 1;
	session0.s_leader = kernproc;
	session0.s_listflags = 0;
#ifdef CONFIG_EMBEDDED
	lck_mtx_init(&session0.s_mlock, proc_lck_grp, proc_lck_attr);
#else
	lck_mtx_init(&session0.s_mlock, proc_mlock_grp, proc_lck_attr);
#endif
	LIST_INSERT_HEAD(SESSHASH(0), &session0, s_hash);
	proc_list_unlock();

#if CONFIG_LCTX
	kernproc->p_lctx = NULL;
#endif

	kernproc->task = kernel_task;
	
	kernproc->p_stat = SRUN;
	kernproc->p_flag = P_SYSTEM;
	kernproc->p_nice = NZERO;
	kernproc->p_pptr = kernproc;

	TAILQ_INIT(&kernproc->p_uthlist);
	TAILQ_INSERT_TAIL(&kernproc->p_uthlist, ut, uu_list);
	
	kernproc->sigwait = FALSE;
	kernproc->sigwait_thread = THREAD_NULL;
	kernproc->exit_thread = THREAD_NULL;
	kernproc->p_csflags = CS_VALID;

	/*
	 * Create credential.  This also Initializes the audit information.
	 */
	bsd_init_kprintf("calling bzero\n");
	bzero(&temp_cred, sizeof(temp_cred));
	temp_cred.cr_ngroups = 1;

	temp_cred.cr_audit.as_aia_p = &audit_default_aia;
        /* XXX the following will go away with cr_au */
	temp_cred.cr_au.ai_auid = AU_DEFAUDITID;

	bsd_init_kprintf("calling kauth_cred_create\n");
	kernproc->p_ucred = kauth_cred_create(&temp_cred); 

	/* give the (already exisiting) initial thread a reference on it */
	bsd_init_kprintf("calling kauth_cred_ref\n");
	kauth_cred_ref(kernproc->p_ucred);
	ut->uu_context.vc_ucred = kernproc->p_ucred;
	ut->uu_context.vc_thread = current_thread();

	TAILQ_INIT(&kernproc->p_aio_activeq);
	TAILQ_INIT(&kernproc->p_aio_doneq);
	kernproc->p_aio_total_count = 0;
	kernproc->p_aio_active_count = 0;

	bsd_init_kprintf("calling file_lock_init\n");
	file_lock_init();

#if CONFIG_MACF
	mac_cred_label_associate_kernel(kernproc->p_ucred);
	mac_task_label_update_cred (kernproc->p_ucred, (struct task *) kernproc->task);
#endif

	/* Create the file descriptor table. */
	filedesc0.fd_refcnt = 1+1;	/* +1 so shutdown will not _FREE_ZONE */
	kernproc->p_fd = &filedesc0;
	filedesc0.fd_cmask = cmask;
	filedesc0.fd_knlistsize = -1;
	filedesc0.fd_knlist = NULL;
	filedesc0.fd_knhash = NULL;
	filedesc0.fd_knhashmask = 0;

	/* Create the limits structures. */
	kernproc->p_limit = &limit0;
	for (i = 0; i < sizeof(kernproc->p_rlimit)/sizeof(kernproc->p_rlimit[0]); i++)
		limit0.pl_rlimit[i].rlim_cur = 
			limit0.pl_rlimit[i].rlim_max = RLIM_INFINITY;
	limit0.pl_rlimit[RLIMIT_NOFILE].rlim_cur = NOFILE;
	limit0.pl_rlimit[RLIMIT_NPROC].rlim_cur = maxprocperuid;
	limit0.pl_rlimit[RLIMIT_NPROC].rlim_max = maxproc;
	limit0.pl_rlimit[RLIMIT_STACK] = vm_initial_limit_stack;
	limit0.pl_rlimit[RLIMIT_DATA] = vm_initial_limit_data;
	limit0.pl_rlimit[RLIMIT_CORE] = vm_initial_limit_core;
	limit0.pl_refcnt = 1;

	kernproc->p_stats = &pstats0;
	kernproc->p_sigacts = &sigacts0;

	/*
	 * Charge root for two  processes: init and mach_init.
	 */
	bsd_init_kprintf("calling chgproccnt\n");
	(void)chgproccnt(0, 1);

	/*
	 *	Allocate a kernel submap for pageable memory
	 *	for temporary copying (execve()).
	 */
	{
		vm_offset_t	minimum;

		bsd_init_kprintf("calling kmem_suballoc\n");
		ret = kmem_suballoc(kernel_map,
				&minimum,
				(vm_size_t)bsd_pageable_map_size,
				TRUE,
				VM_FLAGS_ANYWHERE,
				&bsd_pageable_map);
		if (ret != KERN_SUCCESS) 
			panic("bsd_init: Failed to allocate bsd pageable map");
	}

	/*
	 * Initialize buffers and hash links for buffers
	 *
	 * SIDE EFFECT: Starts a thread for bcleanbuf_thread(), so must
	 *		happen after a credential has been associated with
	 *		the kernel task.
	 */
	bsd_init_kprintf("calling bsd_bufferinit\n");
	bsd_bufferinit();

	/* Initialize the execve() semaphore */
	bsd_init_kprintf("calling semaphore_create\n");

	if (ret != KERN_SUCCESS)
		panic("bsd_init: Failed to create execve semaphore");

	/*
	 * Initialize the calendar.
	 */
	bsd_init_kprintf("calling IOKitInitializeTime\n");
	IOKitInitializeTime();

	if (turn_on_log_leaks && !new_nkdbufs)
		new_nkdbufs = 200000;
	start_kern_tracing(new_nkdbufs);
	if (turn_on_log_leaks)
		log_leaks = 1;

	bsd_init_kprintf("calling ubc_init\n");
	ubc_init();

	/* Initialize the file systems. */
	bsd_init_kprintf("calling vfsinit\n");
	vfsinit();

#if SOCKETS
	/* Initialize per-CPU cache allocator */
	mcache_init();

	/* Initialize mbuf's. */
	bsd_init_kprintf("calling mbinit\n");
	mbinit();
	net_str_id_init(); /* for mbuf tags */
#endif /* SOCKETS */

	/*
	 * Initializes security event auditing.
	 * XXX: Should/could this occur later?
	 */
#if CONFIG_AUDIT
	bsd_init_kprintf("calling audit_init\n");
 	audit_init();  
#endif

	/* Initialize kqueues */
	bsd_init_kprintf("calling knote_init\n");
	knote_init();

	/* Initialize for async IO */
	bsd_init_kprintf("calling aio_init\n");
	aio_init();

	/* Initialize pipes */
	bsd_init_kprintf("calling pipeinit\n");
	pipeinit();

	/* Initialize SysV shm subsystem locks; the subsystem proper is
	 * initialized through a sysctl.
	 */
#if SYSV_SHM
	bsd_init_kprintf("calling sysv_shm_lock_init\n");
	sysv_shm_lock_init();
#endif
#if SYSV_SEM
	bsd_init_kprintf("calling sysv_sem_lock_init\n");
	sysv_sem_lock_init();
#endif
#if SYSV_MSG
	bsd_init_kprintf("sysv_msg_lock_init\n");
	sysv_msg_lock_init();
#endif
	bsd_init_kprintf("calling pshm_lock_init\n");
	pshm_lock_init();
	bsd_init_kprintf("calling psem_lock_init\n");
	psem_lock_init();

	pthread_init();
	/* POSIX Shm and Sem */
	bsd_init_kprintf("calling pshm_cache_init\n");
	pshm_cache_init();
	bsd_init_kprintf("calling psem_cache_init\n");
	psem_cache_init();
	bsd_init_kprintf("calling time_zone_slock_init\n");
	time_zone_slock_init();

	/* Stack snapshot facility lock */
	stackshot_lock_init();
	/*
	 * Initialize protocols.  Block reception of incoming packets
	 * until everything is ready.
	 */
	bsd_init_kprintf("calling sysctl_register_fixed\n");
	sysctl_register_fixed(); 
	bsd_init_kprintf("calling sysctl_mib_init\n");
	sysctl_mib_init();
#if NETWORKING
	bsd_init_kprintf("calling dlil_init\n");
	dlil_init();
	bsd_init_kprintf("calling proto_kpi_init\n");
	proto_kpi_init();
#endif /* NETWORKING */
#if SOCKETS
	bsd_init_kprintf("calling socketinit\n");
	socketinit();
	bsd_init_kprintf("calling domaininit\n");
	domaininit();
#endif /* SOCKETS */

	kernproc->p_fd->fd_cdir = NULL;
	kernproc->p_fd->fd_rdir = NULL;

#if CONFIG_EMBEDDED
	/* Initialize kernel memory status notifications */
	bsd_init_kprintf("calling kern_memorystatus_init\n");
	kern_memorystatus_init();
#endif

#ifdef GPROF
	/* Initialize kernel profiling. */
	kmstartup();
#endif

	/* kick off timeout driven events by calling first time */
	thread_wakeup(&lbolt);
	timeout(lightning_bolt, 0, hz);

	bsd_init_kprintf("calling bsd_autoconf\n");
	bsd_autoconf();

#if CONFIG_DTRACE
	dtrace_postinit();
#endif

	/*
	 * We attach the loopback interface *way* down here to ensure
	 * it happens after autoconf(), otherwise it becomes the
	 * "primary" interface.
	 */
#include <loop.h>
#if NLOOP > 0
	bsd_init_kprintf("calling loopattach\n");
	loopattach();			/* XXX */
#endif

#if PFLOG
	/* Initialize packet filter log interface */
	pfloginit();
#endif /* PFLOG */

#if NETHER > 0
	/* Register the built-in dlil ethernet interface family */
	bsd_init_kprintf("calling ether_family_init\n");
	ether_family_init();
#endif /* ETHER */

#if NETWORKING
	/* Call any kext code that wants to run just after network init */
	bsd_init_kprintf("calling net_init_run\n");
	net_init_run();
	
	/* register user tunnel kernel control handler */
	utun_register_control();
#endif /* NETWORKING */

	bsd_init_kprintf("calling vnode_pager_bootstrap\n");
	vnode_pager_bootstrap();
#if 0
	/* XXX Hack for early debug stop */
	printf("\nabout to sleep for 10 seconds\n");
	IOSleep( 10 * 1000 );
	/* Debugger("hello"); */
#endif

	bsd_init_kprintf("calling inittodr\n");
	inittodr(0);

#if CONFIG_EMBEDDED
	{
		/* print out early VM statistics */
		kern_return_t kr1;
		vm_statistics_data_t stat;
		mach_msg_type_number_t count;

		count = HOST_VM_INFO_COUNT;
		kr1 = host_statistics(host_self(),
				      HOST_VM_INFO,
				      (host_info_t)&stat,
				      &count);
		kprintf("Mach Virtual Memory Statistics (page size of 4096) bytes\n"
			"Pages free:\t\t\t%u.\n"
			"Pages active:\t\t\t%u.\n"
			"Pages inactive:\t\t\t%u.\n"
			"Pages wired down:\t\t%u.\n"
			"\"Translation faults\":\t\t%u.\n"
			"Pages copy-on-write:\t\t%u.\n"
			"Pages zero filled:\t\t%u.\n"
			"Pages reactivated:\t\t%u.\n"
			"Pageins:\t\t\t%u.\n"
			"Pageouts:\t\t\t%u.\n"
			"Object cache: %u hits of %u lookups (%d%% hit rate)\n",

			stat.free_count,
			stat.active_count,
			stat.inactive_count,
			stat.wire_count,
			stat.faults,
			stat.cow_faults,
			stat.zero_fill_count,
			stat.reactivations,
			stat.pageins,
			stat.pageouts,
			stat.hits,
			stat.lookups,
			(stat.hits == 0) ? 100 :
			                   ((stat.lookups * 100) / stat.hits));
	}
#endif /* CONFIG_EMBEDDED */
	
	/* Mount the root file system. */
	while( TRUE) {
		int err;

		bsd_init_kprintf("calling setconf\n");
		setconf();

		bsd_init_kprintf("vfs_mountroot\n");
		if (0 == (err = vfs_mountroot()))
			break;
		rootdevice[0] = '\0';
#if NFSCLIENT
		if (mountroot == netboot_mountroot) {
			PE_display_icon( 0, "noroot");  /* XXX a netboot-specific icon would be nicer */
			vc_progress_set(FALSE, 0);
			for (i=1; 1; i*=2) {
				printf("bsd_init: failed to mount network root, error %d, %s\n",
					err, PE_boot_args());
				printf("We are hanging here...\n");
				IOSleep(i*60*1000);
			}
			/*NOTREACHED*/
		}
#endif
		printf("cannot mount root, errno = %d\n", err);
		boothowto |= RB_ASKNAME;
	}

	IOSecureBSDRoot(rootdevice);

	context.vc_thread = current_thread();
	context.vc_ucred = kernproc->p_ucred;
	mountlist.tqh_first->mnt_flag |= MNT_ROOTFS;

	bsd_init_kprintf("calling VFS_ROOT\n");
	/* Get the vnode for '/'.  Set fdp->fd_fd.fd_cdir to reference it. */
	if (VFS_ROOT(mountlist.tqh_first, &rootvnode, &context))
		panic("bsd_init: cannot find root vnode: %s", PE_boot_args());
	rootvnode->v_flag |= VROOT;
	(void)vnode_ref(rootvnode);
	(void)vnode_put(rootvnode);
	filedesc0.fd_cdir = rootvnode;

#if NFSCLIENT
	if (mountroot == netboot_mountroot) {
		int err;
		/* post mount setup */
		if ((err = netboot_setup()) != 0) {
			PE_display_icon( 0, "noroot");  /* XXX a netboot-specific icon would be nicer */
			vc_progress_set(FALSE, 0);
			for (i=1; 1; i*=2) {
				printf("bsd_init: NetBoot could not find root, error %d: %s\n",
					err, PE_boot_args());
				printf("We are hanging here...\n");
				IOSleep(i*60*1000);
			}
			/*NOTREACHED*/
		}
	}
#endif
	

#if CONFIG_IMAGEBOOT
	/*
	 * See if a system disk image is present. If so, mount it and
	 * switch the root vnode to point to it
	 */ 
  
	if(imageboot_needed()) {
		int err;

		/* An image was found */
		if((err = imageboot_setup())) {
			/*
			 * this is not fatal. Keep trying to root
			 * off the original media
			 */
			printf("%s: imageboot could not find root, %d\n",
				__FUNCTION__, err);
		}
	}
#endif /* CONFIG_IMAGEBOOT */
  
	/* set initial time; all other resource data is  already zero'ed */
	microtime(&kernproc->p_start);
	kernproc->p_stats->p_start = kernproc->p_start;	/* for compat */

#if DEVFS
	{
	    char mounthere[] = "/dev";	/* !const because of internal casting */

	    bsd_init_kprintf("calling devfs_kernel_mount\n");
	    devfs_kernel_mount(mounthere);
	}
#endif /* DEVFS */
	
	/* Initialize signal state for process 0. */
	bsd_init_kprintf("calling siginit\n");
	siginit(kernproc);

	bsd_init_kprintf("calling bsd_utaskbootstrap\n");
	bsd_utaskbootstrap();

#if defined(__LP64__)
	kernproc->p_flag |= P_LP64;
	printf("Kernel is LP64\n");
#endif
#if __i386__ || __x86_64__
	/* this should be done after the root filesystem is mounted */
	error = set_archhandler(kernproc, CPU_TYPE_POWERPC);
	// 10/30/08 - gab: <rdar://problem/6324501>
	// if default 'translate' can't be found, see if the understudy is available
	if (ENOENT == error) {
		strlcpy(exec_archhandler_ppc.path, kRosettaStandIn_str, MAXPATHLEN);
		error = set_archhandler(kernproc, CPU_TYPE_POWERPC);
	}
	if (error) /* XXX make more generic */
		exec_archhandler_ppc.path[0] = 0;
#endif	

	bsd_init_kprintf("calling mountroot_post_hook\n");

	/* invoke post-root-mount hook */
	if (mountroot_post_hook != NULL)
		mountroot_post_hook();

#if 0 /* not yet */
	consider_zone_gc(FALSE);
#endif

	bsd_init_kprintf("done\n");
}