/* * Copyright (c) 2000-2020 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ * * * Copyright (c) 1982, 1986, 1989, 1991, 1992, 1993 * The Regents of the University of California. All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)init_main.c 8.16 (Berkeley) 5/14/95 */ /* * * Mach Operating System * Copyright (c) 1987 Carnegie-Mellon University * All rights reserved. The CMU software License Agreement specifies * the terms and conditions for use and redistribution. */ /* * NOTICE: This file was modified by McAfee Research in 2004 to introduce * support for mandatory and extensible security protections. This notice * is included in support of clause 2.2 (b) of the Apple Public License, * Version 2.0. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* for ux_handler_setup() */ #include #include #include #include #include /* for pseudo_inits */ #include #include #include #include #include #include #include #include #include #include /* for thread_resume() */ #include /* for mcache_init() */ #include /* for mbinit() */ #include /* for knote_init() */ #include /* for eventhandler_init() */ #include /* for memorystatus_init() */ #include /* for memorystatus_freeze_init() */ #include /* for aio_init() */ #include /* for psem_cache_init() */ #include /* for dlil_init() */ #include /* for proto_kpi_init() */ #include /* for iptap_init() */ #include /* for socketinit() */ #include /* for domaininit() */ #include /* for thread_wakeup() */ #include /* for ether_family_init() */ #include /* for gif_init() */ #include /* for devfs_kernel_mount() */ #include /* for kmem_suballoc() */ #include /* for log_setsize() */ #include /* proc_uuid_policy_init() */ #include /* flow_divert_init() */ #include /* for cfil_init() */ #include /* for necp_init() */ #include /* for netagent_init() */ #include /* for pkt_mnglr_init() */ #include /* for utun_register_control() */ #include /* for ipsec_register_control() */ #include /* for net_str_id_init() */ #include /* for netsrc_init() */ #include /* for nstat_init() */ #include /* for tcp_cc_init() */ #include /* for mptcp_control_register() */ #include /* for nwk_wq_init */ #include /* for restricted_in_port_init() */ #include /* for assert() */ #include /* for init_system_override() */ #include /* for lf_init() */ #include #include #if CONFIG_MACF #include #include /* mac_init_bsd() */ #include /* mac_update_task_label() */ #endif #include #if CONFIG_NETBOOT #include #endif #if CONFIG_IMAGEBOOT #include #endif #if PFLOG #include #endif #include #include #include #if CONFIG_XNUPOST #include #endif void * get_user_regs(thread_t); /* XXX kludge for */ void IOKitInitializeTime(void); /* XXX */ void IOSleep(unsigned int); /* XXX */ void loopattach(void); /* XXX */ const char *const copyright = "Copyright (c) 1982, 1986, 1989, 1991, 1993\n\t" "The Regents of the University of California. " "All rights reserved.\n\n"; /* Components of the first process -- never freed. */ struct proc proc0 = { .p_comm = "kernel_task", .p_name = "kernel_task" }; struct session session0; struct pgrp pgrp0; struct filedesc filedesc0; struct plimit limit0; struct pstats pstats0; struct sigacts sigacts0; SECURITY_READ_ONLY_LATE(proc_t) kernproc = &proc0; proc_t XNU_PTRAUTH_SIGNED_PTR("initproc") initproc; long tk_cancc; long tk_nin; long tk_nout; long tk_rawcc; int lock_trace = 0; /* Global variables to make pstat happy. We do swapping differently */ int nswdev, nswap; int nswapmap; void *swapmap; struct swdevt swdevt[1]; static LCK_GRP_DECLARE(hostname_lck_grp, "hostname"); LCK_MTX_DECLARE(hostname_lock, &hostname_lck_grp); LCK_MTX_DECLARE(domainname_lock, &hostname_lck_grp); dev_t rootdev; /* device of the root */ dev_t dumpdev; /* device to take dumps on */ long dumplo; /* offset into dumpdev */ long hostid; char hostname[MAXHOSTNAMELEN]; char domainname[MAXDOMNAMELEN]; char rootdevice[DEVMAXNAMESIZE]; struct vnode *rootvp; bool rootvp_is_ssd = false; int boothowto; int minimalboot = 0; #if CONFIG_DARKBOOT int darkboot = 0; #endif #if __arm64__ int legacy_footprint_entitlement_mode = LEGACY_FOOTPRINT_ENTITLEMENT_IGNORE; #endif /* __arm64__ */ #if PROC_REF_DEBUG __private_extern__ int proc_ref_tracking_disabled = 0; /* disable panics on leaked proc refs across syscall boundary */ #endif extern kern_return_t IOFindBSDRoot(char *, unsigned int, dev_t *, u_int32_t *); extern void IOSecureBSDRoot(const char * rootName); extern kern_return_t IOKitBSDInit(void ); extern boolean_t IOSetRecoveryBoot(bsd_bootfail_mode_t, uuid_t, boolean_t); extern void kminit(void); extern void bsd_bufferinit(void); extern void oslog_setsize(int size); extern void throttle_init(void); #if CONFIG_LOCKERBOOT #define LOCKER_PROTOBOOT_MOUNT "/protoboot" const char kernel_protoboot_mount[] = LOCKER_PROTOBOOT_MOUNT; extern int mount_locker_protoboot(const char *fsname, const char *mntpoint, const char *pbdevpath); #endif extern int ncl; #if DEVELOPMENT || DEBUG extern int syscallfilter_disable; #endif // DEVELOPMENT || DEBUG vm_map_t bsd_pageable_map; vm_map_t mb_map; static int bsd_simul_execs; static int bsd_pageable_map_size; __private_extern__ int execargs_cache_size = 0; __private_extern__ int execargs_free_count = 0; __private_extern__ vm_offset_t * execargs_cache = NULL; void bsd_exec_setup(int); __private_extern__ int bootarg_execfailurereports = 0; #if __x86_64__ __private_extern__ int bootarg_no32exec = 1; #endif __private_extern__ int bootarg_vnode_cache_defeat = 0; #if CONFIG_JETSAM && (DEVELOPMENT || DEBUG) __private_extern__ int bootarg_no_vnode_jetsam = 0; #endif /* CONFIG_JETSAM && (DEVELOPMENT || DEBUG) */ __private_extern__ int bootarg_no_vnode_drain = 0; /* * Prevent kernel-based ASLR from being used, for testing. */ #if DEVELOPMENT || DEBUG __private_extern__ int bootarg_disable_aslr = 0; #endif /* * Allow an alternate dyld to be used for testing. */ #if DEVELOPMENT || DEBUG char dyld_alt_path[MAXPATHLEN]; int use_alt_dyld = 0; extern uint64_t dyld_flags; #endif int cmask = CMASK; extern int customnbuf; kern_return_t bsd_autoconf(void); void bsd_utaskbootstrap(void); static void parse_bsd_args(void); #if CONFIG_DEV_KMEM extern void dev_kmem_init(void); #endif extern void select_waitq_init(void); static void process_name(const char *, proc_t); static void setconf(void); #if CONFIG_BASESYSTEMROOT static int bsd_find_basesystem_dmg(char *bsdmgpath_out, bool *rooted_dmg, bool *skip_signature_check); static boolean_t bsdmgroot_bootable(void); #endif // CONFIG_BASESYSTEMROOT static bool bsd_rooted_ramdisk(void); #if SYSV_SHM extern void sysv_shm_lock_init(void); #endif #if SYSV_SEM extern void sysv_sem_lock_init(void); #endif #if SYSV_MSG extern void sysv_msg_lock_init(void); #endif extern void ulock_initialize(void); #if CONFIG_MACF #if defined (__i386__) || defined (__x86_64__) /* MACF policy_check configuration flags; see policy_check.c for details */ int policy_check_flags = 0; extern int check_policy_init(int); #endif #endif /* CONFIG_MACF */ /* If we are using CONFIG_DTRACE */ #if CONFIG_DTRACE extern void dtrace_postinit(void); #endif /* * Initialization code. * Called from cold start routine as * soon as a stack and segmentation * have been established. * Functions: * turn on clock * hand craft 0th process * call all initialization routines * hand craft 1st user process */ /* * Sets the name for the given task. */ static void process_name(const char *s, proc_t p) { strlcpy(p->p_comm, s, sizeof(p->p_comm)); strlcpy(p->p_name, s, sizeof(p->p_name)); } /* To allow these values to be patched, they're globals here */ #include struct rlimit vm_initial_limit_stack = { .rlim_cur = DFLSSIZ, .rlim_max = MAXSSIZ - PAGE_MAX_SIZE }; struct rlimit vm_initial_limit_data = { .rlim_cur = DFLDSIZ, .rlim_max = MAXDSIZ }; struct rlimit vm_initial_limit_core = { .rlim_cur = DFLCSIZ, .rlim_max = MAXCSIZ }; extern struct os_refgrp rlimit_refgrp; extern thread_t cloneproc(task_t, coalition_t, proc_t, int, int); extern int (*mountroot)(void); LCK_ATTR_DECLARE(proc_lck_attr, 0, 0); LCK_GRP_DECLARE(proc_lck_grp, "proc"); LCK_GRP_DECLARE(proc_slock_grp, "proc-slock"); LCK_GRP_DECLARE(proc_fdmlock_grp, "proc-fdmlock"); LCK_GRP_DECLARE(proc_mlock_grp, "proc-mlock"); LCK_GRP_DECLARE(proc_ucred_mlock_grp, "proc-ucred-mlock"); LCK_GRP_DECLARE(proc_dirslock_grp, "proc-dirslock"); LCK_GRP_DECLARE(proc_kqhashlock_grp, "proc-kqhashlock"); LCK_GRP_DECLARE(proc_knhashlock_grp, "proc-knhashlock"); LCK_MTX_DECLARE_ATTR(proc_list_mlock, &proc_mlock_grp, &proc_lck_attr); #if XNU_TARGET_OS_OSX /* hook called after root is mounted XXX temporary hack */ void (*mountroot_post_hook)(void); void (*unmountroot_pre_hook)(void); #endif void set_rootvnode(vnode_t); extern lck_rw_t rootvnode_rw_lock; /* called with an iocount and usecount on new_rootvnode */ void set_rootvnode(vnode_t new_rootvnode) { mount_t new_mount = (new_rootvnode != NULL) ? new_rootvnode->v_mount : NULL; vnode_t new_devvp = (new_mount != NULL) ? new_mount->mnt_devvp : NULL; vnode_t old_rootvnode = rootvnode; new_rootvnode->v_flag |= VROOT; rootvp = new_devvp; rootvnode = new_rootvnode; filedesc0.fd_cdir = new_rootvnode; if (new_devvp != NULL) { rootdev = vnode_specrdev(new_devvp); } else if (new_mount != NULL) { rootdev = vfs_statfs(new_mount)->f_fsid.val[0]; /* like ATTR_CMN_DEVID */ } else { rootdev = NODEV; } if (old_rootvnode) { vnode_rele(old_rootvnode); } } #define RAMDEV "md0" bool bsd_rooted_ramdisk(void) { bool is_ramdisk = false; char *dev_path = zalloc(ZV_NAMEI); if (dev_path == NULL) { panic("failed to allocate devpath string! \n"); } if (PE_parse_boot_argn("rd", dev_path, MAXPATHLEN)) { if (strncmp(dev_path, RAMDEV, strlen(RAMDEV)) == 0) { is_ramdisk = true; } } zfree(ZV_NAMEI, dev_path); return is_ramdisk; } /* * 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; struct vfs_context context; kern_return_t ret; struct ucred temp_cred; struct posix_cred temp_pcred; vnode_t init_rootvnode = NULLVP; #if CONFIG_NETBOOT || CONFIG_IMAGEBOOT boolean_t netboot = FALSE; #endif #if CONFIG_LOCKERBOOT vnode_t pbvn = NULLVP; mount_t pbmnt = NULL; char *pbdevp = NULL; char pbdevpath[64]; char pbfsname[MFSNAMELEN]; const char *slash_dev = NULL; #endif #define DEBUG_BSDINIT 0 #if DEBUG_BSDINIT #define bsd_init_kprintf(x, ...) kprintf("bsd_init: " x, ## __VA_ARGS__) #else #define bsd_init_kprintf(x, ...) #endif throttle_init(); printf(copyright); 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(); /* 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 attribute */ 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); lck_rw_init(&kernproc->p_dirs_lock, &proc_dirslock_grp, &proc_lck_attr); assert(bsd_simul_execs != 0); execargs_cache_size = bsd_simul_execs; execargs_free_count = bsd_simul_execs; execargs_cache = zalloc_permanent(bsd_simul_execs * sizeof(vm_offset_t), ZALIGN(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(); #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 */ ulock_initialize(); /* * 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); lck_mtx_init(&pgrp0.pg_mlock, &proc_mlock_grp, &proc_lck_attr); /* 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; lck_mtx_init(&session0.s_mlock, &proc_mlock_grp, &proc_lck_attr); LIST_INSERT_HEAD(SESSHASH(0), &session0, s_hash); proc_list_unlock(); #if CONFIG_PERSONAS kernproc->p_persona = NULL; #endif kernproc->task = kernel_task; kernproc->p_stat = SRUN; kernproc->p_flag = P_SYSTEM; kernproc->p_lflag = 0; kernproc->p_ladvflag = 0; #if defined(__LP64__) kernproc->p_flag |= P_LP64; #endif #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(); vfs_set_context_kernel(&ut->uu_context); TAILQ_INIT(&kernproc->p_aio_activeq); TAILQ_INIT(&kernproc->p_aio_doneq); kernproc->p_aio_total_count = 0; #if CONFIG_MACF mac_cred_label_associate_kernel(kernproc->p_ucred); #endif /* Create the file descriptor table. */ kernproc->p_fd = &filedesc0; filedesc0.fd_cmask = (mode_t)cmask; filedesc0.fd_knlistsize = 0; filedesc0.fd_knlist = NULL; filedesc0.fd_knhash = NULL; filedesc0.fd_knhashmask = 0; lck_mtx_init(&filedesc0.fd_kqhashlock, &proc_kqhashlock_grp, &proc_lck_attr); lck_mtx_init(&filedesc0.fd_knhashlock, &proc_knhashlock_grp, &proc_lck_attr); /* Create the limits structures. */ kernproc->p_limit = &limit0; for (i = 0; i < sizeof(kernproc->p_limit->pl_rlimit) / sizeof(kernproc->p_limit->pl_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; os_ref_init_count(&limit0.pl_refcnt, &rlimit_refgrp, 1); kernproc->p_stats = &pstats0; kernproc->p_sigacts = &sigacts0; kernproc->p_subsystem_root_path = NULL; /* * 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_MAP_KERNEL_FLAGS_NONE, 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 calendar. */ bsd_init_kprintf("calling IOKitInitializeTime\n"); IOKitInitializeTime(); /* 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 */ restricted_in_port_init(); #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 event handler */ bsd_init_kprintf("calling eventhandler_init\n"); eventhandler_init(); /* Initialize for async IO */ bsd_init_kprintf("calling aio_init\n"); aio_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 select_waitq_init\n"); select_waitq_init(); /* * Initialize protocols. Block reception of incoming packets * until everything is ready. */ #if NETWORKING bsd_init_kprintf("calling nwk_wq_init\n"); nwk_wq_init(); 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 */ #if NETWORKING #if NECP /* Initialize Network Extension Control Policies */ necp_init(); #endif netagent_init(); #endif /* NETWORKING */ kernproc->p_fd->fd_cdir = NULL; kernproc->p_fd->fd_rdir = NULL; #if defined (__x86_64__) && (DEBUG || DEVELOPMENT) hvg_bsd_init(); #endif /* DEBUG || DEVELOPMENT */ #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 sysctl_mib_init\n"); sysctl_mib_init(); 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 #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 #if CONTENT_FILTER cfil_init(); #endif #if PACKET_MANGLER pkt_mnglr_init(); #endif /* * Register subsystems with kernel control handlers */ utun_register_control(); #if IPSEC ipsec_register_control(); #endif /* IPSEC */ netsrc_init(); nstat_init(); tcp_cc_init(); #if MPTCP mptcp_control_register(); #endif /* MPTCP */ /* * The the networking stack is now initialized so it is a good time to call * the clients that are waiting for the networking stack to be usable. */ bsd_init_kprintf("calling net_init_run\n"); net_init_run(); #endif /* NETWORKING */ 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 CONFIG_NETBOOT netboot = (mountroot == netboot_mountroot); #endif bsd_init_kprintf("vfs_mountroot\n"); if (0 == (err = vfs_mountroot())) { break; } rootdevice[0] = '\0'; #if CONFIG_NETBOOT 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, &init_rootvnode, &context)) { panic("bsd_init: cannot find root vnode: %s", PE_boot_args()); } (void)vnode_ref(init_rootvnode); (void)vnode_put(init_rootvnode); lck_rw_lock_exclusive(&rootvnode_rw_lock); set_rootvnode(init_rootvnode); lck_rw_unlock_exclusive(&rootvnode_rw_lock); init_rootvnode = NULLVP; /* use rootvnode after this point */ if (!bsd_rooted_ramdisk()) { #if CONFIG_IMAGEBOOT #if XNU_TARGET_OS_OSX && defined(__arm64__) /* Apple Silicon MacOS */ if (!imageboot_desired()) { /* enforce sealedness */ int autherr = VNOP_IOCTL(rootvnode, FSIOC_KERNEL_ROOTAUTH, NULL, 0, vfs_context_kernel()); if (autherr) { panic("rootvp not authenticated after mounting \n"); } } #endif // TARGET_OS_OSX && arm64 #endif // config_imageboot /* Otherwise, noop */ } #if CONFIG_NETBOOT 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 #if CONFIG_LOCKERBOOT /* * Stash the protoboot vnode, mount, filesystem name, and device name for * later use. Note that the mount-from name may not have the "/dev/" * component, so we must sniff out this condition and add it as needed. */ pbvn = rootvnode; pbmnt = pbvn->v_mount; pbdevp = vfs_statfs(pbmnt)->f_mntfromname; slash_dev = strnstr(pbdevp, "/dev/", strlen(pbdevp)); if (slash_dev) { /* * If the old root is a snapshot mount, it will have the form: * * com.apple.os.update-@ * * So we just search the mntfromname for any occurrence of "/dev/" and * grab that as the device path. The image boot code needs a dev node to * do the re-mount, so we cannot directly mount the snapshot as the * protoboot volume currently. */ strlcpy(pbdevpath, slash_dev, sizeof(pbdevpath)); } else { snprintf(pbdevpath, sizeof(pbdevpath), "/dev/%s", pbdevp); } bsd_init_kprintf("protoboot mount-from: %s\n", pbdevp); bsd_init_kprintf("protoboot dev path: %s\n", pbdevpath); strlcpy(pbfsname, pbmnt->mnt_vtable->vfc_name, sizeof(pbfsname)); #endif /* * See if a system disk image is present. If so, mount it and * switch the root vnode to point to it */ imageboot_type_t imageboot_type = imageboot_needed(); if (netboot == FALSE && imageboot_type) { /* * An image was found. No turning back: we're booted * with a kernel from the disk image. */ bsd_init_kprintf("doing image boot: type = %d\n", imageboot_type); imageboot_setup(imageboot_type); } #if CONFIG_LOCKERBOOT if (imageboot_type == IMAGEBOOT_LOCKER) { bsd_init_kprintf("booting from locker\n"); if (vnode_tag(rootvnode) != VT_LOCKERFS) { panic("root filesystem not a locker: fsname = %s", rootvnode->v_mount->mnt_vtable->vfc_name); } } #endif /* CONFIG_LOCKERBOOT */ #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 */ #if CONFIG_BASESYSTEMROOT #if CONFIG_IMAGEBOOT if (bsdmgroot_bootable()) { int error; bool rooted_dmg = false; bool skip_signature_check = false; printf("trying to find and mount BaseSystem dmg as root volume\n"); #if DEVELOPMENT || DEBUG printf("(set boot-arg -nobsdmgroot to avoid this)\n"); #endif // DEVELOPMENT || DEBUG char *dmgpath = NULL; dmgpath = zalloc_flags(ZV_NAMEI, Z_ZERO | Z_WAITOK); if (dmgpath == NULL) { panic("%s: M_NAMEI zone exhausted", __FUNCTION__); } error = bsd_find_basesystem_dmg(dmgpath, &rooted_dmg, &skip_signature_check); if (error) { bsd_init_kprintf("failed to to find BaseSystem dmg: error = %d\n", error); } else { PE_parse_boot_argn("bsdmgpath", dmgpath, sizeof(dmgpath)); bsd_init_kprintf("found BaseSystem dmg at: %s\n", dmgpath); error = imageboot_pivot_image(dmgpath, IMAGEBOOT_DMG, "/System/Volumes/BaseSystem", "System/Volumes/macOS", rooted_dmg, skip_signature_check); if (error) { bsd_init_kprintf("couldn't mount BaseSystem dmg: error = %d", error); } } zfree(ZV_NAMEI, dmgpath); } #else /* CONFIG_IMAGEBOOT */ #error CONFIG_BASESYSTEMROOT requires CONFIG_IMAGEBOOT #endif /* CONFIG_IMAGEBOOT */ #endif /* CONFIG_BASESYSTEMROOT */ #if CONFIG_LOCKERBOOT /* * We need to wait until devfs is up before remounting the protoboot volume * within the locker so that it can have a real devfs vnode backing it. */ if (imageboot_type == IMAGEBOOT_LOCKER) { bsd_init_kprintf("re-mounting protoboot volume\n"); int error = mount_locker_protoboot(pbfsname, LOCKER_PROTOBOOT_MOUNT, pbdevpath); if (error) { panic("failed to mount protoboot volume: dev path = %s, error = %d", pbdevpath, error); } } #endif /* CONFIG_LOCKERBOOT */ /* Initialize signal state for process 0. */ bsd_init_kprintf("calling siginit\n"); siginit(kernproc); bsd_init_kprintf("calling bsd_utaskbootstrap\n"); bsd_utaskbootstrap(); pal_kernel_announce(); bsd_init_kprintf("calling mountroot_post_hook\n"); #if XNU_TARGET_OS_OSX /* invoke post-root-mount hook */ if (mountroot_post_hook != NULL) { mountroot_post_hook(); } #endif #if 0 /* not yet */ consider_zone_gc(FALSE); #endif bsd_init_kprintf("done\n"); } void bsdinit_task(void) { proc_t p = current_proc(); process_name("init", p); /* Set up exception-to-signal reflection */ ux_handler_setup(); #if CONFIG_MACF mac_cred_label_associate_user(p->p_ucred); #endif vm_init_before_launchd(); #if CONFIG_XNUPOST int result = bsd_list_tests(); result = bsd_do_post(); if (result != 0) { panic("bsd_do_post: Tests failed with result = 0x%08x\n", result); } #endif bsd_init_kprintf("bsd_do_post - done"); load_init_program(p); lock_trace = 1; } kern_return_t bsd_autoconf(void) { kprintf("bsd_autoconf: calling kminit\n"); kminit(); /* * Early startup for bsd pseudodevices. */ { struct pseudo_init *pi; for (pi = pseudo_inits; pi->ps_func; pi++) { (*pi->ps_func)(pi->ps_count); } } return IOKitBSDInit(); } #include /* for MAXPARTITIONS */ static void setconf(void) { u_int32_t flags; kern_return_t err; err = IOFindBSDRoot(rootdevice, sizeof(rootdevice), &rootdev, &flags); if (err) { printf("setconf: IOFindBSDRoot returned an error (%d);" "setting rootdevice to 'sd0a'.\n", err); /* XXX DEBUG TEMP */ rootdev = makedev( 6, 0 ); strlcpy(rootdevice, "sd0a", sizeof(rootdevice)); flags = 0; } #if CONFIG_NETBOOT if (flags & 1) { /* network device */ mountroot = netboot_mountroot; } else { #endif /* otherwise have vfs determine root filesystem */ mountroot = NULL; #if CONFIG_NETBOOT } #endif } /* * Boot into the flavor of Recovery dictated by `mode`. */ boolean_t bsd_boot_to_recovery(bsd_bootfail_mode_t mode, uuid_t volume_uuid, boolean_t reboot) { return IOSetRecoveryBoot(mode, volume_uuid, reboot); } void bsd_utaskbootstrap(void) { thread_t thread; struct uthread *ut; /* * Clone the bootstrap process from the kernel process, without * inheriting either task characteristics or memory from the kernel; */ thread = cloneproc(TASK_NULL, COALITION_NULL, kernproc, FALSE, TRUE); /* Hold the reference as it will be dropped during shutdown */ initproc = proc_find(1); #if __PROC_INTERNAL_DEBUG if (initproc == PROC_NULL) { panic("bsd_utaskbootstrap: initproc not set\n"); } #endif zalloc_first_proc_made(); /* * Since we aren't going back out the normal way to our parent, * we have to drop the transition locks explicitly. */ proc_signalend(initproc, 0); proc_transend(initproc, 0); ut = (struct uthread *)get_bsdthread_info(thread); ut->uu_sigmask = 0; act_set_astbsd(thread); task_clear_return_wait(get_threadtask(thread), TCRW_CLEAR_ALL_WAIT); } static void parse_bsd_args(void) { char namep[48]; int msgbuf; if (PE_parse_boot_argn("-s", namep, sizeof(namep))) { boothowto |= RB_SINGLE; } if (PE_parse_boot_argn("-x", namep, sizeof(namep))) { /* safe boot */ boothowto |= RB_SAFEBOOT; } if (PE_parse_boot_argn("-minimalboot", namep, sizeof(namep))) { /* * -minimalboot indicates that we want userspace to be bootstrapped to a * minimal environment. What constitutes minimal is up to the bootstrap * process. */ minimalboot = 1; } #if __x86_64__ int no32exec; /* disable 32 bit grading */ if (PE_parse_boot_argn("no32exec", &no32exec, sizeof(no32exec))) { bootarg_no32exec = !!no32exec; } #endif int execfailure_crashreports; /* enable crash reports on various exec failures */ if (PE_parse_boot_argn("execfailurecrashes", &execfailure_crashreports, sizeof(execfailure_crashreports))) { bootarg_execfailurereports = !!execfailure_crashreports; } /* disable vnode_cache_is_authorized() by setting vnode_cache_defeat */ if (PE_parse_boot_argn("-vnode_cache_defeat", namep, sizeof(namep))) { bootarg_vnode_cache_defeat = 1; } #if DEVELOPMENT || DEBUG if (PE_parse_boot_argn("-disable_aslr", namep, sizeof(namep))) { bootarg_disable_aslr = 1; } #endif PE_parse_boot_argn("ncl", &ncl, sizeof(ncl)); if (PE_parse_boot_argn("nbuf", &max_nbuf_headers, sizeof(max_nbuf_headers))) { customnbuf = 1; } #if CONFIG_MACF #if defined (__i386__) || defined (__x86_64__) PE_parse_boot_argn("policy_check", &policy_check_flags, sizeof(policy_check_flags)); #endif #endif /* CONFIG_MACF */ if (PE_parse_boot_argn("msgbuf", &msgbuf, sizeof(msgbuf))) { log_setsize(msgbuf); oslog_setsize(msgbuf); } if (PE_parse_boot_argn("-novfscache", namep, sizeof(namep))) { nc_disabled = 1; } #if CONFIG_JETSAM && (DEVELOPMENT || DEBUG) if (PE_parse_boot_argn("-no_vnode_jetsam", namep, sizeof(namep))) { bootarg_no_vnode_jetsam = 1; } #endif /* CONFIG_JETSAM && (DEVELOPMENT || DEBUG) */ if (PE_parse_boot_argn("-no_vnode_drain", namep, sizeof(namep))) { bootarg_no_vnode_drain = 1; } #if CONFIG_DARKBOOT /* * The darkboot flag is specified by the bootloader and is stored in * boot_args->bootFlags. This flag is available starting revision 2. */ boot_args *args = (boot_args *) PE_state.bootArgs; if ((args != NULL) && (args->Revision >= kBootArgsRevision2)) { darkboot = (args->bootFlags & kBootFlagsDarkBoot) ? 1 : 0; } else { darkboot = 0; } #endif #if PROC_REF_DEBUG if (PE_parse_boot_argn("-disable_procref_tracking", namep, sizeof(namep))) { proc_ref_tracking_disabled = 1; } #endif PE_parse_boot_argn("sigrestrict", &sigrestrict_arg, sizeof(sigrestrict_arg)); #if DEVELOPMENT || DEBUG if (PE_parse_boot_argn("-no_sigsys", namep, sizeof(namep))) { send_sigsys = false; } if (PE_parse_boot_argn("alt-dyld", dyld_alt_path, sizeof(dyld_alt_path))) { if (strlen(dyld_alt_path) > 0) { use_alt_dyld = 1; } } PE_parse_boot_argn("dyld_flags", &dyld_flags, sizeof(dyld_flags)); if (PE_parse_boot_argn("-disable_syscallfilter", &namep, sizeof(namep))) { syscallfilter_disable = 1; } #if __arm64__ if (PE_parse_boot_argn("legacy_footprint_entitlement_mode", &legacy_footprint_entitlement_mode, sizeof(legacy_footprint_entitlement_mode))) { /* * legacy_footprint_entitlement_mode specifies the behavior we want associated * with the entitlement. The supported modes are: * * LEGACY_FOOTPRINT_ENTITLEMENT_IGNORE: * Indicates that we want every process to have the memory accounting * that is available in iOS 12.0 and beyond. * * LEGACY_FOOTPRINT_ENTITLEMENT_IOS11_ACCT: * Indicates that for every process that has the 'legacy footprint entitlement', * we want to give it the old iOS 11.0 accounting behavior which accounted some * of the process's memory to the kernel. * * LEGACY_FOOTPRINT_ENTITLEMENT_LIMIT_INCREASE: * Indicates that for every process that has the 'legacy footprint entitlement', * we want it to have a higher memory limit which will help them acclimate to the * iOS 12.0 (& beyond) accounting behavior that does the right accounting. * The bonus added to the system-wide task limit to calculate this higher memory limit * is available in legacy_footprint_bonus_mb. */ if (legacy_footprint_entitlement_mode < LEGACY_FOOTPRINT_ENTITLEMENT_IGNORE || legacy_footprint_entitlement_mode > LEGACY_FOOTPRINT_ENTITLEMENT_LIMIT_INCREASE) { legacy_footprint_entitlement_mode = LEGACY_FOOTPRINT_ENTITLEMENT_LIMIT_INCREASE; } } #endif /* __arm64__ */ #endif /* DEVELOPMENT || DEBUG */ } #if CONFIG_BASESYSTEMROOT extern const char* IOGetBootUUID(void); extern const char* IOGetApfsPrebootUUID(void); // Get the UUID of the Preboot (and Recovery) folder associated with the // current boot volume, if applicable. The meaning of the UUID can be // filesystem-dependent and not all kinds of boots will have a UUID. // If available, the string will be returned. It does not need to be // deallocate. (Future: if we need to return the string as a copy that the // caller must free, we'll introduce a new functcion for that.) // NULL will be returned if the current boot has no applicable Preboot UUID. static const char * get_preboot_uuid(void) { const char *maybe_uuid_string; // try IOGetApfsPrebootUUID maybe_uuid_string = IOGetApfsPrebootUUID(); if (maybe_uuid_string) { uuid_t maybe_uuid; int error = uuid_parse(maybe_uuid_string, maybe_uuid); if (error == 0) { return maybe_uuid_string; } } // try IOGetBootUUID maybe_uuid_string = IOGetBootUUID(); if (maybe_uuid_string) { uuid_t maybe_uuid; int error = uuid_parse(maybe_uuid_string, maybe_uuid); if (error == 0) { return maybe_uuid_string; } } // didn't find it return NULL; } #if defined(__arm64__) extern const char *IOGetBootObjectsPath(void); #endif // Find the BaseSystem.dmg to be used as the initial root volume during certain // kinds of boots. // This may mount volumes and lookup vnodes. // The DEVELOPMENT kernel will look for BaseSystem.rooted.dmg first. // If it returns 0 (no error), then it also writes the absolute path to the // BaseSystem.dmg into its argument (which must be a char[MAXPATHLEN]). static int bsd_find_basesystem_dmg(char *bsdmgpath_out, bool *rooted_dmg, bool *skip_signature_check) { int error; size_t len; char *dmgbasepath; char *dmgpath; bool allow_rooted_dmg = false; dmgbasepath = zalloc_flags(ZV_NAMEI, Z_ZERO | Z_WAITOK); dmgpath = zalloc_flags(ZV_NAMEI, Z_ZERO | Z_WAITOK); vnode_t imagevp = NULLVP; #if DEVELOPMENT || DEBUG allow_rooted_dmg = true; #endif //must provide output bool if (rooted_dmg && skip_signature_check) { *rooted_dmg = false; *skip_signature_check = false; } else { error = EINVAL; goto done; } error = vfs_mount_recovery(); if (error) { goto done; } len = strlcpy(dmgbasepath, "/System/Volumes/Recovery/", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } if (csr_check(CSR_ALLOW_ANY_RECOVERY_OS) == 0) { *skip_signature_check = true; allow_rooted_dmg = true; } #if defined(__arm64__) const char *boot_obj_path = IOGetBootObjectsPath(); if (boot_obj_path) { if (boot_obj_path[0] == '/') { dmgbasepath[len - 1] = '\0'; } len = strlcat(dmgbasepath, boot_obj_path, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } len = strlcat(dmgbasepath, "/usr/standalone/firmware/", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } if (allow_rooted_dmg) { len = strlcpy(dmgpath, dmgbasepath, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } len = strlcat(dmgpath, "arm64eBaseSystem.rooted.dmg", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } error = vnode_lookup(dmgpath, 0, &imagevp, vfs_context_kernel()); if (error == 0) { *rooted_dmg = true; *skip_signature_check = true; goto done; } memset(dmgpath, 0, MAXPATHLEN); } len = strlcpy(dmgpath, dmgbasepath, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } len = strlcat(dmgpath, "arm64eBaseSystem.dmg", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } error = vnode_lookup(dmgpath, 0, &imagevp, vfs_context_kernel()); if (error == 0) { goto done; } memset(dmgpath, 0, MAXPATHLEN); dmgbasepath[strlen("/System/Volumes/Recovery/")] = '\0'; } #endif // __arm64__ const char *preboot_uuid = get_preboot_uuid(); if (preboot_uuid == NULL) { // no preboot? bail out return EINVAL; } len = strlcat(dmgbasepath, preboot_uuid, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } if (allow_rooted_dmg) { // Try BaseSystem.rooted.dmg len = strlcpy(dmgpath, dmgbasepath, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } len = strlcat(dmgpath, "/BaseSystem.rooted.dmg", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } error = vnode_lookup(dmgpath, 0, &imagevp, vfs_context_kernel()); if (error == 0) { // we found it! success! *rooted_dmg = true; *skip_signature_check = true; goto done; } } // Try BaseSystem.dmg len = strlcpy(dmgpath, dmgbasepath, MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } len = strlcat(dmgpath, "/BaseSystem.dmg", MAXPATHLEN); if (len > MAXPATHLEN) { error = ENAMETOOLONG; goto done; } error = vnode_lookup(dmgpath, 0, &imagevp, vfs_context_kernel()); if (error == 0) { // success! goto done; } done: if (error == 0) { strlcpy(bsdmgpath_out, dmgpath, MAXPATHLEN); } else { bsd_init_kprintf("%s: error %d\n", __func__, error); } if (imagevp != NULLVP) { vnode_put(imagevp); } zfree(ZV_NAMEI, dmgpath); zfree(ZV_NAMEI, dmgbasepath); return error; } static boolean_t bsdmgroot_bootable(void) { #if defined(__arm64__) #define BSDMGROOT_DEFAULT true #else #define BSDMGROOT_DEFAULT false #endif boolean_t resolved = BSDMGROOT_DEFAULT; boolean_t boot_arg_bsdmgroot = false; boolean_t boot_arg_nobsdmgroot = false; int error; mount_t mp; boolean_t root_part_of_volume_group = false; struct vfs_attr vfsattr; mp = rootvnode->v_mount; VFSATTR_INIT(&vfsattr); VFSATTR_WANTED(&vfsattr, f_capabilities); boot_arg_bsdmgroot = PE_parse_boot_argn("-bsdmgroot", NULL, 0); boot_arg_nobsdmgroot = PE_parse_boot_argn("-nobsdmgroot", NULL, 0); error = vfs_getattr(mp, &vfsattr, vfs_context_kernel()); if (!error && VFSATTR_IS_SUPPORTED(&vfsattr, f_capabilities)) { if ((vfsattr.f_capabilities.capabilities[VOL_CAPABILITIES_FORMAT] & VOL_CAP_FMT_VOL_GROUPS) && (vfsattr.f_capabilities.valid[VOL_CAPABILITIES_FORMAT] & VOL_CAP_FMT_VOL_GROUPS)) { root_part_of_volume_group = true; } } boolean_t singleuser = (boothowto & RB_SINGLE) != 0; // Start with the #defined default above. // If booting to single-user mode, default to false, because single- // user mode inside the BaseSystem is probably not what's wanted. // If the 'yes' boot-arg is set, we'll allow that even in single-user // mode, we'll assume you know what you're doing. // The 'no' boot-arg overpowers the 'yes' boot-arg. // In any case, we will not attempt to root from BaseSystem if the // original (booter-chosen) root volume isn't in a volume group. // This is just out of an abundance of caution: if the boot environment // seems to be "something other than a standard install", // we'll be conservative in messing with the root volume. if (singleuser) { resolved = false; } if (boot_arg_bsdmgroot) { resolved = true; } if (boot_arg_nobsdmgroot) { resolved = false; } if (!root_part_of_volume_group) { resolved = false; } return resolved; } #endif // CONFIG_BASESYSTEMROOT void bsd_exec_setup(int scale) { switch (scale) { case 0: case 1: bsd_simul_execs = BSD_SIMUL_EXECS; break; case 2: case 3: bsd_simul_execs = 65; break; case 4: case 5: bsd_simul_execs = 129; break; case 6: case 7: bsd_simul_execs = 257; break; default: bsd_simul_execs = 513; break; } bsd_pageable_map_size = (bsd_simul_execs * BSD_PAGEABLE_SIZE_PER_EXEC); } #if !CONFIG_NETBOOT int netboot_root(void); int netboot_root(void) { return 0; } #endif