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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 | // SPDX-License-Identifier: GPL-2.0-only /* * linux/init/main.c * * Copyright (C) 1991, 1992 Linus Torvalds * * GK 2/5/95 - Changed to support mounting root fs via NFS * Added initrd & change_root: Werner Almesberger & Hans Lermen, Feb '96 * Moan early if gcc is old, avoiding bogus kernels - Paul Gortmaker, May '96 * Simplified starting of init: Michael A. Griffith <grif@acm.org> */ #define DEBUG /* Enable initcall_debug */ #include <linux/types.h> #include <linux/extable.h> #include <linux/module.h> #include <linux/proc_fs.h> #include <linux/binfmts.h> #include <linux/kernel.h> #include <linux/syscalls.h> #include <linux/stackprotector.h> #include <linux/string.h> #include <linux/ctype.h> #include <linux/delay.h> #include <linux/ioport.h> #include <linux/init.h> #include <linux/initrd.h> #include <linux/memblock.h> #include <linux/acpi.h> #include <linux/bootconfig.h> #include <linux/console.h> #include <linux/nmi.h> #include <linux/percpu.h> #include <linux/kmod.h> #include <linux/kprobes.h> #include <linux/vmalloc.h> #include <linux/kernel_stat.h> #include <linux/start_kernel.h> #include <linux/security.h> #include <linux/smp.h> #include <linux/profile.h> #include <linux/kfence.h> #include <linux/rcupdate.h> #include <linux/moduleparam.h> #include <linux/kallsyms.h> #include <linux/writeback.h> #include <linux/cpu.h> #include <linux/cpuset.h> #include <linux/cgroup.h> #include <linux/efi.h> #include <linux/tick.h> #include <linux/sched/isolation.h> #include <linux/interrupt.h> #include <linux/taskstats_kern.h> #include <linux/delayacct.h> #include <linux/unistd.h> #include <linux/utsname.h> #include <linux/rmap.h> #include <linux/mempolicy.h> #include <linux/key.h> #include <linux/page_ext.h> #include <linux/debug_locks.h> #include <linux/debugobjects.h> #include <linux/lockdep.h> #include <linux/kmemleak.h> #include <linux/padata.h> #include <linux/pid_namespace.h> #include <linux/device/driver.h> #include <linux/kthread.h> #include <linux/sched.h> #include <linux/sched/init.h> #include <linux/signal.h> #include <linux/idr.h> #include <linux/kgdb.h> #include <linux/ftrace.h> #include <linux/async.h> #include <linux/shmem_fs.h> #include <linux/slab.h> #include <linux/perf_event.h> #include <linux/ptrace.h> #include <linux/pti.h> #include <linux/blkdev.h> #include <linux/elevator.h> #include <linux/sched/clock.h> #include <linux/sched/task.h> #include <linux/sched/task_stack.h> #include <linux/context_tracking.h> #include <linux/random.h> #include <linux/list.h> #include <linux/integrity.h> #include <linux/proc_ns.h> #include <linux/io.h> #include <linux/cache.h> #include <linux/rodata_test.h> #include <linux/jump_label.h> #include <linux/mem_encrypt.h> #include <linux/kcsan.h> #include <linux/init_syscalls.h> #include <linux/stackdepot.h> #include <asm/io.h> #include <asm/bugs.h> #include <asm/setup.h> #include <asm/sections.h> #include <asm/cacheflush.h> #define CREATE_TRACE_POINTS #include <trace/events/initcall.h> #include <kunit/test.h> static int kernel_init(void *); extern void init_IRQ(void); extern void radix_tree_init(void); /* * Debug helper: via this flag we know that we are in 'early bootup code' * where only the boot processor is running with IRQ disabled. This means * two things - IRQ must not be enabled before the flag is cleared and some * operations which are not allowed with IRQ disabled are allowed while the * flag is set. */ bool early_boot_irqs_disabled __read_mostly; enum system_states system_state __read_mostly; EXPORT_SYMBOL(system_state); /* * Boot command-line arguments */ #define MAX_INIT_ARGS CONFIG_INIT_ENV_ARG_LIMIT #define MAX_INIT_ENVS CONFIG_INIT_ENV_ARG_LIMIT extern void time_init(void); /* Default late time init is NULL. archs can override this later. */ void (*__initdata late_time_init)(void); /* Untouched command line saved by arch-specific code. */ char __initdata boot_command_line[COMMAND_LINE_SIZE]; /* Untouched saved command line (eg. for /proc) */ char *saved_command_line; /* Command line for parameter parsing */ static char *static_command_line; /* Untouched extra command line */ static char *extra_command_line; /* Extra init arguments */ static char *extra_init_args; #ifdef CONFIG_BOOT_CONFIG /* Is bootconfig on command line? */ static bool bootconfig_found; static bool initargs_found; #else # define bootconfig_found false # define initargs_found false #endif static char *execute_command; static char *ramdisk_execute_command = "/init"; /* * Used to generate warnings if static_key manipulation functions are used * before jump_label_init is called. */ bool static_key_initialized __read_mostly; EXPORT_SYMBOL_GPL(static_key_initialized); /* * If set, this is an indication to the drivers that reset the underlying * device before going ahead with the initialization otherwise driver might * rely on the BIOS and skip the reset operation. * * This is useful if kernel is booting in an unreliable environment. * For ex. kdump situation where previous kernel has crashed, BIOS has been * skipped and devices will be in unknown state. */ unsigned int reset_devices; EXPORT_SYMBOL(reset_devices); static int __init set_reset_devices(char *str) { reset_devices = 1; return 1; } __setup("reset_devices", set_reset_devices); static const char *argv_init[MAX_INIT_ARGS+2] = { "init", NULL, }; const char *envp_init[MAX_INIT_ENVS+2] = { "HOME=/", "TERM=linux", NULL, }; static const char *panic_later, *panic_param; extern const struct obs_kernel_param __setup_start[], __setup_end[]; static bool __init obsolete_checksetup(char *line) { const struct obs_kernel_param *p; bool had_early_param = false; p = __setup_start; do { int n = strlen(p->str); if (parameqn(line, p->str, n)) { if (p->early) { /* Already done in parse_early_param? * (Needs exact match on param part). * Keep iterating, as we can have early * params and __setups of same names 8( */ if (line[n] == '\0' || line[n] == '=') had_early_param = true; } else if (!p->setup_func) { pr_warn("Parameter %s is obsolete, ignored\n", p->str); return true; } else if (p->setup_func(line + n)) return true; } p++; } while (p < __setup_end); return had_early_param; } /* * This should be approx 2 Bo*oMips to start (note initial shift), and will * still work even if initially too large, it will just take slightly longer */ unsigned long loops_per_jiffy = (1<<12); EXPORT_SYMBOL(loops_per_jiffy); static int __init debug_kernel(char *str) { console_loglevel = CONSOLE_LOGLEVEL_DEBUG; return 0; } static int __init quiet_kernel(char *str) { console_loglevel = CONSOLE_LOGLEVEL_QUIET; return 0; } early_param("debug", debug_kernel); early_param("quiet", quiet_kernel); static int __init loglevel(char *str) { int newlevel; /* * Only update loglevel value when a correct setting was passed, * to prevent blind crashes (when loglevel being set to 0) that * are quite hard to debug */ if (get_option(&str, &newlevel)) { console_loglevel = newlevel; return 0; } return -EINVAL; } early_param("loglevel", loglevel); #ifdef CONFIG_BLK_DEV_INITRD static void * __init get_boot_config_from_initrd(u32 *_size, u32 *_csum) { u32 size, csum; char *data; u32 *hdr; int i; if (!initrd_end) return NULL; data = (char *)initrd_end - BOOTCONFIG_MAGIC_LEN; /* * Since Grub may align the size of initrd to 4, we must * check the preceding 3 bytes as well. */ for (i = 0; i < 4; i++) { if (!memcmp(data, BOOTCONFIG_MAGIC, BOOTCONFIG_MAGIC_LEN)) goto found; data--; } return NULL; found: hdr = (u32 *)(data - 8); size = le32_to_cpu(hdr[0]); csum = le32_to_cpu(hdr[1]); data = ((void *)hdr) - size; if ((unsigned long)data < initrd_start) { pr_err("bootconfig size %d is greater than initrd size %ld\n", size, initrd_end - initrd_start); return NULL; } /* Remove bootconfig from initramfs/initrd */ initrd_end = (unsigned long)data; if (_size) *_size = size; if (_csum) *_csum = csum; return data; } #else static void * __init get_boot_config_from_initrd(u32 *_size, u32 *_csum) { return NULL; } #endif #ifdef CONFIG_BOOT_CONFIG static char xbc_namebuf[XBC_KEYLEN_MAX] __initdata; #define rest(dst, end) ((end) > (dst) ? (end) - (dst) : 0) static int __init xbc_snprint_cmdline(char *buf, size_t size, struct xbc_node *root) { struct xbc_node *knode, *vnode; char *end = buf + size; const char *val; int ret; xbc_node_for_each_key_value(root, knode, val) { ret = xbc_node_compose_key_after(root, knode, xbc_namebuf, XBC_KEYLEN_MAX); if (ret < 0) return ret; vnode = xbc_node_get_child(knode); if (!vnode) { ret = snprintf(buf, rest(buf, end), "%s ", xbc_namebuf); if (ret < 0) return ret; buf += ret; continue; } xbc_array_for_each_value(vnode, val) { ret = snprintf(buf, rest(buf, end), "%s=\"%s\" ", xbc_namebuf, val); if (ret < 0) return ret; buf += ret; } } return buf - (end - size); } #undef rest /* Make an extra command line under given key word */ static char * __init xbc_make_cmdline(const char *key) { struct xbc_node *root; char *new_cmdline; int ret, len = 0; root = xbc_find_node(key); if (!root) return NULL; /* Count required buffer size */ len = xbc_snprint_cmdline(NULL, 0, root); if (len <= 0) return NULL; new_cmdline = memblock_alloc(len + 1, SMP_CACHE_BYTES); if (!new_cmdline) { pr_err("Failed to allocate memory for extra kernel cmdline.\n"); return NULL; } ret = xbc_snprint_cmdline(new_cmdline, len + 1, root); if (ret < 0 || ret > len) { pr_err("Failed to print extra kernel cmdline.\n"); return NULL; } return new_cmdline; } static u32 boot_config_checksum(unsigned char *p, u32 size) { u32 ret = 0; while (size--) ret += *p++; return ret; } static int __init bootconfig_params(char *param, char *val, const char *unused, void *arg) { if (strcmp(param, "bootconfig") == 0) { bootconfig_found = true; } return 0; } static void __init setup_boot_config(void) { static char tmp_cmdline[COMMAND_LINE_SIZE] __initdata; const char *msg; int pos; u32 size, csum; char *data, *copy, *err; int ret; /* Cut out the bootconfig data even if we have no bootconfig option */ data = get_boot_config_from_initrd(&size, &csum); strlcpy(tmp_cmdline, boot_command_line, COMMAND_LINE_SIZE); err = parse_args("bootconfig", tmp_cmdline, NULL, 0, 0, 0, NULL, bootconfig_params); if (IS_ERR(err) || !bootconfig_found) return; /* parse_args() stops at '--' and returns an address */ if (err) initargs_found = true; if (!data) { pr_err("'bootconfig' found on command line, but no bootconfig found\n"); return; } if (size >= XBC_DATA_MAX) { pr_err("bootconfig size %d greater than max size %d\n", size, XBC_DATA_MAX); return; } if (boot_config_checksum((unsigned char *)data, size) != csum) { pr_err("bootconfig checksum failed\n"); return; } copy = memblock_alloc(size + 1, SMP_CACHE_BYTES); if (!copy) { pr_err("Failed to allocate memory for bootconfig\n"); return; } memcpy(copy, data, size); copy[size] = '\0'; ret = xbc_init(copy, &msg, &pos); if (ret < 0) { if (pos < 0) pr_err("Failed to init bootconfig: %s.\n", msg); else pr_err("Failed to parse bootconfig: %s at %d.\n", msg, pos); } else { pr_info("Load bootconfig: %d bytes %d nodes\n", size, ret); /* keys starting with "kernel." are passed via cmdline */ extra_command_line = xbc_make_cmdline("kernel"); /* Also, "init." keys are init arguments */ extra_init_args = xbc_make_cmdline("init"); } return; } #else static void __init setup_boot_config(void) { /* Remove bootconfig data from initrd */ get_boot_config_from_initrd(NULL, NULL); } static int __init warn_bootconfig(char *str) { pr_warn("WARNING: 'bootconfig' found on the kernel command line but CONFIG_BOOT_CONFIG is not set.\n"); return 0; } early_param("bootconfig", warn_bootconfig); #endif /* Change NUL term back to "=", to make "param" the whole string. */ static void __init repair_env_string(char *param, char *val) { if (val) { /* param=val or param="val"? */ if (val == param+strlen(param)+1) val[-1] = '='; else if (val == param+strlen(param)+2) { val[-2] = '='; memmove(val-1, val, strlen(val)+1); } else BUG(); } } /* Anything after -- gets handed straight to init. */ static int __init set_init_arg(char *param, char *val, const char *unused, void *arg) { unsigned int i; if (panic_later) return 0; repair_env_string(param, val); for (i = 0; argv_init[i]; i++) { if (i == MAX_INIT_ARGS) { panic_later = "init"; panic_param = param; return 0; } } argv_init[i] = param; return 0; } /* * Unknown boot options get handed to init, unless they look like * unused parameters (modprobe will find them in /proc/cmdline). */ static int __init unknown_bootoption(char *param, char *val, const char *unused, void *arg) { size_t len = strlen(param); repair_env_string(param, val); /* Handle obsolete-style parameters */ if (obsolete_checksetup(param)) return 0; /* Unused module parameter. */ if (strnchr(param, len, '.')) return 0; if (panic_later) return 0; if (val) { /* Environment option */ unsigned int i; for (i = 0; envp_init[i]; i++) { if (i == MAX_INIT_ENVS) { panic_later = "env"; panic_param = param; } if (!strncmp(param, envp_init[i], len+1)) break; } envp_init[i] = param; } else { /* Command line option */ unsigned int i; for (i = 0; argv_init[i]; i++) { if (i == MAX_INIT_ARGS) { panic_later = "init"; panic_param = param; } } argv_init[i] = param; } return 0; } static int __init init_setup(char *str) { unsigned int i; execute_command = str; /* * In case LILO is going to boot us with default command line, * it prepends "auto" before the whole cmdline which makes * the shell think it should execute a script with such name. * So we ignore all arguments entered _before_ init=... [MJ] */ for (i = 1; i < MAX_INIT_ARGS; i++) argv_init[i] = NULL; return 1; } __setup("init=", init_setup); static int __init rdinit_setup(char *str) { unsigned int i; ramdisk_execute_command = str; /* See "auto" comment in init_setup */ for (i = 1; i < MAX_INIT_ARGS; i++) argv_init[i] = NULL; return 1; } __setup("rdinit=", rdinit_setup); #ifndef CONFIG_SMP static const unsigned int setup_max_cpus = NR_CPUS; static inline void setup_nr_cpu_ids(void) { } static inline void smp_prepare_cpus(unsigned int maxcpus) { } #endif /* * We need to store the untouched command line for future reference. * We also need to store the touched command line since the parameter * parsing is performed in place, and we should allow a component to * store reference of name/value for future reference. */ static void __init setup_command_line(char *command_line) { size_t len, xlen = 0, ilen = 0; if (extra_command_line) xlen = strlen(extra_command_line); if (extra_init_args) ilen = strlen(extra_init_args) + 4; /* for " -- " */ len = xlen + strlen(boot_command_line) + 1; saved_command_line = memblock_alloc(len + ilen, SMP_CACHE_BYTES); if (!saved_command_line) panic("%s: Failed to allocate %zu bytes\n", __func__, len + ilen); static_command_line = memblock_alloc(len, SMP_CACHE_BYTES); if (!static_command_line) panic("%s: Failed to allocate %zu bytes\n", __func__, len); if (xlen) { /* * We have to put extra_command_line before boot command * lines because there could be dashes (separator of init * command line) in the command lines. */ strcpy(saved_command_line, extra_command_line); strcpy(static_command_line, extra_command_line); } strcpy(saved_command_line + xlen, boot_command_line); strcpy(static_command_line + xlen, command_line); if (ilen) { /* * Append supplemental init boot args to saved_command_line * so that user can check what command line options passed * to init. */ len = strlen(saved_command_line); if (initargs_found) { saved_command_line[len++] = ' '; } else { strcpy(saved_command_line + len, " -- "); len += 4; } strcpy(saved_command_line + len, extra_init_args); } } /* * We need to finalize in a non-__init function or else race conditions * between the root thread and the init thread may cause start_kernel to * be reaped by free_initmem before the root thread has proceeded to * cpu_idle. * * gcc-3.4 accidentally inlines this function, so use noinline. */ static __initdata DECLARE_COMPLETION(kthreadd_done); noinline void __ref rest_init(void) { struct task_struct *tsk; int pid; rcu_scheduler_starting(); /* * We need to spawn init first so that it obtains pid 1, however * the init task will end up wanting to create kthreads, which, if * we schedule it before we create kthreadd, will OOPS. */ pid = kernel_thread(kernel_init, NULL, CLONE_FS); /* * Pin init on the boot CPU. Task migration is not properly working * until sched_init_smp() has been run. It will set the allowed * CPUs for init to the non isolated CPUs. */ rcu_read_lock(); tsk = find_task_by_pid_ns(pid, &init_pid_ns); set_cpus_allowed_ptr(tsk, cpumask_of(smp_processor_id())); rcu_read_unlock(); numa_default_policy(); pid = kernel_thread(kthreadd, NULL, CLONE_FS | CLONE_FILES); rcu_read_lock(); kthreadd_task = find_task_by_pid_ns(pid, &init_pid_ns); rcu_read_unlock(); /* * Enable might_sleep() and smp_processor_id() checks. * They cannot be enabled earlier because with CONFIG_PREEMPTION=y * kernel_thread() would trigger might_sleep() splats. With * CONFIG_PREEMPT_VOLUNTARY=y the init task might have scheduled * already, but it's stuck on the kthreadd_done completion. */ system_state = SYSTEM_SCHEDULING; complete(&kthreadd_done); /* * The boot idle thread must execute schedule() * at least once to get things moving: */ schedule_preempt_disabled(); /* Call into cpu_idle with preempt disabled */ cpu_startup_entry(CPUHP_ONLINE); } /* Check for early params. */ static int __init do_early_param(char *param, char *val, const char *unused, void *arg) { const struct obs_kernel_param *p; for (p = __setup_start; p < __setup_end; p++) { if ((p->early && parameq(param, p->str)) || (strcmp(param, "console") == 0 && strcmp(p->str, "earlycon") == 0) ) { if (p->setup_func(val) != 0) pr_warn("Malformed early option '%s'\n", param); } } /* We accept everything at this stage. */ return 0; } void __init parse_early_options(char *cmdline) { parse_args("early options", cmdline, NULL, 0, 0, 0, NULL, do_early_param); } /* Arch code calls this early on, or if not, just before other parsing. */ void __init parse_early_param(void) { static int done __initdata; static char tmp_cmdline[COMMAND_LINE_SIZE] __initdata; if (done) return; /* All fall through to do_early_param. */ strlcpy(tmp_cmdline, boot_command_line, COMMAND_LINE_SIZE); parse_early_options(tmp_cmdline); done = 1; } void __init __weak arch_post_acpi_subsys_init(void) { } void __init __weak smp_setup_processor_id(void) { } # if THREAD_SIZE >= PAGE_SIZE void __init __weak thread_stack_cache_init(void) { } #endif void __init __weak mem_encrypt_init(void) { } void __init __weak poking_init(void) { } void __init __weak pgtable_cache_init(void) { } bool initcall_debug; core_param(initcall_debug, initcall_debug, bool, 0644); #ifdef TRACEPOINTS_ENABLED static void __init initcall_debug_enable(void); #else static inline void initcall_debug_enable(void) { } #endif /* Report memory auto-initialization states for this boot. */ static void __init report_meminit(void) { const char *stack; if (IS_ENABLED(CONFIG_INIT_STACK_ALL_PATTERN)) stack = "all(pattern)"; else if (IS_ENABLED(CONFIG_INIT_STACK_ALL_ZERO)) stack = "all(zero)"; else if (IS_ENABLED(CONFIG_GCC_PLUGIN_STRUCTLEAK_BYREF_ALL)) stack = "byref_all(zero)"; else if (IS_ENABLED(CONFIG_GCC_PLUGIN_STRUCTLEAK_BYREF)) stack = "byref(zero)"; else if (IS_ENABLED(CONFIG_GCC_PLUGIN_STRUCTLEAK_USER)) stack = "__user(zero)"; else stack = "off"; pr_info("mem auto-init: stack:%s, heap alloc:%s, heap free:%s\n", stack, want_init_on_alloc(GFP_KERNEL) ? "on" : "off", want_init_on_free() ? "on" : "off"); if (want_init_on_free()) pr_info("mem auto-init: clearing system memory may take some time...\n"); } /* * Set up kernel memory allocators */ static void __init mm_init(void) { /* * page_ext requires contiguous pages, * bigger than MAX_ORDER unless SPARSEMEM. */ page_ext_init_flatmem(); init_mem_debugging_and_hardening(); kfence_alloc_pool(); report_meminit(); stack_depot_init(); mem_init(); mem_init_print_info(); /* page_owner must be initialized after buddy is ready */ page_ext_init_flatmem_late(); kmem_cache_init(); kmemleak_init(); pgtable_init(); debug_objects_mem_init(); vmalloc_init(); /* Should be run before the first non-init thread is created */ init_espfix_bsp(); /* Should be run after espfix64 is set up. */ pti_init(); } #ifdef CONFIG_HAVE_ARCH_RANDOMIZE_KSTACK_OFFSET DEFINE_STATIC_KEY_MAYBE_RO(CONFIG_RANDOMIZE_KSTACK_OFFSET_DEFAULT, randomize_kstack_offset); DEFINE_PER_CPU(u32, kstack_offset); static int __init early_randomize_kstack_offset(char *buf) { int ret; bool bool_result; ret = kstrtobool(buf, &bool_result); if (ret) return ret; if (bool_result) static_branch_enable(&randomize_kstack_offset); else static_branch_disable(&randomize_kstack_offset); return 0; } early_param("randomize_kstack_offset", early_randomize_kstack_offset); #endif void __init __weak arch_call_rest_init(void) { rest_init(); } asmlinkage __visible void __init __no_sanitize_address start_kernel(void) { char *command_line; char *after_dashes; set_task_stack_end_magic(&init_task); smp_setup_processor_id(); debug_objects_early_init(); cgroup_init_early(); local_irq_disable(); early_boot_irqs_disabled = true; /* * Interrupts are still disabled. Do necessary setups, then * enable them. */ boot_cpu_init(); page_address_init(); pr_notice("%s", linux_banner); early_security_init(); setup_arch(&command_line); setup_boot_config(); setup_command_line(command_line); setup_nr_cpu_ids(); setup_per_cpu_areas(); smp_prepare_boot_cpu(); /* arch-specific boot-cpu hooks */ boot_cpu_hotplug_init(); build_all_zonelists(NULL); page_alloc_init(); pr_notice("Kernel command line: %s\n", saved_command_line); /* parameters may set static keys */ jump_label_init(); parse_early_param(); after_dashes = parse_args("Booting kernel", static_command_line, __start___param, __stop___param - __start___param, -1, -1, NULL, &unknown_bootoption); if (!IS_ERR_OR_NULL(after_dashes)) parse_args("Setting init args", after_dashes, NULL, 0, -1, -1, NULL, set_init_arg); if (extra_init_args) parse_args("Setting extra init args", extra_init_args, NULL, 0, -1, -1, NULL, set_init_arg); /* * These use large bootmem allocations and must precede * kmem_cache_init() */ setup_log_buf(0); vfs_caches_init_early(); sort_main_extable(); trap_init(); mm_init(); ftrace_init(); /* trace_printk can be enabled here */ early_trace_init(); /* * Set up the scheduler prior starting any interrupts (such as the * timer interrupt). Full topology setup happens at smp_init() * time - but meanwhile we still have a functioning scheduler. */ sched_init(); if (WARN(!irqs_disabled(), "Interrupts were enabled *very* early, fixing it\n")) local_irq_disable(); radix_tree_init(); /* * Set up housekeeping before setting up workqueues to allow the unbound * workqueue to take non-housekeeping into account. */ housekeeping_init(); /* * Allow workqueue creation and work item queueing/cancelling * early. Work item execution depends on kthreads and starts after * workqueue_init(). */ workqueue_init_early(); rcu_init(); /* Trace events are available after this */ trace_init(); if (initcall_debug) initcall_debug_enable(); context_tracking_init(); /* init some links before init_ISA_irqs() */ early_irq_init(); init_IRQ(); tick_init(); rcu_init_nohz(); init_timers(); hrtimers_init(); softirq_init(); timekeeping_init(); kfence_init(); /* * For best initial stack canary entropy, prepare it after: * - setup_arch() for any UEFI RNG entropy and boot cmdline access * - timekeeping_init() for ktime entropy used in rand_initialize() * - rand_initialize() to get any arch-specific entropy like RDRAND * - add_latent_entropy() to get any latent entropy * - adding command line entropy */ rand_initialize(); add_latent_entropy(); add_device_randomness(command_line, strlen(command_line)); boot_init_stack_canary(); time_init(); perf_event_init(); profile_init(); call_function_init(); WARN(!irqs_disabled(), "Interrupts were enabled early\n"); early_boot_irqs_disabled = false; local_irq_enable(); kmem_cache_init_late(); /* * HACK ALERT! This is early. We're enabling the console before * we've done PCI setups etc, and console_init() must be aware of * this. But we do want output early, in case something goes wrong. */ console_init(); if (panic_later) panic("Too many boot %s vars at `%s'", panic_later, panic_param); lockdep_init(); /* * Need to run this when irqs are enabled, because it wants * to self-test [hard/soft]-irqs on/off lock inversion bugs * too: */ locking_selftest(); /* * This needs to be called before any devices perform DMA * operations that might use the SWIOTLB bounce buffers. It will * mark the bounce buffers as decrypted so that their usage will * not cause "plain-text" data to be decrypted when accessed. */ mem_encrypt_init(); #ifdef CONFIG_BLK_DEV_INITRD if (initrd_start && !initrd_below_start_ok && page_to_pfn(virt_to_page((void *)initrd_start)) < min_low_pfn) { pr_crit("initrd overwritten (0x%08lx < 0x%08lx) - disabling it.\n", page_to_pfn(virt_to_page((void *)initrd_start)), min_low_pfn); initrd_start = 0; } #endif setup_per_cpu_pageset(); numa_policy_init(); acpi_early_init(); if (late_time_init) late_time_init(); sched_clock_init(); calibrate_delay(); pid_idr_init(); anon_vma_init(); #ifdef CONFIG_X86 if (efi_enabled(EFI_RUNTIME_SERVICES)) efi_enter_virtual_mode(); #endif thread_stack_cache_init(); cred_init(); fork_init(); proc_caches_init(); uts_ns_init(); key_init(); security_init(); dbg_late_init(); vfs_caches_init(); pagecache_init(); signals_init(); seq_file_init(); proc_root_init(); nsfs_init(); cpuset_init(); cgroup_init(); taskstats_init_early(); delayacct_init(); poking_init(); check_bugs(); acpi_subsystem_init(); arch_post_acpi_subsys_init(); kcsan_init(); /* Do the rest non-__init'ed, we're now alive */ arch_call_rest_init(); prevent_tail_call_optimization(); } /* Call all constructor functions linked into the kernel. */ static void __init do_ctors(void) { /* * For UML, the constructors have already been called by the * normal setup code as it's just a normal ELF binary, so we * cannot do it again - but we do need CONFIG_CONSTRUCTORS * even on UML for modules. */ #if defined(CONFIG_CONSTRUCTORS) && !defined(CONFIG_UML) ctor_fn_t *fn = (ctor_fn_t *) __ctors_start; for (; fn < (ctor_fn_t *) __ctors_end; fn++) (*fn)(); #endif } #ifdef CONFIG_KALLSYMS struct blacklist_entry { struct list_head next; char *buf; }; static __initdata_or_module LIST_HEAD(blacklisted_initcalls); static int __init initcall_blacklist(char *str) { char *str_entry; struct blacklist_entry *entry; /* str argument is a comma-separated list of functions */ do { str_entry = strsep(&str, ","); if (str_entry) { pr_debug("blacklisting initcall %s\n", str_entry); entry = memblock_alloc(sizeof(*entry), SMP_CACHE_BYTES); if (!entry) panic("%s: Failed to allocate %zu bytes\n", __func__, sizeof(*entry)); entry->buf = memblock_alloc(strlen(str_entry) + 1, SMP_CACHE_BYTES); if (!entry->buf) panic("%s: Failed to allocate %zu bytes\n", __func__, strlen(str_entry) + 1); strcpy(entry->buf, str_entry); list_add(&entry->next, &blacklisted_initcalls); } } while (str_entry); return 0; } static bool __init_or_module initcall_blacklisted(initcall_t fn) { struct blacklist_entry *entry; char fn_name[KSYM_SYMBOL_LEN]; unsigned long addr; if (list_empty(&blacklisted_initcalls)) return false; addr = (unsigned long) dereference_function_descriptor(fn); sprint_symbol_no_offset(fn_name, addr); /* * fn will be "function_name [module_name]" where [module_name] is not * displayed for built-in init functions. Strip off the [module_name]. */ strreplace(fn_name, ' ', '\0'); list_for_each_entry(entry, &blacklisted_initcalls, next) { if (!strcmp(fn_name, entry->buf)) { pr_debug("initcall %s blacklisted\n", fn_name); return true; } } return false; } #else static int __init initcall_blacklist(char *str) { pr_warn("initcall_blacklist requires CONFIG_KALLSYMS\n"); return 0; } static bool __init_or_module initcall_blacklisted(initcall_t fn) { return false; } #endif __setup("initcall_blacklist=", initcall_blacklist); static __init_or_module void trace_initcall_start_cb(void *data, initcall_t fn) { ktime_t *calltime = (ktime_t *)data; printk(KERN_DEBUG "calling %pS @ %i\n", fn, task_pid_nr(current)); *calltime = ktime_get(); } static __init_or_module void trace_initcall_finish_cb(void *data, initcall_t fn, int ret) { ktime_t *calltime = (ktime_t *)data; ktime_t delta, rettime; unsigned long long duration; rettime = ktime_get(); delta = ktime_sub(rettime, *calltime); duration = (unsigned long long) ktime_to_ns(delta) >> 10; printk(KERN_DEBUG "initcall %pS returned %d after %lld usecs\n", fn, ret, duration); } static ktime_t initcall_calltime; #ifdef TRACEPOINTS_ENABLED static void __init initcall_debug_enable(void) { int ret; ret = register_trace_initcall_start(trace_initcall_start_cb, &initcall_calltime); ret |= register_trace_initcall_finish(trace_initcall_finish_cb, &initcall_calltime); WARN(ret, "Failed to register initcall tracepoints\n"); } # define do_trace_initcall_start trace_initcall_start # define do_trace_initcall_finish trace_initcall_finish #else static inline void do_trace_initcall_start(initcall_t fn) { if (!initcall_debug) return; trace_initcall_start_cb(&initcall_calltime, fn); } static inline void do_trace_initcall_finish(initcall_t fn, int ret) { if (!initcall_debug) return; trace_initcall_finish_cb(&initcall_calltime, fn, ret); } #endif /* !TRACEPOINTS_ENABLED */ int __init_or_module do_one_initcall(initcall_t fn) { int count = preempt_count(); char msgbuf[64]; int ret; if (initcall_blacklisted(fn)) return -EPERM; do_trace_initcall_start(fn); ret = fn(); do_trace_initcall_finish(fn, ret); msgbuf[0] = 0; if (preempt_count() != count) { sprintf(msgbuf, "preemption imbalance "); preempt_count_set(count); } if (irqs_disabled()) { strlcat(msgbuf, "disabled interrupts ", sizeof(msgbuf)); local_irq_enable(); } WARN(msgbuf[0], "initcall %pS returned with %s\n", fn, msgbuf); add_latent_entropy(); return ret; } extern initcall_entry_t __initcall_start[]; extern initcall_entry_t __initcall0_start[]; extern initcall_entry_t __initcall1_start[]; extern initcall_entry_t __initcall2_start[]; extern initcall_entry_t __initcall3_start[]; extern initcall_entry_t __initcall4_start[]; extern initcall_entry_t __initcall5_start[]; extern initcall_entry_t __initcall6_start[]; extern initcall_entry_t __initcall7_start[]; extern initcall_entry_t __initcall_end[]; static initcall_entry_t *initcall_levels[] __initdata = { __initcall0_start, __initcall1_start, __initcall2_start, __initcall3_start, __initcall4_start, __initcall5_start, __initcall6_start, __initcall7_start, __initcall_end, }; /* Keep these in sync with initcalls in include/linux/init.h */ static const char *initcall_level_names[] __initdata = { "pure", "core", "postcore", "arch", "subsys", "fs", "device", "late", }; static int __init ignore_unknown_bootoption(char *param, char *val, const char *unused, void *arg) { return 0; } static void __init do_initcall_level(int level, char *command_line) { initcall_entry_t *fn; parse_args(initcall_level_names[level], command_line, __start___param, __stop___param - __start___param, level, level, NULL, ignore_unknown_bootoption); trace_initcall_level(initcall_level_names[level]); for (fn = initcall_levels[level]; fn < initcall_levels[level+1]; fn++) do_one_initcall(initcall_from_entry(fn)); } static void __init do_initcalls(void) { int level; size_t len = strlen(saved_command_line) + 1; char *command_line; command_line = kzalloc(len, GFP_KERNEL); if (!command_line) panic("%s: Failed to allocate %zu bytes\n", __func__, len); for (level = 0; level < ARRAY_SIZE(initcall_levels) - 1; level++) { /* Parser modifies command_line, restore it each time */ strcpy(command_line, saved_command_line); do_initcall_level(level, command_line); } kfree(command_line); } /* * Ok, the machine is now initialized. None of the devices * have been touched yet, but the CPU subsystem is up and * running, and memory and process management works. * * Now we can finally start doing some real work.. */ static void __init do_basic_setup(void) { cpuset_init_smp(); driver_init(); init_irq_proc(); do_ctors(); usermodehelper_enable(); do_initcalls(); } static void __init do_pre_smp_initcalls(void) { initcall_entry_t *fn; trace_initcall_level("early"); for (fn = __initcall_start; fn < __initcall0_start; fn++) do_one_initcall(initcall_from_entry(fn)); } static int run_init_process(const char *init_filename) { const char *const *p; argv_init[0] = init_filename; pr_info("Run %s as init process\n", init_filename); pr_debug(" with arguments:\n"); for (p = argv_init; *p; p++) pr_debug(" %s\n", *p); pr_debug(" with environment:\n"); for (p = envp_init; *p; p++) pr_debug(" %s\n", *p); return kernel_execve(init_filename, argv_init, envp_init); } static int try_to_run_init_process(const char *init_filename) { int ret; ret = run_init_process(init_filename); if (ret && ret != -ENOENT) { pr_err("Starting init: %s exists but couldn't execute it (error %d)\n", init_filename, ret); } return ret; } static noinline void __init kernel_init_freeable(void); #if defined(CONFIG_STRICT_KERNEL_RWX) || defined(CONFIG_STRICT_MODULE_RWX) bool rodata_enabled __ro_after_init = true; static int __init set_debug_rodata(char *str) { return strtobool(str, &rodata_enabled); } __setup("rodata=", set_debug_rodata); #endif #ifdef CONFIG_STRICT_KERNEL_RWX static void mark_readonly(void) { if (rodata_enabled) { /* * load_module() results in W+X mappings, which are cleaned * up with call_rcu(). Let's make sure that queued work is * flushed so that we don't hit false positives looking for * insecure pages which are W+X. */ rcu_barrier(); mark_rodata_ro(); rodata_test(); } else pr_info("Kernel memory protection disabled.\n"); } #elif defined(CONFIG_ARCH_HAS_STRICT_KERNEL_RWX) static inline void mark_readonly(void) { pr_warn("Kernel memory protection not selected by kernel config.\n"); } #else static inline void mark_readonly(void) { pr_warn("This architecture does not have kernel memory protection.\n"); } #endif void __weak free_initmem(void) { free_initmem_default(POISON_FREE_INITMEM); } static int __ref kernel_init(void *unused) { int ret; kernel_init_freeable(); /* need to finish all async __init code before freeing the memory */ async_synchronize_full(); kprobe_free_init_mem(); ftrace_free_init_mem(); kgdb_free_init_mem(); free_initmem(); mark_readonly(); /* * Kernel mappings are now finalized - update the userspace page-table * to finalize PTI. */ pti_finalize(); system_state = SYSTEM_RUNNING; numa_default_policy(); rcu_end_inkernel_boot(); do_sysctl_args(); if (ramdisk_execute_command) { ret = run_init_process(ramdisk_execute_command); if (!ret) return 0; pr_err("Failed to execute %s (error %d)\n", ramdisk_execute_command, ret); } /* * We try each of these until one succeeds. * * The Bourne shell can be used instead of init if we are * trying to recover a really broken machine. */ if (execute_command) { ret = run_init_process(execute_command); if (!ret) return 0; panic("Requested init %s failed (error %d).", execute_command, ret); } if (CONFIG_DEFAULT_INIT[0] != '\0') { ret = run_init_process(CONFIG_DEFAULT_INIT); if (ret) pr_err("Default init %s failed (error %d)\n", CONFIG_DEFAULT_INIT, ret); else return 0; } if (!try_to_run_init_process("/sbin/init") || !try_to_run_init_process("/etc/init") || !try_to_run_init_process("/bin/init") || !try_to_run_init_process("/bin/sh")) return 0; panic("No working init found. Try passing init= option to kernel. " "See Linux Documentation/admin-guide/init.rst for guidance."); } /* Open /dev/console, for stdin/stdout/stderr, this should never fail */ void __init console_on_rootfs(void) { struct file *file = filp_open("/dev/console", O_RDWR, 0); if (IS_ERR(file)) { pr_err("Warning: unable to open an initial console.\n"); return; } init_dup(file); init_dup(file); init_dup(file); fput(file); } static noinline void __init kernel_init_freeable(void) { /* * Wait until kthreadd is all set-up. */ wait_for_completion(&kthreadd_done); /* Now the scheduler is fully set up and can do blocking allocations */ gfp_allowed_mask = __GFP_BITS_MASK; /* * init can allocate pages on any node */ set_mems_allowed(node_states[N_MEMORY]); cad_pid = get_pid(task_pid(current)); smp_prepare_cpus(setup_max_cpus); workqueue_init(); init_mm_internals(); rcu_init_tasks_generic(); do_pre_smp_initcalls(); lockup_detector_init(); smp_init(); sched_init_smp(); padata_init(); page_alloc_init_late(); /* Initialize page ext after all struct pages are initialized. */ page_ext_init(); do_basic_setup(); kunit_run_all_tests(); wait_for_initramfs(); console_on_rootfs(); /* * check if there is an early userspace init. If yes, let it do all * the work */ if (init_eaccess(ramdisk_execute_command) != 0) { ramdisk_execute_command = NULL; prepare_namespace(); } /* * Ok, we have completed the initial bootup, and * we're essentially up and running. Get rid of the * initmem segments and start the user-mode stuff.. * * rootfs is available now, try loading the public keys * and default modules */ integrity_load_keys(); } |