X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/13f56ec4e58bf8687e2a68032c093c0213dd519b..4d15aeb193b2c68f1d38666c317f8d3734f5f083:/osfmk/i386/AT386/model_dep.c?ds=sidebyside diff --git a/osfmk/i386/AT386/model_dep.c b/osfmk/i386/AT386/model_dep.c index 44b991579..ebb29b76b 100644 --- a/osfmk/i386/AT386/model_dep.c +++ b/osfmk/i386/AT386/model_dep.c @@ -1,5 +1,5 @@ /* - * Copyright (c) 2000-2010 Apple Computer, Inc. All rights reserved. + * Copyright (c) 2000-2016 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * @@ -66,8 +66,6 @@ * Basic initialization for I386 - ISA bus machines. */ -#include -#include #include @@ -76,6 +74,7 @@ #include #include #include +#include #include #include #include @@ -100,12 +99,13 @@ #endif #include #include +#include + #include /* inb() */ #include -#if MACH_KDB -#include -#endif /* MACH_KDB */ +#include +#include #include #include #include @@ -116,12 +116,16 @@ #include #include +#include #include #include #include #include +#include +#include + #if DEBUG #define DPRINTF(x...) kprintf(x) #else @@ -129,12 +133,22 @@ #endif static void machine_conf(void); +void panic_print_symbol_name(vm_address_t search); -extern int default_preemption_rate; +extern const char version[]; +extern char osversion[]; extern int max_unsafe_quanta; extern int max_poll_quanta; extern unsigned int panic_is_inited; +extern int proc_pid(void *p); + +/* Definitions for frame pointers */ +#define FP_ALIGNMENT_MASK ((uint32_t)(0x3)) +#define FP_LR_OFFSET ((uint32_t)4) +#define FP_LR_OFFSET64 ((uint32_t)8) +#define FP_MAX_NUM_TO_EVALUATE (50) + int db_run_mode; volatile int pbtcpu = -1; @@ -143,19 +157,7 @@ uint32_t pbtcnt = 0; volatile int panic_double_fault_cpu = -1; -#if defined (__i386__) -#define PRINT_ARGS_FROM_STACK_FRAME 1 -#elif defined (__x86_64__) #define PRINT_ARGS_FROM_STACK_FRAME 0 -#else -#error unsupported architecture -#endif - -#ifdef __LP64__ -typedef struct nlist_64 kernel_nlist_t; -#else -typedef struct nlist kernel_nlist_t; -#endif typedef struct _cframe_t { struct _cframe_t *prev; @@ -168,8 +170,95 @@ typedef struct _cframe_t { static unsigned panic_io_port; static unsigned commit_paniclog_to_nvram; -unsigned int debug_boot_arg; +SECURITY_READ_ONLY_LATE(unsigned int) debug_boot_arg; + +/* + * Backtrace a single frame. + */ +void +print_one_backtrace(pmap_t pmap, vm_offset_t topfp, const char *cur_marker, + boolean_t is_64_bit, boolean_t nvram_format) +{ + int i = 0; + addr64_t lr; + addr64_t fp; + addr64_t fp_for_ppn; + ppnum_t ppn; + boolean_t dump_kernel_stack; + + fp = topfp; + fp_for_ppn = 0; + ppn = (ppnum_t)NULL; + + if (fp >= VM_MIN_KERNEL_ADDRESS) + dump_kernel_stack = TRUE; + else + dump_kernel_stack = FALSE; + + do { + if ((fp == 0) || ((fp & FP_ALIGNMENT_MASK) != 0)) + break; + if (dump_kernel_stack && ((fp < VM_MIN_KERNEL_ADDRESS) || (fp > VM_MAX_KERNEL_ADDRESS))) + break; + if ((!dump_kernel_stack) && (fp >=VM_MIN_KERNEL_ADDRESS)) + break; + + /* Check to see if current address will result in a different + ppn than previously computed (to avoid recomputation) via + (addr) ^ fp_for_ppn) >> PAGE_SHIFT) */ + + if ((((fp + FP_LR_OFFSET) ^ fp_for_ppn) >> PAGE_SHIFT) != 0x0U) { + ppn = pmap_find_phys(pmap, fp + FP_LR_OFFSET); + fp_for_ppn = fp + (is_64_bit ? FP_LR_OFFSET64 : FP_LR_OFFSET); + } + if (ppn != (ppnum_t)NULL) { + if (is_64_bit) { + lr = ml_phys_read_double_64(((((vm_offset_t)ppn) << PAGE_SHIFT)) | ((fp + FP_LR_OFFSET64) & PAGE_MASK)); + } else { + lr = ml_phys_read_word(((((vm_offset_t)ppn) << PAGE_SHIFT)) | ((fp + FP_LR_OFFSET) & PAGE_MASK)); + } + } else { + if (is_64_bit) { + kdb_printf("%s\t Could not read LR from frame at 0x%016llx\n", cur_marker, fp + FP_LR_OFFSET64); + } else { + kdb_printf("%s\t Could not read LR from frame at 0x%08x\n", cur_marker, (uint32_t)(fp + FP_LR_OFFSET)); + } + break; + } + if (((fp ^ fp_for_ppn) >> PAGE_SHIFT) != 0x0U) { + ppn = pmap_find_phys(pmap, fp); + fp_for_ppn = fp; + } + if (ppn != (ppnum_t)NULL) { + if (is_64_bit) { + fp = ml_phys_read_double_64(((((vm_offset_t)ppn) << PAGE_SHIFT)) | (fp & PAGE_MASK)); + } else { + fp = ml_phys_read_word(((((vm_offset_t)ppn) << PAGE_SHIFT)) | (fp & PAGE_MASK)); + } + } else { + if (is_64_bit) { + kdb_printf("%s\t Could not read FP from frame at 0x%016llx\n", cur_marker, fp); + } else { + kdb_printf("%s\t Could not read FP from frame at 0x%08x\n", cur_marker, (uint32_t)fp); + } + break; + } + if (nvram_format) { + if (is_64_bit) { + kdb_printf("%s\t0x%016llx\n", cur_marker, lr); + } else { + kdb_printf("%s\t0x%08x\n", cur_marker, (uint32_t)lr); + } + } else { + if (is_64_bit) { + kdb_printf("%s\t lr: 0x%016llx fp: 0x%016llx\n", cur_marker, lr, fp); + } else { + kdb_printf("%s\t lr: 0x%08x fp: 0x%08x\n", cur_marker, (uint32_t)lr, (uint32_t)fp); + } + } + } while ((++i < FP_MAX_NUM_TO_EVALUATE) && (fp != topfp)); +} void machine_startup(void) { @@ -182,10 +271,18 @@ machine_startup(void) if (PE_parse_boot_argn("debug", &debug_boot_arg, sizeof (debug_boot_arg))) { panicDebugging = TRUE; +#if DEVELOPMENT || DEBUG if (debug_boot_arg & DB_HALT) halt_in_debugger=1; +#endif if (debug_boot_arg & DB_PRT) disable_debug_output=FALSE; if (debug_boot_arg & DB_SLOG) systemLogDiags=TRUE; if (debug_boot_arg & DB_LOG_PI_SCRN) logPanicDataToScreen=TRUE; +#if KDEBUG_MOJO_TRACE + if (debug_boot_arg & DB_PRT_KDEBUG) { + kdebug_serial = TRUE; + disable_debug_output = FALSE; + } +#endif } else { debug_boot_arg = 0; } @@ -205,30 +302,6 @@ machine_startup(void) #endif hw_lock_init(&pbtlock); /* initialize print backtrace lock */ -#if MACH_KDB - /* - * Initialize KDB - */ -#if DB_MACHINE_COMMANDS - db_machine_commands_install(ppc_db_commands); -#endif /* DB_MACHINE_COMMANDS */ - ddb_init(); - - if (boot_arg & DB_KDB) - current_debugger = KDB_CUR_DB; - - /* - * Cause a breakpoint trap to the debugger before proceeding - * any further if the proper option bit was specified in - * the boot flags. - */ - if (halt_in_debugger && (current_debugger == KDB_CUR_DB)) { - Debugger("inline call to debugger(machine_startup)"); - halt_in_debugger = 0; - active_debugger =1; - } -#endif /* MACH_KDB */ - if (PE_parse_boot_argn("preempt", &boot_arg, sizeof (boot_arg))) { default_preemption_rate = boot_arg; } @@ -251,9 +324,7 @@ machine_startup(void) machine_conf(); -#if NOTYET - ml_thrm_init(); /* Start thermal monitoring on this processor */ -#endif + panic_hooks_init(); /* * Start the system. @@ -408,11 +479,6 @@ efi_set_tables_64(EFI_SYSTEM_TABLE_64 * system_table) gPEEFISystemTable = system_table; - if (!cpu_mode_is64bit()) { - kprintf("Skipping 64-bit EFI runtime services for 32-bit legacy mode\n"); - break; - } - if(system_table->RuntimeServices == 0) { kprintf("No runtime table present\n"); break; @@ -485,11 +551,7 @@ efi_set_tables_32(EFI_SYSTEM_TABLE_32 * system_table) // 32-bit virtual address is OK for 32-bit EFI and 32-bit kernel. // For a 64-bit kernel, booter provides a virtual address mod 4G runtime = (EFI_RUNTIME_SERVICES_32 *) -#ifdef __x86_64__ (system_table->RuntimeServices | VM_MIN_KERNEL_ADDRESS); -#else - system_table->RuntimeServices; -#endif DPRINTF("Runtime table addressed at %p\n", runtime); if (runtime->Hdr.Signature != EFI_RUNTIME_SERVICES_SIGNATURE) { kprintf("Bad EFI runtime table signature\n"); @@ -562,11 +624,9 @@ efi_init(void) if (((mptr->Attribute & EFI_MEMORY_RUNTIME) == EFI_MEMORY_RUNTIME) ) { vm_size = (vm_offset_t)i386_ptob((uint32_t)mptr->NumberOfPages); vm_addr = (vm_offset_t) mptr->VirtualStart; -#ifdef __x86_64__ /* For K64 on EFI32, shadow-map into high KVA */ if (vm_addr < VM_MIN_KERNEL_ADDRESS) vm_addr |= VM_MIN_KERNEL_ADDRESS; -#endif phys_addr = (vm_map_offset_t) mptr->PhysicalStart; DPRINTF(" Type: %x phys: %p EFIv: %p kv: %p size: %p\n", mptr->Type, @@ -630,11 +690,9 @@ hibernate_newruntime_map(void * map, vm_size_t map_size, uint32_t system_table_o vm_size = (vm_offset_t)i386_ptob((uint32_t)mptr->NumberOfPages); vm_addr = (vm_offset_t) mptr->VirtualStart; -#ifdef __x86_64__ /* K64 on EFI32 */ if (vm_addr < VM_MIN_KERNEL_ADDRESS) vm_addr |= VM_MIN_KERNEL_ADDRESS; -#endif phys_addr = (vm_map_offset_t) mptr->PhysicalStart; kprintf("mapping[%u] %qx @ %lx, %llu\n", mptr->Type, phys_addr, (unsigned long)vm_addr, mptr->NumberOfPages); @@ -653,10 +711,8 @@ hibernate_newruntime_map(void * map, vm_size_t map_size, uint32_t system_table_o vm_size = (vm_offset_t)i386_ptob((uint32_t)mptr->NumberOfPages); vm_addr = (vm_offset_t) mptr->VirtualStart; -#ifdef __x86_64__ if (vm_addr < VM_MIN_KERNEL_ADDRESS) vm_addr |= VM_MIN_KERNEL_ADDRESS; -#endif phys_addr = (vm_map_offset_t) mptr->PhysicalStart; kprintf("mapping[%u] %qx @ %lx, %llu\n", mptr->Type, phys_addr, (unsigned long)vm_addr, mptr->NumberOfPages); @@ -690,6 +746,9 @@ hibernate_newruntime_map(void * map, vm_size_t map_size, uint32_t system_table_o void machine_init(void) { + /* Now with VM up, switch to dynamically allocated cpu data */ + cpu_data_realloc(); + /* Ensure panic buffer is initialized. */ debug_log_init(); @@ -749,6 +808,7 @@ int reset_mem_on_reboot = 1; /* * Halt the system or reboot. */ +__attribute__((noreturn)) void halt_all_cpus(boolean_t reboot) { @@ -805,12 +865,25 @@ machine_halt_cpu(void) { * writing, this is routine is chained through AppleSMC-> * AppleACPIPlatform */ - if (PE_halt_restart) (*PE_halt_restart)(kPERestartCPU); pmCPUHalt(PM_HALT_DEBUG); } +void +DebuggerWithContext( + __unused unsigned int reason, + __unused void *ctx, + const char *message, + uint64_t debugger_options_mask) +{ + if (debugger_options_mask != DEBUGGER_OPTION_NONE) { + kprintf("debugger options (%llx) not supported for desktop.\n", debugger_options_mask); + } + + Debugger(message); +} + void Debugger( const char *message) @@ -819,12 +892,16 @@ Debugger( void *stackptr; int cn = cpu_number(); + boolean_t old_doprnt_hide_pointers = doprnt_hide_pointers; + hw_atomic_add(&debug_mode, 1); if (!panic_is_inited) { postcode(PANIC_HLT); asm("hlt"); } + doprnt_hide_pointers = FALSE; + printf("Debugger called: <%s>\n", message); kprintf("Debugger called: <%s>\n", message); @@ -844,14 +921,15 @@ Debugger( panic_io_port_read(); /* Obtain current frame pointer */ -#if defined (__i386__) - __asm__ volatile("movl %%ebp, %0" : "=m" (stackptr)); -#elif defined (__x86_64__) __asm__ volatile("movq %%rbp, %0" : "=m" (stackptr)); -#endif /* Print backtrace - callee is internally synchronized */ - panic_i386_backtrace(stackptr, ((panic_double_fault_cpu == cn) ? 80: 48), NULL, FALSE, NULL); + if (strncmp(panicstr, LAUNCHD_CRASHED_PREFIX, strlen(LAUNCHD_CRASHED_PREFIX)) == 0) { + /* Special handling of launchd died panics */ + print_launchd_info(); + } else { + panic_i386_backtrace(stackptr, ((panic_double_fault_cpu == cn) ? 80: 48), NULL, FALSE, NULL); + } /* everything should be printed now so copy to NVRAM */ @@ -911,13 +989,7 @@ Debugger( } } - /* If the user won't be able to read the dialog, - * don't bother trying to show it - */ - if (!PE_reboot_on_panic()) - draw_panic_dialog(); - - if (!panicDebugging) { + if (!panicDebugging && !kdp_has_polled_corefile()) { unsigned cnum; /* Clear the MP rendezvous function lock, in the event * that a panic occurred while in that codepath. @@ -939,6 +1011,7 @@ Debugger( } } + doprnt_hide_pointers = old_doprnt_hide_pointers; __asm__("int3"); hw_atomic_sub(&debug_mode, 1); } @@ -1049,7 +1122,7 @@ panic_print_kmod_symbol_name(vm_address_t search) } } -static void +void panic_print_symbol_name(vm_address_t search) { /* try searching in the kernel */ @@ -1078,16 +1151,25 @@ panic_i386_backtrace(void *_frame, int nframes, const char *msg, boolean_t regdu uint64_t bt_tsc_timeout; boolean_t keepsyms = FALSE; int cn = cpu_number(); + boolean_t old_doprnt_hide_pointers = doprnt_hide_pointers; if(pbtcpu != cn) { hw_atomic_add(&pbtcnt, 1); /* Spin on print backtrace lock, which serializes output * Continue anyway if a timeout occurs. */ - hw_lock_to(&pbtlock, LockTimeOutTSC*2); + hw_lock_to(&pbtlock, ~0U); pbtcpu = cn; } + if (__improbable(doprnt_hide_pointers == TRUE)) { + /* If we're called directly, the Debugger() function will not be called, + * so we need to reset the value in here. */ + doprnt_hide_pointers = FALSE; + } + + panic_check_hook(); + PE_parse_boot_argn("keepsyms", &keepsyms, sizeof (keepsyms)); if (msg != NULL) { @@ -1095,7 +1177,6 @@ panic_i386_backtrace(void *_frame, int nframes, const char *msg, boolean_t regdu } if ((regdump == TRUE) && (regs != NULL)) { -#if defined(__x86_64__) x86_saved_state64_t *ss64p = saved_state64(regs); kdb_printf( "RAX: 0x%016llx, RBX: 0x%016llx, RCX: 0x%016llx, RDX: 0x%016llx\n" @@ -1110,17 +1191,6 @@ panic_i386_backtrace(void *_frame, int nframes, const char *msg, boolean_t regdu ss64p->isf.rflags, ss64p->isf.rip, ss64p->isf.cs, ss64p->isf.ss); PC = ss64p->isf.rip; -#else - x86_saved_state32_t *ss32p = saved_state32(regs); - kdb_printf( - "EAX: 0x%08x, EBX: 0x%08x, ECX: 0x%08x, EDX: 0x%08x\n" - "CR2: 0x%08x, EBP: 0x%08x, ESI: 0x%08x, EDI: 0x%08x\n" - "EFL: 0x%08x, EIP: 0x%08x, CS: 0x%08x, DS: 0x%08x\n", - ss32p->eax,ss32p->ebx,ss32p->ecx,ss32p->edx, - ss32p->cr2,ss32p->ebp,ss32p->esi,ss32p->edi, - ss32p->efl,ss32p->eip,ss32p->cs, ss32p->ds); - PC = ss32p->eip; -#endif } kdb_printf("Backtrace (CPU %d), " @@ -1190,8 +1260,207 @@ out: if (PC != 0) kmod_panic_dump(&PC, 1); - panic_display_system_configuration(); + panic_display_system_configuration(FALSE); + + doprnt_hide_pointers = old_doprnt_hide_pointers; + + /* Release print backtrace lock, to permit other callers in the + * event of panics on multiple processors. + */ + hw_lock_unlock(&pbtlock); + hw_atomic_sub(&pbtcnt, 1); + /* Wait for other processors to complete output + * Timeout and continue after PBT_TIMEOUT_CYCLES. + */ + bt_tsc_timeout = rdtsc64() + PBT_TIMEOUT_CYCLES; + while(*ppbtcnt && (rdtsc64() < bt_tsc_timeout)); +} + +static boolean_t +debug_copyin(pmap_t p, uint64_t uaddr, void *dest, size_t size) +{ + size_t rem = size; + char *kvaddr = dest; + + while (rem) { + ppnum_t upn = pmap_find_phys(p, uaddr); + uint64_t phys_src = ptoa_64(upn) | (uaddr & PAGE_MASK); + uint64_t phys_dest = kvtophys((vm_offset_t)kvaddr); + uint64_t src_rem = PAGE_SIZE - (phys_src & PAGE_MASK); + uint64_t dst_rem = PAGE_SIZE - (phys_dest & PAGE_MASK); + size_t cur_size = (uint32_t) MIN(src_rem, dst_rem); + cur_size = MIN(cur_size, rem); + + if (upn && pmap_valid_page(upn) && phys_dest) { + bcopy_phys(phys_src, phys_dest, cur_size); + } + else + break; + uaddr += cur_size; + kvaddr += cur_size; + rem -= cur_size; + } + return (rem == 0); +} + +void +print_threads_registers(thread_t thread) +{ + x86_saved_state_t *savestate; + + savestate = get_user_regs(thread); + kdb_printf( + "\nRAX: 0x%016llx, RBX: 0x%016llx, RCX: 0x%016llx, RDX: 0x%016llx\n" + "RSP: 0x%016llx, RBP: 0x%016llx, RSI: 0x%016llx, RDI: 0x%016llx\n" + "R8: 0x%016llx, R9: 0x%016llx, R10: 0x%016llx, R11: 0x%016llx\n" + "R12: 0x%016llx, R13: 0x%016llx, R14: 0x%016llx, R15: 0x%016llx\n" + "RFL: 0x%016llx, RIP: 0x%016llx, CS: 0x%016llx, SS: 0x%016llx\n\n", + savestate->ss_64.rax, savestate->ss_64.rbx, savestate->ss_64.rcx, savestate->ss_64.rdx, + savestate->ss_64.isf.rsp, savestate->ss_64.rbp, savestate->ss_64.rsi, savestate->ss_64.rdi, + savestate->ss_64.r8, savestate->ss_64.r9, savestate->ss_64.r10, savestate->ss_64.r11, + savestate->ss_64.r12, savestate->ss_64.r13, savestate->ss_64.r14, savestate->ss_64.r15, + savestate->ss_64.isf.rflags, savestate->ss_64.isf.rip, savestate->ss_64.isf.cs, + savestate->ss_64.isf.ss); +} + +void +print_tasks_user_threads(task_t task) +{ + thread_t thread = current_thread(); + x86_saved_state_t *savestate; + pmap_t pmap = 0; + uint64_t rbp; + const char *cur_marker = 0; + int j; + + for (j = 0, thread = (thread_t) queue_first(&task->threads); j < task->thread_count; + ++j, thread = (thread_t) queue_next(&thread->task_threads)) { + + kdb_printf("Thread %d: %p\n", j, thread); + pmap = get_task_pmap(task); + savestate = get_user_regs(thread); + rbp = savestate->ss_64.rbp; + kdb_printf("\t0x%016llx\n", savestate->ss_64.isf.rip); + print_one_backtrace(pmap, (vm_offset_t)rbp, cur_marker, TRUE, TRUE); + kdb_printf("\n"); + } +} + +void +print_thread_num_that_crashed(task_t task) +{ + thread_t c_thread = current_thread(); + thread_t thread; + int j; + + for (j = 0, thread = (thread_t) queue_first(&task->threads); j < task->thread_count; + ++j, thread = (thread_t) queue_next(&thread->task_threads)) { + + if (c_thread == thread) { + kdb_printf("\nThread %d crashed\n", j); + break; + } + } +} + +#define PANICLOG_UUID_BUF_SIZE 256 + +void print_uuid_info(task_t task) +{ + uint32_t uuid_info_count = 0; + mach_vm_address_t uuid_info_addr = 0; + boolean_t have_map = (task->map != NULL) && (ml_validate_nofault((vm_offset_t)(task->map), sizeof(struct _vm_map))); + boolean_t have_pmap = have_map && (task->map->pmap != NULL) && (ml_validate_nofault((vm_offset_t)(task->map->pmap), sizeof(struct pmap))); + int task_pid = pid_from_task(task); + char uuidbuf[PANICLOG_UUID_BUF_SIZE] = {0}; + char *uuidbufptr = uuidbuf; + uint32_t k; + + if (have_pmap && task->active && task_pid > 0) { + /* Read dyld_all_image_infos struct from task memory to get UUID array count & location */ + struct user64_dyld_all_image_infos task_image_infos; + if (debug_copyin(task->map->pmap, task->all_image_info_addr, + &task_image_infos, sizeof(struct user64_dyld_all_image_infos))) { + uuid_info_count = (uint32_t)task_image_infos.uuidArrayCount; + uuid_info_addr = task_image_infos.uuidArray; + } + /* If we get a NULL uuid_info_addr (which can happen when we catch dyld + * in the middle of updating this data structure), we zero the + * uuid_info_count so that we won't even try to save load info for this task + */ + if (!uuid_info_addr) { + uuid_info_count = 0; + } + } + + if (task_pid > 0 && uuid_info_count > 0) { + uint32_t uuid_info_size = sizeof(struct user64_dyld_uuid_info); + uint32_t uuid_array_size = uuid_info_count * uuid_info_size; + uint32_t uuid_copy_size = 0; + uint32_t uuid_image_count = 0; + char *current_uuid_buffer = NULL; + /* Copy in the UUID info array. It may be nonresident, in which case just fix up nloadinfos to 0 */ + + kdb_printf("\nuuid info:\n"); + while (uuid_array_size) { + if (uuid_array_size <= PANICLOG_UUID_BUF_SIZE) { + uuid_copy_size = uuid_array_size; + uuid_image_count = uuid_array_size/uuid_info_size; + } else { + uuid_image_count = PANICLOG_UUID_BUF_SIZE/uuid_info_size; + uuid_copy_size = uuid_image_count * uuid_info_size; + } + if (have_pmap && !debug_copyin(task->map->pmap, uuid_info_addr, uuidbufptr, + uuid_copy_size)) { + kdb_printf("Error!! Failed to copy UUID info for task %p pid %d\n", task, task_pid); + uuid_image_count = 0; + break; + } + + if (uuid_image_count > 0) { + current_uuid_buffer = uuidbufptr; + for (k = 0; k < uuid_image_count; k++) { + kdb_printf(" %#llx", *(uint64_t *)current_uuid_buffer); + current_uuid_buffer += sizeof(uint64_t); + uint8_t *uuid = (uint8_t *)current_uuid_buffer; + kdb_printf("\tuuid = <%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x>\n", + uuid[0], uuid[1], uuid[2], uuid[3], uuid[4], uuid[5], uuid[6], uuid[7], uuid[8], + uuid[9], uuid[10], uuid[11], uuid[12], uuid[13], uuid[14], uuid[15]); + current_uuid_buffer += 16; + } + bzero(&uuidbuf, sizeof(uuidbuf)); + } + uuid_info_addr += uuid_copy_size; + uuid_array_size -= uuid_copy_size; + } + } +} + +void print_launchd_info(void) +{ + task_t task = current_task(); + thread_t thread = current_thread(); + volatile uint32_t *ppbtcnt = &pbtcnt; + uint64_t bt_tsc_timeout; + int cn = cpu_number(); + + if(pbtcpu != cn) { + hw_atomic_add(&pbtcnt, 1); + /* Spin on print backtrace lock, which serializes output + * Continue anyway if a timeout occurs. + */ + hw_lock_to(&pbtlock, ~0U); + pbtcpu = cn; + } + + print_uuid_info(task); + print_thread_num_that_crashed(task); + print_threads_registers(thread); + print_tasks_user_threads(task); + + panic_display_system_configuration(TRUE); + /* Release print backtrace lock, to permit other callers in the * event of panics on multiple processors. */ @@ -1202,4 +1471,5 @@ out: */ bt_tsc_timeout = rdtsc64() + PBT_TIMEOUT_CYCLES; while(*ppbtcnt && (rdtsc64() < bt_tsc_timeout)); + }