X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/5ba3f43ea354af8ad55bea84372a2bc834d8757c..cb3231590a3c94ab4375e2228bd5e86b0cf1ad7e:/osfmk/kern/debug.c diff --git a/osfmk/kern/debug.c b/osfmk/kern/debug.c index a09bb897f..8578f687a 100644 --- a/osfmk/kern/debug.c +++ b/osfmk/kern/debug.c @@ -1,8 +1,8 @@ /* - * Copyright (c) 2000-2016 Apple Inc. All rights reserved. + * Copyright (c) 2000-2019 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 @@ -11,10 +11,10 @@ * 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, @@ -22,34 +22,34 @@ * 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@ */ /* * @OSF_COPYRIGHT@ */ -/* +/* * Mach Operating System * Copyright (c) 1991,1990,1989 Carnegie Mellon University * All Rights Reserved. - * + * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. - * + * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * + * * Carnegie Mellon requests users of this software to return to - * + * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 - * + * * any improvements or extensions that they make and grant Carnegie Mellon * the rights to redistribute these changes. */ @@ -73,6 +73,7 @@ #include #include #include +#include #include #include #include @@ -85,6 +86,8 @@ #include #if defined(__i386__) || defined(__x86_64__) +#include + #include #include #endif @@ -96,6 +99,7 @@ #include #include #include +#include #include #include @@ -108,14 +112,21 @@ extern volatile struct xnu_hw_shmem_dbg_command_info *hwsd_info; #endif +#if CONFIG_XNUPOST +#include +extern int vsnprintf(char *, size_t, const char *, va_list); +#endif -unsigned int halt_in_debugger = 0; -unsigned int current_debugger = 0; -unsigned int active_debugger = 0; -unsigned int panicDebugging = FALSE; -unsigned int kdebug_serial = FALSE; -unsigned int kernel_debugger_entry_count = 0; +unsigned int halt_in_debugger = 0; +unsigned int current_debugger = 0; +unsigned int active_debugger = 0; +unsigned int panicDebugging = FALSE; +unsigned int kdebug_serial = FALSE; +unsigned int kernel_debugger_entry_count = 0; +#if !defined (__x86_64__) +struct additional_panic_data_buffer *panic_data_buffers = NULL; +#endif #if defined(__arm__) #define TRAP_DEBUGGER __asm__ volatile("trap") @@ -131,9 +142,9 @@ unsigned int kernel_debugger_entry_count = 0; #endif #if defined(__i386__) || defined(__x86_64__) -#define panic_stop() pmCPUHalt(PM_HALT_PANIC) +#define panic_stop() pmCPUHalt(PM_HALT_PANIC) #else -#define panic_stop() panic_spin_forever() +#define panic_stop() panic_spin_forever() #endif #define CPUDEBUGGEROP PROCESSOR_DATA(current_processor(), debugger_state).db_current_op @@ -141,44 +152,52 @@ unsigned int kernel_debugger_entry_count = 0; #define CPUPANICSTR PROCESSOR_DATA(current_processor(), debugger_state).db_panic_str #define CPUPANICARGS PROCESSOR_DATA(current_processor(), debugger_state).db_panic_args #define CPUPANICOPTS PROCESSOR_DATA(current_processor(), debugger_state).db_panic_options +#define CPUPANICDATAPTR PROCESSOR_DATA(current_processor(), debugger_state).db_panic_data_ptr #define CPUDEBUGGERSYNC PROCESSOR_DATA(current_processor(), debugger_state).db_proceed_on_sync_failure #define CPUDEBUGGERCOUNT PROCESSOR_DATA(current_processor(), debugger_state).db_entry_count #define CPUDEBUGGERRET PROCESSOR_DATA(current_processor(), debugger_state).db_op_return #define CPUPANICCALLER PROCESSOR_DATA(current_processor(), debugger_state).db_panic_caller #if DEVELOPMENT || DEBUG -#define DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED(requested) \ -MACRO_BEGIN \ - if (requested) { \ - volatile int *badpointer = (int *)4; \ - *badpointer = 0; \ - } \ +#define DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED(requested) \ +MACRO_BEGIN \ + if (requested) { \ + volatile int *badpointer = (int *)4; \ + *badpointer = 0; \ + } \ MACRO_END #endif /* DEVELOPMENT || DEBUG */ debugger_op debugger_current_op = DBOP_NONE; const char *debugger_panic_str = NULL; va_list *debugger_panic_args = NULL; +void *debugger_panic_data = NULL; uint64_t debugger_panic_options = 0; const char *debugger_message = NULL; unsigned long debugger_panic_caller = 0; -void panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsigned int reason, void *ctx, uint64_t panic_options_mask, unsigned long panic_caller); -static void kdp_machine_reboot_type(unsigned int type); -__attribute__((noreturn)) void panic_spin_forever(void); +void panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, + unsigned int reason, void *ctx, uint64_t panic_options_mask, void *panic_data, + unsigned long panic_caller) __dead2; +static void kdp_machine_reboot_type(unsigned int type, uint64_t debugger_flags); +void panic_spin_forever(void) __dead2; extern kern_return_t do_stackshot(void); +extern void PE_panic_hook(const char*); +#if CONFIG_NONFATAL_ASSERTS int mach_assert = 1; +#endif #define NESTEDDEBUGGERENTRYMAX 5 +static unsigned int max_debugger_entry_count = NESTEDDEBUGGERENTRYMAX; #if CONFIG_EMBEDDED #define DEBUG_BUF_SIZE (4096) #define KDBG_TRACE_PANIC_FILENAME "/var/log/panic.trace" #else -/* - * DEBUG_BUF_SIZE can't grow without updates to SMC and iBoot to store larger panic logs on co-processor systems */ #define DEBUG_BUF_SIZE ((3 * PAGE_SIZE) + offsetof(struct macos_panic_header, mph_data)) +/* EXTENDED_DEBUG_BUF_SIZE definition is now in debug.h */ +static_assert(((EXTENDED_DEBUG_BUF_SIZE % PANIC_FLUSH_BOUNDARY) == 0), "Extended debug buf size must match SMC alignment requirements"); #define KDBG_TRACE_PANIC_FILENAME "/var/tmp/panic.trace" #endif @@ -198,7 +217,9 @@ char *debug_buf_ptr = (debug_buf + offsetof(struct macos_panic_header, mph_data) * On co-processor platforms, we lose sizeof(struct macos_panic_header) bytes from the end of * the end of the log because we only support writing (3*PAGESIZE) bytes. */ -const unsigned int debug_buf_size = (DEBUG_BUF_SIZE - offsetof(struct macos_panic_header, mph_data)); +unsigned int debug_buf_size = (DEBUG_BUF_SIZE - offsetof(struct macos_panic_header, mph_data)); + +boolean_t extended_debug_log_enabled = FALSE; #endif /* Debugger state */ @@ -210,6 +231,10 @@ unsigned int debugger_context = 0; static char model_name[64]; unsigned char *kernel_uuid; +boolean_t kernelcache_uuid_valid = FALSE; +uuid_t kernelcache_uuid; +uuid_string_t kernelcache_uuid_string; + /* * By default we treat Debugger() the same as calls to panic(), unless * we have debug boot-args present and the DB_KERN_DUMP_ON_NMI *NOT* set. @@ -219,20 +244,33 @@ unsigned char *kernel_uuid; */ static boolean_t debugger_is_panic = TRUE; +#if DEVELOPMENT || DEBUG +boolean_t debug_boot_arg_inited = FALSE; +#endif + +SECURITY_READ_ONLY_LATE(unsigned int) debug_boot_arg; char kernel_uuid_string[37]; /* uuid_string_t */ +char kernelcache_uuid_string[37]; /* uuid_string_t */ char panic_disk_error_description[512]; size_t panic_disk_error_description_size = sizeof(panic_disk_error_description); extern unsigned int write_trace_on_panic; - int kext_assertions_enable = #if DEBUG || DEVELOPMENT - TRUE; + TRUE; #else - FALSE; + FALSE; #endif +/* + * Maintain the physically-contiguous carveout for the `phys_carveout_mb` + * boot-arg. + */ +SECURITY_READ_ONLY_LATE(vm_offset_t) phys_carveout = 0; +SECURITY_READ_ONLY_LATE(uintptr_t) phys_carveout_pa = 0; +SECURITY_READ_ONLY_LATE(size_t) phys_carveout_size = 0; + void panic_init(void) { @@ -245,19 +283,97 @@ panic_init(void) uuid_unparse_upper(*(uuid_t *)uuid, kernel_uuid_string); } +#if CONFIG_NONFATAL_ASSERTS if (!PE_parse_boot_argn("assertions", &mach_assert, sizeof(mach_assert))) { mach_assert = 1; } +#endif -#if !CONFIG_EMBEDDED - uint32_t debug_flags = 0; + /* + * Initialize the value of the debug boot-arg + */ + debug_boot_arg = 0; +#if ((CONFIG_EMBEDDED && MACH_KDP) || defined(__x86_64__)) + if (PE_parse_boot_argn("debug", &debug_boot_arg, sizeof(debug_boot_arg))) { +#if DEVELOPMENT || DEBUG + if (debug_boot_arg & DB_HALT) { + halt_in_debugger = 1; + } +#endif + +#if CONFIG_EMBEDDED + if (debug_boot_arg & DB_NMI) { + panicDebugging = TRUE; + } +#else + panicDebugging = TRUE; +#if KDEBUG_MOJO_TRACE + if (debug_boot_arg & DB_PRT_KDEBUG) { + kdebug_serial = TRUE; + } +#endif +#endif /* CONFIG_EMBEDDED */ + } - if (PE_i_can_has_debugger(&debug_flags) && !(debug_flags & DB_KERN_DUMP_ON_NMI)) { + if (!PE_parse_boot_argn("nested_panic_max", &max_debugger_entry_count, sizeof(max_debugger_entry_count))) { + max_debugger_entry_count = NESTEDDEBUGGERENTRYMAX; + } + +#endif /* ((CONFIG_EMBEDDED && MACH_KDP) || defined(__x86_64__)) */ + +#if DEVELOPMENT || DEBUG + debug_boot_arg_inited = TRUE; +#endif + +#if !CONFIG_EMBEDDED + /* + * By default we treat Debugger() the same as calls to panic(), unless + * we have debug boot-args present and the DB_KERN_DUMP_ON_NMI *NOT* set. + * If DB_KERN_DUMP_ON_NMI is *NOT* set, return from Debugger() is supported. + * This is because writing an on-device corefile is a destructive operation. + * + * Return from Debugger() is currently only implemented on x86 + */ + if (PE_i_can_has_debugger(NULL) && !(debug_boot_arg & DB_KERN_DUMP_ON_NMI)) { debugger_is_panic = FALSE; } #endif +} + +#if defined (__x86_64__) +void +extended_debug_log_init(void) +{ + assert(coprocessor_paniclog_flush); + /* + * Allocate an extended panic log buffer that has space for the panic + * stackshot at the end. Update the debug buf pointers appropriately + * to point at this new buffer. + */ + char *new_debug_buf = kalloc(EXTENDED_DEBUG_BUF_SIZE); + /* + * iBoot pre-initializes the panic region with the NULL character. We set this here + * so we can accurately calculate the CRC for the region without needing to flush the + * full region over SMC. + */ + memset(new_debug_buf, '\0', EXTENDED_DEBUG_BUF_SIZE); + + panic_info = (struct macos_panic_header *)new_debug_buf; + debug_buf_ptr = debug_buf_base = (new_debug_buf + offsetof(struct macos_panic_header, mph_data)); + debug_buf_size = (EXTENDED_DEBUG_BUF_SIZE - offsetof(struct macos_panic_header, mph_data)); + extended_debug_log_enabled = TRUE; + + /* + * Insert a compiler barrier so we don't free the other panic stackshot buffer + * until after we've marked the new one as available + */ + __compiler_barrier(); + kmem_free(kernel_map, panic_stackshot_buf, panic_stackshot_buf_len); + panic_stackshot_buf = 0; + panic_stackshot_buf_len = 0; } +#endif /* defined (__x86_64__) */ void debug_log_init(void) @@ -272,13 +388,64 @@ debug_log_init(void) debug_buf_ptr = debug_buf_base; debug_buf_size = gPanicSize - sizeof(struct embedded_panic_header); #else + kern_return_t kr = KERN_SUCCESS; + bzero(panic_info, DEBUG_BUF_SIZE); + assert(debug_buf_base != NULL); assert(debug_buf_ptr != NULL); assert(debug_buf_size != 0); - bzero(debug_buf, sizeof(debug_buf)); + + /* + * We allocate a buffer to store a panic time stackshot. If we later discover that this is a + * system that supports flushing a stackshot via an extended debug log (see above), we'll free this memory + * as it's not necessary on this platform. This information won't be available until the IOPlatform has come + * up. + */ + kr = kmem_alloc(kernel_map, &panic_stackshot_buf, PANIC_STACKSHOT_BUFSIZE, VM_KERN_MEMORY_DIAG); + assert(kr == KERN_SUCCESS); + if (kr == KERN_SUCCESS) { + panic_stackshot_buf_len = PANIC_STACKSHOT_BUFSIZE; + } #endif } +void +phys_carveout_init(void) +{ + if (!PE_i_can_has_debugger(NULL)) { + return; + } + + unsigned int phys_carveout_mb = 0; + + if (!PE_parse_boot_argn("phys_carveout_mb", &phys_carveout_mb, + sizeof(phys_carveout_mb))) { + return; + } + if (phys_carveout_mb == 0) { + return; + } + + size_t size = 0; + if (os_mul_overflow(phys_carveout_mb, 1024 * 1024, &size)) { + printf("phys_carveout_mb size overflowed (%uMB)\n", + phys_carveout_mb); + return; + } + + kern_return_t kr = kmem_alloc_contig(kernel_map, &phys_carveout, size, + VM_MAP_PAGE_MASK(kernel_map), 0, 0, KMA_NOPAGEWAIT, + VM_KERN_MEMORY_DIAG); + if (kr != KERN_SUCCESS) { + printf("failed to allocate %uMB for phys_carveout_mb: %u\n", + phys_carveout_mb, (unsigned int)kr); + return; + } + + phys_carveout_pa = kvtophys(phys_carveout); + phys_carveout_size = size; +} + static void DebuggerLock() { @@ -286,11 +453,11 @@ DebuggerLock() int debugger_exp_cpu = DEBUGGER_NO_CPU; assert(ml_get_interrupts_enabled() == FALSE); - if (debugger_cpu == my_cpu) { + if (atomic_load(&debugger_cpu) == my_cpu) { return; } - while(!atomic_compare_exchange_strong(&debugger_cpu, &debugger_exp_cpu, my_cpu)) { + while (!atomic_compare_exchange_strong(&debugger_cpu, &debugger_exp_cpu, my_cpu)) { debugger_exp_cpu = DEBUGGER_NO_CPU; } @@ -300,7 +467,7 @@ DebuggerLock() static void DebuggerUnlock() { - assert(debugger_cpu == cpu_number()); + assert(atomic_load_explicit(&debugger_cpu, memory_order_relaxed) == cpu_number()); /* * We don't do an atomic exchange here in case @@ -309,7 +476,7 @@ DebuggerUnlock() * lock so we can simply store DEBUGGER_NO_CPU and follow with * a barrier. */ - debugger_cpu = DEBUGGER_NO_CPU; + atomic_store(&debugger_cpu, DEBUGGER_NO_CPU); OSMemoryBarrier(); return; @@ -339,8 +506,8 @@ DebuggerResumeOtherCores() static void DebuggerSaveState(debugger_op db_op, const char *db_message, const char *db_panic_str, - va_list *db_panic_args, uint64_t db_panic_options, - boolean_t db_proceed_on_sync_failure, unsigned long db_panic_caller) + va_list *db_panic_args, uint64_t db_panic_options, void *db_panic_data_ptr, + boolean_t db_proceed_on_sync_failure, unsigned long db_panic_caller) { CPUDEBUGGEROP = db_op; @@ -349,9 +516,13 @@ DebuggerSaveState(debugger_op db_op, const char *db_message, const char *db_pani CPUDEBUGGERMSG = db_message; CPUPANICSTR = db_panic_str; CPUPANICARGS = db_panic_args; + CPUPANICDATAPTR = db_panic_data_ptr; CPUPANICCALLER = db_panic_caller; } else if (CPUDEBUGGERCOUNT > 1 && db_panic_str != NULL) { - kprintf("Nested panic detected: %s", db_panic_str); + kprintf("Nested panic detected:"); + if (db_panic_str != NULL) { + _doprnt(db_panic_str, db_panic_args, PE_kputc, 0); + } } CPUDEBUGGERSYNC = db_proceed_on_sync_failure; @@ -369,36 +540,38 @@ DebuggerSaveState(debugger_op db_op, const char *db_message, const char *db_pani */ kern_return_t DebuggerTrapWithState(debugger_op db_op, const char *db_message, const char *db_panic_str, - va_list *db_panic_args, uint64_t db_panic_options, - boolean_t db_proceed_on_sync_failure, unsigned long db_panic_caller) + va_list *db_panic_args, uint64_t db_panic_options, void *db_panic_data_ptr, + boolean_t db_proceed_on_sync_failure, unsigned long db_panic_caller) { kern_return_t ret; assert(ml_get_interrupts_enabled() == FALSE); - DebuggerSaveState(db_op, db_message, db_panic_str, - db_panic_args, db_panic_options, db_proceed_on_sync_failure, - db_panic_caller); + DebuggerSaveState(db_op, db_message, db_panic_str, db_panic_args, + db_panic_options, db_panic_data_ptr, + db_proceed_on_sync_failure, db_panic_caller); TRAP_DEBUGGER; ret = CPUDEBUGGERRET; - DebuggerSaveState(DBOP_NONE, NULL, NULL, NULL, 0, FALSE, 0); + DebuggerSaveState(DBOP_NONE, NULL, NULL, NULL, 0, NULL, FALSE, 0); return ret; } void __attribute__((noinline)) Assert( - const char *file, - int line, - const char *expression - ) + const char *file, + int line, + const char *expression + ) { +#if CONFIG_NONFATAL_ASSERTS if (!mach_assert) { kprintf("%s:%d non-fatal Assertion: %s", file, line, expression); return; } +#endif panic_plain("%s:%d Assertion failed: %s", file, line, expression); } @@ -412,7 +585,7 @@ Debugger(const char *message) void DebuggerWithContext(unsigned int reason, void *ctx, const char *message, - uint64_t debugger_options_mask) + uint64_t debugger_options_mask) { spl_t previous_interrupts_state; boolean_t old_doprnt_hide_pointers = doprnt_hide_pointers; @@ -422,7 +595,7 @@ DebuggerWithContext(unsigned int reason, void *ctx, const char *message, CPUDEBUGGERCOUNT++; - if (CPUDEBUGGERCOUNT > NESTEDDEBUGGERENTRYMAX) { + if (CPUDEBUGGERCOUNT > max_debugger_entry_count) { static boolean_t in_panic_kprintf = FALSE; /* Notify any listeners that we've started a panic */ @@ -431,12 +604,12 @@ DebuggerWithContext(unsigned int reason, void *ctx, const char *message, if (!in_panic_kprintf) { in_panic_kprintf = TRUE; kprintf("Detected nested debugger entry count exceeding %d\n", - NESTEDDEBUGGERENTRYMAX); + max_debugger_entry_count); in_panic_kprintf = FALSE; } if (!panicDebugging) { - kdp_machine_reboot_type(kPEPanicRestartCPU); + kdp_machine_reboot_type(kPEPanicRestartCPU, debugger_options_mask); } panic_spin_forever(); @@ -450,13 +623,13 @@ DebuggerWithContext(unsigned int reason, void *ctx, const char *message, if (ctx != NULL) { DebuggerSaveState(DBOP_DEBUGGER, message, - NULL, NULL, debugger_options_mask, TRUE, 0); + NULL, NULL, debugger_options_mask, NULL, TRUE, 0); handle_debugger_trap(reason, 0, 0, ctx); DebuggerSaveState(DBOP_NONE, NULL, NULL, - NULL, 0, FALSE, 0); + NULL, 0, NULL, FALSE, 0); } else { DebuggerTrapWithState(DBOP_DEBUGGER, message, - NULL, NULL, debugger_options_mask, TRUE, 0); + NULL, NULL, debugger_options_mask, NULL, TRUE, 0); } CPUDEBUGGERCOUNT--; @@ -482,8 +655,9 @@ kdp_register_callout(kdp_callout_fn_t fn, void * arg) struct kdp_callout * list_head; kcp = kalloc(sizeof(*kcp)); - if (kcp == NULL) + if (kcp == NULL) { panic("kdp_register_callout() kalloc failed"); + } kcp->callout_fn = fn; kcp->callout_arg = arg; @@ -499,7 +673,7 @@ kdp_register_callout(kdp_callout_fn_t fn, void * arg) static void kdp_callouts(kdp_event_t event) { - struct kdp_callout *kcp = kdp_callout_list; + struct kdp_callout *kcp = kdp_callout_list; while (kcp) { if (!kcp->callout_in_progress) { @@ -511,6 +685,46 @@ kdp_callouts(kdp_event_t event) } } +#if !defined (__x86_64__) +/* + * Register an additional buffer with data to include in the panic log + * + * tracks supporting more than one buffer + * + * Note that producer_name and buf should never be de-allocated as we reference these during panic. + */ +void +register_additional_panic_data_buffer(const char *producer_name, void *buf, int len) +{ + if (panic_data_buffers != NULL) { + panic("register_additional_panic_data_buffer called with buffer already registered"); + } + + if (producer_name == NULL || (strlen(producer_name) == 0)) { + panic("register_additional_panic_data_buffer called with invalid producer_name"); + } + + if (buf == NULL) { + panic("register_additional_panic_data_buffer called with invalid buffer pointer"); + } + + if ((len <= 0) || (len > ADDITIONAL_PANIC_DATA_BUFFER_MAX_LEN)) { + panic("register_additional_panic_data_buffer called with invalid length"); + } + + struct additional_panic_data_buffer *new_panic_data_buffer = kalloc(sizeof(struct additional_panic_data_buffer)); + new_panic_data_buffer->producer_name = producer_name; + new_panic_data_buffer->buf = buf; + new_panic_data_buffer->len = len; + + if (!OSCompareAndSwapPtr(NULL, new_panic_data_buffer, &panic_data_buffers)) { + panic("register_additional_panic_data_buffer called with buffer already registered"); + } + + return; +} +#endif /* !defined (__x86_64__) */ + /* * An overview of the xnu panic path: * @@ -529,7 +743,7 @@ panic(const char *str, ...) va_list panic_str_args; va_start(panic_str_args, str); - panic_trap_to_debugger(str, &panic_str_args, 0, NULL, 0, (unsigned long)(char *)__builtin_return_address(0)); + panic_trap_to_debugger(str, &panic_str_args, 0, NULL, 0, NULL, (unsigned long)(char *)__builtin_return_address(0)); va_end(panic_str_args); } @@ -539,41 +753,62 @@ panic_with_options(unsigned int reason, void *ctx, uint64_t debugger_options_mas va_list panic_str_args; va_start(panic_str_args, str); - panic_trap_to_debugger(str, &panic_str_args, reason, ctx, debugger_options_mask, (unsigned long)(char *)__builtin_return_address(0)); + panic_trap_to_debugger(str, &panic_str_args, reason, ctx, (debugger_options_mask & ~DEBUGGER_INTERNAL_OPTIONS_MASK), + NULL, (unsigned long)(char *)__builtin_return_address(0)); va_end(panic_str_args); } +#if defined (__x86_64__) +/* + * panic_with_thread_context() is used on x86 platforms to specify a different thread that should be backtraced in the paniclog. + * We don't generally need this functionality on embedded platforms because embedded platforms include a panic time stackshot + * from customer devices. We plumb the thread pointer via the debugger trap mechanism and backtrace the kernel stack from the + * thread when writing the panic log. + * + * NOTE: panic_with_thread_context() should be called with an explicit thread reference held on the passed thread. + */ void -panic_context(unsigned int reason, void *ctx, const char *str, ...) +panic_with_thread_context(unsigned int reason, void *ctx, uint64_t debugger_options_mask, thread_t thread, const char *str, ...) { va_list panic_str_args; + __assert_only os_ref_count_t th_ref_count; + + assert_thread_magic(thread); + th_ref_count = os_ref_get_count(&thread->ref_count); + assertf(th_ref_count > 0, "panic_with_thread_context called with invalid thread %p with refcount %u", thread, th_ref_count); + + /* Take a reference on the thread so it doesn't disappear by the time we try to backtrace it */ + thread_reference(thread); va_start(panic_str_args, str); - panic_trap_to_debugger(str, &panic_str_args, reason, ctx, 0, (unsigned long)(char *)__builtin_return_address(0)); + panic_trap_to_debugger(str, &panic_str_args, reason, ctx, ((debugger_options_mask & ~DEBUGGER_INTERNAL_OPTIONS_MASK) | DEBUGGER_INTERNAL_OPTION_THREAD_BACKTRACE), + thread, (unsigned long)(char *)__builtin_return_address(0)); + va_end(panic_str_args); } +#endif /* defined (__x86_64__) */ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wmissing-noreturn" void -panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsigned int reason, void - *ctx, uint64_t panic_options_mask, unsigned long panic_caller) +panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsigned int reason, void *ctx, + uint64_t panic_options_mask, void *panic_data_ptr, unsigned long panic_caller) { #pragma clang diagnostic pop +#if defined(__x86_64__) && (DEVELOPMENT || DEBUG) + /* Turn off I/O tracing once we've panicked */ + mmiotrace_enabled = 0; +#endif + if (ml_wants_panic_trap_to_debugger()) { ml_panic_trap_to_debugger(panic_format_str, panic_args, reason, ctx, panic_options_mask, panic_caller); - - /* - * This should not return, but we return here for the tail call - * as it simplifies the backtrace. - */ - return; + __builtin_trap(); } CPUDEBUGGERCOUNT++; - if (CPUDEBUGGERCOUNT > NESTEDDEBUGGERENTRYMAX) { + if (CPUDEBUGGERCOUNT > max_debugger_entry_count) { static boolean_t in_panic_kprintf = FALSE; /* Notify any listeners that we've started a panic */ @@ -582,12 +817,12 @@ panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsign if (!in_panic_kprintf) { in_panic_kprintf = TRUE; kprintf("Detected nested debugger entry count exceeding %d\n", - NESTEDDEBUGGERENTRYMAX); + max_debugger_entry_count); in_panic_kprintf = FALSE; } if (!panicDebugging) { - kdp_machine_reboot_type(kPEPanicRestartCPU); + kdp_machine_reboot_type(kPEPanicRestartCPU, panic_options_mask); } panic_spin_forever(); @@ -597,10 +832,7 @@ panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsign DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED((panic_options_mask & DEBUGGER_OPTION_RECURPANIC_ENTRY)); #endif -#if CONFIG_EMBEDDED - if (PE_arm_debug_panic_hook) - PE_arm_debug_panic_hook(panic_format_str); -#endif + PE_panic_hook(panic_format_str); #if defined (__x86_64__) plctrace_disable(); @@ -609,7 +841,7 @@ panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsign if (write_trace_on_panic && kdebug_enable) { if (get_preemption_level() == 0 && !ml_at_interrupt_context()) { ml_set_interrupts_enabled(TRUE); - KDBG(TRACE_PANIC); + KDBG_RELEASE(TRACE_PANIC); kdbg_dump_trace_to_file(KDBG_TRACE_PANIC_FILENAME); } } @@ -630,8 +862,8 @@ panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsign * state on the current CPU and then jump to handle_debugger_trap. */ DebuggerSaveState(DBOP_PANIC, "panic", - panic_format_str, panic_args, - panic_options_mask, TRUE, panic_caller); + panic_format_str, panic_args, + panic_options_mask, panic_data_ptr, TRUE, panic_caller); handle_debugger_trap(reason, 0, 0, ctx); } @@ -639,39 +871,44 @@ panic_trap_to_debugger(const char *panic_format_str, va_list *panic_args, unsign /* * Signal to fastsim that it should open debug ports (nop on hardware) */ - __asm__ volatile("HINT 0x45"); + __asm__ volatile ("HINT 0x45"); #endif /* defined(__arm64__) */ DebuggerTrapWithState(DBOP_PANIC, "panic", panic_format_str, - panic_args, panic_options_mask, TRUE, panic_caller); + panic_args, panic_options_mask, panic_data_ptr, TRUE, panic_caller); /* * Not reached. */ panic_stop(); + __builtin_unreachable(); } -__attribute__((noreturn)) void -panic_spin_forever() +panic_spin_forever(void) { paniclog_append_noflush("\nPlease go to https://panic.apple.com to report this panic\n"); - for (;;) { } + for (;;) { + } } static void -kdp_machine_reboot_type(unsigned int type) +kdp_machine_reboot_type(unsigned int type, uint64_t debugger_flags) { printf("Attempting system restart..."); - PEHaltRestart(type); + if ((type == kPEPanicRestartCPU) && (debugger_flags & DEBUGGER_OPTION_SKIP_PANICEND_CALLOUTS)) { + PEHaltRestart(kPEPanicRestartCPUNoPanicEndCallouts); + } else { + PEHaltRestart(type); + } halt_all_cpus(TRUE); } void kdp_machine_reboot(void) { - kdp_machine_reboot_type(kPEPanicRestartCPU); + kdp_machine_reboot_type(kPEPanicRestartCPU, 0); } /* @@ -692,7 +929,7 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned #endif #if defined(__x86_64__) - kprintf("Debugger called: <%s>\n", debugger_message); + kprintf("Debugger called: <%s>\n", debugger_message ? debugger_message : ""); #endif /* * DB_HALT (halt_in_debugger) can be requested on startup, we shouldn't generate @@ -707,7 +944,7 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned } if ((debugger_current_op == DBOP_PANIC) || - (debugger_current_op == DBOP_DEBUGGER && debugger_is_panic)) { + ((debugger_current_op == DBOP_DEBUGGER) && debugger_is_panic)) { /* * Attempt to notify listeners once and only once that we've started * panicking. Only do this for Debugger() calls if we're treating @@ -745,14 +982,17 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned } paniclog_append_noflush("\n"); } +#if defined(__x86_64__) + else if (((debugger_current_op == DBOP_DEBUGGER) && debugger_is_panic)) { + paniclog_append_noflush("Debugger called: <%s>\n", debugger_message ? debugger_message : ""); + } /* * Debugger() is treated like panic() on embedded -- for example we use it for WDT * panics (so we need to write a paniclog). On desktop Debugger() is used in the * conventional sense. */ -#if defined(__x86_64__) - if (debugger_current_op == DBOP_PANIC) + if (debugger_current_op == DBOP_PANIC || ((debugger_current_op == DBOP_DEBUGGER) && debugger_is_panic)) #endif { kdp_callouts(KDP_EVENT_PANICLOG); @@ -762,60 +1002,83 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned * TODO: Need to clear panic log when return from debugger * hooked up for embedded */ - SavePanicInfo(debugger_message, debugger_panic_options); + SavePanicInfo(debugger_message, debugger_panic_data, debugger_panic_options); #if DEVELOPMENT || DEBUG DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED((debugger_panic_options & DEBUGGER_OPTION_RECURPANIC_POSTLOG)); #endif /* DEBUGGER_OPTION_PANICLOGANDREBOOT is used for two finger resets on embedded so we get a paniclog */ - if (debugger_panic_options & DEBUGGER_OPTION_PANICLOGANDREBOOT) - PEHaltRestart(kPEPanicRestartCPU); + if (debugger_panic_options & DEBUGGER_OPTION_PANICLOGANDREBOOT) { + PEHaltRestart(kPEPanicRestartCPUNoCallouts); + } } #if CONFIG_KDP_INTERACTIVE_DEBUGGING - uint32_t debug_flags = 0; - PE_i_can_has_debugger(&debug_flags); - /* * If reboot on panic is enabled and the caller of panic indicated that we should skip * local coredumps, don't try to write these and instead go straight to reboot. This * allows us to persist any data that's stored in the panic log. */ if ((debugger_panic_options & DEBUGGER_OPTION_SKIP_LOCAL_COREDUMP) && - (debug_flags & DB_REBOOT_POST_CORE)) { - kdp_machine_reboot_type(kPEPanicRestartCPU); + (debug_boot_arg & DB_REBOOT_POST_CORE)) { + kdp_machine_reboot_type(kPEPanicRestartCPU, debugger_panic_options); } /* * Consider generating a local corefile if the infrastructure is configured * and we haven't disabled on-device coredumps. */ - if (kdp_has_polled_corefile() && !(debug_flags & DB_DISABLE_LOCAL_CORE)) { - int ret = -1; + if (on_device_corefile_enabled()) { + if (!kdp_has_polled_corefile()) { + if (debug_boot_arg & (DB_KERN_DUMP_ON_PANIC | DB_KERN_DUMP_ON_NMI)) { + paniclog_append_noflush("skipping local kernel core because core file could not be opened prior to panic (error : 0x%x)", + kdp_polled_corefile_error()); +#if CONFIG_EMBEDDED + panic_info->eph_panic_flags |= EMBEDDED_PANIC_HEADER_FLAG_COREDUMP_FAILED; + paniclog_flush(); +#else /* CONFIG_EMBEDDED */ + if (panic_info->mph_panic_log_offset != 0) { + panic_info->mph_panic_flags |= MACOS_PANIC_HEADER_FLAG_COREDUMP_FAILED; + paniclog_flush(); + } +#endif /* CONFIG_EMBEDDED */ + } + } else { + int ret = -1; #if defined (__x86_64__) - /* On x86 we don't do a coredump on Debugger unless the DB_KERN_DUMP_ON_NMI boot-arg is specified. */ - if (debugger_current_op != DBOP_DEBUGGER || (debug_flags & DB_KERN_DUMP_ON_NMI)) + /* On x86 we don't do a coredump on Debugger unless the DB_KERN_DUMP_ON_NMI boot-arg is specified. */ + if (debugger_current_op != DBOP_DEBUGGER || (debug_boot_arg & DB_KERN_DUMP_ON_NMI)) #endif - { - /* - * Doing an on-device coredump leaves the disk driver in a state - * that can not be resumed. - */ - debugger_safe_to_return = FALSE; - begin_panic_transfer(); - ret = kern_dump(KERN_DUMP_DISK); - abort_panic_transfer(); + { + /* + * Doing an on-device coredump leaves the disk driver in a state + * that can not be resumed. + */ + debugger_safe_to_return = FALSE; + begin_panic_transfer(); + ret = kern_dump(KERN_DUMP_DISK); + abort_panic_transfer(); #if DEVELOPMENT || DEBUG - DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED((debugger_panic_options & DEBUGGER_OPTION_RECURPANIC_POSTCORE)); + DEBUGGER_DEBUGGING_NESTED_PANIC_IF_REQUESTED((debugger_panic_options & DEBUGGER_OPTION_RECURPANIC_POSTCORE)); #endif + } + + /* + * If DB_REBOOT_POST_CORE is set, then reboot if coredump is sucessfully saved + * or if option to ignore failures is set. + */ + if ((debug_boot_arg & DB_REBOOT_POST_CORE) && + ((ret == 0) || (debugger_panic_options & DEBUGGER_OPTION_ATTEMPTCOREDUMPANDREBOOT))) { + kdp_machine_reboot_type(kPEPanicRestartCPU, debugger_panic_options); + } } + } - /* If we wrote a corefile and DB_REBOOT_POST_CORE is set, reboot */ - if (ret == 0 && (debug_flags & DB_REBOOT_POST_CORE)) - kdp_machine_reboot_type(kPEPanicRestartCPU); + if (debug_boot_arg & DB_REBOOT_ALWAYS) { + kdp_machine_reboot_type(kPEPanicRestartCPU, debugger_panic_options); } /* If KDP is configured, try to trap to the debugger */ @@ -824,11 +1087,11 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned /* * Only return if we entered via Debugger and it's safe to return * (we halted the other cores successfully, this isn't a nested panic, etc) - */ + */ if (debugger_current_op == DBOP_DEBUGGER && - debugger_safe_to_return && - kernel_debugger_entry_count == 1 && - !debugger_is_panic) { + debugger_safe_to_return && + kernel_debugger_entry_count == 1 && + !debugger_is_panic) { return; } } @@ -842,7 +1105,7 @@ debugger_collect_diagnostics(unsigned int exception, unsigned int code, unsigned #endif /* CONFIG_KDP_INTERACTIVE_DEBUGGING */ if (!panicDebugging) { - kdp_machine_reboot_type(kPEPanicRestartCPU); + kdp_machine_reboot_type(kPEPanicRestartCPU, debugger_panic_options); } panic_spin_forever(); @@ -894,7 +1157,7 @@ handle_debugger_trap(unsigned int exception, unsigned int code, unsigned int sub } else { /* Not safe to return from a nested panic/debugger call */ if (debugger_current_op == DBOP_PANIC || - debugger_current_op == DBOP_DEBUGGER) { + debugger_current_op == DBOP_DEBUGGER) { debugger_safe_to_return = FALSE; } @@ -904,6 +1167,7 @@ handle_debugger_trap(unsigned int exception, unsigned int code, unsigned int sub if (debugger_panic_str == NULL) { debugger_panic_str = CPUPANICSTR; debugger_panic_args = CPUPANICARGS; + debugger_panic_data = CPUPANICDATAPTR; debugger_message = CPUDEBUGGERMSG; debugger_panic_caller = CPUPANICCALLER; } @@ -929,7 +1193,7 @@ handle_debugger_trap(unsigned int exception, unsigned int code, unsigned int sub } else if (debugger_current_op == DBOP_STACKSHOT) { CPUDEBUGGERRET = do_stackshot(); #if PGO - } else if (debugger_current_op == DBOP_RESET_PGO_COUNTERS) { + } else if (debugger_current_op == DBOP_RESET_PGO_COUNTERS) { CPUDEBUGGERRET = do_pgo_reset_counters(); #endif } else { @@ -946,6 +1210,7 @@ handle_debugger_trap(unsigned int exception, unsigned int code, unsigned int sub if (debugger_current_op != DBOP_BREAKPOINT) { debugger_panic_str = NULL; debugger_panic_args = NULL; + debugger_panic_data = NULL; debugger_panic_options = 0; debugger_message = NULL; } @@ -966,18 +1231,19 @@ handle_debugger_trap(unsigned int exception, unsigned int code, unsigned int sub return; } -__attribute__((noinline,not_tail_called)) -void log(__unused int level, char *fmt, ...) +__attribute__((noinline, not_tail_called)) +void +log(__unused int level, char *fmt, ...) { void *caller = __builtin_return_address(0); - va_list listp; - va_list listp2; + va_list listp; + va_list listp2; #ifdef lint level++; #endif /* lint */ -#ifdef MACH_BSD +#ifdef MACH_BSD va_start(listp, fmt); va_copy(listp2, listp); @@ -1004,39 +1270,40 @@ void log(__unused int level, char *fmt, ...) */ boolean_t -oslog_is_safe(void) { - return (kernel_debugger_entry_count == 0 && - not_in_kdp == 1 && - get_preemption_level() == 0 && - ml_get_interrupts_enabled() == TRUE); +oslog_is_safe(void) +{ + return kernel_debugger_entry_count == 0 && + not_in_kdp == 1 && + get_preemption_level() == 0 && + ml_get_interrupts_enabled() == TRUE; } boolean_t debug_mode_active(void) { - return ((0 != kernel_debugger_entry_count != 0) || (0 == not_in_kdp)); + return (0 != kernel_debugger_entry_count != 0) || (0 == not_in_kdp); } void debug_putc(char c) { if ((debug_buf_size != 0) && - ((debug_buf_ptr - debug_buf_base) < (int)debug_buf_size)) { - *debug_buf_ptr=c; + ((debug_buf_ptr - debug_buf_base) < (int)debug_buf_size)) { + *debug_buf_ptr = c; debug_buf_ptr++; } } #if defined (__x86_64__) struct pasc { - unsigned a: 7; - unsigned b: 7; - unsigned c: 7; - unsigned d: 7; - unsigned e: 7; - unsigned f: 7; - unsigned g: 7; - unsigned h: 7; + unsigned a: 7; + unsigned b: 7; + unsigned c: 7; + unsigned d: 7; + unsigned e: 7; + unsigned f: 7; + unsigned g: 7; + unsigned h: 7; } __attribute__((packed)); typedef struct pasc pasc_t; @@ -1048,25 +1315,24 @@ typedef struct pasc pasc_t; int packA(char *inbuf, uint32_t length, uint32_t buflen) { - unsigned int i, j = 0; - pasc_t pack; - - length = MIN(((length + 7) & ~7), buflen); - - for (i = 0; i < length; i+=8) - { - pack.a = inbuf[i]; - pack.b = inbuf[i+1]; - pack.c = inbuf[i+2]; - pack.d = inbuf[i+3]; - pack.e = inbuf[i+4]; - pack.f = inbuf[i+5]; - pack.g = inbuf[i+6]; - pack.h = inbuf[i+7]; - bcopy ((char *) &pack, inbuf + j, 7); - j += 7; - } - return j; + unsigned int i, j = 0; + pasc_t pack; + + length = MIN(((length + 7) & ~7), buflen); + + for (i = 0; i < length; i += 8) { + pack.a = inbuf[i]; + pack.b = inbuf[i + 1]; + pack.c = inbuf[i + 2]; + pack.d = inbuf[i + 3]; + pack.e = inbuf[i + 4]; + pack.f = inbuf[i + 5]; + pack.g = inbuf[i + 6]; + pack.h = inbuf[i + 7]; + bcopy((char *) &pack, inbuf + j, 7); + j += 7; + } + return j; } void @@ -1074,19 +1340,19 @@ unpackA(char *inbuf, uint32_t length) { pasc_t packs; unsigned i = 0; - length = (length * 8)/7; + length = (length * 8) / 7; while (i < length) { - packs = *(pasc_t *)&inbuf[i]; - bcopy(&inbuf[i+7], &inbuf[i+8], MAX(0, (int) (length - i - 8))); - inbuf[i++] = packs.a; - inbuf[i++] = packs.b; - inbuf[i++] = packs.c; - inbuf[i++] = packs.d; - inbuf[i++] = packs.e; - inbuf[i++] = packs.f; - inbuf[i++] = packs.g; - inbuf[i++] = packs.h; + packs = *(pasc_t *)&inbuf[i]; + bcopy(&inbuf[i + 7], &inbuf[i + 8], MAX(0, (int) (length - i - 8))); + inbuf[i++] = packs.a; + inbuf[i++] = packs.b; + inbuf[i++] = packs.c; + inbuf[i++] = packs.d; + inbuf[i++] = packs.e; + inbuf[i++] = packs.f; + inbuf[i++] = packs.g; + inbuf[i++] = packs.h; } } #endif /* defined (__x86_64__) */ @@ -1094,55 +1360,68 @@ unpackA(char *inbuf, uint32_t length) extern void *proc_name_address(void *p); static void -panic_display_process_name(void) { +panic_display_process_name(void) +{ /* because of scoping issues len(p_comm) from proc_t is hard coded here */ char proc_name[17] = "Unknown"; task_t ctask = 0; void *cbsd_info = 0; - if (ml_nofault_copy((vm_offset_t)¤t_thread()->task, (vm_offset_t) &ctask, sizeof(task_t)) == sizeof(task_t)) - if(ml_nofault_copy((vm_offset_t)&ctask->bsd_info, (vm_offset_t)&cbsd_info, sizeof(cbsd_info)) == sizeof(cbsd_info)) - if (cbsd_info && (ml_nofault_copy((vm_offset_t) proc_name_address(cbsd_info), (vm_offset_t) &proc_name, sizeof(proc_name)) > 0)) + if (ml_nofault_copy((vm_offset_t)¤t_thread()->task, (vm_offset_t) &ctask, sizeof(task_t)) == sizeof(task_t)) { + if (ml_nofault_copy((vm_offset_t)&ctask->bsd_info, (vm_offset_t)&cbsd_info, sizeof(cbsd_info)) == sizeof(cbsd_info)) { + if (cbsd_info && (ml_nofault_copy((vm_offset_t) proc_name_address(cbsd_info), (vm_offset_t) &proc_name, sizeof(proc_name)) > 0)) { proc_name[sizeof(proc_name) - 1] = '\0'; + } + } + } paniclog_append_noflush("\nBSD process name corresponding to current thread: %s\n", proc_name); } unsigned -panic_active(void) { - return ((debugger_panic_str != (char *) 0)); +panic_active(void) +{ + return debugger_panic_str != (char *) 0; } void -populate_model_name(char *model_string) { +populate_model_name(char *model_string) +{ strlcpy(model_name, model_string, sizeof(model_name)); } void -panic_display_model_name(void) { +panic_display_model_name(void) +{ char tmp_model_name[sizeof(model_name)]; - if (ml_nofault_copy((vm_offset_t) &model_name, (vm_offset_t) &tmp_model_name, sizeof(model_name)) != sizeof(model_name)) + if (ml_nofault_copy((vm_offset_t) &model_name, (vm_offset_t) &tmp_model_name, sizeof(model_name)) != sizeof(model_name)) { return; + } tmp_model_name[sizeof(tmp_model_name) - 1] = '\0'; - if (tmp_model_name[0] != 0) + if (tmp_model_name[0] != 0) { paniclog_append_noflush("System model name: %s\n", tmp_model_name); + } } void -panic_display_kernel_uuid(void) { +panic_display_kernel_uuid(void) +{ char tmp_kernel_uuid[sizeof(kernel_uuid_string)]; - if (ml_nofault_copy((vm_offset_t) &kernel_uuid_string, (vm_offset_t) &tmp_kernel_uuid, sizeof(kernel_uuid_string)) != sizeof(kernel_uuid_string)) + if (ml_nofault_copy((vm_offset_t) &kernel_uuid_string, (vm_offset_t) &tmp_kernel_uuid, sizeof(kernel_uuid_string)) != sizeof(kernel_uuid_string)) { return; + } - if (tmp_kernel_uuid[0] != '\0') + if (tmp_kernel_uuid[0] != '\0') { paniclog_append_noflush("Kernel UUID: %s\n", tmp_kernel_uuid); + } } void -panic_display_kernel_aslr(void) { +panic_display_kernel_aslr(void) +{ if (vm_kernel_slide) { paniclog_append_noflush("Kernel slide: 0x%016lx\n", (unsigned long) vm_kernel_slide); paniclog_append_noflush("Kernel text base: %p\n", (void *) vm_kernel_stext); @@ -1150,28 +1429,47 @@ panic_display_kernel_aslr(void) { } void -panic_display_hibb(void) { +panic_display_hibb(void) +{ #if defined(__i386__) || defined (__x86_64__) paniclog_append_noflush("__HIB text base: %p\n", (void *) vm_hib_base); #endif } static void -panic_display_uptime(void) { - uint64_t uptime; +panic_display_uptime(void) +{ + uint64_t uptime; absolutetime_to_nanoseconds(mach_absolute_time(), &uptime); paniclog_append_noflush("\nSystem uptime in nanoseconds: %llu\n", uptime); } static void -panic_display_disk_errors(void) { - +panic_display_disk_errors(void) +{ if (panic_disk_error_description[0]) { panic_disk_error_description[sizeof(panic_disk_error_description) - 1] = '\0'; paniclog_append_noflush("Root disk errors: \"%s\"\n", panic_disk_error_description); } -}; +} + +static void +panic_display_shutdown_status(void) +{ +#if defined(__i386__) || defined(__x86_64__) + paniclog_append_noflush("System shutdown begun: %s\n", IOPMRootDomainGetWillShutdown() ? "YES" : "NO"); + if (gIOPolledCoreFileMode == kIOPolledCoreFileModeNotInitialized) { + paniclog_append_noflush("Panic diags file unavailable, panic occurred prior to initialization\n"); + } else if (gIOPolledCoreFileMode != kIOPolledCoreFileModeDisabled) { + /* + * If we haven't marked the corefile as explicitly disabled, and we've made it past initialization, then we know the current + * system was configured to use disk based diagnostics at some point. + */ + paniclog_append_noflush("Panic diags file available: %s (0x%x)\n", (gIOPolledCoreFileMode != kIOPolledCoreFileModeClosed) ? "YES" : "NO", kdp_polled_corefile_error()); + } +#endif +} extern const char version[]; extern char osversion[]; @@ -1179,16 +1477,19 @@ extern char osversion[]; static volatile uint32_t config_displayed = 0; __private_extern__ void -panic_display_system_configuration(boolean_t launchd_exit) { - - if (!launchd_exit) panic_display_process_name(); +panic_display_system_configuration(boolean_t launchd_exit) +{ + if (!launchd_exit) { + panic_display_process_name(); + } if (OSCompareAndSwap(0, 1, &config_displayed)) { char buf[256]; - if (!launchd_exit && strlcpy(buf, PE_boot_args(), sizeof(buf))) + if (!launchd_exit && strlcpy(buf, PE_boot_args(), sizeof(buf))) { paniclog_append_noflush("Boot args: %s\n", buf); + } paniclog_append_noflush("\nMac OS version:\n%s\n", (osversion[0] != 0) ? osversion : "Not yet set"); - paniclog_append_noflush("\nKernel version:\n%s\n",version); + paniclog_append_noflush("\nKernel version:\n%s\n", version); panic_display_kernel_uuid(); if (!launchd_exit) { panic_display_kernel_aslr(); @@ -1197,6 +1498,7 @@ panic_display_system_configuration(boolean_t launchd_exit) { } panic_display_model_name(); panic_display_disk_errors(); + panic_display_shutdown_status(); if (!launchd_exit) { panic_display_uptime(); panic_display_zprint(); @@ -1208,11 +1510,11 @@ panic_display_system_configuration(boolean_t launchd_exit) { } } -extern unsigned int stack_total; +extern unsigned int stack_total; extern unsigned long long stack_allocs; #if defined (__x86_64__) -extern unsigned int inuse_ptepages_count; +extern unsigned int inuse_ptepages_count; extern long long alloc_ptepages_count; #endif @@ -1223,24 +1525,23 @@ extern vm_size_t panic_kext_memory_size; __private_extern__ void panic_display_zprint() { - if(panic_include_zprint == TRUE) { - - unsigned int i; - struct zone zone_copy; + if (panic_include_zprint == TRUE) { + unsigned int i; + struct zone zone_copy; paniclog_append_noflush("%-20s %10s %10s\n", "Zone Name", "Cur Size", "Free Size"); for (i = 0; i < num_zones; i++) { - if(ml_nofault_copy((vm_offset_t)(&zone_array[i]), (vm_offset_t)&zone_copy, sizeof(struct zone)) == sizeof(struct zone)) { - if(zone_copy.cur_size > (1024*1024)) { - paniclog_append_noflush("%-20s %10lu %10lu\n",zone_copy.zone_name, (uintptr_t)zone_copy.cur_size,(uintptr_t)(zone_copy.countfree * zone_copy.elem_size)); + if (ml_nofault_copy((vm_offset_t)(&zone_array[i]), (vm_offset_t)&zone_copy, sizeof(struct zone)) == sizeof(struct zone)) { + if (zone_copy.cur_size > (1024 * 1024)) { + paniclog_append_noflush("%-20s %10lu %10lu\n", zone_copy.zone_name, (uintptr_t)zone_copy.cur_size, (uintptr_t)(zone_copy.countfree * zone_copy.elem_size)); } - } + } } paniclog_append_noflush("%-20s %10lu\n", "Kernel Stacks", (uintptr_t)(kernel_stack_size * stack_total)); #if defined (__x86_64__) - paniclog_append_noflush("%-20s %10lu\n", "PageTables",(uintptr_t)(PAGE_SIZE * inuse_ptepages_count)); + paniclog_append_noflush("%-20s %10lu\n", "PageTables", (uintptr_t)(PAGE_SIZE * inuse_ptepages_count)); #endif paniclog_append_noflush("%-20s %10lu\n", "Kalloc.Large", (uintptr_t)kalloc_large_total); @@ -1258,7 +1559,7 @@ panic_display_zprint() #if CONFIG_ECC_LOGGING __private_extern__ void -panic_display_ecc_errors() +panic_display_ecc_errors() { uint32_t count = ecc_log_get_correction_count(); @@ -1269,7 +1570,7 @@ panic_display_ecc_errors() #endif /* CONFIG_ECC_LOGGING */ #if CONFIG_ZLEAKS -extern boolean_t panic_include_ztrace; +extern boolean_t panic_include_ztrace; extern struct ztrace* top_ztrace; void panic_print_symbol_name(vm_address_t search); @@ -1280,18 +1581,18 @@ void panic_print_symbol_name(vm_address_t search); __private_extern__ void panic_display_ztrace(void) { - if(panic_include_ztrace == TRUE) { + if (panic_include_ztrace == TRUE) { unsigned int i = 0; - boolean_t keepsyms = FALSE; + boolean_t keepsyms = FALSE; - PE_parse_boot_argn("keepsyms", &keepsyms, sizeof (keepsyms)); + PE_parse_boot_argn("keepsyms", &keepsyms, sizeof(keepsyms)); struct ztrace top_ztrace_copy; - + /* Make sure not to trip another panic if there's something wrong with memory */ - if(ml_nofault_copy((vm_offset_t)top_ztrace, (vm_offset_t)&top_ztrace_copy, sizeof(struct ztrace)) == sizeof(struct ztrace)) { + if (ml_nofault_copy((vm_offset_t)top_ztrace, (vm_offset_t)&top_ztrace_copy, sizeof(struct ztrace)) == sizeof(struct ztrace)) { paniclog_append_noflush("\nBacktrace suspected of leaking: (outstanding bytes: %lu)\n", (uintptr_t)top_ztrace_copy.zt_size); /* Print the backtrace addresses */ - for (i = 0; (i < top_ztrace_copy.zt_depth && i < MAX_ZTRACE_DEPTH) ; i++) { + for (i = 0; (i < top_ztrace_copy.zt_depth && i < MAX_ZTRACE_DEPTH); i++) { paniclog_append_noflush("%p ", top_ztrace_copy.zt_stack[i]); if (keepsyms) { panic_print_symbol_name((vm_address_t)top_ztrace_copy.zt_stack[i]); @@ -1300,8 +1601,7 @@ panic_display_ztrace(void) } /* Print any kexts in that backtrace, along with their link addresses so we can properly blame them */ kmod_panic_dump((vm_offset_t *)&top_ztrace_copy.zt_stack[0], top_ztrace_copy.zt_depth); - } - else { + } else { paniclog_append_noflush("\nCan't access top_ztrace...\n"); } paniclog_append_noflush("\n"); @@ -1321,10 +1621,13 @@ telemetry_gather(user_addr_t buffer __unused, uint32_t *length __unused, boolean uint32_t kern_feature_overrides = 0; -boolean_t kern_feature_override(uint32_t fmask) { +boolean_t +kern_feature_override(uint32_t fmask) +{ if (kern_feature_overrides == 0) { uint32_t fdisables = 0; - /* Expected to be first invoked early, in a single-threaded + /* + * Expected to be first invoked early, in a single-threaded * environment */ if (PE_parse_boot_argn("validation_disables", &fdisables, sizeof(fdisables))) { @@ -1334,5 +1637,34 @@ boolean_t kern_feature_override(uint32_t fmask) { kern_feature_overrides |= KF_INITIALIZED; } } - return ((kern_feature_overrides & fmask) == fmask); + return (kern_feature_overrides & fmask) == fmask; +} + +boolean_t +on_device_corefile_enabled(void) +{ + assert(debug_boot_arg_inited); +#if CONFIG_KDP_INTERACTIVE_DEBUGGING + if ((debug_boot_arg != 0) && !(debug_boot_arg & DB_DISABLE_LOCAL_CORE)) { + return TRUE; + } +#endif + return FALSE; +} + +boolean_t +panic_stackshot_to_disk_enabled(void) +{ + assert(debug_boot_arg_inited); +#if defined(__x86_64__) + if (PEGetCoprocessorVersion() < kCoprocessorVersion2) { + /* Only enabled on pre-Gibraltar machines where it hasn't been disabled explicitly */ + if ((debug_boot_arg != 0) && (debug_boot_arg & DB_DISABLE_STACKSHOT_TO_DISK)) { + return FALSE; + } + + return TRUE; + } +#endif + return FALSE; }