This is xnu-12377.1.9. See this file in:
/*
* Copyright (c) 2000-2020 Apple Inc. All rights reserved.
*
* @Apple_LICENSE_HEADER_START@
*
* The contents of this file constitute Original Code as defined in and
* are subject to the Apple Public Source License Version 1.1 (the
* "License"). You may not use this file except in compliance with the
* License. Please obtain a copy of the License at
* http://www.apple.com/publicsource and read it before using this file.
*
* This Original Code and all software distributed under the License are
* distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
* License for the specific language governing rights and limitations
* under the License.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
*/
#include <sys/kdebug_common.h>
#include <sys/kdebug_triage.h>
#include <machine/atomic.h>
#define TRIAGE_KDCOPYBUF_COUNT 128
#define TRIAGE_KDCOPYBUF_SIZE (TRIAGE_KDCOPYBUF_COUNT * sizeof(kd_buf))
struct kd_control kd_control_triage = {
.kds_free_list = { .raw = KDS_PTR_NULL },
.mode = KDEBUG_MODE_TRIAGE,
.kdebug_events_per_storage_unit = TRIAGE_EVENTS_PER_STORAGE_UNIT,
.kdebug_min_storage_units_per_cpu = TRIAGE_MIN_STORAGE_UNITS_PER_CPU,
.kdc_flags = KDBG_DEBUGID_64,
.kdc_emit = KDEMIT_DISABLE,
.kdc_oldest_time = 0
};
struct kd_buffer kd_buffer_triage = {
.kdb_event_count = 0,
.kdb_storage_count = 0,
.kdb_storage_threshold = 0,
.kdb_region_count = 0,
.kdb_info = NULL,
.kd_bufs = NULL,
.kdcopybuf = NULL,
};
static LCK_GRP_DECLARE(ktriage_grp, "ktriage");
static LCK_MTX_DECLARE(ktriage_mtx, &ktriage_grp);
static void
ktriage_lock(void)
{
lck_mtx_lock(&ktriage_mtx);
}
static void
ktriage_unlock(void)
{
lck_mtx_unlock(&ktriage_mtx);
}
__startup_func
void
create_buffers_triage(void)
{
if (kd_control_triage.kdc_flags & KDBG_BUFINIT) {
panic("kdebug_triage: double-init");
}
uint32_t cpu_count = kdbg_cpu_count();
kd_control_triage.kdebug_cpus = cpu_count;
kd_control_triage.alloc_cpus = cpu_count;
uint32_t storage_count = cpu_count * kd_control_triage.kdebug_min_storage_units_per_cpu;
kd_buffer_triage.kdb_storage_count = storage_count;
kd_buffer_triage.kdb_event_count = storage_count * kd_control_triage.kdebug_events_per_storage_unit;
int error = create_buffers(&kd_control_triage, &kd_buffer_triage, VM_KERN_MEMORY_TRIAGE);
if (error != 0) {
panic("kdebug_triage: failed to create buffers, error = %d", error);
}
// Immediately enable triage recording.
kd_control_triage.enabled = 1;
}
ktriage_strings_t ktriage_subsystems_strings[KDBG_TRIAGE_SUBSYS_MAX + 1];
static void
ktriage_convert_to_string(uint64_t debugid, uintptr_t arg, char *buf, uint32_t bufsz)
{
if (buf == NULL) {
return;
}
uint8_t subsystem = KDBG_TRIAGE_EXTRACT_CLASS(debugid);
/* zero subsystem means there is nothing to log */
if (subsystem == 0) {
return;
}
if (subsystem > KDBG_TRIAGE_SUBSYS_MAX) {
snprintf(buf, bufsz, "KTriage Error: Subsystem code %u is invalid\n", subsystem);
return;
}
int subsystem_num_strings = ktriage_subsystems_strings[subsystem].num_strings;
const char **subsystem_strings = ktriage_subsystems_strings[subsystem].strings;
uint16_t strindx = KDBG_TRIAGE_EXTRACT_CODE(debugid);
/* fallback if ktriage doesn't know how to parse the given debugid */
if (subsystem_num_strings < 1 || subsystem_strings == NULL || strindx >= subsystem_num_strings) {
snprintf(buf, bufsz, "KTriage: Subsystem %d reported %u with argument 0x%lx\n", subsystem, strindx, arg);
return;
}
snprintf(buf, bufsz, "%s(arg = 0x%lx) %s", subsystem_strings[0], arg, subsystem_strings[strindx]);
return;
}
static void
_write_triage_record_nopreempt(uintptr_t debugid, uintptr_t arg, uintptr_t thread_id)
{
uint64_t now = 0;
uint32_t bindx;
kd_buf *kd;
struct kd_storage *kdsp_actual;
union kds_ptr kds_raw;
if (!kd_control_triage.enabled) {
return;
}
int cpu = cpu_number();
struct kd_bufinfo *info = &kd_buffer_triage.kdb_info[cpu];
const uint32_t events_per_storage = kd_control_triage.kdebug_events_per_storage_unit;
while (true) {
kds_raw = info->kd_list_tail;
if (kds_raw.raw != KDS_PTR_NULL) {
kdsp_actual = POINTER_FROM_KDS_PTR(kd_buffer_triage.kd_bufs, kds_raw);
bindx = kdsp_actual->kds_bufindx;
} else {
kdsp_actual = NULL;
bindx = events_per_storage;
}
if (kdsp_actual == NULL || bindx >= events_per_storage) {
if (kdebug_storage_alloc(&kd_control_triage, &kd_buffer_triage, cpu) == false) {
break;
}
continue;
}
now = mach_continuous_time() & KDBG_TIMESTAMP_MASK;
if (OSCompareAndSwap(bindx, bindx + 1, &kdsp_actual->kds_bufindx)) {
kd = &kdsp_actual->kds_records[bindx];
kd->debugid = 0;
kd->arg1 = arg;
kd->arg2 = 0;
kd->arg3 = 0;
kd->arg4 = debugid;
kd->arg5 = thread_id;
kd->timestamp = now;
os_atomic_inc(&kdsp_actual->kds_bufcnt, release);
break;
}
}
}
void
ktriage_record(
uint64_t thread_id,
uint64_t debugid,
uintptr_t arg)
{
if (thread_id == 0) {
thread_id = thread_tid(current_thread());
}
disable_preemption();
_write_triage_record_nopreempt(debugid, arg, thread_id);
enable_preemption();
}
static struct kd_storage *
_find_triage_min_storage(uint64_t thread_id)
{
uint64_t earliest_time = UINT64_MAX;
struct kd_storage *min_store = NULL;
// Find the earliest record from all CPUs.
for (unsigned int cpu = 0; cpu < kd_control_triage.kdebug_cpus; cpu++) {
struct kd_bufinfo *info = &kd_buffer_triage.kdb_info[cpu];
union kds_ptr store_ptr = info->kd_list_head;
if (store_ptr.raw == KDS_PTR_NULL) {
continue;
}
struct kd_storage *store = POINTER_FROM_KDS_PTR(kd_buffer_triage.kd_bufs, store_ptr);
kd_buf *found_rec = NULL;
while (store) {
unsigned int last_read = store->kds_readlast;
unsigned int const limit = os_atomic_load(&store->kds_bufcnt, acquire);
while (last_read < limit) {
// Skip any records that didn't come from the target thread.
kd_buf *rec = &store->kds_records[last_read];
if (rec->arg5 == thread_id) {
found_rec = rec;
break;
}
last_read++;
}
if (found_rec) {
store->kds_readlast = last_read;
break;
}
store_ptr = store->kds_next;
if (store_ptr.raw == KDS_PTR_NULL) {
break;
}
store = POINTER_FROM_KDS_PTR(kd_buffer_triage.kd_bufs, store_ptr);
}
if (found_rec) {
uint64_t t = found_rec->timestamp;
if (t < earliest_time) {
earliest_time = t;
min_store = store;
}
}
}
return min_store;
}
/// Copy a time-ordered series of records pertaining to the given thread to a
/// buffer. Returns the number of records written into the buffer.
///
/// Mutual exclusion must be provided by the caller.
///
/// This is similar to `_read_trace_records`, except for a few triage-specific
/// additions and the removal of significant complexity for handling lost
/// events, coprocessors, and direct file writing.
static size_t
_read_triage_records(kd_buf *read_buffer,
size_t max_count,
uint64_t thread_id)
{
struct kd_bufinfo *bufinfos = kd_buffer_triage.kdb_info;
struct kd_region *region = kd_buffer_triage.kd_bufs;
size_t avail_count = MIN(max_count, kd_buffer_triage.kdb_event_count);
size_t read_count = 0;
if (avail_count == 0 ||
!(kd_control_triage.kdc_flags & KDBG_BUFINIT)) {
return 0;
}
// `thread_call` threads created due to corpse creation may already have the
// eager preemption bit set, so don't over-do it.
bool set_preempt = !(thread_is_eager_preempt(current_thread()));
if (set_preempt) {
thread_set_eager_preempt(current_thread());
}
// Prevent any writers from stealing storage units -- just drop their logs
// on the floor instead.
int intrs_en = kdebug_storage_lock(&kd_control_triage);
kd_control_triage.kdc_flags |= KDBG_NOWRAP;
kdebug_storage_unlock(&kd_control_triage, intrs_en);
// Clear out any previous accumulated state from earlier reads, as triage
// wants to reconsider all available data.
for (unsigned int cpu = 0; cpu < kd_control_triage.kdebug_cpus; cpu++) {
struct kd_bufinfo *info = &bufinfos[cpu];
info->kd_prev_timebase = 0;
union kds_ptr kdsp = info->kd_list_head;
while (kdsp.raw != KDS_PTR_NULL) {
struct kd_storage *store = POINTER_FROM_KDS_PTR(region, kdsp);
store->kds_readlast = 0;
kdsp = store->kds_next;
}
}
while (avail_count) {
struct kd_storage *min_store = _find_triage_min_storage(thread_id);
if (min_store == NULL) {
break;
}
*read_buffer++ = min_store->kds_records[min_store->kds_readlast++];
avail_count--;
read_count++;
}
intrs_en = kdebug_storage_lock(&kd_control_triage);
kd_control_triage.kdc_flags &= ~KDBG_NOWRAP;
kdebug_storage_unlock(&kd_control_triage, intrs_en);
if (set_preempt) {
thread_clear_eager_preempt(current_thread());
}
return read_count;
}
void
ktriage_extract(
uint64_t thread_id,
void *buf,
uint32_t bufsz)
{
size_t record_cnt = 0, record_bufsz;
void *record_buf;
void *local_buf;
if (thread_id == 0 || buf == NULL || bufsz < KDBG_TRIAGE_MAX_STRLEN) {
return;
}
local_buf = buf;
bzero(local_buf, bufsz);
record_bufsz = kd_buffer_triage.kdb_event_count * sizeof(kd_buf);
record_buf = kalloc_data(record_bufsz, Z_WAITOK);
if (record_buf == NULL) {
printf("kdebug_triage: failed to allocate %lu bytes for record\n",
record_bufsz);
return;
} else {
ktriage_lock();
record_cnt = _read_triage_records(record_buf,
kd_buffer_triage.kdb_event_count, thread_id);
ktriage_unlock();
}
kd_buf *kd = (kd_buf *)record_buf;
for (size_t i = 0; i < record_cnt; i++) {
assert3u(kd->arg5, ==, thread_id);
ktriage_convert_to_string(kd->arg4, kd->arg1, local_buf, KDBG_TRIAGE_MAX_STRLEN);
local_buf = (void *)((uintptr_t)local_buf + KDBG_TRIAGE_MAX_STRLEN);
bufsz -= KDBG_TRIAGE_MAX_STRLEN;
if (bufsz < KDBG_TRIAGE_MAX_STRLEN) {
break;
}
kd++;
}
kfree_data(record_buf, record_bufsz);
}
int
ktriage_register_subsystem_strings(uint8_t subsystem, ktriage_strings_t *subsystem_strings)
{
if (subsystem == 0 || subsystem > KDBG_TRIAGE_SUBSYS_MAX || subsystem_strings == NULL) {
return EINVAL;
}
ktriage_lock();
ktriage_subsystems_strings[subsystem].num_strings = subsystem_strings->num_strings;
ktriage_subsystems_strings[subsystem].strings = subsystem_strings->strings;
printf("ktriage_register_subsystem_strings: set subsystem %u strings\n", subsystem);
ktriage_unlock();
return 0;
}
int
ktriage_unregister_subsystem_strings(uint8_t subsystem)
{
if (subsystem == 0 || subsystem > KDBG_TRIAGE_SUBSYS_MAX) {
return EINVAL;
}
ktriage_lock();
if (ktriage_subsystems_strings[subsystem].num_strings == -1) {
// already unregistered - nothing to do
ktriage_unlock();
return 0;
}
ktriage_subsystems_strings[subsystem].num_strings = -1;
ktriage_subsystems_strings[subsystem].strings = NULL;
ktriage_unlock();
return 0;
}
/* KDBG_TRIAGE_CODE_* section */
/* VM begin */
const char *vm_triage_strings[] =
{
[KDBG_TRIAGE_VM_PREFIX] = "VM - ",
[KDBG_TRIAGE_VM_NO_DATA] = "Didn't get back data for this file\n",
[KDBG_TRIAGE_VM_TEXT_CORRUPTION] = "A memory corruption was found in executable text\n",
[KDBG_TRIAGE_VM_ADDRESS_NOT_FOUND] = "Found no valid range containing this address\n",
[KDBG_TRIAGE_VM_PROTECTION_FAILURE] = "Fault hit protection failure\n",
[KDBG_TRIAGE_VM_FAULT_MEMORY_SHORTAGE] = "VM Fault hit memory shortage\n",
[KDBG_TRIAGE_VM_FAULT_COPY_MEMORY_SHORTAGE] = "vm_fault_copy hit memory shortage\n",
[KDBG_TRIAGE_VM_FAULT_OBJCOPYSLOWLY_MEMORY_SHORTAGE] = "vm_object_copy_slowly fault hit memory shortage\n",
[KDBG_TRIAGE_VM_FAULT_OBJIOPLREQ_MEMORY_SHORTAGE] = "vm_object_iopl_request fault hit memory shortage\n",
[KDBG_TRIAGE_VM_FAULT_INTERRUPTED] = "Fault was interrupted\n",
[KDBG_TRIAGE_VM_SUCCESS_NO_PAGE] = "Returned success with no page\n",
[KDBG_TRIAGE_VM_GUARDPAGE_FAULT] = "Guard page fault\n",
[KDBG_TRIAGE_VM_NONZERO_PREEMPTION_LEVEL] = "Fault entered with non-zero preemption level\n",
[KDBG_TRIAGE_VM_BUSYPAGE_WAIT_INTERRUPTED] = "Waiting on busy page was interrupted\n",
[KDBG_TRIAGE_VM_PURGEABLE_FAULT_ERROR] = "Purgeable object hit an error in fault\n",
[KDBG_TRIAGE_VM_OBJECT_SHADOW_SEVERED] = "Object has a shadow severed\n",
[KDBG_TRIAGE_VM_OBJECT_NOT_ALIVE] = "Object is not alive\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER] = "Object has no pager\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER_RECLAIM] = "Object has no pager because the backing vnode was reclaimed\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER_UNMOUNT] = "Object has no pager because the backing vnode was unmounted\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER_FORCED_UNMOUNT] = "Object has no pager because the backing vnode was force unmounted\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER_UNGRAFT] = "Object has no pager because the backing vnode was ungrafted\n",
[KDBG_TRIAGE_VM_OBJECT_NO_PAGER_DEALLOC_PAGER] = "Object has no pager because the pager was deallocated\n",
[KDBG_TRIAGE_VM_PAGE_HAS_ERROR] = "Page has error bit set\n",
[KDBG_TRIAGE_VM_PAGE_HAS_RESTART] = "Page has restart bit set\n",
[KDBG_TRIAGE_VM_FAILED_IMMUTABLE_PAGE_WRITE] = "Failed a writable mapping of an immutable page\n",
[KDBG_TRIAGE_VM_FAILED_NX_PAGE_EXEC_MAPPING] = "Failed an executable mapping of a nx page\n",
[KDBG_TRIAGE_VM_PMAP_ENTER_RESOURCE_SHORTAGE] = "pmap_enter retried due to resource shortage\n",
[KDBG_TRIAGE_VM_COMPRESSOR_GET_OUT_OF_RANGE] = "Compressor offset requested out of range\n",
[KDBG_TRIAGE_VM_COMPRESSOR_GET_NO_PAGE] = "Compressor doesn't have this page\n",
[KDBG_TRIAGE_VM_COMPRESSOR_DECOMPRESS_FAILED] = "Decompressor hit a failure\n",
[KDBG_TRIAGE_VM_SUBMAP_NO_COW_ON_EXECUTABLE] = "Submap disallowed cow on executable range\n",
[KDBG_TRIAGE_VM_SUBMAP_COPY_SLOWLY_FAILED] = "Submap object copy_slowly failed\n",
[KDBG_TRIAGE_VM_SUBMAP_COPY_STRAT_FAILED] = "Submap object copy_strategically failed\n",
[KDBG_TRIAGE_VM_VNODEPAGER_CLREAD_NO_UPL] = "vnode_pager_cluster_read couldn't create a UPL\n",
[KDBG_TRIAGE_VM_VNODEPAGEIN_NO_UBCINFO] = "vnode_pagein got a vnode with no ubcinfo\n",
[KDBG_TRIAGE_VM_VNODEPAGEIN_FSPAGEIN_FAIL] = "Filesystem pagein returned an error in vnode_pagein\n",
[KDBG_TRIAGE_VM_VNODEPAGEIN_NO_UPL] = "vnode_pagein couldn't create a UPL\n",
[KDBG_TRIAGE_VM_ECC_DIRTY] = "Accessed a page that has uncorrected ECC error\n",
[KDBG_TRIAGE_VM_ECC_CLEAN] = "Clean page had an uncorrected ECC error\n",
[KDBG_TRIAGE_VM_COPYOUTMAP_SAMEMAP_ERROR] = "vm_copyout_map failed with same src-dest map\n",
[KDBG_TRIAGE_VM_COPYOUTMAP_DIFFERENTMAP_ERROR] = "vm_copyout_map failed with different src-dest map\n",
[KDBG_TRIAGE_VM_COPYOVERWRITE_FULL_NESTED_ERROR] = "vm_map_copy_overwrite_nested failed when trying full copy\n",
[KDBG_TRIAGE_VM_COPYOVERWRITE_PARTIAL_NESTED_ERROR] = "vm_map_copy_overwrite_nested failed when trying partial copy\n",
[KDBG_TRIAGE_VM_COPYOVERWRITE_PARTIAL_HEAD_NESTED_ERROR] = "vm_map_copy_overwrite_nested failed when trying misaligned head copy\n",
[KDBG_TRIAGE_VM_COPYOVERWRITE_PARTIAL_TAIL_NESTED_ERROR] = "vm_map_copy_overwrite_nested failed when trying misaligned tail copy\n",
[KDBG_TRIAGE_VM_COPYOUT_INTERNAL_SIZE_ERROR] = "vm_map_copyout_internal failed due to bad size\n",
[KDBG_TRIAGE_VM_COPYOUT_KERNEL_BUFFER_ERROR] = "vm_map_copyout_kernel_buffer failed\n",
[KDBG_TRIAGE_VM_COPYOUT_INTERNAL_ADJUSTING_ERROR] = "vm_map_copyout_internal failed when trying to adjust src-dest params\n",
[KDBG_TRIAGE_VM_COPYOUT_INTERNAL_SPACE_ERROR] = "vm_map_copyout_internal failed because we couldn't locate space\n",
[KDBG_TRIAGE_VM_ALLOCATE_KERNEL_BADFLAGS_ERROR] = "mach_vm_allocate_kernel failed due to bad flags\n",
[KDBG_TRIAGE_VM_ALLOCATE_KERNEL_BADMAP_ERROR] = "mach_vm_allocate_kernel failed due to bad map\n",
[KDBG_TRIAGE_VM_ALLOCATE_KERNEL_BADSIZE_ERROR] = "mach_vm_allocate_kernel failed due to bad size\n",
[KDBG_TRIAGE_VM_ALLOCATE_KERNEL_VMMAPENTER_ERROR] = "mach_vm_allocate_kernel failed within call to vm_map_enter\n",
[KDBG_TRIAGE_VM_IOPL_ON_EXEC_PAGE] = "Attempted I/O wiring of page with executable mapping\n",
[KDBG_TRIAGE_VM_EXEC_ON_IOPL_PAGE] = "Attempted executable mapping of page already wired for I/O\n",
[KDBG_TRIAGE_VM_UPL_WRITE_ON_EXEC_REGION] = "Attempted writable UPL against executable VM region\n",
};
/* VM end */
/* Cluster begin */
const char *cluster_triage_strings[] =
{
[KDBG_TRIAGE_CL_PREFIX] = "CL - ",
[KDBG_TRIAGE_CL_PGIN_PAST_EOF] = "cluster_pagein past EOF\n",
};
/* Cluster end */
/* Shared Region begin */
const char *shared_region_triage_strings[] =
{
[KDBG_TRIAGE_SHARED_REGION_PREFIX] = "SR - ",
[KDBG_TRIAGE_SHARED_REGION_NO_UPL] = "shared_region_pager_data_request couldn't create a upl\n",
[KDBG_TRIAGE_SHARED_REGION_SLIDE_ERROR] = "shared_region_pager_data_request hit a page sliding error\n",
[KDBG_TRIAGE_SHARED_REGION_PAGER_MEMORY_SHORTAGE] = "shared_region_pager_data_request hit memory shortage\n",
};
/* Shared Region end */
/* Dyld Pager begin */
const char *dyld_pager_triage_strings[] =
{
[KDBG_TRIAGE_DYLD_PAGER_PREFIX] = "DP - ",
[KDBG_TRIAGE_DYLD_PAGER_NO_UPL] = "dyld_pager_data_request couldn't create a upl\n",
[KDBG_TRIAGE_DYLD_PAGER_MEMORY_SHORTAGE] = "dyld_pager_data_request hit memory shortage\n",
[KDBG_TRIAGE_DYLD_PAGER_SLIDE_ERROR] = "dyld_pager_data_request hit a page sliding error\n",
[KDBG_TRIAGE_DYLD_PAGER_CHAIN_OUT_OF_RANGE] = "dyld_pager_data_request chain out of range\n",
[KDBG_TRIAGE_DYLD_PAGER_SEG_INFO_OUT_OF_RANGE] = "dyld_pager_data_request seg_info out of range\n",
[KDBG_TRIAGE_DYLD_PAGER_SEG_SIZE_OUT_OF_RANGE] = "dyld_pager_data_request seg->size out of range\n",
[KDBG_TRIAGE_DYLD_PAGER_SEG_PAGE_CNT_OUT_OF_RANGE] = "dyld_pager_data_request seg->page_count out of range\n",
[KDBG_TRIAGE_DYLD_PAGER_NO_SEG_FOR_VA] = "dyld_pager_data_request no segment for VA\n",
[KDBG_TRIAGE_DYLD_PAGER_RANGE_NOT_FOUND] = "dyld_pager_data_request no range for offset\n",
[KDBG_TRIAGE_DYLD_PAGER_DELTA_TOO_LARGE] = "dyld_pager_data_request delta * 4 > PAGE_SIZE\n",
[KDBG_TRIAGE_DYLD_PAGER_PAGE_START_OUT_OF_RANGE] = "dyld_pager_data_request segInfo page_start out of range\n",
[KDBG_TRIAGE_DYLD_PAGER_BAD_POINTER_FMT] = "dyld_pager_data_request unkown pointer format\n",
[KDBG_TRIAGE_DYLD_PAGER_INVALID_AUTH_KEY] = "dyld_pager_data_request unkown auth key\n",
[KDBG_TRIAGE_DYLD_PAGER_BIND_ORDINAL] = "dyld_pager_data_request invalid bind ordinal\n",
};
/* Dyld Pager end */
/* Apple Protect Pager begin */
const char *apple_protect_pager_triage_strings[] =
{
[KDBG_TRIAGE_APPLE_PROTECT_PAGER_PREFIX] = "APP - ",
[KDBG_TRIAGE_APPLE_PROTECT_PAGER_MEMORY_SHORTAGE] = "apple_protect_pager_data_request hit memory shortage\n",
};
/* Apple Protect Pager end */
/* Corpse section begin */
const char *corpse_triage_strings[] =
{
[KDBG_TRIAGE_CORPSE_PREFIX] = "Corpse - ",
[KDBG_TRIAGE_CORPSE_PROC_TOO_BIG] = "Process too big for corpse. Corpse disallowed.\n",
[KDBG_TRIAGE_CORPSE_FAIL_LIBGMALLOC] = "Process linked against libgmalloc. Corpse disallowed.\n",
[KDBG_TRIAGE_CORPSE_BLOCKED_JETSAM] = "Jetsams happening in higher bands. Corpse disallowed.\n",
[KDBG_TRIAGE_CORPSE_LIMIT] = "Too many corpses in flight. Corpse disallowed.\n",
[KDBG_TRIAGE_CORPSES_DISABLED] = "Corpse disabled on system.\n",
[KDBG_TRIAGE_CORPSE_DISABLED_FOR_PROC] = "Corpse disabled for this process.\n",
};
/* Corpse section end */
/* subsystems starts at index 1 */
ktriage_strings_t ktriage_subsystems_strings[KDBG_TRIAGE_SUBSYS_MAX + 1] = {
/* Static subsystems */
[KDBG_TRIAGE_SUBSYS_VM] = {VM_MAX_TRIAGE_STRINGS, vm_triage_strings},
[KDBG_TRIAGE_SUBSYS_CLUSTER] = {CLUSTER_MAX_TRIAGE_STRINGS, cluster_triage_strings},
[KDBG_TRIAGE_SUBSYS_SHARED_REGION] = {SHARED_REGION_MAX_TRIAGE_STRINGS, shared_region_triage_strings},
[KDBG_TRIAGE_SUBSYS_DYLD_PAGER] = {DYLD_PAGER_MAX_TRIAGE_STRINGS, dyld_pager_triage_strings},
[KDBG_TRIAGE_SUBSYS_APPLE_PROTECT_PAGER] = {APPLE_PROTECT_PAGER_MAX_TRIAGE_STRINGS, apple_protect_pager_triage_strings},
[KDBG_TRIAGE_SUBSYS_CORPSE] = {CORPSE_MAX_TRIAGE_STRINGS, corpse_triage_strings},
/* Dynamic subsystems */
[KDBG_TRIAGE_SUBSYS_APFS] = {-1, NULL},
[KDBG_TRIAGE_SUBSYS_DECMPFS] = {-1, NULL},
[KDBG_TRIAGE_SUBSYS_VM_SANITIZE] = {-1, NULL},
};
/* KDBG_TRIAGE_CODE_* section */