#include <mach/mach_types.h>
#include <mach/kern_return.h>
#include <mach/thread_act_server.h>
#include <kern/kern_types.h>
#include <kern/ast.h>
#include <kern/mach_param.h>
#include <kern/zalloc.h>
#include <kern/extmod_statistics.h>
#include <kern/thread.h>
#include <kern/task.h>
#include <kern/sched_prim.h>
#include <kern/misc_protos.h>
#include <kern/assert.h>
#include <kern/exception.h>
#include <kern/ipc_mig.h>
#include <kern/ipc_tt.h>
#include <kern/machine.h>
#include <kern/spl.h>
#include <kern/syscall_subr.h>
#include <kern/sync_lock.h>
#include <kern/processor.h>
#include <kern/timer.h>
#include <kern/affinity.h>
#include <security/mac_mach_internal.h>
static void act_abort(thread_t thread);
static void thread_suspended(void *arg, wait_result_t result);
static void thread_set_apc_ast(thread_t thread);
static void thread_set_apc_ast_locked(thread_t thread);
void
thread_start(
thread_t thread)
{
clear_wait(thread, THREAD_AWAKENED);
thread->started = TRUE;
}
void
thread_start_in_assert_wait(
thread_t thread,
event_t event,
wait_interrupt_t interruptible)
{
struct waitq *waitq = assert_wait_queue(event);
wait_result_t wait_result;
spl_t spl;
spl = splsched();
waitq_lock(waitq);
thread_lock(thread);
assert(!thread->started);
assert((thread->state & (TH_WAIT | TH_UNINT)) == (TH_WAIT | TH_UNINT));
thread->state &= ~(TH_WAIT | TH_UNINT);
thread_unlock(thread);
wait_result = waitq_assert_wait64_locked(waitq, CAST_EVENT64_T(event),
interruptible,
TIMEOUT_URGENCY_SYS_NORMAL,
TIMEOUT_WAIT_FOREVER,
TIMEOUT_NO_LEEWAY,
thread);
assert (wait_result == THREAD_WAITING);
thread_lock(thread);
thread->started = TRUE;
thread_unlock(thread);
waitq_unlock(waitq);
splx(spl);
}
kern_return_t
thread_terminate_internal(
thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
thread_mtx_lock(thread);
if (thread->active) {
thread->active = FALSE;
act_abort(thread);
if (thread->started)
clear_wait(thread, THREAD_INTERRUPTED);
else {
thread_start(thread);
}
}
else
result = KERN_TERMINATED;
if (thread->affinity_set != NULL)
thread_affinity_terminate(thread);
thread_mtx_unlock(thread);
if (thread != current_thread() && result == KERN_SUCCESS)
thread_wait(thread, FALSE);
return (result);
}
kern_return_t
thread_terminate(
thread_t thread)
{
kern_return_t result;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
if ( thread->task == kernel_task &&
thread != current_thread() )
return (KERN_FAILURE);
result = thread_terminate_internal(thread);
if (thread->task == kernel_task) {
ml_set_interrupts_enabled(FALSE);
ast_taken(AST_APC, TRUE);
panic("thread_terminate");
}
return (result);
}
void
thread_hold(thread_t thread)
{
if (thread->suspend_count++ == 0) {
thread_set_apc_ast(thread);
assert(thread->suspend_parked == FALSE);
}
}
void
thread_release(thread_t thread)
{
assertf(thread->suspend_count > 0, "thread %p over-resumed", thread);
if (thread->suspend_count == 0)
return;
if (--thread->suspend_count == 0) {
if (!thread->started) {
thread_start(thread);
} else if (thread->suspend_parked) {
thread->suspend_parked = FALSE;
thread_wakeup_thread(&thread->suspend_count, thread);
}
}
}
kern_return_t
thread_suspend(thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL || thread->task == kernel_task)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread->user_stop_count++ == 0)
thread_hold(thread);
} else {
result = KERN_TERMINATED;
}
thread_mtx_unlock(thread);
if (thread != current_thread() && result == KERN_SUCCESS)
thread_wait(thread, FALSE);
return (result);
}
kern_return_t
thread_resume(thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL || thread->task == kernel_task)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread->user_stop_count > 0) {
if (--thread->user_stop_count == 0)
thread_release(thread);
} else {
result = KERN_FAILURE;
}
} else {
result = KERN_TERMINATED;
}
thread_mtx_unlock(thread);
return (result);
}
kern_return_t
thread_depress_abort(
thread_t thread)
{
kern_return_t result;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active)
result = thread_depress_abort_internal(thread);
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
static void
act_abort(
thread_t thread)
{
spl_t s = splsched();
thread_lock(thread);
if (!(thread->sched_flags & TH_SFLAG_ABORT)) {
thread->sched_flags |= TH_SFLAG_ABORT;
thread_set_apc_ast_locked(thread);
} else {
thread->sched_flags &= ~TH_SFLAG_ABORTSAFELY;
}
thread_unlock(thread);
splx(s);
}
kern_return_t
thread_abort(
thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
act_abort(thread);
clear_wait(thread, THREAD_INTERRUPTED);
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
kern_return_t
thread_abort_safely(
thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
spl_t s = splsched();
thread_lock(thread);
if (!thread->at_safe_point ||
clear_wait_internal(thread, THREAD_INTERRUPTED) != KERN_SUCCESS) {
if (!(thread->sched_flags & TH_SFLAG_ABORT)) {
thread->sched_flags |= TH_SFLAG_ABORTED_MASK;
thread_set_apc_ast_locked(thread);
}
}
thread_unlock(thread);
splx(s);
} else {
result = KERN_TERMINATED;
}
thread_mtx_unlock(thread);
return (result);
}
#include <mach/thread_info.h>
#include <mach/thread_special_ports.h>
#include <ipc/ipc_port.h>
kern_return_t
thread_info(
thread_t thread,
thread_flavor_t flavor,
thread_info_t thread_info_out,
mach_msg_type_number_t *thread_info_count)
{
kern_return_t result;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active || thread->inspection)
result = thread_info_internal(
thread, flavor, thread_info_out, thread_info_count);
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
kern_return_t
thread_get_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t *state_count)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread != current_thread()) {
thread_hold(thread);
thread_mtx_unlock(thread);
if (thread_stop(thread, FALSE)) {
thread_mtx_lock(thread);
result = machine_thread_get_state(
thread, flavor, state, state_count);
thread_unstop(thread);
}
else {
thread_mtx_lock(thread);
result = KERN_ABORTED;
}
thread_release(thread);
}
else
result = machine_thread_get_state(
thread, flavor, state, state_count);
}
else if (thread->inspection)
{
result = machine_thread_get_state(
thread, flavor, state, state_count);
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
static kern_return_t
thread_set_state_internal(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t state_count,
boolean_t from_user)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread != current_thread()) {
thread_hold(thread);
thread_mtx_unlock(thread);
if (thread_stop(thread, TRUE)) {
thread_mtx_lock(thread);
result = machine_thread_set_state(
thread, flavor, state, state_count);
thread_unstop(thread);
}
else {
thread_mtx_lock(thread);
result = KERN_ABORTED;
}
thread_release(thread);
}
else
result = machine_thread_set_state(
thread, flavor, state, state_count);
}
else
result = KERN_TERMINATED;
if ((result == KERN_SUCCESS) && from_user)
extmod_statistics_incr_thread_set_state(thread);
thread_mtx_unlock(thread);
return (result);
}
kern_return_t
thread_set_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t state_count);
kern_return_t
thread_set_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t state_count)
{
return thread_set_state_internal(thread, flavor, state, state_count, FALSE);
}
kern_return_t
thread_set_state_from_user(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t state_count)
{
return thread_set_state_internal(thread, flavor, state, state_count, TRUE);
}
kern_return_t
thread_state_initialize(
thread_t thread)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread != current_thread()) {
thread_hold(thread);
thread_mtx_unlock(thread);
if (thread_stop(thread, TRUE)) {
thread_mtx_lock(thread);
result = machine_thread_state_initialize( thread );
thread_unstop(thread);
}
else {
thread_mtx_lock(thread);
result = KERN_ABORTED;
}
thread_release(thread);
}
else
result = machine_thread_state_initialize( thread );
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
kern_return_t
thread_dup(
thread_t target)
{
thread_t self = current_thread();
kern_return_t result = KERN_SUCCESS;
if (target == THREAD_NULL || target == self)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(target);
if (target->active) {
thread_hold(target);
thread_mtx_unlock(target);
if (thread_stop(target, TRUE)) {
thread_mtx_lock(target);
result = machine_thread_dup(self, target);
if (self->affinity_set != AFFINITY_SET_NULL)
thread_affinity_dup(self, target);
thread_unstop(target);
}
else {
thread_mtx_lock(target);
result = KERN_ABORTED;
}
thread_release(target);
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(target);
return (result);
}
kern_return_t
thread_dup2(
thread_t source,
thread_t target)
{
kern_return_t result = KERN_SUCCESS;
uint32_t active = 0;
if (source == THREAD_NULL || target == THREAD_NULL || target == source)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(source);
active = source->active;
thread_mtx_unlock(source);
if (!active) {
return KERN_TERMINATED;
}
thread_mtx_lock(target);
if (target->active || target->inspection) {
thread_hold(target);
thread_mtx_unlock(target);
if (thread_stop(target, TRUE)) {
thread_mtx_lock(target);
result = machine_thread_dup(source, target);
if (source->affinity_set != AFFINITY_SET_NULL)
thread_affinity_dup(source, target);
thread_unstop(target);
}
else {
thread_mtx_lock(target);
result = KERN_ABORTED;
}
thread_release(target);
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(target);
return (result);
}
kern_return_t
thread_setstatus(
thread_t thread,
int flavor,
thread_state_t tstate,
mach_msg_type_number_t count)
{
return (thread_set_state(thread, flavor, tstate, count));
}
kern_return_t
thread_getstatus(
thread_t thread,
int flavor,
thread_state_t tstate,
mach_msg_type_number_t *count)
{
return (thread_get_state(thread, flavor, tstate, count));
}
kern_return_t
thread_set_tsd_base(
thread_t thread,
mach_vm_offset_t tsd_base)
{
kern_return_t result = KERN_SUCCESS;
if (thread == THREAD_NULL)
return (KERN_INVALID_ARGUMENT);
thread_mtx_lock(thread);
if (thread->active) {
if (thread != current_thread()) {
thread_hold(thread);
thread_mtx_unlock(thread);
if (thread_stop(thread, TRUE)) {
thread_mtx_lock(thread);
result = machine_thread_set_tsd_base(thread, tsd_base);
thread_unstop(thread);
}
else {
thread_mtx_lock(thread);
result = KERN_ABORTED;
}
thread_release(thread);
}
else
result = machine_thread_set_tsd_base(thread, tsd_base);
}
else
result = KERN_TERMINATED;
thread_mtx_unlock(thread);
return (result);
}
static void
thread_set_apc_ast(thread_t thread)
{
spl_t s = splsched();
thread_lock(thread);
thread_set_apc_ast_locked(thread);
thread_unlock(thread);
splx(s);
}
static void
thread_set_apc_ast_locked(thread_t thread)
{
if (thread->sched_flags & TH_SFLAG_DEPRESSED_MASK)
thread_recompute_sched_pri(thread, TRUE);
thread_ast_set(thread, AST_APC);
if (thread == current_thread()) {
ast_propagate(thread->ast);
} else {
processor_t processor = thread->last_processor;
if (processor != PROCESSOR_NULL &&
processor->state == PROCESSOR_RUNNING &&
processor->active_thread == thread) {
cause_ast_check(processor);
}
}
}
__attribute__((noreturn))
static void
thread_suspended(__unused void *parameter, wait_result_t result)
{
thread_t thread = current_thread();
thread_mtx_lock(thread);
if (result == THREAD_INTERRUPTED)
thread->suspend_parked = FALSE;
else
assert(thread->suspend_parked == FALSE);
if (thread->suspend_count > 0) {
thread_set_apc_ast(thread);
} else {
spl_t s = splsched();
thread_lock(thread);
if (thread->sched_flags & TH_SFLAG_DEPRESSED_MASK) {
thread->sched_pri = DEPRESSPRI;
thread->last_processor->current_pri = thread->sched_pri;
KERNEL_DEBUG_CONSTANT(MACHDBG_CODE(DBG_MACH_SCHED, MACH_SCHED_CHANGE_PRIORITY),
(uintptr_t)thread_tid(thread),
thread->base_pri,
thread->sched_pri,
0,
0);
}
thread_unlock(thread);
splx(s);
}
thread_mtx_unlock(thread);
thread_exception_return();
}
void
thread_apc_ast(thread_t thread)
{
thread_mtx_lock(thread);
assert(thread->suspend_parked == FALSE);
spl_t s = splsched();
thread_lock(thread);
assert((thread->sched_flags & TH_SFLAG_DEPRESS) == 0);
thread->sched_flags &= ~TH_SFLAG_ABORTED_MASK;
thread_unlock(thread);
splx(s);
if (!thread->active) {
thread_mtx_unlock(thread);
thread_terminate_self();
}
if (thread->suspend_count > 0) {
thread->suspend_parked = TRUE;
assert_wait(&thread->suspend_count, THREAD_ABORTSAFE);
thread_mtx_unlock(thread);
thread_block(thread_suspended);
}
thread_mtx_unlock(thread);
}
kern_return_t
act_set_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t count);
kern_return_t
act_set_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t count)
{
if (thread == current_thread())
return (KERN_INVALID_ARGUMENT);
return (thread_set_state(thread, flavor, state, count));
}
kern_return_t
act_set_state_from_user(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t count)
{
if (thread == current_thread())
return (KERN_INVALID_ARGUMENT);
return (thread_set_state_from_user(thread, flavor, state, count));
}
kern_return_t
act_get_state(
thread_t thread,
int flavor,
thread_state_t state,
mach_msg_type_number_t *count)
{
if (thread == current_thread())
return (KERN_INVALID_ARGUMENT);
return (thread_get_state(thread, flavor, state, count));
}
static void
act_set_ast(
thread_t thread,
ast_t ast)
{
spl_t s = splsched();
if (thread == current_thread()) {
thread_ast_set(thread, ast);
ast_propagate(thread->ast);
} else {
processor_t processor;
thread_lock(thread);
thread_ast_set(thread, ast);
processor = thread->last_processor;
if ( processor != PROCESSOR_NULL &&
processor->state == PROCESSOR_RUNNING &&
processor->active_thread == thread )
cause_ast_check(processor);
thread_unlock(thread);
}
splx(s);
}
void
act_set_astbsd(
thread_t thread)
{
act_set_ast( thread, AST_BSD );
}
void
act_set_kperf(
thread_t thread)
{
if (thread != current_thread())
if( !ml_get_interrupts_enabled() )
panic("unsafe act_set_kperf operation");
act_set_ast( thread, AST_KPERF );
}
#if CONFIG_MACF
void
act_set_astmacf(
thread_t thread)
{
act_set_ast( thread, AST_MACF);
}
#endif
void
set_astledger(thread_t thread)
{
act_set_ast(thread, AST_LEDGER);
}
void
act_set_io_telemetry_ast(thread_t thread)
{
act_set_ast(thread, AST_TELEMETRY_IO);
}