services/vr/performanced/performance_service.cpp - third_party/android/platform/frameworks/native - Git at Google

 #include "performance_service.h"

 #include <sched.h>
 #include <sys/prctl.h>
 #include <unistd.h>

 #include <pdx/default_transport/service_endpoint.h>
 #include <pdx/rpc/argument_encoder.h>
 #include <pdx/rpc/message_buffer.h>
 #include <pdx/rpc/remote_method.h>
 #include <private/dvr/performance_rpc.h>

 #include "task.h"

 // This prctl is only available in Android kernels.
 #define PR_SET_TIMERSLACK_PID 41

 using android::pdx::Message;
 using android::pdx::rpc::DispatchRemoteMethod;
 using android::pdx::default_transport::Endpoint;

 namespace {

 const char kCpuSetBasePath[] = "/dev/cpuset";

 constexpr unsigned long kTimerSlackForegroundNs = 50000;
 constexpr unsigned long kTimerSlackBackgroundNs = 40000000;

 }  // anonymous namespace

 namespace android {
 namespace dvr {

 PerformanceService::PerformanceService()
     : BASE("PerformanceService",
            Endpoint::Create(PerformanceRPC::kClientPath)) {
   cpuset_.Load(kCpuSetBasePath);

   Task task(getpid());
   ALOGI("Running in cpuset=%s uid=%d gid=%d", task.GetCpuSetPath().c_str(),
         task.user_id()[Task::kUidReal], task.group_id()[Task::kUidReal]);

   // Errors here are checked in IsInitialized().
   sched_fifo_min_priority_ = sched_get_priority_min(SCHED_FIFO);
   sched_fifo_max_priority_ = sched_get_priority_max(SCHED_FIFO);

   const int fifo_range = sched_fifo_max_priority_ - sched_fifo_min_priority_;
   const int fifo_low = sched_fifo_min_priority_;
   const int fifo_medium = sched_fifo_min_priority_ + fifo_range / 5;

   // TODO(eieio): Make this configurable on the command line.
   cpuset_.MoveUnboundTasks("/kernel");

   // Setup the scheduler classes.
   scheduler_classes_ = {
       {"audio:low",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_medium}},
       {"audio:high",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_medium + 3}},
       {"graphics",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_medium}},
       {"graphics:low",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_medium}},
       {"graphics:high",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_medium + 2}},
       {"sensors",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_low}},
       {"sensors:low",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_low}},
       {"sensors:high",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_FIFO | SCHED_RESET_ON_FORK,
         .priority = fifo_low + 1}},
       {"normal",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_NORMAL,
         .priority = 0}},
       {"foreground",
        {.timer_slack = kTimerSlackForegroundNs,
         .scheduler_policy = SCHED_NORMAL,
         .priority = 0}},
       {"background",
        {.timer_slack = kTimerSlackBackgroundNs,
         .scheduler_policy = SCHED_BATCH,
         .priority = 0}},
       {"batch",
        {.timer_slack = kTimerSlackBackgroundNs,
         .scheduler_policy = SCHED_BATCH,
         .priority = 0}},
   };
 }

 bool PerformanceService::IsInitialized() const {
   return BASE::IsInitialized() && cpuset_ && sched_fifo_min_priority_ >= 0 &&
          sched_fifo_max_priority_ >= 0;
 }

 std::string PerformanceService::DumpState(size_t /*max_length*/) {
   return cpuset_.DumpState();
 }

 int PerformanceService::OnSetCpuPartition(Message& message, pid_t task_id,
                                           const std::string& partition) {
   Task task(task_id);
   if (!task || task.thread_group_id() != message.GetProcessId())
     return -EINVAL;

   auto target_set = cpuset_.Lookup(partition);
   if (!target_set)
     return -ENOENT;

   const auto attach_error = target_set->AttachTask(task_id);
   if (attach_error)
     return attach_error;

   return 0;
 }

 int PerformanceService::OnSetSchedulerClass(
     Message& message, pid_t task_id, const std::string& scheduler_class) {
   // Make sure the task id is valid and belongs to the sending process.
   Task task(task_id);
   if (!task || task.thread_group_id() != message.GetProcessId())
     return -EINVAL;

   struct sched_param param;

   // TODO(eieio): Apply rules based on the requesting process. Applications are
   // only allowed one audio thread that runs at SCHED_FIFO. System services can
   // have more than one.
   auto search = scheduler_classes_.find(scheduler_class);
   if (search != scheduler_classes_.end()) {
     auto config = search->second;
     param.sched_priority = config.priority;
     sched_setscheduler(task_id, config.scheduler_policy, &param);
     prctl(PR_SET_TIMERSLACK_PID, config.timer_slack, task_id);
     ALOGI("PerformanceService::OnSetSchedulerClass: Set task=%d to class=%s.",
           task_id, scheduler_class.c_str());
     return 0;
   } else {
     ALOGE(
         "PerformanceService::OnSetSchedulerClass: Invalid class=%s requested "
         "by task=%d.",
         scheduler_class.c_str(), task_id);
     return -EINVAL;
   }
 }

 std::string PerformanceService::OnGetCpuPartition(Message& message,
                                                   pid_t task_id) {
   // Make sure the task id is valid and belongs to the sending process.
   Task task(task_id);
   if (!task || task.thread_group_id() != message.GetProcessId())
     REPLY_ERROR_RETURN(message, EINVAL, "");

   return task.GetCpuSetPath();
 }

 pdx::Status<void> PerformanceService::HandleMessage(Message& message) {
   switch (message.GetOp()) {
     case PerformanceRPC::SetCpuPartition::Opcode:
       DispatchRemoteMethod<PerformanceRPC::SetSchedulerClass>(
           *this, &PerformanceService::OnSetCpuPartition, message);
       return {};

     case PerformanceRPC::SetSchedulerClass::Opcode:
       DispatchRemoteMethod<PerformanceRPC::SetSchedulerClass>(
           *this, &PerformanceService::OnSetSchedulerClass, message);
       return {};

     case PerformanceRPC::GetCpuPartition::Opcode:
       DispatchRemoteMethod<PerformanceRPC::GetCpuPartition>(
           *this, &PerformanceService::OnGetCpuPartition, message);
       return {};

     default:
       return Service::HandleMessage(message);
   }
 }

 }  // namespace dvr
 }  // namespace android
	#include "performance_service.h"

	#include <sched.h>
	#include <sys/prctl.h>
	#include <unistd.h>

	#include <pdx/default_transport/service_endpoint.h>
	#include <pdx/rpc/argument_encoder.h>
	#include <pdx/rpc/message_buffer.h>
	#include <pdx/rpc/remote_method.h>
	#include <private/dvr/performance_rpc.h>

	#include "task.h"

	// This prctl is only available in Android kernels.
	#define PR_SET_TIMERSLACK_PID 41

	using android::pdx::Message;
	using android::pdx::rpc::DispatchRemoteMethod;
	using android::pdx::default_transport::Endpoint;

	namespace {

	const char kCpuSetBasePath[] = "/dev/cpuset";

	constexpr unsigned long kTimerSlackForegroundNs = 50000;
	constexpr unsigned long kTimerSlackBackgroundNs = 40000000;

	} // anonymous namespace

	namespace android {
	namespace dvr {

	PerformanceService::PerformanceService()
	: BASE("PerformanceService",
	Endpoint::Create(PerformanceRPC::kClientPath)) {
	cpuset_.Load(kCpuSetBasePath);

	Task task(getpid());
	ALOGI("Running in cpuset=%s uid=%d gid=%d", task.GetCpuSetPath().c_str(),
	task.user_id()[Task::kUidReal], task.group_id()[Task::kUidReal]);

	// Errors here are checked in IsInitialized().
	sched_fifo_min_priority_ = sched_get_priority_min(SCHED_FIFO);
	sched_fifo_max_priority_ = sched_get_priority_max(SCHED_FIFO);

	const int fifo_range = sched_fifo_max_priority_ - sched_fifo_min_priority_;
	const int fifo_low = sched_fifo_min_priority_;
	const int fifo_medium = sched_fifo_min_priority_ + fifo_range / 5;

	// TODO(eieio): Make this configurable on the command line.
	cpuset_.MoveUnboundTasks("/kernel");

	// Setup the scheduler classes.
	scheduler_classes_ = {
	{"audio:low",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_medium}},
	{"audio:high",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_medium + 3}},
	{"graphics",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_medium}},
	{"graphics:low",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_medium}},
	{"graphics:high",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_medium + 2}},
	{"sensors",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_low}},
	{"sensors:low",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_low}},
	{"sensors:high",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_FIFO \| SCHED_RESET_ON_FORK,
	.priority = fifo_low + 1}},
	{"normal",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_NORMAL,
	.priority = 0}},
	{"foreground",
	{.timer_slack = kTimerSlackForegroundNs,
	.scheduler_policy = SCHED_NORMAL,
	.priority = 0}},
	{"background",
	{.timer_slack = kTimerSlackBackgroundNs,
	.scheduler_policy = SCHED_BATCH,
	.priority = 0}},
	{"batch",
	{.timer_slack = kTimerSlackBackgroundNs,
	.scheduler_policy = SCHED_BATCH,
	.priority = 0}},
	};
	}

	bool PerformanceService::IsInitialized() const {
	return BASE::IsInitialized() && cpuset_ && sched_fifo_min_priority_ >= 0 &&
	sched_fifo_max_priority_ >= 0;
	}

	std::string PerformanceService::DumpState(size_t /max_length/) {
	return cpuset_.DumpState();
	}

	int PerformanceService::OnSetCpuPartition(Message& message, pid_t task_id,
	const std::string& partition) {
	Task task(task_id);
	if (!task \|\| task.thread_group_id() != message.GetProcessId())
	return -EINVAL;

	auto target_set = cpuset_.Lookup(partition);
	if (!target_set)
	return -ENOENT;

	const auto attach_error = target_set->AttachTask(task_id);
	if (attach_error)
	return attach_error;

	return 0;
	}

	int PerformanceService::OnSetSchedulerClass(
	Message& message, pid_t task_id, const std::string& scheduler_class) {
	// Make sure the task id is valid and belongs to the sending process.
	Task task(task_id);
	if (!task \|\| task.thread_group_id() != message.GetProcessId())
	return -EINVAL;

	struct sched_param param;

	// TODO(eieio): Apply rules based on the requesting process. Applications are
	// only allowed one audio thread that runs at SCHED_FIFO. System services can
	// have more than one.
	auto search = scheduler_classes_.find(scheduler_class);
	if (search != scheduler_classes_.end()) {
	auto config = search->second;
	param.sched_priority = config.priority;
	sched_setscheduler(task_id, config.scheduler_policy, &param);
	prctl(PR_SET_TIMERSLACK_PID, config.timer_slack, task_id);
	ALOGI("PerformanceService::OnSetSchedulerClass: Set task=%d to class=%s.",
	task_id, scheduler_class.c_str());
	return 0;
	} else {
	ALOGE(
	"PerformanceService::OnSetSchedulerClass: Invalid class=%s requested "
	"by task=%d.",
	scheduler_class.c_str(), task_id);
	return -EINVAL;
	}
	}

	std::string PerformanceService::OnGetCpuPartition(Message& message,
	pid_t task_id) {
	// Make sure the task id is valid and belongs to the sending process.
	Task task(task_id);
	if (!task \|\| task.thread_group_id() != message.GetProcessId())
	REPLY_ERROR_RETURN(message, EINVAL, "");

	return task.GetCpuSetPath();
	}

	pdx::Status<void> PerformanceService::HandleMessage(Message& message) {
	switch (message.GetOp()) {
	case PerformanceRPC::SetCpuPartition::Opcode:
	DispatchRemoteMethod<PerformanceRPC::SetSchedulerClass>(
	*this, &PerformanceService::OnSetCpuPartition, message);
	return {};

	case PerformanceRPC::SetSchedulerClass::Opcode:
	DispatchRemoteMethod<PerformanceRPC::SetSchedulerClass>(
	*this, &PerformanceService::OnSetSchedulerClass, message);
	return {};

	case PerformanceRPC::GetCpuPartition::Opcode:
	DispatchRemoteMethod<PerformanceRPC::GetCpuPartition>(
	*this, &PerformanceService::OnGetCpuPartition, message);
	return {};

	default:
	return Service::HandleMessage(message);
	}
	}

	} // namespace dvr
	} // namespace android