sysmgr/peripheral/peripheralmon.cc - vendor/google/platform - Git at Google

 // Copyright 2012 Google Inc. All Rights Reserved.
 // Author: kedong@google.com (Ke Dong)

 #include "bruno/logging.h"
 #include "bruno/thread.h"
 #include "fancontrol.h"
 #include "peripheralmon.h"
 #include <stdio.h>
 #include <string.h>
 #include <unistd.h>

 namespace bruno_platform_peripheral {

 PeripheralMon::~PeripheralMon() {
 }

 void PeripheralMon::Probe(void) {
   bruno_base::TimeStamp now = bruno_base::Time();
   float soc_temperature;
   float aux1_temperature = 0.0;
   uint16_t  fan_speed = 0;
   std::string soc_voltage;

   if (platform_->has_hdd() &&
       bruno_base::TimeIsLaterOrEqual(next_time_hdd_temp_check_, now)) {
     fan_control_->GetHddTemperature(&hdd_temp_);
     LOG(LS_INFO) << "hdd_temperature (new):" << hdd_temp_;
     next_time_hdd_temp_check_ = bruno_base::TimeAfter(hdd_temp_interval_);
   }

   if (platform_->has_aux1()) {
     ReadAux1Temperature(&aux1_temperature);
   }

   if (gpio_mailbox_ready == false)
     gpio_mailbox_ready = CheckIfMailBoxIsReady();

   if (gpio_mailbox_ready == true) {
     bool read_soc_temperature = ReadSocTemperature(&soc_temperature);
     ReadSocVoltage(&soc_voltage);

     if (platform_->has_fan()) {
       ReadFanSpeed(&fan_speed);
     }

     LOG(LS_INFO) << "voltage:" << soc_voltage
                  << "  soc_temperature:" << soc_temperature
                  << "  hdd_temperature:" << hdd_temp_
                  << "  aux1_temperature:" << aux1_temperature
                  << "  fanspeed:" << fan_speed;

     if (read_soc_temperature) {
       Overheating(soc_temperature);
     }

     if (platform_->has_fan()) {
       /* If failed to read soc_temperature, don't change PWM */
       if (read_soc_temperature) {
         fan_control_->AdjustSpeed(
                       static_cast<uint16_t>(soc_temperature),
                       hdd_temp_,
                       aux1_temperature,
                       fan_speed);
       } else {
         LOG(LS_INFO) << "Not change PWM due to fail to read soc_temperature";
       }
     }
   } else {
     LOG(LS_INFO) << "gpio_mailbox is not ready";
   }

   last_time_ = now;
 }

 void PeripheralMon::Overheating(float soc_temperature)
 {
   std::ostringstream message;
   uint16_t  overheat_value;

   fan_control_->GetOverheatTemperature(&overheat_value);

   if (soc_temperature < overheat_value) {
     overheating_ = 0;
     ClrLEDOverheat("");
   }
   else {
     overheating_ ++;

     if (overheating_ >= OVERHEATING_COUNT) {
       message << "System power off: SOC overheating " << overheating_;
       LOG(LS_ERROR) << message.str();
       ClrLEDOverheat("");

       overheating_ = 0;
       Poweroff();
     }
     else {
       message << "SOC overheating detected " << overheating_;
       LOG(LS_ERROR) << message.str();
       SetLEDOverheat(message.str());
     }
   }
 }

 void PeripheralMon::Init(int hdd_temp_interval) {
   hdd_temp_interval_ = hdd_temp_interval;
   next_time_hdd_temp_check_ = bruno_base::Time(); // = now
   overheating_ = 0;
   fan_control_->Init(&gpio_mailbox_ready);
   Probe();
 }


 }  // namespace bruno_platform_peripheral
	// Copyright 2012 Google Inc. All Rights Reserved.
	// Author: kedong@google.com (Ke Dong)

	#include "bruno/logging.h"
	#include "bruno/thread.h"
	#include "fancontrol.h"
	#include "peripheralmon.h"
	#include <stdio.h>
	#include <string.h>
	#include <unistd.h>

	namespace bruno_platform_peripheral {

	PeripheralMon::~PeripheralMon() {
	}

	void PeripheralMon::Probe(void) {
	bruno_base::TimeStamp now = bruno_base::Time();
	float soc_temperature;
	float aux1_temperature = 0.0;
	uint16_t fan_speed = 0;
	std::string soc_voltage;

	if (platform_->has_hdd() &&
	bruno_base::TimeIsLaterOrEqual(next_time_hdd_temp_check_, now)) {
	fan_control_->GetHddTemperature(&hdd_temp_);
	LOG(LS_INFO) << "hdd_temperature (new):" << hdd_temp_;
	next_time_hdd_temp_check_ = bruno_base::TimeAfter(hdd_temp_interval_);
	}

	if (platform_->has_aux1()) {
	ReadAux1Temperature(&aux1_temperature);
	}

	if (gpio_mailbox_ready == false)
	gpio_mailbox_ready = CheckIfMailBoxIsReady();

	if (gpio_mailbox_ready == true) {
	bool read_soc_temperature = ReadSocTemperature(&soc_temperature);
	ReadSocVoltage(&soc_voltage);

	if (platform_->has_fan()) {
	ReadFanSpeed(&fan_speed);
	}

	LOG(LS_INFO) << "voltage:" << soc_voltage
	<< " soc_temperature:" << soc_temperature
	<< " hdd_temperature:" << hdd_temp_
	<< " aux1_temperature:" << aux1_temperature
	<< " fanspeed:" << fan_speed;

	if (read_soc_temperature) {
	Overheating(soc_temperature);
	}

	if (platform_->has_fan()) {
	/* If failed to read soc_temperature, don't change PWM */
	if (read_soc_temperature) {
	fan_control_->AdjustSpeed(
	static_cast<uint16_t>(soc_temperature),
	hdd_temp_,
	aux1_temperature,
	fan_speed);
	} else {
	LOG(LS_INFO) << "Not change PWM due to fail to read soc_temperature";
	}
	}
	} else {
	LOG(LS_INFO) << "gpio_mailbox is not ready";
	}

	last_time_ = now;
	}

	void PeripheralMon::Overheating(float soc_temperature)
	{
	std::ostringstream message;
	uint16_t overheat_value;

	fan_control_->GetOverheatTemperature(&overheat_value);

	if (soc_temperature < overheat_value) {
	overheating_ = 0;
	ClrLEDOverheat("");
	}
	else {
	overheating_ ++;

	if (overheating_ >= OVERHEATING_COUNT) {
	message << "System power off: SOC overheating " << overheating_;
	LOG(LS_ERROR) << message.str();
	ClrLEDOverheat("");

	overheating_ = 0;
	Poweroff();
	}
	else {
	message << "SOC overheating detected " << overheating_;
	LOG(LS_ERROR) << message.str();
	SetLEDOverheat(message.str());
	}
	}
	}

	void PeripheralMon::Init(int hdd_temp_interval) {
	hdd_temp_interval_ = hdd_temp_interval;
	next_time_hdd_temp_check_ = bruno_base::Time(); // = now
	overheating_ = 0;
	fan_control_->Init(&gpio_mailbox_ready);
	Probe();
	}


	} // namespace bruno_platform_peripheral