ui/events/ozone/evdev/event_device_info.cc - mojo-tools - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ui/events/ozone/evdev/event_device_info.h"

 #include <linux/input.h>

 #include "base/logging.h"
 #include "base/threading/thread_restrictions.h"

 namespace ui {

 namespace {

 bool GetEventBits(int fd, unsigned int type, void* buf, unsigned int size) {
   if (ioctl(fd, EVIOCGBIT(type, size), buf) < 0) {
     DLOG(ERROR) << "failed EVIOCGBIT(" << type << ", " << size << ") on fd "
                 << fd;
     return false;
   }

   return true;
 }

 bool GetPropBits(int fd, void* buf, unsigned int size) {
   if (ioctl(fd, EVIOCGPROP(size), buf) < 0) {
     DLOG(ERROR) << "failed EVIOCGPROP(" << size << ") on fd " << fd;
     return false;
   }

   return true;
 }

 bool GetAbsInfo(int fd, int code, struct input_absinfo* absinfo) {
   if (ioctl(fd, EVIOCGABS(code), absinfo)) {
     DLOG(ERROR) << "failed EVIOCGABS(" << code << ") on fd " << fd;
     return false;
   }
   return true;
 }

 }  // namespace

 EventDeviceInfo::EventDeviceInfo() {
   memset(ev_bits_, 0, sizeof(ev_bits_));
   memset(key_bits_, 0, sizeof(key_bits_));
   memset(rel_bits_, 0, sizeof(rel_bits_));
   memset(abs_bits_, 0, sizeof(abs_bits_));
   memset(msc_bits_, 0, sizeof(msc_bits_));
   memset(sw_bits_, 0, sizeof(sw_bits_));
   memset(led_bits_, 0, sizeof(led_bits_));
   memset(prop_bits_, 0, sizeof(prop_bits_));
   memset(abs_info_, 0, sizeof(abs_info_));
 }

 EventDeviceInfo::~EventDeviceInfo() {}

 bool EventDeviceInfo::Initialize(int fd) {
   if (!GetEventBits(fd, 0, ev_bits_, sizeof(ev_bits_)))
     return false;

   if (!GetEventBits(fd, EV_KEY, key_bits_, sizeof(key_bits_)))
     return false;

   if (!GetEventBits(fd, EV_REL, rel_bits_, sizeof(rel_bits_)))
     return false;

   if (!GetEventBits(fd, EV_ABS, abs_bits_, sizeof(abs_bits_)))
     return false;

   if (!GetEventBits(fd, EV_MSC, msc_bits_, sizeof(msc_bits_)))
     return false;

   if (!GetEventBits(fd, EV_SW, sw_bits_, sizeof(sw_bits_)))
     return false;

   if (!GetEventBits(fd, EV_LED, led_bits_, sizeof(led_bits_)))
     return false;

   if (!GetPropBits(fd, prop_bits_, sizeof(prop_bits_)))
     return false;

   for (unsigned int i = 0; i < ABS_CNT; ++i)
     if (HasAbsEvent(i))
       if (!GetAbsInfo(fd, i, &abs_info_[i]))
         return false;

   return true;
 }

 bool EventDeviceInfo::HasEventType(unsigned int type) const {
   if (type > EV_MAX)
     return false;
   return EvdevBitIsSet(ev_bits_, type);
 }

 bool EventDeviceInfo::HasKeyEvent(unsigned int code) const {
   if (code > KEY_MAX)
     return false;
   return EvdevBitIsSet(key_bits_, code);
 }

 bool EventDeviceInfo::HasRelEvent(unsigned int code) const {
   if (code > REL_MAX)
     return false;
   return EvdevBitIsSet(rel_bits_, code);
 }

 bool EventDeviceInfo::HasAbsEvent(unsigned int code) const {
   if (code > ABS_MAX)
     return false;
   return EvdevBitIsSet(abs_bits_, code);
 }

 bool EventDeviceInfo::HasMscEvent(unsigned int code) const {
   if (code > MSC_MAX)
     return false;
   return EvdevBitIsSet(msc_bits_, code);
 }

 bool EventDeviceInfo::HasSwEvent(unsigned int code) const {
   if (code > SW_MAX)
     return false;
   return EvdevBitIsSet(sw_bits_, code);
 }

 bool EventDeviceInfo::HasLedEvent(unsigned int code) const {
   if (code > LED_MAX)
     return false;
   return EvdevBitIsSet(led_bits_, code);
 }

 bool EventDeviceInfo::HasProp(unsigned int code) const {
   if (code > INPUT_PROP_MAX)
     return false;
   return EvdevBitIsSet(prop_bits_, code);
 }

 int32 EventDeviceInfo::GetAbsMinimum(unsigned int code) const {
   return abs_info_[code].minimum;
 }

 int32 EventDeviceInfo::GetAbsMaximum(unsigned int code) const {
   return abs_info_[code].maximum;
 }

 bool EventDeviceInfo::HasAbsXY() const {
   if (HasAbsEvent(ABS_X) && HasAbsEvent(ABS_Y))
     return true;

   if (HasAbsEvent(ABS_MT_POSITION_X) && HasAbsEvent(ABS_MT_POSITION_Y))
     return true;

   return false;
 }

 bool EventDeviceInfo::HasRelXY() const {
   return HasRelEvent(REL_X) && HasRelEvent(REL_Y);
 }

 bool EventDeviceInfo::IsMappedToScreen() const {
   // Device position is mapped directly to the screen.
   if (HasProp(INPUT_PROP_DIRECT))
     return true;

   // Device position moves the cursor.
   if (HasProp(INPUT_PROP_POINTER))
     return false;

   // Tablets are mapped to the screen.
   if (HasKeyEvent(BTN_TOOL_PEN) || HasKeyEvent(BTN_STYLUS) ||
       HasKeyEvent(BTN_STYLUS2))
     return true;

   // Touchpads are not mapped to the screen.
   if (HasKeyEvent(BTN_LEFT) || HasKeyEvent(BTN_MIDDLE) ||
       HasKeyEvent(BTN_RIGHT) || HasKeyEvent(BTN_TOOL_FINGER))
     return false;

   // Touchscreens are mapped to the screen.
   return true;
 }

 }  // namespace ui
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ui/events/ozone/evdev/event_device_info.h"

	#include <linux/input.h>

	#include "base/logging.h"
	#include "base/threading/thread_restrictions.h"

	namespace ui {

	namespace {

	bool GetEventBits(int fd, unsigned int type, void* buf, unsigned int size) {
	if (ioctl(fd, EVIOCGBIT(type, size), buf) < 0) {
	DLOG(ERROR) << "failed EVIOCGBIT(" << type << ", " << size << ") on fd "
	<< fd;
	return false;
	}

	return true;
	}

	bool GetPropBits(int fd, void* buf, unsigned int size) {
	if (ioctl(fd, EVIOCGPROP(size), buf) < 0) {
	DLOG(ERROR) << "failed EVIOCGPROP(" << size << ") on fd " << fd;
	return false;
	}

	return true;
	}

	bool GetAbsInfo(int fd, int code, struct input_absinfo* absinfo) {
	if (ioctl(fd, EVIOCGABS(code), absinfo)) {
	DLOG(ERROR) << "failed EVIOCGABS(" << code << ") on fd " << fd;
	return false;
	}
	return true;
	}

	} // namespace

	EventDeviceInfo::EventDeviceInfo() {
	memset(ev_bits_, 0, sizeof(ev_bits_));
	memset(key_bits_, 0, sizeof(key_bits_));
	memset(rel_bits_, 0, sizeof(rel_bits_));
	memset(abs_bits_, 0, sizeof(abs_bits_));
	memset(msc_bits_, 0, sizeof(msc_bits_));
	memset(sw_bits_, 0, sizeof(sw_bits_));
	memset(led_bits_, 0, sizeof(led_bits_));
	memset(prop_bits_, 0, sizeof(prop_bits_));
	memset(abs_info_, 0, sizeof(abs_info_));
	}

	EventDeviceInfo::~EventDeviceInfo() {}

	bool EventDeviceInfo::Initialize(int fd) {
	if (!GetEventBits(fd, 0, ev_bits_, sizeof(ev_bits_)))
	return false;

	if (!GetEventBits(fd, EV_KEY, key_bits_, sizeof(key_bits_)))
	return false;

	if (!GetEventBits(fd, EV_REL, rel_bits_, sizeof(rel_bits_)))
	return false;

	if (!GetEventBits(fd, EV_ABS, abs_bits_, sizeof(abs_bits_)))
	return false;

	if (!GetEventBits(fd, EV_MSC, msc_bits_, sizeof(msc_bits_)))
	return false;

	if (!GetEventBits(fd, EV_SW, sw_bits_, sizeof(sw_bits_)))
	return false;

	if (!GetEventBits(fd, EV_LED, led_bits_, sizeof(led_bits_)))
	return false;

	if (!GetPropBits(fd, prop_bits_, sizeof(prop_bits_)))
	return false;

	for (unsigned int i = 0; i < ABS_CNT; ++i)
	if (HasAbsEvent(i))
	if (!GetAbsInfo(fd, i, &abs_info_[i]))
	return false;

	return true;
	}

	bool EventDeviceInfo::HasEventType(unsigned int type) const {
	if (type > EV_MAX)
	return false;
	return EvdevBitIsSet(ev_bits_, type);
	}

	bool EventDeviceInfo::HasKeyEvent(unsigned int code) const {
	if (code > KEY_MAX)
	return false;
	return EvdevBitIsSet(key_bits_, code);
	}

	bool EventDeviceInfo::HasRelEvent(unsigned int code) const {
	if (code > REL_MAX)
	return false;
	return EvdevBitIsSet(rel_bits_, code);
	}

	bool EventDeviceInfo::HasAbsEvent(unsigned int code) const {
	if (code > ABS_MAX)
	return false;
	return EvdevBitIsSet(abs_bits_, code);
	}

	bool EventDeviceInfo::HasMscEvent(unsigned int code) const {
	if (code > MSC_MAX)
	return false;
	return EvdevBitIsSet(msc_bits_, code);
	}

	bool EventDeviceInfo::HasSwEvent(unsigned int code) const {
	if (code > SW_MAX)
	return false;
	return EvdevBitIsSet(sw_bits_, code);
	}

	bool EventDeviceInfo::HasLedEvent(unsigned int code) const {
	if (code > LED_MAX)
	return false;
	return EvdevBitIsSet(led_bits_, code);
	}

	bool EventDeviceInfo::HasProp(unsigned int code) const {
	if (code > INPUT_PROP_MAX)
	return false;
	return EvdevBitIsSet(prop_bits_, code);
	}

	int32 EventDeviceInfo::GetAbsMinimum(unsigned int code) const {
	return abs_info_[code].minimum;
	}

	int32 EventDeviceInfo::GetAbsMaximum(unsigned int code) const {
	return abs_info_[code].maximum;
	}

	bool EventDeviceInfo::HasAbsXY() const {
	if (HasAbsEvent(ABS_X) && HasAbsEvent(ABS_Y))
	return true;

	if (HasAbsEvent(ABS_MT_POSITION_X) && HasAbsEvent(ABS_MT_POSITION_Y))
	return true;

	return false;
	}

	bool EventDeviceInfo::HasRelXY() const {
	return HasRelEvent(REL_X) && HasRelEvent(REL_Y);
	}

	bool EventDeviceInfo::IsMappedToScreen() const {
	// Device position is mapped directly to the screen.
	if (HasProp(INPUT_PROP_DIRECT))
	return true;

	// Device position moves the cursor.
	if (HasProp(INPUT_PROP_POINTER))
	return false;

	// Tablets are mapped to the screen.
	if (HasKeyEvent(BTN_TOOL_PEN) \|\| HasKeyEvent(BTN_STYLUS) \|\|
	HasKeyEvent(BTN_STYLUS2))
	return true;

	// Touchpads are not mapped to the screen.
	if (HasKeyEvent(BTN_LEFT) \|\| HasKeyEvent(BTN_MIDDLE) \|\|
	HasKeyEvent(BTN_RIGHT) \|\| HasKeyEvent(BTN_TOOL_FINGER))
	return false;

	// Touchscreens are mapped to the screen.
	return true;
	}

	} // namespace ui