// FGMacOSXEventInput.cxx -- handle event driven input devices for Mac OS X
//
// Written by Tatsuhiro Nishioka, started Aug. 2009.
//
// Copyright (C) 2009 Tasuhiro Nishioka, tat <dot> fgmacosx <at> gmail <dot> com
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation; either version 2 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
#include "FGMacOSXEventInput.hxx"
using std::stringstream;
using std::map;
using std::string;
#define GetHIDElementLongValue(element, key) ({ \
long value = 0; \
CFNumberRef refType = (CFNumberRef)CFDictionaryGetValue(element, CFSTR(key)); \
if (refType) { CFNumberGetValue(refType, kCFNumberLongType, &value); } \
value; })
#define GetHIDElementBooleanValue(element, key) ({ \
bool value = 0; \
CFBooleanRef refType = (CFBooleanRef)CFDictionaryGetValue(element, CFSTR(key)); \
if (refType) { value = CFBooleanGetValue(refType); } \
value; })
#define GetHIDElementStringValue(element, key) ({ \
const char *buf = ""; \
CFStringRef refType = (CFStringRef)CFDictionaryGetValue(element, CFSTR(key)); \
if (refType) { \
buf = CFStringGetCStringPtr(refType, CFStringGetSystemEncoding()); \
} \
buf; })
// HID Element Types (log / debug use)
struct HIDTypes HID_TYPE_TABLE[] = {
{kIOHIDElementTypeInput_Misc, kHIDElementType, "Input Misc"},
{kIOHIDElementTypeInput_Button, kHIDElementType, "Input Button"},
{kIOHIDElementTypeInput_Axis, kHIDElementType, "Input Axis"},
{kIOHIDElementTypeInput_ScanCodes, kHIDElementType, "Input ScanCodes"},
{kIOHIDElementTypeOutput, kHIDElementType, "Output"},
{kIOHIDElementTypeFeature, kHIDElementType, "Feature"},
{kIOHIDElementTypeCollection, kHIDElementType, "Collection"},
{-1, kHIDElementType, ""}
};
// HID Element Pages (log / debug use)
struct HIDTypes HID_PAGE_TABLE[] = {
// Page
{kHIDPage_GenericDesktop, kHIDElementPage, "GenericDesktop"},
{kHIDPage_Simulation, kHIDElementPage, "Simulation Controls"},
{kHIDPage_VR, kHIDElementPage, "VR Controls"},
{kHIDPage_Sport, kHIDElementPage, "Sport Controls"},
{kHIDPage_Game, kHIDElementPage, "Game Controls"},
{0x06, kHIDElementPage, "Generic Device Controls"},
{kHIDPage_KeyboardOrKeypad, kHIDElementPage, "KeyboardOrKeypad"},
{kHIDPage_LEDs, kHIDElementPage, "LEDs"},
{kHIDPage_Button, kHIDElementPage, "Button"},
{kHIDPage_Ordinal, kHIDElementPage, "Ordinal"},
{kHIDPage_Telephony, kHIDElementPage, "Telephony"},
{kHIDPage_Consumer, kHIDElementPage, "Consumer"},
{kHIDPage_Digitizer, kHIDElementPage, "Digitizer"},
{kHIDPage_PID, kHIDElementPage, "PID"},
{kHIDPage_VendorDefinedStart, kHIDElementPage, "VendorDefinedStart"},
{-1, kHIDElementPage, ""}
};
#define USAGE_KEY(PAGE,USAGE) (PAGE << 16 | USAGE)
#define GET_PAGE(KEY) (KEY >> 16)
#define GET_USAGE(KEY) (KEY & 0xFFFF)
#define GD_USAGE(USAGE) USAGE_KEY(kHIDPage_GenericDesktop, USAGE)
#define SIM_USAGE(USAGE) USAGE_KEY(kHIDPage_GenericDesktop, USAGE)
#define VR_USAGE(USAGE) USAGE_KEY(kHIDPage_VR, USAGE)
#define SP_USAGE(USAGE) USAGE_KEY(kHIDPage_Sport, USAGE)
#define GAME_USAGE(USAGE) USAGE_KEY(kHIDPage_Game, USAGE)
#define GDC_USAGE(USAGE) USAGE_KEY(0x06, USAGE) // Generic Device Control is "Reserved" in Apple's definition
#define KEY_USAGE(USAGE) USAGE_KEY(kHIDPage_KeyboardOrKeypad, USAGE)
#define LED_USAGE(USAGE) USAGE_KEY(kHIDPage_LEDs, USAGE)
#define BUTTON_USAGE(USAGE) USAGE_KEY(kHIDPage_Button, USAGE)
#define DIG_USAGE(USAGE) USAGE_KEY(kHIDPage_Digitizer, USAGE)
#define CON_USAGE(USAGE) USAGE_KEY(kHIDPage_Consumer, USAGE)
// HID Element Usage <-> FGEventData convertion data
// See http://www.usb.org/developers/devclass_docs/Hut1_12.pdf for detail on HID pages and usages
// Note
// kHIDUsageAxis is FG specific type of DV since it is needed to be normalized into -1.0 to 1.0
// kHIDUsageHat also is FG specific type of DV. it's value is converted into two axis events
struct HIDTypes HID_USAGE_TABLE[] = {
// Generic Desktop Page
{GD_USAGE(kHIDUsage_GD_X), kHIDUsageAxis, "x-translate"},
{GD_USAGE(kHIDUsage_GD_Y), kHIDUsageAxis, "y-translate"},
{GD_USAGE(kHIDUsage_GD_Z), kHIDUsageAxis, "z-translate"},
{GD_USAGE(kHIDUsage_GD_Rx), kHIDUsageAxis, "x-rotate"},
{GD_USAGE(kHIDUsage_GD_Ry), kHIDUsageAxis, "y-rotate"},
{GD_USAGE(kHIDUsage_GD_Rz), kHIDUsageAxis, "z-rotate"},
{GD_USAGE(kHIDUsage_GD_Slider), kHIDUsageAxis, "slider"},
{GD_USAGE(kHIDUsage_GD_Dial), kHIDUsageAxis, "dial"},
{GD_USAGE(kHIDUsage_GD_Wheel), kHIDUsageAxis, "wheel"},
{GD_USAGE(kHIDUsage_GD_Hatswitch), kHIDUsageHat, "hat"},
{GD_USAGE(kHIDUsage_GD_CountedBuffer), kHIDUsageNotSupported, "counted-buffer"},
{GD_USAGE(kHIDUsage_GD_ByteCount), kHIDUsageNotSupported, "byte-count"},
{GD_USAGE(kHIDUsage_GD_MotionWakeup), kHIDUsageDF, "motion-wakeup"},
{GD_USAGE(kHIDUsage_GD_Start), kHIDUsageOOC, "button-start"},
{GD_USAGE(kHIDUsage_GD_Select), kHIDUsageOOC, "button-select"},
{GD_USAGE(kHIDUsage_GD_Vx), kHIDUsageAxis, "x-vector"},
{GD_USAGE(kHIDUsage_GD_Vy), kHIDUsageAxis, "y-vector"},
{GD_USAGE(kHIDUsage_GD_Vz), kHIDUsageAxis, "z-vector"},
{GD_USAGE(kHIDUsage_GD_Vbrx), kHIDUsageAxis, "x-rel-vector"},
{GD_USAGE(kHIDUsage_GD_Vbry), kHIDUsageAxis, "y-rel-vector"},
{GD_USAGE(kHIDUsage_GD_Vbrz), kHIDUsageAxis, "z-rel-vector"},
{GD_USAGE(kHIDUsage_GD_Vno), kHIDUsageAxis, "no-vector"},
{GD_USAGE(kHIDUsage_GD_SystemPowerDown), kHIDUsageOSC, "button-system-power-down"},
{GD_USAGE(kHIDUsage_GD_SystemSleep), kHIDUsageOSC, "button-system-sleep"},
{GD_USAGE(kHIDUsage_GD_SystemWakeUp), kHIDUsageOSC, "button-system-wake-up"},
{GD_USAGE(kHIDUsage_GD_SystemContextMenu), kHIDUsageOSC, "button-system-context-menu"},
{GD_USAGE(kHIDUsage_GD_SystemMainMenu), kHIDUsageOSC, "button-system-main-menu"},
{GD_USAGE(kHIDUsage_GD_SystemAppMenu), kHIDUsageOSC, "button-system-app-menu"},
{GD_USAGE(kHIDUsage_GD_SystemMenuHelp), kHIDUsageOSC, "button-system-menu-help"},
{GD_USAGE(kHIDUsage_GD_SystemMenuExit), kHIDUsageOSC, "button-system-menu-exit"},
{GD_USAGE(kHIDUsage_GD_SystemMenu), kHIDUsageOSC, "button-system-menu"},
{GD_USAGE(kHIDUsage_GD_SystemMenuRight), kHIDUsageRTC, "button-system-menu-right"},
{GD_USAGE(kHIDUsage_GD_SystemMenuLeft), kHIDUsageRTC, "button-system-menu-left"},
{GD_USAGE(kHIDUsage_GD_SystemMenuUp), kHIDUsageRTC, "button-system-menu-up"},
{GD_USAGE(kHIDUsage_GD_SystemMenuDown), kHIDUsageRTC, "button-system-menu-down"},
{GD_USAGE(kHIDUsage_GD_DPadUp), kHIDUsageOOC, "dpad-up"},
{GD_USAGE(kHIDUsage_GD_DPadDown), kHIDUsageOOC, "dpad-down"},
{GD_USAGE(kHIDUsage_GD_DPadRight), kHIDUsageOOC, "dpad-right"},
{GD_USAGE(kHIDUsage_GD_DPadLeft), kHIDUsageOOC, "dpad-left"},
// Game Controls Page
{GAME_USAGE(kHIDUsage_Game_TurnRightOrLeft), kHIDUsageAxis, "turn"},
{GAME_USAGE(kHIDUsage_Game_PitchUpOrDown), kHIDUsageAxis, "pitch"},
{GAME_USAGE(kHIDUsage_Game_MoveRightOrLeft), kHIDUsageAxis, "x-move"},
{GAME_USAGE(kHIDUsage_Game_MoveForwardOrBackward), kHIDUsageAxis, "y-move"},
{GAME_USAGE(kHIDUsage_Game_MoveUpOrDown), kHIDUsageAxis, "z-move"},
{GAME_USAGE(kHIDUsage_Game_LeanRightOrLeft), kHIDUsageAxis, "x-lean"},
{GAME_USAGE(kHIDUsage_Game_LeanForwardOrBackward), kHIDUsageAxis, "z-lean"},
// General Control Devices Page
{GDC_USAGE(0x20), kHIDUsageDV, "battery-strength"},
{GDC_USAGE(0x21), kHIDUsageDV, "wireless-channel"},
{GDC_USAGE(0x22), kHIDUsageDV, "wireless-id"},
{GDC_USAGE(0x23), kHIDUsageDV, "discover-wireless-control"},
{GDC_USAGE(0x24), kHIDUsageOSC, "security-code-character-entered"},
{GDC_USAGE(0x25), kHIDUsageOSC, "security-code-character-erased"},
{GDC_USAGE(0x26), kHIDUsageOSC, "security-code-cleared"},
// Simulation Controls Page
{SIM_USAGE(kHIDUsage_Sim_Aileron), kHIDUsageAxis, "aileron"},
{SIM_USAGE(kHIDUsage_Sim_AileronTrim), kHIDUsageAxis, "aileron-trim"},
{SIM_USAGE(kHIDUsage_Sim_AntiTorqueControl), kHIDUsageAxis, "anti-torque-control"},
{SIM_USAGE(kHIDUsage_Sim_AutopilotEnable), kHIDUsageOOC, "button-autopilot-enable"},
{SIM_USAGE(kHIDUsage_Sim_ChaffRelease), kHIDUsageOSC, "button-chaff-release"},
{SIM_USAGE(kHIDUsage_Sim_CollectiveControl), kHIDUsageAxis, "collective-control"},
{SIM_USAGE(kHIDUsage_Sim_DiveBrake), kHIDUsageAxis, "dive-brake"},
{SIM_USAGE(kHIDUsage_Sim_ElectronicCountermeasures), kHIDUsageOOC, "electronic-countermeasures"}, // OOC
{SIM_USAGE(kHIDUsage_Sim_Elevator), kHIDUsageAxis, "elevator"},
{SIM_USAGE(kHIDUsage_Sim_ElevatorTrim), kHIDUsageAxis, "elevator-trim"},
{SIM_USAGE(kHIDUsage_Sim_Rudder), kHIDUsageAxis, "rudder"},
{SIM_USAGE(kHIDUsage_Sim_Throttle), kHIDUsageAxis, "throttle"},
{SIM_USAGE(kHIDUsage_Sim_FlightCommunications), kHIDUsageOOC, "button-flight-communications"}, // OOC
{SIM_USAGE(kHIDUsage_Sim_FlareRelease), kHIDUsageOSC, "button-flare-release"},
{SIM_USAGE(kHIDUsage_Sim_LandingGear), kHIDUsageOOC, "button-landing-gear"}, // OOC
{SIM_USAGE(kHIDUsage_Sim_ToeBrake), kHIDUsageAxis, "toe-brake"},
{SIM_USAGE(kHIDUsage_Sim_Trigger), kHIDUsageMC, "button-trigger"},
{SIM_USAGE(kHIDUsage_Sim_WeaponsArm), kHIDUsageOOC, "button-weapons-arm"}, // OOC
{SIM_USAGE(kHIDUsage_Sim_Weapons), kHIDUsageOSC, "button-weapons"},
{SIM_USAGE(kHIDUsage_Sim_WingFlaps), kHIDUsageAxis, "wing-flaps"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Accelerator), kHIDUsageAxis, "accelerator"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Brake), kHIDUsageAxis, "brake"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Clutch), kHIDUsageAxis, "clutch"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Shifter), kHIDUsageAxis, "shifter"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Steering), kHIDUsageAxis, "steering"}, // DV
{SIM_USAGE(kHIDUsage_Sim_TurretDirection), kHIDUsageAxis, "turret-direction"}, // DV
{SIM_USAGE(kHIDUsage_Sim_BarrelElevation), kHIDUsageAxis, "barrel-elevation"}, // DV
{SIM_USAGE(kHIDUsage_Sim_DivePlane), kHIDUsageAxis, "dive-plane"}, // DV
{SIM_USAGE(kHIDUsage_Sim_Ballast), kHIDUsageAxis, "ballast"}, // DV
{SIM_USAGE(kHIDUsage_Sim_BicycleCrank), kHIDUsageAxis, "bicycle-crank"}, // DV
{SIM_USAGE(kHIDUsage_Sim_HandleBars), kHIDUsageAxis, "handle-bars"}, // DV
{SIM_USAGE(kHIDUsage_Sim_FrontBrake), kHIDUsageAxis, "front-brake"}, // DV
{SIM_USAGE(kHIDUsage_Sim_RearBrake), kHIDUsageAxis, "rear-brake"}, // DV
// Digitizer Controls Page
{DIG_USAGE(kHIDUsage_Dig_TipPressure), kHIDUsageAxis, "tip-pressure"}, // DV
{DIG_USAGE(kHIDUsage_Dig_BarrelPressure), kHIDUsageAxis, "barrel-pressure"}, // DV
{DIG_USAGE(kHIDUsage_Dig_InRange), kHIDUsageMC, "in-range"}, // MC
{DIG_USAGE(kHIDUsage_Dig_Touch), kHIDUsageMC, "touch"}, // MC
{DIG_USAGE(kHIDUsage_Dig_Untouch), kHIDUsageOSC, "button-untouch"}, // OSC
{DIG_USAGE(kHIDUsage_Dig_Tap), kHIDUsageOSC, "button-tap"}, // OSC
{DIG_USAGE(kHIDUsage_Dig_Quality), kHIDUsageDV, "quality"}, // DV
{DIG_USAGE(kHIDUsage_Dig_DataValid), kHIDUsageDV, "button-data-valid"}, // MC
{DIG_USAGE(kHIDUsage_Dig_TransducerIndex), kHIDUsageDV, "transducer-index"}, // DV
{DIG_USAGE(kHIDUsage_Dig_BatteryStrength), kHIDUsageDV, "battery-strength"}, // DV
{DIG_USAGE(kHIDUsage_Dig_Invert), kHIDUsageMC, "invert"}, // MC
{DIG_USAGE(kHIDUsage_Dig_XTilt), kHIDUsageAxis, "x-tilt"}, // DV
{DIG_USAGE(kHIDUsage_Dig_YTilt), kHIDUsageAxis, "y-tilt"}, // DV
{DIG_USAGE(kHIDUsage_Dig_Azimuth), kHIDUsageAxis, "azimuth"}, // DV
{DIG_USAGE(kHIDUsage_Dig_Altitude), kHIDUsageAxis, "altitude"}, // DV
{DIG_USAGE(kHIDUsage_Dig_Twist), kHIDUsageAxis, "twist"}, // DV
{DIG_USAGE(kHIDUsage_Dig_TipSwitch), kHIDUsageMC, "button-tipswitch"}, // MC
{DIG_USAGE(kHIDUsage_Dig_SecondaryTipSwitch), kHIDUsageMC, "button-secondary-tipswitch"}, // MC
{DIG_USAGE(kHIDUsage_Dig_BarrelSwitch), kHIDUsageMC, "button-barrelswitch"}, // MC
{DIG_USAGE(kHIDUsage_Dig_Eraser), kHIDUsageMC, "eraser"}, // MC
{DIG_USAGE(kHIDUsage_Dig_TabletPick), kHIDUsageMC, "table-pick"}, // MC
// Consumer Page
{CON_USAGE(kHIDUsage_Csmr_Plus10), kHIDUsageOSC, "plus10"},
{CON_USAGE(kHIDUsage_Csmr_Plus100), kHIDUsageOSC, "plus100"},
{CON_USAGE(kHIDUsage_Csmr_AMOrPM), kHIDUsageOSC, "am-pm"},
{CON_USAGE(kHIDUsage_Csmr_Power), kHIDUsageOOC, "power"},
{CON_USAGE(kHIDUsage_Csmr_Reset), kHIDUsageOSC, "reset"},
{CON_USAGE(kHIDUsage_Csmr_Sleep), kHIDUsageOSC, "sleep"},
{CON_USAGE(kHIDUsage_Csmr_SleepAfter), kHIDUsageOSC, "sleep-after"},
{CON_USAGE(kHIDUsage_Csmr_SleepMode), kHIDUsageRTC, "sleep-mode"},
{CON_USAGE(kHIDUsage_Csmr_Illumination), kHIDUsageOOC, "illumination"},
{CON_USAGE(kHIDUsage_Csmr_Menu), kHIDUsageOOC, "menu"},
{CON_USAGE(kHIDUsage_Csmr_MenuPick), kHIDUsageOSC, "menu-pick"},
{CON_USAGE(kHIDUsage_Csmr_MenuUp), kHIDUsageOSC, "menu-up"},
{CON_USAGE(kHIDUsage_Csmr_MenuDown), kHIDUsageOSC, "menu-down"},
{CON_USAGE(kHIDUsage_Csmr_MenuLeft), kHIDUsageOSC, "menu-left"},
{CON_USAGE(kHIDUsage_Csmr_MenuRight), kHIDUsageOSC, "menu-right"},
{CON_USAGE(kHIDUsage_Csmr_MenuEscape), kHIDUsageOSC, "menu-escape"},
{CON_USAGE(kHIDUsage_Csmr_MenuValueIncrease), kHIDUsageOSC, "menu-value-increase"},
{CON_USAGE(kHIDUsage_Csmr_MenuValueDecrease), kHIDUsageOSC, "menu-value-decrease"},
{CON_USAGE(kHIDUsage_Csmr_DataOnScreen), kHIDUsageOOC, "data-on-screen"},
{CON_USAGE(kHIDUsage_Csmr_ClosedCaption), kHIDUsageOOC, "closed-caption"},
{CON_USAGE(kHIDUsage_Csmr_ClosedCaptionSelect), kHIDUsageSel, "closed-caption-select"},
{CON_USAGE(kHIDUsage_Csmr_VCROrTV), kHIDUsageOOC, "vcr-tv"},
{CON_USAGE(kHIDUsage_Csmr_BroadcastMode), kHIDUsageOSC, "broadcast-mode"},
{CON_USAGE(kHIDUsage_Csmr_Snapshot), kHIDUsageOSC, "snapshot"},
{CON_USAGE(kHIDUsage_Csmr_Still), kHIDUsageOSC, "still"},
{CON_USAGE(kHIDUsage_Csmr_Assign), kHIDUsageOSC, "assign"},
{CON_USAGE(kHIDUsage_Csmr_ModeStep), kHIDUsageOSC, "mode-step"},
{CON_USAGE(kHIDUsage_Csmr_RecallLast), kHIDUsageOSC, "recall-last"},
{CON_USAGE(kHIDUsage_Csmr_EnterChannel), kHIDUsageOSC, "enter-channel"},
{CON_USAGE(kHIDUsage_Csmr_OrderMovie), kHIDUsageOSC, "order-movie"},
{CON_USAGE(kHIDUsage_Csmr_Channel), kHIDUsageDV, "channel"}, // LC
{CON_USAGE(kHIDUsage_Csmr_MediaSelection), kHIDUsageSel, "media-selection"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectComputer), kHIDUsageSel, "media-select-computer"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectTV), kHIDUsageSel, "media-select-tv"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectWWW), kHIDUsageSel, "media-seleci-www"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectDVD), kHIDUsageSel, "media-select-dvd"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectTelephone), kHIDUsageSel, "media-select-telephone"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectProgramGuide), kHIDUsageSel, "media-select-programguide"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectVideoPhone), kHIDUsageSel, "media-select-videophone"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectGames), kHIDUsageSel, "media-select-games"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectMessages), kHIDUsageSel, "media-select-messages"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectCD), kHIDUsageSel, "media-select-cd"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectVCR), kHIDUsageSel, "media-select-vcr"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectTuner), kHIDUsageOSC, "media-select-tuner"},
{CON_USAGE(kHIDUsage_Csmr_Quit), kHIDUsageOSC, "quit"},
{CON_USAGE(kHIDUsage_Csmr_Help), kHIDUsageOOC, "help"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectTape), kHIDUsageSel, "media-select-tape"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectCable), kHIDUsageSel, "media-select-cable"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectSatellite), kHIDUsageSel, "media-select-satellite"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectSecurity), kHIDUsageSel, "media-select-security"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectHome), kHIDUsageSel, "media-select-home"},
{CON_USAGE(kHIDUsage_Csmr_MediaSelectCall), kHIDUsageSel, "media-select-call"},
{CON_USAGE(kHIDUsage_Csmr_ChannelIncrement), kHIDUsageOSC, "channel-increment"},
{CON_USAGE(kHIDUsage_Csmr_ChannelDecrement), kHIDUsageOSC, "channel-decrement"},
{CON_USAGE(kHIDUsage_Csmr_Media), kHIDUsageSel, "media"},
{CON_USAGE(kHIDUsage_Csmr_VCRPlus), kHIDUsageOSC, "vcr-plus"},
{CON_USAGE(kHIDUsage_Csmr_Once), kHIDUsageOSC, "once"},
{CON_USAGE(kHIDUsage_Csmr_Daily), kHIDUsageOSC, "daily"},
{CON_USAGE(kHIDUsage_Csmr_Weekly), kHIDUsageOSC, "weekly"},
{CON_USAGE(kHIDUsage_Csmr_Monthly), kHIDUsageOSC, "monthly"},
{CON_USAGE(kHIDUsage_Csmr_Play), kHIDUsageOOC, "play"},
{CON_USAGE(kHIDUsage_Csmr_Pause), kHIDUsageOOC, "pause"},
{CON_USAGE(kHIDUsage_Csmr_Record), kHIDUsageOOC, "record"},
{CON_USAGE(kHIDUsage_Csmr_FastForward), kHIDUsageOOC,"fastforward"},
{CON_USAGE(kHIDUsage_Csmr_Rewind), kHIDUsageOOC, "rewind"},
{CON_USAGE(kHIDUsage_Csmr_ScanNextTrack), kHIDUsageOSC, "scan-next-track"},
{CON_USAGE(kHIDUsage_Csmr_ScanPreviousTrack), kHIDUsageOSC, "scan-previous-track"},
{CON_USAGE(kHIDUsage_Csmr_Stop), kHIDUsageOSC, "stop"},
{CON_USAGE(kHIDUsage_Csmr_Eject), kHIDUsageOSC, "eject"},
{CON_USAGE(kHIDUsage_Csmr_RandomPlay), kHIDUsageOOC, "random-play"},
{CON_USAGE(kHIDUsage_Csmr_SelectDisc), kHIDUsageNotSupported, "select-disc"}, //NamedArray
{CON_USAGE(kHIDUsage_Csmr_VolumeIncrement), kHIDUsageRTC, "volume-increment"},
{CON_USAGE(kHIDUsage_Csmr_VolumeDecrement), kHIDUsageRTC, "volume-decrement"},
{CON_USAGE(kHIDUsage_Csmr_PlayOrPause), kHIDUsageOSC, "play-pause"},
{CON_USAGE(kHIDUsage_Csmr_Mute), kHIDUsageOOC, "mute"},
// Too many... and the rest are T.B.D. ;-)
{-1, kHIDElementPage, ""},
};
static HIDTypeByID hidTypeByID(HID_TYPE_TABLE);
static HIDTypeByID hidPageByID(HID_PAGE_TABLE);
static HIDTypeByID hidUsageByID(HID_USAGE_TABLE);
HIDElement::HIDElement(CFDictionaryRef element, long page, long usage) :
page(page), usage(usage), value(0.0), lastValue(0.0) {
cookie = (IOHIDElementCookie)GetHIDElementLongValue(element, kIOHIDElementCookieKey);
name = hidUsageByID.getName(USAGE_KEY(page, usage));
}
long HIDElement::read(IOHIDDeviceInterface **interface)
{
IOHIDEventStruct event;
lastValue = value;
IOReturn ret = (*interface)->getElementValue(interface, cookie, &event);
if (ret == kIOReturnSuccess) {
value = event.value;
// SG_LOG(SG_INPUT, SG_BULK, "Element: " << name << "; value = " << value);
return event.value;
} else {
SG_LOG(SG_INPUT, SG_WARN, "Failed reading value for HID Element: " << name);
return 0;
}
}
bool HIDElement::isUpdated()
{
return (value != lastValue);
}
void HIDElement::generateEvent(FGMacOSXInputDevice *device, double dt, int modifiers)
{
SG_LOG(SG_INPUT, SG_DEBUG, "Generating Input Event: " << name << "=" << value);
FGMacOSXEventData eventData(name, (float)value, dt, modifiers);
device->HandleEvent(eventData);
}
AxisElement::AxisElement(CFDictionaryRef element, long page, long usage) :
HIDElement(element, page, usage), dead_band(0.00), saturate(1.0)
{
min = GetHIDElementLongValue(element, kIOHIDElementMinKey);
max = GetHIDElementLongValue(element, kIOHIDElementMaxKey);
isRelative = GetHIDElementBooleanValue(element, kIOHIDElementIsRelativeKey);
isWrapping = GetHIDElementBooleanValue(element, kIOHIDElementIsWrappingKey);
isNonLinear = GetHIDElementBooleanValue(element, kIOHIDElementIsNonLinearKey);
name = ((isRelative == true) ? "rel-" : "abs-") + name;
center = min + (max - abs(min)) * 0.5;
SG_LOG(SG_INPUT, SG_DEBUG, "HID Axis Element; " << name << " min: " << min << " max:" << max << " center: " << center);
SG_LOG(SG_INPUT, SG_DEBUG, "isRelative=" << isRelative << ", isWrapping=" << isWrapping << ", isNonLinear=" << isNonLinear);
}
long AxisElement::read(IOHIDDeviceInterface **interface)
{
lastValue = value;
return HIDElement::read(interface);
}
// FIXME: This can be removed when AxisInputEvent can normalize its value
void AxisElement::generateEvent(FGMacOSXInputDevice *device, double dt, int modifiers)
{
float normalizedValue = (float)value;
if (!isRelative) {
normalizedValue = (value - (float)center) / (float)(max - center);
if (fabs(normalizedValue) < dead_band)
normalizedValue = 0.0;
}
SG_LOG(SG_INPUT, SG_DEBUG, "Generating Input Event: " << name << "=" << normalizedValue);
FGMacOSXEventData eventData(name, normalizedValue, dt, modifiers);
device->HandleEvent(eventData);
}
ButtonElement::ButtonElement(CFDictionaryRef element, long page, long usage) :
HIDElement(element, page, usage)
{
if (name == "") {
stringstream ss;
ss << (page == kHIDPage_KeyboardOrKeypad ? "keyboard-" : "button-") << usage;
ss >> name;
}
}
HatElement::HatElement(CFDictionaryRef element, long page, long usage, int id) :
HIDElement(element, page, usage), id(id)
{
min = GetHIDElementLongValue(element, kIOHIDElementMinKey);
max = GetHIDElementLongValue(element, kIOHIDElementMaxKey);
lastValue = 8;
}
void HatElement::generateEvent(FGMacOSXInputDevice *device, double dt, int modifiers)
{
// Hat value is from 0 to 8, representing:
// 0:N, 1:NE, 2:E, 3:SE, 4:S, 5:SW, 6:W, 7:NW, 8:Neutral
// FG can't bind hat directly, so need to convert its value to two axis events
static float xvalues[] = {0, 1, 1, 1, 0, -1, -1, -1, 0};
static float yvalues[] = {1, 1, 0, -1, -1, -1, 0, 1, 0};
stringstream ss1, ss2;
ss1 << "abs-hat" << id << "-x";
SG_LOG(SG_INPUT, SG_BULK, "Generating Input Event: " << ss1.str() << "=" << xvalues[(int)value]);
FGMacOSXEventData eventDataX(ss1.str(), xvalues[(int)value], dt, modifiers);
ss2 << "abs-hat" << id << "-y";
SG_LOG(SG_INPUT, SG_BULK, "Generating Input Event: " << ss2.str() << "=" << yvalues[(int)value]);
FGMacOSXEventData eventDataY(ss2.str(), yvalues[(int)value], dt, modifiers);
device->HandleEvent((FGEventData &)eventDataX);
device->HandleEvent((FGEventData &)eventDataY);
}
LEDElement::LEDElement(CFDictionaryRef element, long page, long usage) :
HIDElement(element, page, usage)
{
stringstream ss;
if (name == "") {
ss << "led-" << usage;
ss >> name;
}
}
void LEDElement::write(IOHIDDeviceInterface **interface, double value) {
IOHIDEventStruct event = (IOHIDEventStruct){kIOHIDElementTypeOutput, cookie, 0, {0}, 0, 0};
event.value = value;
(*interface)->setElementValue(interface, cookie, &event, 0, NULL, NULL, NULL);
}
//
// This is just for testing....
//
FeatureElement::FeatureElement(CFDictionaryRef element, long page, long usage, int count=1) :
HIDElement(element, page, usage)
{
stringstream ss;
if (name == "") {
ss << "feature-" << usage;
if (count > 1)
ss << "-" << count;
ss >> name;
}
}
long FeatureElement::read(IOHIDDeviceInterface **interface) {
IOHIDEventStruct event;
IOReturn ret = (*interface)->queryElementValue(interface, cookie, &event, 0, NULL, NULL, NULL);
if (ret != kIOReturnSuccess) {
ret = (*interface)->getElementValue(interface, cookie, &event);
if (ret != kIOReturnSuccess) {
SG_LOG(SG_INPUT, SG_WARN, "Can't get element value for feature element: " << getName());
return 0;
}
}
return event.value;
}
//
// HIDElementFactory
//
void HIDElementFactory::create(CFTypeRef element, FGMacOSXInputDevice *inputDevice)
{
assert(CFGetTypeID(element) == CFArrayGetTypeID());
CFRange range = {0, CFArrayGetCount((CFArrayRef)element)};
CFArrayApplyFunction((CFArrayRef) element, range,
HIDElementFactory::elementEnumerator, (void *)inputDevice);
};
void HIDElementFactory::elementEnumerator( const void *element, void *inputDevice) {
if (CFGetTypeID((CFTypeRef) element) != CFDictionaryGetTypeID()) {
SG_LOG(SG_INPUT, SG_WARN, "Element Enumerator passed non-dictionary value.");
}
HIDElementFactory::parseElement((CFDictionaryRef)element, (FGMacOSXInputDevice *)inputDevice);
};
void HIDElementFactory::parseElement(CFDictionaryRef element, FGMacOSXInputDevice *inputDevice) {
long page = GetHIDElementLongValue(element, kIOHIDElementUsagePageKey);
long usage = GetHIDElementLongValue(element, kIOHIDElementUsageKey);
static int id=0;
static map<FGMacOSXInputDevice *, map<long, unsigned> > elementCount;
long type = GetHIDElementLongValue(element, kIOHIDElementTypeKey);
if (type == kIOHIDElementTypeCollection) {
id = 0;
SG_LOG(SG_INPUT, SG_DEBUG, "Collection: " << hidTypeByID.getName(type) << "(" << type << ")"
<< ":" << hidPageByID.getName(page) << "(" << page << ")"
<< ":" << hidUsageByID.getName(USAGE_KEY(page, usage)) << "(" << usage << ")");
HIDElementFactory::create(CFDictionaryGetValue(element, CFSTR(kIOHIDElementKey)), inputDevice);
} else {
HIDUsageType usageType = hidUsageByID.getType(USAGE_KEY(page, usage));
// FIXME: Any other elegant way for counting the same usage on a device?
// This is mainly needed for feature / hat elements to avoid assigning the sane event name.
elementCount[inputDevice][USAGE_KEY(page, usage)] += 1;
switch (usageType) {
case kHIDUsageAxis:
inputDevice->addElement(new AxisElement(element, page, usage));
break;
case kHIDUsageDV:
case kHIDUsageDF:
inputDevice->addElement(new HIDElement(element, page, usage));
break;
case kHIDUsageHat:
inputDevice->addElement(new HatElement(element, page, usage, elementCount[inputDevice][USAGE_KEY(page, usage)]));
break;
case kHIDUsageOOC:
case kHIDUsageOSC:
case kHIDUsageMC:
case kHIDUsageRTC:
if (usage > 0)
inputDevice->addElement(new ButtonElement(element, page, usage));
break;
default:
if (page == kHIDPage_Button || type == kIOHIDElementTypeInput_Button && usage > 0) {
// FIXME: most of KeyboardOrKeypad elements should be treated as Selector type, not as Button...
inputDevice->addElement(new ButtonElement(element, page, usage));
} else if (page == kHIDPage_LEDs && usage > 0) {
inputDevice->addElement(new LEDElement(element, page, usage));
/* Feature elements are not fully tested yet
} else if (type == kIOHIDElementTypeFeature) {
// just for testing feature elements
inputDevice->addElement(new FeatureElement(element, page, usage, elementCount[inputDevice][USAGE_KEY(page, usage)]));
*/
} else {
SG_LOG(SG_INPUT, SG_INFO, "HID Element Page/Usage is not supported: type=" << hidTypeByID.getName(type)
<< "(" << type << ")" << ", page=" << hidPageByID.getName(page) << "(" << page << ")"
<< ", usage=" << usage);
}
}
}
}
//
// FGMacOSXInputDevice implementation
//
FGMacOSXInputDevice::FGMacOSXInputDevice(io_object_t device) : device(device), devInterface(NULL)
{
CFDictionaryRef properties = getProperties();
string deviceName = GetHIDElementStringValue(properties, kIOHIDProductKey);
if (deviceName == "") {
deviceName = GetHIDElementStringValue(properties, "USB Product Name");
}
SetName(deviceName);
CFRelease(properties);
}
const char *FGMacOSXInputDevice::TranslateEventName(FGEventData &eventData)
{
FGMacOSXEventData &macEvent = (FGMacOSXEventData &)eventData;
return macEvent.name.c_str();
}
//
// Outputs value to an writable element (like LEDElement)
//
void FGMacOSXInputDevice::Send(const char *eventName, double value)
{
HIDElement *element = elements[eventName];
if (element) {
element->write(devInterface, value);
} else {
SG_LOG(SG_INPUT, SG_WARN, "No element to handle event: " << eventName);
}
}
CFDictionaryRef FGMacOSXInputDevice::getProperties(io_object_t device)
{
IOReturn ret;
CFMutableDictionaryRef properties;
ret = IORegistryEntryCreateCFProperties( device, &properties, kCFAllocatorDefault, kNilOptions);
if (ret != kIOReturnSuccess || !properties) {
SG_LOG(SG_INPUT, SG_WARN, "Error getting device properties.");
return NULL;
}
return properties;
}
//
// Adds HID element to FGMacOSXInputDevice.
// On Mac OS X, update() will read value of each HID element.
// Thus, FGMacOSXInputDevice needs all supported elements when a device is opened
//
void FGMacOSXInputDevice::addElement(HIDElement *element)
{
elements[element->getName()] = element;
int count = elements.size();
SG_LOG(SG_INPUT, SG_DEBUG, "adding element " << count << ":" << element->getName());
}
void FGMacOSXInputDevice::Open() {
// create device interface
IOReturn ret;
SInt32 score;
IOCFPlugInInterface **plugin;
SG_LOG(SG_INPUT, SG_INFO, "Opening HID : " << GetName());
ret = IOCreatePlugInInterfaceForService(device,
kIOHIDDeviceUserClientTypeID,
kIOCFPlugInInterfaceID,
&plugin, &score);
if (ret != kIOReturnSuccess) {
SG_LOG(SG_INPUT, SG_ALERT, "Error creating a plugin for HID : " << GetName());
throw std::exception();
return;
}
HRESULT result = (*plugin)->QueryInterface(plugin,
CFUUIDGetUUIDBytes(kIOHIDDeviceInterfaceID),
(LPVOID*)&devInterface );
if (result != S_OK)
SG_LOG(SG_INPUT, SG_WARN, "Failed Querying HID plugin interface: " << GetName());
(*plugin)->Release(plugin); // don't leak a ref
if (devInterface == NULL) {
return;
throw std::exception();
}
// store the interface in this instance
ret = (*devInterface)->open(devInterface, 0);
if (ret != kIOReturnSuccess) {
SG_LOG(SG_INPUT, SG_ALERT, "Error opening device interface: " << GetName());
throw std::exception();
return;
}
CFDictionaryRef props = getProperties();
// recursively adds all supported HID elements to FGMacOSXInputDevice
CFTypeRef topLevelElement = CFDictionaryGetValue (props, CFSTR(kIOHIDElementKey));
HIDElementFactory::create(topLevelElement, this);
CFRelease(props);
}
void FGMacOSXInputDevice::Close() {
SG_LOG(SG_INPUT, SG_INFO, "Closing HID: " << GetName());
if (devInterface) {
(*devInterface)->close(devInterface);
}
map<string, HIDElement *>::iterator it;
for (it = elements.begin(); it != elements.end(); it++) {
if ((*it).second)
delete (*it).second;
}
elements.clear();
}
//
// Reads values of assigned HIDElement and generates events
//
void FGMacOSXInputDevice::update(double dt)
{
map<string, HIDElement *>::iterator it;
for (it = elements.begin(); it != elements.end(); it++) {
(*it).second->read(devInterface);
if ((*it).second->isUpdated()) { // Is this needed?
int modifiers = fgGetKeyModifiers();
(*it).second->generateEvent(this, dt, modifiers);
}
}
}
//
// FGMacOSXEventInput implementation
//
FGMacOSXEventInput::~FGMacOSXEventInput() {
deviceIndices.clear();
}
void FGMacOSXEventInput::init()
{
IOReturn ret;
SG_LOG(SG_INPUT, SG_INFO, "initializing FGMacOSXEventInput");
// We want all HID devices for matching
CFMutableDictionaryRef matchingDictionary = IOServiceMatching(kIOHIDDeviceKey);
// Needs to retain machingDict since IOServiceAddMatchingNotification consumes one reference.
matchingDictionary = (CFMutableDictionaryRef) CFRetain(matchingDictionary);
matchingDictionary = (CFMutableDictionaryRef) CFRetain(matchingDictionary);
// Registers Hotplug notification for plug and play.
notifyPort = IONotificationPortCreate(kIOMasterPortDefault);
runLoopSource = IONotificationPortGetRunLoopSource(notifyPort);
CFRunLoopAddSource(CFRunLoopGetCurrent(), runLoopSource, kCFRunLoopDefaultMode);
ret = IOServiceAddMatchingNotification(notifyPort, kIOFirstMatchNotification,
matchingDictionary, FGMacOSXEventInput::deviceAttached, (void *)this, &addedIterator);
ret = IOServiceAddMatchingNotification(notifyPort, kIOTerminatedNotification,
matchingDictionary, FGMacOSXEventInput::deviceDetached, (void *)this, &removedIterator);
// prepare for notification by calling these callback funcs to remove existing HID device iterators
FGMacOSXEventInput::deviceAttached((void *)this, addedIterator);
FGMacOSXEventInput::deviceDetached((void *)this, removedIterator);
}
void FGMacOSXEventInput::attachDevice(io_iterator_t iterator)
{
io_object_t device;
while ((device = IOIteratorNext(iterator))) {
FGMacOSXInputDevice *inputDevice = new FGMacOSXInputDevice(device);
if (inputDevice) {
SG_LOG(SG_INPUT, SG_INFO, "HID Device Atached: " << inputDevice->GetName());
unsigned index = AddDevice(inputDevice);
// Needs to check if AddDevice closed the device due to lack of config file
if (index != FGEventInput::INVALID_DEVICE_INDEX) {
// maps device with FG device index.
// This map is needed in detachDevice to tell FGEventInput which deivce ID is to be removed
deviceIndices[device] = index;
}
}
IOObjectRelease(device);
}
}
void FGMacOSXEventInput::detachDevice(io_iterator_t iterator)
{
io_object_t device;
while ((device = IOIteratorNext(iterator))) {
unsigned index = deviceIndices[device];
if (index != FGEventInput::INVALID_DEVICE_INDEX) {
FGMacOSXInputDevice *inputDevice = dynamic_cast<FGMacOSXInputDevice *>(input_devices[index]);
if (inputDevice) {
SG_LOG(SG_INPUT, SG_INFO, "HID Device Detached: " << inputDevice->GetName());
RemoveDevice(index);
deviceIndices.erase(device);
} else {
SG_LOG(SG_INPUT, SG_WARN, "Invalid device index:" << index << ". Detach failed.");
}
} else {
SG_LOG(SG_INPUT, SG_INFO, "Device ID unmatched: " << (int)device << " No HID deivce is detached since it is not supported by FG.");
}
IOObjectRelease(device);
}
}
//
// read all elements in each input device
//
void FGMacOSXEventInput::update(double dt)
{
FGEventInput::update(dt);
map<int, FGInputDevice*>::const_iterator it;
for (it = input_devices.begin(); it != input_devices.end(); it++) {
if ((*it).second) {
FGMacOSXInputDevice *inputDevice = dynamic_cast<FGMacOSXInputDevice *>((*it).second);
if (inputDevice) {
inputDevice->update(dt);
} else {
SG_LOG(SG_INPUT, SG_WARN, "Invalid device. Update failed.");
}
}
}
}