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path: root/libs/ui/EventHub.cpp
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//
// Copyright 2005 The Android Open Source Project
//
// Handle events, like key input and vsync.
//
// The goal is to provide an optimized solution for Linux, not an
// implementation that works well across all platforms.  We expect
// events to arrive on file descriptors, so that we can use a select()
// select() call to sleep.
//
// We can't select() on anything but network sockets in Windows, so we
// provide an alternative implementation of waitEvent for that platform.
//
#define LOG_TAG "EventHub"

//#define LOG_NDEBUG 0

#include <ui/EventHub.h>
#include <ui/KeycodeLabels.h>
#include <hardware_legacy/power.h>

#include <cutils/properties.h>
#include <utils/Log.h>
#include <utils/Timers.h>
#include <utils/threads.h>
#include <utils/Errors.h>

#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <memory.h>
#include <errno.h>
#include <assert.h>

#include "KeyLayoutMap.h"

#include <string.h>
#include <stdint.h>
#include <dirent.h>
#ifdef HAVE_INOTIFY
# include <sys/inotify.h>
#endif
#ifdef HAVE_ANDROID_OS
# include <sys/limits.h>        /* not part of Linux */
#endif
#include <sys/poll.h>
#include <sys/ioctl.h>

/* this macro is used to tell if "bit" is set in "array"
 * it selects a byte from the array, and does a boolean AND
 * operation with a byte that only has the relevant bit set.
 * eg. to check for the 12th bit, we do (array[1] & 1<<4)
 */
#define test_bit(bit, array)    (array[bit/8] & (1<<(bit%8)))

#define ID_MASK  0x0000ffff
#define SEQ_MASK 0x7fff0000
#define SEQ_SHIFT 16
#define id_to_index(id)         ((id&ID_MASK)+1)

#ifndef ABS_MT_TOUCH_MAJOR
#define ABS_MT_TOUCH_MAJOR      0x30    /* Major axis of touching ellipse */
#endif

#ifndef ABS_MT_POSITION_X
#define ABS_MT_POSITION_X       0x35    /* Center X ellipse position */
#endif

#ifndef ABS_MT_POSITION_Y
#define ABS_MT_POSITION_Y       0x36    /* Center Y ellipse position */
#endif

namespace android {

static const char *WAKE_LOCK_ID = "KeyEvents";
static const char *device_path = "/dev/input";

/* return the larger integer */
static inline int max(int v1, int v2)
{
    return (v1 > v2) ? v1 : v2;
}

EventHub::device_t::device_t(int32_t _id, const char* _path, const char* name)
    : id(_id), path(_path), name(name), classes(0)
    , keyBitmask(NULL), layoutMap(new KeyLayoutMap()), next(NULL) {
}

EventHub::device_t::~device_t() {
    delete [] keyBitmask;
    delete layoutMap;
}

EventHub::EventHub(void)
    : mError(NO_INIT), mHaveFirstKeyboard(false), mFirstKeyboardId(0)
    , mDevicesById(0), mNumDevicesById(0)
    , mOpeningDevices(0), mClosingDevices(0)
    , mDevices(0), mFDs(0), mFDCount(0), mOpened(false)
{
    acquire_wake_lock(PARTIAL_WAKE_LOCK, WAKE_LOCK_ID);
#ifdef EV_SW
    memset(mSwitches, 0, sizeof(mSwitches));
#endif
}

/*
 * Clean up.
 */
EventHub::~EventHub(void)
{
    release_wake_lock(WAKE_LOCK_ID);
    // we should free stuff here...
}

status_t EventHub::errorCheck() const
{
    return mError;
}

String8 EventHub::getDeviceName(int32_t deviceId) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL) return String8();
    return device->name;
}

uint32_t EventHub::getDeviceClasses(int32_t deviceId) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL) return 0;
    return device->classes;
}

int EventHub::getAbsoluteInfo(int32_t deviceId, int axis, int *outMinValue,
        int* outMaxValue, int* outFlat, int* outFuzz) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL) return -1;

    struct input_absinfo info;

    if(ioctl(mFDs[id_to_index(device->id)].fd, EVIOCGABS(axis), &info)) {
        LOGE("Error reading absolute controller %d for device %s fd %d\n",
             axis, device->name.string(), mFDs[id_to_index(device->id)].fd);
        return -1;
    }
    *outMinValue = info.minimum;
    *outMaxValue = info.maximum;
    *outFlat = info.flat;
    *outFuzz = info.fuzz;
    return 0;
}

int EventHub::getSwitchState(int sw) const
{
#ifdef EV_SW
    if (sw >= 0 && sw <= SW_MAX) {
        int32_t devid = mSwitches[sw];
        if (devid != 0) {
            return getSwitchState(devid, sw);
        }
    }
#endif
    return -1;
}

int EventHub::getSwitchState(int32_t deviceId, int sw) const
{
#ifdef EV_SW
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL) return -1;
    
    if (sw >= 0 && sw <= SW_MAX) {
        uint8_t sw_bitmask[(SW_MAX+1)/8];
        memset(sw_bitmask, 0, sizeof(sw_bitmask));
        if (ioctl(mFDs[id_to_index(device->id)].fd,
                   EVIOCGSW(sizeof(sw_bitmask)), sw_bitmask) >= 0) {
            return test_bit(sw, sw_bitmask) ? 1 : 0;
        }
    }
#endif
    
    return -1;
}

int EventHub::getScancodeState(int code) const
{
    return getScancodeState(mFirstKeyboardId, code);
}

int EventHub::getScancodeState(int32_t deviceId, int code) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL) return -1;
    
    if (code >= 0 && code <= KEY_MAX) {
        uint8_t key_bitmask[(KEY_MAX+1)/8];
        memset(key_bitmask, 0, sizeof(key_bitmask));
        if (ioctl(mFDs[id_to_index(device->id)].fd,
                   EVIOCGKEY(sizeof(key_bitmask)), key_bitmask) >= 0) {
            return test_bit(code, key_bitmask) ? 1 : 0;
        }
    }
    
    return -1;
}

int EventHub::getKeycodeState(int code) const
{
    return getKeycodeState(mFirstKeyboardId, code);
}

int EventHub::getKeycodeState(int32_t deviceId, int code) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    if (device == NULL || device->layoutMap == NULL) return -1;
    
    Vector<int32_t> scanCodes;
    device->layoutMap->findScancodes(code, &scanCodes);
    
    uint8_t key_bitmask[(KEY_MAX+1)/8];
    memset(key_bitmask, 0, sizeof(key_bitmask));
    if (ioctl(mFDs[id_to_index(device->id)].fd,
               EVIOCGKEY(sizeof(key_bitmask)), key_bitmask) >= 0) {
        #if 0
        for (size_t i=0; i<=KEY_MAX; i++) {
            LOGI("(Scan code %d: down=%d)", i, test_bit(i, key_bitmask));
        }
        #endif
        const size_t N = scanCodes.size();
        for (size_t i=0; i<N && i<=KEY_MAX; i++) {
            int32_t sc = scanCodes.itemAt(i);
            //LOGI("Code %d: down=%d", sc, test_bit(sc, key_bitmask));
            if (sc >= 0 && sc <= KEY_MAX && test_bit(sc, key_bitmask)) {
                return 1;
            }
        }
    }
    
    return 0;
}

status_t EventHub::scancodeToKeycode(int32_t deviceId, int scancode,
        int32_t* outKeycode, uint32_t* outFlags) const
{
    AutoMutex _l(mLock);
    device_t* device = getDevice(deviceId);
    
    if (device != NULL && device->layoutMap != NULL) {
        status_t err = device->layoutMap->map(scancode, outKeycode, outFlags);
        if (err == NO_ERROR) {
            return NO_ERROR;
        }
    }
    
    if (mHaveFirstKeyboard) {
        device = getDevice(mFirstKeyboardId);
        
        if (device != NULL && device->layoutMap != NULL) {
            status_t err = device->layoutMap->map(scancode, outKeycode, outFlags);
            if (err == NO_ERROR) {
                return NO_ERROR;
            }
        }
    }
    
    *outKeycode = 0;
    *outFlags = 0;
    return NAME_NOT_FOUND;
}

void EventHub::addExcludedDevice(const char* deviceName)
{
    String8 name(deviceName);
    mExcludedDevices.push_back(name);
}

EventHub::device_t* EventHub::getDevice(int32_t deviceId) const
{
    if (deviceId == 0) deviceId = mFirstKeyboardId;
    int32_t id = deviceId & ID_MASK;
    if (id >= mNumDevicesById || id < 0) return NULL;
    device_t* dev = mDevicesById[id].device;
    if (dev == NULL) return NULL;
    if (dev->id == deviceId) {
        return dev;
    }
    return NULL;
}

bool EventHub::getEvent(int32_t* outDeviceId, int32_t* outType,
        int32_t* outScancode, int32_t* outKeycode, uint32_t *outFlags,
        int32_t* outValue, nsecs_t* outWhen)
{
    *outDeviceId = 0;
    *outType = 0;
    *outScancode = 0;
    *outKeycode = 0;
    *outFlags = 0;
    *outValue = 0;
    *outWhen = 0;

    status_t err;

    fd_set readfds;
    int maxFd = -1;
    int cc;
    int i;
    int res;
    int pollres;
    struct input_event iev;

    // Note that we only allow one caller to getEvent(), so don't need
    // to do locking here...  only when adding/removing devices.

    if (!mOpened) {
        mError = openPlatformInput() ? NO_ERROR : UNKNOWN_ERROR;
        mOpened = true;
    }

    while(1) {

        // First, report any devices that had last been added/removed.
        if (mClosingDevices != NULL) {
            device_t* device = mClosingDevices;
            LOGV("Reporting device closed: id=0x%x, name=%s\n",
                 device->id, device->path.string());
            mClosingDevices = device->next;
            *outDeviceId = device->id;
            if (*outDeviceId == mFirstKeyboardId) *outDeviceId = 0;
            *outType = DEVICE_REMOVED;
            delete device;
            return true;
        }
        if (mOpeningDevices != NULL) {
            device_t* device = mOpeningDevices;
            LOGV("Reporting device opened: id=0x%x, name=%s\n",
                 device->id, device->path.string());
            mOpeningDevices = device->next;
            *outDeviceId = device->id;
            if (*outDeviceId == mFirstKeyboardId) *outDeviceId = 0;
            *outType = DEVICE_ADDED;
            return true;
        }

        release_wake_lock(WAKE_LOCK_ID);

        pollres = poll(mFDs, mFDCount, -1);

        acquire_wake_lock(PARTIAL_WAKE_LOCK, WAKE_LOCK_ID);

        if (pollres <= 0) {
            if (errno != EINTR) {
                LOGW("select failed (errno=%d)\n", errno);
                usleep(100000);
            }
            continue;
        }

        //printf("poll %d, returned %d\n", mFDCount, pollres);

        // mFDs[0] is used for inotify, so process regular events starting at mFDs[1]
        for(i = 1; i < mFDCount; i++) {
            if(mFDs[i].revents) {
                LOGV("revents for %d = 0x%08x", i, mFDs[i].revents);
                if(mFDs[i].revents & POLLIN) {
                    res = read(mFDs[i].fd, &iev, sizeof(iev));
                    if (res == sizeof(iev)) {
                        LOGV("%s got: t0=%d, t1=%d, type=%d, code=%d, v=%d",
                             mDevices[i]->path.string(),
                             (int) iev.time.tv_sec, (int) iev.time.tv_usec,
                             iev.type, iev.code, iev.value);
                        *outDeviceId = mDevices[i]->id;
                        if (*outDeviceId == mFirstKeyboardId) *outDeviceId = 0;
                        *outType = iev.type;
                        *outScancode = iev.code;
                        if (iev.type == EV_KEY) {
                            err = mDevices[i]->layoutMap->map(iev.code, outKeycode, outFlags);
                            LOGV("iev.code=%d outKeycode=%d outFlags=0x%08x err=%d\n",
                                iev.code, *outKeycode, *outFlags, err);
                            if (err != 0) {
                                *outKeycode = 0;
                                *outFlags = 0;
                            }
                        } else {
                            *outKeycode = iev.code;
                        }
                        *outValue = iev.value;
                        *outWhen = s2ns(iev.time.tv_sec) + us2ns(iev.time.tv_usec);
                        return true;
                    } else {
                        if (res<0) {
                            LOGW("could not get event (errno=%d)", errno);
                        } else {
                            LOGE("could not get event (wrong size: %d)", res);
                        }
                        continue;
                    }
                }
            }
        }
        
        // read_notify() will modify mFDs and mFDCount, so this must be done after
        // processing all other events.
        if(mFDs[0].revents & POLLIN) {
            read_notify(mFDs[0].fd);
        }
    }
}

/*
 * Open the platform-specific input device.
 */
bool EventHub::openPlatformInput(void)
{
    /*
     * Open platform-specific input device(s).
     */
    int res;

    mFDCount = 1;
    mFDs = (pollfd *)calloc(1, sizeof(mFDs[0]));
    mDevices = (device_t **)calloc(1, sizeof(mDevices[0]));
    mFDs[0].events = POLLIN;
    mDevices[0] = NULL;
#ifdef HAVE_INOTIFY
    mFDs[0].fd = inotify_init();
    res = inotify_add_watch(mFDs[0].fd, device_path, IN_DELETE | IN_CREATE);
    if(res < 0) {
        LOGE("could not add watch for %s, %s\n", device_path, strerror(errno));
    }
#else
    /*
     * The code in EventHub::getEvent assumes that mFDs[0] is an inotify fd.
     * We allocate space for it and set it to something invalid.
     */
    mFDs[0].fd = -1;
#endif

    res = scan_dir(device_path);
    if(res < 0) {
        LOGE("scan dir failed for %s\n", device_path);
        //open_device("/dev/input/event0");
    }

    return true;
}

/*
 * Inspect the known devices to determine whether physical keys exist for the given
 * framework-domain key codes.
 */
bool EventHub::hasKeys(size_t numCodes, int32_t* keyCodes, uint8_t* outFlags) {
    for (size_t codeIndex = 0; codeIndex < numCodes; codeIndex++) {
        outFlags[codeIndex] = 0;

        // check each available hardware device for support for this keycode
        Vector<int32_t> scanCodes;
        for (int n = 0; (n < mFDCount) && (outFlags[codeIndex] == 0); n++) {
            if (mDevices[n]) {
                status_t err = mDevices[n]->layoutMap->findScancodes(keyCodes[codeIndex], &scanCodes);
                if (!err) {
                    // check the possible scan codes identified by the layout map against the
                    // map of codes actually emitted by the driver
                    for (size_t sc = 0; sc < scanCodes.size(); sc++) {
                        if (test_bit(scanCodes[sc], mDevices[n]->keyBitmask)) {
                            outFlags[codeIndex] = 1;
                            break;
                        }
                    }
                }
            }
        }
    }

    return true;
}

// ----------------------------------------------------------------------------

int EventHub::open_device(const char *deviceName)
{
    int version;
    int fd;
    struct pollfd *new_mFDs;
    device_t **new_devices;
    char **new_device_names;
    char name[80];
    char location[80];
    char idstr[80];
    struct input_id id;

    LOGV("Opening device: %s", deviceName);

    AutoMutex _l(mLock);

    fd = open(deviceName, O_RDWR);
    if(fd < 0) {
        LOGE("could not open %s, %s\n", deviceName, strerror(errno));
        return -1;
    }

    if(ioctl(fd, EVIOCGVERSION, &version)) {
        LOGE("could not get driver version for %s, %s\n", deviceName, strerror(errno));
        return -1;
    }
    if(ioctl(fd, EVIOCGID, &id)) {
        LOGE("could not get driver id for %s, %s\n", deviceName, strerror(errno));
        return -1;
    }
    name[sizeof(name) - 1] = '\0';
    location[sizeof(location) - 1] = '\0';
    idstr[sizeof(idstr) - 1] = '\0';
    if(ioctl(fd, EVIOCGNAME(sizeof(name) - 1), &name) < 1) {
        //fprintf(stderr, "could not get device name for %s, %s\n", deviceName, strerror(errno));
        name[0] = '\0';
    }

    // check to see if the device is on our excluded list
    List<String8>::iterator iter = mExcludedDevices.begin();
    List<String8>::iterator end = mExcludedDevices.end();
    for ( ; iter != end; iter++) {
        const char* test = *iter;
        if (strcmp(name, test) == 0) {
            LOGI("ignoring event id %s driver %s\n", deviceName, test);
            close(fd);
            fd = -1;
            return -1;
        }
    }

    if(ioctl(fd, EVIOCGPHYS(sizeof(location) - 1), &location) < 1) {
        //fprintf(stderr, "could not get location for %s, %s\n", deviceName, strerror(errno));
        location[0] = '\0';
    }
    if(ioctl(fd, EVIOCGUNIQ(sizeof(idstr) - 1), &idstr) < 1) {
        //fprintf(stderr, "could not get idstring for %s, %s\n", deviceName, strerror(errno));
        idstr[0] = '\0';
    }

    int devid = 0;
    while (devid < mNumDevicesById) {
        if (mDevicesById[devid].device == NULL) {
            break;
        }
        devid++;
    }
    if (devid >= mNumDevicesById) {
        device_ent* new_devids = (device_ent*)realloc(mDevicesById,
                sizeof(mDevicesById[0]) * (devid + 1));
        if (new_devids == NULL) {
            LOGE("out of memory");
            return -1;
        }
        mDevicesById = new_devids;
        mNumDevicesById = devid+1;
        mDevicesById[devid].device = NULL;
        mDevicesById[devid].seq = 0;
    }

    mDevicesById[devid].seq = (mDevicesById[devid].seq+(1<<SEQ_SHIFT))&SEQ_MASK;
    if (mDevicesById[devid].seq == 0) {
        mDevicesById[devid].seq = 1<<SEQ_SHIFT;
    }

    new_mFDs = (pollfd*)realloc(mFDs, sizeof(mFDs[0]) * (mFDCount + 1));
    new_devices = (device_t**)realloc(mDevices, sizeof(mDevices[0]) * (mFDCount + 1));
    if (new_mFDs == NULL || new_devices == NULL) {
        LOGE("out of memory");
        return -1;
    }
    mFDs = new_mFDs;
    mDevices = new_devices;

#if 0
    LOGI("add device %d: %s\n", mFDCount, deviceName);
    LOGI("  bus:      %04x\n"
         "  vendor    %04x\n"
         "  product   %04x\n"
         "  version   %04x\n",
        id.bustype, id.vendor, id.product, id.version);
    LOGI("  name:     \"%s\"\n", name);
    LOGI("  location: \"%s\"\n"
         "  id:       \"%s\"\n", location, idstr);
    LOGI("  version:  %d.%d.%d\n",
        version >> 16, (version >> 8) & 0xff, version & 0xff);
#endif

    device_t* device = new device_t(devid|mDevicesById[devid].seq, deviceName, name);
    if (device == NULL) {
        LOGE("out of memory");
        return -1;
    }

    mFDs[mFDCount].fd = fd;
    mFDs[mFDCount].events = POLLIN;

    // figure out the kinds of events the device reports
    
    // See if this is a keyboard, and classify it.  Note that we only
    // consider up through the function keys; we don't want to include
    // ones after that (play cd etc) so we don't mistakenly consider a
    // controller to be a keyboard.
    uint8_t key_bitmask[(KEY_MAX+1)/8];
    memset(key_bitmask, 0, sizeof(key_bitmask));
    LOGV("Getting keys...");
    if (ioctl(fd, EVIOCGBIT(EV_KEY, sizeof(key_bitmask)), key_bitmask) >= 0) {
        //LOGI("MAP\n");
        //for (int i=0; i<((KEY_MAX+1)/8); i++) {
        //    LOGI("%d: 0x%02x\n", i, key_bitmask[i]);
        //}
        for (int i=0; i<((BTN_MISC+7)/8); i++) {
            if (key_bitmask[i] != 0) {
                device->classes |= CLASS_KEYBOARD;
                break;
            }
        }
        if ((device->classes & CLASS_KEYBOARD) != 0) {
            device->keyBitmask = new uint8_t[sizeof(key_bitmask)];
            if (device->keyBitmask != NULL) {
                memcpy(device->keyBitmask, key_bitmask, sizeof(key_bitmask));
            } else {
                delete device;
                LOGE("out of memory allocating key bitmask");
                return -1;
            }
        }
    }
    
    // See if this is a trackball.
    if (test_bit(BTN_MOUSE, key_bitmask)) {
        uint8_t rel_bitmask[(REL_MAX+1)/8];
        memset(rel_bitmask, 0, sizeof(rel_bitmask));
        LOGV("Getting relative controllers...");
        if (ioctl(fd, EVIOCGBIT(EV_REL, sizeof(rel_bitmask)), rel_bitmask) >= 0)
        {
            if (test_bit(REL_X, rel_bitmask) && test_bit(REL_Y, rel_bitmask)) {
                device->classes |= CLASS_TRACKBALL;
            }
        }
    }
    
    uint8_t abs_bitmask[(ABS_MAX+1)/8];
    memset(abs_bitmask, 0, sizeof(abs_bitmask));
    LOGV("Getting absolute controllers...");
    ioctl(fd, EVIOCGBIT(EV_ABS, sizeof(abs_bitmask)), abs_bitmask);
    
    // Is this a new modern multi-touch driver?
    if (test_bit(ABS_MT_TOUCH_MAJOR, abs_bitmask)
            && test_bit(ABS_MT_POSITION_X, abs_bitmask)
            && test_bit(ABS_MT_POSITION_Y, abs_bitmask)) {
        device->classes |= CLASS_TOUCHSCREEN | CLASS_TOUCHSCREEN_MT;
        
    // Is this an old style single-touch driver?
    } else if (test_bit(BTN_TOUCH, key_bitmask)
            && test_bit(ABS_X, abs_bitmask) && test_bit(ABS_Y, abs_bitmask)) {
        device->classes |= CLASS_TOUCHSCREEN;
    }

#ifdef EV_SW
    // figure out the switches this device reports
    uint8_t sw_bitmask[(SW_MAX+1)/8];
    memset(sw_bitmask, 0, sizeof(sw_bitmask));
    if (ioctl(fd, EVIOCGBIT(EV_SW, sizeof(sw_bitmask)), sw_bitmask) >= 0) {
        for (int i=0; i<EV_SW; i++) {
            //LOGI("Device 0x%x sw %d: has=%d", device->id, i, test_bit(i, sw_bitmask));
            if (test_bit(i, sw_bitmask)) {
                if (mSwitches[i] == 0) {
                    mSwitches[i] = device->id;
                }
            }
        }
    }
#endif

    if ((device->classes&CLASS_KEYBOARD) != 0) {
        char tmpfn[sizeof(name)];
        char keylayoutFilename[300];

        // a more descriptive name
        device->name = name;

        // replace all the spaces with underscores
        strcpy(tmpfn, name);
        for (char *p = strchr(tmpfn, ' '); p && *p; p = strchr(tmpfn, ' '))
            *p = '_';

        // find the .kl file we need for this device
        const char* root = getenv("ANDROID_ROOT");
        snprintf(keylayoutFilename, sizeof(keylayoutFilename),
                 "%s/usr/keylayout/%s.kl", root, tmpfn);
        bool defaultKeymap = false;
        if (access(keylayoutFilename, R_OK)) {
            snprintf(keylayoutFilename, sizeof(keylayoutFilename),
                     "%s/usr/keylayout/%s", root, "qwerty.kl");
            defaultKeymap = true;
        }
        device->layoutMap->load(keylayoutFilename);

        // tell the world about the devname (the descriptive name)
        if (!mHaveFirstKeyboard && !defaultKeymap && strstr(name, "-keypad")) {
            // the built-in keyboard has a well-known device ID of 0,
            // this device better not go away.
            mHaveFirstKeyboard = true;
            mFirstKeyboardId = device->id;
            property_set("hw.keyboards.0.devname", name);
        } else {
            // ensure mFirstKeyboardId is set to -something-.
            if (mFirstKeyboardId == 0) {
                mFirstKeyboardId = device->id;
            }
        }
        char propName[100];
        sprintf(propName, "hw.keyboards.%u.devname", device->id);
        property_set(propName, name);

        // 'Q' key support = cheap test of whether this is an alpha-capable kbd
        if (hasKeycode(device, kKeyCodeQ)) {
            device->classes |= CLASS_ALPHAKEY;
        }
        
        // See if this has a DPAD.
        if (hasKeycode(device, kKeyCodeDpadUp) &&
                hasKeycode(device, kKeyCodeDpadDown) &&
                hasKeycode(device, kKeyCodeDpadLeft) &&
                hasKeycode(device, kKeyCodeDpadRight) &&
                hasKeycode(device, kKeyCodeDpadCenter)) {
            device->classes |= CLASS_DPAD;
        }
        
        LOGI("New keyboard: device->id=0x%x devname='%s' propName='%s' keylayout='%s'\n",
                device->id, name, propName, keylayoutFilename);
    }

    LOGI("New device: path=%s name=%s id=0x%x (of 0x%x) index=%d fd=%d classes=0x%x\n",
         deviceName, name, device->id, mNumDevicesById, mFDCount, fd, device->classes);
         
    LOGV("Adding device %s %p at %d, id = %d, classes = 0x%x\n",
         deviceName, device, mFDCount, devid, device->classes);

    mDevicesById[devid].device = device;
    device->next = mOpeningDevices;
    mOpeningDevices = device;
    mDevices[mFDCount] = device;

    mFDCount++;
    return 0;
}

bool EventHub::hasKeycode(device_t* device, int keycode) const
{
    if (device->keyBitmask == NULL || device->layoutMap == NULL) {
        return false;
    }
    
    Vector<int32_t> scanCodes;
    device->layoutMap->findScancodes(keycode, &scanCodes);
    const size_t N = scanCodes.size();
    for (size_t i=0; i<N && i<=KEY_MAX; i++) {
        int32_t sc = scanCodes.itemAt(i);
        if (sc >= 0 && sc <= KEY_MAX && test_bit(sc, device->keyBitmask)) {
            return true;
        }
    }
    
    return false;
}

int EventHub::close_device(const char *deviceName)
{
    AutoMutex _l(mLock);
    
    int i;
    for(i = 1; i < mFDCount; i++) {
        if(strcmp(mDevices[i]->path.string(), deviceName) == 0) {
            //LOGD("remove device %d: %s\n", i, deviceName);
            device_t* device = mDevices[i];
            
            LOGI("Removed device: path=%s name=%s id=0x%x (of 0x%x) index=%d fd=%d classes=0x%x\n",
                 device->path.string(), device->name.string(), device->id,
                 mNumDevicesById, mFDCount, mFDs[i].fd, device->classes);
         
            // Clear this device's entry.
            int index = (device->id&ID_MASK);
            mDevicesById[index].device = NULL;
            
            // Close the file descriptor and compact the fd array.
            close(mFDs[i].fd);
            int count = mFDCount - i - 1;
            memmove(mDevices + i, mDevices + i + 1, sizeof(mDevices[0]) * count);
            memmove(mFDs + i, mFDs + i + 1, sizeof(mFDs[0]) * count);
            mFDCount--;

#ifdef EV_SW
            for (int j=0; j<EV_SW; j++) {
                if (mSwitches[j] == device->id) {
                    mSwitches[j] = 0;
                }
            }
#endif
            
            device->next = mClosingDevices;
            mClosingDevices = device;

            if (device->id == mFirstKeyboardId) {
                LOGW("built-in keyboard device %s (id=%d) is closing! the apps will not like this",
                        device->path.string(), mFirstKeyboardId);
                mFirstKeyboardId = 0;
                property_set("hw.keyboards.0.devname", NULL);
            }
            // clear the property
            char propName[100];
            sprintf(propName, "hw.keyboards.%u.devname", device->id);
            property_set(propName, NULL);
            return 0;
        }
    }
    LOGE("remove device: %s not found\n", deviceName);
    return -1;
}

int EventHub::read_notify(int nfd)
{
#ifdef HAVE_INOTIFY
    int res;
    char devname[PATH_MAX];
    char *filename;
    char event_buf[512];
    int event_size;
    int event_pos = 0;
    struct inotify_event *event;

    LOGV("EventHub::read_notify nfd: %d\n", nfd);
    res = read(nfd, event_buf, sizeof(event_buf));
    if(res < (int)sizeof(*event)) {
        if(errno == EINTR)
            return 0;
        LOGW("could not get event, %s\n", strerror(errno));
        return 1;
    }
    //printf("got %d bytes of event information\n", res);

    strcpy(devname, device_path);
    filename = devname + strlen(devname);
    *filename++ = '/';

    while(res >= (int)sizeof(*event)) {
        event = (struct inotify_event *)(event_buf + event_pos);
        //printf("%d: %08x \"%s\"\n", event->wd, event->mask, event->len ? event->name : "");
        if(event->len) {
            strcpy(filename, event->name);
            if(event->mask & IN_CREATE) {
                open_device(devname);
            }
            else {
                close_device(devname);
            }
        }
        event_size = sizeof(*event) + event->len;
        res -= event_size;
        event_pos += event_size;
    }
#endif
    return 0;
}


int EventHub::scan_dir(const char *dirname)
{
    char devname[PATH_MAX];
    char *filename;
    DIR *dir;
    struct dirent *de;
    dir = opendir(dirname);
    if(dir == NULL)
        return -1;
    strcpy(devname, dirname);
    filename = devname + strlen(devname);
    *filename++ = '/';
    while((de = readdir(dir))) {
        if(de->d_name[0] == '.' &&
           (de->d_name[1] == '\0' ||
            (de->d_name[1] == '.' && de->d_name[2] == '\0')))
            continue;
        strcpy(filename, de->d_name);
        open_device(devname);
    }
    closedir(dir);
    return 0;
}

}; // namespace android