/* Copyright (C) 2007-2008 The Android Open Source Project ** ** This software is licensed under the terms of the GNU General Public ** License version 2, as published by the Free Software Foundation, and ** may be copied, distributed, and modified under those terms. ** ** 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. */ #include "qemu_file.h" #include "android/hw-events.h" #include "android/charmap.h" #include "android/globals.h" /* for android_hw */ #include "irq.h" #define MAX_EVENTS 256*4 enum { REG_READ = 0x00, REG_SET_PAGE = 0x00, REG_LEN = 0x04, REG_DATA = 0x08, PAGE_NAME = 0x00000, PAGE_EVBITS = 0x10000, PAGE_ABSDATA = 0x20000 | EV_ABS, }; /* NOTE: The ev_bits arrays are used to indicate to the kernel * which events can be sent by the emulated hardware. */ typedef struct { uint32_t base; qemu_irq irq; int pending; int page; unsigned events[MAX_EVENTS]; unsigned first; unsigned last; const char *name; struct { size_t len; uint8_t *bits; } ev_bits[EV_MAX + 1]; int32_t *abs_info; size_t abs_info_count; } events_state; /* modify this each time you change the events_device structure. you * will also need to upadte events_state_load and events_state_save */ #define EVENTS_STATE_SAVE_VERSION 1 #undef QFIELD_STRUCT #define QFIELD_STRUCT events_state QFIELD_BEGIN(events_state_fields) QFIELD_INT32(pending), QFIELD_INT32(page), QFIELD_BUFFER(events), QFIELD_INT32(first), QFIELD_INT32(last), QFIELD_END static void events_state_save(QEMUFile* f, void* opaque) { events_state* s = opaque; qemu_put_struct(f, events_state_fields, s); } static int events_state_load(QEMUFile* f, void* opaque, int version_id) { events_state* s = opaque; if (version_id != EVENTS_STATE_SAVE_VERSION) return -1; return qemu_get_struct(f, events_state_fields, s); } extern const char* android_skin_keycharmap; static void enqueue_event(events_state *s, unsigned int type, unsigned int code, int value) { int enqueued = s->last - s->first; if (enqueued < 0) enqueued += MAX_EVENTS; if (enqueued + 3 >= MAX_EVENTS-1) { fprintf(stderr, "##KBD: Full queue, lose event\n"); return; } if(s->first == s->last){ qemu_irq_raise(s->irq); } //fprintf(stderr, "##KBD: type=%d code=%d value=%d\n", type, code, value); s->events[s->last] = type; s->last = (s->last + 1) & (MAX_EVENTS-1); s->events[s->last] = code; s->last = (s->last + 1) & (MAX_EVENTS-1); s->events[s->last] = value; s->last = (s->last + 1) & (MAX_EVENTS-1); } static unsigned dequeue_event(events_state *s) { unsigned n; if(s->first == s->last) { return 0; } n = s->events[s->first]; s->first = (s->first + 1) & (MAX_EVENTS - 1); if(s->first == s->last) { qemu_irq_lower(s->irq); } return n; } static int get_page_len(events_state *s) { int page = s->page; if (page == PAGE_NAME) return strlen(s->name); if (page >= PAGE_EVBITS && page <= PAGE_EVBITS + EV_MAX) return s->ev_bits[page - PAGE_EVBITS].len; if (page == PAGE_ABSDATA) return s->abs_info_count * sizeof(s->abs_info[0]); return 0; } static int get_page_data(events_state *s, int offset) { int page_len = get_page_len(s); int page = s->page; if (offset > page_len) return 0; if (page == PAGE_NAME) return s->name[offset]; if (page >= PAGE_EVBITS && page <= PAGE_EVBITS + EV_MAX) return s->ev_bits[page - PAGE_EVBITS].bits[offset]; if (page == PAGE_ABSDATA) return s->abs_info[offset / sizeof(s->abs_info[0])]; return 0; } static uint32_t events_read(void *x, target_phys_addr_t off) { events_state *s = (events_state *) x; int offset = off; // - s->base; if (offset == REG_READ) return dequeue_event(s); else if (offset == REG_LEN) return get_page_len(s); else if (offset >= REG_DATA) return get_page_data(s, offset - REG_DATA); return 0; // this shouldn't happen, if the driver does the right thing } static void events_write(void *x, target_phys_addr_t off, uint32_t val) { events_state *s = (events_state *) x; int offset = off; // - s->base; if (offset == REG_SET_PAGE) s->page = val; } static CPUReadMemoryFunc *events_readfn[] = { events_read, events_read, events_read }; static CPUWriteMemoryFunc *events_writefn[] = { events_write, events_write, events_write }; static void events_put_keycode(void *x, int keycode) { events_state *s = (events_state *) x; enqueue_event(s, EV_KEY, keycode&0x1ff, (keycode&0x200) ? 1 : 0); } static void events_put_mouse(void *opaque, int dx, int dy, int dz, int buttons_state) { events_state *s = (events_state *) opaque; /* in the Android emulator, we use dz == 0 for touchscreen events, * and dz == 1 for trackball events. See the kbd_mouse_event calls * in android/skin/trackball.c and android/skin/window.c */ if (dz == 0) { enqueue_event(s, EV_ABS, ABS_X, dx); enqueue_event(s, EV_ABS, ABS_Y, dy); enqueue_event(s, EV_ABS, ABS_Z, dz); enqueue_event(s, EV_KEY, BTN_TOUCH, buttons_state&1); } else { enqueue_event(s, EV_REL, REL_X, dx); enqueue_event(s, EV_REL, REL_Y, dy); } enqueue_event(s, EV_SYN, 0, 0); } static void events_put_generic(void* opaque, int type, int code, int value) { events_state *s = (events_state *) opaque; enqueue_event(s, type, code, value); } /* set bits [bitl..bith] in the ev_bits[type] array */ static void events_set_bits(events_state *s, int type, int bitl, int bith) { uint8_t *bits; uint8_t maskl, maskh; int il, ih; il = bitl / 8; ih = bith / 8; if (ih >= s->ev_bits[type].len) { bits = qemu_mallocz(ih + 1); if (bits == NULL) return; memcpy(bits, s->ev_bits[type].bits, s->ev_bits[type].len); qemu_free(s->ev_bits[type].bits); s->ev_bits[type].bits = bits; s->ev_bits[type].len = ih + 1; } else bits = s->ev_bits[type].bits; maskl = 0xffU << (bitl & 7); maskh = 0xffU >> (7 - (bith & 7)); if (il >= ih) maskh &= maskl; else { bits[il] |= maskl; while (++il < ih) bits[il] = 0xff; } bits[ih] |= maskh; } static void events_set_bit(events_state* s, int type, int bit) { events_set_bits(s, type, bit, bit); } void events_dev_init(uint32_t base, qemu_irq irq) { events_state *s; int iomemtype; AndroidHwConfig* config = android_hw; s = (events_state *) qemu_mallocz(sizeof(events_state)); s->name = android_skin_keycharmap; /* now set the events capability bits depending on hardware configuration */ /* apparently, the EV_SYN array is used to indicate which other * event classes to consider. */ /* configure EV_KEY array * * All Android devices must have the following keys: * KEY_HOME, KEY_BACK, KEY_SEND (Call), KEY_END (EndCall), * KEY_SOFT1 (Menu), VOLUME_UP, VOLUME_DOWN * * Note that previous models also had a KEY_SOFT2, * and a KEY_POWER which we still support here. * * Newer models have a KEY_SEARCH key, which we always * enable here. * * A Dpad will send: KEY_DOWN / UP / LEFT / RIGHT / CENTER * * The KEY_CAMERA button isn't very useful if there is no camera. * * BTN_MOUSE is sent when the trackball is pressed * BTN_TOUCH is sent when the touchscreen is pressed */ events_set_bit (s, EV_SYN, EV_KEY ); events_set_bit(s, EV_KEY, KEY_HOME); events_set_bit(s, EV_KEY, KEY_BACK); events_set_bit(s, EV_KEY, KEY_SEND); events_set_bit(s, EV_KEY, KEY_END); events_set_bit(s, EV_KEY, KEY_SOFT1); events_set_bit(s, EV_KEY, KEY_VOLUMEUP); events_set_bit(s, EV_KEY, KEY_VOLUMEDOWN); events_set_bit(s, EV_KEY, KEY_SOFT2); events_set_bit(s, EV_KEY, KEY_POWER); events_set_bit(s, EV_KEY, KEY_SEARCH); if (config->hw_dPad) { events_set_bit(s, EV_KEY, KEY_DOWN); events_set_bit(s, EV_KEY, KEY_UP); events_set_bit(s, EV_KEY, KEY_LEFT); events_set_bit(s, EV_KEY, KEY_RIGHT); events_set_bit(s, EV_KEY, KEY_CENTER); } if (config->hw_trackBall) { events_set_bit(s, EV_KEY, BTN_MOUSE); } if (config->hw_touchScreen) { events_set_bit(s, EV_KEY, BTN_TOUCH); } if (config->hw_camera) { events_set_bit(s, EV_KEY, KEY_CAMERA); } if (config->hw_keyboard) { /* since we want to implement Unicode reverse-mapping * allow any kind of key, even those not available on * the skin. * * the previous code did set the [1..0x1ff] range, but * we don't want to enable certain bits in the middle * of the range that are registered for mouse/trackball/joystick * events. * * see "linux_keycodes.h" for the list of events codes. */ events_set_bits(s, EV_KEY, 1, 0xff); events_set_bits(s, EV_KEY, 0x160, 0x1ff); } /* configure EV_REL array * * EV_REL events are sent when the trackball is moved */ if (config->hw_trackBall) { events_set_bit (s, EV_SYN, EV_REL ); events_set_bits(s, EV_REL, REL_X, REL_Y); } /* configure EV_ABS array. * * EV_ABS events are sent when the touchscreen is pressed */ if (config->hw_touchScreen) { events_set_bit (s, EV_SYN, EV_ABS ); events_set_bits(s, EV_ABS, ABS_X, ABS_Z); } /* configure EV_SW array * * EW_SW events are sent to indicate that the keyboard lid * was closed or opened (done when we switch layouts through * KP-7 or KP-9). * * We only support this when there is a real keyboard, which * we assume can be hidden/revealed. */ if (config->hw_keyboard) { events_set_bit(s, EV_SYN, EV_SW); events_set_bit(s, EV_SW, 0); } iomemtype = cpu_register_io_memory(events_readfn, events_writefn, s); cpu_register_physical_memory(base, 0xfff, iomemtype); qemu_add_kbd_event_handler(events_put_keycode, s); qemu_add_mouse_event_handler(events_put_mouse, s, 1, "goldfish-events"); qemu_add_generic_event_handler(events_put_generic, s); s->base = base; s->irq = irq; s->first = 0; s->last = 0; register_savevm( "events_state", 0, EVENTS_STATE_SAVE_VERSION, events_state_save, events_state_load, s ); }