/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by Daniel Stenberg * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ /* * Rockbox button functions */ #include #include "config.h" #include "cpu.h" #include "system.h" #include "button.h" #include "kernel.h" #include "backlight.h" #include "adc.h" #include "serial.h" #include "power.h" #include "system.h" #include "powermgmt.h" struct event_queue button_queue; static long lastbtn; /* Last valid button status */ static long last_read; /* Last button status, for debouncing/filtering */ #ifdef HAVE_LCD_BITMAP static bool flipped; /* buttons can be flipped to match the LCD flip */ #endif /* how often we check to see if a button is pressed */ #define POLL_FREQUENCY HZ/100 /* how long until repeat kicks in */ #define REPEAT_START 30 /* the speed repeat starts at */ #define REPEAT_INTERVAL_START 16 /* speed repeat finishes at */ #define REPEAT_INTERVAL_FINISH 5 /* Number of repeated keys before shutting off */ #define POWEROFF_COUNT 10 static int button_read(void); static void button_tick(void) { static int tick = 0; static int count = 0; static int repeat_speed = REPEAT_INTERVAL_START; static int repeat_count = 0; static bool repeat = false; int diff; int btn; #if !defined(HAVE_MMC) && (CONFIG_KEYPAD != IRIVER_H100_PAD) \ && (CONFIG_KEYPAD != GMINI100_PAD) /* Post events for the remote control */ btn = remote_control_rx(); if(btn) { queue_post(&button_queue, btn, NULL); } #endif /* only poll every X ticks */ if ( ++tick >= POLL_FREQUENCY ) { bool post = false; btn = button_read(); /* Find out if a key has been released */ diff = btn ^ lastbtn; if(diff && (btn & diff) == 0) { queue_post(&button_queue, BUTTON_REL | diff, NULL); } else { if ( btn ) { /* normal keypress */ if ( btn != lastbtn ) { post = true; repeat = false; repeat_speed = REPEAT_INTERVAL_START; } else /* repeat? */ { if ( repeat ) { count--; if (count == 0) { post = true; /* yes we have repeat */ repeat_speed--; if (repeat_speed < REPEAT_INTERVAL_FINISH) repeat_speed = REPEAT_INTERVAL_FINISH; count = repeat_speed; repeat_count++; /* Send a SYS_POWEROFF event if we have a device which doesn't shut down easily with the OFF key */ #ifdef HAVE_SW_POWEROFF if (btn == BUTTON_OFF && #ifndef IRIVER_H100 !charger_inserted() && #endif repeat_count > POWEROFF_COUNT) queue_post(&button_queue, SYS_POWEROFF, NULL); #endif } } else { if (count++ > REPEAT_START) { post = true; repeat = true; repeat_count = 0; /* initial repeat */ count = REPEAT_INTERVAL_START; } } } if ( post ) { if (repeat) queue_post(&button_queue, BUTTON_REPEAT | btn, NULL); else queue_post(&button_queue, btn, NULL); #ifdef HAVE_REMOTE_LCD if(btn & BUTTON_REMOTE) remote_backlight_on(); else #endif backlight_on(); reset_poweroff_timer(); } } else { repeat = false; count = 0; } } lastbtn = btn & ~(BUTTON_REL | BUTTON_REPEAT); tick = 0; } backlight_tick(); } long button_get(bool block) { struct event ev; if ( block || !queue_empty(&button_queue) ) { queue_wait(&button_queue, &ev); return ev.id; } return BUTTON_NONE; } long button_get_w_tmo(int ticks) { struct event ev; queue_wait_w_tmo(&button_queue, &ev, ticks); return (ev.id != SYS_TIMEOUT)? ev.id: BUTTON_NONE; } void button_init(void) { /* hardware inits */ #if CONFIG_KEYPAD == IRIVER_H100_PAD /* Set GPIO33, GPIO37, GPIO38 and GPIO52 as general purpose inputs */ GPIO1_FUNCTION |= 0x00100062; GPIO1_ENABLE &= ~0x00100062; #elif CONFIG_KEYPAD == RECORDER_PAD /* Set PB4 and PB8 as input pins */ PBCR1 &= 0xfffc; /* PB8MD = 00 */ PBCR2 &= 0xfcff; /* PB4MD = 00 */ PBIOR &= ~0x0110; /* Inputs */ #elif CONFIG_KEYPAD == PLAYER_PAD /* set PA5 and PA11 as input pins */ PACR1 &= 0xff3f; /* PA11MD = 00 */ PACR2 &= 0xfbff; /* PA5MD = 0 */ PAIOR &= ~0x0820; /* Inputs */ #elif CONFIG_KEYPAD == ONDIO_PAD /* nothing to initialize here */ #elif CONFIG_KEYPAD == GMINI100_PAD /* nothing to initialize here */ #endif /* CONFIG_KEYPAD */ queue_init(&button_queue); lastbtn = 0; tick_add_task(button_tick); reset_poweroff_timer(); #ifdef HAVE_LCD_BITMAP flipped = false; #endif } #ifdef HAVE_LCD_BITMAP /* only bitmap displays can be flipped */ /* * helper function to swap UP/DOWN, LEFT/RIGHT (and F1/F3 for Recorder) */ static int button_flip(int button) { int newbutton; newbutton = button & ~(BUTTON_UP | BUTTON_DOWN | BUTTON_LEFT | BUTTON_RIGHT #if CONFIG_KEYPAD == RECORDER_PAD | BUTTON_F1 | BUTTON_F3 #endif ); if (button & BUTTON_UP) newbutton |= BUTTON_DOWN; if (button & BUTTON_DOWN) newbutton |= BUTTON_UP; if (button & BUTTON_LEFT) newbutton |= BUTTON_RIGHT; if (button & BUTTON_RIGHT) newbutton |= BUTTON_LEFT; #if CONFIG_KEYPAD == RECORDER_PAD if (button & BUTTON_F1) newbutton |= BUTTON_F3; if (button & BUTTON_F3) newbutton |= BUTTON_F1; #endif return newbutton; } /* * set the flip attribute * better only call this when the queue is empty */ void button_set_flip(bool flip) { if (flip != flipped) /* not the current setting */ { /* avoid race condition with the button_tick() */ int oldlevel = set_irq_level(HIGHEST_IRQ_LEVEL); lastbtn = button_flip(lastbtn); flipped = flip; set_irq_level(oldlevel); } } #endif /* HAVE_LCD_BITMAP */ /* Archos hardware button hookup ============================= Recorder / Recorder FM/V2 ------------------------- F1, F2, F3, UP: connected to AN4 through a resistor network DOWN, PLAY, LEFT, RIGHT: likewise connected to AN5 The voltage on AN4/ AN5 depends on which keys (or key combo) is pressed FM/V2 has PLAY and RIGHT switched compared to plain recorder ON: PB8, low active (plain recorder) / AN3, low active (fm/v2) OFF: PB4, low active (plain recorder) / AN2, high active (fm/v2) Player ------ LEFT: AN0 MENU: AN1 RIGHT: AN2 PLAY: AN3 STOP: PA11 ON: PA5 All buttons are low active Ondio ----- LEFT, RIGHT, UP, DOWN: connected to AN4 through a resistor network The voltage on AN4 depends on which keys (or key combo) is pressed OPTION: AN2, high active (assigned as MENU) ON/OFF: AN3, low active (assigned as OFF) */ #if CONFIG_KEYPAD == RECORDER_PAD #ifdef HAVE_FMADC /* FM Recorder super-special levels */ #define LEVEL1 150 #define LEVEL2 385 #define LEVEL3 545 #define LEVEL4 700 #define ROW2_BUTTON1 BUTTON_PLAY #define ROW2_BUTTON3 BUTTON_RIGHT #else /* plain bog standard Recorder levels */ #define LEVEL1 250 #define LEVEL2 500 #define LEVEL3 700 #define LEVEL4 900 #define ROW2_BUTTON1 BUTTON_RIGHT #define ROW2_BUTTON3 BUTTON_PLAY #endif /* HAVE_FMADC */ #elif CONFIG_KEYPAD == ONDIO_PAD /* Ondio levels */ #define LEVEL1 165 #define LEVEL2 415 #define LEVEL3 585 #define LEVEL4 755 #endif /* CONFIG_KEYPAD */ /* * Get button pressed from hardware */ static int button_read(void) { int btn = BUTTON_NONE; int retval; int data; #if CONFIG_KEYPAD == IRIVER_H100_PAD static bool hold_button = false; static bool remote_hold_button = false; /* light handling */ if (hold_button && !button_hold()) { backlight_on(); } if (remote_hold_button && !remote_button_hold()) { remote_backlight_on(); } hold_button = button_hold(); remote_hold_button = remote_button_hold(); /* normal buttons */ if (!button_hold()) { data = adc_scan(ADC_BUTTONS); if (data < 0x80) if (data < 0x30) if (data < 0x18) btn = BUTTON_SELECT; else btn = BUTTON_UP; else if (data < 0x50) btn = BUTTON_LEFT; else btn = BUTTON_DOWN; else if (data < 0xb0) if (data < 0xa0) btn = BUTTON_RIGHT; else btn = BUTTON_OFF; else if (data < 0xd0) btn = BUTTON_MODE; else if (data < 0xf0) btn = BUTTON_REC; } /* remote buttons */ if (!remote_button_hold()) { data = adc_scan(ADC_REMOTE); if (data < 0x74) if (data < 0x40) if (data < 0x20) if(data < 0x10) btn = BUTTON_RC_STOP; else btn = BUTTON_RC_VOL_DOWN; else btn = BUTTON_RC_VOL; else if (data < 0x58) btn = BUTTON_RC_VOL_UP; else btn = BUTTON_RC_BITRATE; else if (data < 0xb0) if (data < 0x88) btn = BUTTON_RC_REC; else btn = BUTTON_RC_SOURCE; else if (data < 0xd8) if(data < 0xc0) btn = BUTTON_RC_FF; else btn = BUTTON_RC_MENU; else if (data < 0xf0) btn = BUTTON_RC_REW; } /* special buttons */ data = GPIO1_READ; if (!button_hold() && (data & (0x20 == 0))) btn |= BUTTON_ON; if (!remote_button_hold() && (data & (0x40 == 0))) btn |= BUTTON_RC_ON; #elif CONFIG_KEYPAD == RECORDER_PAD #ifdef HAVE_FMADC if ( adc_read(ADC_BUTTON_ON) < 512 ) btn |= BUTTON_ON; if ( adc_read(ADC_BUTTON_OFF) > 512 ) btn |= BUTTON_OFF; #else /* check port B pins for ON and OFF */ data = PBDR; if ((data & 0x0100) == 0) btn |= BUTTON_ON; if ((data & 0x0010) == 0) btn |= BUTTON_OFF; #endif /* check F1..F3 and UP */ data = adc_read(ADC_BUTTON_ROW1); if (data >= LEVEL4) btn |= BUTTON_F3; else if (data >= LEVEL3) btn |= BUTTON_UP; else if (data >= LEVEL2) btn |= BUTTON_F2; else if (data >= LEVEL1) btn |= BUTTON_F1; /* Some units have mushy keypads, so pressing UP also activates the Left/Right buttons. Let's combat that by skipping the AN5 checks when UP is pressed. */ if(!(btn & BUTTON_UP)) { /* check DOWN, PLAY, LEFT, RIGHT */ data = adc_read(ADC_BUTTON_ROW2); if (data >= LEVEL4) btn |= BUTTON_DOWN; else if (data >= LEVEL3) btn |= ROW2_BUTTON3; else if (data >= LEVEL2) btn |= BUTTON_LEFT; else if (data >= LEVEL1) btn |= ROW2_BUTTON1; } #elif CONFIG_KEYPAD == PLAYER_PAD /* buttons are active low */ if (adc_read(0) < 0x180) btn |= BUTTON_LEFT; if (adc_read(1) < 0x180) btn |= BUTTON_MENU; if(adc_read(2) < 0x180) btn |= BUTTON_RIGHT; if(adc_read(3) < 0x180) btn |= BUTTON_PLAY; /* check port A pins for ON and STOP */ data = PADR; if ( !(data & 0x0020) ) btn |= BUTTON_ON; if ( !(data & 0x0800) ) btn |= BUTTON_STOP; #elif CONFIG_KEYPAD == ONDIO_PAD if(adc_read(ADC_BUTTON_OPTION) > 0x200) /* active high */ btn |= BUTTON_MENU; if(adc_read(ADC_BUTTON_ONOFF) < 0x120) /* active low */ btn |= BUTTON_OFF; /* Check the 4 direction keys */ data = adc_read(ADC_BUTTON_ROW1); if (data >= LEVEL4) btn |= BUTTON_LEFT; else if (data >= LEVEL3) btn |= BUTTON_RIGHT; else if (data >= LEVEL2) btn |= BUTTON_UP; else if (data >= LEVEL1) btn |= BUTTON_DOWN; #elif CONFIG_KEYPAD == GMINI100_PAD if (adc_read(7) < 0xE3) btn |= BUTTON_LEFT; else if (adc_read(7) < 0x1c5) btn |= BUTTON_DOWN; else if (adc_read(7) < 0x2a2) btn |= BUTTON_RIGHT; else if (adc_read(7) < 0x38a) btn |= BUTTON_UP; if (adc_read(6) < 0x233) btn |= BUTTON_OFF; else if (adc_read(6) < 0x288) btn |= BUTTON_PLAY; else if (adc_read(6) < 0x355) btn |= BUTTON_MENU; data = P7; if (data & 0x01) btn |= BUTTON_ON; #endif /* CONFIG_KEYPAD */ #ifdef HAVE_LCD_BITMAP if (btn && flipped) btn = button_flip(btn); /* swap upside down */ #endif /* Filter the button status. It is only accepted if we get the same status twice in a row. */ if (btn != last_read) retval = lastbtn; else retval = btn; last_read = btn; return retval; } #if CONFIG_KEYPAD == IRIVER_H100_PAD bool button_hold(void) { return (GPIO1_READ & 0x00000002)?true:false; } bool remote_button_hold(void) { return (GPIO1_READ & 0x00100000)?true:false; } #endif int button_status(void) { return lastbtn; } void button_clear_queue(void) { queue_clear(&button_queue); }