rockbox/firmware/target/arm/imx233/sansa-fuzeplus/button-fuzeplus.c
Amaury Pouly b1702a569a fuze+: pin B1P30 is volume down key and has no relation with SD
Change-Id: Iee93e90d3054442ae873c55c05c030ed690ccbd6
2012-02-01 15:02:22 +01:00

379 lines
13 KiB
C

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2011 by Amaury Pouly
*
* 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "button-target.h"
#include "system.h"
#include "system-target.h"
#include "pinctrl-imx233.h"
#include "generic_i2c.h"
#include "synaptics-rmi.h"
#include "lcd.h"
#include "string.h"
#include "usb.h"
#include "power-imx233.h"
#ifndef BOOTLOADER
bool button_debug_screen(void)
{
char product_id[RMI_PRODUCT_ID_LEN];
rmi_read(RMI_PRODUCT_ID, RMI_PRODUCT_ID_LEN, product_id);
int x_max = rmi_read_single(RMI_2D_SENSOR_XMAX_MSB(0)) << 8 | rmi_read_single(RMI_2D_SENSOR_XMAX_LSB(0));
int y_max = rmi_read_single(RMI_2D_SENSOR_YMAX_MSB(0)) << 8 | rmi_read_single(RMI_2D_SENSOR_YMAX_LSB(0));
int func_presence = rmi_read_single(RMI_FUNCTION_PRESENCE(RMI_2D_TOUCHPAD_FUNCTION));
int sensor_prop = rmi_read_single(RMI_2D_SENSOR_PROP2(0));
int sensor_resol = rmi_read_single(RMI_2D_SENSOR_RESOLUTION(0));
int min_dist = rmi_read_single(RMI_2D_MIN_DIST);
int gesture_settings = rmi_read_single(RMI_2D_GESTURE_SETTINGS);
int sensibility_counter = 0;
union
{
unsigned char data;
signed char value;
}sensitivity;
rmi_read(RMI_2D_SENSITIVITY_ADJ, 1, &sensitivity.data);
/* Device to screen */
int zone_w = LCD_WIDTH;
int zone_h = (zone_w * y_max + x_max - 1) / x_max;
int zone_x = 0;
int zone_y = LCD_HEIGHT - zone_h;
#define DX2SX(x) (((x) * zone_w ) / x_max)
#define DY2SY(y) (zone_h - ((y) * zone_h ) / y_max)
struct viewport report_vp;
memset(&report_vp, 0, sizeof(report_vp));
report_vp.x = zone_x;
report_vp.y = zone_y;
report_vp.width = zone_w;
report_vp.height = zone_h;
struct viewport gesture_vp;
memset(&gesture_vp, 0, sizeof(gesture_vp));
gesture_vp.x = LCD_WIDTH / 2;
gesture_vp.y = zone_y - 80;
gesture_vp.width = LCD_WIDTH / 2;
gesture_vp.height = 80;
while(1)
{
lcd_set_viewport(NULL);
lcd_clear_display();
int btns = button_read_device();
lcd_putsf(0, 0, "button bitmap: %x", btns);
lcd_putsf(0, 1, "RMI: id=%s p=%x s=%x", product_id, func_presence, sensor_prop);
lcd_putsf(0, 2, "xmax=%d ymax=%d res=%d", x_max, y_max, sensor_resol);
lcd_putsf(0, 3, "attn=%d ctl=%x int=%x",
imx233_get_gpio_input_mask(0, 0x08000000) ? 0 : 1,
rmi_read_single(RMI_DEVICE_CONTROL),
rmi_read_single(RMI_INTERRUPT_REQUEST));
lcd_putsf(0, 4, "sensi: %d min_dist: %d", (int)sensitivity.value, min_dist);
lcd_putsf(0, 5, "gesture: %x", gesture_settings);
union
{
unsigned char data[10];
struct
{
struct rmi_2d_absolute_data_t absolute;
struct rmi_2d_relative_data_t relative;
struct rmi_2d_gesture_data_t gesture;
}s;
}u;
int absolute_x = u.s.absolute.x_msb << 8 | u.s.absolute.x_lsb;
int absolute_y = u.s.absolute.y_msb << 8 | u.s.absolute.y_lsb;
int nr_fingers = u.s.absolute.misc & 7;
bool gesture = (u.s.absolute.misc & 8) == 8;
int palm_width = u.s.absolute.misc >> 4;
rmi_read(RMI_DATA_REGISTER(0), 10, u.data);
lcd_putsf(0, 6, "abs: %d %d %d", absolute_x, absolute_y, (int)u.s.absolute.z);
lcd_putsf(0, 7, "rel: %d %d", (int)u.s.relative.x, (int)u.s.relative.y);
lcd_putsf(0, 8, "gesture: %x %x", u.s.gesture.misc, u.s.gesture.flick);
lcd_putsf(0, 9, "misc: w=%d g=%d f=%d", palm_width, gesture, nr_fingers);
lcd_set_viewport(&report_vp);
lcd_set_drawinfo(DRMODE_SOLID, LCD_RGBPACK(0xff, 0, 0), LCD_BLACK);
lcd_drawrect(0, 0, zone_w, zone_h);
if(nr_fingers == 1)
{
lcd_set_drawinfo(DRMODE_SOLID, LCD_RGBPACK(0, 0, 0xff), LCD_BLACK);
lcd_drawline(DX2SX(absolute_x) - u.s.relative.x,
DY2SY(absolute_y) + u.s.relative.y,
DX2SX(absolute_x), DY2SY(absolute_y));
lcd_set_drawinfo(DRMODE_SOLID, LCD_RGBPACK(0, 0xff, 0), LCD_BLACK);
lcd_fillrect(DX2SX(absolute_x) - 1, DY2SY(absolute_y) - 1, 3, 3);
}
lcd_set_viewport(&gesture_vp);
lcd_set_drawinfo(DRMODE_SOLID, LCD_RGBPACK(0xff, 0xff, 0), LCD_BLACK);
if(u.s.gesture.misc & RMI_2D_GEST_MISC_CONFIRMED)
{
switch(u.s.gesture.misc & RMI_2D_GEST_MISC_TAP_CODE_BM)
{
case RMI_2D_GEST_MISC_NO_TAP: break;
case RMI_2D_GEST_MISC_SINGLE_TAP:
lcd_putsf(0, 0, "TAP!");
break;
case RMI_2D_GEST_MISC_DOUBLE_TAP:
lcd_putsf(0, 0, "DOUBLE TAP!");
break;
case RMI_2D_GEST_MISC_TAP_AND_HOLD:
lcd_putsf(0, 0, "TAP & HOLD!");
break;
default: break;
}
if(u.s.gesture.misc & RMI_2D_GEST_MISC_FLICK)
{
lcd_putsf(0, 1, "FLICK!");
int flick_x = u.s.gesture.flick & RMI_2D_GEST_FLICK_X_BM;
int flick_y = (u.s.gesture.flick & RMI_2D_GEST_FLICK_Y_BM) >> RMI_2D_GEST_FLICK_Y_BP;
#define SIGN4EXT(a) \
if(a & 8) a = -((a ^ 0xf) + 1);
SIGN4EXT(flick_x);
SIGN4EXT(flick_y);
int center_x = (LCD_WIDTH * 2) / 3;
int center_y = 40;
lcd_drawline(center_x, center_y, center_x + flick_x * 5, center_y - flick_y * 5);
}
}
lcd_update();
if(btns & BUTTON_POWER)
break;
if(btns & BUTTON_VOL_DOWN || btns & BUTTON_VOL_UP)
{
if(btns & BUTTON_VOL_UP)
sensibility_counter++;
if(btns & BUTTON_VOL_DOWN)
sensibility_counter--;
if((sensibility_counter == -15) || (sensibility_counter == 15))
{
sensitivity.value += (sensibility_counter / 15);
sensibility_counter = 0;
}
rmi_write(RMI_2D_SENSITIVITY_ADJ, 1, &sensitivity.data);
}
yield();
}
return true;
}
struct button_area_t
{
/* define a rectangle region */
int lx, ly;
int rx, ry;
int button;
};
static struct button_area_t button_areas[] =
{
{1003, 658, 2006, 1316, BUTTON_SELECT},
{0, 658, 1003, 1316, BUTTON_LEFT},
{2006, 658, 3009, 1316, BUTTON_RIGHT},
{1003, 0 , 2006, 658, BUTTON_DOWN},
{1003, 1316, 2006, 1974, BUTTON_UP},
{2006, 1316, 3009, 1974, BUTTON_PLAYPAUSE},
{0, 1316, 1003, 1974, BUTTON_BACK},
{0, 0 , 1003, 658, BUTTON_BOTTOMLEFT},
{2006, 0 , 3009, 658, BUTTON_BOTTOMRIGHT},
{0, 0, 0, 0, 0},
};
#define RMI_INTERRUPT 1
static int touchpad_btns = 0;
static long rmi_stack [DEFAULT_STACK_SIZE/sizeof(long)];
static const char rmi_thread_name[] = "rmi";
static struct event_queue rmi_queue;
static int find_button(int x, int y)
{
struct button_area_t *area = button_areas;
for(; area->button != 0; area++)
{
if(area->lx <= x && x <= area->rx &&
area->ly <= y && y <= area->ry)
return area->button;
}
return 0;
}
static int touchpad_read_device(void)
{
return touchpad_btns;
}
static void rmi_attn_cb(int bank, int pin)
{
(void) bank;
(void) pin;
/* the callback will not be fired until interrupt is enabled back so
* the queue will not overflow or contain multiple RMI_INTERRUPT events */
queue_post(&rmi_queue, RMI_INTERRUPT, 0);
}
static void rmi_thread(void)
{
struct queue_event ev;
while(1)
{
queue_wait(&rmi_queue, &ev);
/* handle usb connect and ignore all messages except rmi interrupts */
if(ev.id == SYS_USB_CONNECTED)
{
usb_acknowledge(SYS_USB_CONNECTED_ACK);
continue;
}
else if(ev.id != RMI_INTERRUPT)
continue;
/* clear interrupt */
rmi_read_single(RMI_INTERRUPT_REQUEST);
/* read data */
union
{
unsigned char data[10];
struct
{
struct rmi_2d_absolute_data_t absolute;
struct rmi_2d_relative_data_t relative;
struct rmi_2d_gesture_data_t gesture;
}s;
}u;
rmi_read(RMI_DATA_REGISTER(0), 10, u.data);
int absolute_x = u.s.absolute.x_msb << 8 | u.s.absolute.x_lsb;
int absolute_y = u.s.absolute.y_msb << 8 | u.s.absolute.y_lsb;
int nr_fingers = u.s.absolute.misc & 7;
if(nr_fingers == 1)
touchpad_btns = find_button(absolute_x, absolute_y);
else
touchpad_btns = 0;
/* enable interrupt */
imx233_setup_pin_irq(0, 27, true, true, false, &rmi_attn_cb);
}
}
void button_init_device(void)
{
/* Synaptics TouchPad information:
* - product id: 1533
* - nr function: 1 (0x10 = 2D touchpad)
* 2D Touchpad information (function 0x10)
* - nr data sources: 3
* - standard layout
* - extra data registers: 7
* - nr sensors: 1
* 2D Touchpad Sensor #0 information:
* - has relative data: yes
* - has palm detect: yes
* - has multi finger: yes
* - has enhanced gesture: yes
* - has scroller: no
* - has 2D scrollers: no
* - Maximum X: 3009
* - Maxumum Y: 1974
* - Resolution: 82
*
* ATTENTION line: B0P27 asserted low
*
* The B0P26 line seems to be related to the touchpad
*/
/* touchpad CE ? */
imx233_set_pin_function(0, 26, PINCTRL_FUNCTION_GPIO);
imx233_enable_gpio_output(0, 26, false);
imx233_set_pin_drive_strength(0, 26, PINCTRL_DRIVE_8mA);
rmi_init(0x40);
char product_id[RMI_PRODUCT_ID_LEN];
rmi_read(RMI_PRODUCT_ID, RMI_PRODUCT_ID_LEN, product_id);
/* The OF adjust the sensitivity based on product_id[1] compared to 2.
* Since it doesn't to work great, just hardcode the sensitivity to
* some reasonable value for now. */
rmi_write_single(RMI_2D_SENSITIVITY_ADJ, 13);
rmi_write_single(RMI_2D_GESTURE_SETTINGS,
RMI_2D_GESTURE_PRESS_TIME_300MS |
RMI_2D_GESTURE_FLICK_DIST_4MM << RMI_2D_GESTURE_FLICK_DIST_BP |
RMI_2D_GESTURE_FLICK_TIME_700MS << RMI_2D_GESTURE_FLICK_TIME_BP);
queue_init(&rmi_queue, true);
create_thread(rmi_thread, rmi_stack, sizeof(rmi_stack), 0,
rmi_thread_name IF_PRIO(, PRIORITY_USER_INTERFACE) IF_COP(, CPU));
/* enable interrupt */
imx233_set_pin_function(0, 27, PINCTRL_FUNCTION_GPIO);
imx233_enable_gpio_output(0, 27, false);
imx233_setup_pin_irq(0, 27, true, true, false, &rmi_attn_cb);
/* Volume down */
imx233_set_pin_function(1, 30, PINCTRL_FUNCTION_GPIO);
imx233_enable_gpio_output(1, 30, false);
}
#else
void button_init_device(void)
{
}
int touchpad_read_device(void)
{
return 0;
}
#endif
int button_read_device(void)
{
int res = 0;
if(!imx233_get_gpio_input_mask(1, 0x40000000))
res |= BUTTON_VOL_DOWN;
/* The imx233 uses the voltage on the PSWITCH pin to detect power up/down
* events as well as recovery mode. Since the power button is the power button
* and the volume up button is recovery, it is not possible to know whether
* power button is down when volume up is down (except if there is another
* method but volume up and power don't seem to be wired to GPIO pins).
* As a probable consequence of that, it has been reported that pressing
* volume up sometimes return BUTTON_POWER instead of BUTTON_VOL_UP. The
* following volume_power_lock prevent BUTTON_POWER to happen if volume up
* has been send since a very short time. */
static int volume_power_lock = 0;
if(volume_power_lock > 0)
volume_power_lock--;
switch(__XTRACT(HW_POWER_STS, PSWITCH))
{
case 1:
if(volume_power_lock == 0)
res |= BUTTON_POWER;
break;
case 3:
res |= BUTTON_VOL_UP;
volume_power_lock = 5;
break;
default:
break;
}
return res | touchpad_read_device();
}