rtt-f030/bsp/qemu-vexpress-a9/drivers/drv_keyboard.c

475 lines
13 KiB
C
Raw Normal View History

#include <rthw.h>
#include <rtthread.h>
#include <rtdevice.h>
#include "board.h"
#include "interrupt.h"
#include "drv_keyboard.h"
#define DBG_LEVEL DBG_LOG
// #define DBG_ENABLE
#define DBG_COLOR
#include "rtdbg.h"
#define KEYBOARD_ADDRESS (0x10006000)
#define KEYBOARD_IRQ_NUM (IRQ_VEXPRESS_A9_KBD)
2018-03-03 16:34:01 +08:00
#ifdef PKG_USING_GUIENGINE
#include <rtgui/event.h>
#include <rtgui/rtgui_server.h>
typedef rt_uint32_t virtual_addr_t;
enum{
KEYBOARD_CR = 0x00,
KEYBOARD_STAT = 0x04,
KEYBOARD_DATA = 0x08,
KEYBOARD_CLKDIV = 0x0c,
KEYBOARD_IIR = 0x10,
};
struct keyboard_pl050_pdata_t
{
virtual_addr_t virt;
int irq;
};
enum decode_state {
DECODE_STATE_MAKE_CODE,
DECODE_STATE_BREAK_CODE,
DECODE_STATE_LONG_MAKE_CODE,
DECODE_STATE_LONG_BREAK_CODE
};
struct keymap {
rt_uint8_t data;
rt_uint32_t key;
rt_uint32_t unicode;
char *normal_key;
};
enum key_value_t {
KEY_BUTTON_UP,
KEY_BUTTON_DOWN,
};
enum {
KBD_LEFT_SHIFT = (0x1 << 0),
KBD_RIGHT_SHIFT = (0x1 << 1),
KBD_LEFT_CTRL = (0x1 << 2),
KBD_RIGHT_CTRL = (0x1 << 3),
KBD_CAPS_LOCK = (0x1 << 6),
KBD_NUM_LOCK = (0x1 << 7),
KBD_SCROLL_LOCK = (0x1 << 8),
};
static const struct keymap map[] = {
{0x1c, RTGUIK_a, 0, "a", },
{0x32, RTGUIK_b, 0, "b", },
{0x21, RTGUIK_c, 0, "c", },
{0x23, RTGUIK_d, 0, "d", },
{0x24, RTGUIK_e, 0, "e", },
{0x2b, RTGUIK_f, 0, "f", },
{0x34, RTGUIK_g, 0, "g", },
{0x33, RTGUIK_h, 0, "h", },
{0x43, RTGUIK_i, 0, "i", },
{0x3b, RTGUIK_j, 0, "j", },
{0x42, RTGUIK_k, 0, "k", },
{0x4b, RTGUIK_l, 0, "l", },
{0x3a, RTGUIK_m, 0, "m", },
{0x31, RTGUIK_n, 0, "n", },
{0x44, RTGUIK_o, 0, "o", },
{0x4d, RTGUIK_p, 0, "p", },
{0x15, RTGUIK_q, 0, "q", },
{0x2d, RTGUIK_r, 0, "r", },
{0x1b, RTGUIK_s, 0, "s", },
{0x2c, RTGUIK_k, 0, "k", },
{0x3c, RTGUIK_u, 0, "u", },
{0x2a, RTGUIK_v, 0, "v", },
{0x1d, RTGUIK_w, 0, "w", },
{0x22, RTGUIK_x, 0, "x", },
{0x35, RTGUIK_y, 0, "y", },
{0x1a, RTGUIK_z, 0, "z", },
{0x45, RTGUIK_0, 0, "0", },
{0x16, RTGUIK_1, 0, "1", },
{0x1e, RTGUIK_2, 0, "2", },
{0x26, RTGUIK_3, 0, "3", },
{0x25, RTGUIK_4, 0, "4", },
{0x2e, RTGUIK_5, 0, "5", },
{0x36, RTGUIK_6, 0, "6", },
{0x3d, RTGUIK_7, 0, "7", },
{0x3e, RTGUIK_8, 0, "8", },
{0x46, RTGUIK_9, 0, "9", },
{0x05, RTGUIK_F1, 0, "F1", },
{0x06, RTGUIK_F2, 0, "F2", },
{0x04, RTGUIK_F3, 0, "F3", },
{0x0c, RTGUIK_F4, 0, "F4", },
{0x03, RTGUIK_F5, 0, "F5", },
{0x0b, RTGUIK_F6, 0, "F6", },
{0x83, RTGUIK_F7, 0, "F7", },
{0x0a, RTGUIK_F8, 0, "F8", },
{0x01, RTGUIK_F9, 0, "F9", },
{0x09, RTGUIK_F10, 0, "F10", },
{0x78, RTGUIK_F11, 0, "F11", },
{0x07, RTGUIK_F12, 0, "F12", },
{0x29, RTGUIK_SPACE, 0, "SPACE" },
{0x71, RTGUIK_DELETE, 0, "DELETE" },
{0x52, RTGUIK_QUOTE, 0, "'" },
{0x55, RTGUIK_EQUALS, 0, "=" },
{0x41, RTGUIK_COMMA, 0, "," },
{0x4e, RTGUIK_MINUS, 0, "-" },
// {0x49, RTGUIK_, 0, "." },
{0x4a, RTGUIK_SLASH, 0, "/" },
{0x4c, RTGUIK_SEMICOLON, 0, ";" },
{0x54, RTGUIK_LEFTBRACKET, 0, "[" },
{0x5d, RTGUIK_BACKSLASH, 0, "\\" },
{0x5b, RTGUIK_RIGHTBRACKET, 0, "]"},
{0x75, RTGUIK_UP, 0, "UP" },
{0x72, RTGUIK_DOWN, 0, "DOWN" },
{0x6b, RTGUIK_LEFT, 0, "LEFT" },
{0x74, RTGUIK_RIGHT, 0, "RIGHT" },
{0x0d, RTGUIK_TAB, 0, "TAB" },
{0x76, RTGUIK_ESCAPE, 0, "ESC" },
{0x37, RTGUIK_POWER, 0, "POWER" },
{0x5a, RTGUIK_KP_ENTER, 0, "ENTER"},
{0x66, RTGUIK_BACKSPACE, 0, "BACKSPACE"},
};
rt_inline rt_uint8_t read8(uint32_t addr)
{
return (*((volatile rt_uint8_t *)(addr)));
}
rt_inline void write8(uint32_t addr, rt_uint8_t value)
{
*((volatile rt_uint8_t *)(addr)) = value;
}
rt_inline rt_uint32_t read32(uint32_t addr)
{
return (*((volatile rt_uint32_t *)(addr)));
}
rt_inline void write32(uint32_t addr, rt_uint32_t value)
{
*((volatile rt_uint32_t *)(addr)) = value;
}
rt_inline int kmi_write(struct keyboard_pl050_pdata_t * pdat, rt_uint8_t value)
{
int timeout = 1000;
while((read8(pdat->virt + KEYBOARD_STAT) & (1 << 6)) == 0 && timeout--);
if(timeout)
{
write8(pdat->virt + KEYBOARD_DATA, value);
while((read8(pdat->virt + KEYBOARD_STAT) & (1 << 4)) == 0);
if(read8(pdat->virt + KEYBOARD_DATA) == 0xfa)
return RT_TRUE;
}
return RT_FALSE;
}
rt_inline int kmi_read(struct keyboard_pl050_pdata_t * pdat, rt_uint8_t * value)
{
if((read8(pdat->virt + KEYBOARD_STAT) & (1 << 4)))
{
*value = read8(pdat->virt + KEYBOARD_DATA);
return RT_TRUE;
}
return RT_FALSE;
}
static void keyboard_report_event(void * device, rt_uint32_t flag, rt_uint8_t data, enum key_value_t press)
{
struct rtgui_event_kbd key_event;
rt_uint16_t i = 0, mod = 0, find_key = 0;
for(i = 0; i < sizeof(map)/sizeof(map[0]); i++)
{
if (map[i].data == data)
{
dbg_log(DBG_LOG,"KEY info:\n");
if (flag & KBD_CAPS_LOCK)
{
dbg_log(DBG_LOG,"CAPS:LOCK\n");
}
else
{
dbg_log(DBG_LOG,"CAPS:UNLOCK\n");
}
if (flag & KBD_LEFT_SHIFT)
{
mod |= RTGUI_KMOD_LSHIFT;
dbg_log(DBG_LOG,"SHIFT:LEFT\n");
}
else if (flag & KBD_RIGHT_SHIFT)
{
mod |= RTGUI_KMOD_RSHIFT;
dbg_log(DBG_LOG,"SHIFT:RIGHT\n");
}
else
{
dbg_log(DBG_LOG,"SHIFT:NULL\n");
}
if (flag & KBD_LEFT_CTRL)
{
mod |= RTGUI_KMOD_LCTRL;
dbg_log(DBG_LOG,"CTRL:LEFT\n");
}
else if (flag & KBD_RIGHT_CTRL)
{
mod |= RTGUI_KMOD_RCTRL;
dbg_log(DBG_LOG,"CTRL:RIGHT\n");
}
else
{
dbg_log(DBG_LOG,"CTRL:NULL\n");
}
dbg_log(DBG_LOG,"flag:0x%08x value:0x%x key:%s status:%s\n", \
flag, data, map[i].normal_key, press ==0 ? "UP" : "DOWN");
find_key = 1;
break;
}
}
if (find_key == 0)
{
dbg_log(DBG_LOG,"flag:0x%08x value:0x%x key:%s status:%s\n", \
flag, data, "UNKNOWN", press ==0 ? "UP" : "DOWN");
return;
}
key_event.parent.sender = RT_NULL;
key_event.parent.type = RTGUI_EVENT_KBD;
key_event.type = (press == 0 ? RTGUI_KEYUP : RTGUI_KEYDOWN);
key_event.key = map[i].key;
key_event.mod = mod;
key_event.unicode = map[i].unicode;
rtgui_server_post_event(&key_event.parent, sizeof(key_event));
}
static void keyboard_pl050_interrupt(int irq, void *data)
{
struct keyboard_pl050_pdata_t * pdat = (struct keyboard_pl050_pdata_t *)data;
static enum decode_state ds = DECODE_STATE_MAKE_CODE;
static rt_uint32_t kbd_flag = KBD_NUM_LOCK;
rt_uint8_t status, value;
status = read8(pdat->virt + KEYBOARD_IIR);
while(status & (1 << 0))
{
value = read8(pdat->virt + KEYBOARD_DATA);
switch(ds)
{
case DECODE_STATE_MAKE_CODE:
/* break code */
if(value == 0xf0)
{
ds = DECODE_STATE_BREAK_CODE;
}
/* long make code */
else if(value == 0xe0)
{
ds = DECODE_STATE_LONG_MAKE_CODE;
}
else
{
ds = DECODE_STATE_MAKE_CODE;
/* left shift */
if(value == 0x12)
{
kbd_flag |= KBD_LEFT_SHIFT;
}
/* right shift */
else if(value == 0x59)
{
kbd_flag |= KBD_RIGHT_SHIFT;
}
/* left ctrl */
else if(value == 0x14)
{
kbd_flag |= KBD_LEFT_CTRL;
}
/* caps lock */
else if(value == 0x58)
{
if(kbd_flag & KBD_CAPS_LOCK)
kbd_flag &= ~KBD_CAPS_LOCK;
else
kbd_flag |= KBD_CAPS_LOCK;
}
/* scroll lock */
else if(value == 0x7e)
{
if(kbd_flag & KBD_SCROLL_LOCK)
kbd_flag &= ~KBD_SCROLL_LOCK;
else
kbd_flag |= KBD_SCROLL_LOCK;
}
/* num lock */
else if(value == 0x77)
{
if(kbd_flag & KBD_NUM_LOCK)
kbd_flag &= ~KBD_NUM_LOCK;
else
kbd_flag |= KBD_NUM_LOCK;
}
/* others */
else
{
keyboard_report_event(data, kbd_flag, value, KEY_BUTTON_DOWN);
}
}
break;
case DECODE_STATE_BREAK_CODE:
if( (value != 0xf0) && (value != 0xe0))
{
ds = DECODE_STATE_MAKE_CODE;
/* left shift */
if(value == 0x12)
{
kbd_flag &= ~KBD_LEFT_SHIFT;
}
/* right shift */
else if(value == 0x59)
{
kbd_flag &= ~KBD_RIGHT_SHIFT;
}
/* left ctrl */
else if(value == 0x14)
{
kbd_flag &= ~KBD_LEFT_CTRL;
}
/* others */
else
{
keyboard_report_event(data, kbd_flag, value, KEY_BUTTON_UP);
}
}
else
{
ds = DECODE_STATE_BREAK_CODE;
}
break;
case DECODE_STATE_LONG_MAKE_CODE:
if( value != 0xf0 && value!= 0xe0)
{
ds = DECODE_STATE_MAKE_CODE;
/* left ctrl */
if(value == 0x14)
{
kbd_flag |= KBD_RIGHT_CTRL;
}
/* others */
else
{
keyboard_report_event(data, kbd_flag, value, KEY_BUTTON_DOWN);
}
}
else
{
ds = DECODE_STATE_LONG_BREAK_CODE;
}
break;
case DECODE_STATE_LONG_BREAK_CODE:
if( (value != 0xf0) && (value != 0xe0))
{
ds = DECODE_STATE_MAKE_CODE;
/* left ctrl */
if(value == 0x14)
{
kbd_flag &= ~KBD_RIGHT_CTRL;
}
/* others */
else
{
keyboard_report_event(data, kbd_flag, value, KEY_BUTTON_UP);
}
}
else
{
ds = DECODE_STATE_LONG_BREAK_CODE;
}
break;
default:
ds = DECODE_STATE_MAKE_CODE;
break;
}
status = read8(pdat->virt + KEYBOARD_IIR);
}
}
int rt_hw_keyboard_init(void)
{
rt_uint8_t value;
rt_uint32_t id;
struct keyboard_pl050_pdata_t *pdat;
virtual_addr_t virt = (virtual_addr_t)KEYBOARD_ADDRESS;
int irq = KEYBOARD_IRQ_NUM;
id = (((read32(virt + 0xfec) & 0xff) << 24) |
((read32(virt + 0xfe8) & 0xff) << 16) |
((read32(virt + 0xfe4) & 0xff) << 8) |
((read32(virt + 0xfe0) & 0xff) << 0));
if(((id >> 12) & 0xff) != 0x41 || (id & 0xfff) != 0x050)
{
dbg_log(DBG_ERROR, "read id fail id:0x%08x\n", id);
return RT_ERROR;
}
pdat = rt_malloc(sizeof(struct keyboard_pl050_pdata_t));
if(!pdat)
{
dbg_log(DBG_ERROR, "malloc memory\n", id);
return RT_ERROR;
}
rt_memset(pdat, 0, sizeof(struct keyboard_pl050_pdata_t));
pdat->virt = virt;
pdat->irq = irq;
write8(pdat->virt + KEYBOARD_CLKDIV, 0);
write8(pdat->virt + KEYBOARD_CR, (1 << 2));
kmi_read(pdat, &value);
kmi_write(pdat, 0xff);
kmi_read(pdat, &value);
kmi_write(pdat, 0xf3);
kmi_write(pdat, 0x2b);
kmi_write(pdat, 0xf0);
kmi_write(pdat, 0x02);
kmi_write(pdat, 0xfa);
kmi_write(pdat, 0xed);
kmi_write(pdat, 0x02);
write8(pdat->virt + KEYBOARD_CR, (1 << 2) | (1 << 4));
rt_hw_interrupt_install(irq, keyboard_pl050_interrupt, (void *)pdat, "keyboard");
rt_hw_interrupt_umask(irq);
return RT_EOK;
}
INIT_DEVICE_EXPORT(rt_hw_keyboard_init);
#endif