input: keyboard: refactoring brain-kbd-i2c
* reduce keymap loops * change magic numbers to macro constants * key handling function was subdivided
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5e99d0a5b0
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@ -22,12 +22,16 @@
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#define BK_CMD_KEYCODE 0x04
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#define BK_KEY(val) ((val) & 0x3f)
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#define BK_IS_PRESSED(val) ((~val & 0x40) >> 6)
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#define BK_IS_SWITCH(val) (((val)&0x80) != 0)
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#define BK_SW_CODE(val) (((val) >> 1) & 0x1F)
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#define BK_SWITCH_ON(val) (((val)&1) == 0)
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#define BK_KEYCODE_MAX (64)
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#define BK_N_ROLL_MAX (3)
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enum { BK_SW_LCD_TRANSFORMING_TO_TABLET = 3,
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BK_SW_UNKNOWN4,
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BK_SW_USB_VBUS,
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@ -35,40 +39,35 @@ enum { BK_SW_LCD_TRANSFORMING_TO_TABLET = 3,
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BK_SW_LCD_TRANSFORMING_TO_CLOSED };
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struct keymap_def {
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u8 brain_keycode;
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unsigned int kernel_keycode;
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unsigned int normal_event_code;
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unsigned int symbol_event_code;
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};
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struct bk_i2c_data {
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struct i2c_client *cli;
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struct input_dev *idev;
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struct keymap_def *km;
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struct keymap_def *km_symbol;
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int kmlen;
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int kmlen_symbol;
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struct keymap_def keymaps[BK_KEYCODE_MAX];
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bool symbol;
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bool symbol_states[BK_KEYCODE_MAX];
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bool symbol_mode;
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u32 symbol_keycode;
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bool closing;
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bool symbol_flag[256];
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};
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static bool detect_key(struct bk_i2c_data *kbd, u8 keycode)
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static bool handle_switch(struct bk_i2c_data *kbd, u8 keycode)
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{
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int i;
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if (BK_IS_SWITCH(keycode)) {
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bool sw_on = BK_SWITCH_ON(keycode);
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unsigned int sw_code;
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switch (BK_SW_CODE(keycode)) {
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case BK_SW_LCD_TRANSFORMING_TO_TABLET:
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if (!sw_on) {
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if (!sw_on)
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kbd->closing = false;
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}
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return true;
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case BK_SW_LCD_TRANSFORMING_TO_CLOSED:
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if (sw_on) {
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if (sw_on)
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kbd->closing = true;
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}
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return true;
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case BK_SW_LCD_FULLY_TRANSFORMED:
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@ -79,86 +78,89 @@ static bool detect_key(struct bk_i2c_data *kbd, u8 keycode)
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case BK_SW_USB_VBUS:
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input_report_switch(kbd->idev, SW_DOCK, sw_on);
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return true;
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default:
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dev_dbg(&kbd->cli->dev, "Unknown switch event %0x02X",
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keycode);
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dev_dbg(&kbd->cli->dev, "Unknown switch event %0x02X", keycode);
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}
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return false;
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}
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static bool handle_symbol_key(struct bk_i2c_data *kbd, u8 keycode)
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{
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struct keymap_def *keymap = &kbd->keymaps[BK_KEY(keycode)];
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if (keymap->symbol_event_code != KEY_RESERVED) {
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if (kbd->symbol_states[BK_KEY(keycode)] == false) {
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input_report_key(kbd->idev, keymap->normal_event_code, 0);
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dev_dbg(&kbd->cli->dev,
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"mode changed, normal key %02x(%02x) released\n",
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BK_KEY(keycode), keymap->normal_event_code);
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}
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if ((keycode & 0x3f) == (u8)(kbd->symbol_keycode)) {
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input_report_key(kbd->idev,
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keymap->symbol_event_code, BK_IS_PRESSED(keycode));
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kbd->symbol_states[BK_KEY(keycode)] = BK_IS_PRESSED(keycode);
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dev_dbg(&kbd->cli->dev, "symbol key %02x(%02x) %s\n",
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BK_KEY(keycode), keymap->symbol_event_code,
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BK_IS_PRESSED(keycode) ? "pressed": "released");
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return true;
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} else {
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return false;
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}
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}
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static bool handle_normal_key(struct bk_i2c_data *kbd, u8 keycode)
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{
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struct keymap_def *keymap = &kbd->keymaps[BK_KEY(keycode)];
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if (keymap->normal_event_code != KEY_RESERVED) {
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if (kbd->symbol_states[BK_KEY(keycode)] == true) {
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input_report_key(kbd->idev, keymap->symbol_event_code, 0);
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dev_dbg(&kbd->cli->dev,
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"mode changed, symbol key %02x(%02x) released\n",
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BK_KEY(keycode), keymap->symbol_event_code);
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}
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input_report_key(kbd->idev,
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keymap->normal_event_code, BK_IS_PRESSED(keycode));
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kbd->symbol_states[BK_KEY(keycode)] = false;
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dev_dbg(&kbd->cli->dev, "normal key %02x(%02x) %s\n",
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BK_KEY(keycode), keymap->normal_event_code,
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BK_IS_PRESSED(keycode) ? "pressed": "released");
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return true;
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} else {
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return false;
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}
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}
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static bool detect_key(struct bk_i2c_data *kbd, u8 keycode)
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{
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if (BK_IS_SWITCH(keycode))
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return handle_switch(kbd, keycode);
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if (BK_KEY(keycode) == (u8)kbd->symbol_keycode) {
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if (BK_IS_PRESSED(keycode)) {
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dev_dbg(&kbd->cli->dev, "symbol pressed!\n");
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kbd->symbol = true;
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kbd->symbol_mode = true;
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} else {
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dev_dbg(&kbd->cli->dev, "symbol released!\n");
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kbd->symbol = false;
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kbd->symbol_mode = false;
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}
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return true;
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}
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if (kbd->symbol) {
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if ((BK_IS_PRESSED(keycode) == 0) &&
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(kbd->symbol_flag[keycode & 0x3f] == false)) {
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for (i = 0; i < kbd->kmlen; i++) {
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if ((keycode & 0x3f) == kbd->km[i].brain_keycode) {
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dev_dbg(&kbd->cli->dev,
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"release normal key %02x\n", keycode & 0x3f);
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input_report_key(
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kbd->idev,
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kbd->km[i].kernel_keycode,
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BK_IS_PRESSED(keycode));
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return true;
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}
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}
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}
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for (i = 0; i < kbd->kmlen_symbol; i++) {
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if ((keycode & 0x3f) ==
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kbd->km_symbol[i].brain_keycode) {
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dev_dbg(&kbd->cli->dev,
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"symbol: %s %02x\n",
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BK_IS_PRESSED(keycode) ? "pressed" : "released",
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kbd->km_symbol[i].brain_keycode);
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input_report_key(
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kbd->idev,
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kbd->km_symbol[i].kernel_keycode,
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BK_IS_PRESSED(keycode));
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kbd->symbol_flag[keycode & 0x3f] = BK_IS_PRESSED(keycode);
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return true;
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}
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}
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} else {
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if ((BK_IS_PRESSED(keycode) == 0) &&
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(kbd->symbol_flag[keycode & 0x3f] == true)) {
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for (i = 0; i < kbd->kmlen_symbol; i++) {
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if ((keycode & 0x3f) == kbd->km_symbol[i].brain_keycode) {
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dev_dbg(&kbd->cli->dev,
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"release symbol key %02x\n", keycode & 0x3f);
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input_report_key(
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kbd->idev,
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kbd->km_symbol[i].kernel_keycode,
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BK_IS_PRESSED(keycode));
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return true;
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}
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}
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}
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for (i = 0; i < kbd->kmlen; i++) {
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if ((keycode & 0x3f) == kbd->km[i].brain_keycode) {
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dev_dbg(&kbd->cli->dev,
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"normal: %s %02x\n",
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BK_IS_PRESSED(keycode) ? "pressed" : "released",
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kbd->km[i].brain_keycode);
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input_report_key(kbd->idev,
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kbd->km[i].kernel_keycode,
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BK_IS_PRESSED(keycode));
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kbd->symbol_flag[keycode & 0x3f] = false;
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return true;
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}
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}
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}
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return false;
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if (kbd->symbol_mode)
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return handle_symbol_key(kbd, keycode);
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else
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return handle_normal_key(kbd, keycode);
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}
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static irqreturn_t bk_i2c_irq_handler(int irq, void *devid)
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@ -185,14 +187,14 @@ static irqreturn_t bk_i2c_irq_handler(int irq, void *devid)
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if (n < 1) {
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goto done;
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} else if (n > 3) {
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} else if (n > BK_N_ROLL_MAX) {
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dev_dbg(&kbd->cli->dev,
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"invalid sequence\n");
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n = 3;
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n = BK_N_ROLL_MAX;
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}
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if (!detect_key(kbd, k1)) {
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dev_dbg(&kbd->cli->dev, "unknown key was pressed: k1=%02x\n",
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(k1 & 0x3f));
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BK_KEY(k1));
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}
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if (n < 2) {
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goto done;
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@ -200,8 +202,7 @@ static irqreturn_t bk_i2c_irq_handler(int irq, void *devid)
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raw = i2c_smbus_read_word_swapped(kbd->cli, BK_CMD_KEYCODE);
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if (raw < 0) {
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dev_err(&kbd->cli->dev, "failed to read 2nd/3rd:%x\n",
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raw);
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dev_err(&kbd->cli->dev, "failed to read 2nd/3rd:%x\n", raw);
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goto err;
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}
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@ -211,7 +212,7 @@ static irqreturn_t bk_i2c_irq_handler(int irq, void *devid)
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dev_dbg(&kbd->cli->dev, "k2=%02x, k3=%02x\n", k2, k3);
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if (!detect_key(kbd, k2)) {
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dev_dbg(&kbd->cli->dev, "unknown key was pressed: k2=%02x\n",
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k2 & 0x3f);
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BK_KEY(k2));
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}
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if (n < 3) {
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@ -219,7 +220,7 @@ static irqreturn_t bk_i2c_irq_handler(int irq, void *devid)
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}
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if (!detect_key(kbd, k3)) {
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dev_dbg(&kbd->cli->dev, "unknown key was pressed: k3=%02x\n",
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k3 & 0x3f);
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BK_KEY(k3));
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}
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done:
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input_sync(kbd->idev);
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@ -254,15 +255,13 @@ static int bk_i2c_probe(struct i2c_client *cli, const struct i2c_device_id *id)
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return -EINVAL;
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}
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len /= sizeof(u32) * cells;
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kbd->kmlen = len;
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kbd->km = devm_kzalloc(&cli->dev, sizeof(struct keymap_def) * len,
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GFP_KERNEL);
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if (!kbd->km) {
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return -ENOMEM;
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for (i = 0; i < BK_KEYCODE_MAX; i++) {
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kbd->keymaps[i].normal_event_code = KEY_RESERVED;
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kbd->keymaps[i].symbol_event_code = KEY_RESERVED;
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kbd->symbol_states[i] = false;
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}
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len /= sizeof(u32) * cells;
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for (i = 0; i < len; i++) {
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offset = i * cells;
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if (of_property_read_u32_index(cli->dev.of_node, "keymap",
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@ -277,10 +276,15 @@ static int bk_i2c_probe(struct i2c_client *cli, const struct i2c_device_id *id)
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"could not read DT property (kernel keycode)\n");
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return -EINVAL;
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}
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kbd->km[i].brain_keycode = brain_keycode;
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kbd->km[i].kernel_keycode = kernel_keycode;
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if (brain_keycode <= BK_KEYCODE_MAX) {
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kbd->keymaps[brain_keycode].normal_event_code = kernel_keycode;
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dev_dbg(&cli->dev, "normal: brain: %02x, kernel: %02x",
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brain_keycode, kernel_keycode);
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} else {
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dev_err(&cli->dev, "invalid keycode: %02x\n", brain_keycode);
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}
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}
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if (!of_get_property(cli->dev.of_node, "keymap-symbol", &len)) {
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}
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len /= sizeof(u32) * cells;
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kbd->kmlen_symbol = len;
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kbd->km_symbol = devm_kzalloc(
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&cli->dev, sizeof(struct keymap_def) * len, GFP_KERNEL);
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if (!kbd->km_symbol) {
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return -ENOMEM;
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}
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for (i = 0; i < len; i++) {
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offset = i * cells;
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if (of_property_read_u32_index(cli->dev.of_node,
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"could not read DT property (kernel keycode)\n");
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return -EINVAL;
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}
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kbd->km_symbol[i].brain_keycode = brain_keycode;
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kbd->km_symbol[i].kernel_keycode = kernel_keycode;
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if (brain_keycode <= BK_KEYCODE_MAX) {
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kbd->keymaps[brain_keycode].symbol_event_code = kernel_keycode;
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dev_dbg(&cli->dev, "symbol: brain: %02x, kernel: %02x",
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brain_keycode, kernel_keycode);
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} else {
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dev_err(&cli->dev, "invalid keycode: %02x\n", brain_keycode);
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}
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}
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kbd->cli = cli;
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__set_bit(EV_REP, kbd->idev->evbit); /* autorepeat */
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for (i = 0; i < kbd->kmlen; i++) {
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for (i = 0; i < BK_KEYCODE_MAX; i++) {
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if (kbd->keymaps[i].normal_event_code != KEY_RESERVED)
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input_set_capability(kbd->idev, EV_KEY,
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kbd->km[i].kernel_keycode);
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}
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kbd->keymaps[i].normal_event_code);
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for (i = 0; i < kbd->kmlen_symbol; i++) {
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if (kbd->keymaps[i].symbol_event_code != KEY_RESERVED)
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input_set_capability(kbd->idev, EV_KEY,
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kbd->km_symbol[i].kernel_keycode);
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kbd->keymaps[i].symbol_event_code);
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}
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kbd->closing = false;
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for (i = 0; i < ARRAY_SIZE(kbd->symbol_flag); i++) {
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kbd->symbol_flag[i] = false;
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}
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input_set_capability(kbd->idev, EV_SW, SW_LID);
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input_set_capability(kbd->idev, EV_SW, SW_TABLET_MODE);
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input_set_capability(kbd->idev, EV_SW, SW_DOCK);
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