static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
#ifdef FEATURE_KYOCERA_MSND
case HS_LINE_SPEAKER:
if( key_code != HS_REL_K )
{
msm_snddev_poweramp_on();
}
else
{
msm_snddev_poweramp_off();
}
break;
#endif
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case SW_HEADPHONE_INSERT:
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
/* This should be the HSSD button */
#ifdef CONFIG_SEMC_SEPORT_PLATFORM
if (seport_vad_data) {
atomic_set(&seport_vad_data->status,
key_code == HS_REL_K);
mutex_lock(&seport_vad_btn_lock);
seport_vad_det_cb_func(
atomic_read(&seport_vad_data->status),
seport_vad_data);
mutex_unlock(&seport_vad_btn_lock);
} else
printk(KERN_WARNING "%s - VAD button data pointer " \
"not initialized.\n",
__func__);
#elif defined CONFIG_ES209RA_HEADSET
es209ra_audio_jack_button_handler(key_code);
return;
#else
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#endif /* CONFIG_SEMC_SEPORT_PLATFORM */
break;
case SW_HEADPHONE_INSERT:
#ifndef CONFIG_SEMC_SEPORT_PLATFORM
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#endif
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
if (hs->hs_pdata->ignore_end_key)
input_report_key(hs->ipdev, KEY_POWER,
(key_code != HS_REL_K));
else
input_report_key(hs->ipdev, key,
(key_code != HS_REL_K));
break;
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#if (defined(CONFIG_MACH_ARIESVE) || defined(CONFIG_MACH_ANCORA) || defined(CONFIG_MACH_GODART))
key_pressed=(key_code != HS_REL_K);
#ifdef KERNEL_DEBUG_SEC
printk("[key] pwercode %d, %d \n", key, key_pressed);
#endif
#endif
break;
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
#if !defined(CONFIG_KERNEL_MOTOROLA)
kpdev = msm_keypad_get_input_dev();
#endif
switch (key) {
case KEY_POWER:
case KEY_END:
#if defined(CONFIG_MACH_MOT)
if (!kpdev) {
printk(KERN_ERR "%s: No input device for reporting "
"pwr/end key press\n", __func__);
return;
}
#endif
#if !defined(CONFIG_KERNEL_MOTOROLA)
input_report_key(kpdev, key, (key_code != HS_REL_K));
input_sync(kpdev);
#else
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#endif
break;
case SW_HEADPHONE_INSERT:
break;
case KEY_MEDIA:
break;
default:
printk(KERN_ERR "%s: Unhandled handset key %d\n", __func__,
key);
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
#if !defined(CONFIG_KERNEL_MOTOROLA)
input_sync(kpdev);
#else
input_sync(hs->ipdev);
#endif /* !defined(CONFIG_KERNEL_MOTOROLA) */
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_SLEEP:// KEY_END-->KEY_SLEEP 142
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
printk(KERN_ERR "--keycode from A9\n \tkey:%d keycode:%d\n",key,key_code);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_WAKEUP:
printk(KERN_ERR "--keycode from A9(charger)\n \tkey:%d keycode:%d\n",key,key_code);
#ifdef CONFIG_SCREEN_ON_WITHOUT_KEYOCDE
msm_batt_force_update();
#else
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#endif
//usb vbus notify by rpc_hs,wangzy_20111212
if(NULL != msm_vbus_notify){
if(key_code == HS_EXT_PWR_ON_K)
msm_vbus_notify(1);
if(key_code == HS_EXT_PWR_OFF_K)
msm_vbus_notify(0);
}
//end
break;
case SW_HEADPHONE_INSERT:
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
printk(KERN_ERR "[%s,%d] key %d %s\n",
__FUNCTION__, __LINE__, key, (key_code != HS_REL_K) ? "Down" : "Up");
switch (key) {
#if !HUAWEI_HWID(S70)
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
#else
case KEY_POWER:
case KEY_END:
input_report_key(hs->ipdev, KEY_POWER, (key_code != HS_REL_K));
break;
case KEY_MEDIA:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
#endif
case SW_HEADPHONE_INSERT:
if (gHeadsetflags) {
wake_lock(&gHeadsetWakeLock);
Headset_Timer.expires = jiffies + HEADSET_TIMEOUT;
add_timer(&Headset_Timer);
gHeadsetflags = 0;
}
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_SLEEP://ZTE_KEYMAP_ZX_001 KEY_END-->KEY_SLEEP 142 200911178
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
printk(KERN_ERR "--keycode from A9\n \tkey:%d keycode:%d\n",key,key_code);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_WAKEUP://ZTE_HS_ZHENGCHAO_01
printk(KERN_ERR "--keycode from A9(charger)\n \tkey:%d keycode:%d\n",key,key_code);
#ifdef CONFIG_SCREEN_ON_WITHOUT_KEYOCDE
msm_batt_force_update();
#else
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#endif
break;
case SW_HEADPHONE_INSERT:
printk(KERN_ERR "HEADPHONE_INSERT from A9\n \tkey:%d keycode:%d\n",key,key_code); // ZTE_Audio_CJ_110307
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
* SEMC:
* switch = (switch_code, switch_value)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_MEDIA:
if (key_code == HS_REL_K)
del_timer(&hs->endkey_timer);
else
mod_timer(&hs->endkey_timer, jiffies + msecs_to_jiffies(END_KEY_PERIOD));
case KEY_END:
/* This will never actually happen since we emulate it on android instead */
case KEY_POWER:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case SW_HEADPHONE_INSERT:
/* Special, this is a switch, so we pass the param onwards */
report_headset_switch(hs->ipdev, key, key_parm);
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
printk(KERN_ERR " ^^^^^^ key_code %d, key_parm %d \n",key_code, key_parm);
#ifdef CONFIG_MACH_MSM8X55_J_MASAI_E
if(key_code == 0xfe && (key_parm == 0 || key_parm == 1))
{
msm_hsusb_set_vbus_state(key_parm);
}
#endif
#ifdef CONFIG_MACH_MSM8X55_J_MASAI_E
if(key_code == 130 && key_parm == 0){
is_earjack_connected = 1;
}
if(key_code == 255 && key_parm == 130){
is_earjack_connected = 0;
}
if(key_code == 132 && key_parm == 0){
if(is_earjack_connected == 0){
return;
}
}
#endif
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
#ifndef CONFIG_MACH_MSM8X55_MINI
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
#endif
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
printk(KERN_ERR "SW_HEADPHONE_INSERT, key_code: %x key_parm: on off : %d\n",key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
#if 0
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
#endif
#if 0
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(pm_key)
{
#if DEBUG
switch (key) {
case KEY_POWER:
printk(KERN_INFO "[msm-handset] [%s] KEY_POWER[%d] key_code[%d]\n", __func__,key,key_code);
break;
case KEY_END:
printk(KERN_INFO "[msm-handset] [%s] KEY_END[%d] key_code[%d]\n", __func__,key,key_code);
break;
}
#endif
#if defined(CONFIG_TENKEY_KEYPAD) && (CONFIG_TENKEY_KEYPAD_SUBID == 2)
if(shext_hw_revision_cleck == true)
{
input_report_key(pm_key->ipdev, KEY_SAVE, (key_code != HS_REL_K));
}else{
input_report_key(pm_key->ipdev, key, (key_code != HS_REL_K));
input_sync(pm_key->ipdev);
}
#else
input_report_key(pm_key->ipdev, key, (key_code != HS_REL_K));
input_sync(pm_key->ipdev);
#endif
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] pm_key = NULL\n", __func__);
#endif
}
#endif
break;
#if 1
case KEY_MEDIA:
#if 0
report_headphone_switch(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(hssw)
{
report_headphone_switch(hssw->ipdev, key, (key_code != HS_REL_K));
input_sync(hssw->ipdev);
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] hssw = NULL\n", __func__);
#endif
}
#endif
break;
#endif
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
#if 0
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(hs)
{
report_headset_switch(hs->ipdev, key, key_parm);
#endif
#if 1
input_sync(hs->ipdev);
#endif
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] hs = NULL\n", __func__);
#endif
}
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
// input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
#ifdef FLIP_USE /* FLIP */
case SW_LID:
if(hs)
{
if(report_flip_switch(hs->ipdev, key, key_parm) != 0)
{
return;
}
#if 1
input_sync(hs->ipdev);
#endif
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] hs = NULL\n", __func__);
#endif
}
break;
#endif
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
#if 0
input_sync(hs->ipdev);
#endif
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
printk(KERN_INFO "%In report_hs_key, key_code:%d, key_parm:%d \n", key_code, key_parm);
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_MEDIA:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_END:
if ((key_code != HS_REL_K)) {
disable_irq(102);
write_gkpd_value(80);
} else {
enable_irq(102);
}
if ((ts_key_event == 1 || keypad_event == 1) && (key_code != HS_REL_K)) {
printk(KERN_INFO "gpio keypad is just enabled\n");
} else {
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
}
break;
case SW_HEADPHONE_INSERT:
//report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_HP:
if(gpio_get_value(GPIO_EAR_SENSE_BIAS) == 1)
{
if (!hs->ipdev) {
printk(KERN_ERR "%s: No input device for reporting "
"pwr/end key press\n", __func__);
return;
}
printk(KERN_INFO "HOOK OK!!!!!!\n");
//write_gkpd_value(72);
// input_report_key(hs->ipdev, key, 0);//(key_code != HS_REL_K));
if ((key_code != HS_REL_K))
write_gkpd_value(72);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
//input_sync(hs->ipdev);
}
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
#ifdef CONFIG_FEATURE_KCC_F45
HS_DBG_PRINT("%s: key:%x\n", __func__, key);
if (g_kdm_hs_check) {
key_set_code(key);
} else {
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
}
#else
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#endif
break;
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
#ifdef CONFIG_FEATURE_KCC_F45
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
if (!g_kdm_hs_check) {
input_sync(hs->ipdev);
}
break;
default:
input_sync(hs->ipdev);
break;
}
#else
input_sync(hs->ipdev);
#endif
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
#if 0
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
#endif
#if 0
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(pm_key)
{
input_report_key(pm_key->ipdev, key, (key_code != HS_REL_K));
input_sync(pm_key->ipdev);
}
#endif
break;
#if 1
case KEY_MEDIA:
#if 0
report_headphone_switch(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(hssw)
{
report_headphone_switch(hssw->ipdev, key, (key_code != HS_REL_K));
input_sync(hssw->ipdev);
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] hssw = NULL\n", __func__);
#endif
}
#endif
break;
#endif
case SW_HEADPHONE_INSERT:
#if 0
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#else
if(hs)
{
report_headset_switch(hs->ipdev, key, key_parm);
#endif
#if 1
input_sync(hs->ipdev);
#endif
}
else
{
#if DEBUG
printk(KERN_INFO "[msm-handset] [%s] hs = NULL\n", __func__);
#endif
}
break;
#if 1
case SW_LID:
break;
#endif
#if 1
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
case KEY_CAMERA:
case KEY_FOCUS:
#ifdef CONFIG_LYNCIS_KEYPAD
case KEY_MENU:
case KEY_HOME:
case KEY_BACK:
case KEY_SEARCH:
#endif /* CONFIG_LYNCIS_KEYPAD */
if(mt_key)
{
input_report_key(mt_key->ipdev, key, (key_code != HS_REL_K));
input_sync(mt_key->ipdev);
}
else
{
printk(KERN_INFO "[msm-handset] [%s] mt_key = NULL\n", __func__);
}
break;
#endif
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
#if 0
input_sync(hs->ipdev);
#endif
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
#ifndef CONFIG_MACH_MSM7X27_ALOHAV
case KEY_POWER:
case KEY_END:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#if defined (CONFIG_LGE_DIAGTEST)
mtc_send_key_log_packet((unsigned long)key, !(key_code != HS_REL_K));
ats_eta_mtc_key_logging((int)key, (key_code != HS_REL_K));
#endif
break;
case KEY_MEDIA:
if (gpio_get_value(GPIO_EAR_SENSE_BIAS) == 1) {
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
}
break;
case KEY_CONNECT:
if (deskdock_detect_callback)
deskdock_detect_callback((key_code != HS_REL_K));
break;
#else /*CONFIG_MACH_MSM7X27_ALOHAG*/
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#if defined(CONFIG_LGE_DIAGTEST)
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0/*press*/)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
#endif /*CONFIG_MACH_MSM7X27_ALOHAG */
case SW_HEADPHONE_INSERT:
#ifndef CONFIG_LGE_HEADSET
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#endif
#if defined(CONFIG_LGE_DIAGTEST)
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0/*press*/)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
key = KEY_POWER;
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
{
if(key == KEY_POWER)
{
if(key_code == HS_REL_K)
{
pwrkey_down = 0;
cancel_delayed_work_sync(&pwrkey_work);
}
else
{
pwrkey_down = 1;
queue_delayed_work(pwrkey_wqueue, &pwrkey_work, 8*HZ);
}
}
else if(key == KEY_END && pwrkey_down == 1)
{
if(key_code == HS_REL_K)
{
pwrkey_down = 0;
cancel_delayed_work_sync(&pwrkey_work);
}
}
}
break;
case SW_HEADPHONE_INSERT:
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_BATTERY:
#ifdef CONFIG_BATTERY_QSD
if(key_code == HS_BAD_BATT_K)
{
qsd_bat_update_usb_status(CHG_EVENT_GAGIC_BATT_GOOD);
}
else if(key_code == HS_CHARGING_ON_K)
{
qsd_bat_update_usb_status(AC_STATUS_AC_IN);
#ifdef CONFIG_HW_AUSTIN
q6audio_update_AC_5V_status(1);
#endif
}
else if(key_code == HS_CHARGING_OFF_K)
{
qsd_bat_update_usb_status(AC_STATUS_AC_NONE);
#ifdef CONFIG_HW_AUSTIN
q6audio_update_AC_5V_status(0);
#endif
}
else if(key_code == HS_BAT_LOW_K)
{
qsd_bat_update_usb_status(CHG_EVENT_PMIC_BATT_LOW);
}
#endif
return;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
#ifdef CONFIG_EF18_BOARD // shpark
static int connType;
#endif
#ifdef TEST_PI35_ADC_READ
int adc;
if(key_code < 0x10) {
adc = (key_code & 0xFF) << 8;
adc |= key_parm;
nAdcValue = adc;
printk("::::::::::::: nAdcValue = %d\n", adc);
}
#endif
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
#ifndef CONFIG_EF18_BOARD // shpark
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
#endif
#ifdef FEATURE_SKY_CHG_LOGO
case KEY_BATTERY:
#endif
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#ifdef FEATURE_WAKELOCK
wake_unlock(&headset_wakeup);
wake_lock_timeout(&headset_wakeup, HZ);
#endif
break;
case SW_HEADPHONE_INSERT:
#ifdef CONFIG_EF18_BOARD // shpark
if(key_code == HS_REL_K) { // release
switch(key_parm) {
case HS_SKY_20PIN_STEREO_HEADSET_K:
conn_headset_type &= ~(1 << 0);
connType &= ~(1 << 0);
break;
case HS_SKY_3P5PI_STEREO_HEADSET_K:
conn_headset_type &= ~(1 << 1);
connType &= ~(1 << 1);
break;
case HS_SKY_3P5PI_STEREO_HEADSET_NO_MIC_K:
conn_headset_type &= ~(1 << 2);
connType &= ~(1 << 2);
break;
case HS_SKY_MICROUSB_TDMB_K:
//conn_headset_type &= ~(1 << 3);
connType &= ~(1 << 3);
break;
}
}
else { // insert
switch(key_code) {
case HS_SKY_20PIN_STEREO_HEADSET_K:
conn_headset_type |= (1 << 0);
connType |= (1 << 0);
break;
case HS_SKY_3P5PI_STEREO_HEADSET_K:
conn_headset_type |= (1 << 1);
connType |= (1 << 1);
break;
case HS_SKY_3P5PI_STEREO_HEADSET_NO_MIC_K:
conn_headset_type |= (1 << 2);
connType |= (1 << 2);
break;
case HS_SKY_MICROUSB_TDMB_K:
//conn_headset_type |= (1 << 3);
connType |= (1 << 3);
break;
}
}
/*
if (key_code == HS_REL_K) {
if (key_parm == HS_SKY_20PIN_STEREO_HEADSET_K) {
conn_headset_type &= ~(1 << 0);
connType &= ~(1 << 0);
}
else if (key_parm == HS_SKY_3P5PI_STEREO_HEADSET_K) {
conn_headset_type &= ~(1 << 1);
connType &= ~(1 << 1);
}
else if (key_parm == HS_SKY_3P5PI_STEREO_HEADSET_NO_MIC_K) {
conn_headset_type &= ~(1 << 2);
connType &= ~(1 << 1);
}
}
else {
if (key_code == HS_SKY_20PIN_STEREO_HEADSET_K) {
conn_headset_type |= (1 << 0);
connType |= (1 << 0);
}
else if (key_code == HS_SKY_3P5PI_STEREO_HEADSET_K) {
conn_headset_type |= (1 << 1);
connType |= (1 << 1);
}
else if (key_code == HS_SKY_3P5PI_STEREO_HEADSET_NO_MIC_K) {
conn_headset_type |= (1 << 2);
connType |= (1 << 2);
}
}*/
report_headset_switch(hs->ipdev, key, connType);
printk(KERN_ERR "(SKY-HEADSET) Headset Detection(key:0x%x, conn_headset_type:0x%x, connType:0x%x)\n", key, conn_headset_type, connType);
#else
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#endif
break;
#ifdef CONFIG_EF18_BOARD
/*case KEY_SEND:*/
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
printk(KERN_ERR "[SKY Headset] volume up, down(%d)\n", key_code);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
#endif
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key = 0, temp_key_code;
/* FUJITSU:2011-06-15 mod ChargeError start */
if (key_code == CHG_ST_NTFY_CODE)
{
printk("got CHG_ST_NTFY_CODE notification\n");
switch(key_parm)
{
case K_CHG_ST_NONE:
key = KEY_CHG_ST_NONE;
break;
case K_CHG_ST_OVP:
key = KEY_CHG_ST_OVP;
break;
case K_CHG_ST_OVC:
key = KEY_CHG_ST_OVC;
break;
case K_CHG_ST_OVD:
key = KEY_CHG_ST_OVD;
break;
case K_CHG_ST_EXP:
key = KEY_CHG_ST_EXP;
break;
}
printk(" key_code = %d, key_parm = %d\n", key_code, key_parm);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
input_sync(hs->ipdev);
return;
}
/* FUJITSU:2011-06-15 mod ChargeError end */
/* FUJITSU:2011-07-05 USB start */
if (key_code == USB_CABLE_DET) {
switch(key_parm) {
case K_CABLE_WAKEUP:
printk(KERN_DEBUG "%s: cable_det debug. call wakeup (%d)\n", __func__, key_parm);
/* call wakeup function */
break;
case K_CABLE_USB_OTG_INIT_PHY:
case K_CABLE_USB_CONNECT_CLIENT:
case K_CABLE_USB_CONNECT_HOST:
printk(KERN_DEBUG "%s: cable_det debug. USB utilization demand (%d)\n", __func__, key_parm);
msm_otg_enable_irq();
/* FUJITSU:2011-07-05 USB start */
printk(KERN_DEBUG "%s: cable_det debug. USB enable (%d)\n", __func__,key_parm);
msm_hsusb_set_vbus_state(1);
/* FUJITSU:2011-07-05 USB end */
printk(KERN_DEBUG "%s: cable_det debug. USB connect client (%d) \n",__func__,key_parm);
break;
case K_CABLE_USB_DISCONNECT:
printk(KERN_DEBUG "%s: cable_det debug. USB cable cutting (%d) \n",__func__,key_parm);
/* FUJITSU:2011-07-05 USB start */
msm_otg_disable_irq();
/* FUJITSU:2011-07-05 USB end */
printk(KERN_DEBUG "%s: cable_det debug. USB disable (%d) \n",__func__,key_parm);
break;
/* FUJITSU:2011-07-07 USB start */
case K_CABLE_CRADLE_CONNECT:
g_cradle_stat = 1;
printk(KERN_DEBUG "%s: cable_det debug. CABLE CRADLE enable (%d)stat(%d) \n",__func__,key_parm,g_cradle_stat);
break;
case K_CABLE_CRADLE_DISCONNECT:
g_cradle_otg_charge_type = -1;
g_cradle_stat = 0;
printk(KERN_DEBUG "%s: cable_det debug. CABLE CRADLE disable (%d)stat(%d) \n",__func__,key_parm,g_cradle_stat);
break;
/* FUJITSU:2011-07-07 USB end */
default:
/* error !! */
break;
}
return;
}
/* FUJITSU:2011-07-05 USB end */
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
/* case KEY_MEDIA: FUJITSU:2011-04-08 DEL */
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
/* FUJITSU:2011-04-08 for media key start */
case KEY_MEDIA:
/* FUJITSU:2011-06-08 for media key start */
if(mediakeyloop){
if(key_code != HS_REL_K) mediakeyflg = true;
else mediakeyflg = false;
break;
}
if(mediakeyflg){
if(key_code == HS_REL_K) mediakeyflg = false;
break;
}
/* FUJITSU:2011-06-08 for media key end */
// if(ena_media_key)input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
if(ena_media_key && key_code == HS_REL_K){
input_report_key(hs->ipdev, key, true);
input_report_key(hs->ipdev, key, false);
}
break;
/* FUJITSU:2011-04-08 for media key end */
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
#ifndef CONFIG_MACH_MSM7X27_ALOHAV
case KEY_POWER:
case KEY_END:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_MEDIA:
if (gpio_get_value(GPIO_EAR_SENSE_BIAS) == 1) {
/* LGE_CHANGE
* 2010-03-09, [email protected] To protect from wrong hook key operation
*/
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
}
break;
case KEY_CONNECT:
if (deskdock_detect_callback)
deskdock_detect_callback((key_code != HS_REL_K));
break;
#else /*CONFIG_MACH_MSM7X27_ALOHAG*/
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#if defined(CONFIG_LGE_DIAGTEST)
/* LGE_CHANGES
* [[email protected]] 2010-01-23,
* [VS740] for key test
*/
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0/*press*/)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
#endif /*CONFIG_MACH_MSM7X27_ALOHAG */
case SW_HEADPHONE_INSERT:
#ifndef CONFIG_LGE_HEADSET
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#endif
#if defined(CONFIG_LGE_DIAGTEST)
/* LGE_CHANGES
* [[email protected]] 2010-01-23
* [VS740] for key test */
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0/*press*/)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
if (key_code != HS_REL_K)
testmode_input_scancode(key);
switch (key) {
#ifndef CONFIG_MACH_MSM7X27_ALOHAV
case KEY_POWER:
case KEY_END:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_MEDIA:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
case KEY_CONNECT:
if (deskdock_detect_callback)
deskdock_detect_callback((key_code != HS_REL_K));
break;
#else
case KEY_POWER:
case KEY_END:
case KEY_MEDIA:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
#if defined(CONFIG_LGE_DIAGTEST)
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
#endif
case SW_HEADPHONE_INSERT:
report_headset_switch(hs->ipdev, key, (key_code != HS_REL_K));
#if defined(CONFIG_LGE_DIAGTEST)
if(if_condition_is_on_key_buffering == HS_TRUE && key_code == 0)
lgf_factor_key_test_rsp((uint8_t)key);
#endif
break;
#if 0
case KEY_HEADSETHOOK:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
#endif
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
printk(" %s : HS_KEY event : %d \n", __func__, key_code);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
#if defined(T_QCI_IS3)
if (key_code == CHG_ST_NTFY_CODE) {
switch(key_parm) {
case K_CHG_ST_NONE:
key = KEY_CHG_ST_NONE;
break;
case K_CHG_ST_OVP:
key = KEY_CHG_ST_OVP;
break;
case K_CHG_ST_OVC:
key = KEY_CHG_ST_OVC;
break;
case K_CHG_ST_OVD:
key = KEY_CHG_ST_OVD;
break;
case K_CHG_ST_EXP:
key = KEY_CHG_ST_EXP;
break;
case K_TEMP_MSM_OVER_LAYER1:
key = KEY_TEMP_MSM_OVER_LEYER_1;
break;
case K_TEMP_MSM_OVER_LAYER2:
key = KEY_TEMP_MSM_OVER_LEYER_2;
break;
case K_TEMP_MSM_OVER_LAYER3:
key = KEY_TEMP_MSM_OVER_LEYER_3;
break;
case K_TEMP_MSM_OVER_RESUME_NORMAL:
key = KEY_TEMP_MSM_OVER_RESUME_NORMAL;
break;
default:
key = 0;
break;
}
printk("got CHG_ST_NTFY_CODE key_code = %d, key_parm = %d, key = %d\n", key_code, key_parm,key);
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
input_sync(hs->ipdev);
input_report_key(hs->ipdev, key, 0);
input_sync(hs->ipdev);
return;
}
#endif
/* FUJITSU:2012.02.23 USB start */
if (key_code == USB_CABLE_DET) {
switch (key_parm) {
case K_CABLE_WAKEUP:
pr_info("%s: cable wakeup\n", __func__);
break;
case K_CABLE_USB_OTG_INIT_PHY:
pr_info("%s: cable USB OTG init PHY\n", __func__);
break;
case K_CABLE_USB_CONNECT_CLIENT:
pr_info("%s: cable USB connect client\n", __func__);
break;
case K_CABLE_USB_CONNECT_HOST:
pr_info("%s: cable USB connect host\n", __func__);
break;
case K_CABLE_USB_DISCONNECT:
pr_info("%s: cable USB disconnect\n", __func__);
break;
case K_CABLE_CRADLE_CONNECT:
pr_info("%s: cradle connect\n", __func__);
break;
case K_CABLE_CRADLE_DISCONNECT:
pr_info("%s: cradle disconnect\n", __func__);
break;
default:
pr_info("%s: unknown key_parm=0x%x\n", __func__, key_parm);
break;
}
return;
}
/* FUJITSU:2012.02.23 USB end */
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
#if defined(T_QCI_IS3)
/* FUJITSU:2011-12-01 for media key start */
case KEY_MEDIA:
if(mediakeyloop) {
if(key_code != HS_REL_K) mediakeyflg = true;
else mediakeyflg = false;
break;
}
if(mediakeyflg) {
if(key_code == HS_REL_K) mediakeyflg = false;
break;
}
if(ena_media_key)input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
/* FUJITSU:2011-12-01 for media key end */
#endif
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
/*
* tuple format: (key_code, key_param)
*
* old-architecture:
* key-press = (key_code, 0)
* key-release = (0xff, key_code)
*
* new-architecutre:
* key-press = (key_code, 0)
* key-release = (key_code, 0xff)
*/
static void report_hs_key(uint32_t key_code, uint32_t key_parm)
{
int key, temp_key_code;
/* FUJITSU:2012-04-28 mod Battery 12_1 holder,mhl type, voltage_now start */
#ifdef CONFIG_FUJITSU_KEY_CHG_ST
if (key_code == CHG_ST_NTFY_CODE){
switch(key_parm){
case K_CHG_ST_NONE:
key = KEY_CHG_ST_NONE;
break;
case K_CHG_ST_OVP:
key = KEY_CHG_ST_OVP;
#ifdef CONFIG_FUJITSU_CHARGER_12_1
msm_battery_health(POWER_SUPPLY_HEALTH_OVER_SUPPLY_VOLTAGE);
#endif
break;
case K_CHG_ST_OVC:
key = KEY_CHG_ST_OVC;
msm_battery_health(POWER_SUPPLY_HEALTH_OVERVOLTAGE);
break;
case K_CHG_ST_OVD:
key = KEY_CHG_ST_OVD;
break;
case K_CHG_ST_EXP:
key = KEY_CHG_ST_EXP;
msm_battery_health(POWER_SUPPLY_HEALTH_UNSPEC_FAILURE);
break;
default:
key = 0;
break;
}
pr_err("CHG_ST_NTFY_CODE: %d,NONE=%d,OVP=%d,OVC=%d,OVD=%d,EXP=%d\n",
key_parm,
battery_abnormal_st[0],
battery_abnormal_st[1],
battery_abnormal_st[2],
battery_abnormal_st[3],
battery_abnormal_st[4]);
#ifndef CONFIG_FUJITSU_CHARGER_12_1
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
input_sync(hs->ipdev);
#endif
return;
}
#ifdef CONFIG_FUJITSU_CHARGER_12_1
if (key_code == CHG_ST_CNCL_NTFY_CODE){
switch(key_parm){
case K_CHG_ST_NONE:
key = KEY_CHG_ST_NONE;
msm_battery_health(POWER_SUPPLY_HEALTH_GOOD);
break;
case K_CHG_ST_OVP:
key = KEY_CHG_ST_OVP;
msm_battery_health(POWER_SUPPLY_HEALTH_GOOD);
break;
case K_CHG_ST_OVC:
key = KEY_CHG_ST_OVC;
msm_battery_health(POWER_SUPPLY_HEALTH_GOOD);
break;
case K_CHG_ST_OVD:
key = KEY_CHG_ST_OVD;
break;
case K_CHG_ST_EXP:
key = KEY_CHG_ST_EXP;
msm_battery_health(POWER_SUPPLY_HEALTH_GOOD);
break;
default:
key = 0;
break;
}
pr_err("CHG_ST_CNCL_CODE: %d,NONE=%d,OVP=%d,OVC=%d,OVD=%d,EXP=%d\n",
key_parm,
battery_abnormal_st[0],
battery_abnormal_st[1],
battery_abnormal_st[2],
battery_abnormal_st[3],
battery_abnormal_st[4]);
return;
}
#endif //CONFIG_FUJITSU_CHARGER_12_1
#endif //CONFIG_FUJITSU_KEY_CHG_ST
/* FUJITSU:2012-04-28 mod Battery 12_1 holder,mhl type, voltage_now end */
/* FUJITSU:2012-02-23 USB start */
if (key_code == USB_CABLE_DET) {
switch (key_parm) {
case K_CABLE_WAKEUP:
pr_info("%s: cable wakeup\n", __func__);
break;
case K_CABLE_USB_OTG_INIT_PHY:
pr_info("%s: cable USB OTG init PHY\n", __func__);
break;
case K_CABLE_USB_CONNECT_CLIENT:
pr_info("%s: cable USB connect client\n", __func__);
break;
case K_CABLE_USB_CONNECT_HOST:
pr_info("%s: cable USB connect host\n", __func__);
break;
case K_CABLE_USB_DISCONNECT:
pr_info("%s: cable USB disconnect\n", __func__);
break;
case K_CABLE_CRADLE_CONNECT:
pr_info("%s: cradle connect\n", __func__);
break;
case K_CABLE_CRADLE_DISCONNECT:
pr_info("%s: cradle disconnect\n", __func__);
break;
default:
pr_info("%s: unknown key_parm=0x%x\n", __func__, key_parm);
break;
}
return;
}
/* FUJITSU:2012-02-23 USB end */
if (key_code == HS_REL_K)
key = hs_find_key(key_parm);
else
key = hs_find_key(key_code);
temp_key_code = key_code;
if (key_parm == HS_REL_K)
key_code = key_parm;
switch (key) {
case KEY_POWER:
case KEY_END:
/* case KEY_MEDIA: FUJITSU:2011-12-01 DEL */
case KEY_VOLUMEUP:
case KEY_VOLUMEDOWN:
input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
/* FUJITSU:2011-12-01 for media key start */
case KEY_MEDIA:
if(mediakeyloop){
if(key_code != HS_REL_K) mediakeyflg = true;
else mediakeyflg = false;
break;
}
if(mediakeyflg){
if(key_code == HS_REL_K) mediakeyflg = false;
break;
}
if(ena_media_key)input_report_key(hs->ipdev, key, (key_code != HS_REL_K));
break;
/* FUJITSU:2011-12-01 for media key end */
case SW_HEADPHONE_INSERT_W_MIC:
hs->mic_on = hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, SW_HEADPHONE_INSERT,
hs->hs_on);
input_report_switch(hs->ipdev, SW_MICROPHONE_INSERT,
hs->mic_on);
update_state();
break;
case SW_HEADPHONE_INSERT:
hs->hs_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->hs_on);
update_state();
break;
case SW_MICROPHONE_INSERT:
hs->mic_on = (key_code != HS_REL_K) ? 1 : 0;
input_report_switch(hs->ipdev, key, hs->mic_on);
update_state();
break;
case -1:
printk(KERN_ERR "%s: No mapping for remote handset event %d\n",
__func__, temp_key_code);
return;
}
input_sync(hs->ipdev);
}
