/* Function to manage power-on resume */
void tpd_resume(struct early_suspend *h)
{
tpd_hw_enable();
mdelay(200);
#if 0
uint8_t bfffer[2] = {0x01,0x02};
//if(tpd_debuglog==1) {
//TPD_DMESG("[mtk-tpd] %s\n", __FUNCTION__);
//}
#ifdef TPD_HAVE_POWER_ON_OFF
mt_set_gpio_mode(181, 1);
mt_set_gpio_mode(182, 1);
/*mt_set_gpio_mode(GPIO_CTP_EN_PIN, GPIO_CTP_EN_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_EN_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_EN_PIN, GPIO_OUT_ONE);*/
tpd_hw_enable();
tpd_i2c_master_send(i2c_client,bfffer,2);
msleep(10);
#endif
tpd_i2c_master_rs_send(i2c_client,bfffer,1<<8|1);
bfffer[1] &= ~0x0E;
bfffer[1] |= 0x02;
tpd_i2c_master_send(i2c_client,bfffer,2);
msleep(5);
#endif
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
tpd_halt = 0;
}
static inline int accfix_setup_eint(void)
{
/*configure to GPIO function, external interrupt*/
ACCFIX_DEBUG("[accfix]accfix_setup_eint\n");
mt_set_gpio_mode(GPIO_ACCDET_EINT_PIN, GPIO_ACCDET_EINT_PIN_M_EINT);
mt_set_gpio_dir(GPIO_ACCDET_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_enable(GPIO_ACCDET_EINT_PIN, GPIO_PULL_ENABLE);
#ifdef ACCFIX_EINT_HIGH_ACTIVE
mt_set_gpio_pull_select(GPIO_ACCDET_EINT_PIN, GPIO_PULL_DOWN);
#else
mt_set_gpio_pull_select(GPIO_ACCDET_EINT_PIN, GPIO_PULL_UP);
#endif
/**
mt65xx_eint_set_sens(CUST_EINT_ACCDET_NUM, CUST_EINT_ACCDET_SENSITIVE);
#ifdef ACCFIX_EINT_HIGH_ACTIVE
mt65xx_eint_set_polarity(CUST_EINT_ACCDET_NUM, 1);
ACCFIX_DEBUG("[accfix]accfix_setup_eint active high \n");
#else
mt65xx_eint_set_polarity(CUST_EINT_ACCDET_NUM, 0);
ACCFIX_DEBUG("[accfix]accfix_setup_eint active low\n");
#endif
**/
mt65xx_eint_set_hw_debounce(CUST_EINT_ACCDET_NUM, CUST_EINT_ACCDET_DEBOUNCE_CN);
mt65xx_eint_registration(CUST_EINT_ACCDET_NUM, CUST_EINT_ACCDET_DEBOUNCE_EN, CUST_EINT_ACCDET_POLARITY, accfix_eint_func, 0);
mt65xx_eint_unmask(CUST_EINT_ACCDET_NUM);
return 0;
}
void tpd_resume(struct early_suspend *h)
{
TPD_DEBUG("TP tpd_resume\n");
if (ft5316_i2c_client == NULL)
return;
// if (atomic_read( &g_pts->isp_opened ))
// return;
TPD_DEBUG("[mtk-tpd] Resume++.\n");
tinno_tp_power_on();
int err = 0;
int i=0;
for(i=0;i<5;i++){
err = tinno_check_focaltech();
if(err)
break;
tinno_tp_power_off();
tinno_tp_power_on();
}
if (err ==0)
TPD_DEBUG("tinno_init_panel ****************************************************power on failed.\n");
tpd_init_skip = 1;
tpd_status = 1;
//Ivan 6573 MT6516_IRQUnmask(MT6516_TOUCH_IRQ_LINE);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
TPD_DEBUG("[mtk-tpd] Resume--.\n");
}
static void tpd_resume(struct early_suspend *h)
{
if ( g_pts ){
CTP_DBG("TPD wake up\n");
if (atomic_read(&g_pts->isp_opened)){
CTP_DBG("isp is already opened.");
return;
}
#ifdef CONFIG_TOUCHSCREEN_POWER_DOWN_WHEN_SLEEP
fts_5x06_hw_init();
#else //!CONFIG_TOUCHSCREEN_POWER_DOWN_WHEN_SLEEP
mt_set_gpio_mode(GPIO_CTP_WAKE_PIN, GPIO_CTP_WAKE_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_WAKE_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_WAKE_PIN, GPIO_OUT_ZERO);
msleep(1);
mt_set_gpio_mode(GPIO_CTP_WAKE_PIN, GPIO_CTP_WAKE_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_WAKE_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_WAKE_PIN, GPIO_OUT_ONE);
#endif//CONFIG_TOUCHSCREEN_POWER_DOWN_WHEN_SLEEP
mutex_unlock(&g_pts->mutex);//Lock on suspend
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
atomic_set( &g_pts->ts_sleepState, 0 );
//LINE<JIRA_ID><DATE20130320><add charger flag>zenghaihui
g_need_refresh_tp_flag = 1;
}
}
int hdmi_drv_power_on(void)
{
int ret = 0;
HDMI_FUNC();
mt65xx_eint_mask(CUST_EINT_MHL_NUM);
#if 1
SiiMhlTxHwGpioResume();
//pmic_config_interface(0x87,0x1,0x01,0x0);
/* Vanzo:lubaoquan on: Tue, 21 May 2013 22:35:29 +0800
* TODO: replace this line with your comment
*/
hwPowerOn(MT65XX_POWER_LDO_VGP5, VOL_1200, "HDMI");
// End of Vanzo: lubaoquan
#endif
//msleep(100);
SiiMhlTxHwReset(5,5);
//xuecheng
HalInstallCheckDeviceCB(SiiCheckDevice);
HalAcquireIsrLock();
siHdmiTx_VideoSel(HDMI_720P60);
siHdmiTx_AudioSel(I2S_44);
ret = SiiMhlTxInitialize(EVENT_POLL_INTERVAL_MS);
HalReleaseIsrLock();
mt65xx_eint_unmask(CUST_EINT_MHL_NUM);
return ret;
}
/* When I2C readings are failing too much, we delay the next reading by masking the IRQ */
static void
open_nfc_enable_irq(unsigned long arg) {
ENTER();
// enable_irq(arg);
mt65xx_eint_unmask(CUST_EINT_NFC_NUM);
}
void inline disable_accfix(void)
{
// disable ACCDET unit
ACCFIX_DEBUG("accfix: disable_accfix\n");
pre_state_swctrl = INREG32(ACCDET_STATE_SWCTRL);
OUTREG32(ACCDET_CTRL, ACCDET_DISABLE);
OUTREG32(ACCDET_STATE_SWCTRL, 0);
//unmask EINT
mt65xx_eint_unmask(CUST_EINT_ACCDET_NUM);
}
static int touch_event_handler(void *unused) {
struct sched_param param = { .sched_priority = RTPM_PRIO_TPD };
struct touch_info cinfo, sinfo;
int pending = 0;
struct i2c_client * i2c_client = ft5316_i2c_client ;
TPD_DEBUG("touch_event_handler\n");
cinfo.pending=0;
sched_setscheduler(current, SCHED_RR, ¶m);
do {
//Ivan added for testing
if (tpd_status == 1){
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM); // possibly to lose event?
}
set_current_state(TASK_INTERRUPTIBLE);
if (!kthread_should_stop())
{
// TPD_DEBUG_CHECK_NO_RESPONSE;
do {
if(pending) wait_event_interruptible_timeout(waiter, tpd_flag!=0, HZ/10);
else wait_event_interruptible_timeout(waiter,tpd_flag!=0, HZ*2);
} while(0);
if(tpd_flag==0 && !pending) continue; // if timeout for no touch, then re-wait.
if(tpd_flag!=0 && pending>0) pending=0;
tpd_flag=0;
TPD_DEBUG_SET_TIME;
}
set_current_state(TASK_RUNNING);
if(!pending) if(tpd_gettouchinfo(&cinfo, &sinfo)) continue;
if(pending>1) { pending--; continue; }
//Ivan ++
if (tpd_init_skip) {tpd_init_skip = 0; continue; }
TPD_DEBUG("cinfo->count == %d!\n", cinfo.count);
if(cinfo.count > 0)
{
int i;
for ( i=0; i < cinfo.count; i++ )
{
TPD_DEBUG("cinfo->count == %d!\n", cinfo.count);
TPD_DEBUG("Point ID == %d, x == %d , y == %d ,z ==%d\n!",cinfo.pt[i].id,cinfo.pt[i].x,cinfo.pt[i].y,cinfo.pt[i].z );
tpd_down(cinfo.pt[i].x, cinfo.pt[i].y, cinfo.pt[i].id);
}
input_sync(tpd->dev);
}
else
{
TPD_DEBUG("TPD up x == %d , y == %d\n!",x_history[cinfo.count], y_history[cinfo.count]);
tpd_up(x_history[cinfo.count], y_history[cinfo.count], 0);
input_sync(tpd->dev);
}
} while (!kthread_should_stop());
return 0;
}
static int touch_event_handler(void *para)
{
int i;
tinno_ts_point touch_point[TINNO_TOUCH_TRACK_IDS];
struct sched_param param = { .sched_priority = RTPM_PRIO_TPD };
tinno_ts_data *ts = (tinno_ts_data *)para;
sched_setscheduler(current, SCHED_RR, ¶m);
do {
set_current_state(TASK_INTERRUPTIBLE);
wait_event_interruptible(waiter, tpd_flag!=0);
tpd_flag = 0;
memset(touch_point, FTS_INVALID_DATA, sizeof(touch_point));
set_current_state(TASK_RUNNING);
//LINE<JIRA_ID><DATE20130320><BUG_INFO>zenghaihui
if(g_tp_charger_flag != g_pre_tp_charger_flag)
{
g_pre_tp_charger_flag = g_tp_charger_flag;
g_need_refresh_tp_flag = 1;
}
if(g_need_refresh_tp_flag)
{
g_need_refresh_tp_flag = 0;
fts_ft5316_switch_charger_status(g_tp_charger_flag);
}
if (!tpd_touchinfo(ts, &touch_point)) {
if(ts->pcount > 0)
{
for ( i=0; i < ts->pcount; i++ )
{
tpd_down(ts, touch_point[i].x, touch_point[i].y, touch_point[i].pressure, touch_point[i].touch_id);//<20120714><for multi-touch id>wangyanhui
}
input_sync(tpd->dev);
}
else
{
tpd_up(ts, touch_point[0].x, touch_point[0].y, touch_point[0].pressure, touch_point[0].touch_id);
input_sync(tpd->dev);
}
}
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
}while(!kthread_should_stop());
mt65xx_eint_mask(CUST_EINT_TOUCH_PANEL_NUM);
return 0;
}
void oem_gpio_irq_unmask(int gpio)
{
int irq;
irq = oem_gpio_to_irq(gpio);
if(irq < 0){
return ;
}
mt65xx_eint_unmask(irq);
}
static int tpd_i2c_probe(struct i2c_client *client, const struct i2c_device_id *id) {
int err = 0;// ret = -1;
#ifdef TPD_NO_GPIO
u16 temp;
temp = *(volatile u16 *) TPD_RESET_PIN_ADDR;
temp = temp | 0x40;
*(volatile u16 *) TPD_RESET_PIN_ADDR = temp;
#endif
i2c_client = client;
printk("MediaTek touch panel i2c probe\n");
#ifndef TPD_NO_GPIO
mt_set_gpio_mode(GPIO_CTP_RST_PIN, GPIO_CTP_RST_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_RST_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ZERO);
msleep(10);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ONE);
mt_set_gpio_mode(GPIO_CTP_EINT_PIN, GPIO_CTP_EINT_PIN_M_EINT);
mt_set_gpio_dir(GPIO_CTP_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_enable(GPIO_CTP_EINT_PIN, GPIO_PULL_ENABLE);
mt_set_gpio_pull_select(GPIO_CTP_EINT_PIN, GPIO_PULL_UP);
#endif
msleep(50);
I2CDMABuf_va = (u8 *)dma_alloc_coherent(NULL, 4096, &I2CDMABuf_pa, GFP_KERNEL);
if(!I2CDMABuf_va)
{
printk("Allocate Touch DMA I2C Buffer failed!\n");
return -1;
}
thread = kthread_run(touch_event_handler, 0, TPD_DEVICE);
if (IS_ERR(thread)) {
err = PTR_ERR(thread);
TPD_DMESG(TPD_DEVICE " failed to create kernel thread: %d\n", err);
}
tpd_load_status = 1;
mt65xx_eint_set_sens(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_SENSITIVE);
mt65xx_eint_set_hw_debounce(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_CN);
mt65xx_eint_registration(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_EN, CUST_EINT_TOUCH_PANEL_POLARITY, tpd_eint_interrupt_handler, 1);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
printk("MediaTek touch panel i2c probe success\n");
return 0;
}
static void hall_init_hw(void)
{
mt_set_gpio_mode(GPIO_MHALL_EINT_PIN, GPIO_MHALL_EINT_PIN_M_EINT);
mt_set_gpio_dir(GPIO_MHALL_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_enable(GPIO_MHALL_EINT_PIN, GPIO_PULL_DISABLE);
mt_set_gpio_ies(GPIO_MHALL_EINT_PIN, GPIO_IES_ENABLE);
mt65xx_eint_set_sens(CUST_EINT_MHALL_NUM, CUST_EINT_MHALL_SENSITIVE);
mt65xx_eint_set_polarity(CUST_EINT_MHALL_NUM, CUST_EINT_MHALL_POLARITY);
mt65xx_eint_set_hw_debounce(CUST_EINT_MHALL_NUM, CUST_EINT_MHALL_DEBOUNCE_CN);
mt65xx_eint_registration(CUST_EINT_MHALL_NUM, CUST_EINT_MHALL_DEBOUNCE_EN, CUST_EINT_MHALL_POLARITY, hall_cover_eint_handler, 0);
mt65xx_eint_unmask(CUST_EINT_MHALL_NUM);
}
//void tpd_resume(struct i2c_client *client)
static void tpd_resume( struct early_suspend *h )
{
int ret = 0;
unsigned char Wrbuf[2] = {0x14, 0x00};
i2c_client->addr = ( i2c_client->addr & I2C_MASK_FLAG ) | I2C_ENEXT_FLAG;
ret = i2c_master_send(i2c_client, Wrbuf, 2);
if(ret != sizeof(Wrbuf))
{
TPD_DEBUG("[mtk-tpd] i2c write communcate error during resume: 0x%x\n", ret);
}
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
tpd_halt = 0;
}
static ssize_t pn544_dev_write(struct file *filp, const char __user *buf, size_t count, loff_t *offset)
{
struct pn544_dev *pn544_dev;
int ret, i;
char tmp[MAX_BUFFER_SIZE];
pn544_dev = filp->private_data;
if (count > MAX_BUFFER_SIZE)
count = MAX_BUFFER_SIZE;
if (copy_from_user(tmp, buf, count)) {
pr_err("pn544 %s : failed to copy from user space\n", __func__);
return -EFAULT;
}
printk("pn544 copy from user:"******" %02X", tmp[i]);
}
printk("\n");
if (pn544_dev->irq_enabled) {
mt65xx_eint_mask(EINT_NUM);
pn544_dev->irq_enabled = false;
printk("pn544 write mask eint\n");
}
printk("pn544 %s : writing %zu bytes.\n", __func__, count);
/* Write data */
ret = i2c_master_send(pn544_dev->client, tmp, count);
if (ret != count) {
pr_err("pn544 %s : i2c_master_send returned %d\n", __func__, ret);
ret = -EIO;
}
printk("pn544 PC->IFD:");
for(i = 0; i < count; i++) {
printk(" %02X", tmp[i]);
}
printk("\n");
if (!pn544_dev->irq_enabled) {
mt65xx_eint_unmask(EINT_NUM);
pn544_dev->irq_enabled = true;
printk("pn544 write unmask eint\n");
}
return ret;
}
void mt8193_nlh_impl(void)
{
u32 u4Data;
u8 bData, bData1;
u8 bMask;
//read register and then assert which interrupt occured
mt8193_i2c_read(0x1508, &u4Data);
mt8193_i2c_write(0x1504, 0xffffffff);
MT8193_DRV_LOG("0x1508 = 0x%08x\n", u4Data);
if(u4Data&0x20)
{
MT8193_CEC_LOG("cec interrupt\n");
if(mt8193_cec_on==1)
{
if(mt8193_cec_isrprocess(mt8193_rxcecmode))
{
vNotifyAppHdmiState(HDMI_PLUG_IN_CEC);
}
}
}
if(u4Data&0x4)
{
bCheckHDCPStatus(0xfb);
bData=bReadGRLInt();
if(bData&INT_HDCP)
{
MT8193_HDCP_LOG("hdcp interrupt\n");
bClearGRLInt(INT_HDCP);
}
else if(bData&INT_MDI)
{
MT8193_PLUG_LOG("hdmi interrupt\n");
bClearGRLInt(INT_MDI);
bMask = bReadHdmiIntMask();
//vWriteHdmiIntMask((0xfd));//INT mask MDI
}
}
mt65xx_eint_unmask(CUST_EINT_EINT_HDMI_HPD_NUM);
}
/*
* register irq handler
* parmaters pass by inno_core
* @handler - if101 irq handler function pointer
* @irq_type - if101 irq type (falling edge detect or rising)
*/
int inno_irq_setup(void (*interrupthandler)(void ))
{
mt_set_gpio_mode(GPIO_CMMB_EINT_PIN, GPIO_CMMB_EINT_PIN_M_EINT); //set to eint MODE for enable eint function
mt_set_gpio_dir(GPIO_CMMB_EINT_PIN, GPIO_DIR_IN);
#if 1
mt_set_gpio_pull_enable(GPIO_CMMB_EINT_PIN, 1);
mt_set_gpio_pull_select(GPIO_CMMB_EINT_PIN, 1);
#endif
inno_msg("CMMB GPIO EINT PIN mode:num:%d, %d, dir:%d,pullen:%d,pullup%d",GPIO_CMMB_EINT_PIN,mt_get_gpio_mode(GPIO_CMMB_EINT_PIN),
mt_get_gpio_dir(GPIO_CMMB_EINT_PIN),mt_get_gpio_pull_enable(GPIO_CMMB_EINT_PIN),mt_get_gpio_pull_select(GPIO_CMMB_EINT_PIN));
mt65xx_eint_set_sens(CUST_EINT_CMMB_NUM, CUST_EINT_EDGE_SENSITIVE);
mt65xx_eint_registration(CUST_EINT_CMMB_NUM, CUST_EINT_DEBOUNCE_DISABLE, CUST_EINT_POLARITY_LOW, interrupthandler, 0); // 0:auto mask is no
mt65xx_eint_unmask(CUST_EINT_CMMB_NUM);
// mt65xx_eint_mask(CUST_EINT_CMMB_NUM);
return 0;
}
static int mt8193_init(void)
{
MT8193_DRV_FUNC();
memset((void*)&r_hdmi_timer, 0, sizeof(r_hdmi_timer));
r_hdmi_timer.expires = jiffies + 1000/(1000/HZ); // wait 1s to stable
r_hdmi_timer.function = hdmi_poll_isr;
r_hdmi_timer.data = 0;
init_timer(&r_hdmi_timer);
add_timer(&r_hdmi_timer);
memset((void*)&r_cec_timer, 0, sizeof(r_cec_timer));
r_cec_timer.expires = jiffies + 1000/(1000/HZ); // wait 1s to stable
r_cec_timer.function = cec_poll_isr;
r_cec_timer.data = 0;
init_timer(&r_cec_timer);
add_timer(&r_cec_timer);
init_waitqueue_head(&hdmi_timer_wq);
hdmi_timer_task = kthread_create(hdmi_timer_kthread, NULL, "hdmi_timer_kthread");
wake_up_process(hdmi_timer_task);
init_waitqueue_head(&cec_timer_wq);
cec_timer_task = kthread_create(cec_timer_kthread, NULL, "cec_timer_kthread");
wake_up_process(cec_timer_task);
init_waitqueue_head(&mt8193_nlh_wq);
mt8193_nlh_task = kthread_create(mt8193_nlh_kthread, NULL, "mt8193_nlh_kthread");
wake_up_process(mt8193_nlh_task);
#if defined(CONFIG_HAS_EARLYSUSPEND)
register_early_suspend(&mt8193_hdmi_early_suspend_desc);
#endif
mt_set_gpio_mode(GPIO_HDMI_EINT_PIN, GPIO_MODE_01);
mt_set_gpio_dir(GPIO_HDMI_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_enable(GPIO_HDMI_EINT_PIN, true);
mt_set_gpio_pull_select(GPIO_HDMI_EINT_PIN, GPIO_PULL_UP);
mt65xx_eint_set_sens(CUST_EINT_EINT_HDMI_HPD_NUM, CUST_EINT_EDGE_SENSITIVE);
mt65xx_eint_registration(CUST_EINT_EINT_HDMI_HPD_NUM, 0, CUST_EINT_POLARITY_LOW, &_mt8193_irq_handler, 0);
mt65xx_eint_unmask(CUST_EINT_EINT_HDMI_HPD_NUM);
return 0;
}
void hdmi_drv_power_on(void)
{
HDMI_FUNC();
mt65xx_eint_mask(CUST_EINT_HDMI_HPD_NUM);
SiiMhlTxHwGpioResume();
pmic_config_interface(0x87,0x1,0x01,0x0);
//msleep(100);
SiiMhlTxHwReset(50,200);
//xuecheng
HalInstallCheckDeviceCB(SiiCheckDevice);
HalAcquireIsrLock();
siHdmiTx_VideoSel(HDMI_720P60);
siHdmiTx_AudioSel(I2S_44);
SiiMhlTxInitialize(EVENT_POLL_INTERVAL_MS);
HalReleaseIsrLock();
mt65xx_eint_unmask(CUST_EINT_HDMI_HPD_NUM);
}
static int mhl_irq_kthread(void *data)
{
struct sched_param param = { .sched_priority = RTPM_PRIO_SCRN_UPDATE };
sched_setscheduler(current, SCHED_RR, ¶m);
for( ;; ) {
wait_event_interruptible(mhl_irq_wq, atomic_read(&mhl_irq_event));
printk("mhl_irq_kthread, mhl irq received\n");
//hdmi_update_impl();
atomic_set(&mhl_irq_event, 0);
SiiMhlTxDeviceIsr();
if (kthread_should_stop())
break;
mt65xx_eint_unmask(CUST_EINT_MHL_NUM);
}
return 0;
}
/* Function to manage power-on resume */
void tpd_resume(struct early_suspend *h)
{
char buffer[8];
if(tpd_debuglog==1) {
TPD_DMESG("[mtk-tpd] %s\n", __FUNCTION__);
}
// msleep(100);
#ifdef TPD_POWER_SOURCE_CUSTOM
hwPowerOn(TPD_POWER_SOURCE_CUSTOM, VOL_2800, "TP");
#endif
#ifdef TPD_POWER_SOURCE_1800
hwPowerOn(TPD_POWER_SOURCE_1800, VOL_1800, "TP");
#endif
#ifdef GPIO_CTP_EN_PIN
mt_set_gpio_mode(GPIO_CTP_EN_PIN, GPIO_CTP_EN_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_EN_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_EN_PIN, GPIO_OUT_ONE);
#endif
msleep(1);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ZERO);
msleep(1);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ONE);
msleep(100);
buffer[0] = 0x00;
buffer[1] = 0x03;
i2c_master_send(i2c_client,buffer,2);
msleep(50);
buffer[0] = 0x00;
buffer[1] = 0x05;
i2c_master_send(i2c_client,buffer,2);
//status = i2c_master_recv(i2c_client, buffer, 3);
msleep(50);
buffer[0] = 0x00;
buffer[1] = 0x21;
buffer[2] = 0x07;
buffer[3] = 0x01;
buffer[4] = 0x00;
i2c_master_send(i2c_client,buffer,5);
msleep(50);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
tpd_halt = 0;
}
static void kpd_slide_handler(unsigned long data)
{
bool slid;
u8 old_state = kpd_slide_state;
kpd_slide_state = !kpd_slide_state;
slid = (kpd_slide_state == !!KPD_SLIDE_POLARITY);
/* for SW_LID, 1: lid open => slid, 0: lid shut => closed */
input_report_switch(kpd_input_dev, SW_LID, slid);
input_sync(kpd_input_dev);
kpd_print("report QWERTY = %s\n", slid ? "slid" : "closed");
if (old_state)
mt_set_gpio_pull_select(GPIO_QWERTYSLIDE_EINT_PIN, 0);
else
mt_set_gpio_pull_select(GPIO_QWERTYSLIDE_EINT_PIN, 1);
/* for detecting the return to old_state */
mt65xx_eint_set_polarity(KPD_SLIDE_EINT, old_state);
mt65xx_eint_unmask(KPD_SLIDE_EINT);
}
INT32 wmt_plat_wifi_eint_ctrl(ENUM_PIN_STATE state)
{
#if 0 /*def GPIO_WIFI_EINT_PIN*/
switch(state)
{
case PIN_STA_INIT:
mt_set_gpio_pull_enable(GPIO_WIFI_EINT_PIN, GPIO_PULL_DISABLE);
mt_set_gpio_dir(GPIO_WIFI_EINT_PIN, GPIO_DIR_OUT);
mt_set_gpio_mode(GPIO_WIFI_EINT_PIN, GPIO_MODE_GPIO);
mt_set_gpio_out(GPIO_WIFI_EINT_PIN, GPIO_OUT_ONE);
break;
case PIN_STA_MUX:
mt_set_gpio_mode(GPIO_WIFI_EINT_PIN, GPIO_WIFI_EINT_PIN_M_GPIO);
mt_set_gpio_pull_enable(GPIO_WIFI_EINT_PIN, GPIO_PULL_ENABLE);
mt_set_gpio_pull_select(GPIO_WIFI_EINT_PIN, GPIO_PULL_UP);
mt_set_gpio_mode(GPIO_WIFI_EINT_PIN, GPIO_WIFI_EINT_PIN_M_EINT);
break;
case PIN_STA_EINT_EN:
mt65xx_eint_unmask(CUST_EINT_WIFI_NUM);
break;
case PIN_STA_EINT_DIS:
mt65xx_eint_mask(CUST_EINT_WIFI_NUM);
break;
case PIN_STA_IN_L:
case PIN_STA_DEINIT:
/*set to gpio input low, pull down enable*/
mt_set_gpio_mode(GPIO_WIFI_EINT_PIN, GPIO_COMBO_BGF_EINT_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_WIFI_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_select(GPIO_WIFI_EINT_PIN, GPIO_PULL_DOWN);
mt_set_gpio_pull_enable(GPIO_WIFI_EINT_PIN, GPIO_PULL_ENABLE);
break;
default:
WMT_WARN_FUNC("WMT-PLAT:Warnning, invalid state(%d) on WIFI EINT\n", state);
break;
}
#else
WMT_INFO_FUNC("WMT-PLAT:WIFI EINT is controlled by MSDC driver \n");
#endif
return 0;
}
static void hall_eint_work_callback(struct work_struct *work)
{
bool cover;
u8 old_state = hall_cover_state;
mt65xx_eint_mask(CUST_EINT_MHALL_NUM);
DOCK_DEBUG("[hall] hall_cover_state = %d\n", hall_cover_state );
hall_cover_state = !mt_get_gpio_in(GPIO_MHALL_EINT_PIN);
if ( old_state == hall_cover_state )
{
DOCK_ERR("[hall] no hall state changed!!!\n");
//mt65xx_eint_unmask(CUST_EINT_MHALL_NUM);
//return;
}
switch_set_state((struct switch_dev *)&hall_data, hall_cover_state);
//input_report_switch(kpd_input_dev, SW_LID, hall_cover_state);
//input_sync(kpd_input_dev);
mt65xx_eint_set_polarity(CUST_EINT_MHALL_NUM, !old_state);
mt65xx_eint_unmask(CUST_EINT_MHALL_NUM);
}
long
open_nfc_custom_ioctl_connect(struct file *filp, unsigned int cmd, unsigned long arg)
{
struct open_nfc_custom_device *p_device = filp->private_data;
int retval = 0;
ENTER();
if (!p_device) {
printk("open_nfc_custom_ioctl_connect: Internal error p_device is missing\n");
return -ENODEV;
}
mutex_lock(&p_device->mutex);
if (p_device->state != CUSTOM_CONFIGURED) {
printk("CONNECT called while device was not configured / already connected\n");
retval = -EALREADY;
goto end;
}
p_device->state = CUSTOM_READY;
/* start collecting the received messages */
p_device->rx_listener = 1;
#ifndef WAKE_AND_PURGE_I2C_ON_LOAD
// enable_irq(p_device->irqout);
mt65xx_eint_unmask(CUST_EINT_NFC_NUM);
#endif /* WAKE_AND_PURGE_I2C_ON_LOAD */
end:
mutex_unlock(&p_device->mutex);
return retval;
}
static ssize_t pn544_dev_read(struct file *filp, char __user *buf, size_t count, loff_t *offset)
{
struct pn544_dev *pn544_dev = filp->private_data;
int ret,i;
char tmp[MAX_BUFFER_SIZE];
if (count > MAX_BUFFER_SIZE)
count = MAX_BUFFER_SIZE;
printk("pn544 %s : reading %zu bytes.\n", __func__, count);
mutex_lock(&pn544_dev->read_mutex);
if (!mt_get_gpio_in(IRQ_PIN)) {
printk("pn544 read no event\n");
if (filp->f_flags & O_NONBLOCK) {
ret = -EAGAIN;
goto fail;
}
printk("pn544 read wait event\n");
pn544_dev->irq_enabled = true;
mt65xx_eint_unmask(EINT_NUM);
ret = wait_event_interruptible(pn544_dev->read_wq, mt_get_gpio_in(IRQ_PIN));
pn544_disable_irq(pn544_dev);
if (ret) {
printk("pn544 read wait event error\n");
goto fail;
}
}
/* Read data */
ret = i2c_master_recv(pn544_dev->client, tmp, count);
mutex_unlock(&pn544_dev->read_mutex);
if (ret < 0) {
pr_err("pn544 %s: i2c_master_recv returned %d\n", __func__, ret);
return ret;
}
if (ret > count) {
pr_err("pn544 %s: received too many bytes from i2c (%d)\n", __func__, ret);
return -EIO;
}
if (copy_to_user(buf, tmp, ret)) {
pr_warning("pn544 %s : failed to copy to user space\n", __func__);
return -EFAULT;
}
printk("pn544 IFD->PC:");
for(i = 0; i < ret; i++) {
printk(" %02X", tmp[i]);
}
printk("\n");
return ret;
fail:
mutex_unlock(&pn544_dev->read_mutex);
return ret;
}
void cm_enable_ext_md_wakeup_irq(void)
{
mt65xx_eint_unmask(CUST_EINT_DT_EXT_MD_WK_UP_NUM);
}
static int tpd_i2c_probe(struct i2c_client *client, const struct i2c_device_id *id) {
int err = 0;
char buffer[2];
int status=0;
i2c_client = client;
TPD_DMESG("[mtk-tpd], cy8ctma300 tpd_i2c_probe ++++\n");
#ifdef TPD_NO_GPIO
u32 temp;
temp = *(volatile u32 *) TPD_GPIO_GPO_ADDR;
//temp = temp | 0x40;
temp = temp |(1<<16) ;
temp = temp |(1<<17);
//temp = (temp | 1<<16);
//mt65xx_reg_sync_write(TPD_GPIO_GPO_ADDR, temp);
//*(volatile u32 *) TPD_GPIO_GPO_ADDR = temp;
printk("TPD_GPIO_GPO_ADDR:0x%x\n", *(volatile u32 *) TPD_GPIO_GPO_ADDR);
temp = *(volatile u32 *) TPD_GPIO_OE_ADDR;
//temp = temp | 0x40;
temp = temp |(1<<16) ;
temp = temp |(1<<17);
//temp = (temp | 1<<16) ;
//mt65xx_reg_sync_write(TPD_GPIO_OE_ADDR, temp);
// *(volatile u32 *) TPD_GPIO_OE_ADDR = temp;
printk("TPD_GPIO_OE_ADDR:0x%x\n", *(volatile u32 *) TPD_GPIO_OE_ADDR);
#endif
#ifndef TPD_NO_GPIO
mt_set_gpio_mode(GPIO_CTP_RST_PIN, GPIO_CTP_RST_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_RST_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ZERO);
msleep(10);
mt_set_gpio_mode(GPIO_CTP_EN_PIN, GPIO_CTP_EN_PIN_M_GPIO);
mt_set_gpio_dir(GPIO_CTP_EN_PIN, GPIO_DIR_OUT);
mt_set_gpio_out(GPIO_CTP_EN_PIN, GPIO_OUT_ONE);
// mt_set_gpio_mode(GPIO_CTP_RST_PIN, GPIO_CTP_RST_PIN_M_GPIO);
// mt_set_gpio_dir(GPIO_CTP_RST_PIN, GPIO_DIR_OUT);
// mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ONE);
// msleep(10);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ZERO);
msleep(1);
mt_set_gpio_out(GPIO_CTP_RST_PIN, GPIO_OUT_ONE);
mt_set_gpio_mode(GPIO_CTP_EINT_PIN, GPIO_CTP_EINT_PIN_M_EINT);
mt_set_gpio_dir(GPIO_CTP_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_pull_enable(GPIO_CTP_EINT_PIN, GPIO_PULL_ENABLE);
mt_set_gpio_pull_select(GPIO_CTP_EINT_PIN, GPIO_PULL_UP);
#endif
msleep(50);
// buffer[0]=0x00;
// i2c_client->ext_flag = I2C_WR_FLAG;
// status=i2c_master_send(i2c_client ,buffer, 0x101);
TPD_DMESG("1...........\n");
status = i2c_smbus_read_i2c_block_data(i2c_client, 0x00, 1, &(buffer[0]));
if(status<0)
{
TPD_DMESG("fwq read error\n");
TPD_DMESG("[mtk-tpd], cy8ctma300 tpd_i2c_probe failed!!\n");
status = i2c_smbus_read_i2c_block_data(i2c_client, 0x00, 1, &(buffer[0]));
if(status<0) {
TPD_DMESG("[mtk-tpd], cy8ctma300 tpd_i2c_probe retry failed!!\n");
return status;
}
}
TPD_DMESG("fwq buffer=%x \n",buffer[0]);
TPD_DMESG("[mtk-tpd], cy8ctma300 tpd_i2c_probe success!!\n");
tpd_load_status = 1;
if ((buffer[0] & 0x70) != 0x00)
{
buffer[0] = 0x00; // switch to operation mode
i2c_smbus_write_i2c_block_data(i2c_client, 0x00, 1, &(buffer[0]));
if(status < 0)
{
TPD_DMESG("fwq write error\n");
}
msleep(50);
}
thread = kthread_run(touch_event_handler, 0, TPD_DEVICE);
if (IS_ERR(thread)) {
err = PTR_ERR(thread);
TPD_DMESG(TPD_DEVICE " failed to create kernel thread: %d\n", err);
}
#ifndef POLL_MODE //mt6575t fpga debug 0: enable polling mode
mt65xx_eint_set_sens(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_SENSITIVE);
mt65xx_eint_set_hw_debounce(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_CN);
mt65xx_eint_registration(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_EN, CUST_EINT_TOUCH_PANEL_POLARITY, tpd_eint_interrupt_handler, 1);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
TPD_DMESG("EINT num=%d\n",CUST_EINT_TOUCH_PANEL_NUM);
#endif
TPD_DMESG("[mtk-tpd], cy8ctma300 tpd_i2c_probe ----\n");
return 0;
}
static void mtk_wcn_cmb_sdio_enable_eirq(void)
{
mt65xx_eint_unmask(mtk_wcn_cmb_sdio_eint_num);/* CUST_EINT_WIFI_NUM */
}
static int gt927_diffdata_read_proc(char *page, char **start, off_t off, int count, int *eof, void *data)
{
int driving_num = 0;
int sensing_num = 0;
int i;
char *ptr = page;
u8 *buf;
mt65xx_eint_mask(CUST_EINT_TOUCH_PANEL_NUM);
driving_num += (config[27 + GTP_ADDR_LENGTH] & 0x1F);
driving_num += (config[28 + GTP_ADDR_LENGTH] & 0x1F);
sensing_num += (config[29 + GTP_ADDR_LENGTH] & 0x0F);
sensing_num += (config[29 + GTP_ADDR_LENGTH] & 0xF0) >> 4;
GTP_INFO("TPD driving_num %d", driving_num);
GTP_INFO("TPD sensing_num %d", sensing_num);
buf = (u8 *)kzalloc(driving_num * sensing_num, GFP_KERNEL);
//0x8040 write 1 for rawdata/diff access
buf[0] = 1;
i2c_write_bytes(i2c_client_point, GTP_REG_SLEEP, buf, 1);
// wait for normal INT finished
while (tpd_flag == 1)
{
msleep(20);
}
msleep(100);
//check for raw data ready
i2c_read_bytes(i2c_client_point, GTP_READ_COOR_ADDR, buf, 1);
while (buf[0] == 0)
{
//wait for data ready
GTP_INFO("Wati for raw data");
i2c_read_bytes(i2c_client_point, GTP_READ_COOR_ADDR, buf, 1);
GTP_INFO("0x814E : %2X", buf[0]);
buf[0] &= 0x80;
msleep(5);
}
i2c_read_bytes(i2c_client_point, GTP_DIFFDATA_REG, buf, driving_num * sensing_num);
for (i = 0 ; i < driving_num * sensing_num; i = i + 1)
{
ptr += sprintf(ptr, "%d\t", buf[i]);
if ((i % (sensing_num)) == (sensing_num - 1))
ptr += sprintf(ptr, "\n");
}
//clear data ready status
buf[0] = 0;
i2c_write_bytes(i2c_client_point, GTP_READ_COOR_ADDR, buf, 1);
//0x8040 write 0 for leaving rawdata/diff access mode
buf[0] = 0;
i2c_write_bytes(i2c_client_point, GTP_REG_SLEEP, buf, 1);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
kfree(buf);
*eof = 1;
return (ptr - page);
}
static int tpd_i2c_probe(struct i2c_client *client, const struct i2c_device_id *id)
{
int err = 0;
TPD_DEBUG("ft5316 tpd_i2c_probe\n");
if (ft5316_i2c_client != NULL)
return 1;
ft5316_i2c_client = client;
TPD_DEBUG("ft5316_i2c_client addr ==== %X \n", ft5316_i2c_client->addr);
tinno_tp_power_off();
tinno_tp_power_on();
int i = 0;
while(i++ <5){
err=tinno_ts_get_fw_version();
TPD_DEBUG("Product version ==== %X \n", panel_version);
if(err > 0)
break;
else
continue;
}
if ( err < 0 ){
TPD_DEBUG("Product version %X is invalid.\n", panel_version);
goto err_detect_failed;
}
tpd_load_status = 1;
/* added in android 2.2, for configuring EINT2 */
mt_set_gpio_mode(TPIO_EINT, GPIO_CTP_EINT_PIN_M_EINT);
mt_set_gpio_pull_enable(TPIO_EINT, GPIO_PULL_ENABLE);
mt_set_gpio_pull_select(TPIO_EINT,GPIO_PULL_UP);
mt65xx_eint_set_sens(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_SENSITIVE);
mt65xx_eint_set_hw_debounce(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_CN);
mt65xx_eint_registration(CUST_EINT_TOUCH_PANEL_NUM, CUST_EINT_TOUCH_PANEL_DEBOUNCE_EN, CUST_EINT_TOUCH_PANEL_POLARITY, tpd_eint_interrupt_handler, 1);
mt65xx_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM);
mutex_init(&tp_mutex);
#ifdef CONFIG_TOUCHSCREEN_FT5X05_SUPPORT_ISP
magnum_fts_isp_register(ft5316_i2c_client);
#endif/*CONFIG_TOUCHSCREEN_FT5X05_SUPPORT_ISP*/
tpd_status = 1;
thread = kthread_run(touch_event_handler, 0, TPD_DEVICE);
if (IS_ERR(thread)) {
err = PTR_ERR(thread);
TPD_DEBUG(TPD_DEVICE " failed to create kernel thread: %d\n", err);
}
//edit by Magnum 2012-12-25
#ifdef TP_AUTO_UPGRADE
focaltech_auto_upgrade();
#endif
TPD_DEBUG("tpd_i2c_probe OK\n");
return 0;
err_detect_failed:
TPD_DEBUG("tpd_i2c_probe ERROR\n");
ft5316_i2c_client = NULL;
tinno_tp_power_off();
return 1;
}
