static void init_disp_comond(void)
{
unsigned char value;
//init pin.
printk("[%s][%d]\r\n",__FUNCTION__,__LINE__);
cs_pin = gp_gpio_request(MK_GPIO_INDEX(0,0,48,15), NULL ); //IOA15
data_pin = gp_gpio_request(MK_GPIO_INDEX(1,0,12,0), NULL ); //IOB0
clk_pin = gp_gpio_request(MK_GPIO_INDEX(1,0,13,1), NULL ); //IOB1
gp_gpio_set_output(cs_pin,1,0);
gp_gpio_set_output(data_pin,1,0);
gp_gpio_set_output(clk_pin,1,0);
sent_command(0x05,0x5f);
read_command(0x05,&value);
sent_command(0x05,0x1f);
read_command(0x05,&value);
sent_command(0x05,0x5f);
read_command(0x05,&value);
sent_command(0x2b,0x01);
read_command(0x2b,&value);
sent_command(0x00,0x09);
read_command(0x00,&value);
sent_command(0x01,0x9f);
read_command(0x01,&value);
//m-sent_command(0x03,0x60);
sent_command(0x03,0x2e);
read_command(0x03,&value);
//m-sent_command(0x0d,0x60);
sent_command(0x0d,0x50);
read_command(0x0d,&value);
//m-sent_command(0x04,0x1b);
sent_command(0x04,0x18);
read_command(0x04,&value);
sent_command(0x16,0x04);
read_command(0x16,&value);
gp_gpio_release(cs_pin);
gp_gpio_release(data_pin);
gp_gpio_release(clk_pin);
}
static void gpio_test_isr(void *data)
{
int p1 = (int)data;
int p2;
gp_gpio_enable_irq(p1, 0);
p2 = gp_gpio_request(MK_GPIO_INDEX(2,2,4,6), "gpio_test"); /* IOC6 */
gp_gpio_set_output(p2, 1, 1);
gp_gpio_release(p2);
printk("!!! gpio_test_isr\n");
}
static int gp_touchpad_request_gpio(void)
{
//int ret = 0;
//int value;
printk("begin to request gpio\n");
gp_touchpad_irq_data->gpiohd = gp_gpio_request(MK_GPIO_INDEX( touchpad_set_scl_channel, touchpad_set_scl_func, touchpad_set_scl_gid, touchpad_set_scl_pin ), "touchpad");
if(IS_ERR_VALUE(gp_touchpad_irq_data->gpiohd)){
DIAG_ERROR("touchpad request gpio clk = %d\n", gp_touchpad_irq_data->gpiohd);
return -EINVAL;
}
gp_gpio_set_function(gp_touchpad_irq_data->gpiohd, GPIO_FUNC_GPIO);
printk("touchpad set gpio function handle=0x%x\n",gp_touchpad_irq_data->gpiohd);
gp_gpio_set_direction(gp_touchpad_irq_data->gpiohd, GPIO_DIR_INPUT);
printk("touchpad set gpio direction\n");
return 0;
}
static int32_t
lcd_resume(
void
)
{
int32_t real_freq = 0;
gp_board_panel_t *lcd_power;
int handle;
gpio_content_t ctx;
printk("[%s:%d]\n", __FUNCTION__, __LINE__);
lcd_power = gp_board_get_config("panel", gp_board_panel_t);
gpHalDispSetDevType(HAL_DISP_DEV_LCD);
// set lcd source : XTAL(27MHZ)
gpHalClkLcdSetSrc(HAL_LCD_CLK_XTAL);
// Set lcd clock rate, must enable before lcd clk on
gp_clk_set_rate("clk_lcd", gPanelInfo.workFreq, &real_freq, NULL);
gpHalDispSetClkType(gPanelInfo.clkType);
#ifdef CONFIG_PM
gp_enable_clock((int*)"READLTIME_ABT", 1);
#endif
gpHalLcdClkEnable(1);
gpHalDispSetRes(gPanelInfo.width, gPanelInfo.height);
gpHalDispSetLcdVsync(gPanelInfo.vsync);
gpHalDispSetLcdHsync(gPanelInfo.hsync);
gpHalDispSetPanelFormat(gPanelInfo.format, gPanelInfo.type, gPanelInfo.dataSeqEven, gPanelInfo.dataSeqOdd);
gpHalDispSetClkPolarity(gPanelInfo.clkPolatiry);
lcd_power->set_panelpowerOn0(1); /* Power on VCC, VGL, AVDD, VGH */
ctx.pin_index = MK_GPIO_INDEX( PCLK_channel, PCLK_func, PCLK_gid, PCLK_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, PCLK_func );
gp_gpio_release( handle );
ctx.pin_index = MK_GPIO_INDEX( B_DATA_channel, B_DATA_func, B_DATA_gid, B_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, B_DATA_func );
gp_gpio_release( handle );
ctx.pin_index = MK_GPIO_INDEX( G_DATA_channel, G_DATA_func, G_DATA_gid, G_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, G_DATA_func );
gp_gpio_release( handle );
ctx.pin_index = MK_GPIO_INDEX( R_DATA_channel, R_DATA_func, R_DATA_gid, R_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, R_DATA_func );
gp_gpio_release( handle );
lcd_power->set_panelpowerOn1(1); /* Set LCD RESET to high */
/* Set dither */
disp_set_dither_type(gPanelInfo.ditherType);
disp_set_dither_param(gPanelInfo.pDitherParam);
disp_set_dither_enable(1);
/* Set color matrix */
disp_set_color_matrix(gPanelInfo.pColorMatrix);
/* Set gamma table */
disp_set_gamma_enable(0);
disp_set_gamma_table(SP_DISP_GAMMA_R, (uint8_t*) gPanelInfo.pGammaTable[SP_DISP_GAMMA_R]);
disp_set_gamma_table(SP_DISP_GAMMA_G, (uint8_t*) gPanelInfo.pGammaTable[SP_DISP_GAMMA_G]);
disp_set_gamma_table(SP_DISP_GAMMA_B, (uint8_t*) gPanelInfo.pGammaTable[SP_DISP_GAMMA_B]);
disp_set_gamma_enable(1);
gpHalDispSetPriDmaType(gPanelInfo.dmaType);
gpHalDispSetOsdDmaType(0, gPanelInfo.dmaType);
gpHalDispSetOsdDmaType(1, gPanelInfo.dmaType);
return 0;
}
static int32_t
lcd_suspend(
void
)
{
uint8_t white_gamma[256];
uint16_t i;
gp_board_panel_t *lcd_power;
int handle;
gpio_content_t ctx;
printk("[%s:%d]\n", __FUNCTION__, __LINE__);
lcd_power = gp_board_get_config("panel", gp_board_panel_t);
/* Set dither */
//disp_set_dither_type(gPanelInfo.ditherType);
//disp_set_dither_param(gPanelInfo.pDitherParam);
//disp_set_dither_enable(1);
/* Set color matrix */
//disp_set_color_matrix(gPanelInfo.pColorMatrix);
/* Set white gamma table */
for ( i = 0 ; i < 256 ; i++ ) {
white_gamma[i] = 0xff;
}
disp_set_gamma_enable(0);
disp_set_gamma_table(SP_DISP_GAMMA_R, (uint8_t*) white_gamma);
disp_set_gamma_table(SP_DISP_GAMMA_G, (uint8_t*) white_gamma);
disp_set_gamma_table(SP_DISP_GAMMA_B, (uint8_t*) white_gamma);
disp_set_gamma_enable(1);
//msleep(60);
disp_wait_frame_end();
disp_wait_frame_end();
//LCD_RST to Low
lcd_power->set_panelpowerOn1(0);
// Disable LCD bus
ctx.pin_index = MK_GPIO_INDEX( PCLK_channel, PCLK_GPIO, PCLK_gid, PCLK_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, PCLK_GPIO );
gp_gpio_release( handle );
for ( i = 0 ; i <= 10 ; i++ ) {
ctx.pin_index = MK_GPIO_INDEX( PCLK_channel, PCLK_GPIO, PCLK_gid, i );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_output( handle, 0, 0 );
gp_gpio_release( handle );
}
ctx.pin_index = MK_GPIO_INDEX( B_DATA_channel, B_DATA_GPIO, B_DATA_gid, B_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, B_DATA_GPIO );
gp_gpio_release( handle );
for ( i = 0 ; i <= 7 ; i++ ) {
ctx.pin_index = MK_GPIO_INDEX( B_DATA_channel, B_DATA_GPIO, B_DATA_gid, i );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_output( handle, 0, 0 );
gp_gpio_release( handle );
}
ctx.pin_index = MK_GPIO_INDEX( G_DATA_channel, G_DATA_GPIO, G_DATA_gid, G_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, G_DATA_GPIO );
gp_gpio_release( handle );
for ( i = 8 ; i <= 11 ; i++ ) {
ctx.pin_index = MK_GPIO_INDEX( G_DATA_channel, G_DATA_GPIO, G_DATA_gid, i );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_output( handle, 0, 0 );
gp_gpio_release( handle );
}
ctx.pin_index = MK_GPIO_INDEX( R_DATA_channel, R_DATA_GPIO, R_DATA_gid, R_DATA_pin );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_function( handle, R_DATA_GPIO );
gp_gpio_release( handle );
for ( i = 12 ; i <= 15 ; i++ ) {
ctx.pin_index = MK_GPIO_INDEX( R_DATA_channel, R_DATA_GPIO, R_DATA_gid, i );
handle = gp_gpio_request( ctx.pin_index, NULL );
gp_gpio_set_output( handle, 0, 0 );
gp_gpio_release( handle );
}
//VGH, AVDD, VGL, VCC to low
lcd_power->set_panelpowerOn0(0);
/* Disable lcd clock */
gpHalLcdClkEnable(0);
#ifdef CONFIG_PM
gp_enable_clock((int*)"READLTIME_ABT", 0);
#endif
return 0;
}
/**
* @brief Gpio device ioctl function
*/
static long gpio_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
{
long ret = 0;
int handle;
gpio_content_t ctx;
switch (cmd) {
case GPIO_IOCTL_SET_VALUE:
{
if (copy_from_user(&ctx, (void __user*)arg, sizeof(ctx)))
{
ret = -EFAULT;
break;
}
handle = gp_gpio_request(ctx.pin_index, NULL);
if (IS_ERR_VALUE(handle))
{
ret = (long)handle; /* gpio request error code */
break;
}
ret = gp_gpio_set_output(handle, ctx.value, 0);
gp_gpio_release(handle);
}
break;
case GPIO_IOCTL_GET_VALUE:
{
if (copy_from_user(&ctx, (void __user*)arg, sizeof(ctx)))
{
ret = -EFAULT;
break;
}
handle = gp_gpio_request(ctx.pin_index, NULL);
if (IS_ERR_VALUE(handle))
{
ret = (long)handle; /* gpio request error code */
break;
}
ret = gp_gpio_set_input(handle, GPIO_PULL_FLOATING);
if (ret == 0)
{
ret = gp_gpio_get_value(handle, &ctx.value);
if (ret == 0)
{
if (copy_to_user((void __user*)arg, &ctx, sizeof(ctx)))
{
ret = -EFAULT;
}
}
}
gp_gpio_release(handle);
}
break;
case GPIO_IOCTL_SET_INPUT:
{
if (copy_from_user(&ctx, (void __user*)arg, sizeof(ctx)))
{
ret = -EFAULT;
break;
}
handle = gp_gpio_request(ctx.pin_index, NULL);
if (IS_ERR_VALUE(handle))
{
ret = (long)handle; /* gpio request error code */
break;
}
ret = gp_gpio_set_input(handle, ctx.value);
gp_gpio_release(handle);
}
break;
case GPIO_IOCTL_IRQ_TEST:
{
if (copy_from_user(&ctx, (void __user*)arg, sizeof(ctx)))
{
ret = -EFAULT;
break;
}
handle = gp_gpio_request(ctx.pin_index, "gpio_irq_test");
if (IS_ERR_VALUE(handle))
{
ret = (long)handle; /* gpio request error code */
break;
}
ret = gp_gpio_set_input(handle, ctx.value);
if(ctx.value == 1)
gp_gpio_irq_property(handle, GPIO_IRQ_ACTIVE_FALING, NULL);//low triggle
else
gp_gpio_irq_property(handle, GPIO_IRQ_ACTIVE_RISING, NULL);//high triggle
gp_gpio_register_isr(handle, gpio_test_isr, (void *)handle);
}
break;
#ifdef GPIO_IOCTL_TEST
case GPIO_IOCTL_TEST:
{
static int p1 = 0;
int p2;
if (p1 == 0)
{
printk("--- gpio test begin!\n");
p2 = gp_gpio_request(MK_GPIO_INDEX(2,2,4,6), "gpio_test"); /* IOC6 */
gp_gpio_set_output(p2, 0, 1);
gp_gpio_release(p2);
p1 = gp_gpio_request(MK_GPIO_INDEX(2,2,4,5), "gpio_test"); /* IOC5 */
gp_gpio_set_input(p1, GPIO_PULL_LOW);
gp_gpio_irq_property(p1, GPIO_IRQ_LEVEL_TRIGGER|GPIO_IRQ_LEVEL_HIGH, NULL);
gp_gpio_register_isr(p1, gpio_test_isr, (void *)p1);
}
else
{
gp_gpio_unregister_isr(p1);
gp_gpio_release(p1);
p1 = 0;
printk("--- gpio test end!\n");
}
}
break;
#endif
default:
ret = -ENOTTY; /* Inappropriate ioctl for device */
break;
}
return ret;
}
