diff options
Diffstat (limited to 'drivers/mxc/adc/imx_adc.c')
-rw-r--r-- | drivers/mxc/adc/imx_adc.c | 1134 |
1 files changed, 1134 insertions, 0 deletions
diff --git a/drivers/mxc/adc/imx_adc.c b/drivers/mxc/adc/imx_adc.c new file mode 100644 index 000000000000..56538e79e2a0 --- /dev/null +++ b/drivers/mxc/adc/imx_adc.c @@ -0,0 +1,1134 @@ +/* + * Copyright 2009-2010 Freescale Semiconductor, Inc. All Rights Reserved. + */ + +/* + * The code contained herein is licensed under the GNU General Public + * License. You may obtain a copy of the GNU General Public License + * Version 2 or later at the following locations: + * + * http://www.opensource.org/licenses/gpl-license.html + * http://www.gnu.org/copyleft/gpl.html + */ + +/*! + * @file adc/imx_adc.c + * @brief This is the main file of i.MX ADC driver. + * + * @ingroup IMX_ADC + */ + +/* + * Includes + */ + +#include <linux/slab.h> +#include <linux/clk.h> +#include <linux/delay.h> +#include <linux/device.h> +#include <linux/interrupt.h> +#include <linux/io.h> +#include <linux/platform_device.h> +#include <linux/poll.h> +#include <linux/sched.h> +#include <linux/time.h> +#include <linux/wait.h> +#include <linux/imx_adc.h> +#include "imx_adc_reg.h" + +static int imx_adc_major; + +/*! + * Number of users waiting in suspendq + */ +static int swait; + +/*! + * To indicate whether any of the adc devices are suspending + */ +static int suspend_flag; + +/*! + * The suspendq is used by blocking application calls + */ +static wait_queue_head_t suspendq; +static wait_queue_head_t tsq; + +static bool imx_adc_ready; +static bool ts_data_ready; +static int tsi_data = TSI_DATA; +static unsigned short ts_data_buf[16]; + +static struct class *imx_adc_class; +static struct imx_adc_data *adc_data; + +static DECLARE_MUTEX(general_convert_mutex); +static DECLARE_MUTEX(ts_convert_mutex); + +unsigned long tsc_base; + +int is_imx_adc_ready(void) +{ + return imx_adc_ready; +} +EXPORT_SYMBOL(is_imx_adc_ready); + +void tsc_clk_enable(void) +{ + unsigned long reg; + + clk_enable(adc_data->adc_clk); + + reg = __raw_readl(tsc_base + TGCR); + reg |= TGCR_IPG_CLK_EN; + __raw_writel(reg, tsc_base + TGCR); +} + +void tsc_clk_disable(void) +{ + unsigned long reg; + + clk_disable(adc_data->adc_clk); + + reg = __raw_readl(tsc_base + TGCR); + reg &= ~TGCR_IPG_CLK_EN; + __raw_writel(reg, tsc_base + TGCR); +} + +void tsc_self_reset(void) +{ + unsigned long reg; + + reg = __raw_readl(tsc_base + TGCR); + reg |= TGCR_TSC_RST; + __raw_writel(reg, tsc_base + TGCR); + + while (__raw_readl(tsc_base + TGCR) & TGCR_TSC_RST) + continue; +} + +/* Internal reference */ +void tsc_intref_enable(void) +{ + unsigned long reg; + + reg = __raw_readl(tsc_base + TGCR); + reg |= TGCR_INTREFEN; + __raw_writel(reg, tsc_base + TGCR); +} + +/* initialize touchscreen */ +void imx_tsc_init(void) +{ + unsigned long reg; + int lastitemid; + + /* Level sense */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_PD_CFG; /* edge sensitive */ + reg |= (0xf << CQCR_FIFOWATERMARK_SHIFT); /* watermark */ + __raw_writel(reg, tsc_base + TCQCR); + + /* Configure 4-wire */ + reg = TSC_4WIRE_PRECHARGE; + reg |= CC_IGS; + __raw_writel(reg, tsc_base + TCC0); + + reg = TSC_4WIRE_TOUCH_DETECT; + reg |= 3 << CC_NOS_SHIFT; /* 4 samples */ + reg |= 32 << CC_SETTLING_TIME_SHIFT; /* it's important! */ + __raw_writel(reg, tsc_base + TCC1); + + reg = TSC_4WIRE_X_MEASUMENT; + reg |= 3 << CC_NOS_SHIFT; /* 4 samples */ + reg |= 16 << CC_SETTLING_TIME_SHIFT; /* settling time */ + __raw_writel(reg, tsc_base + TCC2); + + reg = TSC_4WIRE_Y_MEASUMENT; + reg |= 3 << CC_NOS_SHIFT; /* 4 samples */ + reg |= 16 << CC_SETTLING_TIME_SHIFT; /* settling time */ + __raw_writel(reg, tsc_base + TCC3); + + reg = (TCQ_ITEM_TCC0 << TCQ_ITEM7_SHIFT) | + (TCQ_ITEM_TCC0 << TCQ_ITEM6_SHIFT) | + (TCQ_ITEM_TCC1 << TCQ_ITEM5_SHIFT) | + (TCQ_ITEM_TCC0 << TCQ_ITEM4_SHIFT) | + (TCQ_ITEM_TCC3 << TCQ_ITEM3_SHIFT) | + (TCQ_ITEM_TCC2 << TCQ_ITEM2_SHIFT) | + (TCQ_ITEM_TCC1 << TCQ_ITEM1_SHIFT) | + (TCQ_ITEM_TCC0 << TCQ_ITEM0_SHIFT); + __raw_writel(reg, tsc_base + TCQ_ITEM_7_0); + + lastitemid = 5; + reg = __raw_readl(tsc_base + TCQCR); + reg = (reg & ~CQCR_LAST_ITEM_ID_MASK) | + (lastitemid << CQCR_LAST_ITEM_ID_SHIFT); + __raw_writel(reg, tsc_base + TCQCR); + + /* Config idle for 4-wire */ + reg = TSC_4WIRE_PRECHARGE; + __raw_writel(reg, tsc_base + TICR); + + reg = TSC_4WIRE_TOUCH_DETECT; + __raw_writel(reg, tsc_base + TICR); + + /* pen down mask */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_PD_MSK; + __raw_writel(reg, tsc_base + TCQCR); + reg = __raw_readl(tsc_base + TCQMR); + reg &= ~TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + + /* Debounce time = dbtime*8 adc clock cycles */ + reg = __raw_readl(tsc_base + TGCR); + reg &= ~TGCR_PDBTIME_MASK; + reg |= TGCR_PDBTIME128 | TGCR_HSYNC_EN; + __raw_writel(reg, tsc_base + TGCR); + + /* pen down enable */ + reg = __raw_readl(tsc_base + TGCR); + reg |= TGCR_PDB_EN; + __raw_writel(reg, tsc_base + TGCR); + reg |= TGCR_PD_EN; + __raw_writel(reg, tsc_base + TGCR); +} + +static irqreturn_t imx_adc_interrupt(int irq, void *dev_id) +{ + unsigned long reg; + + if (__raw_readl(tsc_base + TGSR) & 0x4) { + /* deep sleep wakeup interrupt */ + /* clear tgsr */ + __raw_writel(0, tsc_base + TGSR); + /* clear deep sleep wakeup irq */ + reg = __raw_readl(tsc_base + TGCR); + reg &= ~TGCR_SLPC; + __raw_writel(reg, tsc_base + TGCR); + /* un-mask pen down and pen down irq */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_PD_MSK; + __raw_writel(reg, tsc_base + TCQCR); + reg = __raw_readl(tsc_base + TCQMR); + reg &= ~TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + } else if ((__raw_readl(tsc_base + TGSR) & 0x1) && + (__raw_readl(tsc_base + TCQSR) & 0x1)) { + + /* mask pen down detect irq */ + reg = __raw_readl(tsc_base + TCQMR); + reg |= TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + + ts_data_ready = 1; + wake_up_interruptible(&tsq); + } + return IRQ_HANDLED; +} + +enum IMX_ADC_STATUS imx_adc_read_general(unsigned short *result) +{ + unsigned long reg; + unsigned int data_num = 0; + + reg = __raw_readl(tsc_base + GCQCR); + reg |= CQCR_FQS; + __raw_writel(reg, tsc_base + GCQCR); + + while (!(__raw_readl(tsc_base + GCQSR) & CQSR_EOQ)) + continue; + reg = __raw_readl(tsc_base + GCQCR); + reg &= ~CQCR_FQS; + __raw_writel(reg, tsc_base + GCQCR); + reg = __raw_readl(tsc_base + GCQSR); + reg |= CQSR_EOQ; + __raw_writel(reg, tsc_base + GCQSR); + + while (!(__raw_readl(tsc_base + GCQSR) & CQSR_EMPT)) { + result[data_num] = __raw_readl(tsc_base + GCQFIFO) >> + GCQFIFO_ADCOUT_SHIFT; + data_num++; + } + return IMX_ADC_SUCCESS; +} + +/*! + * This function will get raw (X,Y) value by converting the voltage + * @param touch_sample Pointer to touch sample + * + * return This funciton returns 0 if successful. + * + * + */ +enum IMX_ADC_STATUS imx_adc_read_ts(struct t_touch_screen *touch_sample, + int wait_tsi) +{ + unsigned long reg; + int data_num = 0; + int detect_sample1, detect_sample2; + + memset(ts_data_buf, 0, sizeof ts_data_buf); + touch_sample->valid_flag = 1; + + if (wait_tsi) { + /* Config idle for 4-wire */ + reg = TSC_4WIRE_TOUCH_DETECT; + __raw_writel(reg, tsc_base + TICR); + + /* Pen interrupt starts new conversion queue */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + reg |= CQCR_QSM_PEN; + __raw_writel(reg, tsc_base + TCQCR); + + /* unmask pen down detect irq */ + reg = __raw_readl(tsc_base + TCQMR); + reg &= ~TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + + wait_event_interruptible(tsq, ts_data_ready); + while (!(__raw_readl(tsc_base + TCQSR) & CQSR_EOQ)) + continue; + + /* stop the conversion */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + __raw_writel(reg, tsc_base + TCQCR); + reg = CQSR_PD | CQSR_EOQ; + __raw_writel(reg, tsc_base + TCQSR); + + /* change configuration for FQS mode */ + tsi_data = TSI_DATA; + reg = (0x1 << CC_YPLLSW_SHIFT) | (0x1 << CC_XNURSW_SHIFT) | + CC_XPULSW; + __raw_writel(reg, tsc_base + TICR); + } else { + /* FQS semaphore */ + down(&ts_convert_mutex); + + reg = (0x1 << CC_YPLLSW_SHIFT) | (0x1 << CC_XNURSW_SHIFT) | + CC_XPULSW; + __raw_writel(reg, tsc_base + TICR); + + /* FQS */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + reg |= CQCR_QSM_FQS; + __raw_writel(reg, tsc_base + TCQCR); + reg = __raw_readl(tsc_base + TCQCR); + reg |= CQCR_FQS; + __raw_writel(reg, tsc_base + TCQCR); + while (!(__raw_readl(tsc_base + TCQSR) & CQSR_EOQ)) + continue; + + /* stop FQS */ + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + __raw_writel(reg, tsc_base + TCQCR); + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_FQS; + __raw_writel(reg, tsc_base + TCQCR); + + /* clear status bit */ + reg = __raw_readl(tsc_base + TCQSR); + reg |= CQSR_EOQ; + __raw_writel(reg, tsc_base + TCQSR); + tsi_data = FQS_DATA; + + /* Config idle for 4-wire */ + reg = TSC_4WIRE_PRECHARGE; + __raw_writel(reg, tsc_base + TICR); + + reg = TSC_4WIRE_TOUCH_DETECT; + __raw_writel(reg, tsc_base + TICR); + + } + + while (!(__raw_readl(tsc_base + TCQSR) & CQSR_EMPT)) { + reg = __raw_readl(tsc_base + TCQFIFO); + ts_data_buf[data_num] = reg; + data_num++; + } + + touch_sample->x_position1 = ts_data_buf[4] >> 4; + touch_sample->x_position2 = ts_data_buf[5] >> 4; + touch_sample->x_position3 = ts_data_buf[6] >> 4; + touch_sample->y_position1 = ts_data_buf[9] >> 4; + touch_sample->y_position2 = ts_data_buf[10] >> 4; + touch_sample->y_position3 = ts_data_buf[11] >> 4; + + detect_sample1 = ts_data_buf[0]; + detect_sample2 = ts_data_buf[12]; + + if ((detect_sample1 > 0x6000) || (detect_sample2 > 0x6000)) + touch_sample->valid_flag = 0; + + ts_data_ready = 0; + + if (!(touch_sample->x_position1 || + touch_sample->x_position2 || touch_sample->x_position3)) + touch_sample->contact_resistance = 0; + else + touch_sample->contact_resistance = 1; + + if (tsi_data == FQS_DATA) + up(&ts_convert_mutex); + return IMX_ADC_SUCCESS; +} + +/*! + * This function performs filtering and rejection of excessive noise prone + * sampl. + * + * @param ts_curr Touch screen value + * + * @return This function returns 0 on success, -1 otherwise. + */ +static int imx_adc_filter(struct t_touch_screen *ts_curr) +{ + + unsigned int ydiff1, ydiff2, ydiff3, xdiff1, xdiff2, xdiff3; + unsigned int sample_sumx, sample_sumy; + static unsigned int prev_x[FILTLEN], prev_y[FILTLEN]; + int index = 0; + unsigned int y_curr, x_curr; + static int filt_count; + /* Added a variable filt_type to decide filtering at run-time */ + unsigned int filt_type = 0; + + /* ignore the data converted when pen down and up */ + if ((ts_curr->contact_resistance == 0) || tsi_data == TSI_DATA) { + ts_curr->x_position = 0; + ts_curr->y_position = 0; + filt_count = 0; + return 0; + } + /* ignore the data valid */ + if (ts_curr->valid_flag == 0) + return -1; + + ydiff1 = abs(ts_curr->y_position1 - ts_curr->y_position2); + ydiff2 = abs(ts_curr->y_position2 - ts_curr->y_position3); + ydiff3 = abs(ts_curr->y_position1 - ts_curr->y_position3); + if ((ydiff1 > DELTA_Y_MAX) || + (ydiff2 > DELTA_Y_MAX) || (ydiff3 > DELTA_Y_MAX)) { + pr_debug("imx_adc_filter: Ret pos 1\n"); + return -1; + } + + xdiff1 = abs(ts_curr->x_position1 - ts_curr->x_position2); + xdiff2 = abs(ts_curr->x_position2 - ts_curr->x_position3); + xdiff3 = abs(ts_curr->x_position1 - ts_curr->x_position3); + + if ((xdiff1 > DELTA_X_MAX) || + (xdiff2 > DELTA_X_MAX) || (xdiff3 > DELTA_X_MAX)) { + pr_debug("imx_adc_filter: Ret pos 2\n"); + return -1; + } + /* Compute two closer values among the three available Y readouts */ + + if (ydiff1 < ydiff2) { + if (ydiff1 < ydiff3) { + /* Sample 0 & 1 closest together */ + sample_sumy = ts_curr->y_position1 + + ts_curr->y_position2; + } else { + /* Sample 0 & 2 closest together */ + sample_sumy = ts_curr->y_position1 + + ts_curr->y_position3; + } + } else { + if (ydiff2 < ydiff3) { + /* Sample 1 & 2 closest together */ + sample_sumy = ts_curr->y_position2 + + ts_curr->y_position3; + } else { + /* Sample 0 & 2 closest together */ + sample_sumy = ts_curr->y_position1 + + ts_curr->y_position3; + } + } + + /* + * Compute two closer values among the three available X + * readouts + */ + if (xdiff1 < xdiff2) { + if (xdiff1 < xdiff3) { + /* Sample 0 & 1 closest together */ + sample_sumx = ts_curr->x_position1 + + ts_curr->x_position2; + } else { + /* Sample 0 & 2 closest together */ + sample_sumx = ts_curr->x_position1 + + ts_curr->x_position3; + } + } else { + if (xdiff2 < xdiff3) { + /* Sample 1 & 2 closest together */ + sample_sumx = ts_curr->x_position2 + + ts_curr->x_position3; + } else { + /* Sample 0 & 2 closest together */ + sample_sumx = ts_curr->x_position1 + + ts_curr->x_position3; + } + } + + /* + * Wait FILTER_MIN_DELAY number of samples to restart + * filtering + */ + if (filt_count < FILTER_MIN_DELAY) { + /* + * Current output is the average of the two closer + * values and no filtering is used + */ + y_curr = (sample_sumy / 2); + x_curr = (sample_sumx / 2); + ts_curr->y_position = y_curr; + ts_curr->x_position = x_curr; + filt_count++; + + } else { + if (abs(sample_sumx - (prev_x[0] + prev_x[1])) > + (DELTA_X_MAX * 16)) { + pr_debug("imx_adc_filter: : Ret pos 3\n"); + return -1; + } + if (abs(sample_sumy - (prev_y[0] + prev_y[1])) > + (DELTA_Y_MAX * 16)) { + pr_debug("imx_adc_filter: : Ret pos 4\n"); + return -1; + } + sample_sumy /= 2; + sample_sumx /= 2; + /* Use hard filtering if the sample difference < 10 */ + if ((abs(sample_sumy - prev_y[0]) > 10) || + (abs(sample_sumx - prev_x[0]) > 10)) + filt_type = 1; + + /* + * Current outputs are the average of three previous + * values and the present readout + */ + y_curr = sample_sumy; + for (index = 0; index < FILTLEN; index++) { + if (filt_type == 0) + y_curr = y_curr + (prev_y[index]); + else + y_curr = y_curr + (prev_y[index] / 3); + } + if (filt_type == 0) + y_curr = y_curr >> 2; + else + y_curr = y_curr >> 1; + ts_curr->y_position = y_curr; + + x_curr = sample_sumx; + for (index = 0; index < FILTLEN; index++) { + if (filt_type == 0) + x_curr = x_curr + (prev_x[index]); + else + x_curr = x_curr + (prev_x[index] / 3); + } + if (filt_type == 0) + x_curr = x_curr >> 2; + else + x_curr = x_curr >> 1; + ts_curr->x_position = x_curr; + + } + + /* Update previous X and Y values */ + for (index = (FILTLEN - 1); index > 0; index--) { + prev_x[index] = prev_x[index - 1]; + prev_y[index] = prev_y[index - 1]; + } + + /* + * Current output will be the most recent past for the + * next sample + */ + prev_y[0] = y_curr; + prev_x[0] = x_curr; + + return 0; + +} + +/*! + * This function retrieves the current touch screen (X,Y) coordinates. + * + * @param touch_sample Pointer to touch sample. + * + * @return This function returns IMX_ADC_SUCCESS if successful. + */ +enum IMX_ADC_STATUS imx_adc_get_touch_sample(struct t_touch_screen + *touch_sample, int wait_tsi) +{ + if (imx_adc_read_ts(touch_sample, wait_tsi)) + return IMX_ADC_ERROR; + if (!imx_adc_filter(touch_sample)) + return IMX_ADC_SUCCESS; + else + return IMX_ADC_ERROR; +} +EXPORT_SYMBOL(imx_adc_get_touch_sample); + +void imx_adc_set_hsync(int on) +{ + unsigned long reg; + if (imx_adc_ready) { + reg = __raw_readl(tsc_base + TGCR); + if (on) + reg |= TGCR_HSYNC_EN; + else + reg &= ~TGCR_HSYNC_EN; + __raw_writel(reg, tsc_base + TGCR); + } +} +EXPORT_SYMBOL(imx_adc_set_hsync); + +/*! + * This is the suspend of power management for the i.MX ADC API. + * It supports SAVE and POWER_DOWN state. + * + * @param pdev the device + * @param state the state + * + * @return This function returns 0 if successful. + */ +static int imx_adc_suspend(struct platform_device *pdev, pm_message_t state) +{ + unsigned long reg; + + /* Config idle for 4-wire */ + reg = TSC_4WIRE_PRECHARGE; + __raw_writel(reg, tsc_base + TICR); + + reg = TSC_4WIRE_TOUCH_DETECT; + __raw_writel(reg, tsc_base + TICR); + + /* enable deep sleep wake up */ + reg = __raw_readl(tsc_base + TGCR); + reg |= TGCR_SLPC; + __raw_writel(reg, tsc_base + TGCR); + + /* mask pen down and pen down irq */ + reg = __raw_readl(tsc_base + TCQCR); + reg |= CQCR_PD_MSK; + __raw_writel(reg, tsc_base + TCQCR); + reg = __raw_readl(tsc_base + TCQMR); + reg |= TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + + /* Set power mode to off */ + reg = __raw_readl(tsc_base + TGCR) & ~TGCR_POWER_MASK; + reg |= TGCR_POWER_OFF; + __raw_writel(reg, tsc_base + TGCR); + + if (device_may_wakeup(&pdev->dev)) { + enable_irq_wake(adc_data->irq); + } else { + suspend_flag = 1; + tsc_clk_disable(); + } + return 0; +}; + +/*! + * This is the resume of power management for the i.MX adc API. + * It supports RESTORE state. + * + * @param pdev the device + * + * @return This function returns 0 if successful. + */ +static int imx_adc_resume(struct platform_device *pdev) +{ + unsigned long reg; + + if (device_may_wakeup(&pdev->dev)) { + disable_irq_wake(adc_data->irq); + } else { + suspend_flag = 0; + tsc_clk_enable(); + while (swait > 0) { + swait--; + wake_up_interruptible(&suspendq); + } + } + + /* recover power mode */ + reg = __raw_readl(tsc_base + TGCR) & ~TGCR_POWER_MASK; + reg |= TGCR_POWER_SAVE; + __raw_writel(reg, tsc_base + TGCR); + + return 0; +} + +/*! + * This function implements the open method on an i.MX ADC device. + * + * @param inode pointer on the node + * @param file pointer on the file + * @return This function returns 0. + */ +static int imx_adc_open(struct inode *inode, struct file *file) +{ + while (suspend_flag) { + swait++; + /* Block if the device is suspended */ + if (wait_event_interruptible(suspendq, !suspend_flag)) + return -ERESTARTSYS; + } + pr_debug("imx_adc : imx_adc_open()\n"); + return 0; +} + +/*! + * This function implements the release method on an i.MX ADC device. + * + * @param inode pointer on the node + * @param file pointer on the file + * @return This function returns 0. + */ +static int imx_adc_free(struct inode *inode, struct file *file) +{ + pr_debug("imx_adc : imx_adc_free()\n"); + return 0; +} + +/*! + * This function initializes all ADC registers with default values. This + * function also registers the interrupt events. + * + * @return This function returns IMX_ADC_SUCCESS if successful. + */ +int imx_adc_init(void) +{ + unsigned long reg; + + pr_debug("imx_adc_init()\n"); + + if (suspend_flag) + return -EBUSY; + + tsc_clk_enable(); + + /* Reset */ + tsc_self_reset(); + + /* Internal reference */ + tsc_intref_enable(); + + /* Set power mode */ + reg = __raw_readl(tsc_base + TGCR) & ~TGCR_POWER_MASK; + reg |= TGCR_POWER_SAVE; + __raw_writel(reg, tsc_base + TGCR); + + imx_tsc_init(); + + return IMX_ADC_SUCCESS; +} +EXPORT_SYMBOL(imx_adc_init); + +/*! + * This function disables the ADC, de-registers the interrupt events. + * + * @return This function returns IMX_ADC_SUCCESS if successful. + */ +enum IMX_ADC_STATUS imx_adc_deinit(void) +{ + pr_debug("imx_adc_deinit()\n"); + + return IMX_ADC_SUCCESS; +} +EXPORT_SYMBOL(imx_adc_deinit); + +/*! + * This function triggers a conversion and returns one sampling result of one + * channel. + * + * @param channel The channel to be sampled + * @param result The pointer to the conversion result. The memory + * should be allocated by the caller of this function. + * + * @return This function returns IMX_ADC_SUCCESS if successful. + */ +enum IMX_ADC_STATUS imx_adc_convert(enum t_channel channel, + unsigned short *result) +{ + unsigned long reg; + int lastitemid; + struct t_touch_screen touch_sample; + + switch (channel) { + + case TS_X_POS: + imx_adc_get_touch_sample(&touch_sample, 0); + result[0] = touch_sample.x_position; + + /* if no pen down ,recover the register configuration */ + if (touch_sample.contact_resistance == 0) { + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + reg |= CQCR_QSM_PEN; + __raw_writel(reg, tsc_base + TCQCR); + + reg = __raw_readl(tsc_base + TCQMR); + reg &= ~TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + } + break; + + case TS_Y_POS: + imx_adc_get_touch_sample(&touch_sample, 0); + result[1] = touch_sample.y_position; + + /* if no pen down ,recover the register configuration */ + if (touch_sample.contact_resistance == 0) { + reg = __raw_readl(tsc_base + TCQCR); + reg &= ~CQCR_QSM_MASK; + reg |= CQCR_QSM_PEN; + __raw_writel(reg, tsc_base + TCQCR); + + reg = __raw_readl(tsc_base + TCQMR); + reg &= ~TCQMR_PD_IRQ_MSK; + __raw_writel(reg, tsc_base + TCQMR); + } + break; + + case GER_PURPOSE_ADC0: + down(&general_convert_mutex); + + lastitemid = 0; + reg = (0xf << CQCR_FIFOWATERMARK_SHIFT) | + (lastitemid << CQCR_LAST_ITEM_ID_SHIFT) | CQCR_QSM_FQS; + __raw_writel(reg, tsc_base + GCQCR); + + reg = TSC_GENERAL_ADC_GCC0; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC0); + + imx_adc_read_general(result); + up(&general_convert_mutex); + break; + + case GER_PURPOSE_ADC1: + down(&general_convert_mutex); + + lastitemid = 0; + reg = (0xf << CQCR_FIFOWATERMARK_SHIFT) | + (lastitemid << CQCR_LAST_ITEM_ID_SHIFT) | CQCR_QSM_FQS; + __raw_writel(reg, tsc_base + GCQCR); + + reg = TSC_GENERAL_ADC_GCC1; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC0); + + imx_adc_read_general(result); + up(&general_convert_mutex); + break; + + case GER_PURPOSE_ADC2: + down(&general_convert_mutex); + + lastitemid = 0; + reg = (0xf << CQCR_FIFOWATERMARK_SHIFT) | + (lastitemid << CQCR_LAST_ITEM_ID_SHIFT) | CQCR_QSM_FQS; + __raw_writel(reg, tsc_base + GCQCR); + + reg = TSC_GENERAL_ADC_GCC2; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC0); + + imx_adc_read_general(result); + up(&general_convert_mutex); + break; + + case GER_PURPOSE_MULTICHNNEL: + down(&general_convert_mutex); + + reg = TSC_GENERAL_ADC_GCC0; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC0); + + reg = TSC_GENERAL_ADC_GCC1; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC1); + + reg = TSC_GENERAL_ADC_GCC2; + reg |= (3 << CC_NOS_SHIFT) | (16 << CC_SETTLING_TIME_SHIFT); + __raw_writel(reg, tsc_base + GCC2); + + reg = (GCQ_ITEM_GCC2 << GCQ_ITEM2_SHIFT) | + (GCQ_ITEM_GCC1 << GCQ_ITEM1_SHIFT) | + (GCQ_ITEM_GCC0 << GCQ_ITEM0_SHIFT); + __raw_writel(reg, tsc_base + GCQ_ITEM_7_0); + + lastitemid = 2; + reg = (0xf << CQCR_FIFOWATERMARK_SHIFT) | + (lastitemid << CQCR_LAST_ITEM_ID_SHIFT) | CQCR_QSM_FQS; + __raw_writel(reg, tsc_base + GCQCR); + + imx_adc_read_general(result); + up(&general_convert_mutex); + break; + default: + pr_debug("%s: bad channel number\n", __func__); + return IMX_ADC_ERROR; + } + + return IMX_ADC_SUCCESS; +} +EXPORT_SYMBOL(imx_adc_convert); + +/*! + * This function triggers a conversion and returns sampling results of each + * specified channel. + * + * @param channels This input parameter is bitmap to specify channels + * to be sampled. + * @param result The pointer to array to store sampling results. + * The memory should be allocated by the caller of this + * function. + * + * @return This function returns IMX_ADC_SUCCESS if successful. + */ +enum IMX_ADC_STATUS imx_adc_convert_multichnnel(enum t_channel channels, + unsigned short *result) +{ + imx_adc_convert(GER_PURPOSE_MULTICHNNEL, result); + return IMX_ADC_SUCCESS; +} +EXPORT_SYMBOL(imx_adc_convert_multichnnel); + +/*! + * This function implements IOCTL controls on an i.MX ADC device. + * + * @param inode pointer on the node + * @param file pointer on the file + * @param cmd the command + * @param arg the parameter + * @return This function returns 0 if successful. + */ +static int imx_adc_ioctl(struct inode *inode, struct file *file, + unsigned int cmd, unsigned long arg) +{ + struct t_adc_convert_param *convert_param; + + if ((_IOC_TYPE(cmd) != 'p') && (_IOC_TYPE(cmd) != 'D')) + return -ENOTTY; + + while (suspend_flag) { + swait++; + /* Block if the device is suspended */ + if (wait_event_interruptible(suspendq, !suspend_flag)) + return -ERESTARTSYS; + } + + switch (cmd) { + case IMX_ADC_INIT: + pr_debug("init adc\n"); + CHECK_ERROR(imx_adc_init()); + break; + + case IMX_ADC_DEINIT: + pr_debug("deinit adc\n"); + CHECK_ERROR(imx_adc_deinit()); + break; + + case IMX_ADC_CONVERT: + convert_param = kmalloc(sizeof(*convert_param), GFP_KERNEL); + if (convert_param == NULL) + return -ENOMEM; + if (copy_from_user(convert_param, + (struct t_adc_convert_param *)arg, + sizeof(*convert_param))) { + kfree(convert_param); + return -EFAULT; + } + CHECK_ERROR_KFREE(imx_adc_convert(convert_param->channel, + convert_param->result), + (kfree(convert_param))); + + if (copy_to_user((struct t_adc_convert_param *)arg, + convert_param, sizeof(*convert_param))) { + kfree(convert_param); + return -EFAULT; + } + kfree(convert_param); + break; + + case IMX_ADC_CONVERT_MULTICHANNEL: + convert_param = kmalloc(sizeof(*convert_param), GFP_KERNEL); + if (convert_param == NULL) + return -ENOMEM; + if (copy_from_user(convert_param, + (struct t_adc_convert_param *)arg, + sizeof(*convert_param))) { + kfree(convert_param); + return -EFAULT; + } + CHECK_ERROR_KFREE(imx_adc_convert_multichnnel + (convert_param->channel, + convert_param->result), + (kfree(convert_param))); + + if (copy_to_user((struct t_adc_convert_param *)arg, + convert_param, sizeof(*convert_param))) { + kfree(convert_param); + return -EFAULT; + } + kfree(convert_param); + break; + + default: + pr_debug("imx_adc_ioctl: unsupported ioctl command 0x%x\n", + cmd); + return -EINVAL; + } + return 0; +} + +static struct file_operations imx_adc_fops = { + .owner = THIS_MODULE, + .ioctl = imx_adc_ioctl, + .open = imx_adc_open, + .release = imx_adc_free, +}; + +static int imx_adc_module_probe(struct platform_device *pdev) +{ + int ret = 0; + int retval; + struct device *temp_class; + struct resource *res; + void __iomem *base; + + /* ioremap the base address */ + res = platform_get_resource(pdev, IORESOURCE_MEM, 0); + if (res == NULL) { + dev_err(&pdev->dev, "No TSC base address provided\n"); + goto err_out0; + } + base = ioremap(res->start, res->end - res->start); + if (base == NULL) { + dev_err(&pdev->dev, "failed to rebase TSC base address\n"); + goto err_out0; + } + tsc_base = (unsigned long)base; + + /* create the chrdev */ + imx_adc_major = register_chrdev(0, "imx_adc", &imx_adc_fops); + + if (imx_adc_major < 0) { + dev_err(&pdev->dev, "Unable to get a major for imx_adc\n"); + return imx_adc_major; + } + init_waitqueue_head(&suspendq); + init_waitqueue_head(&tsq); + + imx_adc_class = class_create(THIS_MODULE, "imx_adc"); + if (IS_ERR(imx_adc_class)) { + dev_err(&pdev->dev, "Error creating imx_adc class.\n"); + ret = PTR_ERR(imx_adc_class); + goto err_out1; + } + + temp_class = device_create(imx_adc_class, NULL, + MKDEV(imx_adc_major, 0), NULL, "imx_adc"); + if (IS_ERR(temp_class)) { + dev_err(&pdev->dev, "Error creating imx_adc class device.\n"); + ret = PTR_ERR(temp_class); + goto err_out2; + } + + adc_data = kmalloc(sizeof(struct imx_adc_data), GFP_KERNEL); + if (adc_data == NULL) + return -ENOMEM; + adc_data->irq = platform_get_irq(pdev, 0); + retval = request_irq(adc_data->irq, imx_adc_interrupt, + 0, MOD_NAME, MOD_NAME); + if (retval) { + return retval; + } + adc_data->adc_clk = clk_get(&pdev->dev, "tchscrn_clk"); + + ret = imx_adc_init(); + + if (ret != IMX_ADC_SUCCESS) { + dev_err(&pdev->dev, "Error in imx_adc_init.\n"); + goto err_out4; + } + imx_adc_ready = 1; + + /* By default, devices should wakeup if they can */ + /* So TouchScreen is set as "should wakeup" as it can */ + device_init_wakeup(&pdev->dev, 1); + + pr_info("i.MX ADC at 0x%x irq %d\n", (unsigned int)res->start, + adc_data->irq); + return ret; + +err_out4: + device_destroy(imx_adc_class, MKDEV(imx_adc_major, 0)); +err_out2: + class_destroy(imx_adc_class); +err_out1: + unregister_chrdev(imx_adc_major, "imx_adc"); +err_out0: + return ret; +} + +static int imx_adc_module_remove(struct platform_device *pdev) +{ + imx_adc_ready = 0; + imx_adc_deinit(); + device_destroy(imx_adc_class, MKDEV(imx_adc_major, 0)); + class_destroy(imx_adc_class); + unregister_chrdev(imx_adc_major, "imx_adc"); + free_irq(adc_data->irq, MOD_NAME); + kfree(adc_data); + pr_debug("i.MX ADC successfully removed\n"); + return 0; +} + +static struct platform_driver imx_adc_driver = { + .driver = { + .name = "imx_adc", + }, + .suspend = imx_adc_suspend, + .resume = imx_adc_resume, + .probe = imx_adc_module_probe, + .remove = imx_adc_module_remove, +}; + +/* + * Initialization and Exit + */ +static int __init imx_adc_module_init(void) +{ + pr_debug("i.MX ADC driver loading...\n"); + return platform_driver_register(&imx_adc_driver); +} + +static void __exit imx_adc_module_exit(void) +{ + platform_driver_unregister(&imx_adc_driver); + pr_debug("i.MX ADC driver successfully unloaded\n"); +} + +/* + * Module entry points + */ + +module_init(imx_adc_module_init); +module_exit(imx_adc_module_exit); + +MODULE_DESCRIPTION("i.MX ADC device driver"); +MODULE_AUTHOR("Freescale Semiconductor, Inc."); +MODULE_LICENSE("GPL"); |