path: root/drivers/input/keyboard/cypress/issp_driver_routines.c

#include "issp_revision.h"
#ifdef PROJECT_REV_304
/* Copyright 2006-2007, Cypress Semiconductor Corporation.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONRTACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 Disclaimer: CYPRESS MAKES NO WARRANTY OF ANY KIND,EXPRESS OR IMPLIED,
 WITH REGARD TO THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 Cypress reserves the right to make changes without further notice to the
 materials described herein. Cypress does not assume any liability arising
 out of the application or use of any product or circuit described herein.
 Cypress does not authorize its products for use as critical components in
 life-support systems where a malfunction or failure may reasonably be
 expected to result in significant injury to the user. The inclusion of
 Cypress� product in a life-support systems application implies that the
 manufacturer assumes all risk of such use and in doing so indemnifies
 Cypress against all charges.

 Use may be limited by and subject to the applicable Cypress software
 license agreement.

--------------------------------------------------------------------------*/

#include <linux/module.h>

#include <linux/init.h>
#include <linux/fs.h>
#include <linux/i2c.h>
#include <linux/interrupt.h>
#include <linux/irq.h>
#include <linux/sched.h>
#include <linux/pm.h>
#include <linux/sysctl.h>
#include <linux/proc_fs.h>
#include <linux/delay.h>
#include <linux/platform_device.h>
#include <linux/input.h>
#include <linux/gpio.h>
#include <linux/miscdevice.h>
#include <linux/uaccess.h>
#include <linux/earlysuspend.h>
#include <linux/io.h>
#include <linux/hrtimer.h>

/*part specific constants and macros*/
/*mhsong    #include <m8c.h>*/
/*PSoC API definitions for all User Modules*/
/*mhsong    #include "PSoCAPI.h"*/
#include "issp_defs.h"
#include "issp_errors.h"
#include "issp_directives.h"
#include <linux/i2c/touchkey_i2c.h>

extern unsigned char bTargetDataPtr;
extern unsigned char abTargetDataOUT[TARGET_DATABUFF_LEN];

/* enable ldo11 */
extern struct touchkey_i2c *issp_tkey_i2c;

/* ****************************** PORT BIT MASKS ******************************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ***************************************************************************/
#define SDATA_PIN   0x80	/*P1.0 -> P1.4 */
#define SCLK_PIN    0x40	/*P1.1 -> P1.3 */
#define XRES_PIN    0x40	/*P2.0 -> P1.6 */
#define TARGET_VDD  0x08	/*P2.1 */

unsigned int nBlockCount = 1;	/*test, KIMC */

extern unsigned char firmware_data[];

/* ((((((((((((((((((((((( DEMO ISSP SUBROUTINE SECTION )))))))))))))))))))))))
* ((((( Demo Routines can be deleted in final ISSP project if not used   )))))
* ((((((((((((((((((((((((((((((((((((()))))))))))))))))))))))))))))))))))))*/

/* ============================================================================
* InitTargetTestData()
* !!!!!!!!!!!!!!!!!!FOR TEST!!!!!!!!!!!!!!!!!!!!!!!!!!
* PROCESSOR_SPECIFIC
* Loads a 64-Byte array to use as test data to program target. Ultimately,
* this data should be fed to the Host by some other means, ie: I2C, RS232,
* etc. Data should be derived from hex file.
*  Global variables affected:
*    bTargetDataPtr
*    abTargetDataOUT
* ==========================================================================*/
void InitTargetTestData(unsigned char bBlockNum, unsigned char bBankNum)
{
	/*create unique data for each block */
	for (bTargetDataPtr = 0; bTargetDataPtr < TARGET_DATABUFF_LEN;
	     bTargetDataPtr++) {
		abTargetDataOUT[bTargetDataPtr] = nBlockCount;
		/*abTargetDataOUT[bTargetDataPtr] =
			bTargetDataPtr
			+ bBlockNum
			+ bBankNum; */
	}
	nBlockCount++;
}

/* ============================================================================
* LoadArrayWithSecurityData()
* !!!!!!!!!!!!!!!!!!FOR TEST!!!!!!!!!!!!!!!!!!!!!!!!!!
* PROCESSOR_SPECIFIC
* Most likely this data will be fed to the Host by some other means, ie: I2C,
* RS232, etc., or will be fixed in the host. The security data should come
* from the hex file.
*   bStart  - the starting byte in the array for loading data
*   bLength - the number of byte to write into the array
*   bType   - the security data to write over the range defined by bStart and
*             bLength
* ==========================================================================*/
void LoadArrayWithSecurityData(unsigned char bStart, unsigned char bLength,
			       unsigned char bType)
{
	/*Now, write the desired security-bytes for the range specified */
	for (bTargetDataPtr = bStart; bTargetDataPtr < bLength;
	     bTargetDataPtr++) {
		abTargetDataOUT[bTargetDataPtr] = bType;
	}
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* Delay()
* This delay uses a simple "nop" loop. With the CPU running at 24MHz, each
* pass of the loop is about 1 usec plus an overhead of about 3 usec.
*      total delay = (n + 3) * 1 usec
* To adjust delays and to adapt delays when porting this application, see the
* ISSP_Delays.h file.
* ***************************************************************************/
void Delay(unsigned char n)
{
	udelay(n);
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* LoadProgramData()
* The final application should load program data from HEX file generated by
* PSoC Designer into a 64 byte host ram buffer.
*    1. Read data from next line in hex file into ram buffer. One record
*      (line) is 64 bytes of data.
*    2. Check host ram buffer + record data (Address, # of bytes) against hex
*       record checksum at end of record line
*    3. If error reread data from file or abort
*    4. Exit this Function and Program block or verify the block.
* This demo program will, instead, load predetermined data into each block.
* The demo does it this way because there is no comm link to get data.
* ***************************************************************************/
void LoadProgramData(unsigned char bBlockNum, unsigned char bBankNum)
{
	/* >>> The following call is for demo use only. <<<
	   Function InitTargetTestData fills buffer for demo
	   InitTargetTestData(bBlockNum, bBankNum);
	   create unique data for each block */
	int dataNum = 0;
	for (dataNum = 0; dataNum < TARGET_DATABUFF_LEN; dataNum++) {
		abTargetDataOUT[dataNum] =
		    firmware_data[bBlockNum * TARGET_DATABUFF_LEN + dataNum];
		/*abTargetDataOUT[bTargetDataPtr] =
			bTargetDataPtr + bBlockNum + bBankNum; */
	}

	/* Note:
	   Error checking should be added for the final version as noted above.
	   For demo use this function just returns VOID. */
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
 *****************************************************************************
 *****                        PROCESSOR SPECIFIC                          ****
 *****************************************************************************
 *****                      USER ATTENTION REQUIRED                       ****
 *****************************************************************************
 *fLoadSecurityData()
 *Load security data from hex file into 64 byte host ram buffer. In a fully
 *functional program (not a demo) this routine should do the following:
 *   1. Read data from security record in hex file into ram buffer.
 *   2. Check host ram buffer + record data (Address, # of bytes) against hex
 *      record checksum at end of record line
 *   3. If error reread security data from file or abort
 *   4. Exit this Function and Program block
 *In this demo routine, all of the security data is set to unprotected (0x00)
 *and it returns.
 *This function always returns PASS. The flag return is reserving
 *functionality for non-demo versions.
 ***************************************************************************/
signed char fLoadSecurityData(unsigned char bBankNum)
{
	/* >>> The following call is for demo use only. <<<
	   Function LoadArrayWithSecurityData fills buffer for demo
	   LoadArrayWithSecurityData(0,SECURITY_BYTES_PER_BANK, 0x00); */
	LoadArrayWithSecurityData(0, SECURITY_BYTES_PER_BANK, 0xFF);
	/*PTJ: 0x1B (00 01 10 11) is more interesting
	security data than 0x00 for testing purposes */

	/* Note:
	Error checking should be added for the final version as noted above.
	For demo use this function just returns PASS. */
	return PASS;
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* fSDATACheck()
* Check SDATA pin for high or low logic level and return value to calling
* routine.
* Returns:
*     0 if the pin was low.
*     1 if the pin was high.
* ***************************************************************************/
unsigned char fSDATACheck(void)
{
	gpio_direction_input(issp_tkey_i2c->pdata->gpio_sda);
	if (gpio_get_value(issp_tkey_i2c->pdata->gpio_sda))
		return 1;
	else
		return 0;
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SCLKHigh()
* Set the SCLK pin High
* ***************************************************************************/
void SCLKHigh(void)
{
	gpio_direction_output(issp_tkey_i2c->pdata->gpio_scl, 1);
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SCLKLow()
* Make Clock pin Low
* ***************************************************************************/
void SCLKLow(void)
{
	gpio_direction_output(issp_tkey_i2c->pdata->gpio_scl, 0);
}

#ifndef RESET_MODE		/*Only needed for power cycle mode */
/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSCLKHiZ()
* Set SCLK pin to HighZ drive mode.
* ***************************************************************************/
void SetSCLKHiZ(void)
{
	gpio_direction_input(issp_tkey_i2c->pdata->gpio_scl);
}
#endif

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSCLKStrong()
* Set SCLK to an output (Strong drive mode)
* ***************************************************************************/
void SetSCLKStrong(void)
{
	/*gpio_direction_output(issp_tkey_i2c->pdata->gpio_scl, 1); */
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSDATAHigh()
* Make SDATA pin High
* ***************************************************************************/
void SetSDATAHigh(void)
{
	gpio_direction_output(issp_tkey_i2c->pdata->gpio_sda, 1);
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSDATALow()
* Make SDATA pin Low
* ***************************************************************************/
void SetSDATALow(void)
{
	gpio_direction_output(issp_tkey_i2c->pdata->gpio_sda, 0);
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSDATAHiZ()
* Set SDATA pin to an input (HighZ drive mode).
* ***************************************************************************/
void SetSDATAHiZ(void)
{
	gpio_direction_input(issp_tkey_i2c->pdata->gpio_sda);	/*ENA-> DIS */
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetSDATAStrong()
* Set SDATA for transmission (Strong drive mode) -- as opposed to being set to
* High Z for receiving data.
* ***************************************************************************/
void SetSDATAStrong(void)
{
	/*gpio_direction_output(issp_tkey_i2c->pdata->gpio_sda, 1); */
}

#ifdef RESET_MODE
/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetXRESStrong()
* Set external reset (XRES) to an output (Strong drive mode).
* ***************************************************************************/
void SetXRESStrong(void)
{
	/*gpio_tlmm_config(EXT_TSP_RST);
	   gpio_out(EXT_TSP_RST, GPIO_HIGH_VALUE);
	   clk_busy_wait(1000);
	   clk_busy_wait(1000);
	   clk_busy_wait(1000); */
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* AssertXRES()
* Set XRES pin High
* ***************************************************************************/
void AssertXRES(void)
{
#if 0
	gpio_tlmm_config(EXT_TSP_RST);
	gpio_out(EXT_TSP_RST, GPIO_HIGH_VALUE);
	clk_busy_wait(1000);
	clk_busy_wait(1000);
	clk_busy_wait(1000);
#endif
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* DeassertXRES()
* Set XRES pin low.
* ***************************************************************************/
void DeassertXRES(void)
{
	/*gpio_out(EXT_TSP_RST, GPIO_LOW_VALUE); */
}
#else
/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* SetTargetVDDStrong()
* Set VDD pin (PWR) to an output (Strong drive mode).
* ***************************************************************************/
void SetTargetVDDStrong(void)
{
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* ApplyTargetVDD()
* Provide power to the target PSoC's Vdd pin through a GPIO.
* ***************************************************************************/
void ApplyTargetVDD(void)
{
	int ret;

	gpio_direction_input(issp_tkey_i2c->pdata->gpio_sda);
	gpio_direction_input(issp_tkey_i2c->pdata->gpio_scl);

	/* enable ldo */
	ret = issp_tkey_i2c->pdata->resume();
	if (ret == 0)
		printk(KERN_ERR "[Touchkey]regulator get fail!!!\n");

	mdelay(1);
}

/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* RemoveTargetVDD()
* Remove power from the target PSoC's Vdd pin.
* ***************************************************************************/
void RemoveTargetVDD(void)
{
	issp_tkey_i2c->pdata->suspend();
}
#endif

#ifdef USE_TP
/* ********************* LOW-LEVEL ISSP SUBROUTINE SECTION ********************
* ****************************************************************************
* ****                        PROCESSOR SPECIFIC                          ****
* ****************************************************************************
* ****                      USER ATTENTION REQUIRED                       ****
* ****************************************************************************
* A "Test Point" sets a GPIO pin of the host processor high or low.
* This GPIO pin can be observed with an oscilloscope to verify the timing of
* key programming steps. TPs have been added in main() that set Port 0, pin 1
* high during bulk erase, during each block write and during security write.
* The timing of these programming steps should be verified as correct as part
* of the validation process of the final program.
* ***************************************************************************/
void InitTP(void)
{
}

void SetTPHigh(void)
{
}

void SetTPLow(void)
{
}

void ToggleTP(void)
{
}
#endif
#endif				/*(PROJECT_REV_) */