// ============================================================================
// fPowerCycleInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// The first time fDetectHiLoTransition is called the Clk pin is highZ because
// the clock is not needed during acquire.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
// ============================================================================
signed char fPowerCycleInitializeTargetForISSP(unsigned long flag)
{
int n;
printk(KERN_ERR"[TOUCHKEY]start fPowerCycleInitializeTargetForISSP\n");
// Set all pins to highZ to avoid back powering the PSoC through the GPIO
// protection diodes.
SetSCLKHiZ();
SetSDATAHiZ();
// Turn on power to the target device before other signals
SetTargetVDDStrong();
ApplyTargetVDD();
local_irq_save(flag);
// wait 1msec for the power to stabilize
//#if 0
for (n = 0; n < 10; n++) {
Delay(DELAY100us);
}
//#endif
// Set SCLK to high Z so there is no clock and wait for a high to low
// transition on SDAT. SCLK is not needed this time.
SetSCLKHiZ();
// printk(KERN_DEBUG "fDetectHiLoTransition\n");
if ((fIsError = fDetectHiLoTransition())) {
#if defined(CONFIG_TARGET_LOCALE_NAATT)
local_irq_restore(flag);
#endif
printk(KERN_ERR"[TOUCHKEY]fDetectHiLoTransition()error!!!\n");
return (INIT_ERROR);
}
// Configure the pins for initialization
// SetSDATAHiZ(); // issp_test_20100709 block
SetSCLKStrong();
SCLKLow(); //PTJ: DO NOT SET A BREAKPOINT HERE AND EXPECT SILICON ID TO PASS!
// !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end); //PTJ: rev308, added to match spec
// printk("SendVector(id_setup_1)\n",0,0,0);
SendVector(id_setup_1, num_bits_id_setup_1);
if ((fIsError = fDetectHiLoTransition())) {
#if defined(CONFIG_TARGET_LOCALE_NAATT)
local_irq_restore(flag);
#endif
printk(KERN_ERR"[TOUCHKEY]fDetectHiLoTransition()error!!!\n");
return (INIT_ERROR);
}
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
// NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec).
return (PASS);
}
// ============================================================================
// fXRESInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
// ============================================================================
signed char fXRESInitializeTargetForISSP(void)
{
// Configure the pins for initialization
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow();
// Cycle reset and put the device in programming mode when it exits reset
AssertXRES();
DeassertXRES();
// !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
//PTJ: Send id_setup_1 instead of init1_v
//PTJ: both send CA Test Key and do a Calibrate1 SROM function
SendVector(id_setup_1, num_bits_id_setup_1);
if (fIsError = fDetectHiLoTransition()) {
// TX8SW_CPutString("\r\n fDetectHiLoTransition Error");
printk(KERN_INFO "\r\n fDetectHiLoTransition Error\n");
return (INIT_ERROR);
}
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
// NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec).
return (PASS);
}
// ============================================================================
// fPowerCycleInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// The first time fDetectHiLoTransition is called the Clk pin is highZ because
// the clock is not needed during acquire.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
// ============================================================================
signed char fPowerCycleInitializeTargetForISSP(void)
{
unsigned char n;
unsigned long flags;
// Set all pins to highZ to avoid back powering the PSoC through the GPIO
// protection diodes.
SetSCLKHiZ();
SetSDATAHiZ();
// Turn on power to the target device before other signals
SetTargetVDDStrong();
// lock interrupts for accurate timing
local_irq_save(flags);
ApplyTargetVDD();
// wait 1msec for the power to stabilize
#if 1 //etinum.LJ.firmware_update
Delay(1000);
#else
for (n=0; n<10; n++) {
Delay(DELAY100us/3);
}
#endif
// Set SCLK to high Z so there is no clock and wait for a high to low
// transition on SDAT. SCLK is not needed this time.
SetSCLKHiZ();
local_irq_restore(flags);
if (fIsError = fDetectHiLoTransition()) {
return(INIT_ERROR);
}
printk(KERN_ERR "[CYPRESS] step1 passed\n");
// Configure the pins for initialization
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow(); //PTJ: DO NOT SET A BREAKPOINT HERE AND EXPECT SILICON ID TO PASS!
// !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
SendVector(id_setup_1, num_bits_id_setup_1);
if (fIsError = fDetectHiLoTransition()) {
return(INIT_ERROR);
}
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
printk(KERN_ERR "[CYPRESS] step2 passed\n");
// NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec).
return(PASS);
}
/*
============================================================================
fDetectHiLoTransition()
Waits for transition from SDATA = 1 to SDATA = 0. Has a 100 msec timeout.
TRANSITION_TIMEOUT is a loop counter for a 100msec timeout when waiting for
a high-to-low transition. This is used in the polling loop of
fDetectHiLoTransition(). The timing of the while(1) loops can be calculated
and the number of loops is counted, using iTimer, to determine when 100
msec has passed.
SCLK cannot run faster than the specified maximum frequency of 8MHz. Some
processors may need to have delays added after setting SCLK low and setting
SCLK high in order to not exceed this specification. The maximum frequency
of SCLK should be measured as part of validation of the final program
Returns:
0 if successful
-1 if timed out.
============================================================================
*/
signed char fDetectHiLoTransition(void)
{
/* nTimer breaks out of the while loops if the wait in the two loops totals
more than 100 msec. Making this static makes the loop run a faster.
This is really a processor/compiler dependency and it not needed.
*/
unsigned long int iTimer = 0;
/* NOTE:
These loops look unconventional, but it is necessary to check SDATA_PIN
as shown because the transition can be missed otherwise, due to the
length of the SDATA Low-High-Low after certain commands.
Generate clocks for the target to pull SDATA High
*/
iTimer = TRANSITION_TIMEOUT;
SetSCLKStrong();
while (1) {
SCLKLow();
/* Delay(CLK_DELAY); */
if (fSDATACheck()) /* exit once SDATA goes HI */
break;
SCLKHigh();
/*Delay(CLK_DELAY);*/
/*If the wait is too long then timeout*/
if (iTimer-- == 0){
printk(KERN_ERR "%s: %d - error\n", __func__, __LINE__);
return ERROR;
}
}
/*
Generate Clocks and wait for Target to pull SDATA Low again
*/
iTimer = TRANSITION_TIMEOUT;
while (1) {
SCLKLow();
/* Delay(CLK_DELAY); */
if (!fSDATACheck()) /* exit once SDATA returns LOW */
break;
/*SCLKHigh();*/
/* Delay(CLK_DELAY); */
/* If the wait is too long then timeout */
if (iTimer-- == 0){
printk(KERN_ERR "%s: %d - error\n", __func__, __LINE__);
return ERROR;
}
}
return PASS;
}
// ============================================================================
// fPowerCycleInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// The first time fDetectHiLoTransition is called the Clk pin is highZ because
// the clock is not needed during acquire.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
// ============================================================================
signed char fPowerCycleInitializeTargetForISSP(void)
{
// unsigned char n;
// Set all pins to highZ to avoid back powering the PSoC through the GPIO
// protection diodes.
SetSCLKHiZ();
SetSDATAHiZ();
// Turn on power to the target device before other signals
SetTargetVDDStrong();
RemoveTargetVDD();
mdelay(5);
ApplyTargetVDD();
// wait 1msec for the power to stabilize
mdelay(1);
// Set SCLK to high Z so there is no clock and wait for a high to low
// transition on SDAT. SCLK is not needed this time.
SetSCLKHiZ();
fIsError = fDetectHiLoTransition();
if ( fIsError ) {
printk(KERN_INFO "[TSP] %s, %d\n", __func__, __LINE__);
return(INIT_ERROR);
}
// Configure the pins for initialization
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow(); //PTJ: DO NOT SET A BREAKPOINT HERE AND EXPECT SILICON ID TO PASS!
// !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
SendVector(id_setup_1, num_bits_id_setup_1);
fIsError = fDetectHiLoTransition();
if ( fIsError ) {
printk(KERN_INFO "[TSP] %s, %d\n", __func__, __LINE__);
return(INIT_ERROR);
}
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
// NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec).
return(PASS);
}
/* ============================================================================
// fXRESInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
============================================================================*/
signed char fXRESInitializeTargetForISSP(void)
{
/* Configure the pins for initialization */
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow();
#ifdef ACTIVE_LOW_XRES
AssertXRES(); /* assert XRES before setting XRES pin to strong */
SetXRESStrong();
DeassertXRES();
/* Delay(XRES_CLK_DELAY); */
mdelay(1);
AssertXRES();
#else
/* Cycle reset and put the device in programming mode when it exits reset */
SetXRESStrong();
AssertXRES();
Delay(XRES_CLK_DELAY);
DeassertXRES();
#endif
/* !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
*/
SendVector(id_setup_1, num_bits_id_setup_1);
fIsError = fDetectHiLoTransition();
if (fIsError)
return INIT_ERROR;
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
/* NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec). */
return PASS;
}
/*============================================================================
fXRESInitializeTargetForISSP()
Implements the intialization vectors for the device.
Returns:
0 if successful
INIT_ERROR if timed out on handshake to the device.
============================================================================
*/
signed char fXRESInitializeTargetForISSP(void)
{
/*Configure the pins for initialization*/
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow();
SetXRESStrong();
/* Cycle reset and put the device
in programming mode when it exits reset */
AssertXRES();
Delay(XRES_CLK_DELAY);
DeassertXRES();
/*
!!! NOTE:
The timing spec that requires that the first Init-Vector happen within
1 msec after the reset/power up. For this reason, it is not advisable
to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
Init-Vector instructions below. Doing so could introduce excess delay
and cause the target device to exit ISSP Mode.
PTJ: Send id_setup_1 instead of init1_v
PTJ: both send CA Test Key and do a Calibrate1 SROM function
*/
SendVector(id_setup_1, num_bits_id_setup_1);
fIsError = fDetectHiLoTransition();
if (fIsError != 0)
return INIT_ERROR;
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
/*
NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
it does not occur (per spec).
*/
return PASS;
}
/*
============================================================================
fPowerCycleInitializeTargetForISSP()
Implements the intialization vectors for the device.
The first time fDetectHiLoTransition is called the Clk pin is highZ because
the clock is not needed during acquire.
Returns:
0 if successful
INIT_ERROR if timed out on handshake to the device.
============================================================================
*/
signed char fPowerCycleInitializeTargetForISSP(void)
{
unsigned char n;
/*
Set all pins to highZ to avoid back powering the PSoC through the GPIO
protection diodes.
*/
SetSCLKHiZ();
SetSDATAHiZ();
/* Turn on power to the target device before other signals */
SetTargetVDDStrong();
for (n = 0; n < 100; n++)
Delay(50000);
ApplyTargetVDD();
/* wait 1msec for the power to stabilize */
for (n = 0; n < 10; n++)
Delay(DELAY100us);
/*
Set SCLK to high Z so there is no clock and wait for a high to low
transition on SDAT. SCLK is not needed this time.
*/
SetSCLKHiZ();
fIsError = fDetectHiLoTransition();
if (fIsError != 0)
return INIT_ERROR;
/*Configure the pins for initialization */
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow();
/*PTJ: DO NOT SET A BREAKPOINT HERE AND EXPECT SILICON ID TO PASS!
!!! NOTE:
The timing spec that requires that the first Init-Vector happen within
1 msec after the reset/power up. For this reason, it is not advisable
to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
Init-Vector instructions below. Doing so could introduce excess delay
and cause the target device to exit ISSP Mode.
*/
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
/*20100114 KJHW(Jason) : 0114 by KJHW */
SendVector(id_setup_1, num_bits_id_setup_1);
fIsError = fDetectHiLoTransition();
if (fIsError != 0)
return INIT_ERROR;
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
/*
NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
it does not occur (per spec).
*/
return PASS;
}
/* ============================================================================
// fPowerCycleInitializeTargetForISSP()
// Implements the intialization vectors for the device.
// The first time fDetectHiLoTransition is called the Clk pin is highZ because
// the clock is not needed during acquire.
// Returns:
// 0 if successful
// INIT_ERROR if timed out on handshake to the device.
============================================================================*/
signed char fPowerCycleInitializeTargetForISSP(void)
{
unsigned char n;
SetSDATALow();
SCLKLow();
RemoveTargetVDD();
mdelay(500);
SetSCLKHiZ();
SetSDATAHiZ();
/* Set all pins to highZ to avoid back powering the PSoC through the GPIO
// protection diodes.
*/
/* Turn on power to the target device before other signals */
SetTargetVDDStrong();
ApplyTargetVDD();
/* wait 1msec for the power to stabilize */
for (n = 0; n < 10; n++)
udelay(DELAY100us);
/* Set SCLK to high Z so there is no clock and wait for a high to low
// transition on SDAT. SCLK is not needed this time.
*/
SetSCLKHiZ();
mdelay(10);
/*
//fIsError = fDetectHiLoTransition();
//if (fIsError ) {
//printk("wly: fDetectHiLoTransition 11111 failed!\n");
//return(INIT_ERROR);
//}
*/
/* Configure the pins for initialization */
SetSDATAHiZ();
SetSCLKStrong();
SCLKLow(); /* DO NOT SET A BREAKPOINT HERE AND EXPECT SILICON ID TO PASS! */
/* !!! NOTE:
// The timing spec that requires that the first Init-Vector happen within
// 1 msec after the reset/power up. For this reason, it is not advisable
// to separate the above RESET_MODE or POWER_CYCLE_MODE code from the
// Init-Vector instructions below. Doing so could introduce excess delay
// and cause the target device to exit ISSP Mode.
*/
SendVector(id_setup_1, num_bits_id_setup_1);
fIsError = fDetectHiLoTransition();
if (fIsError) {
pr_info("wly: fDetectHiLoTransition 222222 failed!\n");
return INIT_ERROR;
}
SendVector(wait_and_poll_end, num_bits_wait_and_poll_end);
/* NOTE: DO NOT not wait for HiLo on SDATA after vector Init-3
// it does not occur (per spec).
*/
return PASS;
}
