nvram.c
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#include <stdio.h>
#include <PR/bcp.h>
#include <PR/bbnvram.h>
#include "bcp_util.h"
#include "iomap.h"
#include "nvram.h"
static char *STORE_PW_STRINGS[] = {"2 ms",
"10 ms",
"50 ms",
"250 ms"};
static char *NMAX_STRINGS[] = {"2 pulses",
"10 pulses",
"50 pulses",
"250 pulses"};
static char *VPPMAX_STRINGS[] = {"7.6 V",
"8.0 V",
"8.4 V",
"8.8 V"};
static char *VPPLEVEL_STRINGS[] = {"5.8V",
"6.0 V",
"6.2 V",
"6.4 V",
"6.6 V",
"6.8 V",
"7.0 V",
"7.2 V",
"7.4 V",
"7.6 V",
"7.8 V",
"8.0 V",
"8.2 V",
"8.4 V",
"8.6 V",
"8.8 V"};
static char *VPPDELTA_STRINGS[] = {"200 mV",
"400 mV",
"800 mV",
"1600 mV"};
/* defined as global in main() */
extern int sysclk_scale;
void print_crsto_1(FILE *fp, int reg)
{
fprintf(fp, "VPP Max: %s\n", VPPMAX_STRINGS[((reg & NMS_VPPMAX_MASK) >> NMS_VPPMAX_SHIFT)]);
fprintf(fp, "VPP Delta: %s\n", VPPDELTA_STRINGS[((reg & NMS_VPPDELTA_MASK) >> NMS_VPPDELTA_SHIFT)]);
fprintf(fp, "X (number of dumb pulses): %d\n", (reg & NMS_X_MASK) >> NMS_X_SHIFT);
}
void print_crsto_0(FILE *fp, int reg)
{
fprintf(fp, "Pulse width: %s\n", STORE_PW_STRINGS[((reg & NMS_STORE_PW_MASK) >> NMS_STORE_PW_SHIFT)]);
fprintf(fp, "NMAX: %s\n", NMAX_STRINGS[((reg & NMS_NMAX_MASK) >> NMS_NMAX_SHIFT)]);
fprintf(fp, "VPP Level: %s\n", VPPLEVEL_STRINGS[((reg & NMS_VPPLEVEL_MASK) >> NMS_VPPLEVEL_SHIFT)]);
}
void print_ctrl(FILE *fp, int reg)
{
fprintf(fp, "Virage control register\n");
fprintf(fp, "CP PORST: %d, ", (reg & VIRAGE_CTRL_CP_PORST));
fprintf(fp, "Unlock: %d, ", (reg & VIRAGE_CTRL_CP_UNLOCK) ? 1 : 0);
fprintf(fp, "VPP Select: %d, ", (reg & VIRAGE_CTRL_CP_VPPSEL_MASK) >> VIRAGE_CTRL_CP_VPPSEL_SHIFT);
fprintf(fp, "VPP Range: %d, ", (reg & VIRAGE_CTRL_CP_VRANGE) ? 1 : 0);
fprintf(fp, "Data: %d, ", (reg & VIRAGE_CTRL_CP_DATA) ? 1 : 0);
fprintf(fp, "Pump enable: %d, ", (reg & VIRAGE_CTRL_CP_PE) ? 1 : 0);
fprintf(fp, "Pump reset: %d\n", (reg & VIRAGE_CTRL_CP_RESET) ? 1 : 0);
fprintf(fp, "NV Bias: %d, ", (reg & VIRAGE_CTRL_NV_BIAS_MASK) >> VIRAGE_CTRL_NV_BIAS_SHIFT);
fprintf(fp, "TECC: %d, ", (reg & VIRAGE_CTRL_NV_TECC_MASK) >> VIRAGE_CTRL_NV_TECC_SHIFT);
fprintf(fp, "MRCL: %d, ", (reg & VIRAGE_CTRL_NV_MRCL_MASK) >> VIRAGE_CTRL_NV_MRCL_SHIFT);
fprintf(fp, "Compare: %d, ", (reg & VIRAGE_CTRL_NV_COMP) ? 1 : 0);
fprintf(fp, "Store: %d, ", (reg & VIRAGE_CTRL_NV_STORE) ? 1 : 0);
fprintf(fp, "Recall: %d, ", (reg & VIRAGE_CTRL_NV_RECALL) ? 1 : 0);
fprintf(fp, "Match: %d, ", (reg & VIRAGE_CTRL_NV_MATCH) ? 1 : 0);
fprintf(fp, "RCREADY: %d\n", (reg & VIRAGE_CTRL_NV_RCREADY) ? 1 : 0);
fprintf(fp, "NMS Command: %d, ", (reg & VIRAGE_CTRL_NMS_CMD_MASK) >> VIRAGE_CTRL_NMS_CMD_SHIFT);
fprintf(fp, "Keep: %d, ", (reg & VIRAGE_CTRL_NMS_KEEP) ? 1 : 0);
fprintf(fp, "Pass: %d, ", (reg & VIRAGE_CTRL_NMS_PASS) ? 1 : 0);
fprintf(fp, "Ready: %d, ", (reg & VIRAGE_CTRL_NMS_READY) ? 1 : 0);
fprintf(fp, "Bypass: %d\n", (reg & VIRAGE_CTRL_NMS_BYPASS) ? 1 : 0);
}
int get_vpp(int reg){
return ((reg & VIRAGE_CTRL_CP_VPPSEL_MASK) >> VIRAGE_CTRL_CP_VPPSEL_SHIFT);
}
int get_mrcl_tecc_bias(int x, unsigned char * newmrcl, unsigned char * newtecc, unsigned char * newbias){
*newmrcl = (x & VIRAGE_CTRL_NV_MRCL_MASK) >> VIRAGE_CTRL_NV_MRCL_SHIFT;
*newtecc = (x & VIRAGE_CTRL_NV_TECC_MASK) >> VIRAGE_CTRL_NV_TECC_SHIFT;
*newbias = (x & VIRAGE_CTRL_NV_BIAS_MASK) >> VIRAGE_CTRL_NV_BIAS_SHIFT;
}
/*
* Get the system clock and scale it by some factor to speed up the NoVEA operations
*/
int get_sys_clk_ns(int sysclk_scale)
{
int sysclk_ps;
bcp_sysclk_period(&sysclk_ps);
return (sysclk_ps * sysclk_scale) / 1000;
}
int nms_ready(FILE *logFp, int ctrl_reg)
{
int x;
int i;
int retry = 1000;
/*
* Wait for Charge pump - XXX timeout needed
*/
i = retry;
do {
BCP_STALL(10);
x = IO_READ(ctrl_reg);
if (i-- <= 0) {
if (LogFp) {
fprintf(LogFp, "NMS Ready: Time-out waiting for Charge pump PORST\n");
}
return FAIL;
}
} while (x & VIRAGE_CTRL_CP_PORST);
/*
* Wait for NMS ready - XXX timeout needed
*/
i = retry;
do {
x = IO_READ(ctrl_reg);
if (i-- <= 0) {
if (LogFp) {
fprintf(LogFp, "NMS Ready: Time-out waiting for NMS ready\n");
}
return FAIL;
}
} while ((x & VIRAGE_CTRL_NMS_READY) == 0);
return PASS;
}
int nms_recall(int sysclk_scale, FILE *LogFp, int ctrl_reg)
{
int x;
int nms_ctrl_reg = ctrl_reg | 0x2000;
int sysclk = get_sys_clk_ns(sysclk_scale);
/*
* Issue a recall to make sure it got stored
*/
IO_WRITE(nms_ctrl_reg, NMS_CMD_RECALL << VIRAGE_CTRL_NMS_CMD_SHIFT);
/*
* Wait for the RCready time
*/
BCP_STALL(EXTRA_WAIT + Trcready/sysclk);
/*
* Extra wait since we are going through NMS - Don't have a timing spec here
*/
BCP_STALL((MORE_EXTRA_WAIT) + Trcready/sysclk);
x = IO_READ(ctrl_reg);
if ((x & VIRAGE_CTRL_NMS_READY) == 0) {
if (LogFp) {
fprintf(LogFp, "NMS Recall: Timeout failure\n");
}
return FAIL;
}
return PASS;
}
int nms_store(FILE *LogFp, int ctrl_reg, int store_pw, int vpp_level,
int vpp_max, int vpp_delta, int max_pulses, int dumb_pulses)
{
int x;
int old_x;
int nms_ctrl_reg = ctrl_reg | 0x2000;
int crst_base_reg = (ctrl_reg & 0xffff0000) | 0x8000;
long long int end_sim_time;
/*
* Set up the CRSTO registers
*/
IO_WRITE(crst_base_reg, (store_pw << NMS_STORE_PW_SHIFT) |
(max_pulses << NMS_NMAX_SHIFT) |
(vpp_level << NMS_VPPLEVEL_SHIFT));
IO_WRITE(crst_base_reg + 4, (vpp_max << NMS_VPPMAX_SHIFT) |
(vpp_delta << NMS_VPPDELTA_SHIFT) |
(dumb_pulses << NMS_X_SHIFT));
if (LogFp) {
print_crsto_0(LogFp, IO_READ(crst_base_reg));
print_crsto_1(LogFp, IO_READ(crst_base_reg+4));
}
IO_WRITE(nms_ctrl_reg, NMS_CMD_STORE << VIRAGE_CTRL_NMS_CMD_SHIFT);
BCP_STALL(100);
x = IO_READ(ctrl_reg);
if (x & VIRAGE_CTRL_NMS_READY) {
if (LogFp) {
fprintf(LogFp, "NMS Store: ready not low\n");
}
return FAIL;
}
/*
* Keep reading registers and printing out for monitoring
* XXX Need a time-out
*/
old_x = -1;
do {
BCP_STALL(10);
SIM_TIME(&end_sim_time);
x = IO_READ(ctrl_reg);
if (old_x != x) {
if (LogFp) {
fprintf(LogFp, "NMS Store: Ctrl reg %lld 0x%x\n", end_sim_time, x);
print_ctrl(LogFp, x);
}
old_x = x;
}
} while ((x & VIRAGE_CTRL_NMS_READY) == 0);
if ((x & VIRAGE_CTRL_NMS_PASS) == 0) {
if (LogFp) {
fprintf(LogFp, "Store did not pass\n");
}
return FAIL;
}
return PASS;
}
/* this is for testing the interruption of a store. Do not let the operation
pass
*/
int nms_store_interrupt(FILE *LogFp, int ctrl_reg, int store_pw,
int vpp_level, int vpp_max, int vpp_delta, int max_pulses, int dumb_pulses)
{
int x;
int run_till = 2;
int old_x;
int nms_ctrl_reg = ctrl_reg | 0x2000;
int crst_base_reg = (ctrl_reg & 0xffff0000) | 0x8000;
long long int end_sim_time;
/*
* Set up the CRSTO registers
*/
IO_WRITE(crst_base_reg, (store_pw << NMS_STORE_PW_SHIFT) |
(max_pulses << NMS_NMAX_SHIFT) |
(vpp_level << NMS_VPPLEVEL_SHIFT));
IO_WRITE(crst_base_reg + 4, (vpp_max << NMS_VPPMAX_SHIFT) |
(vpp_delta << NMS_VPPDELTA_SHIFT) |
(dumb_pulses << NMS_X_SHIFT));
if (LogFp) {
print_crsto_0(LogFp, IO_READ(crst_base_reg));
print_crsto_1(LogFp, IO_READ(crst_base_reg+4));
}
IO_WRITE(nms_ctrl_reg, NMS_CMD_STORE << VIRAGE_CTRL_NMS_CMD_SHIFT);
BCP_STALL(100);
x = IO_READ(ctrl_reg);
if (x & VIRAGE_CTRL_NMS_READY) {
if (LogFp) {
fprintf(LogFp, "NMS Store: ready not low\n");
}
return FAIL;
}
/*
* Keep reading registers and printing out for monitoring
* XXX Need a time-out
*/
old_x = -1;
do {
BCP_STALL(10);
SIM_TIME(&end_sim_time);
x = IO_READ(ctrl_reg);
if (old_x != x) {
if (LogFp) {
fprintf(LogFp, "NMS Store: Ctrl reg %lld 0x%x\n", end_sim_time, x);
print_ctrl(LogFp, x);
}
old_x = x;
}
run_till--;
} while (run_till > 0);
if ((x & VIRAGE_CTRL_NMS_PASS) == 0) {
if (LogFp) {
fprintf(LogFp, "Store did not pass: expected\n");
}
return FAIL;
}
return PASS;
}
/* this version does not set CRST* registers, uses defaults */
int nms_store_default(FILE *LogFp, int ctrl_reg)
{
int x;
int old_x;
int nms_ctrl_reg = ctrl_reg | 0x2000;
long long int end_sim_time;
int crst_base_reg = (ctrl_reg & 0xffff0000) | 0x8000;
IO_WRITE(nms_ctrl_reg, NMS_CMD_STORE << VIRAGE_CTRL_NMS_CMD_SHIFT);
BCP_STALL(100);
x = IO_READ(ctrl_reg);
if (x & VIRAGE_CTRL_NMS_READY) {
if (LogFp) {
fprintf(LogFp, "NMS Store: ready not low\n");
}
return FAIL;
}
/*
* Keep reading registers and printing out for monitoring
* XXX Need a time-out
*/
old_x = -1;
do {
BCP_STALL(10);
SIM_TIME(&end_sim_time);
x = IO_READ(ctrl_reg);
if (old_x != x) {
if (LogFp) {
fprintf(LogFp, "NMS Store: Ctrl reg %lld 0x%x\n", end_sim_time, x);
print_ctrl(LogFp, x);
}
old_x = x;
}
} while ((x & VIRAGE_CTRL_NMS_READY) == 0);
if (LogFp) {
fprintf(LogFp, "Default parameters\n");
print_crsto_0(LogFp, IO_READ(crst_base_reg));
print_crsto_1(LogFp, IO_READ(crst_base_reg+4));
}
if ((x & VIRAGE_CTRL_NMS_PASS) == 0) {
if (LogFp) {
fprintf(LogFp, "Store did not pass\n");
}
return FAIL;
}
return PASS;
}
/*
* This version is used for checking if it stepped through the correct
* sequence of vpp values with respect to expected array of values
*/
int nms_store_checkvpp(FILE *LogFp, int ctrl_reg, int store_pw,
int vpp_level, int vpp_max, int vpp_delta,
int max_pulses, int dumb_pulses, int *expected_array,
int size)
{
int x;
int old_x;
int nms_ctrl_reg = ctrl_reg | 0x2000;
int crst_base_reg = (ctrl_reg & 0xffff0000) | 0x8000;
long long int end_sim_time;
int vpp_sequence[20];
int vpp_sequence_index = 0;
int i, new_vpp;
int nomatch = 0;
/*
* Set up the CRSTO registers
*/
IO_WRITE(crst_base_reg, (store_pw << NMS_STORE_PW_SHIFT) |
(max_pulses << NMS_NMAX_SHIFT) |
(vpp_level << NMS_VPPLEVEL_SHIFT));
IO_WRITE(crst_base_reg + 4, (vpp_max << NMS_VPPMAX_SHIFT) |
(vpp_delta << NMS_VPPDELTA_SHIFT) |
(dumb_pulses << NMS_X_SHIFT));
if (LogFp) {
print_crsto_0(LogFp, IO_READ(crst_base_reg));
print_crsto_1(LogFp, IO_READ(crst_base_reg+4));
}
IO_WRITE(nms_ctrl_reg, NMS_CMD_STORE << VIRAGE_CTRL_NMS_CMD_SHIFT);
BCP_STALL(100);
x = IO_READ(ctrl_reg);
if (x & VIRAGE_CTRL_NMS_READY) {
if (LogFp) {
fprintf(LogFp, "NMS Store: ready not low\n");
}
return FAIL;
}
/*
* Keep reading registers and printing out for monitoring
* XXX Need a time-out
*/
old_x = -1;
do {
BCP_STALL(10);
SIM_TIME(&end_sim_time);
x = IO_READ(ctrl_reg);
if (old_x != x) {
if (LogFp) {
fprintf(LogFp, "NMS Store: Ctrl reg %lld 0x%x\n", end_sim_time, x);
print_ctrl(LogFp, x);
new_vpp = get_vpp(x);
if(vpp_sequence_index ==0){
vpp_sequence[vpp_sequence_index] = new_vpp;
vpp_sequence_index++;
}
else if(new_vpp > vpp_sequence[vpp_sequence_index-1]){
vpp_sequence[vpp_sequence_index] = new_vpp;
vpp_sequence_index++;
}
}
old_x = x;
}
} while ((x & VIRAGE_CTRL_NMS_READY) == 0);
/* print the sequence of VPPs*/
fprintf(LogFp, "VPP sequence->\n");
for(i=0; i< vpp_sequence_index; i++){
fprintf(LogFp, "vpp step %d = %d\n", i, vpp_sequence[i]);
}
for(i=0; i< vpp_sequence_index; i++){
fprintf(LogFp, "vpp sequence %d expected %d\n", vpp_sequence[i], expected_array[i]);
if(expected_array[i] != vpp_sequence[i]){
nomatch = 1;
}
}
if (((x & VIRAGE_CTRL_NMS_PASS) == 0) ||(nomatch ==1)) {
if (LogFp) {
fprintf(LogFp, "Store did not pass\n");
}
return FAIL;
}
return PASS;
}