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ben-wpan/tools/atrf-xtal/atben.c

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/*
* atrf-xtal/atben.c - ATBEN-specific driver and evaluation
*
* Written 2011, 2013 by Werner Almesberger
* Copyright 2011, 2013 Werner Almesberger
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*/
/*
* WARNING: this program does very nasty things to the Ben and it doesn't
* like company. In particular, it resents:
*
* - the MMC driver - disable it with
* echo jz4740-mmc.0 >/sys/bus/platform/drivers/jz4740-mmc/unbind
* - the AT86RF230/1 kernel driver - either use a kernel that doesn't have
* it or disable it with
* echo spi2.0 >/sys/bus/spi/drivers/at86rf230/unbind
* - anything that accesses the screen - kill GUI, X server, etc.
* - the screen blanker - either disable it or make sure the screen stays
* dark, e.g., with
* echo 1 >/sys/devices/platform/jz4740-fb/graphics/fb0/blank
* - probably a fair number of other daemons and things as well - best to
* kill them all.
*/
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <math.h>
#include <sys/mman.h>
#include "at86rf230.h"
#include "atrf.h"
#include "atrf-xtal.h"
#define MAX_COUNT (1000*1000)
/* ----- RF setup ---------------------------------------------------------- */
static void rf_setup(struct atrf_dsc *dsc, int size, int trim)
{
static uint8_t buf[127];
atrf_reset_rf(dsc);
atrf_reg_write(dsc, REG_TRX_STATE, TRX_CMD_TRX_OFF);
atrf_reg_write(dsc, REG_XOSC_CTRL,
(XTAL_MODE_INT << XTAL_MODE_SHIFT) | trim);
/* minimum TX power, maximize delays, disable CRC */
switch (atrf_identify(dsc)) {
case atrf_at86rf230:
atrf_reg_write(dsc, REG_PHY_TX_PWR, 0xf);
break;
case atrf_at86rf231:
atrf_reg_write(dsc, REG_PHY_TX_PWR, 0xff);
atrf_reg_write(dsc, REG_TRX_CTRL_1, 0);
break;
default:
abort();
}
atrf_reg_write(dsc, REG_TRX_STATE, TRX_CMD_PLL_ON);
usleep(200); /* nominally 180 us worst-case */
atrf_buf_write(dsc, buf, size);
//atrf_reg_write(dsc, REG_IRQ_MASK, IRQ_TRX_END);
atrf_reg_write(dsc, REG_IRQ_MASK, 0xff);
}
/* ----- Ben hardware ------------------------------------------------------ */
static volatile uint32_t *icmr, *icmsr, *icmcr;
static uint32_t old_icmr;
static volatile uint32_t *clkgr;
static uint32_t old_clkgr;
static volatile uint32_t *pdpin, *pddats, *pddatc;
static void disable_interrupts(void)
{
/*
* @@@ Race condition alert ! If we get interrupted/preempted between
* reading ICMR and masking all interrupts, and the code that runs
* between these two operations changes ICMR, then we may set an
* incorrect mask when restoring interrupts, which may hang the system.
*/
old_icmr = *icmr;
*icmsr = 0xffffffff;
}
static void enable_interrupts(void)
{
*icmcr = ~old_icmr;
}
/*
* @@@ Disabling the LCD clock will halng operations that depend on the LCD
* subsystem to advance. This includes the screen saver.
*/
static void disable_lcd(void)
{
old_clkgr = *clkgr;
*clkgr = old_clkgr | 1 << 10;
}
static void enable_lcd(void)
{
*clkgr = old_clkgr;
}
static void ben_setup(struct atrf_dsc *dsc)
{
volatile void *base = atrf_ben_regs(dsc);
icmr = base+0x1004;
icmsr = base+0x1008;
icmcr = base+0x100c;
clkgr = base+0x20;
pdpin = base+0x10300;
pddats = base+0x10314;
pddatc = base+0x10318;
/*
* Ironically, switching the LCD clock on and off many times only
* increases the risk of a hang. Therefore, we leave it stopped during
* all the measurements and only enable it again at the end.
*/
disable_lcd();
}
/* ----- Low-level interface ----------------------------------------------- */
void atben_setup(struct atrf_dsc *dsc, int size, int trim)
{
rf_setup(dsc, size, trim);
mlockall(MCL_CURRENT);
ben_setup(dsc);
}
unsigned atben_sample(struct atrf_dsc *dsc)
{
unsigned i = MAX_COUNT;
(void) atrf_reg_read(dsc, REG_IRQ_STATUS);
disable_interrupts();
#if 0
/*
* This is a high-level view of what the code should do. It has rather
* high overhead, though, so we optimize it below.
*/
atrf_slp_tr(dsc, 1, 1);
while (i) {
if (atrf_interrupt(dsc))
break;
i--;
}
#else
/*
* We hit registers directly. We also don't enforce the upper limit,
* to squeeze out a few more cycles and gain a finer resolution.
*/
/* pulse SLP_TR */
*pddats = 1 << 9;
*pddatc = 1 << 9;
/* count the time until an interrupt arrives */
do i--;
while (!(*pdpin & 0x1000));
#endif
enable_interrupts();
return MAX_COUNT-i;
}
void atben_cleanup(struct atrf_dsc *dsc)
{
enable_lcd();
}
/* ----- Acquisition and evaluation ---------------------------------------- */
static int cmp(const void *a, const void *b)
{
return *(unsigned *) a-*(unsigned *) b;
}
static double eval(unsigned *res, int rep)
{
double sum = 0;
int n = 0;
int i;
qsort(res, rep, sizeof(*res), cmp);
if (rep < 8)
return res[rep >> 1];
for (i = rep/8; i != rep-rep/8; i++) {
sum += res[i];
n++;
}
return (double) sum/n;
}
void do_atben(struct atrf_dsc *dsc, int size, int trim, int rep,
int dump_raw, double base, double ppm)
{
unsigned *res;
double avg, rel;
int i;
res = malloc(rep*sizeof(*res));
if (!res) {
perror("malloc");
exit(1);
}
atben_setup(dsc, size, trim);
for (i = 0; i != rep; i++)
res[i] = atben_sample(dsc);
atben_cleanup(dsc);
atrf_close(dsc);
if (dump_raw) {
for (i = 0; i != rep; i++)
printf("%u\n", res[i]);
exit(0);
}
avg = eval(res, rep);
if (!base)
printf("%f\n", avg);
else {
rel = (avg/base-1)*1000000;
printf("%+f ppm", rel);
if (ppm && fabs(rel) > ppm) {
printf(" (outside bounds)\n");
exit(1);
}
putchar('\n');
}
}