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driver-bitfury.c
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driver-bitfury.c
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/*
* Copyright 2013 bitfury
* Copyright 2013 Anatoly Legkodymov
* Copyright 2013-2014 Luke Dashjr
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "config.h"
#include <limits.h>
#include "miner.h"
#include <unistd.h>
#include <stdbool.h>
#include <stdint.h>
#include <sha2.h>
#include "deviceapi.h"
#include "driver-bitfury.h"
#include "libbitfury.h"
#include "lowl-spi.h"
#include "util.h"
static const int chipgen_timeout_secs = 30;
BFG_REGISTER_DRIVER(bitfury_drv)
const struct bfg_set_device_definition bitfury_set_device_funcs[];
static
int bitfury_autodetect()
{
RUNONCE(0);
int chip_n;
struct cgpu_info *bitfury_info;
applog(LOG_INFO, "INFO: bitfury_detect");
spi_init();
if (!sys_spi)
return 0;
bitfury_info = calloc(1, sizeof(struct cgpu_info));
bitfury_info->drv = &bitfury_drv;
bitfury_info->threads = 1;
{
struct bitfury_device dummy_bitfury = {
.spi = sys_spi,
};
drv_set_defaults(&bitfury_drv, bitfury_set_device_funcs_probe, &dummy_bitfury, NULL, NULL, 1);
}
chip_n = libbitfury_detectChips1(sys_spi);
if (!chip_n) {
applog(LOG_WARNING, "No Bitfury chips detected!");
free(bitfury_info);
return 0;
} else {
applog(LOG_WARNING, "BITFURY: %d chips detected!", chip_n);
}
bitfury_info->procs = chip_n;
bitfury_info->set_device_funcs = bitfury_set_device_funcs;
add_cgpu(bitfury_info);
return 1;
}
static void bitfury_detect(void)
{
noserial_detect_manual(&bitfury_drv, bitfury_autodetect);
}
static
void *bitfury_just_io(struct bitfury_device * const bitfury)
{
struct spi_port * const spi = bitfury->spi;
const int chip = bitfury->fasync;
void *rv;
spi_clear_buf(spi);
spi_emit_break(spi);
spi_emit_fasync(spi, chip);
rv = spi_emit_data(spi, 0x3000, &bitfury->atrvec[0], 19 * 4);
spi_txrx(spi);
return rv;
}
static
void bitfury_debug_nonce_array(const struct cgpu_info * const proc, const char *msg, const uint32_t * const inp)
{
const struct bitfury_device * const bitfury = proc->device_data;
const int active = bitfury->active;
char s[((1 + 8) * 0x10) + 1];
char *sp = s;
for (int i = 0; i < 0x10; ++i)
sp += sprintf(sp, "%c%08lx",
(active == i) ? '>' : ' ',
(unsigned long)bitfury_decnonce(inp[i]));
applog(LOG_DEBUG, "%"PRIpreprv": %s%s (job=%08lx)",
proc->proc_repr, msg, s, (unsigned long)inp[0x10]);
}
static
bool bitfury_init_oldbuf(struct cgpu_info * const proc, const uint32_t *inp)
{
struct bitfury_device * const bitfury = proc->device_data;
uint32_t * const oldbuf = &bitfury->oldbuf[0];
uint32_t * const buf = &bitfury->newbuf[0];
uint32_t *inp_new;
int i, differ, tried = 0;
if (!inp)
inp = bitfury_just_io(bitfury);
tryagain:
if (tried > 3)
{
applog(LOG_ERR, "%"PRIpreprv": %s: Giving up after %d tries",
proc->proc_repr, __func__, tried);
bitfury->desync_counter = 99;
return false;
}
++tried;
swap32tole(buf, inp, 0x10);
inp_new = bitfury_just_io(bitfury);
swap32tole(inp_new, inp_new, 0x10);
inp = inp_new;
differ = -1;
for (i = 0; i < 0x10; ++i)
{
if (inp[i] != buf[i])
{
if (differ != -1)
{
applog(LOG_DEBUG, "%"PRIpreprv": %s: Second differ at %d; trying again",
proc->proc_repr, __func__, i);
goto tryagain;
}
differ = i;
applog(LOG_DEBUG, "%"PRIpreprv": %s: Differ at %d",
proc->proc_repr, __func__, i);
if (tried > 3)
break;
}
}
if (-1 == differ)
{
applog(LOG_DEBUG, "%"PRIpreprv": %s: No differ found; trying again",
proc->proc_repr, __func__);
goto tryagain;
}
bitfury->active = differ;
memcpy(&oldbuf[0], &inp[bitfury->active], 4 * (0x10 - bitfury->active));
memcpy(&oldbuf[0x10 - bitfury->active], &inp[0], 4 * bitfury->active);
bitfury->oldjob = inp[0x10];
bitfury->desync_counter = 0;
if (opt_dev_protocol)
bitfury_debug_nonce_array(proc, "Init", inp);
return true;
}
bool bitfury_init_chip(struct cgpu_info * const proc)
{
struct bitfury_device * const bitfury = proc->device_data;
struct bitfury_payload payload = {
.midstate = "\x33\xfb\x46\xdc\x61\x2a\x7a\x23\xf0\xa2\x2d\x63\x31\x54\x21\xdc"
"\xae\x86\xfe\xc3\x88\xc1\x9c\x8c\x20\x18\x10\x68\xfc\x95\x3f\xf7",
.m7 = htole32(0xc3baafef),
.ntime = htole32(0x326fa351),
.nbits = htole32(0x6461011a),
};
bitfury_payload_to_atrvec(bitfury->atrvec, &payload);
return bitfury_init_oldbuf(proc, NULL);
}
static
bool bitfury_init(struct thr_info *thr)
{
struct cgpu_info *proc;
struct bitfury_device *bitfury;
for (proc = thr->cgpu; proc; proc = proc->next_proc)
{
bitfury = proc->device_data = malloc(sizeof(struct bitfury_device));
*bitfury = (struct bitfury_device){
.spi = sys_spi,
.fasync = proc->proc_id,
};
bitfury_init_chip(proc);
bitfury->osc6_bits = 50;
bitfury_send_reinit(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
}
timer_set_now(&thr->tv_poll);
return true;
}
void bitfury_disable(struct thr_info * const thr)
{
struct cgpu_info * const proc = thr->cgpu;
struct bitfury_device * const bitfury = proc->device_data;
applog(LOG_DEBUG, "%"PRIpreprv": Shutting down chip (disable)", proc->proc_repr);
bitfury_send_shutdown(bitfury->spi, bitfury->slot, bitfury->fasync);
}
void bitfury_enable(struct thr_info * const thr)
{
struct cgpu_info * const proc = thr->cgpu;
struct bitfury_device * const bitfury = proc->device_data;
struct cgpu_info * const dev = proc->device;
struct thr_info * const master_thr = dev->thr[0];
applog(LOG_DEBUG, "%"PRIpreprv": Reinitialising chip (enable)", proc->proc_repr);
bitfury_send_reinit(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
bitfury_init_chip(proc);
if (!timer_isset(&master_thr->tv_poll))
timer_set_now(&master_thr->tv_poll);
}
void bitfury_shutdown(struct thr_info *thr) {
struct cgpu_info *cgpu = thr->cgpu, *proc;
struct bitfury_device *bitfury;
applog(LOG_INFO, "INFO bitfury_shutdown");
for (proc = cgpu; proc; proc = proc->next_proc)
{
bitfury = proc->device_data;
bitfury_send_shutdown(bitfury->spi, bitfury->slot, bitfury->fasync);
}
}
bool bitfury_job_prepare(struct thr_info *thr, struct work *work, __maybe_unused uint64_t max_nonce)
{
struct cgpu_info * const proc = thr->cgpu;
struct bitfury_device * const bitfury = proc->device_data;
if (opt_debug)
{
char hex[153];
bin2hex(hex, &work->data[0], 76);
applog(LOG_DEBUG, "%"PRIpreprv": Preparing work %s",
proc->proc_repr, hex);
}
work_to_bitfury_payload(&bitfury->payload, work);
if (bitfury->chipgen)
bitfury_payload_to_atrvec(bitfury->atrvec, &bitfury->payload);
work->blk.nonce = 0xffffffff;
return true;
}
static
bool fudge_nonce(struct work * const work, uint32_t *nonce_p) {
static const uint32_t offsets[] = {0, 0xffc00000, 0xff800000, 0x02800000, 0x02C00000, 0x00400000};
uint32_t nonce;
int i;
if (unlikely(!work))
return false;
for (i = 0; i < 6; ++i)
{
nonce = *nonce_p + offsets[i];
if (test_nonce(work, nonce, false))
{
*nonce_p = nonce;
return true;
}
}
return false;
}
void bitfury_noop_job_start(struct thr_info __maybe_unused * const thr)
{
}
// freq_stat->{mh,s} are allocated such that [osc6_min] is the first valid index and [0] falls outside the allocation
void bitfury_init_freq_stat(struct freq_stat * const c, const int osc6_min, const int osc6_max)
{
const int osc6_values = (osc6_max + 1 - osc6_min);
void * const p = calloc(osc6_values, (sizeof(*c->mh) + sizeof(*c->s)));
c->mh = p - (sizeof(*c->mh) * osc6_min);
c->s = p + (sizeof(*c->mh) * osc6_values) - (sizeof(*c->s) * osc6_min);
c->osc6_min = osc6_min;
c->osc6_max = osc6_max;
}
void bitfury_clean_freq_stat(struct freq_stat * const c)
{
free(&c->mh[c->osc6_min]);
}
#define HOP_DONE 600
typedef uint32_t bitfury_inp_t[0x11];
static
int bitfury_select_freq(struct bitfury_device *bitfury, struct cgpu_info *proc) {
int freq;
int random;
int i;
bool all_done;
struct freq_stat *c;
c = &bitfury->chip_stat;
if (c->best_done) {
freq = c->best_osc;
} else {
random = (int)(bitfury->mhz * 1000.0) & 1;
freq = (bitfury->osc6_bits == c->osc6_max) ? c->osc6_min : bitfury->osc6_bits + random;
all_done = true;
for (i = c->osc6_min; i <= c->osc6_max; ++i)
if (c->s[i] <= HOP_DONE)
{
all_done = false;
break;
}
if (all_done)
{
double mh_max = 0.0;
for (i = c->osc6_min; i <= c->osc6_max; ++i)
{
const double mh_actual = c->mh[i] / c->s[i];
if (mh_max >= mh_actual)
continue;
mh_max = mh_actual;
freq = i;
}
c->best_done = 1;
c->best_osc = freq;
applog(LOG_DEBUG, "%"PRIpreprv": best_osc = %d",
proc->proc_repr, freq);
}
}
applog(LOG_DEBUG, "%"PRIpreprv": Changing osc6_bits to %d",
proc->proc_repr, freq);
bitfury->osc6_bits = freq;
bitfury_send_freq(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
return 0;
}
void bitfury_do_io(struct thr_info * const master_thr)
{
struct cgpu_info *proc;
struct thr_info *thr;
struct bitfury_device *bitfury;
struct freq_stat *c;
const uint32_t *inp;
int n, i, j;
bool newjob;
uint32_t nonce;
int n_chips = 0, lastchip = 0;
struct spi_port *spi = NULL;
bool should_be_running;
struct timeval tv_now;
uint32_t counter;
struct timeval *tvp_stat;
for (proc = master_thr->cgpu; proc; proc = proc->next_proc)
++n_chips;
struct cgpu_info *procs[n_chips];
void *rxbuf[n_chips];
bitfury_inp_t rxbuf_copy[n_chips];
// NOTE: This code assumes:
// 1) that chips on the same SPI bus are grouped together
// 2) that chips are in sequential fasync order
n_chips = 0;
for (proc = master_thr->cgpu; proc; proc = proc->next_proc)
{
thr = proc->thr[0];
bitfury = proc->device_data;
should_be_running = (proc->deven == DEV_ENABLED && !thr->pause);
if (should_be_running || thr->_job_transition_in_progress)
{
if (spi != bitfury->spi)
{
if (spi)
spi_txrx(spi);
spi = bitfury->spi;
spi_clear_buf(spi);
spi_emit_break(spi);
lastchip = 0;
}
procs[n_chips] = proc;
spi_emit_fasync(spi, bitfury->fasync - lastchip);
lastchip = bitfury->fasync;
rxbuf[n_chips] = spi_emit_data(spi, 0x3000, &bitfury->atrvec[0], 19 * 4);
++n_chips;
}
else
if (thr->work /* is currently running */ && thr->busy_state != TBS_STARTING_JOB)
;//FIXME: shutdown chip
}
if (!spi)
{
timer_unset(&master_thr->tv_poll);
return;
}
timer_set_now(&tv_now);
spi_txrx(spi);
for (j = 0; j < n_chips; ++j)
{
swap32tole(rxbuf_copy[j], rxbuf[j], 0x11);
rxbuf[j] = rxbuf_copy[j];
}
for (j = 0; j < n_chips; ++j)
{
proc = procs[j];
thr = proc->thr[0];
bitfury = proc->device_data;
tvp_stat = &bitfury->tv_stat;
c = &bitfury->chip_stat;
uint32_t * const newbuf = &bitfury->newbuf[0];
uint32_t * const oldbuf = &bitfury->oldbuf[0];
if (tvp_stat->tv_sec == 0 && tvp_stat->tv_usec == 0) {
copy_time(tvp_stat, &tv_now);
}
int stat_elapsed_secs = timer_elapsed(tvp_stat, &tv_now);
inp = rxbuf[j];
if (unlikely(bitfury->desync_counter == 99))
{
bitfury_init_oldbuf(proc, inp);
goto out;
}
if (opt_dev_protocol)
bitfury_debug_nonce_array(proc, "Read", inp);
// To avoid dealing with wrap-around entirely, we rotate array so previous active uint32_t is at index 0
memcpy(&newbuf[0], &inp[bitfury->active], 4 * (0x10 - bitfury->active));
memcpy(&newbuf[0x10 - bitfury->active], &inp[0], 4 * bitfury->active);
newjob = inp[0x10];
if (newbuf[0xf] != oldbuf[0xf])
{
inc_hw_errors2(thr, NULL, NULL);
if (unlikely(++bitfury->desync_counter >= 4))
{
applog(LOG_WARNING, "%"PRIpreprv": Previous nonce mismatch (4th try), recalibrating",
proc->proc_repr);
bitfury_init_oldbuf(proc, inp);
continue;
}
applog(LOG_DEBUG, "%"PRIpreprv": Previous nonce mismatch, ignoring response",
proc->proc_repr);
goto out;
}
else
bitfury->desync_counter = 0;
if (bitfury->oldjob != newjob && thr->next_work && bitfury->chipgen)
{
mt_job_transition(thr);
// TODO: Delay morework until right before it's needed
timer_set_now(&thr->tv_morework);
job_start_complete(thr);
}
for (n = 0; newbuf[n] == oldbuf[n]; ++n)
{
if (unlikely(n >= 0xf))
{
inc_hw_errors2(thr, NULL, NULL);
applog(LOG_DEBUG, "%"PRIpreprv": Full result match, reinitialising",
proc->proc_repr);
bitfury_send_reinit(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
bitfury->desync_counter = 99;
goto out;
}
}
counter = bitfury_decnonce(newbuf[n]);
if ((counter & 0xFFC00000) == 0xdf800000)
{
counter &= 0x003fffff;
int32_t cycles = counter - bitfury->counter1;
if (cycles < 0)
cycles += 0x00400000;
if (cycles & 0x00200000)
{
long long unsigned int period;
double ns;
struct timeval d_time;
timersub(&(tv_now), &(bitfury->timer1), &d_time);
period = timeval_to_us(&d_time) * 1000ULL;
ns = (double)period / (double)(cycles);
bitfury->mhz = 1.0 / ns * 65.0 * 1000.0;
if (bitfury->mhz_best)
{
const double mhz_half_best = bitfury->mhz_best / 2;
if (bitfury->mhz < mhz_half_best && bitfury->mhz_last < mhz_half_best)
{
applog(LOG_WARNING, "%"PRIpreprv": Frequency drop over 50%% detected, reinitialising",
proc->proc_repr);
bitfury->force_reinit = true;
}
}
if ((int)bitfury->mhz > bitfury->mhz_best && bitfury->mhz_last > bitfury->mhz_best)
{
// mhz_best is the lowest of two sequential readings over the previous best
if ((int)bitfury->mhz > bitfury->mhz_last)
bitfury->mhz_best = bitfury->mhz_last;
else
bitfury->mhz_best = bitfury->mhz;
}
bitfury->mhz_last = bitfury->mhz;
bitfury->counter1 = counter;
copy_time(&(bitfury->timer1), &tv_now);
}
}
if (c->osc6_max)
{
if (stat_elapsed_secs >= 60)
{
double mh_diff, s_diff;
const int osc = bitfury->osc6_bits;
// Copy current statistics
mh_diff = bitfury->counter2 - c->omh;
s_diff = total_secs - c->os;
applog(LOG_DEBUG, "%"PRIpreprv": %.0f completed in %f seconds",
proc->proc_repr, mh_diff, s_diff);
if (osc >= c->osc6_min && osc <= c->osc6_max)
{
c->mh[osc] += mh_diff;
c->s[osc] += s_diff;
}
c->omh = bitfury->counter2;
c->os = total_secs;
if (opt_debug && !c->best_done)
{
char logbuf[0x100];
logbuf[0] = '\0';
for (i = c->osc6_min; i <= c->osc6_max; ++i)
tailsprintf(logbuf, sizeof(logbuf), " %d=%.3f/%3.0fs",
i, c->mh[i] / c->s[i], c->s[i]);
applog(LOG_DEBUG, "%"PRIpreprv":%s",
proc->proc_repr, logbuf);
}
// Change freq;
if (!c->best_done) {
bitfury_select_freq(bitfury, proc);
} else {
applog(LOG_DEBUG, "%"PRIpreprv": Stable freq, osc6_bits: %d",
proc->proc_repr, bitfury->osc6_bits);
}
}
}
if (n)
{
for (i = 0; i < n; ++i)
{
nonce = bitfury_decnonce(newbuf[i]);
if (unlikely(!bitfury->chipgen))
{
switch (nonce & 0xe03fffff)
{
case 0x40060f87:
case 0x600054e0:
case 0x80156423:
case 0x991abced:
case 0xa004b2a0:
if (++bitfury->chipgen_probe > 0x10)
bitfury->chipgen = 1;
break;
case 0xe03081a3:
case 0xe003df88:
bitfury->chipgen = 2;
}
if (bitfury->chipgen)
goto chipgen_detected;
}
else
if (fudge_nonce(thr->work, &nonce))
{
applog(LOG_DEBUG, "%"PRIpreprv": nonce %x = %08lx (work=%p)",
proc->proc_repr, i, (unsigned long)nonce, thr->work);
submit_nonce(thr, thr->work, nonce);
bitfury->counter2 += 1;
}
else
if (!thr->prev_work)
applog(LOG_DEBUG, "%"PRIpreprv": Ignoring unrecognised nonce %08lx (no prev work)",
proc->proc_repr, (unsigned long)be32toh(nonce));
else
if (fudge_nonce(thr->prev_work, &nonce))
{
applog(LOG_DEBUG, "%"PRIpreprv": nonce %x = %08lx (prev work=%p)",
proc->proc_repr, i, (unsigned long)nonce, thr->prev_work);
submit_nonce(thr, thr->prev_work, nonce);
bitfury->counter2 += 1;
}
else
{
inc_hw_errors(thr, thr->work, nonce);
++bitfury->sample_hwe;
bitfury->strange_counter += 1;
}
if (++bitfury->sample_tot >= 0x40 || bitfury->sample_hwe >= 8)
{
if (bitfury->sample_hwe >= 8)
{
applog(LOG_WARNING, "%"PRIpreprv": %d of the last %d results were bad, reinitialising",
proc->proc_repr, bitfury->sample_hwe, bitfury->sample_tot);
bitfury_send_reinit(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
bitfury->desync_counter = 99;
}
bitfury->sample_tot = bitfury->sample_hwe = 0;
}
}
if ((!bitfury->chipgen) && stat_elapsed_secs >= chipgen_timeout_secs)
{
bitfury->chipgen = 1;
applog(LOG_WARNING, "%"PRIpreprv": Failed to detect chip generation in %d seconds, falling back to gen%d assumption",
proc->proc_repr, chipgen_timeout_secs, bitfury->chipgen);
chipgen_detected:
applog(LOG_DEBUG, "%"PRIpreprv": Detected bitfury gen%d chip",
proc->proc_repr, bitfury->chipgen);
bitfury_payload_to_atrvec(bitfury->atrvec, &bitfury->payload);
}
bitfury->active = (bitfury->active + n) % 0x10;
}
memcpy(&oldbuf[0], &newbuf[n], 4 * (0x10 - n));
memcpy(&oldbuf[0x10 - n], &newbuf[0], 4 * n);
bitfury->oldjob = newjob;
out:
if (unlikely(bitfury->force_reinit))
{
applog(LOG_DEBUG, "%"PRIpreprv": Forcing reinitialisation",
proc->proc_repr);
bitfury_send_reinit(bitfury->spi, bitfury->slot, bitfury->fasync, bitfury->osc6_bits);
bitfury->desync_counter = 99;
bitfury->mhz_last = 0;
bitfury->mhz_best = 0;
bitfury->force_reinit = false;
}
if (stat_elapsed_secs >= 60)
copy_time(tvp_stat, &tv_now);
}
timer_set_delay(&master_thr->tv_poll, &tv_now, 10000);
}
int64_t bitfury_job_process_results(struct thr_info *thr, struct work *work, bool stopping)
{
struct cgpu_info * const proc = thr->cgpu;
struct bitfury_device * const bitfury = proc->device_data;
switch (bitfury->chipgen)
{
default:
case 1:
// Bitfury gen1 chips process only 756/1024 of the nonce range
return 0xbd000000;
case 2:
// Bitfury gen2 chips process only 864/1024 of the nonce range
return 0xd8000000;
}
}
struct api_data *bitfury_api_device_detail(struct cgpu_info * const cgpu)
{
struct bitfury_device * const bitfury = cgpu->device_data;
struct api_data *root = NULL;
root = api_add_uint(root, "fasync", &bitfury->fasync, false);
if (bitfury->chipgen)
root = api_add_int(root, "Chip Generation", &bitfury->chipgen, false);
return root;
}
struct api_data *bitfury_api_device_status(struct cgpu_info * const cgpu)
{
struct bitfury_device * const bitfury = cgpu->device_data;
struct api_data *root = NULL;
int clock_bits = bitfury->osc6_bits;
root = api_add_int(root, "Clock Bits", &clock_bits, true);
root = api_add_freq(root, "Frequency", &bitfury->mhz, false);
return root;
}
static
bool _bitfury_set_device_parse_setting(uint32_t * const rv, const char * const setting, char * const replybuf, const int maxval)
{
char *p;
long int nv;
if (!setting || !*setting)
{
sprintf(replybuf, "missing setting");
return false;
}
nv = strtol(setting, &p, 0);
if (nv > maxval || nv < 1)
{
sprintf(replybuf, "invalid setting");
return false;
}
*rv = nv;
return true;
}
const char *bitfury_set_baud(struct cgpu_info * const proc, const char * const option, const char * const setting, char * const replybuf, enum bfg_set_device_replytype * const success)
{
struct bitfury_device * const bitfury = proc->device_data;
if (!_bitfury_set_device_parse_setting(&bitfury->spi->speed, setting, replybuf, INT_MAX))
return replybuf;
return NULL;
}
const char *bitfury_set_osc6_bits(struct cgpu_info * const proc, const char * const option, const char * const setting, char * const replybuf, enum bfg_set_device_replytype * const success)
{
struct bitfury_device * const bitfury = proc->device_data;
uint32_t newval;
struct freq_stat * const c = &bitfury->chip_stat;
newval = bitfury->osc6_bits;
if (!_bitfury_set_device_parse_setting(&newval, setting, replybuf, BITFURY_MAX_OSC6_BITS))
return replybuf;
bitfury->osc6_bits = newval;
bitfury->force_reinit = true;
c->osc6_max = 0;
return NULL;
}
const struct bfg_set_device_definition bitfury_set_device_funcs[] = {
{"osc6_bits", bitfury_set_osc6_bits, "range 1-"BITFURY_MAX_OSC6_BITS_S" (slow to fast)"},
// NOTE: bitfury_set_device_funcs_probe should begin here:
{"baud", bitfury_set_baud, "SPI baud rate"},
{NULL},
};
const struct bfg_set_device_definition *bitfury_set_device_funcs_probe = &bitfury_set_device_funcs[1];
#ifdef HAVE_CURSES
void bitfury_tui_wlogprint_choices(struct cgpu_info *cgpu)
{
wlogprint("[O]scillator bits ");
}
const char *bitfury_tui_handle_choice(struct cgpu_info *cgpu, int input)
{
struct bitfury_device * const bitfury = cgpu->device_data;
char buf[0x100];
switch (input)
{
case 'o': case 'O':
{
struct freq_stat * const c = &bitfury->chip_stat;
int val;
char *intvar;
sprintf(buf, "Set oscillator bits (range 1-%d; slow to fast)", BITFURY_MAX_OSC6_BITS);
intvar = curses_input(buf);
if (!intvar)
return "Invalid oscillator bits\n";
val = atoi(intvar);
free(intvar);
if (val < 1 || val > BITFURY_MAX_OSC6_BITS)
return "Invalid oscillator bits\n";
bitfury->osc6_bits = val;
bitfury->force_reinit = true;
c->osc6_max = 0;
return "Oscillator bits changing\n";
}
}
return NULL;
}
void bitfury_wlogprint_status(struct cgpu_info *cgpu)
{
struct bitfury_device * const bitfury = cgpu->device_data;
wlogprint("Oscillator bits: %d", bitfury->osc6_bits);
if (bitfury->chipgen)
wlogprint(" Chip generation: %d", bitfury->chipgen);
wlogprint("\n");
}
#endif
struct device_drv bitfury_drv = {
.dname = "bitfury_gpio",
.name = "BFY",
.drv_detect = bitfury_detect,
.thread_init = bitfury_init,
.thread_disable = bitfury_disable,
.thread_enable = bitfury_enable,
.thread_shutdown = bitfury_shutdown,
.minerloop = minerloop_async,
.job_prepare = bitfury_job_prepare,
.job_start = bitfury_noop_job_start,
.poll = bitfury_do_io,
.job_process_results = bitfury_job_process_results,
.get_api_extra_device_detail = bitfury_api_device_detail,
.get_api_extra_device_status = bitfury_api_device_status,
#ifdef HAVE_CURSES
.proc_wlogprint_status = bitfury_wlogprint_status,
.proc_tui_wlogprint_choices = bitfury_tui_wlogprint_choices,
.proc_tui_handle_choice = bitfury_tui_handle_choice,
#endif
};