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driver-hashratio.c
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driver-hashratio.c
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/*
* Copyright 2013-2014 Con Kolivas <[email protected]>
* Copyright 2012-2014 Xiangfu <[email protected]>
*
* 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 3 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
#include "config.h"
#include <limits.h>
#include <pthread.h>
#include <stdio.h>
#include <sys/time.h>
#include <sys/types.h>
#include <dirent.h>
#include <unistd.h>
#ifndef WIN32
#include <termios.h>
#include <sys/stat.h>
#include <fcntl.h>
#ifndef O_CLOEXEC
#define O_CLOEXEC 0
#endif
#else
#include <windows.h>
#include <io.h>
#endif
#include "elist.h"
#include "miner.h"
#include "driver-hashratio.h"
#include "crc.h"
#include "usbutils.h"
static int opt_hashratio_fan_min = HRTO_DEFAULT_FAN_MIN;
static int opt_hashratio_fan_max = HRTO_DEFAULT_FAN_MAX;
static int hashratio_freq = HRTO_DEFAULT_FREQUENCY;
//static int get_fan_pwm(int temp) {
// int pwm;
// uint8_t fan_pwm_arr[] = {30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30,
// 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30,
// 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30,
// 30, 37, 49, 61, 73, 85, 88, 91, 94, 97, 100, 100, 100, 100, 100, 100,
// 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100,
// 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100,
// 100, 100, 100, 100, 100, 100, 100};
// if (temp < 0 || temp >= sizeof(fan_pwm_arr)/sizeof(fan_pwm_arr[0]) ||
// fan_pwm_arr[temp] > opt_hashratio_fan_max) {
// return opt_hashratio_fan_max;
// }
// pwm = HRTO_PWM_MAX - fan_pwm_arr[temp] * HRTO_PWM_MAX / 100;
//
// if (pwm < opt_hashratio_fan_min) {
// return opt_hashratio_fan_min;
// }
// if (pwm > opt_hashratio_fan_max) {
// return opt_hashratio_fan_max;
// }
// return pwm;
//}
char *set_hashratio_freq(char *arg)
{
int val, ret;
ret = sscanf(arg, "%d", &val);
if (ret != 1)
return "No values passed to hashratio-freq";
if (val < HRTO_DEFAULT_FREQUENCY_MIN || val > HRTO_DEFAULT_FREQUENCY_MAX)
return "Invalid value passed to hashratio-freq";
hashratio_freq = val;
return NULL;
}
static inline uint8_t rev8(uint8_t d)
{
int i;
uint8_t out = 0;
/* (from left to right) */
for (i = 0; i < 8; i++)
if (d & (1 << i))
out |= (1 << (7 - i));
return out;
}
char *set_hashratio_fan(char *arg)
{
int val1, val2, ret;
ret = sscanf(arg, "%d-%d", &val1, &val2);
if (ret < 1)
return "No values passed to hashratio-fan";
if (ret == 1)
val2 = val1;
if (val1 < 0 || val1 > 100 || val2 < 0 || val2 > 100 || val2 < val1)
return "Invalid value passed to hashratio-fan";
opt_hashratio_fan_min = val1 * HRTO_PWM_MAX / 100;
opt_hashratio_fan_max = val2 * HRTO_PWM_MAX / 100;
return NULL;
}
static int hashratio_init_pkg(struct hashratio_pkg *pkg, uint8_t type,
uint8_t idx, uint8_t cnt)
{
unsigned short crc;
pkg->head[0] = HRTO_H1;
pkg->head[1] = HRTO_H2;
pkg->type = type;
pkg->idx = idx;
pkg->cnt = cnt;
crc = crc16(pkg->data, HRTO_P_DATA_LEN);
pkg->crc[0] = (crc & 0xff00) >> 8;
pkg->crc[1] = crc & 0x00ff;
return 0;
}
static int job_idcmp(uint8_t *job_id, char *pool_job_id)
{
int job_id_len;
unsigned short crc, crc_expect;
if (!pool_job_id)
return 1;
job_id_len = strlen(pool_job_id);
crc_expect = crc16((const unsigned char *)pool_job_id, job_id_len);
crc = job_id[0] << 8 | job_id[1];
if (crc_expect == crc)
return 0;
applog(LOG_DEBUG, "Hashratio: job_id not match! [%04x:%04x (%s)]",
crc, crc_expect, pool_job_id);
return 1;
}
static int decode_pkg(struct thr_info *thr, struct hashratio_ret *ar, uint8_t *pkg)
{
struct cgpu_info *hashratio = thr->cgpu;
struct hashratio_info *info = hashratio->device_data;
struct pool *pool, *real_pool, *pool_stratum = &info->pool;
unsigned int expected_crc;
unsigned int actual_crc;
uint32_t nonce, nonce2, miner;
int pool_no;
uint8_t job_id[4];
int tmp;
int type = HRTO_GETS_ERROR;
memcpy((uint8_t *)ar, pkg, HRTO_READ_SIZE);
// applog(LOG_DEBUG, "pkg.type, hex: %02x, dec: %d", ar->type, ar->type);
if (ar->head[0] == HRTO_H1 && ar->head[1] == HRTO_H2) {
expected_crc = crc16(ar->data, HRTO_P_DATA_LEN);
actual_crc = (ar->crc[0] & 0xff) |
((ar->crc[1] & 0xff) << 8);
type = ar->type;
applog(LOG_DEBUG, "hashratio: %d: expected crc(%04x), actual_crc(%04x)", type, expected_crc, actual_crc);
if (expected_crc != actual_crc)
goto out;
switch(type) {
case HRTO_P_NONCE:
applog(LOG_DEBUG, "Hashratio: HRTO_P_NONCE");
memcpy(&miner, ar->data + 0, 4);
memcpy(&pool_no, ar->data + 4, 4);
memcpy(&nonce2, ar->data + 8, 4);
/* Calc time ar->data + 12 */
memcpy(&nonce, ar->data + 12, 4);
memcpy(job_id, ar->data + 16, 4);
miner = be32toh(miner);
pool_no = be32toh(pool_no);
if (miner >= HRTO_DEFAULT_MINERS || pool_no >= total_pools || pool_no < 0) {
applog(LOG_DEBUG, "hashratio: Wrong miner/pool/id no %d,%d", miner, pool_no);
break;
} else
info->matching_work[miner]++;
nonce2 = be32toh(nonce2);
nonce = be32toh(nonce);
applog(LOG_DEBUG, "hashratio: Found! [%s] %d:(%08x) (%08x)",
job_id, pool_no, nonce2, nonce);
real_pool = pool = pools[pool_no];
if (job_idcmp(job_id, pool->swork.job_id)) {
if (!job_idcmp(job_id, pool_stratum->swork.job_id)) {
applog(LOG_DEBUG, "Hashratio: Match to previous stratum! (%s)", pool_stratum->swork.job_id);
pool = pool_stratum;
} else {
applog(LOG_DEBUG, "Hashratio Cannot match to any stratum! (%s)", pool->swork.job_id);
break;
}
}
submit_nonce2_nonce(thr, pool, real_pool, nonce2, nonce, 0);
break;
case HRTO_P_STATUS:
applog(LOG_DEBUG, "Hashratio: HRTO_P_STATUS");
memcpy(&tmp, ar->data, 4);
tmp = be32toh(tmp);
info->temp = (tmp & 0x00f0) >> 8;
if (info->temp_max < info->temp) {
info->temp_max = info->temp;
}
// info->temp[1] = tmp & 0xffff;
memcpy(&tmp, ar->data + 4, 4);
tmp = be32toh(tmp);
info->fan[0] = tmp >> 16;
info->fan[1] = tmp & 0xffff;
// local_work
memcpy(&tmp, ar->data + 8, 4);
tmp = be32toh(tmp);
info->local_work = tmp;
info->local_works += tmp;
// hw_work
memcpy(&tmp, ar->data + 12, 4);
tmp = be32toh(tmp);
info->hw_works += tmp;
hashratio->temp = info->temp;
break;
case HRTO_P_ACKDETECT:
applog(LOG_DEBUG, "Hashratio: HRTO_P_ACKDETECT");
break;
case HRTO_P_ACK:
applog(LOG_DEBUG, "Hashratio: HRTO_P_ACK");
break;
case HRTO_P_NAK:
applog(LOG_DEBUG, "Hashratio: HRTO_P_NAK");
break;
default:
applog(LOG_DEBUG, "Hashratio: HRTO_GETS_ERROR");
type = HRTO_GETS_ERROR;
break;
}
}
out:
return type;
}
static inline int hashratio_gets(struct cgpu_info *hashratio, uint8_t *buf)
{
int i;
int read_amount = HRTO_READ_SIZE;
uint8_t buf_tmp[HRTO_READ_SIZE];
uint8_t buf_copy[2 * HRTO_READ_SIZE];
uint8_t *buf_back = buf;
int ret = 0;
while (true) {
int err;
do {
memset(buf, 0, read_amount);
err = usb_read(hashratio, (char *)buf, read_amount, &ret, C_HRO_READ);
if (unlikely(err < 0 || ret != read_amount)) {
applog(LOG_ERR, "hashratio: Error on read in hashratio_gets got %d", ret);
return HRTO_GETS_ERROR;
}
if (likely(ret >= read_amount)) {
for (i = 1; i < read_amount; i++) {
if (buf_back[i - 1] == HRTO_H1 && buf_back[i] == HRTO_H2)
break;
}
i -= 1;
if (i) {
err = usb_read(hashratio, (char *)buf, read_amount, &ret, C_HRO_READ);
if (unlikely(err < 0 || ret != read_amount)) {
applog(LOG_ERR, "hashratio: Error on 2nd read in hashratio_gets got %d", ret);
return HRTO_GETS_ERROR;
}
memcpy(buf_copy, buf_back + i, HRTO_READ_SIZE - i);
memcpy(buf_copy + HRTO_READ_SIZE - i, buf_tmp, i);
memcpy(buf_back, buf_copy, HRTO_READ_SIZE);
}
return HRTO_GETS_OK;
}
buf += ret;
read_amount -= ret;
continue;
} while (ret > 0);
return HRTO_GETS_TIMEOUT;
}
}
static int hashratio_send_pkg(struct cgpu_info *hashratio, const struct hashratio_pkg *pkg)
{
int err, amount;
uint8_t buf[HRTO_WRITE_SIZE];
int nr_len = HRTO_WRITE_SIZE;
memcpy(buf, pkg, HRTO_WRITE_SIZE);
// if (opt_debug) {
// applog(LOG_DEBUG, "hashratio: Sent(%d):", nr_len);
// hexdump((uint8_t *)buf, nr_len);
// }
if (unlikely(hashratio->usbinfo.nodev))
return HRTO_SEND_ERROR;
err = usb_write(hashratio, (char *)buf, nr_len, &amount, C_HRO_WRITE);
if (err || amount != nr_len) {
applog(LOG_DEBUG, "hashratio: Send(%d)!", amount);
return HRTO_SEND_ERROR;
}
return HRTO_SEND_OK;
}
static int hashratio_send_pkgs(struct cgpu_info *hashratio, const struct hashratio_pkg *pkg)
{
int ret;
do {
if (unlikely(hashratio->usbinfo.nodev))
return -1;
ret = hashratio_send_pkg(hashratio, pkg);
} while (ret != HRTO_SEND_OK);
return 0;
}
static void hashratio_stratum_pkgs(struct cgpu_info *hashratio, struct pool *pool)
{
const int merkle_offset = 36;
struct hashratio_pkg pkg;
int i, a, b, tmp;
unsigned char target[32];
int job_id_len;
unsigned short crc;
/* Send out the first stratum message STATIC */
applog(LOG_DEBUG, "hashratio: Pool stratum message STATIC: %d, %d, %d, %d, %d, %d",
pool->coinbase_len,
pool->nonce2_offset,
pool->n2size,
merkle_offset,
pool->merkles,
pool->pool_no);
memset(pkg.data, 0, HRTO_P_DATA_LEN);
tmp = be32toh(pool->coinbase_len);
memcpy(pkg.data, &tmp, 4);
tmp = be32toh(pool->nonce2_offset);
memcpy(pkg.data + 4, &tmp, 4);
tmp = be32toh(pool->n2size);
memcpy(pkg.data + 8, &tmp, 4);
tmp = be32toh(merkle_offset);
memcpy(pkg.data + 12, &tmp, 4);
tmp = be32toh(pool->merkles);
memcpy(pkg.data + 16, &tmp, 4);
tmp = be32toh((int)pool->sdiff);
memcpy(pkg.data + 20, &tmp, 4);
tmp = be32toh((int)pool->pool_no);
memcpy(pkg.data + 24, &tmp, 4);
hashratio_init_pkg(&pkg, HRTO_P_STATIC, 1, 1);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
set_target(target, pool->sdiff);
memcpy(pkg.data, target, 32);
if (opt_debug) {
char *target_str;
target_str = bin2hex(target, 32);
applog(LOG_DEBUG, "hashratio: Pool stratum target: %s", target_str);
free(target_str);
}
hashratio_init_pkg(&pkg, HRTO_P_TARGET, 1, 1);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
applog(LOG_DEBUG, "hashratio: Pool stratum message JOBS_ID: %s",
pool->swork.job_id);
memset(pkg.data, 0, HRTO_P_DATA_LEN);
job_id_len = strlen(pool->swork.job_id);
crc = crc16((const unsigned char *)pool->swork.job_id, job_id_len);
pkg.data[0] = (crc & 0xff00) >> 8;
pkg.data[1] = crc & 0x00ff;
hashratio_init_pkg(&pkg, HRTO_P_JOB_ID, 1, 1);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
a = pool->coinbase_len / HRTO_P_DATA_LEN;
b = pool->coinbase_len % HRTO_P_DATA_LEN;
applog(LOG_DEBUG, "pool->coinbase_len: %d", pool->coinbase_len);
applog(LOG_DEBUG, "hashratio: Pool stratum message COINBASE: %d %d", a, b);
for (i = 0; i < a; i++) {
memcpy(pkg.data, pool->coinbase + i * 32, 32);
hashratio_init_pkg(&pkg, HRTO_P_COINBASE, i + 1, a + (b ? 1 : 0));
if (hashratio_send_pkgs(hashratio, &pkg))
return;
if (i % 25 == 0) {
cgsleep_ms(2);
}
}
if (b) {
memset(pkg.data, 0, HRTO_P_DATA_LEN);
memcpy(pkg.data, pool->coinbase + i * 32, b);
hashratio_init_pkg(&pkg, HRTO_P_COINBASE, i + 1, i + 1);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
}
b = pool->merkles;
applog(LOG_DEBUG, "hashratio: Pool stratum message MERKLES: %d", b);
for (i = 0; i < b; i++) {
memset(pkg.data, 0, HRTO_P_DATA_LEN);
memcpy(pkg.data, pool->swork.merkle_bin[i], 32);
hashratio_init_pkg(&pkg, HRTO_P_MERKLES, i + 1, b);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
}
applog(LOG_DEBUG, "hashratio: Pool stratum message HEADER: 4");
for (i = 0; i < 4; i++) {
memset(pkg.data, 0, HRTO_P_HEADER);
memcpy(pkg.data, pool->header_bin + i * 32, 32);
hashratio_init_pkg(&pkg, HRTO_P_HEADER, i + 1, 4);
if (hashratio_send_pkgs(hashratio, &pkg))
return;
}
}
static int hashratio_get_result(struct thr_info *thr, struct hashratio_ret *ar)
{
struct cgpu_info *hashratio = thr->cgpu;
uint8_t result[HRTO_READ_SIZE];
int ret;
memset(result, 0, HRTO_READ_SIZE);
ret = hashratio_gets(hashratio, result);
if (ret != HRTO_GETS_OK)
return ret;
// if (opt_debug) {
// applog(LOG_DEBUG, "hashratio: Get(ret = %d):", ret);
// hexdump((uint8_t *)result, HRTO_READ_SIZE);
// }
return decode_pkg(thr, ar, result);
}
#define HASHRATIO_LATENCY 5
static void hashratio_initialise(struct cgpu_info *hashratio)
{
int err, interface;
if (hashratio->usbinfo.nodev)
return;
interface = usb_interface(hashratio);
// Reset
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_RESET,
FTDI_VALUE_RESET, interface, C_RESET);
applog(LOG_DEBUG, "%s%i: reset got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set latency
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_LATENCY,
HASHRATIO_LATENCY, interface, C_LATENCY);
applog(LOG_DEBUG, "%s%i: latency got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set data
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_DATA,
FTDI_VALUE_DATA_AVA, interface, C_SETDATA);
applog(LOG_DEBUG, "%s%i: data got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set the baud
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_BAUD, FTDI_VALUE_BAUD_AVA,
(FTDI_INDEX_BAUD_AVA & 0xff00) | interface,
C_SETBAUD);
applog(LOG_DEBUG, "%s%i: setbaud got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set Modem Control
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_MODEM,
FTDI_VALUE_MODEM, interface, C_SETMODEM);
applog(LOG_DEBUG, "%s%i: setmodemctrl got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set Flow Control
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_FLOW,
FTDI_VALUE_FLOW, interface, C_SETFLOW);
applog(LOG_DEBUG, "%s%i: setflowctrl got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
/* hashratio repeats the following */
// Set Modem Control
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_MODEM,
FTDI_VALUE_MODEM, interface, C_SETMODEM);
applog(LOG_DEBUG, "%s%i: setmodemctrl 2 got err %d",
hashratio->drv->name, hashratio->device_id, err);
if (hashratio->usbinfo.nodev)
return;
// Set Flow Control
err = usb_transfer(hashratio, FTDI_TYPE_OUT, FTDI_REQUEST_FLOW,
FTDI_VALUE_FLOW, interface, C_SETFLOW);
applog(LOG_DEBUG, "%s%i: setflowctrl 2 got err %d",
hashratio->drv->name, hashratio->device_id, err);
}
static struct cgpu_info *hashratio_detect_one(struct libusb_device *dev, struct usb_find_devices *found)
{
struct hashratio_info *info;
int err, amount;
int ackdetect;
char mm_version[16];
struct cgpu_info *hashratio = usb_alloc_cgpu(&hashratio_drv, 1);
struct hashratio_pkg detect_pkg;
struct hashratio_ret ret_pkg;
if (!usb_init(hashratio, dev, found)) {
applog(LOG_ERR, "Hashratio failed usb_init");
hashratio = usb_free_cgpu(hashratio);
return NULL;
}
hashratio_initialise(hashratio);
strcpy(mm_version, "NONE");
/* Send out detect pkg */
memset(detect_pkg.data, 0, HRTO_P_DATA_LEN);
hashratio_init_pkg(&detect_pkg, HRTO_P_DETECT, 1, 1);
hashratio_send_pkg(hashratio, &detect_pkg);
err = usb_read(hashratio, (char *)&ret_pkg, HRTO_READ_SIZE, &amount, C_HRO_READ);
if (err || amount != HRTO_READ_SIZE) {
applog(LOG_ERR, "%s %d: Hashratio failed usb_read with err %d amount %d",
hashratio->drv->name, hashratio->device_id, err, amount);
usb_uninit(hashratio);
usb_free_cgpu(hashratio);
return NULL;
}
ackdetect = ret_pkg.type;
applog(LOG_DEBUG, "hashratio Detect ID: %d", ackdetect);
if (ackdetect != HRTO_P_ACKDETECT) {
applog(LOG_DEBUG, "Not a hashratio device");
usb_uninit(hashratio);
usb_free_cgpu(hashratio);
return NULL;
}
memcpy(mm_version, ret_pkg.data, 15);
mm_version[15] = '\0';
/* We have a real Hashratio! */
hashratio->threads = HRTO_MINER_THREADS;
add_cgpu(hashratio);
update_usb_stats(hashratio);
applog(LOG_INFO, "%s%d: Found at %s", hashratio->drv->name, hashratio->device_id,
hashratio->device_path);
hashratio->device_data = calloc(sizeof(struct hashratio_info), 1);
if (unlikely(!(hashratio->device_data)))
quit(1, "Failed to malloc hashratio_info");
info = hashratio->device_data;
strcpy(info->mm_version, mm_version);
info->fan_pwm = HRTO_DEFAULT_FAN / 100 * HRTO_PWM_MAX;
info->temp_max = 0;
info->temp_history_index = 0;
info->temp_sum = 0;
info->temp_old = 0;
info->default_freq = hashratio_freq;
return hashratio;
}
static inline void hashratio_detect(bool __maybe_unused hotplug)
{
usb_detect(&hashratio_drv, hashratio_detect_one);
}
static bool hashratio_prepare(struct thr_info *thr)
{
struct cgpu_info *hashratio = thr->cgpu;
struct hashratio_info *info = hashratio->device_data;
cglock_init(&info->pool.data_lock);
return true;
}
static void copy_pool_stratum(struct hashratio_info *info, struct pool *pool)
{
int i;
int merkles = pool->merkles;
size_t coinbase_len = pool->coinbase_len;
struct pool *pool_stratum = &info->pool;
if (!job_idcmp((uint8_t *)pool->swork.job_id, pool_stratum->swork.job_id))
return;
cg_wlock(&(pool_stratum->data_lock));
free(pool_stratum->swork.job_id);
free(pool_stratum->nonce1);
free(pool_stratum->coinbase);
align_len(&coinbase_len);
pool_stratum->coinbase = calloc(coinbase_len, 1);
if (unlikely(!pool_stratum->coinbase))
quit(1, "Failed to calloc pool_stratum coinbase in hashratio");
memcpy(pool_stratum->coinbase, pool->coinbase, coinbase_len);
for (i = 0; i < pool_stratum->merkles; i++)
free(pool_stratum->swork.merkle_bin[i]);
if (merkles) {
pool_stratum->swork.merkle_bin = realloc(pool_stratum->swork.merkle_bin,
sizeof(char *) * merkles + 1);
for (i = 0; i < merkles; i++) {
pool_stratum->swork.merkle_bin[i] = malloc(32);
if (unlikely(!pool_stratum->swork.merkle_bin[i]))
quit(1, "Failed to malloc pool_stratum swork merkle_bin");
memcpy(pool_stratum->swork.merkle_bin[i], pool->swork.merkle_bin[i], 32);
}
}
pool_stratum->sdiff = pool->sdiff;
pool_stratum->coinbase_len = pool->coinbase_len;
pool_stratum->nonce2_offset = pool->nonce2_offset;
pool_stratum->n2size = pool->n2size;
pool_stratum->merkles = pool->merkles;
pool_stratum->swork.job_id = strdup(pool->swork.job_id);
pool_stratum->nonce1 = strdup(pool->nonce1);
memcpy(pool_stratum->ntime, pool->ntime, sizeof(pool_stratum->ntime));
memcpy(pool_stratum->header_bin, pool->header_bin, sizeof(pool_stratum->header_bin));
cg_wunlock(&(pool_stratum->data_lock));
}
static void hashratio_update_work(struct cgpu_info *hashratio)
{
struct hashratio_info *info = hashratio->device_data;
struct thr_info *thr = hashratio->thr[0];
struct hashratio_pkg send_pkg;
uint32_t tmp, range, start;
struct work *work;
struct pool *pool;
applog(LOG_DEBUG, "hashratio: New stratum: restart: %d, update: %d",
thr->work_restart, thr->work_update);
thr->work_update = false;
thr->work_restart = false;
work = get_work(thr, thr->id); /* Make sure pool is ready */
discard_work(work); /* Don't leak memory */
pool = current_pool();
if (!pool->has_stratum)
quit(1, "hashratio: Miner Manager have to use stratum pool");
if (pool->coinbase_len > HRTO_P_COINBASE_SIZE)
quit(1, "hashratio: Miner Manager pool coinbase length have to less then %d", HRTO_P_COINBASE_SIZE);
if (pool->merkles > HRTO_P_MERKLES_COUNT)
quit(1, "hashratio: Miner Manager merkles have to less then %d", HRTO_P_MERKLES_COUNT);
info->pool_no = pool->pool_no;
cgtime(&info->last_stratum);
cg_rlock(&pool->data_lock);
info->pool_no = pool->pool_no;
copy_pool_stratum(info, pool);
hashratio_stratum_pkgs(hashratio, pool);
cg_runlock(&pool->data_lock);
/* Configure the parameter from outside */
memset(send_pkg.data, 0, HRTO_P_DATA_LEN);
// fan. We're not measuring temperature so set a safe but not max value
info->fan_pwm = HRTO_PWM_MAX * 2 / 3;
tmp = be32toh(info->fan_pwm);
memcpy(send_pkg.data, &tmp, 4);
// freq
tmp = be32toh(info->default_freq);
memcpy(send_pkg.data + 4, &tmp, 4);
applog(LOG_DEBUG, "set freq: %d", info->default_freq);
/* Configure the nonce2 offset and range */
range = 0xffffffff / (total_devices + 1);
start = range * (hashratio->device_id + 1);
tmp = be32toh(start);
memcpy(send_pkg.data + 8, &tmp, 4);
tmp = be32toh(range);
memcpy(send_pkg.data + 12, &tmp, 4);
/* Package the data */
hashratio_init_pkg(&send_pkg, HRTO_P_SET, 1, 1);
hashratio_send_pkgs(hashratio, &send_pkg);
}
static int64_t hashratio_scanhash(struct thr_info *thr)
{
struct cgpu_info *hashratio = thr->cgpu;
struct hashratio_info *info = hashratio->device_data;
struct hashratio_pkg send_pkg;
struct hashratio_ret ar;
memset(send_pkg.data, 0, HRTO_P_DATA_LEN);
hashratio_init_pkg(&send_pkg, HRTO_P_POLLING, 1, 1);
if (unlikely(hashratio->usbinfo.nodev || hashratio_send_pkgs(hashratio, &send_pkg))) {
applog(LOG_ERR, "%s%d: Device disappeared, shutting down thread",
hashratio->drv->name, hashratio->device_id);
return -1;
}
hashratio_get_result(thr, &ar);
return (int64_t)info->local_work * 64 * 0xffffffff;
}
static struct api_data *hashratio_api_stats(struct cgpu_info *cgpu)
{
struct api_data *root = NULL;
struct hashratio_info *info = cgpu->device_data;
char buf[24];
char buf2[256];
double hwp;
int i;
// mm version
sprintf(buf, "MM Version");
root = api_add_string(root, buf, info->mm_version, false);
// asic freq
sprintf(buf, "Asic Freq (MHz)");
root = api_add_int(root, buf, &(info->default_freq), false);
// match work count
for (i = 0; i < HRTO_DEFAULT_MODULARS; i++) {
sprintf(buf, "Match work Modular %02d", i + 1);
memset(buf2, 0, sizeof(buf2));
snprintf(buf2, sizeof(buf2),
"%02d:%08d %02d:%08d %02d:%08d %02d:%08d "
"%02d:%08d %02d:%08d %02d:%08d %02d:%08d "
"%02d:%08d %02d:%08d %02d:%08d %02d:%08d "
"%02d:%08d %02d:%08d %02d:%08d %02d:%08d",
i*16 + 1, info->matching_work[i*16 + 0],
i*16 + 2, info->matching_work[i*16 + 1],
i*16 + 3, info->matching_work[i*16 + 2],
i*16 + 4, info->matching_work[i*16 + 3],
i*16 + 5, info->matching_work[i*16 + 4],
i*16 + 6, info->matching_work[i*16 + 5],
i*16 + 7, info->matching_work[i*16 + 6],
i*16 + 8, info->matching_work[i*16 + 7],
i*16 + 9, info->matching_work[i*16 + 8],
i*16 + 10, info->matching_work[i*16 + 9],
i*16 + 11, info->matching_work[i*16 + 10],
i*16 + 12, info->matching_work[i*16 + 11],
i*16 + 13, info->matching_work[i*16 + 12],
i*16 + 14, info->matching_work[i*16 + 13],
i*16 + 15, info->matching_work[i*16 + 14],
i*16 + 16, info->matching_work[i*16 + 15]);
root = api_add_string(root, buf, buf2, true);
}
// local works
sprintf(buf, "Local works");
root = api_add_int(root, buf, &(info->local_works), false);
// hardware error works
sprintf(buf, "Hardware error works");
root = api_add_int(root, buf, &(info->hw_works), false);
// device hardware error %
hwp = info->local_works ? ((double)info->hw_works / (double)info->local_works) : 0;
sprintf(buf, "Device hardware error%%");
root = api_add_percent(root, buf, &hwp, true);
// Temperature
sprintf(buf, "Temperature");
root = api_add_int(root, buf, &(info->temp), false);
// Fan
for (i = 0; i < HRTO_FAN_COUNT; i++) {
sprintf(buf, "Fan%d", i+1);
root = api_add_int(root, buf, &(info->fan[i]), false);
}
return root;
}
static void hashratio_shutdown(struct thr_info __maybe_unused *thr)
{
}
struct device_drv hashratio_drv = {
.drv_id = DRIVER_hashratio,
.dname = "hashratio",
.name = "HRO",
.get_api_stats = hashratio_api_stats,
.drv_detect = hashratio_detect,
.thread_prepare = hashratio_prepare,
.hash_work = hash_driver_work,
.scanwork = hashratio_scanhash,
.flush_work = hashratio_update_work,
.update_work = hashratio_update_work,
.thread_shutdown = hashratio_shutdown,
};