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- /*
- * Copyright 2013-2014 Con Kolivas <kernel@kolivas.org>
- * Copyright 2012-2014 Xiangfu <xiangfu@openmobilefree.com>
- * Copyright 2014-2015 Mikeqin <Fengling.Qin@gmail.com>
- *
- * 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 <math.h>
- #include "config.h"
- #include "miner.h"
- #include "driver-avalon-miner.h"
- #include "crc.h"
- #include "sha2.h"
- #include "hexdump.c"
- #define UNPACK32(x, str) \
- { \
- *((str) + 3) = (uint8_t) ((x) ); \
- *((str) + 2) = (uint8_t) ((x) >> 8); \
- *((str) + 1) = (uint8_t) ((x) >> 16); \
- *((str) + 0) = (uint8_t) ((x) >> 24); \
- }
- #define PACK32(str, x) \
- { \
- *(x) = ((uint32_t) *((str) + 3) ) \
- | ((uint32_t) *((str) + 2) << 8) \
- | ((uint32_t) *((str) + 1) << 16) \
- | ((uint32_t) *((str) + 0) << 24); \
- }
- #define V_REF 3.3
- #define R_REF 10000
- #define R0 10000
- #define BCOEFFICIENT 3450
- #define T0 25
- static uint32_t opt_avalonm_freq[3] = {AVAM_DEFAULT_FREQUENCY, AVAM_DEFAULT_FREQUENCY, AVAM_DEFAULT_FREQUENCY};
- uint8_t opt_avalonm_ntime_offset = 0;
- int opt_avalonm_voltage = AVAM_DEFAULT_VOLTAGE;
- uint32_t opt_avalonm_spispeed = AVAM_DEFAULT_SPISPEED;
- bool opt_avalonm_autof;
- static uint32_t g_freq_array[][2] = {
- {100, 0x1e678447},
- {113, 0x22688447},
- {125, 0x1c470447},
- {138, 0x2a6a8447},
- {150, 0x22488447},
- {163, 0x326c8447},
- {175, 0x1a268447},
- {188, 0x1c270447},
- {200, 0x1e278447},
- {213, 0x20280447},
- {225, 0x22288447},
- {238, 0x24290447},
- {250, 0x26298447},
- {263, 0x282a0447},
- {275, 0x2a2a8447},
- {288, 0x2c2b0447},
- {300, 0x2e2b8447},
- {313, 0x302c0447},
- {325, 0x322c8447},
- {338, 0x342d0447},
- {350, 0x1a068447},
- {363, 0x382e0447},
- {375, 0x1c070447},
- {388, 0x3c2f0447},
- {400, 0x1e078447}
- };
- static uint16_t encode_voltage(uint32_t v)
- {
- if (v == 0)
- return 0xff;
- return (((0x59 - (v - 5000) / 125) & 0xff) << 1 | 1);
- }
- static uint32_t decode_voltage(uint8_t v)
- {
- if (v == 0xff)
- return 0;
- return (0x59 - (v >> 1)) * 125 + 5000;
- }
- static uint32_t decode_cpm(uint32_t cpm)
- {
- int i;
- for (i = 0; i < sizeof(g_freq_array) / sizeof(g_freq_array[0]); i++) {
- if (g_freq_array[i][1] == cpm)
- return g_freq_array[i][0];
- }
- return 0;
- }
- static int avalonm_init_pkg(struct avalonm_pkg *pkg, uint8_t type, uint8_t idx, uint8_t cnt)
- {
- unsigned short crc;
- pkg->head[0] = AVAM_H1;
- pkg->head[1] = AVAM_H2;
- pkg->type = type;
- pkg->opt = 0;
- pkg->idx = idx;
- pkg->cnt = cnt;
- crc = crc16(pkg->data, AVAM_P_DATA_LEN);
- pkg->crc[0] = (crc & 0xff00) >> 8;
- pkg->crc[1] = crc & 0x00ff;
- return 0;
- }
- static float convert_temp(uint32_t adc)
- {
- float ret, resistance;
- if (adc >= 1023)
- return -273.15;
- resistance = (1023.0 / adc) - 1;
- resistance = R_REF / resistance;
- ret = resistance / R0;
- ret = log(ret);
- ret /= BCOEFFICIENT;
- ret += 1.0 / (T0 + 273.15);
- ret = 1.0 / ret;
- ret -= 273.15;
- return ret;
- }
- static float convert_voltage(uint32_t adc, float percent)
- {
- float voltage;
- voltage = adc * V_REF / 1023 / percent;
- return voltage;
- }
- static void process_nonce(struct cgpu_info *avalonm, uint8_t *report)
- {
- struct avalonm_info *info = avalonm->device_data;
- struct work *work;
- uint8_t ntime, chip_id;
- uint32_t nonce, id;
- PACK32(report, &id);
- chip_id = report[6];
- if (chip_id >= info->asic_cnts) {
- applog(LOG_DEBUG, "%s-%d: chip_id >= info->asic_cnts(%d > %d)",
- avalonm->drv->name, avalonm->device_id,
- chip_id, info->asic_cnts);
- return;
- }
- ntime = report[7];
- PACK32(report + 8, &nonce);
- nonce -= 0x4000;
- info->usbfifo_cnt = report[13];
- info->workfifo_cnt = report[14];
- info->noncefifo_cnt = report[15];
- applog(LOG_DEBUG, "%s-%d: Found! - ID: %08x CID: %02x N:%08x NR:%d",
- avalonm->drv->name, avalonm->device_id,
- id, chip_id, nonce, ntime);
- work = clone_queued_work_byid(avalonm, id);
- if (!work)
- return;
- if(!submit_noffset_nonce(info->thr, work, nonce, ntime)) {
- info->hw_work[chip_id]++;
- info->hw_work_i[chip_id][info->time_i]++;
- }
- info->matching_work[chip_id]++;
- free_work(work);
- info->nonce_cnts++;
- }
- static int decode_pkg(struct thr_info *thr, struct avalonm_ret *ar)
- {
- struct cgpu_info *avalonm = thr->cgpu;
- struct avalonm_info *info = avalonm->device_data;
- uint32_t ret, tmp, i, freq[3];
- unsigned int expected_crc;
- unsigned int actual_crc;
- if (ar->head[0] != AVAM_H1 && ar->head[1] != AVAM_H2) {
- applog(LOG_DEBUG, "%s-%d: H1 %02x, H2 %02x",
- avalonm->drv->name, avalonm->device_id,
- ar->head[0], ar->head[1]);
- info->crcerr_cnt++;
- return 0;
- }
- expected_crc = crc16(ar->data, AVAM_P_DATA_LEN);
- actual_crc = (ar->crc[1] & 0xff) | ((ar->crc[0] & 0xff) << 8);
- if (expected_crc != actual_crc) {
- applog(LOG_DEBUG, "%s-%d: %02x: expected crc(%04x), actual_crc(%04x)",
- avalonm->drv->name, avalonm->device_id,
- ar->type, expected_crc, actual_crc);
- return 0;
- }
- switch(ar->type) {
- case AVAM_P_NONCE_M:
- ret = ar->type;
- applog(LOG_DEBUG, "%s-%d: AVAM_P_NONCE", avalonm->drv->name, avalonm->device_id);
- hexdump(ar->data, 32);
- process_nonce(avalonm, ar->data);
- if (ar->data[22] != 0xff) {
- process_nonce(avalonm, ar->data + 16);
- }
- break;
- case AVAM_P_STATUS_M:
- ret = ar->type;
- applog(LOG_DEBUG, "%s-%d: AVAM_P_STATUS_M", avalonm->drv->name, avalonm->device_id);
- hexdump(ar->data, 32);
- memcpy(&tmp, ar->data, 4);
- if (!strncmp(info->ver, "3U", 2))
- info->get_frequency[0][0] = be32toh(tmp);
- else
- info->spi_speed = be32toh(tmp);
- memcpy(&tmp, ar->data + 4, 4);
- info->led_status = be32toh(tmp);
- memcpy(&tmp, ar->data + 8, 4);
- info->fan_pwm = be32toh(tmp);
- memcpy(&tmp, ar->data + 12, 4);
- if (!strncmp(info->ver, "3U", 2))
- info->get_voltage = convert_voltage(be32toh(tmp), 0.5);
- else
- info->get_voltage = decode_voltage((uint8_t)be32toh(tmp));
- memcpy(&tmp, ar->data + 16, 4);
- info->adc[0] = be32toh(tmp);
- memcpy(&tmp, ar->data + 20, 4);
- info->adc[1] = be32toh(tmp);
- memcpy(&tmp, ar->data + 24, 4);
- info->adc[2] = be32toh(tmp);
- memcpy(&tmp, ar->data + 28 , 4);
- info->power_good = be32toh(tmp);
- /* power off notice */
- if (!info->get_voltage) {
- usb_buffer_clear(avalonm);
- applog(LOG_NOTICE, "%s-%d: AVAM_P_STATUS_M Power off notice", avalonm->drv->name, avalonm->device_id);
- info->power_on = 1;
- memset(info->set_frequency, 0, sizeof(uint32_t) * info->asic_cnts * 3);
- for (i = 1; i <= info->asic_cnts; i++)
- FLAG_SET(info->freq_set, i);
- }
- break;
- case AVAM_P_STATUS_FREQ:
- applog(LOG_DEBUG, "%s-%d: AVAM_P_STATUS_FREQ", avalonm->drv->name, avalonm->device_id);
- memcpy(&tmp, ar->data, 4);
- tmp = be32toh(tmp);
- freq[0] = decode_cpm(tmp);
- memcpy(&tmp, ar->data + 4, 4);
- tmp = be32toh(tmp);
- freq[1] = decode_cpm(tmp);
- memcpy(&tmp, ar->data + 8, 4);
- tmp = be32toh(tmp);
- freq[2] = decode_cpm(tmp);
- if (!ar->opt) {
- for (i = 0; i < info->asic_cnts; i++) {
- info->get_frequency[i][0] = freq[0];
- info->get_frequency[i][1] = freq[1];
- info->get_frequency[i][2] = freq[2];
- }
- }
- if (ar->opt) {
- info->get_frequency[ar->opt - 1][0] = freq[0];
- info->get_frequency[ar->opt - 1][1] = freq[1];
- info->get_frequency[ar->opt - 1][2] = freq[2];
- }
- break;
- default:
- applog(LOG_DEBUG, "%s-%d: Unknown response (%x)", avalonm->drv->name, avalonm->device_id,
- ar->type);
- ret = 0;
- break;
- }
- return ret;
- }
- static int avalonm_send_pkg(struct cgpu_info *avalonm, const struct avalonm_pkg *pkg)
- {
- int err = -1;
- int writecnt;
- if (unlikely(avalonm->usbinfo.nodev))
- return -1;
- err = usb_write(avalonm, (char *)pkg, AVAM_P_COUNT, &writecnt, C_AVAM_WRITE);
- if (err || writecnt != AVAM_P_COUNT) {
- applog(LOG_DEBUG, "%s-%d: avalonm_send_pkg %d, w(%d-%d)!", avalonm->drv->name, avalonm->device_id, err, AVAM_P_COUNT, writecnt);
- return -1;
- }
- return writecnt;
- }
- static int avalonm_receive_pkg(struct cgpu_info *avalonm, struct avalonm_ret *ret)
- {
- int err = -1;
- int readcnt;
- if (unlikely(avalonm->usbinfo.nodev))
- return -1;
- err = usb_read(avalonm, (char*)ret, AVAM_P_COUNT, &readcnt, C_AVAM_READ);
- if (err || readcnt != AVAM_P_COUNT) {
- applog(LOG_DEBUG, "%s-%d: avalonm_receive_pkg %d, w(%d-%d)!", avalonm->drv->name, avalonm->device_id, err, AVAM_P_COUNT, readcnt);
- return -1;
- }
- return readcnt;
- }
- static int avalonm_xfer_pkg(struct cgpu_info *avalonm, const struct avalonm_pkg *pkg, struct avalonm_ret *ret)
- {
- if (sizeof(struct avalonm_pkg) != avalonm_send_pkg(avalonm, pkg))
- return AVAM_SEND_ERROR;
- if (sizeof(struct avalonm_ret) != avalonm_receive_pkg(avalonm, ret))
- return AVAM_SEND_ERROR;
- return AVAM_SEND_OK;
- }
- static int avalonm_get_frequency(struct cgpu_info *avalonm, uint8_t asic_index)
- {
- struct avalonm_info *info = avalonm->device_data;
- struct thr_info *thr = info->thr;
- struct avalonm_pkg send_pkg;
- struct avalonm_ret ar;
- int ret = 0;
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- avalonm_init_pkg(&send_pkg, AVAM_P_GET_FREQ, 1, 1);
- send_pkg.opt = asic_index;
- ret = avalonm_xfer_pkg(avalonm, &send_pkg, &ar);
- if (ret == AVAM_SEND_OK) {
- ret = decode_pkg(thr, &ar);
- }
- return ret;
- }
- static void avalonm_set_spispeed(struct cgpu_info *avalonm, uint32_t speed)
- {
- struct avalonm_pkg send_pkg;
- int tmp;
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- tmp = speed | 0x80000000;
- tmp = be32toh(tmp);
- memcpy(send_pkg.data, &tmp, 4);
- avalonm_init_pkg(&send_pkg, AVAM_P_SETM, 1, 1);
- avalonm_send_pkg(avalonm, &send_pkg);
- }
- static struct cgpu_info *avalonm_detect_one(struct libusb_device *dev, struct usb_find_devices *found)
- {
- struct cgpu_info *avalonm = usb_alloc_cgpu(&avalonm_drv, 1);
- struct avalonm_info *info;
- struct avalonm_pkg send_pkg;
- struct avalonm_ret ar;
- int ret, i;
- if (!usb_init(avalonm, dev, found)) {
- applog(LOG_ERR, "Avalonm failed usb_init");
- avalonm = usb_free_cgpu(avalonm);
- return NULL;
- }
- usb_buffer_clear(avalonm);
- update_usb_stats(avalonm);
- /* Cleanup the usb fifo */
- while (avalonm_receive_pkg(avalonm, &ar) != -1);
- /* We have an Avalonm connected */
- avalonm->threads = 1;
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- avalonm_init_pkg(&send_pkg, AVAM_P_DETECT, 1, 1);
- ret = avalonm_xfer_pkg(avalonm, &send_pkg, &ar);
- if ((ret != AVAM_SEND_OK) || (ar.type != AVAM_P_ACKDETECT)) {
- applog(LOG_DEBUG, "%s-%d: Failed to detect Avalon miner", avalonm->drv->name, avalonm->device_id);
- return NULL;
- }
- add_cgpu(avalonm);
- applog(LOG_DEBUG, "%s-%d: Found at %s", avalonm->drv->name, avalonm->device_id,
- avalonm->device_path);
- avalonm->device_data = cgcalloc(sizeof(struct avalonm_info), 1);
- info = avalonm->device_data;
- info->thr = NULL;
- memcpy(info->dna, ar.data, AVAM_MM_DNA_LEN);
- memcpy(info->ver, ar.data + AVAM_MM_DNA_LEN, AVAM_MM_VER_LEN);
- info->ver[AVAM_MM_VER_LEN] = '\0';
- memcpy(&info->asic_cnts, ar.data + AVAM_MM_DNA_LEN + AVAM_MM_VER_LEN, 4);
- info->asic_cnts = be32toh(info->asic_cnts);
- if (opt_avalonm_ntime_offset >= info->asic_cnts)
- quit(1, "%s-%d: invalid opt_avalonm_ntime_offset, should 0-%d", avalonm->drv->name, avalonm->device_id, info->asic_cnts - 1);
- memset(info->set_frequency, 0, sizeof(uint32_t) * info->asic_cnts * 3);
- memset(info->get_frequency, 0, sizeof(uint32_t) * info->asic_cnts * 3);
- for (i = 0; i < info->asic_cnts; i++) {
- info->opt_freq[i][0] = opt_avalonm_freq[0];
- info->opt_freq[i][1] = opt_avalonm_freq[1];
- info->opt_freq[i][2] = opt_avalonm_freq[2];
- }
- info->set_voltage = 0;
- info->opt_voltage = opt_avalonm_voltage;
- info->nonce_cnts = 0;
- info->usbfifo_cnt = 0;
- info->workfifo_cnt = 0;
- info->noncefifo_cnt = 0;
- info->crcerr_cnt = 0;
- info->power_good = 0;
- info->spi_speed = 0;
- info->led_status = 0;
- info->fan_pwm = 0;
- info->get_voltage = 0;
- info->freq_update = 0;
- info->freq_set = 0;
- FLAG_SET(info->freq_set, AVAM_ASIC_ALL);
- memset(info->hw_work, 0, sizeof(int) * info->asic_cnts);
- memset(info->matching_work, 0, sizeof(uint64_t) * info->asic_cnts);
- info->adc[0] = info->adc[1] = info->adc[2] = 0;
- avalonm_set_spispeed(avalonm, opt_avalonm_spispeed);
- cgtime(&info->elapsed);
- info->lastadj = info->lasttime = info->elapsed;
- info->time_i = 0;
- memset(info->hw_work_i, 0, sizeof(int) * info->asic_cnts * AVAM_DEFAULT_MOV_TIMES);
- return avalonm;
- }
- static uint32_t avalonm_get_cpm(uint32_t freq)
- {
- int i;
- for (i = 0; i < (sizeof(g_freq_array) / sizeof(g_freq_array[0]) - 1); i++) {
- if (freq >= g_freq_array[i][0] && freq < g_freq_array[i+1][0])
- return g_freq_array[i][1];
- }
- /* check if the final freq match */
- if (freq == g_freq_array[i][0])
- return g_freq_array[i][1];
- /* return the lowest freq if not found */
- return g_freq_array[0][1];
- }
- static void avalonm_set_freq(struct cgpu_info *avalonm, uint8_t asic_index, uint32_t freq[])
- {
- struct avalonm_info *info = avalonm->device_data;
- struct avalonm_pkg send_pkg;
- uint32_t tmp, i;
- uint8_t index, change = 0;
- uint32_t max_freq = 0;
- if (asic_index == AVAM_ASIC_ALL) {
- index = 0;
- for (i = 0; i < info->asic_cnts; i++) {
- if ((info->set_frequency[i][0] == freq[0]) &&
- (info->set_frequency[i][1] == freq[1]) &&
- (info->set_frequency[i][2] == freq[2]))
- continue;
- change = 1;
- info->set_frequency[i][0] = freq[0];
- info->set_frequency[i][1] = freq[1];
- info->set_frequency[i][2] = freq[2];
- FLAG_SET(info->freq_update, AVAM_ASIC_ALL);
- }
- }
- if (asic_index != AVAM_ASIC_ALL) {
- index = asic_index - 1;
- if (!((info->set_frequency[index][0] == freq[0]) &&
- (info->set_frequency[index][1] == freq[1]) &&
- (info->set_frequency[index][2] == freq[2]))) {
- change = 1;
- info->set_frequency[index][0] = freq[0];
- info->set_frequency[index][1] = freq[1];
- info->set_frequency[index][2] = freq[2];
- FLAG_SET(info->freq_update, asic_index);
- }
- }
- if (!change)
- return;
- for (i = 0; i < info->asic_cnts; i++) {
- if (max_freq < info->set_frequency[i][0])
- max_freq = info->set_frequency[i][0];
- if (max_freq < info->set_frequency[i][1])
- max_freq = info->set_frequency[i][1];
- if (max_freq < info->set_frequency[i][2])
- max_freq = info->set_frequency[i][2];
- }
- info->delay_ms = CAL_DELAY(max_freq);
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- tmp = avalonm_get_cpm(freq[0]);
- tmp = be32toh(tmp);
- memcpy(send_pkg.data, &tmp, 4);
- tmp = avalonm_get_cpm(freq[1]);
- tmp = be32toh(tmp);
- memcpy(send_pkg.data + 4, &tmp, 4);
- tmp = avalonm_get_cpm(freq[2]);
- tmp = be32toh(tmp);
- memcpy(send_pkg.data + 8, &tmp, 4);
- avalonm_init_pkg(&send_pkg, AVAM_P_SET_FREQ, 1, 1);
- send_pkg.opt = asic_index;
- avalonm_send_pkg(avalonm, &send_pkg);
- applog(LOG_NOTICE, "%s-%d: Avalonm set asic_index %d freq %d,%d,%d",
- avalonm->drv->name, avalonm->device_id,
- asic_index,
- freq[0],
- freq[1],
- freq[2]);
- }
- static void avalonm_set_voltage(struct cgpu_info *avalonm)
- {
- struct avalonm_info *info = avalonm->device_data;
- struct avalonm_pkg send_pkg;
- uint16_t tmp;
- if (!info->power_on && (info->set_voltage == info->opt_voltage))
- return;
- info->set_voltage = info->opt_voltage;
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- /* Use shifter to set voltage */
- tmp = info->set_voltage;
- tmp = encode_voltage(tmp);
- tmp = htobe16(tmp);
- memcpy(send_pkg.data, &tmp, 2);
- /* Package the data */
- avalonm_init_pkg(&send_pkg, AVAM_P_SET_VOLT, 1, 1);
- avalonm_send_pkg(avalonm, &send_pkg);
- applog(LOG_NOTICE, "%s-%d: Avalonm set volt %d",
- avalonm->drv->name, avalonm->device_id,
- info->set_voltage);
- if (info->power_on)
- cgsleep_ms(1000);
- info->power_on = 0;
- }
- static inline void avalonm_detect(bool __maybe_unused hotplug)
- {
- usb_detect(&avalonm_drv, avalonm_detect_one);
- }
- static int avalonm_get_reports(void *userdata)
- {
- struct cgpu_info *avalonm = (struct cgpu_info *)userdata;
- struct avalonm_info *info = avalonm->device_data;
- struct thr_info *thr = info->thr;
- struct avalonm_pkg send_pkg;
- struct avalonm_ret ar;
- int ret = 0;
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- avalonm_init_pkg(&send_pkg, AVAM_P_POLLING, 1, 1);
- ret = avalonm_xfer_pkg(avalonm, &send_pkg, &ar);
- if (ret == AVAM_SEND_OK) {
- ret = decode_pkg(thr, &ar);
- }
- return ret;
- }
- static void rev(unsigned char *s, size_t l)
- {
- size_t i, j;
- unsigned char t;
- for (i = 0, j = l - 1; i < j; i++, j--) {
- t = s[i];
- s[i] = s[j];
- s[j] = t;
- }
- }
- static int64_t avalonm_scanhash(struct thr_info *thr)
- {
- struct cgpu_info *avalonm = thr->cgpu;
- struct avalonm_info *info = avalonm->device_data;
- int64_t hash_count, ms_timeout;
- struct timeval current;
- double device_tdiff;
- uint32_t i, j, tmp;
- /* Half nonce range */
- ms_timeout = 0x80000000ll / 1000;
- /* Wait until avalon_send_tasks signals us that it has completed
- * sending its work or a full nonce range timeout has occurred. We use
- * cgsems to never miss a wakeup. */
- cgsem_mswait(&info->qsem, ms_timeout);
- hash_count = info->nonce_cnts++;
- info->nonce_cnts = 0;
- cgtime(¤t);
- device_tdiff = tdiff(¤t, &(info->lastadj));
- if (opt_avalonm_autof && (device_tdiff > AVAM_DEFAULT_ADJ_INTERVAL || device_tdiff < 0)) {
- copy_time(&info->lastadj, ¤t);
- for (i = 0; i < AVAM_DEFAULT_ASIC_COUNT; i++) {
- tmp = 0;
- for (j = 0; j < AVAM_DEFAULT_MOV_TIMES; j++)
- tmp += info->hw_work_i[i][j];
- if (tmp > AVAM_HW_HIGH && (info->opt_freq[i][0] > opt_avalonm_freq[0] - (uint32_t)(12 * 12.5))) {
- if ((info->opt_freq[i][0] == AVAM_DEFAULT_FREQUENCY_MIN) &&
- (info->opt_freq[i][1] == AVAM_DEFAULT_FREQUENCY_MIN) &&
- (info->opt_freq[i][2] == AVAM_DEFAULT_FREQUENCY_MIN))
- continue;
- if (info->opt_freq[i][0] * 10 % 125)
- info->opt_freq[i][0] -= 13;
- else
- info->opt_freq[i][0] -= 12;
- if (info->opt_freq[i][1] * 10 % 125)
- info->opt_freq[i][1] -= 13;
- else
- info->opt_freq[i][1] -= 12;
- if (info->opt_freq[i][2] * 10 % 125)
- info->opt_freq[i][2] -= 13;
- else
- info->opt_freq[i][2] -= 12;
- if (info->opt_freq[i][0] < AVAM_DEFAULT_FREQUENCY_MIN)
- info->opt_freq[i][0] = AVAM_DEFAULT_FREQUENCY_MIN;
- if (info->opt_freq[i][1] < AVAM_DEFAULT_FREQUENCY_MIN)
- info->opt_freq[i][1] = AVAM_DEFAULT_FREQUENCY_MIN;
- if (info->opt_freq[i][2] < AVAM_DEFAULT_FREQUENCY_MIN)
- info->opt_freq[i][2] = AVAM_DEFAULT_FREQUENCY_MIN;
- FLAG_SET(info->freq_set, i + 1);
- applog(LOG_NOTICE, "%s-%d: Automatic decrease [%d] freq to %d,%d,%d",
- avalonm->drv->name, avalonm->device_id, i,
- info->opt_freq[i][0],
- info->opt_freq[i][1],
- info->opt_freq[i][2]);
- }
- if (tmp < AVAM_HW_LOW && (info->opt_freq[i][0] < opt_avalonm_freq[0] + (uint32_t)(8 * 12.5))) {
- if ((info->opt_freq[i][0] == AVAM_DEFAULT_FREQUENCY_MAX) &&
- (info->opt_freq[i][1] == AVAM_DEFAULT_FREQUENCY_MAX) &&
- (info->opt_freq[i][2] == AVAM_DEFAULT_FREQUENCY_MAX))
- continue;
- if (info->opt_freq[i][0] * 10 % 125)
- info->opt_freq[i][0] += 12;
- else
- info->opt_freq[i][0] += 13;
- if (info->opt_freq[i][1] * 10 % 125)
- info->opt_freq[i][1] += 12;
- else
- info->opt_freq[i][1] += 13;
- if (info->opt_freq[i][2] * 10 % 125)
- info->opt_freq[i][2] += 12;
- else
- info->opt_freq[i][2] += 13;
- if (info->opt_freq[i][0] > AVAM_DEFAULT_FREQUENCY_MAX)
- info->opt_freq[i][0] = AVAM_DEFAULT_FREQUENCY_MAX;
- if (info->opt_freq[i][1] > AVAM_DEFAULT_FREQUENCY_MAX)
- info->opt_freq[i][1] = AVAM_DEFAULT_FREQUENCY_MAX;
- if (info->opt_freq[i][2] > AVAM_DEFAULT_FREQUENCY_MAX)
- info->opt_freq[i][2] = AVAM_DEFAULT_FREQUENCY_MAX;
- FLAG_SET(info->freq_set, i + 1);
- applog(LOG_NOTICE, "%s-%d: Automatic increase [%d] freq to %d,%d,%d",
- avalonm->drv->name, avalonm->device_id, i,
- info->opt_freq[i][0],
- info->opt_freq[i][1],
- info->opt_freq[i][2]);
- }
- }
- }
- return hash_count * 0xffffffffull;
- }
- static void avalonm_rotate_array(struct cgpu_info *avalonm, struct avalonm_info *info)
- {
- mutex_lock(&info->qlock);
- avalonm->queued = 0;
- if (++avalonm->work_array >= AVAM_DEFAULT_ARRAY_SIZE)
- avalonm->work_array = 0;
- mutex_unlock(&info->qlock);
- }
- static void *avalonm_process_tasks(void *userdata)
- {
- char threadname[16];
- struct cgpu_info *avalonm = userdata;
- struct avalonm_info *info = avalonm->device_data;
- struct work *work;
- struct avalonm_pkg send_pkg;
- int start_count, end_count, i, j, k, ret;
- int avalon_get_work_count = info->asic_cnts;
- struct timeval current;
- double device_tdiff;
- snprintf(threadname, sizeof(threadname), "%d/AvmProc", avalonm->device_id);
- RenameThread(threadname);
- while (likely(!avalonm->shutdown)) {
- if (unlikely(avalonm->usbinfo.nodev)) {
- applog(LOG_ERR, "%s-%d: Device disappeared, shutting down thread",
- avalonm->drv->name, avalonm->device_id);
- goto out;
- }
- cgtime(¤t);
- device_tdiff = tdiff(¤t, &(info->lasttime));
- if (device_tdiff >= AVAM_DEFAULT_MOV_TIMES || device_tdiff < 0) {
- copy_time(&info->lasttime, ¤t);
- if (info->time_i++ >= AVAM_DEFAULT_MOV_TIMES)
- info->time_i = 0;
- for(i = 0; i < AVAM_DEFAULT_ASIC_COUNT; i++)
- info->hw_work_i[i][info->time_i] = 0;
- }
- /* Give other threads a chance to acquire qlock. */
- i = 0;
- do {
- cgsleep_ms(40);
- } while (!avalonm->shutdown && avalonm->queued < avalon_get_work_count);
- mutex_lock(&info->qlock);
- start_count = avalonm->work_array * avalon_get_work_count;
- end_count = start_count + avalon_get_work_count;
- for (i = start_count, j = 0; i < end_count; i++, j++) {
- work = avalonm->works[i];
- if (likely(j < avalonm->queued && avalonm->works[i] && j < (info->asic_cnts - opt_avalonm_ntime_offset))) {
- /* Configuration */
- avalonm_set_voltage(avalonm);
- if (FLAG_GET(info->freq_set, 0)) {
- avalonm_set_freq(avalonm, AVAM_ASIC_ALL, info->opt_freq[0]);
- FLAG_CLEAR(info->freq_set, 0);
- cgsleep_ms(20);
- }
- for (k = 1; k <= info->asic_cnts; k++) {
- if (FLAG_GET(info->freq_set, k)) {
- avalonm_set_freq(avalonm, k, info->opt_freq[k - 1]);
- FLAG_CLEAR(info->freq_set, k);
- cgsleep_ms(20);
- }
- }
- /* P_WORK part 1: midstate */
- memcpy(send_pkg.data, work->midstate, AVAM_P_DATA_LEN);
- rev((void *)(send_pkg.data), AVAM_P_DATA_LEN);
- avalonm_init_pkg(&send_pkg, AVAM_P_WORK, 1, 2);
- hexdump(send_pkg.data, 32);
- avalonm_send_pkg(avalonm, &send_pkg);
- if (info->freq_update)
- cgsleep_ms(300);
- /* P_WORK part 2:
- * id(6)+reserved(2)+ntime(1)+fan(3)+led(4)+reserved(4)+data(12) */
- memset(send_pkg.data, 0, AVAM_P_DATA_LEN);
- UNPACK32(work->id, send_pkg.data);
- /* always roll work 0 */
- if (j == 0)
- send_pkg.data[8] = opt_avalonm_ntime_offset;
- else
- send_pkg.data[8] = 0;
- /* TODO led */
- UNPACK32(0, send_pkg.data + 12);
- memcpy(send_pkg.data + 20, work->data + 64, 12);
- rev((void *)(send_pkg.data + 20), 12);
- avalonm_init_pkg(&send_pkg, AVAM_P_WORK, 2, 2);
- hexdump(send_pkg.data, 32);
- avalonm_send_pkg(avalonm, &send_pkg);
- if (info->freq_update)
- cgsleep_ms(300);
- }
- }
- mutex_unlock(&info->qlock);
- avalonm_rotate_array(avalonm, info);
- cgsem_post(&info->qsem);
- /* little delay, let asics process more job */
- if (!strncmp(info->ver, "3U", 2))
- cgsleep_ms(400);
- /* Get result */
- do {
- ret = avalonm_get_reports(avalonm);
- cgsleep_ms(5);
- } while (ret != AVAM_P_STATUS_M);
- if (info->freq_update) {
- applog(LOG_NOTICE, "%s-%d: avalonm_process_tasks freq change flag %02x",
- avalonm->drv->name, avalonm->device_id,
- info->freq_update);
- if (FLAG_GET(info->freq_update, 0)) {
- avalonm_get_frequency(avalonm, 0);
- FLAG_CLEAR(info->freq_update, 0);
- }
- for (i = 1; i <= info->asic_cnts; i++) {
- if (FLAG_GET(info->freq_update, i)) {
- avalonm_get_frequency(avalonm, i);
- FLAG_CLEAR(info->freq_update, i);
- }
- }
- }
- cgsleep_ms(info->delay_ms);
- }
- out:
- return NULL;
- }
- static bool avalonm_prepare(struct thr_info *thr)
- {
- struct cgpu_info *avalonm = thr->cgpu;
- struct avalonm_info *info = avalonm->device_data;
- free(avalonm->works);
- avalonm->works = calloc(info->asic_cnts * sizeof(struct work *),
- AVAM_DEFAULT_ARRAY_SIZE);
- if (!avalonm->works)
- quit(1, "Failed to calloc avalon miner works in avalonm_prepare");
- info->thr = thr;
- info->delay_ms = CAL_DELAY(AVAM_DEFAULT_FREQUENCY);
- info->power_on = 1;
- mutex_init(&info->lock);
- mutex_init(&info->qlock);
- cgsem_init(&info->qsem);
- if (pthread_create(&info->process_thr, NULL, avalonm_process_tasks, (void *)avalonm))
- quit(1, "Failed to create avalonm process_thr");
- return true;
- }
- static void avalonm_shutdown(struct thr_info *thr)
- {
- struct cgpu_info *avalonm = thr->cgpu;
- struct avalonm_info *info = avalonm->device_data;
- pthread_join(info->process_thr, NULL);
- cgsem_destroy(&info->qsem);
- mutex_destroy(&info->qlock);
- mutex_destroy(&info->lock);
- free(avalonm->works);
- avalonm->works = NULL;
- }
- char *set_avalonm_freq(char *arg)
- {
- char *colon1, *colon2;
- int val1 = 0, val2 = 0, val3 = 0;
- if (!(*arg))
- return NULL;
- colon1 = strchr(arg, ':');
- if (colon1)
- *(colon1++) = '\0';
- if (*arg) {
- val1 = atoi(arg);
- if (val1 < AVAM_DEFAULT_FREQUENCY_MIN || val1 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value1 passed to set_avalonm_freq";
- }
- if (colon1 && *colon1) {
- colon2 = strchr(colon1, ':');
- if (colon2)
- *(colon2++) = '\0';
- if (*colon1) {
- val2 = atoi(colon1);
- if (val2 < AVAM_DEFAULT_FREQUENCY_MIN || val2 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value2 passed to set_avalonm_freq";
- }
- if (colon2 && *colon2) {
- val3 = atoi(colon2);
- if (val3 < AVAM_DEFAULT_FREQUENCY_MIN || val3 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value3 passed to set_avalonm_freq";
- }
- }
- if (!val1)
- val3 = val2 = val1 = AVAM_DEFAULT_FREQUENCY;
- if (!val2)
- val3 = val2 = val1;
- if (!val3)
- val3 = val2;
- opt_avalonm_freq[0] = val1;
- opt_avalonm_freq[1] = val2;
- opt_avalonm_freq[2] = val3;
- applog(LOG_NOTICE, "Update all asic frequency to %d",
- (opt_avalonm_freq[0] * 4 + opt_avalonm_freq[1] * 4 + opt_avalonm_freq[2]) / 9);
- return NULL;
- }
- char *set_avalonm_device_freq(struct cgpu_info *avalonm, char *arg)
- {
- struct avalonm_info *info = avalonm->device_data;
- char *colon1, *colon2;
- int val1 = 0, val2 = 0, val3 = 0;
- int asic_index = AVAM_ASIC_ALL;
- uint8_t i;
- if (!(*arg))
- return NULL;
- colon1 = strchr(arg, '-');
- if (colon1) {
- sscanf(arg, "%d-", &asic_index);
- arg = colon1 + 1;
- if (asic_index < 0 || asic_index > info->asic_cnts) {
- applog(LOG_ERR, "invalid asic index: %d, valid range 0-%d", asic_index, info->asic_cnts);
- return "Invalid asic index to set_avalonm_freq";
- }
- }
- colon1 = strchr(arg, ':');
- if (colon1)
- *(colon1++) = '\0';
- if (*arg) {
- val1 = atoi(arg);
- if (val1 < AVAM_DEFAULT_FREQUENCY_MIN || val1 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value1 passed to set_avalonm_freq";
- }
- if (colon1 && *colon1) {
- colon2 = strchr(colon1, ':');
- if (colon2)
- *(colon2++) = '\0';
- if (*colon1) {
- val2 = atoi(colon1);
- if (val2 < AVAM_DEFAULT_FREQUENCY_MIN || val2 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value2 passed to set_avalonm_freq";
- }
- if (colon2 && *colon2) {
- val3 = atoi(colon2);
- if (val3 < AVAM_DEFAULT_FREQUENCY_MIN || val3 > AVAM_DEFAULT_FREQUENCY_MAX)
- return "Invalid value3 passed to set_avalonm_freq";
- }
- }
- if (!val1)
- val3 = val2 = val1 = AVAM_DEFAULT_FREQUENCY;
- if (!val2)
- val3 = val2 = val1;
- if (!val3)
- val3 = val2;
- if (!asic_index) {
- for (i = 0; i < info->asic_cnts; i++) {
- info->opt_freq[i][0] = val1;
- info->opt_freq[i][1] = val2;
- info->opt_freq[i][2] = val3;
- }
- FLAG_SET(info->freq_set, AVAM_ASIC_ALL);
- applog(LOG_NOTICE, "Update all asic frequency to %d",
- (val1 * 4 + val2 * 4 + val3) / 9);
- }
- if (asic_index) {
- info->opt_freq[asic_index - 1][0] = val1;
- info->opt_freq[asic_index - 1][1] = val2;
- info->opt_freq[asic_index - 1][2] = val3;
- FLAG_SET(info->freq_set, asic_index);
- applog(LOG_NOTICE, "Update asic %d frequency to %d",
- asic_index - 1,
- (val1 * 4 + val2 * 4 + val3) / 9);
- }
- return NULL;
- }
- char *set_avalonm_voltage(char *arg)
- {
- int val, ret;
- ret = sscanf(arg, "%d", &val);
- if (ret < 1)
- return "No values passed to avalonm-voltage";
- if (val < AVAM_DEFAULT_VOLTAGE_MIN || val > AVAM_DEFAULT_VOLTAGE_MAX)
- return "Invalid value passed to avalonm-voltage";
- opt_avalonm_voltage = val;
- return NULL;
- }
- char *set_avalonm_device_voltage(struct cgpu_info *avalonm, char *arg)
- {
- struct avalonm_info *info = avalonm->device_data;
- int val, ret;
- ret = sscanf(arg, "%d", &val);
- if (ret < 1)
- return "No values passed to avalonm-voltage";
- if (val < AVAM_DEFAULT_VOLTAGE_MIN || val > AVAM_DEFAULT_VOLTAGE_MAX)
- return "Invalid value passed to avalonm-voltage";
- info->opt_voltage = val;
- applog(LOG_NOTICE, "%s-%d: Update voltage to %d",
- avalonm->drv->name, avalonm->device_id, info->opt_voltage);
- return NULL;
- }
- static char *avalonm_set_device(struct cgpu_info *avalonm, char *option, char *setting, char *replybuf, size_t siz)
- {
- if (strcasecmp(option, "help") == 0) {
- snprintf(replybuf, siz, "frequency|voltage");
- return replybuf;
- }
- if (strcasecmp(option, "frequency") == 0) {
- if (!setting || !*setting) {
- snprintf(replybuf, siz, "missing frequency value");
- return replybuf;
- }
- if (set_avalonm_device_freq(avalonm, setting)) {
- snprintf(replybuf, siz, "invalid frequency value, valid range %d-%d",
- AVAM_DEFAULT_FREQUENCY_MIN, AVAM_DEFAULT_FREQUENCY_MAX);
- return replybuf;
- }
- return NULL;
- }
- if (strcasecmp(option, "voltage") == 0) {
- if (!setting || !*setting) {
- snprintf(replybuf, siz, "missing voltage value");
- return replybuf;
- }
- if (set_avalonm_device_voltage(avalonm, setting)) {
- snprintf(replybuf, siz, "invalid voltage value, valid range %d-%d",
- AVAM_DEFAULT_VOLTAGE_MIN, AVAM_DEFAULT_VOLTAGE_MAX);
- return replybuf;
- }
- return NULL;
- }
- snprintf(replybuf, siz, "Unknown option: %s", option);
- return replybuf;
- }
- #define STATBUFLEN 512
- static struct api_data *avalonm_api_stats(struct cgpu_info *cgpu)
- {
- struct api_data *root = NULL;
- struct avalonm_info *info = cgpu->device_data;
- char buf[256];
- char statbuf[STATBUFLEN];
- uint32_t i, j, tmp;
- struct timeval now;
- memset(statbuf, 0, STATBUFLEN);
- sprintf(buf, "VER[%s]", info->ver);
- strcat(statbuf, buf);
- sprintf(buf, " DNA[%02x%02x%02x%02x%02x%02x%02x%02x]",
- info->dna[0],
- info->dna[1],
- info->dna[2],
- info->dna[3],
- info->dna[4],
- info->dna[5],
- info->dna[6],
- info->dna[7]);
- strcat(statbuf, buf);
- cgtime(&now);
- sprintf(buf, " Elapsed[%.0f]", tdiff(&now, &(info->elapsed)));
- strcat(statbuf, buf);
- sprintf(buf, " Chips[%d]", info->asic_cnts);
- strcat(statbuf, buf);
- sprintf(buf, " Crc[%d]", info->crcerr_cnt);
- strcat(statbuf, buf);
- sprintf(buf, " Speed[%d]", info->spi_speed);
- strcat(statbuf, buf);
- if (!strncmp(info->ver, "3U", 2))
- sprintf(buf, " Vol[%.2f]", (float)info->get_voltage);
- else
- sprintf(buf, " Vol[%.4f]", (float)info->get_voltage / 10000);
- strcat(statbuf, buf);
- if (!strncmp(info->ver, "3U", 2))
- sprintf(buf, " V_CORE[%.2f]", convert_voltage(info->adc[0], 1));
- else
- sprintf(buf, " V12[%.2f]", convert_voltage(info->adc[0], (10 / 110)));
- strcat(statbuf, buf);
- if (!strncmp(info->ver, "3U", 2))
- sprintf(buf, " T[%d]", info->adc[1]);
- else
- sprintf(buf, " TC[%.2f]", convert_temp(info->adc[1]));
- strcat(statbuf, buf);
- if (!strncmp(info->ver, "3U", 2)) {
- sprintf(buf, " V0_9[%.2f]", convert_voltage(info->adc[2] & 0xffff, 1));
- strcat(statbuf, buf);
- sprintf(buf, " V1_8[%.2f]", convert_voltage((info->adc[2] >> 16) & 0xffff, 1));
- } else
- sprintf(buf, " TF[%.2f]", convert_temp(info->adc[2]));
- strcat(statbuf, buf);
- if (!strncmp(info->ver, "3U", 2)) {
- sprintf(buf, " Freq[%d]", info->get_frequency[0][0]);
- strcat(statbuf, buf);
- } else {
- strcat(statbuf, " Freq[");
- for (i = 0; i < info->asic_cnts; i++) {
- sprintf(buf, "%d %d %d ",
- info->get_frequency[i][0],
- info->get_frequency[i][1],
- info->get_frequency[i][2]);
- strcat(statbuf, buf);
- }
- statbuf[strlen(statbuf) - 1] = ']';
- }
- strcat(statbuf, " HW[");
- for (i = 0; i < info->asic_cnts; i++) {
- sprintf(buf, "%d ", info->hw_work[i]);
- strcat(statbuf, buf);
- }
- statbuf[strlen(statbuf) - 1] = ']';
- /* simple moving the sum of hardware error */
- strcat(statbuf, " SHW[");
- for (i = 0; i < info->asic_cnts; i++) {
- tmp = 0;
- for (j = 0; j < AVAM_DEFAULT_MOV_TIMES; j++)
- tmp += info->hw_work_i[i][j];
- sprintf(buf, "%d ", tmp);
- strcat(statbuf, buf);
- }
- statbuf[strlen(statbuf) - 1] = ']';
- strcat(statbuf, " MW[");
- for (i = 0; i < info->asic_cnts; i++) {
- sprintf(buf, "%ld ", info->matching_work[i]);
- strcat(statbuf, buf);
- }
- statbuf[strlen(statbuf) - 1] = ']';
- sprintf(buf, " Led[%d]", info->led_status);
- strcat(statbuf, buf);
- sprintf(buf, " PG[%d]", info->power_good);
- strcat(statbuf, buf);
- root = api_add_string(root, "AVAM Dev", statbuf, true);
- sprintf(buf, "%d %d %d",
- info->usbfifo_cnt,
- info->workfifo_cnt,
- info->noncefifo_cnt);
- root = api_add_string(root, "AVAM Fifo", buf, true);
- root = api_add_uint8(root, "AVAM ntime", &opt_avalonm_ntime_offset, true);
- root = api_add_bool(root, "Automatic Frequency", &opt_avalonm_autof, true);
- return root;
- }
- static void avalonm_statline_before(char *buf, size_t bufsiz, struct cgpu_info *avalonm)
- {
- struct avalonm_info *info = avalonm->device_data;
- int frequency;
- if (!strncmp(info->ver, "3U", 2))
- tailsprintf(buf, bufsiz, "%4dMhz %.2fV", info->get_frequency[0][0], (float)info->get_voltage);
- else {
- frequency = (info->set_frequency[0][0] * 4 + info->set_frequency[0][1] * 4 + info->set_frequency[0][2]) / 9;
- tailsprintf(buf, bufsiz, "%4dMhz %.4fV", frequency, (float)info->get_voltage / 10000);
- }
- }
- /* We use a replacement algorithm to only remove references to work done from
- * the buffer when we need the extra space for new work. */
- static bool avalonm_fill(struct cgpu_info *avalonm)
- {
- struct avalonm_info *info = avalonm->device_data;
- int subid, slot, ac;
- struct work *work;
- bool ret = true;
- ac = info->asic_cnts;
- mutex_lock(&info->qlock);
- if (avalonm->queued >= ac)
- goto out_unlock;
- work = get_queued(avalonm);
- if (unlikely(!work)) {
- ret = false;
- goto out_unlock;
- }
- subid = avalonm->queued++;
- work->subid = subid;
- slot = avalonm->work_array * ac + subid;
- if (likely(avalonm->works[slot]))
- work_completed(avalonm, avalonm->works[slot]);
- avalonm->works[slot] = work;
- if (avalonm->queued < ac)
- ret = false;
- out_unlock:
- mutex_unlock(&info->qlock);
- return ret;
- }
- static void avalonm_flush_work(struct cgpu_info *avalonm)
- {
- struct avalonm_info *info = avalonm->device_data;
- /* Will overwrite any work queued. Do this unlocked since it's just
- * changing a single non-critical value and prevents deadlocks */
- avalonm->queued = 0;
- /* Signal main loop we need more work */
- cgsem_post(&info->qsem);
- }
- struct device_drv avalonm_drv = {
- .drv_id = DRIVER_avalonm,
- .dname = "avalonm",
- .name = "AVM",
- .set_device = avalonm_set_device,
- .get_api_stats = avalonm_api_stats,
- .get_statline_before = avalonm_statline_before,
- .drv_detect = avalonm_detect,
- .thread_prepare = avalonm_prepare,
- .hash_work = hash_queued_work,
- .scanwork = avalonm_scanhash,
- .queue_full = avalonm_fill,
- .flush_work = avalonm_flush_work,
- .thread_shutdown = avalonm_shutdown,
- };
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