/* * Copyright 2012 Luke Dashjr * Copyright 2012 Con Kolivas * * 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 #include #include #include #include #include #include #include "config.h" #ifdef WIN32 #include #define dlsym (void*)GetProcAddress #define dlclose FreeLibrary typedef unsigned long FT_STATUS; typedef PVOID FT_HANDLE; __stdcall FT_STATUS (*FT_ListDevices)(PVOID pArg1, PVOID pArg2, DWORD Flags); __stdcall FT_STATUS (*FT_Open)(int idx, FT_HANDLE*); __stdcall FT_STATUS (*FT_GetComPortNumber)(FT_HANDLE, LPLONG lplComPortNumber); __stdcall FT_STATUS (*FT_Close)(FT_HANDLE); const uint32_t FT_OPEN_BY_DESCRIPTION = 2; const uint32_t FT_LIST_ALL = 0x20000000; const uint32_t FT_LIST_NUMBER_ONLY = 0x80000000; enum { FT_OK, }; #endif /* WIN32 */ #include "compat.h" #include "fpgautils.h" #include "miner.h" #define BITFORCE_SLEEP_MS 500 #define BITFORCE_TIMEOUT_S 7 #define BITFORCE_TIMEOUT_MS (BITFORCE_TIMEOUT_S * 1000) #define BITFORCE_LONG_TIMEOUT_S 15 #define BITFORCE_LONG_TIMEOUT_MS (BITFORCE_LONG_TIMEOUT_S * 1000) #define BITFORCE_CHECK_INTERVAL_MS 10 #define WORK_CHECK_INTERVAL_MS 50 #define MAX_START_DELAY_US 100000 #define tv_to_ms(tval) (tval.tv_sec * 1000 + tval.tv_usec / 1000) #define TIME_AVG_CONSTANT 8 #define KNAME_WORK "full work" #define KNAME_RANGE "nonce range" struct device_api bitforce_api; // Code must deal with a timeout #define BFopen(devpath) serial_open(devpath, 0, 1, true) static void BFgets(char *buf, size_t bufLen, int fd) { do { buf[0] = '\0'; --bufLen; } while (likely(bufLen && read(fd, buf, 1) == 1 && (buf++)[0] != '\n')); buf[0] = '\0'; } static ssize_t BFwrite(int fd, const void *buf, ssize_t bufLen) { if ((bufLen) != write(fd, buf, bufLen)) return 0; else return bufLen; } #define BFclose(fd) close(fd) static bool bitforce_detect_one(const char *devpath) { int fdDev = BFopen(devpath); struct cgpu_info *bitforce; char pdevbuf[0x100]; char *s; applog(LOG_DEBUG, "BFL: Attempting to open %s", devpath); if (unlikely(fdDev == -1)) { applog(LOG_ERR, "BFL: Failed to open %s", devpath); return false; } BFwrite(fdDev, "ZGX", 3); BFgets(pdevbuf, sizeof(pdevbuf), fdDev); if (unlikely(!pdevbuf[0])) { applog(LOG_ERR, "BFL: Error reading/timeout (ZGX)"); return 0; } BFclose(fdDev); if (unlikely(!strstr(pdevbuf, "SHA256"))) { applog(LOG_ERR, "BFL: Didn't recognise BitForce on %s", devpath); return false; } // We have a real BitForce! bitforce = calloc(1, sizeof(*bitforce)); bitforce->api = &bitforce_api; bitforce->device_path = strdup(devpath); bitforce->deven = DEV_ENABLED; bitforce->threads = 1; /* Initially enable support for nonce range and disable it later if it * fails */ if (opt_bfl_noncerange) { bitforce->nonce_range = true; bitforce->sleep_ms = BITFORCE_SLEEP_MS; bitforce->kname = KNAME_RANGE; } else { bitforce->sleep_ms = BITFORCE_SLEEP_MS * 5; bitforce->kname = KNAME_WORK; } if (likely((!memcmp(pdevbuf, ">>>ID: ", 7)) && (s = strstr(pdevbuf + 3, ">>>")))) { s[0] = '\0'; bitforce->name = strdup(pdevbuf + 7); } mutex_init(&bitforce->device_mutex); return add_cgpu(bitforce); } #define LOAD_SYM(sym) do { \ if (!(sym = dlsym(dll, #sym))) { \ applog(LOG_DEBUG, "Failed to load " #sym ", not using FTDI bitforce autodetect"); \ goto nogood; \ } \ } while(0) static char bitforce_autodetect_ftdi() { #ifdef WIN32 FT_STATUS ftStatus; DWORD numDevs; HMODULE dll = LoadLibrary("FTD2XX.DLL"); if (!dll) { applog(LOG_DEBUG, "FTD2XX.DLL failed to load, not using FTDI bitforce autodetect"); return 0; } LOAD_SYM(FT_ListDevices); LOAD_SYM(FT_Open); LOAD_SYM(FT_GetComPortNumber); LOAD_SYM(FT_Close); ftStatus = FT_ListDevices(&numDevs, NULL, FT_LIST_NUMBER_ONLY); if (ftStatus != FT_OK) { applog(LOG_DEBUG, "FTDI device count failed, not using FTDI bitforce autodetect"); nogood: dlclose(dll); return 0; } applog(LOG_DEBUG, "FTDI reports %u devices", (unsigned)numDevs); char buf[65 * numDevs]; char*bufptrs[numDevs + 1]; int i; for (i = 0; i < numDevs; ++i) bufptrs[i] = &buf[i * 65]; bufptrs[numDevs] = NULL; ftStatus = FT_ListDevices(bufptrs, &numDevs, FT_LIST_ALL | FT_OPEN_BY_DESCRIPTION); if (ftStatus != FT_OK) { applog(LOG_DEBUG, "FTDI device list failed, not using FTDI bitforce autodetect"); goto nogood; } char devpath[] = "\\\\.\\COMnnnnn"; char *devpathnum = &devpath[7]; char found = 0; for (i = numDevs; i > 0; ) { --i; bufptrs[i][64] = '\0'; if (!(strstr(bufptrs[i], "BitFORCE") && strstr(bufptrs[i], "SHA256"))) continue; FT_HANDLE ftHandle; if (FT_OK != FT_Open(i, &ftHandle)) continue; LONG lComPortNumber; ftStatus = FT_GetComPortNumber(ftHandle, &lComPortNumber); FT_Close(ftHandle); if (FT_OK != ftStatus || lComPortNumber < 0) continue; sprintf(devpathnum, "%d", (int)lComPortNumber); if (bitforce_detect_one(devpath)) ++found; } dlclose(dll); return found; #else /* NOT WIN32 */ return 0; #endif } static char bitforce_detect_auto() { return (serial_autodetect_udev (bitforce_detect_one, "BitFORCE*SHA256") ?: serial_autodetect_devserial(bitforce_detect_one, "BitFORCE_SHA256") ?: bitforce_autodetect_ftdi() ?: 0); } static void bitforce_detect() { serial_detect_auto(bitforce_api.dname, bitforce_detect_one, bitforce_detect_auto); } static void get_bitforce_statline_before(char *buf, struct cgpu_info *bitforce) { float gt = bitforce->temp; if (gt > 0) tailsprintf(buf, "%5.1fC ", gt); else tailsprintf(buf, " ", gt); tailsprintf(buf, " | "); } static bool bitforce_thread_prepare(struct thr_info *thr) { struct cgpu_info *bitforce = thr->cgpu; int fdDev = BFopen(bitforce->device_path); struct timeval now; if (unlikely(fdDev == -1)) { applog(LOG_ERR, "BFL%i: Failed to open %s", bitforce->device_id, bitforce->device_path); return false; } bitforce->device_fd = fdDev; applog(LOG_INFO, "BFL%i: Opened %s", bitforce->device_id, bitforce->device_path); gettimeofday(&now, NULL); get_datestamp(bitforce->init, &now); return true; } static void bitforce_clear_buffer(struct cgpu_info *bitforce) { int fdDev = bitforce->device_fd; char pdevbuf[0x100]; int count = 0; if (!fdDev) return; applog(LOG_DEBUG, "BFL%i: Clearing read buffer", bitforce->device_id); mutex_lock(&bitforce->device_mutex); do { pdevbuf[0] = '\0'; BFgets(pdevbuf, sizeof(pdevbuf), fdDev); } while (pdevbuf[0] && (++count < 10)); mutex_unlock(&bitforce->device_mutex); } void bitforce_init(struct cgpu_info *bitforce) { char *devpath = bitforce->device_path; int fdDev = bitforce->device_fd, retries = 0; char pdevbuf[0x100]; char *s; applog(LOG_WARNING, "BFL%i: Re-initialising", bitforce->device_id); bitforce_clear_buffer(bitforce); mutex_lock(&bitforce->device_mutex); if (fdDev) { BFclose(fdDev); sleep(5); } bitforce->device_fd = 0; fdDev = BFopen(devpath); if (unlikely(fdDev == -1)) { mutex_unlock(&bitforce->device_mutex); applog(LOG_ERR, "BFL%i: Failed to open %s", bitforce->device_id, devpath); return; } do { BFwrite(fdDev, "ZGX", 3); BFgets(pdevbuf, sizeof(pdevbuf), fdDev); if (unlikely(!pdevbuf[0])) { mutex_unlock(&bitforce->device_mutex); applog(LOG_ERR, "BFL%i: Error reading/timeout (ZGX)", bitforce->device_id); return; } if (retries++) nmsleep(10); } while (!strstr(pdevbuf, "BUSY") && (retries * 10 < BITFORCE_TIMEOUT_MS)); if (unlikely(!strstr(pdevbuf, "SHA256"))) { mutex_unlock(&bitforce->device_mutex); applog(LOG_ERR, "BFL%i: Didn't recognise BitForce on %s returned: %s", bitforce->device_id, devpath, pdevbuf); return; } if (likely((!memcmp(pdevbuf, ">>>ID: ", 7)) && (s = strstr(pdevbuf + 3, ">>>")))) { s[0] = '\0'; bitforce->name = strdup(pdevbuf + 7); } bitforce->device_fd = fdDev; bitforce->sleep_ms = BITFORCE_SLEEP_MS; mutex_unlock(&bitforce->device_mutex); } static bool bitforce_get_temp(struct cgpu_info *bitforce) { int fdDev = bitforce->device_fd; char pdevbuf[0x100]; char *s; if (!fdDev) return false; /* It is not critical getting temperature so don't get stuck if we * can't grab the mutex here */ if (mutex_trylock(&bitforce->device_mutex)) return false; BFwrite(fdDev, "ZLX", 3); BFgets(pdevbuf, sizeof(pdevbuf), fdDev); mutex_unlock(&bitforce->device_mutex); if (unlikely(!pdevbuf[0])) { applog(LOG_ERR, "BFL%i: Error: Get temp returned empty string/timed out", bitforce->device_id); bitforce->temp = 0; return false; } if ((!strncasecmp(pdevbuf, "TEMP", 4)) && (s = strchr(pdevbuf + 4, ':'))) { float temp = strtof(s + 1, NULL); if (temp > 0) { bitforce->temp = temp; if (unlikely(bitforce->cutofftemp > 0 && temp > bitforce->cutofftemp)) { applog(LOG_WARNING, "BFL%i: Hit thermal cutoff limit, disabling!", bitforce->device_id); bitforce->deven = DEV_RECOVER; bitforce->device_last_not_well = time(NULL); bitforce->device_not_well_reason = REASON_DEV_THERMAL_CUTOFF; bitforce->dev_thermal_cutoff_count++; } } } else { /* Use the temperature monitor as a kind of watchdog for when * our responses are out of sync and flush the buffer to * hopefully recover */ applog(LOG_WARNING, "BFL%i: Garbled response probably throttling, clearing buffer"); /* Count throttling episodes as hardware errors */ bitforce->hw_errors++; bitforce_clear_buffer(bitforce); return false;; } return true; } static bool bitforce_send_work(struct thr_info *thr, struct work *work) { struct cgpu_info *bitforce = thr->cgpu; int fdDev = bitforce->device_fd; unsigned char ob[70]; char pdevbuf[0x100]; char *s; if (!fdDev) return false; re_send: mutex_lock(&bitforce->device_mutex); if (bitforce->nonce_range) BFwrite(fdDev, "ZPX", 3); else BFwrite(fdDev, "ZDX", 3); BFgets(pdevbuf, sizeof(pdevbuf), fdDev); if (!pdevbuf[0] || !strncasecmp(pdevbuf, "B", 1)) { mutex_unlock(&bitforce->device_mutex); nmsleep(WORK_CHECK_INTERVAL_MS); goto re_send; } else if (unlikely(strncasecmp(pdevbuf, "OK", 2))) { mutex_unlock(&bitforce->device_mutex); if (bitforce->nonce_range) { applog(LOG_WARNING, "BFL%i: Does not support nonce range, disabling", bitforce->device_id); bitforce->nonce_range = false; bitforce->sleep_ms *= 5; bitforce->kname = KNAME_WORK; goto re_send; } applog(LOG_ERR, "BFL%i: Error: Send work reports: %s", bitforce->device_id, pdevbuf); bitforce->hw_errors++; bitforce_clear_buffer(bitforce); return false; } sprintf((char *)ob, ">>>>>>>>"); memcpy(ob + 8, work->midstate, 32); memcpy(ob + 8 + 32, work->data + 64, 12); if (!bitforce->nonce_range) { sprintf((char *)ob + 8 + 32 + 12, ">>>>>>>>"); work->blk.nonce = bitforce->nonces = 0xffffffff; BFwrite(fdDev, ob, 60); } else { uint32_t *nonce; nonce = (uint32_t *)(ob + 8 + 32 + 12); *nonce = htobe32(work->blk.nonce); nonce = (uint32_t *)(ob + 8 + 32 + 12 + 4); /* Split work up into 1/5th nonce ranges */ bitforce->nonces = 0x33333332; *nonce = htobe32(work->blk.nonce + bitforce->nonces); work->blk.nonce += bitforce->nonces + 1; sprintf((char *)ob + 8 + 32 + 12 + 8, ">>>>>>>>"); BFwrite(fdDev, ob, 68); } BFgets(pdevbuf, sizeof(pdevbuf), fdDev); mutex_unlock(&bitforce->device_mutex); if (opt_debug) { s = bin2hex(ob + 8, 44); applog(LOG_DEBUG, "BFL%i: block data: %s", bitforce->device_id, s); free(s); } if (unlikely(!pdevbuf[0])) { applog(LOG_ERR, "BFL%i: Error: Send block data returned empty string/timed out", bitforce->device_id); return false; } if (unlikely(strncasecmp(pdevbuf, "OK", 2))) { applog(LOG_ERR, "BFL%i: Error: Send block data reports: %s", bitforce->device_id, pdevbuf); bitforce->hw_errors++; bitforce_clear_buffer(bitforce); return false; } gettimeofday(&bitforce->work_start_tv, NULL); return true; } static int64_t bitforce_get_result(struct thr_info *thr, struct work *work) { struct cgpu_info *bitforce = thr->cgpu; int fdDev = bitforce->device_fd; unsigned int delay_time_ms; struct timeval elapsed; struct timeval now; char pdevbuf[0x100]; char *pnoncebuf; uint32_t nonce; if (!fdDev) return -1; while (1) { if (unlikely(thr->work_restart)) return 0; mutex_lock(&bitforce->device_mutex); BFwrite(fdDev, "ZFX", 3); BFgets(pdevbuf, sizeof(pdevbuf), fdDev); mutex_unlock(&bitforce->device_mutex); gettimeofday(&now, NULL); timersub(&now, &bitforce->work_start_tv, &elapsed); if (elapsed.tv_sec >= BITFORCE_LONG_TIMEOUT_S) { applog(LOG_ERR, "BFL%i: took %dms - longer than %dms", bitforce->device_id, tv_to_ms(elapsed), BITFORCE_LONG_TIMEOUT_MS); return 0; } if (pdevbuf[0] && strncasecmp(pdevbuf, "B", 1)) /* BFL does not respond during throttling */ break; /* if BFL is throttling, no point checking so quickly */ delay_time_ms = (pdevbuf[0] ? BITFORCE_CHECK_INTERVAL_MS : 2 * WORK_CHECK_INTERVAL_MS); nmsleep(delay_time_ms); bitforce->wait_ms += delay_time_ms; } if (elapsed.tv_sec > BITFORCE_TIMEOUT_S) { applog(LOG_ERR, "BFL%i: took %dms - longer than %dms", bitforce->device_id, tv_to_ms(elapsed), BITFORCE_TIMEOUT_MS); bitforce->device_last_not_well = time(NULL); bitforce->device_not_well_reason = REASON_DEV_OVER_HEAT; bitforce->dev_over_heat_count++; if (!pdevbuf[0]) /* Only return if we got nothing after timeout - there still may be results */ return 0; } else if (!strncasecmp(pdevbuf, "N", 1)) {/* Hashing complete (NONCE-FOUND or NO-NONCE) */ /* Simple timing adjustment. Allow a few polls to cope with * OS timer delays being variably reliable. wait_ms will * always equal sleep_ms when we've waited greater than or * equal to the result return time.*/ delay_time_ms = bitforce->sleep_ms; if (bitforce->wait_ms > bitforce->sleep_ms + (WORK_CHECK_INTERVAL_MS * 2)) bitforce->sleep_ms += (bitforce->wait_ms - bitforce->sleep_ms) / 2; else if (bitforce->wait_ms == bitforce->sleep_ms) { if (bitforce->sleep_ms > WORK_CHECK_INTERVAL_MS) bitforce->sleep_ms -= WORK_CHECK_INTERVAL_MS; else if (bitforce->sleep_ms > BITFORCE_CHECK_INTERVAL_MS) bitforce->sleep_ms -= BITFORCE_CHECK_INTERVAL_MS; } if (delay_time_ms != bitforce->sleep_ms) applog(LOG_DEBUG, "BFL%i: Wait time changed to: %d, waited %u", bitforce->device_id, bitforce->sleep_ms, bitforce->wait_ms); /* Work out the average time taken. Float for calculation, uint for display */ bitforce->avg_wait_f += (tv_to_ms(elapsed) - bitforce->avg_wait_f) / TIME_AVG_CONSTANT; bitforce->avg_wait_d = (unsigned int) (bitforce->avg_wait_f + 0.5); } applog(LOG_DEBUG, "BFL%i: waited %dms until %s", bitforce->device_id, bitforce->wait_ms, pdevbuf); if (!strncasecmp(&pdevbuf[2], "-", 1)) return bitforce->nonces; /* No valid nonce found */ else if (!strncasecmp(pdevbuf, "I", 1)) return 0; /* Device idle */ else if (strncasecmp(pdevbuf, "NONCE-FOUND", 11)) { bitforce->hw_errors++; applog(LOG_WARNING, "BFL%i: Error: Get result reports: %s", bitforce->device_id, pdevbuf); bitforce_clear_buffer(bitforce); return 0; } pnoncebuf = &pdevbuf[12]; while (1) { hex2bin((void*)&nonce, pnoncebuf, 4); #ifndef __BIG_ENDIAN__ nonce = swab32(nonce); #endif if (unlikely(bitforce->nonce_range && (nonce >= work->blk.nonce || (work->blk.nonce > 0 && nonce < work->blk.nonce - bitforce->nonces - 1)))) { applog(LOG_WARNING, "BFL%i: Disabling broken nonce range support", bitforce->device_id); bitforce->nonce_range = false; work->blk.nonce = 0xffffffff; bitforce->sleep_ms *= 5; bitforce->kname = KNAME_WORK; } submit_nonce(thr, work, nonce); if (strncmp(&pnoncebuf[8], ",", 1)) break; pnoncebuf += 9; } return bitforce->nonces; } static void bitforce_shutdown(struct thr_info *thr) { struct cgpu_info *bitforce = thr->cgpu; BFclose(bitforce->device_fd); bitforce->device_fd = 0; } static void biforce_thread_enable(struct thr_info *thr) { struct cgpu_info *bitforce = thr->cgpu; bitforce_init(bitforce); } static int64_t bitforce_scanhash(struct thr_info *thr, struct work *work, int64_t __maybe_unused max_nonce) { struct cgpu_info *bitforce = thr->cgpu; unsigned int sleep_time; bool send_ret; int64_t ret; send_ret = bitforce_send_work(thr, work); if (!bitforce->nonce_range) { /* Initially wait 2/3 of the average cycle time so we can request more work before full scan is up */ sleep_time = (2 * bitforce->sleep_ms) / 3; if (!restart_wait(sleep_time)) return 0; bitforce->wait_ms = sleep_time; queue_request(thr, false); /* Now wait athe final 1/3rd; no bitforce should be finished by now */ sleep_time = bitforce->sleep_ms - sleep_time; if (!restart_wait(sleep_time)) return 0; bitforce->wait_ms += sleep_time; } else { sleep_time = bitforce->sleep_ms; if (!restart_wait(sleep_time)) return 0; bitforce->wait_ms = sleep_time; } if (send_ret) ret = bitforce_get_result(thr, work); else ret = -1; if (ret == -1) { ret = 0; applog(LOG_ERR, "BFL%i: Comms error", bitforce->device_id); bitforce->device_last_not_well = time(NULL); bitforce->device_not_well_reason = REASON_DEV_COMMS_ERROR; bitforce->dev_comms_error_count++; bitforce->hw_errors++; /* empty read buffer */ bitforce_clear_buffer(bitforce); } return ret; } static bool bitforce_get_stats(struct cgpu_info *bitforce) { return bitforce_get_temp(bitforce); } static bool bitforce_thread_init(struct thr_info *thr) { struct cgpu_info *bitforce = thr->cgpu; unsigned int wait; /* Pause each new thread at least 100ms between initialising * so the devices aren't making calls all at the same time. */ wait = thr->id * MAX_START_DELAY_US; applog(LOG_DEBUG, "BFL%i: Delaying start by %dms", bitforce->device_id, wait / 1000); usleep(wait); return true; } static struct api_data *bitforce_api_stats(struct cgpu_info *cgpu) { struct api_data *root = NULL; // Warning, access to these is not locked - but we don't really // care since hashing performance is way more important than // locking access to displaying API debug 'stats' // If locking becomes an issue for any of them, use copy_data=true also root = api_add_uint(root, "Sleep Time", &(cgpu->sleep_ms), false); root = api_add_uint(root, "Avg Wait", &(cgpu->avg_wait_d), false); return root; } struct device_api bitforce_api = { .dname = "bitforce", .name = "BFL", .api_detect = bitforce_detect, .get_api_stats = bitforce_api_stats, .reinit_device = bitforce_init, .get_statline_before = get_bitforce_statline_before, .get_stats = bitforce_get_stats, .thread_prepare = bitforce_thread_prepare, .thread_init = bitforce_thread_init, .scanhash = bitforce_scanhash, .thread_shutdown = bitforce_shutdown, .thread_enable = biforce_thread_enable };