/* * Copyright 2013 Con Kolivas * Copyright 2013 Hashfast Inc. * * 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 #include "usbutils.h" #include "driver-hashfast.h" //////////////////////////////////////////////////////////////////////////////// // Support for the CRC's used in header (CRC-8) and packet body (CRC-32) //////////////////////////////////////////////////////////////////////////////// #define GP8 0x107 /* x^8 + x^2 + x + 1 */ #define DI8 0x07 static unsigned char crc8_table[256]; /* CRC-8 table */ static void hf_init_crc8(void) { int i,j; unsigned char crc; for (i = 0; i < 256; i++) { crc = i; for (j = 0; j < 8; j++) crc = (crc << 1) ^ ((crc & 0x80) ? DI8 : 0); crc8_table[i] = crc & 0xFF; } } static unsigned char __maybe_unused hf_crc8(unsigned char *h) { int i; unsigned char crc; h++; // Preamble not included for (i = 1, crc = 0xff; i < 7; i++) crc = crc8_table[crc ^ *h++]; return crc; } struct hf_cmd { int cmd; char *cmd_name; enum usb_cmds usb_cmd; }; /* Entries in this array need to align with the actual op values specified * in hf_protocol.h */ #define C_NULL C_MAX static const struct hf_cmd hf_cmds[] = { {OP_NULL, "OP_NULL", C_NULL}, // 0 {OP_ROOT, "OP_ROOT", C_NULL}, {OP_RESET, "OP_RESET", C_HF_RESET}, {OP_PLL_CONFIG, "OP_PLL_CONFIG", C_HF_PLL_CONFIG}, {OP_ADDRESS, "OP_ADDRESS", C_HF_ADDRESS}, {OP_READDRESS, "OP_READDRESS", C_NULL}, {OP_HIGHEST, "OP_HIGHEST", C_NULL}, {OP_BAUD, "OP_BAUD", C_HF_BAUD}, {OP_UNROOT, "OP_UNROOT", C_NULL}, // 8 {OP_HASH, "OP_HASH", C_HF_HASH}, {OP_NONCE, "OP_NONCE", C_HF_NONCE}, {OP_ABORT, "OP_ABORT", C_HF_ABORT}, {OP_STATUS, "OP_STATUS", C_HF_STATUS}, {OP_GPIO, "OP_GPIO", C_NULL}, {OP_CONFIG, "OP_CONFIG", C_HF_CONFIG}, {OP_STATISTICS, "OP_STATISTICS", C_HF_STATISTICS}, {OP_GROUP, "OP_GROUP", C_NULL}, // 16 {OP_CLOCKGATE, "OP_CLOCKGATE", C_HF_CLOCKGATE}, {OP_USB_INIT, "OP_USB_INIT", C_HF_USB_INIT}, // 18 {OP_GET_TRACE, "OP_GET_TRACE", C_NULL}, {OP_LOOPBACK_USB, "OP_LOOPBACK_USB", C_NULL}, {OP_LOOPBACK_UART, "OP_LOOPBACK_UART", C_NULL}, {OP_DFU, "OP_DFU", C_NULL}, {OP_USB_SHUTDOWN, "OP_USB_SHUTDOWN", C_NULL}, {OP_DIE_STATUS, "OP_DIE_STATUS", C_HF_DIE_STATUS}, // 24 {OP_GWQ_STATUS, "OP_GWQ_STATUS", C_HF_GWQ_STATUS}, {OP_WORK_RESTART, "OP_WORK_RESTART", C_HF_WORK_RESTART}, {OP_USB_STATS1, "OP_USB_STATS1", C_NULL}, {OP_USB_GWQSTATS, "OP_USB_GWQSTATS", C_HF_GWQSTATS} }; #define HF_USB_CMD_OFFSET (128 - 18) #define HF_USB_CMD(X) (X - HF_USB_CMD_OFFSET) /* Send an arbitrary frame, consisting of an 8 byte header and an optional * packet body. */ static bool hashfast_send_frame(struct cgpu_info *hashfast, uint8_t opcode, uint16_t hdata, uint8_t *data, int len) { int tx_length, ret, amount, id = hashfast->device_id; uint8_t packet[256]; struct hf_header *p = (struct hf_header *)packet; p->preamble = HF_PREAMBLE; p->operation_code = opcode; p->chip_address = HF_GWQ_ADDRESS; p->core_address = 0; p->hdata = htole16(hdata); p->data_length = len / 4; p->crc8 = hf_crc8(packet); if (len) memcpy(&packet[sizeof(struct hf_header)], data, len); tx_length = sizeof(struct hf_header) + len; ret = usb_write(hashfast, (char *)packet, tx_length, &amount, hf_cmds[opcode].usb_cmd); if (unlikely(ret < 0 || amount != tx_length)) { applog(LOG_ERR, "HFA %d: hashfast_send_frame: USB Send error, ret %d amount %d vs. tx_length %d", id, ret, amount, tx_length); return false; } return true; } static bool hashfast_send_header(struct cgpu_info *hashfast, struct hf_header *h, int cmd) { int amount, ret, len; len = sizeof(*h); ret = usb_write(hashfast, (char *)h, len, &amount, hf_cmds[cmd].usb_cmd); if (ret < 0 || amount != len) { applog(LOG_WARNING, "HFA%d: send_header: %s USB Send error, ret %d amount %d vs. length %d", hashfast->device_id, hf_cmds[cmd].cmd_name, ret, amount, len); return false; } return true; } static bool hashfast_get_header(struct cgpu_info *hashfast, struct hf_header *h, uint8_t *computed_crc) { int amount, ret, orig_len, len, ofs = 0, reads = 0; char buf[512]; char *header; /* Read for up to 200ms till we find the first occurrence of HF_PREAMBLE * though it should be the first byte unless we get woefully out of * sync. */ orig_len = len = sizeof(*h); do { if (++reads > 20) return false; ret = usb_read_timeout(hashfast, buf + ofs, len, &amount, 10, C_HF_GETHEADER); if (unlikely(ret && ret != LIBUSB_ERROR_TIMEOUT)) return false; ofs += amount; header = memchr(buf, HF_PREAMBLE, ofs); if (header) len -= ofs - (header - buf); } while (len); memcpy(h, header, orig_len); *computed_crc = hf_crc8((uint8_t *)h); return true; } static bool hashfast_get_data(struct cgpu_info *hashfast, char *buf, int len4) { int amount, ret, len = len4 * 4; ret = usb_read(hashfast, buf, len, &amount, C_HF_GETDATA); if (ret) return false; if (amount != len) { applog(LOG_WARNING, "HFA %d: get_data: Strange amount returned %d vs. expected %d", hashfast->device_id, amount, len); return false; } return true; } static bool hashfast_reset(struct cgpu_info *hashfast, struct hashfast_info *info) { struct hf_usb_init_header usb_init, *hu = &usb_init; struct hf_usb_init_base *db; char buf[1024]; struct hf_header *h = (struct hf_header *)buf; uint8_t hcrc; bool ret; int i; info->hash_clock_rate = 550; // Hash clock rate in Mhz // Assemble the USB_INIT request memset(hu, 0, sizeof(*hu)); hu->preamble = HF_PREAMBLE; hu->operation_code = OP_USB_INIT; hu->protocol = PROTOCOL_GLOBAL_WORK_QUEUE; // Protocol to use hu->hash_clock = info->hash_clock_rate; // Hash clock rate in Mhz hu->crc8 = hf_crc8((uint8_t *)hu); applog(LOG_WARNING, "HFA%d: Sending OP_USB_INIT with GWQ protocol specified", hashfast->device_id); if (!hashfast_send_header(hashfast, (struct hf_header *)hu, HF_USB_CMD(OP_USB_INIT))) return false; // Check for the correct response. // We extend the normal timeout - a complete device initialization, including // bringing power supplies up from standby, etc., can take over a second. for (i = 0; i < 30; i++) { ret = hashfast_get_header(hashfast, h, &hcrc); if (ret) break; } if (!ret) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT failed!", hashfast->device_id); return false; } if (h->crc8 != hcrc) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT failed! CRC mismatch", hashfast->device_id); return false; } if (h->operation_code != OP_USB_INIT) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT: Tossing packet, valid but unexpected type", hashfast->device_id); hashfast_get_data(hashfast, buf, h->data_length); return false; } applog(LOG_DEBUG, "HFA %d: Good reply to OP_USB_INIT", hashfast->device_id); applog(LOG_DEBUG, "HFA %d: OP_USB_INIT: %d die in chain, %d cores, device_type %d, refclk %d Mhz", hashfast->device_id, h->chip_address, h->core_address, h->hdata & 0xff, (h->hdata >> 8) & 0xff); // Save device configuration info->asic_count = h->chip_address; info->core_count = h->core_address; info->device_type = (uint8_t)h->hdata; info->ref_frequency = (uint8_t)(h->hdata>>8); info->hash_sequence = 0; info->hash_sequence_tail = 0; info->device_sequence_tail = 0; // Size in bytes of the core bitmap in bytes info->core_bitmap_size = (((info->asic_count * info->core_count) + 31) / 32) * 4; // Get the usb_init_base structure if (!hashfast_get_data(hashfast, (char *)&info->usb_init_base, U32SIZE(info->usb_init_base))) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT failed! Failure to get usb_init_base data", hashfast->device_id); return false; } db = &info->usb_init_base; applog(LOG_INFO, "HFA %d: firmware_rev: %d.%d", hashfast->device_id, (db->firmware_rev >> 8) & 0xff, db->firmware_rev & 0xff); applog(LOG_INFO, "HFA %d: hardware_rev: %d.%d", hashfast->device_id, (db->hardware_rev >> 8) & 0xff, db->hardware_rev & 0xff); applog(LOG_INFO, "HFA %d: serial number: %d", hashfast->device_id, db->serial_number); applog(LOG_INFO, "HFA %d: hash clockrate: %d Mhz", hashfast->device_id, db->hash_clockrate); applog(LOG_INFO, "HFA %d: inflight_target: %d", hashfast->device_id, db->inflight_target); // Now a copy of the config data used if (!hashfast_get_data(hashfast, (char *)&info->config_data, U32SIZE(info->config_data))) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT failed! Failure to get config_data", hashfast->device_id); return false; } // Now the core bitmap info->core_bitmap = malloc(info->core_bitmap_size); if (!info->core_bitmap) quit(1, "Failed to malloc info core bitmap in hashfast_reset"); if (!hashfast_get_data(hashfast, (char *)info->core_bitmap, info->core_bitmap_size / 4)) { applog(LOG_WARNING, "HFA %d: OP_USB_INIT failed! Failure to get core_bitmap", hashfast->device_id); return false; } return true; } static bool hashfast_detect_common(struct cgpu_info *hashfast) { struct hashfast_info *info; bool ret; info = calloc(sizeof(struct hashfast_info), 1); if (!info) quit(1, "Failed to calloc hashfast_info in hashfast_detect_common"); hashfast->device_data = info; /* hashfast_reset should fill in details for info */ ret = hashfast_reset(hashfast, info); if (!ret) { free(info); hashfast->device_data = NULL; return false; } // The per-die status array info->die_status = calloc(info->asic_count, sizeof(struct hf_g1_die_data)); if (unlikely(!(info->die_status))) quit(1, "Failed to calloc die_status"); // The per-die statistics array info->die_statistics = calloc(info->asic_count, sizeof(struct hf_long_statistics)); if (unlikely(!(info->die_statistics))) quit(1, "Failed to calloc die_statistics"); info->works = calloc(sizeof(struct work *), HF_NUM_SEQUENCE); if (!info->works) quit(1, "Failed to calloc info works in hashfast_detect_common"); return true; } static void hashfast_initialise(struct cgpu_info *hashfast) { if (hashfast->usbinfo.nodev) return; // FIXME Do necessary initialising here } static bool hashfast_detect_one_usb(libusb_device *dev, struct usb_find_devices *found) { struct cgpu_info *hashfast; hashfast = usb_alloc_cgpu(&hashfast_drv, HASHFAST_MINER_THREADS); if (!hashfast) quit(1, "Failed to usb_alloc_cgpu hashfast"); if (!usb_init(hashfast, dev, found)) { hashfast = usb_free_cgpu(hashfast); return false; } hashfast->usbdev->usb_type = USB_TYPE_STD; hashfast_initialise(hashfast); add_cgpu(hashfast); return hashfast_detect_common(hashfast); } static void hashfast_detect(bool hotplug) { /* Set up the CRC tables only once. */ if (!hotplug) hf_init_crc8(); usb_detect(&hashfast_drv, hashfast_detect_one_usb); } static void *hf_read(void *arg) { struct thr_info *thr = (struct thr_info *)arg; struct cgpu_info *hashfast = thr->cgpu; struct hashfast_info *info = hashfast->device_data; while (likely(!hashfast->shutdown)) { } return NULL; } static bool hashfast_prepare(struct thr_info *thr) { struct cgpu_info *hashfast = thr->cgpu; struct hashfast_info *info = hashfast->device_data; struct timeval now; mutex_init(&info->lock); if (pthread_create(&info->read_thr, NULL, hf_read, (void *)thr)) quit(1, "Failed to pthread_create read thr in hashfast_prepare"); cgtime(&now); get_datestamp(hashfast->init, sizeof(hashfast->init), &now); return true; } /* Figure out how many jobs to send. */ static int __hashfast_jobs(struct hashfast_info *info) { return info->usb_init_base.inflight_target - GWQ_SEQUENCE_DISTANCE(info->hash_sequence, info->device_sequence_tail); } static int hashfast_jobs(struct hashfast_info *info) { int ret; mutex_lock(&info->lock); ret = __hashfast_jobs(info); mutex_unlock(&info->lock); return ret; } static int64_t hashfast_scanwork(struct thr_info *thr) { struct cgpu_info *hashfast = thr->cgpu; struct hashfast_info *info = hashfast->device_data; int64_t hashes; int jobs, ret; if (unlikely(thr->work_restart)) { restart: ret = hashfast_send_frame(hashfast, OP_WORK_RESTART, 0, (uint8_t *)NULL, 0); if (unlikely(!ret)) { ret = hashfast_reset(hashfast, info); if (unlikely(!ret)) { applog(LOG_ERR, "HFA %d: Failed to reset after write failure, disabling", hashfast->device_id); return -1; } } } jobs = hashfast_jobs(info); if (!jobs) { ret = restart_wait(thr, 100); if (unlikely(!ret)) goto restart; jobs = hashfast_jobs(info); } while (jobs > 0) { struct hf_hash_usb op_hash_data; struct work *work; uint64_t intdiff; int i, sequence; uint32_t *p; /* This is a blocking function if there's no work */ work = get_work(thr, thr->id); /* Assemble the data frame and send the OP_HASH packet */ memcpy(op_hash_data.midstate, work->midstate, sizeof(op_hash_data.midstate)); memcpy(op_hash_data.merkle_residual, work->data + 64, 4); p = (uint32_t *)(work->data + 64 + 4); op_hash_data.timestamp = *p++; op_hash_data.bits = *p++; op_hash_data.nonce_loops = 0; /* Set the number of leading zeroes to look for based on diff. * Diff 1 = 32, Diff 2 = 33, Diff 4 = 34 etc. */ intdiff = (uint64_t)work->device_diff; for (i = 31; intdiff; i++, intdiff >>= 1); op_hash_data.search_difficulty = i; if ((sequence = info->hash_sequence + 1) >= HF_NUM_SEQUENCE) sequence = 0; ret = hashfast_send_frame(hashfast, OP_HASH, sequence, (uint8_t *)&op_hash_data, sizeof(op_hash_data)); if (unlikely(!ret)) { ret = hashfast_reset(hashfast, info); if (unlikely(!ret)) { applog(LOG_ERR, "HFA %d: Failed to reset after write failure, disabling", hashfast->device_id); return -1; } } mutex_lock(&info->lock); info->hash_sequence = sequence; *(info->works + info->hash_sequence) = work; jobs = __hashfast_jobs(info); mutex_unlock(&info->lock); applog(LOG_DEBUG, "HFA %d: OP_HASH sequence %d search_difficulty %d work_difficulty %g", hashfast->device_id, info->hash_sequence, op_hash_data.search_difficulty, work->work_difficulty); } mutex_lock(&info->lock); hashes = info->hash_count; info->hash_count = 0; mutex_unlock(&info->lock); return hashes; } static struct api_data *hashfast_api_stats(struct cgpu_info __maybe_unused *cgpu) { return NULL; } static void hashfast_init(struct cgpu_info *hashfast) { usb_buffer_enable(hashfast); } static void hashfast_shutdown(struct thr_info *thr) { struct cgpu_info *hashfast = thr->cgpu; struct hashfast_info *info = hashfast->device_data; pthread_join(info->read_thr, NULL); } struct device_drv hashfast_drv = { .drv_id = DRIVER_hashfast, .dname = "Hashfast", .name = "HFA", .max_diff = 256.0, // Limit max diff to get some nonces back regardless .drv_detect = hashfast_detect, .thread_prepare = hashfast_prepare, .hash_work = &hash_driver_work, .scanwork = hashfast_scanwork, .get_api_stats = hashfast_api_stats, .reinit_device = hashfast_init, .thread_shutdown = hashfast_shutdown, };