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360 lines
10 KiB
360 lines
10 KiB
/* |
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* Copyright 2013 Con Kolivas <kernel@kolivas.org> |
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* Copyright 2013 Andrew Smith |
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* |
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* This program is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License as published by the Free |
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* Software Foundation; either version 3 of the License, or (at your option) |
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* any later version. See COPYING for more details. |
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*/ |
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#ifndef BFLSC_H |
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#define BFLSC_H |
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#define BLANK "" |
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#define LFSTR "<LF>" |
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/* |
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* Firmware |
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* DRV_V2 expects (beyond V1) the GetInfo to return the chip count |
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* The queues are 40 instead of 20 and are *usually* consumed and filled |
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* in bursts due to e.g. a 16 chip device doing 16 items at a time and |
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* returning 16 results at a time |
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* If the device has varying chip speeds, it will gradually break up the |
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* burst of results as we progress |
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*/ |
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enum driver_version { |
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BFLSC_DRVUNDEF = 0, |
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BFLSC_DRV1, |
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BFLSC_DRV2 |
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}; |
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/* |
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* With Firmware 1.0.0 and a result queue of 20 the Max is: |
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* inprocess = 12 |
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* max count = 9 |
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* 64+1+24+1+1+(1+8)*8+1 per line = 164 * 20 |
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* OK = 3 |
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* Total: 3304 |
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* |
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* With Firmware 1.2.* and a result queue of 40 but a limit of 15 replies: |
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* inprocess = 12 |
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* max count = 9 |
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* 64+1+24+1+1+1+1+(1+8)*8+1 per line = 166 * 15 |
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* OK = 3 |
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* Total: 2514 |
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* |
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*/ |
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#define BFLSC_BUFSIZ (0x1000) |
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#define BFLSC_INFO_TIMEOUT 999 |
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#define BFLSC_DI_FIRMWARE "FIRMWARE" |
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#define BFLSC_DI_ENGINES "ENGINES" |
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#define BFLSC_DI_JOBSINQUE "JOBS IN QUEUE" |
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#define BFLSC_DI_XLINKMODE "XLINK MODE" |
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#define BFLSC_DI_XLINKPRESENT "XLINK PRESENT" |
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#define BFLSC_DI_DEVICESINCHAIN "DEVICES IN CHAIN" |
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#define BFLSC_DI_CHAINPRESENCE "CHAIN PRESENCE MASK" |
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#define BFLSC_DI_CHIPS "CHIP PARALLELIZATION" |
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#define FULLNONCE 0x100000000ULL |
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struct bflsc_dev { |
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// Work |
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unsigned int ms_work; |
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int work_queued; |
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int work_complete; |
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int nonces_hw; // TODO: this - need to add a paramter to submit_nonce() |
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// so can pass 'dev' to hw_error |
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uint64_t hashes_unsent; |
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uint64_t hashes_sent; |
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uint64_t nonces_found; |
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struct timeval last_check_result; |
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struct timeval last_dev_result; // array > 0 |
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struct timeval last_nonce_result; // > 0 nonce |
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// Info |
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char getinfo[(BFLSC_BUFSIZ+4)*4]; |
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char *firmware; |
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int engines; // each engine represents a 'thread' in a chip |
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char *xlink_mode; |
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char *xlink_present; |
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char *chips; |
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// Status |
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bool dead; // TODO: handle seperate x-link devices failing? |
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bool overheat; |
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// Stats |
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float temp1; |
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float temp2; |
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float vcc1; |
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float vcc2; |
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float vmain; |
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float temp1_max; |
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float temp2_max; |
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time_t temp1_max_time; |
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time_t temp2_max_time; |
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float temp1_5min_av; // TODO: |
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float temp2_5min_av; // TODO: |
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// To handle the fact that flushing the queue may not remove all work |
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// (normally one item is still being processed) |
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// and also that once the queue is flushed, results may still be in |
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// the output queue - but we don't want to process them at the time of doing an LP |
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// when result_id > flush_id+1, flushed work can be discarded since it |
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// is no longer in the device |
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uint64_t flush_id; // counter when results were last flushed |
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uint64_t result_id; // counter when results were last checked |
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bool flushed; // are any flushed? |
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}; |
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#define QUE_MAX_RESULTS 8 |
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struct bflsc_info { |
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enum driver_version driver_version; |
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pthread_rwlock_t stat_lock; |
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struct thr_info results_thr; |
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uint64_t hashes_sent; |
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uint32_t update_count; |
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struct timeval last_update; |
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int sc_count; |
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struct bflsc_dev *sc_devs; |
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unsigned int scan_sleep_time; |
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unsigned int results_sleep_time; |
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unsigned int default_ms_work; |
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bool shutdown; |
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bool flash_led; |
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bool not_first_work; // allow ignoring the first nonce error |
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bool fanauto; |
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int que_size; |
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int que_full_enough; |
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int que_watermark; |
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int que_low; |
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int que_noncecount; |
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int que_fld_min; |
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int que_fld_max; |
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int flush_size; |
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// count of given size, [+2] is for any > QUE_MAX_RESULTS |
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uint64_t result_size[QUE_MAX_RESULTS+2]; |
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}; |
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#define BFLSC_XLINKHDR '@' |
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#define BFLSC_MAXPAYLOAD 255 |
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struct DataForwardToChain { |
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uint8_t header; |
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uint8_t payloadSize; |
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uint8_t deviceAddress; |
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uint8_t payloadData[BFLSC_MAXPAYLOAD]; |
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}; |
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#define DATAFORWARDSIZE(data) (1 + 1 + 1 + data.payloadSize) |
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#define MIDSTATE_BYTES 32 |
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#define MERKLE_OFFSET 64 |
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#define MERKLE_BYTES 12 |
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#define BFLSC_QJOBSIZ (MIDSTATE_BYTES+MERKLE_BYTES+1) |
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#define BFLSC_EOB 0xaa |
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struct QueueJobStructure { |
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uint8_t payloadSize; |
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uint8_t midState[MIDSTATE_BYTES]; |
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uint8_t blockData[MERKLE_BYTES]; |
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uint8_t endOfBlock; |
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}; |
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#define QUE_RES_LINES_MIN 3 |
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#define QUE_MIDSTATE 0 |
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#define QUE_BLOCKDATA 1 |
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#define QUE_NONCECOUNT_V1 2 |
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#define QUE_FLD_MIN_V1 3 |
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#define QUE_FLD_MAX_V1 (QUE_MAX_RESULTS+QUE_FLD_MIN_V1) |
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#define QUE_CHIP_V2 2 |
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#define QUE_NONCECOUNT_V2 3 |
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#define QUE_FLD_MIN_V2 4 |
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#define QUE_FLD_MAX_V2 (QUE_MAX_RESULTS+QUE_FLD_MIN_V2) |
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#define BFLSC_SIGNATURE 0xc1 |
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#define BFLSC_EOW 0xfe |
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// N.B. this will only work with 5 jobs |
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// requires a different jobs[N] for each job count |
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// but really only need to handle 5 anyway |
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struct QueueJobPackStructure { |
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uint8_t payloadSize; |
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uint8_t signature; |
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uint8_t jobsInArray; |
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struct QueueJobStructure jobs[5]; |
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uint8_t endOfWrapper; |
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}; |
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// TODO: Implement in API and also in usb device selection |
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struct SaveString { |
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uint8_t payloadSize; |
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uint8_t payloadData[BFLSC_MAXPAYLOAD]; |
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}; |
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// Commands (Single Stage) |
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#define BFLSC_IDENTIFY "ZGX" |
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#define BFLSC_IDENTIFY_LEN (sizeof(BFLSC_IDENTIFY)-1) |
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#define BFLSC_DETAILS "ZCX" |
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#define BFLSC_DETAILS_LEN (sizeof(BFLSC_DETAILS)-1) |
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#define BFLSC_FIRMWARE "ZJX" |
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#define BFLSC_FIRMWARE_LEN (sizeof(BFLSC_FIRMWARE)-1) |
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#define BFLSC_FLASH "ZMX" |
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#define BFLSC_FLASH_LEN (sizeof(BFLSC_FLASH)-1) |
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#define BFLSC_VOLTAGE "ZTX" |
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#define BFLSC_VOLTAGE_LEN (sizeof(BFLSC_VOLTAGE)-1) |
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#define BFLSC_TEMPERATURE "ZLX" |
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#define BFLSC_TEMPERATURE_LEN (sizeof(BFLSC_TEMPERATURE)-1) |
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#define BFLSC_QRES "ZOX" |
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#define BFLSC_QRES_LEN (sizeof(BFLSC_QRES)-1) |
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#define BFLSC_QFLUSH "ZQX" |
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#define BFLSC_QFLUSH_LEN (sizeof(BFLSC_QFLUSH)-1) |
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#define BFLSC_FANAUTO "Z9X" |
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#define BFLSC_FANOUT_LEN (sizeof(BFLSC_FANAUTO)-1) |
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#define BFLSC_FAN0 "Z0X" |
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#define BFLSC_FAN0_LEN (sizeof(BFLSC_FAN0)-1) |
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#define BFLSC_FAN1 "Z1X" |
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#define BFLSC_FAN1_LEN (sizeof(BFLSC_FAN1)-1) |
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#define BFLSC_FAN2 "Z2X" |
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#define BFLSC_FAN2_LEN (sizeof(BFLSC_FAN2)-1) |
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#define BFLSC_FAN3 "Z3X" |
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#define BFLSC_FAN3_LEN (sizeof(BFLSC_FAN3)-1) |
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#define BFLSC_FAN4 "Z4X" |
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#define BFLSC_FAN4_LEN (sizeof(BFLSC_FAN4)-1) |
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#define BFLSC_LOADSTR "ZUX" |
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#define BFLSC_LOADSTR_LEN (sizeof(BFLSC_LOADSTR)-1) |
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// Commands (Dual Stage) |
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#define BFLSC_QJOB "ZNX" |
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#define BFLSC_QJOB_LEN (sizeof(BFLSC_QJOB)-1) |
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#define BFLSC_QJOBS "ZWX" |
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#define BFLSC_QJOBS_LEN (sizeof(BFLSC_QJOBS)-1) |
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#define BFLSC_SAVESTR "ZSX" |
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#define BFLSC_SAVESTR_LEN (sizeof(BFLSC_SAVESTR)-1) |
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// Replies |
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#define BFLSC_IDENTITY "BitFORCE SC" |
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#define BFLSC_BFLSC "SHA256 SC" |
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#define BFLSC_OK "OK\n" |
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#define BFLSC_OK_LEN (sizeof(BFLSC_OK)-1) |
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#define BFLSC_SUCCESS "SUCCESS\n" |
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#define BFLSC_SUCCESS_LEN (sizeof(BFLSC_SUCCESS)-1) |
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#define BFLSC_RESULT "COUNT:" |
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#define BFLSC_RESULT_LEN (sizeof(BFLSC_RESULT)-1) |
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#define BFLSC_ANERR "ERR:" |
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#define BFLSC_ANERR_LEN (sizeof(BFLSC_ANERR)-1) |
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#define BFLSC_TIMEOUT BFLSC_ANERR "TIMEOUT" |
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#define BFLSC_TIMEOUT_LEN (sizeof(BFLSC_TIMEOUT)-1) |
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// x-link timeout has a space (a number follows) |
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#define BFLSC_XTIMEOUT BFLSC_ANERR "TIMEOUT " |
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#define BFLSC_XTIMEOUT_LEN (sizeof(BFLSC_XTIMEOUT)-1) |
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#define BFLSC_INVALID BFLSC_ANERR "INVALID DATA" |
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#define BFLSC_INVALID_LEN (sizeof(BFLSC_INVALID)-1) |
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#define BFLSC_ERRSIG BFLSC_ANERR "SIGNATURE" |
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#define BFLSC_ERRSIG_LEN (sizeof(BFLSC_ERRSIG)-1) |
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#define BFLSC_OKQ "OK:QUEUED" |
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#define BFLSC_OKQ_LEN (sizeof(BFLSC_OKQ)-1) |
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// Followed by N=1..5 |
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#define BFLSC_OKQN "OK:QUEUED " |
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#define BFLSC_OKQN_LEN (sizeof(BFLSC_OKQN)-1) |
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#define BFLSC_QFULL "QUEUE FULL" |
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#define BFLSC_QFULL_LEN (sizeof(BFLSC_QFULL)-1) |
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#define BFLSC_HITEMP "HIGH TEMPERATURE RECOVERY" |
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#define BFLSC_HITEMP_LEN (sizeof(BFLSC_HITEMP)-1) |
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#define BFLSC_EMPTYSTR "MEMORY EMPTY" |
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#define BFLSC_EMPTYSTR_LEN (sizeof(BFLSC_EMPTYSTR)-1) |
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// Queued and non-queued are the same |
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#define FullNonceRangeJob QueueJobStructure |
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#define BFLSC_JOBSIZ BFLSC_QJOBSIZ |
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// Non queued commands (not used) |
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#define BFLSC_SENDWORK "ZDX" |
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#define BFLSC_SENDWORK_LEN (sizeof(BFLSC_SENDWORK)-1) |
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#define BFLSC_WORKSTATUS "ZFX" |
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#define BFLSC_WORKSTATUS_LEN (sizeof(BFLSC_WORKSTATUS)-1) |
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#define BFLSC_SENDRANGE "ZPX" |
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#define BFLSC_SENDRANGE_LEN (sizeof(BFLSC_SENDRANGE)-1) |
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// Non queued work replies (not used) |
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#define BFLSC_NONCE "NONCE-FOUND:" |
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#define BFLSC_NONCE_LEN (sizeof(BFLSC_NONCE)-1) |
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#define BFLSC_NO_NONCE "NO-NONCE" |
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#define BFLSC_NO_NONCE_LEN (sizeof(BFLSC_NO_NONCE)-1) |
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#define BFLSC_IDLE "IDLE" |
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#define BFLSC_IDLE_LEN (sizeof(BFLSC_IDLE)-1) |
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#define BFLSC_BUSY "BUSY" |
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#define BFLSC_BUSY_LEN (sizeof(BFLSC_BUSY)-1) |
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#define BFLSC_MINIRIG "BAM" |
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#define BFLSC_SINGLE "BAS" |
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#define BFLSC_LITTLESINGLE "BAL" |
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#define BFLSC_JALAPENO "BAJ" |
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// Default expected time for a nonce range |
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// - thus no need to check until this + last time work was found |
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// 60GH/s MiniRig (1 board) or Single |
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#define BAM_WORK_TIME 71.58 |
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#define BAS_WORK_TIME 71.58 |
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// 30GH/s Little Single |
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#define BAL_WORK_TIME 143.17 |
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// 4.5GH/s Jalapeno |
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#define BAJ_WORK_TIME 954.44 |
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// Defaults (slightly over half the work time) but ensure none are above 100 |
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// SCAN_TIME - delay after sending work |
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// RES_TIME - delay between checking for results |
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#define BAM_SCAN_TIME 20 |
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#define BAM_RES_TIME 2 |
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#define BAS_SCAN_TIME 360 |
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#define BAS_RES_TIME 36 |
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#define BAL_SCAN_TIME 720 |
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#define BAL_RES_TIME 72 |
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#define BAJ_SCAN_TIME 1000 |
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#define BAJ_RES_TIME 100 |
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#define BFLSC_MAX_SLEEP 2000 |
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#define BAJ_LATENCY LATENCY_STD |
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#define BAL_LATENCY 12 |
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#define BAS_LATENCY 12 |
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// For now a BAM doesn't really exist - it's currently 8 independent BASs |
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#define BAM_LATENCY 2 |
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#define BFLSC_TEMP_SLEEPMS 5 |
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#define BFLSC_QUE_SIZE_V1 20 |
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#define BFLSC_QUE_FULL_ENOUGH_V1 13 |
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#define BFLSC_QUE_WATERMARK_V1 6 |
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#define BFLSC_QUE_LOW_V1 2 |
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// TODO: use 5 batch jobs |
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// TODO: base these numbers on the chip count? |
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#define BFLSC_QUE_SIZE_V2 40 |
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#define BFLSC_QUE_FULL_ENOUGH_V2 36 |
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#define BFLSC_QUE_WATERMARK_V2 32 |
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#define BFLSC_QUE_LOW_V2 8 |
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#define BFLSC_TEMP_OVERHEAT 90 |
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// Must drop this far below cutoff before resuming work |
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#define BFLSC_TEMP_RECOVER 5 |
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// If initialisation fails the first time, |
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// sleep this amount (ms) and try again |
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#define REINIT_TIME_FIRST_MS 100 |
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// Max ms per sleep |
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#define REINIT_TIME_MAX_MS 800 |
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// Keep trying up to this many us |
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#define REINIT_TIME_MAX 3000000 |
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int opt_bflsc_overheat; |
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#endif /* BFLSC_H */
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