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driver-bitmain.h
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driver-bitmain.h
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/*
* Copyright 2013 BitMain project
* Copyright 2013 BitMain <[email protected]>
* Copyright 2014-2015 Andrew Smith
*
* 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.
*/
#ifndef BITMAIN_H
#define BITMAIN_H
// S3 is a USB S2 with other minor changes (search for USE_ANT_S3)
#if defined(USE_ANT_S3)
#define USE_ANT_S2 1
#endif
#if (defined(USE_ANT_S1) || defined(USE_ANT_S2))
#include "util.h"
#include "klist.h"
#define BITMAIN_RESET_FAULT_DECISECONDS 1
#define BITMAIN_MINER_THREADS 1
#define BITMAIN_IO_SPEED 115200
#define BITMAIN_HASH_TIME_FACTOR ((float)1.67/0x32)
#define BITMAIN_RESET_PITCH (300*1000*1000)
#define BITMAIN_TOKEN_TYPE_TXCONFIG 0x51
#define BITMAIN_TOKEN_TYPE_TXTASK 0x52
#define BITMAIN_TOKEN_TYPE_RXSTATUS 0x53
#define BITMAIN_DATA_TYPE_RXSTATUS 0xa1
#define BITMAIN_DATA_TYPE_RXNONCE 0xa2
#define BITMAIN_FAN_FACTOR 60
#define BITMAIN_PWM_MAX 0xA0
#define BITMAIN_DEFAULT_FAN_MIN 20
#define BITMAIN_DEFAULT_FAN_MAX 100
#define BITMAIN_DEFAULT_FAN_MAX_PWM 0xA0 /* 100% */
#define BITMAIN_DEFAULT_FAN_MIN_PWM 0x20 /* 20% */
#define BITMAIN_TEMP_TARGET 50
#define BITMAIN_TEMP_HYSTERESIS 3
#define BITMAIN_TEMP_OVERHEAT 75
#define BITMAIN_DEFAULT_TIMEOUT 0x2D
#define BITMAIN_MIN_FREQUENCY 10
#define BITMAIN_MAX_FREQUENCY 1000000
#define BITMAIN_TIMEOUT_FACTOR 12690
#define BITMAIN_DEFAULT_FREQUENCY 282
#define BITMAIN_DEFAULT_CHAIN_NUM 8
#define BITMAIN_DEFAULT_ASIC_NUM 32
#define BITMAIN_DEFAULT_REG_DATA 0
#define BITMAIN_AUTO_CYCLE 1024
#ifdef USE_ANT_S1
#define BITMAIN_FTDI_READSIZE 510
#define BITMAIN_DEFAULT_VOLTAGE 5
#define BITMAIN_WORK_DELAY 1
#else // S2 or S3
#ifdef USE_ANT_S3 // S3
#define BITMAIN_FTDI_READSIZE 510
#define BITMAIN_VOLTAGE_DEF "0000"
#define BITMAIN_VOLTAGE0_DEF 0x00
#define BITMAIN_VOLTAGE1_DEF 0x00
#define BITMAIN_WORK_DELAY 1
#else // S2
#define BITMAIN_FTDI_READSIZE 2048
#define BITMAIN_VOLTAGE_DEF "0725"
#define BITMAIN_VOLTAGE0_DEF 0x07
#define BITMAIN_VOLTAGE1_DEF 0x25
#define BITMAIN_WORK_DELAY 1
#endif
#endif
#define BITMAIN_USB_PACKETSIZE 512
#define BITMAIN_SENDBUF_SIZE 8192
#define BITMAIN_READBUF_SIZE 8192
#define BITMAIN_RESET_TIMEOUT 100
#define BITMAIN_LATENCY 1
#ifdef USE_ANT_S1
#define BITMAIN_READ_TIMEOUT 18 /* Enough to only half fill the buffer */
#define BITMAIN_MAX_WORK_NUM 8
#define BITMAIN_MAX_WORK_QUEUE_NUM 64
#define BITMAIN_MAX_DEAL_QUEUE_NUM 1
#define BITMAIN_MAX_NONCE_NUM 8
#define BITMAIN_MAX_CHAIN_NUM 8
#else // S2 or S3
#ifdef USE_ANT_S3
#define BITMAIN_READ_TIMEOUT 100
#define BITMAIN_MAX_WORK_NUM 8
#define BITMAIN_MAX_WORK_QUEUE_NUM 1024
#define BITMAIN_MAX_DEAL_QUEUE_NUM 2
#define BITMAIN_MAX_NONCE_NUM 128
#define BITMAIN_MAX_CHAIN_NUM 8
#else // S2
#define BITMAIN_READ_TIMEOUT 0 // Ignored
#define BITMAIN_MAX_WORK_NUM 64
#define BITMAIN_MAX_WORK_QUEUE_NUM 4096
#define BITMAIN_MAX_DEAL_QUEUE_NUM 32
#define BITMAIN_MAX_NONCE_NUM 128
#define BITMAIN_MAX_CHAIN_NUM 16
#endif
#endif
#define BITMAIN_MAX_TEMP_NUM 32
#define BITMAIN_MAX_FAN_NUM 32
#ifdef USE_ANT_S1
#define BITMAIN_SEND_STATUS_TIME 10 //s
#define BITMAIN_SEND_FULL_SPACE 128
#else // S2 or S3
#define BITMAIN_SEND_STATUS_TIME 15 //s
#ifdef USE_ANT_S3
#define BITMAIN_SEND_FULL_SPACE 256
#else
#define BITMAIN_SEND_FULL_SPACE 512
#endif
#endif
#define BITMAIN_OVERHEAT_SLEEP_MS_MAX 10000
#define BITMAIN_OVERHEAT_SLEEP_MS_MIN 200
#define BITMAIN_OVERHEAT_SLEEP_MS_DEF 600
#define BITMAIN_OVERHEAT_SLEEP_MS_STEP 200
#ifdef USE_ANT_S2
struct bitmain_packet_head {
uint8_t token_type;
uint8_t version;
uint16_t length;
} __attribute__((packed, aligned(4)));
#endif
struct bitmain_txconfig_token {
uint8_t token_type;
#ifdef USE_ANT_S1
uint8_t length;
#else // S2
uint8_t version;
uint16_t length;
#endif
uint8_t reset :1;
uint8_t fan_eft :1;
uint8_t timeout_eft :1;
uint8_t frequency_eft :1;
uint8_t voltage_eft :1;
uint8_t chain_check_time_eft :1;
uint8_t chip_config_eft :1;
uint8_t hw_error_eft :1;
#ifdef USE_ANT_S1
uint8_t reserved1;
#else // S2
uint8_t beeper_ctrl :1;
uint8_t temp_over_ctrl :1;
uint8_t reserved1 :6;
uint8_t chain_check_time;
uint8_t reserved2;
#endif
uint8_t chain_num;
uint8_t asic_num;
uint8_t fan_pwm_data;
uint8_t timeout_data;
uint16_t frequency;
#ifdef USE_ANT_S1
uint8_t voltage;
uint8_t chain_check_time;
#else
uint8_t voltage[2];
#endif
uint8_t reg_data[4];
uint8_t chip_address;
uint8_t reg_address;
uint16_t crc;
} __attribute__((packed, aligned(4)));
struct bitmain_txtask_work {
uint32_t work_id;
uint8_t midstate[32];
uint8_t data2[12];
} __attribute__((packed, aligned(4)));
struct bitmain_txtask_token {
#ifdef USE_ANT_S1
uint8_t token_type;
uint8_t reserved1;
uint16_t length;
uint8_t new_block :1;
uint8_t reserved2 :7;
uint8_t reserved3[3];
struct bitmain_txtask_work works[BITMAIN_MAX_WORK_NUM];
uint16_t crc;
#else // S2
uint8_t token_type;
uint8_t version;
uint16_t length;
uint8_t new_block :1;
uint8_t reserved1 :7;
uint8_t diff;
uint8_t reserved2[2];
struct bitmain_txtask_work works[BITMAIN_MAX_WORK_NUM];
uint16_t crc;
#endif
} __attribute__((packed, aligned(4)));
struct bitmain_rxstatus_token {
#ifdef USE_ANT_S1
uint8_t token_type;
uint8_t length;
uint8_t chip_status_eft :1;
uint8_t detect_get :1;
uint8_t reserved1 :6;
uint8_t reserved2;
uint8_t chip_address;
uint8_t reg_address;
uint16_t crc;
#else // S2
uint8_t token_type;
uint8_t version;
uint16_t length;
uint8_t chip_status_eft :1;
uint8_t detect_get :1;
uint8_t reserved1 :6;
uint8_t reserved2[3];
uint8_t chip_address;
uint8_t reg_address;
uint16_t crc;
#endif
} __attribute__((packed, aligned(4)));
struct bitmain_rxstatus_data {
#ifdef USE_ANT_S1
uint8_t data_type;
uint8_t length;
uint8_t chip_value_eft :1;
uint8_t reserved1 :7;
uint8_t version;
uint32_t fifo_space;
uint32_t reg_value;
uint32_t nonce_error;
uint8_t chain_num;
uint8_t temp_num;
uint8_t fan_num;
uint8_t reserved2;
uint32_t chain_asic_status[BITMAIN_MAX_CHAIN_NUM];
uint8_t chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
uint8_t temp[BITMAIN_MAX_TEMP_NUM];
uint8_t fan[BITMAIN_MAX_FAN_NUM];
uint16_t crc;
#else // S2
uint8_t data_type;
uint8_t version;
uint16_t length;
uint8_t chip_value_eft :1;
uint8_t reserved1 :7;
uint8_t chain_num;
uint16_t fifo_space;
uint8_t hw_version[4];
uint8_t fan_num;
uint8_t temp_num;
uint16_t fan_exist;
uint32_t temp_exist;
uint32_t nonce_error;
uint32_t reg_value;
uint32_t chain_asic_exist[BITMAIN_MAX_CHAIN_NUM*8];
uint32_t chain_asic_status[BITMAIN_MAX_CHAIN_NUM*8];
uint8_t chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
uint8_t temp[BITMAIN_MAX_TEMP_NUM];
uint8_t fan[BITMAIN_MAX_FAN_NUM];
uint16_t crc;
#endif
} __attribute__((packed, aligned(4)));
struct bitmain_rxnonce_nonce {
uint32_t work_id;
uint32_t nonce;
} __attribute__((packed, aligned(4)));
struct bitmain_rxnonce_data {
#ifdef USE_ANT_S1
uint8_t data_type;
uint8_t length;
uint8_t fifo_space;
uint8_t nonce_num;
struct bitmain_rxnonce_nonce nonces[BITMAIN_MAX_NONCE_NUM];
uint16_t crc;
#else
uint8_t data_type;
uint8_t version;
uint16_t length;
uint16_t fifo_space;
uint16_t diff;
uint64_t total_nonce_num;
struct bitmain_rxnonce_nonce nonces[BITMAIN_MAX_NONCE_NUM];
uint16_t crc;
#endif
} __attribute__((packed, aligned(4)));
struct bitmain_info {
int queued;
int results;
#ifdef USE_ANT_S1
int baud;
int chain_num;
int asic_num;
int chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
uint32_t chain_asic_status[BITMAIN_MAX_CHAIN_NUM];
char chain_asic_status_t[BITMAIN_MAX_CHAIN_NUM][40];
#else // S2 or S3
#ifndef USE_ANT_S3
int device_fd;
#endif
int baud;
int chain_num;
int asic_num;
int chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
uint32_t chain_asic_exist[BITMAIN_MAX_CHAIN_NUM*8];
uint32_t chain_asic_status[BITMAIN_MAX_CHAIN_NUM*8];
char chain_asic_status_t[BITMAIN_MAX_CHAIN_NUM][320];
#endif
int timeout;
int errorcount;
uint32_t nonce_error;
uint32_t last_nonce_error;
uint8_t reg_data[4];
int fan_num;
int fan[BITMAIN_MAX_FAN_NUM];
int temp_num;
int temp[BITMAIN_MAX_TEMP_NUM];
int temp_max;
int temp_avg;
int temp_history_count;
int temp_history_index;
int temp_sum;
int fan_pwm;
int frequency;
int temp_hi;
#ifdef USE_ANT_S1
int voltage;
#else
uint8_t voltage[2];
uint64_t total_nonce_num;
int diff;
#endif
int no_matching_work;
//int matching_work[BITMAIN_DEFAULT_CHAIN_NUM];
struct thr_info *thr;
pthread_t read_thr;
pthread_t write_thr;
pthread_mutex_t lock;
pthread_mutex_t qlock;
pthread_cond_t qcond;
cgsem_t write_sem;
int nonces;
int fifo_space;
unsigned int last_work_block;
struct timeval last_status_time;
int send_full_space;
#ifdef USE_ANT_S2
int hw_version[4];
#endif
int auto_queued;
int auto_hw;
int idle;
bool reset;
bool optimal;
#ifdef USE_ANT_S1
bool overheat;
int overheat_temp;
uint32_t overheat_count;
uint32_t overheat_sleep_ms;
uint32_t overheat_sleeps;
uint32_t overheat_slept;
uint64_t overheat_total_sleep;
uint32_t overheat_recovers;
#endif
// Work
K_LIST *work_list;
K_STORE *work_ready;
#ifdef USE_ANT_S2
K_STORE *wbuild;
#endif
uint32_t last_wid;
uint64_t work_search;
uint64_t tot_search;
uint64_t min_search;
uint64_t max_search;
uint64_t failed_search;
uint64_t tot_failed;
uint64_t min_failed;
uint64_t max_failed;
uint64_t fill_calls;
uint64_t fill_nospace;
uint64_t fifo_checks;
uint64_t fill_neededless;
uint64_t fill_totalneeded;
uint64_t fill_need[BITMAIN_MAX_WORK_NUM+1];
uint64_t fill_want;
uint64_t fill_nowork;
uint64_t fill_roll;
int fill_rollmin;
int fill_rollmax;
uint64_t fill_rolltot;
uint64_t fill_toosmall;
uint64_t fill_less;
uint64_t fill_sends;
uint64_t fill_totalsend;
uint64_t fill_send[BITMAIN_MAX_WORK_NUM+1];
uint64_t fill_sendless[BITMAIN_MAX_WORK_NUM+1];
uint64_t fill_seterr;
uint64_t fill_senderr;
uint64_t need_over;
uint64_t need_nowork[BITMAIN_MAX_WORK_NUM+1];
uint64_t fill_sendstatus;
uint64_t read_good;
uint64_t read_size;
uint64_t read_18s;
int read_sizemin;
int read_sizemax;
uint64_t read_bad;
uint64_t readbuf_over;
};
// Work
typedef struct witem {
struct work *work;
uint32_t wid;
} WITEM;
#ifdef USE_ANT_S1
#define ALLOC_WITEMS 1024
#else
#ifdef USE_ANT_S3
#define ALLOC_WITEMS 4096
#else // S2
#define ALLOC_WITEMS 32768
#endif
#endif
/*
* The limit doesn't matter since we simply take the tail item
* every time, optionally free it, and then put it on the head
*/
#ifdef USE_ANT_S1
#define LIMIT_WITEMS 1024
#else
#ifdef USE_ANT_S3
#define LIMIT_WITEMS 4096
#else // S2
#define LIMIT_WITEMS 32768
#endif
#endif
#define DATAW(_item) ((WITEM *)(_item->data))
#define BITMAIN_READ_SIZE 12
#ifdef USE_ANT_S2
#define BITMAIN_ARRAY_SIZE 16384
#endif
#define BTM_GETS_ERROR -1
#define BTM_GETS_OK 0
#define BTM_SEND_ERROR -1
#define BTM_SEND_OK 0
#define BITMAIN_READ_TIME(baud) ((double)BITMAIN_READ_SIZE * (double)8.0 / (double)(baud))
#define ASSERT1(condition) __maybe_unused static char sizeof_uint32_t_must_be_4[(condition)?1:-1]
ASSERT1(sizeof(uint32_t) == 4);
extern struct bitmain_info **bitmain_info;
extern int opt_bitmain_temp;
extern int opt_bitmain_workdelay;
extern int opt_bitmain_overheat;
extern int opt_bitmain_fan_min;
extern int opt_bitmain_fan_max;
extern int opt_bitmain_freq_min;
extern int opt_bitmain_freq_max;
extern bool opt_bitmain_auto;
extern char *set_bitmain_fan(char *arg);
#endif /* USE_ANT_S1 || USE_ANT_S2 */
#endif /* BITMAIN_H */