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driver-btm-soc.h
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driver-btm-soc.h
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/*
* Copyright 2016-2017 Fazio Bai <yang.bai@bitmain.com>
* Copyright 2016-2017 Clement Duan <kai.duan@bitmain.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.
*/
#ifndef __DRIVER_BTM_SOC_H__
#define __DRIVER_BTM_SOC_H__
#include "config.h"
//FPGA rgister Address Map
#define HARDWARE_VERSION (0x00000000/sizeof(int))
#define FAN_SPEED (0x00000004/sizeof(int))
#define HASH_ON_PLUG (0x00000008/sizeof(int))
#define BUFFER_SPACE (0x0000000c/sizeof(int))
#define RETURN_NONCE (0x00000010/sizeof(int))
#define NONCE_NUMBER_IN_FIFO (0x00000018/sizeof(int))
#define NONCE_FIFO_INTERRUPT (0x0000001c/sizeof(int))
#define TEMPERATURE_0_3 (0x00000020/sizeof(int))
#define TEMPERATURE_4_7 (0x00000024/sizeof(int))
#define TEMPERATURE_8_11 (0x00000028/sizeof(int))
#define TEMPERATURE_12_15 (0x0000002c/sizeof(int))
#define IIC_COMMAND (0x00000030/sizeof(int))
#define RESET_HASHBOARD_COMMAND (0x00000034/sizeof(int))
#define BMC_CMD_COUNTER (0x00000038/sizeof(int))
#define TW_WRITE_COMMAND (0x00000040/sizeof(int))
#define QN_WRITE_DATA_COMMAND (0x00000080/sizeof(int))
#define FAN_CONTROL (0x00000084/sizeof(int))
#define TIME_OUT_CONTROL (0x00000088/sizeof(int))
#define TICKET_MASK_FPGA (0x0000008c/sizeof(int))
#define HASH_COUNTING_NUMBER_FPGA (0x00000090/sizeof(int))
#define SNO (0x00000094/sizeof(int))
#define BC_WRITE_COMMAND (0x000000c0/sizeof(int))
#define BC_COMMAND_BUFFER (0x000000c4/sizeof(int))
#define FPGA_CHIP_ID_ADDR (0x000000f0/sizeof(int))
#define CRC_ERROR_CNT_ADDR (0x000000f8/sizeof(int))
#define DHASH_ACC_CONTROL (0x00000100/sizeof(int))
#define COINBASE_AND_NONCE2_LENGTH (0x00000104/sizeof(int))
#define WORK_NONCE_2 (0x00000108/sizeof(int))
#define NONCE2_AND_JOBID_STORE_ADDRESS (0x00000110/sizeof(int))
#define MERKLE_BIN_NUMBER (0x00000114/sizeof(int))
#define JOB_START_ADDRESS (0x00000118/sizeof(int))
#define JOB_LENGTH (0x0000011c/sizeof(int))
#define JOB_DATA_READY (0x00000120/sizeof(int))
#define JOB_ID (0x00000124/sizeof(int))
#define BLOCK_HEADER_VERSION (0x00000130/sizeof(int))
#define TIME_STAMP (0x00000134/sizeof(int))
#define TARGET_BITS (0x00000138/sizeof(int))
#define PRE_HEADER_HASH (0x00000140/sizeof(int))
//FPGA registers bit map
//QN_WRITE_DATA_COMMAND
#define RESET_HASH_BOARD (1 << 31)
#define RESET_ALL (1 << 23)
#define CHAIN_ID(id) (id << 16)
#define RESET_FPGA (1 << 15)
#define RESET_TIME(time) (time << 0)
#define TIME_OUT_VALID (1 << 31)
//RETURN_NONCE
#define WORK_ID_OR_CRC (1 << 31)
#define WORK_ID_OR_CRC_VALUE(value) ((value >> 16) & 0x7fff)
#define NONCE_INDICATOR (1 << 7)
#define CHAIN_NUMBER(value) (value & 0xf)
#define REGISTER_DATA_CRC(value) ((value >> 24) & 0x7f)
//BC_WRITE_COMMAND
#define BC_COMMAND_BUFFER_READY (1 << 31)
#define BC_COMMAND_EN_CHAIN_ID (1 << 23)
#define BC_COMMAND_EN_NULL_WORK (1 << 22)
//NONCE2_AND_JOBID_STORE_ADDRESS
#define JOB_ID_OFFSET (0x0/sizeof(int))
#define HEADER_VERSION_OFFSET (0x4/sizeof(int))
#define NONCE2_L_OFFSET (0x8/sizeof(int))
#define NONCE2_H_OFFSET (0xc/sizeof(int))
#define MIDSTATE_OFFSET 0x20
//DHASH_ACC_CONTROL
#define VIL_MODE (1 << 15)
#define VIL_MIDSTATE_NUMBER(value) ((value & 0x0f) << 8)
#define NEW_BLOCK (1 << 7)
#define RUN_BIT (1 << 6)
#define OPERATION_MODE (1 << 5)
//NONCE_FIFO_INTERRUPT
#define FLUSH_NONCE3_FIFO (1 << 16)
//ASIC macro define
//ASIC register address
#define SOC_VERSION 1
#define CHIP_ADDRESS 0x0
#define GOLDEN_NONCE_COUNTER 0x8
#define PLL_PARAMETER 0xc
#define START_NONCE_OFFSET 0x10
#define HASH_COUNTING_NUMBER 0x14
#define TICKET_MASK 0x18
#define MISC_CONTROL 0x1c
#define GENERAL_I2C_COMMAND 0X20
//ASIC command
#define SET_ADDRESS 0x1
#define SET_PLL_DIVIDER2 0x2
#define PATTERN_CONTROL 0x3
#define GET_STATUS 0x4
#define CHAIN_INACTIVE 0x5
#define SET_BAUD_OPS 0x6
#define SET_PLL_DIVIDER1 0x7
#define SET_CONFIG 0x8
#define COMMAND_FOR_ALL 0x80
//other ASIC macro define
#define MAX_BAUD_DIVIDER 26
#define DEFAULT_BAUD_DIVIDER 26
#define VIL_COMMAND_TYPE (0x02 << 5)
#define VIL_ALL (0x01 << 4)
#define PAT (0x01 << 7)
#define GRAY (0x01 << 6)
#define INV_CLKO (0x01 << 5)
#define LPD (0x01 << 4)
#define GATEBCLK (0x01 << 7)
#define RFS (0x01 << 6)
#define MMEN (0x01 << 7)
#define TFS(x) ((x & 0x03) << 5)
// Pic
#define PIC_FLASH_POINTER_START_ADDRESS_H 0x03
#define PIC_FLASH_POINTER_START_ADDRESS_L 0x00
#define PIC_FLASH_POINTER_END_ADDRESS_H 0x0f
#define PIC_FLASH_POINTER_END_ADDRESS_L 0x7f
#define PIC_FLASH_LENGTH (((unsigned int)PIC_FLASH_POINTER_END_ADDRESS_H<<8 + PIC_FLASH_POINTER_END_ADDRESS_L) - ((unsigned int)PIC_FLASH_POINTER_START_ADDRESS_H<<8 + PIC_FLASH_POINTER_START_ADDRESS_L) + 1)
#define PIC_FLASH_SECTOR_LENGTH 32
#define PIC_SOFTWARE_VERSION_LENGTH 1
#define PIC_VOLTAGE_TIME_LENGTH 6
#define PIC_COMMAND_1 0x55
#define PIC_COMMAND_2 0xaa
#define SET_PIC_FLASH_POINTER 0x01
#define SEND_DATA_TO_IIC 0x02 // just send data into pic's cache
#define READ_DATA_FROM_IIC 0x03
#define ERASE_IIC_FLASH 0x04 // erase 32 bytes one time
#define WRITE_DATA_INTO_PIC 0x05 // tell pic write data into flash from cache
#define JUMP_FROM_LOADER_TO_APP 0x06
#define RESET_PIC 0x07
#define GET_PIC_FLASH_POINTER 0x08
#define ERASE_PIC_APP_PROGRAM 0x09
#define SET_VOLTAGE 0x10
#define SET_VOLTAGE_TIME 0x11
#define SET_HASH_BOARD_ID 0x12
#define GET_HASH_BOARD_ID 0x13
#define SET_HOST_MAC_ADDRESS 0x14
#define ENABLE_VOLTAGE 0x15
#define SEND_HEART_BEAT 0x16
#define GET_PIC_SOFTWARE_VERSION 0x17
#define GET_VOLTAGE 0x18
#define GET_DATE 0x19
#define GET_WHICH_MAC 0x20
#define GET_MAC 0x21
#define WR_TEMP_OFFSET_VALUE 0x22
#define RD_TEMP_OFFSET_VALUE 0x23
//diff freq
#define PIC_FLASH_POINTER_FREQ_START_ADDRESS_H 0x0F
#define PIC_FLASH_POINTER_FREQ_START_ADDRESS_L 0xA0
#define PIC_FLASH_POINTER_FREQ_END_ADDRESS_H 0x0f
#define PIC_FLASH_POINTER_FREQ_END_ADDRESS_L 0xDF
#define FREQ_MAGIC 0x7D
// BAD CORE NUM
#define PIC_FLASH_POINTER_BADCORE_START_ADDRESS_H 0x0F
#define PIC_FLASH_POINTER_BADCORE_START_ADDRESS_L 0x80
#define PIC_FLASH_POINTER_BADCORE_END_ADDRESS_H 0x0f
#define PIC_FLASH_POINTER_BADCORE_END_ADDRESS_L 0x9F
#define BADCORE_MAGIC 0x23 // magic number for bad core num
#define HEART_BEAT_TIME_GAP 10 // 10s
#define IIC_READ (1 << 25)
#define IIC_WRITE (~IIC_READ)
#define IIC_REG_ADDR_VALID (1 << 24)
//#define IIC_ADDR_HIGH_4_BIT (0x0A << 20)
#define IIC_CHAIN_NUMBER(x) ((x & 0x0f) << 16)
#define IIC_REG_ADDR(x) ((x & 0xff) << 8)
// AT24C02
#define AT24C02_ADDRESS 0x50
#define EEPROM_LENGTH 256
#define HASH_ID_ADDR 0x80
#define VOLTAGE_ADDR 0x90
#define SENSOR_OFFSET_ADDR 0x98
#define VOLTAGE_SET_TIME 0xA0
#define VOLTAGE_SET_TIME 0xA0
#define FREQ_BADCORE_ADDR 0x00 // 128 bytes 0 - 0x7F
//other FPGA macro define
#define TOTAL_LEN 0x160
#define FPGA_MEM_TOTAL_LEN (16*1024*1024) // 16M bytes
#define HARDWARE_VERSION_VALUE 0xC501
#define NONCE2_AND_JOBID_STORE_SPACE (2*1024*1024) // 2M bytes
#define NONCE2_AND_JOBID_STORE_SPACE_ORDER 9 // for 2M bytes space
#define JOB_STORE_SPACE (1 << 16) // for 64K bytes space
#define JOB_START_SPACE (1024*8) // 8K bytes
#define JOB_START_ADDRESS_ALIGN 32 // JOB_START_ADDRESS need 32 bytes aligned
#define NONCE2_AND_JOBID_ALIGN 64 // NONCE2_AND_JOBID_STORE_SPACE need 64 bytes aligned
#define MAX_TIMEOUT_VALUE 0x1ffff // defined in TIME_OUT_CONTROL
#define MAX_NONCE_NUMBER_IN_FIFO 0x1ff // 511 nonce
#define NONCE_DATA_LENGTH 4 // 4 bytes
#define REGISTER_DATA_LENGTH 4 // 4 bytes
#define TW_WRITE_COMMAND_LEN 52
#define TW_WRITE_COMMAND_LEN_VIL 52
#define NEW_BLOCK_MARKER 0x11
#define NORMAL_BLOCK_MARKER 0x01
// ATTENTION: if MEM size is changed, must change this micro definition too!!! use MAX size (BYTE) - 16 MB as FPGA start memory address
#define PHY_MEM_NONCE2_JOBID_ADDRESS_XILINX_1GB ((1024-16)*1024*1024)
#define PHY_MEM_NONCE2_JOBID_ADDRESS_XILINX_512MB ((512-16)*1024*1024) // XILINX use 512MB memory
#define PHY_MEM_NONCE2_JOBID_ADDRESS_XILINX_256MB ((256-16)*1024*1024) // XILINX use 256MB memory
#define PHY_MEM_NONCE2_JOBID_ADDRESS_C5 ((1024-16)*1024*1024)
extern unsigned int PHY_MEM_NONCE2_JOBID_ADDRESS;
#define PHY_MEM_JOB_START_ADDRESS_1 (PHY_MEM_NONCE2_JOBID_ADDRESS + NONCE2_AND_JOBID_STORE_SPACE)
#define PHY_MEM_JOB_START_ADDRESS_2 (PHY_MEM_JOB_START_ADDRESS_1 + JOB_STORE_SPACE)
//#include "miner_type.h" // use setminertype to define miner type in this file instead of belows!!!
//#define R4 // if defined , for R4 63 chips
//#define S9_PLUS // if defined , for T9 57 chips
//#define S9_63 // if defined , for S9 63 chips
//#define T9_18 // if defined , for T9+ 18 chips
#define RESET_KEEP_TIME 3 // keep reset signal for 1 secnods
#undef USE_OPENCORE_ONEBYONE // if defined, we will use open core one by one, do 114 times on open core for each chain! but NOT WORKS!??
#undef ENABLE_REGISTER_CRC_CHECK //if defined, will drop the register buffer with crc error!
#define REBOOT_TEST_ONCE_1HOUR //if defined, will check hashrate after 1 hour, and reboot only once
#define ENABLE_FINAL_TEST_WITHOUT_REBOOT // when REBOOT_TEST_ONCE_1HOUR enabeld and this defined, the miner will not reboot after test for 1 hours, then we can save time. test system will treat these miners as good with green color.
#define DISABLE_FINAL_TEST //if defined, it will set rebootTestNum=0 and restartNum=2 to indicate the the miner fw is in normal user mode , not test mode
#define DISABLE_SHOWX_ENABLE_XTIMES // if defined, will disable x show on web UI, but will enable x times counter in 1 mins
#define FASTER_TESTPATTEN // will use 9% timeout to test patten
#undef USE_OPENCORE_TWICE
#define ENABLE_REINIT_WHEN_TESTFAILED //if defined, when test failed on patten, we set a flag in file, and will use highest voltage according to the limit rules of power and hashrate.
#define RESET_HASHBOARD_TIME 15
#define ENABLE_CHECK_PIC_FLASH_ADDR // if enabled, will check PIC FLASH ADDR value , set and read back to compare from PIC
#define ENABLE_RESTORE_PIC_APP // if enabled, will restore PIC APP when the version is not correct!!!
#ifdef R4
#define USE_N_OFFSET_FIX_TEMP // if defined, we will use n and offset to fix temp value
#define EXTEND_TEMP_MODE // if defined, we set temp value area from -64 to 191 as extended temp
#define ENABLE_HIGH_VOLTAGE_OPENCORE
#define PIC_VERSION 0x03
#define CHAIN_ASIC_NUM 63
#define R4_MAX_VOLTAGE_C5 890
#define R4_MAX_VOLTAGE_XILINX 910
#define FIX_BAUD_VALUE 1
#define UPRATE_PERCENT 1 // means we need reserved more 1% rate
#define HIGHEST_VOLTAGE_LIMITED_HW 940 //measn the largest voltage, hw can support
#define USE_NEW_RESET_FPGA
#undef USE_PREINIT_OPENCORE // if defined, we will open core at first ,then get asicnum and do other init process
#endif
#ifdef S9_PLUS
#define ENABLE_HIGH_VOLTAGE_OPENCORE
#define S9_PLUS_VOLTAGE2 //if defined, then it support S9+ new board with new voltage controller
#define PIC_VERSION 0x03
#define CHAIN_ASIC_NUM 57
#define USE_N_OFFSET_FIX_TEMP // if defined, we will use n and offset to fix temp value
#define EXTEND_TEMP_MODE // if defined, we set temp value area from -64 to 191 as extended temp
#define HIGHEST_VOLTAGE_LIMITED_HW 970 //measn the largest voltage, hw can support
#define FIX_BAUD_VALUE 1
#define UPRATE_PERCENT 2 // means we need reserved more 2% rate
#define USE_NEW_RESET_FPGA
#undef USE_PREINIT_OPENCORE // if defined, we will open core at first ,then get asicnum and do other init process
#endif
#ifdef S9_63
#define ENABLE_HIGH_VOLTAGE_OPENCORE
#define PIC_VERSION 0x03
#define CHAIN_ASIC_NUM 63
#define USE_N_OFFSET_FIX_TEMP // if defined, we will use n and offset to fix temp value
#define EXTEND_TEMP_MODE // if defined, we set temp value area from -64 to 191 as extended temp
#define FIX_BAUD_VALUE 1
#define UPRATE_PERCENT 1 // means we need reserved more 1% rate
#define HIGHEST_VOLTAGE_LIMITED_HW 940 //measn the largest voltage, hw can support
#define USE_NEW_RESET_FPGA
#undef USE_PREINIT_OPENCORE // if defined, we will open core at first ,then get asicnum and do other init process
#endif
#ifdef T9_18
#define ENABLE_HIGH_VOLTAGE_OPENCORE // T9+ use this , will cause error on chips, because the voltage changing need a long time to balance
#define PIC_VERSION 0x03
#define CHAIN_ASIC_NUM 18
#define USE_N_OFFSET_FIX_TEMP // if defined, we will use n and offset to fix temp value
#define EXTEND_TEMP_MODE // if defined, we set temp value area from -64 to 191 as extended temp
#define FIX_BAUD_VALUE 1
#define UPRATE_PERCENT 2 // means we need reserved more 2% rate
#define HIGHEST_VOLTAGE_LIMITED_HW 930 //measn the largest voltage, hw can support
#define USE_NEW_RESET_FPGA
#undef USE_PREINIT_OPENCORE // if defined, we will open core at first ,then get asicnum and do other init process
#endif
#ifdef USE_PREINIT_OPENCORE
#define ENABLE_SET_TICKETMASK_BEFORE_TESTPATTEN // a bug, do not know reason: asic ticket mask > 0 even after reset asic!!!
#else
#undef ENABLE_SET_TICKETMASK_BEFORE_TESTPATTEN // a bug, do not know reason: asic ticket mask > 0 even after reset asic!!!
#endif
#define ASIC_TYPE 1387 // 1385 or 1387
#define CHIP_ADDR_INTERVAL 4 // fix chip address interval = 4
#define DEFAULT_BAUD_VALUE 26
#define ASIC_CORE_NUM 114
#define BM1387_CORE_NUM ASIC_CORE_NUM
// macro define about miner
#define BITMAIN_MAX_CHAIN_NUM 16
#define BITMAIN_MAX_FAN_NUM 8 // FPGA just can supports 8 fan
#define BITMAIN_DEFAULT_ASIC_NUM 64 // max support 64 ASIC on 1 HASH board
#define MIDSTATE_LEN 32
#define DATA2_LEN 12
#define MAX_RETURNED_NONCE_NUM 10
#define PREV_HASH_LEN 32
#define MERKLE_BIN_LEN 32
#define INIT_CONFIG_TYPE 0x51
#define STATUS_DATA_TYPE 0xa1
#define SEND_JOB_TYPE 0x52
#define READ_JOB_TYPE 0xa2
#define CHECK_SYSTEM_TIME_GAP 10000 // 10s
//fan
// BELOW IS ALL FOR DEBUG !!! normally all must be undefined!!!
#undef DEBUG_FORCE_REINIT //defined to force to reinit with higher voltage
#undef DEBUG_KEEP_USE_PIC_VOLTAGE_WITHOUT_CHECKING_VOLTAGE_OF_SEARCHFREQ // if defined, will read pic voltage at first , and use this voltage in mining as working voltage, ignore the backup voltage of search freq
#undef DEBUG_ENABLE_I2C_TIMEOUT_PROCESS // if defined, sw will process I2C timeout, but normally FPGA will process timeout, SW do not need this
#undef DEBUG_PRINT_T9_PLUS_PIC_HEART_INFO // if defined, used to debug T9+ bug: pic heart cmd failed!
#undef DEBUG_PIC_UPGRADE // if defined, we will force to write PIC program data once!
#undef DEBUG_KEEP_REBOOT_EVERY_ONE_HOUR // if defined, keep reboot every one hour!!! this is for R4
#undef DEBUG_NOT_CHECK_FAN_NUM // if defined, we will ignore fan number checking, will keep run even without any fan!!!
#undef DEBUG_WITHOUT_FREQ_VOLTAGE_LIMIT // if defined, we will not limit freq according to voltage!
#undef DEBUG_DOWN_VOLTAGE_TEST
#ifdef DEBUG_DOWN_VOLTAGE_TEST
#define DEBUG_DOWN_VOLTAGE_VALUE 10 // means down 0.1 V
#endif
#undef DEBUG_XILINX_NONCE_NOTENOUGH // will disable mutex lock on read temp and send work, but will disable one chain's read temp
#ifdef DEBUG_XILINX_NONCE_NOTENOUGH
#define DISABLE_REG_CHAIN_INDEX 5 //disable which chain's read register
#endif
#undef DEBUG_OPENCORE_TWICE
#undef ENABLE_REINIT_MINING // if defined, will enable hashrate check in mining, and re-init if low hashrate.
#undef DEBUG_REINIT // reinit per 2mins and will not do pre heat patten test
#undef DEBUG_REBOOT // reboot every 30mins, for test
#undef DEBUG_218_FAN_FULLSPEED //for debug on 218, full speed on fan
#undef DISABLE_TEMP_PROTECT
#undef TWO_CHIP_TEMP_S9
#undef SHOW_BOTTOM_TEMP
#undef KEEP_TEMPFAN_LOG // if defined, will not clear old temp fan log info
#undef HIGH_TEMP_TEST_S9 //if defined, will use 120 degree as the high temp
#undef CAPTURE_PATTEN
#define CHECK_RT_IDEAL_RATE_PERCENT 85 // RT rate / ideal rate >= 85% will be OK, or need re init
typedef enum
{
TEMP_POS_LOCAL=0,
TEMP_POS_MIDDLE,
TEMP_POS_BOTTOM,
TEMP_POS_NUM=4, // always the last one, to identify the number of temp , must 4 bytes alignment
} TEMP_POSITION;
#ifdef R4
#define PWM_T 0 // 0 local temp, 1 middle temp, 2 bottom, as above!!!
#define MIN_FAN_NUM 1
#define MAX_FAN_SPEED 3000
#define TEMP_INTERVAL 2
// below are used for R4 on using one app to support C5 and XILINX board
extern int MIN_PWM_PERCENT;
extern int MID_PWM_PERCENT;
extern int MAX_PWM_PERCENT;
extern int MAX_TEMP;
extern int MAX_FAN_TEMP;
extern int MID_FAN_TEMP;
extern int MIN_FAN_TEMP;
extern int MAX_PCB_TEMP;
extern int MAX_FAN_PCB_TEMP;
#if PWM_T == 1
#define MIN_PWM_PERCENT_C5 20
#define MID_PWM_PERCENT_C5 60
#define MAX_PWM_PERCENT_C5 100
#define MAX_TEMP_C5 125
#define MAX_FAN_TEMP_C5 110
#define MID_FAN_TEMP_C5 90
#define MIN_FAN_TEMP_C5 60
#define MAX_PCB_TEMP_C5 100 // use middle to control fan, but use pcb temp to check to stop or not!
#define MAX_FAN_PCB_TEMP_C5 85 //90 use middle to control fan, but use pcb temp to check to stop or not!
#define MIN_PWM_PERCENT_XILINX 20
#define MID_PWM_PERCENT_XILINX 60
#define MAX_PWM_PERCENT_XILINX 100
#define MAX_TEMP_XILINX 125
#define MAX_FAN_TEMP_XILINX 110
#define MID_FAN_TEMP_XILINX 90
#define MIN_FAN_TEMP_XILINX 60
#define MAX_PCB_TEMP_XILINX 100 // use middle to control fan, but use pcb temp to check to stop or not!
#define MAX_FAN_PCB_TEMP_XILINX 85 //90 use middle to control fan, but use pcb temp to check to stop or not!
#else
#define MIN_PWM_PERCENT_C5 50
#define MID_PWM_PERCENT_C5 90
#define MAX_PWM_PERCENT_C5 100
#define MAX_TEMP_C5 90
#define MAX_FAN_TEMP_C5 75
#define MID_FAN_TEMP_C5 65
#define MIN_FAN_TEMP_C5 25
#define MAX_PCB_TEMP_C5 90 // use middle to control fan, but use pcb temp to check to stop or not!
#define MAX_FAN_PCB_TEMP_C5 85 //90 use middle to control fan, but use pcb temp to check to stop or not!
#define MIN_PWM_PERCENT_XILINX 30
#define MID_PWM_PERCENT_XILINX 70
#define MAX_PWM_PERCENT_XILINX 100
#define MAX_TEMP_XILINX 90
#define MAX_FAN_TEMP_XILINX 75
#define MID_FAN_TEMP_XILINX 65
#define MIN_FAN_TEMP_XILINX 25
#define MAX_PCB_TEMP_XILINX 90 // use middle to control fan, but use pcb temp to check to stop or not!
#define MAX_FAN_PCB_TEMP_XILINX 85 //90 use middle to control fan, but use pcb temp to check to stop or not!
#endif
#define TEMP_INTERVAL 2
#define MID_PWM_ADJUST_FACTOR ((MAX_PWM_PERCENT-MID_PWM_PERCENT)/(MAX_FAN_TEMP-MID_FAN_TEMP))
#define PWM_ADJUST_FACTOR ((MID_PWM_PERCENT-MIN_PWM_PERCENT)/(MID_FAN_TEMP-MIN_FAN_TEMP))
#else
// below is for S9
#define PWM_T 1 // 0 local temp, 1 middle temp, 2 bottom, as above!!!
#define MIN_FAN_NUM 2
#define MAX_FAN_SPEED 6000
#if PWM_T == 1
#define MIN_PWM_PERCENT 0
#define MAX_PWM_PERCENT 100
#ifdef HIGH_TEMP_TEST_S9
#define MAX_TEMP 135 //125 135 145 release:135
#define MAX_FAN_TEMP 120 // 115 125 135 release:120
#define MIN_FAN_TEMP 70 //65 75 85 release:70
#define MAX_PCB_TEMP 105 //100 105 110 release:105
#define MAX_FAN_PCB_TEMP 95 //95 100 105 release:95
#define MIN_FAN_PCB_TEMP 45 // Attention: MAX_FAN_PCB_TEMP - MIN_FAN_PCB_TEMP = MAX_FAN_TEMP - MIN_FAN_TEMP
#else
#ifdef TWO_CHIP_TEMP_S9
#define MAX_TEMP 135 //125 135 145 release:135
#define MAX_FAN_TEMP 120 // 115 125 135 release:120
#define MIN_FAN_TEMP 70 //65 75 85 release:70
#define MAX_PCB_TEMP 105 //100 105 110 release:105
#define MAX_FAN_PCB_TEMP 95 //95 100 105 release:95
#define MIN_FAN_PCB_TEMP 45 // Attention: MAX_FAN_PCB_TEMP - MIN_FAN_PCB_TEMP = MAX_FAN_TEMP - MIN_FAN_TEMP
#else
#define MAX_TEMP 125 //125 135 145 release:125
#define MAX_FAN_TEMP 90 // 115 125 135 release:115
#define MIN_FAN_TEMP 40 //65 75 85 release:65
#define MAX_PCB_TEMP 90 //100 105 110 release:95
#define MAX_FAN_PCB_TEMP 75 //95 100 105 release:85
#define MIN_FAN_PCB_TEMP 25 // Attention: MAX_FAN_PCB_TEMP - MIN_FAN_PCB_TEMP = MAX_FAN_TEMP - MIN_FAN_TEMP
#endif
#endif
#else
#define MIN_PWM_PERCENT 20
#define MAX_PWM_PERCENT 100
#define MAX_TEMP 90
#define MAX_FAN_TEMP 75
#define MIN_FAN_TEMP 35
#define MAX_PCB_TEMP 90 // use middle to control fan, but use pcb temp to check to stop or not!
#endif
#define TEMP_INTERVAL 2
#define PWM_ADJUST_FACTOR ((MAX_PWM_PERCENT-MIN_PWM_PERCENT)/(MAX_FAN_TEMP-MIN_FAN_TEMP))
#endif
#ifdef HIGH_TEMP_TEST_S9
#define MIN_TEMP_CONTINUE_DOWN_FAN 110 // release: 90
#define MAX_TEMP_NEED_UP_FANSTEP 120 // release: 100 if temp is higher than 100, then we need make fan much faster
#else
#define MIN_TEMP_CONTINUE_DOWN_FAN 80 // release: 90
#define MAX_TEMP_NEED_UP_FANSTEP 85 // release: 100 if temp is higher than 100, then we need make fan much faster
#endif
#define PWM_SCALE 50 //50: 1M=1us, 20KHz??
//25: 40KHz
#define PWM_ADJ_SCALE 9/10
//use for hash test
#define TEST_DHASH 0
#define DEVICE_DIFF 8
//use for status check
#define MAX_TEMPCHIP_NUM 8 // support 8 chip has temp
#define MIN_FREQ 4 // 8:300M 6:250M 4:200M
#define MAX_FREQ 100 //850M
#define MAX_SW_TEMP_OFFSET -15
#define BMMINER_VERSION 3 // 3 for auto freq, 1 or 2 for normal ( the old version is 0)
// for c5, bmminer will detect board type and use it.
#define RED_LED_DEV_C5 "/sys/class/leds/hps_led2/brightness"
#define GREEN_LED_DEV_C5 "/sys/class/leds/hps_led0/brightness"
// for xilinx, bmminer will detect board type and use it.
#define RED_LED_DEV_XILINX "/sys/class/gpio/gpio943/value"
#define GREEN_LED_DEV_XILINX "/sys/class/gpio/gpio944/value"
// S9 , T9, R4 PIC PROGRAM
#define PIC_PROGRAM "/etc/config/hash_s8_app.txt"
// T9+ PIC PROGRAM
#define DSPIC33EP16GS202_PIC_PROGRAM "/etc/config/dsPIC33EP16GS202_app.txt"
#define TIMESLICE 60
#ifdef T9_18
#define IIC_ADDR_HIGH_4_BIT (0x04 << 20)
#define EEPROM_ADDR_HIGH_4_BIT (0x0A << 20)
#define IIC_SELECT(x) ((x & 0x03) << 26)
unsigned int get_iic();
unsigned char set_iic(unsigned int data);
unsigned char T9_plus_write_pic_iic(bool read, bool reg_addr_valid, unsigned char reg_addr, unsigned char which_iic, unsigned char data);
int dsPIC33EP16GS202_jump_to_app_from_loader(unsigned char which_iic);
#else
#define IIC_ADDR_HIGH_4_BIT (0x0A << 20)
#endif
struct init_config
{
uint8_t token_type;
uint8_t version;
uint16_t length;
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;
uint8_t beeper_ctrl :1;
uint8_t temp_ctrl :1;
uint8_t chain_freq_eft :1;
uint8_t reserved1 :5;
uint8_t reserved2[2];
uint8_t chain_num;
uint8_t asic_num;
uint8_t fan_pwm_percent;
uint8_t temperature;
uint16_t frequency;
uint8_t voltage[2];
uint8_t chain_check_time_integer;
uint8_t chain_check_time_fractions;
uint8_t timeout_data_integer;
uint8_t timeout_data_fractions;
uint32_t reg_data;
uint8_t chip_address;
uint8_t reg_address;
uint16_t chain_min_freq;
uint16_t chain_max_freq;
uint16_t crc;
} __attribute__((packed, aligned(4)));
struct bitmain_soc_info
{
cglock_t update_lock;
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 reserved2;
uint8_t fan_num;
uint8_t temp_num;
uint8_t reserved3[2];
uint32_t fan_exist;
uint32_t temp_exist;
uint16_t diff;
uint16_t reserved4;
uint32_t reg_value;
uint32_t chain_asic_exist[BITMAIN_MAX_CHAIN_NUM][BITMAIN_DEFAULT_ASIC_NUM/32];
uint32_t chain_asic_status[BITMAIN_MAX_CHAIN_NUM][BITMAIN_DEFAULT_ASIC_NUM/32];
uint8_t chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
uint8_t temp[BITMAIN_MAX_CHAIN_NUM];
uint8_t fan_speed_value[BITMAIN_MAX_FAN_NUM];
uint16_t freq[BITMAIN_MAX_CHAIN_NUM];
struct thr_info *thr;
pthread_t read_nonce_thr;
pthread_mutex_t lock;
struct init_config soc_config;
int pool_no;
struct pool pool0;
struct pool pool1;
struct pool pool2;
uint32_t pool0_given_id;
uint32_t pool1_given_id;
uint32_t pool2_given_id;
uint16_t crc;
} __attribute__((packed, aligned(4)));
struct part_of_job
{
uint8_t token_type; // buf[0]
uint8_t version;
uint16_t reserved;
uint32_t length; // buf[1]
uint8_t pool_nu; // buf[2]
uint8_t new_block :1;
uint8_t asic_diff_valid :1;
uint8_t reserved1 :6;
uint8_t asic_diff;
uint8_t reserved2[1];
uint32_t job_id; // buf[3]
uint32_t bbversion; // buf[4]
uint8_t prev_hash[32]; // buf[5] - buf[12]
uint32_t ntime; // buf[13]
uint32_t nbit; // buf[14]
uint16_t coinbase_len; // buf[15]
uint16_t nonce2_offset;
uint16_t nonce2_bytes_num; // 4 or 8 bytes // buf[16]
uint16_t merkles_num;
uint64_t nonce2_start_value; //nonce2 start calculate value. // buf[17] - buf[18]
};
//uint8_t coinbase //this is variable
//uint8_t merkle_bin[32] * merkles_num
//uint16_t crc
struct nonce_content
{
uint32_t job_id;
uint32_t work_id;
uint32_t header_version;
uint64_t nonce2;
uint32_t nonce3;
uint32_t chain_num;
uint8_t midstate[MIDSTATE_LEN];
} __attribute__((packed, aligned(4)));
struct nonce
{
uint8_t token_type;
uint8_t version;
uint16_t length;
uint16_t valid_nonce_num;
struct nonce_content nonce_cont[MAX_RETURNED_NONCE_NUM];
uint16_t crc;
} __attribute__((packed, aligned(4)));
struct all_parameters
{
unsigned int *current_job_start_address;
unsigned int pwm_value;
unsigned int chain_exist[BITMAIN_MAX_CHAIN_NUM];
unsigned int timeout;
unsigned int fan_exist_map;
unsigned int temp_sensor_map;
unsigned int nonce_error;
unsigned int chain_asic_exist[BITMAIN_MAX_CHAIN_NUM][8];
unsigned int chain_asic_status[BITMAIN_MAX_CHAIN_NUM][8];
signed char chain_asic_temp_num[BITMAIN_MAX_CHAIN_NUM]; // the real number of temp chip
unsigned char TempChipType[BITMAIN_MAX_CHAIN_NUM][MAX_TEMPCHIP_NUM];
unsigned char TempChipAddr[BITMAIN_MAX_CHAIN_NUM][MAX_TEMPCHIP_NUM]; // each temp chip's address: chip index*4, index start from 0
int16_t chain_asic_temp[BITMAIN_MAX_CHAIN_NUM][MAX_TEMPCHIP_NUM][TEMP_POS_NUM]; // 4 kinds of temp
int16_t chain_asic_maxtemp[BITMAIN_MAX_CHAIN_NUM][TEMP_POS_NUM]; // 4 kinds of temp
int16_t chain_asic_mintemp[BITMAIN_MAX_CHAIN_NUM][TEMP_POS_NUM]; // 4 kinds of temp
int8_t chain_asic_iic[CHAIN_ASIC_NUM];
uint32_t chain_hw[BITMAIN_MAX_CHAIN_NUM];
uint64_t chain_asic_nonce[BITMAIN_MAX_CHAIN_NUM][BITMAIN_DEFAULT_ASIC_NUM];
char chain_asic_status_string[BITMAIN_MAX_CHAIN_NUM][BITMAIN_DEFAULT_ASIC_NUM+8];
unsigned long long int total_nonce_num;
unsigned char fan_exist[BITMAIN_MAX_FAN_NUM];
unsigned int fan_speed_value[BITMAIN_MAX_FAN_NUM];
int temp[BITMAIN_MAX_CHAIN_NUM];
uint8_t chain_asic_num[BITMAIN_MAX_CHAIN_NUM];
unsigned char check_bit;
unsigned char pwm_percent;
unsigned char chain_num;
unsigned char fan_num;
unsigned char temp_num;
unsigned int fan_speed_top1;
int temp_top1[TEMP_POS_NUM];
int temp_low1[TEMP_POS_NUM];
int temp_top1_last;
unsigned char corenum;
unsigned char addrInterval;
unsigned char max_asic_num_in_one_chain;
unsigned char baud;
unsigned char diff;
uint8_t fan_eft;
uint8_t fan_pwm;
unsigned short int frequency;
char frequency_t[10];
unsigned short int freq[BITMAIN_MAX_CHAIN_NUM];
} __attribute__((packed, aligned(4)));
struct nonce_buf
{
unsigned int p_wr;
unsigned int p_rd;
unsigned int nonce_num;
struct nonce_content nonce_buffer[MAX_NONCE_NUMBER_IN_FIFO];
} __attribute__((packed, aligned(4)));
struct reg_content
{
unsigned int reg_value;
unsigned char crc;
unsigned char chain_number;
} __attribute__((packed, aligned(4)));
struct reg_buf
{
unsigned int p_wr;
unsigned int p_rd;
unsigned int reg_value_num;
struct reg_content reg_buffer[MAX_NONCE_NUMBER_IN_FIFO];
} __attribute__((packed, aligned(4)));
struct freq_pll
{
const char *freq;
unsigned int fildiv1;
unsigned int fildiv2;
unsigned int vilpll;
};
#define Swap32(l) (((l) >> 24) | (((l) & 0x00ff0000) >> 8) | (((l) & 0x0000ff00) << 8) | ((l) << 24))
struct vil_work
{
uint8_t type; // Bit[7:5]: Type,fixed 0x01. Bit[4:0]:Reserved
uint8_t length; // data length, from Byte0 to the end.
uint8_t wc_base; // Bit[7]: Reserved. Bit[6:0]: Work count base, muti-Midstate, each Midstate corresponding work count increase one by one.
uint8_t mid_num; // Bit[7:3]: Reserved Bit[2:0]: MSN, midstate num,now support 1,2,4.
//uint32_t sno; // SPAT mode??Start Nonce Number Normal mode??Reserved.
uint8_t midstate[32];
uint8_t data2[12];
};
struct vil_work_1387
{
uint8_t work_type;
uint8_t chain_id;
uint8_t reserved1[2];
uint32_t work_count;
uint8_t data[12];
uint8_t midstate[32];
};
static struct freq_pll freq_pll_1385[] =
{
{"100",0x020040, 0x0420, 0x200241},
{"125",0x028040, 0x0420, 0x280241},
{"150",0x030040, 0x0420, 0x300241},
{"175",0x038040, 0x0420, 0x380241},
{"200",0x040040, 0x0420, 0x400241},
{"225",0x048040, 0x0420, 0x480241},
{"250",0x050040, 0x0420, 0x500241},
{"275",0x058040, 0x0420, 0x580241},
{"300",0x060040, 0x0420, 0x600241},
{"325",0x068040, 0x0420, 0x680241},
{"350",0x070040, 0x0420, 0x700241},
{"375",0x078040, 0x0420, 0x780241},
{"400",0x080040, 0x0420, 0x800241},
{"404",0x061040, 0x0320, 0x610231},
{"406",0x041040, 0x0220, 0x410221},
{"408",0x062040, 0x0320, 0x620231},
{"412",0x042040, 0x0220, 0x420221},
{"416",0x064040, 0x0320, 0x640231},
{"418",0x043040, 0x0220, 0x430221},
{"420",0x065040, 0x0320, 0x650231},
{"425",0x044040, 0x0220, 0x440221},
{"429",0x067040, 0x0320, 0x670231},
{"431",0x045040, 0x0220, 0x450221},
{"433",0x068040, 0x0320, 0x680231},
{"437",0x046040, 0x0220, 0x460221},
{"441",0x06a040, 0x0320, 0x6a0231},
{"443",0x047040, 0x0220, 0x470221},
{"445",0x06b040, 0x0320, 0x6b0231},
{"450",0x048040, 0x0220, 0x480221},
{"454",0x06d040, 0x0320, 0x6d0231},
{"456",0x049040, 0x0220, 0x490221},
{"458",0x06e040, 0x0320, 0x6e0231},
{"462",0x04a040, 0x0220, 0x4a0221},
{"466",0x070040, 0x0320, 0x700231},
{"468",0x04b040, 0x0220, 0x4b0221},
{"470",0x071040, 0x0320, 0x710231},
{"475",0x04c040, 0x0220, 0x4c0221},
{"479",0x073040, 0x0320, 0x730231},
{"481",0x04d040, 0x0220, 0x4d0221},
{"483",0x074040, 0x0320, 0x740231},
{"487",0x04e040, 0x0220, 0x4e0221},
{"491",0x076040, 0x0320, 0x760231},
{"493",0x04f040, 0x0220, 0x4f0221},
{"495",0x077040, 0x0320, 0x770231},
{"500",0x050040, 0x0220, 0x500221},
{"504",0x079040, 0x0320, 0x790231},
{"506",0x051040, 0x0220, 0x510221},
{"508",0x07a040, 0x0320, 0x7a0231},
{"512",0x052040, 0x0220, 0x520221},
{"516",0x07c040, 0x0320, 0x7c0231},
{"518",0x053040, 0x0220, 0x530221},
{"520",0x07d040, 0x0320, 0x7d0231},
{"525",0x054040, 0x0220, 0x540221},
{"529",0x07f040, 0x0320, 0x7f0231},
{"531",0x055040, 0x0220, 0x550221},
{"533",0x080040, 0x0320, 0x800231},
{"537",0x056040, 0x0220, 0x560221},
{"543",0x057040, 0x0220, 0x570221},
{"550",0x058040, 0x0220, 0x580221},
{"556",0x059040, 0x0220, 0x590221},
{"562",0x05a040, 0x0220, 0x5a0221},
{"568",0x05b040, 0x0220, 0x5b0221},
{"575",0x05c040, 0x0220, 0x5c0221},
{"581",0x05d040, 0x0220, 0x5d0221},
{"587",0x05e040, 0x0220, 0x5e0221},
{"593",0x05f040, 0x0220, 0x5f0221},
{"600",0x060040, 0x0220, 0x600221},
{"606",0x061040, 0x0220, 0x610221},
{"612",0x062040, 0x0220, 0x620221},
{"618",0x063040, 0x0220, 0x630221},
{"625",0x064040, 0x0220, 0x640221},
{"631",0x065040, 0x0220, 0x650221},
{"637",0x066040, 0x0220, 0x660221},
{"643",0x067040, 0x0220, 0x670221},
{"650",0x068040, 0x0220, 0x680221},
{"656",0x069040, 0x0220, 0x690221},
{"662",0x06a040, 0x0220, 0x6a0221},
{"668",0x06b040, 0x0220, 0x6b0221},
{"675",0x06c040, 0x0220, 0x6c0221},
{"681",0x06d040, 0x0220, 0x6d0221},
{"687",0x06e040, 0x0220, 0x6e0221},
{"693",0x06f040, 0x0220, 0x6f0221},
{"700",0x070040, 0x0220, 0x700221},
{"706",0x071040, 0x0220, 0x710221},
{"712",0x072040, 0x0220, 0x720221},
{"718",0x073040, 0x0220, 0x730221},
{"725",0x074040, 0x0220, 0x740221},
{"731",0x075040, 0x0220, 0x750221},
{"737",0x076040, 0x0220, 0x760221},
{"743",0x077040, 0x0220, 0x770221},
{"750",0x078040, 0x0220, 0x780221},
{"756",0x079040, 0x0220, 0x790221},
{"762",0x07a040, 0x0220, 0x7a0221},
{"768",0x07b040, 0x0220, 0x7b0221},
{"775",0x07c040, 0x0220, 0x7c0221},
{"781",0x07d040, 0x0220, 0x7d0221},
{"787",0x07e040, 0x0220, 0x7e0221},
{"793",0x07f040, 0x0220, 0x7f0221},
{"800",0x080040, 0x0220, 0x800221},
{"825",0x042040, 0x0120, 0x420211},
{"850",0x044040, 0x0120, 0x440211},
{"875",0x046040, 0x0120, 0x460211},
{"900",0x048040, 0x0120, 0x480211},
{"925",0x04a040, 0x0120, 0x4a0211},
{"950",0x04c040, 0x0120, 0x4c0211},
{"975",0x04e040, 0x0120, 0x4e0211},
{"1000",0x050040, 0x0120, 0x500211},
{"1025",0x052040, 0x0120, 0x520211},
{"1050",0x054040, 0x0120, 0x540211},
{"1075",0x056040, 0x0120, 0x560211},
{"1100",0x058040, 0x0120, 0x580211},
{"1125",0x05a040, 0x0120, 0x5a0211},
{"1150",0x05c040, 0x0120, 0x5c0211},
{"1175",0x05e040, 0x0120, 0x5e0211},
};
extern bool opt_bitmain_fan_ctrl;
extern bool opt_bitmain_new_cmd_type_vil;
extern bool opt_fixed_freq;
extern bool opt_pre_heat;
extern int opt_bitmain_fan_pwm;
extern int opt_bitmain_soc_freq;
extern int opt_bitmain_soc_voltage;
extern int ADD_FREQ;
extern int ADD_FREQ1;
extern int fpga_version;
extern int opt_multi_version;
int getChainExistFlag(int chainIndex);
unsigned char get_pic_voltage(unsigned char chain);
int getVolValueFromPICvoltage(unsigned char vol_pic);
unsigned char getPICvoltageFromValue(int vol_value);
void set_pic_voltage(unsigned char chain, unsigned char voltage);
int getChainAsicNum(int chainIndex);
int readRebootTestNum();
int send_job(unsigned char *buf);
#endif