#ifndef __MINER_H__ #define __MINER_H__ #include "config.h" #include #include #include #include #include #ifdef HAVE_LIBCURL #include #else typedef char CURL; extern char *curly; #define curl_easy_init(curl) (curly) #define curl_easy_cleanup(curl) {} #define curl_global_cleanup() {} #define CURL_GLOBAL_ALL 0 #define curl_global_init(X) (0) #endif #include #include "elist.h" #include "uthash.h" #include "logging.h" #include "util.h" #include #ifndef WIN32 # include # include #endif #ifdef __APPLE_CC__ #include #else #include #endif #ifdef STDC_HEADERS # include # include #else # ifdef HAVE_STDLIB_H # include # endif #endif #ifdef HAVE_ALLOCA_H # include #elif defined __GNUC__ # ifndef WIN32 # define alloca __builtin_alloca # else # include # endif #elif defined _AIX # define alloca __alloca #elif defined _MSC_VER # include # define alloca _alloca #else # ifndef HAVE_ALLOCA # ifdef __cplusplus extern "C" # endif void *alloca (size_t); # endif #endif #ifdef __MINGW32__ #include #include static inline int fsync (int fd) { return (FlushFileBuffers ((HANDLE) _get_osfhandle (fd))) ? 0 : -1; } #ifndef EWOULDBLOCK # define EWOULDBLOCK EAGAIN #endif #ifndef MSG_DONTWAIT # define MSG_DONTWAIT 0x1000000 #endif #endif /* __MINGW32__ */ #if defined (__unix__) && !defined(UNIX) # define UNIX #endif #if defined (__linux__) && !defined(LINUX) # define LINUX #endif #ifdef WIN32 #ifndef timersub #define timersub(a, b, result) \ do { \ (result)->tv_sec = (a)->tv_sec - (b)->tv_sec; \ (result)->tv_usec = (a)->tv_usec - (b)->tv_usec; \ if ((result)->tv_usec < 0) { \ --(result)->tv_sec; \ (result)->tv_usec += 1000000; \ } \ } while (0) #endif #ifndef timeradd # define timeradd(a, b, result) \ do { \ (result)->tv_sec = (a)->tv_sec + (b)->tv_sec; \ (result)->tv_usec = (a)->tv_usec + (b)->tv_usec; \ if ((result)->tv_usec >= 1000000) \ { \ ++(result)->tv_sec; \ (result)->tv_usec -= 1000000; \ } \ } while (0) #endif #endif #ifdef HAVE_ADL #include "ADL_SDK/adl_sdk.h" #endif #if (!defined(WIN32) && ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3))) \ || (defined(WIN32) && ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 7))) #ifndef bswap_16 #define bswap_16 __builtin_bswap16 #define bswap_32 __builtin_bswap32 #define bswap_64 __builtin_bswap64 #endif #else #if HAVE_BYTESWAP_H #include #elif defined(USE_SYS_ENDIAN_H) #include #elif defined(__APPLE__) #include #define bswap_16 OSSwapInt16 #define bswap_32 OSSwapInt32 #define bswap_64 OSSwapInt64 #else #define bswap_16(value) \ ((((value) & 0xff) << 8) | ((value) >> 8)) #define bswap_32(value) \ (((uint32_t)bswap_16((uint16_t)((value) & 0xffff)) << 16) | \ (uint32_t)bswap_16((uint16_t)((value) >> 16))) #define bswap_64(value) \ (((uint64_t)bswap_32((uint32_t)((value) & 0xffffffff)) \ << 32) | \ (uint64_t)bswap_32((uint32_t)((value) >> 32))) #endif #endif /* !defined(__GLXBYTEORDER_H__) */ /* This assumes htobe32 is a macro in endian.h, and if it doesn't exist, then * htobe64 also won't exist */ #ifndef htobe32 # if __BYTE_ORDER == __LITTLE_ENDIAN # define htole16(x) (x) # define htole32(x) (x) # define htole64(x) (x) # define le32toh(x) (x) # define le64toh(x) (x) # define be32toh(x) bswap_32(x) # define be64toh(x) bswap_64(x) # define htobe32(x) bswap_32(x) # define htobe64(x) bswap_64(x) # elif __BYTE_ORDER == __BIG_ENDIAN # define htole16(x) bswap_16(x) # define htole32(x) bswap_32(x) # define le32toh(x) bswap_32(x) # define le64toh(x) bswap_64(x) # define htole64(x) bswap_64(x) # define be32toh(x) (x) # define be64toh(x) (x) # define htobe32(x) (x) # define htobe64(x) (x) #else #error UNKNOWN BYTE ORDER #endif #endif #undef unlikely #undef likely #if defined(__GNUC__) && (__GNUC__ > 2) && defined(__OPTIMIZE__) #define unlikely(expr) (__builtin_expect(!!(expr), 0)) #define likely(expr) (__builtin_expect(!!(expr), 1)) #else #define unlikely(expr) (expr) #define likely(expr) (expr) #endif #define __maybe_unused __attribute__((unused)) #define uninitialised_var(x) x = x #if defined(__i386__) #define WANT_CRYPTOPP_ASM32 #endif #ifndef ARRAY_SIZE #define ARRAY_SIZE(arr) (sizeof(arr) / sizeof((arr)[0])) #endif #ifdef MIPSEB #ifndef roundl #define roundl(x) (long double)((long long)((x==0)?0.0:((x)+((x)>0)?0.5:-0.5))) #endif #endif /* No semtimedop on apple so ignore timeout till we implement one */ #ifdef __APPLE__ #define semtimedop(SEM, SOPS, VAL, TIMEOUT) semop(SEM, SOPS, VAL) #endif #ifndef MIN #define MIN(x, y) ((x) > (y) ? (y) : (x)) #endif #ifndef MAX #define MAX(x, y) ((x) > (y) ? (x) : (y)) #endif /* Adding a device here will update all macros in the code that use * the *_PARSE_COMMANDS macros for each listed driver. */ #define DRIVER_PARSE_COMMANDS(DRIVER_ADD_COMMAND) \ DRIVER_ADD_COMMAND(opencl) #define DRIVER_ENUM(X) DRIVER_##X, #define DRIVER_PROTOTYPE(X) struct device_drv X##_drv; /* Create drv_driver enum from DRIVER_PARSE_COMMANDS macro */ enum drv_driver { DRIVER_PARSE_COMMANDS(DRIVER_ENUM) DRIVER_MAX }; /* Use DRIVER_PARSE_COMMANDS to generate extern device_drv prototypes */ DRIVER_PARSE_COMMANDS(DRIVER_PROTOTYPE) enum alive { LIFE_WELL, LIFE_SICK, LIFE_DEAD, LIFE_NOSTART, LIFE_INIT, }; enum pool_strategy { POOL_FAILOVER, POOL_ROUNDROBIN, POOL_ROTATE, POOL_LOADBALANCE, POOL_BALANCE, }; #define TOP_STRATEGY (POOL_BALANCE) struct strategies { const char *s; }; struct cgpu_info; #ifdef HAVE_ADL struct gpu_adl { ADLTemperature lpTemperature; int iAdapterIndex; int lpAdapterID; int iBusNumber; char strAdapterName[256]; ADLPMActivity lpActivity; ADLODParameters lpOdParameters; ADLODPerformanceLevels *DefPerfLev; ADLFanSpeedInfo lpFanSpeedInfo; ADLFanSpeedValue lpFanSpeedValue; ADLFanSpeedValue DefFanSpeedValue; bool def_fan_valid; int iEngineClock; int iMemoryClock; int iVddc; int iPercentage; bool autofan; bool autoengine; bool managed; /* Were the values ever changed on this card */ int lastengine; int lasttemp; int targetfan; int targettemp; int overtemp; int minspeed; int maxspeed; int gpu; bool has_fanspeed; struct gpu_adl *twin; }; #endif extern void blank_get_statline_before(char *buf, size_t bufsiz, struct cgpu_info __maybe_unused *cgpu); struct api_data; struct thr_info; struct work; struct device_drv { enum drv_driver drv_id; char *dname; char *name; // DRV-global functions void (*drv_detect)(bool); // Device-specific functions void (*reinit_device)(struct cgpu_info *); void (*get_statline_before)(char *, size_t, struct cgpu_info *); void (*get_statline)(char *, size_t, struct cgpu_info *); struct api_data *(*get_api_stats)(struct cgpu_info *); bool (*get_stats)(struct cgpu_info *); void (*identify_device)(struct cgpu_info *); // e.g. to flash a led char *(*set_device)(struct cgpu_info *, char *option, char *setting, char *replybuf); // Thread-specific functions bool (*thread_prepare)(struct thr_info *); uint64_t (*can_limit_work)(struct thr_info *); bool (*thread_init)(struct thr_info *); bool (*prepare_work)(struct thr_info *, struct work *); /* Which hash work loop this driver uses. */ void (*hash_work)(struct thr_info *); /* Two variants depending on whether the device divides work up into * small pieces or works with whole work items and may or may not have * a queue of its own. */ int64_t (*scanhash)(struct thr_info *, struct work *, int64_t); int64_t (*scanwork)(struct thr_info *); /* Used to extract work from the hash table of queued work and tell * the main loop that it should not add any further work to the table. */ bool (*queue_full)(struct cgpu_info *); /* Tell the driver of a block change */ void (*flush_work)(struct cgpu_info *); /* Tell the driver of an updated work template for eg. stratum */ void (*update_work)(struct cgpu_info *); void (*hw_error)(struct thr_info *); void (*thread_shutdown)(struct thr_info *); void (*thread_enable)(struct thr_info *); /* What should be zeroed in this device when global zero stats is sent */ void (*zero_stats)(struct cgpu_info *); // Does it need to be free()d? bool copy; /* Highest target diff the device supports */ double max_diff; double working_diff; }; extern struct device_drv *copy_drv(struct device_drv*); enum dev_enable { DEV_ENABLED, DEV_DISABLED, DEV_RECOVER, }; enum cl_kernels { KL_NONE, KL_ALEXKARNEW, // kernels starting from this will have difficulty calculated by using litecoin algorithm KL_ALEXKAROLD, KL_CKOLIVAS, KL_PSW, KL_ZUIKKIS, KL_QUARKCOIN, // kernels starting from this will have difficulty calculated by using quarkcoin algorithm KL_QUBITCOIN, KL_INKCOIN, KL_ANIMECOIN, KL_SIFCOIN, KL_DARKCOIN, // kernels starting from this will have difficulty calculated by using bitcoin algorithm KL_MYRIADCOIN_GROESTL, KL_FUGUECOIN, KL_GROESTLCOIN, KL_TWECOIN, }; enum dev_reason { REASON_THREAD_FAIL_INIT, REASON_THREAD_ZERO_HASH, REASON_THREAD_FAIL_QUEUE, REASON_DEV_SICK_IDLE_60, REASON_DEV_DEAD_IDLE_600, REASON_DEV_NOSTART, REASON_DEV_OVER_HEAT, REASON_DEV_THERMAL_CUTOFF, REASON_DEV_COMMS_ERROR, REASON_DEV_THROTTLE, }; #define REASON_NONE "None" #define REASON_THREAD_FAIL_INIT_STR "Thread failed to init" #define REASON_THREAD_ZERO_HASH_STR "Thread got zero hashes" #define REASON_THREAD_FAIL_QUEUE_STR "Thread failed to queue work" #define REASON_DEV_SICK_IDLE_60_STR "Device idle for 60s" #define REASON_DEV_DEAD_IDLE_600_STR "Device dead - idle for 600s" #define REASON_DEV_NOSTART_STR "Device failed to start" #define REASON_DEV_OVER_HEAT_STR "Device over heated" #define REASON_DEV_THERMAL_CUTOFF_STR "Device reached thermal cutoff" #define REASON_DEV_COMMS_ERROR_STR "Device comms error" #define REASON_DEV_THROTTLE_STR "Device throttle" #define REASON_UNKNOWN_STR "Unknown reason - code bug" #define MIN_SEC_UNSET 99999999 struct sgminer_stats { uint32_t getwork_calls; struct timeval getwork_wait; struct timeval getwork_wait_max; struct timeval getwork_wait_min; }; // Just the actual network getworks to the pool struct sgminer_pool_stats { uint32_t getwork_calls; uint32_t getwork_attempts; struct timeval getwork_wait; struct timeval getwork_wait_max; struct timeval getwork_wait_min; double getwork_wait_rolling; bool hadrolltime; bool canroll; bool hadexpire; uint32_t rolltime; double min_diff; double max_diff; double last_diff; uint32_t min_diff_count; uint32_t max_diff_count; uint64_t times_sent; uint64_t bytes_sent; uint64_t net_bytes_sent; uint64_t times_received; uint64_t bytes_received; uint64_t net_bytes_received; }; struct cgpu_info { int sgminer_id; struct device_drv *drv; int device_id; char *name; char *device_path; void *device_data; enum dev_enable deven; int accepted; int rejected; int hw_errors; double rolling; double total_mhashes; double utility; enum alive status; char init[40]; struct timeval last_message_tv; int threads; struct thr_info **thr; int64_t max_hashes; const char *kname; bool mapped; int virtual_gpu; int virtual_adl; int intensity; int xintensity; int rawintensity; bool dynamic; cl_uint vwidth; size_t work_size; enum cl_kernels kernel; cl_ulong max_alloc; int opt_lg, lookup_gap; size_t opt_tc, thread_concurrency; size_t shaders; struct timeval tv_gpustart; int intervals; bool new_work; float temp; int cutofftemp; #ifdef HAVE_ADL bool has_adl; struct gpu_adl adl; int gpu_engine; int min_engine; int gpu_fan; int min_fan; int gpu_memclock; int gpu_memdiff; int gpu_powertune; float gpu_vddc; #endif double diff1; double diff_accepted; double diff_rejected; int last_share_pool; time_t last_share_pool_time; double last_share_diff; time_t last_device_valid_work; time_t device_last_well; time_t device_last_not_well; enum dev_reason device_not_well_reason; int thread_fail_init_count; int thread_zero_hash_count; int thread_fail_queue_count; int dev_sick_idle_60_count; int dev_dead_idle_600_count; int dev_nostart_count; int dev_over_heat_count; // It's a warning but worth knowing int dev_thermal_cutoff_count; int dev_comms_error_count; int dev_throttle_count; struct sgminer_stats sgminer_stats; pthread_rwlock_t qlock; struct work *queued_work; struct work *unqueued_work; unsigned int queued_count; bool shutdown; struct timeval dev_start_tv; }; extern bool add_cgpu(struct cgpu_info*); struct thread_q { struct list_head q; bool frozen; pthread_mutex_t mutex; pthread_cond_t cond; }; struct thr_info { int id; int device_thread; bool primary_thread; pthread_t pth; cgsem_t sem; struct thread_q *q; struct cgpu_info *cgpu; void *cgpu_data; struct timeval last; struct timeval sick; bool pause; bool getwork; double rolling; bool work_restart; bool work_update; }; struct string_elist { char *string; bool free_me; struct list_head list; }; static inline void string_elist_add(const char *s, struct list_head *head) { struct string_elist *n; n = calloc(1, sizeof(*n)); n->string = strdup(s); n->free_me = true; list_add_tail(&n->list, head); } static inline void string_elist_del(struct string_elist *item) { if (item->free_me) free(item->string); list_del(&item->list); } static inline uint32_t swab32(uint32_t v) { return bswap_32(v); } static inline void swap256(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; dest[0] = src[7]; dest[1] = src[6]; dest[2] = src[5]; dest[3] = src[4]; dest[4] = src[3]; dest[5] = src[2]; dest[6] = src[1]; dest[7] = src[0]; } static inline void swab256(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; dest[0] = swab32(src[7]); dest[1] = swab32(src[6]); dest[2] = swab32(src[5]); dest[3] = swab32(src[4]); dest[4] = swab32(src[3]); dest[5] = swab32(src[2]); dest[6] = swab32(src[1]); dest[7] = swab32(src[0]); } static inline void flip32(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; int i; for (i = 0; i < 8; i++) dest[i] = swab32(src[i]); } static inline void flip64(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; int i; for (i = 0; i < 16; i++) dest[i] = swab32(src[i]); } static inline void flip80(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; int i; for (i = 0; i < 20; i++) dest[i] = swab32(src[i]); } static inline void flip128(void *dest_p, const void *src_p) { uint32_t *dest = dest_p; const uint32_t *src = src_p; int i; for (i = 0; i < 32; i++) dest[i] = swab32(src[i]); } /* For flipping to the correct endianness if necessary */ #if defined(__BIG_ENDIAN__) || defined(MIPSEB) static inline void endian_flip32(void *dest_p, const void *src_p) { flip32(dest_p, src_p); } static inline void endian_flip128(void *dest_p, const void *src_p) { flip128(dest_p, src_p); } #else static inline void endian_flip32(void __maybe_unused *dest_p, const void __maybe_unused *src_p) { } static inline void endian_flip128(void __maybe_unused *dest_p, const void __maybe_unused *src_p) { } #endif extern double cgpu_runtime(struct cgpu_info *cgpu); extern void _quit(int status); /* * Set this to non-zero to enable lock tracking * Use the API lockstats command to see the locking status on stderr * i.e. in your log file if you 2> log.log - but not on the screen * API lockstats is privilidged but will always exist and will return * success if LOCK_TRACKING is enabled and warning if disabled * In production code, this should never be enabled since it will slow down all locking * So, e.g. use it to track down a deadlock - after a reproducable deadlock occurs * ... Of course if the API code itself deadlocks, it wont help :) */ #define LOCK_TRACKING 0 #if LOCK_TRACKING enum cglock_typ { CGLOCK_MUTEX, CGLOCK_RW, CGLOCK_UNKNOWN }; extern uint64_t api_getlock(void *lock, const char *file, const char *func, const int line); extern void api_gotlock(uint64_t id, void *lock, const char *file, const char *func, const int line); extern uint64_t api_trylock(void *lock, const char *file, const char *func, const int line); extern void api_didlock(uint64_t id, int ret, void *lock, const char *file, const char *func, const int line); extern void api_gunlock(void *lock, const char *file, const char *func, const int line); extern void api_initlock(void *lock, enum cglock_typ typ, const char *file, const char *func, const int line); #define GETLOCK(_lock, _file, _func, _line) uint64_t _id1 = api_getlock((void *)(_lock), _file, _func, _line) #define GOTLOCK(_lock, _file, _func, _line) api_gotlock(_id1, (void *)(_lock), _file, _func, _line) #define TRYLOCK(_lock, _file, _func, _line) uint64_t _id2 = api_trylock((void *)(_lock), _file, _func, _line) #define DIDLOCK(_ret, _lock, _file, _func, _line) api_didlock(_id2, _ret, (void *)(_lock), _file, _func, _line) #define GUNLOCK(_lock, _file, _func, _line) api_gunlock((void *)(_lock), _file, _func, _line) #define INITLOCK(_lock, _typ, _file, _func, _line) api_initlock((void *)(_lock), _typ, _file, _func, _line) #else #define GETLOCK(_lock, _file, _func, _line) #define GOTLOCK(_lock, _file, _func, _line) #define TRYLOCK(_lock, _file, _func, _line) #define DIDLOCK(_ret, _lock, _file, _func, _line) #define GUNLOCK(_lock, _file, _func, _line) #define INITLOCK(_typ, _lock, _file, _func, _line) #endif #define mutex_lock(_lock) _mutex_lock(_lock, __FILE__, __func__, __LINE__) #define mutex_unlock_noyield(_lock) _mutex_unlock_noyield(_lock, __FILE__, __func__, __LINE__) #define mutex_unlock(_lock) _mutex_unlock(_lock, __FILE__, __func__, __LINE__) #define mutex_trylock(_lock) _mutex_trylock(_lock, __FILE__, __func__, __LINE__) #define wr_lock(_lock) _wr_lock(_lock, __FILE__, __func__, __LINE__) #define wr_trylock(_lock) _wr_trylock(_lock, __FILE__, __func__, __LINE__) #define rd_lock(_lock) _rd_lock(_lock, __FILE__, __func__, __LINE__) #define rw_unlock(_lock) _rw_unlock(_lock, __FILE__, __func__, __LINE__) #define rd_unlock_noyield(_lock) _rd_unlock_noyield(_lock, __FILE__, __func__, __LINE__) #define wr_unlock_noyield(_lock) _wr_unlock_noyield(_lock, __FILE__, __func__, __LINE__) #define rd_unlock(_lock) _rd_unlock(_lock, __FILE__, __func__, __LINE__) #define wr_unlock(_lock) _wr_unlock(_lock, __FILE__, __func__, __LINE__) #define mutex_init(_lock) _mutex_init(_lock, __FILE__, __func__, __LINE__) #define rwlock_init(_lock) _rwlock_init(_lock, __FILE__, __func__, __LINE__) #define cglock_init(_lock) _cglock_init(_lock, __FILE__, __func__, __LINE__) #define cg_rlock(_lock) _cg_rlock(_lock, __FILE__, __func__, __LINE__) #define cg_ilock(_lock) _cg_ilock(_lock, __FILE__, __func__, __LINE__) #define cg_ulock(_lock) _cg_ulock(_lock, __FILE__, __func__, __LINE__) #define cg_wlock(_lock) _cg_wlock(_lock, __FILE__, __func__, __LINE__) #define cg_dwlock(_lock) _cg_dwlock(_lock, __FILE__, __func__, __LINE__) #define cg_dwilock(_lock) _cg_dwilock(_lock, __FILE__, __func__, __LINE__) #define cg_dlock(_lock) _cg_dlock(_lock, __FILE__, __func__, __LINE__) #define cg_runlock(_lock) _cg_runlock(_lock, __FILE__, __func__, __LINE__) #define cg_ruwlock(_lock) _cg_ruwlock(_lock, __FILE__, __func__, __LINE__) #define cg_wunlock(_lock) _cg_wunlock(_lock, __FILE__, __func__, __LINE__) static inline void _mutex_lock(pthread_mutex_t *lock, const char *file, const char *func, const int line) { GETLOCK(lock, file, func, line); if (unlikely(pthread_mutex_lock(lock))) quitfrom(1, file, func, line, "WTF MUTEX ERROR ON LOCK! errno=%d", errno); GOTLOCK(lock, file, func, line); } static inline void _mutex_unlock_noyield(pthread_mutex_t *lock, const char *file, const char *func, const int line) { if (unlikely(pthread_mutex_unlock(lock))) quitfrom(1, file, func, line, "WTF MUTEX ERROR ON UNLOCK! errno=%d", errno); GUNLOCK(lock, file, func, line); } static inline void _mutex_unlock(pthread_mutex_t *lock, const char *file, const char *func, const int line) { _mutex_unlock_noyield(lock, file, func, line); sched_yield(); } static inline int _mutex_trylock(pthread_mutex_t *lock, __maybe_unused const char *file, __maybe_unused const char *func, __maybe_unused const int line) { TRYLOCK(lock, file, func, line); int ret = pthread_mutex_trylock(lock); DIDLOCK(ret, lock, file, func, line); return ret; } static inline void _wr_lock(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { GETLOCK(lock, file, func, line); if (unlikely(pthread_rwlock_wrlock(lock))) quitfrom(1, file, func, line, "WTF WRLOCK ERROR ON LOCK! errno=%d", errno); GOTLOCK(lock, file, func, line); } static inline int _wr_trylock(pthread_rwlock_t *lock, __maybe_unused const char *file, __maybe_unused const char *func, __maybe_unused const int line) { TRYLOCK(lock, file, func, line); int ret = pthread_rwlock_trywrlock(lock); DIDLOCK(ret, lock, file, func, line); return ret; } static inline void _rd_lock(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { GETLOCK(lock, file, func, line); if (unlikely(pthread_rwlock_rdlock(lock))) quitfrom(1, file, func, line, "WTF RDLOCK ERROR ON LOCK! errno=%d", errno); GOTLOCK(lock, file, func, line); } static inline void _rw_unlock(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { if (unlikely(pthread_rwlock_unlock(lock))) quitfrom(1, file, func, line, "WTF RWLOCK ERROR ON UNLOCK! errno=%d", errno); GUNLOCK(lock, file, func, line); } static inline void _rd_unlock_noyield(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { _rw_unlock(lock, file, func, line); } static inline void _wr_unlock_noyield(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { _rw_unlock(lock, file, func, line); } static inline void _rd_unlock(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { _rw_unlock(lock, file, func, line); sched_yield(); } static inline void _wr_unlock(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { _rw_unlock(lock, file, func, line); sched_yield(); } static inline void _mutex_init(pthread_mutex_t *lock, const char *file, const char *func, const int line) { if (unlikely(pthread_mutex_init(lock, NULL))) quitfrom(1, file, func, line, "Failed to pthread_mutex_init errno=%d", errno); INITLOCK(lock, CGLOCK_MUTEX, file, func, line); } static inline void mutex_destroy(pthread_mutex_t *lock) { /* Ignore return code. This only invalidates the mutex on linux but * releases resources on windows. */ pthread_mutex_destroy(lock); } static inline void _rwlock_init(pthread_rwlock_t *lock, const char *file, const char *func, const int line) { if (unlikely(pthread_rwlock_init(lock, NULL))) quitfrom(1, file, func, line, "Failed to pthread_rwlock_init errno=%d", errno); INITLOCK(lock, CGLOCK_RW, file, func, line); } static inline void rwlock_destroy(pthread_rwlock_t *lock) { pthread_rwlock_destroy(lock); } static inline void _cglock_init(cglock_t *lock, const char *file, const char *func, const int line) { _mutex_init(&lock->mutex, file, func, line); _rwlock_init(&lock->rwlock, file, func, line); } static inline void cglock_destroy(cglock_t *lock) { rwlock_destroy(&lock->rwlock); mutex_destroy(&lock->mutex); } /* Read lock variant of cglock. Cannot be promoted. */ static inline void _cg_rlock(cglock_t *lock, const char *file, const char *func, const int line) { _mutex_lock(&lock->mutex, file, func, line); _rd_lock(&lock->rwlock, file, func, line); _mutex_unlock_noyield(&lock->mutex, file, func, line); } /* Intermediate variant of cglock - behaves as a read lock but can be promoted * to a write lock or demoted to read lock. */ static inline void _cg_ilock(cglock_t *lock, const char *file, const char *func, const int line) { _mutex_lock(&lock->mutex, file, func, line); } /* Upgrade intermediate variant to a write lock */ static inline void _cg_ulock(cglock_t *lock, const char *file, const char *func, const int line) { _wr_lock(&lock->rwlock, file, func, line); } /* Write lock variant of cglock */ static inline void _cg_wlock(cglock_t *lock, const char *file, const char *func, const int line) { _mutex_lock(&lock->mutex, file, func, line); _wr_lock(&lock->rwlock, file, func, line); } /* Downgrade write variant to a read lock */ static inline void _cg_dwlock(cglock_t *lock, const char *file, const char *func, const int line) { _wr_unlock_noyield(&lock->rwlock, file, func, line); _rd_lock(&lock->rwlock, file, func, line); _mutex_unlock_noyield(&lock->mutex, file, func, line); } /* Demote a write variant to an intermediate variant */ static inline void _cg_dwilock(cglock_t *lock, const char *file, const char *func, const int line) { _wr_unlock(&lock->rwlock, file, func, line); } /* Downgrade intermediate variant to a read lock */ static inline void _cg_dlock(cglock_t *lock, const char *file, const char *func, const int line) { _rd_lock(&lock->rwlock, file, func, line); _mutex_unlock_noyield(&lock->mutex, file, func, line); } static inline void _cg_runlock(cglock_t *lock, const char *file, const char *func, const int line) { _rd_unlock(&lock->rwlock, file, func, line); } /* This drops the read lock and grabs a write lock. It does NOT protect data * between the two locks! */ static inline void _cg_ruwlock(cglock_t *lock, const char *file, const char *func, const int line) { _rd_unlock_noyield(&lock->rwlock, file, func, line); _cg_wlock(lock, file, func, line); } static inline void _cg_wunlock(cglock_t *lock, const char *file, const char *func, const int line) { _wr_unlock_noyield(&lock->rwlock, file, func, line); _mutex_unlock(&lock->mutex, file, func, line); } struct pool; #define API_MCAST_CODE "FTW" #define API_MCAST_ADDR "224.0.0.75" extern bool opt_work_update; extern bool opt_protocol; extern bool have_longpoll; extern char *opt_kernel_path; extern char *opt_socks_proxy; extern char *sgminer_path; extern bool opt_fail_only; extern bool opt_autofan; extern bool opt_autoengine; extern bool use_curses; extern char *opt_api_allow; extern bool opt_api_mcast; extern char *opt_api_mcast_addr; extern char *opt_api_mcast_code; extern char *opt_api_mcast_des; extern int opt_api_mcast_port; extern char *opt_api_groups; extern char *opt_api_description; extern int opt_api_port; extern bool opt_api_listen; extern bool opt_api_network; extern bool opt_delaynet; extern time_t last_getwork; extern bool opt_restart; extern bool opt_worktime; extern int swork_id; extern int opt_tcp_keepalive; #if LOCK_TRACKING extern pthread_mutex_t lockstat_lock; #endif extern pthread_rwlock_t netacc_lock; extern const uint32_t sha256_init_state[]; #ifdef HAVE_LIBCURL extern json_t *json_rpc_call(CURL *curl, const char *url, const char *userpass, const char *rpc_req, bool, bool, int *, struct pool *pool, bool); #endif extern const char *proxytype(proxytypes_t proxytype); extern char *get_proxy(char *url, struct pool *pool); extern void __bin2hex(char *s, const unsigned char *p, size_t len); extern char *bin2hex(const unsigned char *p, size_t len); extern bool hex2bin(unsigned char *p, const char *hexstr, size_t len); typedef bool (*sha256_func)(struct thr_info*, const unsigned char *pmidstate, unsigned char *pdata, unsigned char *phash1, unsigned char *phash, const unsigned char *ptarget, uint32_t max_nonce, uint32_t *last_nonce, uint32_t nonce); extern bool fulltest(const unsigned char *hash, const unsigned char *target); extern int opt_queue; extern int opt_scantime; extern int opt_expiry; extern cglock_t control_lock; extern pthread_mutex_t hash_lock; extern pthread_mutex_t console_lock; extern cglock_t ch_lock; extern pthread_rwlock_t mining_thr_lock; extern pthread_rwlock_t devices_lock; extern pthread_mutex_t restart_lock; extern pthread_cond_t restart_cond; extern void clear_stratum_shares(struct pool *pool); extern void clear_pool_work(struct pool *pool); extern void set_target(unsigned char *dest_target, double diff); extern int restart_wait(struct thr_info *thr, unsigned int mstime); extern void kill_work(void); extern void reinit_device(struct cgpu_info *cgpu); #ifdef HAVE_ADL extern bool gpu_stats(int gpu, float *temp, int *engineclock, int *memclock, float *vddc, int *activity, int *fanspeed, int *fanpercent, int *powertune); extern int set_fanspeed(int gpu, int iFanSpeed); extern int set_vddc(int gpu, float fVddc); extern int set_engineclock(int gpu, int iEngineClock); extern int set_memoryclock(int gpu, int iMemoryClock); #endif extern void api(int thr_id); extern struct pool *current_pool(void); extern int enabled_pools; extern void get_intrange(char *arg, int *val1, int *val2); extern bool detect_stratum(struct pool *pool, char *url); extern void print_summary(void); extern void adjust_quota_gcd(void); extern struct pool *add_pool(void); extern bool add_pool_details(struct pool *pool, bool live, char *url, char *user, char *pass); #define MAX_GPUDEVICES 16 #define MAX_DEVICES 4096 #define MIN_INTENSITY 8 #define MIN_INTENSITY_STR "8" #define MAX_INTENSITY 31 #define MAX_INTENSITY_STR "31" #define MIN_XINTENSITY 1 #define MIN_XINTENSITY_STR "1" #define MAX_XINTENSITY 9999 #define MAX_XINTENSITY_STR "9999" #define MIN_RAWINTENSITY 1 #define MIN_RAWINTENSITY_STR "1" #define MAX_RAWINTENSITY 2147483647 #define MAX_RAWINTENSITY_STR "2147483647" extern bool hotplug_mode; extern int hotplug_time; extern struct list_head scan_devices; extern int nDevs; extern int hw_errors; extern bool use_syslog; extern bool opt_quiet; extern struct thr_info *control_thr; extern struct thr_info **mining_thr; extern struct cgpu_info gpus[MAX_GPUDEVICES]; extern int gpu_threads; extern double total_secs; extern int mining_threads; extern int total_devices; extern int zombie_devs; extern struct cgpu_info **devices; extern int total_pools; extern struct pool **pools; extern struct strategies strategies[]; extern enum pool_strategy pool_strategy; extern int opt_rotate_period; extern double total_rolling; extern double total_mhashes_done; extern unsigned int new_blocks; extern unsigned int found_blocks; extern int total_accepted, total_rejected; extern double total_diff1; extern int total_getworks, total_stale, total_discarded; extern double total_diff_accepted, total_diff_rejected, total_diff_stale; extern unsigned int local_work; extern unsigned int total_go, total_ro; extern const int opt_cutofftemp; extern int opt_log_interval; extern unsigned long long global_hashrate; extern char current_hash[68]; extern double current_diff; extern double best_diff; extern struct timeval block_timeval; extern char *workpadding; typedef struct { cl_uint ctx_a; cl_uint ctx_b; cl_uint ctx_c; cl_uint ctx_d; cl_uint ctx_e; cl_uint ctx_f; cl_uint ctx_g; cl_uint ctx_h; cl_uint cty_a; cl_uint cty_b; cl_uint cty_c; cl_uint cty_d; cl_uint cty_e; cl_uint cty_f; cl_uint cty_g; cl_uint cty_h; cl_uint merkle; cl_uint ntime; cl_uint nbits; cl_uint nonce; cl_uint fW0; cl_uint fW1; cl_uint fW2; cl_uint fW3; cl_uint fW15; cl_uint fW01r; cl_uint fcty_e; cl_uint fcty_e2; cl_uint W16; cl_uint W17; cl_uint W2; cl_uint PreVal4; cl_uint T1; cl_uint C1addK5; cl_uint D1A; cl_uint W2A; cl_uint W17_2; cl_uint PreVal4addT1; cl_uint T1substate0; cl_uint PreVal4_2; cl_uint PreVal0; cl_uint PreW18; cl_uint PreW19; cl_uint PreW31; cl_uint PreW32; /* FIXME: remove (For diakgcn) */ cl_uint B1addK6, PreVal0addK7, W16addK16, W17addK17; cl_uint zeroA, zeroB; cl_uint oneA, twoA, threeA, fourA, fiveA, sixA, sevenA; struct work *work; } dev_blk_ctx; struct curl_ent { CURL *curl; struct list_head node; struct timeval tv; }; /* The lowest enum of a freshly calloced value is the default */ enum pool_state { POOL_ENABLED, POOL_DISABLED, POOL_REJECTING, POOL_HIDDEN, }; struct stratum_work { char *job_id; char *prev_hash; unsigned char **merkle_bin; char *bbversion; char *nbit; char *ntime; bool clean; size_t cb_len; size_t header_len; int merkles; double diff; }; #define RBUFSIZE 8192 #define RECVSIZE (RBUFSIZE - 4) struct pool { int pool_no; char *poolname; int prio; int accepted, rejected; int seq_rejects; int seq_getfails; int solved; double diff1; char diff[8]; int quota; int quota_gcd; int quota_used; int works; double diff_accepted; double diff_rejected; double diff_stale; bool submit_fail; bool idle; bool lagging; bool probed; enum pool_state state; bool submit_old; bool remove_at_start; bool removed; bool lp_started; char *hdr_path; char *lp_url; unsigned int getwork_requested; unsigned int stale_shares; unsigned int discarded_work; unsigned int getfail_occasions; unsigned int remotefail_occasions; struct timeval tv_idle; double utility; int last_shares, shares; char *rpc_req; char *rpc_url; char *rpc_userpass; char *rpc_user, *rpc_pass; proxytypes_t rpc_proxytype; char *rpc_proxy; pthread_mutex_t pool_lock; cglock_t data_lock; struct thread_q *submit_q; struct thread_q *getwork_q; pthread_t longpoll_thread; pthread_t test_thread; bool testing; int curls; pthread_cond_t cr_cond; struct list_head curlring; time_t last_share_time; double last_share_diff; double best_diff; struct sgminer_stats sgminer_stats; struct sgminer_pool_stats sgminer_pool_stats; /* The last block this particular pool knows about */ char prev_block[32]; /* Stratum variables */ bool has_stratum; char *stratum_url; char *stratum_port; struct addrinfo stratum_hints; SOCKETTYPE sock; char *sockbuf; size_t sockbuf_size; char *sockaddr_url; /* stripped url used for sockaddr */ char *sockaddr_proxy_url; char *sockaddr_proxy_port; char *nonce1; unsigned char *nonce1bin; size_t n1_len; uint64_t nonce2; int n2size; char *sessionid; bool stratum_active; bool stratum_init; bool stratum_notify; struct stratum_work swork; pthread_t stratum_sthread; pthread_t stratum_rthread; pthread_mutex_t stratum_lock; struct thread_q *stratum_q; int sshares; /* stratum shares submitted waiting on response */ /* GBT variables */ bool has_gbt; cglock_t gbt_lock; unsigned char previousblockhash[32]; unsigned char gbt_target[32]; char *coinbasetxn; char *longpollid; char *gbt_workid; int gbt_expires; uint32_t gbt_version; uint32_t curtime; uint32_t gbt_bits; unsigned char *txn_hashes; int gbt_txns; int coinbase_len; /* Shared by both stratum & GBT */ unsigned char *coinbase; int nonce2_offset; unsigned char header_bin[128]; int merkle_offset; struct timeval tv_lastwork; }; #define GETWORK_MODE_TESTPOOL 'T' #define GETWORK_MODE_POOL 'P' #define GETWORK_MODE_LP 'L' #define GETWORK_MODE_BENCHMARK 'B' #define GETWORK_MODE_STRATUM 'S' #define GETWORK_MODE_GBT 'G' struct work { unsigned char data[128]; unsigned char midstate[32]; unsigned char target[32]; unsigned char hash[32]; unsigned char device_target[32]; double device_diff; double share_diff; int rolls; int drv_rolllimit; /* How much the driver can roll ntime */ dev_blk_ctx blk; struct thr_info *thr; int thr_id; struct pool *pool; struct timeval tv_staged; bool mined; bool clone; bool cloned; int rolltime; bool longpoll; bool stale; bool mandatory; bool block; bool stratum; char *job_id; uint64_t nonce2; size_t nonce2_len; char *ntime; double sdiff; char *nonce1; bool gbt; char *coinbase; int gbt_txns; unsigned int work_block; int id; UT_hash_handle hh; double work_difficulty; // Allow devices to identify work if multiple sub-devices int subid; // Allow devices to flag work for their own purposes bool devflag; // Allow devices to timestamp work for their own purposes struct timeval tv_stamp; struct timeval tv_getwork; struct timeval tv_getwork_reply; struct timeval tv_cloned; struct timeval tv_work_start; struct timeval tv_work_found; char getwork_mode; }; #define TAILBUFSIZ 64 #define tailsprintf(buf, bufsiz, fmt, ...) do { \ char tmp13[TAILBUFSIZ]; \ size_t len13, buflen = strlen(buf); \ snprintf(tmp13, sizeof(tmp13), fmt, ##__VA_ARGS__); \ len13 = strlen(tmp13); \ if ((buflen + len13) >= bufsiz) \ quit(1, "tailsprintf buffer overflow in %s %s line %d", __FILE__, __func__, __LINE__); \ strcat(buf, tmp13); \ } while (0) extern void get_datestamp(char *, size_t, struct timeval *); extern void inc_hw_errors(struct thr_info *thr); extern bool test_nonce(struct work *work, uint32_t nonce); extern bool test_nonce_diff(struct work *work, uint32_t nonce, double diff); extern bool submit_tested_work(struct thr_info *thr, struct work *work); extern bool submit_nonce(struct thr_info *thr, struct work *work, uint32_t nonce); extern bool submit_noffset_nonce(struct thr_info *thr, struct work *work, uint32_t nonce, int noffset); extern struct work *get_work(struct thr_info *thr, const int thr_id); extern void __add_queued(struct cgpu_info *cgpu, struct work *work); extern struct work *get_queued(struct cgpu_info *cgpu); extern void add_queued(struct cgpu_info *cgpu, struct work *work); extern struct work *get_queue_work(struct thr_info *thr, struct cgpu_info *cgpu, int thr_id); extern struct work *__find_work_bymidstate(struct work *que, char *midstate, size_t midstatelen, char *data, int offset, size_t datalen); extern struct work *find_queued_work_bymidstate(struct cgpu_info *cgpu, char *midstate, size_t midstatelen, char *data, int offset, size_t datalen); extern struct work *clone_queued_work_bymidstate(struct cgpu_info *cgpu, char *midstate, size_t midstatelen, char *data, int offset, size_t datalen); extern void __work_completed(struct cgpu_info *cgpu, struct work *work); extern int age_queued_work(struct cgpu_info *cgpu, double secs); extern void work_completed(struct cgpu_info *cgpu, struct work *work); extern struct work *take_queued_work_bymidstate(struct cgpu_info *cgpu, char *midstate, size_t midstatelen, char *data, int offset, size_t datalen); extern void flush_queue(struct cgpu_info *cgpu); extern void hash_driver_work(struct thr_info *mythr); extern void hash_queued_work(struct thr_info *mythr); extern void _wlog(const char *str); extern void _wlogprint(const char *str); extern int curses_int(const char *query); extern char *curses_input(const char *query); extern void kill_work(void); extern void switch_pools(struct pool *selected); extern void discard_work(struct work *work); extern void remove_pool(struct pool *pool); extern void write_config(FILE *fcfg); extern void zero_bestshare(void); extern void zero_stats(void); extern void default_save_file(char *filename); extern bool log_curses_only(int prio, const char *datetime, const char *str); extern void clear_logwin(void); extern void logwin_update(void); extern bool pool_tclear(struct pool *pool, bool *var); extern struct thread_q *tq_new(void); extern void tq_free(struct thread_q *tq); extern bool tq_push(struct thread_q *tq, void *data); extern void *tq_pop(struct thread_q *tq, const struct timespec *abstime); extern void tq_freeze(struct thread_q *tq); extern void tq_thaw(struct thread_q *tq); extern bool successful_connect; extern void adl(void); extern void app_restart(void); extern void clean_work(struct work *work); extern void free_work(struct work *work); extern void set_work_ntime(struct work *work, int ntime); extern struct work *copy_work_noffset(struct work *base_work, int noffset); #define copy_work(work_in) copy_work_noffset(work_in, 0) extern struct thr_info *get_thread(int thr_id); extern struct cgpu_info *get_devices(int id); enum api_data_type { API_ESCAPE, API_STRING, API_CONST, API_UINT8, API_UINT16, API_INT, API_UINT, API_UINT32, API_HEX32, API_UINT64, API_DOUBLE, API_ELAPSED, API_BOOL, API_TIMEVAL, API_TIME, API_MHS, API_KHS, API_MHTOTAL, API_TEMP, API_UTILITY, API_FREQ, API_VOLTS, API_HS, API_DIFF, API_PERCENT, API_AVG }; struct api_data { enum api_data_type type; char *name; void *data; bool data_was_malloc; struct api_data *prev; struct api_data *next; }; extern struct api_data *api_add_escape(struct api_data *root, char *name, char *data, bool copy_data); extern struct api_data *api_add_string(struct api_data *root, char *name, char *data, bool copy_data); extern struct api_data *api_add_const(struct api_data *root, char *name, const char *data, bool copy_data); extern struct api_data *api_add_uint8(struct api_data *root, char *name, uint8_t *data, bool copy_data); extern struct api_data *api_add_uint16(struct api_data *root, char *name, uint16_t *data, bool copy_data); extern struct api_data *api_add_int(struct api_data *root, char *name, int *data, bool copy_data); extern struct api_data *api_add_uint(struct api_data *root, char *name, unsigned int *data, bool copy_data); extern struct api_data *api_add_uint32(struct api_data *root, char *name, uint32_t *data, bool copy_data); extern struct api_data *api_add_hex32(struct api_data *root, char *name, uint32_t *data, bool copy_data); extern struct api_data *api_add_uint64(struct api_data *root, char *name, uint64_t *data, bool copy_data); extern struct api_data *api_add_double(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_elapsed(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_bool(struct api_data *root, char *name, bool *data, bool copy_data); extern struct api_data *api_add_timeval(struct api_data *root, char *name, struct timeval *data, bool copy_data); extern struct api_data *api_add_time(struct api_data *root, char *name, time_t *data, bool copy_data); extern struct api_data *api_add_mhs(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_khs(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_mhstotal(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_temp(struct api_data *root, char *name, float *data, bool copy_data); extern struct api_data *api_add_utility(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_freq(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_volts(struct api_data *root, char *name, float *data, bool copy_data); extern struct api_data *api_add_hs(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_diff(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_percent(struct api_data *root, char *name, double *data, bool copy_data); extern struct api_data *api_add_avg(struct api_data *root, char *name, float *data, bool copy_data); enum diff_calc_mode { DM_BITCOIN, DM_QUARKCOIN, DM_LITECOIN, }; #endif /* __MINER_H__ */