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cpu-miner.c
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cpu-miner.c
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/*
* Copyright 2010 Jeff Garzik
* Copyright 2012-2014 pooler
* Copyright 2014 Lucas Jones
* Copyright 2014 Tanguy Pruvot
* Copyright 2016 Jay D Dee
*
* 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 2 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
/*
* Change log
*
* 2016-01-14: v 1.9-RC inititial limited release combining
* cpuminer-multi 1.2-prev, darkcoin-cpu-miner 1.3,
* and cp3u 2.3.2 plus some performance optimizations.
*
* 2016-02-04: v3.1 algo_gate implemntation
*/
#include <cpuminer-config.h>
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdbool.h>
#include <inttypes.h>
#include <unistd.h>
#include <sys/time.h>
#include <time.h>
#include <signal.h>
#include <memory.h>
#include <curl/curl.h>
#include <jansson.h>
#include <openssl/sha.h>
#ifdef WIN32
#include <winsock2.h>
#include <windows.h>
#endif
#ifdef _MSC_VER
#include <stdint.h>
#else
#include <errno.h>
#if HAVE_SYS_SYSCTL_H
#include <sys/types.h>
#if HAVE_SYS_PARAM_H
#include <sys/param.h>
#endif
#include <sys/sysctl.h>
#endif
#endif
#ifndef WIN32
#include <sys/resource.h>
#endif
#include "miner.h"
#include "algo-gate-api.h"
#ifdef WIN32
#include "compat/winansi.h"
//BOOL WINAPI ConsoleHandler(DWORD);
#endif
#ifdef _MSC_VER
#include <Mmsystem.h>
#pragma comment(lib, "winmm.lib")
#endif
#define LP_SCANTIME 60
algo_gate_t algo_gate;
bool opt_debug = false;
bool opt_debug_diff = false;
bool opt_protocol = false;
bool opt_benchmark = false;
bool opt_redirect = true;
bool opt_showdiff = true;
bool opt_extranonce = true;
bool want_longpoll = true;
bool have_longpoll = false;
bool have_gbt = true;
bool allow_getwork = true;
bool want_stratum = true;
bool have_stratum = false;
bool allow_mininginfo = true;
bool use_syslog = false;
bool use_colors = true;
static bool opt_background = false;
bool opt_quiet = false;
bool opt_randomize = false;
static int opt_retries = -1;
static int opt_fail_pause = 10;
static int opt_time_limit = 0;
int opt_timeout = 300;
static int opt_scantime = 5;
//static const bool opt_time = true;
enum algos opt_algo = ALGO_NULL;
char* opt_param_key = NULL;
int opt_param_n = 0;
int opt_param_r = 0;
int opt_pluck_n = 128;
int opt_n_threads = 0;
bool opt_reset_on_stale = false;
// Windows doesn't support 128 bit affinity mask.
#if defined(__linux) && defined(GCC_INT128)
#define AFFINITY_USES_UINT128 1
uint128_t opt_affinity = -1LL;
#else
uint64_t opt_affinity = -1LL;
#endif
int opt_priority = 0;
int num_cpus = 1;
int num_cpugroups = 1;
char *rpc_url = NULL;;
char *rpc_userpass = NULL;
char *rpc_user, *rpc_pass;
char *short_url = NULL;
static unsigned char pk_script[25] = { 0 };
static size_t pk_script_size = 0;
static char coinbase_sig[101] = { 0 };
char *opt_cert;
char *opt_proxy;
long opt_proxy_type;
struct thr_info *thr_info;
int work_thr_id;
int longpoll_thr_id = -1;
int stratum_thr_id = -1;
int api_thr_id = -1;
bool stratum_need_reset = false;
struct work_restart *work_restart = NULL;
struct stratum_ctx stratum;
bool jsonrpc_2 = false;
char rpc2_id[64] = "";
char *rpc2_blob = NULL;
size_t rpc2_bloblen = 0;
uint32_t rpc2_target = 0;
char *rpc2_job_id = NULL;
double opt_diff_factor = 1.0;
double opt_target_factor = 1.0;
uint32_t zr5_pok = 0;
bool opt_stratum_stats = false;
bool opt_hash_meter = false;
uint32_t accepted_share_count = 0ULL;
uint32_t rejected_share_count = 0ULL;
uint32_t solved_block_count = 0ULL;
double *thr_hashrates;
double *thr_hashcount;
double global_hashcount = 0;
double global_hashrate = 0;
double stratum_diff = 0.;
double net_diff = 0.;
double net_hashrate = 0.;
uint64_t net_blocks = 0;
// conditional mining
bool conditional_state[MAX_CPUS] = { 0 };
double opt_max_temp = 0.0;
double opt_max_diff = 0.0;
double opt_max_rate = 0.0;
uint32_t opt_work_size = 0;
char *opt_api_allow = NULL;
int opt_api_remote = 0;
int opt_api_listen = 4048;
pthread_mutex_t rpc2_job_lock;
pthread_mutex_t rpc2_login_lock;
pthread_mutex_t applog_lock;
pthread_mutex_t stats_lock;
static char const short_options[] =
#ifdef HAVE_SYSLOG_H
"S"
#endif
"a:b:Bc:CDf:hK:m:n:N:p:Px:qr:R:s:t:T:o:u:O:V";
static struct work g_work __attribute__ ((aligned (64))) = {{ 0 }};
//static struct work tmp_work;
time_t g_work_time = 0;
static pthread_mutex_t g_work_lock;
static bool submit_old = false;
char* lp_id;
static void workio_cmd_free(struct workio_cmd *wc);
#ifdef __linux /* Linux specific policy and affinity management */
#include <sched.h>
static inline void drop_policy(void)
{
struct sched_param param;
param.sched_priority = 0;
#ifdef SCHED_IDLE
if (unlikely(sched_setscheduler(0, SCHED_IDLE, ¶m) == -1))
#endif
#ifdef SCHED_BATCH
sched_setscheduler(0, SCHED_BATCH, ¶m);
#endif
}
#ifdef __BIONIC__
#define pthread_setaffinity_np(tid,sz,s) {} /* only do process affinity */
#endif
// Linux affinity can use int128.
#if AFFINITY_USES_UINT128
static void affine_to_cpu_mask( int id, unsigned __int128 mask )
#else
static void affine_to_cpu_mask( int id, unsigned long long mask )
#endif
{
cpu_set_t set;
CPU_ZERO( &set );
uint8_t ncpus = (num_cpus > 256) ? 256 : num_cpus;
for ( uint8_t i = 0; i < ncpus; i++ )
{
// cpu mask
#if AFFINITY_USES_UINT128
if( ( mask & ( (unsigned __int128)1ULL << i ) ) ) CPU_SET( i, &set );
#else
if( (ncpus > 64) || ( mask & (1ULL << i) ) ) CPU_SET( i, &set );
#endif
}
if ( id == -1 )
{
// process affinity
sched_setaffinity(0, sizeof(&set), &set);
}
else
{
// thread only
pthread_setaffinity_np(thr_info[id].pth, sizeof(&set), &set);
}
}
#elif defined(WIN32) /* Windows */
static inline void drop_policy(void) { }
// Windows CPU groups to manage more than 64 CPUs.
static void affine_to_cpu_mask( int id, unsigned long mask )
{
bool success;
unsigned long last_error;
// BOOL success;
// DWORD last_error;
if ( id == -1 )
success = SetProcessAffinityMask( GetCurrentProcess(), mask );
// Are Windows CPU Groups supported?
#if _WIN32_WINNT==0x0601
else if ( num_cpugroups == 1 )
success = SetThreadAffinityMask( GetCurrentThread(), mask );
else
{
// Find the correct cpu group
int cpu = id % num_cpus;
int group;
for( group = 0; group < num_cpugroups; group++ )
{
int cpus = GetActiveProcessorCount( group );
if ( cpu < cpus )
break;
cpu -= cpus;
}
if (opt_debug)
applog(LOG_DEBUG, "Binding thread %d to cpu %d on cpu group %d (mask %x)", id, cpu, group, (1ULL << cpu));
GROUP_AFFINITY affinity;
affinity.Group = group;
affinity.Mask = 1ULL << cpu;
success = SetThreadGroupAffinity( GetCurrentThread(), &affinity, NULL );
}
#else
else
success = SetThreadAffinityMask( GetCurrentThread(), mask );
#endif
if (!success)
{
last_error = GetLastError();
applog(LOG_WARNING, "affine_to_cpu_mask for %u returned %x", id, last_error);
}
}
#else
static inline void drop_policy(void) { }
static void affine_to_cpu_mask(int id, unsigned long mask) { }
#endif
// not very useful, just index the arrray directly.
// but declaring this function in miner.h eliminates
// an annoying compiler warning for not using a static.
const char* algo_name( enum algos a ) {return algo_names[a];}
void get_currentalgo(char* buf, int sz)
{
snprintf(buf, sz, "%s", algo_names[opt_algo]);
}
void proper_exit(int reason)
{
#ifdef WIN32
if (opt_background) {
HWND hcon = GetConsoleWindow();
if (hcon) {
// unhide parent command line windows
ShowWindow(hcon, SW_SHOWMINNOACTIVE);
}
}
#endif
exit(reason);
}
uint32_t* get_stratum_job_ntime()
{
return (uint32_t*)stratum.job.ntime;
}
void work_free(struct work *w)
{
if (w->txs) free(w->txs);
if (w->workid) free(w->workid);
if (w->job_id) free(w->job_id);
if (w->xnonce2) free(w->xnonce2);
}
void work_copy(struct work *dest, const struct work *src)
{
memcpy(dest, src, sizeof(struct work));
if (src->txs)
dest->txs = strdup(src->txs);
if (src->workid)
dest->workid = strdup(src->workid);
if (src->job_id)
dest->job_id = strdup(src->job_id);
if (src->xnonce2) {
dest->xnonce2 = (uchar*) malloc(src->xnonce2_len);
memcpy(dest->xnonce2, src->xnonce2, src->xnonce2_len);
}
}
int std_get_work_data_size() { return STD_WORK_DATA_SIZE; }
bool jr2_work_decode( const json_t *val, struct work *work )
{ return rpc2_job_decode( val, work ); }
// Default
bool std_le_work_decode( const json_t *val, struct work *work )
{
int i;
const int data_size = algo_gate.get_work_data_size();
const int target_size = sizeof(work->target);
const int adata_sz = data_size / 4;
const int atarget_sz = ARRAY_SIZE(work->target);
if (unlikely( !jobj_binary(val, "data", work->data, data_size) ))
{
applog(LOG_ERR, "JSON invalid data");
return false;
}
if (unlikely( !jobj_binary(val, "target", work->target, target_size) ))
{
applog(LOG_ERR, "JSON invalid target");
return false;
}
for ( i = 0; i < adata_sz; i++ )
work->data[i] = le32dec( work->data + i );
for ( i = 0; i < atarget_sz; i++ )
work->target[i] = le32dec( work->target + i );
return true;
}
bool std_be_work_decode( const json_t *val, struct work *work )
{
int i;
const int data_size = algo_gate.get_work_data_size();
const int target_size = sizeof(work->target);
const int adata_sz = data_size / 4;
const int atarget_sz = ARRAY_SIZE(work->target);
if (unlikely( !jobj_binary(val, "data", work->data, data_size) ))
{
applog(LOG_ERR, "JSON invalid data");
return false;
}
if (unlikely( !jobj_binary(val, "target", work->target, target_size) ))
{
applog(LOG_ERR, "JSON invalid target");
return false;
}
for ( i = 0; i < adata_sz; i++ )
work->data[i] = be32dec( work->data + i );
for ( i = 0; i < atarget_sz; i++ )
work->target[i] = le32dec( work->target + i );
return true;
}
static bool work_decode( const json_t *val, struct work *work )
{
if ( !algo_gate.work_decode( val, work ) )
return false;
if ( !allow_mininginfo )
net_diff = algo_gate.calc_network_diff( work );
work->targetdiff = target_to_diff( work->target );
// for api stats, on longpoll pools
stratum_diff = work->targetdiff;
work->sharediff = 0;
algo_gate.decode_extra_data( work, &net_blocks );
return true;
}
// good alternative for wallet mining, difficulty and net hashrate
static const char *info_req =
"{\"method\": \"getmininginfo\", \"params\": [], \"id\":8}\r\n";
static bool get_mininginfo(CURL *curl, struct work *work)
{
if (have_stratum || !allow_mininginfo)
return false;
int curl_err = 0;
json_t *val = json_rpc_call(curl, rpc_url, rpc_userpass, info_req, &curl_err, 0);
if (!val && curl_err == -1) {
allow_mininginfo = false;
if (opt_debug) {
applog(LOG_DEBUG, "getmininginfo not supported");
}
return false;
}
else
{
json_t *res = json_object_get(val, "result");
// "blocks": 491493 (= current work height - 1)
// "difficulty": 0.99607860999999998
// "networkhashps": 56475980
if (res)
{
json_t *key = json_object_get(res, "difficulty");
if (key) {
if (json_is_object(key))
key = json_object_get(key, "proof-of-work");
if (json_is_real(key))
net_diff = json_real_value(key);
}
key = json_object_get(res, "networkhashps");
if (key && json_is_integer(key)) {
net_hashrate = (double) json_integer_value(key);
}
key = json_object_get(res, "blocks");
if (key && json_is_integer(key)) {
net_blocks = json_integer_value(key);
}
if (!work->height)
{
// complete missing data from getwork
work->height = (uint32_t) net_blocks + 1;
if (work->height > g_work.height)
{
restart_threads();
if (!opt_quiet) {
char netinfo[64] = { 0 };
char srate[32] = { 0 };
sprintf(netinfo, "diff %.2f", net_diff);
if (net_hashrate) {
format_hashrate(net_hashrate, srate);
strcat(netinfo, ", net ");
strcat(netinfo, srate);
}
applog(LOG_BLUE, "%s block %d, %s",
algo_names[opt_algo], work->height, netinfo);
}
}
}
}
}
json_decref(val);
return true;
}
// hodl needs 4 but leave it at 3 until gbt better understood
//#define BLOCK_VERSION_CURRENT 3
//#define BLOCK_VERSION_CURRENT 4
static bool gbt_work_decode( const json_t *val, struct work *work )
{
int i, n;
uint32_t version, curtime, bits;
uint32_t prevhash[8];
uint32_t target[8];
int cbtx_size;
uchar *cbtx = NULL;
int tx_count, tx_size;
uchar txc_vi[9];
uchar(*merkle_tree)[32] = NULL;
bool coinbase_append = false;
bool submit_coinbase = false;
bool version_force = false;
bool version_reduce = false;
bool segwit = false; // Add basic Segwit support
json_t *tmp, *txa;
bool rc = false;
// BEGIN - Add basic Segwit support
tmp = json_object_get(val, "rules");
if (tmp && json_is_array(tmp)) {
n = json_array_size(tmp);
for (i = 0; i < n; i++) {
const char *s = json_string_value(json_array_get(tmp, i));
if (!s)
continue;
if (!strcmp(s, "segwit") || !strcmp(s, "!segwit"))
segwit = true;
}
}
// END - Add basic Segwit support
tmp = json_object_get( val, "mutable" );
if ( tmp && json_is_array( tmp ) )
{
n = (int) json_array_size( tmp );
for ( i = 0; i < n; i++ )
{
const char *s = json_string_value( json_array_get( tmp, i ) );
if ( !s )
continue;
if ( !strcmp( s, "coinbase/append" ) ) coinbase_append = true;
else if ( !strcmp( s, "submit/coinbase" ) ) submit_coinbase = true;
}
}
tmp = json_object_get( val, "height" );
if ( !tmp || !json_is_integer( tmp ) )
{
applog( LOG_ERR, "JSON invalid height" );
goto out;
}
work->height = (int) json_integer_value( tmp );
applog( LOG_BLUE, "Current block is %d", work->height );
tmp = json_object_get(val, "version");
if ( !tmp || !json_is_integer( tmp ) )
{
applog( LOG_ERR, "JSON invalid version" );
goto out;
}
version = (uint32_t) json_integer_value( tmp );
if ( unlikely( !jobj_binary(val, "previousblockhash", prevhash,
sizeof(prevhash)) ) )
{
applog( LOG_ERR, "JSON invalid previousblockhash" );
goto out;
}
tmp = json_object_get( val, "curtime" );
if ( !tmp || !json_is_integer( tmp ) )
{
applog( LOG_ERR, "JSON invalid curtime" );
goto out;
}
curtime = (uint32_t) json_integer_value(tmp);
if ( unlikely( !jobj_binary( val, "bits", &bits, sizeof(bits) ) ) )
{
applog(LOG_ERR, "JSON invalid bits");
goto out;
}
/* find count and size of transactions */
txa = json_object_get(val, "transactions" );
if ( !txa || !json_is_array( txa ) )
{
applog( LOG_ERR, "JSON invalid transactions" );
goto out;
}
tx_count = (int) json_array_size( txa );
tx_size = 0;
for ( i = 0; i < tx_count; i++ )
{
const json_t *tx = json_array_get( txa, i );
const char *tx_hex = json_string_value( json_object_get( tx, "data" ) );
if ( !tx_hex )
{
applog( LOG_ERR, "JSON invalid transactions" );
goto out;
}
tx_size += (int) ( strlen( tx_hex ) / 2 );
}
/* build coinbase transaction */
tmp = json_object_get( val, "coinbasetxn" );
if ( tmp )
{
const char *cbtx_hex = json_string_value( json_object_get( tmp, "data" ));
cbtx_size = cbtx_hex ? (int) strlen( cbtx_hex ) / 2 : 0;
cbtx = (uchar*) malloc( cbtx_size + 100 );
if ( cbtx_size < 60 || !hex2bin( cbtx, cbtx_hex, cbtx_size ) )
{
applog( LOG_ERR, "JSON invalid coinbasetxn" );
goto out;
}
}
else
{
int64_t cbvalue;
if ( !pk_script_size )
{
if ( allow_getwork )
{
applog( LOG_INFO, "No payout address provided, switching to getwork");
have_gbt = false;
}
else
applog( LOG_ERR, "No payout address provided" );
goto out;
}
tmp = json_object_get( val, "coinbasevalue" );
if ( !tmp || !json_is_number( tmp ) )
{
applog( LOG_ERR, "JSON invalid coinbasevalue" );
goto out;
}
cbvalue = (int64_t) ( json_is_integer( tmp ) ? json_integer_value( tmp )
: json_number_value( tmp ) );
cbtx = (uchar*) malloc(256);
le32enc( (uint32_t *)cbtx, 1 ); /* version */
cbtx[4] = 1; /* in-counter */
memset( cbtx+5, 0x00, 32 ); /* prev txout hash */
le32enc( (uint32_t *)(cbtx+37), 0xffffffff ); /* prev txout index */
cbtx_size = 43;
/* BIP 34: height in coinbase */
// BEGIN - Add basic Segwit support
for ( n = work->height; n; n >>= 8 ) {
cbtx[cbtx_size++] = n & 0xff;
/* If the last byte pushed is >= 0x80, then we need to add
another zero byte to signal that the block height is a
positive number. */
// if (cbtx[cbtx_size - 1] & 0x80) { // old - Add basic Segwit support
if (n < 0x100 && n >= 0x80) {
cbtx[cbtx_size++] = 0;
}
}
// END - Add basic Segwit support
cbtx[42] = cbtx_size - 43;
cbtx[41] = cbtx_size - 42; /* scriptsig length */
le32enc( (uint32_t *)( cbtx+cbtx_size ), 0xffffffff ); /* sequence */
cbtx_size += 4;
cbtx[cbtx_size++] = segwit ? 2 : 1; /* out-counter */ // Add basic Segwit support
le32enc( (uint32_t *)( cbtx+cbtx_size) , (uint32_t)cbvalue ); /* value */
le32enc( (uint32_t *)( cbtx+cbtx_size+4 ), cbvalue >> 32 );
cbtx_size += 8;
cbtx[ cbtx_size++ ] = (uint8_t) pk_script_size; /* txout-script length */
memcpy( cbtx+cbtx_size, pk_script, pk_script_size );
cbtx_size += (int) pk_script_size;
// BEGIN - Add basic Segwit support
if (segwit) {
unsigned char (*wtree)[32] = calloc(tx_count + 2, 32);
memset(cbtx+cbtx_size, 0, 8); /* value */
cbtx_size += 8;
cbtx[cbtx_size++] = 38; /* txout-script length */
cbtx[cbtx_size++] = 0x6a; /* txout-script */
cbtx[cbtx_size++] = 0x24;
cbtx[cbtx_size++] = 0xaa;
cbtx[cbtx_size++] = 0x21;
cbtx[cbtx_size++] = 0xa9;
cbtx[cbtx_size++] = 0xed;
for (i = 0; i < tx_count; i++) {
const json_t *tx = json_array_get(txa, i);
const json_t *hash = json_object_get(tx, "hash");
if (!hash || !hex2bin(wtree[1+i], json_string_value(hash), 32)) {
applog(LOG_ERR, "JSON invalid transaction hash");
free(wtree);
goto out;
}
memrev(wtree[1+i], 32);
}
n = tx_count + 1;
while (n > 1) {
if (n % 2)
memcpy(wtree[n], wtree[n-1], 32);
n = (n + 1) / 2;
for (i = 0; i < n; i++)
sha256d(wtree[i], wtree[2*i], 64);
}
memset(wtree[1], 0, 32); /* witness reserved value = 0 */
sha256d(cbtx+cbtx_size, wtree[0], 64);
cbtx_size += 32;
free(wtree);
}
// END - Add basic Segwit support
le32enc( (uint32_t *)( cbtx+cbtx_size ), 0 ); /* lock time */
cbtx_size += 4;
coinbase_append = true;
}
if ( coinbase_append )
{
unsigned char xsig[100];
int xsig_len = 0;
if ( *coinbase_sig )
{
n = (int) strlen( coinbase_sig );
if ( cbtx[41] + xsig_len + n <= 100 )
{
memcpy( xsig+xsig_len, coinbase_sig, n );
xsig_len += n;
}
else
{
applog( LOG_WARNING,
"Signature does not fit in coinbase, skipping" );
}
}
tmp = json_object_get( val, "coinbaseaux" );
if ( tmp && json_is_object( tmp ) )
{
void *iter = json_object_iter( tmp );
while ( iter )
{
unsigned char buf[100];
const char *s = json_string_value( json_object_iter_value( iter ) );
n = s ? (int) ( strlen(s) / 2 ) : 0;
if ( !s || n > 100 || !hex2bin( buf, s, n ) )
{
applog(LOG_ERR, "JSON invalid coinbaseaux");
break;
}
if ( cbtx[41] + xsig_len + n <= 100 )
{
memcpy( xsig+xsig_len, buf, n );
xsig_len += n;
}
iter = json_object_iter_next( tmp, iter );
}
}
if ( xsig_len )
{
unsigned char *ssig_end = cbtx + 42 + cbtx[41];
int push_len = cbtx[41] + xsig_len < 76 ? 1 :
cbtx[41] + 2 + xsig_len > 100 ? 0 : 2;
n = xsig_len + push_len;
memmove( ssig_end + n, ssig_end, cbtx_size - 42 - cbtx[41] );
cbtx[41] += n;
if ( push_len == 2 )
*(ssig_end++) = 0x4c; /* OP_PUSHDATA1 */
if ( push_len )
*(ssig_end++) = xsig_len;
memcpy( ssig_end, xsig, xsig_len );
cbtx_size += n;
}
}
n = varint_encode( txc_vi, 1 + tx_count );
work->txs = (char*) malloc( 2 * ( n + cbtx_size + tx_size ) + 1 );
bin2hex( work->txs, txc_vi, n );
bin2hex( work->txs + 2*n, cbtx, cbtx_size );
/* generate merkle root */
merkle_tree = (uchar(*)[32]) calloc(((1 + tx_count + 1) & ~1), 32);
sha256d(merkle_tree[0], cbtx, cbtx_size);
for ( i = 0; i < tx_count; i++ )
{
tmp = json_array_get( txa, i );
const char *tx_hex = json_string_value( json_object_get( tmp, "data" ) );
const int tx_size = tx_hex ? (int) ( strlen( tx_hex ) / 2 ) : 0;
// BEGIN - Add basic Segwit support
if (segwit) {
const char *txid = json_string_value(json_object_get(tmp, "txid"));
if (!txid || !hex2bin(merkle_tree[1 + i], txid, 32)) {
applog(LOG_ERR, "JSON invalid transaction txid");
goto out;
}
memrev(merkle_tree[1 + i], 32);
} else {
unsigned char *tx = malloc(tx_size);
if (!tx_hex || !hex2bin(tx, tx_hex, tx_size)) {
applog(LOG_ERR, "JSON invalid transactions");
free(tx);
goto out;
}
sha256d(merkle_tree[1 + i], tx, tx_size);
free(tx);
}
// END - Add basic Segwit support
if ( !submit_coinbase )
strcat( work->txs, tx_hex );
}
n = 1 + tx_count;
while ( n > 1 )
{
if ( n % 2 )
{
memcpy( merkle_tree[n], merkle_tree[n-1], 32 );
++n;
}
n /= 2;
for ( i = 0; i < n; i++ )
sha256d( merkle_tree[i], merkle_tree[2*i], 64 );
}
/* assemble block header */
algo_gate.build_block_header( work, swab32( version ),
(uint32_t*) prevhash, (uint32_t*) merkle_tree,
swab32( curtime ), le32dec( &bits ) );
if ( unlikely( !jobj_binary(val, "target", target, sizeof(target)) ) )
{
applog( LOG_ERR, "JSON invalid target" );
goto out;
}
for ( i = 0; i < ARRAY_SIZE( work->target ); i++ )
work->target[7 - i] = be32dec( target + i );
tmp = json_object_get( val, "workid" );
if ( tmp )
{
if ( !json_is_string( tmp ) )
{
applog( LOG_ERR, "JSON invalid workid" );
goto out;
}
work->workid = strdup( json_string_value( tmp ) );
}
rc = true;
out:
/* Long polling */
tmp = json_object_get( val, "longpollid" );
if ( want_longpoll && json_is_string( tmp ) )
{
free( lp_id );
lp_id = strdup( json_string_value( tmp ) );
if ( !have_longpoll )
{
char *lp_uri;
tmp = json_object_get( val, "longpolluri" );
lp_uri = json_is_string( tmp ) ? strdup( json_string_value( tmp ) )
: rpc_url;
have_longpoll = true;
tq_push(thr_info[longpoll_thr_id].q, lp_uri);
}
}
free( merkle_tree );
free( cbtx );
return rc;
}
// returns the unit prefix and the hashrate appropriately scaled.
void scale_hash_for_display ( double* hashrate, char* prefix )
{
if ( *hashrate < 1e4 ) // 0 H/s to 9999 h/s
*prefix = 0;
else if ( *hashrate < 1e7 ) // 10 kH/s to 9999 kh/s
{ *prefix = 'k'; *hashrate /= 1e3; }
else if ( *hashrate < 1e10 ) // 10 Mh/s to 9999 Mh/s
{ *prefix = 'M'; *hashrate /= 1e6; }
else if ( *hashrate < 1e13 ) // 10 Gh/s to 9999 Gh/s
{ *prefix = 'G'; *hashrate /= 1e9; }
else if ( *hashrate < 1e16 ) // 10 Th/s to 9999 Th/s
{ *prefix = 'T'; *hashrate /= 1e12; }
else if ( *hashrate < 1e19 ) // 10 Ph/s to 9999 Ph
{ *prefix = 'P'; *hashrate /= 1e15; }
else // 10 Eh/s and higher
{ *prefix = 'E'; *hashrate /= 1e18; }
}
static inline void sprintf_et( char *str, uint64_t seconds )
{
uint64_t min = seconds / 60;
uint64_t sec = seconds % 60;
uint64_t hrs = min / 60;
if ( hrs )
{
uint64_t days = hrs / 24;
if ( days ) //0d00h
sprintf( str, "%llud%02lluh", days, hrs % 24 );
else // 0h00m
sprintf( str, "%lluh%02llum", hrs, min % 60 );
}
else // 0m00s
sprintf( str, "%llum%02llus", min, sec );
}
// Bitcoin formula for converting difficulty to an equivalent
// number of hashes.
//
// https://en.bitcoin.it/wiki/Difficulty
//
// hash = diff * 2**32
//
// diff_to_hash = 2**32 = 0x100000000 = 4294967296;
const double diff_to_hash = 4294967296.;
static struct timeval five_min_start;
static double time_sum = 0.;
static double latency_sum = 0.;
static uint64_t submit_sum = 0;
static uint64_t reject_sum = 0;
static uint32_t last_block_height = 0;
static double last_targetdiff = 0.;
struct share_stats_t
{
struct timeval submit_time;
double net_diff;
double share_diff;
};
#define s_stats_size 8
static struct share_stats_t share_stats[ s_stats_size ];
static int s_get_ptr = 0, s_put_ptr = 0;
static struct timeval last_submit_time = {0};
static inline int stats_ptr_incr( int p )
{
return ++p < s_stats_size ? p : 0;
}
void report_summary_log( bool force )
{
struct timeval now, et;
pthread_mutex_lock( &stats_lock );
gettimeofday( &now, NULL );
timeval_subtract( &et, &now, &five_min_start );
if ( !force && et.tv_sec < 300 )
{
pthread_mutex_unlock( &stats_lock );
return;
}
// collect and reset global counters
double time = time_sum; time_sum = 0.;
uint64_t submits = submit_sum; submit_sum = 0;
uint64_t rejects = reject_sum; reject_sum = 0;
int latency = latency_sum; latency_sum = 0;
memcpy( &five_min_start, &now, sizeof now );
pthread_mutex_unlock( &stats_lock );
double ghrate = global_hashrate;
double scaled_ghrate = ghrate;
double shrate = time == 0. ? 0. : diff_to_hash * last_targetdiff
* (double)(submits - rejects) / time;
double scaled_shrate = shrate;
int avg_latency = 0;
double latency_pc = 0.;
double submit_rate = 0.;
char shr_units[4] = {0};
char ghr_units[4] = {0};
char et_str[24];
if ( submits )
avg_latency = latency / submits;
if ( time != 0. )
{
submit_rate = (double)submits*60. / time;
latency_pc = (double)latency / (time * 10.);
}
scale_hash_for_display( &scaled_shrate, shr_units );
scale_hash_for_display( &scaled_ghrate, ghr_units );
sprintf_et( et_str, et.tv_sec );
applog( LOG_NOTICE, "Submitted %d shares in %s, %.2f /min, %ld rejected",
submits, et_str, submit_rate, rejects );
applog2( LOG_INFO, "Share eqv: %.2f %sh/s, miner ref: %.2f %sh/s",
scaled_shrate, shr_units, scaled_ghrate, ghr_units );
#if ((defined(_WIN64) || defined(__WINDOWS__)))
applog2( LOG_INFO, "Network latency %d ms (%.2f%%)",
avg_latency, latency_pc );
#else
int temp = cpu_temp(0);
char tempstr[32];
if ( use_colors && ( temp >= 70 ) )
{