/* * Copyright 2014 Con Kolivas * * 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. */ #include "config.h" #include #include #include #include "ckpool.h" #include "libckpool.h" #include "bitcoin.h" #include "uthash.h" #include "utlist.h" static const char *workpadding = "000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000"; static const char *scriptsig_header = "01000000010000000000000000000000000000000000000000000000000000000000000000ffffffff"; static uchar scriptsig_header_bin[41]; static char pubkeytxnbin[25]; static char pubkeytxn[52]; static uint64_t enonce1_64; struct workbase { /* Hash table data */ UT_hash_handle hh; int id; time_t gentime; /* GBT/shared variables */ char target[68]; double diff; uint32_t version; uint32_t curtime; char prevhash[68]; char ntime[12]; char bbversion[12]; char nbit[12]; uint64_t coinbasevalue; int height; char *flags; int transactions; char *txn_data; int merkles; char merklehash[16][68]; /* Template variables, lengths are binary lengths! */ char coinb1[256]; // coinbase1 uchar coinb1bin[128]; int coinb1len; // length of above char enonce1const[32]; // extranonce1 section that is constant uchar enonce1constbin[16]; int enonce1constlen; // length of above - usually zero unless proxying int enonce1varlen; // length of unique extranonce1 string for each worker - usually 8 char enonce2const[16]; // extranonce2 section that is constant uchar enonce2constbin[8]; int enonce2constlen; // length of above - usually zero unless proxying int enonce2varlen; // length of space left for extranonce2 - usually 8 char coinb2[128]; // coinbase2 uchar coinb2bin[64]; int coinb2len; // length of above /* Cached header binary */ char headerbin[112]; }; typedef struct workbase workbase_t; /* For protecting the hashtable data */ static cklock_t workbase_lock; /* For the hashtable of all workbases */ static workbase_t *workbases; static int workbase_id; static char lasthash[68]; struct stratum_msg { struct stratum_msg *next; struct stratum_msg *prev; json_t *json_msg; int client_id; }; typedef struct stratum_msg stratum_msg_t; /* For protecting the stratum msg data */ static pthread_mutex_t stratum_recv_lock; static pthread_mutex_t stratum_send_lock; /* For signalling the threads to wake up and do work */ static pthread_cond_t stratum_recv_cond; static pthread_cond_t stratum_send_cond; /* For the linked list of all queued messages */ static stratum_msg_t *stratum_recvs; static stratum_msg_t *stratum_sends; /* Per client stratum instance, to be further expanded */ struct stratum_instance { UT_hash_handle hh; int id; char enonce1[20]; }; typedef struct stratum_instance stratum_instance_t; static stratum_instance_t *stratum_instances; static cklock_t instance_lock; /* No error checking with these, make sure we know they're valid already! */ static inline void json_strcpy(char *buf, json_t *val, const char *key) { strcpy(buf, json_string_value(json_object_get(val, key))); } static inline void json_dblcpy(double *dbl, json_t *val, const char *key) { *dbl = json_real_value(json_object_get(val, key)); } static inline void json_uintcpy(uint32_t *u32, json_t *val, const char *key) { *u32 = (uint32_t)json_integer_value(json_object_get(val, key)); } static inline void json_uint64cpy(uint64_t *u64, json_t *val, const char *key) { *u64 = (uint64_t)json_integer_value(json_object_get(val, key)); } static inline void json_intcpy(int *i, json_t *val, const char *key) { *i = json_integer_value(json_object_get(val, key)); } static inline void json_strdup(char **buf, json_t *val, const char *key) { *buf = strdup(json_string_value(json_object_get(val, key))); } static void generate_coinbase(ckpool_t *ckp, workbase_t *wb) { char header[228]; int len, ofs = 0; uint64_t *u64; tv_t now; /* Strings in wb should have been zero memset prior. Generate binary * templates first, then convert to hex */ memcpy(wb->coinb1bin, scriptsig_header_bin, 41); ofs += 41; // Fixed header length; ofs++; // Script length is filled in at the end @wb->coinb1bin[41]; /* Put block height at start of template */ ofs += ser_number(wb->coinb1bin + ofs, wb->height); /* Followed by flag */ len = strlen(wb->flags) / 2; wb->coinb1bin[ofs++] = len; hex2bin(wb->coinb1bin + ofs, wb->flags, len); ofs += len; /* Followed by timestamp */ tv_time(&now); ofs += ser_number(wb->coinb1bin + ofs, now.tv_sec); wb->coinb1len = ofs; len = wb->coinb1len - 41; /* Leave enonce1/2varlen constant at 8 bytes for bitcoind sources */ wb->enonce1varlen = 8; len += wb->enonce1varlen; wb->enonce2varlen = 8; len += wb->enonce2varlen; memcpy(wb->coinb2bin, "\x0a\x2f\x63\x6b\x70\x6f\x6f\x6c\x34\x32\x2f", 11); wb->coinb2len = 11; if (ckp->btcsig) { int siglen = strlen(ckp->btcsig); LOGDEBUG("Len %d sig %s", siglen, ckp->btcsig); if (siglen) { wb->coinb2bin[wb->coinb2len++] = siglen; memcpy(wb->coinb2bin + wb->coinb2len, ckp->btcsig, siglen); wb->coinb2len += siglen; } } len += wb->coinb2len; wb->coinb1bin[41] = len; /* Set the length now */ __bin2hex(wb->coinb1, wb->coinb1bin, wb->coinb1len); LOGDEBUG("Coinb1: %s", wb->coinb1); /* Coinbase 1 complete */ memcpy(wb->coinb2bin + wb->coinb2len, "\xff\xff\xff\xff", 4); wb->coinb2len += 4; wb->coinb2bin[wb->coinb2len++] = 1; u64 = (uint64_t *)&wb->coinb2bin[wb->coinb2len]; *u64 = htole64(wb->coinbasevalue); wb->coinb2len += 8; wb->coinb2bin[wb->coinb2len++] = 25; memcpy(wb->coinb2bin + wb->coinb2len, pubkeytxnbin, 25); wb->coinb2len += 25; wb->coinb2len += 4; // Blank lock __bin2hex(wb->coinb2, wb->coinb2bin, wb->coinb2len); LOGDEBUG("Coinb2: %s", wb->coinb2); /* Coinbase 2 complete */ snprintf(header, 225, "%08x%s%s%s%s%s%s", wb->version, wb->prevhash, "0000000000000000000000000000000000000000000000000000000000000000", wb->ntime, wb->nbit, "00000000", /* nonce */ workpadding); LOGDEBUG("Header: %s", header); hex2bin(wb->headerbin, header, 112); } /* This function assumes it will only receive a valid json gbt base template * since checking should have been done earlier, and creates the base template * for generating work templates. */ static void update_base(ckpool_t *ckp) { workbase_t *wb, *tmp, *tmpa; bool new_block = false; json_t *val; char *buf; wb = ckzalloc(sizeof(workbase_t)); buf = send_recv_proc(&ckp->generator, "getbase"); if (unlikely(!buf)) { LOGWARNING("Failed to get base from generator in update_base"); return; } val = json_loads(buf, 0, NULL); dealloc(buf); json_strcpy(wb->target, val, "target"); json_dblcpy(&wb->diff, val, "diff"); json_uintcpy(&wb->version, val, "version"); json_uintcpy(&wb->curtime, val, "curtime"); json_strcpy(wb->prevhash, val, "prevhash"); json_strcpy(wb->ntime, val, "ntime"); json_strcpy(wb->bbversion, val, "bbversion"); json_strcpy(wb->nbit, val, "nbit"); json_uint64cpy(&wb->coinbasevalue, val, "coinbasevalue"); json_intcpy(&wb->height, val, "height"); json_strdup(&wb->flags, val, "flags"); json_intcpy(&wb->transactions, val, "transactions"); if (wb->transactions) json_strdup(&wb->txn_data, val, "txn_data"); json_intcpy(&wb->merkles, val, "merkles"); if (wb->merkles) { json_t *arr; int i; arr = json_object_get(val, "merklehash"); for (i = 0; i < wb->merkles; i++) strcpy(&wb->merklehash[i][0], json_string_value(json_array_get(arr, i))); } json_decref(val); generate_coinbase(ckp, wb); wb->gentime = time(NULL); ck_wlock(&workbase_lock); if (strncmp(wb->prevhash, lasthash, 64)) { new_block = true; memcpy(lasthash, wb->prevhash, 65); } wb->id = workbase_id++; HASH_ITER(hh, workbases, tmp, tmpa) { /* Age old workbases older than 10 minutes old */ if (tmp->gentime < wb->gentime - 600) HASH_DEL(workbases, tmp); } HASH_ADD_INT(workbases, id, wb); ck_wunlock(&workbase_lock); } /* Enter with instance_lock held */ static stratum_instance_t *__instance_by_id(int id) { stratum_instance_t *instance; HASH_FIND_INT(stratum_instances, &id, instance); return instance; } /* Enter with write instance_lock held */ static stratum_instance_t *__stratum_add_instance(int id) { stratum_instance_t *instance = ckzalloc(sizeof(stratum_instance_t)); instance->id = id; HASH_ADD_INT(stratum_instances, id, instance); return instance; } static void stratum_add_recvd(json_t *val) { stratum_msg_t *msg; msg = ckzalloc(sizeof(stratum_msg_t)); msg->json_msg = val; mutex_lock(&stratum_recv_lock); LL_APPEND(stratum_recvs, msg); pthread_cond_signal(&stratum_recv_cond); mutex_unlock(&stratum_recv_lock); } static void stratum_add_sending(json_t *val) { stratum_msg_t *msg; msg = ckzalloc(sizeof(stratum_msg_t)); msg->json_msg = val; mutex_lock(&stratum_send_lock); LL_APPEND(stratum_sends, msg); pthread_cond_signal(&stratum_send_cond); mutex_unlock(&stratum_send_lock); } static int strat_loop(ckpool_t *ckp, proc_instance_t *pi) { int sockd, ret = 0, selret; unixsock_t *us = &pi->us; char *buf = NULL; fd_set readfds; tv_t timeout; reset: timeout.tv_sec = ckp->update_interval; retry: FD_ZERO(&readfds); FD_SET(us->sockd, &readfds); selret = select(us->sockd + 1, &readfds, NULL, NULL, &timeout); if (selret < 0) { if (interrupted()) goto retry; LOGERR("Select failed in strat_loop"); ret = 1; goto out; } if (!selret) { LOGDEBUG("%ds elapsed in strat_loop, updating gbt base", ckp->update_interval); update_base(ckp); goto reset; } sockd = accept(us->sockd, NULL, NULL); if (sockd < 0) { if (interrupted()) goto retry; LOGERR("Failed to accept on stratifier socket"); ret = 1; goto out; } dealloc(buf); buf = recv_unix_msg(sockd); if (!buf) { LOGWARNING("Failed to get message in strat_loop"); close(sockd); goto retry; } LOGDEBUG("Stratifier received request: %s", buf); if (!strncasecmp(buf, "shutdown", 8)) goto out; else if (!strncasecmp(buf, "update", 6)) { update_base(ckp); goto reset; } else { json_t *val = json_loads(buf, 0, NULL); if (!val) { LOGDEBUG("Received unrecognised message: %s", buf); } else stratum_add_recvd(val); goto retry; } out: dealloc(buf); return ret; } static void *blockupdate(void *arg) { ckpool_t *ckp = (ckpool_t *)arg; char *buf = NULL, hash[68]; char request[8]; rename_proc("blockupdate"); buf = send_recv_proc(&ckp->generator, "getbest"); if (buf && strncasecmp(buf, "Failed", 6)) sprintf(request, "getbest"); else sprintf(request, "getlast"); memset(hash, 0, 68); while (42) { dealloc(buf); buf = send_recv_proc(&ckp->generator, request); if (buf && strcmp(buf, hash) && strncasecmp(buf, "Failed", 6)) { strcpy(hash, buf); LOGINFO("Detected hash change to %s", hash); send_proc(&ckp->stratifier, "update"); } else cksleep_ms(ckp->blockpoll); } return NULL; } static void *stratum_receiver(void *arg) { ckpool_t *ckp = (ckpool_t *)arg; stratum_msg_t *msg; rename_proc("receiver"); while (42) { stratum_instance_t *instance; /* Pop the head off the list if it exists or wait for a conditional * signal telling us there is work */ mutex_lock(&stratum_recv_lock); if (!stratum_recvs) pthread_cond_wait(&stratum_recv_cond, &stratum_recv_lock); msg = stratum_recvs; if (likely(msg)) LL_DELETE(stratum_recvs, msg); mutex_unlock(&stratum_recv_lock); if (unlikely(!msg)) continue; msg->client_id = json_integer_value(json_object_get(msg->json_msg, "client_id")); json_object_del(msg->json_msg, "client_id"); /* Parse the message here */ ck_ilock(&instance_lock); instance = __instance_by_id(msg->client_id); if (!instance) { /* client_id instance doesn't exist yet, create one */ ck_ulock(&instance_lock); instance = __stratum_add_instance(msg->client_id); ck_dwilock(&instance_lock); } ck_uilock(&instance_lock); char *s = json_dumps(msg->json_msg, 0); LOGERR("Client %d sent message %s", msg->client_id, s); free(s); json_decref(msg->json_msg); free(msg); } return NULL; } static void *stratum_sender(void *arg) { ckpool_t *ckp = (ckpool_t *)arg; stratum_msg_t *msg; rename_proc("sender"); while (42) { char *s; mutex_lock(&stratum_send_lock); if (!stratum_sends) pthread_cond_wait(&stratum_send_cond, &stratum_send_lock); msg = stratum_sends; if (likely(msg)) LL_DELETE(stratum_sends, msg); mutex_unlock(&stratum_send_lock); if (unlikely(!msg)) continue; /* Add client_id to the json message and send it to the * connector process to be delivered */ json_object_set_new_nocheck(msg->json_msg, "client_id", json_integer(msg->client_id)); s = json_dumps(msg->json_msg, 0); send_proc(&ckp->connector, s); free(s); json_decref(msg->json_msg); free(msg); } return NULL; } int stratifier(proc_instance_t *pi) { pthread_t pth_blockupdate, pth_stratum_receiver, pth_stratum_sender; ckpool_t *ckp = pi->ckp; int ret = 0; /* Store this for use elsewhere */ hex2bin(scriptsig_header_bin, scriptsig_header, 41); address_to_pubkeytxn(pubkeytxnbin, ckp->btcaddress); __bin2hex(pubkeytxn, pubkeytxnbin, 25); cklock_init(&instance_lock); mutex_init(&stratum_recv_lock); cond_init(&stratum_recv_cond); create_pthread(&pth_stratum_receiver, stratum_receiver, ckp); mutex_init(&stratum_send_lock); cond_init(&stratum_send_cond); create_pthread(&pth_stratum_sender, stratum_sender, ckp); cklock_init(&workbase_lock); create_pthread(&pth_blockupdate, blockupdate, ckp); strat_loop(ckp, pi); return ret; }