/* * Copyright 2013-2014 sgminer developers (see AUTHORS.md) * Copyright 2011-2013 Con Kolivas * Copyright 2011-2012 Luke Dashjr * Copyright 2010 Jeff Garzik * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "compat.h" #include "miner.h" #include "config_parser.h" #include "driver-opencl.h" #include "bench_block.h" #include "algorithm.h" #include "pool.h" #ifdef HAVE_ADL #include "adl.h" #endif #if defined(unix) || defined(__APPLE__) #include #include #include #endif char *cnfbuf = NULL; //config file loaded int fileconf_load; //config file load status const char def_conf[] = "sgminer.conf"; char *default_config; bool config_loaded; //static int include_count; int json_array_index = -1; //current array index being parsed char *last_json_error = NULL; //last json_error /*#define JSON_MAX_DEPTH 10 #define JSON_MAX_DEPTH_ERR "Too many levels of JSON includes (limit 10) or a loop"*/ /******************************************* * Profile list functions *******************************************/ struct profile default_profile; struct profile **profiles; int total_profiles; static struct profile *add_profile() { struct profile *profile; char buf[32]; if(!(profile = (struct profile *)calloc(sizeof(struct profile), 1))) quit(1, "Failed to calloc profile in add_profile"); profile->profile_no = total_profiles; //default profile name is the profile index sprintf(buf, "%d", profile->profile_no); profile->name = strdup(buf); profile->algorithm.name[0] = '\0'; profiles = (struct profile **)realloc(profiles, sizeof(struct profile *) * (total_profiles + 2)); profiles[total_profiles++] = profile; return profile; } static void remove_profile(struct profile *profile) { int i; int found = 0; for(i = 0; i < (total_profiles - 1); i++) { //look for the profile if(profiles[i]->profile_no == profile->profile_no) found = 1; //once we found the profile, change the current index profile to next if(found) { profiles[i] = profiles[i+1]; profiles[i]->profile_no = i; } } //give the profile an invalid number and remove profile->profile_no = total_profiles; profile->removed = true; total_profiles--; } //only used while loading config static struct profile *get_current_profile() { while ((json_array_index + 1) > total_profiles) add_profile(); if (json_array_index < 0) { if (!total_profiles) add_profile(); return profiles[total_profiles - 1]; } return profiles[json_array_index]; } //find a profile by name static struct profile *get_profile(char *name) { int i; for(i=total_profiles;i--;) { if(!strcasecmp(profiles[i]->name, name)) return profiles[i]; } return NULL; } /******* Default profile functions used during config parsing *****/ char *set_default_algorithm(const char *arg) { set_algorithm(&default_profile.algorithm, arg); applog(LOG_INFO, "Set default algorithm to %s", default_profile.algorithm.name); return NULL; } char *set_default_nfactor(const char *arg) { set_algorithm_nfactor(&default_profile.algorithm, (const uint8_t) atoi(arg)); applog(LOG_INFO, "Set algorithm N-factor to %d (N to %d)", default_profile.algorithm.nfactor); return NULL; } char *set_default_devices(const char *arg) { default_profile.devices = arg; return NULL; } char *set_default_lookup_gap(const char *arg) { default_profile.lookup_gap = arg; return NULL; } char *set_default_intensity(const char *arg) { default_profile.intensity = arg; return NULL; } char *set_default_xintensity(const char *arg) { default_profile.xintensity = arg; return NULL; } char *set_default_rawintensity(const char *arg) { default_profile.rawintensity = arg; return NULL; } char *set_default_thread_concurrency(const char *arg) { default_profile.thread_concurrency = arg; return NULL; } #ifdef HAVE_ADL char *set_default_gpu_engine(const char *arg) { default_profile.gpu_engine = arg; return NULL; } char *set_default_gpu_memclock(const char *arg) { default_profile.gpu_memclock = arg; return NULL; } char *set_default_gpu_threads(const char *arg) { default_profile.gpu_threads = arg; return NULL; } char *set_default_gpu_fan(const char *arg) { default_profile.gpu_fan = arg; return NULL; } char *set_default_gpu_powertune(const char *arg) { default_profile.gpu_powertune = arg; return NULL; } char *set_default_gpu_vddc(const char *arg) { default_profile.gpu_vddc = arg; return NULL; } #endif char *set_default_profile(char *arg) { default_profile.name = arg; return NULL; } char *set_default_shaders(const char *arg) { default_profile.shaders = arg; return NULL; } char *set_default_worksize(const char *arg) { default_profile.worksize = arg; return NULL; } /****** Profile functions used in during config parsing ********/ char *set_profile_name(const char *arg) { struct profile *profile = get_current_profile(); applog(LOG_DEBUG, "Setting profile %i name to %s", profile->profile_no, arg); opt_set_charp(arg, &profile->name); return NULL; } char *set_profile_algorithm(const char *arg) { struct profile *profile = get_current_profile(); //applog(LOG_DEBUG, "Setting profile %s algorithm to %s", profile->name, arg); set_algorithm(&profile->algorithm, arg); return NULL; } char *set_profile_devices(const char *arg) { struct profile *profile = get_current_profile(); profile->devices = arg; return NULL; } char *set_profile_lookup_gap(const char *arg) { struct profile *profile = get_current_profile(); profile->lookup_gap = arg; return NULL; } char *set_profile_intensity(const char *arg) { struct profile *profile = get_current_profile(); profile->intensity = arg; return NULL; } char *set_profile_xintensity(const char *arg) { struct profile *profile = get_current_profile(); profile->xintensity = arg; return NULL; } char *set_profile_rawintensity(const char *arg) { struct profile *profile = get_current_profile(); profile->rawintensity = arg; return NULL; } char *set_profile_thread_concurrency(const char *arg) { struct profile *profile = get_current_profile(); profile->thread_concurrency = arg; return NULL; } #ifdef HAVE_ADL char *set_profile_gpu_engine(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_engine = arg; return NULL; } char *set_profile_gpu_memclock(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_memclock = arg; return NULL; } char *set_profile_gpu_threads(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_threads = arg; return NULL; } char *set_profile_gpu_fan(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_fan = arg; return NULL; } char *set_profile_gpu_powertune(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_powertune = arg; return NULL; } char *set_profile_gpu_vddc(const char *arg) { struct profile *profile = get_current_profile(); profile->gpu_vddc = arg; return NULL; } #endif char *set_profile_nfactor(const char *arg) { struct profile *profile = get_current_profile(); applog(LOG_DEBUG, "Setting profile %s N-factor to %s", profile->name, arg); set_algorithm_nfactor(&profile->algorithm, (const uint8_t) atoi(arg)); return NULL; } char *set_profile_shaders(const char *arg) { struct profile *profile = get_current_profile(); profile->shaders = arg; return NULL; } char *set_profile_worksize(const char *arg) { struct profile *profile = get_current_profile(); profile->worksize = arg; return NULL; } /*************************************** * Helper Functions ****************************************/ json_t *json_sprintf(const char *fmt, ...) { va_list args; char *buf; size_t bufsize; //build args va_start(args, fmt); //get final string buffer size bufsize = vsnprintf(NULL, 0, fmt, args); va_end(args); if(!(buf = (char *)malloc(++bufsize))) quit(1, "Malloc failure in config_parser::json_sprintf()."); //zero out buffer memset(buf, '\0', bufsize); //get args again va_start(args, fmt); vsnprintf(buf, bufsize, fmt, args); va_end(args); //return json string return json_string(buf); } //set last json error char *set_last_json_error(const char *fmt, ...) { va_list args; size_t bufsize; //build args va_start(args, fmt); //get final string buffer size bufsize = vsnprintf(NULL, 0, fmt, args); va_end(args); //if NULL allocate memory... otherwise reallocate if(!last_json_error) { if(!(last_json_error = (char *)malloc(++bufsize))) quit(1, "Malloc failure in config_parser::set_last_json_error()."); } else { if(!(last_json_error = (char *)realloc(last_json_error, ++bufsize))) quit(1, "Realloc failure in config_parser::set_last_json_error()."); } //zero out buffer memset(last_json_error, '\0', bufsize); //get args again va_start(args, fmt); vsnprintf(last_json_error, bufsize, fmt, args); va_end(args); return last_json_error; } //find opt by name in an opt table static struct opt_table *opt_find(struct opt_table *tbl, char *optname) { struct opt_table *opt; char *p, *name; for(opt = tbl;opt->type != OPT_END;opt++) { /* We don't handle subtables. */ assert(!(opt->type & OPT_SUBTABLE)); if(!opt->names) continue; /* Pull apart the option name(s). */ name = strdup(opt->names); for(p = strtok(name, "|");p;p = strtok(NULL, "|")) { /* Ignore short options. */ if(p[1] != '-') continue; //if this is the opt we're looking for, return it... if(!strcasecmp(optname, p)) { free(name); return opt; } } free(name); } return NULL; } /*************************************** * Config Parsing Functions ****************************************/ //Handle parsing JSON objects void parse_config_object(json_t *obj, const char *parentkey, bool fileconf, int parent_iteration) { //char *err = NULL; const char *key; json_t *val; json_object_foreach(obj, key, val) { //process include if(!strcasecmp(key, "include")) { if(val && json_is_string(val)) load_config(json_string_value(val), parentkey, NULL); } else parse_config(val, key, parentkey, fileconf, parent_iteration); /* { if((err = parse_config(val, key, parentkey, fileconf, parent_iteration))) return err; }*/ } } //Handle parsing JSON arrays static char *parse_config_array(json_t *obj, char *parentkey, bool fileconf) { char *err = NULL; size_t idx; json_t *val; //fix parent key - remove extra "s" to match opt names (e.g. --pool-gpu-memclock not --pools-gpu-memclock) if(!strcasecmp(parentkey, "pools") || !strcasecmp(parentkey, "profiles")) parentkey[(strlen(parentkey) - 1)] = '\0'; json_array_foreach(obj, idx, val) { //abort on error if((err = parse_config(val, "", parentkey, fileconf, idx))) return err; } return NULL; } //Parse JSON values from config file char *parse_config(json_t *val, const char *key, const char *parentkey, bool fileconf, int parent_iteration) { static char err_buf[200]; char *err = NULL; struct opt_table *opt; char optname[255]; /*const char *key json_t *val;*/ json_array_index = parent_iteration; if (fileconf && !fileconf_load) fileconf_load = 1; /* parse the json config items into opts instead of looking for opts in the json config... This adds greater flexibility with config files. */ switch(json_typeof(val)) { //json value is an object case JSON_OBJECT: parse_config_object(val, parentkey, false, parent_iteration); break; //json value is an array case JSON_ARRAY: err = parse_config_array(val, (char *)key, fileconf); break; //other json types process here default: //convert json key to opt name sprintf(optname, "--%s%s%s", ((!empty_string(parentkey))?parentkey:""), ((!empty_string(parentkey))?"-":""), key); //look up opt name in config table if((opt = opt_find(opt_config_table, optname)) != NULL) { //strings if ((opt->type & OPT_HASARG) && json_is_string(val)) err = opt->cb_arg(json_string_value(val), opt->u.arg); //boolean values else if ((opt->type & OPT_NOARG) && json_is_true(val)) err = opt->cb(opt->u.arg); else err = "Invalid value"; } else err = "Invalid option"; break; } //error processing JSON... if(err) { /* Allow invalid values to be in configuration * file, just skipping over them provided the * JSON is still valid after that. */ if(fileconf) { applog(LOG_WARNING, "Skipping config option %s: %s", optname+2, err); fileconf_load = -1; } else { snprintf(err_buf, sizeof(err_buf), "Error parsing JSON option %s: %s", optname+2, err); return err_buf; } } return NULL; } char *load_config(const char *arg, const char *parentkey, void __maybe_unused *unused) { json_error_t err; json_t *config; //most likely useless but leaving it here for now... if(!cnfbuf) cnfbuf = strdup(arg); //no need to restrict the number of includes... if it causes problems, restore it later /*if(++include_count > JSON_MAX_DEPTH) return JSON_MAX_DEPTH_ERR; */ #if JANSSON_MAJOR_VERSION > 1 config = json_load_file(arg, 0, &err); #else config = json_load_file(arg, &err); #endif //if json root is not an object, error out if(!json_is_object(config)) return set_last_json_error("Error: JSON decode of file \"%s\" failed:\n %s", arg, err.text); config_loaded = true; /* Parse the config now, so we can override it. That can keep pointers * so don't free config object. */ return parse_config(config, "", parentkey, true, -1); } char *set_default_config(const char *arg) { opt_set_charp(arg, &default_config); return NULL; } void load_default_config(void) { cnfbuf = (char *)malloc(PATH_MAX); default_save_file(cnfbuf); if (!access(cnfbuf, R_OK)) load_config(cnfbuf, "", NULL); else { free(cnfbuf); cnfbuf = NULL; } } /******************************************* * Startup functions * *****************************************/ // assign default settings from default profile if set void load_default_profile() { struct profile *profile; if (empty_string(default_profile.name)) return; applog(LOG_DEBUG, "default_profile.name is %s", default_profile.name); // find profile ... if(!(profile = get_profile(default_profile.name))) { applog(LOG_WARNING, "Could not load default profile %s", default_profile.name); return; } // ... and copy settings if(!empty_string(profile->algorithm.name)) set_algorithm(&default_profile.algorithm, profile->algorithm.name); if(!empty_string(profile->devices)) default_profile.devices = profile->devices; if(!empty_string(profile->lookup_gap)) default_profile.lookup_gap = profile->lookup_gap; if(!empty_string(profile->intensity)) default_profile.intensity = profile->intensity; if(!empty_string(profile->xintensity)) default_profile.xintensity = profile->xintensity; if(!empty_string(profile->rawintensity)) default_profile.rawintensity = profile->rawintensity; if(!empty_string(profile->thread_concurrency)) default_profile.thread_concurrency = profile->thread_concurrency; #ifdef HAVE_ADL if(!empty_string(profile->gpu_engine)) default_profile.gpu_engine = profile->gpu_engine; if(!empty_string(profile->gpu_memclock)) default_profile.gpu_memclock = profile->gpu_memclock; if(!empty_string(profile->gpu_threads)) default_profile.gpu_threads = profile->gpu_threads; if(!empty_string(profile->gpu_fan)) default_profile.gpu_fan = profile->gpu_fan; if(!empty_string(profile->gpu_powertune)) default_profile.gpu_powertune = profile->gpu_powertune; if(!empty_string(profile->gpu_vddc)) default_profile.gpu_vddc = profile->gpu_vddc; #endif if(!empty_string(profile->shaders)) default_profile.shaders = profile->shaders; if(!empty_string(profile->worksize)) default_profile.worksize = profile->worksize; } //apply default settings void apply_defaults() { //if no algorithm specified, use scrypt as default if (empty_string(default_profile.algorithm.name)) set_algorithm(&default_profile.algorithm, "scrypt"); //by default all unless specified if (empty_string(default_profile.devices)) default_profile.devices = strdup("all"); set_devices((char *)default_profile.devices); //set raw intensity first if (!empty_string(default_profile.rawintensity)) set_rawintensity(default_profile.rawintensity); //then try xintensity else if (!empty_string(default_profile.xintensity)) set_xintensity(default_profile.xintensity); //then try intensity else if (!empty_string(default_profile.intensity)) set_intensity(default_profile.intensity); if (!empty_string(default_profile.lookup_gap)) set_lookup_gap((char *)default_profile.lookup_gap); if (!empty_string(default_profile.thread_concurrency)) set_thread_concurrency(default_profile.thread_concurrency); #ifdef HAVE_ADL if (!empty_string(default_profile.gpu_engine)) set_gpu_engine(default_profile.gpu_engine); if (!empty_string(default_profile.gpu_memclock)) set_gpu_memclock(default_profile.gpu_memclock); if (!empty_string(default_profile.gpu_threads)) set_gpu_threads(default_profile.gpu_threads); if (!empty_string(default_profile.gpu_fan)) set_gpu_fan(default_profile.gpu_fan); if (!empty_string(default_profile.gpu_powertune)) set_gpu_powertune((char *)default_profile.gpu_powertune); if (!empty_string(default_profile.gpu_vddc)) set_gpu_vddc((char *)default_profile.gpu_vddc); #endif if (!empty_string(default_profile.shaders)) set_shaders((char *)default_profile.shaders); if (!empty_string(default_profile.worksize)) set_worksize((char *)default_profile.worksize); } //apply profile settings to pools void apply_pool_profiles() { int i; for (i=total_pools; i--;) { apply_pool_profile(pools[i]); } } void apply_pool_profile(struct pool *pool) { struct profile *profile; //if the pool has a profile set load it if(!empty_string(pool->profile)) { applog(LOG_DEBUG, "Loading settings from profile \"%s\" for pool %i", pool->profile, pool->pool_no); //find profile and apply settings to the pool if(!(profile = get_profile(pool->profile))) { //if not found, remove profile name and use default profile. applog(LOG_DEBUG, "Profile load failed for pool %i: profile %s not found. Using default profile.", pool->pool_no, pool->profile); //remove profile name pool->profile[0] = '\0'; profile = &default_profile; } } //no profile specified in pool, use default profile else { applog(LOG_DEBUG, "Loading settings from default_profile for pool %i", pool->profile, pool->pool_no); profile = &default_profile; } //only apply profiles settings not already defined in the pool //if no algorithm is specified, use profile's or default profile's if(empty_string(pool->algorithm.name)) { if(!empty_string(profile->algorithm.name)) pool->algorithm = profile->algorithm; else pool->algorithm = default_profile.algorithm; } applog(LOG_DEBUG, "Pool %i Algorithm set to \"%s\"", pool->pool_no, pool->algorithm.name); if(pool_cmp(pool->devices, default_profile.devices)) { if(!empty_string(profile->devices)) pool->devices = profile->devices; else pool->devices = default_profile.devices; } applog(LOG_DEBUG, "Pool %i devices set to \"%s\"", pool->pool_no, pool->devices); if(pool_cmp(pool->lookup_gap, default_profile.lookup_gap)) { if(!empty_string(profile->lookup_gap)) pool->lookup_gap = profile->lookup_gap; else pool->lookup_gap = default_profile.lookup_gap; } applog(LOG_DEBUG, "Pool %i lookup gap set to \"%s\"", pool->pool_no, pool->lookup_gap); if(pool_cmp(pool->intensity, default_profile.intensity)) { if(!empty_string(profile->intensity)) pool->intensity = profile->intensity; else pool->intensity = default_profile.intensity; } applog(LOG_DEBUG, "Pool %i Intensity set to \"%s\"", pool->pool_no, pool->intensity); if(pool_cmp(pool->xintensity, default_profile.xintensity)) { if(!empty_string(profile->xintensity)) pool->xintensity = profile->xintensity; else pool->xintensity = default_profile.xintensity; } applog(LOG_DEBUG, "Pool %i XIntensity set to \"%s\"", pool->pool_no, pool->xintensity); if(pool_cmp(pool->rawintensity, default_profile.rawintensity)) { if(!empty_string(profile->rawintensity)) pool->rawintensity = profile->rawintensity; else pool->rawintensity = default_profile.rawintensity; } applog(LOG_DEBUG, "Pool %i Raw Intensity set to \"%s\"", pool->pool_no, pool->rawintensity); if(pool_cmp(pool->thread_concurrency, default_profile.thread_concurrency)) { if(!empty_string(profile->thread_concurrency)) pool->thread_concurrency = profile->thread_concurrency; else pool->thread_concurrency = default_profile.thread_concurrency; } applog(LOG_DEBUG, "Pool %i Thread Concurrency set to \"%s\"", pool->pool_no, pool->thread_concurrency); #ifdef HAVE_ADL if(pool_cmp(pool->gpu_engine, default_profile.gpu_engine)) { if(!empty_string(profile->gpu_engine)) pool->gpu_engine = profile->gpu_engine; else pool->gpu_engine = default_profile.gpu_engine; } applog(LOG_DEBUG, "Pool %i GPU Clock set to \"%s\"", pool->pool_no, pool->gpu_engine); if(pool_cmp(pool->gpu_memclock, default_profile.gpu_memclock)) { if(!empty_string(profile->gpu_memclock)) pool->gpu_memclock = profile->gpu_memclock; else pool->gpu_memclock = default_profile.gpu_memclock; } applog(LOG_DEBUG, "Pool %i GPU Memory clock set to \"%s\"", pool->pool_no, pool->gpu_memclock); if(pool_cmp(pool->gpu_threads, default_profile.gpu_threads)) { if(!empty_string(profile->gpu_threads)) pool->gpu_threads = profile->gpu_threads; else pool->gpu_threads = default_profile.gpu_threads; } applog(LOG_DEBUG, "Pool %i GPU Threads set to \"%s\"", pool->pool_no, pool->gpu_threads); if(pool_cmp(pool->gpu_fan, default_profile.gpu_fan)) { if(!empty_string(profile->gpu_fan)) pool->gpu_fan = profile->gpu_fan; else pool->gpu_fan = default_profile.gpu_fan; } applog(LOG_DEBUG, "Pool %i GPU Fan set to \"%s\"", pool->pool_no, pool->gpu_fan); if(pool_cmp(pool->gpu_powertune, default_profile.gpu_powertune)) { if(!empty_string(profile->gpu_powertune)) pool->gpu_powertune = profile->gpu_powertune; else pool->gpu_powertune = default_profile.gpu_powertune; } applog(LOG_DEBUG, "Pool %i GPU Powertune set to \"%s\"", pool->pool_no, pool->gpu_powertune); if(pool_cmp(pool->gpu_vddc, default_profile.gpu_vddc)) { if(!empty_string(profile->gpu_vddc)) pool->gpu_vddc = profile->gpu_vddc; else pool->gpu_vddc = default_profile.gpu_vddc; } applog(LOG_DEBUG, "Pool %i GPU Vddc set to \"%s\"", pool->pool_no, pool->gpu_vddc); #endif if(pool_cmp(pool->shaders, default_profile.shaders)) { if(!empty_string(profile->shaders)) pool->shaders = profile->shaders; else pool->shaders = default_profile.shaders; } applog(LOG_DEBUG, "Pool %i Shaders set to \"%s\"", pool->pool_no, pool->shaders); if(pool_cmp(pool->worksize, default_profile.worksize)) { if(!empty_string(profile->worksize)) pool->worksize = profile->worksize; else pool->worksize = default_profile.worksize; } applog(LOG_DEBUG, "Pool %i Worksize set to \"%s\"", pool->pool_no, pool->worksize); } //helper function to add json values to pool object static bool build_pool_json_add(json_t *object, const char *key, const char *val, const char *str_compare, int id) { if(!empty_string(val)) { if(safe_cmp(str_compare, val)) { if(json_object_set(object, key, json_string(val)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):%s", id, key); return false; } } } return true; } //builds the "pools" json array for config file json_t *build_pool_json() { json_t *pool_array, *obj; struct pool *pool; struct profile *profile; int i; //create the "pools" array if(!(pool_array = json_array())) { set_last_json_error("json_array() failed on pools"); return NULL; } //process pool entries for(i=0;ipool_no); return NULL; } //pool name if(!empty_string(pool->name)) { if(json_object_set(obj, "name", json_string(pool->name)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):name", pool->pool_no); return NULL; } } //add quota/url if(pool->quota != 1) { if(json_object_set(obj, "quota", json_sprintf("%s%s%s%d;%s", ((pool->rpc_proxy)?(char *)proxytype(pool->rpc_proxytype):""), ((pool->rpc_proxy)?pool->rpc_proxy:""), ((pool->rpc_proxy)?"|":""), pool->quota, pool->rpc_url)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):quota", pool->pool_no); return NULL; } } else { if(json_object_set(obj, "url", json_sprintf("%s%s%s%s", ((pool->rpc_proxy)?(char *)proxytype(pool->rpc_proxytype):""), ((pool->rpc_proxy)?pool->rpc_proxy:""), ((pool->rpc_proxy)?"|":""), pool->rpc_url)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):url", pool->pool_no); return NULL; } } //user if(json_object_set(obj, "user", json_string(pool->rpc_user)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):user", pool->pool_no); return NULL; } //pass if(json_object_set(obj, "pass", json_string(pool->rpc_pass)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):pass", pool->pool_no); return NULL; } if(!pool->extranonce_subscribe) { if(json_object_set(obj, "no-extranonce", json_true()) == -1) { set_last_json_error("json_object_set() failed on pool(%d):no-extranonce", pool->pool_no); return NULL; } } if(!empty_string(pool->description)) { if(json_object_set(obj, "description", json_string(pool->description)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):description", pool->pool_no); return NULL; } } //if priority isnt the same as array index, specify it if(pool->prio != i) { if(json_object_set(obj, "priority", json_sprintf("%d", pool->prio)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):description", pool->pool_no); return NULL; } } //if a profile was specified, add it then compare pool/profile settings to see what we write if(!empty_string(pool->profile)) { if((profile = get_profile(pool->profile))) { //save profile name if(json_object_set(obj, "profile", json_string(pool->profile)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):profile", pool->pool_no); return NULL; } } //profile not found use default profile else profile = &default_profile; } //or select default profile else profile = &default_profile; //if algorithm is different than profile, add it if(!cmp_algorithm(&pool->algorithm, &profile->algorithm)) { //save algorithm name if(json_object_set(obj, "algorithm", json_string(pool->algorithm.name)) == -1) { set_last_json_error("json_object_set() failed on pool(%d):algorithm", pool->pool_no); return NULL; } //TODO: add other options like nfactor etc... } //if pool and profile value doesn't match below, add it //devices if(!build_pool_json_add(obj, "device", pool->devices, profile->devices, pool->pool_no)) return NULL; //lookup-gap if(!build_pool_json_add(obj, "lookup-gap", pool->lookup_gap, profile->lookup_gap, pool->pool_no)) return NULL; //intensity if(!build_pool_json_add(obj, "intensity", pool->intensity, profile->intensity, pool->pool_no)) return NULL; //xintensity if(!build_pool_json_add(obj, "xintensity", pool->xintensity, profile->xintensity, pool->pool_no)) return NULL; //rawintensity if(!build_pool_json_add(obj, "rawintensity", pool->rawintensity, profile->rawintensity, pool->pool_no)) return NULL; //shaders if(!build_pool_json_add(obj, "shaders", pool->shaders, profile->shaders, pool->pool_no)) return NULL; //thread_concurrency if(!build_pool_json_add(obj, "thread-concurrency", pool->thread_concurrency, profile->thread_concurrency, pool->pool_no)) return NULL; //worksize if(!build_pool_json_add(obj, "worksize", pool->worksize, profile->worksize, pool->pool_no)) return NULL; #ifdef HAVE_ADL //gpu_engine if(!build_pool_json_add(obj, "gpu-engine", pool->gpu_engine, profile->gpu_engine, pool->pool_no)) return NULL; //gpu_memclock if(!build_pool_json_add(obj, "gpu-memclock", pool->gpu_memclock, profile->gpu_memclock, pool->pool_no)) return NULL; //gpu_threads if(!build_pool_json_add(obj, "gpu-threads", pool->gpu_threads, profile->gpu_threads, pool->pool_no)) return NULL; //gpu_fan if(!build_pool_json_add(obj, "gpu-fan", pool->gpu_fan, profile->gpu_fan, pool->pool_no)) return NULL; //gpu-powertune if(!build_pool_json_add(obj, "gpu-powertune", pool->gpu_powertune, profile->gpu_powertune, pool->pool_no)) return NULL; //gpu-vddc if(!build_pool_json_add(obj, "gpu-vddc", pool->gpu_vddc, profile->gpu_vddc, pool->pool_no)) return NULL; #endif //all done, add pool to array... if(json_array_append_new(pool_array, obj) == -1) { set_last_json_error("json_array_append() failed on pool %d", pool->pool_no); return NULL; } } return pool_array; } //helper function to add json values to profile object static bool build_profile_json_add(json_t *object, const char *key, const char *val, const char *str_compare, bool isdefault, int id) { if(!empty_string(val)) { //always add if default profile is this profile if(safe_cmp(str_compare, val) || isdefault) { if(json_object_set(object, key, json_string(val)) == -1) { set_last_json_error("json_object_set() failed on profile(%d):%s", id, key); return false; } } } return true; } //builds the "profiles" json array for config file json_t *build_profile_json() { json_t *profile_array, *obj; struct profile *profile; bool isdefault; int i; //create the "pools" array if(!(profile_array = json_array())) { set_last_json_error("json_array() failed on profiles"); return NULL; } //process pool entries for(i=0;iname, default_profile.name)) isdefault = true; } //create a new object if(!(obj = json_object())) { set_last_json_error("json_object() failed on profile %d", profile->profile_no); return NULL; } //profile name if(!empty_string(profile->name)) { if(json_object_set(obj, "name", json_string(profile->name)) == -1) { set_last_json_error("json_object_set() failed on profile(%d):name", profile->profile_no); return NULL; } } //if algorithm is different than profile, add it - if default profile is the current profile, always add if(!cmp_algorithm(&default_profile.algorithm, &profile->algorithm) || !strcasecmp(default_profile.name, profile->name)) { //save algorithm name if(json_object_set(obj, "algorithm", json_string(profile->algorithm.name)) == -1) { set_last_json_error("json_object_set() failed on profile(%d):algorithm", profile->profile_no); return NULL; } //TODO: add other options like nfactor etc... } //if pool and profile value doesn't match below, add it //devices if(!build_profile_json_add(obj, "device", profile->devices, default_profile.devices, isdefault, profile->profile_no)) return NULL; //lookup-gap if(!build_profile_json_add(obj, "lookup-gap", profile->lookup_gap, default_profile.lookup_gap, isdefault, profile->profile_no)) return NULL; //intensity if(!build_profile_json_add(obj, "intensity", profile->intensity, default_profile.intensity, isdefault, profile->profile_no)) return NULL; //xintensity if(!build_profile_json_add(obj, "xintensity", profile->xintensity, default_profile.xintensity, isdefault, profile->profile_no)) return NULL; //rawintensity if(!build_profile_json_add(obj, "rawintensity", profile->rawintensity, default_profile.rawintensity, isdefault, profile->profile_no)) return NULL; //shaders if(!build_profile_json_add(obj, "shaders", profile->shaders, default_profile.shaders, isdefault, profile->profile_no)) return NULL; //thread_concurrency if(!build_profile_json_add(obj, "thread-concurrency", profile->thread_concurrency, default_profile.thread_concurrency, isdefault, profile->profile_no)) return NULL; //worksize if(!build_profile_json_add(obj, "worksize", profile->worksize, default_profile.worksize, isdefault, profile->profile_no)) return NULL; #ifdef HAVE_ADL //gpu_engine if(!build_profile_json_add(obj, "gpu-engine", profile->gpu_engine, default_profile.gpu_engine, isdefault, profile->profile_no)) return NULL; //gpu_memclock if(!build_profile_json_add(obj, "gpu-memclock", profile->gpu_memclock, default_profile.gpu_memclock, isdefault, profile->profile_no)) return NULL; //gpu_threads if(!build_profile_json_add(obj, "gpu-threads", profile->gpu_threads, default_profile.gpu_threads, isdefault, profile->profile_no)) return NULL; //gpu_fan if(!build_profile_json_add(obj, "gpu-fan", profile->gpu_fan, default_profile.gpu_fan, isdefault, profile->profile_no)) return NULL; //gpu-powertune if(!build_profile_json_add(obj, "gpu-powertune", profile->gpu_powertune, default_profile.gpu_powertune, isdefault, profile->profile_no)) return NULL; //gpu-vddc if(!build_profile_json_add(obj, "gpu-vddc", profile->gpu_vddc, default_profile.gpu_vddc, isdefault, profile->profile_no)) return NULL; #endif //all done, add pool to array... if(json_array_append_new(profile_array, obj) == -1) { set_last_json_error("json_array_append() failed on profile %d", profile->profile_no); return NULL; } } return profile_array; } void write_config(const char *filename) { json_t *config, *obj; struct opt_table *opt; char *p, *optname; int i; if(!(config = json_object())) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object() failed on root."); return; } //build pools if(!(obj = build_pool_json())) { applog(LOG_ERR, "Error: config_parser::write_config():\n %s.", last_json_error); return; } //add pools to config if(json_object_set(config, "pools", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set(pools) failed."); return; } //build profiles if(!(obj = build_profile_json())) { applog(LOG_ERR, "Error: config_parser::write_config():\n %s.", last_json_error); return; } //add profiles to config if(json_object_set(config, "profiles", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set(profiles) failed."); return; } //pool strategy switch(pool_strategy) { case POOL_BALANCE: if(json_object_set(config, "balance", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on balance"); return; } break; case POOL_LOADBALANCE: if(json_object_set(config, "load-balance", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on load-balance"); return; } break; case POOL_ROUNDROBIN: if(json_object_set(config, "round-robin", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on round-robin"); return; } break; case POOL_ROTATE: if(json_object_set(config, "rotate", json_sprintf("%d", opt_rotate_period)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on rotate"); return; } break; //default failover only default: if(json_object_set(config, "failover-only", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on failover-only"); return; } break; } //if using a specific profile as default, set it if(!empty_string(default_profile.name)) { if(json_object_set(config, "default-profile", json_string(default_profile.name)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on default_profile"); return; } } //otherwise save default profile values else { //save algorithm name if(json_object_set(config, "algorithm", json_string(default_profile.algorithm.name)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on algorithm"); return; } //TODO: add other options like nfactor etc... //devices if(!empty_string(default_profile.devices)) { if(json_object_set(config, "devices", json_string(default_profile.devices)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on devices"); return; } } //lookup-gap if(!empty_string(default_profile.lookup_gap)) { if(json_object_set(config, "lookup-gap", json_string(default_profile.lookup_gap)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on lookup-gap"); return; } } //intensity if(!empty_string(default_profile.intensity)) { if(json_object_set(config, "intensity", json_string(default_profile.intensity)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on intensity"); return; } } //xintensity if(!empty_string(default_profile.xintensity)) { if(json_object_set(config, "xintensity", json_string(default_profile.xintensity)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on xintensity"); return; } } //rawintensity if(!empty_string(default_profile.rawintensity)) { if(json_object_set(config, "rawintensity", json_string(default_profile.rawintensity)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on rawintensity"); return; } } //shaders if(!empty_string(default_profile.shaders)) { if(json_object_set(config, "shaders", json_string(default_profile.shaders)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on shaders"); return; } } //thread_concurrency if(!empty_string(default_profile.thread_concurrency)) { if(json_object_set(config, "thread-concurrency", json_string(default_profile.thread_concurrency)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on thread_concurrency"); return; } } //worksize if(!empty_string(default_profile.worksize)) { if(json_object_set(config, "worksize", json_string(default_profile.worksize)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on worksize"); return; } } #ifdef HAVE_ADL //gpu_engine if(!empty_string(default_profile.gpu_engine)) { if(json_object_set(config, "gpu-engine", json_string(default_profile.gpu_engine)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-engine"); return; } } //gpu_memclock if(!empty_string(default_profile.gpu_memclock)) { if(json_object_set(config, "gpu-memclock", json_string(default_profile.gpu_memclock)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-memclock"); return; } } //gpu_threads if(!empty_string(default_profile.gpu_threads)) { if(json_object_set(config, "gpu-threads", json_string(default_profile.gpu_threads)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-threads"); return; } } //gpu_fan if(!empty_string(default_profile.gpu_fan)) { if(json_object_set(config, "gpu-fan", json_string(default_profile.gpu_fan)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-fan"); return; } } //gpu-powertune if(!empty_string(default_profile.gpu_powertune)) { if(json_object_set(config, "gpu-powertune", json_string(default_profile.gpu_powertune)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-powertune"); return; } } //gpu-vddc if(!empty_string(default_profile.gpu_vddc)) { if(json_object_set(config, "gpu-vddc", json_string(default_profile.gpu_vddc)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-vddc"); return; } } #endif } //devices /*if(opt_devs_enabled) { bool extra_devs = false; obj = json_string(""); for(i = 0; i < MAX_DEVICES; i++) { if(devices_enabled[i]) { int startd = i; if(extra_devs) obj = json_sprintf("%s%s", json_string_value(obj), ","); while (i < MAX_DEVICES && devices_enabled[i + 1]) ++i; obj = json_sprintf("%s%d", json_string_value(obj), startd); if(i > startd) obj = json_sprintf("%s-%d", json_string_value(obj), i); } } if(json_object_set(config, "devices", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on devices"); return; } }*/ //remove-disabled if(opt_removedisabled) { if(json_object_set(config, "remove-disabled", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on remove-disabled"); return; } } //write gpu settings that aren't part of profiles -- only write if gpus are available if(nDevs) { #ifdef HAVE_ADL //temp-cutoff for(i = 0;i < nDevs; i++) obj = json_sprintf("%s%s%d", ((i > 0)?json_string_value(obj):""), ((i > 0)?",":""), gpus[i].cutofftemp); if(json_object_set(config, "temp-cutoff", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on temp-cutoff"); return; } //temp-overheat for(i = 0;i < nDevs; i++) obj = json_sprintf("%s%s%d", ((i > 0)?json_string_value(obj):""), ((i > 0)?",":""), gpus[i].adl.overtemp); if(json_object_set(config, "temp-overheat", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on temp-overheat"); return; } //temp-target for(i = 0;i < nDevs; i++) obj = json_sprintf("%s%s%d", ((i > 0)?json_string_value(obj):""), ((i > 0)?",":""), gpus[i].adl.targettemp); if(json_object_set(config, "temp-target", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on temp-target"); return; } //reorder gpus if(opt_reorder) { if(json_object_set(config, "gpu-reorder", json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-reorder"); return; } } //gpu-memdiff for(i = 0;i < nDevs; i++) obj = json_sprintf("%s%s%d", ((i > 0)?json_string_value(obj):""), ((i > 0)?",":""), (int)gpus[i].gpu_memdiff); if(json_object_set(config, "gpu-memdiff", obj) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on gpu-memdiff"); return; } #endif } //add other misc options //shares if(json_object_set(config, "shares", json_sprintf("%d", opt_shares)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on shares"); return; } #if defined(unix) || defined(__APPLE__) //monitor if(opt_stderr_cmd && *opt_stderr_cmd) { if(json_object_set(config, "monitor", json_string(opt_stderr_cmd)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on monitor"); return; } } #endif // defined(unix) //kernel path if(opt_kernel_path && *opt_kernel_path) { //strip end / char *kpath = strdup(opt_kernel_path); if(kpath[strlen(kpath)-1] == '/') kpath[strlen(kpath)-1] = 0; if(json_object_set(config, "kernel-path", json_string(kpath)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on kernel-path"); return; } } //sched-time if(schedstart.enable) { if(json_object_set(config, "sched-time", json_sprintf("%d:%d", schedstart.tm.tm_hour, schedstart.tm.tm_min)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on sched-time"); return; } } //stop-time if(schedstop.enable) { if(json_object_set(config, "stop-time", json_sprintf("%d:%d", schedstop.tm.tm_hour, schedstop.tm.tm_min)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on stop-time"); return; } } //socks-proxy if(opt_socks_proxy && *opt_socks_proxy) { if(json_object_set(config, "socks-proxy", json_string(opt_socks_proxy)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on socks-proxy"); return; } } //api stuff //api-allow if(opt_api_allow) { if(json_object_set(config, "api-allow", json_string(opt_api_allow)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-allow"); return; } } //api-mcast-addr if(strcmp(opt_api_mcast_addr, API_MCAST_ADDR) != 0) { if(json_object_set(config, "api-mcast-addr", json_string(opt_api_mcast_addr)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-mcast-addr"); return; } } //api-mcast-code if(strcmp(opt_api_mcast_code, API_MCAST_CODE) != 0) { if(json_object_set(config, "api-mcast-code", json_string(opt_api_mcast_code)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-mcast-code"); return; } } //api-mcast-des if(*opt_api_mcast_des) { if(json_object_set(config, "api-mcast-des", json_string(opt_api_mcast_des)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-mcast-des"); return; } } //api-description if(strcmp(opt_api_description, PACKAGE_STRING) != 0) { if(json_object_set(config, "api-description", json_string(opt_api_description)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-description"); return; } } //api-groups if(opt_api_groups) { if(json_object_set(config, "api-groups", json_string(opt_api_groups)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on api-groups"); return; } } //add other misc bool/int options for(opt = opt_config_table; opt->type != OPT_END; opt++) { optname = strdup(opt->names); //ignore --pool-* and --profile-* options if(!strstr(optname, "--pool-") && !strstr(optname, "--profile-")) { //get first available long form option name for(p = strtok(optname, "|"); p; p = strtok(NULL, "|")) { //skip short options if(p[1] != '-') continue; //type bool if (opt->type & OPT_NOARG && ((void *)opt->cb == (void *)opt_set_bool || (void *)opt->cb == (void *)opt_set_invbool) && (*(bool *)opt->u.arg == ((void *)opt->cb == (void *)opt_set_bool))) { if(json_object_set(config, p+2, json_true()) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on %s.", p+2); return; } break; //exit for loop... so we don't enter a duplicate value if an option has multiple names } //numeric types else if (opt->type & OPT_HASARG && ((void *)opt->cb_arg == (void *)set_int_0_to_9999 || (void *)opt->cb_arg == (void *)set_int_1_to_65535 || (void *)opt->cb_arg == (void *)set_int_0_to_10 || (void *)opt->cb_arg == (void *)set_int_1_to_10) && opt->desc != opt_hidden) { if(json_object_set(config, p+2, json_sprintf("%d", *(int *)opt->u.arg)) == -1) { applog(LOG_ERR, "Error: config_parser::write_config():\n json_object_set() failed on %s.", p+2); return; } break; //exit for loop... so we don't enter a duplicate value if an option has multiple names } } } } json_dump_file(config, filename, JSON_PRESERVE_ORDER|JSON_INDENT(2)); } /********************************************* * API functions * *******************************************/ //profile parameters enum { PR_ALGORITHM, PR_NFACTOR, PR_LOOKUPGAP, PR_DEVICES, PR_INTENSITY, PR_XINTENSITY, PR_RAWINTENSITY, PR_GPUENGINE, PR_GPUMEMCLOCK, PR_GPUTHREADS, PR_GPUFAN, PR_GPUPOWERTUNE, PR_GPUVDDC, PR_SHADERS, PR_TC, PR_WORKSIZE }; void api_profile_list(struct io_data *io_data, __maybe_unused SOCKETTYPE c, __maybe_unused char *param, bool isjson, __maybe_unused char group) { struct api_data *root = NULL; struct profile *profile; char buf[TMPBUFSIZ]; bool io_open = false; bool b; int i; if (total_profiles == 0) { message(io_data, MSG_NOPROFILE, 0, NULL, isjson); return; } message(io_data, MSG_PROFILE, 0, NULL, isjson); if (isjson) io_open = io_add(io_data, COMSTR JSON_PROFILES); for (i = 0; i <= total_profiles; i++) { //last profile is the default profile if(i == total_profiles) profile = &default_profile; else profile = profiles[i]; //if default profile name is profile name or loop index is beyond the last profile, then it is the default profile b = (((i == total_profiles) || (!strcasecmp(default_profile.name, profile->name)))?true:false); root = api_add_int(root, "PROFILE", &i, false); root = api_add_escape(root, "Name", profile->name, true); root = api_add_bool(root, "IsDefault", &b, false); root = api_add_escape(root, "Algorithm", isnull((char *)profile->algorithm.name, ""), true); root = api_add_int(root, "NFactor", (int *)&profile->algorithm.nfactor, false); root = api_add_escape(root, "LookupGap", isnull((char *)profile->lookup_gap, ""), true); root = api_add_escape(root, "Devices", isnull((char *)profile->devices, ""), true); root = api_add_escape(root, "Intensity", isnull((char *)profile->intensity, ""), true); root = api_add_escape(root, "XIntensity", isnull((char *)profile->xintensity, ""), true); root = api_add_escape(root, "RawIntensity", isnull((char *)profile->rawintensity, ""), true); root = api_add_escape(root, "Gpu Engine", isnull((char *)profile->gpu_engine, ""), true); root = api_add_escape(root, "Gpu MemClock", isnull((char *)profile->gpu_memclock, ""), true); root = api_add_escape(root, "Gpu Threads", isnull((char *)profile->gpu_threads, ""), true); root = api_add_escape(root, "Gpu Fan%", isnull((char *)profile->gpu_fan, ""), true); root = api_add_escape(root, "Gpu Powertune%", isnull((char *)profile->gpu_powertune, ""), true); root = api_add_escape(root, "Gpu Vddc", isnull((char *)profile->gpu_vddc, ""), true); root = api_add_escape(root, "Shaders", isnull((char *)profile->shaders, ""), true); root = api_add_escape(root, "Thread Concurrency", isnull((char *)profile->thread_concurrency, ""), true); root = api_add_escape(root, "Worksize", isnull((char *)profile->worksize, ""), true); root = print_data(root, buf, isjson, isjson && (i > 0)); io_add(io_data, buf); } if (isjson && io_open) io_close(io_data); } void api_profile_add(struct io_data *io_data, __maybe_unused SOCKETTYPE c, char *param, bool isjson, __maybe_unused char group) { char *p; char *split_str; struct profile *profile; int idx; split_str = strdup(param); //split all params by colon (:) because the comma (,) can be used in some of those parameters if((p = strsep(&split_str, ":"))) { //get name first and see if the profile already exists if((profile = get_profile(p))) { message(io_data, MSG_PROFILEEXIST, 0, p, isjson); return; } //doesnt exist, create new profile profile = add_profile(); //assign name profile->name = strdup(p); //get other parameters idx = 0; while((p = strsep(&split_str, ":")) != NULL) { switch(idx) { case PR_ALGORITHM: set_algorithm(&profile->algorithm, p); break; case PR_NFACTOR: if(!empty_string(p)) set_algorithm_nfactor(&profile->algorithm, (const uint8_t)atoi(p)); break; case PR_LOOKUPGAP: if(!empty_string(p)) profile->lookup_gap = strdup(p); break; case PR_DEVICES: if(!empty_string(p)) profile->devices = strdup(p); break; case PR_INTENSITY: if(!empty_string(p)) profile->intensity = strdup(p); break; case PR_XINTENSITY: if(!empty_string(p)) profile->xintensity = strdup(p); break; case PR_RAWINTENSITY: if(!empty_string(p)) profile->rawintensity = strdup(p); break; case PR_GPUENGINE: if(!empty_string(p)) profile->gpu_engine = strdup(p); break; case PR_GPUMEMCLOCK: if(!empty_string(p)) profile->gpu_memclock = strdup(p); break; case PR_GPUTHREADS: if(!empty_string(p)) profile->gpu_threads = strdup(p); break; case PR_GPUFAN: if(!empty_string(p)) profile->gpu_fan = strdup(p); break; case PR_GPUPOWERTUNE: if(!empty_string(p)) profile->gpu_powertune = strdup(p); break; case PR_GPUVDDC: if(!empty_string(p)) profile->gpu_vddc = strdup(p); break; case PR_SHADERS: if(!empty_string(p)) profile->shaders = strdup(p); break; case PR_TC: if(!empty_string(p)) profile->thread_concurrency = strdup(p); break; case PR_WORKSIZE: if(!empty_string(p)) profile->worksize = strdup(p); break; default: //invalid option ignore break; } idx++; } } else { message(io_data, MSG_MISPRD, 0, NULL, isjson); return; } message(io_data, MSG_ADDPROFILE, 0, profile->name, isjson); } void api_profile_remove(struct io_data *io_data, __maybe_unused SOCKETTYPE c, char *param, bool isjson, __maybe_unused char group) { struct profile *profile; struct pool *pool; int i; //no profiles, nothing to remove if (total_profiles == 0) { message(io_data, MSG_NOPROFILE, 0, NULL, isjson); return; } //make sure profile name is supplied if(param == NULL || *param == '\0') { message(io_data, MSG_MISPRID, 0, NULL, isjson); return; } //see if the profile exists if(!(profile = get_profile(param))) { message(io_data, MSG_PRNOEXIST, 0, param, isjson); return; } //next make sure it's not the default profile if(!strcasecmp(default_profile.name, profile->name)) { message(io_data, MSG_PRISDEFAULT, 0, param, isjson); return; } //make sure no pools use it for(i = 0;i < total_pools; i++) { pool = pools[i]; if(!strcasecmp(pool->profile, profile->name)) { message(io_data, MSG_PRINUSE, 0, param, isjson); return; } } //all set, delete the profile remove_profile(profile); message(io_data, MSG_REMPROFILE, profile->profile_no, profile->name, isjson); free(profile); } //should move to pool.c with the other pool stuff... void api_pool_profile(struct io_data *io_data, __maybe_unused SOCKETTYPE c, char *param, bool isjson, __maybe_unused char group) { struct profile *profile; struct pool *pool; char *p; int i; //no pool, nothing to change if (total_pools == 0) { message(io_data, MSG_NOPOOL, 0, NULL, isjson); return; } //no profiles, nothing to change if (total_profiles == 0) { message(io_data, MSG_NOPROFILE, 0, NULL, isjson); return; } //check if parameters were passed if (param == NULL || *param == '\0') { message(io_data, MSG_MISPID, 0, NULL, isjson); return; } //get pool number in parameter 1 if(!(p = strtok(param, ","))) { message(io_data, MSG_MISPID, 0, NULL, isjson); return; } //check valid pool id i = atoi(p); if(i < 0 || i >= total_pools) { message(io_data, MSG_INVPID, i, NULL, isjson); return; } //get pool pool = pools[i]; //get profile name in parameter 2 if(!(p = strtok(NULL, ","))) { message(io_data, MSG_MISPRID, 0, NULL, isjson); return; } //see if the profile exists if(!(profile = get_profile(p))) { message(io_data, MSG_PRNOEXIST, 0, p, isjson); return; } //set profile pool->profile = strdup(profile->name); //apply settings apply_pool_profile(pool); //if current pool restart it if (pool == current_pool()) switch_pools(NULL); message(io_data, MSG_CHPOOLPR, pool->pool_no, profile->name, isjson); }