int main(int argc, char **argv)
{
static const char *output_file = "updated.cfg";
config_t cfg;
config_setting_t *root, *setting, *movie;
config_init(&cfg);
/* Read the file. If there is an error, report it and exit. */
if(! config_read_file(&cfg, "example.cfg"))
{
fprintf(stderr, "%s:%d - %s\n", config_error_file(&cfg),
config_error_line(&cfg), config_error_text(&cfg));
config_destroy(&cfg);
return(EXIT_FAILURE);
}
/* Find the 'movies' setting. Add intermediate settings if they don't yet
* exist.
*/
root = config_root_setting(&cfg);
setting = config_setting_get_member(root, "inventory");
if(!setting)
setting = config_setting_add(root, "inventory", CONFIG_TYPE_GROUP);
setting = config_setting_get_member(setting, "movies");
if(!setting)
setting = config_setting_add(setting, "movies", CONFIG_TYPE_LIST);
/* Create the new movie entry. */
movie = config_setting_add(setting, NULL, CONFIG_TYPE_GROUP);
setting = config_setting_add(movie, "title", CONFIG_TYPE_STRING);
config_setting_set_string(setting, "Buckaroo Banzai");
setting = config_setting_add(movie, "media", CONFIG_TYPE_STRING);
config_setting_set_string(setting, "DVD");
setting = config_setting_add(movie, "price", CONFIG_TYPE_FLOAT);
config_setting_set_float(setting, 12.99);
setting = config_setting_add(movie, "qty", CONFIG_TYPE_INT);
config_setting_set_float(setting, 20);
/* Write out the updated configuration. */
if(! config_write_file(&cfg, output_file))
{
fprintf(stderr, "Error while writing file.\n");
config_destroy(&cfg);
return(EXIT_FAILURE);
}
fprintf(stderr, "Updated configuration successfully written to: %s\n",
output_file);
config_destroy(&cfg);
return(EXIT_SUCCESS);
}
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
int general_settings_save_configuration (config_setting_t *setting)
{
config_setting_t *s = NULL ;
s = config_setting_add(setting, "path_1_wire_directory", CONFIG_TYPE_STRING) ;
if (s != NULL) config_setting_set_string(s, path_1_wire_directory->str);
s = config_setting_add(setting, "path_data_directory", CONFIG_TYPE_STRING) ;
if (s != NULL) config_setting_set_string(s, path_data_directory->str);
s = config_setting_add(setting, "write_samples_interval", CONFIG_TYPE_INT) ;
if (s != NULL) config_setting_set_int(s, write_samples_interval);
return 0 ;
} ;
config_setting_t *config_setting_set_string_elem(config_setting_t *vector,
int idx, const char *value)
{
config_setting_t *element = NULL;
if((vector->type != CONFIG_TYPE_ARRAY) && (vector->type != CONFIG_TYPE_LIST))
return(NULL);
if(idx < 0)
{
if(! __config_vector_checktype(vector, CONFIG_TYPE_STRING))
return(NULL);
element = config_setting_create(vector, NULL, CONFIG_TYPE_STRING);
}
else
element = config_setting_get_elem(vector, idx);
if(! element)
return(NULL);
if(! config_setting_set_string(element, value))
return(NULL);
return(element);
}
void config_setting_copy_simple(config_setting_t *parent, const config_setting_t *src)
{
if (config_setting_is_aggregate(src)) {
config_setting_copy_aggregate(parent, src);
}
else {
config_setting_t *set;
if( config_setting_get_member(parent, config_setting_name(src)) != NULL )
return;
if ((set = config_setting_add(parent, config_setting_name(src), config_setting_type(src))) == NULL)
return;
if (CONFIG_TYPE_INT == config_setting_type(src)) {
config_setting_set_int(set, config_setting_get_int(src));
config_setting_set_format(set, src->format);
} else if (CONFIG_TYPE_INT64 == config_setting_type(src)) {
config_setting_set_int64(set, config_setting_get_int64(src));
config_setting_set_format(set, src->format);
} else if (CONFIG_TYPE_FLOAT == config_setting_type(src)) {
config_setting_set_float(set, config_setting_get_float(src));
} else if (CONFIG_TYPE_STRING == config_setting_type(src)) {
config_setting_set_string(set, config_setting_get_string(src));
} else if (CONFIG_TYPE_BOOL == config_setting_type(src)) {
config_setting_set_bool(set, config_setting_get_bool(src));
}
}
}
int main(int argc, char **argv)
{
static const char *output_file = "newconfig.cfg";
config_t cfg;
config_setting_t *root, *setting, *group, *array;
int i;
config_init(&cfg);
root = config_root_setting(&cfg);
/* Add some settings to the configuration. */
group = config_setting_add(root, "address", CONFIG_TYPE_GROUP);
setting = config_setting_add(group, "street", CONFIG_TYPE_STRING);
config_setting_set_string(setting, "1 Woz Way");
setting = config_setting_add(group, "city", CONFIG_TYPE_STRING);
config_setting_set_string(setting, "San Jose");
setting = config_setting_add(group, "state", CONFIG_TYPE_STRING);
config_setting_set_string(setting, "CA");
setting = config_setting_add(group, "zip", CONFIG_TYPE_INT);
config_setting_set_int(setting, 95110);
array = config_setting_add(root, "numbers", CONFIG_TYPE_ARRAY);
for(i = 0; i < 10; ++i)
{
setting = config_setting_add(array, NULL, CONFIG_TYPE_INT);
config_setting_set_int(setting, 10 * i);
}
/* Write out the new configuration. */
if(! config_write_file(&cfg, output_file))
{
fprintf(stderr, "Error while writing file.\n");
config_destroy(&cfg);
return(EXIT_FAILURE);
}
fprintf(stderr, "New configuration successfully written to: %s\n",
output_file);
config_destroy(&cfg);
return(EXIT_SUCCESS);
}
/*********************************************
Update an entry from a network frame
return RET_NOK on error
*********************************************/
ret_code_t entry_update(char * data)
{
char * elements[5] = {NULL,NULL,NULL,NULL,NULL};
config_setting_t * setting;
const config_t * config= NULL;
int value;
char * token;
int index = 0;
ret_code_t ret = RET_NOK;
token = _strsep(&data,NETWORK_DELIMITER);
while( token != NULL ) {
elements[index] = strdup(token);
index++;
if(index>5) {
werr(LOGDEV,"Split string error");
goto entry_update_cleanup;
}
token = _strsep(&data,NETWORK_DELIMITER);
}
SDL_LockMutex(entry_mutex);
config = get_config(elements[1],elements[2]);
if(config==NULL) {
goto entry_update_cleanup;
}
setting = config_lookup (config, elements[3]);
if(setting==NULL) {
goto entry_update_cleanup;
}
if( strcmp(elements[0],ENTRY_TYPE_INT) == 0 ) {
value = atoll(elements[4]);
if(config_setting_set_int (setting, value) == CONFIG_FALSE) {
werr(LOGUSER,"Errror setting %s/%s/%s to %d",elements[1],elements[2],elements[3],value);
} else {
write_config(config,elements[1],elements[2]);
}
} else if( strcmp(elements[0],ENTRY_TYPE_STRING) == 0 ) {
if(config_setting_set_string (setting,elements[4]) == CONFIG_FALSE) {
werr(LOGUSER,"Errror setting %s/%s/%s to %s",elements[1],elements[2],elements[3],elements[4]);
} else {
write_config(config,elements[1],elements[2]);
}
}
ret = RET_OK;
entry_update_cleanup:
SDL_UnlockMutex(entry_mutex);
for(index=0; index<5; index++) {
if(elements[index]) {
free(elements[index]);
}
}
return ret;
}
/**
* Checks if the configuration is valid. The function checks if all
* required parameters are set and adds default values if necessary.
* @param cfg configuration
*/
void config_check(config_t *cfg)
{
int i, j;
const char *s;
double f;
config_setting_t *cs, *vs;
for (i = 0; defaults[i].name; i++) {
/* Lookup setting group */
cs = config_lookup(cfg, defaults[i].group);
if (!cs)
cs = config_setting_add(config_root_setting(cfg),
defaults[i].group, CONFIG_TYPE_GROUP);
/* (1) Check for string */
if (defaults[i].type == CONFIG_TYPE_STRING) {
if (config_setting_lookup_string(cs, defaults[i].name, &s))
continue;
/* Add default value */
vs = config_setting_add(cs, defaults[i].name, CONFIG_TYPE_STRING);
config_setting_set_string(vs, defaults[i].val.sval);
/* (2) Check for float */
} else if (defaults[i].type == CONFIG_TYPE_FLOAT) {
if (config_setting_lookup_float(cs, defaults[i].name, &f))
continue;
/* Check for mis-interpreted integer */
if (config_setting_lookup_int(cs, defaults[i].name, &j)) {
config_setting_remove(cs, defaults[i].name);
vs = config_setting_add(cs, defaults[i].name, CONFIG_TYPE_FLOAT);
config_setting_set_float(vs, (double) j);
continue;
}
/* Add default value */
vs = config_setting_add(cs, defaults[i].name, CONFIG_TYPE_FLOAT);
config_setting_set_float(vs, defaults[i].val.fval);
/* (3) Check for integer */
} else if (defaults[i].type == CONFIG_TYPE_INT) {
if (config_setting_lookup_int(cs, defaults[i].name, &j))
continue;
/* Check for mis-interpreted float */
if (config_setting_lookup_float(cs, defaults[i].name, &f)) {
config_setting_remove(cs, defaults[i].name);
vs = config_setting_add(cs, defaults[i].name, CONFIG_TYPE_INT);
config_setting_set_int(vs, (long) round(f));
continue;
}
/* Add default value */
vs = config_setting_add(cs, defaults[i].name, CONFIG_TYPE_INT);
config_setting_set_int(vs, defaults[i].val.ival);
} else {
error("Unknown configuration type");
}
}
}
// {{{ session_store_session()
int session_store_session(const char* user, const char* sessid)
{
if(strlen(user)==0 || strlen(sessid)==0)
return -1;
char var[256];
struct config_t cfg;
config_init(&cfg);
char date[255];
util_get_date(date, sizeof(date), "%Y%m%d%H%M%S");
config_setting_t *cs;
config_setting_t *us;
if(!config_read_file(&cfg, OD_SESSION_FILE))
config_write_file(&cfg, OD_SESSION_FILE);
if( !(us = config_lookup(&cfg, user)) )
{
us = config_setting_add(cfg.root, user, CONFIG_TYPE_GROUP);
cs = config_setting_add(us, "sessid", CONFIG_TYPE_STRING);
cs = config_setting_add(us, "timestamp", CONFIG_TYPE_STRING);
}
snprintf(var, sizeof(var), "%s.sessid", user);
if( !(cs = config_lookup(&cfg, var)) )
return 0;
config_setting_set_string(cs, sessid);
snprintf(var, sizeof(var), "%s.timestamp", user);
if( !(cs = config_lookup(&cfg, var)) )
return 0;
config_setting_set_string(cs, date);
config_write_file(&cfg, OD_SESSION_FILE);
config_destroy(&cfg);
return 0;
}
/*******************************************************************************
函数名称 : webauth_rdx_set_str_setting
功能描述 : 向配置结构中增加字符串类型的属性
输入参数 : config_setting_t * setting 配置结构
char* attr 配置属性名
char* val 配置属性值
输出参数 :
返 回 值 :
--------------------------------------------------------------------------------
最近一次修改记录 :
修改作者 : 王群
修改目的 : 新添加函数
修改日期 : 2010-08-16
*******************************************************************************/
void webauth_rdx_set_str_setting (config_setting_t * setting, char *attr, char *val)
{
config_setting_t *s;
if (0 != strlen (val))
{
s = config_setting_add (setting, attr, CONFIG_TYPE_STRING);
if (NULL != s)
{
config_setting_set_string (s, val);
}
}
return;
}
config_setting_t *cfgSetString(config_setting_t *parent, const TCHAR *name, const TCHAR *value)
{
config_setting_t *setting;
char *cfgStr;
char uName[CONFIG_UTF8_MAXSTRING];
UTF8_Encode(name, uName, CONFIG_UTF8_MAXSTRING);
setting = config_setting_add(parent, uName, CONFIG_TYPE_STRING);
cfgStr = UTF8_Encode_Dyn(value);
config_setting_set_string(setting, cfgStr);
free(cfgStr);
return setting;
}
/*********************
return RET_NOK on error
*********************/
static ret_code_t __write_string(const char * table, const char * file, const char * data, va_list ap)
{
config_setting_t * setting;
const config_t * config;
SDL_LockMutex(entry_mutex);
config = get_config(table,file);
if(config==NULL) {
SDL_UnlockMutex(entry_mutex);
return RET_NOK;
}
setting = create_tree(config,NULL,NULL,NULL,CONFIG_TYPE_STRING,ap);
/* update string */
if(config_setting_set_string(setting, data)==CONFIG_FALSE) {
SDL_UnlockMutex(entry_mutex);
return RET_NOK;
}
write_config(config,table,file);
SDL_UnlockMutex(entry_mutex);
return RET_OK;
}
/**
* Loads group configuration from config file into memory.
* @private
*/
static void read_config(void)
{
config_setting_t *groups = NULL;
const char *config_filename = "conf/groups.conf"; // FIXME hardcoded name
int group_count = 0;
if (conf_read_file(&pc_group_config, config_filename))
return;
groups = config_lookup(&pc_group_config, "groups");
if (groups != NULL) {
GroupSettings *group_settings = NULL;
DBIterator *iter = NULL;
int i, loop = 0;
group_count = config_setting_length(groups);
for (i = 0; i < group_count; ++i) {
int id = 0, level = 0;
const char *groupname = NULL;
int log_commands = 0;
config_setting_t *group = config_setting_get_elem(groups, i);
if (!config_setting_lookup_int(group, "id", &id)) {
ShowConfigWarning(group, "pc_groups:read_config: \"groups\" list member #%d has undefined id, removing...", i);
config_setting_remove_elem(groups, i);
--i;
--group_count;
continue;
}
if (id2group(id) != NULL) {
ShowConfigWarning(group, "pc_groups:read_config: duplicate group id %d, removing...", i);
config_setting_remove_elem(groups, i);
--i;
--group_count;
continue;
}
config_setting_lookup_int(group, "level", &level);
config_setting_lookup_bool(group, "log_commands", &log_commands);
if (!config_setting_lookup_string(group, "name", &groupname)) {
char temp[20];
config_setting_t *name = NULL;
snprintf(temp, sizeof(temp), "Group %d", id);
if ((name = config_setting_add(group, "name", CONFIG_TYPE_STRING)) == NULL ||
!config_setting_set_string(name, temp)) {
ShowError("pc_groups:read_config: failed to set missing group name, id=%d, skipping... (%s:%d)\n",
id, config_setting_source_file(group), config_setting_source_line(group));
continue;
}
config_setting_lookup_string(group, "name", &groupname); // Retrieve the pointer
}
if (name2group(groupname) != NULL) {
ShowConfigWarning(group, "pc_groups:read_config: duplicate group name %s, removing...", groupname);
config_setting_remove_elem(groups, i);
--i;
--group_count;
continue;
}
CREATE(group_settings, GroupSettings, 1);
group_settings->id = id;
group_settings->level = level;
group_settings->name = groupname;
group_settings->log_commands = (bool)log_commands;
group_settings->inherit = config_setting_get_member(group, "inherit");
group_settings->commands = config_setting_get_member(group, "commands");
group_settings->permissions = config_setting_get_member(group, "permissions");
group_settings->inheritance_done = false;
group_settings->root = group;
group_settings->group_pos = i;
strdb_put(pc_groupname_db, groupname, group_settings);
idb_put(pc_group_db, id, group_settings);
}
group_count = config_setting_length(groups); // Save number of groups
// Check if all commands and permissions exist
iter = db_iterator(pc_group_db);
for (group_settings = dbi_first(iter); dbi_exists(iter); group_settings = dbi_next(iter)) {
config_setting_t *commands = group_settings->commands, *permissions = group_settings->permissions;
int count = 0, j;
// Make sure there is "commands" group
if (commands == NULL)
commands = group_settings->commands = config_setting_add(group_settings->root, "commands", CONFIG_TYPE_GROUP);
count = config_setting_length(commands);
for (j = 0; j < count; ++j) {
config_setting_t *command = config_setting_get_elem(commands, j);
const char *name = config_setting_name(command);
if (!atcommand_exists(name)) {
ShowConfigWarning(command, "pc_groups:read_config: non-existent command name '%s', removing...", name);
config_setting_remove(commands, name);
--j;
--count;
}
}
// Make sure there is "permissions" group
if (permissions == NULL)
permissions = group_settings->permissions = config_setting_add(group_settings->root, "permissions", CONFIG_TYPE_GROUP);
count = config_setting_length(permissions);
for(j = 0; j < count; ++j) {
config_setting_t *permission = config_setting_get_elem(permissions, j);
const char *name = config_setting_name(permission);
int p;
ARR_FIND(0, ARRAYLENGTH(pc_g_permission_name), p, strcmp(pc_g_permission_name[p].name, name) == 0);
if (p == ARRAYLENGTH(pc_g_permission_name)) {
ShowConfigWarning(permission, "pc_groups:read_config: non-existent permission name '%s', removing...", name);
config_setting_remove(permissions, name);
--p;
--count;
}
}
}
dbi_destroy(iter);
// Apply inheritance
i = 0; // counter for processed groups
while (i < group_count) {
iter = db_iterator(pc_group_db);
for (group_settings = dbi_first(iter); dbi_exists(iter); group_settings = dbi_next(iter)) {
config_setting_t *inherit = NULL,
*commands = group_settings->commands,
*permissions = group_settings->permissions;
int j, inherit_count = 0, done = 0;
if (group_settings->inheritance_done) // group already processed
continue;
if ((inherit = group_settings->inherit) == NULL ||
(inherit_count = config_setting_length(inherit)) <= 0) { // this group does not inherit from others
++i;
group_settings->inheritance_done = true;
continue;
}
for (j = 0; j < inherit_count; ++j) {
GroupSettings *inherited_group = NULL;
const char *groupname = config_setting_get_string_elem(inherit, j);
if (groupname == NULL) {
ShowConfigWarning(inherit, "pc_groups:read_config: \"inherit\" array member #%d is not a name, removing...", j);
config_setting_remove_elem(inherit,j);
continue;
}
if ((inherited_group = name2group(groupname)) == NULL) {
ShowConfigWarning(inherit, "pc_groups:read_config: non-existent group name \"%s\", removing...", groupname);
config_setting_remove_elem(inherit,j);
continue;
}
if (!inherited_group->inheritance_done)
continue; // we need to do that group first
// Copy settings (commands/permissions) that are not defined yet
if (inherited_group->commands != NULL) {
int l = 0, commands_count = config_setting_length(inherited_group->commands);
for (l = 0; l < commands_count; ++l)
config_setting_copy(commands, config_setting_get_elem(inherited_group->commands, l));
}
if (inherited_group->permissions != NULL) {
int l = 0, permissions_count = config_setting_length(inherited_group->permissions);
for (l = 0; l < permissions_count; ++l)
config_setting_copy(permissions, config_setting_get_elem(inherited_group->permissions, l));
}
++done; // copied commands and permissions from one of inherited groups
}
if (done == inherit_count) { // copied commands from all of inherited groups
++i;
group_settings->inheritance_done = true; // we're done with this group
}
}
dbi_destroy(iter);
if (++loop > group_count) {
ShowWarning("pc_groups:read_config: Could not process inheritance rules, check your config '%s' for cycles...\n",
config_filename);
break;
}
} // while(i < group_count)
// Pack permissions into GroupSettings.e_permissions for faster checking
iter = db_iterator(pc_group_db);
for (group_settings = dbi_first(iter); dbi_exists(iter); group_settings = dbi_next(iter)) {
config_setting_t *permissions = group_settings->permissions;
int c, count = config_setting_length(permissions);
for (c = 0; c < count; ++c) {
config_setting_t *perm = config_setting_get_elem(permissions, c);
const char *name = config_setting_name(perm);
int val = config_setting_get_bool(perm);
int j;
if (val == 0) // does not have this permission
continue;
ARR_FIND(0, ARRAYLENGTH(pc_g_permission_name), j, strcmp(pc_g_permission_name[j].name, name) == 0);
group_settings->e_permissions |= pc_g_permission_name[j].permission;
}
}
dbi_destroy(iter);
}
ShowStatus("Done reading '"CL_WHITE"%d"CL_RESET"' groups in '"CL_WHITE"%s"CL_RESET"'.\n", group_count, config_filename);
if( ( pc_group_max = group_count ) ) {
DBIterator *iter = db_iterator(pc_group_db);
GroupSettings *group_settings = NULL;
int* group_ids = aMalloc( pc_group_max * sizeof(int) );
int i = 0;
for (group_settings = dbi_first(iter); dbi_exists(iter); group_settings = dbi_next(iter)) {
group_ids[i++] = group_settings->id;
}
atcommand_db_load_groups(group_ids);
aFree(group_ids);
dbi_destroy(iter);
}
}
int iteliec_soap_register (char *username, char *password) {
herror_t err;
SoapCtx *request;
SoapCtx *response;
config_t cfg;
config_setting_t *setting, *root;
const char *cfile;
cfile = iteliec_config_file ();
config_init (&cfg);
/* Read the file. If there is an error, report it and exit. */
if (!config_read_file (&cfg, cfile)) {
iteliec_log (ITELIEC_ERR, "Please ensure configuration file %s exists and is valid", cfile);
//printf ("\n%s:%d - %s", config_error_file (&cfg), config_error_line (&cfg), config_error_text (&cfg));
config_destroy (&cfg);
return;
}
root = config_root_setting (&cfg);
/* Init */
err = soap_client_init_args (0, NULL);
if (err != H_OK) {
err_soap (err);
return ITELIEC_ERR;
}
err = soap_ctx_new_with_method ("", "sendAuth", &request);
if (err != H_OK) {
err_soap (err);
soap_client_destroy ();
return ITELIEC_ERR;
}
/* Add login details */
soap_env_add_item (request->env, "xsd:string", "username", username);
soap_env_add_item (request->env, "xsd:string", "password", password);
/* Trade for response */
err = soap_client_invoke (request, &response, "http://api.iteliec.com/register/auth/ws/", "");
if (err != H_OK) {
err_soap (err);
soap_ctx_free (request);
soap_client_destroy ();
return ITELIEC_ERR;
}
/* Parse response */
auth_type* ret = parse_auth_response (response);
if (ret->auth == true) {
printf ("Success\n");
setting = config_setting_get_member (root, "api");
if(!setting) {
setting = config_setting_add (root, "api", CONFIG_TYPE_GROUP);
}
setting = config_setting_add (setting, "hash", CONFIG_TYPE_STRING);
config_setting_set_string (setting, ret->token);
/* Write out the updated configuration. */
if(! config_write_file(&cfg, cfile)) {
fprintf (stderr, "Error while writing file.\n");
config_destroy (&cfg);
return (ITELIEC_OK);
}
printf("\nConfiguration file updated. Server is ready to run.\n");
} else {
printf("Auth failed\n");
}
/* Destroy */
soap_ctx_free (request);
soap_ctx_free (response);
soap_client_destroy ();
config_destroy (&cfg);
return ITELIEC_OK;
}
/*********************
return RET_NOK on error
*********************/
ret_code_t entry_copy_config(config_setting_t * source, config_setting_t * dest)
{
config_setting_t * new_source;
config_setting_t * new_dest;
int index = -1;
int int_value;
long long long_value;
double double_value;
const char * string;
while((new_source=config_setting_get_elem(source,index+1))!= NULL ) {
index++;
if(config_setting_is_group(new_source)) {
if(!entry_copy_aggregate(new_source,dest,CONFIG_TYPE_GROUP)) {
return RET_NOK;
}
}
else if(config_setting_is_array(new_source)) {
if(!entry_copy_aggregate(new_source,dest,CONFIG_TYPE_ARRAY)) {
return RET_NOK;
}
}
else if(config_setting_is_list(new_source)) {
if(!entry_copy_aggregate(new_source,dest,CONFIG_TYPE_LIST)) {
return RET_NOK;
}
}
else {
switch(config_setting_type(new_source)) {
case CONFIG_TYPE_INT:
int_value = config_setting_get_int(new_source);
new_dest = config_setting_add (dest, config_setting_name(new_source),CONFIG_TYPE_INT);
config_setting_set_int(new_dest,int_value);
continue;
case CONFIG_TYPE_INT64:
long_value = config_setting_get_int64(new_source);
new_dest = config_setting_add (dest, config_setting_name(new_source),CONFIG_TYPE_INT64);
config_setting_set_int64(new_dest,long_value);
continue;
case CONFIG_TYPE_FLOAT:
double_value = config_setting_get_float(new_source);
new_dest = config_setting_add (dest, config_setting_name(new_source),CONFIG_TYPE_FLOAT);
config_setting_set_float(new_dest,double_value);
continue;
case CONFIG_TYPE_BOOL:
int_value = config_setting_get_bool(new_source);
new_dest = config_setting_add (dest, config_setting_name(new_source),CONFIG_TYPE_BOOL);
config_setting_set_bool(new_dest,int_value);
continue;
case CONFIG_TYPE_STRING:
string = config_setting_get_string(new_source);
new_dest = config_setting_add (dest, config_setting_name(new_source),CONFIG_TYPE_STRING);
config_setting_set_string(new_dest,string);
continue;
default:
return RET_NOK;
}
}
}
return RET_OK;
}
// load the default configuration in cfg
static void set_default_config(config_t * cfg) {
static const unsigned AACCESSES = 4 * 1024 * 1024;
static const unsigned BEGIN = BEGIN_INIT;
static const char SPAWN[] = "linear";
static const long long END = END_INIT;
static const float FREQUENCY = 1;
static const bool LOGGING = false;
static const char LOGFILE[] = "adhd_log";
static const char PATTERN[] = "random";
static const unsigned PROCESSES = 1;
static const unsigned REPETITIONS = 50;
static const long long STEP = STEP_INIT;
static const char SCALING[] = "linear";
static const bool SILENT = false;
static const unsigned THREADS = 1;
static const long long STREAM_STEP = 10 * (1 << 20);
static const long long STREAM_END = 100 * (1 << 20);
static const long long FLOPS_STEP = 10 * (1 << 10);
static const long long FLOPS_END = 1 * (1 << 20);
static const long long FLOPS_CALCULATIONS = 1000 * 1000 * 1000;
config_setting_t *setting;
config_setting_t *root;
root = config_root_setting(cfg);
// generic group
{
config_setting_t *generic =
config_setting_add(root, FLD_GENERIC_GROUP, CONFIG_TYPE_GROUP);
// array of names of enabled programs (uses corresponding group names for
// the sake of simplicity)
{
config_setting_t *programs =
config_setting_add(generic, FLD_PROGRAMS_GROUP, CONFIG_TYPE_ARRAY);
static const char *names[] = {
FLD_WALKARRAY_GROUP,
FLD_STREAMARRAY_GROUP,
FLD_FLOPSARRAY_GROUP,
NULL // mark end of list
};
for (size_t i = 0; names[i]; ++i) {
setting = config_setting_add(programs, NULL, CONFIG_TYPE_STRING);
config_setting_set_string(setting, names[i]);
}
}
// CPU frequency to calculate cycle estimate
// TODO: use actual cycle counter in the CPU
// (this is a feature with a design impact, as SMP complicates matters ... :))
setting = config_setting_add(generic, FLD_GENERIC_GPU_FREQUENCY, CONFIG_TYPE_FLOAT);
config_setting_set_float(setting, FREQUENCY);
// logging enabled?
setting = config_setting_add(generic, FLD_GENERIC_LOGGING, CONFIG_TYPE_BOOL);
config_setting_set_bool(setting, LOGGING);
// base filename to log process timings to
setting = config_setting_add(generic, FLD_GENERIC_LOGFILE, CONFIG_TYPE_STRING);
config_setting_set_string(setting, LOGFILE);
// process spawn method
setting = config_setting_add(generic, FLD_GENERIC_SPAWN, CONFIG_TYPE_STRING);
config_setting_set_string(setting, SPAWN);
// number of processes to run: begin
// TODO: just like arrays we could have a linear or exponential increment
setting = config_setting_add(generic, FLD_GENERIC_PROCESSES_BEGIN, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, PROCESSES);
// number of processes to run: end
setting = config_setting_add(generic, FLD_GENERIC_PROCESSES_END, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, PROCESSES);
// number of threads per process to run: begin
// TODO: just like arrays we could have a linear or exponential increment
setting = config_setting_add(generic, FLD_GENERIC_THREADS_BEGIN, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, THREADS);
// number of threads per process to run: end
setting = config_setting_add(generic, FLD_GENERIC_THREADS_END, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, THREADS);
// silent mode
setting = config_setting_add(generic, FLD_GENERIC_SILENT, CONFIG_TYPE_BOOL);
config_setting_set_bool(setting, SILENT);
}
// walking array group
{
config_setting_t *array =
config_setting_add(root, FLD_WALKARRAY_GROUP, CONFIG_TYPE_GROUP);
// array accesses
setting = config_setting_add(array, FLD_WALKARRAY_ACCESSES, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, AACCESSES);
// repetitions of a single test, to be able to calculate an average
// and a standard deviation, indicating run precision
setting = config_setting_add(array, FLD_WALKARRAY_REPEAT, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, REPETITIONS);
// initial array size
setting = config_setting_add(array, FLD_WALKARRAY_BEGINLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, BEGIN);
// maximal array size
setting = config_setting_add(array, FLD_WALKARRAY_ENDLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, END);
// increment factor
setting = config_setting_add(array, FLD_WALKARRAY_INCREMENT, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, STEP);
// increment type
// (linear adds the increment, exponential multiplies the previous length)
setting = config_setting_add(array, FLD_WALKARRAY_SCALING, CONFIG_TYPE_STRING);
config_setting_set_string(setting, SCALING);
// walking pattern
// (sequentially increasing/decreasing or random)
setting = config_setting_add(array, FLD_WALKARRAY_PATTERN, CONFIG_TYPE_STRING);
config_setting_set_string(setting, PATTERN);
}
// streaming array group
{
config_setting_t *array =
config_setting_add(root, FLD_STREAMARRAY_GROUP, CONFIG_TYPE_GROUP);
// initial array size
setting = config_setting_add(array, FLD_STREAMARRAY_BEGINLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, BEGIN);
// maximal array size
setting = config_setting_add(array, FLD_STREAMARRAY_ENDLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, STREAM_END);
// increment factor
setting = config_setting_add(array, FLD_STREAMARRAY_INCREMENT, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, STREAM_STEP);
// increment type
// (linear adds the increment, exponential multiplies the previous length)
setting = config_setting_add(array, FLD_STREAMARRAY_SCALING, CONFIG_TYPE_STRING);
config_setting_set_string(setting, SCALING);
}
// flops array group
{
config_setting_t *array =
config_setting_add(root, FLD_FLOPSARRAY_GROUP, CONFIG_TYPE_GROUP);
// initial array size
setting = config_setting_add(array, FLD_FLOPSARRAY_BEGINLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, BEGIN);
// maximal array size
setting = config_setting_add(array, FLD_FLOPSARRAY_ENDLENGTH, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, FLOPS_END);
// increment factor
setting = config_setting_add(array, FLD_FLOPSARRAY_INCREMENT, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, FLOPS_STEP);
// increment type
// (linear adds the increment, exponential multiplies the previous length)
setting = config_setting_add(array, FLD_FLOPSARRAY_SCALING, CONFIG_TYPE_STRING);
config_setting_set_string(setting, SCALING);
// number of calculations to perform
setting = config_setting_add(array, FLD_FLOPSARRAY_CALCULATIONS, CONFIG_TYPE_INT64);
config_setting_set_int64(setting, FLOPS_CALCULATIONS);
}
}
void settings_add_to_config(config_t *config)
{
int i;
char value[256];
config_setting_t *root;
config_setting_t *ps2;
config_setting_t *group;
config_setting_t *setting;
if (config == NULL)
{
return;
}
root = config_root_setting(config);
ps2 = config_setting_add(root,"PS2", CONFIG_TYPE_GROUP);
{
group = config_setting_add(ps2,"Home",CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"Partition",CONFIG_TYPE_STRING);
config_setting_set_string(setting,settings.home.partition);
setting = config_setting_add(group,"Directory",CONFIG_TYPE_STRING);
config_setting_set_string(setting,settings.home.directory);
}
group = config_setting_add(ps2,"Display", CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"OffsetX",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.display.x);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"OffsetY",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.display.y);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"Mode",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.display.mode);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"Interlace",CONFIG_TYPE_BOOL);
config_setting_set_bool(setting,settings.display.interlace);
}
group = config_setting_add(ps2,"Sound",CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"Stereo",CONFIG_TYPE_BOOL);
config_setting_set_bool(setting,settings.sound.stereo);
setting = config_setting_add(group,"Volume",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.sound.volume);
config_setting_set_string(setting,value);
}
group = config_setting_add(ps2,"Font",CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"Height",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.font.height);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"Color",CONFIG_TYPE_ARRAY);
for (i = 0; i < 4; i++)
{
cfg_int_to_string(value,settings.font.color[i]);
config_setting_set_string_elem(setting,-1,value);
}
setting = config_setting_add(group,"Highlight",CONFIG_TYPE_ARRAY);
for (i = 0; i < 4; i++)
{
cfg_int_to_string(value,settings.font.highlight[i]);
config_setting_set_string_elem(setting,-1,value);
}
}
group = config_setting_add(ps2,"Input",CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"Port",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.input.port);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"Slot",CONFIG_TYPE_STRING);
cfg_int_to_string(value,settings.input.slot);
config_setting_set_string(setting,value);
setting = config_setting_add(group,"Confirm",CONFIG_TYPE_STRING);
if (settings.input.confirm == PAD_CROSS)
{
config_setting_set_string(setting,"X");
}
else
{
config_setting_set_string(setting,"O");
}
}
group = config_setting_add(ps2,"Devices",CONFIG_TYPE_GROUP);
{
setting = config_setting_add(group,"Mass",CONFIG_TYPE_BOOL);
config_setting_set_bool(setting,settings.devices.mass);
setting = config_setting_add(group,"HDD",CONFIG_TYPE_BOOL);
config_setting_set_bool(setting,settings.devices.hdd);
}
}
}
