FLUT_API std::pair< string, string > to_key_value( const string& s, const string& sep_char )
{
auto pos = s.find_first_of( sep_char.c_str() );
if ( pos == string::npos )
return make_pair( trim_str( s ), string("") );
else return make_pair( trim_str( left_str( s, pos ) ), trim_str( mid_str( s, pos + 1 ) ) );
}
ConfigParser::Entry* ConfigParser::parse_line(const char* line) {
char* var = strdup(line);
char* equals = strchr(var, '=');
if(equals) {
/* Split the string. */
*equals++ = 0;
}
std::string variable = std::string(trim_str(var));
std::string value;
// Just the variable name means true, as in enable
if(equals) {
value = std::string(trim_str(equals));
} else {
value = std::string("true");
}
if(process_internal(variable, value)) {
free(var);
return NULL;
}
Entry* entry = new ConfigParser::Entry();
entry->variable = variable;
entry->value = value;
free(var);
return entry;
}
int UsrAccConfig::get_key_value(const std::string &line, const int &pos, std::string &key, std::string &value) {
key = line.substr(0,pos);
value = line.substr(pos+1);
trim_str(key);
trim_str(value);
return 0;
}
void MealFactory::ParseFromFile(const String & filePath, MealMgr & mealMgr)
{
Meal meal;
std::ifstream infile(filePath);
// skip ahead to the report details section
std::string line;
do
{
std::getline(infile, line);
trim_str(line);
if (0 == line.compare("# Report Details"))
{
break;
}
}
while (false == infile.eof());
// parse meals
while (false == infile.eof())
{
if (ParseMeal(infile, meal))
{
mealMgr.AddMeal(meal);
}
}
}
/**
* parse_stream - Parse a text stream for cheats.
* @list: list to add cheats to
* @stream: stream to read cheats from
* @return: 0: success, -1: error
*/
int parse_stream(gamelist_t *list, FILE *stream)
{
parser_ctx_t ctx;
char line[LINE_MAX + 1];
int nl = 1;
if (list == NULL || stream == NULL)
return -1;
init_parser(&ctx);
while (fgets(line, sizeof(line), stream) != NULL) { /* Scanner */
if (!is_empty_str(line)) {
/* Screener */
term_str(line, is_cmt_str);
trim_str(line);
/* Parser */
if (strlen(line) > 0 && parse_line(line, nl, &ctx, list) < 0)
return -1;
}
nl++;
}
return 0;
}
bool parse_ini_conf_file(const std::string& path, INIProperties& result,
const char* sep)
{
char buf[kConfigLineMax + 1];
FILE *fp;
if ((fp = fopen(path.c_str(), "r")) == NULL)
{
return false;
}
uint32 lineno = 1;
std::string current_tag = "";
while (fgets(buf, kConfigLineMax, fp) != NULL)
{
char* line = trim_str(buf, "\r\n\t ");
if (line[0] == '#' || line[0] == '\0')
{
lineno++;
continue;
}
if (line[0] == '[' && line[strlen(line) - 1] == ']')
{
current_tag = std::string(line + 1, strlen(line) - 2);
lineno++;
continue;
}
std::vector<char*> sp_ret = split_str(line, sep);
if (sp_ret.size() != 2)
{
ERROR_LOG("Invalid config line at line:%u", lineno);
fclose(fp);
return false;
}
char* key = trim_str(sp_ret[0], "\r\n\t ");
char* value = trim_str(sp_ret[1], "\r\n\t ");
Properties& current_prop = result[current_tag];
if (current_prop.find(key) != current_prop.end())
{
ERROR_LOG("Duplicate key:%s in config.", key);
fclose(fp);
return false;
}
current_prop[key] = value;
lineno++;
}
fclose(fp);
return true;
}
static char * test_name_from_signature(const char * s){
char * slice = slice_str(4, strlen(s), s);
char * fn = upto_char(slice, '(');
char * fn_tr = trim_str(fn);
free(slice);
free(fn);
return fn_tr;
};
short
str_to_state(char *boolstr) {
trim_str(boolstr);
if (strcmp(boolstr, "TRUE") == 0)
return STATE_SELECTED;
else if (strcmp(boolstr, "FALSE") == 0)
return STATE_NOT_SELECTED;
else
return ERROR_CORRUPT_RC_FILE;
}
/** Some kind of general conv_param routine,
* to ensure the parameter is nick!user@host.
* most of the code is just copied from clean_ban_mask.
*/
char *extban_conv_param_nuh(char *para)
{
char *cp, *user, *host, *mask, *ret = NULL;
static char retbuf[USERLEN + NICKLEN + HOSTLEN + 32];
char tmpbuf[USERLEN + NICKLEN + HOSTLEN + 32];
char pfix[8];
strncpyzt(tmpbuf, para, sizeof(retbuf));
mask = tmpbuf + 3;
strncpyzt(pfix, tmpbuf, mask - tmpbuf + 1);
if ((*mask == '~') && !strchr(mask, '@'))
return NULL; /* not a user@host ban, too confusing. */
if ((user = index((cp = mask), '!')))
*user++ = '\0';
if ((host = rindex(user ? user : cp, '@')))
{
*host++ = '\0';
if (!user)
ret = make_nick_user_host(NULL, trim_str(cp,USERLEN), trim_str(host,HOSTLEN));
}
else if (!user && index(cp, '.'))
ret = make_nick_user_host(NULL, NULL, trim_str(cp,HOSTLEN));
if (!ret)
ret = make_nick_user_host(trim_str(cp,NICKLEN), trim_str(user,USERLEN), trim_str(host,HOSTLEN));
ircsprintf(retbuf, "%s%s", pfix, ret);
return retbuf;
}
bool parse_conf_file(const std::string& path, Properties& result,
const char* sep)
{
char buf[kConfigLineMax + 1];
FILE *fp;
if ((fp = fopen(path.c_str(), "r")) == NULL)
{
return false;
}
uint32 lineno = 1;
while (fgets(buf, kConfigLineMax, fp) != NULL)
{
char* line = trim_str(buf, "\r\n\t ");
if (line[0] == '#' || line[0] == '\0')
{
lineno++;
continue;
}
std::vector<char*> sp_ret = split_str(line, sep);
if (sp_ret.size() != 2)
{
ERROR_LOG("Invalid config line at line:%u", lineno);
fclose(fp);
return false;
}
char* key = trim_str(sp_ret[0], "\r\n\t ");
char* value = trim_str(sp_ret[1], "\r\n\t ");
if (result.find(key) != result.end())
{
ERROR_LOG("Duplicate key:%s in config.", key);
fclose(fp);
return false;
}
result[key] = value;
lineno++;
}
fclose(fp);
return true;
}
/* ###TODO: allow extra values for every key separated by a delimeter */
int
parse_conf_file (void)
{
char line[512];
char *path = NULL, *user_home = NULL;
char *val, *c;
FILE *file;
int key = 0;
if (conf.iconfigfile != NULL)
path = alloc_string (conf.iconfigfile);
else {
user_home = getenv ("HOME");
if (user_home == NULL)
return 1;
path = xmalloc (snprintf (NULL, 0, "%s/.goaccessrc", user_home) + 1);
sprintf (path, "%s/.goaccessrc", user_home);
}
file = fopen (path, "r");
/* could not open conf file, if so prompt conf dialog */
if (file == NULL) {
free (path);
return 1;
}
while (fgets (line, sizeof line, file) != NULL) {
unsigned int i;
for (i = 0; i < ARRAY_SIZE (keywords); i++) {
if (strstr (line, keywords[i].keyword) != NULL)
key = keywords[i].key_id;
}
if ((val = strchr (line, ' ')) == NULL) {
free (path);
return 1;
}
for (c = val; *c; c++) {
/* get everything after the space */
if (!isspace (c[0])) {
set_conf_vars (key, trim_str (c));
break;
}
}
}
fclose (file);
free (path);
return 0;
}
/* Process keyphrases from Google search, cache, and translate.
* Note that the referer hasn't been decoded at the entry point
* since there could be '&' within the search query. */
static int
process_keyphrases (char *ref)
{
char *r, *ptr, *pch, *referer;
int encoded = 0;
if (!(strstr (ref, "http://www.google.")) &&
!(strstr (ref, "http://webcache.googleusercontent.com/")) &&
!(strstr (ref, "http://translate.googleusercontent.com/")))
return 1;
/* webcache.googleusercontent */
if ((r = strstr (ref, "/+&")) != NULL)
return 1;
/* webcache.googleusercontent */
else if ((r = strstr (ref, "/+")) != NULL)
r += 2;
/* webcache.googleusercontent */
else if ((r = strstr (ref, "q=cache:")) != NULL) {
pch = strchr (r, '+');
if (pch)
r += pch - r + 1;
}
/* www.google.* or translate.googleusercontent */
else if ((r = strstr (ref, "&q=")) != NULL ||
(r = strstr (ref, "?q=")) != NULL)
r += 3;
else if ((r = strstr (ref, "%26q%3D")) != NULL ||
(r = strstr (ref, "%3Fq%3D")) != NULL)
encoded = 1, r += 7;
else
return 1;
if (!encoded && (ptr = strchr (r, '&')) != NULL)
*ptr = '\0';
else if (encoded && (ptr = strstr (r, "%26")) != NULL)
*ptr = '\0';
referer = decode_url (r);
if (referer == NULL || *referer == '\0')
return 1;
referer = char_replace (referer, '+', ' ');
process_generic_data (ht_keyphrases, trim_str (referer));
free (referer);
return 0;
}
int RDFParser::read_conditions(stringstream & stream) {
int ret=0;
string condlist, cond;
read_str(stream, "{");
getline(stream, condlist, '}');
trim_str(condlist);
istringstream ss(condlist);
while (getline(ss, cond, ';')) {
ret = add_cond(cond);
if (ret < 0)
return ret;
}
return 0;
}
void send_outgoing_command(char* user_msg, int server_sock) {
int bytes_sent = -1;
char to_send[BUFFER_SIZE];
char msg_copy[BUFFER_SIZE]; //strtok modifies the data in the argument. So use this copy.
strcpy(msg_copy, user_msg);
trim_str(user_msg);
char* token = strtok(user_msg, " ");
if (token == NULL || strlen(token) <= 0) { //Do nothing if user sends bad / empty command
return;
}
if (strcmp(token, MSG_CMD) == 0 || strcmp(token, JOIN_CMD) == 0 ||
strcmp(token, LIST_CMD) == 0 || strcmp(token, CONNECT_CMD) == 0 ||
strcmp(token, HELP_CMD) == 0 || strcmp(token, ROOMS_CMD) == 0 || //If user typed a valid command, send as-is
strcmp(token, LIST_ALL_CMD) == 0 ) { //If user typed a valid command, send as-is
strcpy(to_send, msg_copy);
}
else if (strcmp(token, QUIT_CMD) == 0) { //Quit command: send quit message to notify server, then exit program
endwin();
printf("%s", QUIT_MSG);
send(server_sock, msg_copy, strlen(msg_copy) + 1, MSG_MORE);
close(server_sock);
exit(EXIT_SUCCESS);
}
else if (strcmp(token, SLEEP_CMD) == 0) {
usleep(500);
}
else { //Else we assume client is just chatting, prepend +MSG to string
sprintf(to_send, "%s %s", MSG_CMD, msg_copy);
}
if ((bytes_sent = send(server_sock, to_send, strlen(to_send) + 1, MSG_MORE)) < 0) {
add_msg_to_scrn("Error writing to server socket. Attempting again.\n");
}
else if (bytes_sent == 0) {
endwin();
printf("Failed to write bytes to server socket. Exiting program...\n");
exit(EXIT_FAILURE);
}
}
char *read_file (char *fname)
{
int fd = open(fname, O_RDONLY);
if ( fd == -1 )
{
if ( errno == ENOENT )
return NULL;
else
error("Failed to open file: %s: %s", fname, error_msg());
}
struct stat attribs;
if ( fstat(fd, &attribs) == -1 )
error("Failed to access file attributes: %s: %s", fname, error_msg());
int len = attribs.st_size;
char *content = (char *)malloc(len+1);
if ( content == NULL )
error("Failed to allocate memory for content: %s", error_msg());
read_cmpl_chk(fd, content, len);
content[len] = 0;
return trim_str(content);
}
static char *
parse_string (char **str, char end, int cnt)
{
int idx = 0;
char *pch = *str, *p;
do {
if (*pch == end)
idx++;
if ((*pch == end && cnt == idx) || *pch == '\0') {
size_t len = (pch - *str + 1);
p = xmalloc (len);
memcpy (p, *str, (len - 1));
p[len - 1] = '\0';
*str += len - 1;
return trim_str (p);
}
/* advance to the first unescaped delim */
if (*pch == '\\')
pch++;
} while (*pch++);
return NULL;
}
/* returns the color of an associated string,
-1 if color could not be indicated,
this is a helper function for parse_rc_file */
short
str_to_color(char *clrstr) {
trim_str(clrstr);
if (strcmp(clrstr, "BLACK") == 0)
return COLOR_BLACK;
else if (strcmp(clrstr, "RED") == 0)
return COLOR_RED;
else if (strcmp(clrstr, "GREEN") == 0)
return COLOR_GREEN;
else if (strcmp(clrstr, "YELLOW") == 0)
return COLOR_YELLOW;
else if (strcmp(clrstr, "BLUE") == 0)
return COLOR_BLUE;
else if (strcmp(clrstr, "MAGENTA") == 0)
return COLOR_MAGENTA;
else if (strcmp(clrstr, "CYAN") == 0)
return COLOR_CYAN;
else if (strcmp(clrstr, "WHITE") == 0)
return COLOR_WHITE;
else
return ERROR_CORRUPT_RC_FILE; /* error */
}
static char *
decode_url (char *url)
{
char *out, *ptr;
const char *c;
if ((url == NULL) || (*url == '\0'))
return NULL;
out = ptr = xstrdup (url);
for (c = url; *c; c++) {
if (*c != '%' || !isxdigit (c[1]) || !isxdigit (c[2]))
*ptr++ = *c;
else {
*ptr++ = (BASE16_TO_10 (c[1]) * 16) + (BASE16_TO_10 (c[2]));
c += 2;
}
}
*ptr = 0;
strip_newlines (out);
return trim_str (out);
}
/**
* parse_buf - Parse a text buffer for cheats.
* @list: list to add cheats to
* @buf: buffer holding text (must be NUL-terminated!)
* @return: 0: success, -1: error
*/
int parse_buf(gamelist_t *list, const char *buf)
{
parser_ctx_t ctx;
char line[LINE_MAX + 1];
int nl = 1;
if (list == NULL || buf == NULL)
return -1;
init_parser(&ctx);
while (*buf) {
/* Scanner */
int len = chr_idx(buf, LF);
if (len < 0)
len = strlen(line);
else if (len > LINE_MAX)
len = LINE_MAX;
if (!is_empty_substr(buf, len)) {
strncpy(line, buf, len);
line[len] = NUL;
/* Screener */
term_str(line, is_cmt_str);
trim_str(line);
/* Parser */
if (strlen(line) > 0 && parse_line(line, nl, &ctx, list) < 0)
return -1;
}
nl++;
buf += len + 1;
}
return 0;
}
/*FUNC-************************************************************************/
int process_config(void)
{
FILE *in;
char line[1024];
char *ptr;
char *key;
int line_num;
int ret;
in = fopen(dnswld.proc.config_file, "r");
if (in == NULL)
{
PUTS_OSYS(LOG_INFO, " Failed to open [%s]", dnswld.proc.config_file);
ret = RET_FILE_OPEN_ERROR;
goto EXIT;
}
line_num = 0;
while (TRUE)
{
line_num++;
ptr = fgets(line, sizeof(line), in);
if (!ptr)
{
break;
}
ptr = trim_str(ptr);
if ((!strlen(ptr)) || (is_comment(ptr)))
{
continue;
}
key = strsep(&ptr, ":");
if (ptr == NULL)
{
PUTS_OSYS(LOG_INFO, "Unrecognized statement at line: [%d]", line_num);
ret = RET_INVALID_CONFIG;
goto EXIT;
}
key = trim_str(key);
ptr = trim_str(ptr);
if ((!key) || (!ptr) || (!strlen(key)) || (!strlen(ptr)))
{
PUTS_OSYS(LOG_INFO, "Empty keyword/value at line: [%d]", line_num);
ret = RET_INVALID_CONFIG;
goto EXIT;
}
if (!strcasecmp(key, CFG_BIND))
{
}
else if (!strcasecmp(key, CFG_WHITELIST))
{
ret = parse_add_whitelist_entries(ptr);
}
else if (!strcasecmp(key, CFG_CHAINS))
{
ret = parse_add_chains(ptr);
}
else if (!strcasecmp(key, CFG_IPTABLES_PATH))
{
strncpy(dnswld.fw.iptables_path, ptr, FILENAME_MAX_LEN - 1);
}
else
{
PUTS_OSYS(LOG_INFO, "Invalid keyword at line: [%d]", line_num);
ret = RET_INVALID_CONFIG;
goto EXIT;
}
}
ret = RET_OK;
EXIT:
if (in)
{
fclose(in);
}
return(ret);
}
static char *standardize_str(char *str)
{
return strcpy_lower(trim_str(str));
}
static char *
parse_req (char *line, GLogItem * glog)
{
const char *lookfor = NULL;
char *req, *request, *req_l = NULL, *req_r = NULL;
char *method = NULL, *protocol = NULL;
ptrdiff_t req_len;
if ((lookfor = "OPTIONS ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "GET ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "HEAD ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "POST ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "PUT ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "DELETE ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "TRACE ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "CONNECT ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "PATCH", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "options ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "get ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "head ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "post ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "put ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "delete ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "trace ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "connect ", req_l = strstr (line, lookfor)) != NULL ||
(lookfor = "patch", req_l = strstr (line, lookfor)) != NULL) {
/* didn't find it - weird */
if ((req_r = strstr (line, " HTTP/1.0")) == NULL &&
(req_r = strstr (line, " HTTP/1.1")) == NULL)
return alloc_string ("-");
req_l += strlen (lookfor);
req_len = req_r - req_l;
/* make sure we don't have some weird requests */
if (req_len <= 0)
return alloc_string ("-");
req = xmalloc (req_len + 1);
strncpy (req, req_l, req_len);
req[req_len] = 0;
if (conf.append_method) {
method = trim_str (xstrdup (lookfor));
str_to_upper (method);
glog->method = method;
}
if (conf.append_protocol) {
protocol = xstrdup (++req_r);
str_to_upper (protocol);
glog->protocol = protocol;
}
} else
req = alloc_string (line);
request = decode_url (req);
if (request != NULL && *request != '\0') {
free (req);
return request;
}
return req;
}
/* clean_ban_mask: makes a proper banmask
* RETURNS: pointer to correct banmask or NULL in case of error
* NOTES:
* - A pointer is returned to a static buffer, which is overwritten
* on next clean_ban_mask or make_nick_user_host call.
* - mask is fragged in some cases, this could be bad.
*/
char *clean_ban_mask(char *mask, int what, aClient *cptr)
{
char *cp;
char *user;
char *host;
Extban *p;
cp = index(mask, ' ');
if (cp)
*cp = '\0';
/* Strip any ':' at beginning coz that desynchs clients/banlists */
for (; (*mask && (*mask == ':')); mask++);
if (!*mask)
return NULL;
/* Extended ban? */
if ((*mask == '~') && mask[1] && (mask[2] == ':'))
{
if (RESTRICT_EXTENDEDBANS && MyClient(cptr) && !IsAnOper(cptr))
{
if (!strcmp(RESTRICT_EXTENDEDBANS, "*"))
{
sendnotice(cptr, "Setting/removing of extended bans has been disabled");
return NULL;
}
if (strchr(RESTRICT_EXTENDEDBANS, mask[1]))
{
sendnotice(cptr, "Setting/removing of extended bantypes '%s' has been disabled",
RESTRICT_EXTENDEDBANS);
return NULL;
}
}
p = findmod_by_bantype(mask[1]);
if (!p)
{
/* extended bantype not supported, what to do?
* Here are the rules:
* - if from a remote client/server: allow it (easy upgrading,
* no desynch)
* - if from a local client trying to REMOVE the extban,
* allow it too (so you don't get "unremovable" extbans).
*/
if (!MyClient(cptr) || (what == MODE_DEL))
return mask; /* allow it */
return NULL; /* reject */
}
if (p->conv_param)
return p->conv_param(mask);
/* else, do some basic sanity checks and cut it off at 80 bytes */
if ((cp[1] != ':') || (cp[2] == '\0'))
return NULL; /* require a ":<char>" after extban type */
if (strlen(mask) > 80)
mask[80] = '\0';
return mask;
}
if ((*mask == '~') && !strchr(mask, '@'))
return NULL; /* not an extended ban and not a ~user@host ban either. */
if ((user = index((cp = mask), '!')))
*user++ = '\0';
if ((host = rindex(user ? user : cp, '@')))
{
*host++ = '\0';
if (!user)
return make_nick_user_host(NULL, trim_str(cp,USERLEN),
trim_str(host,HOSTLEN));
}
else if (!user && index(cp, '.'))
return make_nick_user_host(NULL, NULL, trim_str(cp,HOSTLEN));
return make_nick_user_host(trim_str(cp,NICKLEN), trim_str(user,USERLEN),
trim_str(host,HOSTLEN));
}
/* parses configuration file to feed getopt_long */
int
parse_conf_file (int *argc, char ***argv)
{
char line[MAX_LINE_CONF + 1];
char *path = NULL, *val, *opt, *p;
FILE *file;
int i;
size_t idx;
/* assumes program name is on argv[0], though, it is not guaranteed */
append_to_argv (&nargc, &nargv, xstrdup ((char *) *argv[0]));
/* determine which config file to open, default or custom */
path = get_config_file_path ();
if (path == NULL)
return ENOENT;
/* could not open conf file, if so prompt conf dialog */
if ((file = fopen (path, "r")) == NULL) {
free (path);
return ENOENT;
}
while (fgets (line, sizeof line, file) != NULL) {
if (line[0] == '\n' || line[0] == '\r' || line[0] == '#')
continue;
/* key */
idx = strcspn (line, " \t");
if (strlen (line) == idx)
FATAL ("Malformed config key at line: %s", line);
line[idx] = '\0';
/* make old config options backwards compatible by
* substituting underscores with dashes */
while ((p = strpbrk (line, "_")) != NULL)
*p = '-';
/* Ignore the following options when reading the config file */
if (in_ignore_cmd_opts (line))
continue;
/* value */
val = line + (idx + 1);
idx = strspn (val, " \t");
if (strlen (line) == idx)
FATAL ("Malformed config value at line: %s", line);
val = val + idx;
val = trim_str (val);
if (strcmp ("false", val) == 0)
continue;
/* set it as command line options */
opt = xmalloc (snprintf (NULL, 0, "--%s", line) + 1);
sprintf (opt, "--%s", line);
append_to_argv (&nargc, &nargv, opt);
if (strcmp ("true", val) != 0)
append_to_argv (&nargc, &nargv, xstrdup (val));
}
/* give priority to command line arguments */
for (i = 1; i < *argc; i++)
append_to_argv (&nargc, &nargv, xstrdup ((char *) (*argv)[i]));
*argc = nargc;
*argv = (char **) nargv;
fclose (file);
if (conf.iconfigfile == NULL)
conf.iconfigfile = xstrdup (path);
free (path);
return 0;
}
bool ParseMeal(std::ifstream & infile, Meal & meal)
{
if (true == infile.eof())
{
return false;
}
const int MAX_TOKEN = 256;
std::string line;
std::string tokenBuf(MAX_TOKEN, '\0');
const char * delim = ",\n";
do
{
// read line
std::getline(infile, line);
// grab first token
char * token = nullptr;
char * nextToken = nullptr;
token = strtok_s(&line[0], delim, &nextToken);
bool mealTypeParsed = false;
bool caloriesParsed = false;
// locals for meal header row
MealType mealType = MealType::MEAL_BREAKFAST;
float calories;
// walk the line
while (token != nullptr && nextToken != nullptr)
{
// valid meal type?
std::string tokTrimmed = token;
trim_str(tokTrimmed);
String tokStr(ConvertStringToWString(tokTrimmed));
if (true == StringToMealType(tokStr, mealType))
{
mealTypeParsed = true;
}
else if (true == mealTypeParsed)
{
calories = (float)atof(token);
// if calories column is empty or whitespace, or an invalid number, skip this meal
if (calories > 0)
{
caloriesParsed = true;
break;
}
}
// next token plz
token = strtok_s(nullptr, delim, &nextToken);
}
// if we didn't parse a meal line, fail
if (false == mealTypeParsed || false == caloriesParsed)
{
// try the next line
continue;
}
assert(true == IsValidMealType(mealType) && calories > 0);
// parse as many food items are below the meal line
Meal workingMeal(mealType, calories);
FoodItem foodItem;
while (false == infile.eof() && true == ParseFoodItem(infile, foodItem))
{
workingMeal.AddFoodItem(foodItem);
// make sure this line isn't starting a new meal
std::string peekFirstToken;
if (false == PeekString(infile, delim, peekFirstToken))
{
// couldn't read a token, done with this meal
return true;
}
trim_str(peekFirstToken);
String strFirstToken(ConvertStringToWString(peekFirstToken));
MealType nextTokMealType;
if (true == StringToMealType(strFirstToken, nextTokMealType))
{
// next token is a meal type, so we're done with this meal
break;
}
}
// meal is valid
meal = workingMeal;
break;
}
while (false == infile.eof());
return true;
}
struct amf_cluster *amf_config_read (char **error_string)
{
char buf[1024];
char *line;
FILE *fp;
const char *filename;
amf_object_type_t current_parse = AMF_NONE;
int line_number = 0;
char *loc;
int i;
struct amf_cluster *cluster;
struct amf_application *app = 0;
struct amf_node *node = 0;
struct amf_sg *sg = 0;
struct amf_su *su = 0;
struct amf_comp *comp = 0;
struct amf_si *si = 0;
struct amf_si_ranked_su *si_ranked_su = 0;
struct amf_si_dependency *si_dependency = 0;
struct amf_healthcheck *healthcheck = 0;
struct amf_csi *csi = 0;
struct amf_csi_attribute *attribute = 0;
SaStringT env_var;
int su_cnt = 0;
int sg_cnt = 0;
int comp_env_var_cnt = 0;
int comp_cs_type_cnt = 0;
int csi_attr_cnt = 0;
int csi_dependencies_cnt = 0;
const char *error_reason = NULL;
char *value;
filename = getenv ("COROSYNC_AMF_CONFIG_FILE");
if (!filename) {
filename = COROSYSCONFDIR "/amf.conf";
}
fp = fopen (filename, "r");
if (fp == 0) {
sprintf (buf, "Can't read %s file reason = (%s).\n",
filename, strerror (errno));
*error_string = buf;
return NULL;
}
cluster = amf_cluster_new ();
assert (cluster != NULL);
while (fgets (buf, 255, fp)) {
line_number += 1;
line = buf;
if (strlen(line) > 0) {
line[strlen(line) - 1] = '\0';
}
/*
* Clear out comments and empty lines
*/
if (line[0] == '#' || line[0] == '\0' || line[0] == '\n') {
continue;
}
/*
* Clear out white space and tabs
*/
for (i = strlen (line) - 1; i > -1; i--) {
if (line[i] == '\t' || line[i] == ' ') {
line[i] = '\0';
} else {
break;
}
}
/* Trim whitespace from beginning of string */
line = rm_beginning_ws(line);
error_reason = line;
error_reason = NULL;
switch (current_parse) {
case AMF_NONE:
if ((loc = strstr_rs (line, "safAmfCluster=")) != 0) {
setSaNameT (&cluster->name, trim_str (loc));
current_parse = AMF_CLUSTER;
} else {
goto parse_error;
}
break;
case AMF_CLUSTER:
if ((loc = strstr_rs (line, "saAmfClusterClmCluster=")) != 0) {
setSaNameT (&cluster->saAmfClusterClmCluster, loc);
} else if ((loc = strstr_rs (line, "saAmfClusterStartupTimeout=")) != 0) {
cluster->saAmfClusterStartupTimeout = atol(loc);
} else if ((loc = strstr_rs (line, "safAmfNode=")) != 0) {
node = amf_node_new (cluster, trim_str (loc));
cluster->node_head = node;
current_parse = AMF_NODE;
} else if ((loc = strstr_rs (line, "safApp=")) != 0) {
app = amf_application_new (cluster);
setSaNameT (&app->name, trim_str (loc));
current_parse = AMF_APPLICATION;
sg_cnt = 0;
} else if (strstr_rs (line, "}")) {
if (cluster->saAmfClusterStartupTimeout == -1) {
error_reason = "saAmfClusterStartupTimeout missing";
goto parse_error;
}
/* spec: set to default value if zero */
if (cluster->saAmfClusterStartupTimeout == 0) {
cluster->saAmfClusterStartupTimeout = COROSYNC_CLUSTER_STARTUP_TIMEOUT;
}
current_parse = AMF_NONE;
} else {
goto parse_error;
}
break;
case AMF_NODE:
if ((loc = strstr_rs (line, "saAmfNodeSuFailOverProb=")) != 0) {
node->saAmfNodeSuFailOverProb = atol(loc);
} else if ((loc = strstr_rs (line, "saAmfNodeSuFailoverMax=")) != 0) {
node->saAmfNodeSuFailoverMax = atol(loc);
} else if ((loc = strstr_rs (line, "saAmfNodeClmNode=")) != 0) {
setSaNameT (&node->saAmfNodeClmNode, trim_str (loc));
} else if ((loc = strstr_rs (line, "saAmfNodeAutoRepair=")) != 0) {
if (strcmp (loc, "true") == 0) {
node->saAmfNodeAutoRepair = SA_TRUE;
} else if (strcmp (loc, "false") == 0) {
node->saAmfNodeAutoRepair = SA_FALSE;
} else {
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfNodeRebootOnTerminationFailure=")) != 0) {
if (strcmp (loc, "true") == 0) {
node->saAmfNodeRebootOnTerminationFailure = SA_TRUE;
} else if (strcmp (loc, "false") == 0) {
node->saAmfNodeRebootOnTerminationFailure = SA_FALSE;
} else {
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfNodeRebootOnInstantiationFailure=")) != 0) {
if (strcmp (loc, "true") == 0) {
node->saAmfNodeRebootOnInstantiationFailure = SA_TRUE;
} else if (strcmp (loc, "false") == 0) {
node->saAmfNodeRebootOnInstantiationFailure = SA_FALSE;
} else {
goto parse_error;
}
} else if (strstr_rs (line, "}")) {
if (node->saAmfNodeSuFailOverProb == -1) {
error_reason = "saAmfNodeSuFailOverProb missing";
goto parse_error;
}
if (node->saAmfNodeSuFailoverMax == ~0) {
error_reason = "saAmfNodeSuFailoverMax missing";
goto parse_error;
}
if (node->saAmfNodeClmNode.length == 0) {
error_reason = "saAmfNodeClmNode missing";
goto parse_error;
}
current_parse = AMF_CLUSTER;
} else {
goto parse_error;
}
break;
case AMF_APPLICATION:
if ((loc = strstr_rs (line, "clccli_path=")) != 0) {
app->clccli_path = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "safSg=")) != 0) {
sg = amf_sg_new (app, trim_str (loc));
sg_cnt++;
sg->recovery_scope.comp = NULL;
sg->recovery_scope.event_type = 0;
sg->recovery_scope.node = NULL;
sg->recovery_scope.sis = NULL;
sg->recovery_scope.sus = NULL;
current_parse = AMF_SG;
su_cnt = 0;
} else if ((loc = strstr_rs (line, "safSi=")) != 0) {
si = amf_si_new (app, trim_str (loc));
current_parse = AMF_SI;
} else if ((loc = strstr_rs (line, "safCSType=")) != 0) {
current_parse = AMF_CS_TYPE;
} else if (strstr_rs (line, "}")) {
if (sg_cnt == 1) {
for (si = app->si_head; si != NULL; si = si->next) {
memcpy (&si->saAmfSIProtectedbySG, &sg->name,
sizeof (SaNameT));
}
} else {
for (si = app->si_head; si != NULL; si = si->next) {
if (si->saAmfSIProtectedbySG.length == 0) {
error_reason = "saAmfSIProtectedbySG not set in SI"
", needed when several SGs are specified.";
goto parse_error;
}
}
}
current_parse = AMF_CLUSTER;
} else {
goto parse_error;
}
break;
case AMF_SG:
if ((loc = strstr_rs (line, "clccli_path=")) != 0) {
sg->clccli_path = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "saAmfSGRedundancyModel=")) != 0) {
if (strcmp (loc, "2n") == 0) {
sg->saAmfSGRedundancyModel = SA_AMF_2N_REDUNDANCY_MODEL;
} else if (strcmp (loc, "nplusm") == 0) {
sg->saAmfSGRedundancyModel = SA_AMF_NPM_REDUNDANCY_MODEL;
} else if (strcmp (loc, "nway") == 0) {
error_reason = "nway redundancy model not supported";
goto parse_error;
} else if (strcmp (loc, "nwayactive") == 0) {
error_reason = "nway active redundancy model not supported";
goto parse_error;
} else if (strcmp (loc, "noredundancy") == 0) {
sg->saAmfSGRedundancyModel = SA_AMF_NO_REDUNDANCY_MODEL;
} else {
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfSGNumPrefActiveSUs=")) != 0) {
sg->saAmfSGNumPrefActiveSUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGNumPrefStandbySUs=")) != 0) {
sg->saAmfSGNumPrefStandbySUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGNumPrefInserviceSUs=")) != 0) {
sg->saAmfSGNumPrefInserviceSUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGNumPrefAssignedSUs=")) != 0) {
sg->saAmfSGNumPrefAssignedSUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGMaxActiveSIsperSUs=")) != 0) {
sg->saAmfSGMaxActiveSIsperSUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGMaxStandbySIsperSUs=")) != 0) {
sg->saAmfSGMaxStandbySIsperSUs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGCompRestartProb=")) != 0) {
sg->saAmfSGCompRestartProb = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGCompRestartMax=")) != 0) {
sg->saAmfSGCompRestartMax = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGSuRestartProb=")) != 0) {
sg->saAmfSGSuRestartProb = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGSuRestartMax=")) != 0) {
sg->saAmfSGSuRestartMax = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGAutoAdjustProb=")) != 0) {
sg->saAmfSGAutoAdjustProb = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSGAutoRepair=")) != 0) {
sg->saAmfSGAutoRepair = atoi (loc);
} else if ((loc = strstr_rs (line, "safSu=")) != 0) {
su = amf_su_new (sg, trim_str (loc));
su_cnt++;
current_parse = AMF_SU;
} else if (strstr_rs (line, "}")) {
if (sg->saAmfSGRedundancyModel == 0) {
error_reason = "saAmfSGRedundancyModel missing";
goto parse_error;
}
if (sg->saAmfSGCompRestartProb == -1) {
error_reason = "saAmfSGCompRestartProb missing";
goto parse_error;
}
if (sg->saAmfSGCompRestartMax == ~0) {
error_reason = "saAmfSGCompRestartMax missing";
goto parse_error;
}
if (sg->saAmfSGSuRestartProb == -1) {
error_reason = "saAmfSGSuRestartProb missing";
goto parse_error;
}
if (sg->saAmfSGSuRestartMax == ~0) {
error_reason = "saAmfSGSuRestartMax missing";
goto parse_error;
}
if (sg->saAmfSGAutoAdjustProb == -1) {
error_reason = "saAmfSGAutoAdjustProb missing";
goto parse_error;
}
if (sg->saAmfSGAutoRepair > 1) {
error_reason = "saAmfSGAutoRepair erroneous";
goto parse_error;
}
if (sg->saAmfSGNumPrefInserviceSUs == ~0) {
sg->saAmfSGNumPrefInserviceSUs = su_cnt;
}
if (sg->saAmfSGNumPrefAssignedSUs == ~0) {
sg->saAmfSGNumPrefAssignedSUs =
sg->saAmfSGNumPrefInserviceSUs;
}
current_parse = AMF_APPLICATION;
} else {
goto parse_error;
}
break;
case AMF_SU:
if ((loc = strstr_rs (line, "saAmfSUNumComponents=")) != 0) {
su->saAmfSUNumComponents = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSUIsExternal=")) != 0) {
su->saAmfSUIsExternal = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSUFailover=")) != 0) {
su->saAmfSUFailover = atoi (loc);
} else if ((loc = strstr_rs (line, "clccli_path=")) != 0) {
su->clccli_path = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "saAmfSUHostedByNode=")) != 0) {
setSaNameT (&su->saAmfSUHostedByNode, loc);
} else if ((loc = strstr_rs (line, "safComp=")) != 0) {
comp = amf_comp_new (su, trim_str (loc));
comp_env_var_cnt = 0;
comp_cs_type_cnt = 0;
current_parse = AMF_COMP;
} else if (strstr_rs (line, "}")) {
if (su->saAmfSUNumComponents == 0) {
error_reason = "saAmfSUNumComponents missing";
goto parse_error;
}
if (su->saAmfSUIsExternal > 1) {
error_reason = "saAmfSUIsExternal erroneous";
goto parse_error;
}
if (su->saAmfSUFailover > 1) {
error_reason = "saAmfSUFailover erroneous";
goto parse_error;
}
if (strcmp ((char*)su->saAmfSUHostedByNode.value, "") == 0) {
error_reason = "saAmfSUHostedByNode missing";
goto parse_error;
}
current_parse = AMF_SG;
} else {
goto parse_error;
}
break;
case AMF_COMP:
if ((loc = strstr_rs (line, "clccli_path=")) != 0) {
comp->clccli_path = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "saAmfCompCsTypes{")) != 0) {
current_parse = AMF_COMP_CS_TYPE;
} else if ((loc = strstr_rs(line, "saAmfCompCategory=")) != 0) {
if (init_category(comp, loc) != 0) {
error_reason = "unknown category";
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfCompCapability=")) != 0) {
if (init_capability(comp, loc) != 0) {
error_reason = "unknown capability model";
goto parse_error;
}
} else if ((loc = strstr_rs(line, "saAmfCompNumMaxActiveCsi=")) != 0) {
comp->saAmfCompNumMaxActiveCsi = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompNumMaxStandbyCsi=")) != 0) {
comp->saAmfCompNumMaxStandbyCsi = atol (loc);
} else if ((loc = strstr_rs (line, "saAmfCompCmdEnv{")) != 0) {
current_parse = AMF_COMP_ENV_VAR;
} else if ((loc = strstr_rs(line, "saAmfCompDefaultClcCliTimeout=")) != 0) {
comp->saAmfCompDefaultClcCliTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompDefaultCallbackTimeOut=")) != 0) {
comp->saAmfCompDefaultCallbackTimeOut = atol (loc);
} else if ((loc = strstr_rs (line, "saAmfCompInstantiateCmdArgv=")) != 0) {
comp->saAmfCompInstantiateCmdArgv = amf_strdup(loc);
} else if ((loc = strstr_rs ( line, "saAmfCompInstantiateCmd=")) != 0) {
comp->saAmfCompInstantiateCmd = amf_strdup(loc);
} else if ((loc = strstr_rs(line, "saAmfCompInstantiateTimeout=")) != 0) {
comp->saAmfCompInstantiateTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompInstantiationLevel=")) != 0) {
comp->saAmfCompInstantiationLevel = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompNumMaxInstantiateWithoutDelay=")) != 0) {
comp->saAmfCompNumMaxInstantiateWithoutDelay = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompNumMaxInstantiateWithDelay=")) != 0) {
comp->saAmfCompNumMaxInstantiateWithDelay = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompDelayBetweenInstantiateAttempts=")) != 0) {
comp->saAmfCompDelayBetweenInstantiateAttempts = atol (loc);
} else if ((loc = strstr_rs (line, "saAmfCompTerminateCmdArgv=")) != 0) {
comp->saAmfCompTerminateCmdArgv = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "saAmfCompTerminateCmd=")) != 0) {
comp->saAmfCompTerminateCmd = amf_strdup(loc);
} else if ((loc = strstr_rs(line, "saAmfCompTerminateTimeout=")) != 0) {
comp->saAmfCompTerminateTimeout = atol (loc);
} else if ((loc = strstr_rs (line, "saAmfCompCleanupCmdArgv=")) != 0) {
comp->saAmfCompCleanupCmdArgv = amf_strdup(loc);
} else if ((loc = strstr_rs (line, "saAmfCompCleanupCmd=")) != 0) {
comp->saAmfCompCleanupCmd = amf_strdup(loc);
} else if ((loc = strstr_rs(line, "saAmfCompCleanupTimeout=")) != 0) {
comp->saAmfCompCleanupTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompTerminateCallbackTimeout=")) != 0) {
comp->saAmfCompTerminateCallbackTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompCSISetCallbackTimeout=")) != 0) {
comp->saAmfCompCSISetCallbackTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompQuiescingCompleteTimeout=")) != 0) {
comp->saAmfCompQuiescingCompleteTimeout = atol (loc);
} else if ((loc = strstr_rs(line, "saAmfCompCSIRmvCallbackTimeout=")) != 0) {
comp->saAmfCompCSIRmvCallbackTimeout = atol (loc);
} else if ((loc = strstr_rs (line, "saAmfCompRecoveryOnError=")) != 0) {
if (init_recovery_on_error (comp, loc) != 0) {
error_reason = "bad value";
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfCompDisableRestart=")) != 0) {
if (strcmp (loc, "false") == 0) {
comp->saAmfCompDisableRestart = SA_FALSE;
} else if (strcmp (loc, "true") == 0) {
comp->saAmfCompDisableRestart = SA_TRUE;
} else {
error_reason = "bad value";
goto parse_error;
}
} else if ((loc = strstr_rs (line, "saAmfCompProxyCsi=")) != 0) {
setSaNameT (&comp->saAmfCompProxyCsi, loc);
} else if ((loc = strstr_rs (line, "safHealthcheckKey=")) != 0) {
healthcheck = calloc (1, sizeof (struct amf_healthcheck));
healthcheck->next = comp->healthcheck_head;
comp->healthcheck_head = healthcheck;
healthcheck->comp = comp;
strcpy ((char *)healthcheck->safHealthcheckKey.key, trim_str (loc));
healthcheck->safHealthcheckKey.keyLen = strlen (loc);
current_parse = AMF_HEALTHCHECK;
} else if (strstr_rs (line, "}")) {
if (comp->saAmfCompCategory == 0) {
error_reason = "category missing";
goto parse_error;
}
if (comp->saAmfCompCapability == 0) {
error_reason = "capability model missing";
goto parse_error;
}
if (comp->saAmfCompCategory == SA_AMF_COMP_SA_AWARE) {
comp->comptype = clc_component_sa_aware;
} else if (comp->saAmfCompCategory == SA_AMF_COMP_PROXY) {
if (comp->saAmfCompCapability == SA_AMF_COMP_NON_PRE_INSTANTIABLE) {
comp->comptype = clc_component_proxied_non_pre;
} else {
comp->comptype = clc_component_proxied_pre;
}
} else if (comp->saAmfCompCategory == SA_AMF_COMP_LOCAL) {
comp->comptype = clc_component_non_proxied_non_sa_aware;
}
if (comp->saAmfCompNumMaxActiveCsi == 0) {
error_reason = "saAmfCompNumMaxActiveCsi missing";
goto parse_error;
}
if (comp->saAmfCompNumMaxStandbyCsi == 0) {
error_reason = "saAmfCompNumMaxStandbyCsi missing";
goto parse_error;
}
if (comp->saAmfCompDefaultClcCliTimeout == 0) {
error_reason = "saAmfCompDefaultClcCliTimeout missing or erroneous";
goto parse_error;
}
if (comp->saAmfCompDefaultCallbackTimeOut == 0) {
error_reason = "saAmfCompDefaultCallbackTimeOut missing or erroneous";
goto parse_error;
}
if (comp->saAmfCompRecoveryOnError == 0) {
error_reason = "saAmfCompRecoveryOnError missing";
goto parse_error;
}
post_init_comp (comp);
current_parse = AMF_SU;
} else {
error_reason = line;
goto parse_error;
}
break;
case AMF_COMP_CS_TYPE:
if (strstr_rs (line, "}")) {
current_parse = AMF_COMP;
} else {
comp_cs_type_cnt++;
comp->saAmfCompCsTypes = realloc (comp->saAmfCompCsTypes,
(comp_cs_type_cnt + 1) * sizeof(SaNameT));
comp->saAmfCompCsTypes[comp_cs_type_cnt] = NULL;
comp->saAmfCompCsTypes[comp_cs_type_cnt - 1] = amf_malloc (sizeof(SaNameT));
setSaNameT (comp->saAmfCompCsTypes[comp_cs_type_cnt - 1], line);
}
break;
case AMF_COMP_ENV_VAR:
if (strstr_rs (line, "}")) {
current_parse = AMF_COMP;
} else if ((loc = strchr (line, '=')) != 0) {
comp_env_var_cnt++;
comp->saAmfCompCmdEnv = realloc (comp->saAmfCompCmdEnv,
(comp_env_var_cnt + 1) * sizeof(SaStringT));
comp->saAmfCompCmdEnv[comp_env_var_cnt] = NULL;
env_var = comp->saAmfCompCmdEnv[comp_env_var_cnt - 1] = amf_strdup(line);
} else {
goto parse_error;
}
break;
case AMF_HEALTHCHECK:
if ((loc = strstr_rs (line, "saAmfHealthcheckPeriod=")) != 0) {
healthcheck->saAmfHealthcheckPeriod = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfHealthcheckMaxDuration=")) != 0) {
healthcheck->saAmfHealthcheckMaxDuration = atoi (loc);
} else if (strstr_rs (line, "}")) {
current_parse = AMF_COMP;
} else {
goto parse_error;
}
break;
case AMF_SI:
if ((loc = strstr_rs (line, "safRankedSu=")) != 0) {
si_ranked_su = calloc (1, sizeof(struct amf_si_ranked_su));
si_ranked_su->si_next = si->ranked_sus;
si->ranked_sus = si_ranked_su;
si_ranked_su->si = si;
setSaNameT (&si_ranked_su->name, trim_str (loc));
current_parse = AMF_SI_RANKED_SU;
} else if ((loc = strstr_rs (line, "safDepend=")) != 0) {
si_dependency = calloc (1, sizeof(struct amf_si_dependency));
si_dependency->next = si->depends_on;
si->depends_on = si_dependency;
setSaNameT (&si_dependency->name, trim_str (loc));
current_parse = AMF_SI_DEPENDENCY;
} else if ((loc = strstr_rs (line, "safCsi=")) != 0) {
csi = calloc (1, sizeof(struct amf_csi));
csi->next = si->csi_head;
si->csi_head = csi;
csi->si = si;
setSaNameT (&csi->name, trim_str (loc));
current_parse = AMF_CSI;
} else if ((loc = strstr_rs (line, "saAmfSIProtectedbySG=")) != 0) {
setSaNameT (&si->saAmfSIProtectedbySG, loc);
} else if ((loc = strstr_rs (line, "saAmfSIRank=")) != 0) {
si->saAmfSIRank = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSINumCSIs=")) != 0) {
si->saAmfSINumCSIs = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSIPrefActiveAssignments=")) != 0) {
si->saAmfSIPrefActiveAssignments = atoi (loc);
} else if ((loc = strstr_rs (line, "saAmfSIPrefActiveAssignments=")) != 0) {
si->saAmfSIPrefStandbyAssignments = atoi (loc);
} else if (strstr_rs (line, "}")) {
if (si->saAmfSINumCSIs == 0) {
error_reason = "saAmfSINumCSIs missing";
goto parse_error;
}
current_parse = AMF_APPLICATION;
} else {
goto parse_error;
}
break;
case AMF_SI_RANKED_SU:
if ((loc = strstr_rs (line, "saAmfRank=")) != 0) {
si_ranked_su->saAmfRank = atoi (loc);
} else if (strstr_rs (line, "}")) {
current_parse = AMF_SI;
} else {
goto parse_error;
}
break;
case AMF_SI_DEPENDENCY:
if ((loc = strstr_rs (line, "saAmfToleranceTime=")) != 0) {
si_dependency->saAmfToleranceTime = atoi (loc);
} else if (strstr_rs (line, "}")) {
current_parse = AMF_SI;
} else {
goto parse_error;
}
break;
case AMF_CSI:
if ((loc = strstr_rs (line, "saAmfCSTypeName=")) != 0) {
setSaNameT (&csi->saAmfCSTypeName, loc);
} else if ((loc = strstr_rs (line, "safCSIAttr=")) != 0) {
attribute = calloc (1, sizeof(struct amf_csi_attribute));
attribute->next = csi->attributes_head;
csi->attributes_head = attribute;
attribute->name = amf_strdup(loc);
csi_attr_cnt = 1;
current_parse = AMF_CSI_ATTRIBUTE;
} else if ((loc = strstr_rs (line, "saAmfCsiDependencies{")) != 0) {
csi_dependencies_cnt = 0;
current_parse = AMF_CSI_DEPENDENCIES;
} else if (strstr_rs (line, "}")) {
if (strcmp(getSaNameT(&csi->saAmfCSTypeName), "") == 0) {
error_reason = "saAmfCSTypeName missing";
goto parse_error;
}
current_parse = AMF_SI;
} else {
goto parse_error;
}
break;
case AMF_CSI_DEPENDENCIES:
if (strstr_rs (line, "}")) {
current_parse = AMF_CSI;
} else if ((loc = strstr_rs (line, "saAmfCSIDependency=")) != 0) {
csi_dependencies_cnt++;
csi->saAmfCSIDependencies = realloc (csi->saAmfCSIDependencies,
(csi_dependencies_cnt + 1) * sizeof(SaNameT));
csi->saAmfCSIDependencies[csi_dependencies_cnt] = NULL;
csi->saAmfCSIDependencies[csi_dependencies_cnt - 1] =
amf_malloc (sizeof(SaNameT));
setSaNameT (
csi->saAmfCSIDependencies[csi_dependencies_cnt - 1], loc);
} else {
goto parse_error;
}
break;
case AMF_CSI_ATTRIBUTE:
if ((loc = strstr_rs (line, "}")) != 0) {
current_parse = AMF_CSI;
} else {
value = rm_beginning_ws (line);
attribute->value = realloc (attribute->value,
sizeof (SaStringT) * (csi_attr_cnt + 1));
attribute->value[csi_attr_cnt - 1] = amf_strdup(value);
attribute->value[csi_attr_cnt] = NULL;
csi_attr_cnt++;
}
break;
case AMF_CS_TYPE:
if ((loc = strstr_rs (line, "}")) != 0) {
current_parse = AMF_APPLICATION;
}
break;
default:
error_reason = "Invalid state\n";
goto parse_error;
break;
}
}
fclose (fp);
sprintf (buf, "Successfully read AMF configuration file '%s'.\n", filename);
*error_string = buf;
return cluster;
parse_error:
sprintf (buf, "parse error at %s: %d: %s\n",
filename, line_number, error_reason);
*error_string = buf;
fclose (fp);
return NULL;
}
