void chain_save_pc( MYSQL_RES *res, QueryItem_t *item )
{
int count;
MYSQL_BIND *data;
MYSQL_BIND temp[1];
ProtectedData_t *protect;
int *id;
data = item->queryData;
if( !res || !(count = mysql_num_rows(res)) ) {
count = 0;
}
protect = (ProtectedData_t *)data[3].buffer;
id = (int *)protect->data;
*id = *(int *)data[0].buffer;
/* swap argument order */
memcpy( temp, &data[0], sizeof(MYSQL_BIND) );
memmove( &data[0], &data[1], sizeof(MYSQL_BIND) * 2 );
memcpy( &data[2], temp, sizeof(MYSQL_BIND) );
if( count ) {
/* update */
ProtectedDataUnlock( protect );
LogPrint(LOG_DEBUG, "Updating id %d", *id);
db_queue_query( 11, QueryTable, data, 3, NULL, NULL, NULL );
} else {
/* insert */
*id = 0;
LogPrintNoArg(LOG_DEBUG, "Inserting");
db_queue_query( 12, QueryTable, data, 2, result_insert_id, protect,
NULL );
}
}
void chain_save_account( MYSQL_RES *res, QueryItem_t *item )
{
int count;
MYSQL_BIND *data;
MYSQL_BIND temp[1];
ProtectedData_t *protect;
int *id;
data = item->queryData;
if( !res || !(count = mysql_num_rows(res)) ) {
count = 0;
}
protect = (ProtectedData_t *)data[6].buffer;
id = (int *)protect->data;
*id = *(int *)data[0].buffer;
/* swap argument order */
memcpy( temp, &data[0], sizeof(MYSQL_BIND) );
memmove( &data[0], &data[1], sizeof(MYSQL_BIND) * 5 );
memcpy( &data[5], temp, sizeof(MYSQL_BIND) );
if( count ) {
/* update */
ProtectedDataUnlock( protect );
db_queue_query( 6, QueryTable, data, 6, NULL, NULL, NULL );
} else {
/* insert */
db_queue_query( 7, QueryTable, data, 5, result_insert_id, protect,
NULL );
}
}
void result_insert_id( MYSQL_RES *res, MYSQL_BIND *input, void *arg,
long insertid )
{
ProtectedData_t *protect;
int *id;
if( !arg ) {
return;
}
protect = (ProtectedData_t *)arg;
id = (int *)protect->data;
*id = insertid;
LogPrint(LOG_CRIT, "New ID: %d", insertid);
ProtectedDataUnlock( protect );
}
/**
* @brief Handles all network connections
* @param arg a pointer to a structure containing port number and timeout
* @return never returns until shutdown
*
* @todo be sure this handles linkdead without removing all player structures
* so the player can log back in and be where they were
*
* Brings up a TCP listener on the MUD's assigned port and accepts connections.
* Also reads all data from connected clients and hands the data off to the
* Input thread. When there is output to be sent, this thread handles writing
* to the sockets after the first write has completed. This thread also
* handles the disconnection of clients gracefully.
*/
void *ConnectionThread( void *arg )
{
connectThreadArgs_t *argStruct;
int portNum;
char *port;
struct sockaddr_in6 sa;
int count;
int fdCount;
int newFd;
socklen_t salen;
struct timeval timeout;
ConnectionItem_t *item;
PlayerStruct_t *player;
ConnInputItem_t *connItem;
ConnDnsItem_t *dnsItem;
uint32 i;
int on;
int retval;
char ch;
argStruct = (connectThreadArgs_t *)arg;
portNum = argStruct->port;
pthread_mutex_lock( startupMutex );
if( portNum == -1 ) {
port = pb_get_setting( "listenPort" );
if( !port ) {
portNum = 4000;
} else {
portNum = atoi(port);
memfree(port);
}
}
/*
* Start listening
*/
listenFd = socket( AF_INET6, SOCK_STREAM, 0 );
if( listenFd < 0 ) {
perror("Opening listener socket");
exit(1);
}
on = 1;
if( setsockopt( listenFd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on) ) ) {
perror("Setting socket to reuse");
exit(1);
}
memset(&sa, 0, sizeof(sa));
sa.sin6_family = AF_INET6;
sa.sin6_port = htons(portNum);
sa.sin6_addr = in6addr_any;
if (bind(listenFd, (struct sockaddr *)&sa, sizeof(sa)) < 0) {
perror("Binding listener socket");
close(listenFd);
exit(1);
}
if (listen(listenFd, 10)) {
perror("Listening to socket");
close(listenFd);
exit(1);
}
FD_ZERO(&saveReadFds);
FD_ZERO(&saveWriteFds);
FD_ZERO(&saveExceptFds);
connAddFd(listenFd, &saveReadFds);
ConnectionList = LinkedListCreate(NULL);
LogPrint( LOG_NOTICE, "Listening on port %d", portNum );
pthread_mutex_unlock( startupMutex );
while( !GlobalAbort ) {
/*
* Select on connected and listener
*/
readFds = saveReadFds;
writeFds = saveWriteFds;
exceptFds = saveExceptFds;
timeout.tv_sec = argStruct->timeout_sec;
timeout.tv_usec = argStruct->timeout_usec;
fdCount = select(maxFd+1, &readFds, &writeFds, &exceptFds, &timeout);
if( GlobalAbort ) {
continue;
}
recalcMaxFd = FALSE;
/*
* Open a connection for listener
*/
if( FD_ISSET(listenFd, &readFds) ) {
salen = sizeof(struct sockaddr_in6);
newFd = accept(listenFd, (struct sockaddr *)&sa, &salen);
connAddFd(newFd, &saveReadFds);
connAddFd(newFd, &saveExceptFds);
item = CREATE(ConnectionItem_t);
if( !item ) {
/*
* No memory!
*/
LogPrintNoArg( LOG_EMERG, "Out of memory!" );
close(newFd);
} else {
item->fd = newFd;
item->buffer = BufferCreate(MAX_BUFSIZE);
item->hostName = ProtectedDataCreate();
ProtectedDataLock( item->hostName );
item->hostName->data = CREATEN(char, 50);
inet_ntop(AF_INET6, &sa.sin6_addr, item->hostName->data, 50);
if( !strncmp(item->hostName->data, "::ffff:", 7) ) {
bcopy((char *)item->hostName->data + 7,
item->hostName->data, 43);
}
ProtectedDataUnlock( item->hostName );
if (!IS_SET(SystemFlags, SYS_SKIPDNS)) {
dnsItem = CREATE(ConnDnsItem_t);
if( dnsItem ) {
dnsItem->connection = item;
memcpy(dnsItem->ipAddr, &sa.sin6_addr, 16);
QueueEnqueueItem(ConnectDnsQ, dnsItem);
}
}
player = CREATE(PlayerStruct_t);
if( !player ) {
/*
* No memory!
*/
LogPrintNoArg( LOG_EMERG, "Out of memory!" );
BufferDestroy(item->buffer);
close(newFd);
memfree(item);
} else {
item->player = player;
player->connection = item;
player->in_buffer = item->buffer;
LinkedListAdd( ConnectionList, (LinkedListItem_t *)item,
UNLOCKED, AT_TAIL );
/*
* Pass the info on to the other threads...
*/
#ifdef DEBUG_CONNECT
LogPrint( LOG_INFO, "New connection: %p", player );
#endif
connItem = CREATE(ConnInputItem_t);
if( connItem ) {
connItem->type = CONN_NEW_CONNECT;
connItem->player = player;
QueueEnqueueItem(ConnectInputQ, (QueueItem_t)connItem);
}
}
}
fdCount--;
}
if( fdCount ) {
LinkedListLock( ConnectionList );
for( item = (ConnectionItem_t *)(ConnectionList->head);
item && fdCount;
item = (item ? (ConnectionItem_t *)item->link.next
: (ConnectionItem_t *)ConnectionList->head) ) {
if( FD_ISSET( item->fd, &exceptFds ) ) {
/*
* This connection's borked, close it, remove it, move on
*/
if( FD_ISSET( item->fd, &readFds ) ) {
fdCount--;
}
if( FD_ISSET( item->fd, &writeFds ) ) {
fdCount--;
}
BufferLock( item->buffer );
item = connRemove(item);
fdCount--;
continue;
}
if( item && FD_ISSET( item->fd, &readFds ) ) {
/*
* This connection has data ready
*/
count = BufferAvailWrite( item->buffer, TRUE );
if( !count ) {
/*
* No buffer space, the buffer's unlocked, move on
*/
LogPrint( LOG_INFO, "No buffer space: %p", item );
continue;
}
/*
* The buffer's locked
*/
count = read( item->fd, BufferGetWrite( item->buffer ),
count );
if( !count ) {
LogPrint( LOG_DEBUG, "EOF on %d", item->fd );
/*
* We hit EOF, close and remove
*/
if( FD_ISSET( item->fd, &writeFds ) ) {
fdCount--;
}
item = connRemove(item);
fdCount--;
continue;
}
BufferWroteBytes( item->buffer, count );
BufferUnlock( item->buffer );
/*
* Tell the input thread
*/
connItem = CREATE(ConnInputItem_t);
if( connItem ) {
#ifdef DEBUG_INPUT
LogPrint( LOG_INFO, "New data: %p", item->player );
#endif
connItem->type = CONN_INPUT_AVAIL;
connItem->player = item->player;
QueueEnqueueItem(ConnectInputQ, (QueueItem_t)connItem);
}
}
if( item && FD_ISSET( item->fd, &writeFds ) ) {
/*
* We have space to output, so write if we have anything
* to write
*/
#ifdef DEBUG_OUTPUT
LogPrint( LOG_INFO, "Output sent to: %p", item );
#endif
if( item->outBufDesc ) {
/* TODO: deal with partial block writes */
retval = write( item->fd, item->outBufDesc->buf,
item->outBufDesc->len );
memfree( item->outBufDesc->buf );
memfree( item->outBufDesc );
item->outBufDesc = NULL;
}
/*
* Kick the next output
*/
connKickOutput( item );
fdCount--;
}
}
LinkedListUnlock( ConnectionList );
}
if( recalcMaxFd ) {
LinkedListLock( ConnectionList );
maxFd = listenFd;
for( item = (ConnectionItem_t *)(ConnectionList->head); item;
item = (ConnectionItem_t *)item->link.next ) {
if( item->fd > maxFd ) {
maxFd = item->fd;
}
}
LinkedListUnlock( ConnectionList );
}
}
LinkedList_t *pluginFindPlugins( char *prefix, char *extension )
{
LinkedList_t *list;
PluginItem_t *item;
struct dirent **namelist;
int n;
int i;
int len;
PluginSpec_t *spec;
char *name;
list = LinkedListCreate();
LinkedListLock( list );
ProtectedDataLock( extBlock );
if( extBlock->data ) {
spec = (PluginSpec_t *)extBlock->data;
if( spec->prefix ) {
free( spec->prefix );
}
if( spec->extension ) {
free( spec->extension );
}
free( extBlock->data );
}
spec = (PluginSpec_t *)malloc(sizeof(PluginSpec_t));
memset( spec, 0, sizeof(PluginSpec_t) );
extBlock->data = (void *)spec;
if( prefix ) {
spec->prefix = strdup( prefix );
spec->prefLen = strlen( prefix );
}
spec->extension = strdup( extension );
spec->extLen = strlen( extension );
n = scandir( PLUGIN_PATH, &namelist, filterFile, alphasort );
for( i = 0; i < n; i++ ) {
item = (PluginItem_t *)malloc(sizeof(PluginItem_t));
name = namelist[i]->d_name;
len = strlen(name);
item->plugin = strndup( &name[spec->prefLen],
len - spec->prefLen - spec->extLen );
item->script = strdup( name );
LinkedListAdd( list, (LinkedListItem_t*)item, LOCKED, AT_TAIL );
free( namelist[i] );
}
ProtectedDataUnlock( extBlock );
if( n >= 0 ) {
free( namelist );
}
LinkedListUnlock( list );
return( list );
}
