void start_server_discovery()
{
if(server_discovery_started)
return;
selected_server = -1;
top_server_visible = 0;
num_servers_unqueried = 0;
num_servers_queried = 0;
num_servers_found = 0;
num_servers_new_proto = 0;
struct server_t *cserver = rumoured_servers;
while(cserver)
{
num_servers_unqueried++;
LL_ADD_TAIL(struct server_t, &unqueried_servers, cserver);
LL_NEXT(cserver);
}
pipe(servers_info_pipe);
output_server_query();
servers_first_output = get_wall_time();
servers_next_output = 1.0 / SERVER_QUERY_OUTPUT_RATE + servers_first_output;
pipe(servers_kill_pipe);
pthread_create(&servers_thread_id, NULL, servers_thread, NULL);
server_discovery_started = 1;
}
void save_rumoured_servers()
{
struct string_t *filename = new_string_string(emergence_home_dir);
#ifdef EMCLIENT
string_cat_text(filename, "/rumoured.client");
#endif
#ifdef EMSERVER
string_cat_text(filename, "/rumoured.server.");
string_cat_int(filename, net_listen_port);
#endif
FILE *file = fopen(filename->text, "w");
free_string(filename);
if(!file)
return;
struct server_t *server = rumoured_servers;
while(server)
{
char addr[17];
if(inet_ntop(AF_INET, &server->ip, addr, 17))
fprintf(file, "%s:%hu %u\n", addr, ntohs(server->port), (uint32_t)server->time);
LL_NEXT(server);
}
fclose(file);
}
void process_server_info(struct sockaddr_in *sockaddr, struct buffer_t *buffer)
{
struct queried_server_t *cserver = queried_servers;
struct found_server_t new_server_info;
uint16_t servers;
struct sockaddr_in s;
time_t t;
int proto_ver;
while(cserver)
{
if(cserver->ip == sockaddr->sin_addr.s_addr &&
cserver->port == sockaddr->sin_port)
{
proto_ver = buffer_read_uint8(buffer);
if(proto_ver != EM_PROTO_VER)
{
if(proto_ver > EM_PROTO_VER)
num_servers_new_proto++;
break;
}
new_server_info.ip = sockaddr->sin_addr.s_addr;
new_server_info.port = sockaddr->sin_port;
new_server_info.ping = get_wall_time() - cserver->stamp;
new_server_info.host_name = buffer_read_string(buffer);
new_server_info.map_name = buffer_read_string(buffer);
new_server_info.num_players = buffer_read_uint8(buffer);
new_server_info.max_players = buffer_read_uint8(buffer);
new_server_info.authenticating = buffer_read_uint8(buffer);
add_new_found_server(&new_server_info);
add_new_server(&rumoured_servers, sockaddr, time(NULL));
servers = buffer_read_uint16(buffer);
while(servers--)
{
s.sin_addr.s_addr = buffer_read_uint32(buffer);
s.sin_port = buffer_read_uint16(buffer);
t = buffer_read_uint32(buffer);
if(!find_queried_server(s.sin_addr.s_addr, s.sin_port))
{
if(add_new_server(&unqueried_servers, &s, t))
num_servers_unqueried++;
}
}
break;
}
LL_NEXT(cserver);
}
}
void server_enter(int state)
{
if(!state)
return;
pthread_mutex_lock(&servers_mutex);
struct found_server_t *cserver = found_servers;
int i = 0;
while(cserver)
{
if(i == selected_server)
{
if(!r_DrawConsole)
console_toggle();
em_connect(cserver->ip, cserver->port);
goto end;
}
LL_NEXT(cserver);
i++;
}
end:
pthread_mutex_unlock(&servers_mutex);
}
/*
* sync()
* Write dirty buffers to disk
*
* If handle is not NULL, sync all buffers dirtied with this handle.
* Otherwise sync all dirty buffers.
*/
void
sync_bufs(void *handle)
{
struct llist *l;
uint x;
for (l = LL_NEXT(&allbufs); l != &allbufs; l = LL_NEXT(l)) {
struct buf *b = l->l_data;
/*
* Not dirty--easy
*/
if (!(b->b_flags & B_DIRTY)) {
continue;
}
/*
* Interlock
*/
get(b);
/*
* Not dirty after interlock--still easy
*/
if (!(b->b_flags & B_DIRTY)) {
continue;
}
/*
* No handle, just sync dirty buffers
*/
if (!handle) {
qio(b, Q_FLUSHBUF);
continue;
}
/*
* Check for match.
*/
for (x = 0; x < b->b_nhandle; ++x) {
if (b->b_handles[x] == handle) {
qio(b, Q_FLUSHBUF);
break;
}
}
}
}
int count_servers()
{
int c = 0;
struct server_t *cserver = rumoured_servers;
while(cserver)
{
c++;
LL_NEXT(cserver);
}
return c;
}
struct queried_server_t *find_queried_server(uint32_t ip, uint16_t port)
{
struct queried_server_t *cserver = queried_servers;
while(cserver)
{
if(cserver->ip == ip &&
cserver->port == port)
return cserver;
LL_NEXT(cserver);
}
return NULL;
}
//
// get a new event structure from the freelist,
// initialize it, and insert it into the timeoutq
//
void
create_timeoutq_event(int timeout, int repeat, pfv_t function, unsigned int data)
{
struct event *x;
struct event *tempptr;
x = (struct event*)LL_POP(freelist);
x->timeout = timeout;
x->repeat_interval = repeat;
x->go = function;
x->data = data;
if(LL_IS_EMPTY(timeoutq))
LL_PUSH(timeoutq, x); //x=timeoutq=head of list
//insert it correct place and update timout
else
LL_EACH(timeoutq,tempptr,struct event)
{
if(x->timeout <= tempptr->timeout)
{
tempptr->timeout -= x->timeout;
LL_L_INSERT(tempptr,x);
break;
}
else
{
if(LL_NEXT(timeoutq,tempptr) == NULL)
{
x->timeout -= tempptr->timeout;
LL_R_INSERT(tempptr,x);
break;
}
else
{
x->timeout -= tempptr->timeout;
continue; //go to the next node
}
}
}
//update then_usec
// then_usec = now_usec() - then_usec;
}
void emit_servers(uint32_t conn)
{
net_emit_uint8(conn, EMMSG_SERVERS);
int servers = min(45, count_servers());
net_emit_uint32(conn, servers);
struct server_t *cserver = rumoured_servers;
while(servers--)
{
net_emit_uint32(conn, cserver->ip);
net_emit_uint16(conn, cserver->port);
net_emit_uint32(conn, cserver->time);
LL_NEXT(cserver);
}
net_emit_end_of_stream(conn);
}
int add_new_server(struct server_t **server0, struct sockaddr_in *sockaddr, time_t t)
{
int found = 0;
// see if this server is already in the list
struct server_t *cserver = *server0, *temp, *next;
while(cserver)
{
if(cserver->ip == sockaddr->sin_addr.s_addr &&
cserver->port == sockaddr->sin_port)
{
next = cserver->next;
LL_REMOVE(struct server_t, server0, cserver);
cserver = next;
found = 1;
continue;
}
LL_NEXT(cserver);
}
struct server_t server = {
sockaddr->sin_addr.s_addr,
sockaddr->sin_port,
t
};
// if rumoured_servers is NULL, then create new server here
if(!*server0)
{
*server0 = malloc(sizeof(struct server_t));
memcpy(*server0, &server, sizeof(struct server_t));
(*server0)->next = NULL;
goto end;
}
if((*server0)->time < t)
{
temp = *server0;
*server0 = malloc(sizeof(struct server_t));
memcpy(*server0, &server, sizeof(struct server_t));
(*server0)->next = temp;
goto end;
}
cserver = *server0;
while(cserver->next)
{
if(cserver->next->time < t)
{
temp = cserver->next;
cserver->next = malloc(sizeof(struct server_t));
cserver = cserver->next;
memcpy(cserver, &server, sizeof(struct server_t));
cserver->next = temp;
goto end;
}
LL_NEXT(cserver);
}
cserver->next = malloc(sizeof(struct server_t));
cserver = cserver->next;
memcpy(cserver, &server, sizeof(struct server_t));
cserver->next = NULL;
end:
;
return !found;
}
/*
* tmpfs_readdir()
* Do reads on directory entries
*/
static void
tmpfs_readdir(struct msg *m, struct file *f)
{
char *buf;
uint len, pos, bufcnt;
struct llist *l;
struct openfile *o;
extern struct llist files;
/*
* Get a buffer of the requested size, but put a sanity
* cap on it.
*/
len = m->m_arg;
if (len > 256) {
len = 256;
}
if ((buf = malloc(len+1)) == 0) {
msg_err(m->m_sender, strerror());
return;
}
buf[0] = '\0';
/*
* Assemble as many names as will fit, starting at
* given byte offset. We assume the caller's position
* always advances in units of a whole directory entry.
*/
bufcnt = pos = 0;
for (l = LL_NEXT(&files); l != &files; l = LL_NEXT(l)) {
uint slen;
/*
* Point to next file. Get its length.
*/
o = l->l_data;
slen = strlen(o->o_name)+1;
/*
* If we've reached an offset the caller hasn't seen
* yet, assemble the entry into the buffer.
*/
if (pos >= f->f_pos) {
/*
* No more room in buffer--return results
*/
if (slen >= len) {
break;
}
/*
* Put string with newline at end of buffer
*/
sprintf(buf + bufcnt, "%s\n", o->o_name);
/*
* Update counters
*/
len -= slen;
bufcnt += slen;
}
/*
* Update position
*/
pos += slen;
}
/*
* Send back results
*/
m->m_buf = buf;
m->m_arg = m->m_buflen = bufcnt;
m->m_nseg = ((bufcnt > 0) ? 1 : 0);
m->m_arg1 = 0;
msg_reply(m->m_sender, m);
free(buf);
f->f_pos = pos;
}
void render_servers()
{
if(r_DrawConsole)
return;
if(server_discovery_started)
{
pthread_mutex_lock(&servers_mutex);
blit_text(0, vid_height * 5 / 6, 0xff, 0xff, 0xff,
s_backbuffer, "Servers unqueried:");
blit_text(150, vid_height * 5 / 6, 0xff, 0xff, 0xff,
s_backbuffer, "%u", num_servers_unqueried);
blit_text(0, vid_height * 5 / 6 + 14, 0xff, 0xff, 0xff,
s_backbuffer, "Servers queried:");
blit_text(150, vid_height * 5 / 6 + 14, 0xff, 0xff, 0xff,
s_backbuffer, "%u", num_servers_queried);
blit_text(0, vid_height * 5 / 6 + 28, 0xff, 0xff, 0xff,
s_backbuffer, "Servers found:");
blit_text(150, vid_height * 5 / 6 + 28, 0xff, 0xff, 0xff,
s_backbuffer, "%u", num_servers_found);
if(num_servers_new_proto)
{
blit_text(0, vid_height * 5 / 6 + 42, 0xff, 0xff, 0xff,
s_backbuffer, "Servers found requiring new version:");
blit_text(275, vid_height * 5 / 6 + 42, 0xff, 0xff, 0xff,
s_backbuffer, "%u", num_servers_new_proto);
}
blit_text(50, vid_height / 6, 0xff, 0xff, 0xff,
s_backbuffer, "Server");
blit_text(50 + 264, vid_height / 6, 0xff, 0xff, 0xff,
s_backbuffer, "Port");
blit_text(50 + 264 + 64, vid_height / 6, 0xff, 0xff, 0xff,
s_backbuffer, "Ping");
blit_text(50 + 264 + 64 + 64, vid_height / 6, 0xff, 0xff, 0xff,
s_backbuffer, "Key");
blit_text(50 + 264 + 64 + 64, vid_height / 6 + 16, 0xff, 0xff, 0xff,
s_backbuffer, "Required?");
blit_text(50 + 32, vid_height / 6 + 14, 0xff, 0xff, 0xff,
s_backbuffer, "Map");
blit_text(50 + 32 + 264, vid_height / 6 + 14, 0xff, 0xff, 0xff,
s_backbuffer, "Players");
struct found_server_t *cserver = found_servers;
int i = 1;
int server = 0;
while(cserver && i <= 8)
{
if(server >= top_server_visible)
{
blit_text(50, vid_height / 6 + i * 32, 0xef, 0x6f, 0xff,
s_backbuffer, "%s", cserver->host_name->text);
blit_text(50 + 264, vid_height / 6 + i * 32, 0xef, 0x6f, 0xff,
s_backbuffer, "%u", ntohs(cserver->port));
blit_text(50 + 264 + 64, vid_height / 6 + i * 32, 0xef, 0x6f, 0xff,
s_backbuffer, "%.2fms", cserver->ping * 1000.0);
if(cserver->authenticating)
{
blit_text_centered(50 + 264 + 64 + 64 + 12, vid_height / 6 + i * 32 + 6,
0xef, 0x6f, 0xff, s_backbuffer, "Y");
}
blit_text(50 + 32, vid_height / 6 + i * 32 + 14, 0xef, 0x6f, 0xff,
s_backbuffer, "%s", cserver->map_name->text);
blit_text(50 + 32 + 264, vid_height / 6 + i * 32 + 14, 0xef, 0x6f, 0xff,
s_backbuffer, "%u/%u", cserver->num_players, cserver->max_players);
if(server == selected_server)
{
struct blit_params_t params;
params.red = 0x54;
params.green = 0xa6;
params.blue = 0xf9;
params.alpha = 0x7f;
params.dest = s_backbuffer;
params.dest_x = 48;
params.dest_y = vid_height / 6 + i * 32 - 2;
params.width = 475;
params.height = 32;
alpha_draw_rect(¶ms);
}
i++;
}
LL_NEXT(cserver);
server++;
}
pthread_mutex_unlock(&servers_mutex);
}
}
void add_new_found_server(struct found_server_t *found_server)
{
// see if this server is already in the list
struct found_server_t *cserver = found_servers, *next;
int i;
while(cserver)
{
if(cserver->ip == found_server->ip &&
cserver->port == found_server->port)
return;
LL_NEXT(cserver);
}
num_servers_found++;
// if rumoured_servers is NULL, then create new server here
if(!found_servers)
{
found_servers = malloc(sizeof(struct found_server_t));
memcpy(found_servers, found_server, sizeof(struct found_server_t));
(found_servers)->next = NULL;
return;
}
if((found_servers)->ping > found_server->ping)
{
next = found_servers;
found_servers = malloc(sizeof(struct found_server_t));
memcpy(found_servers, found_server, sizeof(struct found_server_t));
(found_servers)->next = next;
if(selected_server != -1)
server_down_in_lock();
return;
}
cserver = found_servers;
i = 1;
while(cserver->next)
{
if(cserver->next->ping > found_server->ping)
{
next = cserver->next;
cserver->next = malloc(sizeof(struct found_server_t));
cserver = cserver->next;
memcpy(cserver, found_server, sizeof(struct found_server_t));
cserver->next = next;
if(selected_server != -1 && i <= selected_server)
server_down_in_lock();
return;
}
LL_NEXT(cserver);
i++;
}
cserver->next = malloc(sizeof(struct found_server_t));
cserver = cserver->next;
memcpy(cserver, found_server, sizeof(struct found_server_t));
cserver->next = NULL;
}
