*/
#include <sys/poll.h>
#include <sys/socket.h>
+#include <fcntl.h>
#include <errno.h>
+#include <limits.h>
+#include <stdlib.h>
+#include <string.h>
#include "log.h"
#include "list.h"
#include "client.h"
declare_list(clients);
static int clientcount; /* = 0 */
-static int session = 1;
static int maxBandwidth;
int iCodecAlpha, iCodecBeta;
list_iterate(itr, &clients) {
client_t *c;
c = list_get_entry(itr, client_t, node);
- Log_debug("Client %s BW available %d", c->playerName, c->availableBandwidth);
+ Log_debug("Client %s BW available %d", c->username, c->availableBandwidth);
c->availableBandwidth += maxBandwidth;
if (c->availableBandwidth > bwTop)
c->availableBandwidth = bwTop;
}
}
+void Client_codec_add(client_t *client, int codec)
+{
+ codec_t *cd = malloc(sizeof(codec_t));
+ if (cd == NULL)
+ Log_fatal("Out of memory");
+ init_list_entry(&cd->node);
+ cd->codec = codec;
+ list_add_tail(&cd->node, &client->codecs);
+}
+
+void Client_codec_free(client_t *client)
+{
+ struct dlist *itr, *save;
+ list_iterate_safe(itr, save, &client->codecs) {
+ list_del(&list_get_entry(itr, codec_t, node)->node);
+ free(list_get_entry(itr, codec_t, node));
+ }
+}
+
+codec_t *Client_codec_iterate(client_t *client, codec_t **codec_itr)
+{
+ codec_t *cd = *codec_itr;
+
+ if (list_empty(&client->codecs))
+ return NULL;
+
+ if (cd == NULL) {
+ cd = list_get_entry(list_get_first(&client->codecs), codec_t, node);
+ } else {
+ if (list_get_next(&cd->node) == &client->codecs)
+ cd = NULL;
+ else
+ cd = list_get_entry(list_get_next(&cd->node), codec_t, node);
+ }
+ *codec_itr = cd;
+ return cd;
+}
+
void recheckCodecVersions()
{
- int codec_map[MAX_CODECS][2];
- client_t *itr = NULL;
- int i, codecindex, max = 0, version, current_version;
+ client_t *client_itr = NULL;
+ int max = 0, version, current_version;
message_t *sendmsg;
+ struct dlist codec_list, *itr, *save;
+ codec_t *codec_itr, *cd;
+ bool_t found;
- memset(codec_map, 0, MAX_CODECS * 2 * sizeof(int));
- while (Client_iterate(&itr) != NULL) {
- for (i = 0; i < itr->codec_count; i++) {
- for (codecindex = 0; codecindex < MAX_CODECS; codecindex++) {
- if (codec_map[codecindex][0] == 0) {
- codec_map[codecindex][0] = itr->codecs[i];
- codec_map[codecindex][1] = 1;
- break;
+ init_list_entry(&codec_list);
+
+ while (Client_iterate(&client_itr) != NULL) {
+ codec_itr = NULL;
+ while (Client_codec_iterate(client_itr, &codec_itr) != NULL) {
+ found = false;
+ list_iterate(itr, &codec_list) {
+ cd = list_get_entry(itr, codec_t, node);
+ if (cd->codec == codec_itr->codec) {
+ cd->count++;
+ found = true;
}
- if (itr->codecs[i] == codec_map[codecindex][0])
- codec_map[codecindex][1]++;
+ }
+ if (!found) {
+ cd = malloc(sizeof(codec_t));
+ if (!cd)
+ Log_fatal("Out of memory");
+ memset(cd, 0, sizeof(codec_t));
+ init_list_entry(&cd->node);
+ cd->codec = codec_itr->codec;
+ cd->count = 1;
+ list_add_tail(&cd->node, &codec_list);
}
}
}
- for (codecindex = 0; codecindex < MAX_CODECS; codecindex++) {
- if (codec_map[codecindex][0] == 0)
- break;
- if (codec_map[codecindex][1] > max) {
- max = codec_map[codecindex][1];
- version = codec_map[codecindex][0];
+
+ list_iterate(itr, &codec_list) {
+ cd = list_get_entry(itr, codec_t, node);
+ if (cd->count > max) {
+ max = cd->count;
+ version = cd->codec;
}
}
+ list_iterate_safe(itr, save, &codec_list) {
+ list_del(&list_get_entry(itr, codec_t, node)->node);
+ free(list_get_entry(itr, codec_t, node));
+ }
+
current_version = bPreferAlpha ? iCodecAlpha : iCodecBeta;
if (current_version == version)
return;
// it as alpha and announce it. If another codec now got the
// majority set it as the opposite of the currently valid bPreferAlpha
// and announce it.
- if (version == (uint32_t)0x8000000a)
+ if (version == (uint32_t)0x8000000b)
bPreferAlpha = true;
else
bPreferAlpha = ! bPreferAlpha;
iCodecBeta = version;
sendmsg = Msg_create(CodecVersion);
- sendmsg->payload.codecVersion->alpha = version;
- sendmsg->payload.codecVersion->beta = version;
+ sendmsg->payload.codecVersion->alpha = iCodecAlpha;
+ sendmsg->payload.codecVersion->beta = iCodecBeta;
sendmsg->payload.codecVersion->prefer_alpha = bPreferAlpha;
Client_send_message_except(NULL, sendmsg);
}
+static int findFreeSessionId()
+{
+ int id;
+ client_t *itr = NULL;
+
+ for (id = 1; id < INT_MAX; id++) {
+ itr = NULL;
+ while ((itr = Client_iterate(&itr)) != NULL) {
+ if (itr->sessionId == id)
+ break;
+ }
+ if (itr == NULL) /* Found free id */
+ return id;
+ }
+ return -1;
+}
+
int Client_add(int fd, struct sockaddr_in *remote)
{
client_t *newclient;
newclient->tcpfd = fd;
memcpy(&newclient->remote_tcp, remote, sizeof(struct sockaddr_in));
- newclient->ssl = SSL_newconnection(newclient->tcpfd, &newclient->SSLready);
+ newclient->ssl = SSLi_newconnection(&newclient->tcpfd, &newclient->SSLready);
if (newclient->ssl == NULL) {
Log_warn("SSL negotiation failed with %s:%d", inet_ntoa(remote->sin_addr),
ntohs(remote->sin_port));
}
newclient->availableBandwidth = maxBandwidth;
Timer_init(&newclient->lastActivity);
- newclient->sessionId = session++; /* XXX - more elaborate? */
+ Timer_init(&newclient->connectTime);
+ Timer_init(&newclient->idleTime);
+ newclient->sessionId = findFreeSessionId();
+ if (newclient->sessionId < 0)
+ Log_fatal("Could not find a free session ID");
init_list_entry(&newclient->txMsgQueue);
init_list_entry(&newclient->chan_node);
init_list_entry(&newclient->node);
init_list_entry(&newclient->voicetargets);
+ init_list_entry(&newclient->codecs);
list_add_tail(&newclient->node, &clients);
clientcount++;
if (client->authenticated) {
int leave_id;
- leave_id = Chan_playerLeave(client);
+ leave_id = Chan_userLeave(client);
if (leave_id > 0) { /* Remove temp channel */
sendmsg = Msg_create(ChannelRemove);
sendmsg->payload.channelRemove->channel_id = leave_id;
list_del(&list_get_entry(itr, message_t, node)->node);
Msg_free(list_get_entry(itr, message_t, node));
}
+ Client_codec_free(client);
Voicetarget_free_all(client);
list_del(&client->node);
if (client->ssl)
- SSL_free(client->ssl);
+ SSLi_free(client->ssl);
close(client->tcpfd);
clientcount--;
if (client->release)
free(client->release);
if (client->os)
free(client->os);
- if (client->playerName)
- free(client->playerName);
+ if (client->os_version)
+ free(client->os_version);
+ if (client->username)
+ free(client->username);
if (client->context)
free(client->context);
free(client);
void Client_close(client_t *client)
{
- SSL_shutdown(client->ssl);
+ SSLi_shutdown(client->ssl);
client->shutdown_wait = true;
}
}
if (!client->SSLready) {
int rc;
- rc = SSL_nonblockaccept(client->ssl, &client->SSLready);
+ rc = SSLi_nonblockaccept(client->ssl, &client->SSLready);
if (rc < 0) {
Client_free(client);
return -1;
do {
errno = 0;
if (!client->msgsize)
- rc = SSL_read(client->ssl, &client->rxbuf[client->rxcount], 6 - client->rxcount);
- else if (client->drainleft > 0)
- rc = SSL_read(client->ssl, client->rxbuf, client->drainleft > BUFSIZE ? BUFSIZE : client->drainleft);
+ rc = SSLi_read(client->ssl, &client->rxbuf[client->rxcount], 6 - client->rxcount);
else
- rc = SSL_read(client->ssl, &client->rxbuf[client->rxcount], client->msgsize);
+ rc = SSLi_read(client->ssl, &client->rxbuf[client->rxcount], client->msgsize);
if (rc > 0) {
message_t *msg;
- if (client->drainleft > 0)
- client->drainleft -= rc;
- else {
- client->rxcount += rc;
- if (!client->msgsize && client->rxcount >= 6) {
- uint32_t msgLen;
- memcpy(&msgLen, &client->rxbuf[2], sizeof(uint32_t));
- client->msgsize = ntohl(msgLen);
- }
- if (client->msgsize > BUFSIZE - 6 && client->drainleft == 0) {
- Log_info_client(client, "Too big message received (%d bytes). Discarding.", client->msgsize);
- client->rxcount = client->msgsize = 0;
- client->drainleft = client->msgsize;
- }
- else if (client->rxcount == client->msgsize + 6) { /* Got all of the message */
- msg = Msg_networkToMessage(client->rxbuf, client->msgsize + 6);
- /* pass messsage to handler */
- if (msg)
- Mh_handle_message(client, msg);
- client->rxcount = client->msgsize = 0;
- }
+ client->rxcount += rc;
+ if (!client->msgsize && client->rxcount >= 6) {
+ uint32_t msgLen;
+ memcpy(&msgLen, &client->rxbuf[2], sizeof(uint32_t));
+ client->msgsize = ntohl(msgLen);
+ }
+ if (client->msgsize > BUFSIZE - 6) {
+ /* XXX - figure out how to handle this. A large size here can represent two cases:
+ * 1. A valid size. The only message that is this big is UserState message with a big texture
+ * 2. An invalid size = protocol error, e.g. connecting with a 1.1.x client
+ */
+ Log_warn("Too big message received (%d bytes). Playing safe and disconnecting client %s:%d",
+ client->msgsize, inet_ntoa(client->remote_tcp.sin_addr), ntohs(client->remote_tcp.sin_port));
+ Client_free(client);
+ return -1;
+ /* client->rxcount = client->msgsize = 0; */
+ }
+ else if (client->rxcount == client->msgsize + 6) { /* Got all of the message */
+ msg = Msg_networkToMessage(client->rxbuf, client->msgsize + 6);
+ /* pass messsage to handler */
+ if (msg)
+ Mh_handle_message(client, msg);
+ client->rxcount = client->msgsize = 0;
}
} else /* rc <= 0 */ {
- if (SSL_get_error(client->ssl, rc) == SSL_ERROR_WANT_READ) {
+ if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_WANT_READ) {
return 0;
}
- else if (SSL_get_error(client->ssl, rc) == SSL_ERROR_WANT_WRITE) {
+ else if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_WANT_WRITE) {
client->readBlockedOnWrite = true;
return 0;
}
- else if (SSL_get_error(client->ssl, rc) == SSL_ERROR_ZERO_RETURN) {
+ else if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_ZERO_RETURN) {
Log_info_client(client, "Connection closed by peer");
if (!client->shutdown_wait)
Client_close(client);
}
else {
- if (SSL_get_error(client->ssl, rc) == SSL_ERROR_SYSCALL) {
- /* Hmm. This is where we end up when the client closes its connection.
- * Kind of strange...
- */
+ if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_SYSCALL) {
Log_info_client(client, "Connection closed by peer");
}
else {
- Log_info_client(client, "SSL error: %d - Closing connection", SSL_get_error(client->ssl, rc));
+ Log_info_client(client, "SSL error: %d - Closing connection", SSLi_get_error(client->ssl, rc));
}
Client_free(client);
return -1;
}
}
- } while (SSL_pending(client->ssl));
- return 0;
+ } while (SSLi_data_pending(client->ssl));
+
+ return 0;
}
int Client_write_fd(int fd)
Log_debug("Client_write: readBlockedOnWrite == true");
return Client_read(client);
}
- rc = SSL_write(client->ssl, &client->txbuf[client->txcount], client->txsize - client->txcount);
+ rc = SSLi_write(client->ssl, &client->txbuf[client->txcount], client->txsize - client->txcount);
if (rc > 0) {
client->txcount += rc;
if (client->txcount == client->txsize)
client->txsize = client->txcount = 0;
}
else if (rc < 0) {
- if (SSL_get_error(client->ssl, rc) == SSL_ERROR_WANT_READ) {
+ if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_WANT_READ) {
client->writeBlockedOnRead = true;
return 0;
}
- else if (SSL_get_error(client->ssl, rc) == SSL_ERROR_WANT_WRITE) {
+ else if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_WANT_WRITE) {
return 0;
}
else {
- if (SSL_get_error(client->ssl, rc) == SSL_ERROR_SYSCALL)
+ if (SSLi_get_error(client->ssl, rc) == SSLI_ERROR_SYSCALL)
Log_warn("Client_write: Error: %s - Closing connection", strerror(errno));
else
- Log_warn("Client_write: SSL error: %d - Closing connection.", SSL_get_error(client->ssl, rc));
+ Log_warn("Client_write: SSL error: %d - Closing connection.", SSLi_get_error(client->ssl, rc));
Client_free(client);
return -1;
}
return 0;
}
+int Client_send_message_ver(client_t *client, message_t *msg, uint32_t version)
+{
+ if ((version == 0) || (client->version >= version) ||
+ ((version & 0x80000000) && (client->version < (~version))))
+ return Client_send_message(client, msg);
+ else
+ Msg_free(msg);
+}
+
int Client_send_message(client_t *client, message_t *msg)
{
if (!client->authenticated && msg->messageType != Version) {
Log_debug("Queueing message");
} else {
int len;
- memset(client->txbuf, 0, BUFSIZE);
len = Msg_messageToNetwork(msg, client->txbuf);
doAssert(len < BUFSIZE);
if (itr != client) {
if (count++ > 0)
Msg_inc_ref(msg); /* One extra reference for each new copy */
- Log_debug("Msg %d to %s refcount %d", msg->messageType, itr->playerName, msg->refcount);
+ Log_debug("Msg %d to %s refcount %d", msg->messageType, itr->username, msg->refcount);
Client_send_message(itr, msg);
}
}
return 0;
}
+int Client_send_message_except_ver(client_t *client, message_t *msg, uint32_t version)
+{
+ client_t *itr = NULL;
+ int count = 0;
+
+ Msg_inc_ref(msg); /* Make sure a reference is held during the whole iteration. */
+ while (Client_iterate(&itr) != NULL) {
+ if (itr != client) {
+ if (count++ > 0)
+ Msg_inc_ref(msg); /* One extra reference for each new copy */
+ Log_debug("Msg %d to %s refcount %d", msg->messageType, itr->username, msg->refcount);
+ Client_send_message_ver(itr, msg, version);
+ }
+ }
+ Msg_free(msg); /* Free our reference to the message */
+
+ if (count == 0)
+ Msg_free(msg); /* If only 1 client is connected then no message is passed
+ * to Client_send_message(). Free it here. */
+
+ return 0;
+}
+
static bool_t checkDecrypt(client_t *client, const uint8_t *encrypted, uint8_t *plain, unsigned int len)
{
if (CryptState_isValid(&client->cryptState) &&
}
} /* while */
}
- if (itr == NULL) {
+ if (itr == NULL) { /* Couldn't find this peer among connected clients */
goto out;
}
+ itr->bUDP = true;
+ len -= 4; /* Adjust for crypt header */
msgType = (UDPMessageType_t)((buffer[0] >> 5) & 0x7);
switch (msgType) {
case UDPVoiceSpeex:
case UDPVoiceCELTAlpha:
case UDPVoiceCELTBeta:
- // u->bUdp = true;
Client_voiceMsg(itr, buffer, len);
break;
case UDPPing:
Log_debug("Unknown UDP message type from %s port %d", inet_ntoa(from.sin_addr), ntohs(from.sin_port));
break;
}
+
out:
return 0;
}
static inline void Client_send_voice(client_t *src, client_t *dst, uint8_t *data, int len, int poslen)
{
if (IS_AUTH(dst) && dst != src && !dst->deaf) {
- if (poslen > 0 && strcmp(src->context, dst->context) == 0)
+ if (poslen > 0 && /* Has positional data */
+ src->context != NULL && dst->context != NULL && /* ...both source and destination has context */
+ strcmp(src->context, dst->context) == 0) /* ...and the contexts match */
Client_send_udp(dst, data, len);
- else
+ else
Client_send_udp(dst, data, len - poslen);
}
}
goto out; /* Discard */
client->availableBandwidth -= packetsize;
+ Timer_restart(&client->idleTime);
+
counter = Pds_get_numval(pdi); /* step past session id */
do {
counter = Pds_next8(pdi);
c = list_get_entry(itr, client_t, chan_node);
Client_send_voice(client, c, buffer, pds->offset + 1, poslen);
}
- /* Channel links */
- if (!list_empty(&ch->channel_links)) {
- struct dlist *ch_itr;
- list_iterate(ch_itr, &ch->channel_links) {
- channel_t *ch_link;
- ch_link = list_get_entry(ch_itr, channel_t, link_node);
- list_iterate(itr, &ch_link->clients) {
- client_t *c;
- c = list_get_entry(itr, client_t, chan_node);
- Log_debug("Linked voice from %s -> %s", ch->name, ch_link->name);
- Client_send_voice(client, c, buffer, pds->offset + 1, poslen);
- }
- }
- }
} else if ((vt = Voicetarget_get_id(client, target)) != NULL) { /* Targeted whisper */
int i;
channel_t *ch;
/* Channels */
- for (i = 0; i < TARGET_MAX_CHANNELS && vt->channels[i] != -1; i++) {
+ for (i = 0; i < TARGET_MAX_CHANNELS && vt->channels[i].channel != -1; i++) {
+ buffer[0] = (uint8_t) (type | 1);
Log_debug("Whisper channel %d", vt->channels[i]);
- ch = Chan_fromId(vt->channels[i]);
+ ch = Chan_fromId(vt->channels[i].channel);
if (ch == NULL)
continue;
list_iterate(itr, &ch->clients) {
c = list_get_entry(itr, client_t, chan_node);
Client_send_voice(client, c, buffer, pds->offset + 1, poslen);
}
+ /* Channel links */
+ if (vt->channels[i].linked && !list_empty(&ch->channel_links)) {
+ struct dlist *ch_itr;
+ list_iterate(ch_itr, &ch->channel_links) {
+ channel_t *ch_link;
+ ch_link = list_get_entry(ch_itr, channel_t, link_node);
+ list_iterate(itr, &ch_link->clients) {
+ client_t *c;
+ c = list_get_entry(itr, client_t, chan_node);
+ Log_debug("Linked voice from %s -> %s", ch->name, ch_link->name);
+ Client_send_voice(client, c, buffer, pds->offset + 1, poslen);
+ }
+ }
+ }
+ /* children */
+ if (vt->channels[i].children) {
+ struct dlist chanlist, *ch_itr;
+ init_list_entry(&chanlist);
+ Chan_buildTreeList(ch, &chanlist);
+ list_iterate(ch_itr, &chanlist) {
+ channel_t *sub;
+ sub = list_get_entry(ch_itr, channellist_t, node)->chan;
+ list_iterate(itr, &sub->clients) {
+ client_t *c;
+ c = list_get_entry(itr, client_t, chan_node);
+ Log_debug("Child voice from %s -> %s", ch->name, sub->name);
+ Client_send_voice(client, c, buffer, pds->offset + 1, poslen);
+ }
+ }
+ Chan_freeTreeList(&chanlist);
+ }
}
/* Sessions */
for (i = 0; i < TARGET_MAX_SESSIONS && vt->sessions[i] != -1; i++) {
client_t *c;
+ buffer[0] = (uint8_t) (type | 2);
Log_debug("Whisper session %d", vt->sessions[i]);
while (Client_iterate(&c) != NULL) {
if (c->sessionId == vt->sessions[i]) {
{
uint8_t *buf, *mbuf;
- if (client->remote_udp.sin_port != 0 && CryptState_isValid(&client->cryptState)) {
+ if (client->remote_udp.sin_port != 0 && CryptState_isValid(&client->cryptState) &&
+ client->bUDP) {
#if defined(__LP64__)
buf = mbuf = malloc(len + 4 + 16);
buf += 4;
free(mbuf);
} else {
message_t *msg;
- buf = malloc(len);
- memcpy(buf, data, len);
- msg = Msg_create(UDPTunnel);
-
- msg->payload.UDPTunnel->packet.data = buf;
- msg->payload.UDPTunnel->packet.len = len;
+ msg = Msg_CreateVoiceMsg(data, len);
Client_send_message(client, msg);
}
return 0;