/**
* \brief This function creates new queue for outgoing commands
*/
struct VOutQueue *v_out_queue_create(void)
{
struct VOutQueue *out_queue = (struct VOutQueue *)malloc(sizeof(struct VOutQueue));
if(out_queue!=NULL) {
if( v_out_queue_init(out_queue, OUT_QUEUE_DEFAULT_MAX_SIZE) != 1) {
free(out_queue);
out_queue = NULL;
}
}
return out_queue;
}
/**
* \brief Initialize list of verse sessions
*/
static int vs_init_sessions(VS_CTX *vs_ctx)
{
int i;
vs_ctx->connected_clients = 0;
/* Initialize list of connections */
vs_ctx->vsessions = (struct VSession**)calloc(vs_ctx->max_sessions, sizeof(struct VSession*));
for (i=0; i<vs_ctx->max_sessions; i++) {
if( (vs_ctx->vsessions[i] = (struct VSession*)calloc(1, sizeof(struct VSession))) == NULL ) {
if(is_log_level(VRS_PRINT_ERROR)) v_print_log(VRS_PRINT_ERROR, "calloc(): %s\n", strerror(errno));
return -1;
}
/* Set up verse session */
v_init_session(vs_ctx->vsessions[i]);
/* Set up input and output queues */
vs_ctx->vsessions[i]->in_queue = (struct VInQueue*)calloc(1, sizeof(VInQueue));
v_in_queue_init(vs_ctx->vsessions[i]->in_queue, vs_ctx->in_queue_max_size);
vs_ctx->vsessions[i]->out_queue = (struct VOutQueue*)calloc(1, sizeof(VOutQueue));
v_out_queue_init(vs_ctx->vsessions[i]->out_queue, vs_ctx->out_queue_max_size);
/* Allocate memory for TCP connection */
vs_ctx->vsessions[i]->stream_conn = (struct VStreamConn*)calloc(1, sizeof(struct VStreamConn));
/* Allocate memory for peer hostname */
vs_ctx->vsessions[i]->peer_hostname = (char*)calloc(INET6_ADDRSTRLEN, sizeof(char));
/* Initialize TCP connection */
vs_init_stream_conn(vs_ctx->vsessions[i]->stream_conn);
/* Allocate memory for UDP connection */
vs_ctx->vsessions[i]->dgram_conn = (struct VDgramConn*)calloc(1, sizeof(struct VDgramConn));
/* Initialize UDP connection */
vs_init_dgram_conn(vs_ctx->vsessions[i]->dgram_conn);
/* Initialize Avatar ID */
vs_ctx->vsessions[i]->avatar_id = -1;
#if defined WITH_PAM
/* PAM authentication stuff */
vs_ctx->vsessions[i]->conv.conv = vs_pam_conv;
vs_ctx->vsessions[i]->conv.appdata_ptr = NULL;
vs_ctx->vsessions[i]->pamh = NULL;
#endif
}
return 1;
}
int32_t vrs_send_connect_request(const char *hostname,
const char *service,
const uint16_t flags,
uint8_t *session_id)
{
struct VSession *vsession = NULL;
uint16 _flags = flags;
int already_connected = 0, i, ret;
/* Check if CTX was initialized (initialization is done) */
if(vc_ctx == NULL) {
v_print_log(VRS_PRINT_ERROR,
"Basic callback functions were not set.\n");
return VRS_NO_CB_FUNC;
} else {
/* Check if all needed callback functions was set up */
if(vc_ctx->vfs.receive_connect_accept == NULL) {
v_print_log(VRS_PRINT_ERROR,
"receive_connect_accept() callback functions was not set.\n");
return VRS_NO_CB_CONN_FUNC;
}
if(vc_ctx->vfs.receive_connect_terminate == NULL) {
v_print_log(VRS_PRINT_ERROR,
"receive_connect_terminate() callback functions was not set.\n");
return VRS_NO_CB_TERM_FUNC;
}
if(vc_ctx->vfs.receive_user_authenticate == NULL) {
v_print_log(VRS_PRINT_ERROR,
"receive_user_authenticat() callback functions was not set.\n");
return VRS_NO_CB_USER_AUTH;
}
}
/* Set security protocol */
#if OPENSSL_VERSION_NUMBER >= 0x10000000
/* Check consistency of flags */
if((_flags & VRS_SEC_DATA_NONE) && (_flags & VRS_SEC_DATA_TLS)) {
if(is_log_level(VRS_PRINT_ERROR))
v_print_log(VRS_PRINT_ERROR,
"VRS_SEC_DATA_NONE or VRS_SEC_DATA_TLS could be set, not both.\n");
return VRS_FAILURE;
}
#else
if (_flags & VRS_SEC_DATA_TLS) {
v_print_log(VRS_PRINT_WARNING,
"flag VRS_SEC_DATA_TLS could be set due to low version of OpenSSL (at least 1.0 is required).\n");
_flags &= ~VRS_SEC_DATA_TLS;
_flags |= VRS_SEC_DATA_NONE;
}
#endif
/* Set transport protocol */
if((_flags & VRS_TP_UDP) && (_flags & VRS_TP_TCP)) {
if(is_log_level(VRS_PRINT_ERROR))
v_print_log(VRS_PRINT_ERROR,
"VRS_TP_UDP or VRS_TP_TCP could be set, not both.\n");
return VRS_FAILURE;
} else if(!(_flags & VRS_TP_UDP) && !(_flags & VRS_TP_TCP)) {
/* When no transport protocol is selected, then use UDP as default */
_flags |= VRS_TP_UDP;
}
pthread_mutex_lock(&vc_ctx->mutex);
/* Check if this client isn't already connected to this server or isn't
* trying to connect to the server with hostname:service */
for(i=0; i<vc_ctx->max_sessions; i++) {
if(vc_ctx->vsessions[i] != NULL) {
if(strcmp(vc_ctx->vsessions[i]->peer_hostname, hostname) == 0 &&
strcmp(vc_ctx->vsessions[i]->service, service) == 0) {
v_print_log(VRS_PRINT_ERROR, "Client already connected to this server.\n");
already_connected = 1;
break;
}
}
}
if(already_connected == 0) {
/* Try to find free verse session slot */
for(i=0; i<vc_ctx->max_sessions; i++) {
/* When free VSession slot is found, then create new session */
if(vc_ctx->vsessions[i]==NULL) {
vsession = (struct VSession*)malloc(sizeof(struct VSession));
v_init_session(vsession);
vsession->peer_hostname = strdup(hostname);
vsession->service = strdup(service);
/* Copy flags */
vsession->flags = _flags;
vsession->in_queue = (struct VInQueue*)calloc(1, sizeof(VInQueue));
v_in_queue_init(vsession->in_queue, IN_QUEUE_DEFAULT_MAX_SIZE);
vsession->out_queue = (struct VOutQueue*)calloc(1, sizeof(VOutQueue));
v_out_queue_init(vsession->out_queue, OUT_QUEUE_DEFAULT_MAX_SIZE);
vc_ctx->vsessions[i] = vsession;
break;
}
}
}
pthread_mutex_unlock(&vc_ctx->mutex);
if(already_connected == 1) {
return VRS_FAILURE;
}
/* Check if we found free slot for new session */
if(vsession == NULL) {
v_print_log(VRS_PRINT_DEBUG_MSG,
"Maximal count of sessions: %d reached.\n",
vc_ctx->max_sessions);
return VRS_FAILURE;
}
vsession->session_id = vc_ctx->session_counter++;
*session_id = vsession->session_id;
/* Try to initialize thread attributes */
if( (ret = pthread_attr_init(&vsession->tcp_thread_attr)) != 0 ) {
if(is_log_level(VRS_PRINT_ERROR)) v_print_log(VRS_PRINT_ERROR, "pthread_attr_init(): %s\n", strerror(errno));
return VRS_FAILURE;
}
/* Try to set thread attributes as detached */
if( (ret = pthread_attr_setdetachstate(&vsession->tcp_thread_attr, PTHREAD_CREATE_DETACHED)) != 0) {
if(is_log_level(VRS_PRINT_ERROR)) v_print_log(VRS_PRINT_ERROR, "pthread_attr_setdetachstate(): %s\n", strerror(errno));
return VRS_FAILURE;
}
/* Create thread for new client session */
if(pthread_create(&vsession->tcp_thread, &vsession->tcp_thread_attr, vc_new_session_thread, (void*)vsession) != 0) {
if(is_log_level(VRS_PRINT_ERROR)) v_print_log(VRS_PRINT_ERROR, "Thread creation failed.\n");
pthread_mutex_lock(&vc_ctx->mutex);
v_destroy_session(vsession);
free(vsession);
vc_ctx->vsessions[i] = NULL;
pthread_mutex_unlock(&vc_ctx->mutex);
return VRS_FAILURE;
}
/* Destroy thread attributes */
pthread_attr_destroy(&vsession->tcp_thread_attr);
return VRS_SUCCESS;
}
