OpenSRF/src/libtransport/transport_client.c

   1 #include "transport_client.h"
   2
   3
   4 //int main( int argc, char** argv );
   5
   6 /*
   7 int main( int argc, char** argv ) {
   8
   9         transport_message* recv;
  10         transport_message* send;
  11
  12         transport_client* client = client_init( "spacely.georgialibraries.org", 5222 );
  13
  14         // try to connect, allow 15 second connect timeout
  15         if( client_connect( client, "admin", "asdfjkjk", "system", 15 ) ) {
  16                 printf("Connected...\n");
  17         } else {
  18                 printf( "NOT Connected...\n" ); exit(99);
  19         }
  20
  21         while( (recv = client_recv( client, -1 )) ) {
  22
  23                 if( recv->body ) {
  24                         int len = strlen(recv->body);
  25                         char buf[len + 20];
  26                         memset( buf, 0, len + 20);
  27                         sprintf( buf, "Echoing...%s", recv->body );
  28                         send = message_init( buf, "Echoing Stuff", "12345", recv->sender, "" );
  29                 } else {
  30                         send = message_init( " * ECHOING * ", "Echoing Stuff", "12345", recv->sender, "" );
  31                 }
  32
  33                 if( send == NULL ) { printf("something's wrong"); }
  34                 client_send_message( client, send );
  35
  36                 message_free( send );
  37                 message_free( recv );
  38         }
  39
  40         printf( "ended recv loop\n" );
  41
  42         return 0;
  43
  44 }
  45 */
  46
  47
  48 transport_client* client_init( char* server, int port, char* unix_path, int component ) {
  49
  50         if(server == NULL) return NULL;
  51
  52         /* build and clear the client object */
  53         size_t c_size = sizeof( transport_client);
  54         transport_client* client = (transport_client*) safe_malloc( c_size );
  55
  56         /* build and clear the message list */
  57         size_t l_size = sizeof( transport_message_list );
  58         client->m_list = (transport_message_list*) safe_malloc( l_size );
  59
  60         client->m_list->type = MESSAGE_LIST_HEAD;
  61         client->session = init_transport( server, port, unix_path, client, component );
  62
  63
  64         if(client->session == NULL) {
  65                 fatal_handler( "client_init(): Out of Memory");
  66                 return NULL;
  67         }
  68         client->session->message_callback = client_message_handler;
  69
  70         return client;
  71 }
  72
  73
  74 int client_connect( transport_client* client,
  75                 char* username, char* password, char* resource,
  76                 int connect_timeout, enum TRANSPORT_AUTH_TYPE  auth_type ) {
  77         if(client == NULL) return 0;
  78         return session_connect( client->session, username,
  79                         password, resource, connect_timeout, auth_type );
  80 }
  81
  82
  83 int client_disconnect( transport_client* client ) {
  84         if( client == NULL ) { return 0; }
  85         return session_disconnect( client->session );
  86 }
  87
  88 int client_connected( transport_client* client ) {
  89         if(client == NULL) return 0;
  90         return client->session->state_machine->connected;
  91 }
  92
  93 int client_send_message( transport_client* client, transport_message* msg ) {
  94         if(client == NULL) return 0;
  95         return session_send_msg( client->session, msg );
  96 }
  97
  98
  99 transport_message* client_recv( transport_client* client, int timeout ) {
 100         if( client == NULL ) { return NULL; }
 101
 102         transport_message_node* node;
 103         transport_message* msg;
 104
 105
 106         /* see if there are any message in the messages queue */
 107         if( client->m_list->next != NULL ) {
 108                 /* pop off the first one... */
 109                 node = client->m_list->next;
 110                 client->m_list->next = node->next;
 111                 msg = node->message;
 112                 free( node );
 113                 return msg;
 114         }
 115
 116         if( timeout == -1 ) {  /* wait potentially forever for data to arrive */
 117
 118                 while( client->m_list->next == NULL ) {
 119                 //      if( ! session_wait( client->session, -1 ) ) {
 120                         int x;
 121                         if( (x = session_wait( client->session, -1 )) ) {
 122                                 warning_handler("session_wait returned failure code %d\n", x);
 123                                 return NULL;
 124                         }
 125                 }
 126
 127         } else { /* wait at most timeout seconds */
 128
 129
 130                 /* if not, loop up to 'timeout' seconds waiting for data to arrive */
 131                 time_t start = time(NULL);
 132                 time_t remaining = (time_t) timeout;
 133
 134                 int counter = 0;
 135
 136                 int wait_ret;
 137                 while( client->m_list->next == NULL && remaining >= 0 ) {
 138
 139                         if( (wait_ret= session_wait( client->session, remaining)) )
 140                                 return NULL;
 141
 142                         ++counter;
 143
 144 #ifdef _ROUTER
 145                         // session_wait returns -1 if there is no more data and we're a router
 146                         if( remaining == 0 ) { // && wait_ret == -1 ) {
 147                                 break;
 148                         }
 149 #else
 150                         if( remaining == 0 ) // or infinite loop
 151                                 break;
 152 #endif
 153
 154                         remaining -= (int) (time(NULL) - start);
 155                 }
 156
 157         }
 158
 159         /* again, see if there are any messages in the message queue */
 160         if( client->m_list->next != NULL ) {
 161                 /* pop off the first one... */
 162                 node = client->m_list->next;
 163                 client->m_list->next = node->next;
 164                 msg = node->message;
 165                 free( node );
 166                 return msg;
 167
 168         } else {
 169                 return NULL;
 170         }
 171 }
 172
 173 /* throw the message into the message queue */
 174 void client_message_handler( void* client, transport_message* msg ){
 175
 176         if(client == NULL) return;
 177         if(msg == NULL) return;
 178
 179         transport_client* cli = (transport_client*) client;
 180
 181         size_t len = sizeof(transport_message_node);
 182         transport_message_node* node =
 183                 (transport_message_node*) safe_malloc(len);
 184         node->type = MESSAGE_LIST_ITEM;
 185         node->message = msg;
 186
 187
 188         /* find the last node and put this onto the end */
 189         transport_message_node* tail = cli->m_list;
 190         transport_message_node* current = tail->next;
 191
 192         while( current != NULL ) {
 193                 tail = current;
 194                 current = current->next;
 195         }
 196         tail->next = node;
 197 }
 198
 199
 200 int client_free( transport_client* client ){
 201         if(client == NULL) return 0;
 202
 203         session_free( client->session );
 204         transport_message_node* current = client->m_list->next;
 205         transport_message_node* next;
 206
 207         /* deallocate the list of messages */
 208         while( current != NULL ) {
 209                 next = current->next;
 210                 message_free( current->message );
 211                 free(current);
 212                 current = next;
 213         }
 214
 215         free( client->m_list );
 216         free( client );
 217         return 1;
 218 }
 219