/[svn]/liblscp/trunk/src/client.c

Diff of /liblscp/trunk/src/client.c

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-revision 107 by capela,
Fri Jun  4 21:06:59 2004 UTC
+revision 1697 by schoenebeck,
Sat Feb 16 19:31:32 2008 UTC
 Line 2
  //
  /****************************************************************************
     liblscp - LinuxSampler Control Protocol API
-    Copyright (C) 2004, rncbc aka Rui Nuno Capela. All rights reserved.
+    Copyright (C) 2004-2008, rncbc aka Rui Nuno Capela. All rights reserved.
     This library is free software; you can redistribute it and/or
     modify it under the terms of the GNU Lesser General Public
 Line 14
     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
     Lesser General Public License for more details.
-    You should have received a copy of the GNU Lesser General Public
+    You should have received a copy of the GNU General Public License along
-    License along with this library; if not, write to the Free Software
+    with this program; if not, write to the Free Software Foundation, Inc.,
-    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
  *****************************************************************************/
 Line 28
  // Local prototypes.
- static void _lscp_client_set_result (lscp_client_t *pClient, char *pszResult, int iErrno);
+ static void             _lscp_client_evt_proc       (void *pvClient);
- static void _lscp_client_udp_proc   (void *pvClient);
+ static lscp_status_t    _lscp_client_evt_connect    (lscp_client_t *pClient);
+ static lscp_status_t    _lscp_client_evt_request    (lscp_client_t *pClient, int iSubscribe, lscp_event_t event);
  //-------------------------------------------------------------------------
- // Helper functions.
+ // Event service (datagram oriented).
- // Result buffer internal settler.
+ static void _lscp_client_evt_proc ( void *pvClient )
- static void _lscp_client_set_result ( lscp_client_t *pClient, char *pszResult, int iErrno )
  {
-     if (pClient->pszResult)
+         lscp_client_t *pClient = (lscp_client_t *) pvClient;
-         free(pClient->pszResult);
-     pClient->pszResult = NULL;
+         fd_set fds;                         // File descriptor list for select().
+         int    fd, fdmax;                   // Maximum file descriptor number.
+         struct timeval tv;                  // For specifying a timeout value.
+         int    iSelect;                     // Holds select return status.
+         int    iTimeout;
+         char   achBuffer[LSCP_BUFSIZ];
+         int    cchBuffer;
+         const char *pszSeps = ":\r\n";
+         char * pszToken;
+         char * pch;
+         int     cchToken;
+         lscp_event_t event;
+ #ifdef DEBUG
+         fprintf(stderr, "_lscp_client_evt_proc: Client waiting for events.\n");
+ #endif
-     pClient->iErrno = iErrno;
+         while (pClient->evt.iState) {
-     if (pszResult)
+                 // Prepare for waiting on select...
-         pClient->pszResult = strdup(lscp_ltrim(pszResult));
+                 fd = (int) pClient->evt.sock;
+                 FD_ZERO(&fds);
+                 FD_SET((unsigned int) fd, &fds);
+                 fdmax = fd;
+                 // Use the timeout (x10) select feature ...
+                 iTimeout = 10 * pClient->iTimeout;
+                 if (iTimeout >= 1000) {
+                         tv.tv_sec = iTimeout / 1000;
+                         iTimeout -= tv.tv_sec * 1000;
+                 }
+                 else tv.tv_sec = 0;
+                 tv.tv_usec = iTimeout * 1000;
+                 // Wait for event...
+                 iSelect = select(fdmax + 1, &fds, NULL, NULL, &tv);
+                 if (iSelect > 0 && FD_ISSET(fd, &fds)) {
+                         // May recv now...
+                         cchBuffer = recv(pClient->evt.sock, achBuffer, sizeof(achBuffer), 0);
+                         if (cchBuffer > 0) {
+                                 // Make sure received buffer it's null terminated.
+                                 achBuffer[cchBuffer] = (char) 0;
+                                 pch = achBuffer;
+                                 do {
+                                         // Parse for the notification event message...
+                                         pszToken = lscp_strtok(NULL, pszSeps, &(pch)); // Have "NOTIFY"
+                                         if (strcasecmp(pszToken, "NOTIFY") == 0) {
+                                                 pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                                                 event    = lscp_event_from_text(pszToken);
+                                                 // And pick the rest of data...
+                                                 pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                                                 cchToken = (pszToken == NULL ? 0 : strlen(pszToken));
+                                                 // Double-check if we're really up to it...
+                                                 if (pClient->events & event) {
+                                                         // Invoke the client event callback...
+                                                         if ((*pClient->pfnCallback)(
+                                                                         pClient,
+                                                                         event,
+                                                                         pszToken,
+                                                                         cchToken,
+                                                                         pClient->pvData) != LSCP_OK) {
+                                                                 pClient->evt.iState = 0;
+                                                         }
+                                                 }
+                                         }
+                                 } while (*pch);
+                         } else {
+                                 lscp_socket_perror("_lscp_client_evt_proc: recv");
+                                 pClient->evt.iState = 0;
+                         }
+                 }   // Check if select has in error.
+                 else if (iSelect < 0) {
+                         lscp_socket_perror("_lscp_client_evt_proc: select");
+                         pClient->evt.iState = 0;
+                 }
+                 // Finally, always signal the event.
+                 lscp_cond_signal(pClient->cond);
+         }
+ #ifdef DEBUG
+         fprintf(stderr, "_lscp_client_evt_proc: Client closing.\n");
+ #endif
  }
  //-------------------------------------------------------------------------
- // UDP service (datagram oriented).
+ // Event subscription helpers.
- static void _lscp_client_udp_proc ( void *pvClient )
+ // Open the event service socket connection.
+ static lscp_status_t _lscp_client_evt_connect ( lscp_client_t *pClient )
  {
-     lscp_client_t *pClient = (lscp_client_t *) pvClient;
+         lscp_socket_t sock;
-     struct sockaddr_in addr;
+         struct sockaddr_in addr;
-     int   cAddr;
+         int cAddr;
-     char  achBuffer[LSCP_BUFSIZ];
+ #if defined(WIN32)
-     int   cchBuffer;
+         int iSockOpt = (-1);
-     const char *pszSeps = " \r\n";
-     char *pszToken;
-     char *pch;
- #ifdef DEBUG
-     fprintf(stderr, "_lscp_client_udp_proc: Client waiting for events.\n");
  #endif
-     while (pClient->udp.iState) {
+         // Prepare the event connection socket...
-         cAddr = sizeof(struct sockaddr_in);
+         sock = socket(AF_INET, SOCK_STREAM, 0);
-         cchBuffer = recvfrom(pClient->udp.sock, achBuffer, sizeof(achBuffer), 0, (struct sockaddr *) &addr, &cAddr);
+         if (sock == INVALID_SOCKET) {
-         if (cchBuffer > 0) {
+                 lscp_socket_perror("_lscp_client_evt_connect: socket");
- #ifdef DEBUG
+                 return LSCP_FAILED;
-             lscp_socket_trace("_lscp_client_udp_proc: recvfrom", &addr, achBuffer, cchBuffer);
+         }
- #endif
-             if (strncasecmp(achBuffer, "PING ", 5) == 0) {
+ #if defined(WIN32)
-                 // Make sure received buffer it's null terminated.
+         if (setsockopt(sock, SOL_SOCKET, SO_DONTLINGER, (char *) &iSockOpt, sizeof(int)) == SOCKET_ERROR)
-                 achBuffer[cchBuffer] = (char) 0;
+                 lscp_socket_perror("lscp_client_evt_connect: setsockopt(SO_DONTLINGER)");
-                 lscp_strtok(achBuffer, pszSeps, &(pch));       // Skip "PING"
-                 lscp_strtok(NULL, pszSeps, &(pch));            // Skip port (must be the same as in addr)
-                 pszToken = lscp_strtok(NULL, pszSeps, &(pch)); // Have session-id.
-                 if (pszToken) {
-                     // Set now client's session-id, if not already
-                     if (pClient->sessid == NULL)
-                         pClient->sessid = strdup(pszToken);
-                     if (pClient->sessid && strcmp(pszToken, pClient->sessid) == 0) {
-                         sprintf(achBuffer, "PONG %s\r\n", pClient->sessid);
-                         cchBuffer = strlen(achBuffer);
-                         if (sendto(pClient->udp.sock, achBuffer, cchBuffer, 0, (struct sockaddr *) &addr, cAddr) < cchBuffer)
-                             lscp_socket_perror("_lscp_client_udp_proc: sendto");
- #ifdef DEBUG
-                         fprintf(stderr, "> %s", achBuffer);
  #endif
-                     }
-                 }
-                 // Done with life proof.
-             } else {
-                 //
-                 if ((*pClient->pfnCallback)(
-                         pClient,
-                         achBuffer,
-                         cchBuffer,
-                         pClient->pvData) != LSCP_OK) {
-                     pClient->udp.iState = 0;
-                 }
-             }
-         } else {
-             lscp_socket_perror("_lscp_client_udp_proc: recvfrom");
-             pClient->udp.iState = 0;
-         }
-     }
  #ifdef DEBUG
-     fprintf(stderr, "_lscp_client_udp_proc: Client closing.\n");
+         lscp_socket_getopts("_lscp_client_evt_connect:", sock);
  #endif
+         // Use same address of the command connection.
+         cAddr = sizeof(struct sockaddr_in);
+         memmove((char *) &addr, &(pClient->cmd.addr), cAddr);
+         // Start the connection...
+         if (connect(sock, (struct sockaddr *) &addr, cAddr) == SOCKET_ERROR) {
+                 lscp_socket_perror("_lscp_client_evt_connect: connect");
+                 closesocket(sock);
+                 return LSCP_FAILED;
+         }
+         // Set our socket agent struct...
+         lscp_socket_agent_init(&(pClient->evt), sock, &addr, cAddr);
+         // And finally the service thread...
+         return lscp_socket_agent_start(&(pClient->evt), _lscp_client_evt_proc, pClient, 0);
+ }
+ // Subscribe to a single event.
+ static lscp_status_t _lscp_client_evt_request ( lscp_client_t *pClient, int iSubscribe, lscp_event_t event )
+ {
+         const char *pszEvent;
+         char  szQuery[LSCP_BUFSIZ];
+         int   cchQuery;
+         if (pClient == NULL)
+                 return LSCP_FAILED;
+         // Which (single) event?
+         pszEvent = lscp_event_to_text(event);
+         if (pszEvent == NULL)
+                 return LSCP_FAILED;
+         // Build the query string...
+         cchQuery = sprintf(szQuery, "%sSUBSCRIBE %s\n\n", (iSubscribe == 0 ? "UN" : ""), pszEvent);
+         // Just send data, forget result...
+         if (send(pClient->evt.sock, szQuery, cchQuery, 0) < cchQuery) {
+                 lscp_socket_perror("_lscp_client_evt_request: send");
+                 return LSCP_FAILED;
+         }
+         // Wait on response.
+         lscp_cond_wait(pClient->cond, pClient->mutex);
+         // Update as naively as we can...
+         if (iSubscribe)
+                 pClient->events |=  event;
+         else
+                 pClient->events &= ~event;
+         return LSCP_OK;
  }
-Line 150 
 const char* lscp_client_build   (void) {
+Line 245 
 const char* lscp_client_build   (void) {
   */
  lscp_client_t* lscp_client_create ( const char *pszHost, int iPort, lscp_client_proc_t pfnCallback, void *pvData )
  {
-     lscp_client_t  *pClient;
+         lscp_client_t  *pClient;
-     struct hostent *pHost;
+         struct hostent *pHost;
-     lscp_socket_t sock;
+         lscp_socket_t sock;
-     struct sockaddr_in addr;
+         struct sockaddr_in addr;
-     int cAddr;
+         int cAddr;
-     int iSockOpt = (-1);
-     if (pfnCallback == NULL) {
-         fprintf(stderr, "lscp_client_create: Invalid client callback function.\n");
-         return NULL;
-     }
-     pHost = gethostbyname(pszHost);
-     if (pHost == NULL) {
-         lscp_socket_perror("lscp_client_create: gethostbyname");
-         return NULL;
-     }
-     // Allocate client descriptor...
-     pClient = (lscp_client_t *) malloc(sizeof(lscp_client_t));
-     if (pClient == NULL) {
-         fprintf(stderr, "lscp_client_create: Out of memory.\n");
-         return NULL;
-     }
-     memset(pClient, 0, sizeof(lscp_client_t));
-     pClient->pfnCallback = pfnCallback;
-     pClient->pvData = pvData;
- #ifdef DEBUG
-     fprintf(stderr, "lscp_client_create: pClient=%p: pszHost=%s iPort=%d.\n", pClient, pszHost, iPort);
- #endif
-     // Prepare the TCP connection socket...
-     sock = socket(AF_INET, SOCK_STREAM, 0);
-     if (sock == INVALID_SOCKET) {
-         lscp_socket_perror("lscp_client_create: tcp: socket");
-         free(pClient);
-         return NULL;
-     }
  #if defined(WIN32)
-     if (setsockopt(sock, SOL_SOCKET, SO_DONTLINGER, (char *) &iSockOpt, sizeof(int)) == SOCKET_ERROR)
+         int iSockOpt = (-1);
-         lscp_socket_perror("lscp_client_create: tcp: setsockopt(SO_DONTLINGER)");
  #endif
- #ifdef DEBUG
+         if (pfnCallback == NULL) {
-     lscp_socket_getopts("lscp_client_create: tcp", sock);
+                 fprintf(stderr, "lscp_client_create: Invalid client callback function.\n");
- #endif
+                 return NULL;
+         }
-     cAddr = sizeof(struct sockaddr_in);
-     memset((char *) &addr, 0, cAddr);
+         pHost = gethostbyname(pszHost);
-     addr.sin_family = pHost->h_addrtype;
+         if (pHost == NULL) {
-     memmove((char *) &(addr.sin_addr), pHost->h_addr, pHost->h_length);
+                 lscp_socket_herror("lscp_client_create: gethostbyname");
-     addr.sin_port = htons((short) iPort);
+                 return NULL;
+         }
-     if (connect(sock, (struct sockaddr *) &addr, cAddr) == SOCKET_ERROR) {
-         lscp_socket_perror("lscp_client_create: tcp: connect");
+         // Allocate client descriptor...
-         closesocket(sock);
-         free(pClient);
+         pClient = (lscp_client_t *) malloc(sizeof(lscp_client_t));
-         return NULL;
+         if (pClient == NULL) {
-     }
+                 fprintf(stderr, "lscp_client_create: Out of memory.\n");
+                 return NULL;
+         }
+         memset(pClient, 0, sizeof(lscp_client_t));
-     lscp_socket_agent_init(&(pClient->tcp), sock, &addr, cAddr);
+         pClient->pfnCallback = pfnCallback;
+         pClient->pvData = pvData;
  #ifdef DEBUG
-     fprintf(stderr, "lscp_client_create: tcp: pClient=%p: sock=%d addr=%s port=%d.\n", pClient, pClient->tcp.sock, inet_ntoa(pClient->tcp.addr.sin_addr), ntohs(pClient->tcp.addr.sin_port));
+         fprintf(stderr, "lscp_client_create: pClient=%p: pszHost=%s iPort=%d.\n", pClient, pszHost, iPort);
  #endif
-     // Prepare the UDP datagram service socket...
+         // Prepare the command connection socket...
-     sock = socket(AF_INET, SOCK_DGRAM, 0);
+         sock = socket(AF_INET, SOCK_STREAM, 0);
-     if (sock == INVALID_SOCKET) {
+         if (sock == INVALID_SOCKET) {
-         lscp_socket_perror("lscp_client_create: udp: socket");
+                 lscp_socket_perror("lscp_client_create: cmd: socket");
-         lscp_socket_agent_free(&(pClient->tcp));
+                 free(pClient);
-         free(pClient);
+                 return NULL;
-         return NULL;
+         }
-     }
-     if (setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, (char *) &iSockOpt, sizeof(int)) == SOCKET_ERROR)
+ #if defined(WIN32)
-         lscp_socket_perror("lscp_client_create: udp: setsockopt(SO_REUSEADDR)");
+         if (setsockopt(sock, SOL_SOCKET, SO_DONTLINGER, (char *) &iSockOpt, sizeof(int)) == SOCKET_ERROR)
+                 lscp_socket_perror("lscp_client_create: cmd: setsockopt(SO_DONTLINGER)");
+ #endif
  #ifdef DEBUG
-     lscp_socket_getopts("lscp_client_create: udp", sock);
+         lscp_socket_getopts("lscp_client_create: cmd", sock);
  #endif
-     cAddr = sizeof(struct sockaddr_in);
+         cAddr = sizeof(struct sockaddr_in);
-     memset((char *) &addr, 0, cAddr);
+         memset((char *) &addr, 0, cAddr);
-     addr.sin_family = AF_INET;
+         addr.sin_family = pHost->h_addrtype;
-     addr.sin_addr.s_addr = htonl(INADDR_ANY);
+         memmove((char *) &(addr.sin_addr), pHost->h_addr, pHost->h_length);
-     addr.sin_port = htons(0);
+         addr.sin_port = htons((short) iPort);
-     if (bind(sock, (const struct sockaddr *) &addr, cAddr) == SOCKET_ERROR) {
+         if (connect(sock, (struct sockaddr *) &addr, cAddr) == SOCKET_ERROR) {
-         lscp_socket_perror("lscp_client_create: udp: bind");
+                 lscp_socket_perror("lscp_client_create: cmd: connect");
-         lscp_socket_agent_free(&(pClient->tcp));
+                 closesocket(sock);
-         closesocket(sock);
+                 free(pClient);
-         free(pClient);
+                 return NULL;
-         return NULL;
+         }
-     }
-     if (getsockname(sock, (struct sockaddr *) &addr, &cAddr) == SOCKET_ERROR) {
-         lscp_socket_perror("lscp_client_create: udp: getsockname");
-         lscp_socket_agent_free(&(pClient->tcp));
-         closesocket(sock);
-         free(pClient);
-         return NULL;
-     }
-     lscp_socket_agent_init(&(pClient->udp), sock, &addr, cAddr);
+         // Initialize the command socket agent struct...
+         lscp_socket_agent_init(&(pClient->cmd), sock, &addr, cAddr);
  #ifdef DEBUG
-     fprintf(stderr, "lscp_client_create: udp: pClient=%p: sock=%d addr=%s port=%d.\n", pClient, pClient->udp.sock, inet_ntoa(pClient->udp.addr.sin_addr), ntohs(pClient->udp.addr.sin_port));
+         fprintf(stderr, "lscp_client_create: cmd: pClient=%p: sock=%d addr=%s port=%d.\n", pClient, pClient->cmd.sock, inet_ntoa(pClient->cmd.addr.sin_addr), ntohs(pClient->cmd.addr.sin_port));
  #endif
-     // No session id, yet.
+         // Initialize the event service socket struct...
-     pClient->sessid = NULL;
+         lscp_socket_agent_init(&(pClient->evt), INVALID_SOCKET, NULL, 0);
-     // Initialize cached members.
+         // No events subscribed, yet.
-     pClient->audio_drivers = NULL;
+         pClient->events = LSCP_EVENT_NONE;
-     pClient->midi_drivers = NULL;
+         // Initialize cached members.
-     pClient->engines = NULL;
+         pClient->audio_drivers = NULL;
-     lscp_driver_info_init(&(pClient->audio_info));
+         pClient->midi_drivers = NULL;
-     lscp_driver_info_init(&(pClient->midi_info));
+         pClient->audio_devices = NULL;
-     lscp_engine_info_init(&(pClient->engine_info));
+         pClient->midi_devices = NULL;
-     lscp_channel_info_init(&(pClient->channel_info));
+         pClient->engines = NULL;
-     // Initialize error stuff.
+         pClient->channels = NULL;
-     pClient->pszResult = NULL;
+         pClient->fxsends = NULL;
-     pClient->iErrno = -1;
+         pClient->midi_instruments = NULL;
-     // Stream usage stuff.
+         pClient->midi_maps = NULL;
-     pClient->buffer_fill = NULL;
+         pClient->midi_map_name = NULL;
-     pClient->iStreamCount = 0;
+         lscp_driver_info_init(&(pClient->audio_driver_info));
-     // Default timeout value.
+         lscp_driver_info_init(&(pClient->midi_driver_info));
-     pClient->iTimeout = LSCP_TIMEOUT_MSECS;
+         lscp_device_info_init(&(pClient->audio_device_info));
+         lscp_device_info_init(&(pClient->midi_device_info));
-     // Initialize the transaction mutex.
+         lscp_param_info_init(&(pClient->audio_param_info));
-     lscp_mutex_init(pClient->mutex);
+         lscp_param_info_init(&(pClient->midi_param_info));
+         lscp_device_port_info_init(&(pClient->audio_channel_info));
-     // Now's finally time to startup threads...
+         lscp_device_port_info_init(&(pClient->midi_port_info));
-     // UDP service thread...
+         lscp_param_info_init(&(pClient->audio_channel_param_info));
-     if (lscp_socket_agent_start(&(pClient->udp), _lscp_client_udp_proc, pClient, 0) != LSCP_OK) {
+         lscp_param_info_init(&(pClient->midi_port_param_info));
-         lscp_socket_agent_free(&(pClient->tcp));
+         lscp_server_info_init(&(pClient->server_info));
-         lscp_socket_agent_free(&(pClient->udp));
+         lscp_engine_info_init(&(pClient->engine_info));
-         lscp_mutex_destroy(pClient->mutex);
+         lscp_channel_info_init(&(pClient->channel_info));
-         free(pClient);
+         lscp_fxsend_info_init(&(pClient->fxsend_info));
-         return NULL;
+         lscp_midi_instrument_info_init(&(pClient->midi_instrument_info));
-     }
+         // Initialize error stuff.
+         pClient->pszResult = NULL;
+         pClient->iErrno = -1;
+         // Stream usage stuff.
+         pClient->buffer_fill = NULL;
+         pClient->iStreamCount = 0;
+         // Default timeout value.
+         pClient->iTimeout = LSCP_TIMEOUT_MSECS;
+         pClient->iTimeoutCount = 0;
+         // Initialize the transaction mutex.
+         lscp_mutex_init(pClient->mutex);
+         lscp_cond_init(pClient->cond);
-     // Finally we've some success...
+         // Finally we've some success...
-     return pClient;
+         return pClient;
  }
-Line 310 
 lscp_client_t* lscp_client_create ( cons
+Line 375 
 lscp_client_t* lscp_client_create ( cons
   */
  lscp_status_t lscp_client_join ( lscp_client_t *pClient )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
  #ifdef DEBUG
-     fprintf(stderr, "lscp_client_join: pClient=%p.\n", pClient);
+         fprintf(stderr, "lscp_client_join: pClient=%p.\n", pClient);
  #endif
- //  lscp_socket_agent_join(&(pClient->udp));
+ //  lscp_socket_agent_join(&(pClient->evt));
-     lscp_socket_agent_join(&(pClient->tcp));
+         lscp_socket_agent_join(&(pClient->cmd));
-     return LSCP_OK;
+         return LSCP_OK;
  }
-Line 333 
 lscp_status_t lscp_client_join ( lscp_cl
+Line 398 
 lscp_status_t lscp_client_join ( lscp_cl
   */
  lscp_status_t lscp_client_destroy ( lscp_client_t *pClient )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
  #ifdef DEBUG
-     fprintf(stderr, "lscp_client_destroy: pClient=%p.\n", pClient);
+         fprintf(stderr, "lscp_client_destroy: pClient=%p.\n", pClient);
  #endif
-     // Free session-id, if any.
+         // Lock this section up.
-     if (pClient->sessid)
+         lscp_mutex_lock(pClient->mutex);
-         free(pClient->sessid);
-     pClient->sessid = NULL;
-     // Free up all cached members.
-     lscp_channel_info_reset(&(pClient->channel_info));
-     lscp_engine_info_reset(&(pClient->engine_info));
-     lscp_driver_info_reset(&(pClient->midi_info));
-     lscp_driver_info_reset(&(pClient->audio_info));
-     // Free available engine table.
-     lscp_szsplit_destroy(pClient->audio_drivers);
-     lscp_szsplit_destroy(pClient->midi_drivers);
-     lscp_szsplit_destroy(pClient->engines);
-     // Make them null.
-     pClient->audio_drivers = NULL;
-     pClient->midi_drivers = NULL;
-     pClient->engines = NULL;
-     // Free result error stuff.
-     _lscp_client_set_result(pClient, NULL, 0);
-     // Frre stream usage stuff.
-     if (pClient->buffer_fill)
-         free(pClient->buffer_fill);
-     pClient->buffer_fill = NULL;
-     pClient->iStreamCount = 0;
-     pClient->iTimeout = 0;
-     // Free socket agents.
-     lscp_socket_agent_free(&(pClient->udp));
-     lscp_socket_agent_free(&(pClient->tcp));
-     // Last but not least, free good ol'transaction mutex.
+         // Free up all cached members.
-     lscp_mutex_destroy(pClient->mutex);
+         lscp_midi_instrument_info_free(&(pClient->midi_instrument_info));
+         lscp_fxsend_info_free(&(pClient->fxsend_info));
+         lscp_channel_info_free(&(pClient->channel_info));
+         lscp_engine_info_free(&(pClient->engine_info));
+         lscp_server_info_free(&(pClient->server_info));
+         lscp_param_info_free(&(pClient->midi_port_param_info));
+         lscp_param_info_free(&(pClient->audio_channel_param_info));
+         lscp_device_port_info_free(&(pClient->midi_port_info));
+         lscp_device_port_info_free(&(pClient->audio_channel_info));
+         lscp_param_info_free(&(pClient->midi_param_info));
+         lscp_param_info_free(&(pClient->audio_param_info));
+         lscp_device_info_free(&(pClient->midi_device_info));
+         lscp_device_info_free(&(pClient->audio_device_info));
+         lscp_driver_info_free(&(pClient->midi_driver_info));
+         lscp_driver_info_free(&(pClient->audio_driver_info));
+         // Free available engine table.
+         lscp_szsplit_destroy(pClient->audio_drivers);
+         lscp_szsplit_destroy(pClient->midi_drivers);
+         lscp_isplit_destroy(pClient->audio_devices);
+         lscp_isplit_destroy(pClient->midi_devices);
+         lscp_szsplit_destroy(pClient->engines);
+         lscp_isplit_destroy(pClient->channels);
+         lscp_isplit_destroy(pClient->fxsends);
+         lscp_midi_instruments_destroy(pClient->midi_instruments);
+         lscp_isplit_destroy(pClient->midi_maps);
+         if (pClient->midi_map_name)
+                 free(pClient->midi_map_name);
+         // Make them null.
+         pClient->audio_drivers = NULL;
+         pClient->midi_drivers = NULL;
+         pClient->audio_devices = NULL;
+         pClient->midi_devices = NULL;
+         pClient->engines = NULL;
+         pClient->channels = NULL;
+         pClient->fxsends = NULL;
+         pClient->midi_instruments = NULL;
+         pClient->midi_maps = NULL;
+         pClient->midi_map_name = NULL;
+         // Free result error stuff.
+         lscp_client_set_result(pClient, NULL, 0);
+         // Free stream usage stuff.
+         if (pClient->buffer_fill)
+                 free(pClient->buffer_fill);
+         pClient->buffer_fill = NULL;
+         pClient->iStreamCount = 0;
+         pClient->iTimeout = 0;
+         // Free socket agents.
+         lscp_socket_agent_free(&(pClient->evt));
+         lscp_socket_agent_free(&(pClient->cmd));
+         // Last but not least, free good ol'transaction mutex.
+         lscp_mutex_unlock(pClient->mutex);
+         lscp_mutex_destroy(pClient->mutex);
+         lscp_cond_destroy(pClient->cond);
-     free(pClient);
+         free(pClient);
-     return LSCP_OK;
+         return LSCP_OK;
  }
-Line 389 
 lscp_status_t lscp_client_destroy ( lscp
+Line 481 
 lscp_status_t lscp_client_destroy ( lscp
   */
  lscp_status_t lscp_client_set_timeout ( lscp_client_t *pClient, int iTimeout )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     if (iTimeout < 0)
+         if (iTimeout < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     pClient->iTimeout = iTimeout;
+         pClient->iTimeout = iTimeout;
-     return LSCP_OK;
+         return LSCP_OK;
  }
-Line 408 
 lscp_status_t lscp_client_set_timeout (
+Line 500 
 lscp_status_t lscp_client_set_timeout (
   */
  int lscp_client_get_timeout ( lscp_client_t *pClient )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return -1;
+                 return -1;
-     return pClient->iTimeout;
+         return pClient->iTimeout;
  }
  //-------------------------------------------------------------------------
  // Client common protocol functions.
  /**
   *  Submit a command query line string to the server. The query string
   *  must be cr/lf and null terminated. Besides the return code, the
-Line 434 
 int lscp_client_get_timeout ( lscp_clien
+Line 525 
 int lscp_client_get_timeout ( lscp_clien
   */
  lscp_status_t lscp_client_query ( lscp_client_t *pClient, const char *pszQuery )
  {
-     fd_set fds;                         // File descriptor list for select().
+         lscp_status_t ret;
-     int    fd, fdmax;                   // Maximum file descriptor number.
-     struct timeval tv;                  // For specifying a timeout value.
-     int    iSelect;                     // Holds select return status.
-     int    iTimeout;
-     int    cchQuery;
-     char   achResult[LSCP_BUFSIZ];
-     int    cchResult;
-     const  char *pszSeps = ":[]";
-     char  *pszResult;
-     char  *pszToken;
-     char  *pch;
-     int    iErrno;
-     lscp_status_t ret = LSCP_FAILED;
-     if (pClient == NULL)
-         return ret;
-     // Lock this section up.
-     lscp_mutex_lock(pClient->mutex);
-     pszResult = NULL;
-     iErrno = -1;
-     // Send data, and then, wait for the result...
-     cchQuery = strlen(pszQuery);
-     if (send(pClient->tcp.sock, pszQuery, cchQuery, 0) < cchQuery) {
-         lscp_socket_perror("lscp_client_query: send");
-         lscp_mutex_unlock(pClient->mutex);
-         return ret;
-     }
-     // Prepare for waiting on select...
-     fd = (int) pClient->tcp.sock;
-     FD_ZERO(&fds);
-     FD_SET((unsigned int) fd, &fds);
-     fdmax = fd;
-     // Use the timeout select feature...
-     iTimeout = pClient->iTimeout;
-     if (iTimeout > 1000) {
-         tv.tv_sec = iTimeout / 1000;
-         iTimeout -= tv.tv_sec * 1000;
-     }
-     else tv.tv_sec = 0;
-     tv.tv_usec = iTimeout * 1000;
-     // Wait for event...
-     iSelect = select(fdmax + 1, &fds, NULL, NULL, &tv);
-     if (iSelect > 0 && FD_ISSET(fd, &fds)) {
-         // May recv now...
-         cchResult = recv(pClient->tcp.sock, achResult, sizeof(achResult), 0);
-         if (cchResult > 0) {
-             // Assume early success.
-             ret = LSCP_OK;
-             // Always force the result to be null terminated (and trim trailing CRLFs)!
-             while (cchResult > 0 && (achResult[cchResult - 1] == '\n' || achResult[cchResult- 1] == '\r'))
-                 cchResult--;
-             achResult[cchResult] = (char) 0;
-             // Check if the response it's an error or warning message.
-             if (strncasecmp(achResult, "WRN:", 4) == 0)
-                 ret = LSCP_WARNING;
-             else if (strncasecmp(achResult, "ERR:", 4) == 0)
-                 ret = LSCP_ERROR;
-             // So we got a result...
-             if (ret == LSCP_OK) {
-                 // Reset errno in case of success.
-                 iErrno = 0;
-                 // Is it a special successful response?
-                 if (strncasecmp(achResult, "OK[", 3) == 0) {
-                     // Parse the OK message, get the return string under brackets...
-                     pszToken = lscp_strtok(achResult, pszSeps, &(pch));
-                     if (pszToken)
-                         pszResult = lscp_strtok(NULL, pszSeps, &(pch));
-                 }
-                 else pszResult = achResult;
-                 // The result string is now set to the command response, if any.
-             } else {
-                 // Parse the error/warning message, skip first colon...
-                 pszToken = lscp_strtok(achResult, pszSeps, &(pch));
-                 if (pszToken) {
-                     // Get the error number...
-                     pszToken = lscp_strtok(NULL, pszSeps, &(pch));
-                     if (pszToken) {
-                         iErrno = atoi(pszToken);
-                         // And make the message text our final result.
-                         pszResult = lscp_strtok(NULL, pszSeps, &(pch));
-                     }
-                 }
-                 // The result string is set to the error/warning message text.
-             }
-         }
-         else if (cchResult == 0) {
-             // Fake a result message.
-             pszResult = "Server terminated the connection";
-             ret = LSCP_QUIT;
-         }
-         else lscp_socket_perror("lscp_client_query: recv");
-     }   // Check if select has timed out.
-     else if (iSelect == 0) {
-         // Fake a result message.
-         pszResult = "Timeout during receive operation";
-         ret = LSCP_TIMEOUT;
-     }
-     else lscp_socket_perror("lscp_client_query: select");
-     // Make the result official...
+         if (pClient == NULL)
-     _lscp_client_set_result(pClient, pszResult, iErrno);
+                 return LSCP_FAILED;
-     // Can go on with it...
+         // Lock this section up.
-     lscp_mutex_unlock(pClient->mutex);
+         lscp_mutex_lock(pClient->mutex);
-     return ret;
+         // Just make the now guarded call.
- }
+         ret = lscp_client_call(pClient, pszQuery, 0);
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return ret;
+ }
  /**
   *  Get the last received result string. In case of error or warning,
-Line 562 
 lscp_status_t lscp_client_query ( lscp_c
+Line 553 
 lscp_status_t lscp_client_query ( lscp_c
   */
  const char *lscp_client_get_result ( lscp_client_t *pClient )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return NULL;
+                 return NULL;
-     return pClient->pszResult;
+         return pClient->pszResult;
  }
-Line 579 
 const char *lscp_client_get_result ( lsc
+Line 570 
 const char *lscp_client_get_result ( lsc
   */
  int lscp_client_get_errno ( lscp_client_t *pClient )
  {
-     if (pClient == NULL)
+         if (pClient == NULL)
-         return -1;
+                 return -1;
-     return pClient->iErrno;
+         return pClient->iErrno;
  }
-Line 590 
 int lscp_client_get_errno ( lscp_client_
+Line 581 
 int lscp_client_get_errno ( lscp_client_
  // Client registration protocol functions.
  /**
-  *  Register frontend for receiving UDP event messages:
+  *  Register frontend for receiving event messages by the sampler backend.
-  *  SUBSCRIBE NOTIFICATION <udp-port>
+  *  @e Caution: since liblscp v0.5.5.4 you have to call lscp_client_subscribe()
+  *  for @e each event you want to subscribe. That is the old bitflag approach
+  *  was abondoned at this point. You can however still register all older
+  *  events with one lscp_client_subscribe() call at once. Thus, the old
+  *  behavior of this functions was not broken. Those older events are namely:
+  *  @code
+  *  SUBSCRIBE CHANNEL_COUNT | VOICE_COUNT | STREAM_COUNT
+  *      | BUFFER_FILL | CHANNEL_INFO | TOTAL_VOICE_COUNT
+  *      | AUDIO_OUTPUT_DEVICE_COUNT | AUDIO_OUTPUT_DEVICE_INFO
+  *      | MIDI_INPUT_DEVICE_COUNT | MIDI_INPUT_DEVICE_INFO
+  *      | MIDI_INSTRUMENT_MAP_COUNT | MIDI_INSTRUMENT_MAP_INFO
+  *      | MIDI_INSTRUMENT_COUNT | MIDI_INSTRUMENT_INFO
+  *      | MISCELLANEOUS
+  *  @endcode
+  *  The old events occupy the lower 16 bits (as bit flags), and all younger
+  *  events enumerate the whole upper 16 bits range. The new, enumerated
+  *  events are namely:
+  *  @code
+  *  SUBSCRIBE CHANNEL_MIDI
+  *  @endcode
   *
   *  @param pClient  Pointer to client instance structure.
+  *  @param events   LSCP event to subscribe.
   *
   *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
   */
- lscp_status_t lscp_client_subscribe ( lscp_client_t *pClient )
+ lscp_status_t lscp_client_subscribe ( lscp_client_t *pClient, lscp_event_t events )
  {
-     lscp_status_t ret;
+         lscp_status_t ret = LSCP_OK;
-     char szQuery[LSCP_BUFSIZ];
+         lscp_event_t currentEvent;
-     const char *pszResult;
-     const char *pszSeps = "[]";
-     char *pszToken;
-     char *pch;
-     if (pClient == NULL || pClient->sessid)
+         if (pClient == NULL)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SUBSCRIBE NOTIFICATION %d\r\n", ntohs(pClient->udp.addr.sin_port));
+         // Lock this section up.
-     ret = lscp_client_query(pClient, szQuery);
+         lscp_mutex_lock(pClient->mutex);
-     if (ret == LSCP_OK) {
-         pszResult = lscp_client_get_result(pClient);
+         // If applicable, start the alternate connection...
- #ifdef DEBUG
+         if (pClient->events == LSCP_EVENT_NONE)
-         fprintf(stderr, "lscp_client_subscribe: %s\n", pszResult);
+                 ret = _lscp_client_evt_connect(pClient);
- #endif
-         // Check for the session-id on "OK[sessid]" response.
+         // Send the subscription commands.
-         pszToken = lscp_strtok(pszResult, pszSeps, &(pch));
+         if (ret == LSCP_OK && (events & LSCP_EVENT_CHANNEL_COUNT))
-         if (pszToken && strcasecmp(pszToken, "OK") == 0) {
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_CHANNEL_COUNT);
-             pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+         if (ret == LSCP_OK && (events & LSCP_EVENT_VOICE_COUNT))
-             if (pszToken)
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_VOICE_COUNT);
-                 pClient->sessid = strdup(pszToken);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_STREAM_COUNT))
-         }
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_STREAM_COUNT);
-     }
+         if (ret == LSCP_OK && (events & LSCP_EVENT_BUFFER_FILL))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_BUFFER_FILL);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_CHANNEL_INFO))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_CHANNEL_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_TOTAL_VOICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_TOTAL_VOICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_AUDIO_OUTPUT_DEVICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_AUDIO_OUTPUT_DEVICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_AUDIO_OUTPUT_DEVICE_INFO))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_AUDIO_OUTPUT_DEVICE_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INPUT_DEVICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INPUT_DEVICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INPUT_DEVICE_INFO))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INPUT_DEVICE_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_MAP_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INSTRUMENT_MAP_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_MAP_INFO))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INSTRUMENT_MAP_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INSTRUMENT_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_INFO))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MIDI_INSTRUMENT_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MISCELLANEOUS))
+                 ret = _lscp_client_evt_request(pClient, 1, LSCP_EVENT_MISCELLANEOUS);
+         // Caution: for the upper 16 bits, we don't use bit flags anymore ...
+         currentEvent = events & 0xffff0000;
+         if (ret == LSCP_OK && currentEvent) {
+                 switch (currentEvent) {
+                         case LSCP_EVENT_CHANNEL_MIDI:
+                         case LSCP_EVENT_DEVICE_MIDI:
+                                 ret = _lscp_client_evt_request(pClient, 1, currentEvent);
+                                 break;
+                         default: // unknown "upper" event type
+                                 ret = LSCP_FAILED;
+                                 break;
+                 }
+         }
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return ret;
+ }
+ /**
+  *  Deregister frontend from receiving UDP event messages anymore.
+  *  @e Caution: since liblscp v0.5.5.4 you have to call
+  *  lscp_client_unsubscribe() for @e each event you want to unsubscribe.
+  *  That is the old bitflag approach was abondoned at this point. You can
+  *  however still register all older events with one lscp_client_subscribe()
+  *  call at once. Thus, the old behavior of this functions was not broken.
+  *  Those older events are namely:
+  *  @code
+  *  UNSUBSCRIBE CHANNEL_COUNT | VOICE_COUNT | STREAM_COUNT
+  *      | BUFFER_FILL | CHANNEL_INFO | TOTAL_VOICE_COUNT
+  *      | AUDIO_OUTPUT_DEVICE_COUNT | AUDIO_OUTPUT_DEVICE_INFO
+  *      | MIDI_INPUT_DEVICE_COUNT | MIDI_INPUT_DEVICE_INFO
+  *      | MIDI_INSTRUMENT_MAP_COUNT | MIDI_INSTRUMENT_MAP_INFO
+  *      | MIDI_INSTRUMENT_COUNT | MIDI_INSTRUMENT_INFO
+  *      | MISCELLANEOUS
+  *  @endcode
+  *  The old events occupy the lower 16 bits (as bit flags), and all younger
+  *  events enumerate the whole upper 16 bits range. The new, enumerated
+  *  events are namely:
+  *  @code
+  *  UNSUBSCRIBE CHANNEL_MIDI
+  *  @endcode
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param events   LSCP event to unsubscribe.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_client_unsubscribe ( lscp_client_t *pClient, lscp_event_t events )
+ {
+         lscp_status_t ret = LSCP_OK;
+         lscp_event_t currentEvent;
+         if (pClient == NULL)
+                 return LSCP_FAILED;
-     return ret;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         // Send the unsubscription commands.
+         if (ret == LSCP_OK && (events & LSCP_EVENT_CHANNEL_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_CHANNEL_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_VOICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_VOICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_STREAM_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_STREAM_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_BUFFER_FILL))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_BUFFER_FILL);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_CHANNEL_INFO))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_CHANNEL_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_TOTAL_VOICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_TOTAL_VOICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_AUDIO_OUTPUT_DEVICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_AUDIO_OUTPUT_DEVICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_AUDIO_OUTPUT_DEVICE_INFO))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_AUDIO_OUTPUT_DEVICE_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INPUT_DEVICE_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INPUT_DEVICE_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INPUT_DEVICE_INFO))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INPUT_DEVICE_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_MAP_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INSTRUMENT_MAP_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_MAP_INFO))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INSTRUMENT_MAP_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_COUNT))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INSTRUMENT_COUNT);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MIDI_INSTRUMENT_INFO))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MIDI_INSTRUMENT_INFO);
+         if (ret == LSCP_OK && (events & LSCP_EVENT_MISCELLANEOUS))
+                 ret = _lscp_client_evt_request(pClient, 0, LSCP_EVENT_MISCELLANEOUS);
+         // Caution: for the upper 16 bits, we don't use bit flags anymore ...
+         currentEvent = events & 0xffff0000;
+         if (ret == LSCP_OK && currentEvent) {
+                 switch (currentEvent) {
+                         case LSCP_EVENT_CHANNEL_MIDI:
+                         case LSCP_EVENT_DEVICE_MIDI:
+                                 ret = _lscp_client_evt_request(pClient, 0, currentEvent);
+                                 break;
+                         default: // unknown "upper" event type
+                                 ret = LSCP_FAILED;
+                                 break;
+                 }
+         }
+         // If necessary, close the alternate connection...
+         if (pClient->events == LSCP_EVENT_NONE)
+                 lscp_socket_agent_free(&(pClient->evt));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return ret;
  }
  /**
-  *  Deregister frontend for not receiving UDP event messages anymore:
+  *  Getting current subscribed events.
-  *  UNSUBSCRIBE NOTIFICATION <session-id>
   *
   *  @param pClient  Pointer to client instance structure.
   *
-  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  *  @returns The current subscrived bit-wise OR'ed event flags.
   */
- lscp_status_t lscp_client_unsubscribe ( lscp_client_t *pClient )
+ lscp_event_t lscp_client_get_events ( lscp_client_t *pClient )
  {
-     lscp_status_t ret;
+         if (pClient == NULL)
-     char szQuery[LSCP_BUFSIZ];
+                 return LSCP_EVENT_NONE;
-     if (pClient == NULL)
-         return LSCP_FAILED;
-     if (pClient->sessid == NULL)
-         return LSCP_FAILED;
-     sprintf(szQuery, "UNSUBSCRIBE NOTIFICATION %s\n\n", pClient->sessid);
+         return pClient->events;
-     ret = lscp_client_query(pClient, szQuery);
-     if (ret == LSCP_OK) {
- #ifdef DEBUG
-         fprintf(stderr, "lscp_client_unsubscribe: %s\n", lscp_client_get_result(pClient));
- #endif
-         // Bail out session-id string.
-         free(pClient->sessid);
-         pClient->sessid = NULL;
-     }
-     return ret;
  }
-Line 678 
 lscp_status_t lscp_client_unsubscribe (
+Line 803 
 lscp_status_t lscp_client_unsubscribe (
   */
  lscp_status_t lscp_load_instrument ( lscp_client_t *pClient, const char *pszFileName, int iInstrIndex, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
+         if (pszFileName == NULL || iSamplerChannel < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "LOAD INSTRUMENT '%s' %d %d\r\n", pszFileName, iInstrIndex, iSamplerChannel);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Loading an instrument in the background (non modal):
+  *  LOAD INSTRUMENT NON_MODAL <filename> <instr-index> <sampler-channel>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param pszFileName      Instrument file name.
+  *  @param iInstrIndex      Instrument index number.
+  *  @param iSamplerChannel  Sampler Channel.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_load_instrument_non_modal ( lscp_client_t *pClient, const char *pszFileName, int iInstrIndex, int iSamplerChannel )
+ {
+         char szQuery[LSCP_BUFSIZ];
-     if (pszFileName == NULL || iSamplerChannel < 0)
+         if (pszFileName == NULL || iSamplerChannel < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "LOAD INSTRUMENT %s %d %d\r\n", pszFileName, iInstrIndex, iSamplerChannel);
+         sprintf(szQuery, "LOAD INSTRUMENT NON_MODAL '%s' %d %d\r\n", pszFileName, iInstrIndex, iSamplerChannel);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 700 
 lscp_status_t lscp_load_instrument ( lsc
+Line 848 
 lscp_status_t lscp_load_instrument ( lsc
   */
  lscp_status_t lscp_load_engine ( lscp_client_t *pClient, const char *pszEngineName, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (pszEngineName == NULL || iSamplerChannel < 0)
+         if (pszEngineName == NULL || iSamplerChannel < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "LOAD ENGINE %s %d\r\n", pszEngineName, iSamplerChannel);
+         sprintf(szQuery, "LOAD ENGINE %s %d\r\n", pszEngineName, iSamplerChannel);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 721 
 lscp_status_t lscp_load_engine ( lscp_cl
+Line 869 
 lscp_status_t lscp_load_engine ( lscp_cl
   */
  int lscp_get_channels ( lscp_client_t *pClient )
  {
-     int iChannels = -1;
+         int iChannels = -1;
-     if (lscp_client_query(pClient, "GET CHANNELS\r\n") == LSCP_OK)
-         iChannels = atoi(lscp_client_get_result(pClient));
+         if (pClient == NULL)
-     return iChannels;
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET CHANNELS\r\n", 0) == LSCP_OK)
+                 iChannels = atoi(lscp_client_get_result(pClient));
+         // Unlock this section doen.
+         lscp_mutex_unlock(pClient->mutex);
+         return iChannels;
+ }
+ /**
+  *  List current sampler channels number identifiers:
+  *  LIST CHANNELS
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns An array of the sampler channels identifiers as positive integers,
+  *  terminated with -1 on success, NULL otherwise.
+  */
+ int *lscp_list_channels ( lscp_client_t *pClient )
+ {
+         const char *pszSeps = ",";
+         if (pClient == NULL)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (pClient->channels) {
+                 lscp_isplit_destroy(pClient->channels);
+                 pClient->channels = NULL;
+         }
+         if (lscp_client_call(pClient, "LIST CHANNELS\r\n", 0) == LSCP_OK)
+                 pClient->channels = lscp_isplit_create(lscp_client_get_result(pClient), pszSeps);
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pClient->channels;
  }
-Line 739 
 int lscp_get_channels ( lscp_client_t *p
+Line 932 
 int lscp_get_channels ( lscp_client_t *p
   */
  int lscp_add_channel ( lscp_client_t *pClient )
  {
-     int iSamplerChannel = -1;
+         int iSamplerChannel = -1;
-     if (lscp_client_query(pClient, "ADD CHANNEL\r\n") == LSCP_OK)
-         iSamplerChannel = atoi(lscp_client_get_result(pClient));
+         if (pClient == NULL)
-     return iSamplerChannel;
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "ADD CHANNEL\r\n", 0) == LSCP_OK)
+                 iSamplerChannel = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iSamplerChannel;
  }
-Line 757 
 int lscp_add_channel ( lscp_client_t *pC
+Line 961 
 int lscp_add_channel ( lscp_client_t *pC
   */
  lscp_status_t lscp_remove_channel ( lscp_client_t *pClient, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0)
+         if (iSamplerChannel < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "REMOVE CHANNEL %d\r\n", iSamplerChannel);
+         sprintf(szQuery, "REMOVE CHANNEL %d\r\n", iSamplerChannel);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
  /**
-  *  Getting all available engines:
+  *  Getting all available engines count:
   *  GET AVAILABLE_ENGINES
   *
   *  @param pClient  Pointer to client instance structure.
   *
+  *  @returns The current total number of sampler engines on success,
+  *  -1 otherwise.
+  */
+ int lscp_get_available_engines ( lscp_client_t *pClient )
+ {
+         int iAvailableEngines = -1;
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET AVAILABLE_ENGINES\r\n", 0) == LSCP_OK)
+                 iAvailableEngines = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iAvailableEngines;
+ }
+ /**
+  *  Getting all available engines:
+  *  LIST AVAILABLE_ENGINES
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
   *  @returns A NULL terminated array of engine name strings,
   *  or NULL in case of failure.
   */
- const char **lscp_get_available_engines ( lscp_client_t *pClient )
+ const char **lscp_list_available_engines ( lscp_client_t *pClient )
  {
-     const char *pszSeps = ",";
+         const char *pszSeps = ",";
+         if (pClient == NULL)
+                 return NULL;
-     if (pClient->engines) {
+         // Lock this section up.
-         lscp_szsplit_destroy(pClient->engines);
+         lscp_mutex_lock(pClient->mutex);
-         pClient->engines = NULL;
-     }
-     if (lscp_client_query(pClient, "GET AVAILABLE_ENGINES\r\n") == LSCP_OK)
+         if (pClient->engines) {
-         pClient->engines = lscp_szsplit_create(lscp_client_get_result(pClient), pszSeps);
+                 lscp_szsplit_destroy(pClient->engines);
+                 pClient->engines = NULL;
+         }
-     return (const char **) pClient->engines;
+         if (lscp_client_call(pClient, "LIST AVAILABLE_ENGINES\r\n", 0) == LSCP_OK)
+                 pClient->engines = lscp_szsplit_create(lscp_client_get_result(pClient), pszSeps);
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return (const char **) pClient->engines;
  }
-Line 804 
 const char **lscp_get_available_engines
+Line 1046 
 const char **lscp_get_available_engines
   */
  lscp_engine_info_t *lscp_get_engine_info ( lscp_client_t *pClient, const char *pszEngineName )
  {
-     lscp_engine_info_t *pEngineInfo;
+         lscp_engine_info_t *pEngineInfo;
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     const char *pszResult;
+         const char *pszResult;
-     const char *pszSeps = ":";
+         const char *pszSeps = ":";
-     const char *pszCrlf = "\r\n";
+         const char *pszCrlf = "\r\n";
-     char *pszToken;
+         char *pszToken;
-     char *pch;
+         char *pch;
-     if (pszEngineName == NULL)
+         if (pClient == NULL)
-         return NULL;
+                 return NULL;
+         if (pszEngineName == NULL)
-     pEngineInfo = &(pClient->engine_info);
+                 return NULL;
-     lscp_engine_info_reset(pEngineInfo);
+         // Lock this section up.
-     sprintf(szQuery, "GET ENGINE INFO %s\r\n", pszEngineName);
+         lscp_mutex_lock(pClient->mutex);
-     if (lscp_client_query(pClient, szQuery) != LSCP_OK)
-         return NULL;
+         pEngineInfo = &(pClient->engine_info);
+         lscp_engine_info_reset(pEngineInfo);
-     pszResult = lscp_client_get_result(pClient);
-     pszToken = lscp_strtok(pszResult, pszSeps, &(pch));
+         sprintf(szQuery, "GET ENGINE INFO %s\r\n", pszEngineName);
-     while (pszToken) {
+         if (lscp_client_call(pClient, szQuery, 1) == LSCP_OK) {
-         if (strcasecmp(pszToken, "DESCRIPTION") == 0) {
+                 pszResult = lscp_client_get_result(pClient);
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
-             if (pszToken)
+                 while (pszToken) {
-                 pEngineInfo->description = lscp_unquote(&pszToken, 1);
+                         if (strcasecmp(pszToken, "DESCRIPTION") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         else if (strcasecmp(pszToken, "VERSION") == 0) {
+                                 if (pszToken)
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                         lscp_unquote_dup(&(pEngineInfo->description), &pszToken);
-             if (pszToken)
+                         }
-                 pEngineInfo->version = lscp_unquote(&pszToken, 1);
+                         else if (strcasecmp(pszToken, "VERSION") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                                 if (pszToken)
-     }
+                                         lscp_unquote_dup(&(pEngineInfo->version), &pszToken);
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         else pEngineInfo = NULL;
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
-     return pEngineInfo;
+         return pEngineInfo;
  }
-Line 854 
 lscp_engine_info_t *lscp_get_engine_info
+Line 1104 
 lscp_engine_info_t *lscp_get_engine_info
   */
  lscp_channel_info_t *lscp_get_channel_info ( lscp_client_t *pClient, int iSamplerChannel )
  {
-     lscp_channel_info_t *pChannelInfo;
+         lscp_channel_info_t *pChannelInfo;
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     const char *pszResult;
+         const char *pszResult;
-     const char *pszSeps = ":";
+         const char *pszSeps = ":";
-     const char *pszCrlf = "\r\n";
+         const char *pszCrlf = "\r\n";
-     char *pszToken;
+         char *pszToken;
-     char *pch;
+         char *pch;
-     if (iSamplerChannel < 0)
+         if (pClient == NULL)
-         return NULL;
+                 return NULL;
+         if (iSamplerChannel < 0)
-     pChannelInfo = &(pClient->channel_info);
+                 return NULL;
-     lscp_channel_info_reset(pChannelInfo);
+         // Lock this section up.
-     sprintf(szQuery, "GET CHANNEL INFO %d\r\n", iSamplerChannel);
+         lscp_mutex_lock(pClient->mutex);
-     if (lscp_client_query(pClient, szQuery) != LSCP_OK)
-         return NULL;
+         pChannelInfo = &(pClient->channel_info);
+         lscp_channel_info_reset(pChannelInfo);
-     pszResult = lscp_client_get_result(pClient);
-     pszToken = lscp_strtok(pszResult, pszSeps, &(pch));
+         sprintf(szQuery, "GET CHANNEL INFO %d\r\n", iSamplerChannel);
-     while (pszToken) {
+         if (lscp_client_call(pClient, szQuery, 1) == LSCP_OK) {
-         if (strcasecmp(pszToken, "ENGINE_NAME") == 0) {
+                 pszResult = lscp_client_get_result(pClient);
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
-             if (pszToken)
+                 while (pszToken) {
-                 pChannelInfo->engine_name = lscp_unquote(&pszToken, 1);
+                         if (strcasecmp(pszToken, "ENGINE_NAME") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_DEVICE") == 0) {
+                                 if (pszToken)
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                         lscp_unquote_dup(&(pChannelInfo->engine_name), &pszToken);
-             if (pszToken)
+                         }
-                 pChannelInfo->audio_device = atoi(lscp_ltrim(pszToken));
+                         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_DEVICE") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_CHANNELS") == 0) {
+                                 if (pszToken)
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                         pChannelInfo->audio_device = atoi(lscp_ltrim(pszToken));
-             if (pszToken)
+                         }
-                 pChannelInfo->audio_channels = atoi(lscp_ltrim(pszToken));
+                         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_CHANNELS") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_ROUTING") == 0) {
+                                 if (pszToken)
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                         pChannelInfo->audio_channels = atoi(lscp_ltrim(pszToken));
-             if (pszToken)
+                         }
-                 pChannelInfo->audio_routing = lscp_szsplit_create(pszToken, ",");
+                         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_ROUTING") == 0) {
-         }
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-         else if (strcasecmp(pszToken, "INSTRUMENT_FILE") == 0) {
+                                 if (pszToken) {
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                         if (pChannelInfo->audio_routing)
-             if (pszToken)
+                                                 lscp_isplit_destroy(pChannelInfo->audio_routing);
-                 pChannelInfo->instrument_file = lscp_unquote(&pszToken, 1);
+                                         pChannelInfo->audio_routing = lscp_isplit_create(pszToken, ",");
-         }
+                                 }
-         else if (strcasecmp(pszToken, "INSTRUMENT_NR") == 0) {
+                         }
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                         else if (strcasecmp(pszToken, "INSTRUMENT_FILE") == 0) {
-             if (pszToken)
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-                 pChannelInfo->instrument_nr = atoi(lscp_ltrim(pszToken));
+                                 if (pszToken)
-         }
+                                         lscp_unquote_dup(&(pChannelInfo->instrument_file), &pszToken);
-         else if (strcasecmp(pszToken, "MIDI_INPUT_DEVICE") == 0) {
+                         }
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                         else if (strcasecmp(pszToken, "INSTRUMENT_NR") == 0) {
-             if (pszToken)
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-                 pChannelInfo->midi_device = atoi(lscp_ltrim(pszToken));
+                                 if (pszToken)
-         }
+                                         pChannelInfo->instrument_nr = atoi(lscp_ltrim(pszToken));
-         else if (strcasecmp(pszToken, "MIDI_INPUT_PORT") == 0) {
+                         }
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                         else if (strcasecmp(pszToken, "INSTRUMENT_NAME") == 0) {
-             if (pszToken)
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-                 pChannelInfo->midi_port = atoi(lscp_ltrim(pszToken));
+                                 if (pszToken)
-         }
+                                         lscp_unquote_dup(&(pChannelInfo->instrument_name), &pszToken);
-         else if (strcasecmp(pszToken, "MIDI_INPUT_CHANNEL") == 0) {
+                         }
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                         else if (strcasecmp(pszToken, "INSTRUMENT_STATUS") == 0) {
-             if (pszToken)
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-                 pChannelInfo->midi_channel = atoi(lscp_ltrim(pszToken));
+                                 if (pszToken)
-         }
+                                         pChannelInfo->instrument_status = atoi(lscp_ltrim(pszToken));
-         else if (strcasecmp(pszToken, "VOLUME") == 0) {
+                         }
-             pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                         else if (strcasecmp(pszToken, "MIDI_INPUT_DEVICE") == 0) {
-             if (pszToken)
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
-                 pChannelInfo->volume = (float) atof(lscp_ltrim(pszToken));
+                                 if (pszToken)
-         }
+                                         pChannelInfo->midi_device = atoi(lscp_ltrim(pszToken));
-         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                         }
-     }
+                         else if (strcasecmp(pszToken, "MIDI_INPUT_PORT") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pChannelInfo->midi_port = atoi(lscp_ltrim(pszToken));
+                         }
+                         else if (strcasecmp(pszToken, "MIDI_INPUT_CHANNEL") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken) {
+                                         pszToken = lscp_ltrim(pszToken);
+                                         if (strcasecmp(pszToken, "ALL") == 0)
+                                                 pChannelInfo->midi_channel = LSCP_MIDI_CHANNEL_ALL;
+                                         else
+                                                 pChannelInfo->midi_channel = atoi(pszToken);
+                                 }
+                         }
+                         else if (strcasecmp(pszToken, "MIDI_INSTRUMENT_MAP") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken) {
+                                         pszToken = lscp_ltrim(pszToken);
+                                         if (strcasecmp(pszToken, "NONE") == 0)
+                                                 pChannelInfo->midi_map = LSCP_MIDI_MAP_NONE;
+                                         else
+                                         if (strcasecmp(pszToken, "DEFAULT") == 0)
+                                                 pChannelInfo->midi_map = LSCP_MIDI_MAP_DEFAULT;
+                                         else
+                                                 pChannelInfo->midi_map = atoi(pszToken);
+                                 }
+                         }
+                         else if (strcasecmp(pszToken, "VOLUME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pChannelInfo->volume = (float) atof(lscp_ltrim(pszToken));
+                         }
+                         else if (strcasecmp(pszToken, "MUTE") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pChannelInfo->mute = (strcasecmp(lscp_unquote(&pszToken, 0), "TRUE") == 0);
+                         }
+                         else if (strcasecmp(pszToken, "SOLO") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pChannelInfo->solo = (strcasecmp(lscp_unquote(&pszToken, 0), "TRUE") == 0);
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         else pChannelInfo = NULL;
-     return pChannelInfo;
+         // Unlock this section up.
+         lscp_mutex_unlock(pClient->mutex);
+         return pChannelInfo;
  }
-Line 943 
 lscp_channel_info_t *lscp_get_channel_in
+Line 1242 
 lscp_channel_info_t *lscp_get_channel_in
   */
  int lscp_get_channel_voice_count ( lscp_client_t *pClient, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     int iVoiceCount = -1;
+         int iVoiceCount = -1;
+         if (pClient == NULL)
+                 return -1;
+         if (iSamplerChannel < 0)
+                 return -1;
-     if (iSamplerChannel < 0)
+         // Lock this section up.
-         return iVoiceCount;
+         lscp_mutex_lock(pClient->mutex);
-     sprintf(szQuery, "GET CHANNEL VOICE_COUNT %d\r\n", iSamplerChannel);
+         sprintf(szQuery, "GET CHANNEL VOICE_COUNT %d\r\n", iSamplerChannel);
-     if (lscp_client_query(pClient, szQuery) == LSCP_OK)
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
-         iVoiceCount = atoi(lscp_client_get_result(pClient));
+                 iVoiceCount = atoi(lscp_client_get_result(pClient));
-     return iVoiceCount;
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iVoiceCount;
  }
-Line 961 
 int lscp_get_channel_voice_count ( lscp_
+Line 1268 
 int lscp_get_channel_voice_count ( lscp_
   *  Current number of active disk streams:
   *  GET CHANNEL STREAM_COUNT <sampler-channel>
   *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *
   *  @returns The number of active disk streams on success, -1 otherwise.
   */
  int lscp_get_channel_stream_count ( lscp_client_t *pClient, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     int iStreamCount = -1;
+         int iStreamCount = -1;
-     if (iSamplerChannel < 0)
+         if (pClient == NULL)
-         return iStreamCount;
+                 return -1;
+         if (iSamplerChannel < 0)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         sprintf(szQuery, "GET CHANNEL STREAM_COUNT %d\r\n", iSamplerChannel);
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 iStreamCount = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iStreamCount;
+ }
+ /**
+  *  Current least usage of active disk streams.
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *
+  *  @returns The usage percentage of the least filled active disk stream
+  *  on success, -1 otherwise.
+  */
+ int lscp_get_channel_stream_usage ( lscp_client_t *pClient, int iSamplerChannel )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         int  iStreamUsage = -1;
+         const char *pszResult;
+         const char *pszSeps = "[]%,";
+         char *pszToken;
+         char *pch;
+         int   iStream;
+         int   iPercent;
+         if (pClient == NULL)
+                 return -1;
+         if (iSamplerChannel < 0)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         iStream = 0;
+         sprintf(szQuery, "GET CHANNEL BUFFER_FILL PERCENTAGE %d\r\n", iSamplerChannel);
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK) {
+                 pszResult = lscp_client_get_result(pClient);
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
+                 while (pszToken) {
+                         if (*pszToken) {
+                                 // Skip stream id.
+                                 pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                                 if (pszToken == NULL)
+                                         break;
+                                 // Get least buffer fill percentage.
+                                 iPercent = atol(pszToken);
+                                 if (iStreamUsage > iPercent || iStream == 0)
+                                         iStreamUsage = iPercent;
+                                 iStream++;
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
-     sprintf(szQuery, "GET CHANNEL STREAM_COUNT %d\r\n", iSamplerChannel);
+         // Unlock this section down.
-     if (lscp_client_query(pClient, szQuery) == LSCP_OK)
+         lscp_mutex_unlock(pClient->mutex);
-         iStreamCount = atoi(lscp_client_get_result(pClient));
-     return iStreamCount;
+         return iStreamUsage;
  }
-Line 995 
 int lscp_get_channel_stream_count ( lscp
+Line 1369 
 int lscp_get_channel_stream_count ( lscp
   */
  lscp_buffer_fill_t *lscp_get_channel_buffer_fill ( lscp_client_t *pClient, lscp_usage_t usage_type, int iSamplerChannel )
  {
-     lscp_buffer_fill_t *pBufferFill;
+         lscp_buffer_fill_t *pBufferFill;
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     int iStreamCount;
+         int iStreamCount;
-     const char *pszUsageType = (usage_type == LSCP_USAGE_BYTES ? "BYTES" : "PERCENTAGE");
+         const char *pszUsageType = (usage_type == LSCP_USAGE_BYTES ? "BYTES" : "PERCENTAGE");
-     const char *pszResult;
+         const char *pszResult;
-     const char *pszSeps = "[]%,";
+         const char *pszSeps = "[]%,";
-     char *pszToken;
+         char *pszToken;
-     char *pch;
+         char *pch;
-     int   iStream;
+         int   iStream;
-     iStreamCount = lscp_get_channel_stream_count(pClient, iSamplerChannel);
+         // Retrieve a channel stream estimation.
-     if (pClient->iStreamCount != iStreamCount) {
+         iStreamCount = lscp_get_channel_stream_count(pClient, iSamplerChannel);
-         if (pClient->buffer_fill)
+         if (iStreamCount < 0)
-             free(pClient->buffer_fill);
+                 return NULL;
-         if (iStreamCount > 0)
-             pClient->buffer_fill = (lscp_buffer_fill_t *) malloc(iStreamCount * sizeof(lscp_buffer_fill_t));
+         // Lock this section up.
-         else
+         lscp_mutex_lock(pClient->mutex);
-             pClient->buffer_fill = NULL;
-         pClient->iStreamCount = iStreamCount;
+         // Check if we need to reallocate the stream usage array.
-     }
+         if (pClient->iStreamCount != iStreamCount) {
+                 if (pClient->buffer_fill)
-     if (pClient->iStreamCount < 1)
+                         free(pClient->buffer_fill);
-         return NULL;
+                 if (iStreamCount > 0)
+                         pClient->buffer_fill = (lscp_buffer_fill_t *) malloc(iStreamCount * sizeof(lscp_buffer_fill_t));
-     iStream = 0;
+                 else
-     pBufferFill = pClient->buffer_fill;
+                         pClient->buffer_fill = NULL;
+                 pClient->iStreamCount = iStreamCount;
-     // Get buffer fill usage...
+         }
-     sprintf(szQuery, "GET CHANNEL BUFFER_FILL %s %d\r\n", pszUsageType, iSamplerChannel);
-     if (lscp_client_query(pClient, szQuery) == LSCP_OK) {
+         // Get buffer fill usage...
-         pszResult = lscp_client_get_result(pClient);
+         pBufferFill = pClient->buffer_fill;
-         pszToken = lscp_strtok(pszResult, pszSeps, &(pch));
+         if (pBufferFill && iStreamCount > 0) {
-         while (pszToken && iStream < pClient->iStreamCount) {
+                 iStream = 0;
-             if (*pszToken) {
+                 pBufferFill = pClient->buffer_fill;
-                 pBufferFill[iStream].stream_id = atol(pszToken);
+                 sprintf(szQuery, "GET CHANNEL BUFFER_FILL %s %d\r\n", pszUsageType, iSamplerChannel);
-                 pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK) {
-                 if (pszToken == NULL)
+                         pszResult = lscp_client_get_result(pClient);
-                     break;
+                         pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
-                 pBufferFill[iStream].stream_usage = atol(pszToken);
+                         while (pszToken && iStream < pClient->iStreamCount) {
-                 iStream++;
+                                 if (*pszToken) {
-             }
+                                         pBufferFill[iStream].stream_id = atol(pszToken);
-             pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
-         }
+                                         if (pszToken == NULL)
-     }   // Reset the usage, whatever it was before.
+                                                 break;
-     else while (iStream < pClient->iStreamCount)
+                                         pBufferFill[iStream].stream_usage = atol(pszToken);
-         pBufferFill[iStream++].stream_usage = 0;
+                                         iStream++;
+                                 }
+                                 pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                         }
+                 }   // Reset the usage, whatever it was before.
+                 else while (iStream < pClient->iStreamCount)
+                         pBufferFill[iStream++].stream_usage = 0;
+         }
-     return pBufferFill;
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pBufferFill;
  }
-Line 1053 
 lscp_buffer_fill_t *lscp_get_channel_buf
+Line 1437 
 lscp_buffer_fill_t *lscp_get_channel_buf
   *  @param pClient          Pointer to client instance structure.
   *  @param iSamplerChannel  Sampler channel number.
   *  @param pszAudioDriver   Audio output driver type (e.g. "ALSA" or "JACK").
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
   */
  lscp_status_t lscp_set_channel_audio_type ( lscp_client_t *pClient, int iSamplerChannel, const char *pszAudioDriver )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || pszAudioDriver == NULL)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET CHANNEL AUDIO_OUTPUT_TYPE %d %s\r\n", iSamplerChannel, pszAudioDriver);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Setting audio output device:
+  *  SET CHANNEL AUDIO_OUTPUT_DEVICE <sampler-channel> <device-id>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iAudioDevice     Audio output device number identifier.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_channel_audio_device ( lscp_client_t *pClient, int iSamplerChannel, int iAudioDevice )
+ {
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || pszAudioDriver == NULL)
+         if (iSamplerChannel < 0 || iAudioDevice < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SET CHANNEL AUDIO_OUTPUT_TYPE %d %s\r\n", iSamplerChannel, pszAudioDriver);
+         sprintf(szQuery, "SET CHANNEL AUDIO_OUTPUT_DEVICE %d %d\r\n", iSamplerChannel, iAudioDevice);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1079 
 lscp_status_t lscp_set_channel_audio_typ
+Line 1487 
 lscp_status_t lscp_set_channel_audio_typ
   */
  lscp_status_t lscp_set_channel_audio_channel ( lscp_client_t *pClient, int iSamplerChannel, int iAudioOut, int iAudioIn )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || iAudioOut < 0 || iAudioIn < 0)
+         if (iSamplerChannel < 0 || iAudioOut < 0 || iAudioIn < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SET CHANNEL AUDIO_OUTPUT_CHANNELS %d %d %d\r\n", iSamplerChannel, iAudioOut, iAudioIn);
+         sprintf(szQuery, "SET CHANNEL AUDIO_OUTPUT_CHANNEL %d %d %d\r\n", iSamplerChannel, iAudioOut, iAudioIn);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1101 
 lscp_status_t lscp_set_channel_audio_cha
+Line 1509 
 lscp_status_t lscp_set_channel_audio_cha
   */
  lscp_status_t lscp_set_channel_midi_type ( lscp_client_t *pClient, int iSamplerChannel, const char *pszMidiDriver )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || pszMidiDriver == NULL)
+         if (iSamplerChannel < 0 || pszMidiDriver == NULL)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SET CHANNEL MIDI_INPUT_TYPE %d %s\r\n", iSamplerChannel, pszMidiDriver);
+         sprintf(szQuery, "SET CHANNEL MIDI_INPUT_TYPE %d %s\r\n", iSamplerChannel, pszMidiDriver);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Setting MIDI input device:
+  *  SET CHANNEL MIDI_INPUT_DEVICE <sampler-channel> <device-id>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iMidiDevice      MIDI input device number identifier.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_channel_midi_device ( lscp_client_t *pClient, int iSamplerChannel, int iMidiDevice )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iMidiDevice < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET CHANNEL MIDI_INPUT_DEVICE %d %d\r\n", iSamplerChannel, iMidiDevice);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1123 
 lscp_status_t lscp_set_channel_midi_type
+Line 1553 
 lscp_status_t lscp_set_channel_midi_type
   */
  lscp_status_t lscp_set_channel_midi_port ( lscp_client_t *pClient, int iSamplerChannel, int iMidiPort )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || iMidiPort < 0)
+         if (iSamplerChannel < 0 || iMidiPort < 0)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SET CHANNEL MIDI_INPUT_PORT %d %d\r\n", iSamplerChannel, iMidiPort);
+         sprintf(szQuery, "SET CHANNEL MIDI_INPUT_PORT %d %d\r\n", iSamplerChannel, iMidiPort);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1139 
 lscp_status_t lscp_set_channel_midi_port
+Line 1569 
 lscp_status_t lscp_set_channel_midi_port
   *
   *  @param pClient          Pointer to client instance structure.
   *  @param iSamplerChannel  Sampler channel number.
-  *  @param iMidiChannel     MIDI channel number to listen (1-16) or
+  *  @param iMidiChannel     MIDI channel address number to listen (0-15) or
-  *                          zero (0) to listen on all channels.
+  *                          @ref LSCP_MIDI_CHANNEL_ALL (16) to listen on all channels.
   *
   *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
   */
  lscp_status_t lscp_set_channel_midi_channel ( lscp_client_t *pClient, int iSamplerChannel, int iMidiChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || iMidiChannel < 0 || iMidiChannel > 16)
+         if (iSamplerChannel < 0 || iMidiChannel < 0 || iMidiChannel > 16)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     if (iMidiChannel > 0)
+         if (iMidiChannel == LSCP_MIDI_CHANNEL_ALL)
-         sprintf(szQuery, "SET CHANNEL MIDI_INPUT_CHANNEL %d %d\r\n", iSamplerChannel, iMidiChannel);
+                 sprintf(szQuery, "SET CHANNEL MIDI_INPUT_CHANNEL %d ALL\r\n", iSamplerChannel);
-     else
+         else
-         sprintf(szQuery, "SET CHANNEL MIDI_INPUT_CHANNEL %d ALL\r\n", iSamplerChannel);
+                 sprintf(szQuery, "SET CHANNEL MIDI_INPUT_CHANNEL %d %d\r\n", iSamplerChannel, iMidiChannel);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Setting MIDI instrument map:
+  *  SET CHANNEL MIDI_INSTRUMENT_MAP <sampler-channel> <midi-map>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iMidiMap         MIDI instrument map number, or either
+  *                          @ref LSCP_MIDI_MAP_NONE or
+  *                          @ref LSCP_MIDI_MAP_DEFAULT .
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_channel_midi_map ( lscp_client_t *pClient, int iSamplerChannel, int iMidiMap )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET CHANNEL MIDI_INSTRUMENT_MAP %d ", iSamplerChannel);
+         if (iMidiMap == LSCP_MIDI_MAP_NONE)
+                 strcat(szQuery , "NONE");
+         else
+         if (iMidiMap == LSCP_MIDI_MAP_DEFAULT)
+                 strcat(szQuery , "DEFAULT");
+         else
+                 sprintf(szQuery + strlen(szQuery), "%d", iMidiMap);
+         strcat(szQuery, "\r\n");
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1173 
 lscp_status_t lscp_set_channel_midi_chan
+Line 1637 
 lscp_status_t lscp_set_channel_midi_chan
   */
  lscp_status_t lscp_set_channel_volume ( lscp_client_t *pClient, int iSamplerChannel, float fVolume )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
-     if (iSamplerChannel < 0 || fVolume < 0.0)
+         if (iSamplerChannel < 0 || fVolume < 0.0f)
-         return LSCP_FAILED;
+                 return LSCP_FAILED;
-     sprintf(szQuery, "SET CHANNEL VOLUME %d %g\r\n", iSamplerChannel, fVolume);
+         sprintf(szQuery, "SET CHANNEL VOLUME %d %g\r\n", iSamplerChannel, fVolume);
-     return lscp_client_query(pClient, szQuery);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Muting a sampler channel:
+  *  SET CHANNEL MUTE <sampler-channel> <mute>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iMute            Sampler channel mute state as a boolean value,
+  *                          either 1 (one) to mute the channel or 0 (zero)
+  *                          to unmute the channel.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_channel_mute ( lscp_client_t *pClient, int iSamplerChannel, int iMute )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iMute < 0 || iMute > 1)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET CHANNEL MUTE %d %d\r\n", iSamplerChannel, iMute);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Soloing a sampler channel:
+  *  SET CHANNEL SOLO <sampler-channel> <solo>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iSolo            Sampler channel solo state as a boolean value,
+  *                          either 1 (one) to solo the channel or 0 (zero)
+  *                          to unsolo the channel.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_channel_solo ( lscp_client_t *pClient, int iSamplerChannel, int iSolo )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iSolo < 0 || iSolo > 1)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET CHANNEL SOLO %d %d\r\n", iSamplerChannel, iSolo);
+         return lscp_client_query(pClient, szQuery);
  }
-Line 1194 
 lscp_status_t lscp_set_channel_volume (
+Line 1706 
 lscp_status_t lscp_set_channel_volume (
   */
  lscp_status_t lscp_reset_channel ( lscp_client_t *pClient, int iSamplerChannel )
  {
-     char szQuery[LSCP_BUFSIZ];
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "RESET CHANNEL %d\r\n", iSamplerChannel);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Resetting the sampler:
+  *  RESET
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_reset_sampler ( lscp_client_t *pClient )
+ {
+         // Do actual whole sampler reset...
+         return lscp_client_query(pClient, "RESET\r\n");
+ }
+ /**
+  *  Getting information about the server.
+  *  GET SERVER INFO
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns A pointer to a @ref lscp_server_info_t structure, with all the
+  *  information of the current connected server, or NULL in case of failure.
+  */
+ lscp_server_info_t *lscp_get_server_info ( lscp_client_t *pClient )
+ {
+         lscp_server_info_t *pServerInfo;
+         const char *pszResult;
+         const char *pszSeps = ":";
+         const char *pszCrlf = "\r\n";
+         char *pszToken;
+         char *pch;
+         if (pClient == NULL)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         pServerInfo = &(pClient->server_info);
+         lscp_server_info_reset(pServerInfo);
+         if (lscp_client_call(pClient, "GET SERVER INFO\r\n", 1) == LSCP_OK) {
+                 pszResult = lscp_client_get_result(pClient);
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
+                 while (pszToken) {
+                         if (strcasecmp(pszToken, "DESCRIPTION") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pServerInfo->description), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "VERSION") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pServerInfo->version), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "PROTOCOL_VERSION") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pServerInfo->protocol_version), &pszToken);
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         else pServerInfo = NULL;
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pServerInfo;
+ }
+ /**
+  *  Current total number of active voices:
+  *  GET TOTAL_VOICE_COUNT
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns The total number of voices currently active,
+  *  -1 in case of failure.
+  */
+ int lscp_get_total_voice_count ( lscp_client_t *pClient )
+ {
+         int iVoiceCount = -1;
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET TOTAL_VOICE_COUNT\r\n", 0) == LSCP_OK)
+                 iVoiceCount = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iVoiceCount;
+ }
+ /**
+  *  Maximum amount of active voices:
+  *  GET TOTAL_VOICE_COUNT_MAX
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns The maximum amount of voices currently active,
+  *  -1 in case of failure.
+  */
+ int lscp_get_total_voice_count_max ( lscp_client_t *pClient )
+ {
+         int iVoiceCount = -1;
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET TOTAL_VOICE_COUNT_MAX\r\n", 0) == LSCP_OK)
+                 iVoiceCount = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iVoiceCount;
+ }
+ /**
+  *  Get global volume attenuation:
+  *  GET VOLUME
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns The global volume as positive floating point value usually in
+  *  the range between 0.0 and 1.0; in case of failure 0.0 is returned.
+  */
+ float lscp_get_volume ( lscp_client_t *pClient )
+ {
+         float fVolume = 0.0f;
+         if (pClient == NULL)
+                 return 0.0f;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET VOLUME\r\n", 0) == LSCP_OK)
+                 fVolume = (float) atof(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return fVolume;
+ }
+ /**
+  *  Setting global volume attenuation:
+  *  SET VOLUME <volume>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param fVolume  Global volume parameter as positive floating point
+  *                  value usually be in the range between 0.0 and 1.0,
+  *                  that is for attenuating the overall volume.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_volume ( lscp_client_t *pClient, float fVolume )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (fVolume < 0.0f)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET VOLUME %g\r\n", fVolume);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Add an effect send to a sampler channel:
+  *  CREATE FX_SEND <sampler-channel> <midi-ctrl> [<name>]
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iMidiController  MIDI controller used to alter the effect,
+  *                          usually a number between 0 and 127.
+  *  @param pszName          Optional name for the effect send entity,
+  *                          does not have to be unique.
+  *
+  *  @returns The new effect send number identifier, or -1 in case of failure.
+  */
+ int lscp_create_fxsend ( lscp_client_t *pClient, int iSamplerChannel, int iMidiController, const char *pszFxName )
+ {
+         int iFxSend = -1;
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return -1;
+         if (iSamplerChannel < 0 || iMidiController < 0 || iMidiController > 127)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         sprintf(szQuery, "CREATE FX_SEND %d %d", iSamplerChannel, iMidiController);
+         if (pszFxName)
+                 sprintf(szQuery + strlen(szQuery), " '%s'", pszFxName);
+         strcat(szQuery, "\r\n");
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 iFxSend = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iFxSend;
+ }
+ /**
+  *  Remove an effect send from a sampler channel:
+  *  DESTROY FX_SEND <sampler-channel> <fx-send-id>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_destroy_fxsend ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iFxSend < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "DESTROY FX_SEND %d %d\r\n", iSamplerChannel, iFxSend);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Get amount of effect sends on a sampler channel:
+  *  GET FX_SENDS <sampler-channel>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *
+  *  @returns The current total number of effect sends of the sampler channel
+  *  on success, -1 otherwise.
+  */
+ int lscp_get_fxsends ( lscp_client_t *pClient, int iSamplerChannel )
+ {
+         int iFxSends = -1;
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return -1;
+         if (iSamplerChannel < 0)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         sprintf(szQuery, "GET FX_SENDS %d\r\n", iSamplerChannel);
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 iFxSends = atoi(lscp_client_get_result(pClient));
+         // Unlock this section doen.
+         lscp_mutex_unlock(pClient->mutex);
+         return iFxSends;
+ }
+ /**
+  *  List all effect sends on a sampler channel:
+  *  LIST FX_SENDS <sampler-channel>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *
+  *  @returns An array of the effect sends identifiers as positive integers,
+  *  terminated with -1 on success, NULL otherwise.
+  */
+ int *lscp_list_fxsends ( lscp_client_t *pClient, int iSamplerChannel )
+ {
+         const char *pszSeps = ",";
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (pClient->fxsends) {
+                 lscp_isplit_destroy(pClient->fxsends);
+                 pClient->fxsends = NULL;
+         }
+         sprintf(szQuery, "LIST FX_SENDS %d\r\n", iSamplerChannel);
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 pClient->fxsends = lscp_isplit_create(lscp_client_get_result(pClient), pszSeps);
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pClient->fxsends;
+ }
+ /**
+  *  Getting effect send information
+  *  GET FX_SEND INFO <sampler-channel> <fx-send-id>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *
+  *  @returns A pointer to a @ref lscp_fxsend_info_t structure, with the
+  *  information of the given FX send, or NULL in case of failure.
+  */
+ lscp_fxsend_info_t *lscp_get_fxsend_info ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend )
+ {
+         lscp_fxsend_info_t *pFxSendInfo;
+         char szQuery[LSCP_BUFSIZ];
+         const char *pszResult;
+         const char *pszSeps = ":";
+         const char *pszCrlf = "\r\n";
+         char *pszToken;
+         char *pch;
+         if (pClient == NULL)
+                 return NULL;
+         if (iSamplerChannel < 0 || iFxSend < 0)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         pFxSendInfo = &(pClient->fxsend_info);
+         lscp_fxsend_info_reset(pFxSendInfo);
+         sprintf(szQuery, "GET FX_SEND INFO %d %d\r\n", iSamplerChannel, iFxSend);
+         if (lscp_client_call(pClient, szQuery, 1) == LSCP_OK) {
+                 pszResult = lscp_client_get_result(pClient);
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
+                 while (pszToken) {
+                         if (strcasecmp(pszToken, "NAME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pFxSendInfo->name), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "MIDI_CONTROLLER") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pFxSendInfo->midi_controller = atoi(lscp_ltrim(pszToken));
+                         }
+                         else if (strcasecmp(pszToken, "AUDIO_OUTPUT_ROUTING") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken) {
+                                         if (pFxSendInfo->audio_routing)
+                                                 lscp_isplit_destroy(pFxSendInfo->audio_routing);
+                                         pFxSendInfo->audio_routing = lscp_isplit_create(pszToken, ",");
+                                 }
+                         }
+                         else if (strcasecmp(pszToken, "LEVEL") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pFxSendInfo->level = (float) atof(lscp_ltrim(pszToken));
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         else pFxSendInfo = NULL;
+         // Unlock this section up.
+         lscp_mutex_unlock(pClient->mutex);
+         return pFxSendInfo;
+ }
+ /**
+  *  Alter effect send's name:
+  *  @code
+  *  SET FX_SEND NAME <sampler-chan> <fx-send-id> <name>
+  *  @endcode
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *  @param pszFxName        Effect send's new name.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_fxsend_name ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend, const char *pszFxName )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (!pClient || iSamplerChannel < 0 || iFxSend < 0 || !pszFxName)
+                 return LSCP_FAILED;
+         snprintf(szQuery, LSCP_BUFSIZ, "SET FX_SEND NAME %d %d '%s'\r\n", iSamplerChannel, iFxSend, pszFxName);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Alter effect send's audio routing:
+  *  SET FX_SEND AUDIO_OUTPUT_CHANNEL <sampler-chan> <fx-send-id>
+  *    <audio-src> <audio-dst>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *  @param iAudioSrc        Audio output device channel to be routed from.
+  *  @param iAudioDst        Audio output device channel to be routed into.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_fxsend_audio_channel ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend, int iAudioSrc, int iAudioDst )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iFxSend < 0 || iAudioSrc < 0 || iAudioDst < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET FX_SEND AUDIO_OUTPUT_CHANNEL %d %d %d %d\r\n", iSamplerChannel, iFxSend, iAudioSrc, iAudioDst);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Alter effect send's MIDI controller:
+  *  SET FX_SEND MIDI_CONTROLLER <sampler-chan> <fx-send-id> <midi-ctrl>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *  @param iMidiController  MIDI controller used to alter the effect,
+  *                          usually a number between 0 and 127.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_fxsend_midi_controller ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend, int iMidiController )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iFxSend < 0 || iMidiController < 0 || iMidiController > 127)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET FX_SEND MIDI_CONTROLLER %d %d %d\r\n", iSamplerChannel, iFxSend, iMidiController);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Alter effect send's audio level:
+  *  SET FX_SEND LEVEL <sampler-chan> <fx-send-id> <level>
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param iSamplerChannel  Sampler channel number.
+  *  @param iFxSend          Effect send number.
+  *  @param fLevel           Effect send volume level.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_fxsend_level ( lscp_client_t *pClient, int iSamplerChannel, int iFxSend, float fLevel )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0 || iFxSend < 0 || fLevel < 0.0f)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET FX_SEND LEVEL %d %d %f\r\n", iSamplerChannel, iFxSend, fLevel);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Create a new MIDI instrument map:
+  *  ADD MIDI_INSTRUMENT_MAP [<name>]
+  *
+  *  @param pClient      Pointer to client instance structure.
+  *  @param pszMapName   MIDI instrument map name (optional)
+  *
+  *  @returns The new MIDI instrument map number identifier,
+  *  or -1 in case of failure.
+  */
+ int lscp_add_midi_instrument_map ( lscp_client_t *pClient, const char *pszMapName )
+ {
+         int iMidiMap = -1;
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         strcpy(szQuery, "ADD MIDI_INSTRUMENT_MAP");
+         if (pszMapName)
+                 sprintf(szQuery + strlen(szQuery), " '%s'", pszMapName);
+         strcat(szQuery, "\r\n");
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 iMidiMap = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iMidiMap;
+ }
+ /**
+  *  Delete one particular or all MIDI instrument maps:
+  *  REMOVE MIDI_INSTRUMENT_MAP <midi-map>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param iMidiMap MIDI instrument map number.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_remove_midi_instrument_map ( lscp_client_t *pClient, int iMidiMap )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iMidiMap < 0)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "REMOVE MIDI_INSTRUMENT_MAP %d\r\n", iMidiMap);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Get amount of existing MIDI instrument maps:
+  *  GET MIDI_INSTRUMENT_MAPS
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns The current total number of MIDI instrument maps
+  *  on success, -1 otherwise.
+  */
+ int lscp_get_midi_instrument_maps ( lscp_client_t *pClient )
+ {
+         int iMidiMaps = -1;
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (lscp_client_call(pClient, "GET MIDI_INSTRUMENT_MAPS\r\n", 0) == LSCP_OK)
+                 iMidiMaps = atoi(lscp_client_get_result(pClient));
+         // Unlock this section doen.
+         lscp_mutex_unlock(pClient->mutex);
+         return iMidiMaps;
+ }
+ /**
+  *  Getting all created MIDI instrument maps:
+  *  LIST MIDI_INSTRUMENT_MAPS
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *
+  *  @returns An array of the MIDI instrument map identifiers as positive
+  *  integers, terminated with -1 on success, NULL otherwise.
+  */
+ int *lscp_list_midi_instrument_maps ( lscp_client_t *pClient )
+ {
+         const char *pszSeps = ",";
+         if (pClient == NULL)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (pClient->midi_maps) {
+                 lscp_isplit_destroy(pClient->midi_maps);
+                 pClient->midi_maps = NULL;
+         }
+         if (lscp_client_call(pClient, "LIST MIDI_INSTRUMENT_MAPS\r\n", 0) == LSCP_OK)
+                 pClient->midi_maps = lscp_isplit_create(lscp_client_get_result(pClient), pszSeps);
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pClient->midi_maps;
+ }
+ /**
+  *  Getting a MIDI instrument map name:
+  *  GET MIDI_INSTRUMENT_MAP INFO <midi-map>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param iMidiMap MIDI instrument map number.
+  *
+  *  @returns The MIDI instrument map name on success, NULL on failure.
+  */
+ const char *lscp_get_midi_instrument_map_name ( lscp_client_t *pClient, int iMidiMap )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         const char *pszResult;
+         const char *pszSeps = ":";
+         const char *pszCrlf = "\r\n";
+         char *pszToken;
+         char *pch;
+         if (pClient == NULL)
+                 return NULL;
+         if (iMidiMap < 0)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (pClient->midi_map_name) {
+                 free(pClient->midi_map_name);
+                 pClient->midi_map_name = NULL;
+         }
+         sprintf(szQuery, "GET MIDI_INSTRUMENT_MAP INFO %d\r\n", iMidiMap);
+         if (lscp_client_call(pClient, szQuery, 1) == LSCP_OK) {
+                 pszResult = lscp_client_get_result(pClient);
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
+                 while (pszToken) {
+                         if (strcasecmp(pszToken, "NAME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pClient->midi_map_name), &pszToken);
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pClient->midi_map_name;
+ }
+ /**
+  *  Renaming a MIDI instrument map:
+  *  SET MIDI_INSTRUMENT_MAP NAME <midi-map> <map-name>
+  *
+  *  @param pClient      Pointer to client instance structure.
+  *  @param iMidiMap     MIDI instrument map number.
+  *  @param pszMapName   MIDI instrument map name.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_set_midi_instrument_map_name ( lscp_client_t *pClient, int iMidiMap, const char *pszMapName )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iMidiMap < 0)
+                 return LSCP_FAILED;
+         if (pszMapName == NULL)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "SET MIDI_INSTRUMENT_MAP NAME %d '%s'\r\n",
+                 iMidiMap, pszMapName);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Create or replace a MIDI instrumnet map entry:
+  *  MAP MIDI_INSTRUMENT <midi-map> <midi-bank> <midi-prog>
+  *      <engine-name> <filename> <instr-index> <volume> [<load-mode> [<name>]}
+  *
+  *  @param pClient          Pointer to client instance structure.
+  *  @param pMidiInstr       MIDI instrument bank and program parameter key.
+  *  @param pszEngineName    Engine name.
+  *  @param pszFileName      Instrument file name.
+  *  @param iInstrIndex      Instrument index number.
+  *  @param fVolume          Reflects the master volume of the instrument as
+  *                          a positive floating point number, where a value
+  *                          less than 1.0 for attenuation, and greater than
+  *                          1.0 for amplification.
+  *  @param load_mode        Instrument load life-time strategy, either
+  *                          @ref LSCP_LOAD_DEFAULT, or
+  *                          @ref LSCP_LOAD_ON_DEMAND, or
+  *                          @ref LSCP_LOAD_ON_DEMAND_HOLD, or
+  *                          @ref LSCP_LOAD_PERSISTENT.
+  *  @param pszName         Instrument custom name for the map entry (optional).
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_map_midi_instrument ( lscp_client_t *pClient, lscp_midi_instrument_t *pMidiInstr, const char *pszEngineName, const char *pszFileName, int iInstrIndex, float fVolume, lscp_load_mode_t load_mode, const char *pszName )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (pMidiInstr->map < 0)
+                 return LSCP_FAILED;
+         if (pMidiInstr->bank < 0 || pMidiInstr->bank > 16383)
+                 return LSCP_FAILED;
+         if (pMidiInstr->prog < 0 || pMidiInstr->prog > 127)
+                 return LSCP_FAILED;
+         if (pszEngineName == NULL || pszFileName == NULL)
+                 return LSCP_FAILED;
+         if (fVolume < 0.0f)
+                 fVolume = 1.0f;
+         sprintf(szQuery, "MAP MIDI_INSTRUMENT %d %d %d %s '%s' %d %g",
+                 pMidiInstr->map, pMidiInstr->bank, pMidiInstr->prog,
+                 pszEngineName, pszFileName, iInstrIndex, fVolume);
+         switch (load_mode) {
+         case LSCP_LOAD_PERSISTENT:
+                 strcat(szQuery, " PERSISTENT");
+                 break;
+         case LSCP_LOAD_ON_DEMAND_HOLD:
+                 strcat(szQuery, " ON_DEMAND_HOLD");
+                 break;
+         case LSCP_LOAD_ON_DEMAND:
+                 strcat(szQuery, " ON_DEMAND");
+                 break;
+         case LSCP_LOAD_DEFAULT:
+         default:
+                 break;
+         }
+         if (pszName)
+                 sprintf(szQuery + strlen(szQuery), " '%s'", pszName);
+         strcat(szQuery, "\r\n");
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Remove an entry from the MIDI instrument map:
+  *  UNMAP MIDI_INSTRUMENT <midi-map> <midi-bank> <midi-prog>
+  *
+  *  @param pClient      Pointer to client instance structure.
+  *  @param pMidiInstr   MIDI instrument bank and program parameter key.
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_unmap_midi_instrument ( lscp_client_t *pClient, lscp_midi_instrument_t *pMidiInstr )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (pMidiInstr->map < 0)
+                 return LSCP_FAILED;
+         if (pMidiInstr->bank < 0 || pMidiInstr->bank > 16383)
+                 return LSCP_FAILED;
+         if (pMidiInstr->prog < 0 || pMidiInstr->prog > 127)
+                 return LSCP_FAILED;
+         sprintf(szQuery, "UNMAP MIDI_INSTRUMENT %d %d %d\r\n",
+                 pMidiInstr->map, pMidiInstr->bank, pMidiInstr->prog);
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  *  Get the total count of MIDI instrument map entries:
+  *  GET MIDI_INSTRUMENTS ALL|<midi-map>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param iMidiMap MIDI instrument map number, or @ref LSCP_MIDI_MAP_ALL .
+  *
+  *  @returns The current total number of MIDI instrument map entries
+  *  on success, -1 otherwise.
+  */
+ int lscp_get_midi_instruments ( lscp_client_t *pClient, int iMidiMap )
+ {
+         int iInstruments = -1;
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return -1;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         strcpy(szQuery, "GET MIDI_INSTRUMENTS ");
+         if (iMidiMap < 0)
+                 strcat(szQuery, "ALL");
+         else
+                 sprintf(szQuery + strlen(szQuery), "%d", iMidiMap);
+         strcat(szQuery, "\r\n");
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 iInstruments = atoi(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return iInstruments;
+ }
+ /**
+  *  Getting indeces of all MIDI instrument map entries:
+  *  LIST MIDI_INSTRUMENTS ALL|<midi-map>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param iMidiMap MIDI instrument map number, or @ref LSCP_MIDI_MAP_ALL .
+  *
+  *  @returns An array of @ref lscp_midi_instrument_t, terminated with the
+  *  {-1,-1,-1} triplet, NULL otherwise.
+  */
+ lscp_midi_instrument_t *lscp_list_midi_instruments ( lscp_client_t *pClient, int iMidiMap )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (pClient == NULL)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         if (pClient->midi_instruments) {
+                 lscp_midi_instruments_destroy(pClient->midi_instruments);
+                 pClient->midi_instruments = NULL;
+         }
+         strcpy(szQuery, "LIST MIDI_INSTRUMENTS ");
+         if (iMidiMap < 0)
+                 strcat(szQuery, "ALL");
+         else
+                 sprintf(szQuery + strlen(szQuery), "%d", iMidiMap);
+         strcat(szQuery, "\r\n");
+         if (lscp_client_call(pClient, szQuery, 0) == LSCP_OK)
+                 pClient->midi_instruments = lscp_midi_instruments_create(lscp_client_get_result(pClient));
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pClient->midi_instruments;
+ }
+ /**
+  *  Getting information about a MIDI instrument map entry:
+  *  GET MIDI_INSTRUMENT INFO <midi-map> <midi-bank> <midi-prog>
+  *
+  *  @param pClient      Pointer to client instance structure.
+  *  @param pMidiInstr   MIDI instrument bank and program parameter key.
+  *
+  *  @returns A pointer to a @ref lscp_midi_instrument_info_t structure,
+  *  with all the information of the given MIDI instrument map entry,
+  *  or NULL in case of failure.
+  */
+ lscp_midi_instrument_info_t *lscp_get_midi_instrument_info ( lscp_client_t *pClient, lscp_midi_instrument_t *pMidiInstr )
+ {
+         lscp_midi_instrument_info_t *pInstrInfo;
+         char szQuery[LSCP_BUFSIZ];
+         const char *pszResult;
+         const char *pszSeps = ":";
+         const char *pszCrlf = "\r\n";
+         char *pszToken;
+         char *pch;
+         if (pClient == NULL)
+                 return NULL;
+         if (pMidiInstr->map < 0)
+                 return NULL;
+         if (pMidiInstr->bank < 0 || pMidiInstr->bank > 16383)
+                 return NULL;
+         if (pMidiInstr->prog < 0 || pMidiInstr->prog > 127)
+                 return NULL;
+         // Lock this section up.
+         lscp_mutex_lock(pClient->mutex);
+         pInstrInfo = &(pClient->midi_instrument_info);
+         lscp_midi_instrument_info_reset(pInstrInfo);
+         sprintf(szQuery, "GET MIDI_INSTRUMENT INFO %d %d %d\r\n",
+                 pMidiInstr->map, pMidiInstr->bank, pMidiInstr->prog);
+         if (lscp_client_call(pClient, szQuery, 1) == LSCP_OK) {
+                 pszResult = lscp_client_get_result(pClient);
+                 pszToken = lscp_strtok((char *) pszResult, pszSeps, &(pch));
+                 while (pszToken) {
+                         if (strcasecmp(pszToken, "NAME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pInstrInfo->name), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "ENGINE_NAME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pInstrInfo->engine_name), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "INSTRUMENT_FILE") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pInstrInfo->instrument_file), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "INSTRUMENT_NR") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pInstrInfo->instrument_nr = atoi(lscp_ltrim(pszToken));
+                         }
+                         else if (strcasecmp(pszToken, "INSTRUMENT_NAME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         lscp_unquote_dup(&(pInstrInfo->instrument_name), &pszToken);
+                         }
+                         else if (strcasecmp(pszToken, "LOAD_MODE") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken) {
+                                         pszToken = lscp_ltrim(pszToken);
+                                         if (strcasecmp(pszToken, "ON_DEMAND") == 0)
+                                                 pInstrInfo->load_mode = LSCP_LOAD_ON_DEMAND;
+                                         else
+                                         if (strcasecmp(pszToken, "ON_DEMAND_HOLD") == 0)
+                                                 pInstrInfo->load_mode = LSCP_LOAD_ON_DEMAND_HOLD;
+                                         else
+                                         if (strcasecmp(pszToken, "PERSISTENT") == 0)
+                                                 pInstrInfo->load_mode = LSCP_LOAD_PERSISTENT;
+                                         else
+                                                 pInstrInfo->load_mode = LSCP_LOAD_DEFAULT;
+                                 }
+                         }
+                         else if (strcasecmp(pszToken, "VOLUME") == 0) {
+                                 pszToken = lscp_strtok(NULL, pszCrlf, &(pch));
+                                 if (pszToken)
+                                         pInstrInfo->volume = (float) atof(lscp_ltrim(pszToken));
+                         }
+                         pszToken = lscp_strtok(NULL, pszSeps, &(pch));
+                 }
+         }
+         else pInstrInfo = NULL;
+         // Unlock this section down.
+         lscp_mutex_unlock(pClient->mutex);
+         return pInstrInfo;
+ }
+ /**
+  *  Clear the MIDI instrumnet map:
+  *  CLEAR MIDI_INSTRUMENTS ALL|<midi-map>
+  *
+  *  @param pClient  Pointer to client instance structure.
+  *  @param iMidiMap MIDI instrument map number, or @ref LSCP_MIDI_MAP_ALL .
+  *
+  *  @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_clear_midi_instruments  ( lscp_client_t *pClient, int iMidiMap )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         strcpy(szQuery, "CLEAR MIDI_INSTRUMENTS ");
+         if (iMidiMap < 0)
+                 strcat(szQuery, "ALL");
+         else
+                 sprintf(szQuery + strlen(szQuery), "%d", iMidiMap);
+         strcat(szQuery, "\r\n");
+         return lscp_client_query(pClient, szQuery);
+ }
+ /**
+  * Open an instrument editor application for the instrument
+  * on the given sampler channel:
+  * EDIT CHANNEL INSTRUMENT <sampler-channel>
+  *
+  * @param pClient         Pointer to client instance structure.
+  * @param iSamplerChannel Sampler Channel.
+  *
+  * @returns LSCP_OK on success, LSCP_FAILED otherwise.
+  */
+ lscp_status_t lscp_edit_channel_instrument ( lscp_client_t *pClient, int iSamplerChannel )
+ {
+         char szQuery[LSCP_BUFSIZ];
+         if (iSamplerChannel < 0)
+                 return LSCP_FAILED;
-     if (iSamplerChannel < 0)
+         sprintf(szQuery, "EDIT CHANNEL INSTRUMENT %d\r\n", iSamplerChannel);
-         return LSCP_FAILED;
-     sprintf(szQuery, "RESET CHANNEL %d\r\n", iSamplerChannel);
+         return lscp_client_query(pClient, szQuery);
-     return lscp_client_query(pClient, szQuery);
  }

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Added in v.1697
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Removed from v.107
 


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Added in v.1697
-Removed from v.107
+Added in v.1697

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