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|
// example_server.c
//
/****************************************************************************
Copyright (C) 2004-2005, rncbc aka Rui Nuno Capela. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*****************************************************************************/
#include "server.h"
#include "parser.h"
#include <time.h>
#define SERVER_PORT 8888
#if defined(WIN32)
static WSADATA _wsaData;
#endif
////////////////////////////////////////////////////////////////////////
lscp_status_t server_callback ( lscp_connect_t *pConnect, const char *pchBuffer, int cchBuffer, void *pvData )
{
lscp_status_t ret = LSCP_OK;
lscp_parser_t tok;
const char *pszResult = NULL;
char szTemp[256];
int i;
static int iSamplerChannel = 0;
static int iAudioDevice = 0;
static int iMidiDevice = 0;
if (pchBuffer == NULL) {
fprintf(stderr, "server_callback: addr=%s port=%d: ",
inet_ntoa(pConnect->client.addr.sin_addr),
htons(pConnect->client.addr.sin_port));
switch (cchBuffer) {
case LSCP_CONNECT_OPEN:
fprintf(stderr, "New client connection.\n");
break;
case LSCP_CONNECT_CLOSE:
fprintf(stderr, "Connection closed.\n");
break;
}
return ret;
}
lscp_socket_trace("server_callback", &(pConnect->client.addr), pchBuffer, cchBuffer);
lscp_parser_init(&tok, pchBuffer, cchBuffer);
if (lscp_parser_test(&tok, "GET")) {
if (lscp_parser_test(&tok, "CHANNEL")) {
if (lscp_parser_test(&tok, "INFO")) {
// Getting sampler channel informations:
// GET CHANNEL INFO <sampler-channel>
pszResult = "ENGINE_NAME: DummyEngine\r\n"
"INSTRUMENT_FILE: DummyInstrument.gig\r\n"
"INSTRUMENT_NR: 0\r\n"
"INSTRUMENT_NAME: Dummy Instrument\r\n"
"INSTRUMENT_STATUS: 100\r\n"
"AUDIO_OUTPUT_DEVICE: 0\r\n"
"AUDIO_OUTPUT_CHANNELS: 2\r\n"
"AUDIO_OUTPUT_ROUTING: 0,1\r\n"
"MIDI_INPUT_DEVICE: 0\r\n"
"MIDI_INPUT_PORT: 0\r\n"
"MIDI_INPUT_CHANNEL: ALL\r\n"
"VOLUME: 0.5\r\n"
"MUTE: FALSE\r\n"
"SOLO: TRUE\r\n";
}
else if (lscp_parser_test(&tok, "VOICE_COUNT")) {
// Current number of active voices:
// GET CHANNEL VOICE_COUNT <sampler-channel>
sprintf(szTemp, "%d", rand() % 100);
pszResult = szTemp;
}
else if (lscp_parser_test(&tok, "STREAM_COUNT")) {
// Current number of active disk streams:
// GET CHANNEL STREAM_COUNT <sampler-channel>
pszResult = "3\r\n";
}
else if (lscp_parser_test(&tok, "BUFFER_FILL")) {
if (lscp_parser_test(&tok, "BYTES")) {
// Current fill state of disk stream buffers:
// GET CHANNEL BUFFER_FILL BYTES <sampler-channel>
sprintf(szTemp, "[1]%d,[2]%d,[3]%d\r\n", rand(), rand(), rand());
pszResult = szTemp;
}
else if (lscp_parser_test(&tok, "PERCENTAGE")) {
// Current fill state of disk stream buffers:
// GET CHANNEL BUFFER_FILL PERCENTAGE <sampler-channel>
sprintf(szTemp, "[1]%d%%,[2]%d%%,[3]%d%%\r\n", rand() % 100, rand() % 100, rand() % 100);
pszResult = szTemp;
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "CHANNELS")) {
// Current number of sampler channels:
// GET CHANNELS
sprintf(szTemp, "%d", iSamplerChannel);
pszResult = szTemp;
}
else if (lscp_parser_test(&tok, "AVAILABLE_AUDIO_OUTPUT_DRIVERS")) {
// Getting all available audio output driver count.
// GET AVAILABLE_AUDIO_OUTPUT_DRIVERS
pszResult = "2\r\n";
}
else if (lscp_parser_test(&tok, "AVAILABLE_MIDI_INPUT_DRIVERS")) {
// Getting all available MIDI input driver count.
// GET AVAILABLE_MIDI_INPUT_DRIVERS
pszResult = "1\r\n";
}
else if (lscp_parser_test2(&tok, "AUDIO_OUTPUT_DRIVER", "INFO")) {
// Getting informations about a specific audio output driver.
// GET AUDIO_OUTPUT_DRIVER INFO <audio-output-type>
if (lscp_parser_test(&tok, "Alsa")) {
pszResult = "DESCRIPTION: 'ALSA PCM'\r\n"
"VERSION: '1.0'\r\n"
"PARAMETERS: channels,samplerate,active\r\n";
}
else if (lscp_parser_test(&tok, "Jack")) {
pszResult = "DESCRIPTION: JACK Audio Connection Kit\r\n"
"VERSION: 0.98.1\r\n"
"PARAMETERS: channels,samplerate,active\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "MIDI_INPUT_DRIVER", "INFO")) {
// Getting informations about a specific MIDI input driver.
// GET MIDI_INPUT_DRIVER INFO <midi-input-type>
if (lscp_parser_test(&tok, "Alsa")) {
pszResult = "DESCRIPTION: ALSA Sequencer\r\n"
"VERSION: 1.0\r\n"
"PARAMETERS: ports,active\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "AUDIO_OUTPUT_DRIVER_PARAMETER", "INFO")) {
// Getting informations about a specific audio output driver parameter.
// GET AUDIO_OUTPUT_DRIVER_PARAMETER INFO <audio-output-type> <param>
if (lscp_parser_test(&tok, "Alsa")) {
if (lscp_parser_test(&tok, "active")) {
pszResult = "DESCRIPTION: 'ALSA PCM active state'\r\n"
"TYPE: BOOL\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEPENDS: channels,samplerate,card\r\n"
"DEFAULT: TRUE\r\n"
"RANGE_MIN: FALSE\r\n"
"RANGE_MAX: TRUE\r\n"
"POSSIBILITIES: FALSE,TRUE\r\n";
}
else if (lscp_parser_test(&tok, "channels")) {
pszResult = "DESCRIPTION: 'Number of ALSA PCM channels'\r\n"
"TYPE: INT\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEFAULT: 2\r\n";
}
else if (lscp_parser_test(&tok, "samplerate")) {
pszResult = "DESCRIPTION: 'ALSA PCM sample rate'\r\n"
"TYPE: INT\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: TRUE\r\n"
"DEFAULT: 44100\r\n"
"POSSIBILITIES: 44100,48000,96000\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "Jack")) {
if (lscp_parser_test(&tok, "active")) {
pszResult = "DESCRIPTION: 'JACK active state'\r\n"
"TYPE: BOOL\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEPENDS: channels,samplerate\r\n"
"DEFAULT: TRUE\r\n"
"RANGE_MIN: FALSE\r\n"
"RANGE_MAX: TRUE\r\n"
"POSSIBILITIES: FALSE,TRUE\r\n";
}
else if (lscp_parser_test(&tok, "channels")) {
pszResult = "DESCRIPTION: 'Number of JACK audio channels'\r\n"
"TYPE: INT\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEFAULT: 2\r\n";
}
else if (lscp_parser_test(&tok, "samplerate")) {
pszResult = "DESCRIPTION: 'JACK sample rate'\r\n"
"TYPE: INT\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: TRUE\r\n"
"DEFAULT: 44100\r\n"
"POSSIBILITIES: 44100,48000,96000\r\n";
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "MIDI_INPUT_DRIVER_PARAMETER", "INFO")) {
// Getting informations about a specific MIDI input driver parameter.
// GET MIDI_INPUT_DRIVER_PARAMETER INFO <midi-input-type> <param>
if (lscp_parser_test(&tok, "Alsa")) {
if (lscp_parser_test(&tok, "active")) {
pszResult = "DESCRIPTION: 'ALSA Sequencer device active state'\r\n"
"TYPE: BOOL\r\n"
"MANDATORY: TRUE\r\n"
"FIX: TRUE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEPENDS: channels,ports\r\n"
"DEFAULT: TRUE\r\n"
"RANGE_MIN: FALSE\r\n"
"RANGE_MAX: TRUE\r\n"
"POSSIBILITIES: FALSE,TRUE\r\n";
}
else if (lscp_parser_test(&tok, "ports")) {
pszResult = "DESCRIPTION: 'Number of ALSA Sequencer ports'\r\n"
"TYPE: INT\r\n"
"MANDATORY: FALSE\r\n"
"FIX: FALSE\r\n"
"MULTIPLICITY: FALSE\r\n"
"DEFAULT: 1\r\n"
"RANGE_MIN: 1\r\n"
"RANGE_MAX: 4\r\n";
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "AUDIO_OUTPUT_DEVICE", "INFO")) {
// Getting informations about a specific audio output device.
// GET AUDIO_OUTPUT_DEVICE INFO <audio-device-id>
if (lscp_parser_nextint(&tok) < iAudioDevice) {
pszResult = "driver: Alsa\r\n"
"active: TRUE\r\n"
"channels: 2\r\n"
"samplerate: 44100\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "MIDI_INPUT_DEVICE", "INFO")) {
// Getting informations about a specific MIDI input device.
// GET MIDI_INPUT_DEVICE INFO <midi-device-id>
if (lscp_parser_nextint(&tok) < iMidiDevice) {
pszResult = "driver: Alsa\r\n"
"active: TRUE\r\n"
"channels: 16\r\n"
"ports: 1\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "AUDIO_OUTPUT_CHANNEL", "INFO")) {
// Getting informations about an audio channel.
// GET AUDIO_OUTPUT_CHANNEL INFO <audio-device-id> <audio-channel>
if (lscp_parser_nextint(&tok) < iAudioDevice) {
pszResult = "name: DummyMonitor\r\n"
"is_mix_channel: FALSE\r\n"
"mix_channel_destination: 0\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "MIDI_INPUT_PORT", "INFO")) {
// Getting informations about a MIDI port.
// GET MIDI_INPUT_PORT INFO <midi-device-id> <midi-port>
if (lscp_parser_nextint(&tok) < iMidiDevice) {
pszResult = "name: DummyKeyboard\r\n"
"alsa_seq_bindings: '64:0'\r\n";
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "AUDIO_OUTPUT_CHANNEL_PARAMETER", "INFO")) {
// Getting informations about specific audio channel parameter.
// GET AUDIO_OUTPUT_CHANNEL_PARAMETER INFO <audio-device-id> <audio-channel> <param>
if (lscp_parser_nextint(&tok) < iAudioDevice) {
lscp_parser_nextint(&tok);
if (lscp_parser_test(&tok, "is_mix_channel")) {
pszResult = "DESCRIPTION: 'Whether this is an audio mix channel'\r\n"
"TYPE: BOOL\r\n"
"MANDATORY: TRUE\r\n"
"FIX: FALSE\r\n"
"MULTIPLICITY: FALSE\r\n"
"POSSIBILITIES: FALSE,TRUE\r\n";
}
else if (lscp_parser_test(&tok, "mix_channel_destination")) {
pszResult = "DESCRIPTION: 'Audio mix channel destination'\r\n"
"TYPE: INT\r\n"
"MANDATORY: TRUE\r\n"
"FIX: FALSE\r\n"
"MULTIPLICITY: TRUE\r\n"
"POSSIBILITIES: 0,1\r\n";
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "MIDI_INPUT_PORT_PARAMETER", "INFO")) {
// Getting informations about specific MIDI port parameter.
// GET MIDI_INPUT_PORT_PARAMETER INFO <midi-device-id> <midi-port> <param>
if (lscp_parser_nextint(&tok) < iMidiDevice) {
lscp_parser_nextint(&tok);
if (lscp_parser_test(&tok, "alsa_seq_bindings")) {
pszResult = "DESCRIPTION: 'Alsa sequencer port bindings'\r\n"
"TYPE: STRING\r\n"
"MANDATORY: TRUE\r\n"
"FIX: FALSE\r\n"
"MULTIPLICITY: TRUE\r\n"
"POSSIBILITIES: '64:0','68:0','68:1'\r\n";
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "AUDIO_OUTPUT_DEVICES")) {
// Getting all created audio output device count.
// GET AUDIO_OUTPUT_DEVICES
sprintf(szTemp, "%d\r\n", iAudioDevice);
pszResult = szTemp;
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_DEVICES")) {
// Getting all created MID input device count.
// GET MIDI_INPUT_DEVICES
sprintf(szTemp, "%d\r\n", iMidiDevice);
pszResult = szTemp;
}
else if (lscp_parser_test(&tok, "AVAILABLE_ENGINES")) {
// Getting all available engine count:
// GET AVAILABLE_ENGINES
pszResult = "3\r\n";
}
else if (lscp_parser_test2(&tok, "SERVER", "INFO")) {
// Getting information about the server.
// GET SERVER INFO
sprintf(szTemp, "DESCRIPTION: example_server (%s) %s\r\n"
"VERSION: %s\r\n", lscp_server_package(),
lscp_server_build(), lscp_server_version());
pszResult = szTemp;
}
else if (lscp_parser_test2(&tok, "ENGINE", "INFO")) {
// Getting information about an engine.
// GET ENGINE INFO <engine-name>
if (lscp_parser_test(&tok, "GigEngine")) {
pszResult = "DESCRIPTION: GigaSampler Engine\r\n"
"VERSION: 0.3\r\n";
}
else if (lscp_parser_test(&tok, "DLSEngine")) {
pszResult = "DESCRIPTION: 'DLS Generic Engine'\r\n"
"VERSION: 0.2\r\n";
}
else if (lscp_parser_test(&tok, "AkaiEngine")) {
pszResult = "DESCRIPTION: Akai Sampler Engine\r\n"
"VERSION: 0.1\r\n";
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "LIST")) {
if (lscp_parser_test(&tok, "CHANNELS")) {
// Getting all created sampler channel list.
// LIST CHANNELS
if (iSamplerChannel > 0) {
strcpy(szTemp, "0");
for (i = 1; i < iSamplerChannel && strlen(szTemp) < sizeof(szTemp) - 8; i++)
sprintf(szTemp + strlen(szTemp), ",%d", i);
strcat(szTemp, "\r\n");
pszResult = szTemp;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "AVAILABLE_ENGINES")) {
// Getting all available engines:
// LIST AVAILABLE_ENGINES
pszResult = "GigEngine,DLSEngine,AkaiEngine\r\n";
}
else if (lscp_parser_test(&tok, "AVAILABLE_AUDIO_OUTPUT_DRIVERS")) {
// Getting all available audio output drivers.
// LIST AVAILABLE_AUDIO_OUTPUT_DRIVERS
pszResult = "ALSA,JACK\r\n";
}
else if (lscp_parser_test(&tok, "AVAILABLE_MIDI_INPUT_DRIVERS")) {
// Getting all available MIDI input drivers.
// LIST AVAILABLE_MIDI_INPUT_DRIVERS
pszResult = "ALSA\r\n";
}
else if (lscp_parser_test(&tok, "AUDIO_OUTPUT_DEVICES")) {
// Getting all created audio output device list.
// LIST AUDIO_OUTPUT_DEVICES
if (iAudioDevice > 0) {
strcpy(szTemp, "0");
for (i = 1; i < iAudioDevice && strlen(szTemp) < sizeof(szTemp) - 8; i++)
sprintf(szTemp + strlen(szTemp), ",%d", i);
strcat(szTemp, "\r\n");
pszResult = szTemp;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_DEVICES")) {
// Getting all created MID input device list.
// LIST MIDI_INPUT_DEVICES
if (iMidiDevice > 0) {
strcpy(szTemp, "0");
for (i = 1; i < iMidiDevice && strlen(szTemp) < sizeof(szTemp) - 8; i++)
sprintf(szTemp + strlen(szTemp), ",%d", i);
strcat(szTemp, "\r\n");
pszResult = szTemp;
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "SET")) {
if (lscp_parser_test(&tok, "CHANNEL")) {
if (lscp_parser_test(&tok, "VOLUME")) {
// Setting channel volume:
// SET CHANNEL VOLUME <sampler-channel> <volume>
}
else if (lscp_parser_test(&tok, "MUTE")) {
// Muting a sampler channel:
// SET CHANNEL MUTE <sampler-channel> <mute>
}
else if (lscp_parser_test(&tok, "SOLO")) {
// Soloing a sampler channel:
// SET CHANNEL SOLO <sampler-channel> <solo>
}
else if (lscp_parser_test(&tok, "AUDIO_OUTPUT_TYPE")) {
// Setting audio output type:
// SET CHANNEL AUDIO_OUTPUT_TYPE <sampler-channel> <audio-output-type>
}
else if (lscp_parser_test(&tok, "AUDIO_OUTPUT_DEVICE")) {
// Setting audio output device:
// SET CHANNEL AUDIO_OUTPUT_DEVICE <sampler-channel> <device-id>
}
else if (lscp_parser_test(&tok, "AUDIO_OUTPUT_CHANNEL")) {
// Setting audio output channel:
// SET CHANNEL AUDIO_OUTPUT_CHANNEL <sampler-channel> <audio-in> <audio-out>
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_TYPE")) {
// Setting MIDI input type:
// SET CHANNEL MIDI_INPUT_TYPE <sampler-channel> <midi-input-type>
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_DEVICE")) {
// Setting MIDI input device:
// SET CHANNEL MIDI_INPUT_DEVICE <sampler-channel> <device-id>
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_PORT")) {
// Setting MIDI input port:
// SET CHANNEL MIDI_INPUT_PORT <sampler-channel> <midi-input-port>
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_CHANNEL")) {
// Setting MIDI input channel:
// SET CHANNEL MIDI_INPUT_CHANNEL <sampler-channel> <midi-input-chan>
}
else ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "LOAD")) {
if (lscp_parser_test(&tok, "ENGINE")) {
// Loading a sampler engine:
// LOAD ENGINE <engine-name> <sampler-channel>
}
else if (lscp_parser_test(&tok, "INSTRUMENT")) {
// Loading an instrument:
// LOAD INSTRUMENT [NON_MODAL] <filename> <instr-index> <sampler-channel>
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test2(&tok, "ADD", "CHANNEL")) {
// Adding a new sampler channel:
// ADD CHANNEL
if (iSamplerChannel < 16) {
sprintf(szTemp, "OK[%d]", iSamplerChannel++);
pszResult = szTemp;
} else {
iSamplerChannel = 0;
ret = LSCP_FAILED;
}
}
else if (lscp_parser_test2(&tok, "REMOVE", "CHANNEL")) {
// Removing a sampler channel:
// REMOVE CHANNEL <sampler-channel>
if (lscp_parser_nextint(&tok) < iSamplerChannel)
iSamplerChannel--;
else
ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "RESET")) {
if (lscp_parser_test(&tok, "CHANNEL")) {
// Resetting a sampler channel:
// RESET CHANNEL <sampler-channel>
if (lscp_parser_nextint(&tok) > iSamplerChannel)
ret = LSCP_FAILED;
} else {
// Reset sampler:
// RESET
iSamplerChannel = 0;
iAudioDevice = 0;
iMidiDevice = 0;
}
}
else if (lscp_parser_test(&tok, "CREATE")) {
if (lscp_parser_test(&tok, "AUDIO_OUTPUT_DEVICE")) {
// Creating an audio output device.
// CREATE AUDIO_OUTPUT_DEVICE <audio-output-driver> [<params>]
if (iAudioDevice < 8) {
sprintf(szTemp, "OK[%d]", iAudioDevice++);
pszResult = szTemp;
} else {
iAudioDevice = 0;
ret = LSCP_FAILED;
}
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_DEVICE")) {
// Creating an MIDI input device.
// CREATE MIDI_INPUT_DEVICE <midi-input-driver> [<params>]
if (iMidiDevice < 8) {
sprintf(szTemp, "OK[%d]", iMidiDevice++);
pszResult = szTemp;
} else {
iMidiDevice = 0;
ret = LSCP_FAILED;
}
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "DESTROY")) {
if (lscp_parser_test(&tok, "AUDIO_OUTPUT_DEVICE")) {
// Destroying an audio output device.
// DESTROY AUDIO_OUTPUT_DEVICE <audio-device-id>
if (lscp_parser_nextint(&tok) < iAudioDevice)
iAudioDevice--;
else
ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "MIDI_INPUT_DEVICE")) {
// Destroying an MIDI intput device.
// DESTROY MIDI_INPUT_DEVICE <midi-device-id>
if (lscp_parser_nextint(&tok) < iMidiDevice)
iMidiDevice--;
else
ret = LSCP_FAILED;
}
else ret = LSCP_FAILED;
}
else if (lscp_parser_test(&tok, "SUBSCRIBE")) {
// Register frontend for receiving event notification messages:
// SUBSCRIBE <event>
ret = lscp_server_subscribe(pConnect, lscp_event_from_text(lscp_parser_next(&tok)));
}
else if (lscp_parser_test(&tok, "UNSUBSCRIBE")) {
// Deregister frontend for not receiving event notification messages anymore:
// UNSUBSCRIBE <event>
ret = lscp_server_unsubscribe(pConnect, lscp_event_from_text(lscp_parser_next(&tok)));
}
else if (lscp_parser_test(&tok, "QUIT")) {
// Close client connection:
// QUIT
lscp_parser_free(&tok);
return LSCP_FAILED; // Disconnect.
}
else ret = LSCP_FAILED;
lscp_parser_free(&tok);
if (pszResult == NULL)
pszResult = (ret == LSCP_OK ? "OK\r\n" : "ERR:1:Failed\r\n");
fprintf(stderr, "> %s", pszResult);
return lscp_server_result(pConnect, pszResult, strlen(pszResult));
}
////////////////////////////////////////////////////////////////////////
void server_usage (void)
{
printf("\n %s %s (Build: %s)\n", lscp_server_package(), lscp_server_version(), lscp_server_build());
fputs("\n Available server commands: help, exit, quit, list", stdout);
fputs("\n (all else are broadcast verbatim to subscribers)\n\n", stdout);
}
void server_prompt (void)
{
fputs("lscp_server> ", stdout);
}
int main (int argc, char *argv[] )
{
lscp_server_t *pServer;
char szLine[200];
int cchLine;
lscp_connect_t *p;
#if defined(WIN32)
if (WSAStartup(MAKEWORD(1, 1), &_wsaData) != 0) {
fprintf(stderr, "lscp_server: WSAStartup failed.\n");
return -1;
}
#endif
srand(time(NULL));
pServer = lscp_server_create(SERVER_PORT, server_callback, NULL);
if (pServer == NULL)
return -1;
server_usage();
server_prompt();
while (fgets(szLine, sizeof(szLine), stdin)) {
cchLine = strlen(szLine);
while (cchLine > 0 && (szLine[cchLine - 1] == '\n' || szLine[cchLine - 1] == '\r'))
cchLine--;
szLine[cchLine] = '\0';
if (strcmp(szLine, "exit") == 0 || strcmp(szLine, "quit") == 0)
break;
else
if (strcmp(szLine, "list") == 0) {
for (p = pServer->connects.first; p; p = p->next) {
printf("client: sock=%d addr=%s port=%d events=0x%04x.\n",
p->client.sock,
inet_ntoa(p->client.addr.sin_addr),
ntohs(p->client.addr.sin_port),
(int) p->events
);
}
}
else
if (cchLine > 0 && strcmp(szLine, "help") != 0)
lscp_server_broadcast(pServer, LSCP_EVENT_MISCELLANEOUS, szLine, strlen(szLine));
else
server_usage();
server_prompt();
}
lscp_server_destroy(pServer);
#if defined(WIN32)
WSACleanup();
#endif
return 0;
}
// end of example_server.c
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