205 lines
6 KiB
C++
205 lines
6 KiB
C++
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#include <XnodeSatelliteRadio.h>
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const char pmRadioChipInit[] PROGMEM = MSG_RF_CHIP_INIT;
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const char pmRadioChipError[] PROGMEM = MSG_RF_CHIP_ERROR;
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const char pmRadioExecutePrefix[] PROGMEM = "@";//MSG_REMOTE_PREFIX; // FIXME
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const char pmRadioInfoFreq[] PROGMEM = MSG_RF_INFO_FREQ;
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const char pmRadioInfoNetwork[] PROGMEM = MSG_RF_INFO_NETWORK;
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const char pmRadioInfoNode[] PROGMEM = MSG_RF_INFO_NODE;
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const char pmRadioInfoKey[] PROGMEM = MSG_RF_INFO_KEY;
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const char pmRadioEncrypt[] PROGMEM = MSG_RF_ENCRYPT;
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const char pmRadioInfo[] PROGMEM = MSG_RF_INFO;
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uint8_t rf_status_chip = ZERO;
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uint8_t rf_status_key = ZERO;
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volatile unsigned long key_fetch_timer = ZERO;
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volatile unsigned long key_encrypt_timer = ZERO;
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xp_super_t rf_data;
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xp_msg_init_t* rf_msg_init;
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xp_msg_flash_t* rf_msg_flash;
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xp_msg_char_t* rf_msg_char;
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RFM69 radio;
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XnodeSatelliteRadio XSRadio;
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void XnodeSatelliteRadio::begin() {
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XSerial.printCommentLineP(pmRadioChipInit);
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if (!radio.initialize(RF_FREQUENCY, XSHardware.config.node_id, RF_NETWORK_ID)) {
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XSerial.printCommentLineP(pmRadioChipError);
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rf_status_chip = ONE;
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return;
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}
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key_encrypt_timer = millis() + (unsigned long) RF_KEY_ENCRYPT_TIME;
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key_fetch_timer = millis() + (unsigned long) RF_KEY_FETCH_TIME;
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// Print serial info
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XSerial.executeCommandP(pmRadioInfo);
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}
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void XnodeSatelliteRadio::loop() {
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if (rf_status_chip != ZERO) {
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return; // no chip
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}
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if (key_encrypt_timer != ZERO) {
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initEncryptionKey();
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}
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if (!radio.receiveDone()) {
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return;
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}
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//rf_status_data = ZERO;
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rf_data = *(xp_super_t*) radio.DATA;
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#ifdef DEBUG_RADIO
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Serial.print(F("#D rf_rx "));
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Serial.print(radio.SENDERID,DEC);
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Serial.print(CHAR_SPACE);
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Serial.print(rf_data.msg_type,DEC);
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Serial.print(CHAR_NEWLINE);
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#endif
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// always reply ack if requested, see sendWithRetry impl
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if (radio.ACK_REQUESTED) {
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#ifdef DEBUG_RADIO
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Serial.println(F("#D rf_sendACK"));
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#endif
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radio.sendACK();
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}
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if (rf_data.msg_type == RF_MSG_NODE_INIT) {
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handleNodeInit();
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} else if (rf_data.msg_type == RF_MSG_NODE_COMMAND) {
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handleNodeCommand();
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}
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}
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void XnodeSatelliteRadio::handleNodeInit() {
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rf_msg_init = (xp_msg_init_t*) rf_data.msg_data;
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if (XSHardware.config.node_id != rf_msg_init->node_id) {
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#ifdef DEBUG_RADIO
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Serial.print(F("#D init "));
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Serial.print(rf_msg_init->node_id,DEC);
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Serial.print(CHAR_NEWLINE);
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#endif
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XSHardware.config.node_id = rf_msg_init->node_id; // allow new node_id
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}
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for (byte i = ZERO; i < RF_KEY_SIZE; ++i) {
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XSHardware.config.rf_key[i] = rf_msg_init->rf_key[i];
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}
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XSystem.configSave();
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key_fetch_timer = ZERO; // stop sending because we have reply
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if (XSHardware.config.node_id != rf_msg_init->node_id) {
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radio.initialize(RF_FREQUENCY, XSHardware.config.node_id, RF_NETWORK_ID); // re-init
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}
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}
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void XnodeSatelliteRadio::handleNodeCommand() {
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rf_msg_char = (xp_msg_char_t*) rf_data.msg_data;
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XSerial.print(CHAR_NEWLINE);
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XSerial.printCharP(pmRadioExecutePrefix);
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//XSerial.printPromtLine();
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//XSerial.processCommand(rf_msg_char->char_data);
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}
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void XnodeSatelliteRadio::initEncryptionKey() {
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if (millis() > key_encrypt_timer) {
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cmdClose(); // do once after timeout
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return;
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}
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if (key_fetch_timer==ZERO) {
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return; // we are done
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}
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if (millis() < key_fetch_timer) {
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return; // wait until next fetch
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}
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key_fetch_timer = millis() + (unsigned long) RF_KEY_FETCH_TIME;
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// Setup first data package for fetching key rf_keys.
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rf_data.msg_type = RF_MSG_NODE_INIT;
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rf_msg_init = (xp_msg_init_t*) rf_data.msg_data;
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rf_msg_init->node_id = XSHardware.config.node_id; // send our id, so we fetch only once new id.
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send();
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}
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byte XnodeSatelliteRadio::readTemperature() {
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return radio.readTemperature();
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}
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bool XnodeSatelliteRadio::isSecure() {
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return key_encrypt_timer == ZERO;
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}
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void XnodeSatelliteRadio::cmdClose() {
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XSystem.buildReplyPValue(pmRadioEncrypt, ONE);
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radio.encrypt((const char*) XSHardware.config.rf_key);
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key_encrypt_timer = ZERO; // disable calling initEncrytion and this
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}
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void XnodeSatelliteRadio::cmdOpen() {
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if (key_encrypt_timer != ZERO) {
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return; // only open if it is encrypted already
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}
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radio.encrypt(ZERO);
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key_encrypt_timer = millis() + (unsigned long) RF_KEY_ENCRYPT_TIME;
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XSystem.buildReplyPValue(pmRadioEncrypt, ZERO);
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}
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void XnodeSatelliteRadio::send() {
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//rf_tx++;
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if (radio.sendWithRetry(RF_BASE_NODE_ID, (const void*) &rf_data, sizeof(xp_super_t)), 5, 100) {
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// TODO make cnt
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Serial.println("# send ok");
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} else {
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Serial.println("# ERR: send failed");
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}
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}
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void XnodeSatelliteRadio::sendNodeData(char* data) {
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rf_data.msg_type = RF_MSG_NODE_DATA;
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rf_msg_char = (xp_msg_char_t*) rf_data.msg_data;
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// TODO: add loop + cnt over data
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strcpy(rf_msg_char->char_data, data);
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send();
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}
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void XnodeSatelliteRadio::sendCommandP(const char* cmdName) {
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if (!isSecure()) {
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return; // wait until line is secure
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}
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char sendCommandBuff[32];
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strcpy(sendCommandBuff, XUtil.UNPSTR(cmdName)); // free buffer as gets used in strcmpP again..
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XSystem.executeCommand(sendCommandBuff);
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sendNodeData(XSystem.replyBuffer); // print result or error
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}
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void XnodeSatelliteRadio::cmdInfo() {
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// Print key
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XSystem.buildReplyPValueByteA(pmRadioInfoKey,XSHardware.config.rf_key,RF_KEY_SIZE);
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// Print radio config
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XSystem.buildReplyPValue(pmRadioInfoFreq,(int) RF_FREQUENCY == RF69_433MHZ ? 433 : RF_FREQUENCY == RF69_868MHZ ? 868 : 915);
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XSystem.buildReplyPValue(pmRadioInfoNetwork,(int) RF_NETWORK_ID);
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XSystem.buildReplyPValue(pmRadioInfoNode,(int) XSHardware.config.node_id);
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XSystem.buildReplyPValue(pmRadioEncrypt,(int) key_encrypt_timer == ZERO ? ONE : ZERO);// if timer==0 then encrypted=1
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}
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void XnodeSatelliteRadio::systemModuleCommandList() {
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XSystem.buildReplyCommandListP(pmRadioInfo);
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XSystem.buildReplyCommandListP(pmRadioEncrypt);
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}
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bool XnodeSatelliteRadio::systemModuleCommandExecute(char* cmd, char** args) {
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if (XUtil.strcmpP(cmd, pmRadioInfo) == ZERO) {
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cmdInfo();
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return true;
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} else if (XUtil.strcmpP(cmd, pmRadioEncrypt) == ZERO) {
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if (key_encrypt_timer == ZERO) {
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cmdOpen();
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} else {
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cmdClose();
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}
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return true;
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}
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return false;
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}
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