Feature/refactor-apps-string-parsing (#1152)
* Added bacnet_str functions for parsing various numeric strings. * Renamed BACnet string API to be clearer when no stdlib function exists. * Fixed incompatible types - from 'BACNET_UNSIGNED_INTEGER *' to 'unsigned long *' warning * Changed bacnet-str-to functions to use ERANGE for error detection. * Refactored some apps to use common string parsing for BACnet data types. * Refactor bacapp_parse_application_data to use bacnet_string_to_unsigned for better clarity * Added strtol for BACnetEventType.
This commit is contained in:
Steve Karg
+12
-198
@@ -89,9 +89,6 @@ static void print_help(const char *filename)
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int main(int argc, char *argv[])
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{
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BACNET_EVENT_NOTIFICATION_DATA event_data = { 0 };
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BACNET_BIT_STRING *pBitString;
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BACNET_CHARACTER_STRING bcstring;
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BACNET_PROPERTY_STATES tag = PROP_STATE_BOOLEAN_VALUE;
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long dnet = -1;
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BACNET_MAC_ADDRESS mac = { 0 };
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BACNET_MAC_ADDRESS adr = { 0 };
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@@ -125,7 +122,10 @@ int main(int argc, char *argv[])
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}
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} else if (strcmp(argv[argi], "--dnet") == 0) {
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if (++argi < argc) {
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dnet = strtol(argv[argi], NULL, 0);
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if (!bacnet_strtol(argv[argi], &dnet)) {
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fprintf(stderr, "dnet=%s invalid\n", argv[argi]);
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return 1;
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}
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if ((dnet >= 0) && (dnet <= BACNET_BROADCAST_NETWORK)) {
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specific_address = true;
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}
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@@ -138,206 +138,20 @@ int main(int argc, char *argv[])
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}
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} else {
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if (target_args == 0) {
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event_data.processIdentifier = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 1) {
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event_data.initiatingObjectIdentifier.type =
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strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 2) {
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event_data.initiatingObjectIdentifier.instance =
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strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 3) {
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event_data.eventObjectIdentifier.type =
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strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 4) {
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event_data.eventObjectIdentifier.instance =
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strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 5) {
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event_data.timeStamp.tag = TIME_STAMP_SEQUENCE;
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event_data.timeStamp.value.sequenceNum =
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strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 6) {
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event_data.notificationClass = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 7) {
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event_data.priority = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 8) {
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event_data.eventType = strtol(argv[argi], NULL, 0);
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target_args++;
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} else {
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if (event_data.eventType == EVENT_CHANGE_OF_BITSTRING) {
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if (target_args == 9) {
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pBitString =
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&event_data.notificationParams.changeOfBitstring
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.referencedBitString;
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bitstring_init_ascii(pBitString, argv[argi]);
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target_args++;
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} else if (target_args == 10) {
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pBitString = &event_data.notificationParams
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.changeOfBitstring.statusFlags;
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bitstring_init_ascii(pBitString, argv[argi]);
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target_args++;
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} else if (target_args == 11) {
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characterstring_init_ansi(&bcstring, argv[argi]);
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event_data.messageText = &bcstring;
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target_args++;
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} else if (target_args == 12) {
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event_data.notifyType = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 13) {
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event_data.ackRequired = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 14) {
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event_data.fromState = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 15) {
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event_data.toState = strtol(argv[argi], NULL, 0);
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target_args++;
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} else {
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print_usage(filename);
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return 1;
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}
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} else if (event_data.eventType == EVENT_CHANGE_OF_STATE) {
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if (target_args == 9) {
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tag = strtol(argv[argi], NULL, 0);
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event_data.notificationParams.changeOfState.newState
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.tag = tag;
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target_args++;
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} else if (target_args == 10) {
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if (tag == PROP_STATE_BOOLEAN_VALUE) {
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event_data.notificationParams.changeOfState.newState
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.state.booleanValue =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_BINARY_VALUE) {
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event_data.notificationParams.changeOfState.newState
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.state.binaryValue =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_EVENT_TYPE) {
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event_data.notificationParams.changeOfState.newState
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.state.eventType = strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_POLARITY) {
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event_data.notificationParams.changeOfState.newState
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.state.polarity = strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_PROGRAM_CHANGE) {
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event_data.notificationParams.changeOfState.newState
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.state.programChange =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_PROGRAM_STATE) {
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event_data.notificationParams.changeOfState.newState
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.state.programState =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_REASON_FOR_HALT) {
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event_data.notificationParams.changeOfState.newState
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.state.programError =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_RELIABILITY) {
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event_data.notificationParams.changeOfState.newState
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.state.reliability =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_EVENT_STATE) {
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event_data.notificationParams.changeOfState.newState
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.state.state = strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_SYSTEM_STATUS) {
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event_data.notificationParams.changeOfState.newState
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.state.systemStatus =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_UNITS) {
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event_data.notificationParams.changeOfState.newState
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.state.units = strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_UNSIGNED_VALUE) {
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event_data.notificationParams.changeOfState.newState
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.state.unsignedValue =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_LIFE_SAFETY_MODE) {
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event_data.notificationParams.changeOfState.newState
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.state.lifeSafetyMode =
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strtol(argv[argi], NULL, 0);
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} else if (tag == PROP_STATE_LIFE_SAFETY_STATE) {
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event_data.notificationParams.changeOfState.newState
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.state.lifeSafetyState =
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strtol(argv[argi], NULL, 0);
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} else {
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printf("Invalid Change-Of-State Tag\n");
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return 1;
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}
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target_args++;
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} else if (target_args == 11) {
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pBitString = &event_data.notificationParams
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.changeOfBitstring.statusFlags;
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bitstring_init_ascii(pBitString, argv[argi]);
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target_args++;
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} else if (target_args == 12) {
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characterstring_init_ansi(&bcstring, argv[argi]);
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event_data.messageText = &bcstring;
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target_args++;
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} else if (target_args == 13) {
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event_data.notifyType = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 14) {
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event_data.ackRequired = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 15) {
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event_data.fromState = strtol(argv[argi], NULL, 0);
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target_args++;
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} else if (target_args == 16) {
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event_data.toState = strtol(argv[argi], NULL, 0);
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target_args++;
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} else {
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print_usage(filename);
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return 1;
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}
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} else if (event_data.eventType == EVENT_CHANGE_OF_VALUE) {
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} else if (event_data.eventType == EVENT_COMMAND_FAILURE) {
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} else if (event_data.eventType == EVENT_FLOATING_LIMIT) {
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} else if (event_data.eventType == EVENT_OUT_OF_RANGE) {
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} else if (
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event_data.eventType == EVENT_CHANGE_OF_LIFE_SAFETY) {
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} else if (event_data.eventType == EVENT_EXTENDED) {
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} else if (event_data.eventType == EVENT_BUFFER_READY) {
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} else if (event_data.eventType == EVENT_UNSIGNED_RANGE) {
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if (!event_notify_parse(
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&event_data, argc - argi, &argv[argi])) {
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fprintf(stderr, "event=%s invalid\n", argv[argi]);
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} else {
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print_usage(filename);
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return 1;
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target_args++;
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}
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} else {
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print_usage(filename);
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return 1;
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}
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}
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}
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address_init();
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if (specific_address) {
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if (adr.len && mac.len) {
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memcpy(&dest.mac[0], &mac.adr[0], mac.len);
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dest.mac_len = mac.len;
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memcpy(&dest.adr[0], &adr.adr[0], adr.len);
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dest.len = adr.len;
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if ((dnet >= 0) && (dnet <= BACNET_BROADCAST_NETWORK)) {
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dest.net = dnet;
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} else {
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dest.net = BACNET_BROADCAST_NETWORK;
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}
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} else if (mac.len) {
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memcpy(&dest.mac[0], &mac.adr[0], mac.len);
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dest.mac_len = mac.len;
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dest.len = 0;
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if ((dnet >= 0) && (dnet <= BACNET_BROADCAST_NETWORK)) {
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dest.net = dnet;
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} else {
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dest.net = 0;
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}
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} else {
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if ((dnet >= 0) && (dnet <= BACNET_BROADCAST_NETWORK)) {
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dest.net = dnet;
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} else {
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dest.net = BACNET_BROADCAST_NETWORK;
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}
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dest.mac_len = 0;
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dest.len = 0;
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}
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bacnet_address_init(&dest, &mac, dnet, &adr);
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}
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/* setup my info */
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Device_Set_Object_Instance_Number(BACNET_MAX_INSTANCE);
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