mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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7d338ea936
--HG-- rename : dom/cellbroadcast/interfaces/nsIDOMMozCellBroadcastMessage.idl => dom/webidl/MozCellBroadcastMessage.webidl extra : rebase_source : 1fe6072c1db53fc4751e9a931adadb31a246f247
362 lines
12 KiB
JavaScript
362 lines
12 KiB
JavaScript
/* Any copyright is dedicated to the Public Domain.
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* http://creativecommons.org/publicdomain/zero/1.0/ */
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MARIONETTE_TIMEOUT = 90000;
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MARIONETTE_HEAD_JS = 'head.js';
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function testReceiving_GSM_MessageAttributes() {
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log("Test receiving GSM Cell Broadcast - Message Attributes");
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let verifyCBMessage = (aMessage) => {
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// Attributes other than `language` and `body` should always be assigned.
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ok(aMessage.gsmGeographicalScope != null, "aMessage.gsmGeographicalScope");
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ok(aMessage.messageCode != null, "aMessage.messageCode");
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ok(aMessage.messageId != null, "aMessage.messageId");
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ok(aMessage.language != null, "aMessage.language");
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ok(aMessage.body != null, "aMessage.body");
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ok(aMessage.messageClass != null, "aMessage.messageClass");
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ok(aMessage.timestamp != null, "aMessage.timestamp");
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ok('etws' in aMessage, "aMessage.etws");
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if (aMessage.etws) {
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ok('warningType' in aMessage.etws, "aMessage.etws.warningType");
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ok(aMessage.etws.emergencyUserAlert != null, "aMessage.etws.emergencyUserAlert");
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ok(aMessage.etws.popup != null, "aMessage.etws.popup");
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}
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// cdmaServiceCategory shall always be unavailable in GMS/UMTS CB message.
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ok(aMessage.cdmaServiceCategory == null, "aMessage.cdmaServiceCategory");
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};
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// Here we use a simple GSM message for test.
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let pdu = buildHexStr(0, CB_MESSAGE_SIZE_GSM * 2);
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return sendMultipleRawCbsToEmulatorAndWait([pdu])
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.then((aMessage) => verifyCBMessage(aMessage));
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}
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function testReceiving_GSM_GeographicalScope() {
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log("Test receiving GSM Cell Broadcast - Geographical Scope");
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let promise = Promise.resolve();
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let verifyCBMessage = (aMessage, aGsName) => {
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is(aMessage.gsmGeographicalScope, aGsName,
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"aMessage.gsmGeographicalScope");
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};
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CB_GSM_GEOGRAPHICAL_SCOPE_NAMES.forEach(function(aGsName, aIndex) {
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let pdu = buildHexStr(((aIndex & 0x03) << 14), 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 2) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aGsName));
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});
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return promise;
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}
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function testReceiving_GSM_MessageCode() {
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log("Test receiving GSM Cell Broadcast - Message Code");
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let promise = Promise.resolve();
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// Message Code has 10 bits, and is ORed into a 16 bits 'serial' number. Here
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// we test every single bit to verify the operation doesn't go wrong.
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let messageCodes = [
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0x000, 0x001, 0x002, 0x004, 0x008, 0x010, 0x020, 0x040,
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0x080, 0x100, 0x200, 0x251
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];
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let verifyCBMessage = (aMessage, aMsgCode) => {
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is(aMessage.messageCode, aMsgCode, "aMessage.messageCode");
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};
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messageCodes.forEach(function(aMsgCode) {
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let pdu = buildHexStr(((aMsgCode & 0x3FF) << 4), 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 2) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aMsgCode));
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});
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return promise;
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}
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function testReceiving_GSM_MessageId() {
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log("Test receiving GSM Cell Broadcast - Message Identifier");
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let promise = Promise.resolve();
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// Message Identifier has 16 bits, but no bitwise operation is needed.
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// Test some selected values only.
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let messageIds = [
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0x0000, 0x0001, 0x0010, 0x0100, 0x1000, 0x1111, 0x8888, 0x8811,
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];
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let verifyCBMessage = (aMessage, aMessageId) => {
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is(aMessage.messageId, aMessageId, "aMessage.messageId");
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ok(aMessage.etws == null, "aMessage.etws");
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};
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messageIds.forEach(function(aMessageId) {
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let pdu = buildHexStr(0, 4)
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+ buildHexStr((aMessageId & 0xFFFF), 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 4) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aMessageId));
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});
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return promise;
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}
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function testReceiving_GSM_Language_and_Body() {
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log("Test receiving GSM Cell Broadcast - Language & Body");
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let promise = Promise.resolve();
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let testDcs = [];
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let dcs = 0;
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while (dcs <= 0xFF) {
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try {
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let dcsInfo = { dcs: dcs };
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[ dcsInfo.encoding, dcsInfo.language,
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dcsInfo.indicator, dcsInfo.messageClass ] = decodeGsmDataCodingScheme(dcs);
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testDcs.push(dcsInfo);
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} catch (e) {
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// Unsupported coding group, skip.
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dcs = (dcs & PDU_DCS_CODING_GROUP_BITS) + 0x10;
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}
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dcs++;
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}
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let verifyCBMessage = (aMessage, aDcsInfo) => {
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if (aDcsInfo.language) {
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is(aMessage.language, aDcsInfo.language, "aMessage.language");
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} else if (aDcsInfo.indicator) {
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is(aMessage.language, "@@", "aMessage.language");
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} else {
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ok(aMessage.language == null, "aMessage.language");
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}
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switch (aDcsInfo.encoding) {
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case PDU_DCS_MSG_CODING_7BITS_ALPHABET:
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is(aMessage.body, aDcsInfo.indicator ? DUMMY_BODY_7BITS_IND : DUMMY_BODY_7BITS, "aMessage.body");
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break;
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case PDU_DCS_MSG_CODING_8BITS_ALPHABET:
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ok(aMessage.body == null, "aMessage.body");
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break;
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case PDU_DCS_MSG_CODING_16BITS_ALPHABET:
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is(aMessage.body, aDcsInfo.indicator ? DUMMY_BODY_UCS2_IND : DUMMY_BODY_UCS2, "aMessage.body");
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break;
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}
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is(aMessage.messageClass, aDcsInfo.messageClass, "aMessage.messageClass");
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};
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testDcs.forEach(function(aDcsInfo) {
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let pdu = buildHexStr(0, 8)
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+ buildHexStr(aDcsInfo.dcs, 2)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 5) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aDcsInfo));
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});
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return promise;
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}
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function testReceiving_GSM_Timestamp() {
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log("Test receiving GSM Cell Broadcast - Timestamp");
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let verifyCBMessage = (aMessage) => {
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// Cell Broadcast messages do not contain a timestamp field (however, ETWS
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// does). We only check the timestamp doesn't go too far (60 seconds) here.
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let msMessage = aMessage.timestamp;
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let msNow = Date.now();
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ok(Math.abs(msMessage - msNow) < (1000 * 60), "aMessage.timestamp");
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};
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let pdu = buildHexStr(0, CB_MESSAGE_SIZE_GSM * 2);
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return sendMultipleRawCbsToEmulatorAndWait([pdu])
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.then((aMessage) => verifyCBMessage(aMessage));
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}
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function testReceiving_GSM_WarningType() {
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log("Test receiving GSM Cell Broadcast - Warning Type");
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let promise = Promise.resolve();
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let messageIds = [];
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for (let i = CB_GSM_MESSAGEID_ETWS_BEGIN; i <= CB_GSM_MESSAGEID_ETWS_END; i++) {
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messageIds.push(i);
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}
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let verifyCBMessage = (aMessage, aMessageId) => {
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is(aMessage.messageId, aMessageId, "aMessage.messageId");
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ok(aMessage.etws != null, "aMessage.etws");
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let offset = aMessageId - CB_GSM_MESSAGEID_ETWS_BEGIN;
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if (offset < CB_ETWS_WARNING_TYPE_NAMES.length) {
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is(aMessage.etws.warningType, CB_ETWS_WARNING_TYPE_NAMES[offset],
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"aMessage.etws.warningType");
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} else {
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ok(aMessage.etws.warningType == null, "aMessage.etws.warningType");
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}
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};
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messageIds.forEach(function(aMessageId) {
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let pdu = buildHexStr(0, 4)
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+ buildHexStr((aMessageId & 0xFFFF), 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 4) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aMessageId));
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});
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return promise;
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}
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function testReceiving_GSM_EmergencyUserAlert() {
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log("Test receiving GSM Cell Broadcast - Emergency User Alert");
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let promise = Promise.resolve();
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let emergencyUserAlertMasks = [0x2000, 0x0000];
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let verifyCBMessage = (aMessage, aMask) => {
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is(aMessage.messageId, CB_GSM_MESSAGEID_ETWS_BEGIN, "aMessage.messageId");
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ok(aMessage.etws != null, "aMessage.etws");
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is(aMessage.etws.emergencyUserAlert, aMask != 0, "aMessage.etws.emergencyUserAlert");
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};
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emergencyUserAlertMasks.forEach(function(aMask) {
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let pdu = buildHexStr(aMask, 4)
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+ buildHexStr(CB_GSM_MESSAGEID_ETWS_BEGIN, 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 4) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aMask));
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});
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return promise;
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}
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function testReceiving_GSM_Popup() {
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log("Test receiving GSM Cell Broadcast - Popup");
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let promise = Promise.resolve();
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let popupMasks = [0x1000, 0x0000];
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let verifyCBMessage = (aMessage, aMask) => {
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is(aMessage.messageId, CB_GSM_MESSAGEID_ETWS_BEGIN, "aMessage.messageId");
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ok(aMessage.etws != null, "aMessage.etws");
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is(aMessage.etws.popup, aMask != 0, "aMessage.etws.popup");
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};
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popupMasks.forEach(function(aMask) {
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let pdu = buildHexStr(aMask, 4)
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+ buildHexStr(CB_GSM_MESSAGEID_ETWS_BEGIN, 4)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 4) * 2);
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aMask));
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});
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return promise;
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}
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function testReceiving_GSM_Multipart() {
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log("Test receiving GSM Cell Broadcast - Multipart Messages");
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let promise = Promise.resolve();
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// According to 9.4.1.2.4 Page Parameter in TS 23.041, the maximal Number of
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// pages per CB message is 15.
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let numParts = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15];
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let verifyCBMessage = (aMessage, aNumParts) => {
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is(aMessage.body.length, (aNumParts * CB_MAX_CONTENT_PER_PAGE_7BIT),
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"aMessage.body");
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};
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numParts.forEach(function(aNumParts) {
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let pdus = [];
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for (let i = 1; i <= aNumParts; i++) {
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let pdu = buildHexStr(0, 10)
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+ buildHexStr((i << 4) + aNumParts, 2)
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+ buildHexStr(0, (CB_MESSAGE_SIZE_GSM - 6) * 2);
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pdus.push(pdu);
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}
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait(pdus))
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.then((aMessage) => verifyCBMessage(aMessage, aNumParts));
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});
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return promise;
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}
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function testReceiving_GSM_PaddingCharacters() {
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log("Test receiving GSM Cell Broadcast - Padding Characters <CR>");
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let promise = Promise.resolve();
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let testContents = [
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{ pdu:
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// CB PDU with GSM 7bit encoded text of
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// "The quick brown fox jumps over the lazy dog
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// \r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r
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// \r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r\r
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// \r\r\r\r\r\r\r\r"
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"C0020001011154741914AFA7C76B9058" +
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"FEBEBB41E6371EA4AEB7E173D0DB5E96" +
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"83E8E832881DD6E741E4F7B9D168341A" +
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"8D46A3D168341A8D46A3D168341A8D46" +
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"A3D168341A8D46A3D168341A8D46A3D1" +
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"68341A8D46A3D100",
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text:
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"The quick brown fox jumps over the lazy dog"
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},
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{ pdu:
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// CB PDU with UCS2 encoded text of
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// "The quick brown fox jumps over\r\r\r\r\r\r\r\r\r\r\r"
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"C0020001481100540068006500200071" +
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"007500690063006b002000620072006f" +
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"0077006e00200066006f00780020006a" +
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"0075006d007000730020006f00760065" +
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"0072000D000D000D000D000D000D000D" +
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"000D000D000D000D",
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text:
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"The quick brown fox jumps over"
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}
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];
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let verifyCBMessage = (aMessage, aText) => {
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is(aMessage.body, aText, "aMessage.body");
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};
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testContents.forEach(function(aTestContent) {
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promise = promise
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.then(() => sendMultipleRawCbsToEmulatorAndWait([aTestContent.pdu]))
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.then((aMessage) => verifyCBMessage(aMessage, aTestContent.text));
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});
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return promise;
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}
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startTestCommon(function testCaseMain() {
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return testReceiving_GSM_MessageAttributes()
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.then(() => testReceiving_GSM_GeographicalScope())
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.then(() => testReceiving_GSM_MessageCode())
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.then(() => testReceiving_GSM_MessageId())
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.then(() => testReceiving_GSM_Language_and_Body())
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.then(() => testReceiving_GSM_Timestamp())
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.then(() => testReceiving_GSM_WarningType())
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.then(() => testReceiving_GSM_EmergencyUserAlert())
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.then(() => testReceiving_GSM_Popup())
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.then(() => testReceiving_GSM_Multipart())
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.then(() => testReceiving_GSM_PaddingCharacters());
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});
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