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dom/system/gonk/tests/test_ril_worker_sms_cdma.js@6474c204b198 (annotated)

dom/system/gonk/tests/test_ril_worker_sms_cdma.js

Wed, 31 Dec 2014 06:09:35 +0100

author

Michael Schloh von Bennewitz <michael@schloh.com>

date

Wed, 31 Dec 2014 06:09:35 +0100

changeset 0

6474c204b198

permissions

-rw-r--r--

Cloned upstream origin tor-browser at tor-browser-31.3.0esr-4.5-1-build1
revision ID fc1c9ff7c1b2defdbc039f12214767608f46423f for hacking purpose.

michael@0	1	/* Any copyright is dedicated to the Public Domain.
michael@0	2	http://creativecommons.org/publicdomain/zero/1.0/ */
michael@0	3
michael@0	4	subscriptLoader.loadSubScript("resource://gre/modules/ril_consts.js", this);
michael@0	5
michael@0	6	function run_test() {
michael@0	7	run_next_test();
michael@0	8	}
michael@0	9
michael@0	10	function _getWorker() {
michael@0	11	let _postedMessage;
michael@0	12	let _worker = newWorker({
michael@0	13	postRILMessage: function(data) {
michael@0	14	},
michael@0	15	postMessage: function(message) {
michael@0	16	_postedMessage = message;
michael@0	17	}
michael@0	18	});
michael@0	19	return {
michael@0	20	get postedMessage() {
michael@0	21	return _postedMessage;
michael@0	22	},
michael@0	23	get worker() {
michael@0	24	return _worker;
michael@0	25	}
michael@0	26	};
michael@0	27	}
michael@0	28
michael@0	29	/*
michael@0	30	* Helper function to covert a HEX string to a byte array.
michael@0	31	*
michael@0	32	* @param hexString
michael@0	33	* A hexadecimal string of which the length is even.
michael@0	34	*/
michael@0	35	function hexStringToBytes(hexString) {
michael@0	36	let bytes = [];
michael@0	37
michael@0	38	let length = hexString.length;
michael@0	39
michael@0	40	for (let i = 0; i < length; i += 2) {
michael@0	41	bytes.push(Number.parseInt(hexString.substr(i, 2), 16));
michael@0	42	}
michael@0	43
michael@0	44	return bytes;
michael@0	45	}
michael@0	46
michael@0	47	/*
michael@0	48	* Helper function to covert a byte array to a HEX string.
michael@0	49	*
michael@0	50	* @param bytes
michael@0	51	* Could be a regular byte array or Uint8Array.
michael@0	52	*/
michael@0	53	function bytesToHexString(bytes) {
michael@0	54	let hexString = "";
michael@0	55	let hex;
michael@0	56
michael@0	57	for (let i = 0; i < bytes.length; i++) {
michael@0	58	hex = bytes[i].toString(16).toUpperCase();
michael@0	59	if (hex.length === 1) {
michael@0	60	hexString += "0";
michael@0	61	}
michael@0	62	hexString += hex;
michael@0	63	}
michael@0	64
michael@0	65	return hexString;
michael@0	66	}
michael@0	67
michael@0	68	/*
michael@0	69	* Helper function to ecode Opaque UserData
michael@0	70	*
michael@0	71	* @param msg_type
michael@0	72	* PDU_CDMA_MSG_TYPE_SUBMIT or PDU_CDMA_MSG_TYPE_DELIVER
michael@0	73	* @param data
michael@0	74	* The byte array of opaque data to be encoded.
michael@0	75	*/
michael@0	76	function encodeOpaqueUserData(bitBufferHelper, options) {
michael@0	77	let bearerDataBuffer = [];
michael@0	78	bitBufferHelper.startWrite(bearerDataBuffer);
michael@0	79
michael@0	80	// Msg-Id
michael@0	81	bitBufferHelper.writeBits(PDU_CDMA_MSG_USERDATA_MSG_ID, 8);
michael@0	82	bitBufferHelper.writeBits(3, 8);
michael@0	83	bitBufferHelper.writeBits(options.msg_type, 4); // MSG_TYPE
michael@0	84	bitBufferHelper.writeBits(1, 16); // MSG_ID
michael@0	85	bitBufferHelper.flushWithPadding(); // HEADER_IND (1) + RESERVED (3)
michael@0	86
michael@0	87	// User Data
michael@0	88	bitBufferHelper.writeBits(PDU_CDMA_MSG_USERDATA_BODY, 8);
michael@0	89	let dataLength = options.data.length;
michael@0	90	bitBufferHelper.writeBits(2 + dataLength, 8); // 2 bytes for MSG_ENCODING, NUM_FIELDS
michael@0	91	bitBufferHelper.writeBits(PDU_CDMA_MSG_CODING_OCTET, 5); //MSG_ENCODING
michael@0	92	// MSG_TYPE is omitted if MSG_ENCODING is CODING_OCTET
michael@0	93	bitBufferHelper.writeBits(dataLength, 8); // NUM_FIELDS
michael@0	94	for (let i = 0; i < dataLength; i++) { // CHARi
michael@0	95	bitBufferHelper.writeBits(options.data[i], 8);
michael@0	96	}
michael@0	97	bitBufferHelper.flushWithPadding(); // RESERVED (3 filling bits)
michael@0	98
michael@0	99	return bearerDataBuffer;
michael@0	100	}
michael@0	101
michael@0	102	function newSmsParcel(cdmaPduHelper, pdu) {
michael@0	103	return newIncomingParcel(-1,
michael@0	104	RESPONSE_TYPE_UNSOLICITED,
michael@0	105	UNSOLICITED_RESPONSE_CDMA_NEW_SMS,
michael@0	106	pduToParcelData(cdmaPduHelper, pdu));
michael@0	107	}
michael@0	108
michael@0	109	/*
michael@0	110	* Helper function to encode PDU into Parcel.
michael@0	111	* See ril_cdma_sms.h for the structure definition of RIL_CDMA_SMS_Message
michael@0	112	*
michael@0	113	* @param teleservice
michael@0	114	* The Teleservice-Id of this PDU.
michael@0	115	* See PDU_CDMA_MSG_TELESERIVCIE_ID_XXX in ril_const.js.
michael@0	116	* @param address
michael@0	117	* The Orginating or Destinating address.
michael@0	118	* @param bearerData
michael@0	119	* The byte array of the encoded bearer data.
michael@0	120	*/
michael@0	121	function pduToParcelData(cdmaPduHelper, pdu) {
michael@0	122
michael@0	123	let addrInfo = cdmaPduHelper.encodeAddr(pdu.address);
michael@0	124	// Teleservice, isServicePresent, ServiceCategory,
michael@0	125	// addrInfo {digitMode, numberMode, numberType, numberPlan, address.length, address}
michael@0	126	// Sub Address
michael@0	127	// bearerData length, bearerData.
michael@0	128	let dataLength = 4 + 4 + 4
michael@0	129	+ (5 + addrInfo.address.length) * 4
michael@0	130	+ 3 * 4
michael@0	131	+ 4 + pdu.bearerData.length * 4;
michael@0	132
michael@0	133	let data = new Uint8Array(dataLength);
michael@0	134	let offset = 0;
michael@0	135
michael@0	136	function writeInt(value) {
michael@0	137	data[offset++] = value & 0xFF;
michael@0	138	data[offset++] = (value >> 8) & 0xFF;
michael@0	139	data[offset++] = (value >> 16) & 0xFF;
michael@0	140	data[offset++] = (value >> 24) & 0xFF;
michael@0	141	}
michael@0	142
michael@0	143	function writeByte(value) {
michael@0	144	data[offset++] = value & 0xFF;
michael@0	145	data[offset++] = 0;
michael@0	146	data[offset++] = 0;
michael@0	147	data[offset++] = 0;
michael@0	148	}
michael@0	149
michael@0	150	// Teleservice
michael@0	151	writeInt(pdu.teleservice);
michael@0	152
michael@0	153	// isServicePresent
michael@0	154	writeByte(0);
michael@0	155
michael@0	156	// ServiceCategory
michael@0	157	writeInt(PDU_CDMA_MSG_CATEGORY_UNSPEC);
michael@0	158
michael@0	159	// AddrInfo
michael@0	160	writeByte(addrInfo.digitMode);
michael@0	161	writeByte(addrInfo.numberMode);
michael@0	162	writeByte(addrInfo.numberType);
michael@0	163	writeByte(addrInfo.numberPlan);
michael@0	164	let addressLength = addrInfo.address.length;
michael@0	165	writeByte(addressLength);
michael@0	166	for (let i = 0; i < addressLength; i++) {
michael@0	167	writeByte(addrInfo.address[i]);
michael@0	168	}
michael@0	169
michael@0	170	// Subaddress
michael@0	171	writeByte(0);
michael@0	172	writeByte(0);
michael@0	173	writeByte(0);
michael@0	174
michael@0	175	// Bearer Data Length
michael@0	176	let dataLength = pdu.bearerData.length;
michael@0	177	writeByte(dataLength);
michael@0	178
michael@0	179	// Bearer Data
michael@0	180	for (let i = 0; i < dataLength; i++) {
michael@0	181	writeByte(pdu.bearerData[i]);
michael@0	182	}
michael@0	183
michael@0	184	return data;
michael@0	185	}
michael@0	186
michael@0	187	/**
michael@0	188	* Verify CDMA SMS Delivery ACK Message.
michael@0	189	*/
michael@0	190	add_test(function test_processCdmaSmsStatusReport() {
michael@0	191	let workerHelper = _getWorker();
michael@0	192	let worker = workerHelper.worker;
michael@0	193	let context = worker.ContextPool._contexts[0];
michael@0	194
michael@0	195	function test_StatusReport(errorClass, msgStatus) {
michael@0	196	let msgId = 0;
michael@0	197	let sentSmsMap = context.RIL._pendingSentSmsMap;
michael@0	198
michael@0	199	sentSmsMap[msgId] = {};
michael@0	200
michael@0	201	let message = {
michael@0	202	SMSC: "",
michael@0	203	mti: 0,
michael@0	204	udhi: 0,
michael@0	205	sender: "0987654321",
michael@0	206	recipient: null,
michael@0	207	pid: PDU_PID_DEFAULT,
michael@0	208	epid: PDU_PID_DEFAULT,
michael@0	209	dcs: 0,
michael@0	210	mwi: null,
michael@0	211	replace: false,
michael@0	212	header: null,
michael@0	213	body: "Status: Sent, Dest: 0987654321",
michael@0	214	data: null,
michael@0	215	timestamp: new Date().valueOf(),
michael@0	216	language: null,
michael@0	217	status: null,
michael@0	218	scts: null,
michael@0	219	dt: null,
michael@0	220	encoding: PDU_CDMA_MSG_CODING_7BITS_ASCII,
michael@0	221	messageClass: GECKO_SMS_MESSAGE_CLASSES[PDU_DCS_MSG_CLASS_NORMAL],
michael@0	222	messageType: PDU_CDMA_MSG_TYPE_P2P,
michael@0	223	serviceCategory: 0,
michael@0	224	subMsgType: PDU_CDMA_MSG_TYPE_DELIVER_ACK,
michael@0	225	msgId: msgId,
michael@0	226	errorClass: errorClass,
michael@0	227	msgStatus: msgStatus
michael@0	228	};
michael@0	229
michael@0	230	context.RIL._processCdmaSmsStatusReport(message);
michael@0	231
michael@0	232	let postedMessage = workerHelper.postedMessage;
michael@0	233
michael@0	234	// Check if pending token is removed.
michael@0	235	do_check_true((errorClass === 2) ? !!sentSmsMap[msgId] : !sentSmsMap[msgId]);
michael@0	236
michael@0	237	// Check the response message accordingly.
michael@0	238	if (errorClass === -1) {
michael@0	239	// Check if the report is treated as normal incoming SMS
michael@0	240	do_check_eq("sms-received", postedMessage.rilMessageType);
michael@0	241	} else if (errorClass === 2) {
michael@0	242	// Do nothing.
michael@0	243	} else {
michael@0	244	// Check Delivery Status
michael@0	245	if (errorClass === 0) {
michael@0	246	do_check_eq(postedMessage.deliveryStatus, GECKO_SMS_DELIVERY_STATUS_SUCCESS);
michael@0	247	} else {
michael@0	248	do_check_eq(postedMessage.deliveryStatus, GECKO_SMS_DELIVERY_STATUS_ERROR);
michael@0	249	}
michael@0	250	}
michael@0	251	}
michael@0	252
michael@0	253	test_StatusReport(-1, -1); // Message Status Sub-parameter is absent.
michael@0	254	test_StatusReport(0, 0); // 00|000000: no error|Message accepted
michael@0	255	test_StatusReport(2, 4); // 10|000100: temporary condition|Network congestion
michael@0	256	test_StatusReport(3, 5); // 11|000101: permanent condition|Network error
michael@0	257
michael@0	258	run_next_test();
michael@0	259	});
michael@0	260
michael@0	261	/**
michael@0	262	* Verify WAP Push over CDMA SMS Message.
michael@0	263	*/
michael@0	264	add_test(function test_processCdmaSmsWapPush() {
michael@0	265	let workerHelper = _getWorker(),
michael@0	266	worker = workerHelper.worker,
michael@0	267	context = worker.ContextPool._contexts[0],
michael@0	268	bitBufferHelper = context.BitBufferHelper,
michael@0	269	cdmaPduHelper = context.CdmaPDUHelper;
michael@0	270
michael@0	271	function test_CdmaSmsWapPdu(wdpData, reversed) {
michael@0	272	let orig_address = "0987654321",
michael@0	273	hexString,
michael@0	274	fullDataHexString = "";
michael@0	275
michael@0	276	for (let i = 0; i < wdpData.length; i++) {
michael@0	277	let dataIndex = (reversed) ? (wdpData.length - i - 1) : i;
michael@0	278	hexString = "00"; // MSG_TYPE
michael@0	279	hexString += bytesToHexString([wdpData.length]); // TOTAL_SEG
michael@0	280	hexString += bytesToHexString([dataIndex]); // SEG_NUM (zero-based)
michael@0	281	if ((dataIndex === 0)) {
michael@0	282	hexString += "23F00B84"; // SOURCE_PORT, DEST_PORT for 1st segment
michael@0	283	}
michael@0	284	hexString += wdpData[dataIndex]; // WDP DATA
michael@0	285
michael@0	286	do_print("hexString: " + hexString);
michael@0	287
michael@0	288	fullDataHexString += wdpData[i];
michael@0	289
michael@0	290	let pdu = {
michael@0	291	teleservice: PDU_CDMA_MSG_TELESERIVCIE_ID_WAP,
michael@0	292	address: orig_address,
michael@0	293	bearerData: encodeOpaqueUserData(bitBufferHelper,
michael@0	294	{ msg_type: PDU_CDMA_MSG_TYPE_DELIVER,
michael@0	295	data: hexStringToBytes(hexString) })
michael@0	296	};
michael@0	297
michael@0	298	worker.onRILMessage(0, newSmsParcel(cdmaPduHelper, pdu));
michael@0	299	}
michael@0	300
michael@0	301	let postedMessage = workerHelper.postedMessage;
michael@0	302
michael@0	303	do_print("fullDataHexString: " + fullDataHexString);
michael@0	304
michael@0	305	do_check_eq("sms-received", postedMessage.rilMessageType);
michael@0	306	do_check_eq(PDU_CDMA_MSG_TELESERIVCIE_ID_WAP, postedMessage.teleservice);
michael@0	307	do_check_eq(orig_address, postedMessage.sender);
michael@0	308	do_check_eq(0x23F0, postedMessage.header.originatorPort);
michael@0	309	do_check_eq(0x0B84, postedMessage.header.destinationPort);
michael@0	310	do_check_eq(fullDataHexString, bytesToHexString(postedMessage.data));
michael@0	311	}
michael@0	312
michael@0	313	// Verify Single WAP PDU
michael@0	314	test_CdmaSmsWapPdu(["000102030405060708090A0B0C0D0E0F"]);
michael@0	315
michael@0	316	run_next_test();
michael@0	317	});