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gecko/dom/system/gonk/tests/test_ril_worker_icc.js

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/* Any copyright is dedicated to the Public Domain.
http://creativecommons.org/publicdomain/zero/1.0/ */
subscriptLoader.loadSubScript("resource://gre/modules/ril_consts.js", this);
function run_test() {
run_next_test();
}
/**
* Helper function.
*/
function newUint8Worker() {
let worker = newWorker();
let index = 0; // index for read
let buf = [];
worker.Buf.writeUint8 = function (value) {
buf.push(value);
};
worker.Buf.readUint8 = function () {
return buf[index++];
};
worker.Buf.seekIncoming = function (offset) {
index += offset;
};
worker.debug = do_print;
return worker;
}
/**
* Verify ICCPDUHelper#readICCUCS2String()
*/
add_test(function test_read_icc_ucs2_string() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
// 0x80
let text = "TEST";
helper.writeUCS2String(text);
// Also write two unused octets.
let ffLen = 2;
for (let i = 0; i < ffLen; i++) {
helper.writeHexOctet(0xff);
}
do_check_eq(iccHelper.readICCUCS2String(0x80, (2 * text.length) + ffLen), text);
// 0x81
let array = [0x08, 0xd2, 0x4d, 0x6f, 0x7a, 0x69, 0x6c, 0x6c, 0x61, 0xca,
0xff, 0xff];
let len = array.length;
for (let i = 0; i < len; i++) {
helper.writeHexOctet(array[i]);
}
do_check_eq(iccHelper.readICCUCS2String(0x81, len), "Mozilla\u694a");
// 0x82
let array2 = [0x08, 0x69, 0x00, 0x4d, 0x6f, 0x7a, 0x69, 0x6c, 0x6c, 0x61,
0xca, 0xff, 0xff];
let len2 = array2.length;
for (let i = 0; i < len2; i++) {
helper.writeHexOctet(array2[i]);
}
do_check_eq(iccHelper.readICCUCS2String(0x82, len2), "Mozilla\u694a");
run_next_test();
});
/**
* Verify ICCPDUHelper#readDiallingNumber
*/
add_test(function test_read_dialling_number() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
let str = "123456789";
helper.readHexOctet = function () {
return 0x81;
};
helper.readSwappedNibbleBcdString = function (len) {
return str.substring(0, len);
};
for (let i = 0; i < str.length; i++) {
do_check_eq(str.substring(0, i - 1), // -1 for the TON
iccHelper.readDiallingNumber(i));
}
run_next_test();
});
/**
* Verify ICCPDUHelper#read8BitUnpackedToString
*/
add_test(function test_read_8bit_unpacked_to_string() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
const langTable = PDU_NL_LOCKING_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
const langShiftTable = PDU_NL_SINGLE_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
// Test 1: Read GSM alphabets.
// Write alphabets before ESCAPE.
for (let i = 0; i < PDU_NL_EXTENDED_ESCAPE; i++) {
helper.writeHexOctet(i);
}
// Write two ESCAPEs to make it become ' '.
helper.writeHexOctet(PDU_NL_EXTENDED_ESCAPE);
helper.writeHexOctet(PDU_NL_EXTENDED_ESCAPE);
for (let i = PDU_NL_EXTENDED_ESCAPE + 1; i < langTable.length; i++) {
helper.writeHexOctet(i);
}
// Also write two unused fields.
let ffLen = 2;
for (let i = 0; i < ffLen; i++) {
helper.writeHexOctet(0xff);
}
do_check_eq(iccHelper.read8BitUnpackedToString(PDU_NL_EXTENDED_ESCAPE),
langTable.substring(0, PDU_NL_EXTENDED_ESCAPE));
do_check_eq(iccHelper.read8BitUnpackedToString(2), " ");
do_check_eq(iccHelper.read8BitUnpackedToString(langTable.length -
PDU_NL_EXTENDED_ESCAPE - 1 + ffLen),
langTable.substring(PDU_NL_EXTENDED_ESCAPE + 1));
// Test 2: Read GSM extended alphabets.
for (let i = 0; i < langShiftTable.length; i++) {
helper.writeHexOctet(PDU_NL_EXTENDED_ESCAPE);
helper.writeHexOctet(i);
}
// Read string before RESERVED_CONTROL.
do_check_eq(iccHelper.read8BitUnpackedToString(PDU_NL_RESERVED_CONTROL * 2),
langShiftTable.substring(0, PDU_NL_RESERVED_CONTROL));
// ESCAPE + RESERVED_CONTROL will become ' '.
do_check_eq(iccHelper.read8BitUnpackedToString(2), " ");
// Read string between RESERVED_CONTROL and EXTENDED_ESCAPE.
do_check_eq(iccHelper.read8BitUnpackedToString(
(PDU_NL_EXTENDED_ESCAPE - PDU_NL_RESERVED_CONTROL - 1) * 2),
langShiftTable.substring(PDU_NL_RESERVED_CONTROL + 1,
PDU_NL_EXTENDED_ESCAPE));
// ESCAPE + ESCAPE will become ' '.
do_check_eq(iccHelper.read8BitUnpackedToString(2), " ");
// Read remaining string.
do_check_eq(iccHelper.read8BitUnpackedToString(
(langShiftTable.length - PDU_NL_EXTENDED_ESCAPE - 1) * 2),
langShiftTable.substring(PDU_NL_EXTENDED_ESCAPE + 1));
run_next_test();
});
/**
* Verify ICCPDUHelper#writeStringTo8BitUnpacked.
*
* Test writing GSM 8 bit alphabets.
*/
add_test(function test_write_string_to_8bit_unpacked() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
const langTable = PDU_NL_LOCKING_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
const langShiftTable = PDU_NL_SINGLE_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
// Length of trailing 0xff.
let ffLen = 2;
let str;
// Test 1, write GSM alphabets.
iccHelper.writeStringTo8BitUnpacked(langTable.length + ffLen, langTable);
for (let i = 0; i < langTable.length; i++) {
do_check_eq(helper.readHexOctet(), i);
}
for (let i = 0; i < ffLen; i++) {
do_check_eq(helper.readHexOctet(), 0xff);
}
// Test 2, write GSM extended alphabets.
str = "\u000c\u20ac";
iccHelper.writeStringTo8BitUnpacked(4, str);
do_check_eq(iccHelper.read8BitUnpackedToString(4), str);
// Test 3, write GSM and GSM extended alphabets.
// \u000c, \u20ac are from gsm extended alphabets.
// \u00a3 is from gsm alphabet.
str = "\u000c\u20ac\u00a3";
// 2 octets * 2 = 4 octets for 2 gsm extended alphabets,
// 1 octet for 1 gsm alphabet,
// 2 octes for trailing 0xff.
// "Totally 7 octets are to be written."
iccHelper.writeStringTo8BitUnpacked(7, str);
do_check_eq(iccHelper.read8BitUnpackedToString(7), str);
run_next_test();
});
/**
* Verify ICCPDUHelper#writeStringTo8BitUnpacked with maximum octets written.
*/
add_test(function test_write_string_to_8bit_unpacked_with_max_octets_written() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
const langTable = PDU_NL_LOCKING_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
const langShiftTable = PDU_NL_SINGLE_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
// The maximum of the number of octets that can be written is 3.
// Only 3 characters shall be written even the length of the string is 4.
iccHelper.writeStringTo8BitUnpacked(3, langTable.substring(0, 4));
helper.writeHexOctet(0xff); // dummy octet.
for (let i = 0; i < 3; i++) {
do_check_eq(helper.readHexOctet(), i);
}
do_check_false(helper.readHexOctet() == 4);
// \u000c is GSM extended alphabet, 2 octets.
// \u00a3 is GSM alphabet, 1 octet.
let str = "\u000c\u00a3";
iccHelper.writeStringTo8BitUnpacked(3, str);
do_check_eq(iccHelper.read8BitUnpackedToString(3), str);
str = "\u00a3\u000c";
iccHelper.writeStringTo8BitUnpacked(3, str);
do_check_eq(iccHelper.read8BitUnpackedToString(3), str);
// 2 GSM extended alphabets cost 4 octets, but maximum is 3, so only the 1st
// alphabet can be written.
str = "\u000c\u000c";
iccHelper.writeStringTo8BitUnpacked(3, str);
helper.writeHexOctet(0xff); // dummy octet.
do_check_eq(iccHelper.read8BitUnpackedToString(4), str.substring(0, 1));
run_next_test();
});
/**
* Verify ICCPDUHelper.readAlphaIdentifier
*/
add_test(function test_read_alpha_identifier() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
// UCS2: 0x80
let text = "TEST";
helper.writeHexOctet(0x80);
helper.writeUCS2String(text);
// Also write two unused octets.
let ffLen = 2;
for (let i = 0; i < ffLen; i++) {
helper.writeHexOctet(0xff);
}
do_check_eq(iccHelper.readAlphaIdentifier(1 + (2 * text.length) + ffLen), text);
// UCS2: 0x81
let array = [0x81, 0x08, 0xd2, 0x4d, 0x6f, 0x7a, 0x69, 0x6c, 0x6c, 0x61, 0xca, 0xff, 0xff];
for (let i = 0; i < array.length; i++) {
helper.writeHexOctet(array[i]);
}
do_check_eq(iccHelper.readAlphaIdentifier(array.length), "Mozilla\u694a");
// UCS2: 0x82
let array2 = [0x82, 0x08, 0x69, 0x00, 0x4d, 0x6f, 0x7a, 0x69, 0x6c, 0x6c, 0x61, 0xca, 0xff, 0xff];
for (let i = 0; i < array2.length; i++) {
helper.writeHexOctet(array2[i]);
}
do_check_eq(iccHelper.readAlphaIdentifier(array2.length), "Mozilla\u694a");
// GSM 8 Bit Unpacked
const langTable = PDU_NL_LOCKING_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
for (let i = 0; i < PDU_NL_EXTENDED_ESCAPE; i++) {
helper.writeHexOctet(i);
}
do_check_eq(iccHelper.readAlphaIdentifier(PDU_NL_EXTENDED_ESCAPE),
langTable.substring(0, PDU_NL_EXTENDED_ESCAPE));
run_next_test();
});
/**
* Verify ICCPDUHelper.writeAlphaIdentifier
*/
add_test(function test_write_alpha_identifier() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
// Length of trailing 0xff.
let ffLen = 2;
// Removal
iccHelper.writeAlphaIdentifier(10, null);
do_check_eq(iccHelper.readAlphaIdentifier(10), "");
// GSM 8 bit
let str = "Mozilla";
iccHelper.writeAlphaIdentifier(str.length + ffLen, str);
do_check_eq(iccHelper.readAlphaIdentifier(str.length + ffLen), str);
// UCS2
str = "Mozilla\u694a";
iccHelper.writeAlphaIdentifier(str.length * 2 + ffLen, str);
// * 2 for each character will be encoded to UCS2 alphabets.
do_check_eq(iccHelper.readAlphaIdentifier(str.length * 2 + ffLen), str);
// Test with maximum octets written.
// 1 coding scheme (0x80) and 1 UCS2 character, total 3 octets.
str = "\u694a";
iccHelper.writeAlphaIdentifier(3, str);
do_check_eq(iccHelper.readAlphaIdentifier(3), str);
// 1 coding scheme (0x80) and 2 UCS2 characters, total 5 octets.
// numOctets is limited to 4, so only 1 UCS2 character can be written.
str = "\u694a\u694a";
iccHelper.writeAlphaIdentifier(4, str);
helper.writeHexOctet(0xff); // dummy octet.
do_check_eq(iccHelper.readAlphaIdentifier(5), str.substring(0, 1));
// Write 0 octet.
iccHelper.writeAlphaIdentifier(0, "1");
helper.writeHexOctet(0xff); // dummy octet.
do_check_eq(iccHelper.readAlphaIdentifier(1), "");
run_next_test();
});
/**
* Verify ICCPDUHelper.readAlphaIdDiallingNumber
*/
add_test(function test_read_alpha_id_dialling_number() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
let buf = worker.Buf;
const recordSize = 32;
function testReadAlphaIdDiallingNumber(contact) {
iccHelper.readAlphaIdentifier = function () {
return contact.alphaId;
};
iccHelper.readNumberWithLength = function () {
return contact.number;
};
let strLen = recordSize * 2;
buf.writeInt32(strLen); // fake length
helper.writeHexOctet(0xff); // fake CCP
helper.writeHexOctet(0xff); // fake EXT1
buf.writeStringDelimiter(strLen);
let contactR = iccHelper.readAlphaIdDiallingNumber(recordSize);
if (contact.alphaId == "" && contact.number == "") {
do_check_eq(contactR, null);
} else {
do_check_eq(contactR.alphaId, contact.alphaId);
do_check_eq(contactR.number, contact.number);
}
}
testReadAlphaIdDiallingNumber({alphaId: "AlphaId", number: "0987654321"});
testReadAlphaIdDiallingNumber({alphaId: "", number: ""});
run_next_test();
});
/**
* Verify ICCPDUHelper.writeAlphaIdDiallingNumber
*/
add_test(function test_write_alpha_id_dialling_number() {
let worker = newUint8Worker();
let helper = worker.ICCPDUHelper;
const recordSize = 32;
// Write a normal contact.
let contactW = {
alphaId: "Mozilla",
number: "1234567890"
};
helper.writeAlphaIdDiallingNumber(recordSize, contactW.alphaId,
contactW.number);
let contactR = helper.readAlphaIdDiallingNumber(recordSize);
do_check_eq(contactW.alphaId, contactR.alphaId);
do_check_eq(contactW.number, contactR.number);
// Write a contact with alphaId encoded in UCS2 and number has '+'.
let contactUCS2 = {
alphaId: "火狐",
number: "+1234567890"
};
helper.writeAlphaIdDiallingNumber(recordSize, contactUCS2.alphaId,
contactUCS2.number);
contactR = helper.readAlphaIdDiallingNumber(recordSize);
do_check_eq(contactUCS2.alphaId, contactR.alphaId);
do_check_eq(contactUCS2.number, contactR.number);
// Write a null contact (Removal).
helper.writeAlphaIdDiallingNumber(recordSize);
contactR = helper.readAlphaIdDiallingNumber(recordSize);
do_check_eq(contactR, null);
// Write a longer alphaId/dialling number
// Dialling Number : Maximum 20 digits(10 octets).
// Alpha Identifier: 32(recordSize) - 14 (10 octets for Dialling Number, 1
// octet for TON/NPI, 1 for number length octet, and 2 for
// Ext) = Maximum 18 octets.
let longContact = {
alphaId: "AAAAAAAAABBBBBBBBBCCCCCCCCC",
number: "123456789012345678901234567890",
};
helper.writeAlphaIdDiallingNumber(recordSize, longContact.alphaId,
longContact.number);
contactR = helper.readAlphaIdDiallingNumber(recordSize);
do_check_eq(contactR.alphaId, "AAAAAAAAABBBBBBBBB");
do_check_eq(contactR.number, "12345678901234567890");
// Add '+' to number and test again.
longContact.number = "+123456789012345678901234567890";
helper.writeAlphaIdDiallingNumber(recordSize, longContact.alphaId,
longContact.number);
contactR = helper.readAlphaIdDiallingNumber(recordSize);
do_check_eq(contactR.alphaId, "AAAAAAAAABBBBBBBBB");
do_check_eq(contactR.number, "+12345678901234567890");
run_next_test();
});
/**
* Verify ICCPDUHelper.writeDiallingNumber
*/
add_test(function test_write_dialling_number() {
let worker = newUint8Worker();
let helper = worker.ICCPDUHelper;
// with +
let number = "+123456";
let len = 4;
helper.writeDiallingNumber(number);
do_check_eq(helper.readDiallingNumber(len), number);
// without +
number = "987654";
len = 4;
helper.writeDiallingNumber(number);
do_check_eq(helper.readDiallingNumber(len), number);
number = "9876543";
len = 5;
helper.writeDiallingNumber(number);
do_check_eq(helper.readDiallingNumber(len), number);
run_next_test();
});
/**
* Verify ICCPDUHelper.readNumberWithLength
*/
add_test(function test_read_number_with_length() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
let number = "123456789";
iccHelper.readDiallingNumber = function (numLen) {
return number.substring(0, numLen);
};
helper.writeHexOctet(number.length + 1);
helper.writeHexOctet(PDU_TOA_ISDN);
do_check_eq(iccHelper.readNumberWithLength(), number);
helper.writeHexOctet(0xff);
do_check_eq(iccHelper.readNumberWithLength(), null);
run_next_test();
});
/**
* Verify ICCPDUHelper.writeNumberWithLength
*/
add_test(function test_write_number_with_length() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
// without +
let number_1 = "123456789";
iccHelper.writeNumberWithLength(number_1);
let numLen = helper.readHexOctet();
do_check_eq(number_1, iccHelper.readDiallingNumber(numLen));
for (let i = 0; i < (ADN_MAX_BCD_NUMBER_BYTES - numLen); i++) {
do_check_eq(0xff, helper.readHexOctet());
}
// with +
let number_2 = "+987654321";
iccHelper.writeNumberWithLength(number_2);
numLen = helper.readHexOctet();
do_check_eq(number_2, iccHelper.readDiallingNumber(numLen));
for (let i = 0; i < (ADN_MAX_BCD_NUMBER_BYTES - numLen); i++) {
do_check_eq(0xff, helper.readHexOctet());
}
// null
let number_3;
iccHelper.writeNumberWithLength(number_3);
for (let i = 0; i < (ADN_MAX_BCD_NUMBER_BYTES + 1); i++) {
do_check_eq(0xff, helper.readHexOctet());
}
run_next_test();
});
/**
* Verify GsmPDUHelper.writeTimestamp
*/
add_test(function test_write_timestamp() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
// current date
let dateInput = new Date();
let dateOutput = new Date();
helper.writeTimestamp(dateInput);
dateOutput.setTime(helper.readTimestamp());
do_check_eq(dateInput.getFullYear(), dateOutput.getFullYear());
do_check_eq(dateInput.getMonth(), dateOutput.getMonth());
do_check_eq(dateInput.getDate(), dateOutput.getDate());
do_check_eq(dateInput.getHours(), dateOutput.getHours());
do_check_eq(dateInput.getMinutes(), dateOutput.getMinutes());
do_check_eq(dateInput.getSeconds(), dateOutput.getSeconds());
do_check_eq(dateInput.getTimezoneOffset(), dateOutput.getTimezoneOffset());
// 2034-01-23 12:34:56 -0800 GMT
let time = Date.UTC(2034, 1, 23, 12, 34, 56);
time = time - (8 * 60 * 60 * 1000);
dateInput.setTime(time);
helper.writeTimestamp(dateInput);
dateOutput.setTime(helper.readTimestamp());
do_check_eq(dateInput.getFullYear(), dateOutput.getFullYear());
do_check_eq(dateInput.getMonth(), dateOutput.getMonth());
do_check_eq(dateInput.getDate(), dateOutput.getDate());
do_check_eq(dateInput.getHours(), dateOutput.getHours());
do_check_eq(dateInput.getMinutes(), dateOutput.getMinutes());
do_check_eq(dateInput.getSeconds(), dateOutput.getSeconds());
do_check_eq(dateInput.getTimezoneOffset(), dateOutput.getTimezoneOffset());
run_next_test();
});
/**
* Verify GsmPDUHelper.octectToBCD and GsmPDUHelper.BCDToOctet
*/
add_test(function test_octect_BCD() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
// 23
let number = 23;
let octet = helper.BCDToOctet(number);
do_check_eq(helper.octetToBCD(octet), number);
// 56
number = 56;
octet = helper.BCDToOctet(number);
do_check_eq(helper.octetToBCD(octet), number);
// 0x23
octet = 0x23;
number = helper.octetToBCD(octet);
do_check_eq(helper.BCDToOctet(number), octet);
// 0x56
octet = 0x56;
number = helper.octetToBCD(octet);
do_check_eq(helper.BCDToOctet(number), octet);
run_next_test();
});
/**
* Verify ICCUtilsHelper.isICCServiceAvailable.
*/
add_test(function test_is_icc_service_available() {
let worker = newUint8Worker();
let ICCUtilsHelper = worker.ICCUtilsHelper;
function test_table(sst, geckoService, simEnabled, usimEnabled) {
worker.RIL.iccInfoPrivate.sst = sst;
worker.RIL.appType = CARD_APPTYPE_SIM;
do_check_eq(ICCUtilsHelper.isICCServiceAvailable(geckoService), simEnabled);
worker.RIL.appType = CARD_APPTYPE_USIM;
do_check_eq(ICCUtilsHelper.isICCServiceAvailable(geckoService), usimEnabled);
}
test_table([0x08], "ADN", true, false);
test_table([0x08], "FDN", false, false);
test_table([0x08], "SDN", false, true);
run_next_test();
});
/**
* Verify ICCUtilsHelper.isGsm8BitAlphabet
*/
add_test(function test_is_gsm_8bit_alphabet() {
let worker = newUint8Worker();
let ICCUtilsHelper = worker.ICCUtilsHelper;
const langTable = PDU_NL_LOCKING_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
const langShiftTable = PDU_NL_SINGLE_SHIFT_TABLES[PDU_NL_IDENTIFIER_DEFAULT];
do_check_eq(ICCUtilsHelper.isGsm8BitAlphabet(langTable), true);
do_check_eq(ICCUtilsHelper.isGsm8BitAlphabet(langShiftTable), true);
do_check_eq(ICCUtilsHelper.isGsm8BitAlphabet("\uaaaa"), false);
run_next_test();
});
/**
* Verify RIL.iccGetCardLockState("fdn")
*/
add_test(function test_icc_get_card_lock_state_fdn() {
let worker = newUint8Worker();
let ril = worker.RIL;
let buf = worker.Buf;
buf.sendParcel = function () {
// Request Type.
do_check_eq(this.readInt32(), REQUEST_QUERY_FACILITY_LOCK)
// Token : we don't care.
this.readInt32();
// String Array Length.
do_check_eq(this.readInt32(), worker.RILQUIRKS_V5_LEGACY ? 3 : 4);
// Facility.
do_check_eq(this.readString(), ICC_CB_FACILITY_FDN);
// Password.
do_check_eq(this.readString(), "");
// Service class.
do_check_eq(this.readString(), (ICC_SERVICE_CLASS_VOICE |
ICC_SERVICE_CLASS_DATA |
ICC_SERVICE_CLASS_FAX).toString());
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
run_next_test();
};
ril.iccGetCardLockState({lockType: "fdn"});
});
add_test(function test_get_network_name_from_icc() {
let worker = newUint8Worker();
let RIL = worker.RIL;
let ICCUtilsHelper = worker.ICCUtilsHelper;
function testGetNetworkNameFromICC(operatorData, expectedResult) {
let result = ICCUtilsHelper.getNetworkNameFromICC(operatorData.mcc,
operatorData.mnc,
operatorData.lac);
if (expectedResult == null) {
do_check_eq(result, expectedResult);
} else {
do_check_eq(result.fullName, expectedResult.longName);
do_check_eq(result.shortName, expectedResult.shortName);
}
}
// Before EF_OPL and EF_PNN have been loaded.
testGetNetworkNameFromICC({mcc: 123, mnc: 456, lac: 0x1000}, null);
testGetNetworkNameFromICC({mcc: 321, mnc: 654, lac: 0x2000}, null);
// Set HPLMN
RIL.iccInfo.mcc = 123;
RIL.iccInfo.mnc = 456;
RIL.voiceRegistrationState = {
cell: {
gsmLocationAreaCode: 0x1000
}
};
RIL.operator = {};
// Set EF_PNN
RIL.iccInfoPrivate = {
PNN: [
{"fullName": "PNN1Long", "shortName": "PNN1Short"},
{"fullName": "PNN2Long", "shortName": "PNN2Short"},
{"fullName": "PNN3Long", "shortName": "PNN3Short"},
{"fullName": "PNN4Long", "shortName": "PNN4Short"}
]
};
// EF_OPL isn't available and current isn't in HPLMN,
testGetNetworkNameFromICC({mcc: 321, mnc: 654, lac: 0x1000}, null);
// EF_OPL isn't available and current is in HPLMN,
// the first record of PNN should be returned.
testGetNetworkNameFromICC({mcc: 123, mnc: 456, lac: 0x1000},
{longName: "PNN1Long", shortName: "PNN1Short"});
// Set EF_OPL
RIL.iccInfoPrivate.OPL = [
{
"mcc": 123,
"mnc": 456,
"lacTacStart": 0,
"lacTacEnd": 0xFFFE,
"pnnRecordId": 4
},
{
"mcc": 321,
"mnc": 654,
"lacTacStart": 0,
"lacTacEnd": 0x0010,
"pnnRecordId": 3
},
{
"mcc": 321,
"mnc": 654,
"lacTacStart": 0x0100,
"lacTacEnd": 0x1010,
"pnnRecordId": 2
}
];
// Both EF_PNN and EF_OPL are presented, and current PLMN is HPLMN,
testGetNetworkNameFromICC({mcc: 123, mnc: 456, lac: 0x1000},
{longName: "PNN4Long", shortName: "PNN4Short"});
// Current PLMN is not HPLMN, and according to LAC, we should get
// the second PNN record.
testGetNetworkNameFromICC({mcc: 321, mnc: 654, lac: 0x1000},
{longName: "PNN2Long", shortName: "PNN2Short"});
// Current PLMN is not HPLMN, and according to LAC, we should get
// the thrid PNN record.
testGetNetworkNameFromICC({mcc: 321, mnc: 654, lac: 0x0001},
{longName: "PNN3Long", shortName: "PNN3Short"});
run_next_test();
});
add_test(function test_path_id_for_spid_and_spn() {
let worker = newWorker({
postRILMessage: function fakePostRILMessage(data) {
// Do nothing
},
postMessage: function fakePostMessage(message) {
// Do nothing
}});
let RIL = worker.RIL;
let ICCFileHelper = worker.ICCFileHelper;
// Test SIM
RIL.appType = CARD_APPTYPE_SIM;
do_check_eq(ICCFileHelper.getEFPath(ICC_EF_SPDI),
EF_PATH_MF_SIM + EF_PATH_DF_GSM);
do_check_eq(ICCFileHelper.getEFPath(ICC_EF_SPN),
EF_PATH_MF_SIM + EF_PATH_DF_GSM);
// Test USIM
RIL.appType = CARD_APPTYPE_USIM;
do_check_eq(ICCFileHelper.getEFPath(ICC_EF_SPDI),
EF_PATH_MF_SIM + EF_PATH_ADF_USIM);
do_check_eq(ICCFileHelper.getEFPath(ICC_EF_SPDI),
EF_PATH_MF_SIM + EF_PATH_ADF_USIM);
run_next_test();
});
/**
* Verify ICCUtilsHelper.parsePbrTlvs
*/
add_test(function test_parse_pbr_tlvs() {
let worker = newUint8Worker();
let buf = worker.Buf;
let pbrTlvs = [
{tag: ICC_USIM_TYPE1_TAG,
length: 0x0F,
value: [{tag: ICC_USIM_EFADN_TAG,
length: 0x03,
value: [0x4F, 0x3A, 0x02]},
{tag: ICC_USIM_EFIAP_TAG,
length: 0x03,
value: [0x4F, 0x25, 0x01]},
{tag: ICC_USIM_EFPBC_TAG,
length: 0x03,
value: [0x4F, 0x09, 0x04]}]
},
{tag: ICC_USIM_TYPE2_TAG,
length: 0x05,
value: [{tag: ICC_USIM_EFEMAIL_TAG,
length: 0x03,
value: [0x4F, 0x50, 0x0B]},
{tag: ICC_USIM_EFANR_TAG,
length: 0x03,
value: [0x4F, 0x11, 0x02]},
{tag: ICC_USIM_EFANR_TAG,
length: 0x03,
value: [0x4F, 0x12, 0x03]}]
},
{tag: ICC_USIM_TYPE3_TAG,
length: 0x0A,
value: [{tag: ICC_USIM_EFCCP1_TAG,
length: 0x03,
value: [0x4F, 0x3D, 0x0A]},
{tag: ICC_USIM_EFEXT1_TAG,
length: 0x03,
value: [0x4F, 0x4A, 0x03]}]
},
];
let pbr = worker.ICCUtilsHelper.parsePbrTlvs(pbrTlvs);
do_check_eq(pbr.adn.fileId, 0x4F3a);
do_check_eq(pbr.iap.fileId, 0x4F25);
do_check_eq(pbr.pbc.fileId, 0x4F09);
do_check_eq(pbr.email.fileId, 0x4F50);
do_check_eq(pbr.anr0.fileId, 0x4f11);
do_check_eq(pbr.anr1.fileId, 0x4f12);
do_check_eq(pbr.ccp1.fileId, 0x4F3D);
do_check_eq(pbr.ext1.fileId, 0x4F4A);
run_next_test();
});
/**
* Verify ICCIOHelper.loadLinearFixedEF with recordSize.
*/
add_test(function test_load_linear_fixed_ef() {
let worker = newUint8Worker();
let ril = worker.RIL;
let io = worker.ICCIOHelper;
io.getResponse = function fakeGetResponse(options) {
// When recordSize is provided, loadLinearFixedEF should call iccIO directly.
do_check_true(false);
run_next_test();
};
ril.iccIO = function fakeIccIO(options) {
do_check_true(true);
run_next_test();
};
io.loadLinearFixedEF({recordSize: 0x20});
});
/**
* Verify ICCIOHelper.loadLinearFixedEF without recordSize.
*/
add_test(function test_load_linear_fixed_ef() {
let worker = newUint8Worker();
let ril = worker.RIL;
let io = worker.ICCIOHelper;
io.getResponse = function fakeGetResponse(options) {
do_check_true(true);
run_next_test();
};
ril.iccIO = function fakeIccIO(options) {
// When recordSize is not provided, loadLinearFixedEF should call getResponse.
do_check_true(false);
run_next_test();
};
io.loadLinearFixedEF({});
});
/**
* Verify ICCRecordHelper.readPBR
*/
add_test(function test_read_pbr() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let record = worker.ICCRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
let pbr_1 = [
0xa8, 0x05, 0xc0, 0x03, 0x4f, 0x3a, 0x01
];
// Write data size
buf.writeInt32(pbr_1.length * 2);
// Write pbr
for (let i = 0; i < pbr_1.length; i++) {
helper.writeHexOctet(pbr_1[i]);
}
// Write string delimiter
buf.writeStringDelimiter(pbr_1.length * 2);
options.totalRecords = 2;
if (options.callback) {
options.callback(options);
}
};
io.loadNextRecord = function fakeLoadNextRecord(options) {
let pbr_2 = [
0xff, 0xff, 0xff, 0xff, 0xff, 0xff
];
options.p1++;
if (options.callback) {
options.callback(options);
}
};
let successCb = function successCb(pbrs) {
do_check_eq(pbrs[0].adn.fileId, 0x4f3a);
do_check_eq(pbrs.length, 1);
};
let errorCb = function errorCb(errorMsg) {
do_print("Reading EF_PBR failed, msg = " + errorMsg);
do_check_true(false);
};
record.readPBR(successCb, errorCb);
// Check cache pbrs when 2nd call
let ifLoadEF = false;
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
ifLoadEF = true;
}
record.readPBR(successCb, errorCb);
do_check_false(ifLoadEF);
run_next_test();
});
/**
* Verify ICCRecordHelper.readEmail
*/
add_test(function test_read_email() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let record = worker.ICCRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
let recordSize;
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
let email_1 = [
0x65, 0x6D, 0x61, 0x69, 0x6C,
0x00, 0x6D, 0x6F, 0x7A, 0x69,
0x6C, 0x6C, 0x61, 0x2E, 0x63,
0x6F, 0x6D, 0x02, 0x23];
// Write data size
buf.writeInt32(email_1.length * 2);
// Write email
for (let i = 0; i < email_1.length; i++) {
helper.writeHexOctet(email_1[i]);
}
// Write string delimiter
buf.writeStringDelimiter(email_1.length * 2);
recordSize = email_1.length;
options.recordSize = recordSize;
if (options.callback) {
options.callback(options);
}
};
function doTestReadEmail(type, expectedResult) {
let fileId = 0x6a75;
let recordNumber = 1;
// fileId and recordNumber are dummy arguments.
record.readEmail(fileId, type, recordNumber, function (email) {
do_check_eq(email, expectedResult);
});
};
doTestReadEmail(ICC_USIM_TYPE1_TAG, "email@mozilla.com$#");
doTestReadEmail(ICC_USIM_TYPE2_TAG, "email@mozilla.com");
do_check_eq(record._emailRecordSize, recordSize);
run_next_test();
});
/**
* Verify ICCRecordHelper.updateEmail
*/
add_test(function test_update_email() {
const recordSize = 0x20;
const recordNumber = 1;
const fileId = 0x4f50;
const NUM_TESTS = 2;
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
let ril = worker.RIL;
ril.appType = CARD_APPTYPE_USIM;
let recordHelper = worker.ICCRecordHelper;
let buf = worker.Buf;
let ioHelper = worker.ICCIOHelper;
let pbr = {email: {fileId: fileId, fileType: ICC_USIM_TYPE1_TAG},
adn: {sfi: 1}};
let count = 0;
// Override.
ioHelper.updateLinearFixedEF = function (options) {
options.pathId = worker.ICCFileHelper.getEFPath(options.fileId);
options.command = ICC_COMMAND_UPDATE_RECORD;
options.p1 = options.recordNumber;
options.p2 = READ_RECORD_ABSOLUTE_MODE;
options.p3 = recordSize;
ril.iccIO(options);
};
function do_test(pbr, expectedEmail, expectedAdnRecordId) {
buf.sendParcel = function () {
count++;
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SIM_IO);
// Token : we don't care
this.readInt32();
// command.
do_check_eq(this.readInt32(), ICC_COMMAND_UPDATE_RECORD);
// fileId.
do_check_eq(this.readInt32(), fileId);
// pathId.
do_check_eq(this.readString(),
EF_PATH_MF_SIM + EF_PATH_DF_TELECOM + EF_PATH_DF_PHONEBOOK);
// p1.
do_check_eq(this.readInt32(), recordNumber);
// p2.
do_check_eq(this.readInt32(), READ_RECORD_ABSOLUTE_MODE);
// p3.
do_check_eq(this.readInt32(), recordSize);
// data.
let strLen = this.readInt32();
let email;
if (pbr.email.fileType === ICC_USIM_TYPE1_TAG) {
email = iccHelper.read8BitUnpackedToString(recordSize);
} else {
email = iccHelper.read8BitUnpackedToString(recordSize - 2);
do_check_eq(pduHelper.readHexOctet(), pbr.adn.sfi);
do_check_eq(pduHelper.readHexOctet(), expectedAdnRecordId);
}
this.readStringDelimiter(strLen);
do_check_eq(email, expectedEmail);
// pin2.
do_check_eq(this.readString(), null);
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
if (count == NUM_TESTS) {
run_next_test();
}
};
recordHelper.updateEmail(pbr, recordNumber, expectedEmail, expectedAdnRecordId);
}
do_test(pbr, "test@mail.com");
pbr.email.fileType = ICC_USIM_TYPE2_TAG;
do_test(pbr, "test@mail.com", 1);
});
/**
* Verify ICCRecordHelper.readANR
*/
add_test(function test_read_anr() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let record = worker.ICCRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
let recordSize;
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
let anr_1 = [
0x01, 0x05, 0x81, 0x10, 0x32,
0x54, 0xF6, 0xFF, 0xFF];
// Write data size
buf.writeInt32(anr_1.length * 2);
// Write anr
for (let i = 0; i < anr_1.length; i++) {
helper.writeHexOctet(anr_1[i]);
}
// Write string delimiter
buf.writeStringDelimiter(anr_1.length * 2);
recordSize = anr_1.length;
options.recordSize = recordSize;
if (options.callback) {
options.callback(options);
}
};
function doTestReadAnr(fileType, expectedResult) {
let fileId = 0x4f11;
let recordNumber = 1;
// fileId and recordNumber are dummy arguments.
record.readANR(fileId, fileType, recordNumber, function (anr) {
do_check_eq(anr, expectedResult);
});
};
doTestReadAnr(ICC_USIM_TYPE1_TAG, "0123456");
do_check_eq(record._anrRecordSize, recordSize);
run_next_test();
});
/**
* Verify ICCRecordHelper.updateANR
*/
add_test(function test_update_anr() {
const recordSize = 0x20;
const recordNumber = 1;
const fileId = 0x4f11;
const NUM_TESTS = 2;
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let iccHelper = worker.ICCPDUHelper;
let ril = worker.RIL;
ril.appType = CARD_APPTYPE_USIM;
let recordHelper = worker.ICCRecordHelper;
let buf = worker.Buf;
let ioHelper = worker.ICCIOHelper;
let pbr = {anr0: {fileId: fileId, fileType: ICC_USIM_TYPE1_TAG},
adn: {sfi: 1}};
let count = 0;
// Override.
ioHelper.updateLinearFixedEF = function (options) {
options.pathId = worker.ICCFileHelper.getEFPath(options.fileId);
options.command = ICC_COMMAND_UPDATE_RECORD;
options.p1 = options.recordNumber;
options.p2 = READ_RECORD_ABSOLUTE_MODE;
options.p3 = recordSize;
ril.iccIO(options);
};
function do_test(pbr, expectedANR, expectedAdnRecordId) {
buf.sendParcel = function () {
count++;
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SIM_IO);
// Token : we don't care
this.readInt32();
// command.
do_check_eq(this.readInt32(), ICC_COMMAND_UPDATE_RECORD);
// fileId.
do_check_eq(this.readInt32(), fileId);
// pathId.
do_check_eq(this.readString(),
EF_PATH_MF_SIM + EF_PATH_DF_TELECOM + EF_PATH_DF_PHONEBOOK);
// p1.
do_check_eq(this.readInt32(), recordNumber);
// p2.
do_check_eq(this.readInt32(), READ_RECORD_ABSOLUTE_MODE);
// p3.
do_check_eq(this.readInt32(), recordSize);
// data.
let strLen = this.readInt32();
// EF_AAS, ignore.
pduHelper.readHexOctet();
do_check_eq(iccHelper.readNumberWithLength(), expectedANR);
// EF_CCP, ignore.
pduHelper.readHexOctet();
// EF_EXT1, ignore.
pduHelper.readHexOctet();
if (pbr.anr0.fileType === ICC_USIM_TYPE2_TAG) {
do_check_eq(pduHelper.readHexOctet(), pbr.adn.sfi);
do_check_eq(pduHelper.readHexOctet(), expectedAdnRecordId);
}
this.readStringDelimiter(strLen);
// pin2.
do_check_eq(this.readString(), null);
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
if (count == NUM_TESTS) {
run_next_test();
}
};
recordHelper.updateANR(pbr, recordNumber, expectedANR, expectedAdnRecordId);
}
do_test(pbr, "+123456789");
pbr.anr0.fileType = ICC_USIM_TYPE2_TAG;
do_test(pbr, "123456789", 1);
});
/**
* Verify ICCRecordHelper.readIAP
*/
add_test(function test_read_iap() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let record = worker.ICCRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
let recordSize;
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
let iap_1 = [0x01, 0x02];
// Write data size/
buf.writeInt32(iap_1.length * 2);
// Write iap.
for (let i = 0; i < iap_1.length; i++) {
helper.writeHexOctet(iap_1[i]);
}
// Write string delimiter.
buf.writeStringDelimiter(iap_1.length * 2);
recordSize = iap_1.length;
options.recordSize = recordSize;
if (options.callback) {
options.callback(options);
}
};
function doTestReadIAP(expectedIAP) {
const fileId = 0x4f17;
const recordNumber = 1;
let successCb = function successCb(iap) {
for (let i = 0; i < iap.length; i++) {
do_check_eq(expectedIAP[i], iap[i]);
}
run_next_test();
}.bind(this);
let errorCb = function errorCb(errorMsg) {
do_print(errorMsg);
do_check_true(false);
run_next_test();
}.bind(this);
record.readIAP(fileId, recordNumber, successCb, errorCb);
};
doTestReadIAP([1, 2]);
});
/**
* Verify ICCRecordHelper.updateIAP
*/
add_test(function test_update_iap() {
const recordSize = 2;
const recordNumber = 1;
const fileId = 0x4f17;
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let ril = worker.RIL;
ril.appType = CARD_APPTYPE_USIM;
let recordHelper = worker.ICCRecordHelper;
let buf = worker.Buf;
let ioHelper = worker.ICCIOHelper;
let count = 0;
// Override.
ioHelper.updateLinearFixedEF = function (options) {
options.pathId = worker.ICCFileHelper.getEFPath(options.fileId);
options.command = ICC_COMMAND_UPDATE_RECORD;
options.p1 = options.recordNumber;
options.p2 = READ_RECORD_ABSOLUTE_MODE;
options.p3 = recordSize;
ril.iccIO(options);
};
function do_test(expectedIAP) {
buf.sendParcel = function () {
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SIM_IO);
// Token : we don't care
this.readInt32();
// command.
do_check_eq(this.readInt32(), ICC_COMMAND_UPDATE_RECORD);
// fileId.
do_check_eq(this.readInt32(), fileId);
// pathId.
do_check_eq(this.readString(),
EF_PATH_MF_SIM + EF_PATH_DF_TELECOM + EF_PATH_DF_PHONEBOOK);
// p1.
do_check_eq(this.readInt32(), recordNumber);
// p2.
do_check_eq(this.readInt32(), READ_RECORD_ABSOLUTE_MODE);
// p3.
do_check_eq(this.readInt32(), recordSize);
// data.
let strLen = this.readInt32();
for (let i = 0; i < recordSize; i++) {
do_check_eq(expectedIAP[i], pduHelper.readHexOctet());
}
this.readStringDelimiter(strLen);
// pin2.
do_check_eq(this.readString(), null);
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
run_next_test();
};
recordHelper.updateIAP(fileId, recordNumber, expectedIAP);
}
do_test([1, 2]);
});
/**
* Verify ICCRecordHelper.updateADNLike.
*/
add_test(function test_update_adn_like() {
let worker = newUint8Worker();
let ril = worker.RIL;
let record = worker.ICCRecordHelper;
let io = worker.ICCIOHelper;
let pdu = worker.ICCPDUHelper;
let buf = worker.Buf;
ril.appType = CARD_APPTYPE_SIM;
const recordSize = 0x20;
let fileId;
// Override.
io.updateLinearFixedEF = function (options) {
options.pathId = worker.ICCFileHelper.getEFPath(options.fileId);
options.command = ICC_COMMAND_UPDATE_RECORD;
options.p1 = options.recordNumber;
options.p2 = READ_RECORD_ABSOLUTE_MODE;
options.p3 = recordSize;
ril.iccIO(options);
};
buf.sendParcel = function () {
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SIM_IO);
// Token : we don't care
this.readInt32();
// command.
do_check_eq(this.readInt32(), ICC_COMMAND_UPDATE_RECORD);
// fileId.
do_check_eq(this.readInt32(), fileId);
// pathId.
do_check_eq(this.readString(), EF_PATH_MF_SIM + EF_PATH_DF_TELECOM);
// p1.
do_check_eq(this.readInt32(), 1);
// p2.
do_check_eq(this.readInt32(), READ_RECORD_ABSOLUTE_MODE);
// p3.
do_check_eq(this.readInt32(), 0x20);
// data.
let contact = pdu.readAlphaIdDiallingNumber(0x20);
do_check_eq(contact.alphaId, "test");
do_check_eq(contact.number, "123456");
// pin2.
if (fileId == ICC_EF_ADN) {
do_check_eq(this.readString(), null);
} else {
do_check_eq(this.readString(), "1111");
}
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
if (fileId == ICC_EF_FDN) {
run_next_test();
}
};
fileId = ICC_EF_ADN;
record.updateADNLike(fileId,
{recordId: 1, alphaId: "test", number: "123456"});
fileId = ICC_EF_FDN;
record.updateADNLike(fileId,
{recordId: 1, alphaId: "test", number: "123456"},
"1111");
});
/**
* Verify ICCRecordHelper.findFreeRecordId.
*/
add_test(function test_find_free_record_id() {
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let recordHelper = worker.ICCRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
function writeRecord (record) {
// Write data size
buf.writeInt32(record.length * 2);
for (let i = 0; i < record.length; i++) {
pduHelper.writeHexOctet(record[i]);
}
// Write string delimiter
buf.writeStringDelimiter(record.length * 2);
}
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
// Some random data.
let record = [0x12, 0x34, 0x56, 0x78, 0x90];
options.p1 = 1;
options.totalRecords = 2;
writeRecord(record);
if (options.callback) {
options.callback(options);
}
};
io.loadNextRecord = function fakeLoadNextRecord(options) {
// Unused bytes.
let record = [0xff, 0xff, 0xff, 0xff, 0xff];
options.p1++;
writeRecord(record);
if (options.callback) {
options.callback(options);
}
};
let fileId = 0x0000; // Dummy.
recordHelper.findFreeRecordId(
fileId,
function (recordId) {
do_check_eq(recordId, 2);
run_next_test();
}.bind(this),
function (errorMsg) {
do_print(errorMsg);
do_check_true(false);
run_next_test();
}.bind(this));
});
/**
* Verify ICCContactHelper.readICCContacts
*/
add_test(function test_read_icc_contacts() {
let worker = newUint8Worker();
let record = worker.ICCRecordHelper;
let contactHelper = worker.ICCContactHelper;
function do_test(aSimType, aContactType, aExpectedContact, aEnhancedPhoneBook) {
worker.RIL.appType = aSimType;
worker.RIL._isCdma = (aSimType === CARD_APPTYPE_RUIM);
worker.RIL.iccInfoPrivate.cst = (aEnhancedPhoneBook) ?
[0x0, 0x0C, 0x0, 0x0, 0x0]:
[0x0, 0x00, 0x0, 0x0, 0x0];
// Override some functions to test.
contactHelper.getContactFieldRecordId = function (pbr, contact, field, onsuccess, onerror) {
onsuccess(1);
};
record.readPBR = function readPBR(onsuccess, onerror) {
onsuccess([{adn:{fileId: 0x6f3a}, email: {}, anr0: {}}]);
};
record.readADNLike = function readADNLike(fileId, onsuccess, onerror) {
onsuccess([{recordId: 1, alphaId: "name", number: "111111"}])
};
record.readEmail = function readEmail(fileId, fileType, recordNumber, onsuccess, onerror) {
onsuccess("hello@mail.com");
};
record.readANR = function readANR(fileId, fileType, recordNumber, onsuccess, onerror) {
onsuccess("123456");
};
let onsuccess = function onsuccess(contacts) {
let contact = contacts[0];
for (let key in contact) {
do_print("check " + key);
if (Array.isArray(contact[key])) {
do_check_eq(contact[key][0], aExpectedContact[key]);
} else {
do_check_eq(contact[key], aExpectedContact[key]);
}
}
};
let onerror = function onerror(errorMsg) {
do_print("readICCContacts failed: " + errorMsg);
do_check_true(false);
};
contactHelper.readICCContacts(aSimType, aContactType, onsuccess, onerror);
}
let expectedContact1 = {
pbrIndex: 0,
recordId: 1,
alphaId: "name",
number: "111111"
};
let expectedContact2 = {
pbrIndex: 0,
recordId: 1,
alphaId: "name",
number: "111111",
email: "hello@mail.com",
anr: "123456"
};
// SIM
do_print("Test read SIM adn contacts");
do_test(CARD_APPTYPE_SIM, "adn", expectedContact1);
do_print("Test read SIM fdn contacts");
do_test(CARD_APPTYPE_SIM, "fdn", expectedContact1);
// USIM
do_print("Test read USIM adn contacts");
do_test(CARD_APPTYPE_USIM, "adn", expectedContact2);
do_print("Test read USIM fdn contacts");
do_test(CARD_APPTYPE_USIM, "fdn", expectedContact1);
// RUIM
do_print("Test read RUIM adn contacts");
do_test(CARD_APPTYPE_RUIM, "adn", expectedContact1);
do_print("Test read RUIM fdn contacts");
do_test(CARD_APPTYPE_RUIM, "fdn", expectedContact1);
// RUIM with enhanced phone book
do_print("Test read RUIM adn contacts with enhanced phone book");
do_test(CARD_APPTYPE_RUIM, "adn", expectedContact2, true);
do_print("Test read RUIM fdn contacts with enhanced phone book");
do_test(CARD_APPTYPE_RUIM, "fdn", expectedContact1, true);
run_next_test();
});
/**
* Verify ICCContactHelper.updateICCContact with appType is CARD_APPTYPE_USIM.
*/
add_test(function test_update_icc_contact() {
const ADN_RECORD_ID = 100;
const ADN_SFI = 1;
const IAP_FILE_ID = 0x4f17;
const EMAIL_FILE_ID = 0x4f50;
const EMAIL_RECORD_ID = 20;
const ANR0_FILE_ID = 0x4f11;
const ANR0_RECORD_ID = 30;
let worker = newUint8Worker();
let recordHelper = worker.ICCRecordHelper;
let contactHelper = worker.ICCContactHelper;
function do_test(aSimType, aContactType, aContact, aPin2, aFileType, aEnhancedPhoneBook) {
worker.RIL.appType = aSimType;
worker.RIL._isCdma = (aSimType === CARD_APPTYPE_RUIM);
worker.RIL.iccInfoPrivate.cst = (aEnhancedPhoneBook) ?
[0x0, 0x0C, 0x0, 0x0, 0x0]:
[0x0, 0x00, 0x0, 0x0, 0x0];
recordHelper.readPBR = function (onsuccess, onerror) {
if (aFileType === ICC_USIM_TYPE1_TAG) {
onsuccess([{
adn: {fileId: ICC_EF_ADN},
email: {fileId: EMAIL_FILE_ID,
fileType: ICC_USIM_TYPE1_TAG},
anr0: {fileId: ANR0_FILE_ID,
fileType: ICC_USIM_TYPE1_TAG}
}]);
} else if (aFileType === ICC_USIM_TYPE2_TAG) {
onsuccess([{
adn: {fileId: ICC_EF_ADN,
sfi: ADN_SFI},
iap: {fileId: IAP_FILE_ID},
email: {fileId: EMAIL_FILE_ID,
fileType: ICC_USIM_TYPE2_TAG,
indexInIAP: 0},
anr0: {fileId: ANR0_FILE_ID,
fileType: ICC_USIM_TYPE2_TAG,
indexInIAP: 1}
}]);
}
};
recordHelper.updateADNLike = function (fileId, contact, pin2, onsuccess, onerror) {
if (aContactType === "fdn") {
do_check_eq(fileId, ICC_EF_FDN);
} else if (aContactType === "adn") {
do_check_eq(fileId, ICC_EF_ADN);
}
do_check_eq(pin2, aPin2);
do_check_eq(contact.alphaId, aContact.alphaId);
do_check_eq(contact.number, aContact.number);
onsuccess();
};
recordHelper.readIAP = function (fileId, recordNumber, onsuccess, onerror) {
do_check_eq(fileId, IAP_FILE_ID);
do_check_eq(recordNumber, ADN_RECORD_ID);
onsuccess([EMAIL_RECORD_ID, ANR0_RECORD_ID]);
};
recordHelper.updateEmail = function (pbr, recordNumber, email, adnRecordId, onsuccess, onerror) {
do_check_eq(pbr.email.fileId, EMAIL_FILE_ID);
if (pbr.email.fileType === ICC_USIM_TYPE1_TAG) {
do_check_eq(recordNumber, ADN_RECORD_ID);
} else if (pbr.email.fileType === ICC_USIM_TYPE2_TAG) {
do_check_eq(recordNumber, EMAIL_RECORD_ID);
}
do_check_eq(email, aContact.email);
onsuccess();
};
recordHelper.updateANR = function (pbr, recordNumber, number, adnRecordId, onsuccess, onerror) {
do_check_eq(pbr.anr0.fileId, ANR0_FILE_ID);
if (pbr.anr0.fileType === ICC_USIM_TYPE1_TAG) {
do_check_eq(recordNumber, ADN_RECORD_ID);
} else if (pbr.anr0.fileType === ICC_USIM_TYPE2_TAG) {
do_check_eq(recordNumber, ANR0_RECORD_ID);
}
do_check_eq(number, aContact.anr[0]);
onsuccess();
};
let onsuccess = function onsuccess() {
do_print("updateICCContact success");
};
let onerror = function onerror(errorMsg) {
do_print("updateICCContact failed: " + errorMsg);
do_check_true(false);
};
contactHelper.updateICCContact(aSimType, aContactType, aContact, aPin2, onsuccess, onerror);
}
let contacts = [
{
pbrIndex: 0,
recordId: ADN_RECORD_ID,
alphaId: "test",
number: "123456",
email: "test@mail.com",
anr: ["+654321"]
},
// a contact without email and anr.
{
pbrIndex: 0,
recordId: ADN_RECORD_ID,
alphaId: "test2",
number: "123456",
}];
for (let i = 0; i < contacts.length; i++) {
let contact = contacts[i];
// SIM
do_print("Test update SIM adn contacts");
do_test(CARD_APPTYPE_SIM, "adn", contact);
do_print("Test update SIM fdn contacts");
do_test(CARD_APPTYPE_SIM, "fdn", contact, "1234");
// USIM
do_print("Test update USIM adn contacts");
do_test(CARD_APPTYPE_USIM, "adn", contact, null, ICC_USIM_TYPE1_TAG);
do_test(CARD_APPTYPE_USIM, "adn", contact, null, ICC_USIM_TYPE2_TAG);
do_print("Test update USIM fdn contacts");
do_test(CARD_APPTYPE_USIM, "fdn", contact, "1234");
// RUIM
do_print("Test update RUIM adn contacts");
do_test(CARD_APPTYPE_RUIM, "adn", contact);
do_print("Test update RUIM fdn contacts");
do_test(CARD_APPTYPE_RUIM, "fdn", contact, "1234");
// RUIM with enhanced phone book
do_print("Test update RUIM adn contacts with enhanced phone book");
do_test(CARD_APPTYPE_RUIM, "adn", contact, null, ICC_USIM_TYPE1_TAG, true);
do_test(CARD_APPTYPE_RUIM, "adn", contact, null, ICC_USIM_TYPE2_TAG, true);
do_print("Test update RUIM fdn contacts with enhanced phone book");
do_test(CARD_APPTYPE_RUIM, "fdn", contact, "1234", null, true);
}
run_next_test();
});
/**
* Verify ICCContactHelper.findFreeICCContact in SIM
*/
add_test(function test_find_free_icc_contact_sim() {
let worker = newUint8Worker();
let recordHelper = worker.ICCRecordHelper;
let contactHelper = worker.ICCContactHelper;
// Correct record Id starts with 1, so put a null element at index 0.
let records = [null];
const MAX_RECORDS = 3;
const PBR_INDEX = 0;
recordHelper.findFreeRecordId = function (fileId, onsuccess, onerror) {
if (records.length > MAX_RECORDS) {
onerror("No free record found.");
return;
}
onsuccess(records.length);
};
let successCb = function (pbrIndex, recordId) {
do_check_eq(pbrIndex, PBR_INDEX);
records[recordId] = {};
};
let errorCb = function (errorMsg) {
do_print(errorMsg);
do_check_true(false);
};
for (let i = 0; i < MAX_RECORDS; i++) {
contactHelper.findFreeICCContact(CARD_APPTYPE_SIM, "adn", successCb, errorCb);
}
// The 1st element, records[0], is null.
do_check_eq(records.length - 1, MAX_RECORDS);
// Now the EF is full, so finding a free one should result failure.
successCb = function (pbrIndex, recordId) {
do_check_true(false);
};
errorCb = function (errorMsg) {
do_check_true(errorMsg === "No free record found.");
};
contactHelper.findFreeICCContact(CARD_APPTYPE_SIM, "adn", successCb, errorCb);
run_next_test();
});
/**
* Verify ICCContactHelper.findFreeICCContact in USIM
*/
add_test(function test_find_free_icc_contact_usim() {
let worker = newUint8Worker();
let recordHelper = worker.ICCRecordHelper;
let contactHelper = worker.ICCContactHelper;
const ADN1_FILE_ID = 0x6f3a;
const ADN2_FILE_ID = 0x6f3b;
const MAX_RECORDS = 3;
// The adn in the first phonebook set has already two records, which means
// only 1 free record remained.
let pbrs = [{adn: {fileId: ADN1_FILE_ID, records: [null, {}, {}]}},
{adn: {fileId: ADN2_FILE_ID, records: [null]}}];
recordHelper.readPBR = function readPBR(onsuccess, onerror) {
onsuccess(pbrs);
};
recordHelper.findFreeRecordId = function (fileId, onsuccess, onerror) {
let pbr = (fileId == ADN1_FILE_ID ? pbrs[0]: pbrs[1]);
if (pbr.adn.records.length > MAX_RECORDS) {
onerror("No free record found.");
return;
}
onsuccess(pbr.adn.records.length);
};
let successCb = function (pbrIndex, recordId) {
do_check_eq(pbrIndex, 0);
pbrs[pbrIndex].adn.records[recordId] = {};
};
let errorCb = function (errorMsg) {
do_check_true(false);
};
contactHelper.findFreeICCContact(CARD_APPTYPE_USIM, "adn", successCb, errorCb);
// Now the EF_ADN in the 1st phonebook set is full, so the next free contact
// will come from the 2nd phonebook set.
successCb = function (pbrIndex, recordId) {
do_check_eq(pbrIndex, 1);
do_check_eq(recordId, 1);
}
contactHelper.findFreeICCContact(CARD_APPTYPE_USIM, "adn", successCb, errorCb);
run_next_test();
});
/**
* Test error message returned in onerror for readICCContacts.
*/
add_test(function test_error_message_read_icc_contact () {
let worker = newUint8Worker();
let ril = worker.RIL;
function do_test(options, expectedErrorMsg) {
ril.sendChromeMessage = function (message) {
do_check_eq(message.errorMsg, expectedErrorMsg);
}
ril.readICCContacts(options);
}
// Error 1, didn't specify correct contactType.
do_test({}, CONTACT_ERR_REQUEST_NOT_SUPPORTED);
// Error 2, specifying a non-supported contactType.
ril.appType = CARD_APPTYPE_USIM;
do_test({contactType: "sdn"}, CONTACT_ERR_CONTACT_TYPE_NOT_SUPPORTED);
// Error 3, suppose we update the supported PBR fields in USIM_PBR_FIELDS,
// but forget to add implemenetations for it.
USIM_PBR_FIELDS.push("pbc");
do_test({contactType: "adn"}, CONTACT_ERR_FIELD_NOT_SUPPORTED);
run_next_test();
});
/**
* Test error message returned in onerror for updateICCContact.
*/
add_test(function test_error_message_update_icc_contact() {
let worker = newUint8Worker();
let ril = worker.RIL;
const ICCID = "123456789";
ril.iccInfo.iccid = ICCID;
function do_test(options, expectedErrorMsg) {
ril.sendChromeMessage = function (message) {
do_check_eq(message.errorMsg, expectedErrorMsg);
}
ril.updateICCContact(options);
}
// Error 1, didn't specify correct contactType.
do_test({}, CONTACT_ERR_REQUEST_NOT_SUPPORTED);
// Error 2, specifying a correct contactType, but without providing 'contact'.
do_test({contactType: "adn"}, CONTACT_ERR_REQUEST_NOT_SUPPORTED);
// Error 3, specifying a non-supported contactType.
ril.appType = CARD_APPTYPE_USIM;
do_test({contactType: "sdn", contact: {}}, CONTACT_ERR_CONTACT_TYPE_NOT_SUPPORTED);
// Error 4, without supplying pin2.
do_test({contactType: "fdn", contact: {contactId: ICCID + "1"}}, GECKO_ERROR_SIM_PIN2);
// Error 5, No free record found in EF_ADN.
let record = worker.ICCRecordHelper;
record.readPBR = function (onsuccess, onerror) {
onsuccess([{adn: {fileId: 0x4f3a}}]);
};
let io = worker.ICCIOHelper;
io.loadLinearFixedEF = function (options) {
options.totalRecords = 1;
options.p1 = 1;
options.callback(options);
};
do_test({contactType: "adn", contact: {}}, CONTACT_ERR_NO_FREE_RECORD_FOUND);
// Error 6, ICC IO Error.
io.loadLinearFixedEF = function (options) {
ril[REQUEST_SIM_IO](0, {rilRequestError: ERROR_GENERIC_FAILURE});
};
do_test({contactType: "adn", contact: {contactId: ICCID + "1"}},
GECKO_ERROR_GENERIC_FAILURE);
// Error 7, suppose we update the supported PBR fields in USIM_PBR_FIELDS,
// but forget to add implemenetations for it.
USIM_PBR_FIELDS.push("pbc");
do_test({contactType: "adn", contact: {contactId: ICCID + "1"}},
CONTACT_ERR_FIELD_NOT_SUPPORTED);
// Error 8, EF_PBR doesn't exist.
record.readPBR = function (onsuccess, onerror) {
onsuccess([]);
};
do_test({contactType: "adn", contact: {contactId: ICCID + "1"}},
CONTACT_ERR_CANNOT_ACCESS_PHONEBOOK);
run_next_test();
});
add_test(function test_personalization_state() {
let worker = newUint8Worker();
let ril = worker.RIL;
worker.ICCRecordHelper.readICCID = function fakeReadICCID() {};
function testPersonalization(cardPersoState, geckoCardState) {
let iccStatus = {
cardState: CARD_STATE_PRESENT,
gsmUmtsSubscriptionAppIndex: 0,
apps: [
{
app_state: CARD_APPSTATE_SUBSCRIPTION_PERSO,
perso_substate: cardPersoState
}],
};
ril._processICCStatus(iccStatus);
do_check_eq(ril.cardState, geckoCardState);
}
testPersonalization(CARD_PERSOSUBSTATE_SIM_NETWORK,
GECKO_CARDSTATE_NETWORK_LOCKED);
testPersonalization(CARD_PERSOSUBSTATE_SIM_CORPORATE,
GECKO_CARDSTATE_CORPORATE_LOCKED);
testPersonalization(CARD_PERSOSUBSTATE_SIM_SERVICE_PROVIDER,
GECKO_CARDSTATE_SERVICE_PROVIDER_LOCKED);
testPersonalization(CARD_PERSOSUBSTATE_SIM_NETWORK_PUK,
GECKO_CARDSTATE_NETWORK_PUK_REQUIRED);
testPersonalization(CARD_PERSOSUBSTATE_SIM_CORPORATE_PUK,
GECKO_CARDSTATE_CORPORATE_PUK_REQUIRED);
testPersonalization(CARD_PERSOSUBSTATE_SIM_SERVICE_PROVIDER_PUK,
GECKO_CARDSTATE_SERVICE_PROVIDER_PUK_REQUIRED);
testPersonalization(CARD_PERSOSUBSTATE_READY,
GECKO_CARDSTATE_PERSONALIZATION_READY);
run_next_test();
});
/**
* Verify SIM app_state in _processICCStatus
*/
add_test(function test_card_app_state() {
let worker = newUint8Worker();
let ril = worker.RIL;
worker.ICCRecordHelper.readICCID = function fakeReadICCID() {};
function testCardAppState(cardAppState, geckoCardState) {
let iccStatus = {
cardState: CARD_STATE_PRESENT,
gsmUmtsSubscriptionAppIndex: 0,
apps: [
{
app_state: cardAppState
}],
};
ril._processICCStatus(iccStatus);
do_check_eq(ril.cardState, geckoCardState);
}
testCardAppState(CARD_APPSTATE_ILLEGAL,
GECKO_CARDSTATE_ILLEGAL);
testCardAppState(CARD_APPSTATE_PIN,
GECKO_CARDSTATE_PIN_REQUIRED);
testCardAppState(CARD_APPSTATE_PUK,
GECKO_CARDSTATE_PUK_REQUIRED);
testCardAppState(CARD_APPSTATE_READY,
GECKO_CARDSTATE_READY);
testCardAppState(CARD_APPSTATE_UNKNOWN,
GECKO_CARDSTATE_UNKNOWN);
testCardAppState(CARD_APPSTATE_DETECTED,
GECKO_CARDSTATE_UNKNOWN);
run_next_test();
});
/**
* Verify permanent blocked for ICC.
*/
add_test(function test_icc_permanent_blocked() {
let worker = newUint8Worker();
let ril = worker.RIL;
worker.ICCRecordHelper.readICCID = function fakeReadICCID() {};
function testPermanentBlocked(pin1_replaced, universalPINState, pin1) {
let iccStatus = {
cardState: CARD_STATE_PRESENT,
gsmUmtsSubscriptionAppIndex: 0,
universalPINState: universalPINState,
apps: [
{
pin1_replaced: pin1_replaced,
pin1: pin1
}]
};
ril._processICCStatus(iccStatus);
do_check_eq(ril.cardState, GECKO_CARDSTATE_PERMANENT_BLOCKED);
}
testPermanentBlocked(1,
CARD_PINSTATE_ENABLED_PERM_BLOCKED,
CARD_PINSTATE_UNKNOWN);
testPermanentBlocked(1,
CARD_PINSTATE_ENABLED_PERM_BLOCKED,
CARD_PINSTATE_ENABLED_PERM_BLOCKED);
testPermanentBlocked(0,
CARD_PINSTATE_UNKNOWN,
CARD_PINSTATE_ENABLED_PERM_BLOCKED);
run_next_test();
});
/**
* Verify iccSetCardLock - Facility Lock.
*/
add_test(function test_set_icc_card_lock_facility_lock() {
let worker = newUint8Worker();
worker.RILQUIRKS_V5_LEGACY = false;
let aid = "123456789";
let ril = worker.RIL;
ril.aid = aid;
let buf = worker.Buf;
let GECKO_CARDLOCK_TO_FACILITIY_LOCK = {};
GECKO_CARDLOCK_TO_FACILITIY_LOCK[GECKO_CARDLOCK_PIN] = ICC_CB_FACILITY_SIM;
GECKO_CARDLOCK_TO_FACILITIY_LOCK[GECKO_CARDLOCK_FDN] = ICC_CB_FACILITY_FDN;
let GECKO_CARDLOCK_TO_PASSWORD_TYPE = {};
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_PIN] = "pin";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_FDN] = "pin2";
const pin = "1234";
const pin2 = "4321";
let GECKO_CARDLOCK_TO_PASSWORD = {};
GECKO_CARDLOCK_TO_PASSWORD[GECKO_CARDLOCK_PIN] = pin;
GECKO_CARDLOCK_TO_PASSWORD[GECKO_CARDLOCK_FDN] = pin2;
const serviceClass = ICC_SERVICE_CLASS_VOICE |
ICC_SERVICE_CLASS_DATA |
ICC_SERVICE_CLASS_FAX;
function do_test(aLock, aPassword, aEnabled) {
buf.sendParcel = function fakeSendParcel () {
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SET_FACILITY_LOCK);
// Token : we don't care
this.readInt32();
let parcel = this.readStringList();
do_check_eq(parcel.length, 5);
do_check_eq(parcel[0], GECKO_CARDLOCK_TO_FACILITIY_LOCK[aLock]);
do_check_eq(parcel[1], aEnabled ? "1" : "0");
do_check_eq(parcel[2], GECKO_CARDLOCK_TO_PASSWORD[aLock]);
do_check_eq(parcel[3], serviceClass.toString());
do_check_eq(parcel[4], aid);
};
let lock = {lockType: aLock,
enabled: aEnabled};
lock[GECKO_CARDLOCK_TO_PASSWORD_TYPE[aLock]] = aPassword;
ril.iccSetCardLock(lock);
}
do_test(GECKO_CARDLOCK_PIN, pin, true);
do_test(GECKO_CARDLOCK_PIN, pin, false);
do_test(GECKO_CARDLOCK_FDN, pin2, true);
do_test(GECKO_CARDLOCK_FDN, pin2, false);
run_next_test();
});
/**
* Verify iccUnlockCardLock.
*/
add_test(function test_unlock_card_lock_corporateLocked() {
let worker = newUint8Worker();
let ril = worker.RIL;
let buf = worker.Buf;
const pin = "12345678";
const puk = "12345678";
let GECKO_CARDLOCK_TO_PASSWORD_TYPE = {};
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_NCK] = "pin";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_CCK] = "pin";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_SPCK] = "pin";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_NCK_PUK] = "puk";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_CCK_PUK] = "puk";
GECKO_CARDLOCK_TO_PASSWORD_TYPE[GECKO_CARDLOCK_SPCK_PUK] = "puk";
function do_test(aLock, aPassword) {
buf.sendParcel = function fakeSendParcel () {
// Request Type.
do_check_eq(this.readInt32(), REQUEST_ENTER_NETWORK_DEPERSONALIZATION_CODE);
// Token : we don't care
this.readInt32();
let lockType = GECKO_PERSO_LOCK_TO_CARD_PERSO_LOCK[aLock];
// Lock Type
do_check_eq(this.readInt32(), lockType);
// Pin/Puk.
do_check_eq(this.readString(), aPassword);
};
let lock = {lockType: aLock};
lock[GECKO_CARDLOCK_TO_PASSWORD_TYPE[aLock]] = aPassword;
ril.iccUnlockCardLock(lock);
}
do_test(GECKO_CARDLOCK_NCK, pin);
do_test(GECKO_CARDLOCK_CCK, pin);
do_test(GECKO_CARDLOCK_SPCK, pin);
do_test(GECKO_CARDLOCK_NCK_PUK, puk);
do_test(GECKO_CARDLOCK_CCK_PUK, puk);
do_test(GECKO_CARDLOCK_SPCK_PUK, puk);
run_next_test();
});
/**
* Verify MCC and MNC parsing
*/
add_test(function test_mcc_mnc_parsing() {
let worker = newUint8Worker();
let helper = worker.ICCUtilsHelper;
function do_test(imsi, mncLength, expectedMcc, expectedMnc) {
let result = helper.parseMccMncFromImsi(imsi, mncLength);
if (!imsi) {
do_check_eq(result, null);
return;
}
do_check_eq(result.mcc, expectedMcc);
do_check_eq(result.mnc, expectedMnc);
}
// Test the imsi is null.
do_test(null, null, null, null);
// Test MCC is Taiwan
do_test("466923202422409", 0x02, "466", "92");
do_test("466923202422409", 0x03, "466", "923");
do_test("466923202422409", null, "466", "92");
// Test MCC is US
do_test("310260542718417", 0x02, "310", "26");
do_test("310260542718417", 0x03, "310", "260");
do_test("310260542718417", null, "310", "260");
run_next_test();
});
/**
* Verify reading EF_AD and parsing MCC/MNC
*/
add_test(function test_reading_ad_and_parsing_mcc_mnc() {
let worker = newUint8Worker();
let record = worker.SimRecordHelper;
let helper = worker.GsmPDUHelper;
let ril = worker.RIL;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
function do_test(mncLengthInEf, imsi, expectedMcc, expectedMnc) {
ril.iccInfoPrivate.imsi = imsi;
io.loadTransparentEF = function fakeLoadTransparentEF(options) {
let ad = [0x00, 0x00, 0x00];
if (mncLengthInEf) {
ad.push(mncLengthInEf);
}
// Write data size
buf.writeInt32(ad.length * 2);
// Write data
for (let i = 0; i < ad.length; i++) {
helper.writeHexOctet(ad[i]);
}
// Write string delimiter
buf.writeStringDelimiter(ad.length * 2);
if (options.callback) {
options.callback(options);
}
};
record.readAD();
do_check_eq(ril.iccInfo.mcc, expectedMcc);
do_check_eq(ril.iccInfo.mnc, expectedMnc);
}
do_test(undefined, "466923202422409", "466", "92" );
do_test(0x03, "466923202422409", "466", "923");
do_test(undefined, "310260542718417", "310", "260");
do_test(0x02, "310260542718417", "310", "26" );
run_next_test();
});
add_test(function test_reading_optional_efs() {
let worker = newUint8Worker();
let record = worker.SimRecordHelper;
let gsmPdu = worker.GsmPDUHelper;
let ril = worker.RIL;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
function buildSST(supportedEf) {
let sst = [];
let len = supportedEf.length;
for (let i = 0; i < len; i++) {
let index, bitmask, iccService;
if (ril.appType === CARD_APPTYPE_SIM) {
iccService = GECKO_ICC_SERVICES.sim[supportedEf[i]];
iccService -= 1;
index = Math.floor(iccService / 4);
bitmask = 2 << ((iccService % 4) << 1);
} else if (ril.appType === CARD_APPTYPE_USIM){
iccService = GECKO_ICC_SERVICES.usim[supportedEf[i]];
iccService -= 1;
index = Math.floor(iccService / 8);
bitmask = 1 << ((iccService % 8) << 0);
}
if (sst) {
sst[index] |= bitmask;
}
}
return sst;
}
ril.updateCellBroadcastConfig = function fakeUpdateCellBroadcastConfig() {
// Ignore updateCellBroadcastConfig after reading SST
};
function do_test(sst, supportedEf) {
// Clone supportedEf to local array for testing
let testEf = supportedEf.slice(0);
record.readMSISDN = function fakeReadMSISDN() {
testEf.splice(testEf.indexOf("MSISDN"), 1);
};
record.readMBDN = function fakeReadMBDN() {
testEf.splice(testEf.indexOf("MDN"), 1);
};
record.readMWIS = function fakeReadMWIS() {
testEf.splice(testEf.indexOf("MWIS"), 1);
};
io.loadTransparentEF = function fakeLoadTransparentEF(options) {
// Write data size
buf.writeInt32(sst.length * 2);
// Write data
for (let i = 0; i < sst.length; i++) {
gsmPdu.writeHexOctet(sst[i] || 0);
}
// Write string delimiter
buf.writeStringDelimiter(sst.length * 2);
if (options.callback) {
options.callback(options);
}
if (testEf.length !== 0) {
do_print("Un-handled EF: " + JSON.stringify(testEf));
do_check_true(false);
}
};
record.readSST();
}
// TODO: Add all necessary optional EFs eventually
let supportedEf = ["MSISDN", "MDN", "MWIS"];
ril.appType = CARD_APPTYPE_SIM;
do_test(buildSST(supportedEf), supportedEf);
ril.appType = CARD_APPTYPE_USIM;
do_test(buildSST(supportedEf), supportedEf);
run_next_test();
});
/**
* Verify fetchSimRecords.
*/
add_test(function test_fetch_sim_recodes() {
let worker = newWorker();
let RIL = worker.RIL;
let iccRecord = worker.ICCRecordHelper;
let simRecord = worker.SimRecordHelper;
function testFetchSimRecordes(expectCalled) {
let ifCalled = [];
RIL.getIMSI = function () {
ifCalled.push("getIMSI");
};
simRecord.readAD = function () {
ifCalled.push("readAD");
};
simRecord.readSST = function () {
ifCalled.push("readSST");
};
simRecord.fetchSimRecords();
for (let i = 0; i < expectCalled.length; i++ ) {
if (ifCalled[i] != expectCalled[i]) {
do_print(expectCalled[i] + " is not called.");
do_check_true(false);
}
}
}
let expectCalled = ["getIMSI", "readAD", "readSST"];
testFetchSimRecordes(expectCalled);
run_next_test();
});
add_test(function test_fetch_icc_recodes() {
let worker = newWorker();
let RIL = worker.RIL;
let iccRecord = worker.ICCRecordHelper;
let simRecord = worker.SimRecordHelper;
let ruimRecord = worker.RuimRecordHelper;
let fetchTag = 0x00;
simRecord.fetchSimRecords = function () {
fetchTag = 0x01;
};
ruimRecord.fetchRuimRecords = function () {
fetchTag = 0x02;
};
RIL.appType = CARD_APPTYPE_SIM;
iccRecord.fetchICCRecords();
do_check_eq(fetchTag, 0x01);
RIL.appType = CARD_APPTYPE_RUIM;
iccRecord.fetchICCRecords();
do_check_eq(fetchTag, 0x02);
RIL.appType = CARD_APPTYPE_USIM;
iccRecord.fetchICCRecords();
do_check_eq(fetchTag, 0x01);
run_next_test();
});
/**
* Verify SimRecordHelper.readMWIS
*/
add_test(function test_read_mwis() {
let worker = newUint8Worker();
let helper = worker.GsmPDUHelper;
let recordHelper = worker.SimRecordHelper;
let buf = worker.Buf;
let io = worker.ICCIOHelper;
let mwisData;
let postedMessage;
worker.postMessage = function fakePostMessage(message) {
postedMessage = message;
};
io.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
if (mwisData) {
// Write data size
buf.writeInt32(mwisData.length * 2);
// Write MWIS
for (let i = 0; i < mwisData.length; i++) {
helper.writeHexOctet(mwisData[i]);
}
// Write string delimiter
buf.writeStringDelimiter(mwisData.length * 2);
options.recordSize = mwisData.length;
if (options.callback) {
options.callback(options);
}
} else {
do_print("mwisData[] is not set.");
}
};
function buildMwisData(isActive, msgCount) {
if (msgCount < 0 || msgCount === GECKO_VOICEMAIL_MESSAGE_COUNT_UNKNOWN) {
msgCount = 0;
} else if (msgCount > 255) {
msgCount = 255;
}
mwisData = [ (isActive) ? 0x01 : 0x00,
msgCount,
0xFF, 0xFF, 0xFF ];
}
function do_test(isActive, msgCount) {
buildMwisData(isActive, msgCount);
recordHelper.readMWIS();
do_check_eq("iccmwis", postedMessage.rilMessageType);
do_check_eq(isActive, postedMessage.mwi.active);
do_check_eq((isActive) ? msgCount : 0, postedMessage.mwi.msgCount);
}
do_test(true, GECKO_VOICEMAIL_MESSAGE_COUNT_UNKNOWN);
do_test(true, 1);
do_test(true, 255);
do_test(false, 0);
do_test(false, 255); // Test the corner case when mwi is disable with incorrect msgCount.
run_next_test();
});
/**
* Verify SimRecordHelper.updateMWIS
*/
add_test(function test_update_mwis() {
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let ril = worker.RIL;
ril.appType = CARD_APPTYPE_USIM;
ril.iccInfoPrivate.mwis = [0x00, 0x00, 0x00, 0x00, 0x00];
let recordHelper = worker.SimRecordHelper;
let buf = worker.Buf;
let ioHelper = worker.ICCIOHelper;
let recordSize = ril.iccInfoPrivate.mwis.length;
let recordNum = 1;
ioHelper.updateLinearFixedEF = function (options) {
options.pathId = worker.ICCFileHelper.getEFPath(options.fileId);
options.command = ICC_COMMAND_UPDATE_RECORD;
options.p1 = options.recordNumber;
options.p2 = READ_RECORD_ABSOLUTE_MODE;
options.p3 = recordSize;
ril.iccIO(options);
};
function do_test(isActive, count) {
let mwis = ril.iccInfoPrivate.mwis;
let isUpdated = false;
function buildMwisData() {
let result = mwis.slice(0);
result[0] = isActive? (mwis[0] | 0x01) : (mwis[0] & 0xFE);
result[1] = (count === GECKO_VOICEMAIL_MESSAGE_COUNT_UNKNOWN) ? 0 : count;
return result;
}
buf.sendParcel = function () {
isUpdated = true;
// Request Type.
do_check_eq(this.readInt32(), REQUEST_SIM_IO);
// Token : we don't care
this.readInt32();
// command.
do_check_eq(this.readInt32(), ICC_COMMAND_UPDATE_RECORD);
// fileId.
do_check_eq(this.readInt32(), ICC_EF_MWIS);
// pathId.
do_check_eq(this.readString(),
EF_PATH_MF_SIM + ((ril.appType === CARD_APPTYPE_USIM) ? EF_PATH_ADF_USIM : EF_PATH_DF_GSM));
// p1.
do_check_eq(this.readInt32(), recordNum);
// p2.
do_check_eq(this.readInt32(), READ_RECORD_ABSOLUTE_MODE);
// p3.
do_check_eq(this.readInt32(), recordSize);
// data.
let strLen = this.readInt32();
do_check_eq(recordSize * 2, strLen);
let expectedMwis = buildMwisData();
for (let i = 0; i < recordSize; i++) {
do_check_eq(expectedMwis[i], pduHelper.readHexOctet());
}
this.readStringDelimiter(strLen);
// pin2.
do_check_eq(this.readString(), null);
if (!worker.RILQUIRKS_V5_LEGACY) {
// AID. Ignore because it's from modem.
this.readInt32();
}
};
do_check_false(isUpdated);
recordHelper.updateMWIS({ active: isActive,
msgCount: count });
do_check_true((ril.iccInfoPrivate.mwis) ? isUpdated : !isUpdated);
}
do_test(true, GECKO_VOICEMAIL_MESSAGE_COUNT_UNKNOWN);
do_test(true, 1);
do_test(true, 255);
do_test(false, 0);
// Test if Path ID is correct for SIM.
ril.appType = CARD_APPTYPE_SIM;
do_test(false, 0);
// Test if loadLinearFixedEF() is not invoked in updateMWIS() when
// EF_MWIS is not loaded/available.
delete ril.iccInfoPrivate.mwis;
do_test(false, 0);
run_next_test();
});
/**
* Verify the call flow of receiving Class 2 SMS stored in SIM:
* 1. UNSOLICITED_RESPONSE_NEW_SMS_ON_SIM.
* 2. SimRecordHelper.readSMS().
* 3. sendChromeMessage() with rilMessageType == "sms-received".
*/
add_test(function test_read_new_sms_on_sim() {
// Instead of reusing newUint8Worker defined in this file,
// we define our own worker to fake the methods in WorkerBuffer dynamically.
function newSmsOnSimWorkerHelper() {
let _postedMessage;
let _worker = newWorker({
postRILMessage: function fakePostRILMessage(data) {
},
postMessage: function fakePostMessage(message) {
_postedMessage = message;
}
});
_worker.debug = do_print;
return {
get postedMessage() {
return _postedMessage;
},
get worker() {
return _worker;
},
fakeWokerBuffer: function fakeWokerBuffer() {
let index = 0; // index for read
let buf = [];
_worker.Buf.writeUint8 = function (value) {
buf.push(value);
};
_worker.Buf.readUint8 = function () {
return buf[index++];
};
_worker.Buf.seekIncoming = function (offset) {
index += offset;
};
_worker.Buf.getReadAvailable = function () {
return buf.length - index;
};
}
};
}
let workerHelper = newSmsOnSimWorkerHelper();
let worker = workerHelper.worker;
worker.ICCIOHelper.loadLinearFixedEF = function fakeLoadLinearFixedEF(options) {
// SimStatus: Unread, SMSC:+0123456789, Sender: +9876543210, Text: How are you?
let SimSmsPduHex = "0306911032547698040A9189674523010000208062917314080CC8F71D14969741F977FD07"
// In 4.2.25 EF_SMS Short Messages of 3GPP TS 31.102:
// 1. Record length == 176 bytes.
// 2. Any bytes in the record following the TPDU shall be filled with 'FF'.
+ "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"
+ "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"
+ "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"
+ "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF";
workerHelper.fakeWokerBuffer();
worker.Buf.writeString(SimSmsPduHex);
options.recordSize = 176; // Record length is fixed to 176 bytes.
if (options.callback) {
options.callback(options);
}
};
function newSmsOnSimParcel() {
let data = new Uint8Array(4 + 4); // Int32List with 1 element.
let offset = 0;
function writeInt(value) {
data[offset++] = value & 0xFF;
data[offset++] = (value >> 8) & 0xFF;
data[offset++] = (value >> 16) & 0xFF;
data[offset++] = (value >> 24) & 0xFF;
}
writeInt(1); // Length of Int32List
writeInt(1); // RecordNum = 1.
return newIncomingParcel(-1,
RESPONSE_TYPE_UNSOLICITED,
UNSOLICITED_RESPONSE_NEW_SMS_ON_SIM,
data);
}
function do_test() {
worker.onRILMessage(newSmsOnSimParcel());
let postedMessage = workerHelper.postedMessage;
do_check_eq("sms-received", postedMessage.rilMessageType);
do_check_eq("+0123456789", postedMessage.SMSC);
do_check_eq("+9876543210", postedMessage.sender);
do_check_eq("How are you?", postedMessage.fullBody);
}
do_test();
run_next_test();
});
// Test ICC_COMMAND_GET_RESPONSE with FCP template format.
/**
* Verify transparent structure with FCP template format.
*/
add_test(function test_fcp_template_for_transparent_structure() {
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let berHelper = worker.BerTlvHelper;
let tag_test = [
0x62,
0x22,
0x82, 0x02, 0x41, 0x21,
0x83, 0x02, 0x2F, 0xE2,
0xA5, 0x09, 0xC1, 0x04, 0x40, 0x0F, 0xF5, 0x55, 0x92, 0x01, 0x00,
0x8A, 0x01, 0x05,
0x8B, 0x03, 0x2F, 0x06, 0x0B,
0x80, 0x02, 0x00, 0x0A,
0x88, 0x01, 0x10];
for (let i = 0; i < tag_test.length; i++) {
pduHelper.writeHexOctet(tag_test[i]);
}
let berTlv = berHelper.decode(tag_test.length);
let iter = Iterator(berTlv.value);
let tlv = berHelper.searchForNextTag(BER_FCP_FILE_DESCRIPTOR_TAG, iter);
do_check_eq(tlv.value.fileStructure, UICC_EF_STRUCTURE[EF_TYPE_TRANSPARENT]);
tlv = berHelper.searchForNextTag(BER_FCP_FILE_IDENTIFIER_TAG, iter);
do_check_eq(tlv.value.fileId, 0x2FE2);
tlv = berHelper.searchForNextTag(BER_FCP_FILE_SIZE_DATA_TAG, iter);
do_check_eq(tlv.value.fileSizeData, 0x0A);
run_next_test();
});
/**
* Verify linear fixed structure with FCP template format.
*/
add_test(function test_fcp_template_for_linear_fixed_structure() {
let worker = newUint8Worker();
let pduHelper = worker.GsmPDUHelper;
let berHelper = worker.BerTlvHelper;
let tag_test = [
0x62,
0x1E,
0x82, 0x05, 0x42, 0x21, 0x00, 0x1A, 0x01,
0x83, 0x02, 0x6F, 0x40,
0xA5, 0x03, 0x92, 0x01, 0x00,
0x8A, 0x01, 0x07,
0x8B, 0x03, 0x6F, 0x06, 0x02,
0x80, 0x02, 0x00, 0x1A,
0x88, 0x00];
for (let i = 0; i < tag_test.length; i++) {
pduHelper.writeHexOctet(tag_test[i]);
}
let berTlv = berHelper.decode(tag_test.length);
let iter = Iterator(berTlv.value);
let tlv = berHelper.searchForNextTag(BER_FCP_FILE_DESCRIPTOR_TAG, iter);
do_check_eq(tlv.value.fileStructure, UICC_EF_STRUCTURE[EF_TYPE_LINEAR_FIXED]);
do_check_eq(tlv.value.recordLength, 0x1A);
do_check_eq(tlv.value.numOfRecords, 0x01);
tlv = berHelper.searchForNextTag(BER_FCP_FILE_IDENTIFIER_TAG, iter);
do_check_eq(tlv.value.fileId, 0x6F40);
tlv = berHelper.searchForNextTag(BER_FCP_FILE_SIZE_DATA_TAG, iter);
do_check_eq(tlv.value.fileSizeData, 0x1A);
run_next_test();
});
add_test(function test_icc_io_get_response_for_transparent_structure() {
let worker = newUint8Worker();
let buf = worker.Buf;
let iccioHelper = worker.ICCIOHelper;
let pduHelper = worker.GsmPDUHelper;
let responseArray = [
// SIM response.
[0x00, 0x00, 0x00, 0x0A, 0x2F, 0xE2, 0x04, 0x00, 0x0A, 0xA0, 0xAA, 0x00,
0x02, 0x00, 0x00],
// USIM response.
[0x62, 0x22, 0x82, 0x02, 0x41, 0x21, 0x83, 0x02, 0x2F, 0xE2, 0xA5, 0x09,
0xC1, 0x04, 0x40, 0x0F, 0xF5, 0x55, 0x92, 0x01, 0x00, 0x8A, 0x01, 0x05,
0x8B, 0x03, 0x2F, 0x06, 0x0B, 0x80, 0x02, 0x00, 0x0A, 0x88, 0x01, 0x10]
];
for (let i = 0; i < responseArray.length; i++) {
let strLen = responseArray[i].length * 2;
buf.writeInt32(strLen);
for (let j = 0; j < responseArray[i].length; j++) {
pduHelper.writeHexOctet(responseArray[i][j]);
}
buf.writeStringDelimiter(strLen);
let options = {fileId: ICC_EF_ICCID,
type: EF_TYPE_TRANSPARENT};
iccioHelper.processICCIOGetResponse(options);
do_check_eq(options.fileSize, 0x0A);
}
run_next_test();
});
add_test(function test_icc_io_get_response_for_linear_fixed_structure() {
let worker = newUint8Worker();
let buf = worker.Buf;
let iccioHelper = worker.ICCIOHelper;
let pduHelper = worker.GsmPDUHelper;
let responseArray = [
// SIM response.
[0x00, 0x00, 0x00, 0x1A, 0x6F, 0x40, 0x04, 0x00, 0x11, 0xA0, 0xAA, 0x00,
0x02, 0x01, 0x1A],
// USIM response.
[0x62, 0x1E, 0x82, 0x05, 0x42, 0x21, 0x00, 0x1A, 0x01, 0x83, 0x02, 0x6F,
0x40, 0xA5, 0x03, 0x92, 0x01, 0x00, 0x8A, 0x01, 0x07, 0x8B, 0x03, 0x6F,
0x06, 0x02, 0x80, 0x02, 0x00, 0x1A, 0x88, 0x00]
];
for (let i = 0; i < responseArray.length; i++) {
let strLen = responseArray[i].length * 2;
buf.writeInt32(strLen);
for (let j = 0; j < responseArray[i].length; j++) {
pduHelper.writeHexOctet(responseArray[i][j]);
}
buf.writeStringDelimiter(strLen);
let options = {fileId: ICC_EF_MSISDN,
type: EF_TYPE_LINEAR_FIXED};
iccioHelper.processICCIOGetResponse(options);
do_check_eq(options.fileSize, 0x1A);
do_check_eq(options.recordSize, 0x1A);
do_check_eq(options.totalRecords, 0x01);
}
run_next_test();
});
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