1 files changed, 0 insertions, 652 deletions
diff --git a/dom/system/gonk/tests/test_ril_worker_icc_ICCPDUHelper.js b/dom/system/gonk/tests/test_ril_worker_icc_ICCPDUHelper.js
deleted file mode 100644
index 91495b1b7..000000000
--- a/dom/system/gonk/tests/test_ril_worker_icc_ICCPDUHelper.js
+++ /dev/null
@@ -1,652 +0,0 @@
-/* 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();
-}
-
-/**
- * Verify ICCPDUHelper#readICCUCS2String()
- */
-add_test(function test_read_icc_ucs2_string() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.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);
-  }
-  equal(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]);
-  }
-  equal(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]);
-  }
-  equal(iccHelper.readICCUCS2String(0x82, len2), "Mozilla\u694a");
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper#writeICCUCS2String()
- */
-add_test(function test_write_icc_ucs2_string() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-  let alphaLen = 18;
-  let test_data = [
-    {
-      encode: 0x80,
-      // string only contain one character.
-      data: "\u82b3"
-    }, {
-      encode: 0x80,
-      // 2 UCS2 character not located in the same half-page.
-      data: "Fire \u82b3\u8233"
-    }, {
-      encode: 0x80,
-      // 2 UCS2 character not located in the same half-page.
-      data: "\u694a\u704a"
-    }, {
-      encode: 0x81,
-      // 2 UCS2 character within same half-page.
-      data: "Fire \u6901\u697f"
-    }, {
-      encode: 0x81,
-      // 2 UCS2 character within same half-page.
-      data: "Fire \u6980\u69ff"
-    }, {
-      encode: 0x82,
-      // 2 UCS2 character within same half-page, but bit 8 is different.
-      data: "Fire \u0514\u0593"
-    }, {
-      encode: 0x82,
-      // 2 UCS2 character over 0x81 can encode range.
-      data: "Fire \u8000\u8001"
-    }, {
-      encode: 0x82,
-      // 2 UCS2 character over 0x81 can encode range.
-      data: "Fire \ufffd\ufffe"
-    }];
-
-  for (let i = 0; i < test_data.length; i++) {
-    let test = test_data[i];
-    let writtenStr = iccHelper.writeICCUCS2String(alphaLen, test.data);
-    equal(writtenStr, test.data);
-    equal(helper.readHexOctet(), test.encode);
-    equal(iccHelper.readICCUCS2String(test.encode, alphaLen - 1), test.data);
-  }
-
-  // This string use 0x80 encoded and the maximum capacity is 17 octets.
-  // Each alphabet takes 2 octets, thus the first 8 alphabets can be written.
-  let str = "Mozilla \u82b3\u8233 On Fire";
-  let writtenStr = iccHelper.writeICCUCS2String(alphaLen, str);
-  equal(writtenStr, str.substring(0, 8));
-  equal(helper.readHexOctet(), 0x80);
-  equal(iccHelper.readICCUCS2String(0x80, alphaLen - 1), str.substring(0, 8));
-
-  // This string use 0x81 encoded and the maximum capacity is 15 octets.
-  // Each alphabet takes 1 octets, thus the first 15 alphabets can be written.
-  str = "Mozilla \u6901\u697f On Fire";
-  writtenStr = iccHelper.writeICCUCS2String(alphaLen, str);
-  equal(writtenStr, str.substring(0, 15));
-  equal(helper.readHexOctet(), 0x81);
-  equal(iccHelper.readICCUCS2String(0x81, alphaLen - 1), str.substring(0, 15));
-
-  // This string use 0x82 encoded and the maximum capacity is 14 octets.
-  // Each alphabet takes 1 octets, thus the first 14 alphabets can be written.
-  str = "Mozilla \u0514\u0593 On Fire";
-  writtenStr = iccHelper.writeICCUCS2String(alphaLen, str);
-  equal(writtenStr, str.substring(0, 14));
-  equal(helper.readHexOctet(), 0x82);
-  equal(iccHelper.readICCUCS2String(0x82, alphaLen - 1), str.substring(0, 14));
-
-  run_next_test();
-});
-/**
- * Verify ICCPDUHelper#readDiallingNumber
- */
-add_test(function test_read_dialling_number() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-  let str = "123456789";
-
-  helper.readHexOctet = function() {
-    return 0x81;
-  };
-
-  helper.readSwappedNibbleExtendedBcdString = function(len) {
-    return str.substring(0, len);
-  };
-
-  for (let i = 0; i < str.length; i++) {
-    equal(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 context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.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);
-  }
-
-  equal(iccHelper.read8BitUnpackedToString(PDU_NL_EXTENDED_ESCAPE),
-              langTable.substring(0, PDU_NL_EXTENDED_ESCAPE));
-  equal(iccHelper.read8BitUnpackedToString(2), " ");
-  equal(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.
-  equal(iccHelper.read8BitUnpackedToString(PDU_NL_RESERVED_CONTROL  * 2),
-              langShiftTable.substring(0, PDU_NL_RESERVED_CONTROL));
-  // ESCAPE + RESERVED_CONTROL will become ' '.
-  equal(iccHelper.read8BitUnpackedToString(2), " ");
-  // Read string between RESERVED_CONTROL and EXTENDED_ESCAPE.
-  equal(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 ' '.
-  equal(iccHelper.read8BitUnpackedToString(2), " ");
-  // Read remaining string.
-  equal(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 context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.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.
-  let writtenStr = iccHelper.writeStringTo8BitUnpacked(langTable.length + ffLen, langTable);
-  equal(writtenStr, langTable);
-
-  for (let i = 0; i < langTable.length; i++) {
-    equal(helper.readHexOctet(), i);
-  }
-
-  for (let i = 0; i < ffLen; i++) {
-    equal(helper.readHexOctet(), 0xff);
-  }
-
-  // Test 2, write GSM extended alphabets.
-  str = "\u000c\u20ac";
-  writtenStr = iccHelper.writeStringTo8BitUnpacked(4, str);
-  equal(writtenStr, str);
-  equal(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."
-  writtenStr = iccHelper.writeStringTo8BitUnpacked(7, str);
-  equal(writtenStr, str);
-  equal(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 context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.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.
-  let writtenStr = iccHelper.writeStringTo8BitUnpacked(3, langTable.substring(0, 4));
-  equal(writtenStr, langTable.substring(0, 3));
-  helper.writeHexOctet(0xff); // dummy octet.
-  for (let i = 0; i < 3; i++) {
-    equal(helper.readHexOctet(), i);
-  }
-  ok(helper.readHexOctet() != 4);
-
-  // \u000c is GSM extended alphabet, 2 octets.
-  // \u00a3 is GSM alphabet, 1 octet.
-  let str = "\u000c\u00a3";
-  writtenStr = iccHelper.writeStringTo8BitUnpacked(3, str);
-  equal(writtenStr, str.substring(0, 2));
-  equal(iccHelper.read8BitUnpackedToString(3), str);
-
-  str = "\u00a3\u000c";
-  writtenStr = iccHelper.writeStringTo8BitUnpacked(3, str);
-  equal(writtenStr, str.substring(0, 2));
-  equal(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";
-  writtenStr = iccHelper.writeStringTo8BitUnpacked(3, str);
-  helper.writeHexOctet(0xff); // dummy octet.
-  equal(writtenStr, str.substring(0, 1));
-  equal(iccHelper.read8BitUnpackedToString(4), str.substring(0, 1));
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper.readAlphaIdentifier
- */
-add_test(function test_read_alpha_identifier() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.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);
-  }
-  equal(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]);
-  }
-  equal(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]);
-  }
-  equal(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);
-  }
-  equal(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 context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-  // Length of trailing 0xff.
-  let ffLen = 2;
-
-  // Removal
-  let writenAlphaId = iccHelper.writeAlphaIdentifier(10, null);
-  equal(writenAlphaId, "");
-  equal(iccHelper.readAlphaIdentifier(10), "");
-
-  // GSM 8 bit
-  let str = "Mozilla";
-  writenAlphaId = iccHelper.writeAlphaIdentifier(str.length + ffLen, str);
-  equal(writenAlphaId , str);
-  equal(iccHelper.readAlphaIdentifier(str.length + ffLen), str);
-
-  // UCS2
-  str = "Mozilla\u8000";
-  writenAlphaId = iccHelper.writeAlphaIdentifier(str.length * 2 + ffLen, str);
-  equal(writenAlphaId , str);
-  // * 2 for each character will be encoded to UCS2 alphabets.
-  equal(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";
-  writenAlphaId = iccHelper.writeAlphaIdentifier(3, str);
-  equal(writenAlphaId , str);
-  equal(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\u69ca";
-  writenAlphaId = iccHelper.writeAlphaIdentifier(4, str);
-  helper.writeHexOctet(0xff); // dummy octet.
-  equal(writenAlphaId , str.substring(0, 1));
-  equal(iccHelper.readAlphaIdentifier(5), str.substring(0, 1));
-
-  // Write 0 octet.
-  writenAlphaId = iccHelper.writeAlphaIdentifier(0, "1");
-  helper.writeHexOctet(0xff); // dummy octet.
-  equal(writenAlphaId, "");
-  equal(iccHelper.readAlphaIdentifier(1), "");
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper.readAlphaIdDiallingNumber
- */
-add_test(function test_read_alpha_id_dialling_number() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-  let buf = context.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 == "") {
-      equal(contactR, null);
-    } else {
-      equal(contactR.alphaId, contact.alphaId);
-      equal(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 context = worker.ContextPool._contexts[0];
-  let helper = context.ICCPDUHelper;
-  const recordSize = 32;
-
-  // Write a normal contact.
-  let contactW = {
-    alphaId: "Mozilla",
-    number: "1234567890"
-  };
-
-  let writtenContact = helper.writeAlphaIdDiallingNumber(recordSize,
-                                                         contactW.alphaId,
-                                                         contactW.number, 0xff);
-
-  let contactR = helper.readAlphaIdDiallingNumber(recordSize);
-  equal(writtenContact.alphaId, contactR.alphaId);
-  equal(writtenContact.number, contactR.number);
-  equal(0xff, contactR.extRecordNumber);
-
-  // Write a contact with alphaId encoded in UCS2 and number has '+'.
-  let contactUCS2 = {
-    alphaId: "火狐",
-    number: "+1234567890"
-  };
-
-  writtenContact = helper.writeAlphaIdDiallingNumber(recordSize,
-                                                     contactUCS2.alphaId,
-                                                     contactUCS2.number, 0xff);
-  contactR = helper.readAlphaIdDiallingNumber(recordSize);
-  equal(writtenContact.alphaId, contactR.alphaId);
-  equal(writtenContact.number, contactR.number);
-  equal(0xff, contactR.extRecordNumber);
-
-  // Write a null contact (Removal).
-  writtenContact = helper.writeAlphaIdDiallingNumber(recordSize);
-  contactR = helper.readAlphaIdDiallingNumber(recordSize);
-  equal(contactR, null);
-  equal(writtenContact.alphaId, "");
-  equal(writtenContact.number, "");
-
-  // 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",
-  };
-
-  writtenContact = helper.writeAlphaIdDiallingNumber(recordSize,
-                                                     longContact.alphaId,
-                                                     longContact.number, 0xff);
-  contactR = helper.readAlphaIdDiallingNumber(recordSize);
-  equal(writtenContact.alphaId, contactR.alphaId);
-  equal(writtenContact.number, contactR.number);
-  equal(0xff, contactR.extRecordNumber);
-
-  // Add '+' to number and test again.
-  longContact.number = "+123456789012345678901234567890";
-  writtenContact = helper.writeAlphaIdDiallingNumber(recordSize,
-                                                     longContact.alphaId,
-                                                     longContact.number, 0xff);
-  contactR = helper.readAlphaIdDiallingNumber(recordSize);
-  equal(writtenContact.alphaId, contactR.alphaId);
-  equal(writtenContact.number, contactR.number);
-  equal(0xff, contactR.extRecordNumber);
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper.writeDiallingNumber
- */
-add_test(function test_write_dialling_number() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.ICCPDUHelper;
-
-  // with +
-  let number = "+123456";
-  let len = 4;
-  helper.writeDiallingNumber(number);
-  equal(helper.readDiallingNumber(len), number);
-
-  // without +
-  number = "987654";
-  len = 4;
-  helper.writeDiallingNumber(number);
-  equal(helper.readDiallingNumber(len), number);
-
-  number = "9876543";
-  len = 5;
-  helper.writeDiallingNumber(number);
-  equal(helper.readDiallingNumber(len), number);
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper.readNumberWithLength
- */
-add_test(function test_read_number_with_length() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-
-  let numbers = [
-    {
-      number: "123456789",
-      expectedNumber: "123456789"
-    },
-    {
-      number: "",
-      expectedNumber: ""
-    },
-    // Invalid length of BCD number/SSC contents
-    {
-      number: "12345678901234567890123",
-      expectedNumber: ""
-    },
-  ];
-
-  // To avoid obtaining wrong buffer content.
-  context.Buf.seekIncoming = function(offset) {
-  };
-
-  function do_test(aNumber, aExpectedNumber) {
-    iccHelper.readDiallingNumber = function(numLen) {
-      return aNumber.substring(0, numLen);
-    };
-
-    if (aNumber) {
-      helper.writeHexOctet(aNumber.length + 1);
-    } else {
-      helper.writeHexOctet(0xff);
-    }
-
-    equal(iccHelper.readNumberWithLength(), aExpectedNumber);
-  }
-
-  for (let i = 0; i < numbers.length; i++) {
-    do_test(numbers[i].number, numbers[i].expectedNumber);
-  }
-
-  run_next_test();
-});
-
-/**
- * Verify ICCPDUHelper.writeNumberWithLength
- */
-add_test(function test_write_number_with_length() {
-  let worker = newUint8Worker();
-  let context = worker.ContextPool._contexts[0];
-  let helper = context.GsmPDUHelper;
-  let iccHelper = context.ICCPDUHelper;
-
-  function test(number, expectedNumber) {
-    expectedNumber = expectedNumber || number;
-    let writeNumber = iccHelper.writeNumberWithLength(number);
-    equal(writeNumber, expectedNumber);
-    let numLen = helper.readHexOctet();
-    equal(expectedNumber, iccHelper.readDiallingNumber(numLen));
-    for (let i = 0; i < (ADN_MAX_BCD_NUMBER_BYTES - numLen); i++) {
-      equal(0xff, helper.readHexOctet());
-    }
-  }
-
-  // without +
-  test("123456789");
-
-  // with +
-  test("+987654321");
-
-  // extended BCD coding
-  test("1*2#3,4*5#6,");
-
-  // with + and extended BCD coding
-  test("+1*2#3,4*5#6,");
-
-  // non-supported characters should not be written.
-  test("(1)23-456+789", "123456789");
-
-  test("++(01)2*3-4#5,6+7(8)9*0#1,", "+012*34#5,6789*0#1,");
-
-  // over maximum 20 digits should be truncated.
-  test("012345678901234567890123456789", "01234567890123456789");
-
-  // null
-  iccHelper.writeNumberWithLength(null);
-  for (let i = 0; i < (ADN_MAX_BCD_NUMBER_BYTES + 1); i++) {
-    equal(0xff, helper.readHexOctet());
-  }
-
-  run_next_test();
-});