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Bug 709566 - B2G SMS: PDU serializer for GSM. r=qDot

This commit is contained in:
Philipp von Weitershausen 2011-12-24 06:02:51 +01:00
Родитель d7bce325ff
Коммит aea4ee3727
2 изменённых файлов: 236 добавлений и 18 удалений
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6
dom/telephony/ril_consts.js
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@ -328,8 +328,8 @@ const PDU_MTI_SMS_DELIVER = 0x00;
const PDU_MAX_USER_DATA_7BIT = 160;
// DCS - Data Coding Scheme
const PDU_DCS_MSG_CODING_7BITS_ALPHABET = 0xF0;
const PDU_DCS_MSG_CODING_8BITS_ALPHABET = 0xF4;
const PDU_DCS_MSG_CODING_7BITS_ALPHABET = 0x00;
const PDU_DCS_MSG_CODING_8BITS_ALPHABET = 0x04;
const PDU_DCS_MSG_CODING_16BITS_ALPHABET= 0x08;
const PDU_DCS_MSG_CLASS_ME_SPECIFIC = 0xF1;
const PDU_DCS_MSG_CLASS_SIM_SPECIFIC = 0xF2;
@ -340,7 +340,7 @@ const PDU_TIMESTAMP_YEAR_OFFSET = 2000;
// 7bit Default Alphabet
//TODO: maybe convert this to a string? might be faster/cheaper
const alphabet_7bit = [
const PDU_ALPHABET_7BIT_DEFAULT = [
"@", // COMMERCIAL AT
"\xa3", // POUND SIGN
"$", // DOLLAR SIGN

248
dom/telephony/ril_worker.js
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@ -1458,7 +1458,7 @@ let Phone = {
*
* A PDU is a string containing a series of hexadecimally encoded octets
* or nibble-swapped binary-coded decimals (BCDs). It contains not only the
* message text but information abou the sender, the SMS service center,
* message text but information about the sender, the SMS service center,
* timestamp, etc.
*/
let GsmPDUHelper = {
@ -1471,11 +1471,11 @@ let GsmPDUHelper = {
readHexNibble: function readHexNibble() {
let nibble = Buf.readUint16();
if (nibble >= 48 && nibble <= 57) {
nibble -= 48;
nibble -= 48; // ASCII '0'..'9'
} else if (nibble >= 65 && nibble <= 70) {
nibble -= 55;
nibble -= 55; // ASCII 'A'..'F'
} else if (nibble >= 97 && nibble <= 102) {
nibble -= 87;
nibble -= 87; // ASCII 'a'..'f'
} else {
throw "Found invalid nibble during PDU parsing: " +
String.fromCharCode(nibble);
@ -1483,6 +1483,22 @@ let GsmPDUHelper = {
return nibble;
},
/**
* Encode a nibble as one hex character in a RIL string (2 bytes).
*
* @param nibble
* The nibble to encode (represented as a number)
*/
writeHexNibble: function writeHexNibble(nibble) {
nibble &= 0x0f;
if (nibble < 10) {
nibble += 48; // ASCII '0'
} else {
nibble += 55; // ASCII 'A'
}
Buf.writeUint16(nibble);
},
/**
* Read a hex-encoded octet (two nibbles).
*
@ -1492,6 +1508,17 @@ let GsmPDUHelper = {
return (this.readHexNibble() << 4) | this.readHexNibble();
},
/**
* Write an octet as two hex-encoded nibbles.
*
* @param octet
* The octet (represented as a number) to encode.
*/
writeHexOctet: function writeHexOctet(octet) {
this.writeHexNibble(octet >> 4);
this.writeHexNibble(octet);
},
/**
* Convert an octet (number) to a BCD number.
*
@ -1532,6 +1559,23 @@ let GsmPDUHelper = {
return number;
},
/**
* Write numerical data as swapped nibble BCD.
*
* @param data
* Data to write (as a string or a number)
*/
writeSwappedNibbleBCD: function writeSwappedNibbleBCD(data) {
data = data.toString();
if (data.length % 2) {
data += "F";
}
for (let i = 0; i < data.length; i += 2) {
Buf.writeUint16(data.charCodeAt(i + 1));
Buf.writeUint16(data.charCodeAt(i));
}
},
/**
* Read user data, convert to septets, look up relevant characters in a
* 7-bit alphabet, and construct string.
@ -1556,12 +1600,12 @@ let GsmPDUHelper = {
let septet_mask = (0xff >> (shift + 1));
let septet = ((octet & septet_mask) << shift) | leftOver;
ret += alphabet_7bit[septet];
ret += PDU_ALPHABET_7BIT_DEFAULT[septet];
leftOver = (octet & leftOver_mask) >> (7 - shift);
// Every 7th byte we have a whole septet left over that we can apply.
if (shift == 6) {
ret += alphabet_7bit[leftOver];
ret += PDU_ALPHABET_7BIT_DEFAULT[leftOver];
leftOver = 0;
}
}
@ -1571,6 +1615,36 @@ let GsmPDUHelper = {
return ret;
},
writeStringAsSeptets: function writeStringAsSeptets(message) {
let right = 0;
for (let i = 0; i < message.length + 1; i++) {
let shift = (i % 8);
let septet;
if (i < message.length) {
septet = PDU_ALPHABET_7BIT_DEFAULT.indexOf(message[i]);
} else {
septet = 0;
}
if (septet == -1) {
if (DEBUG) debug("Fffff, " + message[i] + " not in 7 bit alphabet!");
septet = 0;
}
if (shift == 0) {
// We're at the beginning of a cycle, but we need two septet values
// to make an octet. So we're going to have to sit this one out.
right = septet;
continue;
}
let left_mask = 0xff >> (8 - shift);
let right_mask = (0xff << shift) & 0xff;
let left = (septet & left_mask) << (8 - shift);
let octet = left | right;
this.writeHexOctet(left | right);
right = (septet & right_mask) >> shift;
}
},
/**
* Read user data and decode as a UCS2 string.
*
@ -1580,7 +1654,17 @@ let GsmPDUHelper = {
* @return a string.
*/
readUCS2String: function readUCS2String(length) {
//TODO
//TODO bug 712804
},
/**
* Write user data as a UCS2 string.
*
* @param message
* Message string to encode as UCS2 in hex-encoded octets.
*/
writeUCS2String: function writeUCS2String(message) {
//TODO bug 712804
},
/**
@ -1595,16 +1679,16 @@ let GsmPDUHelper = {
debug("Coding scheme: " + codingScheme);
}
// 7 bit is the default fallback encoding.
let encoding = 7;
let encoding = PDU_DCS_MSG_CODING_7BITS_ALPHABET;
switch (codingScheme & 0xC0) {
case 0x0:
// bits 7..4 = 00xx
switch (codingScheme & 0x0C) {
case 0x4:
encoding = 8;
encoding = PDU_DCS_MSG_CODING_8BITS_ALPHABET;
break;
case 0x8:
encoding = 16;
encoding = PDU_DCS_MSG_CODING_16BITS_ALPHABET;
break;
}
break;
@ -1612,11 +1696,11 @@ let GsmPDUHelper = {
// bits 7..4 = 11xx
switch (codingScheme & 0x30) {
case 0x20:
encoding = 16;
encoding = PDU_DCS_MSG_CODING_16BITS_ALPHABET;
break;
case 0x30:
if (!codingScheme & 0x04) {
encoding = 8;
encoding = PDU_DCS_MSG_CODING_8BITS_ALPHABET;
}
break;
}
@ -1628,7 +1712,7 @@ let GsmPDUHelper = {
if (DEBUG) debug("PDU: message encoding is " + encoding + " bit.");
switch (encoding) {
case 7:
case PDU_DCS_MSG_CODING_7BITS_ALPHABET:
// 7 bit encoding allows 140 octets, which means 160 characters
// ((140x8) / 7 = 160 chars)
if (length > PDU_MAX_USER_DATA_7BIT) {
@ -1636,10 +1720,10 @@ let GsmPDUHelper = {
return null;
}
return this.readSeptetsToString(length);
case 8:
case PDU_DCS_MSG_CODING_8BITS_ALPHABET:
// Unsupported.
return null;
case 16:
case PDU_DCS_MSG_CODING_16BITS_ALPHABET:
return this.readUCS2String(length);
}
return null;
@ -1756,6 +1840,140 @@ let GsmPDUHelper = {
}
return msg;
},
/**
* Serialize a SMS-SUBMIT PDU message and write it to the output stream.
*
* This method expects that a data coding scheme has been chosen already
* and that the length of the user data payload in that encoding is known,
* too. Both go hand in hand together anyway.
*
* @param address
* String containing the address (number) of the SMS receiver
* @param userData
* String containing the message to be sent as user data
* @param dcs
* Data coding scheme. One of the PDU_DCS_MSG_CODING_*BITS_ALPHABET
* constants.
* @param userDataLengthInOctets
* Byte length of the user data when encoded with the given DCS.
*/
writeMessage: function writeMessage(address,
userData,
dcs,
userDataLengthInOctets) {
// SMS-SUBMIT Format:
//
// PDU Type - 1 octet
// Message Reference - 1 octet
// DA - Destination Address - 2 to 12 octets
// PID - Protocol Identifier - 1 octet
// DCS - Data Coding Scheme - 1 octet
// VP - Validity Period - 0, 1 or 7 octets
// UDL - User Data Length - 1 octet
// UD - User Data - 140 octets
let addressFormat = PDU_TOA_ISDN; // 81
if (address[0] == '+') {
addressFormat = PDU_TOA_INTERNATIONAL | PDU_TOA_ISDN; // 91
address = address.substring(1);
}
//TODO validity is unsupported for now
let validity = 0;
let pduOctetLength = 4 + // PDU Type, Message Ref, address length + format
Math.ceil(address.length / 2) +
3 + // PID, DCS, UDL
userDataLengthInOctets;
if (validity) {
//TODO: add more to pduOctetLength
}
// Start the string. Since octets are represented in hex, we will need
// twice as many characters as octets.
Buf.writeUint32(pduOctetLength * 2);
// - PDU-TYPE-
// +--------+----------+---------+---------+--------+---------+
// | RP (1) | UDHI (1) | SRR (1) | VPF (2) | RD (1) | MTI (2) |
// +--------+----------+---------+---------+--------+---------+
// RP: 0 Reply path parameter is not set
// 1 Reply path parameter is set
// UDHI: 0 The UD Field contains only the short message
// 1 The beginning of the UD field contains a header in addition
// of the short message
// SRR: 0 A status report is not requested
// 1 A status report is requested
// VPF: bit4 bit3
// 0 0 VP field is not present
// 0 1 Reserved
// 1 0 VP field present an integer represented (relative)
// 1 1 VP field present a semi-octet represented (absolute)
// RD: Instruct the SMSC to accept(0) or reject(1) an SMS-SUBMIT
// for a short message still held in the SMSC which has the same
// MR and DA as a previously submitted short message from the
// same OA
// MTI: bit1 bit0 Message Type
// 0 0 SMS-DELIVER (SMSC ==> MS)
// 0 1 SMS-SUBMIT (MS ==> SMSC)
// PDU type. MTI is set to SMS-SUBMIT
let firstOctet = PDU_MTI_SMS_SUBMIT;
// Validity period
if (validity) {
//TODO: not supported yet, OR with one of PDU_VPF_*
}
let udhi = ""; //TODO: for now this is unsupported
if (udhi) {
firstOctet |= PDU_UDHI;
}
this.writeHexOctet(firstOctet);
// Message reference 00
this.writeHexOctet(0x00);
// - Destination Address -
this.writeHexOctet(address.length);
this.writeHexOctet(addressFormat);
this.writeSwappedNibbleBCD(address);
// - Protocol Identifier -
this.writeHexOctet(0x00);
// - Data coding scheme -
// For now it assumes bits 7..4 = 1111 except for the 16 bits use case
this.writeHexOctet(dcs);
// - Validity Period -
if (validity) {
this.writeHexOctet(validity);
}
// - User Data -
let userDataLength = userData.length;
if (dcs == PDU_DCS_MSG_CODING_16BITS_ALPHABET) {
userDataLength = userData.length * 2;
}
this.writeHexOctet(userDataLength);
switch (dcs) {
case PDU_DCS_MSG_CODING_7BITS_ALPHABET:
this.writeStringAsSeptets(userData);
break;
case PDU_DCS_MSG_CODING_8BITS_ALPHABET:
// Unsupported.
break;
case PDU_DCS_MSG_CODING_16BITS_ALPHABET:
this.writeUCS2String(userData);
break;
}
// End of the string. The string length is always even by definition, so
// we write two \0 delimiters.
Buf.writeUint16(0);
Buf.writeUint16(0);
}
};