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enigma-bbs/core/ftn_mail_packet.js

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/* jslint node: true */
'use strict';
const ftn = require('./ftn_util.js');
const Message = require('./message.js');
const sauce = require('./sauce.js');
const Address = require('./ftn_address.js');
const strUtil = require('./string_util.js');
const Log = require('./logger.js').log;
const ansiPrep = require('./ansi_prep.js');
const Errors = require('./enig_error.js').Errors;
const _ = require('lodash');
const assert = require('assert');
const { Parser } = require('binary-parser');
const fs = require('graceful-fs');
const async = require('async');
const iconv = require('iconv-lite');
const moment = require('moment');
exports.Packet = Packet;
const FTN_PACKET_HEADER_SIZE = 58; // fixed header size
const FTN_PACKET_HEADER_TYPE = 2;
const FTN_PACKET_MESSAGE_TYPE = 2;
const FTN_PACKET_BAUD_TYPE_2_2 = 2;
// SAUCE magic header + version ("00")
const FTN_MESSAGE_SAUCE_HEADER = Buffer.from('SAUCE00');
const FTN_MESSAGE_KLUDGE_PREFIX = '\x01';
class PacketHeader {
constructor(origAddr, destAddr, version, createdMoment) {
const EMPTY_ADDRESS = {
node: 0,
net: 0,
zone: 0,
point: 0,
};
this.version = version || '2+';
this.origAddress = origAddr || EMPTY_ADDRESS;
this.destAddress = destAddr || EMPTY_ADDRESS;
this.created = createdMoment || moment();
// uncommon to set the following explicitly
this.prodCodeLo = 0xfe; // http://ftsc.org/docs/fta-1005.003
this.prodRevLo = 0;
this.baud = 0;
this.packetType = FTN_PACKET_HEADER_TYPE;
this.password = '';
this.prodData = 0x47694e45; // "ENiG"
this.capWord = 0x0001;
this.capWordValidate =
((this.capWord & 0xff) << 8) | ((this.capWord >> 8) & 0xff); // swap
this.prodCodeHi = 0xfe; // see above
this.prodRevHi = 0;
}
get origAddress() {
let addr = new Address({
node: this.origNode,
zone: this.origZone,
});
if (this.origPoint) {
addr.point = this.origPoint;
addr.net = this.auxNet;
} else {
addr.net = this.origNet;
}
return addr;
}
set origAddress(address) {
if (_.isString(address)) {
address = Address.fromString(address);
}
this.origNode = address.node;
// See FSC-48
// :TODO: disabled for now until we have separate packet writers for 2, 2+, 2+48, and 2.2
/*if(address.point) {
this.auxNet = address.origNet;
this.origNet = -1;
} else {
this.origNet = address.net;
this.auxNet = 0;
}
*/
this.origNet = address.net;
this.auxNet = 0;
this.origZone = address.zone;
this.origZone2 = address.zone;
this.origPoint = address.point || 0;
}
get destAddress() {
let addr = new Address({
node: this.destNode,
net: this.destNet,
zone: this.destZone,
});
if (this.destPoint) {
addr.point = this.destPoint;
}
return addr;
}
set destAddress(address) {
if (_.isString(address)) {
address = Address.fromString(address);
}
this.destNode = address.node;
this.destNet = address.net;
this.destZone = address.zone;
this.destZone2 = address.zone;
this.destPoint = address.point || 0;
}
get created() {
return moment({
year: this.year,
month: this.month - 1, // moment uses 0 indexed months
date: this.day,
hour: this.hour,
minute: this.minute,
second: this.second,
});
}
set created(momentCreated) {
if (!moment.isMoment(momentCreated)) {
momentCreated = moment(momentCreated);
}
this.year = momentCreated.year();
this.month = momentCreated.month() + 1; // moment uses 0 indexed months
this.day = momentCreated.date(); // day of month
this.hour = momentCreated.hour();
this.minute = momentCreated.minute();
this.second = momentCreated.second();
}
}
exports.PacketHeader = PacketHeader;
//
// Read/Write FTN packets with support for the following formats:
//
// * Type 2 FTS-0001 @ http://ftsc.org/docs/fts-0001.016 (Obsolete)
// * Type 2.2 FSC-0045 @ http://ftsc.org/docs/fsc-0045.001
// * Type 2+ FSC-0039 and FSC-0048 @ http://ftsc.org/docs/fsc-0039.004
// and http://ftsc.org/docs/fsc-0048.002
//
// Additional resources:
// * Writeup on differences between type 2, 2.2, and 2+:
// http://walon.org/pub/fidonet/FTSC-nodelists-etc./pkt-types.txt
//
const PacketHeaderParser = new Parser()
.uint16le('origNode')
.uint16le('destNode')
.uint16le('year')
.uint16le('month')
.uint16le('day')
.uint16le('hour')
.uint16le('minute')
.uint16le('second')
.uint16le('baud')
.uint16le('packetType')
.uint16le('origNet')
.uint16le('destNet')
.int8('prodCodeLo')
.int8('prodRevLo') // aka serialNo
.buffer('password', { length: 8 }) // can't use string; need CP437 - see https://github.com/keichi/binary-parser/issues/33
.uint16le('origZone')
.uint16le('destZone')
//
// The following is "filler" in FTS-0001, specifics in
// FSC-0045 and FSC-0048
//
.uint16le('auxNet')
.uint16le('capWordValidate')
.int8('prodCodeHi')
.int8('prodRevHi')
.uint16le('capWord')
.uint16le('origZone2')
.uint16le('destZone2')
.uint16le('origPoint')
.uint16le('destPoint')
.uint32le('prodData');
const MessageHeaderParser = new Parser()
.uint16le('messageType')
.uint16le('ftn_msg_orig_node')
.uint16le('ftn_msg_dest_node')
.uint16le('ftn_msg_orig_net')
.uint16le('ftn_msg_dest_net')
.uint16le('ftn_attr_flags')
.uint16le('ftn_cost')
//
// It would be nice to just string() these, but we want CP437 which requires
// iconv. Another option would be to use a formatter, but until issue 33
// (https://github.com/keichi/binary-parser/issues/33) is fixed, this is cumbersome.
//
.array('modDateTime', {
type: 'uint8',
length: 20, // FTS-0001.016: 20 bytes
})
.array('toUserName', {
type: 'uint8',
// :TODO: array needs some soft of 'limit' field
readUntil: b => 0x00 === b,
})
.array('fromUserName', {
type: 'uint8',
readUntil: b => 0x00 === b,
})
.array('subject', {
type: 'uint8',
readUntil: b => 0x00 === b,
})
.array('message', {
type: 'uint8',
readUntil: b => 0x00 === b,
});
function Packet(options) {
var self = this;
this.options = options || {};
this.parsePacketHeader = function (packetBuffer, cb) {
assert(Buffer.isBuffer(packetBuffer));
let packetHeader;
try {
packetHeader = PacketHeaderParser.parse(packetBuffer);
} catch (e) {
return Errors.Invalid(`Unable to parse FTN packet header: ${e.message}`);
}
// Convert password from NULL padded array to string
packetHeader.password = strUtil.stringFromNullTermBuffer(
packetHeader.password,
'CP437'
);
if (FTN_PACKET_HEADER_TYPE !== packetHeader.packetType) {
return cb(
Errors.Invalid(
`Unsupported FTN packet header type: ${packetHeader.packetType}`
)
);
}
//
// What kind of packet do we really have here?
//
// :TODO: adjust values based on version discovered
if (FTN_PACKET_BAUD_TYPE_2_2 === packetHeader.baud) {
packetHeader.version = '2.2';
// See FSC-0045
packetHeader.origPoint = packetHeader.year;
packetHeader.destPoint = packetHeader.month;
packetHeader.destDomain = packetHeader.origZone2;
packetHeader.origDomain = packetHeader.auxNet;
} else {
//
// See heuristics described in FSC-0048, "Receiving Type-2+ bundles"
//
const capWordValidateSwapped =
((packetHeader.capWordValidate & 0xff) << 8) |
((packetHeader.capWordValidate >> 8) & 0xff);
if (
capWordValidateSwapped === packetHeader.capWord &&
0 != packetHeader.capWord &&
packetHeader.capWord & 0x0001
) {
packetHeader.version = '2+';
// See FSC-0048
if (-1 === packetHeader.origNet) {
packetHeader.origNet = packetHeader.auxNet;
}
} else {
packetHeader.version = '2';
// :TODO: should fill bytes be 0?
}
}
packetHeader.created = moment({
year: packetHeader.year,
month: packetHeader.month - 1, // moment uses 0 indexed months
date: packetHeader.day,
hour: packetHeader.hour,
minute: packetHeader.minute,
second: packetHeader.second,
});
const ph = new PacketHeader();
_.assign(ph, packetHeader);
return cb(null, ph);
};
this.getPacketHeaderBuffer = function (packetHeader) {
let buffer = Buffer.alloc(FTN_PACKET_HEADER_SIZE);
buffer.writeUInt16LE(packetHeader.origNode, 0);
buffer.writeUInt16LE(packetHeader.destNode, 2);
buffer.writeUInt16LE(packetHeader.year, 4);
buffer.writeUInt16LE(packetHeader.month, 6);
buffer.writeUInt16LE(packetHeader.day, 8);
buffer.writeUInt16LE(packetHeader.hour, 10);
buffer.writeUInt16LE(packetHeader.minute, 12);
buffer.writeUInt16LE(packetHeader.second, 14);
buffer.writeUInt16LE(packetHeader.baud, 16);
buffer.writeUInt16LE(FTN_PACKET_HEADER_TYPE, 18);
buffer.writeUInt16LE(
-1 === packetHeader.origNet ? 0xffff : packetHeader.origNet,
20
);
buffer.writeUInt16LE(packetHeader.destNet, 22);
buffer.writeUInt8(packetHeader.prodCodeLo, 24);
buffer.writeUInt8(packetHeader.prodRevHi, 25);
const pass = ftn.stringToNullPaddedBuffer(packetHeader.password, 8);
pass.copy(buffer, 26);
buffer.writeUInt16LE(packetHeader.origZone, 34);
buffer.writeUInt16LE(packetHeader.destZone, 36);
buffer.writeUInt16LE(packetHeader.auxNet, 38);
buffer.writeUInt16LE(packetHeader.capWordValidate, 40);
buffer.writeUInt8(packetHeader.prodCodeHi, 42);
buffer.writeUInt8(packetHeader.prodRevLo, 43);
buffer.writeUInt16LE(packetHeader.capWord, 44);
buffer.writeUInt16LE(packetHeader.origZone2, 46);
buffer.writeUInt16LE(packetHeader.destZone2, 48);
buffer.writeUInt16LE(packetHeader.origPoint, 50);
buffer.writeUInt16LE(packetHeader.destPoint, 52);
buffer.writeUInt32LE(packetHeader.prodData, 54);
return buffer;
};
this.writePacketHeader = function (packetHeader, ws) {
let buffer = Buffer.alloc(FTN_PACKET_HEADER_SIZE);
buffer.writeUInt16LE(packetHeader.origNode, 0);
buffer.writeUInt16LE(packetHeader.destNode, 2);
buffer.writeUInt16LE(packetHeader.year, 4);
buffer.writeUInt16LE(packetHeader.month, 6);
buffer.writeUInt16LE(packetHeader.day, 8);
buffer.writeUInt16LE(packetHeader.hour, 10);
buffer.writeUInt16LE(packetHeader.minute, 12);
buffer.writeUInt16LE(packetHeader.second, 14);
buffer.writeUInt16LE(packetHeader.baud, 16);
buffer.writeUInt16LE(FTN_PACKET_HEADER_TYPE, 18);
buffer.writeUInt16LE(
-1 === packetHeader.origNet ? 0xffff : packetHeader.origNet,
20
);
buffer.writeUInt16LE(packetHeader.destNet, 22);
buffer.writeUInt8(packetHeader.prodCodeLo, 24);
buffer.writeUInt8(packetHeader.prodRevHi, 25);
const pass = ftn.stringToNullPaddedBuffer(packetHeader.password, 8);
pass.copy(buffer, 26);
buffer.writeUInt16LE(packetHeader.origZone, 34);
buffer.writeUInt16LE(packetHeader.destZone, 36);
buffer.writeUInt16LE(packetHeader.auxNet, 38);
buffer.writeUInt16LE(packetHeader.capWordValidate, 40);
buffer.writeUInt8(packetHeader.prodCodeHi, 42);
buffer.writeUInt8(packetHeader.prodRevLo, 43);
buffer.writeUInt16LE(packetHeader.capWord, 44);
buffer.writeUInt16LE(packetHeader.origZone2, 46);
buffer.writeUInt16LE(packetHeader.destZone2, 48);
buffer.writeUInt16LE(packetHeader.origPoint, 50);
buffer.writeUInt16LE(packetHeader.destPoint, 52);
buffer.writeUInt32LE(packetHeader.prodData, 54);
ws.write(buffer);
return buffer.length;
};
this.processMessageBody = function (messageBodyBuffer, cb) {
//
// From FTS-0001.16:
// "Message text is unbounded and null terminated (note exception below).
//
// A 'hard' carriage return, 0DH, marks the end of a paragraph, and must
// be preserved.
//
// So called 'soft' carriage returns, 8DH, may mark a previous
// processor's automatic line wrap, and should be ignored. Beware that
// they may be followed by linefeeds, or may not.
//
// All linefeeds, 0AH, should be ignored. Systems which display message
// text should wrap long lines to suit their application."
//
// This can be a bit tricky:
// * Decoding as CP437 converts 0x8d -> 0xec, so we'll need to correct for that
// * Many kludge lines specify an encoding. If we find one of such lines, we'll
// likely need to re-decode as the specified encoding
// * SAUCE is binary-ish data, so we need to inspect for it before any
// decoding occurs
//
let messageBodyData = {
message: [],
kludgeLines: {}, // KLUDGE:[value1, value2, ...] map
seenBy: [],
};
function addKludgeLine(line) {
//
// We have to special case INTL/TOPT/FMPT as they don't contain
// a ':' name/value separator like the rest of the kludge lines... because stupdity.
//
let key = line.substr(0, 4).trim();
let value;
if (['INTL', 'TOPT', 'FMPT', 'Via'].includes(key)) {
value = line.substr(key.length).trim();
} else {
const sepIndex = line.indexOf(':');
key = line.substr(0, sepIndex).toUpperCase();
value = line.substr(sepIndex + 1).trim();
}
//
// Allow mapped value to be either a key:value if there is only
// one entry, or key:[value1, value2,...] if there are more
//
if (messageBodyData.kludgeLines[key]) {
if (!_.isArray(messageBodyData.kludgeLines[key])) {
messageBodyData.kludgeLines[key] = [messageBodyData.kludgeLines[key]];
}
messageBodyData.kludgeLines[key].push(value);
} else {
messageBodyData.kludgeLines[key] = value;
}
}
let encoding = 'cp437';
async.series(
[
function extractSauce(callback) {
// :TODO: This is wrong: SAUCE may not have EOF marker for one, also if it's
// present, we need to extract it but keep the rest of hte message intact as it likely
// has SEEN-BY, PATH, and other kludge information *appended*
const sauceHeaderPosition = messageBodyBuffer.indexOf(
FTN_MESSAGE_SAUCE_HEADER
);
if (sauceHeaderPosition > -1) {
sauce.readSAUCE(
messageBodyBuffer.slice(
sauceHeaderPosition,
sauceHeaderPosition + sauce.SAUCE_SIZE
),
(err, theSauce) => {
if (!err) {
// we read some SAUCE - don't re-process that portion into the body
messageBodyBuffer =
messageBodyBuffer.slice(0, sauceHeaderPosition) +
messageBodyBuffer.slice(
sauceHeaderPosition + sauce.SAUCE_SIZE
);
// messageBodyBuffer = messageBodyBuffer.slice(0, sauceHeaderPosition);
messageBodyData.sauce = theSauce;
} else {
Log.warn(
{ error: err.message },
'Found what looks like to be a SAUCE record, but failed to read'
);
}
return callback(null); // failure to read SAUCE is OK
}
);
} else {
callback(null);
}
},
function extractChrsAndDetermineEncoding(callback) {
//
// From FTS-5003.001:
// "The CHRS control line is formatted as follows:
//
// ^ACHRS: <identifier> <level>
//
// Where <identifier> is a character string of no more than eight (8)
// ASCII characters identifying the character set or character encoding
// scheme used, and level is a positive integer value describing what
// level of CHRS the message is written in."
//
// Also according to the spec, the deprecated "CHARSET" value may be used
// :TODO: Look into CHARSET more - should we bother supporting it?
// :TODO: See encodingFromHeader() for CHRS/CHARSET support @ https://github.com/Mithgol/node-fidonet-jam
const FTN_CHRS_PREFIX = Buffer.from([
0x01, 0x43, 0x48, 0x52, 0x53, 0x3a, 0x20,
]); // "\x01CHRS:"
const FTN_CHRS_SUFFIX = Buffer.from([0x0d]);
let chrsPrefixIndex = messageBodyBuffer.indexOf(FTN_CHRS_PREFIX);
if (chrsPrefixIndex < 0) {
return callback(null);
}
chrsPrefixIndex += FTN_CHRS_PREFIX.length;
const chrsEndIndex = messageBodyBuffer.indexOf(
FTN_CHRS_SUFFIX,
chrsPrefixIndex
);
if (chrsEndIndex < 0) {
return callback(null);
}
let chrsContent = messageBodyBuffer.slice(
chrsPrefixIndex,
chrsEndIndex
);
if (0 === chrsContent.length) {
return callback(null);
}
chrsContent = iconv.decode(chrsContent, 'CP437');
const chrsEncoding =
ftn.getEncodingFromCharacterSetIdentifier(chrsContent);
if (chrsEncoding) {
encoding = chrsEncoding;
}
return callback(null);
},
function extractMessageData(callback) {
//
// Decode |messageBodyBuffer| using |encoding| defaulted or detected above
//
// :TODO: Look into \xec thing more - document
let decoded;
try {
decoded = iconv.decode(messageBodyBuffer, encoding);
} catch (e) {
Log.debug(
{ encoding: encoding, error: e.toString() },
'Error decoding. Falling back to ASCII'
);
decoded = iconv.decode(messageBodyBuffer, 'ascii');
}
const messageLines = strUtil.splitTextAtTerms(
decoded.replace(/\xec/g, '')
);
let endOfMessage = false;
messageLines.forEach(line => {
if (0 === line.length) {
messageBodyData.message.push('');
return;
}
if (line.startsWith('AREA:')) {
messageBodyData.area = line
.substring(line.indexOf(':') + 1)
.trim();
} else if (line.startsWith('--- ')) {
// Tear Lines are tracked allowing for specialized display/etc.
messageBodyData.tearLine = line;
} else if (/^[ ]{1,2}\* Origin: /.test(line)) {
// To spec is " * Origin: ..."
messageBodyData.originLine = line;
endOfMessage = true; // Anything past origin is not part of the message body
} else if (line.startsWith('SEEN-BY:')) {
endOfMessage = true; // Anything past the first SEEN-BY is not part of the message body
messageBodyData.seenBy.push(
line.substring(line.indexOf(':') + 1).trim()
);
} else if (FTN_MESSAGE_KLUDGE_PREFIX === line.charAt(0)) {
if ('PATH:' === line.slice(1, 6)) {
endOfMessage = true; // Anything pats the first PATH is not part of the message body
}
addKludgeLine(line.slice(1));
} else if (!endOfMessage) {
// regular ol' message line
messageBodyData.message.push(line);
}
});
return callback(null);
},
],
() => {
messageBodyData.message = messageBodyData.message.join('\n');
return cb(messageBodyData);
}
);
};
this.parsePacketMessages = function (header, packetBuffer, iterator, cb) {
//
// Check for end-of-messages marker up front before parse so we can easily
// tell the difference between end and bad header
//
if (packetBuffer.length < 3) {
const peek = packetBuffer.slice(0, 2);
if (
peek.equals(Buffer.from([0x00])) ||
peek.equals(Buffer.from([0x00, 0x00]))
) {
// end marker - no more messages
return cb(null);
}
// else fall through & hit exception below to log error
}
let msgData;
try {
msgData = MessageHeaderParser.parse(packetBuffer);
} catch (e) {
return cb(Errors.Invalid(`Failed to parse FTN message header: ${e.message}`));
}
if (FTN_PACKET_MESSAGE_TYPE != msgData.messageType) {
return cb(
Errors.Invalid(`Unsupported FTN message type: ${msgData.messageType}`)
);
}
//
// Convert null terminated arrays to strings
//
// From FTS-0001.016:
// * modDateTime: 20 bytes exactly (see above)
// * toUserName and fromUserName: *max* 36 bytes, aka "up to"; null terminated
// * subject: *max* 72 bytes, aka "up to"; null terminated
// * message: Unbounded & null terminated
//
// For everything above but message, we can get away with assuming CP437
// and probably even just "ascii" for most cases. The message field is
// much more complex so we'll look for encoding kludges, detection, etc.
// later on.
//
if (msgData.modDateTime.length != 20) {
return cb(
Errors.Invalid(
`FTN packet DateTime field must be 20 bytes (got ${msgData.modDateTime.length})`
)
);
}
if (msgData.toUserName.length > 36) {
return cb(
Errors.Invalid(
`FTN packet toUserName field must be 36 bytes max (got ${msgData.toUserName.length})`
)
);
}
if (msgData.fromUserName.length > 36) {
return cb(
Errors.Invalid(
`FTN packet fromUserName field must be 36 bytes max (got ${msgData.fromUserName.length})`
)
);
}
if (msgData.subject.length > 72) {
return cb(
Errors.Invalid(
`FTN packet subject field must be 72 bytes max (got ${msgData.subject.length})`
)
);
}
// Arrays of CP437 bytes -> String
['modDateTime', 'toUserName', 'fromUserName', 'subject'].forEach(k => {
msgData[k] = strUtil.stringFromNullTermBuffer(msgData[k], 'CP437');
});
//
// The message body itself is a special beast as it may
// contain an origin line, kludges, SAUCE in the case
// of ANSI files, etc.
//
const msg = new Message({
toUserName: msgData.toUserName,
fromUserName: msgData.fromUserName,
subject: msgData.subject,
modTimestamp: ftn.getDateFromFtnDateTime(msgData.modDateTime),
});
// :TODO: When non-private (e.g. EchoMail), attempt to extract SRC from MSGID vs headers, when avail (or Orgin line? research further)
msg.meta.FtnProperty = {
ftn_orig_node: header.origNode,
ftn_dest_node: header.destNode,
ftn_orig_network: header.origNet,
ftn_dest_network: header.destNet,
ftn_attr_flags: msgData.ftn_attr_flags,
ftn_cost: msgData.ftn_cost,
ftn_msg_orig_node: msgData.ftn_msg_orig_node,
ftn_msg_dest_node: msgData.ftn_msg_dest_node,
ftn_msg_orig_net: msgData.ftn_msg_orig_net,
ftn_msg_dest_net: msgData.ftn_msg_dest_net,
};
self.processMessageBody(msgData.message, messageBodyData => {
msg.message = messageBodyData.message;
msg.meta.FtnKludge = messageBodyData.kludgeLines;
if (messageBodyData.tearLine) {
msg.meta.FtnProperty.ftn_tear_line = messageBodyData.tearLine;
if (self.options.keepTearAndOrigin) {
msg.message += `\r\n${messageBodyData.tearLine}\r\n`;
}
}
if (messageBodyData.seenBy.length > 0) {
msg.meta.FtnProperty.ftn_seen_by = messageBodyData.seenBy;
}
if (messageBodyData.area) {
msg.meta.FtnProperty.ftn_area = messageBodyData.area;
}
if (messageBodyData.originLine) {
msg.meta.FtnProperty.ftn_origin = messageBodyData.originLine;
if (self.options.keepTearAndOrigin) {
msg.message += `${messageBodyData.originLine}\r\n`;
}
}
//
// Attempt to handle FTN time zone kludges of 'TZUTC' and
// 'TZUTCINFO'.
//
// See http://ftsc.org/docs/frl-1004.002
//
const tzKludge = msg.meta.FtnKludge.TZUTC || msg.meta.FtnKludge.TZUTCINFO;
const tzMatch = /([+-]?)([0-9]{2})([0-9]{2})/.exec(tzKludge);
if (tzMatch) {
//
// - Both kludges should provide a offset in hhmm format
// - Negative offsets must proceed with '-'
// - Positive offsets must not (to spec) proceed with '+', but
// we'll allow it.
//
const [, sign, hours, minutes] = tzMatch;
// convert to a [+|-]hh:mm format.
// example: 1300 -> +13:00
const utcOffset = `${sign || '+'}${hours}:${minutes}`;
// finally, update our modTimestamp
msg.modTimestamp = msg.modTimestamp.utcOffset(utcOffset);
}
// :TODO: Parser should give is this info:
const bytesRead =
14 + // fixed header size
msgData.modDateTime.length +
1 + // +1 = NULL
msgData.toUserName.length +
1 + // +1 = NULL
msgData.fromUserName.length +
1 + // +1 = NULL
msgData.subject.length +
1 + // +1 = NULL
msgData.message.length; // includes NULL
const nextBuf = packetBuffer.slice(bytesRead);
if (nextBuf.length > 0) {
const next = function (e) {
if (e) {
cb(e);
} else {
self.parsePacketMessages(header, nextBuf, iterator, cb);
}
};
iterator('message', msg, next);
} else {
cb(null);
}
});
};
this.sanatizeFtnProperties = function (message) {
[
Message.FtnPropertyNames.FtnOrigNode,
Message.FtnPropertyNames.FtnDestNode,
Message.FtnPropertyNames.FtnOrigNetwork,
Message.FtnPropertyNames.FtnDestNetwork,
Message.FtnPropertyNames.FtnAttrFlags,
Message.FtnPropertyNames.FtnCost,
Message.FtnPropertyNames.FtnOrigZone,
Message.FtnPropertyNames.FtnDestZone,
Message.FtnPropertyNames.FtnOrigPoint,
Message.FtnPropertyNames.FtnDestPoint,
Message.FtnPropertyNames.FtnAttribute,
Message.FtnPropertyNames.FtnMsgOrigNode,
Message.FtnPropertyNames.FtnMsgDestNode,
Message.FtnPropertyNames.FtnMsgOrigNet,
Message.FtnPropertyNames.FtnMsgDestNet,
].forEach(propName => {
if (message.meta.FtnProperty[propName]) {
message.meta.FtnProperty[propName] =
parseInt(message.meta.FtnProperty[propName]) || 0;
}
});
};
this.writeMessageHeader = function (message, buf) {
// ensure address FtnProperties are numbers
self.sanatizeFtnProperties(message);
const destNode =
message.meta.FtnProperty.ftn_msg_dest_node ||
message.meta.FtnProperty.ftn_dest_node;
const destNet =
message.meta.FtnProperty.ftn_msg_dest_net ||
message.meta.FtnProperty.ftn_dest_network;
buf.writeUInt16LE(FTN_PACKET_MESSAGE_TYPE, 0);
buf.writeUInt16LE(message.meta.FtnProperty.ftn_orig_node, 2);
buf.writeUInt16LE(destNode, 4);
buf.writeUInt16LE(message.meta.FtnProperty.ftn_orig_network, 6);
buf.writeUInt16LE(destNet, 8);
buf.writeUInt16LE(message.meta.FtnProperty.ftn_attr_flags, 10);
buf.writeUInt16LE(message.meta.FtnProperty.ftn_cost, 12);
const dateTimeBuffer = Buffer.from(
ftn.getDateTimeString(message.modTimestamp) + '\0'
);
dateTimeBuffer.copy(buf, 14);
};
this.getMessageEntryBuffer = function (message, options, cb) {
function getAppendMeta(k, m, sepChar = ':') {
let append = '';
if (m) {
let a = m;
if (!_.isArray(a)) {
a = [a];
}
a.forEach(v => {
append += `${k}${sepChar} ${v}\r`;
});
}
return append;
}
async.waterfall(
[
function prepareHeaderAndKludges(callback) {
const basicHeader = Buffer.alloc(34);
self.writeMessageHeader(message, basicHeader);
//
// To, from, and subject must be NULL term'd and have max lengths as per spec.
//
const toUserNameBuf = strUtil.stringToNullTermBuffer(
message.toUserName,
{ encoding: 'cp437', maxBufLen: 36 }
);
const fromUserNameBuf = strUtil.stringToNullTermBuffer(
message.fromUserName,
{ encoding: 'cp437', maxBufLen: 36 }
);
const subjectBuf = strUtil.stringToNullTermBuffer(message.subject, {
encoding: 'cp437',
maxBufLen: 72,
});
//
// message: unbound length, NULL term'd
//
// We need to build in various special lines - kludges, area,
// seen-by, etc.
//
let msgBody = '';
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// AREA:CONFERENCE
// Should be first line in a message
//
if (message.meta.FtnProperty.ftn_area) {
msgBody += `AREA:${message.meta.FtnProperty.ftn_area}\r`; // note: no ^A (0x01)
}
// :TODO: DRY with similar function in this file!
Object.keys(message.meta.FtnKludge).forEach(k => {
switch (k) {
case 'PATH':
break; // skip & save for last
case 'Via':
case 'FMPT':
case 'TOPT':
case 'INTL':
msgBody += getAppendMeta(
`\x01${k}`,
message.meta.FtnKludge[k],
''
); // no sepChar
break;
default:
msgBody += getAppendMeta(
`\x01${k}`,
message.meta.FtnKludge[k]
);
break;
}
});
return callback(
null,
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBody
);
},
function prepareAnsiMessageBody(
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBody,
callback
) {
if (!strUtil.isAnsi(message.message)) {
return callback(
null,
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBody,
message.message
);
}
ansiPrep(
message.message,
{
cols: 80,
rows: 'auto',
forceLineTerm: true,
exportMode: true,
},
(err, preppedMsg) => {
return callback(
null,
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBody,
preppedMsg || message.message
);
}
);
},
function addMessageBody(
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBody,
preppedMsg,
callback
) {
msgBody += preppedMsg + '\r';
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// Tear line should be near the bottom of a message
//
if (message.meta.FtnProperty.ftn_tear_line) {
msgBody += `${message.meta.FtnProperty.ftn_tear_line}\r`;
}
//
// Origin line should be near the bottom of a message
//
if (message.meta.FtnProperty.ftn_origin) {
msgBody += `${message.meta.FtnProperty.ftn_origin}\r`;
}
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// SEEN-BY and PATH should be the last lines of a message
//
msgBody += getAppendMeta(
'SEEN-BY',
message.meta.FtnProperty.ftn_seen_by
); // note: no ^A (0x01)
msgBody += getAppendMeta('\x01PATH', message.meta.FtnKludge['PATH']);
let msgBodyEncoded;
try {
msgBodyEncoded = iconv.encode(msgBody + '\0', options.encoding);
} catch (e) {
msgBodyEncoded = iconv.encode(msgBody + '\0', 'ascii');
}
return callback(
null,
Buffer.concat([
basicHeader,
toUserNameBuf,
fromUserNameBuf,
subjectBuf,
msgBodyEncoded,
])
);
},
],
(err, msgEntryBuffer) => {
return cb(err, msgEntryBuffer);
}
);
};
this.writeMessage = function (message, ws, options) {
const basicHeader = Buffer.alloc(34);
self.writeMessageHeader(message, basicHeader);
ws.write(basicHeader);
// toUserName & fromUserName: up to 36 bytes in length, NULL term'd
// :TODO: DRY...
let encBuf = iconv.encode(message.toUserName + '\0', 'CP437').slice(0, 36);
encBuf[encBuf.length - 1] = '\0'; // ensure it's null term'd
ws.write(encBuf);
encBuf = iconv.encode(message.fromUserName + '\0', 'CP437').slice(0, 36);
encBuf[encBuf.length - 1] = '\0'; // ensure it's null term'd
ws.write(encBuf);
// subject: up to 72 bytes in length, NULL term'd
encBuf = iconv.encode(message.subject + '\0', 'CP437').slice(0, 72);
encBuf[encBuf.length - 1] = '\0'; // ensure it's null term'd
ws.write(encBuf);
//
// message: unbound length, NULL term'd
//
// We need to build in various special lines - kludges, area,
// seen-by, etc.
//
// :TODO: Put this in it's own method
let msgBody = '';
function appendMeta(k, m, sepChar = ':') {
if (m) {
let a = m;
if (!_.isArray(a)) {
a = [a];
}
a.forEach(v => {
msgBody += `${k}${sepChar} ${v}\r`;
});
}
}
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// AREA:CONFERENCE
// Should be first line in a message
//
if (message.meta.FtnProperty.ftn_area) {
msgBody += `AREA:${message.meta.FtnProperty.ftn_area}\r`; // note: no ^A (0x01)
}
Object.keys(message.meta.FtnKludge).forEach(k => {
switch (k) {
case 'PATH':
break; // skip & save for last
case 'Via':
case 'FMPT':
case 'TOPT':
case 'INTL':
appendMeta(`\x01${k}`, message.meta.FtnKludge[k], '');
break; // no sepChar
default:
appendMeta(`\x01${k}`, message.meta.FtnKludge[k]);
break;
}
});
msgBody += message.message + '\r';
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// Tear line should be near the bottom of a message
//
if (message.meta.FtnProperty.ftn_tear_line) {
msgBody += `${message.meta.FtnProperty.ftn_tear_line}\r`;
}
//
// Origin line should be near the bottom of a message
//
if (message.meta.FtnProperty.ftn_origin) {
msgBody += `${message.meta.FtnProperty.ftn_origin}\r`;
}
//
// FTN-0004.001 @ http://ftsc.org/docs/fts-0004.001
// SEEN-BY and PATH should be the last lines of a message
//
appendMeta('SEEN-BY', message.meta.FtnProperty.ftn_seen_by); // note: no ^A (0x01)
appendMeta('\x01PATH', message.meta.FtnKludge['PATH']);
//
// :TODO: We should encode based on config and add the proper kludge here!
ws.write(iconv.encode(msgBody + '\0', options.encoding));
};
this.parsePacketBuffer = function (packetBuffer, iterator, cb) {
async.waterfall(
[
function processHeader(callback) {
self.parsePacketHeader(packetBuffer, (err, header) => {
if (err) {
return callback(err);
}
const next = function (e) {
return callback(e, header);
};
iterator('header', header, next);
});
},
function processMessages(header, callback) {
self.parsePacketMessages(
header,
packetBuffer.slice(FTN_PACKET_HEADER_SIZE),
iterator,
callback
);
},
],
cb // complete
);
};
}
//
// Message attributes defined in FTS-0001.016
// http://ftsc.org/docs/fts-0001.016
//
// See also:
// * http://www.skepticfiles.org/aj/basics03.htm
//
Packet.Attribute = {
Private: 0x0001, // Private message / NetMail
Crash: 0x0002,
Received: 0x0004,
Sent: 0x0008,
FileAttached: 0x0010,
InTransit: 0x0020,
Orphan: 0x0040,
KillSent: 0x0080,
Local: 0x0100, // Message is from *this* system
Hold: 0x0200,
Reserved0: 0x0400,
FileRequest: 0x0800,
ReturnReceiptRequest: 0x1000,
ReturnReceipt: 0x2000,
AuditRequest: 0x4000,
FileUpdateRequest: 0x8000,
};
Object.freeze(Packet.Attribute);
Packet.prototype.read = function (pathOrBuffer, iterator, cb) {
var self = this;
async.series(
[
function getBufferIfPath(callback) {
if (_.isString(pathOrBuffer)) {
fs.readFile(pathOrBuffer, (err, data) => {
pathOrBuffer = data;
callback(err);
});
} else {
callback(null);
}
},
function parseBuffer(callback) {
self.parsePacketBuffer(pathOrBuffer, iterator, err => {
callback(err);
});
},
],
err => {
cb(err);
}
);
};
Packet.prototype.writeHeader = function (ws, packetHeader) {
return this.writePacketHeader(packetHeader, ws);
};
Packet.prototype.writeMessageEntry = function (ws, msgEntry) {
ws.write(msgEntry);
return msgEntry.length;
};
Packet.prototype.writeTerminator = function (ws) {
//
// From FTS-0001.016:
// "A pseudo-message beginning with the word 0000H signifies the end of the packet."
//
ws.write(Buffer.from([0x00, 0x00])); // final extra null term
return 2;
};
Packet.prototype.writeStream = function (ws, messages, options) {
if (!_.isBoolean(options.terminatePacket)) {
options.terminatePacket = true;
}
if (_.isObject(options.packetHeader)) {
this.writePacketHeader(options.packetHeader, ws);
}
options.encoding = options.encoding || 'utf8';
messages.forEach(msg => {
this.writeMessage(msg, ws, options);
});
if (true === options.terminatePacket) {
ws.write(Buffer.from([0])); // final extra null term
}
};
Packet.prototype.write = function (path, packetHeader, messages, options) {
if (!_.isArray(messages)) {
messages = [messages];
}
options = options || { encoding: 'utf8' }; // utf-8 = 'CHRS UTF-8 4'
this.writeStream(
fs.createWriteStream(path), // :TODO: specify mode/etc.
messages,
Object.assign({ packetHeader: packetHeader, terminatePacket: true }, options)
);
};
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