dockerized_openAger/nodered/rootfs/data/node_modules/mailsplit/lib/message-splitter.js

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2020-10-17 16:42:50 +00:00
'use strict';
const Transform = require('stream').Transform;
const MimeNode = require('./mime-node');
const MAX_HEAD_SIZE = 1 * 1024 * 1024;
const MAX_CHILD_NODES = 1000;
const HEAD = 0x01;
const BODY = 0x02;
class MessageSplitter extends Transform {
constructor(config) {
let options = {
readableObjectMode: true,
writableObjectMode: false
};
super(options);
this.config = config || {};
this.maxHeadSize = this.config.maxHeadSize || MAX_HEAD_SIZE;
this.maxChildNodes = this.config.maxChildNodes || MAX_CHILD_NODES;
this.tree = [];
this.nodeCounter = 0;
this.newNode();
this.tree.push(this.node);
this.line = false;
this.errored = false;
}
_transform(chunk, encoding, callback) {
// process line by line
// find next line ending
let pos = 0;
let i = 0;
let group = {
type: 'none'
};
let groupstart = this.line ? -this.line.length : 0;
let groupend = 0;
let checkTrailingLinebreak = data => {
if (data.type === 'body' && data.node.parentNode && data.value && data.value.length) {
if (data.value[data.value.length - 1] === 0x0a) {
groupstart--;
groupend--;
pos--;
if (data.value.length > 1 && data.value[data.value.length - 2] === 0x0d) {
groupstart--;
groupend--;
pos--;
if (groupstart < 0 && !this.line) {
// store only <CR> as <LF> should be on the positive side
this.line = Buffer.allocUnsafe(1);
this.line[0] = 0x0d;
}
data.value = data.value.slice(0, data.value.length - 2);
} else {
data.value = data.value.slice(0, data.value.length - 1);
}
} else if (data.value[data.value.length - 1] === 0x0d) {
groupstart--;
groupend--;
pos--;
data.value = data.value.slice(0, data.value.length - 1);
}
}
};
let iterateData = () => {
for (let len = chunk.length; i < len; i++) {
// find next <LF>
if (chunk[i] === 0x0a) {
// line end
let start = Math.max(pos, 0);
pos = ++i;
return this.processLine(chunk.slice(start, i), false, (err, data, flush) => {
if (err) {
this.errored = true;
return setImmediate(() => callback(err));
}
if (!data) {
return setImmediate(iterateData);
}
if (flush) {
if (group && group.type !== 'none') {
if (group.type === 'body' && groupend >= groupstart && group.node.parentNode) {
// do not include the last line ending for body
if (chunk[groupend - 1] === 0x0a) {
groupend--;
if (groupend >= groupstart && chunk[groupend - 1] === 0x0d) {
groupend--;
}
}
}
if (groupstart !== groupend) {
group.value = chunk.slice(groupstart, groupend);
if (groupend < i) {
data.value = chunk.slice(groupend, i);
}
}
this.push(group);
group = {
type: 'none'
};
groupstart = groupend = i;
}
this.push(data);
groupend = i;
return setImmediate(iterateData);
}
if (data.type === group.type) {
// shift slice end position forward
groupend = i;
} else {
if (group.type === 'body' && groupend >= groupstart && group.node.parentNode) {
// do not include the last line ending for body
if (chunk[groupend - 1] === 0x0a) {
groupend--;
if (groupend >= groupstart && chunk[groupend - 1] === 0x0d) {
groupend--;
}
}
}
if (group.type !== 'none' && group.type !== 'node') {
// we have a previous data/body chunk to output
if (groupstart !== groupend) {
group.value = chunk.slice(groupstart, groupend);
if (group.value && group.value.length) {
this.push(group);
group = {
type: 'none'
};
}
}
}
if (data.type === 'node') {
this.push(data);
groupstart = i;
groupend = i;
} else if (groupstart < 0) {
groupstart = i;
groupend = i;
checkTrailingLinebreak(data);
if (data.value && data.value.length) {
this.push(data);
}
} else {
// start new body/data chunk
group = data;
groupstart = groupend;
groupend = i;
}
}
return setImmediate(iterateData);
});
}
}
// skip last linebreak for body
if (pos >= groupstart + 1 && group.type === 'body' && group.node.parentNode) {
// do not include the last line ending for body
if (chunk[pos - 1] === 0x0a) {
pos--;
if (pos >= groupstart && chunk[pos - 1] === 0x0d) {
pos--;
}
}
}
if (group.type !== 'none' && group.type !== 'node' && pos > groupstart) {
// we have a leftover data/body chunk to push out
group.value = chunk.slice(groupstart, pos);
if (group.value && group.value.length) {
this.push(group);
group = {
type: 'none'
};
}
}
if (pos < chunk.length) {
if (this.line) {
this.line = Buffer.concat([this.line, chunk.slice(pos)]);
} else {
this.line = chunk.slice(pos);
}
}
callback();
};
setImmediate(iterateData);
}
_flush(callback) {
if (this.errored) {
return callback();
}
this.processLine(false, true, (err, data) => {
if (err) {
return setImmediate(() => callback(err));
}
if (data && (data.type === 'node' || (data.value && data.value.length))) {
this.push(data);
}
callback();
});
}
compareBoundary(line, startpos, boundary) {
// --{boundary}\r\n or --{boundary}--\r\n
if (line.length < boundary.length + 3 + startpos || line.length > boundary.length + 6 + startpos) {
return false;
}
for (let i = 0; i < boundary.length; i++) {
if (line[i + 2 + startpos] !== boundary[i]) {
return false;
}
}
let pos = 0;
for (let i = boundary.length + 2 + startpos; i < line.length; i++) {
let c = line[i];
if (pos === 0 && (c === 0x0d || c === 0x0a)) {
// 1: next node
return 1;
}
if (pos === 0 && c !== 0x2d) {
// expecting "-"
return false;
}
if (pos === 1 && c !== 0x2d) {
// expecting "-"
return false;
}
if (pos === 2 && c !== 0x0d && c !== 0x0a) {
// expecting line terminator, either <CR> or <LF>
return false;
}
if (pos === 3 && c !== 0x0a) {
// expecting line terminator <LF>
return false;
}
pos++;
}
// 2: multipart end
return 2;
}
checkBoundary(line) {
let startpos = 0;
if (line.length >= 1 && (line[0] === 0x0d || line[0] === 0x0a)) {
startpos++;
if (line.length >= 2 && (line[0] === 0x0d || line[1] === 0x0a)) {
startpos++;
}
}
if (line.length < 4 || line[startpos] !== 0x2d || line[startpos + 1] !== 0x2d) {
// defnitely not a boundary
return false;
}
let boundary;
if (this.node._boundary && (boundary = this.compareBoundary(line, startpos, this.node._boundary))) {
// 1: next child
// 2: multipart end
return boundary;
}
if (this.node._parentBoundary && (boundary = this.compareBoundary(line, startpos, this.node._parentBoundary))) {
// 3: next sibling
// 4: parent end
return boundary + 2;
}
return false;
}
processLine(line, final, next) {
let flush = false;
if (this.line && line) {
line = Buffer.concat([this.line, line]);
this.line = false;
} else if (this.line && !line) {
line = this.line;
this.line = false;
}
if (!line) {
line = Buffer.alloc(0);
}
if (this.nodeCounter > this.maxChildNodes) {
let err = new Error('Max allowed child nodes exceeded');
err.code = 'EMAXLEN';
return next(err);
}
// we check boundary outside the HEAD/BODY scope as it may appear anywhere
let boundary = this.checkBoundary(line);
if (boundary) {
// reached boundary, switch context
switch (boundary) {
case 1:
// next child
this.newNode(this.node);
flush = true;
break;
case 2:
// reached end of children, keep current node
break;
case 3: {
// next sibling
let parentNode = this.node.parentNode;
if (parentNode && parentNode.contentType === 'message/rfc822') {
// special case where immediate parent is an inline message block
// move up another step
parentNode = parentNode.parentNode;
}
this.newNode(parentNode);
flush = true;
break;
}
case 4:
// special case when boundary close a node with only header.
if (this.node && this.node._headerlen && !this.node.headers) {
this.node.parseHeaders();
this.push(this.node);
}
// move up
if (this.tree.length) {
this.node = this.tree.pop();
}
this.state = BODY;
break;
}
return next(
null,
{
node: this.node,
type: 'data',
value: line
},
flush
);
}
switch (this.state) {
case HEAD: {
this.node.addHeaderChunk(line);
if (this.node._headerlen > this.maxHeadSize) {
let err = new Error('Max header size for a MIME node exceeded');
err.code = 'EMAXLEN';
return next(err);
}
if (final || (line.length === 1 && line[0] === 0x0a) || (line.length === 2 && line[0] === 0x0d && line[1] === 0x0a)) {
let currentNode = this.node;
currentNode.parseHeaders();
// if the content is attached message then just continue
if (
currentNode.contentType === 'message/rfc822' &&
!this.config.ignoreEmbedded &&
(!currentNode.encoding || ['7bit', '8bit', 'binary'].includes(currentNode.encoding)) &&
currentNode.disposition !== 'attachment'
) {
currentNode.messageNode = true;
this.newNode(currentNode);
if (currentNode.parentNode) {
this.node._parentBoundary = currentNode.parentNode._boundary;
}
} else {
if (currentNode.contentType === 'message/rfc822') {
currentNode.messageNode = false;
}
this.state = BODY;
if (currentNode.multipart && currentNode._boundary) {
this.tree.push(currentNode);
}
}
return next(null, currentNode, flush);
}
return next();
}
case BODY: {
return next(
null,
{
node: this.node,
type: this.node.multipart ? 'data' : 'body',
value: line
},
flush
);
}
}
next(null, false);
}
newNode(parent) {
this.node = new MimeNode(parent || false, this.config);
this.state = HEAD;
this.nodeCounter++;
}
}
module.exports = MessageSplitter;