bitmessage-js/lib/_util.js

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// NOTE(Kagami): End-users shouldn't import this module. While it
// exports some helper routines, its API is _not_ stable.
"use strict";
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var assert = exports.assert = function(condition, message) {
if (!condition) {
throw new Error(message || "Assertion failed");
}
};
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exports.PROTOCOL_VERSION = 3;
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// Missing methods to read/write 64 bits integers from/to buffers.
// TODO(Kagami): Use this helpers in structs, pow, platform.
var MAX_SAFE_INTEGER = exports.MAX_SAFE_INTEGER = 9007199254740991;
exports.readUInt64BE = function(buf, offset, noAssert) {
offset = offset || 0;
var hi = buf.readUInt32BE(offset, noAssert);
var lo = buf.readUInt32BE(offset + 4, noAssert);
// Max safe number = 2^53 - 1 =
// 0b0000000000011111111111111111111111111111111111111111111111111111
// = 2097151*(2^32) + (2^32 - 1).
// So it's safe until hi <= 2097151. See
// <http://mdn.io/issafeinteger>, <https://stackoverflow.com/q/307179>
// for details.
assert(noAssert || hi <= 2097151, "Unsafe integer");
return hi * 4294967296 + lo;
};
var readTimestamp64BE = exports.readTimestamp64BE = function(buf, offset) {
offset = offset || 0;
var timeHi = buf.readUInt32BE(offset);
var timeLo = buf.readUInt32BE(offset + 4);
// JavaScript's Date object can't work with timestamps higher than
// 8640000000000 (~2^43, ~275760 year). Hope JavaScript will support
// 64-bit numbers up to this date.
assert(timeHi <= 2011, "Time is too high");
assert(timeHi !== 2011 || timeLo <= 2820767744, "Time is too high");
return timeHi * 4294967296 + timeLo;
};
exports.readTime64BE = function(buf, offset) {
var timestamp = readTimestamp64BE(buf, offset);
return new Date(timestamp * 1000);
};
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function writeUInt64BE(buf, value, offset, noAssert) {
buf = buf || Buffer.alloc(8);
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offset = offset || 0;
assert(noAssert || value <= MAX_SAFE_INTEGER, "Unsafe integer");
buf.writeUInt32BE(Math.floor(value / 4294967296), offset, noAssert);
buf.writeUInt32BE(value % 4294967296, offset + 4, noAssert);
return buf;
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}
exports.writeUInt64BE = writeUInt64BE;
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exports.writeTime64BE = function(buf, time, offset, noAssert) {
var timestamp = Math.floor(time.getTime() / 1000);
return writeUInt64BE(buf, timestamp, offset, noAssert);
};
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exports.tnow = function() {
var time = new Date();
return Math.floor(time.getTime() / 1000);
};
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var DEFAULT_TRIALS_PER_BYTE = exports.DEFAULT_TRIALS_PER_BYTE = 1000;
var DEFAULT_EXTRA_BYTES = exports.DEFAULT_EXTRA_BYTES = 1000;
exports.getTrials = function(opts) {
var nonceTrialsPerByte = opts.nonceTrialsPerByte;
// Automatically raise lower values per spec.
if (!nonceTrialsPerByte || nonceTrialsPerByte < DEFAULT_TRIALS_PER_BYTE) {
nonceTrialsPerByte = DEFAULT_TRIALS_PER_BYTE;
}
return nonceTrialsPerByte;
};
exports.getExtraBytes = function(opts) {
var payloadLengthExtraBytes = opts.payloadLengthExtraBytes;
// Automatically raise lower values per spec.
if (!payloadLengthExtraBytes ||
payloadLengthExtraBytes < DEFAULT_EXTRA_BYTES) {
payloadLengthExtraBytes = DEFAULT_EXTRA_BYTES;
}
return payloadLengthExtraBytes;
};
exports.popkey = function(obj, key) {
var value = obj[key];
delete obj[key];
return value;
};
// See https://en.wikipedia.org/wiki/IPv6#IPv4-mapped_IPv6_addresses
var IPv4_MAPPING = Buffer.from("00000000000000000000ffff", "hex");
exports.IPv4_MAPPING = IPv4_MAPPING;
// Very simple inet_pton(3) equivalent.
exports.inet_pton = function(str) {
var buf = Buffer.alloc(16);
buf.fill(0);
// IPv4-mapped IPv6.
if (str.slice(0, 7) === "::ffff:") {
str = str.slice(7);
}
// IPv4.
if (str.indexOf(":") === -1) {
IPv4_MAPPING.copy(buf);
var octets = str.split(/\./g).map(function(o) {
assert(/^\d+$/.test(o), "Bad octet");
return parseInt(o, 10);
});
// Support short form from inet_aton(3) man page.
if (octets.length === 1) {
buf.writeUInt32BE(octets[0], 12);
} else {
// Check against 1000.bad.addr
octets.forEach(function(octet) {
assert(octet >= 0, "Bad IPv4 address");
assert(octet <= 255, "Bad IPv4 address");
});
if (octets.length === 2) {
buf[12] = octets[0];
buf[15] = octets[1];
} else if (octets.length === 3) {
buf[12] = octets[0];
buf[13] = octets[1];
buf[15] = octets[2];
} else if (octets.length === 4) {
buf[12] = octets[0];
buf[13] = octets[1];
buf[14] = octets[2];
buf[15] = octets[3];
} else {
throw new Error("Bad IPv4 address");
}
}
// IPv6.
} else {
var dgroups = str.split(/::/g);
// Check against 1::1::1
assert(dgroups.length <= 2, "Bad IPv6 address");
var groups = [];
var i;
if (dgroups[0]) {
groups.push.apply(groups, dgroups[0].split(/:/g));
}
if (dgroups.length === 2) {
if (dgroups[1]) {
var splitted = dgroups[1].split(/:/g);
var fill = 8 - (groups.length + splitted.length);
// Check against 1:1:1:1::1:1:1:1
assert(fill > 0, "Bad IPv6 address");
for (i = 0; i < fill; i++) {
groups.push(0);
}
groups.push.apply(groups, splitted);
} else {
// Check against 1:1:1:1:1:1:1:1::
assert(groups.length <= 7, "Bad IPv6 address");
}
} else {
// Check against 1:1:1
assert(groups.length === 8, "Bad IPv6 address");
}
for (i = 0; i < Math.min(groups.length, 8); i++) {
// Check against parseInt("127.0.0.1", 16) -> 295
assert(/^[0-9a-f]+$/.test(groups[i]), "Bad group");
buf.writeUInt16BE(parseInt(groups[i], 16), i * 2);
}
}
return buf;
};