AJ ONeal
6 lat temu
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ECDSA-CSR.js |
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========= |
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|
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Sponsored by [Root](https://therootcompany.com) |
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A focused, **zero-dependency** library that can do exactly one thing really, really well: |
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* Generate a Certificate Signing Requests (CSR), and sign it! |
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Features |
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======== |
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|
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* [x] Universal ECDSA and CSR support that Just Works™ |
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* NIST P-256 (also known as prime256v1 or secp256r1) |
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* PEM, DER, ASN.1, PKCS8 (Private Key), PKIX/SPKI (Public Key) |
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* Common Name (CN) Subject |
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* Subject Alternative Names (SANs / altnames) |
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* [x] Zero Dependencies |
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* (no ASN1.js, PKI.js, forge, jrsasign - not even elliptic.js!) |
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* [x] Quality |
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* Focused |
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* Lightweight |
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* Well-Commented, Well-Documented |
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* Secure |
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* [x] Vanilla Node.js |
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* no school like the old school |
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* easy to read and understand |
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Usage |
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----- |
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Given an array of domains it uses the first for the Common Name (CN), |
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also known as Subject, and all of them as the Subject Alternative Names (SANs or altnames). |
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```js |
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'use strict'; |
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var edsacsr = require('ecdsa-csr'); |
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var domains = [ 'example.com', 'www.example.com', 'api.example.com' ]; |
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return ecdsacsr({ key: key, domains: domains }).then(function (csr) { |
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console.log('CSR PEM:', csr); |
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}); |
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``` |
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### Options |
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* `key` must be a PEM or DER |
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* PEM may be a plain string or a Buffer* |
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* DER must be a Buffer* |
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* `domains` must be a list of strings representing domain names |
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* must be plain oldl utf8, not punycode |
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* "Buffer" can be a node Buffer, a JavaScript Uint8Array, |
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or a JavaScript Array which contains only numbers between 0 and 255. |
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Other useful options: |
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* `der: true` output a der instead of a PEM |
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* `format: string|Array|Buffer|Uint8Array` output the PEM or DER in the desired format. |
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### Verifying |
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You can double check that the CSR you get out is actually valid: |
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```bash |
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# Generate a key |
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openssl ecparam -genkey -name prime256v1 -noout -out ./privkey-ec-p256.pem |
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# Create a CSR |
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npx ecdsa-csr ./privkey-ec-p256.pem example.com,www.example.com > csr.pem |
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# Verify |
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openssl req -text -noout -verify -in csr.pem |
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``` |
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Known Issues |
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------------ |
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I've learned to be careful about talking about the future, |
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however, I literally just published this tonight (2018-11-17) |
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and there are a few things I plan to address but haven't yet: |
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* JWK not yet supported |
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* non-ascii domains, such as 例.中国 not yet supported |
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* total domains length over 127 characters not yet supported |
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New to Crypto? |
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-------------- |
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Just a heads up in case you have no idea what you're doing: |
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First of all, [don't panic](https://coolaj86.com/articles/dont-panic.html). |
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Next: |
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* EC stands for _Elliptic Curve_. |
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* DSA stands for _Digital Signing Algorithm_. |
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* EC, ECDSA, and ECDH all belong to the same suite of tools. |
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* Private keys are actually keypairs (they contain the public key) |
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* NIST P-256, prime256v1, and secp256r1 are all aliases of the same thing |
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In many cases the terms get used (and misused) interchangably, |
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which can be confusing. You'll survive, I promise. |
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* PEM is just a Base64-encoded DER (think JSON as hex or base64) |
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* DER is an binary _object notation_ for ASN.1 (think actual stringified JSON or XML) |
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* ASN.1 is _object notation_ standard (think JSON, the standard) |
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* X.509 is a suite of schemas (think XLST or json-schema.org) |
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* PKCS#8, PKIK, SPKI are all X.509 schemas (think defining `firstName` vs `first_name` vs `firstname`) |
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Now forget about all that and just know this: |
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**This library solves your problem if** you need EC _something-or-other_ and CSR _something-or-other_ |
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in order to deal with SSL certificates in an internal organization. |
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If that's not what you're doing, you may want HTTPS and SSL through |
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[Greenlock.js](https://git.coolaj86.com/coolaj86/greenlock-express.js), |
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or you may be looking for something else entirely. |
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Goals vs Non-Goals |
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----- |
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This was built for use by [ACME.js](https://git.coolaj86.com/coolaj86/acme.js) |
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and [Greenlock.js](https://git.coolaj86.com/coolaj86/greenlock-express.js). |
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Rather than trying to make a generic implementation that works with everything under the sun, |
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this library is intentionally focused on around the use case of generating certificates for |
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ACME services (such as Let's Encrypt). |
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The primary goal of this project is for this code to do exactly (and all of) |
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what it needs to do - No more, no less. |
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* ECDSA support EC (named curve P-256), also known as: |
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* NIST P-256 |
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* prime256v1 |
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* secp256r1 |
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* PEM, DER, and JWK |
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* Support both ASN.1 private key formats (one supported now) |
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* Support both ASN.1 public key formats (one supported now) |
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* Vanilla node.js (ECMAScript 5.1) |
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* No babel |
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* No dependencies |
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However, there are a few areas where I'd be willing to stretch: |
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* Support other universally accepted EC standards |
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* (the 384 variety is the only one that comes to mind) |
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* Support other PEM formats |
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* (the EC-only format comes to mind) |
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* Type definition files for altscript languages |
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It is not a goal of this project to support any EC profiles |
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except those that are universally supported by browsers and |
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are sufficiently secure (overkill is overkill). |
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> A little copying is better than a little dependency. - [Go Proverbs](https://go-proverbs.github.io) by Rob Pike |
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This code is considered small and focused enough that, |
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rather than making it a dependency in other small projects, |
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I personally just copy over the code. |
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Hence, all of these projects are MPL-2.0 licensed. |
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Legal |
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----- |
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MPL-2.0 |
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|
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[Terms of Use](https://therootcompany.com/legal/#terms) | |
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[Privacy Policy](https://therootcompany.com/legal/#privacy) |
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#!/bin/env node
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'use strict'; |
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var fs = require('fs'); |
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var ecdsacsr = require('../index.js'); |
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var keyname = process.argv[2]; |
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var domains = process.argv[3].split(/,/); |
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var keypem = fs.readFileSync(keyname, 'ascii'); |
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ecdsacsr({ key: keypem, domains: domains }).then(function (csr) { |
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console.error("CN=" + domains[0]); |
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console.error("subjectAltName=" + domains.join(',')); |
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console.error(); |
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console.log(csr); |
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}); |
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'use strict'; |
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module.exports = require('./lib/ecdsacsr.js'); |
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'use strict'; |
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var crypto = require('crypto'); |
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// 1.2.840.10045.3.1.7
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// prime256v1 (ANSI X9.62 named elliptic curve)
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var OBJ_ID_EC = '06 08 2A8648CE3D030107'.replace(/\s+/g, '').toLowerCase(); |
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function fromBase64(b64) { |
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var buf; |
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var ab; |
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if ('undefined' === typeof atob) { |
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buf = Buffer.from(b64, 'base64'); |
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return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength); |
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} |
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buf = atob(b64); |
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ab = new ArrayBuffer(buf.length); |
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ab = new Uint8Array(ab); |
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buf.split('').forEach(function (ch, i) { |
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ab[i] = ch.charCodeAt(0); |
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}); |
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return ab.buffer; |
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} |
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function parsePem(pem) { |
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var typ; |
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var pub; |
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var crv; |
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var der = fromBase64(pem.split(/\n/).filter(function (line, i) { |
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if (0 === i) { |
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if (/ PUBLIC /.test(line)) { |
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pub = true; |
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} else if (/ PRIVATE /.test(line)) { |
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pub = false; |
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} |
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if (/ EC/.test(line)) { |
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typ = 'EC'; |
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} |
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} |
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return !/---/.test(line); |
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}).join('')); |
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if (!typ || 'EC' === typ) { |
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var hex = toHex(der).toLowerCase(); |
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if (-1 !== hex.indexOf(OBJ_ID_EC)) { |
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typ = 'EC'; |
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crv = 'P-256'; |
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} else { |
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// TODO more than just P-256
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console.warn("unsupported ec curve"); |
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} |
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} |
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return { typ: typ, pub: pub, der: der, crv: crv }; |
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} |
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function toHex(ab) { |
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var hex = []; |
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var u8 = new Uint8Array(ab); |
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var size = u8.byteLength; |
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var i; |
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var h; |
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for (i = 0; i < size; i += 1) { |
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h = u8[i].toString(16); |
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if (2 === h.length) { |
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hex.push(h); |
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} else { |
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hex.push('0' + h); |
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} |
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} |
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return hex.join(''); |
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} |
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function fromHex(hex) { |
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if ('undefined' !== typeof Buffer) { |
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return Buffer.from(hex, 'hex'); |
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} |
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var ab = new ArrayBuffer(hex.length/2); |
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var i; |
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var j; |
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ab = new Uint8Array(ab); |
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for (i = 0, j = 0; i < (hex.length/2); i += 1) { |
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ab[i] = parseInt(hex.slice(j, j+1), 16); |
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j += 2; |
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} |
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return ab.buffer; |
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} |
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function readEcPubkey(der) { |
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// the key is the last 520 bits of both the private key and the public key
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// he 3 bits prior identify the key as
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var x, y; |
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var compressed; |
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var keylen = 32; |
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var offset = 64; |
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var headerSize = 4; |
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var header = toHex(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset)); |
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if ('03420004' !== header) { |
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offset = 32; |
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header = toHex(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset)); |
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if ('03420002' !== header) { |
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throw new Error("not a valid EC P-256 key (expected 0x0342004 or 0x0342002 as pub key preamble, but found " + header + ")"); |
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} |
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} |
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// The one good thing that came from the b***kchain hysteria: good EC documentation
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// https://davidederosa.com/basic-blockchain-programming/elliptic-curve-keys/
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compressed = ('2' === header[header.byteLength -1]); |
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x = der.slice(der.byteLength - offset, (der.byteLength - offset) + keylen); |
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if (!compressed) { |
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y = der.slice(der.byteLength - keylen, der.byteLength); |
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} |
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return { |
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x: x |
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, y: y || null |
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}; |
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} |
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function formatAsPem(str) { |
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var finalString = ''; |
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while (str.length > 0) { |
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finalString += str.substring(0, 64) + '\n'; |
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str = str.substring(64); |
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} |
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return finalString; |
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} |
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function toBase64(der) { |
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if ('undefined' === typeof btoa) { |
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return Buffer.from(der).toString('base64'); |
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} |
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var chs = []; |
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der.forEach(function (b) { |
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chs.push(String.fromCharCode(b)); |
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}); |
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return btoa(chs.join('')); |
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} |
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// these are static ASN.1 segments
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// The head specifies that there will be 3 segments and a content length
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// (those segments will be content, signature header, and signature)
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var csrHead = '30 82 {0seq0len}'.replace(/\s+/g, ''); |
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// The tail specifies the ES256 signature header (and is followed by the signature
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var csrEcFoot = |
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( '30 0A' |
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// 1.2.840.10045.4.3.2 ecdsaWithSHA256
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// (ANSI X9.62 ECDSA algorithm with SHA256)
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+ '06 08 2A 86 48 CE 3D 04 03 02' |
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+ '03 {len} 00' // bit stream (why??)
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+ '30 {rslen}' // sequence
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+ '02 {rlen} {r}' // integer r
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+ '02 {slen} {s}' // integer s
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).replace(/\s+/g, ''); |
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var csrDomains = '82 {dlen} {domain.tld}'; // 2+n bytes (type 82?)
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function strToHex(str) { |
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return str.split('').map(function (ch) { |
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var h = ch.charCodeAt(0).toString(16); |
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if (2 === h.length) { |
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return h; |
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} |
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return '0' + h; |
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}).join(''); |
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} |
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function numToHex(d) { |
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d = d.toString(16); |
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if (d.length % 2) { |
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return '0' + d; |
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} |
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return d; |
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} |
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function fromHex(hex) { |
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if ('undefined' !== typeof Buffer) { |
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return Buffer.from(hex, 'hex'); |
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} |
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var ab = new ArrayBuffer(hex.length/2); |
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var i; |
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var j; |
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ab = new Uint8Array(ab); |
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for (i = 0, j = 0; i < (hex.length/2); i += 1) { |
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ab[i] = parseInt(hex.slice(j, j+1), 16); |
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j += 2; |
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} |
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return ab.buffer; |
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} |
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function createCsrBodyEc(domains, xy) { |
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var altnames = domains.map(function (d) { |
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return csrDomains.replace(/{dlen}/, numToHex(d.length)).replace(/{domain\.tld}/, strToHex(d)); |
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}).join('').replace(/\s+/g, ''); |
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var sublen = domains[0].length; |
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var sanlen = (altnames.length/2); |
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var publen = xy.x.byteLength; |
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var compression = '04'; |
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var hxy = ''; |
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// 04 == x+y, 02 == x-only
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if (xy.y) { |
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publen += xy.y.byteLength; |
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} else { |
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// Note: I don't intend to support compression - it isn't used by most
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// libraries and it requir more dependencies for bigint ops to deflate.
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// This is more just a placeholder. It won't work right now anyway
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// because compression requires an exta bit stored (odd vs even), which
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// I haven't learned yet, and I'm not sure if it's allowed at all
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compression = '02'; |
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} |
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hxy += toHex(xy.x); |
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if (xy.y) { |
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hxy += toHex(xy.y); |
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} |
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var body = [ '30 81 {+85+n}' // 4 bytes, sequence
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.replace(/{[^}]+}/, numToHex( |
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3 |
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+ 13 + sublen |
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+ 27 + publen // Length for EC-related P-256 stuff
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+ 30 + sanlen |
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)) |
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// #0 Total 3
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, '02 01 00' // 3 bytes, int 0
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// Subject
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// #1 Total 2+11+n
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, '30 {3.2.0seqlen}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(2+2+5+2+sublen)) |
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, '31 {4.3.0setlen}' // 2 bytes, set
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.replace(/{[^}]+}/, numToHex(2+5+2+sublen)) |
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, '30 {5.4.0seqlen}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(5+2+sublen)) |
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, '06 03 55 04 03' // 5 bytes, object id (commonName)
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, '0C {dlen} {domain.tld}' // 2+n bytes, utf8string
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.replace(/{dlen}/, numToHex(sublen)) |
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.replace(/{domain\.tld}/, strToHex(domains[0])) |
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// P-256 Public Key
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// #2 Total 2+25+xy
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, '30 {+25+xy}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(2+9+10+3+1+publen)) |
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, '30 13' // 2 bytes, sequence
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// 1.2.840.10045.2.1 ecPublicKey
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// (ANSI X9.62 public key type)
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, '06 07 2A 86 48 CE 3D 02 01' // 9 bytes, object id
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// 1.2.840.10045.3.1.7 prime256v1
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// (ANSI X9.62 named elliptic curve)
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, '06 08 2A 86 48 CE 3D 03 01 07' // 10 bytes, object id
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, '03 {xylen} 00 {xy}' // 3+1+n bytes
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.replace(/{xylen}/, numToHex(publen+2)) |
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.replace(/{xy}/, compression + hxy) |
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// Altnames
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// #3 Total 2+28+n
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, 'A0 {+28}' // 2 bytes, ?? [4B]
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.replace(/{[^}]+}/, numToHex(2+11+2+2+2+5+2+2+sanlen)) |
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, '30 {+26}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(11+2+2+2+5+2+2+sanlen)) |
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// (extensionRequest (PKCS #9 via CRMF))
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, '06 09 2A 86 48 86 F7 0D 01 09 0E' // 11 bytes, object id
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, '31 {+13}' // 2 bytes, set
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.replace(/{[^}]+}/, numToHex(2+2+5+2+2+sanlen)) |
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, '30 {+11}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(2+5+2+2+sanlen)) |
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, '30 {+9}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(5+2+2+sanlen)) |
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// (subjectAltName (X.509 extension))
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, '06 03 55 1D 11' // 5 bytes, object id
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, '04 {+2}' // 2 bytes, octet string
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.replace(/{[^}]+}/, numToHex(2+sanlen)) |
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, '30 {+n}' // 2 bytes, sequence
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.replace(/{[^}]+}/, numToHex(sanlen)) |
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, '{altnames}' // n (elements of sequence)
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.replace(/{altnames}/, altnames) |
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]; |
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body = body.join('').replace(/\s+/g, ''); |
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return fromHex(body); |
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} |
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// https://gist.github.com/codermapuche/da4f96cdb6d5ff53b7ebc156ec46a10a
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function signEc(keypem, ab) { |
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// Signer is a stream
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var sign = crypto.createSign('SHA256'); |
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sign.write(new Uint8Array(ab)); |
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sign.end(); |
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// The signature is ASN1 encoded
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var sig = sign.sign(keypem); |
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// Convert to a JavaScript ArrayBuffer just because
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sig = new Uint8Array(sig.buffer.slice(sig.byteOffset, sig.byteOffset + sig.byteLength)); |
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// The first two bytes '30 xx' signify SEQUENCE and LENGTH
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// The sequence length byte will be a single byte because the signature is less that 128 bytes (0x80, 1024-bit)
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// (this would not be true for P-521, but I'm not supporting that yet)
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// The 3rd byte will be '02', signifying INTEGER
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// The 4th byte will tell us the length of 'r' (which, on occassion, will be less than the full 255 bytes)
|
|||
var rIndex = 3; |
|||
var rLen = sig[rIndex]; |
|||
var rEnd = rIndex + 1 + rLen; |
|||
var sIndex = rEnd + 1; |
|||
var sLen = sig[sIndex]; |
|||
var sEnd = sIndex + 1 + sLen; |
|||
var r = sig.slice(rIndex + 1, rEnd); |
|||
var s = sig.slice(sIndex + 1, sEnd); // this should be end-of-file
|
|||
|
|||
// ASN1 INTEGER types use the high-order bit to signify a negative number,
|
|||
// hence a leading '00' is used for numbers that begin with '80' or greater
|
|||
// which is why r length is sometimes a byte longer than its bit length
|
|||
if (0 === s[0]) { s = s.slice(1); } |
|||
if (0 === r[0]) { r = r.slice(1); } |
|||
|
|||
return { raw: sig.buffer, r: r.buffer, s: s.buffer }; |
|||
} |
|||
|
|||
function createEcCsr(domains, keypem, ecpub) { |
|||
// TODO get pub from priv
|
|||
|
|||
var csrBody = createCsrBodyEc(domains, ecpub); |
|||
var sig = signEc(keypem, csrBody); |
|||
var rLen = sig.r.byteLength; |
|||
var rc = ''; |
|||
var sLen = sig.s.byteLength; |
|||
var sc = ''; |
|||
|
|||
if (0x80 & new Uint8Array(sig.r)[0]) { rc = '00'; rLen += 1; } |
|||
if (0x80 & new Uint8Array(sig.s)[0]) { sc = '00'; sLen += 1; } |
|||
|
|||
var csrSig = csrEcFoot |
|||
.replace(/{len}/, numToHex(1 + 2 + 2 + 2 + rLen + sLen)) |
|||
.replace(/{rslen}/, numToHex(2 + 2 + rLen + sLen)) |
|||
.replace(/{rlen}/, numToHex(rLen)) |
|||
.replace(/{r}/, rc + toHex(sig.r)) |
|||
.replace(/{slen}/, numToHex(sLen)) |
|||
.replace(/{s}/, sc + toHex(sig.s)) |
|||
; |
|||
|
|||
// Note: If we supported P-521 a number of the lengths would change
|
|||
// by one byte and that would be... annoying to update
|
|||
var len = csrBody.byteLength + (csrSig.length/2); |
|||
/* |
|||
console.log('sig:', sig.raw.byteLength, toHex(sig.raw)); |
|||
console.log('r:', sig.r.byteLength, toHex(sig.r)); |
|||
console.log('s:', sig.s.byteLength, toHex(sig.s)); |
|||
console.log('csr sig:', csrSig.length / 2, csrSig); |
|||
console.log('csrBodyLen + csrSigLen', numToHex(len)); |
|||
*/ |
|||
var head = csrHead.replace(/{[^}]+}/, numToHex(len)); |
|||
var ab = new Uint8Array(new ArrayBuffer((head.length/2) + len)); |
|||
var i = 0; |
|||
fromHex(head).forEach(function (b) { |
|||
ab[i] = b; |
|||
i += 1; |
|||
}); |
|||
csrBody.forEach(function (b) { |
|||
ab[i] = b; |
|||
i += 1; |
|||
}); |
|||
fromHex(csrSig).forEach(function (b) { |
|||
ab[i] = b; |
|||
i += 1; |
|||
}); |
|||
|
|||
return ab; |
|||
} |
|||
|
|||
function createEcCsrPem(domains, keypem) { |
|||
var pemblock = parsePem(keypem); |
|||
var ecpub = readEcPubkey(pemblock.der); |
|||
var ab = createEcCsr(domains, keypem, ecpub); |
|||
var pem = formatAsPem(toBase64(ab)); |
|||
return '-----BEGIN CERTIFICATE REQUEST-----\n' + pem + '-----END CERTIFICATE REQUEST-----'; |
|||
} |
|||
|
|||
// Taken from Unibabel
|
|||
// https://git.coolaj86.com/coolaj86/unibabel.js#readme
|
|||
// https://coolaj86.com/articles/base64-unicode-utf-8-javascript-and-you/
|
|||
function utf8ToUint8Array(str) { |
|||
var escstr = encodeURIComponent(str); |
|||
// replaces any uri escape sequence, such as %0A,
|
|||
// with binary escape, such as 0x0A
|
|||
var binstr = escstr.replace(/%([0-9A-F]{2})/g, function(match, p1) { |
|||
return String.fromCharCode('0x' + p1); |
|||
}); |
|||
var buf = new Uint8Array(binstr.length); |
|||
binstr.split('').forEach(function (ch, i) { |
|||
buf[i] = ch.charCodeAt(0); |
|||
}); |
|||
|
|||
return buf; |
|||
} |
|||
|
|||
function ensurePem(key) { |
|||
if (!key) { throw new Error("no private key given"); } |
|||
// whether PEM or DER, convert to Uint8Array
|
|||
if ('string' === typeof key) { key = utf8ToUint8Array(key); } |
|||
|
|||
// for consistency
|
|||
if (key instanceof Buffer) { key = new Uint8Array(key.buffer.slice(key.byteOffset, key.byteOffset + key.byteLength)); } |
|||
|
|||
// just as a sanity check
|
|||
if (key instanceof Array) { |
|||
key = Uint8Array.from(key); |
|||
if (!key.every(function (el) { |
|||
return ('number' === typeof el) && (el >= 0) && (el <= 255); |
|||
})) { |
|||
throw new Error("key was an array, but not an array of ints between 0 and 255"); |
|||
} |
|||
} |
|||
|
|||
// no matter which path we take, we should arrive at a Uint8Array
|
|||
if (!(key instanceof Uint8Array)) { |
|||
throw new Error("typeof key is '" + typeof key + "', not any of the supported types: utf8 string," |
|||
+ " binary string, node Buffer, Uint8Array, or Array of ints between 0 and 255"); |
|||
} |
|||
|
|||
// if DER, convert to PEM
|
|||
if ((0x30 === key[0]) && (0x80 & key[1])) { |
|||
key = toBase64(key); |
|||
} |
|||
key = [].map.call(key, function (i) { |
|||
return String.fromCharCode(i); |
|||
}).join(''); |
|||
if ('M' === key[0]) { |
|||
key = '-----BEGIN EC PRIVATE KEY-----\n' + key + '-----END EC PRIVATE KEY-----'; |
|||
} |
|||
if ('-' === key[0]) { |
|||
return key; |
|||
} else { |
|||
throw new Error("key does not appear to be in PEM formt (does not begin with either '-' or 'M')," |
|||
+ " nor DER format (does not begin with 0x308X)"); |
|||
} |
|||
} |
|||
|
|||
/*global Promise*/ |
|||
module.exports = function (opts) { |
|||
// We're using a Promise here to be compatible with the browser version
|
|||
// which uses the webcrypto API for some of the conversions
|
|||
return Promise.resolve().then(function () { |
|||
|
|||
// We do a bit of extra error checking for user convenience
|
|||
if (!opts) { throw new Error("You must pass options with key and domains to ecdsacsr"); } |
|||
if (!Array.isArray(opts.domains) || 0 === opts.domains.length) { |
|||
new Error("You must pass options.domains as a non-empty array"); |
|||
} |
|||
|
|||
// I need to check that 例.中国 is a valid domain name
|
|||
if (!opts.domains.every(function (d) { |
|||
// allow punycode? xn--
|
|||
if ('string' === typeof d /*&& /\./.test(d) && !/--/.test(d)*/) { |
|||
return true; |
|||
} |
|||
})) { |
|||
throw new Error("You must pass options.domains as utf8 strings (not punycode)"); |
|||
} |
|||
var key = ensurePem(opts.key); |
|||
|
|||
return createEcCsrPem(opts.domains, key); |
|||
}); |
|||
}; |
@ -0,0 +1,111 @@ |
|||
'use strict'; |
|||
|
|||
// We believe in a proactive approach to sustainable open source.
|
|||
// As part of that we make it easy for you to opt-in to following our progress
|
|||
// and we also stay up-to-date on telemetry such as operating system and node
|
|||
// version so that we can focus our efforts where they'll have the greatest impact.
|
|||
//
|
|||
// Want to learn more about our Terms, Privacy Policy, and Mission?
|
|||
// Check out https://therootcompany.com/legal/
|
|||
|
|||
var os = require('os'); |
|||
var crypto = require('crypto'); |
|||
var https = require('https'); |
|||
var pkg = require('../package.json'); |
|||
|
|||
// to help focus our efforts in the right places
|
|||
var data = { |
|||
package: pkg.name |
|||
, version: pkg.version |
|||
, node: process.version |
|||
, arch: process.arch || os.arch() |
|||
, platform: process.platform || os.platform() |
|||
, release: os.release() |
|||
}; |
|||
|
|||
function addCommunityMember(opts) { |
|||
setTimeout(function () { |
|||
var req = https.request({ |
|||
hostname: 'api.therootcompany.com' |
|||
, port: 443 |
|||
, path: '/api/therootcompany.com/public/community' |
|||
, method: 'POST' |
|||
, headers: { 'Content-Type': 'application/json' } |
|||
}, function (resp) { |
|||
// let the data flow, so we can ignore it
|
|||
resp.on('data', function () {}); |
|||
//resp.on('data', function (chunk) { console.log(chunk.toString()); });
|
|||
resp.on('error', function () { /*ignore*/ }); |
|||
//resp.on('error', function (err) { console.error(err); });
|
|||
}); |
|||
var obj = JSON.parse(JSON.stringify(data)); |
|||
obj.action = 'updates'; |
|||
try { |
|||
obj.ppid = ppid(obj.action); |
|||
} catch(e) { |
|||
// ignore
|
|||
//console.error(e);
|
|||
} |
|||
obj.name = opts.name || undefined; |
|||
obj.address = opts.email; |
|||
obj.community = 'node.js@therootcompany.com'; |
|||
|
|||
req.write(JSON.stringify(obj, 2, null)); |
|||
req.end(); |
|||
req.on('error', function () { /*ignore*/ }); |
|||
//req.on('error', function (err) { console.error(err); });
|
|||
}, 50); |
|||
} |
|||
|
|||
function ping(action) { |
|||
setTimeout(function () { |
|||
var req = https.request({ |
|||
hostname: 'api.therootcompany.com' |
|||
, port: 443 |
|||
, path: '/api/therootcompany.com/public/ping' |
|||
, method: 'POST' |
|||
, headers: { 'Content-Type': 'application/json' } |
|||
}, function (resp) { |
|||
// let the data flow, so we can ignore it
|
|||
resp.on('data', function () { }); |
|||
//resp.on('data', function (chunk) { console.log(chunk.toString()); });
|
|||
resp.on('error', function () { /*ignore*/ }); |
|||
//resp.on('error', function (err) { console.error(err); });
|
|||
}); |
|||
var obj = JSON.parse(JSON.stringify(data)); |
|||
obj.action = action; |
|||
try { |
|||
obj.ppid = ppid(obj.action); |
|||
} catch(e) { |
|||
// ignore
|
|||
//console.error(e);
|
|||
} |
|||
|
|||
req.write(JSON.stringify(obj, 2, null)); |
|||
req.end(); |
|||
req.on('error', function (/*e*/) { /*console.error('req.error', e);*/ }); |
|||
}, 50); |
|||
} |
|||
|
|||
// to help identify unique installs without getting
|
|||
// the personally identifiable info that we don't want
|
|||
function ppid(action) { |
|||
var parts = [ action, data.package, data.version, data.node, data.arch, data.platform, data.release ]; |
|||
var ifaces = os.networkInterfaces(); |
|||
Object.keys(ifaces).forEach(function (ifname) { |
|||
if (/^en/.test(ifname) || /^eth/.test(ifname) || /^wl/.test(ifname)) { |
|||
if (ifaces[ifname] && ifaces[ifname].length) { |
|||
parts.push(ifaces[ifname][0].mac); |
|||
} |
|||
} |
|||
}); |
|||
return crypto.createHash('sha1').update(parts.join(',')).digest('base64'); |
|||
} |
|||
|
|||
module.exports.ping = ping; |
|||
module.exports.joinCommunity = addCommunityMember; |
|||
|
|||
if (require.main === module) { |
|||
ping('install'); |
|||
//addCommunityMember({ name: "AJ ONeal", email: 'coolaj86@gmail.com' });
|
|||
} |
@ -0,0 +1,29 @@ |
|||
{ |
|||
"name": "ecdsa-csr", |
|||
"version": "1.0.0", |
|||
"description": "A focused, zero-dependency library to generate a Certificate Signing Request (CSR) and sign it!", |
|||
"main": "index.js", |
|||
"bin": { |
|||
"ecdsa-csr": "ecdsacsr.js" |
|||
}, |
|||
"directories": { |
|||
"lib": "lib" |
|||
}, |
|||
"scripts": { |
|||
"postinstall": "node lib/telemetry.js install", |
|||
"test": "echo \"Error: no test specified\" && exit 1" |
|||
}, |
|||
"repository": { |
|||
"type": "git", |
|||
"url": "https://git.coolaj86.com/coolaj86/ecdsa-csr.js" |
|||
}, |
|||
"keywords": [ |
|||
"zero-dependency", |
|||
"csr", |
|||
"ecdsa", |
|||
"ec", |
|||
"pem" |
|||
], |
|||
"author": "AJ ONeal <coolaj86@gmail.com> (https://coolaj86.com/)", |
|||
"license": "MPL-2.0" |
|||
} |
Ładowanie…
Reference in new issue