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base: lkddi:v0.1.12
Branches Tags
lkddi:v2 lkddi:v2-dev lkddi:v2_admin_mode lkddi:v2-domain-sync lkddi:v2_singleton lkddi:v2-dev-buy lkddi:v2-dev-addon lkddi:v2-dev-plugin-config lkddi:alert-autofix-26 lkddi:alert-autofix-31 lkddi:client_sync lkddi:v2-dev-order lkddi:v2-dev-auto lkddi:acme_sync lkddi:server_sync lkddi:master
lkddi:v1.39.8 lkddi:v1.39.7 lkddi:v1.39.6 lkddi:v1.39.5 lkddi:v1.39.4 lkddi:v1.39.3 lkddi:v1.39.2 lkddi:v1.39.1 lkddi:v1.39.0 lkddi:v1.38.12 lkddi:v1.38.11 lkddi:v1.38.10 lkddi:v1.38.9 lkddi:v1.38.8 lkddi:v1.38.7 lkddi:v1.38.6 lkddi:v1.38.5 lkddi:v1.38.4 lkddi:v1.38.3 lkddi:v1.38.2 lkddi:v1.38.1 lkddi:v1.38.0 lkddi:v1.37.17 lkddi:v1.37.16 lkddi:v1.37.15 lkddi:v1.37.14 lkddi:v1.37.13 lkddi:v1.37.12 lkddi:v1.37.11 lkddi:v1.37.10 lkddi:v1.37.9 lkddi:v1.37.8 lkddi:v1.37.7 lkddi:v1.37.6 lkddi:v1.37.5 lkddi:v1.37.4 lkddi:v1.37.3 lkddi:v1.37.2 lkddi:v1.37.1 lkddi:v1.37.0 lkddi:v1.36.25 lkddi:v1.36.24 lkddi:v1.36.23 lkddi:v1.36.22 lkddi:v1.36.21 lkddi:v1.36.20 lkddi:v1.36.19 lkddi:v1.36.18 lkddi:v1.36.17 lkddi:v1.36.16 lkddi:v1.36.15 lkddi:v1.36.14 lkddi:v1.36.13 lkddi:v1.36.12 lkddi:v1.36.11 lkddi:v1.36.10 lkddi:v1.36.9 lkddi:v1.36.7 lkddi:v1.36.6 lkddi:v1.36.5 lkddi:v1.36.4 lkddi:v1.36.3 lkddi:v1.36.2 lkddi:v1.36.1 lkddi:v1.36.0 lkddi:v1.35.5 lkddi:v1.35.4 lkddi:v1.35.3 lkddi:v1.35.2 lkddi:v1.35.1 lkddi:v1.35.0 lkddi:v1.34.11 lkddi:v1.34.10 lkddi:v1.34.9 lkddi:v1.34.8 lkddi:v1.34.7 lkddi:v1.34.6 lkddi:v1.34.5 lkddi:v1.34.4 lkddi:v1.34.3 lkddi:v1.34.2 lkddi:v1.34.1 lkddi:v1.34.0 lkddi:v1.33.8 lkddi:v1.33.7 lkddi:v1.33.6 lkddi:v1.33.5 lkddi:v1.33.4 lkddi:v1.33.3 lkddi:v1.33.2 lkddi:v1.33.1 lkddi:v1.33.0 lkddi:v1.32.0 lkddi:v1.31.11 lkddi:v1.31.10 lkddi:v1.31.9 lkddi:v1.31.8 lkddi:v1.31.7 lkddi:v1.31.6 lkddi:v1.31.5 lkddi:v1.31.4 lkddi:v1.31.3 lkddi:v1.31.2 lkddi:v1.31.1 lkddi:v1.31.0 lkddi:v1.30.6 lkddi:v1.30.5 lkddi:v1.30.4 lkddi:v1.30.3 lkddi:v1.30.2 lkddi:v1.30.1 lkddi:v1.30.0 lkddi:v1.29.5 lkddi:v1.29.4 lkddi:v1.29.3 lkddi:v1.29.2 lkddi:v1.29.1 lkddi:v1.29.0 lkddi:v1.28.4 lkddi:v1.28.3 lkddi:v1.28.2 lkddi:v1.28.1 lkddi:v1.28.0 lkddi:v1.27.9 lkddi:v1.27.8 lkddi:v1.27.7 lkddi:v1.27.6 lkddi:v1.27.5 lkddi:v1.27.4 lkddi:v1.27.3 lkddi:v1.27.2 lkddi:v1.27.1 lkddi:v1.27.0 lkddi:v1.26.16 lkddi:v1.26.15 lkddi:v1.26.14 lkddi:v1.26.13 lkddi:v1.26.12 lkddi:v1.26.11 lkddi:v1.26.10 lkddi:v1.26.9 lkddi:v1.26.8 lkddi:v1.26.7 lkddi:v1.26.6 lkddi:v1.26.5 lkddi:v1.26.4 lkddi:v1.26.3 lkddi:v1.26.2 lkddi:v1.26.1 lkddi:v1.26.0 lkddi:v1.25.9 lkddi:v1.25.8 lkddi:v1.25.7 lkddi:v1.25.6 lkddi:v1.25.5 lkddi:v1.25.4 lkddi:v1.25.3 lkddi:v1.25.2 lkddi:v1.25.1 lkddi:v1.25.0 lkddi:v1.24.4 lkddi:v1.24.3 lkddi:v1.24.2 lkddi:v1.24.1 lkddi:v1.24.0 lkddi:v1.23.1 lkddi:v1.23.0 lkddi:v1.22.9 lkddi:v1.22.8 lkddi:v1.22.7 lkddi:v1.22.6 lkddi:v1.22.5 lkddi:v1.22.4 lkddi:v1.22.3 lkddi:v1.22.2 lkddi:v1.22.1 lkddi:v1.22.0 lkddi:v1.21.2 lkddi:v1.21.1 lkddi:v1.21.0 lkddi:v1.20.17 lkddi:v1.20.16 lkddi:v1.20.15 lkddi:v1.20.14 lkddi:v1.20.13 lkddi:v1.20.12 lkddi:v1.20.10 lkddi:v1.20.9 lkddi:v1.20.8 lkddi:v1.20.7 lkddi:v1.20.6 lkddi:v1.20.5 lkddi:v1.20.2 lkddi:v1.2.1 lkddi:v1.2.0 lkddi:v1.1.6 lkddi:v1.1.5 lkddi:v1.1.4 lkddi:v1.1.3 lkddi:v1.1.2 lkddi:v1.1.1 lkddi:v1.1.0 lkddi:v1.0.6 lkddi:v1.0.5 lkddi:v1.0.4 lkddi:v1.0.3 lkddi:v1.0.2 lkddi:v1.0.1 lkddi:v1.0.0 lkddi:v0.3.1 lkddi:v0.3.0 lkddi:v0.2.2 lkddi:v0.2.1 lkddi:v0.2.0 lkddi:v0.1.21 lkddi:v0.1.20 lkddi:v0.1.19 lkddi:v0.1.18 lkddi:v0.1.17 lkddi:v0.1.16 lkddi:v0.1.15 lkddi:v0.1.14 lkddi:v0.1.13 lkddi:v0.1.12 lkddi:v0.1.11 lkddi:v0.1.10 lkddi:v0.1.9 lkddi:v0.1.8 lkddi:v0.1.7
..
compare: lkddi:acme_sync
Branches Tags
lkddi:v2-dev lkddi:v2 lkddi:v2_admin_mode lkddi:v2-domain-sync lkddi:v2_singleton lkddi:v2-dev-buy lkddi:v2-dev-addon lkddi:v2-dev-plugin-config lkddi:alert-autofix-26 lkddi:alert-autofix-31 lkddi:client_sync lkddi:v2-dev-order lkddi:v2-dev-auto lkddi:acme_sync lkddi:server_sync lkddi:master
lkddi:v1.39.8 lkddi:v1.39.7 lkddi:v1.39.6 lkddi:v1.39.5 lkddi:v1.39.4 lkddi:v1.39.3 lkddi:v1.39.2 lkddi:v1.39.1 lkddi:v1.39.0 lkddi:v1.38.12 lkddi:v1.38.11 lkddi:v1.38.10 lkddi:v1.38.9 lkddi:v1.38.8 lkddi:v1.38.7 lkddi:v1.38.6 lkddi:v1.38.5 lkddi:v1.38.4 lkddi:v1.38.3 lkddi:v1.38.2 lkddi:v1.38.1 lkddi:v1.38.0 lkddi:v1.37.17 lkddi:v1.37.16 lkddi:v1.37.15 lkddi:v1.37.14 lkddi:v1.37.13 lkddi:v1.37.12 lkddi:v1.37.11 lkddi:v1.37.10 lkddi:v1.37.9 lkddi:v1.37.8 lkddi:v1.37.7 lkddi:v1.37.6 lkddi:v1.37.5 lkddi:v1.37.4 lkddi:v1.37.3 lkddi:v1.37.2 lkddi:v1.37.1 lkddi:v1.37.0 lkddi:v1.36.25 lkddi:v1.36.24 lkddi:v1.36.23 lkddi:v1.36.22 lkddi:v1.36.21 lkddi:v1.36.20 lkddi:v1.36.19 lkddi:v1.36.18 lkddi:v1.36.17 lkddi:v1.36.16 lkddi:v1.36.15 lkddi:v1.36.14 lkddi:v1.36.13 lkddi:v1.36.12 lkddi:v1.36.11 lkddi:v1.36.10 lkddi:v1.36.9 lkddi:v1.36.7 lkddi:v1.36.6 lkddi:v1.36.5 lkddi:v1.36.4 lkddi:v1.36.3 lkddi:v1.36.2 lkddi:v1.36.1 lkddi:v1.36.0 lkddi:v1.35.5 lkddi:v1.35.4 lkddi:v1.35.3 lkddi:v1.35.2 lkddi:v1.35.1 lkddi:v1.35.0 lkddi:v1.34.11 lkddi:v1.34.10 lkddi:v1.34.9 lkddi:v1.34.8 lkddi:v1.34.7 lkddi:v1.34.6 lkddi:v1.34.5 lkddi:v1.34.4 lkddi:v1.34.3 lkddi:v1.34.2 lkddi:v1.34.1 lkddi:v1.34.0 lkddi:v1.33.8 lkddi:v1.33.7 lkddi:v1.33.6 lkddi:v1.33.5 lkddi:v1.33.4 lkddi:v1.33.3 lkddi:v1.33.2 lkddi:v1.33.1 lkddi:v1.33.0 lkddi:v1.32.0 lkddi:v1.31.11 lkddi:v1.31.10 lkddi:v1.31.9 lkddi:v1.31.8 lkddi:v1.31.7 lkddi:v1.31.6 lkddi:v1.31.5 lkddi:v1.31.4 lkddi:v1.31.3 lkddi:v1.31.2 lkddi:v1.31.1 lkddi:v1.31.0 lkddi:v1.30.6 lkddi:v1.30.5 lkddi:v1.30.4 lkddi:v1.30.3 lkddi:v1.30.2 lkddi:v1.30.1 lkddi:v1.30.0 lkddi:v1.29.5 lkddi:v1.29.4 lkddi:v1.29.3 lkddi:v1.29.2 lkddi:v1.29.1 lkddi:v1.29.0 lkddi:v1.28.4 lkddi:v1.28.3 lkddi:v1.28.2 lkddi:v1.28.1 lkddi:v1.28.0 lkddi:v1.27.9 lkddi:v1.27.8 lkddi:v1.27.7 lkddi:v1.27.6 lkddi:v1.27.5 lkddi:v1.27.4 lkddi:v1.27.3 lkddi:v1.27.2 lkddi:v1.27.1 lkddi:v1.27.0 lkddi:v1.26.16 lkddi:v1.26.15 lkddi:v1.26.14 lkddi:v1.26.13 lkddi:v1.26.12 lkddi:v1.26.11 lkddi:v1.26.10 lkddi:v1.26.9 lkddi:v1.26.8 lkddi:v1.26.7 lkddi:v1.26.6 lkddi:v1.26.5 lkddi:v1.26.4 lkddi:v1.26.3 lkddi:v1.26.2 lkddi:v1.26.1 lkddi:v1.26.0 lkddi:v1.25.9 lkddi:v1.25.8 lkddi:v1.25.7 lkddi:v1.25.6 lkddi:v1.25.5 lkddi:v1.25.4 lkddi:v1.25.3 lkddi:v1.25.2 lkddi:v1.25.1 lkddi:v1.25.0 lkddi:v1.24.4 lkddi:v1.24.3 lkddi:v1.24.2 lkddi:v1.24.1 lkddi:v1.24.0 lkddi:v1.23.1 lkddi:v1.23.0 lkddi:v1.22.9 lkddi:v1.22.8 lkddi:v1.22.7 lkddi:v1.22.6 lkddi:v1.22.5 lkddi:v1.22.4 lkddi:v1.22.3 lkddi:v1.22.2 lkddi:v1.22.1 lkddi:v1.22.0 lkddi:v1.21.2 lkddi:v1.21.1 lkddi:v1.21.0 lkddi:v1.20.17 lkddi:v1.20.16 lkddi:v1.20.15 lkddi:v1.20.14 lkddi:v1.20.13 lkddi:v1.20.12 lkddi:v1.20.10 lkddi:v1.20.9 lkddi:v1.20.8 lkddi:v1.20.7 lkddi:v1.20.6 lkddi:v1.20.5 lkddi:v1.20.2 lkddi:v1.2.1 lkddi:v1.2.0 lkddi:v1.1.6 lkddi:v1.1.5 lkddi:v1.1.4 lkddi:v1.1.3 lkddi:v1.1.2 lkddi:v1.1.1 lkddi:v1.1.0 lkddi:v1.0.6 lkddi:v1.0.5 lkddi:v1.0.4 lkddi:v1.0.3 lkddi:v1.0.2 lkddi:v1.0.1 lkddi:v1.0.0 lkddi:v0.3.1 lkddi:v0.3.0 lkddi:v0.2.2 lkddi:v0.2.1 lkddi:v0.2.0 lkddi:v0.1.21 lkddi:v0.1.20 lkddi:v0.1.19 lkddi:v0.1.18 lkddi:v0.1.17 lkddi:v0.1.16 lkddi:v0.1.15 lkddi:v0.1.14 lkddi:v0.1.13 lkddi:v0.1.12 lkddi:v0.1.11 lkddi:v0.1.10 lkddi:v0.1.9 lkddi:v0.1.8 lkddi:v0.1.7

14 Commits
v0.1.12 ... acme_sync

Author SHA1 Message Date
GitHub Actions Bot
e5edfbfa6d 🔱: [acme] sync upgrade with 6 commits [trident-sync] 
Bump v5.4.0
Bump dependencies
Retry HTTP requests on server errors or when rate limited
Forgot to refresh directory timestamp after successful get
Add utility method tests
 2024-07-16 19:24:08 +00:00
GitHub Actions Bot
86e64af35c 🔱: [acme] sync upgrade with 5 commits [trident-sync] 
Temp remove Node v22 from matrix, broke CNAME tests
Invalidate ACME directory cache after 24 hours
Directory URLs for Google ACME provider
Bump Pebble v2.6.0
 2024-07-15 19:24:17 +00:00
GitHub Actions Bot
162e10909b 🔱: [acme] sync upgrade with 7 commits [trident-sync] 
Small crypto docs fix 2
Small crypto docs fix
Bump v5.3.1
Discourage use of cert subject common name, examples and docs
Style refactor docs and examples
Bump dependencies
 2024-05-23 19:24:12 +00:00
GitHub Actions Bot
0f1ae6ccd9 🔱: [acme] sync upgrade with 3 commits [trident-sync] 
Clean up eslintrc, style refactor and formatting fixes
Update auto.js

see https://github.com/publishlab/node-acme-client/issues/88#issuecomment-2105255828
 2024-05-22 19:24:07 +00:00
GitHub Actions Bot
c9d5cda953 🔱: [acme] sync upgrade with 7 commits [trident-sync] 
Add Node v22 to test matrix
Postpone Pebble bump, v2.5.1 broke EAB tests
Bump Pebble v2.5.1
Allow client.auto() being called with an empty CSR common name
Carry EAB over to new HttpClient when updating account key
Ignore actrc
 2024-05-21 19:24:05 +00:00
GitHub Actions Bot
960f61d158 🔱: [acme] sync upgrade with 3 commits [trident-sync] 
Bump v5.3.0
Example for dns-01
 2024-02-05 19:24:09 +00:00
GitHub Actions Bot
80cd1bfc8e 🔱: [acme] sync upgrade with 5 commits [trident-sync] 
Update IETF links
Fix misc typos
Forgot SAN extension for self-signed ALPN certs
Replace jsrsasign dep with @peculiar/x509
 2024-02-03 19:24:11 +00:00
GitHub Actions Bot
a6bf198604 🔱: [acme] sync upgrade with 2 commits [trident-sync] 
Example for on-demand http-01
 2024-02-02 19:24:16 +00:00
GitHub Actions Bot
7e8842b452 🔱: [acme] sync upgrade with 4 commits [trident-sync] 
Example for on-demand tls-alpn-01
Example disclaimer, fallback cert
Replace CircleCI with GitHub Actions
 2024-02-01 19:24:13 +00:00
GitHub Actions Bot
fc9e71bed2 🔱: [acme] sync upgrade with 7 commits [trident-sync] 
CHANGELOG
Fix tls-alpn-01 pebble test on Node v18+
Return correct tls-alpn-01 key authorization, tests
Support tls-alpn-01 internal challenge verification
Add tls-alpn-01 challenge test server support
Add ALPN crypto utility methods
 2024-01-30 19:24:20 +00:00
GitHub Actions Bot
08c1f338d5 🔱: [acme] sync upgrade with 10 commits [trident-sync] 
Bump v5.2.0 - package.json
Bump v5.2.0
yarn -> npm
CHANGELOG and tests for #76
Fix tests
Update auto.js: wait for all challenge promises before exit

Fixes #75
CHANGELOG and tests for #66
Fix lint errors
Allow self-signed or invalid certificate when evaluating verifyHttpChallenge
 2024-01-22 19:24:37 +00:00
GitHub Actions Bot
18865f0931 🔱: [acme] sync upgrade with 3 commits [trident-sync] 
Add https-01 challenge test server support
Inject CoreDNS into resolv.conf while testing, remove interceptor hack
 2024-01-21 19:24:13 +00:00
GitHub Actions Bot
d22a25d260 🔱: [acme] sync upgrade with 10 commits [trident-sync] 
Bump v5.1.0
Bump dep axios@1.6.5
Bump dep jsrsasign@11.0.0
Bump dev deps, typo in editorconfig
Replace uuid devdep with crypto.randomUUID
LICENSE, docs formatting, remove upgrade notice
Fix package.json typo
Replace deprecated dtslint with tsd, bump types
Add Node v20 to matrix, bump misc CI stuff
 2024-01-20 19:24:14 +00:00
xiaojunnuo
f64ea78c44 🔱: [acme] sync upgrade with 21 commits [trident-sync] 
Bump v5.0.0
 2023-01-29 15:27:11 +08:00
203 changed files with 9249 additions and 66913 deletions
Expand all files Collapse all files

24
.gitignore vendored
View File

@@ -1,16 +1,32 @@
# IntelliJ project files
.vscode/
node_modules/
npm-debug.log
yarn-error.log
yarn.lock
package-lock.json
/.idea/
*/**/dist
*/**/pnpm-lock.yaml
*/**/stats.html
.idea
*.iml
out
gen
node_modules/
/test/*.private.*
/*.log
/ui/*/.idea
/packages/ui/*/.idea
/ui/*/node_modules
/packages/ui/*/node_modules
/packages/*/node_modules
/ui/certd-server/tmp/
/packages/ui/certd-server/tmp/
/packages/ui/certd-ui/dist/
/other
/dev-sidecar-test
/packages/core/certd/yarn.lock
/packages/test
/test/own
/pnpm-lock.yaml

196
README.md
View File

@@ -1,196 +0,0 @@
# CertD
CertD 是一个帮助你全自动申请和部署SSL证书的工具。
后缀D取自linux守护进程的命名风格意为证书守护进程。
## 特性
本项目不仅支持证书申请过程自动化,还可以自动化部署证书,让你的证书永不过期。
* 全自动申请证书
* 全自动部署证书(目前支持服务器上传部署、阿里云、腾讯云等)
* 可与CI/DI工具结合使用
## 免费证书申请说明
* 本项目ssl证书提供商为letencrypt
* 申请过程遵循acme协议
* 需要验证域名所有权一般有两种方式目前本项目仅支持dns-01
* http-01 在网站根目录下放置一份txt文件
* dns-01 需要给域名添加txt解析记录泛域名只能用这种方式
* 证书续期:
* 实际上acme并没有续期概念。
* 我们所说的续期,其实就是按照全套流程重新申请一份新证书。
* 免费证书过期时间90天以后可能还会缩短所以自动化部署必不可少
## 快速开始
本案例演示如何配置自动申请证书并部署到阿里云CDN然后快要到期前自动更新证书并重新部署
1. 环境准备
安装[nodejs](https://nodejs.org/zh-cn/)
2. 创建任务项目
```
mkdir certd-run # 项目名称可以任意命名
cd certd-run -y
npm install @certd/executor -s --production
```
3. 创建index.js
参数配置分几个部分
args: 运行时参数
accessProviders: 授权提供者提供dns验证与部署任务的授权
cert: 证书申请的配置
deploy 证书部署流程
```js
import { Executor } from '@certd/executor'
const options = {
args: { // 运行时参数
forceDeploy: true,
},
accessProviders: { //授权提供者
aliyun: { // 阿里云accessKey用于dns验证和上传证书到阿里云并部署到cdn
providerType: 'aliyun',
accessKeyId: 'Your accessKeyId',
accessKeySecret: 'Your accessKeySecret'
},
},
cert: { //免费证书申请配置
domains: [ //可以在一张证书上绑定多个域名前提是他们的验证方式要一样目前仅支持dns验证
'*.yourdomain.com',
'*.test.yourdomain.com',
'yourdomain.com'
],
email: 'Your email',
dnsProvider: 'aliyun', //上方accessProviders里面配置的
csrInfo: { //证书csr信息
country: 'CN',
state: 'GuangDong',
locality: 'ShengZhen',
organization: 'Your company Org.',
organizationUnit: 'IT Department',
emailAddress: 'Your email'
}
},
deploy: [ //部署流程配置,数组,可以配置多条流程
{
deployName: '流程1-部署到阿里云CDN',
tasks: [ //流程任务,一个流程下可以包含多个部署任务,并且将按顺序执行
{ //任务1
taskName: '上传到阿里云', //任务名称
type: 'uploadCertToAliyun', //任务插件名称
props: { //任务插件参数
accessProvider: 'aliyun'
}
},
{ // 任务2
taskName: '部署证书到CDN',
type: 'deployCertToAliyunCDN', //任务插件名称
props:{
domainName: 'your cdn domain 全称', //cdn域名全称
certName: 'certd自动部署',//证书名称前缀
accessProvider: 'aliyun'
}
}
]
}
]
}
const executor = new Executor()
await executor.run(options)
```
4. 运行
```
node index.js
```
5. 执行效果
生成的证书默认会存储在 `${home}/.certd/${email}/certs/${domain}/current`目录下
```
[2021-01-08T16:15:04.681] [INFO] certd - 任务完成
[2021-01-08T16:15:04.681] [INFO] certd - ---------------------------任务结果总览--------------------------
[2021-01-08T16:15:04.682] [INFO] certd - 【更新证书】--------------------------------------- [success]
证书申请成功
[2021-01-08T16:15:04.682] [INFO] certd - 【流程1-部署到阿里云CDN】---------------------------- [success] 执行成功
[2021-01-08T16:15:04.682] [INFO] certd - └【上传到阿里云】-------------------------------- [success] 执行成功
[2021-01-08T16:15:04.682] [INFO] certd - └【部署证书到CDN】------------------------------- [success] 执行成功
```
6. 证书续期
实际上没有证书续期的概念,只有重新生成一份新的证书,然后重新部署证书
所以每天定时运行即可当证书过期日前20天时会重新申请新的证书然后执行部署任务。
7. 其他说明
证书的部署任务执行后会记录执行结果,已经成功过的不会重复执行
所以当你临时需要将证书部署到其他地方时,直接追加部署任务,然后再次运行即可
## CI/DI集成与自动续期重新部署
集成前将以上代码提交到内网git仓库或者私有git仓库由于包含敏感信息不要提交到公开git仓库
### jenkins任务
1. 创建任务
选择构建自由风格的任务
2. 配置git
配置cert-run的git地址
3. 构建触发器
配置 `H 3 * * *` 每天凌晨3点-4点执行一次
4. 构建环境
勾选 `Provide Node & npm bin/ folder to PATH`提供nodejs运行环境
如果没有此选项需要jenkins安装`nodejs`插件
5. 构建
执行shell
```
npm install --production #执行过一次之后,就可以注释掉,加快执行速度
npm run post
```
6. 构建后操作
邮件通知
配置你的邮箱地址,可以在执行失败时收到邮件通知。
## API
先列个提纲,待完善
参数示例参考https://gitee.com/certd/certd/blob/master/test/options.js
### 授权提供者
用于dns验证接口调用
#### aliyun
#### dnspod
### deploy插件
部署任务插件
#### 阿里云
##### 上传到阿里云
type = uploadCertToAliyun
##### 部署到阿里云DNS
type = deployCertToAliyunCDN
##### 部署到阿里云CLB
type = deployCertToAliyunCLB
#### 腾讯云
##### 上传到腾讯云
type = uploadCertToTencent
##### 部署到腾讯云DNS
type = deployCertToTencentDNS
##### 部署到腾讯云CLB
type = deployCertToTencentCLB
##### 部署到腾讯云TKE-ingress
type = deployCertToTencentTKEIngress
### 更多部署插件
等你来提需求

7
lerna.json
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{
"packages": [
"packages/*",
"ui/*"
],
"version": "0.1.12"
}

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package.json
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{
"name": "root",
"private": true,
"type": "module",
"devDependencies": {
"lerna": "^3.18.4"
},
"scripts": {},
"license": "MIT",
"dependencies": {
"lodash-es": "^4.17.20"
}
}

18
packages/access-providers/.eslintrc
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@@ -1,18 +0,0 @@
{
"extends": "standard",
"env": {
"mocha": true
},
"parserOptions": {
"sourceType": "module",
"ecmaVersion": 2020
},
"overrides": [
{
"files": ["*.test.js", "*.spec.js"],
"rules": {
"no-unused-expressions": "off"
}
}
]
}

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packages/access-providers/package.json
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@@ -1,23 +0,0 @@
{
"name": "@certd/access-providers",
"version": "0.1.12",
"description": "",
"main": "./src/index.js",
"scripts": {
"test": "echo \"Error: no test specified\" && exit 1"
},
"type": "module",
"author": "Greper",
"license": "MIT",
"dependencies": {
"@certd/api": "^0.1.12",
"lodash-es": "^4.17.20"
},
"devDependencies": {
"eslint": "^7.15.0",
"eslint-config-standard": "^16.0.2",
"eslint-plugin-import": "^2.22.1",
"eslint-plugin-node": "^11.1.0",
"eslint-plugin-promise": "^4.2.1"
}
}

18
packages/access-providers/src/index.js
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@@ -1,18 +0,0 @@
import _ from 'lodash-es'
import { AliyunAccessProvider } from './providers/aliyun.js'
import { DnspodAccessProvider } from './providers/dnspod.js'
import { TencentAccessProvider } from './providers/tencent.js'
import { accessProviderRegistry } from '@certd/api'
export const DefaultAccessProviders = {
AliyunAccessProvider,
DnspodAccessProvider,
TencentAccessProvider,
}
export default {
install () {
_.forEach(DefaultAccessProviders, item => {
accessProviderRegistry.install(item)
})
}
}

34
packages/access-providers/src/providers/aliyun.js
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@@ -1,34 +0,0 @@
import _ from 'lodash-es'
export class AliyunAccessProvider{
static define () {
return {
name: 'aliyun',
label: '阿里云',
desc: '',
input: {
accessKeyId: {
type: String,
component: {
placeholder: 'accessKeyId',
rules: [{ required: true, message: '必填项' }]
},
required: true
},
accessKeySecret: {
type: String,
component: {
placeholder: 'accessKeySecret',
rules: [{ required: true, message: '必填项' }]
}
}
},
output: {
}
}
}
constructor () {
}
}

30
packages/access-providers/src/providers/dnspod.js
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@@ -1,30 +0,0 @@
export class DnspodAccessProvider {
static define () {
return {
name: 'dnspod',
label: 'dnspod',
desc: '腾讯云的域名解析接口已迁移到dnspod',
input: {
id: {
type: String,
component: {
placeholder: 'dnspod接口账户id',
rules: [{ required: true, message: '该项必填' }]
}
},
token: {
type: String,
label: 'token',
component: {
placeholder: '开放接口token',
rules: [{ required: true, message: '该项必填' }]
}
}
}
}
}
constructor () {
}
}

30
packages/access-providers/src/providers/tencent.js
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@@ -1,30 +0,0 @@
export class TencentAccessProvider {
static define () {
return {
name: 'tencent',
label: '腾讯云',
input: {
secretId: {
type: String,
label:'secretId',
component: {
placeholder: 'secretId',
rules: [{ required: true, message: '该项必填' }]
}
},
secretKey: {
type: String,
label: 'secretKey',
component: {
placeholder: 'secretKey',
rules: [{ required: true, message: '该项必填' }]
}
}
}
}
}
constructor () {
}
}

17
packages/api/.eslintrc
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@@ -1,17 +0,0 @@
{
"extends": "standard",
"env": {
"mocha": true
},
"parserOptions": {
"ecmaVersion": 2020
},
"overrides": [
{
"files": ["*.test.js", "*.spec.js"],
"rules": {
"no-unused-expressions": "off"
}
}
]
}

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26
packages/api/package.json
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@@ -1,26 +0,0 @@
{
"name": "@certd/api",
"version": "0.1.12",
"description": "",
"main": "./src/index.js",
"type": "module",
"author": "Greper",
"license": "MIT",
"dependencies": {
"axios": "^0.21.1",
"dayjs": "^1.9.7",
"lodash-es": "^4.17.20",
"log4js": "^6.3.0",
"qs": "^6.9.4"
},
"devDependencies": {
"chai": "^4.2.0",
"eslint": "^7.15.0",
"eslint-config-standard": "^16.0.2",
"eslint-plugin-import": "^2.22.1",
"eslint-plugin-node": "^11.1.0",
"eslint-plugin-promise": "^4.2.1",
"mocha": "^8.2.1"
},
"gitHead": "2942d39dfe64d60ce7dc0e0b2c0887866ca67f18"
}

2
packages/api/src/access-provider/index.js
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@@ -1,2 +0,0 @@
import { Registry } from '../registry/registry.js'
export const accessProviderRegistry = new Registry()

42
packages/api/src/dns-provider/abstract-dns-provider.js
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@@ -1,42 +0,0 @@
import _ from 'lodash-es'
import logger from '../utils/util.log.js'
export class AbstractDnsProvider {
constructor ({ accessProviders }) {
this.logger = logger
this.accessProviders = accessProviders
}
async createRecord ({ fullRecord, type, value }) {
throw new Error('请实现 createRecord 方法')
}
async removeRecord ({ fullRecord, type, value, record }) {
throw new Error('请实现 removeRecord 方法')
}
async getDomainList () {
throw new Error('请实现 getDomainList 方法')
}
async matchDomain (dnsRecord, domainPropName) {
const list = await this.getDomainList()
let domain = null
for (const item of list) {
if (_.endsWith(dnsRecord, item[domainPropName])) {
domain = item
break
}
}
if (!domain) {
throw new Error('找不到域名,请检查域名是否正确:' + dnsRecord)
}
return domain
}
getAccessProvider (accessProvider, accessProviders = this.accessProviders) {
if (typeof accessProvider === 'string' && accessProviders) {
accessProvider = accessProviders[accessProvider]
}
return accessProvider
}
}

3
packages/api/src/dns-provider/index.js
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@@ -1,3 +0,0 @@
import { Registry } from '../registry/registry.js'
export { AbstractDnsProvider } from './abstract-dns-provider.js'
export const dnsProviderRegistry = new Registry()

5
packages/api/src/index.js
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@@ -1,5 +0,0 @@
export * from './dns-provider/index.js'
export * from './plugin/index.js'
export * from './access-provider/index.js'
export { Store } from './store/store.js'
export { util } from './utils/index.js'

73
packages/api/src/plugin/abstract-plugin.js
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@@ -1,73 +0,0 @@
import fs from 'fs'
import logger from '../utils/util.log.js'
import dayjs from 'dayjs'
import Sleep from '../utils/util.sleep.js'
export class AbstractPlugin {
constructor ({ accessProviders }) {
this.logger = logger
this.accessProviders = accessProviders
}
appendTimeSuffix (name) {
if (name == null) {
name = 'certd'
}
return name + '-' + dayjs().format('YYYYMMDD-HHmmss')
}
async executeFromContextFile (options = {}) {
const { contextPath } = options
const contextJson = fs.readFileSync(contextPath)
const context = JSON.parse(contextJson)
options.context = context
await this.doExecute(options)
fs.writeFileSync(JSON.stringify(context))
}
async doExecute (options) {
try {
return await this.execute(options)
} catch (e) {
logger.error('插件执行出错:', e)
throw e
}
}
/**
* 执行
* @param options
* @returns {Promise<void>}
*/
async execute (options) {
console.error('请实现此方法,context:', options.context)
}
async doRollback (options) {
try {
return await this.rollback(options)
} catch (e) {
logger.error('插件rollback出错', e)
throw e
}
}
/**
* 回退,用于单元测试
* @param options
*/
async rollback (options) {
console.error('请实现此方法,rollback:', options.context)
}
getAccessProvider (accessProvider, accessProviders = this.accessProviders) {
if (typeof accessProvider === 'string' && accessProviders) {
accessProvider = accessProviders[accessProvider]
}
return accessProvider
}
async sleep (time) {
await Sleep(time)
}
}

3
packages/api/src/plugin/index.js
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@@ -1,3 +0,0 @@
import { Registry } from '../registry/registry.js'
export { AbstractPlugin } from './abstract-plugin.js'
export const pluginRegistry = new Registry()

32
packages/api/src/registry/registry.js
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@@ -1,32 +0,0 @@
export class Registry {
constructor () {
this.collection = {}
}
install (target) {
if (target == null) {
return
}
if (this.collection == null) {
this.collection = {}
}
const defineName = (target.define && target.define().name) || target.name
this.register(defineName, target)
}
register (key, value) {
if (!key || value == null) {
return
}
this.collection[key] = value
}
get (name) {
if (name) {
return this.collection[name]
}
throw new Error(`${name} not found`)
}
}

33
packages/api/src/store/store.js
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@@ -1,33 +0,0 @@
export class Store {
set (key, value) {
}
get (key) {
}
buildKey (...keyItem) {
}
linkExists (linkPath) {
}
link (targetPath, linkPath) {
}
unlink (linkPath) {
}
/**
* 全路径
* @param key
*/
getActualKey (key) {
// return 前缀+key
}
}

7
packages/api/src/utils/index.js
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@@ -1,7 +0,0 @@
import logger from './util.log.js'
import path from './util.path.js'
import { request } from './util.request.js'
import sleep from './util.sleep.js'
export const util = {
logger, path, request, sleep
}

7
packages/api/src/utils/util.log.js
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@@ -1,7 +0,0 @@
import log4js from 'log4js'
log4js.configure({
appenders: { std: { type: 'stdout' } },
categories: { default: { appenders: ['std'], level: 'info' } }
})
const logger = log4js.getLogger('certd')
export default logger

9
packages/api/src/utils/util.path.js
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@@ -1,9 +0,0 @@
import path from 'path'
function getUserBasePath () {
const userHome = process.env.USERPROFILE || process.env.HOME
return path.resolve(userHome, './.certd')
}
export default {
getUserBasePath
}

57
packages/api/src/utils/util.request.js
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@@ -1,57 +0,0 @@
import axios from 'axios'
import qs from 'qs'
import logger from './util.log.js'
/**
* @description 创建请求实例
*/
function createService () {
// 创建一个 axios 实例
const service = axios.create()
// 请求拦截
service.interceptors.request.use(
config => {
if (config.formData) {
config.data = qs.stringify(config.formData, {
arrayFormat: 'indices',
allowDots: true
}) // 序列化请求参数
delete config.formData
}
return config
},
error => {
// 发送失败
logger.error(error)
return Promise.reject(error)
}
)
// 响应拦截
service.interceptors.response.use(
response => {
logger.info('http response:', JSON.stringify(response.data))
return response.data
},
error => {
// const status = _.get(error, 'response.status')
// switch (status) {
// case 400: error.message = '请求错误'; break
// case 401: error.message = '未授权,请登录'; break
// case 403: error.message = '拒绝访问'; break
// case 404: error.message = `请求地址出错: ${error.response.config.url}`; break
// case 408: error.message = '请求超时'; break
// case 500: error.message = '服务器内部错误'; break
// case 501: error.message = '服务未实现'; break
// case 502: error.message = '网关错误'; break
// case 503: error.message = '服务不可用'; break
// case 504: error.message = '网关超时'; break
// case 505: error.message = 'HTTP版本不受支持'; break
// default: break
// }
logger.error('请求出错:', error.response.config.url, error)
return Promise.reject(error)
}
)
return service
}
export const request = createService()

7
packages/api/src/utils/util.sleep.js
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@@ -1,7 +0,0 @@
export default function (timeout) {
return new Promise(resolve => {
setTimeout(() => {
resolve()
}, timeout)
})
}

14
packages/certd/.eslintrc
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@@ -1,14 +0,0 @@
{
"extends": "standard",
"env": {
"mocha": true
},
"overrides": [
{
"files": ["*.test.js", "*.spec.js"],
"rules": {
"no-unused-expressions": "off"
}
}
]
}

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packages/certd/package.json
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@@ -1,30 +0,0 @@
{
"name": "@certd/certd",
"version": "0.1.12",
"description": "",
"main": "./src/index.js",
"scripts": {
"test": "echo \"Error: no test specified\" && exit 1"
},
"type": "module",
"author": "Greper",
"license": "MIT",
"dependencies": {
"@certd/acme-client": "^0.1.6",
"@certd/api": "^0.1.12",
"@certd/dns-providers": "^0.1.12",
"dayjs": "^1.9.7",
"lodash-es": "^4.17.20",
"node-forge": "^0.10.0"
},
"devDependencies": {
"chai": "^4.2.0",
"eslint": "^7.15.0",
"eslint-config-standard": "^16.0.2",
"eslint-plugin-import": "^2.22.1",
"eslint-plugin-node": "^11.1.0",
"eslint-plugin-promise": "^4.2.1",
"mocha": "^8.2.1"
},
"gitHead": "2942d39dfe64d60ce7dc0e0b2c0887866ca67f18"
}

199
packages/certd/src/acme.js
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@@ -1,199 +0,0 @@
import acme from '@certd/acme-client'
import _ from 'lodash-es'
import { util } from '@certd/api'
const logger = util.logger
export class AcmeService {
constructor (store) {
this.store = store
}
async getAccountConfig (email) {
let conf = this.store.get(this.buildAccountPath(email))
if (conf == null) {
conf = {}
} else {
conf = JSON.parse(conf)
}
return conf
}
buildAccountPath (email) {
return this.store.buildKey(email, 'account.json')
}
saveAccountConfig (email, conf) {
this.store.set(this.buildAccountPath(email), JSON.stringify(conf))
}
async getAcmeClient (email, isTest) {
const conf = await this.getAccountConfig(email)
if (conf.key == null) {
conf.key = await this.createNewKey()
this.saveAccountConfig(email, conf)
}
if (isTest == null) {
isTest = process.env.CERTD_MODE === 'test'
}
const client = new acme.Client({
directoryUrl: isTest ? acme.directory.letsencrypt.staging : acme.directory.letsencrypt.production,
accountKey: conf.key,
accountUrl: conf.accountUrl,
backoffAttempts: 20,
backoffMin: 5000,
backoffMax: 10000
})
if (conf.accountUrl == null) {
const accountPayload = { termsOfServiceAgreed: true, contact: [`mailto:${email}`] }
await client.createAccount(accountPayload)
conf.accountUrl = client.getAccountUrl()
this.saveAccountConfig(email, conf)
}
return client
}
async createNewKey () {
const key = await acme.forge.createPrivateKey()
return key.toString()
}
async challengeCreateFn (authz, challenge, keyAuthorization, dnsProvider) {
logger.info('Triggered challengeCreateFn()')
/* http-01 */
if (challenge.type === 'http-01') {
const filePath = `/var/www/html/.well-known/acme-challenge/${challenge.token}`
const fileContents = keyAuthorization
logger.info(`Creating challenge response for ${authz.identifier.value} at path: ${filePath}`)
/* Replace this */
logger.info(`Would write "${fileContents}" to path "${filePath}"`)
// await fs.writeFileAsync(filePath, fileContents);
} else if (challenge.type === 'dns-01') {
/* dns-01 */
const dnsRecord = `_acme-challenge.${authz.identifier.value}`
const recordValue = keyAuthorization
logger.info(`Creating TXT record for ${authz.identifier.value}: ${dnsRecord}`)
/* Replace this */
logger.info(`Would create TXT record "${dnsRecord}" with value "${recordValue}"`)
return await dnsProvider.createRecord({
fullRecord: dnsRecord,
type: 'TXT',
value: recordValue
})
}
}
/**
* Function used to remove an ACME challenge response
*
* @param {object} authz Authorization object
* @param {object} challenge Selected challenge
* @param {string} keyAuthorization Authorization key
* @param recordItem challengeCreateFn create record item
* @param dnsProvider dnsProvider
* @returns {Promise}
*/
async challengeRemoveFn (authz, challenge, keyAuthorization, recordItem, dnsProvider) {
logger.info('Triggered challengeRemoveFn()')
/* http-01 */
if (challenge.type === 'http-01') {
const filePath = `/var/www/html/.well-known/acme-challenge/${challenge.token}`
logger.info(`Removing challenge response for ${authz.identifier.value} at path: ${filePath}`)
/* Replace this */
logger.info(`Would remove file on path "${filePath}"`)
// await fs.unlinkAsync(filePath);
} else if (challenge.type === 'dns-01') {
const dnsRecord = `_acme-challenge.${authz.identifier.value}`
const recordValue = keyAuthorization
logger.info(`Removing TXT record for ${authz.identifier.value}: ${dnsRecord}`)
/* Replace this */
logger.info(`Would remove TXT record "${dnsRecord}" with value "${recordValue}"`)
await dnsProvider.removeRecord({
fullRecord: dnsRecord,
type: 'TXT',
value: keyAuthorization,
record: recordItem
})
}
}
async order ({ email, domains, dnsProvider, dnsProviderCreator, csrInfo, isTest }) {
const client = await this.getAcmeClient(email, isTest)
let accountUrl
try {
accountUrl = client.getAccountUrl()
} catch (e) {
}
/* Create CSR */
const { commonName, altNames } = this.buildCommonNameByDomains(domains)
const [key, csr] = await acme.forge.createCsr({
commonName,
...csrInfo,
altNames
})
if (dnsProvider == null && dnsProviderCreator) {
dnsProvider = await dnsProviderCreator()
}
if (dnsProvider == null) {
throw new Error('dnsProvider 不能为空')
}
/* 自动申请证书 */
const crt = await client.auto({
csr,
email: email,
termsOfServiceAgreed: true,
challengePriority: ['dns-01'],
challengeCreateFn: async (authz, challenge, keyAuthorization) => {
return await this.challengeCreateFn(authz, challenge, keyAuthorization, dnsProvider)
},
challengeRemoveFn: async (authz, challenge, keyAuthorization, recordItem) => {
return await this.challengeRemoveFn(authz, challenge, keyAuthorization, recordItem, dnsProvider)
}
})
// 保存账号url
if (!accountUrl) {
try {
accountUrl = client.getAccountUrl()
this.setAccountUrl(email, accountUrl)
} catch (e) {
logger.warn('保存accountUrl出错', e)
}
}
/* Done */
logger.debug(`CSR:\n${csr.toString()}`)
logger.debug(`Certificate:\n${crt.toString()}`)
logger.info('证书申请成功')
return { key, crt, csr }
}
buildCommonNameByDomains (domains) {
if (typeof domains === 'string') {
domains = domains.split(',')
}
if (domains.length === 0) {
throw new Error('domain can not be empty')
}
const ret = {
commonName: domains[0]
}
if (domains.length > 1) {
ret.altNames = _.slice(domains, 1)
}
return ret
}
}

132
packages/certd/src/index.js
View File

@@ -1,132 +0,0 @@
import { util, Store, dnsProviderRegistry } from '@certd/api'
import { AcmeService } from './acme.js'
import { FileStore } from './store/file-store.js'
import { CertStore } from './store/cert-store.js'
import dayjs from 'dayjs'
import forge from 'node-forge'
const logger = util.logger
export class Certd {
constructor (options) {
this.options = options
this.email = options.cert.email
this.domains = options.cert.domains
if (!(options.store instanceof Store)) {
this.store = new FileStore(options.store || {})
}
this.certStore = new CertStore({
store: this.store,
email: options.cert.email,
domains: this.domains
})
this.acme = new AcmeService(this.store)
}
async certApply () {
let oldCert
try {
oldCert = await this.readCurrentCert()
} catch (e) {
logger.warn('读取cert失败', e)
}
if (oldCert == null) {
logger.info('还未申请过,准备申请新证书')
} else {
const ret = this.isWillExpire(oldCert.expires, this.options.cert.renewDays)
if (!ret.isWillExpire) {
logger.info('证书还未过期:', oldCert.expires, ',剩余', ret.leftDays, '天')
if (this.options.args.forceCert) {
logger.info('准备强制更新证书')
} else {
logger.info('暂不更新证书')
oldCert.isNew = false
return oldCert
}
} else {
logger.info('即将过期,准备更新证书')
}
}
// 执行证书申请步骤
return await this.doCertApply()
}
async doCertApply () {
const options = this.options
const dnsProvider = this.createDnsProvider(options)
const cert = await this.acme.order({
email: options.cert.email,
domains: options.cert.domains,
dnsProvider,
csrInfo: options.cert.csrInfo,
isTest: options.args.test
})
await this.writeCert(cert)
const certRet = await this.readCurrentCert()
certRet.isNew = true
return certRet
}
createDnsProvider (options) {
return this.createProviderByType(options.cert.dnsProvider, options.accessProviders)
}
async writeCert (cert) {
const newPath = await this.certStore.writeCert(cert)
return {
realPath: this.certStore.store.getActualKey(newPath),
currentPath: this.certStore.store.getActualKey(this.certStore.currentMarkPath)
}
}
async readCurrentCert () {
const cert = await this.certStore.readCert()
if (cert == null) {
return null
}
const { detail, expires } = this.getCrtDetail(cert.crt)
const domain = this.certStore.getMainDomain(this.options.cert.domains)
return {
...cert, detail, expires, domain, domains: this.domains, email: this.email
}
}
getCrtDetail (crt) {
const pki = forge.pki
const detail = pki.certificateFromPem(crt.toString())
const expires = detail.validity.notAfter
return { detail, expires }
}
/**
* 检查是否过期默认提前20天
* @param expires
* @param maxDays
* @returns {boolean}
*/
isWillExpire (expires, maxDays = 20) {
if (expires == null) {
throw new Error('过期时间不能为空')
}
// 检查有效期
const leftDays = dayjs(expires).diff(dayjs(), 'day')
return {
isWillExpire: leftDays < maxDays,
leftDays
}
}
createProviderByType (props, accessProviders) {
const { type } = props
try {
const Provider = dnsProviderRegistry.get(type)
return new Provider({ accessProviders, props })
} catch (e) {
throw new Error('暂不支持此dnsProvider,请先注册该provider' + type, e)
}
}
}

127
packages/certd/src/store/cert-store.js
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@@ -1,127 +0,0 @@
import dayjs from 'dayjs'
import crypto from 'crypto'
// eslint-disable-next-line no-unused-vars
function md5 (content) {
return crypto.createHash('md5').update(content).digest('hex')
}
export class CertStore {
constructor ({ store, email, domains }) {
this.store = store
this.email = email
this.domains = domains
this.domain = this.getMainDomain(this.domains)
this.safetyDomain = this.getSafetyDomain(this.domain)
// this.domainDir = this.safetyDomain + '-' + md5(this.getDomainStr(this.domains))
this.domainDir = this.safetyDomain
this.certsRootPath = this.store.buildKey(this.email, 'certs')
this.currentMarkPath = this.store.buildKey(this.certsRootPath, this.domainDir, 'current.json')
}
getMainDomain (domains) {
if (domains == null) {
return null
}
if (typeof domains === 'string') {
return domains
}
if (domains.length > 0) {
return domains[0]
}
}
getDomainStr (domains) {
if (domains == null) {
return null
}
if (typeof domains === 'string') {
return domains
}
return domains.join(',')
}
buildNewCertRootPath (dir) {
if (dir == null) {
dir = dayjs().format('YYYY.MM.DD.HHmmss')
}
return this.store.buildKey(this.certsRootPath, this.domainDir, dir)
}
formatCert (pem) {
pem = pem.replace(/\r/g, '')
pem = pem.replace(/\n\n/g, '\n')
pem = pem.replace(/\n$/g, '')
return pem
}
async writeCert (cert) {
const newDir = this.buildNewCertRootPath()
const crtKey = this.buildKey(newDir, this.safetyDomain + '.crt')
const priKey = this.buildKey(newDir, this.safetyDomain + '.key')
const csrKey = this.buildKey(newDir, this.safetyDomain + '.csr')
await this.store.set(crtKey, this.formatCert(cert.crt.toString()))
await this.store.set(priKey, this.formatCert(cert.key.toString()))
await this.store.set(csrKey, cert.csr.toString())
await this.store.set(this.currentMarkPath, JSON.stringify({ latest: newDir }))
return newDir
}
async readCert (dir) {
if (dir == null) {
dir = await this.getCurrentDir()
}
if (dir == null) {
return
}
const crtKey = this.buildKey(dir, this.safetyDomain + '.crt')
const priKey = this.buildKey(dir, this.safetyDomain + '.key')
const csrKey = this.buildKey(dir, this.safetyDomain + '.csr')
const crt = await this.store.get(crtKey)
if (crt == null) {
return null
}
const key = await this.store.get(priKey)
const csr = await this.store.get(csrKey)
return {
crt: this.formatCert(crt),
key: this.formatCert(key),
csr,
crtPath: this.store.getActualKey(crtKey),
keyPath: this.store.getActualKey(priKey),
certDir: this.store.getActualKey(dir)
}
}
buildKey (...keyItem) {
return this.store.buildKey(...keyItem)
}
getSafetyDomain (domain) {
return domain.replace(/\*/g, '_')
}
async getCurrentDir () {
const current = await this.store.get(this.currentMarkPath)
if (current == null) {
return null
}
return JSON.parse(current).latest
}
async getCurrentFile (file) {
const currentDir = await this.getCurrentDir()
const key = this.buildKey(currentDir, file)
return this.store.get(key)
}
async setCurrentFile (file, value) {
const currentDir = await this.getCurrentDir()
const key = this.buildKey(currentDir, file)
return this.store.set(key, value)
}
}

66
packages/certd/src/store/file-store.js
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@@ -1,66 +0,0 @@
import { Store, util } from '@certd/api'
import path from 'path'
import fs from 'fs'
const logger = util.logger
export class FileStore extends Store {
constructor (opts) {
super()
if (opts.rootDir != null) {
this.rootDir = opts.rootDir
} else {
this.rootDir = util.path.getUserBasePath()
}
if (opts.test) {
this.rootDir = path.join(this.rootDir, '/test/')
}
}
getActualKey (key) {
// return 前缀+key
return this.getPathByKey(key)
}
buildKey (...keyItem) {
return path.join(...keyItem)
}
getPathByKey (key) {
return path.join(this.rootDir, key)
}
set (key, value) {
const filePath = this.getPathByKey(key)
const dir = path.dirname(filePath)
if (!fs.existsSync(dir)) {
fs.mkdirSync(dir, { recursive: true })
}
fs.writeFileSync(filePath, value)
return filePath
}
get (key) {
const filePath = this.getPathByKey(key)
if (!fs.existsSync(filePath)) {
return null
}
return fs.readFileSync(filePath).toString()
}
link (targetPath, linkPath) {
targetPath = this.getPathByKey(targetPath)
linkPath = this.getPathByKey(linkPath)
if (fs.existsSync(linkPath)) {
try {
fs.unlinkSync(linkPath)
} catch (e) {
logger.error('unlink error:', e)
}
}
fs.symlinkSync(targetPath, linkPath, 'dir')
}
unlink (linkPath) {
linkPath = this.getPathByKey(linkPath)
fs.unlinkSync(linkPath)
}
}

18
packages/certd/test/cert-apply/aliyun.test.js
View File

@@ -1,18 +0,0 @@
import pkg from 'chai'
import { createOptions } from '../../../../test/options.js'
import { Certd } from '../../src/index.js'
const { expect } = pkg
describe('AliyunDnsProvider', function () {
it('#申请证书-aliyun', async function () {
this.timeout(300000)
const options = createOptions()
options.args = { forceCert: true, test: false }
const certd = new Certd(options)
const cert = await certd.certApply()
expect(cert).ok
expect(cert.crt).ok
expect(cert.key).ok
expect(cert.detail).ok
expect(cert.expires).ok
})
})

20
packages/certd/test/cert-apply/dnspod.test.js
View File

@@ -1,20 +0,0 @@
import pkg from 'chai'
import { Certd } from '../../src/index.js'
import { createOptions } from '../../../../test/options.js'
const { expect } = pkg
describe('DnspodDnsProvider', function () {
it('#申请证书', async function () {
this.timeout(300000)
const options = createOptions()
options.cert.domains = ['*.certd.xyz', '*.test.certd.xyz', '*.base.certd.xyz', 'certd.xyz']
options.cert.dnsProvider = 'dnspod'
options.args = { forceCert: true }
const certd = new Certd(options)
const cert = await certd.certApply()
expect(cert).ok
expect(cert.crt).ok
expect(cert.key).ok
expect(cert.detail).ok
expect(cert.expires).ok
})
})

88
packages/certd/test/index.test.js
View File

@@ -1,88 +0,0 @@
import chai from 'chai'
import { Certd } from '../src/index.js'
import { createOptions } from '../../../test/options.js'
const { expect } = chai
const fakeCrt = `-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
-----BEGIN CERTIFICATE-----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=
-----END CERTIFICATE-----`
describe('Certd', function () {
it('#buildCertDir', function () {
const options = createOptions()
options.cert.email = 'xiaojunnuo@qq.com'
options.cert.domains = ['*.docmirror.club']
const certd = new Certd(options)
const currentRootPath = certd.certStore.currentMarkPath
console.log('rootDir', currentRootPath)
expect(currentRootPath).match(/xiaojunnuo@qq.com\\certs\\_.docmirror.club\w*\\current.json/)
})
it('#writeAndReadCert', async function () {
const options = createOptions()
options.cert.email = 'xiaojunnuo@qq.com'
options.cert.domains = ['*.domain.cn']
const certd = new Certd(options)
await certd.writeCert({ csr: 'csr', crt: fakeCrt, key: 'bbb' })
const cert = await certd.readCurrentCert()
expect(cert).to.be.ok
expect(cert.crt).ok
expect(cert.key).to.be.ok
expect(cert.detail).to.be.ok
expect(cert.expires).to.be.ok
console.log('cert:', JSON.stringify(cert))
})
})

13
packages/core/acme-client/.editorconfig Normal file
View File

@@ -0,0 +1,13 @@
#
# http://editorconfig.org
#
root = true
[*]
indent_style = space
indent_size = 4
trim_trailing_whitespace = true
[{*.yml,*.yaml}]
indent_size = 2

16
packages/core/acme-client/.eslintrc.yml Normal file
View File

@@ -0,0 +1,16 @@
extends:
- 'airbnb-base'
env:
browser: false
node: true
mocha: true
rules:
indent: [2, 4, { SwitchCase: 1, VariableDeclarator: 1 }]
brace-style: [2, 'stroustrup', { allowSingleLine: true }]
func-names: 0
class-methods-use-this: 0
no-param-reassign: 0
max-len: [1, 200, 2, { ignoreUrls: true, ignoreComments: false }]
import/no-useless-path-segments: 0

61
packages/core/acme-client/.github/scripts/tests-install-coredns.sh vendored Normal file
View File

@@ -0,0 +1,61 @@
#!/bin/bash
#
# Install CoreDNS for testing.
#
set -euo pipefail
# Download and install
wget -nv "https://github.com/coredns/coredns/releases/download/v${COREDNS_VERSION}/coredns_${COREDNS_VERSION}_linux_amd64.tgz" -O /tmp/coredns.tgz
tar zxvf /tmp/coredns.tgz -C /usr/local/bin
chown root:root /usr/local/bin/coredns
chmod 0755 /usr/local/bin/coredns
mkdir -p /etc/coredns
# Zones
tee /etc/coredns/db.example.com << EOF
\$ORIGIN example.com.
@ 3600 IN SOA ns.coredns.invalid. master.coredns.invalid. (
2017042745 ; serial
7200 ; refresh
3600 ; retry
1209600 ; expire
3600 ; minimum
)
3600 IN NS ns1.example.com.
3600 IN NS ns2.example.com.
ns1 3600 IN A 127.0.0.1
ns2 3600 IN A 127.0.0.1
@ 3600 IN A 127.0.0.1
www 3600 IN CNAME example.com.
EOF
# Config
tee /etc/coredns/Corefile << EOF
example.com {
errors
log
bind 127.53.53.53
file /etc/coredns/db.example.com
}
test.example.com {
errors
log
bind 127.53.53.53
forward . 127.0.0.1:${PEBBLECTS_DNS_PORT}
}
. {
errors
log
bind 127.53.53.53
forward . 8.8.8.8
}
EOF
exit 0

15
packages/core/acme-client/.github/scripts/tests-install-cts.sh vendored Normal file
View File

@@ -0,0 +1,15 @@
#!/bin/bash
#
# Install Pebble Challenge Test Server for testing.
#
set -euo pipefail
# Download and install
wget -nv "https://github.com/letsencrypt/pebble/releases/download/v${PEBBLECTS_VERSION}/pebble-challtestsrv-linux-amd64.tar.gz" -O /tmp/pebble-challtestsrv.tar.gz
tar zxvf /tmp/pebble-challtestsrv.tar.gz -C /tmp
mv /tmp/pebble-challtestsrv-linux-amd64/linux/amd64/pebble-challtestsrv /usr/local/bin/pebble-challtestsrv
chown root:root /usr/local/bin/pebble-challtestsrv
chmod 0755 /usr/local/bin/pebble-challtestsrv
exit 0

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#!/bin/bash
#
# Install Pebble for testing.
#
set -euo pipefail
CONFIG_NAME="pebble-config.json"
# Use Pebble EAB config if enabled
set +u
if [[ -n $ACME_CAP_EAB_ENABLED ]] && [[ $ACME_CAP_EAB_ENABLED -eq 1 ]]; then
CONFIG_NAME="pebble-config-external-account-bindings.json"
fi
set -u
# Download certs and config
mkdir -p /etc/pebble
wget -nv "https://raw.githubusercontent.com/letsencrypt/pebble/v${PEBBLE_VERSION}/test/certs/pebble.minica.pem" -O /etc/pebble/ca.cert.pem
wget -nv "https://raw.githubusercontent.com/letsencrypt/pebble/v${PEBBLE_VERSION}/test/certs/localhost/cert.pem" -O /etc/pebble/cert.pem
wget -nv "https://raw.githubusercontent.com/letsencrypt/pebble/v${PEBBLE_VERSION}/test/certs/localhost/key.pem" -O /etc/pebble/key.pem
wget -nv "https://raw.githubusercontent.com/letsencrypt/pebble/v${PEBBLE_VERSION}/test/config/${CONFIG_NAME}" -O /etc/pebble/pebble.json
# Download and install Pebble
wget -nv "https://github.com/letsencrypt/pebble/releases/download/v${PEBBLE_VERSION}/pebble-linux-amd64.tar.gz" -O /tmp/pebble.tar.gz
tar zxvf /tmp/pebble.tar.gz -C /tmp
mv /tmp/pebble-linux-amd64/linux/amd64/pebble /usr/local/bin/pebble
chown root:root /usr/local/bin/pebble
chmod 0755 /usr/local/bin/pebble
# Config
sed -i 's#test/certs/localhost#/etc/pebble#' /etc/pebble/pebble.json
exit 0

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#!/bin/bash
#
# Wait for ACME server to accept connections.
#
set -euo pipefail
MAX_ATTEMPTS=15
ATTEMPT=0
# Loop until ready
while ! curl --cacert "${ACME_CA_CERT_PATH}" -s -D - "${ACME_DIRECTORY_URL}" | grep '^HTTP.*200' > /dev/null 2>&1; do
ATTEMPT=$((ATTEMPT + 1))
# Max attempts
if [[ $ATTEMPT -gt $MAX_ATTEMPTS ]]; then
echo "[!] Waited ${ATTEMPT} attempts for server to become ready, exit 1"
exit 1
fi
# Retry
echo "[-] Waiting 1 second for server to become ready, attempt: ${ATTEMPT}/${MAX_ATTEMPTS}, check: ${ACME_DIRECTORY_URL}, cert: ${ACME_CA_CERT_PATH}"
sleep 1
done
# Ready
echo "[+] Server ready!"
exit 0

91
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name: test
on: [push, pull_request]
jobs:
test:
name: node=${{matrix.node}} eab=${{matrix.eab}}
runs-on: ubuntu-latest
strategy:
matrix:
node: [16, 18, 20]
eab: [0, 1]
#
# Environment
#
env:
FORCE_COLOR: 1
NPM_CONFIG_COLOR: always
PEBBLE_VERSION: 2.6.0
PEBBLE_ALTERNATE_ROOTS: 2
PEBBLECTS_VERSION: 2.6.0
PEBBLECTS_DNS_PORT: 8053
COREDNS_VERSION: 1.11.1
NODE_EXTRA_CA_CERTS: /etc/pebble/ca.cert.pem
ACME_CA_CERT_PATH: /etc/pebble/ca.cert.pem
ACME_DIRECTORY_URL: https://127.0.0.1:14000/dir
ACME_CHALLTESTSRV_URL: http://127.0.0.1:8055
ACME_PEBBLE_MANAGEMENT_URL: https://127.0.0.1:15000
ACME_DOMAIN_NAME: test.example.com
ACME_CAP_EAB_ENABLED: ${{matrix.eab}}
ACME_TLSALPN_PORT: 5001
ACME_HTTP_PORT: 5002
ACME_HTTPS_PORT: 5003
#
# Pipeline
#
steps:
- uses: actions/checkout@v4
- uses: actions/setup-node@v4
with:
node-version: ${{matrix.node}}
# Pebble Challenge Test Server
- name: Install Pebble Challenge Test Server
run: sudo -E /bin/bash ./.github/scripts/tests-install-cts.sh
- name: Start Pebble Challenge Test Server
run: |-
nohup bash -c "pebble-challtestsrv \
-dns01 :${PEBBLECTS_DNS_PORT} \
-tlsalpn01 :${ACME_TLSALPN_PORT} \
-http01 :${ACME_HTTP_PORT} \
-https01 :${ACME_HTTPS_PORT} \
-defaultIPv4 127.0.0.1 \
-defaultIPv6 \"\" &"
# Pebble
- name: Install Pebble
run: sudo -E /bin/bash ./.github/scripts/tests-install-pebble.sh
- name: Start Pebble
run: nohup bash -c "pebble -strict -config /etc/pebble/pebble.json -dnsserver 127.53.53.53:53 &"
- name: Wait for Pebble
run: /bin/bash ./.github/scripts/tests-wait-for-ca.sh
# CoreDNS
- name: Install CoreDNS
run: sudo -E /bin/bash ./.github/scripts/tests-install-coredns.sh
- name: Start CoreDNS
run: nohup bash -c "sudo coredns -p 53 -conf /etc/coredns/Corefile &"
- name: Use CoreDNS for DNS resolution
run: echo "nameserver 127.53.53.53" | sudo tee /etc/resolv.conf
# Run tests
- run: npm i
- run: npm run lint
- run: npm run lint-types
- run: npm run build-docs
- run: npm run test

5
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.actrc
.vscode/
node_modules/
npm-debug.log
package-lock.json

210
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# Changelog
## v5.4.0 (2024-07-16)
* `added` Directory URLs for [Google](https://cloud.google.com/certificate-manager/docs/overview) ACME provider
* `fixed` Invalidate ACME provider directory cache after 24 hours
* `fixed` Retry HTTP requests on server errors or when rate limited - [#89](https://github.com/publishlab/node-acme-client/issues/89)
## v5.3.1 (2024-05-22)
* `fixed` Allow `client.auto()` being called with an empty CSR common name
* `fixed` Bug when calling `updateAccountKey()` with external account binding
## v5.3.0 (2024-02-05)
* `added` Support and tests for satisfying `tls-alpn-01` challenges
* `changed` Replace `jsrsasign` with `@peculiar/x509` for certificate and CSR handling
* `changed` Method `getChallengeKeyAuthorization()` now returns `$token.$thumbprint` when called with a `tls-alpn-01` challenge
* Previously returned base64url encoded SHA256 digest of `$token.$thumbprint` erroneously
* This change is not considered breaking since the previous behavior was incorrect
## v5.2.0 (2024-01-22)
* `fixed` Allow self-signed or invalid certs when validating `http-01` challenges that redirect to HTTPS - [#65](https://github.com/publishlab/node-acme-client/issues/65)
* `fixed` Wait for all challenge promises to settle before rejecting `client.auto()` - [#75](https://github.com/publishlab/node-acme-client/issues/75)
## v5.1.0 (2024-01-20)
* `fixed` Upgrade `jsrsasign@11.0.0` - [GHSA-rh63-9qcf-83gf](https://github.com/kjur/jsrsasign/security/advisories/GHSA-rh63-9qcf-83gf)
* `fixed` Upgrade `axios@1.6.5` - [CVE-2023-45857](https://cve.mitre.org/cgi-bin/cvename.cgi?name=2023-45857)
## v5.0.0 (2022-07-28)
* [Upgrade guide here](docs/upgrade-v5.md)
* `added` New native crypto interface, ECC/ECDSA support
* `breaking` Remove support for Node v10, v12 and v14
* `breaking` Prioritize issuer closest to root during preferred chain selection - [#46](https://github.com/publishlab/node-acme-client/issues/46)
* `changed` Replace `bluebird` dependency with native promise APIs
* `changed` Replace `backo2` dependency with internal utility
## v4.2.5 (2022-03-21)
* `fixed` Upgrade `axios@0.26.1`
* `fixed` Upgrade `node-forge@1.3.0` - [CVE-2022-24771](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-24771), [CVE-2022-24772](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-24772), [CVE-2022-24773](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-24773)
## v4.2.4 (2022-03-19)
* `fixed` Use SHA-256 when signing CSRs
## v3.3.2 (2022-03-19)
* `backport` Use SHA-256 when signing CSRs
## v4.2.3 (2022-01-11)
* `added` Directory URLs for ACME providers [Buypass](https://www.buypass.com) and [ZeroSSL](https://zerossl.com)
* `fixed` Skip already valid authorizations when using `client.auto()`
## v4.2.2 (2022-01-10)
* `fixed` Upgrade `node-forge@1.2.0`
## v4.2.1 (2022-01-10)
* `fixed` ZeroSSL `duplicate_domains_in_array` error when using `client.auto()`
## v4.2.0 (2022-01-06)
* `added` Support for external account binding - [RFC 8555 Section 7.3.4](https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.4)
* `added` Ability to pass through custom logger function
* `changed` Increase default `backoffAttempts` to 10
* `fixed` Deactivate authorizations where challenges can not be completed
* `fixed` Attempt authoritative name servers when verifying `dns-01` challenges
* `fixed` Error verbosity when failing to read ACME directory
* `fixed` Correctly recognize `ready` and `processing` states - [RFC 8555 Section 7.1.6](https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.6)
## v4.1.4 (2021-12-23)
* `fixed` Upgrade `axios@0.21.4` - [CVE-2021-3749](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2021-3749)
## v4.1.3 (2021-02-22)
* `fixed` Upgrade `axios@0.21.1` - [CVE-2020-28168](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2020-28168)
## v4.1.2 (2020-11-16)
* `fixed` Bug when encoding PEM payloads, potentially causing malformed requests
## v4.1.1 (2020-11-13)
* `fixed` Missing TypeScript definitions
## v4.1.0 (2020-11-12)
* `added` Option `preferredChain` added to `client.getCertificate()` and `client.auto()` to indicate which certificate chain is preferred if a CA offers multiple
* Related: [https://community.letsencrypt.org/t/transition-to-isrgs-root-delayed-until-jan-11-2021/125516](https://community.letsencrypt.org/t/transition-to-isrgs-root-delayed-until-jan-11-2021/125516)
* `added` Method `client.getOrder()` to refresh order from CA
* `fixed` Upgrade `axios@0.21.0`
* `fixed` Error when attempting to revoke a certificate chain
* `fixed` Missing URL augmentation in `client.finalizeOrder()` and `client.deactivateAuthorization()`
* `fixed` Add certificate issuer to response from `forge.readCertificateInfo()`
## v4.0.2 (2020-10-09)
* `fixed` Explicitly set default `axios` HTTP adapter - [axios/axios#1180](https://github.com/axios/axios/issues/1180)
## v4.0.1 (2020-09-15)
* `fixed` Upgrade `node-forge@0.10.0` - [CVE-2020-7720](https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2020-7720)
## v4.0.0 (2020-05-29)
* `breaking` Remove support for Node v8
* `breaking` Remove deprecated `openssl` crypto module
* `fixed` Incorrect TypeScript `CertificateInfo` definitions
* `fixed` Allow trailing whitespace character in `http-01` challenge response
## v3.3.1 (2020-01-07)
* `fixed` Improvements to TypeScript definitions
## v3.3.0 (2019-12-19)
* `added` TypeScript definitions
* `fixed` Allow missing ACME directory meta field - [RFC 8555 Section 7.1.1](https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.1)
## v3.2.1 (2019-11-14)
* `added` New option `skipChallengeVerification` added to `client.auto()` to bypass internal challenge verification
## v3.2.0 (2019-08-26)
* `added` More extensive testing using [letsencrypt/pebble](https://github.com/letsencrypt/pebble)
* `changed` When creating a CSR, `commonName` no longer defaults to `'localhost'`
* This change is not considered breaking since `commonName: 'localhost'` will result in an error when ordering a certificate
* `fixed` Retry signed API requests on `urn:ietf:params:acme:error:badNonce` - [RFC 8555 Section 6.5](https://datatracker.ietf.org/doc/html/rfc8555#section-6.5)
* `fixed` Minor bugs related to `POST-as-GET` when calling `updateAccount()`
* `fixed` Ensure subject common name is present in SAN when creating a CSR - [CAB v1.2.3 Section 9.2.2](https://cabforum.org/wp-content/uploads/BRv1.2.3.pdf)
* `fixed` Send empty JSON body when responding to challenges - [RFC 8555 Section 7.5.1](https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1)
## v2.3.1 (2019-08-26)
* `backport` Minor bugs related to `POST-as-GET` when calling `client.updateAccount()`
* `backport` Send empty JSON body when responding to challenges
## v3.1.0 (2019-08-21)
* `added` UTF-8 support when generating a CSR subject using forge - [RFC 5280](https://datatracker.ietf.org/doc/html/rfc5280)
* `fixed` Implement `POST-as-GET` for all ACME API requests - [RFC 8555 Section 6.3](https://datatracker.ietf.org/doc/html/rfc8555#section-6.3)
## v2.3.0 (2019-08-21)
* `backport` Implement `POST-as-GET` for all ACME API requests
## v3.0.0 (2019-07-13)
* `added` Expose `axios` instance to allow manipulating HTTP client defaults
* `breaking` Remove support for Node v4 and v6
* `breaking` Remove Babel transpilation
## v2.2.3 (2019-01-25)
* `added` DNS CNAME detection when verifying `dns-01` challenges
## v2.2.2 (2019-01-07)
* `added` Support for `tls-alpn-01` challenge key authorization
## v2.2.1 (2019-01-04)
* `fixed` Handle and throw errors from OpenSSL process
## v2.2.0 (2018-11-06)
* `added` New [node-forge](https://www.npmjs.com/package/node-forge) crypto interface, removes OpenSSL CLI dependency
* `added` Support native `crypto.generateKeyPair()` API when generating key pairs
## v2.1.0 (2018-10-21)
* `added` Ability to set and get current account URL
* `fixed` Replace HTTP client `request` with `axios`
* `fixed` Auto-mode no longer tries to create account when account URL exists
## v2.0.1 (2018-08-17)
* `fixed` Key rollover in compliance with [draft-ietf-acme-13](https://datatracker.ietf.org/doc/html/draft-ietf-acme-acme-13)
## v2.0.0 (2018-04-02)
* `breaking` ACMEv2
* `breaking` API changes
* `breaking` Rewrite to ES6
* `breaking` Promises instead of callbacks
## v1.0.0 (2017-10-20)
* API stable
## v0.2.1 (2017-09-27)
* `fixed` Bug causing invalid anti-replay nonce
## v0.2.0 (2017-09-21)
* `breaking` OpenSSL method `readCsrDomains` and `readCertificateInfo` now return domains as an object
* `fixed` Added and fixed some tests
## v0.1.0 (2017-09-14)
* `acme-client` released

2
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@@ -1,6 +1,6 @@
MIT License
Copyright (c) 2021 Greper
Copyright (c) 2017-2024 Labrador CMS AS
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

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# acme-client [![test](https://github.com/publishlab/node-acme-client/actions/workflows/tests.yml/badge.svg)](https://github.com/publishlab/node-acme-client/actions/workflows/tests.yml)
*A simple and unopinionated ACME client.*
This module is written to handle communication with a Boulder/Let's Encrypt-style ACME API.
* RFC 8555 - Automatic Certificate Management Environment (ACME): [https://datatracker.ietf.org/doc/html/rfc8555](https://datatracker.ietf.org/doc/html/rfc8555)
* Boulder divergences from ACME: [https://github.com/letsencrypt/boulder/blob/master/docs/acme-divergences.md](https://github.com/letsencrypt/boulder/blob/master/docs/acme-divergences.md)
## Compatibility
| acme-client | Node.js | |
| ----------- | ------- | ----------------------------------------- |
| v5.x | >= v16 | [Upgrade guide](docs/upgrade-v5.md) |
| v4.x | >= v10 | [Changelog](CHANGELOG.md#v400-2020-05-29) |
| v3.x | >= v8 | [Changelog](CHANGELOG.md#v300-2019-07-13) |
| v2.x | >= v4 | [Changelog](CHANGELOG.md#v200-2018-04-02) |
| v1.x | >= v4 | [Changelog](CHANGELOG.md#v100-2017-10-20) |
## Table of contents
* [Installation](#installation)
* [Usage](#usage)
* [Directory URLs](#directory-urls)
* [External account binding](#external-account-binding)
* [Specifying the account URL](#specifying-the-account-url)
* [Cryptography](#cryptography)
* [Legacy .forge interface](#legacy-forge-interface)
* [Auto mode](#auto-mode)
* [Challenge priority](#challenge-priority)
* [Internal challenge verification](#internal-challenge-verification)
* [API](#api)
* [HTTP client defaults](#http-client-defaults)
* [Debugging](#debugging)
* [License](#license)
## Installation
```bash
$ npm install acme-client
```
## Usage
```js
const acme = require('acme-client');
const accountPrivateKey = '<PEM encoded private key>';
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: accountPrivateKey,
});
```
### Directory URLs
```js
acme.directory.buypass.staging;
acme.directory.buypass.production;
acme.directory.google.staging;
acme.directory.google.production;
acme.directory.letsencrypt.staging;
acme.directory.letsencrypt.production;
acme.directory.zerossl.production;
```
### External account binding
To enable [external account binding](https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.4) when creating your ACME account, provide your KID and HMAC key to the client constructor.
```js
const client = new acme.Client({
directoryUrl: 'https://acme-provider.example.com/directory-url',
accountKey: accountPrivateKey,
externalAccountBinding: {
kid: 'YOUR-EAB-KID',
hmacKey: 'YOUR-EAB-HMAC-KEY',
},
});
```
### Specifying the account URL
During the ACME account creation process, the server will check the supplied account key and either create a new account if the key is unused, or return the existing ACME account bound to that key.
In some cases, for example with some EAB providers, this account creation step may be prohibited and might require you to manually specify the account URL beforehand. This can be done through `accountUrl` in the client constructor.
```js
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: accountPrivateKey,
accountUrl: 'https://acme-v02.api.letsencrypt.org/acme/acct/12345678',
});
```
You can fetch the clients current account URL, either after creating an account or supplying it through the constructor, using `getAccountUrl()`:
```js
const myAccountUrl = client.getAccountUrl();
```
## Cryptography
For key pairs `acme-client` utilizes native Node.js cryptography APIs, supporting signing and generation of both RSA and ECDSA keys. The module [@peculiar/x509](https://www.npmjs.com/package/@peculiar/x509) is used to generate and parse Certificate Signing Requests.
These utility methods are exposed through `.crypto`.
* **Documentation: [docs/crypto.md](docs/crypto.md)**
```js
const privateRsaKey = await acme.crypto.createPrivateRsaKey();
const privateEcdsaKey = await acme.crypto.createPrivateEcdsaKey();
const [certificateKey, certificateCsr] = await acme.crypto.createCsr({
altNames: ['example.com', '*.example.com'],
});
```
### Legacy `.forge` interface
The legacy `node-forge` crypto interface is still available for backward compatibility, however this interface is now considered deprecated and will be removed in a future major version of `acme-client`.
You should consider migrating to the new `.crypto` API at your earliest convenience. More details can be found in the [acme-client v5 upgrade guide](docs/upgrade-v5.md).
* **Documentation: [docs/forge.md](docs/forge.md)**
## Auto mode
For convenience an `auto()` method is included in the client that takes a single config object. This method will handle the entire process of getting a certificate for one or multiple domains.
* **Documentation: [docs/client.md#AcmeClient+auto](docs/client.md#AcmeClient+auto)**
* **Full example: [examples/auto.js](examples/auto.js)**
```js
const autoOpts = {
csr: '<PEM encoded CSR>',
email: 'test@example.com',
termsOfServiceAgreed: true,
challengeCreateFn: async (authz, challenge, keyAuthorization) => {},
challengeRemoveFn: async (authz, challenge, keyAuthorization) => {},
};
const certificate = await client.auto(autoOpts);
```
### Challenge priority
When ordering a certificate using auto mode, `acme-client` uses a priority list when selecting challenges to respond to. Its default value is `['http-01', 'dns-01']` which translates to "use `http-01` if any challenges exist, otherwise fall back to `dns-01`".
While most challenges can be validated using the method of your choosing, please note that **wildcard certificates can only be validated through `dns-01`**. More information regarding Let's Encrypt challenge types [can be found here](https://letsencrypt.org/docs/challenge-types/).
To modify challenge priority, provide a list of challenge types in `challengePriority`:
```js
await client.auto({
...,
challengePriority: ['http-01', 'dns-01'],
});
```
### Internal challenge verification
When using auto mode, `acme-client` will first validate that challenges are satisfied internally before completing the challenge at the ACME provider. In some cases (firewalls, etc) this internal challenge verification might not be possible to complete.
If internal challenge validation needs to travel through an HTTP proxy, see [HTTP client defaults](#http-client-defaults).
To completely disable `acme-client`s internal challenge verification, enable `skipChallengeVerification`:
```js
await client.auto({
...,
skipChallengeVerification: true,
});
```
## API
For more fine-grained control you can interact with the ACME API using the methods documented below.
* **Documentation: [docs/client.md](docs/client.md)**
* **Full example: [examples/api.js](examples/api.js)**
```js
const account = await client.createAccount({
termsOfServiceAgreed: true,
contact: ['mailto:test@example.com'],
});
const order = await client.createOrder({
identifiers: [
{ type: 'dns', value: 'example.com' },
{ type: 'dns', value: '*.example.com' },
],
});
```
## HTTP client defaults
This module uses [axios](https://github.com/axios/axios) when communicating with the ACME HTTP API, and exposes the client instance through `.axios`.
For example, should you need to change the default axios configuration to route requests through an HTTP proxy, this can be achieved as follows:
```js
const acme = require('acme-client');
acme.axios.defaults.proxy = {
host: '127.0.0.1',
port: 9000,
};
```
A complete list of axios options and documentation can be found at:
* [https://github.com/axios/axios#request-config](https://github.com/axios/axios#request-config)
* [https://github.com/axios/axios#custom-instance-defaults](https://github.com/axios/axios#custom-instance-defaults)
## Debugging
To get a better grasp of what `acme-client` is doing behind the scenes, you can either pass it a logger function, or enable debugging through an environment variable.
Setting a logger function may for example be useful for passing messages on to another logging system, or just dumping them to the console.
```js
acme.setLogger((message) => {
console.log(message);
});
```
Debugging to the console can also be enabled through [debug](https://www.npmjs.com/package/debug) by setting an environment variable.
```bash
DEBUG=acme-client node index.js
```
## License
[MIT](LICENSE)

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## Classes
<dl>
<dt><a href="#AcmeClient">AcmeClient</a></dt>
<dd><p>AcmeClient</p>
</dd>
</dl>
## Objects
<dl>
<dt><a href="#Client">Client</a> : <code>object</code></dt>
<dd><p>ACME client</p>
</dd>
</dl>
<a name="AcmeClient"></a>
## AcmeClient
AcmeClient
**Kind**: global class
* [AcmeClient](#AcmeClient)
* [new AcmeClient(opts)](#new_AcmeClient_new)
* [.getTermsOfServiceUrl()](#AcmeClient+getTermsOfServiceUrl) ⇒ <code>Promise.&lt;(string\|null)&gt;</code>
* [.getAccountUrl()](#AcmeClient+getAccountUrl) ⇒ <code>string</code>
* [.createAccount([data])](#AcmeClient+createAccount) ⇒ <code>Promise.&lt;object&gt;</code>
* [.updateAccount([data])](#AcmeClient+updateAccount) ⇒ <code>Promise.&lt;object&gt;</code>
* [.updateAccountKey(newAccountKey, [data])](#AcmeClient+updateAccountKey) ⇒ <code>Promise.&lt;object&gt;</code>
* [.createOrder(data)](#AcmeClient+createOrder) ⇒ <code>Promise.&lt;object&gt;</code>
* [.getOrder(order)](#AcmeClient+getOrder) ⇒ <code>Promise.&lt;object&gt;</code>
* [.finalizeOrder(order, csr)](#AcmeClient+finalizeOrder) ⇒ <code>Promise.&lt;object&gt;</code>
* [.getAuthorizations(order)](#AcmeClient+getAuthorizations) ⇒ <code>Promise.&lt;Array.&lt;object&gt;&gt;</code>
* [.deactivateAuthorization(authz)](#AcmeClient+deactivateAuthorization) ⇒ <code>Promise.&lt;object&gt;</code>
* [.getChallengeKeyAuthorization(challenge)](#AcmeClient+getChallengeKeyAuthorization) ⇒ <code>Promise.&lt;string&gt;</code>
* [.verifyChallenge(authz, challenge)](#AcmeClient+verifyChallenge) ⇒ <code>Promise</code>
* [.completeChallenge(challenge)](#AcmeClient+completeChallenge) ⇒ <code>Promise.&lt;object&gt;</code>
* [.waitForValidStatus(item)](#AcmeClient+waitForValidStatus) ⇒ <code>Promise.&lt;object&gt;</code>
* [.getCertificate(order, [preferredChain])](#AcmeClient+getCertificate) ⇒ <code>Promise.&lt;string&gt;</code>
* [.revokeCertificate(cert, [data])](#AcmeClient+revokeCertificate) ⇒ <code>Promise</code>
* [.auto(opts)](#AcmeClient+auto) ⇒ <code>Promise.&lt;string&gt;</code>
<a name="new_AcmeClient_new"></a>
### new AcmeClient(opts)
| Param | Type | Description |
| --- | --- | --- |
| opts | <code>object</code> | |
| opts.directoryUrl | <code>string</code> | ACME directory URL |
| opts.accountKey | <code>buffer</code> \| <code>string</code> | PEM encoded account private key |
| [opts.accountUrl] | <code>string</code> | Account URL, default: `null` |
| [opts.externalAccountBinding] | <code>object</code> | |
| [opts.externalAccountBinding.kid] | <code>string</code> | External account binding KID |
| [opts.externalAccountBinding.hmacKey] | <code>string</code> | External account binding HMAC key |
| [opts.backoffAttempts] | <code>number</code> | Maximum number of backoff attempts, default: `10` |
| [opts.backoffMin] | <code>number</code> | Minimum backoff attempt delay in milliseconds, default: `5000` |
| [opts.backoffMax] | <code>number</code> | Maximum backoff attempt delay in milliseconds, default: `30000` |
**Example**
Create ACME client instance
```js
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: 'Private key goes here',
});
```
**Example**
Create ACME client instance
```js
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: 'Private key goes here',
accountUrl: 'Optional account URL goes here',
backoffAttempts: 10,
backoffMin: 5000,
backoffMax: 30000,
});
```
**Example**
Create ACME client with external account binding
```js
const client = new acme.Client({
directoryUrl: 'https://acme-provider.example.com/directory-url',
accountKey: 'Private key goes here',
externalAccountBinding: {
kid: 'YOUR-EAB-KID',
hmacKey: 'YOUR-EAB-HMAC-KEY',
},
});
```
<a name="AcmeClient+getTermsOfServiceUrl"></a>
### acmeClient.getTermsOfServiceUrl() ⇒ <code>Promise.&lt;(string\|null)&gt;</code>
Get Terms of Service URL if available
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;(string\|null)&gt;</code> - ToS URL
**Example**
Get Terms of Service URL
```js
const termsOfService = client.getTermsOfServiceUrl();
if (!termsOfService) {
// CA did not provide Terms of Service
}
```
<a name="AcmeClient+getAccountUrl"></a>
### acmeClient.getAccountUrl() ⇒ <code>string</code>
Get current account URL
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>string</code> - Account URL
**Throws**:
- <code>Error</code> No account URL found
**Example**
Get current account URL
```js
try {
const accountUrl = client.getAccountUrl();
}
catch (e) {
// No account URL exists, need to create account first
}
```
<a name="AcmeClient+createAccount"></a>
### acmeClient.createAccount([data]) ⇒ <code>Promise.&lt;object&gt;</code>
Create a new account
https://datatracker.ietf.org/doc/html/rfc8555#section-7.3
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Account
| Param | Type | Description |
| --- | --- | --- |
| [data] | <code>object</code> | Request data |
**Example**
Create a new account
```js
const account = await client.createAccount({
termsOfServiceAgreed: true,
});
```
**Example**
Create a new account with contact info
```js
const account = await client.createAccount({
termsOfServiceAgreed: true,
contact: ['mailto:test@example.com'],
});
```
<a name="AcmeClient+updateAccount"></a>
### acmeClient.updateAccount([data]) ⇒ <code>Promise.&lt;object&gt;</code>
Update existing account
https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.2
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Account
| Param | Type | Description |
| --- | --- | --- |
| [data] | <code>object</code> | Request data |
**Example**
Update existing account
```js
const account = await client.updateAccount({
contact: ['mailto:foo@example.com'],
});
```
<a name="AcmeClient+updateAccountKey"></a>
### acmeClient.updateAccountKey(newAccountKey, [data]) ⇒ <code>Promise.&lt;object&gt;</code>
Update account private key
https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.5
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Account
| Param | Type | Description |
| --- | --- | --- |
| newAccountKey | <code>buffer</code> \| <code>string</code> | New PEM encoded private key |
| [data] | <code>object</code> | Additional request data |
**Example**
Update account private key
```js
const newAccountKey = 'New private key goes here';
const result = await client.updateAccountKey(newAccountKey);
```
<a name="AcmeClient+createOrder"></a>
### acmeClient.createOrder(data) ⇒ <code>Promise.&lt;object&gt;</code>
Create a new order
https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Order
| Param | Type | Description |
| --- | --- | --- |
| data | <code>object</code> | Request data |
**Example**
Create a new order
```js
const order = await client.createOrder({
identifiers: [
{ type: 'dns', value: 'example.com' },
{ type: 'dns', value: 'test.example.com' },
],
});
```
<a name="AcmeClient+getOrder"></a>
### acmeClient.getOrder(order) ⇒ <code>Promise.&lt;object&gt;</code>
Refresh order object from CA
https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Order
| Param | Type | Description |
| --- | --- | --- |
| order | <code>object</code> | Order object |
**Example**
```js
const order = { ... }; // Previously created order object
const result = await client.getOrder(order);
```
<a name="AcmeClient+finalizeOrder"></a>
### acmeClient.finalizeOrder(order, csr) ⇒ <code>Promise.&lt;object&gt;</code>
Finalize order
https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Order
| Param | Type | Description |
| --- | --- | --- |
| order | <code>object</code> | Order object |
| csr | <code>buffer</code> \| <code>string</code> | PEM encoded Certificate Signing Request |
**Example**
Finalize order
```js
const order = { ... }; // Previously created order object
const csr = { ... }; // Previously created Certificate Signing Request
const result = await client.finalizeOrder(order, csr);
```
<a name="AcmeClient+getAuthorizations"></a>
### acmeClient.getAuthorizations(order) ⇒ <code>Promise.&lt;Array.&lt;object&gt;&gt;</code>
Get identifier authorizations from order
https://datatracker.ietf.org/doc/html/rfc8555#section-7.5
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;Array.&lt;object&gt;&gt;</code> - Authorizations
| Param | Type | Description |
| --- | --- | --- |
| order | <code>object</code> | Order |
**Example**
Get identifier authorizations
```js
const order = { ... }; // Previously created order object
const authorizations = await client.getAuthorizations(order);
authorizations.forEach((authz) => {
const { challenges } = authz;
});
```
<a name="AcmeClient+deactivateAuthorization"></a>
### acmeClient.deactivateAuthorization(authz) ⇒ <code>Promise.&lt;object&gt;</code>
Deactivate identifier authorization
https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.2
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Authorization
| Param | Type | Description |
| --- | --- | --- |
| authz | <code>object</code> | Identifier authorization |
**Example**
Deactivate identifier authorization
```js
const authz = { ... }; // Identifier authorization resolved from previously created order
const result = await client.deactivateAuthorization(authz);
```
<a name="AcmeClient+getChallengeKeyAuthorization"></a>
### acmeClient.getChallengeKeyAuthorization(challenge) ⇒ <code>Promise.&lt;string&gt;</code>
Get key authorization for ACME challenge
https://datatracker.ietf.org/doc/html/rfc8555#section-8.1
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;string&gt;</code> - Key authorization
| Param | Type | Description |
| --- | --- | --- |
| challenge | <code>object</code> | Challenge object returned by API |
**Example**
Get challenge key authorization
```js
const challenge = { ... }; // Challenge from previously resolved identifier authorization
const key = await client.getChallengeKeyAuthorization(challenge);
// Write key somewhere to satisfy challenge
```
<a name="AcmeClient+verifyChallenge"></a>
### acmeClient.verifyChallenge(authz, challenge) ⇒ <code>Promise</code>
Verify that ACME challenge is satisfied
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
| Param | Type | Description |
| --- | --- | --- |
| authz | <code>object</code> | Identifier authorization |
| challenge | <code>object</code> | Authorization challenge |
**Example**
Verify satisfied ACME challenge
```js
const authz = { ... }; // Identifier authorization
const challenge = { ... }; // Satisfied challenge
await client.verifyChallenge(authz, challenge);
```
<a name="AcmeClient+completeChallenge"></a>
### acmeClient.completeChallenge(challenge) ⇒ <code>Promise.&lt;object&gt;</code>
Notify CA that challenge has been completed
https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Challenge
| Param | Type | Description |
| --- | --- | --- |
| challenge | <code>object</code> | Challenge object returned by API |
**Example**
Notify CA that challenge has been completed
```js
const challenge = { ... }; // Satisfied challenge
const result = await client.completeChallenge(challenge);
```
<a name="AcmeClient+waitForValidStatus"></a>
### acmeClient.waitForValidStatus(item) ⇒ <code>Promise.&lt;object&gt;</code>
Wait for ACME provider to verify status on a order, authorization or challenge
https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;object&gt;</code> - Valid order, authorization or challenge
| Param | Type | Description |
| --- | --- | --- |
| item | <code>object</code> | An order, authorization or challenge object |
**Example**
Wait for valid challenge status
```js
const challenge = { ... };
await client.waitForValidStatus(challenge);
```
**Example**
Wait for valid authorization status
```js
const authz = { ... };
await client.waitForValidStatus(authz);
```
**Example**
Wait for valid order status
```js
const order = { ... };
await client.waitForValidStatus(order);
```
<a name="AcmeClient+getCertificate"></a>
### acmeClient.getCertificate(order, [preferredChain]) ⇒ <code>Promise.&lt;string&gt;</code>
Get certificate from ACME order
https://datatracker.ietf.org/doc/html/rfc8555#section-7.4.2
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;string&gt;</code> - Certificate
| Param | Type | Default | Description |
| --- | --- | --- | --- |
| order | <code>object</code> | | Order object |
| [preferredChain] | <code>string</code> | <code>null</code> | Indicate which certificate chain is preferred if a CA offers multiple, by exact issuer common name, default: `null` |
**Example**
Get certificate
```js
const order = { ... }; // Previously created order
const certificate = await client.getCertificate(order);
```
**Example**
Get certificate with preferred chain
```js
const order = { ... }; // Previously created order
const certificate = await client.getCertificate(order, 'DST Root CA X3');
```
<a name="AcmeClient+revokeCertificate"></a>
### acmeClient.revokeCertificate(cert, [data]) ⇒ <code>Promise</code>
Revoke certificate
https://datatracker.ietf.org/doc/html/rfc8555#section-7.6
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
| Param | Type | Description |
| --- | --- | --- |
| cert | <code>buffer</code> \| <code>string</code> | PEM encoded certificate |
| [data] | <code>object</code> | Additional request data |
**Example**
Revoke certificate
```js
const certificate = { ... }; // Previously created certificate
const result = await client.revokeCertificate(certificate);
```
**Example**
Revoke certificate with reason
```js
const certificate = { ... }; // Previously created certificate
const result = await client.revokeCertificate(certificate, {
reason: 4,
});
```
<a name="AcmeClient+auto"></a>
### acmeClient.auto(opts) ⇒ <code>Promise.&lt;string&gt;</code>
Auto mode
**Kind**: instance method of [<code>AcmeClient</code>](#AcmeClient)
**Returns**: <code>Promise.&lt;string&gt;</code> - Certificate
| Param | Type | Description |
| --- | --- | --- |
| opts | <code>object</code> | |
| opts.csr | <code>buffer</code> \| <code>string</code> | Certificate Signing Request |
| opts.challengeCreateFn | <code>function</code> | Function returning Promise triggered before completing ACME challenge |
| opts.challengeRemoveFn | <code>function</code> | Function returning Promise triggered after completing ACME challenge |
| [opts.email] | <code>string</code> | Account email address |
| [opts.termsOfServiceAgreed] | <code>boolean</code> | Agree to Terms of Service, default: `false` |
| [opts.skipChallengeVerification] | <code>boolean</code> | Skip internal challenge verification before notifying ACME provider, default: `false` |
| [opts.challengePriority] | <code>Array.&lt;string&gt;</code> | Array defining challenge type priority, default: `['http-01', 'dns-01']` |
| [opts.preferredChain] | <code>string</code> | Indicate which certificate chain is preferred if a CA offers multiple, by exact issuer common name, default: `null` |
**Example**
Order a certificate using auto mode
```js
const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
altNames: ['test.example.com'],
});
const certificate = await client.auto({
csr: certificateRequest,
email: 'test@example.com',
termsOfServiceAgreed: true,
challengeCreateFn: async (authz, challenge, keyAuthorization) => {
// Satisfy challenge here
},
challengeRemoveFn: async (authz, challenge, keyAuthorization) => {
// Clean up challenge here
},
});
```
**Example**
Order a certificate using auto mode with preferred chain
```js
const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
altNames: ['test.example.com'],
});
const certificate = await client.auto({
csr: certificateRequest,
email: 'test@example.com',
termsOfServiceAgreed: true,
preferredChain: 'DST Root CA X3',
challengeCreateFn: async () => {},
challengeRemoveFn: async () => {},
});
```
<a name="Client"></a>
## Client : <code>object</code>
ACME client
**Kind**: global namespace

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## Objects
<dl>
<dt><a href="#crypto">crypto</a> : <code>object</code></dt>
<dd><p>Native Node.js crypto interface</p>
</dd>
</dl>
## Functions
<dl>
<dt><a href="#createPrivateRsaKey">createPrivateRsaKey([modulusLength])</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Generate a private RSA key</p>
</dd>
<dt><a href="#createPrivateKey">createPrivateKey()</a></dt>
<dd><p>Alias of <code>createPrivateRsaKey()</code></p>
</dd>
<dt><a href="#createPrivateEcdsaKey">createPrivateEcdsaKey([namedCurve])</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Generate a private ECDSA key</p>
</dd>
<dt><a href="#getPublicKey">getPublicKey(keyPem)</a> ⇒ <code>buffer</code></dt>
<dd><p>Get a public key derived from a RSA or ECDSA key</p>
</dd>
<dt><a href="#getJwk">getJwk(keyPem)</a> ⇒ <code>object</code></dt>
<dd><p>Get a JSON Web Key derived from a RSA or ECDSA key</p>
<p><a href="https://datatracker.ietf.org/doc/html/rfc7517">https://datatracker.ietf.org/doc/html/rfc7517</a></p>
</dd>
<dt><a href="#splitPemChain">splitPemChain(chainPem)</a> ⇒ <code>Array.&lt;string&gt;</code></dt>
<dd><p>Split chain of PEM encoded objects from string into array</p>
</dd>
<dt><a href="#getPemBodyAsB64u">getPemBodyAsB64u(pem)</a> ⇒ <code>string</code></dt>
<dd><p>Parse body of PEM encoded object and return a Base64URL string
If multiple objects are chained, the first body will be returned</p>
</dd>
<dt><a href="#readCsrDomains">readCsrDomains(csrPem)</a> ⇒ <code>object</code></dt>
<dd><p>Read domains from a Certificate Signing Request</p>
</dd>
<dt><a href="#readCertificateInfo">readCertificateInfo(certPem)</a> ⇒ <code>object</code></dt>
<dd><p>Read information from a certificate
If multiple certificates are chained, the first will be read</p>
</dd>
<dt><a href="#createCsr">createCsr(data, [keyPem])</a> ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code></dt>
<dd><p>Create a Certificate Signing Request</p>
</dd>
<dt><a href="#createAlpnCertificate">createAlpnCertificate(authz, keyAuthorization, [keyPem])</a> ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code></dt>
<dd><p>Create a self-signed ALPN certificate for TLS-ALPN-01 challenges</p>
<p><a href="https://datatracker.ietf.org/doc/html/rfc8737">https://datatracker.ietf.org/doc/html/rfc8737</a></p>
</dd>
<dt><a href="#isAlpnCertificateAuthorizationValid">isAlpnCertificateAuthorizationValid(certPem, keyAuthorization)</a> ⇒ <code>boolean</code></dt>
<dd><p>Validate that a ALPN certificate contains the expected key authorization</p>
</dd>
</dl>
<a name="crypto"></a>
## crypto : <code>object</code>
Native Node.js crypto interface
**Kind**: global namespace
<a name="createPrivateRsaKey"></a>
## createPrivateRsaKey([modulusLength]) ⇒ <code>Promise.&lt;buffer&gt;</code>
Generate a private RSA key
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - PEM encoded private RSA key
| Param | Type | Default | Description |
| --- | --- | --- | --- |
| [modulusLength] | <code>number</code> | <code>2048</code> | Size of the keys modulus in bits, default: `2048` |
**Example**
Generate private RSA key
```js
const privateKey = await acme.crypto.createPrivateRsaKey();
```
**Example**
Private RSA key with modulus size 4096
```js
const privateKey = await acme.crypto.createPrivateRsaKey(4096);
```
<a name="createPrivateKey"></a>
## createPrivateKey()
Alias of `createPrivateRsaKey()`
**Kind**: global function
<a name="createPrivateEcdsaKey"></a>
## createPrivateEcdsaKey([namedCurve]) ⇒ <code>Promise.&lt;buffer&gt;</code>
Generate a private ECDSA key
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - PEM encoded private ECDSA key
| Param | Type | Description |
| --- | --- | --- |
| [namedCurve] | <code>string</code> | ECDSA curve name (P-256, P-384 or P-521), default `P-256` |
**Example**
Generate private ECDSA key
```js
const privateKey = await acme.crypto.createPrivateEcdsaKey();
```
**Example**
Private ECDSA key using P-384 curve
```js
const privateKey = await acme.crypto.createPrivateEcdsaKey('P-384');
```
<a name="getPublicKey"></a>
## getPublicKey(keyPem) ⇒ <code>buffer</code>
Get a public key derived from a RSA or ECDSA key
**Kind**: global function
**Returns**: <code>buffer</code> - PEM encoded public key
| Param | Type | Description |
| --- | --- | --- |
| keyPem | <code>buffer</code> \| <code>string</code> | PEM encoded private or public key |
**Example**
Get public key
```js
const publicKey = acme.crypto.getPublicKey(privateKey);
```
<a name="getJwk"></a>
## getJwk(keyPem) ⇒ <code>object</code>
Get a JSON Web Key derived from a RSA or ECDSA key
https://datatracker.ietf.org/doc/html/rfc7517
**Kind**: global function
**Returns**: <code>object</code> - JSON Web Key
| Param | Type | Description |
| --- | --- | --- |
| keyPem | <code>buffer</code> \| <code>string</code> | PEM encoded private or public key |
**Example**
Get JWK
```js
const jwk = acme.crypto.getJwk(privateKey);
```
<a name="splitPemChain"></a>
## splitPemChain(chainPem) ⇒ <code>Array.&lt;string&gt;</code>
Split chain of PEM encoded objects from string into array
**Kind**: global function
**Returns**: <code>Array.&lt;string&gt;</code> - Array of PEM objects including headers
| Param | Type | Description |
| --- | --- | --- |
| chainPem | <code>buffer</code> \| <code>string</code> | PEM encoded object chain |
<a name="getPemBodyAsB64u"></a>
## getPemBodyAsB64u(pem) ⇒ <code>string</code>
Parse body of PEM encoded object and return a Base64URL string
If multiple objects are chained, the first body will be returned
**Kind**: global function
**Returns**: <code>string</code> - Base64URL-encoded body
| Param | Type | Description |
| --- | --- | --- |
| pem | <code>buffer</code> \| <code>string</code> | PEM encoded chain or object |
<a name="readCsrDomains"></a>
## readCsrDomains(csrPem) ⇒ <code>object</code>
Read domains from a Certificate Signing Request
**Kind**: global function
**Returns**: <code>object</code> - {commonName, altNames}
| Param | Type | Description |
| --- | --- | --- |
| csrPem | <code>buffer</code> \| <code>string</code> | PEM encoded Certificate Signing Request |
**Example**
Read Certificate Signing Request domains
```js
const { commonName, altNames } = acme.crypto.readCsrDomains(certificateRequest);
console.log(`Common name: ${commonName}`);
console.log(`Alt names: ${altNames.join(', ')}`);
```
<a name="readCertificateInfo"></a>
## readCertificateInfo(certPem) ⇒ <code>object</code>
Read information from a certificate
If multiple certificates are chained, the first will be read
**Kind**: global function
**Returns**: <code>object</code> - Certificate info
| Param | Type | Description |
| --- | --- | --- |
| certPem | <code>buffer</code> \| <code>string</code> | PEM encoded certificate or chain |
**Example**
Read certificate information
```js
const info = acme.crypto.readCertificateInfo(certificate);
const { commonName, altNames } = info.domains;
console.log(`Not after: ${info.notAfter}`);
console.log(`Not before: ${info.notBefore}`);
console.log(`Common name: ${commonName}`);
console.log(`Alt names: ${altNames.join(', ')}`);
```
<a name="createCsr"></a>
## createCsr(data, [keyPem]) ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code>
Create a Certificate Signing Request
**Kind**: global function
**Returns**: <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code> - [privateKey, certificateSigningRequest]
| Param | Type | Description |
| --- | --- | --- |
| data | <code>object</code> | |
| [data.keySize] | <code>number</code> | Size of newly created RSA private key modulus in bits, default: `2048` |
| [data.commonName] | <code>string</code> | FQDN of your server |
| [data.altNames] | <code>Array.&lt;string&gt;</code> | SAN (Subject Alternative Names), default: `[]` |
| [data.country] | <code>string</code> | 2 letter country code |
| [data.state] | <code>string</code> | State or province |
| [data.locality] | <code>string</code> | City |
| [data.organization] | <code>string</code> | Organization name |
| [data.organizationUnit] | <code>string</code> | Organizational unit name |
| [data.emailAddress] | <code>string</code> | Email address |
| [keyPem] | <code>buffer</code> \| <code>string</code> | PEM encoded CSR private key |
**Example**
Create a Certificate Signing Request
```js
const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
altNames: ['test.example.com'],
});
```
**Example**
Certificate Signing Request with both common and alternative names
> *Warning*: Certificate subject common name has been [deprecated](https://letsencrypt.org/docs/glossary/#def-CN) and its use is [discouraged](https://cabforum.org/uploads/BRv1.2.3.pdf).
```js
const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
keySize: 4096,
commonName: 'test.example.com',
altNames: ['foo.example.com', 'bar.example.com'],
});
```
**Example**
Certificate Signing Request with additional information
```js
const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
altNames: ['test.example.com'],
country: 'US',
state: 'California',
locality: 'Los Angeles',
organization: 'The Company Inc.',
organizationUnit: 'IT Department',
emailAddress: 'contact@example.com',
});
```
**Example**
Certificate Signing Request with ECDSA private key
```js
const certificateKey = await acme.crypto.createPrivateEcdsaKey();
const [, certificateRequest] = await acme.crypto.createCsr({
altNames: ['test.example.com'],
}, certificateKey);
```
<a name="createAlpnCertificate"></a>
## createAlpnCertificate(authz, keyAuthorization, [keyPem]) ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code>
Create a self-signed ALPN certificate for TLS-ALPN-01 challenges
https://datatracker.ietf.org/doc/html/rfc8737
**Kind**: global function
**Returns**: <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code> - [privateKey, certificate]
| Param | Type | Description |
| --- | --- | --- |
| authz | <code>object</code> | Identifier authorization |
| keyAuthorization | <code>string</code> | Challenge key authorization |
| [keyPem] | <code>buffer</code> \| <code>string</code> | PEM encoded CSR private key |
**Example**
Create a ALPN certificate
```js
const [alpnKey, alpnCertificate] = await acme.crypto.createAlpnCertificate(authz, keyAuthorization);
```
**Example**
Create a ALPN certificate with ECDSA private key
```js
const alpnKey = await acme.crypto.createPrivateEcdsaKey();
const [, alpnCertificate] = await acme.crypto.createAlpnCertificate(authz, keyAuthorization, alpnKey);
```
<a name="isAlpnCertificateAuthorizationValid"></a>
## isAlpnCertificateAuthorizationValid(certPem, keyAuthorization) ⇒ <code>boolean</code>
Validate that a ALPN certificate contains the expected key authorization
**Kind**: global function
**Returns**: <code>boolean</code> - True when valid
| Param | Type | Description |
| --- | --- | --- |
| certPem | <code>buffer</code> \| <code>string</code> | PEM encoded certificate |
| keyAuthorization | <code>string</code> | Expected challenge key authorization |

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## Objects
<dl>
<dt><a href="#forge">forge</a> : <code>object</code></dt>
<dd><p>Legacy node-forge crypto interface</p>
<p>DEPRECATION WARNING: This crypto interface is deprecated and will be removed from acme-client in a future
major release. Please migrate to the new <code>acme.crypto</code> interface at your earliest convenience.</p>
</dd>
</dl>
## Functions
<dl>
<dt><a href="#createPrivateKey">createPrivateKey([size])</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Generate a private RSA key</p>
</dd>
<dt><a href="#createPublicKey">createPublicKey(key)</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Create public key from a private RSA key</p>
</dd>
<dt><a href="#getPemBody">getPemBody(str)</a> ⇒ <code>string</code></dt>
<dd><p>Parse body of PEM encoded object from buffer or string
If multiple objects are chained, the first body will be returned</p>
</dd>
<dt><a href="#splitPemChain">splitPemChain(str)</a> ⇒ <code>Array.&lt;string&gt;</code></dt>
<dd><p>Split chain of PEM encoded objects from buffer or string into array</p>
</dd>
<dt><a href="#getModulus">getModulus(input)</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Get modulus</p>
</dd>
<dt><a href="#getPublicExponent">getPublicExponent(input)</a> ⇒ <code>Promise.&lt;buffer&gt;</code></dt>
<dd><p>Get public exponent</p>
</dd>
<dt><a href="#readCsrDomains">readCsrDomains(csr)</a> ⇒ <code>Promise.&lt;object&gt;</code></dt>
<dd><p>Read domains from a Certificate Signing Request</p>
</dd>
<dt><a href="#readCertificateInfo">readCertificateInfo(cert)</a> ⇒ <code>Promise.&lt;object&gt;</code></dt>
<dd><p>Read information from a certificate</p>
</dd>
<dt><a href="#createCsr">createCsr(data, [key])</a> ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code></dt>
<dd><p>Create a Certificate Signing Request</p>
</dd>
</dl>
<a name="forge"></a>
## forge : <code>object</code>
Legacy node-forge crypto interface
DEPRECATION WARNING: This crypto interface is deprecated and will be removed from acme-client in a future
major release. Please migrate to the new `acme.crypto` interface at your earliest convenience.
**Kind**: global namespace
<a name="createPrivateKey"></a>
## createPrivateKey([size]) ⇒ <code>Promise.&lt;buffer&gt;</code>
Generate a private RSA key
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - PEM encoded private RSA key
| Param | Type | Default | Description |
| --- | --- | --- | --- |
| [size] | <code>number</code> | <code>2048</code> | Size of the key, default: `2048` |
**Example**
Generate private RSA key
```js
const privateKey = await acme.forge.createPrivateKey();
```
**Example**
Private RSA key with defined size
```js
const privateKey = await acme.forge.createPrivateKey(4096);
```
<a name="createPublicKey"></a>
## createPublicKey(key) ⇒ <code>Promise.&lt;buffer&gt;</code>
Create public key from a private RSA key
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - PEM encoded public RSA key
| Param | Type | Description |
| --- | --- | --- |
| key | <code>buffer</code> \| <code>string</code> | PEM encoded private RSA key |
**Example**
Create public key
```js
const publicKey = await acme.forge.createPublicKey(privateKey);
```
<a name="getPemBody"></a>
## getPemBody(str) ⇒ <code>string</code>
Parse body of PEM encoded object from buffer or string
If multiple objects are chained, the first body will be returned
**Kind**: global function
**Returns**: <code>string</code> - PEM body
| Param | Type | Description |
| --- | --- | --- |
| str | <code>buffer</code> \| <code>string</code> | PEM encoded buffer or string |
<a name="splitPemChain"></a>
## splitPemChain(str) ⇒ <code>Array.&lt;string&gt;</code>
Split chain of PEM encoded objects from buffer or string into array
**Kind**: global function
**Returns**: <code>Array.&lt;string&gt;</code> - Array of PEM bodies
| Param | Type | Description |
| --- | --- | --- |
| str | <code>buffer</code> \| <code>string</code> | PEM encoded buffer or string |
<a name="getModulus"></a>
## getModulus(input) ⇒ <code>Promise.&lt;buffer&gt;</code>
Get modulus
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - Modulus
| Param | Type | Description |
| --- | --- | --- |
| input | <code>buffer</code> \| <code>string</code> | PEM encoded private key, certificate or CSR |
**Example**
Get modulus
```js
const m1 = await acme.forge.getModulus(privateKey);
const m2 = await acme.forge.getModulus(certificate);
const m3 = await acme.forge.getModulus(certificateRequest);
```
<a name="getPublicExponent"></a>
## getPublicExponent(input) ⇒ <code>Promise.&lt;buffer&gt;</code>
Get public exponent
**Kind**: global function
**Returns**: <code>Promise.&lt;buffer&gt;</code> - Exponent
| Param | Type | Description |
| --- | --- | --- |
| input | <code>buffer</code> \| <code>string</code> | PEM encoded private key, certificate or CSR |
**Example**
Get public exponent
```js
const e1 = await acme.forge.getPublicExponent(privateKey);
const e2 = await acme.forge.getPublicExponent(certificate);
const e3 = await acme.forge.getPublicExponent(certificateRequest);
```
<a name="readCsrDomains"></a>
## readCsrDomains(csr) ⇒ <code>Promise.&lt;object&gt;</code>
Read domains from a Certificate Signing Request
**Kind**: global function
**Returns**: <code>Promise.&lt;object&gt;</code> - {commonName, altNames}
| Param | Type | Description |
| --- | --- | --- |
| csr | <code>buffer</code> \| <code>string</code> | PEM encoded Certificate Signing Request |
**Example**
Read Certificate Signing Request domains
```js
const { commonName, altNames } = await acme.forge.readCsrDomains(certificateRequest);
console.log(`Common name: ${commonName}`);
console.log(`Alt names: ${altNames.join(', ')}`);
```
<a name="readCertificateInfo"></a>
## readCertificateInfo(cert) ⇒ <code>Promise.&lt;object&gt;</code>
Read information from a certificate
**Kind**: global function
**Returns**: <code>Promise.&lt;object&gt;</code> - Certificate info
| Param | Type | Description |
| --- | --- | --- |
| cert | <code>buffer</code> \| <code>string</code> | PEM encoded certificate |
**Example**
Read certificate information
```js
const info = await acme.forge.readCertificateInfo(certificate);
const { commonName, altNames } = info.domains;
console.log(`Not after: ${info.notAfter}`);
console.log(`Not before: ${info.notBefore}`);
console.log(`Common name: ${commonName}`);
console.log(`Alt names: ${altNames.join(', ')}`);
```
<a name="createCsr"></a>
## createCsr(data, [key]) ⇒ <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code>
Create a Certificate Signing Request
**Kind**: global function
**Returns**: <code>Promise.&lt;Array.&lt;buffer&gt;&gt;</code> - [privateKey, certificateSigningRequest]
| Param | Type | Description |
| --- | --- | --- |
| data | <code>object</code> | |
| [data.keySize] | <code>number</code> | Size of newly created private key, default: `2048` |
| [data.commonName] | <code>string</code> | |
| [data.altNames] | <code>Array.&lt;string&gt;</code> | default: `[]` |
| [data.country] | <code>string</code> | |
| [data.state] | <code>string</code> | |
| [data.locality] | <code>string</code> | |
| [data.organization] | <code>string</code> | |
| [data.organizationUnit] | <code>string</code> | |
| [data.emailAddress] | <code>string</code> | |
| [key] | <code>buffer</code> \| <code>string</code> | CSR private key |
**Example**
Create a Certificate Signing Request
```js
const [certificateKey, certificateRequest] = await acme.forge.createCsr({
altNames: ['test.example.com'],
});
```
**Example**
Certificate Signing Request with both common and alternative names
> *Warning*: Certificate subject common name has been [deprecated](https://letsencrypt.org/docs/glossary/#def-CN) and its use is [discouraged](https://cabforum.org/uploads/BRv1.2.3.pdf).
```js
const [certificateKey, certificateRequest] = await acme.forge.createCsr({
keySize: 4096,
commonName: 'test.example.com',
altNames: ['foo.example.com', 'bar.example.com'],
});
```
**Example**
Certificate Signing Request with additional information
```js
const [certificateKey, certificateRequest] = await acme.forge.createCsr({
altNames: ['test.example.com'],
country: 'US',
state: 'California',
locality: 'Los Angeles',
organization: 'The Company Inc.',
organizationUnit: 'IT Department',
emailAddress: 'contact@example.com',
});
```
**Example**
Certificate Signing Request with predefined private key
```js
const certificateKey = await acme.forge.createPrivateKey();
const [, certificateRequest] = await acme.forge.createCsr({
altNames: ['test.example.com'],
}, certificateKey);

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# Upgrading to v5 of `acme-client`
This document outlines the breaking changes introduced in v5 of `acme-client`, why they were introduced and what you should look out for when upgrading your application.
First off this release drops support for Node LTS v10, v12 and v14, and the reason for that is a new native crypto interface - more on that below. Since Node v14 is still currently in maintenance mode, `acme-client` v4 will continue to receive security updates and bugfixes until (at least) Node v14 reaches its end-of-line.
## New native crypto interface
A new crypto interface has been introduced with v5, which you can find under `acme.crypto`. It uses native Node.js cryptography APIs to generate private keys, JSON Web Keys and signatures, and finally enables support for ECC/ECDSA (P-256, P384 and P521), both for account private keys and certificates. The [@peculiar/x509](https://www.npmjs.com/package/@peculiar/x509) module is used to handle generation and parsing of Certificate Signing Requests.
Full documentation of `acme.crypto` can be [found here](crypto.md).
Since the release of `acme-client` v1.0.0 the crypto interface API has remained mostly unaltered. Back then an OpenSSL CLI wrapper was used to generate keys, and very much has changed since. This has naturally resulted in a buildup of technical debt and slight API inconsistencies over time. The introduction of a new interface was a good opportunity to finally clean up these APIs.
Below you will find a table summarizing the current `acme.forge` methods, and their new `acme.crypto` replacements. A summary of the changes for each method, including examples on how to migrate, can be found following the table.
*Note: The now deprecated `acme.forge` interface is still available for use in v5, and will not be removed until a future major version, most likely v6. Should you not wish to change to the new interface right away, the following breaking changes will not immediately affect you.*
* :green_circle: = API functionality unchanged between `acme.forge` and `acme.crypto`
* :orange_circle: = Slight API changes, like depromising or renaming, action may be required
* :red_circle: = Breaking API changes or removal, action required if using these methods
| Deprecated `.forge` API | New `.crypto` API | State |
| ----------------------------- | ----------------------------- | --------------------- |
| `await createPrivateKey()` | `await createPrivateKey()` | :green_circle: |
| `await createPublicKey()` | `getPublicKey()` | :orange_circle: (1) |
| `getPemBody()` | `getPemBodyAsB64u()` | :red_circle: (2) |
| `splitPemChain()` | `splitPemChain()` | :green_circle: |
| `await getModulus()` | `getJwk()` | :red_circle: (3) |
| `await getPublicExponent()` | `getJwk()` | :red_circle: (3) |
| `await readCsrDomains()` | `readCsrDomains()` | :orange_circle: (4) |
| `await readCertificateInfo()` | `readCertificateInfo()` | :orange_circle: (4) |
| `await createCsr()` | `await createCsr()` | :green_circle: |
### 1. `createPublicKey` renamed and depromised
* The method `createPublicKey()` has been renamed to `getPublicKey()`
* No longer returns a promise, but the resulting public key directly
* This is non-breaking if called with `await`, since `await` does not require its operand to be a promise
* :orange_circle: **This is a breaking change if used with `.then()` or `.catch()`**
```js
// Before
const publicKey = await acme.forge.createPublicKey(privateKey);
// After
const publicKey = acme.crypto.getPublicKey(privateKey);
```
### 2. `getPemBody` renamed, now returns Base64URL
* Method `getPemBody()` has been renamed to `getPemBodyAsB64u()`
* Instead of a Base64-encoded PEM body, now returns a Base64URL-encoded PEM body
* :red_circle: **This is a breaking change**
```js
// Before
const body = acme.forge.getPemBody(pem);
// After
const body = acme.crypto.getPemBodyAsB64u(pem);
```
### 3. `getModulus` and `getPublicExponent` merged into `getJwk`
* Methods `getModulus()` and `getPublicExponent()` have been removed
* Replaced by new method `getJwk()`
* :red_circle: **This is a breaking change**
```js
// Before
const mod = await acme.forge.getModulus(key);
const exp = await acme.forge.getPublicExponent(key);
// After
const { e, n } = acme.crypto.getJwk(key);
```
### 4. `readCsrDomains` and `readCertificateInfo` depromised
* Methods `readCsrDomains()` and `readCertificateInfo()` no longer return promises, but their resulting payloads directly
* This is non-breaking if called with `await`, since `await` does not require its operand to be a promise
* :orange_circle: **This is a breaking change if used with `.then()` or `.catch()`**
```js
// Before
const domains = await acme.forge.readCsrDomains(csr);
const info = await acme.forge.readCertificateInfo(certificate);
// After
const domains = acme.crypto.readCsrDomains(csr);
const info = acme.crypto.readCertificateInfo(certificate);
```

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# Disclaimer
These examples should not be used as is for any production environment, as they are just proof of concepts meant for testing and to get you started. The examples are naively written and purposefully avoids important topics since they will be specific to your application and how you choose to use `acme-client`, like for example:
1. **Concurrency control**
* If implementing on-demand certificate generation
* What happens when multiple requests hit your domain at the same time?
* Ensure your application does not place multiple cert orders for the same domain at the same time by implementing some sort of exclusive lock
2. **Domain allow lists**
* If implementing on-demand certificate generation
* What happens when someone manipulates the `ServerName` or `Host` header to your service?
* Ensure your application is unable to place certificate orders for domains you do not intend, as this can quickly rate limit your account and cause a DoS
3. **Clustering**
* If using `acme-client` across a cluster of servers
* Ensure challenge responses are known to all servers in your cluster, perhaps using a database or shared storage
4. **Certificate and key storage**
* Where and how should the account key be stored and read?
* Where and how should certificates and cert keys be stored and read?
* How and when should they be renewed?

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/**
* Example of acme.Client API
*/
const acme = require('./../');
function log(m) {
process.stdout.write(`${m}\n`);
}
/**
* Function used to satisfy an ACME challenge
*
* @param {object} authz Authorization object
* @param {object} challenge Selected challenge
* @param {string} keyAuthorization Authorization key
* @returns {Promise}
*/
async function challengeCreateFn(authz, challenge, keyAuthorization) {
/* Do something here */
log(JSON.stringify(authz));
log(JSON.stringify(challenge));
log(keyAuthorization);
}
/**
* Function used to remove an ACME challenge response
*
* @param {object} authz Authorization object
* @param {object} challenge Selected challenge
* @returns {Promise}
*/
async function challengeRemoveFn(authz, challenge, keyAuthorization) {
/* Do something here */
log(JSON.stringify(authz));
log(JSON.stringify(challenge));
log(keyAuthorization);
}
/**
* Main
*/
module.exports = async () => {
/* Init client */
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: await acme.crypto.createPrivateKey(),
});
/* Register account */
await client.createAccount({
termsOfServiceAgreed: true,
contact: ['mailto:test@example.com'],
});
/* Place new order */
const order = await client.createOrder({
identifiers: [
{ type: 'dns', value: 'example.com' },
{ type: 'dns', value: '*.example.com' },
],
});
/**
* authorizations / client.getAuthorizations(order);
* An array with one item per DNS name in the certificate order.
* All items require at least one satisfied challenge before order can be completed.
*/
const authorizations = await client.getAuthorizations(order);
const promises = authorizations.map(async (authz) => {
let challengeCompleted = false;
try {
/**
* challenges / authz.challenges
* An array of all available challenge types for a single DNS name.
* One of these challenges needs to be satisfied.
*/
const { challenges } = authz;
/* Just select any challenge */
const challenge = challenges.pop();
const keyAuthorization = await client.getChallengeKeyAuthorization(challenge);
try {
/* Satisfy challenge */
await challengeCreateFn(authz, challenge, keyAuthorization);
/* Verify that challenge is satisfied */
await client.verifyChallenge(authz, challenge);
/* Notify ACME provider that challenge is satisfied */
await client.completeChallenge(challenge);
challengeCompleted = true;
/* Wait for ACME provider to respond with valid status */
await client.waitForValidStatus(challenge);
}
finally {
/* Clean up challenge response */
try {
await challengeRemoveFn(authz, challenge, keyAuthorization);
}
catch (e) {
/**
* Catch errors thrown by challengeRemoveFn() so the order can
* be finalized, even though something went wrong during cleanup
*/
}
}
}
catch (e) {
/* Deactivate pending authz when unable to complete challenge */
if (!challengeCompleted) {
try {
await client.deactivateAuthorization(authz);
}
catch (f) {
/* Catch and suppress deactivateAuthorization() errors */
}
}
throw e;
}
});
/* Wait for challenges to complete */
await Promise.all(promises);
/* Finalize order */
const [key, csr] = await acme.crypto.createCsr({
altNames: ['example.com', '*.example.com'],
});
const finalized = await client.finalizeOrder(order, csr);
const cert = await client.getCertificate(finalized);
/* Done */
log(`CSR:\n${csr.toString()}`);
log(`Private key:\n${key.toString()}`);
log(`Certificate:\n${cert.toString()}`);
};

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/**
* Example of acme.Client.auto()
*/
// const fs = require('fs').promises;
const acme = require('./../');
function log(m) {
process.stdout.write(`${m}\n`);
}
/**
* Function used to satisfy an ACME challenge
*
* @param {object} authz Authorization object
* @param {object} challenge Selected challenge
* @param {string} keyAuthorization Authorization key
* @returns {Promise}
*/
async function challengeCreateFn(authz, challenge, keyAuthorization) {
log('Triggered challengeCreateFn()');
/* http-01 */
if (challenge.type === 'http-01') {
const filePath = `/var/www/html/.well-known/acme-challenge/${challenge.token}`;
const fileContents = keyAuthorization;
log(`Creating challenge response for ${authz.identifier.value} at path: ${filePath}`);
/* Replace this */
log(`Would write "${fileContents}" to path "${filePath}"`);
// await fs.writeFile(filePath, fileContents);
}
/* dns-01 */
else if (challenge.type === 'dns-01') {
const dnsRecord = `_acme-challenge.${authz.identifier.value}`;
const recordValue = keyAuthorization;
log(`Creating TXT record for ${authz.identifier.value}: ${dnsRecord}`);
/* Replace this */
log(`Would create TXT record "${dnsRecord}" with value "${recordValue}"`);
// await dnsProvider.createRecord(dnsRecord, 'TXT', recordValue);
}
}
/**
* Function used to remove an ACME challenge response
*
* @param {object} authz Authorization object
* @param {object} challenge Selected challenge
* @param {string} keyAuthorization Authorization key
* @returns {Promise}
*/
async function challengeRemoveFn(authz, challenge, keyAuthorization) {
log('Triggered challengeRemoveFn()');
/* http-01 */
if (challenge.type === 'http-01') {
const filePath = `/var/www/html/.well-known/acme-challenge/${challenge.token}`;
log(`Removing challenge response for ${authz.identifier.value} at path: ${filePath}`);
/* Replace this */
log(`Would remove file on path "${filePath}"`);
// await fs.unlink(filePath);
}
/* dns-01 */
else if (challenge.type === 'dns-01') {
const dnsRecord = `_acme-challenge.${authz.identifier.value}`;
const recordValue = keyAuthorization;
log(`Removing TXT record for ${authz.identifier.value}: ${dnsRecord}`);
/* Replace this */
log(`Would remove TXT record "${dnsRecord}" with value "${recordValue}"`);
// await dnsProvider.removeRecord(dnsRecord, 'TXT', recordValue);
}
}
/**
* Main
*/
module.exports = async () => {
/* Init client */
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: await acme.crypto.createPrivateKey(),
});
/* Create CSR */
const [key, csr] = await acme.crypto.createCsr({
altNames: ['example.com'],
});
/* Certificate */
const cert = await client.auto({
csr,
email: 'test@example.com',
termsOfServiceAgreed: true,
challengeCreateFn,
challengeRemoveFn,
});
/* Done */
log(`CSR:\n${csr.toString()}`);
log(`Private key:\n${key.toString()}`);
log(`Certificate:\n${cert.toString()}`);
};

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# dns-01
The greatest benefit of `dns-01` is that it is the only challenge type that can be used to issue ACME wildcard certificates, however it also has a few downsides. Your DNS provider needs to offer some sort of API you can use to automate adding and removing the required `TXT` DNS records. Additionally, solving DNS challenges will be much slower than the other challenge types because of DNS propagation delays.
## How it works
When solving `dns-01` challenges, you prove ownership of a domain by serving a specific payload within a specific DNS `TXT` record from the domains authoritative nameservers. The ACME authority provides the client with a token that, along with a thumbprint of your account key, is used to generate a `base64url` encoded `SHA256` digest. This payload is then placed as a `TXT` record under DNS name `_acme-challenge.$YOUR_DOMAIN`.
Once the order is finalized, the ACME authority will lookup your domains DNS record to verify that the payload is correct. `CNAME` and `NS` records are followed, should you wish to delegate challenge response to another DNS zone or record.
## Pros and cons
* Only challenge type that can be used to issue wildcard certificates
* Your DNS provider needs to supply an API that can be used
* DNS propagation time may be slow
* Useful in instances where both port 80 and 443 are unavailable
## External links
* [https://letsencrypt.org/docs/challenge-types/#dns-01-challenge](https://letsencrypt.org/docs/challenge-types/#dns-01-challenge)
* [https://datatracker.ietf.org/doc/html/rfc8555#section-8.4](https://datatracker.ietf.org/doc/html/rfc8555#section-8.4)

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/**
* Example using dns-01 challenge to generate certificates
*
* NOTE: This example is incomplete as the DNS challenge response implementation
* will be specific to your DNS providers API.
*
* NOTE: This example does not order certificates on-demand, as solving dns-01
* will likely be too slow for it to make sense. Instead, it orders a wildcard
* certificate on init before starting the HTTPS server as a demonstration.
*/
const https = require('https');
const acme = require('./../../');
const HTTPS_SERVER_PORT = 443;
const WILDCARD_DOMAIN = 'example.com';
function log(m) {
process.stdout.write(`${(new Date()).toISOString()} ${m}\n`);
}
/**
* Main
*/
(async () => {
try {
/**
* Initialize ACME client
*/
log('Initializing ACME client');
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: await acme.crypto.createPrivateKey(),
});
/**
* Order wildcard certificate
*/
log(`Creating CSR for ${WILDCARD_DOMAIN}`);
const [key, csr] = await acme.crypto.createCsr({
altNames: [WILDCARD_DOMAIN, `*.${WILDCARD_DOMAIN}`],
});
log(`Ordering certificate for ${WILDCARD_DOMAIN}`);
const cert = await client.auto({
csr,
email: 'test@example.com',
termsOfServiceAgreed: true,
challengePriority: ['dns-01'],
challengeCreateFn: (authz, challenge, keyAuthorization) => {
/* TODO: Implement this */
log(`[TODO] Add TXT record key=_acme-challenge.${authz.identifier.value} value=${keyAuthorization}`);
},
challengeRemoveFn: (authz, challenge, keyAuthorization) => {
/* TODO: Implement this */
log(`[TODO] Remove TXT record key=_acme-challenge.${authz.identifier.value} value=${keyAuthorization}`);
},
});
log(`Certificate for ${WILDCARD_DOMAIN} created successfully`);
/**
* HTTPS server
*/
const requestListener = (req, res) => {
log(`HTTP 200 ${req.headers.host}${req.url}`);
res.writeHead(200);
res.end('Hello world\n');
};
const httpsServer = https.createServer({
key,
cert,
}, requestListener);
httpsServer.listen(HTTPS_SERVER_PORT, () => {
log(`HTTPS server listening on port ${HTTPS_SERVER_PORT}`);
});
}
catch (e) {
log(`[FATAL] ${e.message}`);
process.exit(1);
}
})();

19
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-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

28
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@@ -0,0 +1,28 @@
-----BEGIN PRIVATE KEY-----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-----END PRIVATE KEY-----

21
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# http-01
The `http-01` challenge type is the simplest to implement and should likely be your default choice, unless you either require wildcard certificates or if port 80 is unavailable for use.
## How it works
When solving `http-01` challenges, you prove ownership of a domain name by serving a specific payload from a specific URL. The ACME authority provides the client with a token that is used to generate the URL and file contents. The file must exist at `http://$YOUR_DOMAIN/.well-known/acme-challenge/$TOKEN` and contain the token and a thumbprint of your account key.
Once the order is finalized, the ACME authority will verify that the URL responds with the correct payload by sending HTTP requests before the challenge is valid. HTTP redirects are followed, and Let's Encrypt allows redirecting to HTTPS although this diverges from the ACME spec.
## Pros and cons
* Challenge must be satisfied using port 80 (HTTP)
* The simplest challenge type to implement
* Can not be used to issue wildcard certificates
* If using multiple web servers, all of them need to respond with the correct token
## External links
* [https://letsencrypt.org/docs/challenge-types/#http-01-challenge](https://letsencrypt.org/docs/challenge-types/#http-01-challenge)
* [https://datatracker.ietf.org/doc/html/rfc8555#section-8.3](https://datatracker.ietf.org/doc/html/rfc8555#section-8.3)

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/**
* Example using http-01 challenge to generate certificates on-demand
*/
const fs = require('fs');
const path = require('path');
const http = require('http');
const https = require('https');
const tls = require('tls');
const acme = require('./../../');
const HTTP_SERVER_PORT = 80;
const HTTPS_SERVER_PORT = 443;
const VALID_DOMAINS = ['example.com', 'example.org'];
const FALLBACK_KEY = fs.readFileSync(path.join(__dirname, '..', 'fallback.key'));
const FALLBACK_CERT = fs.readFileSync(path.join(__dirname, '..', 'fallback.crt'));
const pendingDomains = {};
const challengeResponses = {};
const certificateStore = {};
function log(m) {
process.stdout.write(`${(new Date()).toISOString()} ${m}\n`);
}
/**
* On-demand certificate generation using http-01
*/
async function getCertOnDemand(client, servername, attempt = 0) {
/* Invalid domain */
if (!VALID_DOMAINS.includes(servername)) {
throw new Error(`Invalid domain: ${servername}`);
}
/* Certificate exists */
if (servername in certificateStore) {
return certificateStore[servername];
}
/* Waiting on certificate order to go through */
if (servername in pendingDomains) {
if (attempt >= 10) {
throw new Error(`Gave up waiting on certificate for ${servername}`);
}
await new Promise((resolve) => { setTimeout(resolve, 1000); });
return getCertOnDemand(client, servername, (attempt + 1));
}
/* Create CSR */
log(`Creating CSR for ${servername}`);
const [key, csr] = await acme.crypto.createCsr({
altNames: [servername],
});
/* Order certificate */
log(`Ordering certificate for ${servername}`);
const cert = await client.auto({
csr,
email: 'test@example.com',
termsOfServiceAgreed: true,
challengePriority: ['http-01'],
challengeCreateFn: (authz, challenge, keyAuthorization) => {
challengeResponses[challenge.token] = keyAuthorization;
},
challengeRemoveFn: (authz, challenge) => {
delete challengeResponses[challenge.token];
},
});
/* Done, store certificate */
log(`Certificate for ${servername} created successfully`);
certificateStore[servername] = [key, cert];
delete pendingDomains[servername];
return certificateStore[servername];
}
/**
* Main
*/
(async () => {
try {
/**
* Initialize ACME client
*/
log('Initializing ACME client');
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: await acme.crypto.createPrivateKey(),
});
/**
* HTTP server
*/
const httpServer = http.createServer((req, res) => {
if (req.url.match(/\/\.well-known\/acme-challenge\/.+/)) {
const token = req.url.split('/').pop();
log(`Received challenge request for token=${token}`);
/* ACME challenge response */
if (token in challengeResponses) {
log(`Serving challenge response HTTP 200 token=${token}`);
res.writeHead(200);
res.end(challengeResponses[token]);
return;
}
/* Challenge response not found */
log(`Oops, challenge response not found for token=${token}`);
res.writeHead(404);
res.end();
return;
}
/* HTTP 302 redirect */
log(`HTTP 302 ${req.headers.host}${req.url}`);
res.writeHead(302, { Location: `https://${req.headers.host}${req.url}` });
res.end();
});
httpServer.listen(HTTP_SERVER_PORT, () => {
log(`HTTP server listening on port ${HTTP_SERVER_PORT}`);
});
/**
* HTTPS server
*/
const requestListener = (req, res) => {
log(`HTTP 200 ${req.headers.host}${req.url}`);
res.writeHead(200);
res.end('Hello world\n');
};
const httpsServer = https.createServer({
/* Fallback certificate */
key: FALLBACK_KEY,
cert: FALLBACK_CERT,
/* Serve certificate based on servername */
SNICallback: async (servername, cb) => {
try {
log(`Handling SNI request for ${servername}`);
const [key, cert] = await getCertOnDemand(client, servername);
log(`Found certificate for ${servername}, serving secure context`);
cb(null, tls.createSecureContext({ key, cert }));
}
catch (e) {
log(`[ERROR] ${e.message}`);
cb(e.message);
}
},
}, requestListener);
httpsServer.listen(HTTPS_SERVER_PORT, () => {
log(`HTTPS server listening on port ${HTTPS_SERVER_PORT}`);
});
}
catch (e) {
log(`[FATAL] ${e.message}`);
process.exit(1);
}
})();

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# tls-alpn-01
Responding to `tls-alpn-01` challenges using Node.js is a bit more involved than the other two challenge types, and requires a proxy (f.ex. [Nginx](https://nginx.org) or [HAProxy](https://www.haproxy.org)) in front of the Node.js service. The reason for this is that `tls-alpn-01` is solved by responding to the ACME challenge using self-signed certificates with an ALPN extension containing the challenge response.
Since we don't want users of our application to be served with these self-signed certificates, we need to split the HTTPS traffic into two different Node.js backends - one that only serves ALPN certificates for challenge responses, and the other for actual end-user traffic that serves certificates retrieved from the ACME provider. As far as I *(library author)* know, routing HTTPS traffic based on ALPN protocol can not be done purely using Node.js.
The end result should look something like this:
```text
Nginx or HAProxy (0.0.0.0:443)
*inspect requests SSL ALPN protocol*
If ALPN == acme-tls/1
-> Node.js ALPN responder (127.0.0.1:4444)
Else
-> Node.js HTTPS server (127.0.0.1:4443)
```
Example proxy configuration:
* [haproxy.cfg](haproxy.cfg) *(requires HAProxy >= v1.9.1)*
* [nginx.conf](nginx.conf) *(requires [ngx_stream_ssl_preread_module](https://nginx.org/en/docs/stream/ngx_stream_ssl_preread_module.html))*
Big thanks to [acme.sh](https://github.com/acmesh-official/acme.sh) and [dehydrated](https://github.com/dehydrated-io/dehydrated) for doing the legwork and providing Nginx and HAProxy config examples.
## How it works
When solving `tls-alpn-01` challenges, you prove ownership of a domain name by serving a specially crafted certificate over HTTPS. The ACME authority provides the client with a token that is placed into the certificates `id-pe-acmeIdentifier` extension along with a thumbprint of your account key.
Once the order is finalized, the ACME authority will verify by sending HTTPS requests to your domain with the `acme-tls/1` ALPN protocol, indicating to the server that it should serve the challenge response certificate. If the `id-pe-acmeIdentifier` extension contains the correct payload, the challenge is valid.
## Pros and cons
* Challenge must be satisfied using port 443 (HTTPS)
* Useful in instances where port 80 is unavailable
* Can not be used to issue wildcard certificates
* More complex than `http-01`, can not be solved purely using Node.js
* If using multiple web servers, all of them need to respond with the correct certificate
## External links
* [https://letsencrypt.org/docs/challenge-types/#tls-alpn-01](https://letsencrypt.org/docs/challenge-types/#tls-alpn-01)
* [https://github.com/dehydrated-io/dehydrated/blob/master/docs/tls-alpn.md](https://github.com/dehydrated-io/dehydrated/blob/master/docs/tls-alpn.md)
* [https://github.com/acmesh-official/acme.sh/wiki/TLS-ALPN-without-downtime](https://github.com/acmesh-official/acme.sh/wiki/TLS-ALPN-without-downtime)
* [https://datatracker.ietf.org/doc/html/rfc8737](https://datatracker.ietf.org/doc/html/rfc8737)

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##
# HTTPS listener
# - Send to ALPN responder port 4444 if protocol is acme-tls/1
# - Default to HTTPS backend port 4443
##
frontend https
mode tcp
bind :443
tcp-request inspect-delay 5s
tcp-request content accept if { req_ssl_hello_type 1 }
use_backend alpnresp if { req.ssl_alpn acme-tls/1 }
default_backend https
# Default HTTPS backend
backend https
mode tcp
server https 127.0.0.1:4443
# ACME tls-alpn-01 responder backend
backend alpnresp
mode tcp
server acmesh 127.0.0.1:4444

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##
# HTTPS server
# - Send to ALPN responder port 4444 if protocol is acme-tls/1
# - Default to HTTPS backend port 4443
##
stream {
map $ssl_preread_alpn_protocols $tls_port {
~\bacme-tls/1\b 4444;
default 4443;
}
server {
listen 443;
listen [::]:443;
proxy_pass 127.0.0.1:$tls_port;
ssl_preread on;
}
}

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/**
* Example using tls-alpn-01 challenge to generate certificates on-demand
*/
const fs = require('fs');
const path = require('path');
const https = require('https');
const tls = require('tls');
const acme = require('./../../');
const HTTPS_SERVER_PORT = 4443;
const ALPN_RESPONDER_PORT = 4444;
const VALID_DOMAINS = ['example.com', 'example.org'];
const FALLBACK_KEY = fs.readFileSync(path.join(__dirname, '..', 'fallback.key'));
const FALLBACK_CERT = fs.readFileSync(path.join(__dirname, '..', 'fallback.crt'));
const pendingDomains = {};
const alpnResponses = {};
const certificateStore = {};
function log(m) {
process.stdout.write(`${(new Date()).toISOString()} ${m}\n`);
}
/**
* On-demand certificate generation using tls-alpn-01
*/
async function getCertOnDemand(client, servername, attempt = 0) {
/* Invalid domain */
if (!VALID_DOMAINS.includes(servername)) {
throw new Error(`Invalid domain: ${servername}`);
}
/* Certificate exists */
if (servername in certificateStore) {
return certificateStore[servername];
}
/* Waiting on certificate order to go through */
if (servername in pendingDomains) {
if (attempt >= 10) {
throw new Error(`Gave up waiting on certificate for ${servername}`);
}
await new Promise((resolve) => { setTimeout(resolve, 1000); });
return getCertOnDemand(client, servername, (attempt + 1));
}
/* Create CSR */
log(`Creating CSR for ${servername}`);
const [key, csr] = await acme.crypto.createCsr({
altNames: [servername],
});
/* Order certificate */
log(`Ordering certificate for ${servername}`);
const cert = await client.auto({
csr,
email: 'test@example.com',
termsOfServiceAgreed: true,
challengePriority: ['tls-alpn-01'],
challengeCreateFn: async (authz, challenge, keyAuthorization) => {
alpnResponses[authz.identifier.value] = await acme.crypto.createAlpnCertificate(authz, keyAuthorization);
},
challengeRemoveFn: (authz) => {
delete alpnResponses[authz.identifier.value];
},
});
/* Done, store certificate */
log(`Certificate for ${servername} created successfully`);
certificateStore[servername] = [key, cert];
delete pendingDomains[servername];
return certificateStore[servername];
}
/**
* Main
*/
(async () => {
try {
/**
* Initialize ACME client
*/
log('Initializing ACME client');
const client = new acme.Client({
directoryUrl: acme.directory.letsencrypt.staging,
accountKey: await acme.crypto.createPrivateKey(),
});
/**
* ALPN responder
*/
const alpnResponder = https.createServer({
/* Fallback cert */
key: FALLBACK_KEY,
cert: FALLBACK_CERT,
/* Allow acme-tls/1 ALPN protocol */
ALPNProtocols: ['acme-tls/1'],
/* Serve ALPN certificate based on servername */
SNICallback: async (servername, cb) => {
try {
log(`Handling ALPN SNI request for ${servername}`);
if (!Object.keys(alpnResponses).includes(servername)) {
throw new Error(`No ALPN certificate found for ${servername}`);
}
/* Serve ALPN challenge response */
log(`Found ALPN certificate for ${servername}, serving secure context`);
cb(null, tls.createSecureContext({
key: alpnResponses[servername][0],
cert: alpnResponses[servername][1],
}));
}
catch (e) {
log(`[ERROR] ${e.message}`);
cb(e.message);
}
},
});
/* Terminate once TLS handshake has been established */
alpnResponder.on('secureConnection', (socket) => {
socket.end();
});
alpnResponder.listen(ALPN_RESPONDER_PORT, () => {
log(`ALPN responder listening on port ${ALPN_RESPONDER_PORT}`);
});
/**
* HTTPS server
*/
const requestListener = (req, res) => {
log(`HTTP 200 ${req.headers.host}${req.url}`);
res.writeHead(200);
res.end('Hello world\n');
};
const httpsServer = https.createServer({
/* Fallback cert */
key: FALLBACK_KEY,
cert: FALLBACK_CERT,
/* Serve certificate based on servername */
SNICallback: async (servername, cb) => {
try {
log(`Handling SNI request for ${servername}`);
const [key, cert] = await getCertOnDemand(client, servername);
log(`Found certificate for ${servername}, serving secure context`);
cb(null, tls.createSecureContext({ key, cert }));
}
catch (e) {
log(`[ERROR] ${e.message}`);
cb(e.message);
}
},
}, requestListener);
httpsServer.listen(HTTPS_SERVER_PORT, () => {
log(`HTTPS server listening on port ${HTTPS_SERVER_PORT}`);
});
}
catch (e) {
log(`[FATAL] ${e.message}`);
process.exit(1);
}
})();

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{
"name": "acme-client",
"description": "Simple and unopinionated ACME client",
"author": "nmorsman",
"version": "5.4.0",
"main": "src/index.js",
"types": "types/index.d.ts",
"license": "MIT",
"homepage": "https://github.com/publishlab/node-acme-client",
"engines": {
"node": ">= 16"
},
"files": [
"src",
"types"
],
"dependencies": {
"@peculiar/x509": "^1.11.0",
"asn1js": "^3.0.5",
"axios": "^1.7.2",
"debug": "^4.3.5",
"node-forge": "^1.3.1"
},
"devDependencies": {
"@types/node": "^20.14.10",
"chai": "^4.4.1",
"chai-as-promised": "^7.1.2",
"eslint": "^8.57.0",
"eslint-config-airbnb-base": "^15.0.0",
"eslint-plugin-import": "^2.29.1",
"jsdoc-to-markdown": "^8.0.1",
"mocha": "^10.6.0",
"nock": "^13.5.4",
"tsd": "^0.31.1"
},
"scripts": {
"build-docs": "jsdoc2md src/client.js > docs/client.md && jsdoc2md src/crypto/index.js > docs/crypto.md && jsdoc2md src/crypto/forge.js > docs/forge.md",
"lint": "eslint .",
"lint-types": "tsd",
"prepublishOnly": "npm run build-docs",
"test": "mocha -t 60000 \"test/setup.js\" \"test/**/*.spec.js\""
},
"repository": {
"type": "git",
"url": "https://github.com/publishlab/node-acme-client"
},
"keywords": [
"acme",
"client",
"lets",
"encrypt",
"acmev2",
"boulder"
],
"bugs": {
"url": "https://github.com/publishlab/node-acme-client/issues"
}
}

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/**
* ACME API client
*/
const util = require('./util');
/**
* AcmeApi
*
* @class
* @param {HttpClient} httpClient
*/
class AcmeApi {
constructor(httpClient, accountUrl = null) {
this.http = httpClient;
this.accountUrl = accountUrl;
}
/**
* Get account URL
*
* @private
* @returns {string} Account URL
*/
getAccountUrl() {
if (!this.accountUrl) {
throw new Error('No account URL found, register account first');
}
return this.accountUrl;
}
/**
* ACME API request
*
* @private
* @param {string} url Request URL
* @param {object} [payload] Request payload, default: `null`
* @param {number[]} [validStatusCodes] Array of valid HTTP response status codes, default: `[]`
* @param {object} [opts]
* @param {boolean} [opts.includeJwsKid] Include KID instead of JWK in JWS header, default: `true`
* @param {boolean} [opts.includeExternalAccountBinding] Include EAB in request, default: `false`
* @returns {Promise<object>} HTTP response
*/
async apiRequest(url, payload = null, validStatusCodes = [], { includeJwsKid = true, includeExternalAccountBinding = false } = {}) {
const kid = includeJwsKid ? this.getAccountUrl() : null;
const resp = await this.http.signedRequest(url, payload, { kid, includeExternalAccountBinding });
if (validStatusCodes.length && (validStatusCodes.indexOf(resp.status) === -1)) {
throw new Error(util.formatResponseError(resp));
}
return resp;
}
/**
* ACME API request by resource name helper
*
* @private
* @param {string} resource Request resource name
* @param {object} [payload] Request payload, default: `null`
* @param {number[]} [validStatusCodes] Array of valid HTTP response status codes, default: `[]`
* @param {object} [opts]
* @param {boolean} [opts.includeJwsKid] Include KID instead of JWK in JWS header, default: `true`
* @param {boolean} [opts.includeExternalAccountBinding] Include EAB in request, default: `false`
* @returns {Promise<object>} HTTP response
*/
async apiResourceRequest(resource, payload = null, validStatusCodes = [], { includeJwsKid = true, includeExternalAccountBinding = false } = {}) {
const resourceUrl = await this.http.getResourceUrl(resource);
return this.apiRequest(resourceUrl, payload, validStatusCodes, { includeJwsKid, includeExternalAccountBinding });
}
/**
* Get Terms of Service URL if available
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.1
*
* @returns {Promise<string|null>} ToS URL
*/
async getTermsOfServiceUrl() {
return this.http.getMetaField('termsOfService');
}
/**
* Create new account
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3
*
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
async createAccount(data) {
const resp = await this.apiResourceRequest('newAccount', data, [200, 201], {
includeJwsKid: false,
includeExternalAccountBinding: (data.onlyReturnExisting !== true),
});
/* Set account URL */
if (resp.headers.location) {
this.accountUrl = resp.headers.location;
}
return resp;
}
/**
* Update account
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.2
*
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
updateAccount(data) {
return this.apiRequest(this.getAccountUrl(), data, [200, 202]);
}
/**
* Update account key
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.5
*
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
updateAccountKey(data) {
return this.apiResourceRequest('keyChange', data, [200]);
}
/**
* Create new order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
createOrder(data) {
return this.apiResourceRequest('newOrder', data, [201]);
}
/**
* Get order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {string} url Order URL
* @returns {Promise<object>} HTTP response
*/
getOrder(url) {
return this.apiRequest(url, null, [200]);
}
/**
* Finalize order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {string} url Finalization URL
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
finalizeOrder(url, data) {
return this.apiRequest(url, data, [200]);
}
/**
* Get identifier authorization
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5
*
* @param {string} url Authorization URL
* @returns {Promise<object>} HTTP response
*/
getAuthorization(url) {
return this.apiRequest(url, null, [200]);
}
/**
* Update identifier authorization
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.2
*
* @param {string} url Authorization URL
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
updateAuthorization(url, data) {
return this.apiRequest(url, data, [200]);
}
/**
* Complete challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1
*
* @param {string} url Challenge URL
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
completeChallenge(url, data) {
return this.apiRequest(url, data, [200]);
}
/**
* Revoke certificate
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.6
*
* @param {object} data Request payload
* @returns {Promise<object>} HTTP response
*/
revokeCert(data) {
return this.apiResourceRequest('revokeCert', data, [200]);
}
}
/* Export API */
module.exports = AcmeApi;

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/**
* ACME auto helper
*/
const { readCsrDomains } = require('./crypto');
const { log } = require('./logger');
const defaultOpts = {
csr: null,
email: null,
preferredChain: null,
termsOfServiceAgreed: false,
skipChallengeVerification: false,
challengePriority: ['http-01', 'dns-01'],
challengeCreateFn: async () => { throw new Error('Missing challengeCreateFn()'); },
challengeRemoveFn: async () => { throw new Error('Missing challengeRemoveFn()'); },
};
/**
* ACME client auto mode
*
* @param {AcmeClient} client ACME client
* @param {object} userOpts Options
* @returns {Promise<buffer>} Certificate
*/
module.exports = async (client, userOpts) => {
const opts = { ...defaultOpts, ...userOpts };
const accountPayload = { termsOfServiceAgreed: opts.termsOfServiceAgreed };
if (!Buffer.isBuffer(opts.csr)) {
opts.csr = Buffer.from(opts.csr);
}
if (opts.email) {
accountPayload.contact = [`mailto:${opts.email}`];
}
/**
* Register account
*/
log('[auto] Checking account');
try {
client.getAccountUrl();
log('[auto] Account URL already exists, skipping account registration');
}
catch (e) {
log('[auto] Registering account');
await client.createAccount(accountPayload);
}
/**
* Parse domains from CSR
*/
log('[auto] Parsing domains from Certificate Signing Request');
const { commonName, altNames } = readCsrDomains(opts.csr);
const uniqueDomains = Array.from(new Set([commonName].concat(altNames).filter((d) => d)));
log(`[auto] Resolved ${uniqueDomains.length} unique domains from parsing the Certificate Signing Request`);
/**
* Place order
*/
log('[auto] Placing new certificate order with ACME provider');
const orderPayload = { identifiers: uniqueDomains.map((d) => ({ type: 'dns', value: d })) };
const order = await client.createOrder(orderPayload);
const authorizations = await client.getAuthorizations(order);
log(`[auto] Placed certificate order successfully, received ${authorizations.length} identity authorizations`);
/**
* Resolve and satisfy challenges
*/
log('[auto] Resolving and satisfying authorization challenges');
const challengePromises = authorizations.map(async (authz) => {
const d = authz.identifier.value;
let challengeCompleted = false;
/* Skip authz that already has valid status */
if (authz.status === 'valid') {
log(`[auto] [${d}] Authorization already has valid status, no need to complete challenges`);
return;
}
try {
/* Select challenge based on priority */
const challenge = authz.challenges.sort((a, b) => {
const aidx = opts.challengePriority.indexOf(a.type);
const bidx = opts.challengePriority.indexOf(b.type);
if (aidx === -1) return 1;
if (bidx === -1) return -1;
return aidx - bidx;
}).slice(0, 1)[0];
if (!challenge) {
throw new Error(`Unable to select challenge for ${d}, no challenge found`);
}
log(`[auto] [${d}] Found ${authz.challenges.length} challenges, selected type: ${challenge.type}`);
/* Trigger challengeCreateFn() */
log(`[auto] [${d}] Trigger challengeCreateFn()`);
const keyAuthorization = await client.getChallengeKeyAuthorization(challenge);
try {
await opts.challengeCreateFn(authz, challenge, keyAuthorization);
/* Challenge verification */
if (opts.skipChallengeVerification === true) {
log(`[auto] [${d}] Skipping challenge verification since skipChallengeVerification=true`);
}
else {
log(`[auto] [${d}] Running challenge verification`);
await client.verifyChallenge(authz, challenge);
}
/* Complete challenge and wait for valid status */
log(`[auto] [${d}] Completing challenge with ACME provider and waiting for valid status`);
await client.completeChallenge(challenge);
challengeCompleted = true;
await client.waitForValidStatus(challenge);
}
finally {
/* Trigger challengeRemoveFn(), suppress errors */
log(`[auto] [${d}] Trigger challengeRemoveFn()`);
try {
await opts.challengeRemoveFn(authz, challenge, keyAuthorization);
}
catch (e) {
log(`[auto] [${d}] challengeRemoveFn threw error: ${e.message}`);
}
}
}
catch (e) {
/* Deactivate pending authz when unable to complete challenge */
if (!challengeCompleted) {
log(`[auto] [${d}] Unable to complete challenge: ${e.message}`);
try {
log(`[auto] [${d}] Deactivating failed authorization`);
await client.deactivateAuthorization(authz);
}
catch (f) {
/* Suppress deactivateAuthorization() errors */
log(`[auto] [${d}] Authorization deactivation threw error: ${f.message}`);
}
}
throw e;
}
});
/**
* Wait for all challenge promises to settle
*/
try {
log('[auto] Waiting for challenge valid status');
await Promise.all(challengePromises);
}
catch (e) {
await Promise.allSettled(challengePromises);
throw e;
}
/**
* Finalize order and download certificate
*/
log('[auto] Finalizing order and downloading certificate');
const finalized = await client.finalizeOrder(order, opts.csr);
return client.getCertificate(finalized, opts.preferredChain);
};

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/**
* Axios instance
*/
const axios = require('axios');
const { parseRetryAfterHeader } = require('./util');
const { log } = require('./logger');
const pkg = require('./../package.json');
const { AxiosError } = axios;
/**
* Defaults
*/
const instance = axios.create();
/* Default User-Agent */
instance.defaults.headers.common['User-Agent'] = `node-${pkg.name}/${pkg.version}`;
/* Default ACME settings */
instance.defaults.acmeSettings = {
httpChallengePort: 80,
httpsChallengePort: 443,
tlsAlpnChallengePort: 443,
retryMaxAttempts: 5,
retryDefaultDelay: 5,
};
/**
* Explicitly set Node as default HTTP adapter
*
* https://github.com/axios/axios/issues/1180
* https://stackoverflow.com/questions/42677387
*/
instance.defaults.adapter = 'http';
/**
* Retry requests on server errors or when rate limited
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-6.6
*/
function isRetryableError(error) {
return (error.code !== 'ECONNABORTED')
&& (error.code !== 'ERR_NOCK_NO_MATCH')
&& (!error.response
|| (error.response.status === 429)
|| ((error.response.status >= 500) && (error.response.status <= 599)));
}
/* https://github.com/axios/axios/blob/main/lib/core/settle.js */
function validateStatus(response) {
const validator = response.config.retryValidateStatus;
if (!response.status || !validator || validator(response.status)) {
return response;
}
throw new AxiosError(
`Request failed with status code ${response.status}`,
(Math.floor(response.status / 100) === 4) ? AxiosError.ERR_BAD_REQUEST : AxiosError.ERR_BAD_RESPONSE,
response.config,
response.request,
response,
);
}
/* Pass all responses through the error interceptor */
instance.interceptors.request.use((config) => {
if (!('retryValidateStatus' in config)) {
config.retryValidateStatus = config.validateStatus;
}
config.validateStatus = () => false;
return config;
});
/* Handle request retries if applicable */
instance.interceptors.response.use(null, async (error) => {
const { config, response } = error;
if (!config) {
return Promise.reject(error);
}
/* Pick up errors we want to retry */
if (isRetryableError(error)) {
const { retryMaxAttempts, retryDefaultDelay } = instance.defaults.acmeSettings;
config.retryAttempt = ('retryAttempt' in config) ? (config.retryAttempt + 1) : 1;
if (config.retryAttempt <= retryMaxAttempts) {
const code = response ? `HTTP ${response.status}` : error.code;
log(`Caught ${code}, retry attempt ${config.retryAttempt}/${retryMaxAttempts} to URL ${config.url}`);
/* Attempt to parse Retry-After header, fallback to default delay */
let retryAfter = response ? parseRetryAfterHeader(response.headers['retry-after']) : 0;
if (retryAfter > 0) {
log(`Found retry-after response header with value: ${response.headers['retry-after']}, waiting ${retryAfter} seconds`);
}
else {
retryAfter = (retryDefaultDelay * config.retryAttempt);
log(`Unable to locate or parse retry-after response header, waiting ${retryAfter} seconds`);
}
/* Wait and retry the request */
await new Promise((resolve) => { setTimeout(resolve, (retryAfter * 1000)); });
return instance(config);
}
}
/* Validate and return response */
return validateStatus(response);
});
/**
* Export instance
*/
module.exports = instance;

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/**
* ACME client
*
* @namespace Client
*/
const { createHash } = require('crypto');
const { getPemBodyAsB64u } = require('./crypto');
const { log } = require('./logger');
const HttpClient = require('./http');
const AcmeApi = require('./api');
const verify = require('./verify');
const util = require('./util');
const auto = require('./auto');
/**
* ACME states
*
* @private
*/
const validStates = ['ready', 'valid'];
const pendingStates = ['pending', 'processing'];
const invalidStates = ['invalid'];
/**
* Default options
*
* @private
*/
const defaultOpts = {
directoryUrl: undefined,
accountKey: undefined,
accountUrl: null,
externalAccountBinding: {},
backoffAttempts: 10,
backoffMin: 5000,
backoffMax: 30000,
};
/**
* AcmeClient
*
* @class
* @param {object} opts
* @param {string} opts.directoryUrl ACME directory URL
* @param {buffer|string} opts.accountKey PEM encoded account private key
* @param {string} [opts.accountUrl] Account URL, default: `null`
* @param {object} [opts.externalAccountBinding]
* @param {string} [opts.externalAccountBinding.kid] External account binding KID
* @param {string} [opts.externalAccountBinding.hmacKey] External account binding HMAC key
* @param {number} [opts.backoffAttempts] Maximum number of backoff attempts, default: `10`
* @param {number} [opts.backoffMin] Minimum backoff attempt delay in milliseconds, default: `5000`
* @param {number} [opts.backoffMax] Maximum backoff attempt delay in milliseconds, default: `30000`
*
* @example Create ACME client instance
* ```js
* const client = new acme.Client({
* directoryUrl: acme.directory.letsencrypt.staging,
* accountKey: 'Private key goes here',
* });
* ```
*
* @example Create ACME client instance
* ```js
* const client = new acme.Client({
* directoryUrl: acme.directory.letsencrypt.staging,
* accountKey: 'Private key goes here',
* accountUrl: 'Optional account URL goes here',
* backoffAttempts: 10,
* backoffMin: 5000,
* backoffMax: 30000,
* });
* ```
*
* @example Create ACME client with external account binding
* ```js
* const client = new acme.Client({
* directoryUrl: 'https://acme-provider.example.com/directory-url',
* accountKey: 'Private key goes here',
* externalAccountBinding: {
* kid: 'YOUR-EAB-KID',
* hmacKey: 'YOUR-EAB-HMAC-KEY',
* },
* });
* ```
*/
class AcmeClient {
constructor(opts) {
if (!Buffer.isBuffer(opts.accountKey)) {
opts.accountKey = Buffer.from(opts.accountKey);
}
this.opts = { ...defaultOpts, ...opts };
this.backoffOpts = {
attempts: this.opts.backoffAttempts,
min: this.opts.backoffMin,
max: this.opts.backoffMax,
};
this.http = new HttpClient(this.opts.directoryUrl, this.opts.accountKey, this.opts.externalAccountBinding);
this.api = new AcmeApi(this.http, this.opts.accountUrl);
}
/**
* Get Terms of Service URL if available
*
* @returns {Promise<string|null>} ToS URL
*
* @example Get Terms of Service URL
* ```js
* const termsOfService = client.getTermsOfServiceUrl();
*
* if (!termsOfService) {
* // CA did not provide Terms of Service
* }
* ```
*/
getTermsOfServiceUrl() {
return this.api.getTermsOfServiceUrl();
}
/**
* Get current account URL
*
* @returns {string} Account URL
* @throws {Error} No account URL found
*
* @example Get current account URL
* ```js
* try {
* const accountUrl = client.getAccountUrl();
* }
* catch (e) {
* // No account URL exists, need to create account first
* }
* ```
*/
getAccountUrl() {
return this.api.getAccountUrl();
}
/**
* Create a new account
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3
*
* @param {object} [data] Request data
* @returns {Promise<object>} Account
*
* @example Create a new account
* ```js
* const account = await client.createAccount({
* termsOfServiceAgreed: true,
* });
* ```
*
* @example Create a new account with contact info
* ```js
* const account = await client.createAccount({
* termsOfServiceAgreed: true,
* contact: ['mailto:test@example.com'],
* });
* ```
*/
async createAccount(data = {}) {
try {
this.getAccountUrl();
/* Account URL exists */
log('Account URL exists, returning updateAccount()');
return this.updateAccount(data);
}
catch (e) {
const resp = await this.api.createAccount(data);
/* HTTP 200: Account exists */
if (resp.status === 200) {
log('Account already exists (HTTP 200), returning updateAccount()');
return this.updateAccount(data);
}
return resp.data;
}
}
/**
* Update existing account
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.2
*
* @param {object} [data] Request data
* @returns {Promise<object>} Account
*
* @example Update existing account
* ```js
* const account = await client.updateAccount({
* contact: ['mailto:foo@example.com'],
* });
* ```
*/
async updateAccount(data = {}) {
try {
this.api.getAccountUrl();
}
catch (e) {
log('No account URL found, returning createAccount()');
return this.createAccount(data);
}
/* Remove data only applicable to createAccount() */
if ('onlyReturnExisting' in data) {
delete data.onlyReturnExisting;
}
/* POST-as-GET */
if (Object.keys(data).length === 0) {
data = null;
}
const resp = await this.api.updateAccount(data);
return resp.data;
}
/**
* Update account private key
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.5
*
* @param {buffer|string} newAccountKey New PEM encoded private key
* @param {object} [data] Additional request data
* @returns {Promise<object>} Account
*
* @example Update account private key
* ```js
* const newAccountKey = 'New private key goes here';
* const result = await client.updateAccountKey(newAccountKey);
* ```
*/
async updateAccountKey(newAccountKey, data = {}) {
if (!Buffer.isBuffer(newAccountKey)) {
newAccountKey = Buffer.from(newAccountKey);
}
const accountUrl = this.api.getAccountUrl();
/* Create new HTTP and API clients using new key */
const newHttpClient = new HttpClient(this.opts.directoryUrl, newAccountKey, this.opts.externalAccountBinding);
const newApiClient = new AcmeApi(newHttpClient, accountUrl);
/* Get old JWK */
data.account = accountUrl;
data.oldKey = this.http.getJwk();
/* Get signed request body from new client */
const url = await newHttpClient.getResourceUrl('keyChange');
const body = newHttpClient.createSignedBody(url, data);
/* Change key using old client */
const resp = await this.api.updateAccountKey(body);
/* Replace existing HTTP and API client */
this.http = newHttpClient;
this.api = newApiClient;
return resp.data;
}
/**
* Create a new order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {object} data Request data
* @returns {Promise<object>} Order
*
* @example Create a new order
* ```js
* const order = await client.createOrder({
* identifiers: [
* { type: 'dns', value: 'example.com' },
* { type: 'dns', value: 'test.example.com' },
* ],
* });
* ```
*/
async createOrder(data) {
const resp = await this.api.createOrder(data);
if (!resp.headers.location) {
throw new Error('Creating a new order did not return an order link');
}
/* Add URL to response */
resp.data.url = resp.headers.location;
return resp.data;
}
/**
* Refresh order object from CA
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {object} order Order object
* @returns {Promise<object>} Order
*
* @example
* ```js
* const order = { ... }; // Previously created order object
* const result = await client.getOrder(order);
* ```
*/
async getOrder(order) {
if (!order.url) {
throw new Error('Unable to get order, URL not found');
}
const resp = await this.api.getOrder(order.url);
/* Add URL to response */
resp.data.url = order.url;
return resp.data;
}
/**
* Finalize order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*
* @param {object} order Order object
* @param {buffer|string} csr PEM encoded Certificate Signing Request
* @returns {Promise<object>} Order
*
* @example Finalize order
* ```js
* const order = { ... }; // Previously created order object
* const csr = { ... }; // Previously created Certificate Signing Request
* const result = await client.finalizeOrder(order, csr);
* ```
*/
async finalizeOrder(order, csr) {
if (!order.finalize) {
throw new Error('Unable to finalize order, URL not found');
}
if (!Buffer.isBuffer(csr)) {
csr = Buffer.from(csr);
}
const data = { csr: getPemBodyAsB64u(csr) };
const resp = await this.api.finalizeOrder(order.finalize, data);
/* Add URL to response */
resp.data.url = order.url;
return resp.data;
}
/**
* Get identifier authorizations from order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5
*
* @param {object} order Order
* @returns {Promise<object[]>} Authorizations
*
* @example Get identifier authorizations
* ```js
* const order = { ... }; // Previously created order object
* const authorizations = await client.getAuthorizations(order);
*
* authorizations.forEach((authz) => {
* const { challenges } = authz;
* });
* ```
*/
async getAuthorizations(order) {
return Promise.all((order.authorizations || []).map(async (url) => {
const resp = await this.api.getAuthorization(url);
/* Add URL to response */
resp.data.url = url;
return resp.data;
}));
}
/**
* Deactivate identifier authorization
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.2
*
* @param {object} authz Identifier authorization
* @returns {Promise<object>} Authorization
*
* @example Deactivate identifier authorization
* ```js
* const authz = { ... }; // Identifier authorization resolved from previously created order
* const result = await client.deactivateAuthorization(authz);
* ```
*/
async deactivateAuthorization(authz) {
if (!authz.url) {
throw new Error('Unable to deactivate identifier authorization, URL not found');
}
const data = { status: 'deactivated' };
const resp = await this.api.updateAuthorization(authz.url, data);
/* Add URL to response */
resp.data.url = authz.url;
return resp.data;
}
/**
* Get key authorization for ACME challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-8.1
*
* @param {object} challenge Challenge object returned by API
* @returns {Promise<string>} Key authorization
*
* @example Get challenge key authorization
* ```js
* const challenge = { ... }; // Challenge from previously resolved identifier authorization
* const key = await client.getChallengeKeyAuthorization(challenge);
*
* // Write key somewhere to satisfy challenge
* ```
*/
async getChallengeKeyAuthorization(challenge) {
const jwk = this.http.getJwk();
const keysum = createHash('sha256').update(JSON.stringify(jwk));
const thumbprint = keysum.digest('base64url');
const result = `${challenge.token}.${thumbprint}`;
/* https://datatracker.ietf.org/doc/html/rfc8555#section-8.3 */
if (challenge.type === 'http-01') {
return result;
}
/* https://datatracker.ietf.org/doc/html/rfc8555#section-8.4 */
if (challenge.type === 'dns-01') {
return createHash('sha256').update(result).digest('base64url');
}
/* https://datatracker.ietf.org/doc/html/rfc8737 */
if (challenge.type === 'tls-alpn-01') {
return result;
}
throw new Error(`Unable to produce key authorization, unknown challenge type: ${challenge.type}`);
}
/**
* Verify that ACME challenge is satisfied
*
* @param {object} authz Identifier authorization
* @param {object} challenge Authorization challenge
* @returns {Promise}
*
* @example Verify satisfied ACME challenge
* ```js
* const authz = { ... }; // Identifier authorization
* const challenge = { ... }; // Satisfied challenge
* await client.verifyChallenge(authz, challenge);
* ```
*/
async verifyChallenge(authz, challenge) {
if (!authz.url || !challenge.url) {
throw new Error('Unable to verify ACME challenge, URL not found');
}
if (typeof verify[challenge.type] === 'undefined') {
throw new Error(`Unable to verify ACME challenge, unknown type: ${challenge.type}`);
}
const keyAuthorization = await this.getChallengeKeyAuthorization(challenge);
const verifyFn = async () => {
await verify[challenge.type](authz, challenge, keyAuthorization);
};
log('Waiting for ACME challenge verification', this.backoffOpts);
return util.retry(verifyFn, this.backoffOpts);
}
/**
* Notify CA that challenge has been completed
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1
*
* @param {object} challenge Challenge object returned by API
* @returns {Promise<object>} Challenge
*
* @example Notify CA that challenge has been completed
* ```js
* const challenge = { ... }; // Satisfied challenge
* const result = await client.completeChallenge(challenge);
* ```
*/
async completeChallenge(challenge) {
const resp = await this.api.completeChallenge(challenge.url, {});
return resp.data;
}
/**
* Wait for ACME provider to verify status on a order, authorization or challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.5.1
*
* @param {object} item An order, authorization or challenge object
* @returns {Promise<object>} Valid order, authorization or challenge
*
* @example Wait for valid challenge status
* ```js
* const challenge = { ... };
* await client.waitForValidStatus(challenge);
* ```
*
* @example Wait for valid authorization status
* ```js
* const authz = { ... };
* await client.waitForValidStatus(authz);
* ```
*
* @example Wait for valid order status
* ```js
* const order = { ... };
* await client.waitForValidStatus(order);
* ```
*/
async waitForValidStatus(item) {
if (!item.url) {
throw new Error('Unable to verify status of item, URL not found');
}
const verifyFn = async (abort) => {
const resp = await this.api.apiRequest(item.url, null, [200]);
/* Verify status */
log(`Item has status: ${resp.data.status}`);
if (invalidStates.includes(resp.data.status)) {
abort();
throw new Error(util.formatResponseError(resp));
}
else if (pendingStates.includes(resp.data.status)) {
throw new Error('Operation is pending or processing');
}
else if (validStates.includes(resp.data.status)) {
return resp.data;
}
throw new Error(`Unexpected item status: ${resp.data.status}`);
};
log(`Waiting for valid status from: ${item.url}`, this.backoffOpts);
return util.retry(verifyFn, this.backoffOpts);
}
/**
* Get certificate from ACME order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4.2
*
* @param {object} order Order object
* @param {string} [preferredChain] Indicate which certificate chain is preferred if a CA offers multiple, by exact issuer common name, default: `null`
* @returns {Promise<string>} Certificate
*
* @example Get certificate
* ```js
* const order = { ... }; // Previously created order
* const certificate = await client.getCertificate(order);
* ```
*
* @example Get certificate with preferred chain
* ```js
* const order = { ... }; // Previously created order
* const certificate = await client.getCertificate(order, 'DST Root CA X3');
* ```
*/
async getCertificate(order, preferredChain = null) {
if (!validStates.includes(order.status)) {
order = await this.waitForValidStatus(order);
}
if (!order.certificate) {
throw new Error('Unable to download certificate, URL not found');
}
const resp = await this.api.apiRequest(order.certificate, null, [200]);
/* Handle alternate certificate chains */
if (preferredChain && resp.headers.link) {
const alternateLinks = util.parseLinkHeader(resp.headers.link);
const alternates = await Promise.all(alternateLinks.map(async (link) => this.api.apiRequest(link, null, [200])));
const certificates = [resp].concat(alternates).map((c) => c.data);
return util.findCertificateChainForIssuer(certificates, preferredChain);
}
/* Return default certificate chain */
return resp.data;
}
/**
* Revoke certificate
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.6
*
* @param {buffer|string} cert PEM encoded certificate
* @param {object} [data] Additional request data
* @returns {Promise}
*
* @example Revoke certificate
* ```js
* const certificate = { ... }; // Previously created certificate
* const result = await client.revokeCertificate(certificate);
* ```
*
* @example Revoke certificate with reason
* ```js
* const certificate = { ... }; // Previously created certificate
* const result = await client.revokeCertificate(certificate, {
* reason: 4,
* });
* ```
*/
async revokeCertificate(cert, data = {}) {
data.certificate = getPemBodyAsB64u(cert);
const resp = await this.api.revokeCert(data);
return resp.data;
}
/**
* Auto mode
*
* @param {object} opts
* @param {buffer|string} opts.csr Certificate Signing Request
* @param {function} opts.challengeCreateFn Function returning Promise triggered before completing ACME challenge
* @param {function} opts.challengeRemoveFn Function returning Promise triggered after completing ACME challenge
* @param {string} [opts.email] Account email address
* @param {boolean} [opts.termsOfServiceAgreed] Agree to Terms of Service, default: `false`
* @param {boolean} [opts.skipChallengeVerification] Skip internal challenge verification before notifying ACME provider, default: `false`
* @param {string[]} [opts.challengePriority] Array defining challenge type priority, default: `['http-01', 'dns-01']`
* @param {string} [opts.preferredChain] Indicate which certificate chain is preferred if a CA offers multiple, by exact issuer common name, default: `null`
* @returns {Promise<string>} Certificate
*
* @example Order a certificate using auto mode
* ```js
* const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
* altNames: ['test.example.com'],
* });
*
* const certificate = await client.auto({
* csr: certificateRequest,
* email: 'test@example.com',
* termsOfServiceAgreed: true,
* challengeCreateFn: async (authz, challenge, keyAuthorization) => {
* // Satisfy challenge here
* },
* challengeRemoveFn: async (authz, challenge, keyAuthorization) => {
* // Clean up challenge here
* },
* });
* ```
*
* @example Order a certificate using auto mode with preferred chain
* ```js
* const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
* altNames: ['test.example.com'],
* });
*
* const certificate = await client.auto({
* csr: certificateRequest,
* email: 'test@example.com',
* termsOfServiceAgreed: true,
* preferredChain: 'DST Root CA X3',
* challengeCreateFn: async () => {},
* challengeRemoveFn: async () => {},
* });
* ```
*/
auto(opts) {
return auto(this, opts);
}
}
/* Export client */
module.exports = AcmeClient;

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/**
* Legacy node-forge crypto interface
*
* DEPRECATION WARNING: This crypto interface is deprecated and will be removed from acme-client in a future
* major release. Please migrate to the new `acme.crypto` interface at your earliest convenience.
*
* @namespace forge
*/
const net = require('net');
const { promisify } = require('util');
const forge = require('node-forge');
const generateKeyPair = promisify(forge.pki.rsa.generateKeyPair);
/**
* Attempt to parse forge object from PEM encoded string
*
* @private
* @param {string} input PEM string
* @return {object}
*/
function forgeObjectFromPem(input) {
const msg = forge.pem.decode(input)[0];
let result;
switch (msg.type) {
case 'PRIVATE KEY':
case 'RSA PRIVATE KEY':
result = forge.pki.privateKeyFromPem(input);
break;
case 'PUBLIC KEY':
case 'RSA PUBLIC KEY':
result = forge.pki.publicKeyFromPem(input);
break;
case 'CERTIFICATE':
case 'X509 CERTIFICATE':
case 'TRUSTED CERTIFICATE':
result = forge.pki.certificateFromPem(input).publicKey;
break;
case 'CERTIFICATE REQUEST':
result = forge.pki.certificationRequestFromPem(input).publicKey;
break;
default:
throw new Error('Unable to detect forge message type');
}
return result;
}
/**
* Parse domain names from a certificate or CSR
*
* @private
* @param {object} obj Forge certificate or CSR
* @returns {object} {commonName, altNames}
*/
function parseDomains(obj) {
let commonName = null;
let altNames = [];
let altNamesDict = [];
const commonNameObject = (obj.subject.attributes || []).find((a) => a.name === 'commonName');
const rootAltNames = (obj.extensions || []).find((e) => 'altNames' in e);
const rootExtensions = (obj.attributes || []).find((a) => 'extensions' in a);
if (rootAltNames && rootAltNames.altNames && rootAltNames.altNames.length) {
altNamesDict = rootAltNames.altNames;
}
else if (rootExtensions && rootExtensions.extensions && rootExtensions.extensions.length) {
const extAltNames = rootExtensions.extensions.find((e) => 'altNames' in e);
if (extAltNames && extAltNames.altNames && extAltNames.altNames.length) {
altNamesDict = extAltNames.altNames;
}
}
if (commonNameObject) {
commonName = commonNameObject.value;
}
if (altNamesDict) {
altNames = altNamesDict.map((a) => a.value);
}
return {
commonName,
altNames,
};
}
/**
* Generate a private RSA key
*
* @param {number} [size] Size of the key, default: `2048`
* @returns {Promise<buffer>} PEM encoded private RSA key
*
* @example Generate private RSA key
* ```js
* const privateKey = await acme.forge.createPrivateKey();
* ```
*
* @example Private RSA key with defined size
* ```js
* const privateKey = await acme.forge.createPrivateKey(4096);
* ```
*/
async function createPrivateKey(size = 2048) {
const keyPair = await generateKeyPair({ bits: size });
const pemKey = forge.pki.privateKeyToPem(keyPair.privateKey);
return Buffer.from(pemKey);
}
exports.createPrivateKey = createPrivateKey;
/**
* Create public key from a private RSA key
*
* @param {buffer|string} key PEM encoded private RSA key
* @returns {Promise<buffer>} PEM encoded public RSA key
*
* @example Create public key
* ```js
* const publicKey = await acme.forge.createPublicKey(privateKey);
* ```
*/
exports.createPublicKey = async (key) => {
const privateKey = forge.pki.privateKeyFromPem(key);
const publicKey = forge.pki.rsa.setPublicKey(privateKey.n, privateKey.e);
const pemKey = forge.pki.publicKeyToPem(publicKey);
return Buffer.from(pemKey);
};
/**
* Parse body of PEM encoded object from buffer or string
* If multiple objects are chained, the first body will be returned
*
* @param {buffer|string} str PEM encoded buffer or string
* @returns {string} PEM body
*/
exports.getPemBody = (str) => {
const msg = forge.pem.decode(str)[0];
return forge.util.encode64(msg.body);
};
/**
* Split chain of PEM encoded objects from buffer or string into array
*
* @param {buffer|string} str PEM encoded buffer or string
* @returns {string[]} Array of PEM bodies
*/
exports.splitPemChain = (str) => forge.pem.decode(str).map(forge.pem.encode);
/**
* Get modulus
*
* @param {buffer|string} input PEM encoded private key, certificate or CSR
* @returns {Promise<buffer>} Modulus
*
* @example Get modulus
* ```js
* const m1 = await acme.forge.getModulus(privateKey);
* const m2 = await acme.forge.getModulus(certificate);
* const m3 = await acme.forge.getModulus(certificateRequest);
* ```
*/
exports.getModulus = async (input) => {
if (!Buffer.isBuffer(input)) {
input = Buffer.from(input);
}
const obj = forgeObjectFromPem(input);
return Buffer.from(forge.util.hexToBytes(obj.n.toString(16)), 'binary');
};
/**
* Get public exponent
*
* @param {buffer|string} input PEM encoded private key, certificate or CSR
* @returns {Promise<buffer>} Exponent
*
* @example Get public exponent
* ```js
* const e1 = await acme.forge.getPublicExponent(privateKey);
* const e2 = await acme.forge.getPublicExponent(certificate);
* const e3 = await acme.forge.getPublicExponent(certificateRequest);
* ```
*/
exports.getPublicExponent = async (input) => {
if (!Buffer.isBuffer(input)) {
input = Buffer.from(input);
}
const obj = forgeObjectFromPem(input);
return Buffer.from(forge.util.hexToBytes(obj.e.toString(16)), 'binary');
};
/**
* Read domains from a Certificate Signing Request
*
* @param {buffer|string} csr PEM encoded Certificate Signing Request
* @returns {Promise<object>} {commonName, altNames}
*
* @example Read Certificate Signing Request domains
* ```js
* const { commonName, altNames } = await acme.forge.readCsrDomains(certificateRequest);
*
* console.log(`Common name: ${commonName}`);
* console.log(`Alt names: ${altNames.join(', ')}`);
* ```
*/
exports.readCsrDomains = async (csr) => {
if (!Buffer.isBuffer(csr)) {
csr = Buffer.from(csr);
}
const obj = forge.pki.certificationRequestFromPem(csr);
return parseDomains(obj);
};
/**
* Read information from a certificate
*
* @param {buffer|string} cert PEM encoded certificate
* @returns {Promise<object>} Certificate info
*
* @example Read certificate information
* ```js
* const info = await acme.forge.readCertificateInfo(certificate);
* const { commonName, altNames } = info.domains;
*
* console.log(`Not after: ${info.notAfter}`);
* console.log(`Not before: ${info.notBefore}`);
*
* console.log(`Common name: ${commonName}`);
* console.log(`Alt names: ${altNames.join(', ')}`);
* ```
*/
exports.readCertificateInfo = async (cert) => {
if (!Buffer.isBuffer(cert)) {
cert = Buffer.from(cert);
}
const obj = forge.pki.certificateFromPem(cert);
const issuerCn = (obj.issuer.attributes || []).find((a) => a.name === 'commonName');
return {
issuer: {
commonName: issuerCn ? issuerCn.value : null,
},
domains: parseDomains(obj),
notAfter: obj.validity.notAfter,
notBefore: obj.validity.notBefore,
};
};
/**
* Determine ASN.1 type for CSR subject short name
* Note: https://datatracker.ietf.org/doc/html/rfc5280
*
* @private
* @param {string} shortName CSR subject short name
* @returns {forge.asn1.Type} ASN.1 type
*/
function getCsrValueTagClass(shortName) {
switch (shortName) {
case 'C':
return forge.asn1.Type.PRINTABLESTRING;
case 'E':
return forge.asn1.Type.IA5STRING;
default:
return forge.asn1.Type.UTF8;
}
}
/**
* Create array of short names and values for Certificate Signing Request subjects
*
* @private
* @param {object} subjectObj Key-value of short names and values
* @returns {object[]} Certificate Signing Request subject array
*/
function createCsrSubject(subjectObj) {
return Object.entries(subjectObj).reduce((result, [shortName, value]) => {
if (value) {
const valueTagClass = getCsrValueTagClass(shortName);
result.push({ shortName, value, valueTagClass });
}
return result;
}, []);
}
/**
* Create array of alt names for Certificate Signing Requests
* Note: https://github.com/digitalbazaar/forge/blob/dfdde475677a8a25c851e33e8f81dca60d90cfb9/lib/x509.js#L1444-L1454
*
* @private
* @param {string[]} altNames Alt names
* @returns {object[]} Certificate Signing Request alt names array
*/
function formatCsrAltNames(altNames) {
return altNames.map((value) => {
const type = net.isIP(value) ? 7 : 2;
return { type, value };
});
}
/**
* Create a Certificate Signing Request
*
* @param {object} data
* @param {number} [data.keySize] Size of newly created private key, default: `2048`
* @param {string} [data.commonName]
* @param {string[]} [data.altNames] default: `[]`
* @param {string} [data.country]
* @param {string} [data.state]
* @param {string} [data.locality]
* @param {string} [data.organization]
* @param {string} [data.organizationUnit]
* @param {string} [data.emailAddress]
* @param {buffer|string} [key] CSR private key
* @returns {Promise<buffer[]>} [privateKey, certificateSigningRequest]
*
* @example Create a Certificate Signing Request
* ```js
* const [certificateKey, certificateRequest] = await acme.forge.createCsr({
* altNames: ['test.example.com'],
* });
* ```
*
* @example Certificate Signing Request with both common and alternative names
* > *Warning*: Certificate subject common name has been [deprecated](https://letsencrypt.org/docs/glossary/#def-CN) and its use is [discouraged](https://cabforum.org/uploads/BRv1.2.3.pdf).
* ```js
* const [certificateKey, certificateRequest] = await acme.forge.createCsr({
* keySize: 4096,
* commonName: 'test.example.com',
* altNames: ['foo.example.com', 'bar.example.com'],
* });
* ```
*
* @example Certificate Signing Request with additional information
* ```js
* const [certificateKey, certificateRequest] = await acme.forge.createCsr({
* altNames: ['test.example.com'],
* country: 'US',
* state: 'California',
* locality: 'Los Angeles',
* organization: 'The Company Inc.',
* organizationUnit: 'IT Department',
* emailAddress: 'contact@example.com',
* });
* ```
*
* @example Certificate Signing Request with predefined private key
* ```js
* const certificateKey = await acme.forge.createPrivateKey();
*
* const [, certificateRequest] = await acme.forge.createCsr({
* altNames: ['test.example.com'],
* }, certificateKey);
*/
exports.createCsr = async (data, key = null) => {
if (!key) {
key = await createPrivateKey(data.keySize);
}
else if (!Buffer.isBuffer(key)) {
key = Buffer.from(key);
}
if (typeof data.altNames === 'undefined') {
data.altNames = [];
}
const csr = forge.pki.createCertificationRequest();
/* Public key */
const privateKey = forge.pki.privateKeyFromPem(key);
const publicKey = forge.pki.rsa.setPublicKey(privateKey.n, privateKey.e);
csr.publicKey = publicKey;
/* Ensure subject common name is present in SAN - https://cabforum.org/wp-content/uploads/BRv1.2.3.pdf */
if (data.commonName && !data.altNames.includes(data.commonName)) {
data.altNames.unshift(data.commonName);
}
/* Subject */
const subject = createCsrSubject({
CN: data.commonName,
C: data.country,
ST: data.state,
L: data.locality,
O: data.organization,
OU: data.organizationUnit,
E: data.emailAddress,
});
csr.setSubject(subject);
/* SAN extension */
if (data.altNames.length) {
csr.setAttributes([{
name: 'extensionRequest',
extensions: [{
name: 'subjectAltName',
altNames: formatCsrAltNames(data.altNames),
}],
}]);
}
/* Sign CSR using SHA-256 */
csr.sign(privateKey, forge.md.sha256.create());
/* Done */
const pemCsr = forge.pki.certificationRequestToPem(csr);
return [key, Buffer.from(pemCsr)];
};

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/**
* Native Node.js crypto interface
*
* @namespace crypto
*/
const net = require('net');
const { promisify } = require('util');
const crypto = require('crypto');
const asn1js = require('asn1js');
const x509 = require('@peculiar/x509');
const randomInt = promisify(crypto.randomInt);
const generateKeyPair = promisify(crypto.generateKeyPair);
/* Use Node.js Web Crypto API */
x509.cryptoProvider.set(crypto.webcrypto);
/* id-ce-subjectAltName - https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.6 */
const subjectAltNameOID = '2.5.29.17';
/* id-pe-acmeIdentifier - https://datatracker.ietf.org/doc/html/rfc8737#section-6.1 */
const alpnAcmeIdentifierOID = '1.3.6.1.5.5.7.1.31';
/**
* Determine key type and info by attempting to derive public key
*
* @private
* @param {buffer|string} keyPem PEM encoded private or public key
* @returns {object}
*/
function getKeyInfo(keyPem) {
const result = {
isRSA: false,
isECDSA: false,
publicKey: crypto.createPublicKey(keyPem),
};
if (result.publicKey.asymmetricKeyType === 'rsa') {
result.isRSA = true;
}
else if (result.publicKey.asymmetricKeyType === 'ec') {
result.isECDSA = true;
}
else {
throw new Error('Unable to parse key information, unknown format');
}
return result;
}
/**
* Generate a private RSA key
*
* @param {number} [modulusLength] Size of the keys modulus in bits, default: `2048`
* @returns {Promise<buffer>} PEM encoded private RSA key
*
* @example Generate private RSA key
* ```js
* const privateKey = await acme.crypto.createPrivateRsaKey();
* ```
*
* @example Private RSA key with modulus size 4096
* ```js
* const privateKey = await acme.crypto.createPrivateRsaKey(4096);
* ```
*/
async function createPrivateRsaKey(modulusLength = 2048) {
const pair = await generateKeyPair('rsa', {
modulusLength,
privateKeyEncoding: {
type: 'pkcs8',
format: 'pem',
},
});
return Buffer.from(pair.privateKey);
}
exports.createPrivateRsaKey = createPrivateRsaKey;
/**
* Alias of `createPrivateRsaKey()`
*
* @function
*/
exports.createPrivateKey = createPrivateRsaKey;
/**
* Generate a private ECDSA key
*
* @param {string} [namedCurve] ECDSA curve name (P-256, P-384 or P-521), default `P-256`
* @returns {Promise<buffer>} PEM encoded private ECDSA key
*
* @example Generate private ECDSA key
* ```js
* const privateKey = await acme.crypto.createPrivateEcdsaKey();
* ```
*
* @example Private ECDSA key using P-384 curve
* ```js
* const privateKey = await acme.crypto.createPrivateEcdsaKey('P-384');
* ```
*/
exports.createPrivateEcdsaKey = async (namedCurve = 'P-256') => {
const pair = await generateKeyPair('ec', {
namedCurve,
privateKeyEncoding: {
type: 'pkcs8',
format: 'pem',
},
});
return Buffer.from(pair.privateKey);
};
/**
* Get a public key derived from a RSA or ECDSA key
*
* @param {buffer|string} keyPem PEM encoded private or public key
* @returns {buffer} PEM encoded public key
*
* @example Get public key
* ```js
* const publicKey = acme.crypto.getPublicKey(privateKey);
* ```
*/
exports.getPublicKey = (keyPem) => {
const info = getKeyInfo(keyPem);
const publicKey = info.publicKey.export({
type: info.isECDSA ? 'spki' : 'pkcs1',
format: 'pem',
});
return Buffer.from(publicKey);
};
/**
* Get a JSON Web Key derived from a RSA or ECDSA key
*
* https://datatracker.ietf.org/doc/html/rfc7517
*
* @param {buffer|string} keyPem PEM encoded private or public key
* @returns {object} JSON Web Key
*
* @example Get JWK
* ```js
* const jwk = acme.crypto.getJwk(privateKey);
* ```
*/
function getJwk(keyPem) {
const jwk = crypto.createPublicKey(keyPem).export({
format: 'jwk',
});
/* Sort keys */
return Object.keys(jwk).sort().reduce((result, k) => {
result[k] = jwk[k];
return result;
}, {});
}
exports.getJwk = getJwk;
/**
* Produce CryptoKeyPair and signing algorithm from a PEM encoded private key
*
* @private
* @param {buffer|string} keyPem PEM encoded private key
* @returns {Promise<array>} [keyPair, signingAlgorithm]
*/
async function getWebCryptoKeyPair(keyPem) {
const info = getKeyInfo(keyPem);
const jwk = getJwk(keyPem);
/* Signing algorithm */
const sigalg = {
name: 'RSASSA-PKCS1-v1_5',
hash: { name: 'SHA-256' },
};
if (info.isECDSA) {
sigalg.name = 'ECDSA';
sigalg.namedCurve = jwk.crv;
if (jwk.crv === 'P-384') {
sigalg.hash.name = 'SHA-384';
}
if (jwk.crv === 'P-521') {
sigalg.hash.name = 'SHA-512';
}
}
/* Decode PEM and import into CryptoKeyPair */
const privateKeyDec = x509.PemConverter.decodeFirst(keyPem.toString());
const privateKey = await crypto.webcrypto.subtle.importKey('pkcs8', privateKeyDec, sigalg, true, ['sign']);
const publicKey = await crypto.webcrypto.subtle.importKey('jwk', jwk, sigalg, true, ['verify']);
return [{ privateKey, publicKey }, sigalg];
}
/**
* Split chain of PEM encoded objects from string into array
*
* @param {buffer|string} chainPem PEM encoded object chain
* @returns {string[]} Array of PEM objects including headers
*/
function splitPemChain(chainPem) {
if (Buffer.isBuffer(chainPem)) {
chainPem = chainPem.toString();
}
/* Decode into array and re-encode */
return x509.PemConverter.decodeWithHeaders(chainPem)
.map((params) => x509.PemConverter.encode([params]));
}
exports.splitPemChain = splitPemChain;
/**
* Parse body of PEM encoded object and return a Base64URL string
* If multiple objects are chained, the first body will be returned
*
* @param {buffer|string} pem PEM encoded chain or object
* @returns {string} Base64URL-encoded body
*/
exports.getPemBodyAsB64u = (pem) => {
const chain = splitPemChain(pem);
if (!chain.length) {
throw new Error('Unable to parse PEM body from string');
}
/* Select first object, extract body and convert to b64u */
const dec = x509.PemConverter.decodeFirst(chain[0]);
return Buffer.from(dec).toString('base64url');
};
/**
* Parse domains from a certificate or CSR
*
* @private
* @param {object} input x509.Certificate or x509.Pkcs10CertificateRequest
* @returns {object} {commonName, altNames}
*/
function parseDomains(input) {
const commonName = input.subjectName.getField('CN').pop() || null;
const altNamesRaw = input.getExtension(subjectAltNameOID);
let altNames = [];
if (altNamesRaw) {
const altNamesExt = new x509.SubjectAlternativeNameExtension(altNamesRaw.rawData);
altNames = altNames.concat(altNamesExt.names.items.map((i) => i.value));
}
return {
commonName,
altNames,
};
}
/**
* Read domains from a Certificate Signing Request
*
* @param {buffer|string} csrPem PEM encoded Certificate Signing Request
* @returns {object} {commonName, altNames}
*
* @example Read Certificate Signing Request domains
* ```js
* const { commonName, altNames } = acme.crypto.readCsrDomains(certificateRequest);
*
* console.log(`Common name: ${commonName}`);
* console.log(`Alt names: ${altNames.join(', ')}`);
* ```
*/
exports.readCsrDomains = (csrPem) => {
if (Buffer.isBuffer(csrPem)) {
csrPem = csrPem.toString();
}
const dec = x509.PemConverter.decodeFirst(csrPem);
const csr = new x509.Pkcs10CertificateRequest(dec);
return parseDomains(csr);
};
/**
* Read information from a certificate
* If multiple certificates are chained, the first will be read
*
* @param {buffer|string} certPem PEM encoded certificate or chain
* @returns {object} Certificate info
*
* @example Read certificate information
* ```js
* const info = acme.crypto.readCertificateInfo(certificate);
* const { commonName, altNames } = info.domains;
*
* console.log(`Not after: ${info.notAfter}`);
* console.log(`Not before: ${info.notBefore}`);
*
* console.log(`Common name: ${commonName}`);
* console.log(`Alt names: ${altNames.join(', ')}`);
* ```
*/
exports.readCertificateInfo = (certPem) => {
if (Buffer.isBuffer(certPem)) {
certPem = certPem.toString();
}
const dec = x509.PemConverter.decodeFirst(certPem);
const cert = new x509.X509Certificate(dec);
return {
issuer: {
commonName: cert.issuerName.getField('CN').pop() || null,
},
domains: parseDomains(cert),
notBefore: cert.notBefore,
notAfter: cert.notAfter,
};
};
/**
* Determine ASN.1 character string type for CSR subject field name
*
* https://datatracker.ietf.org/doc/html/rfc5280
* https://github.com/PeculiarVentures/x509/blob/ecf78224fd594abbc2fa83c41565d79874f88e00/src/name.ts#L65-L71
*
* @private
* @param {string} field CSR subject field name
* @returns {string} ASN.1 character string type
*/
function getCsrAsn1CharStringType(field) {
switch (field) {
case 'C':
return 'printableString';
case 'E':
return 'ia5String';
default:
return 'utf8String';
}
}
/**
* Create array of subject fields for a Certificate Signing Request
*
* https://github.com/PeculiarVentures/x509/blob/ecf78224fd594abbc2fa83c41565d79874f88e00/src/name.ts#L65-L71
*
* @private
* @param {object} input Key-value of subject fields
* @returns {object[]} Certificate Signing Request subject array
*/
function createCsrSubject(input) {
return Object.entries(input).reduce((result, [type, value]) => {
if (value) {
const ds = getCsrAsn1CharStringType(type);
result.push({ [type]: [{ [ds]: value }] });
}
return result;
}, []);
}
/**
* Create x509 subject alternate name extension
*
* https://github.com/PeculiarVentures/x509/blob/ecf78224fd594abbc2fa83c41565d79874f88e00/src/extensions/subject_alt_name.ts
*
* @private
* @param {string[]} altNames Array of alt names
* @returns {x509.SubjectAlternativeNameExtension} Subject alternate name extension
*/
function createSubjectAltNameExtension(altNames) {
return new x509.SubjectAlternativeNameExtension(altNames.map((value) => {
const type = net.isIP(value) ? 'ip' : 'dns';
return { type, value };
}));
}
/**
* Create a Certificate Signing Request
*
* @param {object} data
* @param {number} [data.keySize] Size of newly created RSA private key modulus in bits, default: `2048`
* @param {string} [data.commonName] FQDN of your server
* @param {string[]} [data.altNames] SAN (Subject Alternative Names), default: `[]`
* @param {string} [data.country] 2 letter country code
* @param {string} [data.state] State or province
* @param {string} [data.locality] City
* @param {string} [data.organization] Organization name
* @param {string} [data.organizationUnit] Organizational unit name
* @param {string} [data.emailAddress] Email address
* @param {buffer|string} [keyPem] PEM encoded CSR private key
* @returns {Promise<buffer[]>} [privateKey, certificateSigningRequest]
*
* @example Create a Certificate Signing Request
* ```js
* const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
* altNames: ['test.example.com'],
* });
* ```
*
* @example Certificate Signing Request with both common and alternative names
* > *Warning*: Certificate subject common name has been [deprecated](https://letsencrypt.org/docs/glossary/#def-CN) and its use is [discouraged](https://cabforum.org/uploads/BRv1.2.3.pdf).
* ```js
* const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
* keySize: 4096,
* commonName: 'test.example.com',
* altNames: ['foo.example.com', 'bar.example.com'],
* });
* ```
*
* @example Certificate Signing Request with additional information
* ```js
* const [certificateKey, certificateRequest] = await acme.crypto.createCsr({
* altNames: ['test.example.com'],
* country: 'US',
* state: 'California',
* locality: 'Los Angeles',
* organization: 'The Company Inc.',
* organizationUnit: 'IT Department',
* emailAddress: 'contact@example.com',
* });
* ```
*
* @example Certificate Signing Request with ECDSA private key
* ```js
* const certificateKey = await acme.crypto.createPrivateEcdsaKey();
*
* const [, certificateRequest] = await acme.crypto.createCsr({
* altNames: ['test.example.com'],
* }, certificateKey);
* ```
*/
exports.createCsr = async (data, keyPem = null) => {
if (!keyPem) {
keyPem = await createPrivateRsaKey(data.keySize);
}
else if (!Buffer.isBuffer(keyPem)) {
keyPem = Buffer.from(keyPem);
}
if (typeof data.altNames === 'undefined') {
data.altNames = [];
}
/* Ensure subject common name is present in SAN - https://cabforum.org/wp-content/uploads/BRv1.2.3.pdf */
if (data.commonName && !data.altNames.includes(data.commonName)) {
data.altNames.unshift(data.commonName);
}
/* CryptoKeyPair and signing algorithm from private key */
const [keys, signingAlgorithm] = await getWebCryptoKeyPair(keyPem);
const extensions = [
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.3 */
new x509.KeyUsagesExtension(x509.KeyUsageFlags.digitalSignature | x509.KeyUsageFlags.keyEncipherment), // eslint-disable-line no-bitwise
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.6 */
createSubjectAltNameExtension(data.altNames),
];
/* Create CSR */
const csr = await x509.Pkcs10CertificateRequestGenerator.create({
keys,
extensions,
signingAlgorithm,
name: createCsrSubject({
CN: data.commonName,
C: data.country,
ST: data.state,
L: data.locality,
O: data.organization,
OU: data.organizationUnit,
E: data.emailAddress,
}),
});
/* Done */
const pem = csr.toString('pem');
return [keyPem, Buffer.from(pem)];
};
/**
* Create a self-signed ALPN certificate for TLS-ALPN-01 challenges
*
* https://datatracker.ietf.org/doc/html/rfc8737
*
* @param {object} authz Identifier authorization
* @param {string} keyAuthorization Challenge key authorization
* @param {buffer|string} [keyPem] PEM encoded CSR private key
* @returns {Promise<buffer[]>} [privateKey, certificate]
*
* @example Create a ALPN certificate
* ```js
* const [alpnKey, alpnCertificate] = await acme.crypto.createAlpnCertificate(authz, keyAuthorization);
* ```
*
* @example Create a ALPN certificate with ECDSA private key
* ```js
* const alpnKey = await acme.crypto.createPrivateEcdsaKey();
* const [, alpnCertificate] = await acme.crypto.createAlpnCertificate(authz, keyAuthorization, alpnKey);
* ```
*/
exports.createAlpnCertificate = async (authz, keyAuthorization, keyPem = null) => {
if (!keyPem) {
keyPem = await createPrivateRsaKey();
}
else if (!Buffer.isBuffer(keyPem)) {
keyPem = Buffer.from(keyPem);
}
const now = new Date();
const commonName = authz.identifier.value;
/* Pseudo-random serial - max 20 bytes, 11 for epoch (year 5138), 9 random */
const random = await randomInt(1, 999999999);
const serialNumber = `${Math.floor(now.getTime() / 1000)}${random}`;
/* CryptoKeyPair and signing algorithm from private key */
const [keys, signingAlgorithm] = await getWebCryptoKeyPair(keyPem);
const extensions = [
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.3 */
new x509.KeyUsagesExtension(x509.KeyUsageFlags.keyCertSign | x509.KeyUsageFlags.cRLSign, true), // eslint-disable-line no-bitwise
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.9 */
new x509.BasicConstraintsExtension(true, 2, true),
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.2 */
await x509.SubjectKeyIdentifierExtension.create(keys.publicKey),
/* https://datatracker.ietf.org/doc/html/rfc5280#section-4.2.1.6 */
createSubjectAltNameExtension([commonName]),
];
/* ALPN extension */
const payload = crypto.createHash('sha256').update(keyAuthorization).digest('hex');
const octstr = new asn1js.OctetString({ valueHex: Buffer.from(payload, 'hex') });
extensions.push(new x509.Extension(alpnAcmeIdentifierOID, true, octstr.toBER()));
/* Self-signed ALPN certificate */
const cert = await x509.X509CertificateGenerator.createSelfSigned({
keys,
signingAlgorithm,
extensions,
serialNumber,
notBefore: now,
notAfter: now,
name: createCsrSubject({
CN: commonName,
}),
});
/* Done */
const pem = cert.toString('pem');
return [keyPem, Buffer.from(pem)];
};
/**
* Validate that a ALPN certificate contains the expected key authorization
*
* @param {buffer|string} certPem PEM encoded certificate
* @param {string} keyAuthorization Expected challenge key authorization
* @returns {boolean} True when valid
*/
exports.isAlpnCertificateAuthorizationValid = (certPem, keyAuthorization) => {
const expected = crypto.createHash('sha256').update(keyAuthorization).digest('hex');
/* Attempt to locate ALPN extension */
const cert = new x509.X509Certificate(certPem);
const ext = cert.getExtension(alpnAcmeIdentifierOID);
if (!ext) {
throw new Error('Unable to locate ALPN extension within parsed certificate');
}
/* Decode extension value */
const parsed = asn1js.fromBER(ext.value);
const result = Buffer.from(parsed.result.valueBlock.valueHexView).toString('hex');
/* Return true if match */
return (result === expected);
};

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/**
* ACME HTTP client
*/
const { createHmac, createSign, constants: { RSA_PKCS1_PADDING } } = require('crypto');
const { getJwk } = require('./crypto');
const { log } = require('./logger');
const axios = require('./axios');
/**
* ACME HTTP client
*
* @class
* @param {string} directoryUrl ACME directory URL
* @param {buffer} accountKey PEM encoded account private key
* @param {object} [opts.externalAccountBinding]
* @param {string} [opts.externalAccountBinding.kid] External account binding KID
* @param {string} [opts.externalAccountBinding.hmacKey] External account binding HMAC key
*/
class HttpClient {
constructor(directoryUrl, accountKey, externalAccountBinding = {}) {
this.directoryUrl = directoryUrl;
this.accountKey = accountKey;
this.externalAccountBinding = externalAccountBinding;
this.maxBadNonceRetries = 5;
this.jwk = null;
this.directoryCache = null;
this.directoryMaxAge = 86400;
this.directoryTimestamp = 0;
}
/**
* HTTP request
*
* @param {string} url HTTP URL
* @param {string} method HTTP method
* @param {object} [opts] Request options
* @returns {Promise<object>} HTTP response
*/
async request(url, method, opts = {}) {
opts.url = url;
opts.method = method;
opts.validateStatus = null;
/* Headers */
if (typeof opts.headers === 'undefined') {
opts.headers = {};
}
opts.headers['Content-Type'] = 'application/jose+json';
/* Request */
log(`HTTP request: ${method} ${url}`);
const resp = await axios.request(opts);
log(`RESP ${resp.status} ${method} ${url}`);
return resp;
}
/**
* Get ACME provider directory
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.1
*
* @returns {Promise<object>} ACME directory contents
*/
async getDirectory() {
const now = Math.floor(Date.now() / 1000);
const age = (now - this.directoryTimestamp);
if (!this.directoryCache || (age > this.directoryMaxAge)) {
log(`Refreshing ACME directory, age: ${age}`);
const resp = await this.request(this.directoryUrl, 'get');
if (resp.status >= 400) {
throw new Error(`Attempting to read ACME directory returned error ${resp.status}: ${this.directoryUrl}`);
}
if (!resp.data) {
throw new Error('Attempting to read ACME directory returned no data');
}
this.directoryCache = resp.data;
this.directoryTimestamp = now;
}
return this.directoryCache;
}
/**
* Get JSON Web Key
*
* @returns {object} JSON Web Key
*/
getJwk() {
if (!this.jwk) {
this.jwk = getJwk(this.accountKey);
}
return this.jwk;
}
/**
* Get nonce from directory API endpoint
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.2
*
* @returns {Promise<string>} Nonce
*/
async getNonce() {
const url = await this.getResourceUrl('newNonce');
const resp = await this.request(url, 'head');
if (!resp.headers['replay-nonce']) {
throw new Error('Failed to get nonce from ACME provider');
}
return resp.headers['replay-nonce'];
}
/**
* Get URL for a directory resource
*
* @param {string} resource API resource name
* @returns {Promise<string>} URL
*/
async getResourceUrl(resource) {
const dir = await this.getDirectory();
if (!dir[resource]) {
throw new Error(`Unable to locate API resource URL in ACME directory: "${resource}"`);
}
return dir[resource];
}
/**
* Get directory meta field
*
* @param {string} field Meta field name
* @returns {Promise<string|null>} Meta field value
*/
async getMetaField(field) {
const dir = await this.getDirectory();
if (('meta' in dir) && (field in dir.meta)) {
return dir.meta[field];
}
return null;
}
/**
* Prepare HTTP request body for signature
*
* @param {string} alg JWS algorithm
* @param {string} url Request URL
* @param {object} [payload] Request payload
* @param {object} [opts]
* @param {string} [opts.nonce] JWS anti-replay nonce
* @param {string} [opts.kid] JWS KID
* @returns {object} Signed HTTP request body
*/
prepareSignedBody(alg, url, payload = null, { nonce = null, kid = null } = {}) {
const header = { alg, url };
/* Nonce */
if (nonce) {
log(`Using nonce: ${nonce}`);
header.nonce = nonce;
}
/* KID or JWK */
if (kid) {
header.kid = kid;
}
else {
header.jwk = this.getJwk();
}
/* Body */
return {
payload: payload ? Buffer.from(JSON.stringify(payload)).toString('base64url') : '',
protected: Buffer.from(JSON.stringify(header)).toString('base64url'),
};
}
/**
* Create JWS HTTP request body using HMAC
*
* @param {string} hmacKey HMAC key
* @param {string} url Request URL
* @param {object} [payload] Request payload
* @param {object} [opts]
* @param {string} [opts.nonce] JWS anti-replay nonce
* @param {string} [opts.kid] JWS KID
* @returns {object} Signed HMAC request body
*/
createSignedHmacBody(hmacKey, url, payload = null, { nonce = null, kid = null } = {}) {
const result = this.prepareSignedBody('HS256', url, payload, { nonce, kid });
/* Signature */
const signer = createHmac('SHA256', Buffer.from(hmacKey, 'base64')).update(`${result.protected}.${result.payload}`, 'utf8');
result.signature = signer.digest().toString('base64url');
return result;
}
/**
* Create JWS HTTP request body using RSA or ECC
*
* https://datatracker.ietf.org/doc/html/rfc7515
*
* @param {string} url Request URL
* @param {object} [payload] Request payload
* @param {object} [opts]
* @param {string} [opts.nonce] JWS nonce
* @param {string} [opts.kid] JWS KID
* @returns {object} JWS request body
*/
createSignedBody(url, payload = null, { nonce = null, kid = null } = {}) {
const jwk = this.getJwk();
let headerAlg = 'RS256';
let signerAlg = 'SHA256';
/* https://datatracker.ietf.org/doc/html/rfc7518#section-3.1 */
if (jwk.crv && (jwk.kty === 'EC')) {
headerAlg = 'ES256';
if (jwk.crv === 'P-384') {
headerAlg = 'ES384';
signerAlg = 'SHA384';
}
else if (jwk.crv === 'P-521') {
headerAlg = 'ES512';
signerAlg = 'SHA512';
}
}
/* Prepare body and signer */
const result = this.prepareSignedBody(headerAlg, url, payload, { nonce, kid });
const signer = createSign(signerAlg).update(`${result.protected}.${result.payload}`, 'utf8');
/* Signature - https://stackoverflow.com/questions/39554165 */
result.signature = signer.sign({
key: this.accountKey,
padding: RSA_PKCS1_PADDING,
dsaEncoding: 'ieee-p1363',
}, 'base64url');
return result;
}
/**
* Signed HTTP request
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-6.2
*
* @param {string} url Request URL
* @param {object} payload Request payload
* @param {object} [opts]
* @param {string} [opts.kid] JWS KID
* @param {string} [opts.nonce] JWS anti-replay nonce
* @param {boolean} [opts.includeExternalAccountBinding] Include EAB in request
* @param {number} [attempts] Request attempt counter
* @returns {Promise<object>} HTTP response
*/
async signedRequest(url, payload, { kid = null, nonce = null, includeExternalAccountBinding = false } = {}, attempts = 0) {
if (!nonce) {
nonce = await this.getNonce();
}
/* External account binding */
if (includeExternalAccountBinding && this.externalAccountBinding) {
if (this.externalAccountBinding.kid && this.externalAccountBinding.hmacKey) {
const jwk = this.getJwk();
const eabKid = this.externalAccountBinding.kid;
const eabHmacKey = this.externalAccountBinding.hmacKey;
payload.externalAccountBinding = this.createSignedHmacBody(eabHmacKey, url, jwk, { kid: eabKid });
}
}
/* Sign body and send request */
const data = this.createSignedBody(url, payload, { nonce, kid });
const resp = await this.request(url, 'post', { data });
/* Retry on bad nonce - https://datatracker.ietf.org/doc/html/rfc8555#section-6.5 */
if (resp.data && resp.data.type && (resp.status === 400) && (resp.data.type === 'urn:ietf:params:acme:error:badNonce') && (attempts < this.maxBadNonceRetries)) {
nonce = resp.headers['replay-nonce'] || null;
attempts += 1;
log(`Caught invalid nonce error, retrying (${attempts}/${this.maxBadNonceRetries}) signed request to: ${url}`);
return this.signedRequest(url, payload, { kid, nonce, includeExternalAccountBinding }, attempts);
}
/* Return response */
return resp;
}
}
/* Export client */
module.exports = HttpClient;

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/**
* acme-client
*/
exports.Client = require('./client');
/**
* Directory URLs
*/
exports.directory = {
buypass: {
staging: 'https://api.test4.buypass.no/acme/directory',
production: 'https://api.buypass.com/acme/directory',
},
google: {
staging: 'https://dv.acme-v02.test-api.pki.goog/directory',
production: 'https://dv.acme-v02.api.pki.goog/directory',
},
letsencrypt: {
staging: 'https://acme-staging-v02.api.letsencrypt.org/directory',
production: 'https://acme-v02.api.letsencrypt.org/directory',
},
zerossl: {
production: 'https://acme.zerossl.com/v2/DV90',
},
};
/**
* Crypto
*/
exports.crypto = require('./crypto');
exports.forge = require('./crypto/forge');
/**
* Axios
*/
exports.axios = require('./axios');
/**
* Logger
*/
exports.setLogger = require('./logger').setLogger;

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/**
* ACME logger
*/
const debug = require('debug')('acme-client');
let logger = () => {};
/**
* Set logger function
*
* @param {function} fn Logger function
*/
exports.setLogger = (fn) => {
logger = fn;
};
/**
* Log message
*
* @param {string} msg Message
*/
exports.log = (msg) => {
debug(msg);
logger(msg);
};

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/**
* Utility methods
*/
const tls = require('tls');
const dns = require('dns').promises;
const { readCertificateInfo, splitPemChain } = require('./crypto');
const { log } = require('./logger');
/**
* Exponential backoff
*
* https://github.com/mokesmokes/backo
*
* @class
* @param {object} [opts]
* @param {number} [opts.min] Minimum backoff duration in ms
* @param {number} [opts.max] Maximum backoff duration in ms
*/
class Backoff {
constructor({ min = 100, max = 10000 } = {}) {
this.min = min;
this.max = max;
this.attempts = 0;
}
/**
* Get backoff duration
*
* @returns {number} Backoff duration in ms
*/
duration() {
const ms = this.min * (2 ** this.attempts);
this.attempts += 1;
return Math.min(ms, this.max);
}
}
/**
* Retry promise
*
* @param {function} fn Function returning promise that should be retried
* @param {number} attempts Maximum number of attempts
* @param {Backoff} backoff Backoff instance
* @returns {Promise}
*/
async function retryPromise(fn, attempts, backoff) {
let aborted = false;
try {
const data = await fn(() => { aborted = true; });
return data;
}
catch (e) {
if (aborted || ((backoff.attempts + 1) >= attempts)) {
throw e;
}
const duration = backoff.duration();
log(`Promise rejected attempt #${backoff.attempts}, retrying in ${duration}ms: ${e.message}`);
await new Promise((resolve) => { setTimeout(resolve, duration); });
return retryPromise(fn, attempts, backoff);
}
}
/**
* Retry promise
*
* @param {function} fn Function returning promise that should be retried
* @param {object} [backoffOpts] Backoff options
* @param {number} [backoffOpts.attempts] Maximum number of attempts, default: `5`
* @param {number} [backoffOpts.min] Minimum attempt delay in milliseconds, default: `5000`
* @param {number} [backoffOpts.max] Maximum attempt delay in milliseconds, default: `30000`
* @returns {Promise}
*/
function retry(fn, { attempts = 5, min = 5000, max = 30000 } = {}) {
const backoff = new Backoff({ min, max });
return retryPromise(fn, attempts, backoff);
}
/**
* Parse URLs from Link header
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4.2
* https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Link
*
* @param {string} header Header contents
* @param {string} rel Link relation, default: `alternate`
* @returns {string[]} Array of URLs
*/
function parseLinkHeader(header, rel = 'alternate') {
const relRe = new RegExp(`\\s*rel\\s*=\\s*"?${rel}"?`, 'i');
const results = (header || '').split(/,\s*</).map((link) => {
const [, linkUrl, linkParts] = link.match(/<?([^>]*)>;(.*)/) || [];
return (linkUrl && linkParts && linkParts.match(relRe)) ? linkUrl : null;
});
return results.filter((r) => r);
}
/**
* Parse date or duration from Retry-After header
*
* https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Retry-After
*
* @param {string} header Header contents
* @returns {number} Retry duration in seconds
*/
function parseRetryAfterHeader(header) {
const sec = parseInt(header, 10);
const date = new Date(header);
/* Seconds into the future */
if (Number.isSafeInteger(sec) && (sec > 0)) {
return sec;
}
/* Future date string */
if (date instanceof Date && !Number.isNaN(date)) {
const now = new Date();
const diff = Math.ceil((date.getTime() - now.getTime()) / 1000);
if (diff > 0) {
return diff;
}
}
return 0;
}
/**
* Find certificate chain with preferred issuer common name
* - If issuer is found in multiple chains, the closest to root wins
* - If issuer can not be located, the first chain will be returned
*
* @param {string[]} certificates Array of PEM encoded certificate chains
* @param {string} issuer Preferred certificate issuer
* @returns {string} PEM encoded certificate chain
*/
function findCertificateChainForIssuer(chains, issuer) {
log(`Attempting to find match for issuer="${issuer}" in ${chains.length} certificate chains`);
let bestMatch = null;
let bestDistance = null;
chains.forEach((chain) => {
/* Look up all issuers */
const certs = splitPemChain(chain);
const infoCollection = certs.map((c) => readCertificateInfo(c));
const issuerCollection = infoCollection.map((i) => i.issuer.commonName);
/* Found issuer match, get distance from root - lower is better */
if (issuerCollection.includes(issuer)) {
const distance = (issuerCollection.length - issuerCollection.indexOf(issuer));
log(`Found matching chain for preferred issuer="${issuer}" distance=${distance} issuers=${JSON.stringify(issuerCollection)}`);
/* Chain wins, use it */
if (!bestDistance || (distance < bestDistance)) {
log(`Issuer is closer to root than previous match, using it (${distance} < ${bestDistance || 'undefined'})`);
bestMatch = chain;
bestDistance = distance;
}
}
else {
/* No match */
log(`Unable to match certificate for preferred issuer="${issuer}", issuers=${JSON.stringify(issuerCollection)}`);
}
});
/* Return found match */
if (bestMatch) {
return bestMatch;
}
/* No chains matched, return default */
log(`Found no match in ${chains.length} certificate chains for preferred issuer="${issuer}", returning default certificate chain`);
return chains[0];
}
/**
* Find and format error in response object
*
* @param {object} resp HTTP response
* @returns {string} Error message
*/
function formatResponseError(resp) {
let result;
if (resp.data) {
if (resp.data.error) {
result = resp.data.error.detail || resp.data.error;
}
else {
result = resp.data.detail || JSON.stringify(resp.data);
}
}
return (result || '').replace(/\n/g, '');
}
/**
* Resolve root domain name by looking for SOA record
*
* @param {string} recordName DNS record name
* @returns {Promise<string>} Root domain name
*/
async function resolveDomainBySoaRecord(recordName) {
try {
await dns.resolveSoa(recordName);
log(`Found SOA record, considering domain to be: ${recordName}`);
return recordName;
}
catch (e) {
log(`Unable to locate SOA record for name: ${recordName}`);
const parentRecordName = recordName.split('.').slice(1).join('.');
if (!parentRecordName.includes('.')) {
throw new Error('Unable to resolve domain by SOA record');
}
return resolveDomainBySoaRecord(parentRecordName);
}
}
/**
* Get DNS resolver using domains authoritative NS records
*
* @param {string} recordName DNS record name
* @returns {Promise<dns.Resolver>} DNS resolver
*/
async function getAuthoritativeDnsResolver(recordName) {
log(`Locating authoritative NS records for name: ${recordName}`);
const resolver = new dns.Resolver();
try {
/* Resolve root domain by SOA */
const domain = await resolveDomainBySoaRecord(recordName);
/* Resolve authoritative NS addresses */
log(`Looking up authoritative NS records for domain: ${domain}`);
const nsRecords = await dns.resolveNs(domain);
const nsAddrArray = await Promise.all(nsRecords.map(async (r) => dns.resolve4(r)));
const nsAddresses = [].concat(...nsAddrArray).filter((a) => a);
if (!nsAddresses.length) {
throw new Error(`Unable to locate any valid authoritative NS addresses for domain: ${domain}`);
}
/* Authoritative NS success */
log(`Found ${nsAddresses.length} authoritative NS addresses for domain: ${domain}`);
resolver.setServers(nsAddresses);
}
catch (e) {
log(`Authoritative NS lookup error: ${e.message}`);
}
/* Return resolver */
const addresses = resolver.getServers();
log(`DNS resolver addresses: ${addresses.join(', ')}`);
return resolver;
}
/**
* Attempt to retrieve TLS ALPN certificate from peer
*
* https://nodejs.org/api/tls.html#tlsconnectoptions-callback
*
* @param {string} host Host the TLS client should connect to
* @param {number} port Port the client should connect to
* @param {string} servername Server name for the SNI (Server Name Indication)
* @returns {Promise<string>} PEM encoded certificate
*/
async function retrieveTlsAlpnCertificate(host, port, timeout = 30000) {
return new Promise((resolve, reject) => {
let result;
/* TLS connection */
const socket = tls.connect({
host,
port,
servername: host,
rejectUnauthorized: false,
ALPNProtocols: ['acme-tls/1'],
});
socket.setTimeout(timeout);
socket.setEncoding('utf-8');
/* Grab certificate once connected and close */
socket.on('secureConnect', () => {
result = socket.getPeerX509Certificate();
socket.end();
});
/* Errors */
socket.on('error', (err) => {
reject(err);
});
socket.on('timeout', () => {
socket.destroy(new Error('TLS ALPN certificate lookup request timed out'));
});
/* Done, return cert as PEM if found */
socket.on('end', () => {
if (result) {
return resolve(result.toString());
}
return reject(new Error('TLS ALPN lookup failed to retrieve certificate'));
});
});
}
/**
* Export utils
*/
module.exports = {
retry,
parseLinkHeader,
parseRetryAfterHeader,
findCertificateChainForIssuer,
formatResponseError,
getAuthoritativeDnsResolver,
retrieveTlsAlpnCertificate,
};

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/**
* ACME challenge verification
*/
const dns = require('dns').promises;
const https = require('https');
const { log } = require('./logger');
const axios = require('./axios');
const util = require('./util');
const { isAlpnCertificateAuthorizationValid } = require('./crypto');
/**
* Verify ACME HTTP challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-8.3
*
* @param {object} authz Identifier authorization
* @param {object} challenge Authorization challenge
* @param {string} keyAuthorization Challenge key authorization
* @param {string} [suffix] URL suffix
* @returns {Promise<boolean>}
*/
async function verifyHttpChallenge(authz, challenge, keyAuthorization, suffix = `/.well-known/acme-challenge/${challenge.token}`) {
const httpPort = axios.defaults.acmeSettings.httpChallengePort || 80;
const challengeUrl = `http://${authz.identifier.value}:${httpPort}${suffix}`;
/* May redirect to HTTPS with invalid/self-signed cert - https://letsencrypt.org/docs/challenge-types/#http-01-challenge */
const httpsAgent = new https.Agent({ rejectUnauthorized: false });
log(`Sending HTTP query to ${authz.identifier.value}, suffix: ${suffix}, port: ${httpPort}`);
const resp = await axios.get(challengeUrl, { httpsAgent });
const data = (resp.data || '').replace(/\s+$/, '');
log(`Query successful, HTTP status code: ${resp.status}`);
if (!data || (data !== keyAuthorization)) {
throw new Error(`Authorization not found in HTTP response from ${authz.identifier.value}`);
}
log(`Key authorization match for ${challenge.type}/${authz.identifier.value}, ACME challenge verified`);
return true;
}
/**
* Walk DNS until TXT records are found
*/
async function walkDnsChallengeRecord(recordName, resolver = dns) {
/* Resolve CNAME record first */
try {
log(`Checking name for CNAME records: ${recordName}`);
const cnameRecords = await resolver.resolveCname(recordName);
if (cnameRecords.length) {
log(`CNAME record found at ${recordName}, new challenge record name: ${cnameRecords[0]}`);
return walkDnsChallengeRecord(cnameRecords[0]);
}
}
catch (e) {
log(`No CNAME records found for name: ${recordName}`);
}
/* Resolve TXT records */
try {
log(`Checking name for TXT records: ${recordName}`);
const txtRecords = await resolver.resolveTxt(recordName);
if (txtRecords.length) {
log(`Found ${txtRecords.length} TXT records at ${recordName}`);
return [].concat(...txtRecords);
}
}
catch (e) {
log(`No TXT records found for name: ${recordName}`);
}
/* Found nothing */
throw new Error(`No TXT records found for name: ${recordName}`);
}
/**
* Verify ACME DNS challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-8.4
*
* @param {object} authz Identifier authorization
* @param {object} challenge Authorization challenge
* @param {string} keyAuthorization Challenge key authorization
* @param {string} [prefix] DNS prefix
* @returns {Promise<boolean>}
*/
async function verifyDnsChallenge(authz, challenge, keyAuthorization, prefix = '_acme-challenge.') {
let recordValues = [];
const recordName = `${prefix}${authz.identifier.value}`;
log(`Resolving DNS TXT from record: ${recordName}`);
try {
/* Default DNS resolver first */
log('Attempting to resolve TXT with default DNS resolver first');
recordValues = await walkDnsChallengeRecord(recordName);
}
catch (e) {
/* Authoritative DNS resolver */
log(`Error using default resolver, attempting to resolve TXT with authoritative NS: ${e.message}`);
const authoritativeResolver = await util.getAuthoritativeDnsResolver(recordName);
recordValues = await walkDnsChallengeRecord(recordName, authoritativeResolver);
}
log(`DNS query finished successfully, found ${recordValues.length} TXT records`);
if (!recordValues.length || !recordValues.includes(keyAuthorization)) {
throw new Error(`Authorization not found in DNS TXT record: ${recordName}`);
}
log(`Key authorization match for ${challenge.type}/${recordName}, ACME challenge verified`);
return true;
}
/**
* Verify ACME TLS ALPN challenge
*
* https://datatracker.ietf.org/doc/html/rfc8737
*
* @param {object} authz Identifier authorization
* @param {object} challenge Authorization challenge
* @param {string} keyAuthorization Challenge key authorization
* @returns {Promise<boolean>}
*/
async function verifyTlsAlpnChallenge(authz, challenge, keyAuthorization) {
const tlsAlpnPort = axios.defaults.acmeSettings.tlsAlpnChallengePort || 443;
const host = authz.identifier.value;
log(`Establishing TLS connection with host: ${host}:${tlsAlpnPort}`);
const certificate = await util.retrieveTlsAlpnCertificate(host, tlsAlpnPort);
log('Certificate received from server successfully, matching key authorization in ALPN');
if (!isAlpnCertificateAuthorizationValid(certificate, keyAuthorization)) {
throw new Error(`Authorization not found in certificate from ${authz.identifier.value}`);
}
log(`Key authorization match for ${challenge.type}/${authz.identifier.value}, ACME challenge verified`);
return true;
}
/**
* Export API
*/
module.exports = {
'http-01': verifyHttpChallenge,
'dns-01': verifyDnsChallenge,
'tls-alpn-01': verifyTlsAlpnChallenge,
};

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/**
* Pebble Challenge Test Server tests
*/
const dns = require('dns').promises;
const { randomUUID: uuid } = require('crypto');
const https = require('https');
const { assert } = require('chai');
const cts = require('./challtestsrv');
const axios = require('./../src/axios');
const { retrieveTlsAlpnCertificate } = require('./../src/util');
const { isAlpnCertificateAuthorizationValid } = require('./../src/crypto');
const domainName = process.env.ACME_DOMAIN_NAME || 'example.com';
const httpPort = axios.defaults.acmeSettings.httpChallengePort || 80;
const httpsPort = axios.defaults.acmeSettings.httpsChallengePort || 443;
const tlsAlpnPort = axios.defaults.acmeSettings.tlsAlpnChallengePort || 443;
describe('pebble', () => {
const httpsAgent = new https.Agent({ rejectUnauthorized: false });
const testAHost = `${uuid()}.${domainName}`;
const testARecords = ['1.1.1.1', '2.2.2.2'];
const testCnameHost = `${uuid()}.${domainName}`;
const testCnameRecord = `${uuid()}.${domainName}`;
const testHttp01ChallengeHost = `${uuid()}.${domainName}`;
const testHttp01ChallengeToken = uuid();
const testHttp01ChallengeContent = uuid();
const testHttps01ChallengeHost = `${uuid()}.${domainName}`;
const testHttps01ChallengeToken = uuid();
const testHttps01ChallengeContent = uuid();
const testDns01ChallengeHost = `_acme-challenge.${uuid()}.${domainName}.`;
const testDns01ChallengeValue = uuid();
const testTlsAlpn01ChallengeHost = `${uuid()}.${domainName}`;
const testTlsAlpn01ChallengeValue = uuid();
/**
* Pebble CTS required
*/
before(function () {
if (!cts.isEnabled()) {
this.skip();
}
});
/**
* DNS mocking
*/
describe('dns', () => {
it('should not locate a records', async () => {
const resp = await dns.resolve4(testAHost);
assert.isArray(resp);
assert.notDeepEqual(resp, testARecords);
});
it('should add dns a records', async () => {
const resp = await cts.addDnsARecord(testAHost, testARecords);
assert.isTrue(resp);
});
it('should locate a records', async () => {
const resp = await dns.resolve4(testAHost);
assert.isArray(resp);
assert.deepStrictEqual(resp, testARecords);
});
it('should not locate cname records', async () => {
await assert.isRejected(dns.resolveCname(testCnameHost));
});
it('should set dns cname record', async () => {
const resp = await cts.setDnsCnameRecord(testCnameHost, testCnameRecord);
assert.isTrue(resp);
});
it('should locate cname record', async () => {
const resp = await dns.resolveCname(testCnameHost);
assert.isArray(resp);
assert.deepStrictEqual(resp, [testCnameRecord]);
});
});
/**
* HTTP-01 challenge response
*/
describe('http-01', () => {
it('should not locate challenge response', async () => {
const resp = await axios.get(`http://${testHttp01ChallengeHost}:${httpPort}/.well-known/acme-challenge/${testHttp01ChallengeToken}`);
assert.isString(resp.data);
assert.notEqual(resp.data, testHttp01ChallengeContent);
});
it('should add challenge response', async () => {
const resp = await cts.addHttp01ChallengeResponse(testHttp01ChallengeToken, testHttp01ChallengeContent);
assert.isTrue(resp);
});
it('should locate challenge response', async () => {
const resp = await axios.get(`http://${testHttp01ChallengeHost}:${httpPort}/.well-known/acme-challenge/${testHttp01ChallengeToken}`);
assert.isString(resp.data);
assert.strictEqual(resp.data, testHttp01ChallengeContent);
});
});
/**
* HTTPS-01 challenge response
*/
describe('https-01', () => {
it('should not locate challenge response', async () => {
const r1 = await axios.get(`http://${testHttps01ChallengeHost}:${httpPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, { httpsAgent });
const r2 = await axios.get(`https://${testHttps01ChallengeHost}:${httpsPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, { httpsAgent });
[r1, r2].forEach((resp) => {
assert.isString(resp.data);
assert.notEqual(resp.data, testHttps01ChallengeContent);
});
});
it('should add challenge response', async () => {
const resp = await cts.addHttps01ChallengeResponse(testHttps01ChallengeToken, testHttps01ChallengeContent, testHttps01ChallengeHost);
assert.isTrue(resp);
});
it('should 302 with self-signed cert', async () => {
/* Assert HTTP 302 */
const resp = await axios.get(`http://${testHttps01ChallengeHost}:${httpPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, {
maxRedirects: 0,
validateStatus: null,
});
assert.strictEqual(resp.status, 302);
assert.strictEqual(resp.headers.location, `https://${testHttps01ChallengeHost}:${httpsPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`);
/* Self-signed cert test */
await assert.isRejected(axios.get(`https://${testHttps01ChallengeHost}:${httpsPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`));
await assert.isFulfilled(axios.get(`https://${testHttps01ChallengeHost}:${httpsPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, { httpsAgent }));
});
it('should locate challenge response', async () => {
const r1 = await axios.get(`http://${testHttps01ChallengeHost}:${httpPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, { httpsAgent });
const r2 = await axios.get(`https://${testHttps01ChallengeHost}:${httpsPort}/.well-known/acme-challenge/${testHttps01ChallengeToken}`, { httpsAgent });
[r1, r2].forEach((resp) => {
assert.isString(resp.data);
assert.strictEqual(resp.data, testHttps01ChallengeContent);
});
});
});
/**
* DNS-01 challenge response
*/
describe('dns-01', () => {
it('should not locate challenge response', async () => {
await assert.isRejected(dns.resolveTxt(testDns01ChallengeHost));
});
it('should add challenge response', async () => {
const resp = await cts.addDns01ChallengeResponse(testDns01ChallengeHost, testDns01ChallengeValue);
assert.isTrue(resp);
});
it('should locate challenge response', async () => {
const resp = await dns.resolveTxt(testDns01ChallengeHost);
assert.isArray(resp);
assert.deepStrictEqual(resp, [[testDns01ChallengeValue]]);
});
});
/**
* TLS-ALPN-01 challenge response
*/
describe('tls-alpn-01', () => {
it('should not locate challenge response', async () => {
await assert.isRejected(retrieveTlsAlpnCertificate(testTlsAlpn01ChallengeHost, tlsAlpnPort), /(failed to retrieve)|(ssl3_read_bytes:tlsv1 alert internal error)/);
});
it('should timeout challenge response', async () => {
await assert.isRejected(retrieveTlsAlpnCertificate('example.org', tlsAlpnPort, 500));
});
it('should add challenge response', async () => {
const resp = await cts.addTlsAlpn01ChallengeResponse(testTlsAlpn01ChallengeHost, testTlsAlpn01ChallengeValue);
assert.isTrue(resp);
});
it('should locate challenge response', async () => {
const resp = await retrieveTlsAlpnCertificate(testTlsAlpn01ChallengeHost, tlsAlpnPort);
assert.isTrue(isAlpnCertificateAuthorizationValid(resp, testTlsAlpn01ChallengeValue));
});
});
});

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/**
* HTTP client tests
*/
const { randomUUID: uuid } = require('crypto');
const { assert } = require('chai');
const nock = require('nock');
const axios = require('./../src/axios');
const HttpClient = require('./../src/http');
const pkg = require('./../package.json');
describe('http', () => {
let testClient;
const endpoint = `http://${uuid()}.example.com`;
const defaultUserAgent = `node-${pkg.name}/${pkg.version}`;
const customUserAgent = 'custom-ua-123';
afterEach(() => {
nock.cleanAll();
});
/**
* Initialize
*/
it('should initialize clients', () => {
testClient = new HttpClient();
});
/**
* HTTP verbs
*/
it('should http get', async () => {
nock(endpoint).get('/').reply(200, 'ok');
const resp = await testClient.request(endpoint, 'get');
assert.isObject(resp);
assert.strictEqual(resp.status, 200);
assert.strictEqual(resp.data, 'ok');
});
/**
* User-Agent
*/
it('should request using default user-agent', async () => {
nock(endpoint).matchHeader('user-agent', defaultUserAgent).get('/').reply(200, 'ok');
axios.defaults.headers.common['User-Agent'] = defaultUserAgent;
const resp = await testClient.request(endpoint, 'get');
assert.isObject(resp);
assert.strictEqual(resp.status, 200);
assert.strictEqual(resp.data, 'ok');
});
it('should reject using custom user-agent', async () => {
nock(endpoint).matchHeader('user-agent', defaultUserAgent).get('/').reply(200, 'ok');
axios.defaults.headers.common['User-Agent'] = customUserAgent;
await assert.isRejected(testClient.request(endpoint, 'get'));
});
it('should request using custom user-agent', async () => {
nock(endpoint).matchHeader('user-agent', customUserAgent).get('/').reply(200, 'ok');
axios.defaults.headers.common['User-Agent'] = customUserAgent;
const resp = await testClient.request(endpoint, 'get');
assert.isObject(resp);
assert.strictEqual(resp.status, 200);
assert.strictEqual(resp.data, 'ok');
});
it('should reject using default user-agent', async () => {
nock(endpoint).matchHeader('user-agent', customUserAgent).get('/').reply(200, 'ok');
axios.defaults.headers.common['User-Agent'] = defaultUserAgent;
await assert.isRejected(testClient.request(endpoint, 'get'));
});
/**
* Retry on HTTP errors
*/
it('should retry on 429 rate limit', async () => {
let rateLimitCount = 0;
nock(endpoint).persist().get('/').reply(() => {
rateLimitCount += 1;
if (rateLimitCount < 3) {
return [429, 'Rate Limit Exceeded', { 'Retry-After': 1 }];
}
return [200, 'ok'];
});
assert.strictEqual(rateLimitCount, 0);
const resp = await testClient.request(endpoint, 'get');
assert.isObject(resp);
assert.strictEqual(resp.status, 200);
assert.strictEqual(resp.data, 'ok');
assert.strictEqual(rateLimitCount, 3);
});
it('should retry on 5xx server error', async () => {
let serverErrorCount = 0;
nock(endpoint).persist().get('/').reply(() => {
serverErrorCount += 1;
return [500, 'Internal Server Error', { 'Retry-After': 1 }];
});
assert.strictEqual(serverErrorCount, 0);
const resp = await testClient.request(endpoint, 'get');
assert.isObject(resp);
assert.strictEqual(resp.status, 500);
assert.strictEqual(serverErrorCount, 4);
});
});

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/**
* Logger tests
*/
const { assert } = require('chai');
const logger = require('./../src/logger');
describe('logger', () => {
let lastLogMessage = null;
function customLoggerFn(msg) {
lastLogMessage = msg;
}
/**
* Logger
*/
it('should log without custom logger', () => {
logger.log('something');
assert.isNull(lastLogMessage);
});
it('should log with custom logger', () => {
logger.setLogger(customLoggerFn);
['abc123', 'def456', 'ghi789'].forEach((m) => {
logger.log(m);
assert.strictEqual(lastLogMessage, m);
});
});
});

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/**
* Utility method tests
*/
const dns = require('dns').promises;
const fs = require('fs').promises;
const path = require('path');
const { assert } = require('chai');
const util = require('./../src/util');
const { readCertificateInfo } = require('./../src/crypto');
describe('util', () => {
const testCertPath1 = path.join(__dirname, 'fixtures', 'certificate.crt');
const testCertPath2 = path.join(__dirname, 'fixtures', 'letsencrypt.crt');
it('retry()', async () => {
let attempts = 0;
const backoffOpts = {
min: 100,
max: 500,
};
await assert.isRejected(util.retry(() => {
throw new Error('oops');
}, backoffOpts));
const r = await util.retry(() => {
attempts += 1;
if (attempts < 3) {
throw new Error('oops');
}
return 'abc';
}, backoffOpts);
assert.strictEqual(r, 'abc');
assert.strictEqual(attempts, 3);
});
it('parseLinkHeader()', () => {
const r1 = util.parseLinkHeader('<https://example.com/a>;rel="alternate"');
assert.isArray(r1);
assert.strictEqual(r1.length, 1);
assert.strictEqual(r1[0], 'https://example.com/a');
const r2 = util.parseLinkHeader('<https://example.com/b>;rel="test"');
assert.isArray(r2);
assert.strictEqual(r2.length, 0);
const r3 = util.parseLinkHeader('<http://example.com/c>; rel="test"', 'test');
assert.isArray(r3);
assert.strictEqual(r3.length, 1);
assert.strictEqual(r3[0], 'http://example.com/c');
const r4 = util.parseLinkHeader(`<https://example.com/a>; rel="alternate",
<https://example.com/x>; rel="nope",
<https://example.com/b>;rel="alternate",
<https://example.com/c>; rel="alternate"`);
assert.isArray(r4);
assert.strictEqual(r4.length, 3);
assert.strictEqual(r4[0], 'https://example.com/a');
assert.strictEqual(r4[1], 'https://example.com/b');
assert.strictEqual(r4[2], 'https://example.com/c');
});
it('parseRetryAfterHeader()', () => {
const r1 = util.parseRetryAfterHeader('');
assert.strictEqual(r1, 0);
const r2 = util.parseRetryAfterHeader('abcdef');
assert.strictEqual(r2, 0);
const r3 = util.parseRetryAfterHeader('123');
assert.strictEqual(r3, 123);
const r4 = util.parseRetryAfterHeader('123.456');
assert.strictEqual(r4, 123);
const r5 = util.parseRetryAfterHeader('-555');
assert.strictEqual(r5, 0);
const r6 = util.parseRetryAfterHeader('Wed, 21 Oct 2015 07:28:00 GMT');
assert.strictEqual(r6, 0);
const now = new Date();
const future = new Date(now.getTime() + 123000);
const r7 = util.parseRetryAfterHeader(future.toUTCString());
assert.isTrue(r7 > 100);
});
it('findCertificateChainForIssuer()', async () => {
const certs = [
(await fs.readFile(testCertPath1)).toString(),
(await fs.readFile(testCertPath2)).toString(),
];
const r1 = util.findCertificateChainForIssuer(certs, 'abc123');
const r2 = util.findCertificateChainForIssuer(certs, 'example.com');
const r3 = util.findCertificateChainForIssuer(certs, 'E6');
[r1, r2, r3].forEach((r) => {
assert.isString(r);
assert.isNotEmpty(r);
});
assert.strictEqual(readCertificateInfo(r1).issuer.commonName, 'example.com');
assert.strictEqual(readCertificateInfo(r2).issuer.commonName, 'example.com');
assert.strictEqual(readCertificateInfo(r3).issuer.commonName, 'E6');
});
it('formatResponseError()', () => {
const e1 = util.formatResponseError({ data: { error: 'aaa' } });
assert.strictEqual(e1, 'aaa');
const e2 = util.formatResponseError({ data: { error: { detail: 'bbb' } } });
assert.strictEqual(e2, 'bbb');
const e3 = util.formatResponseError({ data: { detail: 'ccc' } });
assert.strictEqual(e3, 'ccc');
const e4 = util.formatResponseError({ data: { a: 123 } });
assert.strictEqual(e4, '{"a":123}');
const e5 = util.formatResponseError({});
assert.isString(e5);
assert.isEmpty(e5);
});
it('getAuthoritativeDnsResolver()', async () => {
/* valid domain - should not use global default */
const r1 = await util.getAuthoritativeDnsResolver('example.com');
assert.instanceOf(r1, dns.Resolver);
assert.isNotEmpty(r1.getServers());
assert.notDeepEqual(r1.getServers(), dns.getServers());
/* invalid domain - fallback to global default */
const r2 = await util.getAuthoritativeDnsResolver('invalid.xtldx');
assert.instanceOf(r2, dns.Resolver);
assert.deepStrictEqual(r2.getServers(), dns.getServers());
});
/* TODO: Figure out how to test this */
it('retrieveTlsAlpnCertificate()');
});

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/**
* Challenge verification tests
*/
const { randomUUID: uuid } = require('crypto');
const { assert } = require('chai');
const cts = require('./challtestsrv');
const verify = require('./../src/verify');
const domainName = process.env.ACME_DOMAIN_NAME || 'example.com';
describe('verify', () => {
const challengeTypes = ['http-01', 'dns-01'];
const testHttp01Authz = { identifier: { type: 'dns', value: `${uuid()}.${domainName}` } };
const testHttp01Challenge = { type: 'http-01', status: 'pending', token: uuid() };
const testHttp01Key = uuid();
const testHttps01Authz = { identifier: { type: 'dns', value: `${uuid()}.${domainName}` } };
const testHttps01Challenge = { type: 'http-01', status: 'pending', token: uuid() };
const testHttps01Key = uuid();
const testDns01Authz = { identifier: { type: 'dns', value: `${uuid()}.${domainName}` } };
const testDns01Challenge = { type: 'dns-01', status: 'pending', token: uuid() };
const testDns01Key = uuid();
const testDns01Cname = `${uuid()}.${domainName}`;
const testTlsAlpn01Authz = { identifier: { type: 'dns', value: `${uuid()}.${domainName}` } };
const testTlsAlpn01Challenge = { type: 'dns-01', status: 'pending', token: uuid() };
const testTlsAlpn01Key = uuid();
/**
* Pebble CTS required
*/
before(function () {
if (!cts.isEnabled()) {
this.skip();
}
});
/**
* API
*/
it('should expose verification api', async () => {
assert.containsAllKeys(verify, challengeTypes);
});
/**
* http-01
*/
describe('http-01', () => {
it('should reject challenge', async () => {
await assert.isRejected(verify['http-01'](testHttp01Authz, testHttp01Challenge, testHttp01Key));
});
it('should mock challenge response', async () => {
const resp = await cts.addHttp01ChallengeResponse(testHttp01Challenge.token, testHttp01Key);
assert.isTrue(resp);
});
it('should verify challenge', async () => {
const resp = await verify['http-01'](testHttp01Authz, testHttp01Challenge, testHttp01Key);
assert.isTrue(resp);
});
it('should mock challenge response with trailing newline', async () => {
const resp = await cts.addHttp01ChallengeResponse(testHttp01Challenge.token, `${testHttp01Key}\n`);
assert.isTrue(resp);
});
it('should verify challenge with trailing newline', async () => {
const resp = await verify['http-01'](testHttp01Authz, testHttp01Challenge, testHttp01Key);
assert.isTrue(resp);
});
});
/**
* https-01
*/
describe('https-01', () => {
it('should reject challenge', async () => {
await assert.isRejected(verify['http-01'](testHttps01Authz, testHttps01Challenge, testHttps01Key));
});
it('should mock challenge response', async () => {
const resp = await cts.addHttps01ChallengeResponse(testHttps01Challenge.token, testHttps01Key, testHttps01Authz.identifier.value);
assert.isTrue(resp);
});
it('should verify challenge', async () => {
const resp = await verify['http-01'](testHttps01Authz, testHttps01Challenge, testHttps01Key);
assert.isTrue(resp);
});
});
/**
* dns-01
*/
describe('dns-01', () => {
it('should reject challenge', async () => {
await assert.isRejected(verify['dns-01'](testDns01Authz, testDns01Challenge, testDns01Key));
});
it('should mock challenge response', async () => {
const resp = await cts.addDns01ChallengeResponse(`_acme-challenge.${testDns01Authz.identifier.value}.`, testDns01Key);
assert.isTrue(resp);
});
it('should add cname to challenge response', async () => {
const resp = await cts.setDnsCnameRecord(testDns01Cname, `_acme-challenge.${testDns01Authz.identifier.value}.`);
assert.isTrue(resp);
});
it('should verify challenge', async () => {
const resp = await verify['dns-01'](testDns01Authz, testDns01Challenge, testDns01Key);
assert.isTrue(resp);
});
it('should verify challenge using cname', async () => {
const resp = await verify['dns-01'](testDns01Authz, testDns01Challenge, testDns01Key);
assert.isTrue(resp);
});
});
/**
* tls-alpn-01
*/
describe('tls-alpn-01', () => {
it('should reject challenge', async () => {
await assert.isRejected(verify['tls-alpn-01'](testTlsAlpn01Authz, testTlsAlpn01Challenge, testTlsAlpn01Key));
});
it('should mock challenge response', async () => {
const resp = await cts.addTlsAlpn01ChallengeResponse(testTlsAlpn01Authz.identifier.value, testTlsAlpn01Key);
assert.isTrue(resp);
});
it('should verify challenge', async () => {
const resp = await verify['tls-alpn-01'](testTlsAlpn01Authz, testTlsAlpn01Challenge, testTlsAlpn01Key);
assert.isTrue(resp);
});
});
});

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/**
* Legacy crypto tests
*/
const fs = require('fs').promises;
const path = require('path');
const { assert } = require('chai');
const spec = require('./spec');
const forge = require('./../src/crypto/forge');
const cryptoEngines = {
forge,
};
describe('crypto-legacy', () => {
let testPemKey;
let testCert;
let testSanCert;
const modulusStore = [];
const exponentStore = [];
const publicKeyStore = [];
const testCsrDomain = 'example.com';
const testSanCsrDomains = ['example.com', 'test.example.com', 'abc.example.com'];
const testKeyPath = path.join(__dirname, 'fixtures', 'private.key');
const testCertPath = path.join(__dirname, 'fixtures', 'certificate.crt');
const testSanCertPath = path.join(__dirname, 'fixtures', 'san-certificate.crt');
/**
* Fixtures
*/
describe('fixtures', () => {
it('should read private key fixture', async () => {
testPemKey = await fs.readFile(testKeyPath);
assert.isTrue(Buffer.isBuffer(testPemKey));
});
it('should read certificate fixture', async () => {
testCert = await fs.readFile(testCertPath);
assert.isTrue(Buffer.isBuffer(testCert));
});
it('should read san certificate fixture', async () => {
testSanCert = await fs.readFile(testSanCertPath);
assert.isTrue(Buffer.isBuffer(testSanCert));
});
});
/**
* Engines
*/
Object.entries(cryptoEngines).forEach(([name, engine]) => {
describe(`engine/${name}`, () => {
let testCsr;
let testSanCsr;
let testNonCnCsr;
let testNonAsciiCsr;
/**
* Key generation
*/
it('should generate a private key', async () => {
const key = await engine.createPrivateKey();
assert.isTrue(Buffer.isBuffer(key));
});
it('should generate a private key with size=1024', async () => {
const key = await engine.createPrivateKey(1024);
assert.isTrue(Buffer.isBuffer(key));
});
it('should generate a public key', async () => {
const key = await engine.createPublicKey(testPemKey);
assert.isTrue(Buffer.isBuffer(key));
publicKeyStore.push(key.toString().replace(/[\r\n]/gm, ''));
});
/**
* Certificate Signing Request
*/
it('should generate a csr', async () => {
const [key, csr] = await engine.createCsr({
commonName: testCsrDomain,
});
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testCsr = csr;
});
it('should generate a san csr', async () => {
const [key, csr] = await engine.createCsr({
commonName: testSanCsrDomains[0],
altNames: testSanCsrDomains.slice(1, testSanCsrDomains.length),
});
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testSanCsr = csr;
});
it('should generate a csr without common name', async () => {
const [key, csr] = await engine.createCsr({
altNames: testSanCsrDomains,
});
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testNonCnCsr = csr;
});
it('should generate a non-ascii csr', async () => {
const [key, csr] = await engine.createCsr({
commonName: testCsrDomain,
organization: '大安區',
organizationUnit: '中文部門',
});
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testNonAsciiCsr = csr;
});
it('should resolve domains from csr', async () => {
const result = await engine.readCsrDomains(testCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testCsrDomain);
assert.deepStrictEqual(result.altNames, [testCsrDomain]);
});
it('should resolve domains from san csr', async () => {
const result = await engine.readCsrDomains(testSanCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testSanCsrDomains[0]);
assert.deepStrictEqual(result.altNames, testSanCsrDomains);
});
it('should resolve domains from san without common name', async () => {
const result = await engine.readCsrDomains(testNonCnCsr);
spec.crypto.csrDomains(result);
assert.isNull(result.commonName);
assert.deepStrictEqual(result.altNames, testSanCsrDomains);
});
it('should resolve domains from non-ascii csr', async () => {
const result = await engine.readCsrDomains(testNonAsciiCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testCsrDomain);
assert.deepStrictEqual(result.altNames, [testCsrDomain]);
});
/**
* Certificate
*/
it('should read info from certificate', async () => {
const info = await engine.readCertificateInfo(testCert);
spec.crypto.certificateInfo(info);
assert.strictEqual(info.domains.commonName, testCsrDomain);
assert.strictEqual(info.domains.altNames.length, 0);
});
it('should read info from san certificate', async () => {
const info = await engine.readCertificateInfo(testSanCert);
spec.crypto.certificateInfo(info);
assert.strictEqual(info.domains.commonName, testSanCsrDomains[0]);
assert.deepEqual(info.domains.altNames, testSanCsrDomains.slice(1, testSanCsrDomains.length));
});
/**
* PEM utils
*/
it('should get pem body', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const body = engine.getPemBody(pem);
assert.isString(body);
assert.notInclude(body, '\r');
assert.notInclude(body, '\n');
assert.notInclude(body, '\r\n');
});
});
it('should split pem chain', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const chain = engine.splitPemChain(pem);
assert.isArray(chain);
assert.isNotEmpty(chain);
chain.forEach((c) => assert.isString(c));
});
});
/**
* Modulus and exponent
*/
it('should get modulus', async () => {
const result = await Promise.all([testPemKey, testCert, testSanCert].map(async (item) => {
const mod = await engine.getModulus(item);
assert.isTrue(Buffer.isBuffer(mod));
return mod;
}));
modulusStore.push(result);
});
it('should get public exponent', async () => {
const result = await Promise.all([testPemKey, testCert, testSanCert].map(async (item) => {
const exp = await engine.getPublicExponent(item);
assert.isTrue(Buffer.isBuffer(exp));
const b64exp = exp.toString('base64');
assert.strictEqual(b64exp, 'AQAB');
return b64exp;
}));
exponentStore.push(result);
});
});
});
/**
* Verify identical results
*/
describe('verification', () => {
it('should have identical public keys', () => {
if (publicKeyStore.length > 1) {
const reference = publicKeyStore.shift();
publicKeyStore.forEach((item) => assert.strictEqual(reference, item));
}
});
it('should have identical moduli', () => {
if (modulusStore.length > 1) {
const reference = modulusStore.shift();
modulusStore.forEach((item) => assert.deepStrictEqual(reference, item));
}
});
it('should have identical public exponents', () => {
if (exponentStore.length > 1) {
const reference = exponentStore.shift();
exponentStore.forEach((item) => assert.deepStrictEqual(reference, item));
}
});
});
});

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/**
* Crypto tests
*/
const fs = require('fs').promises;
const path = require('path');
const { assert } = require('chai');
const spec = require('./spec');
const { crypto } = require('./../');
const emptyBodyChain1 = `
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
-----BEGIN TEST-----
-----END TEST-----
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
`;
const emptyBodyChain2 = `
-----BEGIN TEST-----
-----END TEST-----
-----BEGIN TEST-----
-----END TEST-----
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
-----BEGIN TEST-----
dGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZ3Rlc3Rpbmd0ZXN0aW5ndGVzdGluZw==
-----END TEST-----
`;
describe('crypto', () => {
const testCsrDomain = 'example.com';
const testSanCsrDomains = ['example.com', 'test.example.com', 'abc.example.com'];
const testKeyPath = path.join(__dirname, 'fixtures', 'private.key');
const testCertPath = path.join(__dirname, 'fixtures', 'certificate.crt');
const testSanCertPath = path.join(__dirname, 'fixtures', 'san-certificate.crt');
/**
* Key types
*/
Object.entries({
rsa: {
createKeyFns: {
s1024: () => crypto.createPrivateRsaKey(1024),
s2048: () => crypto.createPrivateRsaKey(),
s4096: () => crypto.createPrivateRsaKey(4096),
},
jwkSpecFn: spec.jwk.rsa,
},
ecdsa: {
createKeyFns: {
p256: () => crypto.createPrivateEcdsaKey(),
p384: () => crypto.createPrivateEcdsaKey('P-384'),
p521: () => crypto.createPrivateEcdsaKey('P-521'),
},
jwkSpecFn: spec.jwk.ecdsa,
},
}).forEach(([name, { createKeyFns, jwkSpecFn }]) => {
describe(name, () => {
const testPrivateKeys = {};
const testPublicKeys = {};
/**
* Iterate through all generator variations
*/
Object.entries(createKeyFns).forEach(([n, createFn]) => {
let testCsr;
let testSanCsr;
let testNonCnCsr;
let testNonAsciiCsr;
let testAlpnCertificate;
/**
* Keys and JWK
*/
it(`${n}/should generate private key`, async () => {
testPrivateKeys[n] = await createFn();
assert.isTrue(Buffer.isBuffer(testPrivateKeys[n]));
});
it(`${n}/should get public key`, () => {
testPublicKeys[n] = crypto.getPublicKey(testPrivateKeys[n]);
assert.isTrue(Buffer.isBuffer(testPublicKeys[n]));
});
it(`${n}/should get public key from string`, () => {
testPublicKeys[n] = crypto.getPublicKey(testPrivateKeys[n].toString());
assert.isTrue(Buffer.isBuffer(testPublicKeys[n]));
});
it(`${n}/should get jwk from private key`, () => {
const jwk = crypto.getJwk(testPrivateKeys[n]);
jwkSpecFn(jwk);
});
it(`${n}/should get jwk from public key`, () => {
const jwk = crypto.getJwk(testPublicKeys[n]);
jwkSpecFn(jwk);
});
it(`${n}/should get jwk from string`, () => {
const jwk = crypto.getJwk(testPrivateKeys[n].toString());
jwkSpecFn(jwk);
});
/**
* Certificate Signing Request
*/
it(`${n}/should generate a csr`, async () => {
const [key, csr] = await crypto.createCsr({
commonName: testCsrDomain,
}, testPrivateKeys[n]);
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testCsr = csr;
});
it(`${n}/should generate a san csr`, async () => {
const [key, csr] = await crypto.createCsr({
commonName: testSanCsrDomains[0],
altNames: testSanCsrDomains.slice(1, testSanCsrDomains.length),
}, testPrivateKeys[n]);
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testSanCsr = csr;
});
it(`${n}/should generate a csr without common name`, async () => {
const [key, csr] = await crypto.createCsr({
altNames: testSanCsrDomains,
}, testPrivateKeys[n]);
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testNonCnCsr = csr;
});
it(`${n}/should generate a non-ascii csr`, async () => {
const [key, csr] = await crypto.createCsr({
commonName: testCsrDomain,
organization: '大安區',
organizationUnit: '中文部門',
}, testPrivateKeys[n]);
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
testNonAsciiCsr = csr;
});
it(`${n}/should generate a csr with key as string`, async () => {
const [key, csr] = await crypto.createCsr({
commonName: testCsrDomain,
}, testPrivateKeys[n].toString());
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
});
it(`${n}/should throw with invalid key`, async () => {
await assert.isRejected(crypto.createCsr({
commonName: testCsrDomain,
}, testPublicKeys[n]));
});
/**
* Domain and info resolver
*/
it(`${n}/should resolve domains from csr`, () => {
const result = crypto.readCsrDomains(testCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testCsrDomain);
assert.deepStrictEqual(result.altNames, [testCsrDomain]);
});
it(`${n}/should resolve domains from san csr`, () => {
const result = crypto.readCsrDomains(testSanCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testSanCsrDomains[0]);
assert.deepStrictEqual(result.altNames, testSanCsrDomains);
});
it(`${n}/should resolve domains from csr without common name`, () => {
const result = crypto.readCsrDomains(testNonCnCsr);
spec.crypto.csrDomains(result);
assert.isNull(result.commonName);
assert.deepStrictEqual(result.altNames, testSanCsrDomains);
});
it(`${n}/should resolve domains from non-ascii csr`, () => {
const result = crypto.readCsrDomains(testNonAsciiCsr);
spec.crypto.csrDomains(result);
assert.strictEqual(result.commonName, testCsrDomain);
assert.deepStrictEqual(result.altNames, [testCsrDomain]);
});
it(`${n}/should resolve domains from csr string`, () => {
[testCsr, testSanCsr, testNonCnCsr, testNonAsciiCsr].forEach((csr) => {
const result = crypto.readCsrDomains(csr.toString());
spec.crypto.csrDomains(result);
});
});
/**
* ALPN
*/
it(`${n}/should generate alpn certificate`, async () => {
const authz = { identifier: { value: 'test.example.com' } };
const [key, cert] = await crypto.createAlpnCertificate(authz, 'super-secret.12345', await createFn());
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(cert));
testAlpnCertificate = cert;
});
it(`${n}/should generate alpn certificate with key as string`, async () => {
const k = await createFn();
const authz = { identifier: { value: 'test.example.com' } };
const [key, cert] = await crypto.createAlpnCertificate(authz, 'super-secret.12345', k.toString());
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(cert));
});
it(`${n}/should not validate invalid alpn certificate key authorization`, () => {
assert.isFalse(crypto.isAlpnCertificateAuthorizationValid(testAlpnCertificate, 'aaaaaaa'));
assert.isFalse(crypto.isAlpnCertificateAuthorizationValid(testAlpnCertificate, 'bbbbbbb'));
assert.isFalse(crypto.isAlpnCertificateAuthorizationValid(testAlpnCertificate, 'ccccccc'));
});
it(`${n}/should validate valid alpn certificate key authorization`, () => {
assert.isTrue(crypto.isAlpnCertificateAuthorizationValid(testAlpnCertificate, 'super-secret.12345'));
});
it(`${n}/should validate valid alpn certificate with cert as string`, () => {
assert.isTrue(crypto.isAlpnCertificateAuthorizationValid(testAlpnCertificate.toString(), 'super-secret.12345'));
});
});
});
});
/**
* Common functionality
*/
describe('common', () => {
let testPemKey;
let testCert;
let testSanCert;
it('should read private key fixture', async () => {
testPemKey = await fs.readFile(testKeyPath);
assert.isTrue(Buffer.isBuffer(testPemKey));
});
it('should read certificate fixture', async () => {
testCert = await fs.readFile(testCertPath);
assert.isTrue(Buffer.isBuffer(testCert));
});
it('should read san certificate fixture', async () => {
testSanCert = await fs.readFile(testSanCertPath);
assert.isTrue(Buffer.isBuffer(testSanCert));
});
/**
* CSR with auto-generated key
*/
it('should generate a csr with default key', async () => {
const [key, csr] = await crypto.createCsr({
commonName: testCsrDomain,
});
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(csr));
});
/**
* Certificate
*/
it('should read certificate info', () => {
const info = crypto.readCertificateInfo(testCert);
spec.crypto.certificateInfo(info);
assert.strictEqual(info.domains.commonName, testCsrDomain);
assert.strictEqual(info.domains.altNames.length, 0);
});
it('should read certificate info with san', () => {
const info = crypto.readCertificateInfo(testSanCert);
spec.crypto.certificateInfo(info);
assert.strictEqual(info.domains.commonName, testSanCsrDomains[0]);
assert.deepEqual(info.domains.altNames, testSanCsrDomains.slice(1, testSanCsrDomains.length));
});
it('should read certificate info from string', () => {
[testCert, testSanCert].forEach((cert) => {
const info = crypto.readCertificateInfo(cert.toString());
spec.crypto.certificateInfo(info);
});
});
/**
* ALPN
*/
it('should generate alpn certificate with default key', async () => {
const authz = { identifier: { value: 'test.example.com' } };
const [key, cert] = await crypto.createAlpnCertificate(authz, 'abc123');
assert.isTrue(Buffer.isBuffer(key));
assert.isTrue(Buffer.isBuffer(cert));
});
/**
* PEM utils
*/
it('should get pem body as b64u', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const body = crypto.getPemBodyAsB64u(pem);
assert.isString(body);
assert.notInclude(body, '\r');
assert.notInclude(body, '\n');
assert.notInclude(body, '\r\n');
});
});
it('should get pem body as b64u from string', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const body = crypto.getPemBodyAsB64u(pem.toString());
assert.isString(body);
assert.notInclude(body, '\r');
assert.notInclude(body, '\n');
assert.notInclude(body, '\r\n');
});
});
it('should split pem chain', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const chain = crypto.splitPemChain(pem);
assert.isArray(chain);
assert.isNotEmpty(chain);
chain.forEach((c) => assert.isString(c));
});
});
it('should split pem chain from string', () => {
[testPemKey, testCert, testSanCert].forEach((pem) => {
const chain = crypto.splitPemChain(pem.toString());
assert.isArray(chain);
assert.isNotEmpty(chain);
chain.forEach((c) => assert.isString(c));
});
});
it('should split pem chain with empty bodies', () => {
const c1 = crypto.splitPemChain(emptyBodyChain1);
const c2 = crypto.splitPemChain(emptyBodyChain2);
assert.strictEqual(c1.length, 3);
assert.strictEqual(c2.length, 3);
});
});
});

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packages/core/acme-client/test/50-client.spec.js Normal file
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/**
* ACME client tests
*/
const { randomUUID: uuid } = require('crypto');
const { assert } = require('chai');
const cts = require('./challtestsrv');
const getCertIssuers = require('./get-cert-issuers');
const spec = require('./spec');
const acme = require('./../');
const domainName = process.env.ACME_DOMAIN_NAME || 'example.com';
const directoryUrl = process.env.ACME_DIRECTORY_URL || acme.directory.letsencrypt.staging;
const capEabEnabled = (('ACME_CAP_EAB_ENABLED' in process.env) && (process.env.ACME_CAP_EAB_ENABLED === '1'));
const capMetaTosField = !(('ACME_CAP_META_TOS_FIELD' in process.env) && (process.env.ACME_CAP_META_TOS_FIELD === '0'));
const capUpdateAccountKey = !(('ACME_CAP_UPDATE_ACCOUNT_KEY' in process.env) && (process.env.ACME_CAP_UPDATE_ACCOUNT_KEY === '0'));
const capAlternateCertRoots = !(('ACME_CAP_ALTERNATE_CERT_ROOTS' in process.env) && (process.env.ACME_CAP_ALTERNATE_CERT_ROOTS === '0'));
const clientOpts = {
directoryUrl,
backoffAttempts: 5,
backoffMin: 1000,
backoffMax: 5000,
};
if (capEabEnabled && process.env.ACME_EAB_KID && process.env.ACME_EAB_HMAC_KEY) {
clientOpts.externalAccountBinding = {
kid: process.env.ACME_EAB_KID,
hmacKey: process.env.ACME_EAB_HMAC_KEY,
};
}
describe('client', () => {
const testDomain = `${uuid()}.${domainName}`;
const testDomainAlpn = `${uuid()}.${domainName}`;
const testDomainWildcard = `*.${testDomain}`;
const testContact = `mailto:test-${uuid()}@nope.com`;
/**
* Pebble CTS required
*/
before(function () {
if (!cts.isEnabled()) {
this.skip();
}
});
/**
* Key types
*/
Object.entries({
rsa: {
createKeyFn: () => acme.crypto.createPrivateRsaKey(),
createKeyAltFns: {
s1024: () => acme.crypto.createPrivateRsaKey(1024),
s4096: () => acme.crypto.createPrivateRsaKey(4096),
},
jwkSpecFn: spec.jwk.rsa,
},
ecdsa: {
createKeyFn: () => acme.crypto.createPrivateEcdsaKey(),
createKeyAltFns: {
p384: () => acme.crypto.createPrivateEcdsaKey('P-384'),
p521: () => acme.crypto.createPrivateEcdsaKey('P-521'),
},
jwkSpecFn: spec.jwk.ecdsa,
},
}).forEach(([name, { createKeyFn, createKeyAltFns, jwkSpecFn }]) => {
describe(name, () => {
let testIssuers;
let testAccountKey;
let testAccountSecondaryKey;
let testClient;
let testAccount;
let testAccountUrl;
let testOrder;
let testOrderAlpn;
let testOrderWildcard;
let testAuthz;
let testAuthzAlpn;
let testAuthzWildcard;
let testChallenge;
let testChallengeAlpn;
let testChallengeWildcard;
let testKeyAuthorization;
let testKeyAuthorizationAlpn;
let testKeyAuthorizationWildcard;
let testCsr;
let testCsrAlpn;
let testCsrWildcard;
let testCertificate;
let testCertificateAlpn;
let testCertificateWildcard;
/**
* Fixtures
*/
it('should generate a private key', async () => {
testAccountKey = await createKeyFn();
assert.isTrue(Buffer.isBuffer(testAccountKey));
});
it('should create a second private key', async () => {
testAccountSecondaryKey = await createKeyFn();
assert.isTrue(Buffer.isBuffer(testAccountSecondaryKey));
});
it('should generate certificate signing request', async () => {
[, testCsr] = await acme.crypto.createCsr({ commonName: testDomain }, await createKeyFn());
[, testCsrAlpn] = await acme.crypto.createCsr({ altNames: [testDomainAlpn] }, await createKeyFn());
[, testCsrWildcard] = await acme.crypto.createCsr({ altNames: [testDomainWildcard] }, await createKeyFn());
});
it('should resolve certificate issuers [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
testIssuers = await getCertIssuers();
assert.isArray(testIssuers);
assert.isTrue(testIssuers.length > 1);
testIssuers.forEach((i) => {
assert.isString(i);
assert.strictEqual(1, testIssuers.filter((c) => (c === i)).length);
});
});
/**
* Initialize clients
*/
it('should initialize client', () => {
testClient = new acme.Client({
...clientOpts,
accountKey: testAccountKey,
});
});
it('should produce a valid jwk', () => {
const jwk = testClient.http.getJwk();
jwkSpecFn(jwk);
});
/**
* Terms of Service
*/
it('should produce tos url [ACME_CAP_META_TOS_FIELD]', async function () {
if (!capMetaTosField) {
this.skip();
}
const tos = await testClient.getTermsOfServiceUrl();
assert.isString(tos);
});
it('should not produce tos url [!ACME_CAP_META_TOS_FIELD]', async function () {
if (capMetaTosField) {
this.skip();
}
const tos = await testClient.getTermsOfServiceUrl();
assert.isNull(tos);
});
/**
* Create account
*/
it('should refuse account creation without tos [ACME_CAP_META_TOS_FIELD]', async function () {
if (!capMetaTosField) {
this.skip();
}
await assert.isRejected(testClient.createAccount());
});
it('should refuse account creation without eab [ACME_CAP_EAB_ENABLED]', async function () {
if (!capEabEnabled) {
this.skip();
}
const client = new acme.Client({
...clientOpts,
accountKey: testAccountKey,
externalAccountBinding: null,
});
await assert.isRejected(client.createAccount({
termsOfServiceAgreed: true,
}));
});
it('should create an account', async () => {
testAccount = await testClient.createAccount({
termsOfServiceAgreed: true,
});
spec.rfc8555.account(testAccount);
assert.strictEqual(testAccount.status, 'valid');
});
it('should produce an account url', () => {
testAccountUrl = testClient.getAccountUrl();
assert.isString(testAccountUrl);
});
/**
* Create account with alternate key sizes
*/
Object.entries(createKeyAltFns).forEach(([k, altKeyFn]) => {
it(`should create account with key=${k}`, async () => {
const client = new acme.Client({
...clientOpts,
accountKey: await altKeyFn(),
});
const account = await client.createAccount({
termsOfServiceAgreed: true,
});
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'valid');
});
});
/**
* Find existing account using secondary client
*/
it('should throw when trying to find account using invalid account key', async () => {
const client = new acme.Client({
...clientOpts,
accountKey: testAccountSecondaryKey,
});
await assert.isRejected(client.createAccount({
onlyReturnExisting: true,
}));
});
it('should find existing account using account key', async () => {
const client = new acme.Client({
...clientOpts,
accountKey: testAccountKey,
});
const account = await client.createAccount({
onlyReturnExisting: true,
});
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'valid');
assert.deepStrictEqual(account.key, testAccount.key);
});
/**
* Account URL
*/
it('should refuse invalid account url', async () => {
const client = new acme.Client({
...clientOpts,
accountKey: testAccountKey,
accountUrl: 'https://acme-staging-v02.api.letsencrypt.org/acme/acct/1',
});
await assert.isRejected(client.updateAccount());
});
it('should find existing account using account url', async () => {
const client = new acme.Client({
...clientOpts,
accountKey: testAccountKey,
accountUrl: testAccountUrl,
});
const account = await client.createAccount({
onlyReturnExisting: true,
});
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'valid');
assert.deepStrictEqual(account.key, testAccount.key);
});
/**
* Update account contact info
*/
it('should update account contact info', async () => {
const data = { contact: [testContact] };
const account = await testClient.updateAccount(data);
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'valid');
assert.deepStrictEqual(account.key, testAccount.key);
assert.isArray(account.contact);
assert.include(account.contact, testContact);
});
/**
* Change account private key
*/
it('should change account private key [ACME_CAP_UPDATE_ACCOUNT_KEY]', async function () {
if (!capUpdateAccountKey) {
this.skip();
}
await testClient.updateAccountKey(testAccountSecondaryKey);
const account = await testClient.createAccount({
onlyReturnExisting: true,
});
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'valid');
assert.notDeepEqual(account.key, testAccount.key);
});
/**
* Create new certificate order
*/
it('should create new order', async () => {
const data1 = { identifiers: [{ type: 'dns', value: testDomain }] };
const data2 = { identifiers: [{ type: 'dns', value: testDomainAlpn }] };
const data3 = { identifiers: [{ type: 'dns', value: testDomainWildcard }] };
testOrder = await testClient.createOrder(data1);
testOrderAlpn = await testClient.createOrder(data2);
testOrderWildcard = await testClient.createOrder(data3);
[testOrder, testOrderAlpn, testOrderWildcard].forEach((item) => {
spec.rfc8555.order(item);
assert.strictEqual(item.status, 'pending');
});
});
/**
* Get status of existing certificate order
*/
it('should get existing order', async () => {
await Promise.all([testOrder, testOrderAlpn, testOrderWildcard].map(async (existing) => {
const result = await testClient.getOrder(existing);
spec.rfc8555.order(result);
assert.deepStrictEqual(existing, result);
}));
});
/**
* Get identifier authorization
*/
it('should get identifier authorization', async () => {
const orderAuthzCollection = await testClient.getAuthorizations(testOrder);
const alpnAuthzCollection = await testClient.getAuthorizations(testOrderAlpn);
const wildcardAuthzCollection = await testClient.getAuthorizations(testOrderWildcard);
[orderAuthzCollection, alpnAuthzCollection, wildcardAuthzCollection].forEach((collection) => {
assert.isArray(collection);
assert.isNotEmpty(collection);
collection.forEach((authz) => {
spec.rfc8555.authorization(authz);
assert.strictEqual(authz.status, 'pending');
});
});
testAuthz = orderAuthzCollection.pop();
testAuthzAlpn = alpnAuthzCollection.pop();
testAuthzWildcard = wildcardAuthzCollection.pop();
testAuthz.challenges.concat(testAuthzAlpn.challenges).concat(testAuthzWildcard.challenges).forEach((item) => {
spec.rfc8555.challenge(item);
assert.strictEqual(item.status, 'pending');
});
});
/**
* Generate challenge key authorization
*/
it('should get challenge key authorization', async () => {
testChallenge = testAuthz.challenges.find((c) => (c.type === 'http-01'));
testChallengeAlpn = testAuthzAlpn.challenges.find((c) => (c.type === 'tls-alpn-01'));
testChallengeWildcard = testAuthzWildcard.challenges.find((c) => (c.type === 'dns-01'));
testKeyAuthorization = await testClient.getChallengeKeyAuthorization(testChallenge);
testKeyAuthorizationAlpn = await testClient.getChallengeKeyAuthorization(testChallengeAlpn);
testKeyAuthorizationWildcard = await testClient.getChallengeKeyAuthorization(testChallengeWildcard);
[testKeyAuthorization, testKeyAuthorizationAlpn, testKeyAuthorizationWildcard].forEach((k) => assert.isString(k));
});
/**
* Deactivate identifier authorization
*/
it('should deactivate identifier authorization', async () => {
const order = await testClient.createOrder({
identifiers: [
{ type: 'dns', value: `${uuid()}.${domainName}` },
{ type: 'dns', value: `${uuid()}.${domainName}` },
],
});
const authzCollection = await testClient.getAuthorizations(order);
const results = await Promise.all(authzCollection.map(async (authz) => {
spec.rfc8555.authorization(authz);
assert.strictEqual(authz.status, 'pending');
return testClient.deactivateAuthorization(authz);
}));
results.forEach((authz) => {
spec.rfc8555.authorization(authz);
assert.strictEqual(authz.status, 'deactivated');
});
});
/**
* Verify satisfied challenge
*/
it('should verify challenge', async () => {
await cts.assertHttpChallengeCreateFn(testAuthz, testChallenge, testKeyAuthorization);
await cts.assertTlsAlpnChallengeCreateFn(testAuthzAlpn, testChallengeAlpn, testKeyAuthorizationAlpn);
await cts.assertDnsChallengeCreateFn(testAuthzWildcard, testChallengeWildcard, testKeyAuthorizationWildcard);
await testClient.verifyChallenge(testAuthz, testChallenge);
await testClient.verifyChallenge(testAuthzAlpn, testChallengeAlpn);
await testClient.verifyChallenge(testAuthzWildcard, testChallengeWildcard);
});
/**
* Complete challenge
*/
it('should complete challenge', async () => {
await Promise.all([testChallenge, testChallengeAlpn, testChallengeWildcard].map(async (challenge) => {
const result = await testClient.completeChallenge(challenge);
spec.rfc8555.challenge(result);
assert.strictEqual(challenge.url, result.url);
}));
});
/**
* Wait for valid challenge
*/
it('should wait for valid challenge status', async () => {
await Promise.all([testChallenge, testChallengeAlpn, testChallengeWildcard].map(async (c) => testClient.waitForValidStatus(c)));
});
/**
* Finalize order
*/
it('should finalize order', async () => {
const finalize = await testClient.finalizeOrder(testOrder, testCsr);
const finalizeAlpn = await testClient.finalizeOrder(testOrderAlpn, testCsrAlpn);
const finalizeWildcard = await testClient.finalizeOrder(testOrderWildcard, testCsrWildcard);
[finalize, finalizeAlpn, finalizeWildcard].forEach((f) => spec.rfc8555.order(f));
assert.strictEqual(testOrder.url, finalize.url);
assert.strictEqual(testOrderAlpn.url, finalizeAlpn.url);
assert.strictEqual(testOrderWildcard.url, finalizeWildcard.url);
});
/**
* Wait for valid order
*/
it('should wait for valid order status', async () => {
await Promise.all([testOrder, testOrderAlpn, testOrderWildcard].map(async (o) => testClient.waitForValidStatus(o)));
});
/**
* Get certificate
*/
it('should get certificate', async () => {
testCertificate = await testClient.getCertificate(testOrder);
testCertificateAlpn = await testClient.getCertificate(testOrderAlpn);
testCertificateWildcard = await testClient.getCertificate(testOrderWildcard);
[testCertificate, testCertificateAlpn, testCertificateWildcard].forEach((cert) => {
assert.isString(cert);
acme.crypto.readCertificateInfo(cert);
});
});
it('should get alternate certificate chain [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
await Promise.all(testIssuers.map(async (issuer) => {
const cert = await testClient.getCertificate(testOrder, issuer);
const rootCert = acme.crypto.splitPemChain(cert).pop();
const info = acme.crypto.readCertificateInfo(rootCert);
assert.strictEqual(issuer, info.issuer.commonName);
}));
});
it('should get default chain with invalid preference [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
const cert = await testClient.getCertificate(testOrder, uuid());
const rootCert = acme.crypto.splitPemChain(cert).pop();
const info = acme.crypto.readCertificateInfo(rootCert);
assert.strictEqual(testIssuers[0], info.issuer.commonName);
});
/**
* Revoke certificate
*/
it('should revoke certificate', async () => {
await testClient.revokeCertificate(testCertificate);
await testClient.revokeCertificate(testCertificateAlpn, { reason: 0 });
await testClient.revokeCertificate(testCertificateWildcard, { reason: 4 });
});
it('should not allow getting revoked certificate', async () => {
await assert.isRejected(testClient.getCertificate(testOrder));
await assert.isRejected(testClient.getCertificate(testOrderAlpn));
await assert.isRejected(testClient.getCertificate(testOrderWildcard));
});
/**
* Deactivate account
*/
it('should deactivate account', async () => {
const data = { status: 'deactivated' };
const account = await testClient.updateAccount(data);
spec.rfc8555.account(account);
assert.strictEqual(account.status, 'deactivated');
});
/**
* Verify that no new orders can be made
*/
it('should not allow new orders from deactivated account', async () => {
const data = { identifiers: [{ type: 'dns', value: 'nope.com' }] };
await assert.isRejected(testClient.createOrder(data));
});
});
});
});

438
packages/core/acme-client/test/70-auto.spec.js Normal file
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/**
* ACME client.auto tests
*/
const { randomUUID: uuid } = require('crypto');
const { assert } = require('chai');
const cts = require('./challtestsrv');
const getCertIssuers = require('./get-cert-issuers');
const spec = require('./spec');
const acme = require('./../');
const domainName = process.env.ACME_DOMAIN_NAME || 'example.com';
const directoryUrl = process.env.ACME_DIRECTORY_URL || acme.directory.letsencrypt.staging;
const capEabEnabled = (('ACME_CAP_EAB_ENABLED' in process.env) && (process.env.ACME_CAP_EAB_ENABLED === '1'));
const capAlternateCertRoots = !(('ACME_CAP_ALTERNATE_CERT_ROOTS' in process.env) && (process.env.ACME_CAP_ALTERNATE_CERT_ROOTS === '0'));
const clientOpts = {
directoryUrl,
backoffAttempts: 5,
backoffMin: 1000,
backoffMax: 5000,
};
if (capEabEnabled && process.env.ACME_EAB_KID && process.env.ACME_EAB_HMAC_KEY) {
clientOpts.externalAccountBinding = {
kid: process.env.ACME_EAB_KID,
hmacKey: process.env.ACME_EAB_HMAC_KEY,
};
}
describe('client.auto', () => {
const testDomain = `${uuid()}.${domainName}`;
const testHttpDomain = `${uuid()}.${domainName}`;
const testHttpsDomain = `${uuid()}.${domainName}`;
const testDnsDomain = `${uuid()}.${domainName}`;
const testAlpnDomain = `${uuid()}.${domainName}`;
const testWildcardDomain = `${uuid()}.${domainName}`;
const testSanDomains = [
`${uuid()}.${domainName}`,
`${uuid()}.${domainName}`,
`${uuid()}.${domainName}`,
];
/**
* Pebble CTS required
*/
before(function () {
if (!cts.isEnabled()) {
this.skip();
}
});
/**
* Key types
*/
Object.entries({
rsa: {
createKeyFn: () => acme.crypto.createPrivateRsaKey(),
createKeyAltFns: {
s1024: () => acme.crypto.createPrivateRsaKey(1024),
s4096: () => acme.crypto.createPrivateRsaKey(4096),
},
},
ecdsa: {
createKeyFn: () => acme.crypto.createPrivateEcdsaKey(),
createKeyAltFns: {
p384: () => acme.crypto.createPrivateEcdsaKey('P-384'),
p521: () => acme.crypto.createPrivateEcdsaKey('P-521'),
},
},
}).forEach(([name, { createKeyFn, createKeyAltFns }]) => {
describe(name, () => {
let testIssuers;
let testClient;
let testCertificate;
let testSanCertificate;
let testWildcardCertificate;
/**
* Fixtures
*/
it('should resolve certificate issuers [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
testIssuers = await getCertIssuers();
assert.isArray(testIssuers);
assert.isTrue(testIssuers.length > 1);
testIssuers.forEach((i) => {
assert.isString(i);
assert.strictEqual(1, testIssuers.filter((c) => (c === i)).length);
});
});
/**
* Initialize client
*/
it('should initialize client', async () => {
testClient = new acme.Client({
...clientOpts,
accountKey: await createKeyFn(),
});
});
/**
* Invalid challenge response
*/
it('should throw on invalid challenge response', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
await assert.isRejected(testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeNoopFn,
challengeRemoveFn: cts.challengeNoopFn,
}), /^authorization not found/i);
});
it('should throw on invalid challenge response with opts.skipChallengeVerification=true', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
await assert.isRejected(testClient.auto({
csr,
termsOfServiceAgreed: true,
skipChallengeVerification: true,
challengeCreateFn: cts.challengeNoopFn,
challengeRemoveFn: cts.challengeNoopFn,
}));
});
/**
* Challenge function exceptions
*/
it('should throw on challengeCreate exception', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
await assert.isRejected(testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeThrowFn,
challengeRemoveFn: cts.challengeNoopFn,
}), /^oops$/);
});
it('should not throw on challengeRemove exception', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeThrowFn,
});
assert.isString(cert);
});
it('should settle all challenges before rejecting', async () => {
const results = [];
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
altNames: [
`${uuid()}.${domainName}`,
`${uuid()}.${domainName}`,
`${uuid()}.${domainName}`,
`${uuid()}.${domainName}`,
],
}, await createKeyFn());
await assert.isRejected(testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: async (...args) => {
if ([0, 1, 2].includes(results.length)) {
results.push(false);
throw new Error('oops');
}
await new Promise((resolve) => { setTimeout(resolve, 500); });
results.push(true);
return cts.challengeCreateFn(...args);
},
challengeRemoveFn: cts.challengeRemoveFn,
}));
assert.strictEqual(results.length, 5);
assert.deepStrictEqual(results, [false, false, false, true, true]);
});
/**
* Order certificates
*/
it('should order certificate', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testDomain,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
assert.isString(cert);
testCertificate = cert;
});
it('should order certificate using http-01', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testHttpDomain,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.assertHttpChallengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
challengePriority: ['http-01'],
});
assert.isString(cert);
});
it('should order certificate using https-01', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testHttpsDomain,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.assertHttpsChallengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
challengePriority: ['http-01'],
});
assert.isString(cert);
});
it('should order certificate using dns-01', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testDnsDomain,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.assertDnsChallengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
challengePriority: ['dns-01'],
});
assert.isString(cert);
});
it('should order certificate using tls-alpn-01', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testAlpnDomain,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.assertTlsAlpnChallengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
challengePriority: ['tls-alpn-01'],
});
assert.isString(cert);
});
it('should order san certificate', async () => {
const [, csr] = await acme.crypto.createCsr({
altNames: testSanDomains,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
assert.isString(cert);
testSanCertificate = cert;
});
it('should order wildcard certificate', async () => {
const [, csr] = await acme.crypto.createCsr({
altNames: [testWildcardDomain, `*.${testWildcardDomain}`],
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
assert.isString(cert);
testWildcardCertificate = cert;
});
it('should order certificate with opts.skipChallengeVerification=true', async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
skipChallengeVerification: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
assert.isString(cert);
});
it('should order alternate certificate chain [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
await Promise.all(testIssuers.map(async (issuer) => {
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
preferredChain: issuer,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
const rootCert = acme.crypto.splitPemChain(cert).pop();
const info = acme.crypto.readCertificateInfo(rootCert);
assert.strictEqual(issuer, info.issuer.commonName);
}));
});
it('should get default chain with invalid preference [ACME_CAP_ALTERNATE_CERT_ROOTS]', async function () {
if (!capAlternateCertRoots) {
this.skip();
}
const [, csr] = await acme.crypto.createCsr({
commonName: `${uuid()}.${domainName}`,
}, await createKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
preferredChain: uuid(),
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
const rootCert = acme.crypto.splitPemChain(cert).pop();
const info = acme.crypto.readCertificateInfo(rootCert);
assert.strictEqual(testIssuers[0], info.issuer.commonName);
});
/**
* Order certificate with alternate key sizes
*/
Object.entries(createKeyAltFns).forEach(([k, altKeyFn]) => {
it(`should order certificate with key=${k}`, async () => {
const [, csr] = await acme.crypto.createCsr({
commonName: testDomain,
}, await altKeyFn());
const cert = await testClient.auto({
csr,
termsOfServiceAgreed: true,
challengeCreateFn: cts.challengeCreateFn,
challengeRemoveFn: cts.challengeRemoveFn,
});
assert.isString(cert);
});
});
/**
* Read certificates
*/
it('should read certificate info', () => {
const info = acme.crypto.readCertificateInfo(testCertificate);
spec.crypto.certificateInfo(info);
assert.isNull(info.domains.commonName);
assert.deepStrictEqual(info.domains.altNames, [testDomain]);
});
it('should read san certificate info', () => {
const info = acme.crypto.readCertificateInfo(testSanCertificate);
spec.crypto.certificateInfo(info);
assert.isNull(info.domains.commonName);
assert.deepStrictEqual(info.domains.altNames, testSanDomains);
});
it('should read wildcard certificate info', () => {
const info = acme.crypto.readCertificateInfo(testWildcardCertificate);
spec.crypto.certificateInfo(info);
assert.isNull(info.domains.commonName);
assert.deepStrictEqual(info.domains.altNames, [testWildcardDomain, `*.${testWildcardDomain}`]);
});
});
});
});

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packages/core/acme-client/test/challtestsrv.js Normal file
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/**
* Pebble Challenge Test Server integration
*/
const { assert } = require('chai');
const axios = require('./../src/axios');
const apiBaseUrl = process.env.ACME_CHALLTESTSRV_URL || null;
const httpsPort = axios.defaults.acmeSettings.httpsChallengePort || 443;
/**
* Send request
*/
async function request(apiPath, data = {}) {
if (!apiBaseUrl) {
throw new Error('No Pebble Challenge Test Server URL found');
}
await axios.request({
url: `${apiBaseUrl}/${apiPath}`,
method: 'post',
data,
});
return true;
}
/**
* State
*/
exports.isEnabled = () => !!apiBaseUrl;
/**
* DNS
*/
exports.addDnsARecord = async (host, addresses) => request('add-a', { host, addresses });
exports.setDnsCnameRecord = async (host, target) => request('set-cname', { host, target });
/**
* Challenge response
*/
async function addHttp01ChallengeResponse(token, content) {
return request('add-http01', { token, content });
}
async function addHttps01ChallengeResponse(token, content, targetHostname) {
await addHttp01ChallengeResponse(token, content);
return request('add-redirect', {
path: `/.well-known/acme-challenge/${token}`,
targetURL: `https://${targetHostname}:${httpsPort}/.well-known/acme-challenge/${token}`,
});
}
async function addDns01ChallengeResponse(host, value) {
return request('set-txt', { host, value });
}
async function addTlsAlpn01ChallengeResponse(host, content) {
return request('add-tlsalpn01', { host, content });
}
exports.addHttp01ChallengeResponse = addHttp01ChallengeResponse;
exports.addHttps01ChallengeResponse = addHttps01ChallengeResponse;
exports.addDns01ChallengeResponse = addDns01ChallengeResponse;
exports.addTlsAlpn01ChallengeResponse = addTlsAlpn01ChallengeResponse;
/**
* Challenge response mock functions
*/
async function assertHttpChallengeCreateFn(authz, challenge, keyAuthorization) {
assert.strictEqual(challenge.type, 'http-01');
return addHttp01ChallengeResponse(challenge.token, keyAuthorization);
}
async function assertHttpsChallengeCreateFn(authz, challenge, keyAuthorization) {
assert.strictEqual(challenge.type, 'http-01');
return addHttps01ChallengeResponse(challenge.token, keyAuthorization, authz.identifier.value);
}
async function assertDnsChallengeCreateFn(authz, challenge, keyAuthorization) {
assert.strictEqual(challenge.type, 'dns-01');
return addDns01ChallengeResponse(`_acme-challenge.${authz.identifier.value}.`, keyAuthorization);
}
async function assertTlsAlpnChallengeCreateFn(authz, challenge, keyAuthorization) {
assert.strictEqual(challenge.type, 'tls-alpn-01');
return addTlsAlpn01ChallengeResponse(authz.identifier.value, keyAuthorization);
}
async function challengeCreateFn(authz, challenge, keyAuthorization) {
if (challenge.type === 'http-01') {
return assertHttpChallengeCreateFn(authz, challenge, keyAuthorization);
}
if (challenge.type === 'dns-01') {
return assertDnsChallengeCreateFn(authz, challenge, keyAuthorization);
}
if (challenge.type === 'tls-alpn-01') {
return assertTlsAlpnChallengeCreateFn(authz, challenge, keyAuthorization);
}
throw new Error(`Unsupported challenge type ${challenge.type}`);
}
exports.challengeRemoveFn = async () => true;
exports.challengeNoopFn = async () => true;
exports.challengeThrowFn = async () => { throw new Error('oops'); };
exports.assertHttpChallengeCreateFn = assertHttpChallengeCreateFn;
exports.assertHttpsChallengeCreateFn = assertHttpsChallengeCreateFn;
exports.assertDnsChallengeCreateFn = assertDnsChallengeCreateFn;
exports.assertTlsAlpnChallengeCreateFn = assertTlsAlpnChallengeCreateFn;
exports.challengeCreateFn = challengeCreateFn;

30
packages/core/acme-client/test/fixtures/certificate.crt vendored Normal file
View File

@@ -0,0 +1,30 @@
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

23
packages/core/acme-client/test/fixtures/letsencrypt.crt vendored Normal file
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@@ -0,0 +1,23 @@
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

27
packages/core/acme-client/test/fixtures/private.key vendored Normal file
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@@ -0,0 +1,27 @@
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----

18
packages/core/acme-client/test/fixtures/san-certificate.crt vendored Normal file
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@@ -0,0 +1,18 @@
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

38
packages/core/acme-client/test/get-cert-issuers.js Normal file
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/**
* Get ACME certificate issuers
*/
const acme = require('./../');
const util = require('./../src/util');
const pebbleManagementUrl = process.env.ACME_PEBBLE_MANAGEMENT_URL || null;
/**
* Pebble
*/
async function getPebbleCertIssuers() {
/* Get intermediate certificate and resolve alternates */
const root = await acme.axios.get(`${pebbleManagementUrl}/intermediates/0`);
const links = util.parseLinkHeader(root.headers.link || '');
const alternates = await Promise.all(links.map(async (link) => acme.axios.get(link)));
/* Get certificate info */
const certs = [root].concat(alternates).map((c) => c.data);
const info = certs.map((c) => acme.crypto.readCertificateInfo(c));
/* Return issuers */
return info.map((i) => i.issuer.commonName);
}
/**
* Get certificate issuers
*/
module.exports = async () => {
if (pebbleManagementUrl) {
return getPebbleCertIssuers();
}
throw new Error('Unable to resolve list of certificate issuers');
};

49
packages/core/acme-client/test/setup.js Normal file
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/**
* Setup testing
*/
const fs = require('fs');
const chai = require('chai');
const chaiAsPromised = require('chai-as-promised');
const axios = require('./../src/axios');
/**
* Add promise support to Chai
*/
chai.use(chaiAsPromised);
/**
* Challenge test server ports
*/
if (process.env.ACME_HTTP_PORT) {
axios.defaults.acmeSettings.httpChallengePort = process.env.ACME_HTTP_PORT;
}
if (process.env.ACME_HTTPS_PORT) {
axios.defaults.acmeSettings.httpsChallengePort = process.env.ACME_HTTPS_PORT;
}
if (process.env.ACME_TLSALPN_PORT) {
axios.defaults.acmeSettings.tlsAlpnChallengePort = process.env.ACME_TLSALPN_PORT;
}
/**
* Greatly reduce retry duration while testing
*/
axios.defaults.acmeSettings.retryMaxAttempts = 3;
axios.defaults.acmeSettings.retryDefaultDelay = 1;
/**
* External account binding
*/
if (('ACME_CAP_EAB_ENABLED' in process.env) && (process.env.ACME_CAP_EAB_ENABLED === '1')) {
const pebbleConfig = JSON.parse(fs.readFileSync('/etc/pebble/pebble.json').toString());
const [kid, hmacKey] = Object.entries(pebbleConfig.pebble.externalAccountMACKeys)[0];
process.env.ACME_EAB_KID = kid;
process.env.ACME_EAB_HMAC_KEY = hmacKey;
}

175
packages/core/acme-client/test/spec.js Normal file
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/**
* Assertions
*/
const { assert } = require('chai');
const spec = {};
module.exports = spec;
/**
* ACME
*/
spec.rfc8555 = {};
spec.rfc8555.account = (obj) => {
assert.isObject(obj);
assert.isString(obj.status);
assert.include(['valid', 'deactivated', 'revoked'], obj.status);
assert.isString(obj.orders);
if ('contact' in obj) {
assert.isArray(obj.contact);
obj.contact.forEach((c) => assert.isString(c));
}
if ('termsOfServiceAgreed' in obj) {
assert.isBoolean(obj.termsOfServiceAgreed);
}
if ('externalAccountBinding' in obj) {
assert.isObject(obj.externalAccountBinding);
}
};
spec.rfc8555.order = (obj) => {
assert.isObject(obj);
assert.isString(obj.status);
assert.include(['pending', 'ready', 'processing', 'valid', 'invalid'], obj.status);
assert.isArray(obj.identifiers);
obj.identifiers.forEach((i) => spec.rfc8555.identifier(i));
assert.isArray(obj.authorizations);
obj.authorizations.forEach((a) => assert.isString(a));
assert.isString(obj.finalize);
if ('expires' in obj) {
assert.isString(obj.expires);
}
if ('notBefore' in obj) {
assert.isString(obj.notBefore);
}
if ('notAfter' in obj) {
assert.isString(obj.notAfter);
}
if ('error' in obj) {
assert.isObject(obj.error);
}
if ('certificate' in obj) {
assert.isString(obj.certificate);
}
/* Augmentations */
assert.isString(obj.url);
};
spec.rfc8555.authorization = (obj) => {
assert.isObject(obj);
spec.rfc8555.identifier(obj.identifier);
assert.isString(obj.status);
assert.include(['pending', 'valid', 'invalid', 'deactivated', 'expires', 'revoked'], obj.status);
assert.isArray(obj.challenges);
obj.challenges.forEach((c) => spec.rfc8555.challenge(c));
if ('expires' in obj) {
assert.isString(obj.expires);
}
if ('wildcard' in obj) {
assert.isBoolean(obj.wildcard);
}
/* Augmentations */
assert.isString(obj.url);
};
spec.rfc8555.identifier = (obj) => {
assert.isObject(obj);
assert.isString(obj.type);
assert.isString(obj.value);
};
spec.rfc8555.challenge = (obj) => {
assert.isObject(obj);
assert.isString(obj.type);
assert.isString(obj.url);
assert.isString(obj.status);
assert.include(['pending', 'processing', 'valid', 'invalid'], obj.status);
if ('validated' in obj) {
assert.isString(obj.validated);
}
if ('error' in obj) {
assert.isObject(obj.error);
}
};
/**
* Crypto
*/
spec.crypto = {};
spec.crypto.csrDomains = (obj) => {
assert.isObject(obj);
assert.isDefined(obj.commonName);
assert.isArray(obj.altNames);
obj.altNames.forEach((a) => assert.isString(a));
};
spec.crypto.certificateInfo = (obj) => {
assert.isObject(obj);
assert.isObject(obj.issuer);
assert.isDefined(obj.issuer.commonName);
assert.isObject(obj.domains);
assert.isDefined(obj.domains.commonName);
assert.isArray(obj.domains.altNames);
obj.domains.altNames.forEach((a) => assert.isString(a));
assert.strictEqual(Object.prototype.toString.call(obj.notBefore), '[object Date]');
assert.strictEqual(Object.prototype.toString.call(obj.notAfter), '[object Date]');
};
/**
* JWK
*/
spec.jwk = {};
spec.jwk.rsa = (obj) => {
assert.isObject(obj);
assert.isString(obj.e);
assert.isString(obj.kty);
assert.isString(obj.n);
assert.strictEqual(obj.e, 'AQAB');
assert.strictEqual(obj.kty, 'RSA');
};
spec.jwk.ecdsa = (obj) => {
assert.isObject(obj);
assert.isString(obj.crv);
assert.isString(obj.kty);
assert.isString(obj.x);
assert.isString(obj.y);
assert.strictEqual(obj.kty, 'EC');
};

11
packages/core/acme-client/tsconfig.json Normal file
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@@ -0,0 +1,11 @@
{
"compilerOptions": {
"module": "commonjs",
"lib": ["es6"],
"strict": true,
"noEmit": true,
"esModuleInterop": true,
"baseUrl": ".",
"paths": { "acme-client": ["."] }
}
}

190
packages/core/acme-client/types/index.d.ts vendored Normal file
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/**
* acme-client type definitions
*/
import { AxiosInstance } from 'axios';
import * as rfc8555 from './rfc8555';
export type PrivateKeyBuffer = Buffer;
export type PublicKeyBuffer = Buffer;
export type CertificateBuffer = Buffer;
export type CsrBuffer = Buffer;
export type PrivateKeyString = string;
export type PublicKeyString = string;
export type CertificateString = string;
export type CsrString = string;
/**
* Augmented ACME interfaces
*/
export interface Order extends rfc8555.Order {
url: string;
}
export interface Authorization extends rfc8555.Authorization {
url: string;
}
/**
* Client
*/
export interface ClientOptions {
directoryUrl: string;
accountKey: PrivateKeyBuffer | PrivateKeyString;
accountUrl?: string;
externalAccountBinding?: ClientExternalAccountBindingOptions;
backoffAttempts?: number;
backoffMin?: number;
backoffMax?: number;
}
export interface ClientExternalAccountBindingOptions {
kid: string;
hmacKey: string;
}
export interface ClientAutoOptions {
csr: CsrBuffer | CsrString;
challengeCreateFn: (authz: Authorization, challenge: rfc8555.Challenge, keyAuthorization: string) => Promise<any>;
challengeRemoveFn: (authz: Authorization, challenge: rfc8555.Challenge, keyAuthorization: string) => Promise<any>;
email?: string;
termsOfServiceAgreed?: boolean;
skipChallengeVerification?: boolean;
challengePriority?: string[];
preferredChain?: string;
}
export class Client {
constructor(opts: ClientOptions);
getTermsOfServiceUrl(): Promise<string>;
getAccountUrl(): string;
createAccount(data?: rfc8555.AccountCreateRequest): Promise<rfc8555.Account>;
updateAccount(data?: rfc8555.AccountUpdateRequest): Promise<rfc8555.Account>;
updateAccountKey(newAccountKey: PrivateKeyBuffer | PrivateKeyString, data?: object): Promise<rfc8555.Account>;
createOrder(data: rfc8555.OrderCreateRequest): Promise<Order>;
getOrder(order: Order): Promise<Order>;
finalizeOrder(order: Order, csr: CsrBuffer | CsrString): Promise<Order>;
getAuthorizations(order: Order): Promise<Authorization[]>;
deactivateAuthorization(authz: Authorization): Promise<Authorization>;
getChallengeKeyAuthorization(challenge: rfc8555.Challenge): Promise<string>;
verifyChallenge(authz: Authorization, challenge: rfc8555.Challenge): Promise<boolean>;
completeChallenge(challenge: rfc8555.Challenge): Promise<rfc8555.Challenge>;
waitForValidStatus<T = Order | Authorization | rfc8555.Challenge>(item: T): Promise<T>;
getCertificate(order: Order, preferredChain?: string): Promise<string>;
revokeCertificate(cert: CertificateBuffer | CertificateString, data?: rfc8555.CertificateRevocationRequest): Promise<void>;
auto(opts: ClientAutoOptions): Promise<string>;
}
/**
* Directory URLs
*/
export const directory: {
buypass: {
staging: string,
production: string
},
google: {
staging: string,
production: string
},
letsencrypt: {
staging: string,
production: string
},
zerossl: {
production: string
}
};
/**
* Crypto
*/
export interface CertificateDomains {
commonName: string;
altNames: string[];
}
export interface CertificateIssuer {
commonName: string;
}
export interface CertificateInfo {
issuer: CertificateIssuer;
domains: CertificateDomains;
notAfter: Date;
notBefore: Date;
}
export interface CsrOptions {
keySize?: number;
commonName?: string;
altNames?: string[];
country?: string;
state?: string;
locality?: string;
organization?: string;
organizationUnit?: string;
emailAddress?: string;
}
export interface RsaPublicJwk {
e: string;
kty: string;
n: string;
}
export interface EcdsaPublicJwk {
crv: string;
kty: string;
x: string;
y: string;
}
export interface CryptoInterface {
createPrivateKey(keySize?: number): Promise<PrivateKeyBuffer>;
createPrivateRsaKey(keySize?: number): Promise<PrivateKeyBuffer>;
createPrivateEcdsaKey(namedCurve?: 'P-256' | 'P-384' | 'P-521'): Promise<PrivateKeyBuffer>;
getPublicKey(keyPem: PrivateKeyBuffer | PrivateKeyString | PublicKeyBuffer | PublicKeyString): PublicKeyBuffer;
getJwk(keyPem: PrivateKeyBuffer | PrivateKeyString | PublicKeyBuffer | PublicKeyString): RsaPublicJwk | EcdsaPublicJwk;
splitPemChain(chainPem: CertificateBuffer | CertificateString): string[];
getPemBodyAsB64u(pem: CertificateBuffer | CertificateString): string;
readCsrDomains(csrPem: CsrBuffer | CsrString): CertificateDomains;
readCertificateInfo(certPem: CertificateBuffer | CertificateString): CertificateInfo;
createCsr(data: CsrOptions, keyPem?: PrivateKeyBuffer | PrivateKeyString): Promise<[PrivateKeyBuffer, CsrBuffer]>;
createAlpnCertificate(authz: Authorization, keyAuthorization: string, keyPem?: PrivateKeyBuffer | PrivateKeyString): Promise<[PrivateKeyBuffer, CertificateBuffer]>;
isAlpnCertificateAuthorizationValid(certPem: CertificateBuffer | CertificateString, keyAuthorization: string): boolean;
}
export const crypto: CryptoInterface;
/* TODO: LEGACY */
export interface CryptoLegacyInterface {
createPrivateKey(size?: number): Promise<PrivateKeyBuffer>;
createPublicKey(key: PrivateKeyBuffer | PrivateKeyString): Promise<PublicKeyBuffer>;
getPemBody(str: string): string;
splitPemChain(str: string): string[];
getModulus(input: PrivateKeyBuffer | PrivateKeyString | PublicKeyBuffer | PublicKeyString | CertificateBuffer | CertificateString | CsrBuffer | CsrString): Promise<Buffer>;
getPublicExponent(input: PrivateKeyBuffer | PrivateKeyString | PublicKeyBuffer | PublicKeyString | CertificateBuffer | CertificateString | CsrBuffer | CsrString): Promise<Buffer>;
readCsrDomains(csr: CsrBuffer | CsrString): Promise<CertificateDomains>;
readCertificateInfo(cert: CertificateBuffer | CertificateString): Promise<CertificateInfo>;
createCsr(data: CsrOptions, key?: PrivateKeyBuffer | PrivateKeyString): Promise<[PrivateKeyBuffer, CsrBuffer]>;
}
export const forge: CryptoLegacyInterface;
/**
* Axios
*/
export const axios: AxiosInstance;
/**
* Logger
*/
export function setLogger(fn: (msg: string) => void): void;

69
packages/core/acme-client/types/index.test-d.ts Normal file
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/**
* acme-client type definition tests
*/
import * as acme from 'acme-client';
(async () => {
/* Client */
const accountKey = await acme.crypto.createPrivateKey();
const client = new acme.Client({
accountKey,
directoryUrl: acme.directory.letsencrypt.staging
});
/* Account */
await client.createAccount({
termsOfServiceAgreed: true,
contact: ['mailto:test@example.com']
});
/* Order */
const order = await client.createOrder({
identifiers: [
{ type: 'dns', value: 'example.com' },
{ type: 'dns', value: '*.example.com' },
]
});
await client.getOrder(order);
/* Authorizations / Challenges */
const authorizations = await client.getAuthorizations(order);
const authorization = authorizations[0];
const challenge = authorization.challenges[0];
await client.getChallengeKeyAuthorization(challenge);
await client.verifyChallenge(authorization, challenge);
await client.completeChallenge(challenge);
await client.waitForValidStatus(challenge);
/* Finalize */
const [certKey, certCsr] = await acme.crypto.createCsr({
commonName: 'example.com',
altNames: ['example.com', '*.example.com']
});
await client.finalizeOrder(order, certCsr);
await client.getCertificate(order);
await client.getCertificate(order, 'DST Root CA X3');
/* Auto */
await client.auto({
csr: certCsr,
challengeCreateFn: async (authz, challenge, keyAuthorization) => {},
challengeRemoveFn: async (authz, challenge, keyAuthorization) => {}
});
await client.auto({
csr: certCsr,
email: 'test@example.com',
termsOfServiceAgreed: false,
skipChallengeVerification: false,
challengePriority: ['http-01', 'dns-01'],
preferredChain: 'DST Root CA X3',
challengeCreateFn: async (authz, challenge, keyAuthorization) => {},
challengeRemoveFn: async (authz, challenge, keyAuthorization) => {}
});
})();

123
packages/core/acme-client/types/rfc8555.d.ts vendored Normal file
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/**
* Account
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.2
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.3.2
*/
export interface Account {
status: 'valid' | 'deactivated' | 'revoked';
orders: string;
contact?: string[];
termsOfServiceAgreed?: boolean;
externalAccountBinding?: object;
}
export interface AccountCreateRequest {
contact?: string[];
termsOfServiceAgreed?: boolean;
onlyReturnExisting?: boolean;
externalAccountBinding?: object;
}
export interface AccountUpdateRequest {
status?: string;
contact?: string[];
termsOfServiceAgreed?: boolean;
}
/**
* Order
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.3
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.4
*/
export interface Order {
status: 'pending' | 'ready' | 'processing' | 'valid' | 'invalid';
identifiers: Identifier[];
authorizations: string[];
finalize: string;
expires?: string;
notBefore?: string;
notAfter?: string;
error?: object;
certificate?: string;
}
export interface OrderCreateRequest {
identifiers: Identifier[];
notBefore?: string;
notAfter?: string;
}
/**
* Authorization
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.1.4
*/
export interface Authorization {
identifier: Identifier;
status: 'pending' | 'valid' | 'invalid' | 'deactivated' | 'expired' | 'revoked';
challenges: Challenge[];
expires?: string;
wildcard?: boolean;
}
export interface Identifier {
type: string;
value: string;
}
/**
* Challenge
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-8
* https://datatracker.ietf.org/doc/html/rfc8555#section-8.3
* https://datatracker.ietf.org/doc/html/rfc8555#section-8.4
*/
export interface ChallengeAbstract {
type: string;
url: string;
status: 'pending' | 'processing' | 'valid' | 'invalid';
validated?: string;
error?: object;
}
export interface HttpChallenge extends ChallengeAbstract {
type: 'http-01';
token: string;
}
export interface DnsChallenge extends ChallengeAbstract {
type: 'dns-01';
token: string;
}
export type Challenge = HttpChallenge | DnsChallenge;
/**
* Certificate
*
* https://datatracker.ietf.org/doc/html/rfc8555#section-7.6
*/
export enum CertificateRevocationReason {
Unspecified = 0,
KeyCompromise = 1,
CACompromise = 2,
AffiliationChanged = 3,
Superseded = 4,
CessationOfOperation = 5,
CertificateHold = 6,
RemoveFromCRL = 8,
PrivilegeWithdrawn = 9,
AACompromise = 10,
}
export interface CertificateRevocationRequest {
reason?: CertificateRevocationReason;
}

18
packages/dns-providers/.eslintrc
View File

@@ -1,18 +0,0 @@
{
"extends": "standard",
"env": {
"mocha": true
},
"parserOptions": {
"sourceType": "module",
"ecmaVersion": 2020
},
"overrides": [
{
"files": ["*.test.js", "*.spec.js"],
"rules": {
"no-unused-expressions": "off"
}
}
]
}

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