Guia para Mac App Store
Este guia fornece informações sobre:
- Como assinar aplicativos Electron no macOS;
- Como enviar aplicativos Electron para a Mac App Store (MAS);
- As limitações de construção do MAS.
Requisitos
Para assinar os aplicativos Electron, as seguintes ferramentas devem ser instaladas primeiro:
- Xcode 11 ou superior.
- The @electron/osx-sign npm module.
Você também tem que registrar uma conta do Apple Developer e participar do Apple Developer Program.
Assinar aplicativos Electron
Electron apps can be distributed through Mac App Store or outside it. Each way requires different ways of signing and testing. This guide focuses on distribution via Mac App Store.
The following steps describe how to get the certificates from Apple, how to sign Electron apps, and how to test them.
Get certificates
The simplest way to get signing certificates is to use Xcode:
- Open Xcode and open "Accounts" preferences;
- Sign in with your Apple account;
- Select a team and click "Manage Certificates";
- In the lower-left corner of the signing certificates sheet, click the Add button (+), and add following certificates:
- "Apple Development"
- "Apple Distribution"
The "Apple Development" certificate is used to sign apps for development and testing, on machines that have been registered on Apple Developer website. The method of registration will be described in Prepare provisioning profile.
Apps signed with the "Apple Development" certificate cannot be submitted to Mac App Store. For that purpose, apps must be signed with the "Apple Distribution" certificate instead. But note that apps signed with the "Apple Distribution" certificate cannot run directly, they must be re-signed by Apple to be able to run, which will only be possible after being downloaded from the Mac App Store.
Other certificates
You may notice that there are also other kinds of certificates.
The "Developer ID Application" certificate is used to sign apps before distributing them outside the Mac App Store.
The "Developer ID Installer" and "Mac Installer Distribution" certificates are used to sign the Mac Installer Package instead of the app itself. Most Electron apps do not use Mac Installer Package so they are generally not needed.
The full list of certificate types can be found here.
Apps signed with "Apple Development" and "Apple Distribution" certificates can only run under App Sandbox, so they must use the MAS build of Electron. However, the "Developer ID Application" certificate does not have this restrictions, so apps signed with it can use either the normal build or the MAS build of Electron.
Legacy certificate names
Apple has been changing the names of certificates during past years, you might encounter them when reading old documentations, and some utilities are still using one of the old names.
- The "Apple Distribution" certificate was also named as "3rd Party Mac Developer Application" and "Mac App Distribution".
- The "Apple Development" certificate was also named as "Mac Developer" and "Development".
Prepare provisioning profile
If you want to test your app on your local machine before submitting your app to the Mac App Store, you have to sign the app with the "Apple Development" certificate with the provisioning profile embedded in the app bundle.
To create a provisioning profile, you can follow the below steps:
- Open the "Certificates, Identifiers & Profiles" page on the Apple Developer website.
- Add a new App ID for your app in the "Identifiers" page.
- Register your local machine in the "Devices" page. You can find your machine's "Device ID" in the "Hardware" page of the "System Information" app.
- Register a new Provisioning Profile in the "Profiles" page, and download it to
/path/to/yourapp.provisionprofile
.
Enable Apple's App Sandbox
Apps submitted to the Mac App Store must run under Apple's App Sandbox, and only the MAS build of Electron can run with the App Sandbox. The standard darwin build of Electron will fail to launch when run under App Sandbox.
When signing the app with @electron/osx-sign
, it will automatically add the necessary entitlements to your app's entitlements.
Extra steps without electron-osx-sign
If you are signing your app without using @electron/osx-sign
, you must ensure the app bundle's entitlements have at least following keys:
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>com.apple.security.app-sandbox</key>
<true/>
<key>com.apple.security.application-groups</key>
<array>
<string>TEAM_ID.your.bundle.id</string>
</array>
</dict>
</plist>
The TEAM_ID
should be replaced with your Apple Developer account's Team ID, and the your.bundle.id
should be replaced with the App ID of the app.
And the following entitlements must be added to the binaries and helpers in the app's bundle:
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>com.apple.security.app-sandbox</key>
<true/>
<key>com.apple.security.inherit</key>
<true/>
</dict>
</plist>
And the app bundle's Info.plist
must include ElectronTeamID
key, which has your Apple Developer account's Team ID as its value:
<plist version="1.0">
<dict>
...
<key>ElectronTeamID</key>
<string>TEAM_ID</string>
</dict>
</plist>
When using @electron/osx-sign
the ElectronTeamID
key will be added automatically by extracting the Team ID from the certificate's name. You may need to manually add this key if @electron/osx-sign
could not find the correct Team ID.
Sign apps for development
To sign an app that can run on your development machine, you must sign it with the "Apple Development" certificate and pass the provisioning profile to @electron/osx-sign
.
const { signAsync } = require('@electron/osx-sign')
signAsync({
app: '/path/to/your.app',
identity: 'Apple Development',
provisioningProfile: '/path/to/your.provisionprofile'
})
If you are signing without @electron/osx-sign
, you must place the provisioning profile to YourApp.app/Contents/embedded.provisionprofile
.
The signed app can only run on the machines that registered by the provisioning profile, and this is the only way to test the signed app before submitting to Mac App Store.
Sign apps for submitting to the Mac App Store
To sign an app that will be submitted to Mac App Store, you must sign it with the "Apple Distribution" certificate. Note that apps signed with this certificate will not run anywhere, unless it is downloaded from Mac App Store.
const { signAsync } = require('@electron/osx-sign')
signAsync({
app: 'path/to/your.app',
identity: 'Apple Distribution'
})
Submit apps to the Mac App Store
After signing the app with the "Apple Distribution" certificate, you can continue to submit it to Mac App Store.
However, this guide do not ensure your app will be approved by Apple; you still need to read Apple's Submitting Your App guide on how to meet the Mac App Store requirements.
Carregar
Apple Transporter should be used to upload the signed app to App Store Connect for processing, making sure you have created a record before uploading.
If you are seeing errors like private APIs uses, you should check if the app is using the MAS build of Electron.
Submit for review
After uploading, you should submit your app for review.
Limitations of MAS Build
In order to satisfy all requirements for app sandboxing, the following modules have been disabled in the MAS build:
crashReporter
autoUpdater
and the following behaviors have been changed:
- Video capture may not work for some machines.
- Certain accessibility features may not work.
- Apps will not be aware of DNS changes.
Also, due to the usage of app sandboxing, the resources which can be accessed by the app are strictly limited; you can read App Sandboxing for more information.
Additional entitlements
Every app running under the App Sandbox will run under a limited set of permissions, which limits potential damage from malicious code. Depending on which Electron APIs your app uses, you may need to add additional entitlements to your app's entitlements file. Otherwise, the App Sandbox may prevent you from using them.
Entitlements are specified using a file with format like property list (.plist
) or XML. You must provide an entitlement file for the application bundle itself and a child entitlement file which basically describes an inheritance of properties, specified for all other enclosing executable files like binaries, frameworks (.framework
), and dynamically linked libraries (.dylib
).
A full list of entitlements is available in the App Sandbox documentation, but below are a few entitlements you might need for your MAS app.
With @electron/osx-sign
, you can set custom entitlements per file as such:
const { signAsync } = require('@electron/osx-sign')
function getEntitlementsForFile (filePath) {
if (filePath.startsWith('my-path-1')) {
return './my-path-1.plist'
} else {
return './alternate.plist'
}
}
signAsync({
optionsForFile: (filePath) => ({
// Ensure you return the right entitlements path here based on the file being signed.
entitlements: getEntitlementsForFile(filePath)
})
})
Network access
Enable outgoing network connections to allow your app to connect to a server:
<key>com.apple.security.network.client</key>
<true/>
Enable incoming network connections to allow your app to open a network listening socket:
<key>com.apple.security.network.server</key>
<true/>
See the Enabling Network Access documentation for more details.
dialog.showOpenDialog
<key>com.apple.security.files.user-selected.read-only</key>
<true/>
See the Enabling User-Selected File Access documentation for more details.
dialog.showSaveDialog
<key>com.apple.security.files.user-selected.read-write</key>
<true/>
See the Enabling User-Selected File Access documentation for more details.
Cryptographic Algorithms Used by Electron
Dependendo dos países em que você esteja liberando seu aplicativo, você pode ser obrigado a fornecer informações sobre os algoritmos criptográficos usados em seu software. See the encryption export compliance docs for more information.
Electron uses following cryptographic algorithms:
- AES - NIST SP 800-38A, NIST SP 800-38D, RFC 3394
- HMAC - FIPS 198-1
- ECDSA - ANS X9.62–2005
- ECDH - ANS X9.63–2001
- HKDF - NIST SP 800-56C
- PBKDF2 - RFC 2898
- RSA - RFC 3447
- SHA - FIPS 180-4
- Blowfish - https://www.schneier.com/cryptography/blowfish/
- CAST - RFC 2144, RFC 2612
- DES - FIPS 46-3
- DH - RFC 2631
- DSA - ANSI X9.30
- EC - SEC 1
- IDEA - "On the Design and Security of Block Ciphers" book by X. Lai
- MD2 - RFC 1319
- MD4 - RFC 6150
- MD5 - RFC 1321
- MDC2 - ISO/IEC 10118-2
- RC2 - RFC 2268
- RC4 - RFC 4345
- RC5 - https://people.csail.mit.edu/rivest/Rivest-rc5rev.pdf
- RIPEMD - ISO/IEC 10118-3