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base: external:codeql_workflow_releaseconfig
Branches Tags
external:main external:sshextensions external:multipleauth external:cert_ui external:maxgoedjen-patch-2 external:maxg/disableicons external:maxgoedjen-patch-1 external:hardwaresec external:fixquote external:log_err external:crowdin_config external:loccredit external:menubar external:codeql_workflow_releaseconfig external:newsetup_loc external:update_localizations external:extensions external:packagesym external:stripenc external:xcode_26_newsetup external:xcode_26_copyableviews external:xcode_26_toolbar external:xcode_26_enhancedsec external:updateci external:completeconcurrency external:experimental_refresh external:RoboRich00A16_italian_loc external:homedir external:restartagent external:viewbuildercleanup external:automatic_signing external:socketportoverflow external:xcode_14 external:proxystore external:newcreation external:xpc external:async external:projected_xpc
external:v3.0.4 external:v3.0.3 external:v3.0.1-skipped external:v3.0.2 external:v3.0.0 external:v2.4.1 external:v0.0.0_test external:v2.4.0 external:v2.3.1 external:v2.3.0 external:v2.2.0 external:v0.0.0_beta1 external:v2.1.1 external:v2.1.0 external:v2.0.0 external:v1.0.3 external:v1.0.2 external:v1.0.1 external:v1.0.0 external:v0.5.1 external:v0.5.0 external:v0.4.2 external:v0.4.1 external:v0.4.0 external:v0.3.2 external:v0.3.1 external:v0.3.0 external:v0.2.0 external:v0.1.1
..
compare: external:updateci
Branches Tags
external:sshextensions external:multipleauth external:main external:cert_ui external:maxgoedjen-patch-2 external:maxg/disableicons external:maxgoedjen-patch-1 external:hardwaresec external:fixquote external:log_err external:crowdin_config external:loccredit external:menubar external:codeql_workflow_releaseconfig external:newsetup_loc external:update_localizations external:extensions external:packagesym external:stripenc external:xcode_26_newsetup external:xcode_26_copyableviews external:xcode_26_toolbar external:xcode_26_enhancedsec external:updateci external:completeconcurrency external:experimental_refresh external:RoboRich00A16_italian_loc external:homedir external:restartagent external:viewbuildercleanup external:automatic_signing external:socketportoverflow external:xcode_14 external:proxystore external:newcreation external:xpc external:async external:projected_xpc
external:v3.0.4 external:v3.0.3 external:v3.0.1-skipped external:v3.0.2 external:v3.0.0 external:v2.4.1 external:v0.0.0_test external:v2.4.0 external:v2.3.1 external:v2.3.0 external:v2.2.0 external:v0.0.0_beta1 external:v2.1.1 external:v2.1.0 external:v2.0.0 external:v1.0.3 external:v1.0.2 external:v1.0.1 external:v1.0.0 external:v0.5.1 external:v0.5.0 external:v0.4.2 external:v0.4.1 external:v0.4.0 external:v0.3.2 external:v0.3.1 external:v0.3.0 external:v0.2.0 external:v0.1.1

3 Commits
codeql_wor ... updateci

Author SHA1 Message Date
Max Goedjen
742fdb2e86 Update release.yml 2024-08-26 15:00:40 -07:00
Max Goedjen
d0b0ff30b1 Update nightly.yml 2024-08-26 14:59:57 -07:00
Max Goedjen
64e5337d61 Update test.yml 2024-08-26 14:59:23 -07:00
116 changed files with 2918 additions and 3943 deletions
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@@ -1,16 +0,0 @@
Update description
## Features
## Fixes
## Minimum macOS Version
## Build
https://github.com/maxgoedjen/secretive/actions/runs/RUN_ID
## Attestation
https://github.com/maxgoedjen/secretive/attestations/ATTESTATION_ID

16
.github/workflows/add-to-project.yml vendored Normal file
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@@ -0,0 +1,16 @@
name: Add bugs to bugs project
on:
issues:
types:
- opened
jobs:
add-to-project:
name: Add issue to project
runs-on: ubuntu-latest
steps:
- uses: actions/add-to-project@v1.0.1
with:
project-url: https://github.com/users/maxgoedjen/projects/1
github-token: ${{ secrets.ADD_TO_PROJECT_PAT }}

46
.github/workflows/codeql.yml vendored
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@@ -1,46 +0,0 @@
name: "CodeQL Advanced"
on:
push:
branches: [ "main" ]
pull_request:
branches: [ "main" ]
schedule:
- cron: '26 15 * * 3'
jobs:
analyze:
name: Analyze (${{ matrix.language }})
runs-on: ${{ (matrix.language == 'swift' && 'macos-latest') || 'ubuntu-latest' }}
permissions:
security-events: write
packages: read
actions: read
contents: read
strategy:
fail-fast: false
matrix:
include:
- language: actions
build-mode: none
- language: swift
build-mode: manual
steps:
- name: Checkout repository
uses: actions/checkout@v4
- name: Initialize CodeQL
uses: github/codeql-action/init@v3
with:
languages: ${{ matrix.language }}
build-mode: ${{ matrix.build-mode }}
- if: matrix.build-mode == 'manual'
name: "Select Xcode"
run: sudo xcrun xcode-select -s /Applications/Xcode_26.0.app
- if: matrix.build-mode == 'manual'
name: "Build"
run: xcrun xcodebuild -project Sources/Secretive.xcodeproj -scheme Secretive -configuration Release build CODE_SIGN_IDENTITY="" CODE_SIGNING_REQUIRED=NO
- name: Perform CodeQL Analysis
uses: github/codeql-action/analyze@v3
with:
category: "/language:${{matrix.language}}"

19
.github/workflows/nightly.yml vendored
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@@ -6,10 +6,10 @@ on:
jobs:
build:
# runs-on: macOS-latest
runs-on: macos-15
runs-on: macos-14
timeout-minutes: 10
steps:
- uses: actions/checkout@v5
- uses: actions/checkout@v4
- name: Setup Signing
env:
SIGNING_DATA: ${{ secrets.SIGNING_DATA }}
@@ -20,7 +20,7 @@ jobs:
APPLE_API_KEY_ID: ${{ secrets.APPLE_API_KEY_ID }}
run: ./.github/scripts/signing.sh
- name: Set Environment
run: sudo xcrun xcode-select -s /Applications/Xcode_26.0.app
run: sudo xcrun xcode-select -s /Applications/Xcode_15.4.app
- name: Update Build Number
env:
RUN_ID: ${{ github.run_id }}
@@ -39,11 +39,14 @@ jobs:
APPLE_API_KEY_ID: ${{ secrets.APPLE_API_KEY_ID }}
APPLE_API_ISSUER: ${{ secrets.APPLE_API_ISSUER }}
run: xcrun notarytool submit --key ~/.private_keys/AuthKey_$APPLE_API_KEY_ID.p8 --key-id $APPLE_API_KEY_ID --issuer $APPLE_API_ISSUER Secretive.zip
- name: Attest
id: attest
uses: actions/attest-build-provenance@v2
with:
subject-path: 'Secretive.zip'
- name: Document SHAs
run: |
echo "sha-512:"
shasum -a 512 Secretive.zip
shasum -a 512 Archive.zip
echo "sha-256:"
shasum -a 256 Secretive.zip
shasum -a 256 Archive.zip
- name: Upload App to Artifacts
uses: actions/upload-artifact@v4
with:

78
.github/workflows/release.yml vendored
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@@ -7,10 +7,10 @@ on:
jobs:
test:
# runs-on: macOS-latest
runs-on: macos-15
runs-on: macos-14
timeout-minutes: 10
steps:
- uses: actions/checkout@v5
- uses: actions/checkout@v4
- name: Setup Signing
env:
SIGNING_DATA: ${{ secrets.SIGNING_DATA }}
@@ -21,19 +21,18 @@ jobs:
APPLE_API_KEY_ID: ${{ secrets.APPLE_API_KEY_ID }}
run: ./.github/scripts/signing.sh
- name: Set Environment
run: sudo xcrun xcode-select -s /Applications/Xcode_26.0.app
run: sudo xcrun xcode-select -s /Applications/Xcode_15.4.app
- name: Test
run: swift test --build-system swiftbuild --package-path Sources/Packages
run: |
pushd Sources/Packages
swift test
popd
build:
# runs-on: macOS-latest
runs-on: macos-15
permissions:
id-token: write
contents: write
attestations: write
runs-on: macos-14
timeout-minutes: 10
steps:
- uses: actions/checkout@v5
- uses: actions/checkout@v4
- name: Setup Signing
env:
SIGNING_DATA: ${{ secrets.SIGNING_DATA }}
@@ -44,7 +43,7 @@ jobs:
APPLE_API_KEY_ID: ${{ secrets.APPLE_API_KEY_ID }}
run: ./.github/scripts/signing.sh
- name: Set Environment
run: sudo xcrun xcode-select -s /Applications/Xcode_26.0.app
run: sudo xcrun xcode-select -s /Applications/Xcode_15.4.app
- name: Update Build Number
env:
TAG_NAME: ${{ github.ref }}
@@ -59,29 +58,54 @@ jobs:
- name: Create ZIPs
run: |
ditto -c -k --sequesterRsrc --keepParent Archive.xcarchive/Products/Applications/Secretive.app ./Secretive.zip
ditto -c -k --sequesterRsrc --keepParent Archive.xcarchive ./Xcode_Archive.zip
ditto -c -k --sequesterRsrc --keepParent Archive.xcarchive ./Archive.zip
- name: Notarize
env:
APPLE_API_KEY_ID: ${{ secrets.APPLE_API_KEY_ID }}
APPLE_API_ISSUER: ${{ secrets.APPLE_API_ISSUER }}
run: xcrun notarytool submit --key ~/.private_keys/AuthKey_$APPLE_API_KEY_ID.p8 --key-id $APPLE_API_KEY_ID --issuer $APPLE_API_ISSUER Secretive.zip
- name: Attest
id: attest
uses: actions/attest-build-provenance@v2
with:
subject-path: 'Secretive.zip, Xcode_Archive.zip'
- name: Create Release
- name: Document SHAs
run: |
sed -i.tmp "s/RUN_ID/$RUN_ID/g" .github/templates/release.md
sed -i.tmp "s/ATTESTATION_ID/$ATTESTATION_ID/g" .github/templates/release.md
gh release create $TAG_NAME -d -F .github/templates/release.md
gh release upload Secretive.zip
gh release upload Xcode_Archive.zip
echo "sha-512:"
shasum -a 512 Secretive.zip
shasum -a 512 Archive.zip
echo "sha-256:"
shasum -a 256 Secretive.zip
shasum -a 256 Archive.zip
- name: Create Release
id: create_release
uses: actions/create-release@v1
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
TAG_NAME: ${{ github.ref }}
RUN_ID: ${{ github.run_id }}
ATTESTATION_ID: ${{ steps.attest.outputs.attestation-id }}
with:
tag_name: ${{ github.ref }}
release_name: ${{ github.ref }}
body: |
Update description
## Features
## Fixes
## Minimum macOS Version
## Build
https://github.com/maxgoedjen/secretive/actions/runs/${{ github.run_id }}
draft: true
prerelease: false
- name: Upload App to Release
id: upload-release-asset-app
uses: actions/upload-release-asset@v1.0.1
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
with:
upload_url: ${{ steps.create_release.outputs.upload_url }}
asset_path: ./Secretive.zip
asset_name: Secretive.zip
asset_content_type: application/zip
- name: Upload App to Artifacts
uses: actions/upload-artifact@v4
with:
@@ -91,4 +115,4 @@ jobs:
uses: actions/upload-artifact@v4
with:
name: Xcode_Archive.zip
path: Xcode_Archive.zip
path: Archive.zip

15
.github/workflows/test.yml vendored
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@@ -4,13 +4,14 @@ on: [push, pull_request]
jobs:
test:
# runs-on: macOS-latest
runs-on: macos-15
runs-on: macos-14
timeout-minutes: 10
steps:
- uses: actions/checkout@v5
- uses: actions/checkout@v4
- name: Set Environment
run: sudo xcrun xcode-select -s /Applications/Xcode_26.0.app
- name: Test Main Packages
run: swift test --build-system swiftbuild --package-path Sources/Packages
- name: Test SecretKit Packages
run: swift test --build-system swiftbuild
run: sudo xcrun xcode-select -s /Applications/Xcode_15.4.app
- name: Test
run: |
pushd Sources/Packages
swift test
popd

117
APP_CONFIG.md
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@@ -1,3 +1,116 @@
# App Configuration
# Setting up Third Party Apps FAQ
Instructions for setting up apps and shells has moved to [secretive-config-instructions](https://github.com/maxgoedjen/secretive-config-instructions)!
## Tower
Tower provides [instructions](https://www.git-tower.com/help/mac/integration/environment).
## GitHub Desktop
Should just work, no configuration needed
## Fork
Add this to your `~/.ssh/config` (the path should match the socket path from the setup flow).
```
Host *
IdentityAgent /Users/$YOUR_USERNAME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh
```
## VS Code
Add this to your `~/.ssh/config` (the path should match the socket path from the setup flow).
```
Host *
IdentityAgent /Users/$YOUR_USERNAME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh
```
## nushell
Add this to your `~/.ssh/config` (the path should match the socket path from the setup flow).
```
Host *
IdentityAgent /Users/$YOUR_USERNAME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh
```
## Cyberduck
Add this to `~/Library/LaunchAgents/com.maxgoedjen.Secretive.SecretAgent.plist`
```
<?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>Label</key>
<string>link-ssh-auth-sock</string>
<key>ProgramArguments</key>
<array>
<string>/bin/sh</string>
<string>-c</string>
<string>/bin/ln -sf $HOME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh $SSH_AUTH_SOCK</string>
</array>
<key>RunAtLoad</key>
<true/>
</dict>
</plist>
```
Log out and log in again before launching Cyberduck.
## Mountain Duck
Add this to `~/Library/LaunchAgents/com.maxgoedjen.Secretive.SecretAgent.plist`
```
<?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>Label</key>
<string>link-ssh-auth-sock</string>
<key>ProgramArguments</key>
<array>
<string>/bin/sh</string>
<string>-c</string>
<string>/bin/ln -sf $HOME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh $SSH_AUTH_SOCK</string>
</array>
<key>RunAtLoad</key>
<true/>
</dict>
</plist>
```
Log out and log in again before launching Mountain Duck.
## GitKraken
Add this to `~/Library/LaunchAgents/com.maxgoedjen.Secretive.SecretAgent.plist`
```
<?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>Label</key>
<string>link-ssh-auth-sock</string>
<key>ProgramArguments</key>
<array>
<string>/bin/sh</string>
<string>-c</string>
<string>/bin/ln -sf $HOME/Library/Containers/com.maxgoedjen.Secretive.SecretAgent/Data/socket.ssh $SSH_AUTH_SOCK</string>
</array>
<key>RunAtLoad</key>
<true/>
</dict>
</plist>
```
Log out and log in again before launching Gitkraken. Then enable "Use local SSH agent in GitKraken Preferences (Located under Preferences -> SSH)
# The app I use isn't listed here!
If you know how to get it set up, please open a PR for this page and add it! Contributions are very welcome.
If you're not able to get it working, please file a [GitHub issue](https://github.com/maxgoedjen/secretive/issues/new) for it. No guarantees we'll be able to get it working, but chances are someone else in the community might be able to.

2
CONTRIBUTING.md
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@@ -20,7 +20,7 @@ If you'd like to contribute a translation, please see [Localizing](LOCALIZING.md
## Credits
If you make a material contribution to the app, please add yourself to the end of the [credits](https://github.com/maxgoedjen/secretive/blob/main/Sources/Secretive/Credits.rtf).
If you make a material contribution to the app, please add yourself to the end of the [credits](https://github.com/maxgoedjen/secretive/blob/main/Secretive/Credits.rtf).
## Collaborator Status

0
Design/DESIGN.md → DESIGN.md
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Design/Icon.icon/icon.json
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@@ -1,59 +0,0 @@
{
"fill" : {
"solid" : "srgb:0.00000,0.53333,1.00000,0.00000"
},
"groups" : [
{
"blur-material" : 0.5,
"layers" : [
{
"image-name" : "Icon 7.png",
"name" : "Signature",
"position" : {
"scale" : 1,
"translation-in-points" : [
64.00083178971097,
-58.21801551632592
]
}
},
{
"image-name" : "Rectangle Copy 10.png",
"name" : "Border"
},
{
"fill-specializations" : [
{
"appearance" : "tinted",
"value" : {
"solid" : "display-p3:0.00000,0.00000,0.00000,0.50000"
}
}
],
"image-name" : "Rectangle 2 8.png",
"name" : "Backing",
"opacity-specializations" : [
{
"appearance" : "tinted",
"value" : 1
}
]
}
],
"shadow" : {
"kind" : "layer-color",
"opacity" : 0.5
},
"specular" : true,
"translucency" : {
"enabled" : true,
"value" : 0.5
}
}
],
"supported-platforms" : {
"squares" : [
"macOS"
]
}
}

2
FAQ.md
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@@ -6,7 +6,7 @@ The secure enclave doesn't allow import or export of private keys. For any new c
### Secretive doesn't work with my git client/app
Secretive relies on the `SSH_AUTH_SOCK` environment variable being respected. The `git` and `ssh` command line tools natively respect this, but third party apps may require some configuration to work. A non-exhaustive list of setup steps is provided in the [secretive-config-instructions](https://github.com/maxgoedjen/secretive-config-instructions) repo.
Secretive relies on the `SSH_AUTH_SOCK` environment variable being respected. The `git` and `ssh` command line tools natively respect this, but third party apps may require some configuration to work. A non-exhaustive list of setup steps is provided in the [App Config FAQ](APP_CONFIG.md).
### Secretive isn't working for me

69
Package.swift
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@@ -1,69 +0,0 @@
// swift-tools-version:6.2
// The swift-tools-version declares the minimum version of Swift required to build this package.
import PackageDescription
// This is basically the same package as `Sources/Packages/Package.swift`, but thinned slightly.
// Ideally this would be the same package, but SPM requires it to be at the root of the project,
// and Xcode does _not_ like that, so they're separate.
let package = Package(
name: "SecretKit",
defaultLocalization: "en",
platforms: [
.macOS(.v14)
],
products: [
.library(
name: "SecretKit",
targets: ["SecretKit"]),
.library(
name: "SecureEnclaveSecretKit",
targets: ["SecureEnclaveSecretKit"]),
.library(
name: "SmartCardSecretKit",
targets: ["SmartCardSecretKit"]),
],
dependencies: [
],
targets: [
.target(
name: "SecretKit",
dependencies: [],
path: "Sources/Packages/Sources/SecretKit",
resources: [localization],
swiftSettings: swiftSettings
),
.testTarget(
name: "SecretKitTests",
dependencies: ["SecretKit", "SecureEnclaveSecretKit", "SmartCardSecretKit"],
path: "Sources/Packages/Tests/SecretKitTests",
swiftSettings: swiftSettings
),
.target(
name: "SecureEnclaveSecretKit",
dependencies: ["SecretKit"],
path: "Sources/Packages/Sources/SecureEnclaveSecretKit",
resources: [localization],
swiftSettings: swiftSettings
),
.target(
name: "SmartCardSecretKit",
dependencies: ["SecretKit"],
path: "Sources/Packages/Sources/SmartCardSecretKit",
resources: [localization],
swiftSettings: swiftSettings
),
]
)
var localization: Resource {
.process("../../Localizable.xcstrings")
}
var swiftSettings: [PackageDescription.SwiftSetting] {
[
.swiftLanguageMode(.v6),
// This freaks out Xcode in a dependency context.
// .treatAllWarnings(as: .error),
]
}

6
README.md
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@@ -1,4 +1,4 @@
# Secretive [![Test](https://github.com/maxgoedjen/secretive/actions/workflows/test.yml/badge.svg?branch=main)](https://github.com/maxgoedjen/secretive/actions/workflows/test.yml) ![Release](https://github.com/maxgoedjen/secretive/workflows/Release/badge.svg)
# Secretive ![Test](https://github.com/maxgoedjen/secretive/workflows/Test/badge.svg) ![Release](https://github.com/maxgoedjen/secretive/workflows/Release/badge.svg)
Secretive is an app for storing and managing SSH keys in the Secure Enclave. It is inspired by the [sekey project](https://github.com/sekey/sekey), but rewritten in Swift with no external dependencies and with a handy native management app.
@@ -49,7 +49,7 @@ There's a [FAQ here](FAQ.md).
### Auditable Build Process
Builds are produced by GitHub Actions with an auditable build and release generation process. Starting with Secretive 3.0, builds are attested using [GitHub Artifact Attestation](https://docs.github.com/en/actions/concepts/security/artifact-attestations). Attestations are viewable in the build log for a build, and also on the [main attestation page](https://github.com/maxgoedjen/secretive/attestations).
Builds are produced by GitHub Actions with an auditable build and release generation process. Each build has a "Document SHAs" step, which will output SHA checksums for the build produced by the GitHub Action, so you can verify that the source code for a given build corresponds to any given release.
### A Note Around Code Signing and Keychains
@@ -61,4 +61,4 @@ Because secrets in the Secure Enclave are not exportable, they are not able to b
## Security
Secretive's security policy is detailed in [SECURITY.md](SECURITY.md). To report security issues, please use [GitHub's private reporting feature.](https://docs.github.com/en/code-security/security-advisories/guidance-on-reporting-and-writing-information-about-vulnerabilities/privately-reporting-a-security-vulnerability#privately-reporting-a-security-vulnerability)
If you discover any vulnerabilities in this project, please notify [max.goedjen@gmail.com](mailto:max.goedjen@gmail.com) with the subject containing "SECRETIVE SECURITY."

20
SECURITY.md
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@@ -1,27 +1,9 @@
# Security Policy
## Security Principles
Secretive is designed with a few general tenets in mind:
### It's Hard to Leak a Key Secretive Can't Read The Key Material
Secretive only operates on hardware-backed keys. In general terms, this means that it should be _very_ hard for Secretive to have any sort of bug that causes a key to be shared, because Secretive can't access private key data even if it wants to.
### Simplicity and Auditability
Secretive won't expand to have every feature it could possibly have. Part of the goal of the app is that it is possible for consumers to reasonably audit the code, and that often means not implementing features that might be cool, but which would significantly inflate the size of the codebase.
### Dependencies
Both in support of the previous principle and to rule out supply chain attacks, Secretive does not rely on any third party dependencies.
There are limited exceptions to this, particularly in the build process, but the app itself does not depend on any third party code.
## Supported Versions
The latest version on the [Releases page](https://github.com/maxgoedjen/secretive/releases) is the only currently supported version.
## Reporting a Vulnerability
To report security issues, please use [GitHub's private reporting feature.](https://docs.github.com/en/code-security/security-advisories/guidance-on-reporting-and-writing-information-about-vulnerabilities/privately-reporting-a-security-vulnerability#privately-reporting-a-security-vulnerability)
If you discover any vulnerabilities in this project, please notify max.goedjen@gmail.com with the subject containing "SECRETIVE SECURITY."

42
Sources/Packages/Package.swift
View File

@@ -1,13 +1,12 @@
// swift-tools-version:6.2
// swift-tools-version:5.9
// The swift-tools-version declares the minimum version of Swift required to build this package.
import PackageDescription
let package = Package(
name: "SecretivePackages",
defaultLocalization: "en",
platforms: [
.macOS(.v14)
.macOS(.v12)
],
products: [
.library(
@@ -35,59 +34,42 @@ let package = Package(
.target(
name: "SecretKit",
dependencies: [],
resources: [localization],
swiftSettings: swiftSettings,
swiftSettings: [.enableExperimentalFeature("StrictConcurrency"), .unsafeFlags(["-warnings-as-errors"])]
),
.testTarget(
name: "SecretKitTests",
dependencies: ["SecretKit", "SecureEnclaveSecretKit", "SmartCardSecretKit"],
swiftSettings: swiftSettings,
swiftSettings: [.unsafeFlags(["-warnings-as-errors"])]
),
.target(
name: "SecureEnclaveSecretKit",
dependencies: ["SecretKit"],
resources: [localization],
swiftSettings: swiftSettings,
swiftSettings: [.unsafeFlags(["-warnings-as-errors"])]
),
.target(
name: "SmartCardSecretKit",
dependencies: ["SecretKit"],
resources: [localization],
swiftSettings: swiftSettings,
swiftSettings: [.unsafeFlags(["-warnings-as-errors"])]
),
.target(
name: "SecretAgentKit",
dependencies: ["SecretKit", "SecretAgentKitHeaders"],
resources: [localization],
swiftSettings: swiftSettings,
swiftSettings: [.unsafeFlags(["-warnings-as-errors"])]
),
.systemLibrary(
name: "SecretAgentKitHeaders",
name: "SecretAgentKitHeaders"
),
.testTarget(
name: "SecretAgentKitTests",
dependencies: ["SecretAgentKit"],
),
dependencies: ["SecretAgentKit"])
,
.target(
name: "Brief",
dependencies: [],
resources: [localization],
swiftSettings: swiftSettings,
dependencies: []
),
.testTarget(
name: "BriefTests",
dependencies: ["Brief"],
dependencies: ["Brief"]
),
]
)
var localization: Resource {
.process("../../Localizable.xcstrings")
}
var swiftSettings: [PackageDescription.SwiftSetting] {
[
.swiftLanguageMode(.v6),
.treatAllWarnings(as: .error),
]
}

2
Sources/Packages/Sources/Brief/Release.swift
View File

@@ -1,7 +1,7 @@
import Foundation
/// A release is a representation of a downloadable update.
public struct Release: Codable, Sendable {
public struct Release: Codable {
/// The user-facing name of the release. Typically "Secretive 1.2.3"
public let name: String

2
Sources/Packages/Sources/Brief/SemVer.swift
View File

@@ -1,7 +1,7 @@
import Foundation
/// A representation of a Semantic Version.
public struct SemVer: Sendable {
public struct SemVer {
/// The SemVer broken into an array of integers.
let versionNumbers: [Int]

55
Sources/Packages/Sources/Brief/Updater.swift
View File

@@ -1,18 +1,10 @@
import Foundation
import Observation
import Combine
/// A concrete implementation of ``UpdaterProtocol`` which considers the current release and OS version.
@Observable public final class Updater: UpdaterProtocol, Sendable {
private let state = State()
@MainActor @Observable public final class State {
var update: Release? = nil
nonisolated init() {}
}
public var update: Release? {
state.update
}
public final class Updater: ObservableObject, UpdaterProtocol {
@Published public var update: Release?
public let testBuild: Bool
/// The current OS version.
@@ -26,43 +18,36 @@ import Observation
/// - checkFrequency: The interval at which the Updater should check for updates. Subject to a tolerance of 1 hour.
/// - osVersion: The current OS version.
/// - currentVersion: The current version of the app that is running.
public init(
checkOnLaunch: Bool,
checkFrequency: TimeInterval = Measurement(value: 24, unit: UnitDuration.hours).converted(to: .seconds).value,
osVersion: SemVer = SemVer(ProcessInfo.processInfo.operatingSystemVersion),
currentVersion: SemVer = SemVer(Bundle.main.infoDictionary?["CFBundleShortVersionString"] as? String ?? "0.0.0")
) {
public init(checkOnLaunch: Bool, checkFrequency: TimeInterval = Measurement(value: 24, unit: UnitDuration.hours).converted(to: .seconds).value, osVersion: SemVer = SemVer(ProcessInfo.processInfo.operatingSystemVersion), currentVersion: SemVer = SemVer(Bundle.main.infoDictionary?["CFBundleShortVersionString"] as? String ?? "0.0.0")) {
self.osVersion = osVersion
self.currentVersion = currentVersion
testBuild = currentVersion == SemVer("0.0.0")
if checkOnLaunch {
// Don't do a launch check if the user hasn't seen the setup prompt explaining updater yet.
Task {
await checkForUpdates()
}
checkForUpdates()
}
Task {
while !Task.isCancelled {
try? await Task.sleep(for: .seconds(Int(checkFrequency)))
await checkForUpdates()
}
let timer = Timer.scheduledTimer(withTimeInterval: checkFrequency, repeats: true) { _ in
self.checkForUpdates()
}
timer.tolerance = 60*60
}
/// Manually trigger an update check.
public func checkForUpdates() async {
guard let (data, _) = try? await URLSession.shared.data(from: Constants.updateURL) else { return }
guard let releases = try? JSONDecoder().decode([Release].self, from: data) else { return }
await evaluate(releases: releases)
public func checkForUpdates() {
URLSession.shared.dataTask(with: Constants.updateURL) { data, _, _ in
guard let data = data else { return }
guard let releases = try? JSONDecoder().decode([Release].self, from: data) else { return }
self.evaluate(releases: releases)
}.resume()
}
/// Ignores a specified release. `update` will be nil if the user has ignored the latest available release.
/// - Parameter release: The release to ignore.
public func ignore(release: Release) async {
public func ignore(release: Release) {
guard !release.critical else { return }
defaults.set(true, forKey: release.name)
await MainActor.run {
state.update = nil
DispatchQueue.main.async {
self.update = nil
}
}
@@ -72,7 +57,7 @@ extension Updater {
/// Evaluates the available downloadable releases, and selects the newest non-prerelease release that the user is able to run.
/// - Parameter releases: An array of ``Release`` objects.
func evaluate(releases: [Release]) async {
func evaluate(releases: [Release]) {
guard let release = releases
.sorted()
.reversed()
@@ -82,8 +67,8 @@ extension Updater {
guard !release.prerelease else { return }
let latestVersion = SemVer(release.name)
if latestVersion > currentVersion {
await MainActor.run {
state.update = release
DispatchQueue.main.async {
self.update = release
}
}
}

6
Sources/Packages/Sources/Brief/UpdaterProtocol.swift
View File

@@ -1,13 +1,13 @@
import Foundation
import Combine
/// A protocol for retreiving the latest available version of an app.
public protocol UpdaterProtocol: Observable, Sendable {
public protocol UpdaterProtocol: ObservableObject {
/// The latest update
@MainActor var update: Release? { get }
var update: Release? { get }
/// A boolean describing whether or not the current build of the app is a "test" build (ie, a debug build or otherwise special build)
var testBuild: Bool { get }
func ignore(release: Release) async
}

1
Sources/Packages/Sources/Localization/Stub.swift
View File

@@ -1 +0,0 @@

161
Sources/Packages/Sources/SecretAgentKit/Agent.swift
View File

@@ -5,12 +5,12 @@ import SecretKit
import AppKit
/// The `Agent` is an implementation of an SSH agent. It manages coordination and access between a socket, traces requests, notifies witnesses and passes requests to stores.
public final class Agent: Sendable {
public final class Agent {
private let storeList: SecretStoreList
private let witness: SigningWitness?
private let publicKeyWriter = OpenSSHPublicKeyWriter()
private let signatureWriter = OpenSSHSignatureWriter()
private let writer = OpenSSHKeyWriter()
private let requestTracer = SigningRequestTracer()
private let certificateHandler = OpenSSHCertificateHandler()
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "Agent")
@@ -22,9 +22,7 @@ public final class Agent: Sendable {
logger.debug("Agent is running")
self.storeList = storeList
self.witness = witness
Task { @MainActor in
await certificateHandler.reloadCertificates(for: storeList.allSecrets)
}
certificateHandler.reloadCertificates(for: storeList.allSecrets)
}
}
@@ -33,38 +31,41 @@ extension Agent {
/// Handles an incoming request.
/// - Parameters:
/// - data: The data to handle.
/// - provenance: The origin of the request.
/// - Returns: A response data payload.
public func handle(data: Data, provenance: SigningRequestProvenance) async throws -> Data {
/// - reader: A ``FileHandleReader`` to read the content of the request.
/// - writer: A ``FileHandleWriter`` to write the response to.
/// - Return value:
/// - Boolean if data could be read
@discardableResult @Sendable public func handle(reader: FileHandleReader, writer: FileHandleWriter) async -> Bool {
logger.debug("Agent handling new data")
guard data.count > 4 else {
throw InvalidDataProvidedError()
}
let data = Data(reader.availableData)
guard data.count > 4 else { return false}
let requestTypeInt = data[4]
guard let requestType = SSHAgent.RequestType(rawValue: requestTypeInt) else {
writer.write(OpenSSHKeyWriter().lengthAndData(of: SSHAgent.ResponseType.agentFailure.data))
logger.debug("Agent returned \(SSHAgent.ResponseType.agentFailure.debugDescription)")
return SSHAgent.ResponseType.agentFailure.data.lengthAndData
return true
}
logger.debug("Agent handling request of type \(requestType.debugDescription)")
let subData = Data(data[5...])
let response = await handle(requestType: requestType, data: subData, provenance: provenance)
return response
let response = await handle(requestType: requestType, data: subData, reader: reader)
writer.write(response)
return true
}
private func handle(requestType: SSHAgent.RequestType, data: Data, provenance: SigningRequestProvenance) async -> Data {
func handle(requestType: SSHAgent.RequestType, data: Data, reader: FileHandleReader) async -> Data {
// Depending on the launch context (such as after macOS update), the agent may need to reload secrets before acting
await reloadSecretsIfNeccessary()
reloadSecretsIfNeccessary()
var response = Data()
do {
switch requestType {
case .requestIdentities:
response.append(SSHAgent.ResponseType.agentIdentitiesAnswer.data)
response.append(await identities())
response.append(identities())
logger.debug("Agent returned \(SSHAgent.ResponseType.agentIdentitiesAnswer.debugDescription)")
case .signRequest:
let provenance = requestTracer.provenance(from: reader)
response.append(SSHAgent.ResponseType.agentSignResponse.data)
response.append(try await sign(data: data, provenance: provenance))
response.append(try sign(data: data, provenance: provenance))
logger.debug("Agent returned \(SSHAgent.ResponseType.agentSignResponse.debugDescription)")
}
} catch {
@@ -72,7 +73,8 @@ extension Agent {
response.append(SSHAgent.ResponseType.agentFailure.data)
logger.debug("Agent returned \(SSHAgent.ResponseType.agentFailure.debugDescription)")
}
return response.lengthAndData
let full = OpenSSHKeyWriter().lengthAndData(of: response)
return full
}
}
@@ -81,21 +83,21 @@ extension Agent {
/// Lists the identities available for signing operations
/// - Returns: An OpenSSH formatted Data payload listing the identities available for signing operations.
func identities() async -> Data {
let secrets = await storeList.allSecrets
await certificateHandler.reloadCertificates(for: secrets)
var count = 0
func identities() -> Data {
let secrets = storeList.allSecrets
certificateHandler.reloadCertificates(for: secrets)
var count = secrets.count
var keyData = Data()
for secret in secrets {
let keyBlob = publicKeyWriter.data(secret: secret)
keyData.append(keyBlob.lengthAndData)
keyData.append(publicKeyWriter.comment(secret: secret).lengthAndData)
count += 1
if let (certificateData, name) = try? await certificateHandler.keyBlobAndName(for: secret) {
keyData.append(certificateData.lengthAndData)
keyData.append(name.lengthAndData)
let keyBlob = writer.data(secret: secret)
let curveData = writer.curveType(for: secret.algorithm, length: secret.keySize).data(using: .utf8)!
keyData.append(writer.lengthAndData(of: keyBlob))
keyData.append(writer.lengthAndData(of: curveData))
if let (certificateData, name) = try? certificateHandler.keyBlobAndName(for: secret) {
keyData.append(writer.lengthAndData(of: certificateData))
keyData.append(writer.lengthAndData(of: name))
count += 1
}
}
@@ -110,30 +112,71 @@ extension Agent {
/// - data: The data to sign.
/// - provenance: A ``SecretKit.SigningRequestProvenance`` object describing the origin of the request.
/// - Returns: An OpenSSH formatted Data payload containing the signed data response.
func sign(data: Data, provenance: SigningRequestProvenance) async throws -> Data {
func sign(data: Data, provenance: SigningRequestProvenance) throws -> Data {
let reader = OpenSSHReader(data: data)
let payloadHash = reader.readNextChunk()
let hash: Data
// Check if hash is actually an openssh certificate and reconstruct the public key if it is
if let certificatePublicKey = await certificateHandler.publicKeyHash(from: payloadHash) {
if let certificatePublicKey = certificateHandler.publicKeyHash(from: payloadHash) {
hash = certificatePublicKey
} else {
hash = payloadHash
}
guard let (secret, store) = await secret(matching: hash) else {
guard let (store, secret) = secret(matching: hash) else {
logger.debug("Agent did not have a key matching \(hash as NSData)")
throw NoMatchingKeyError()
throw AgentError.noMatchingKey
}
try await witness?.speakNowOrForeverHoldYourPeace(forAccessTo: secret, from: store, by: provenance)
if let witness = witness {
try witness.speakNowOrForeverHoldYourPeace(forAccessTo: secret, from: store, by: provenance)
}
let dataToSign = reader.readNextChunk()
let rawRepresentation = try await store.sign(data: dataToSign, with: secret, for: provenance)
let signedData = signatureWriter.data(secret: secret, signature: rawRepresentation)
let signed = try store.sign(data: dataToSign, with: secret, for: provenance)
let derSignature = signed
try await witness?.witness(accessTo: secret, from: store, by: provenance)
let curveData = writer.curveType(for: secret.algorithm, length: secret.keySize).data(using: .utf8)!
// Convert from DER formatted rep to raw (r||s)
let rawRepresentation: Data
switch (secret.algorithm, secret.keySize) {
case (.ellipticCurve, 256):
rawRepresentation = try CryptoKit.P256.Signing.ECDSASignature(derRepresentation: derSignature).rawRepresentation
case (.ellipticCurve, 384):
rawRepresentation = try CryptoKit.P384.Signing.ECDSASignature(derRepresentation: derSignature).rawRepresentation
default:
throw AgentError.unsupportedKeyType
}
let rawLength = rawRepresentation.count/2
// Check if we need to pad with 0x00 to prevent certain
// ssh servers from thinking r or s is negative
let paddingRange: ClosedRange<UInt8> = 0x80...0xFF
var r = Data(rawRepresentation[0..<rawLength])
if paddingRange ~= r.first! {
r.insert(0x00, at: 0)
}
var s = Data(rawRepresentation[rawLength...])
if paddingRange ~= s.first! {
s.insert(0x00, at: 0)
}
var signatureChunk = Data()
signatureChunk.append(writer.lengthAndData(of: r))
signatureChunk.append(writer.lengthAndData(of: s))
var signedData = Data()
var sub = Data()
sub.append(writer.lengthAndData(of: curveData))
sub.append(writer.lengthAndData(of: signatureChunk))
signedData.append(writer.lengthAndData(of: sub))
if let witness = witness {
try witness.witness(accessTo: secret, from: store, by: provenance)
}
logger.debug("Agent signed request")
@@ -145,12 +188,11 @@ extension Agent {
extension Agent {
/// Gives any store with no loaded secrets a chance to reload.
func reloadSecretsIfNeccessary() async {
for store in await storeList.stores {
if await store.secrets.isEmpty {
let name = await store.name
logger.debug("Store \(name, privacy: .public) has no loaded secrets. Reloading.")
await store.reloadSecrets()
func reloadSecretsIfNeccessary() {
for store in storeList.stores {
if store.secrets.isEmpty {
logger.debug("Store \(store.name, privacy: .public) has no loaded secrets. Reloading.")
store.reloadSecrets()
}
}
}
@@ -158,10 +200,16 @@ extension Agent {
/// Finds a ``Secret`` matching a specified hash whos signature was requested.
/// - Parameter hash: The hash to match against.
/// - Returns: A ``Secret`` and the ``SecretStore`` containing it, if a match is found.
func secret(matching hash: Data) async -> (AnySecret, AnySecretStore)? {
await storeList.allSecretsWithStores.first {
hash == publicKeyWriter.data(secret: $0.0)
}
func secret(matching hash: Data) -> (AnySecretStore, AnySecret)? {
storeList.stores.compactMap { store -> (AnySecretStore, AnySecret)? in
let allMatching = store.secrets.filter { secret in
hash == writer.data(secret: secret)
}
if let matching = allMatching.first {
return (store, matching)
}
return nil
}.first
}
}
@@ -169,8 +217,13 @@ extension Agent {
extension Agent {
struct InvalidDataProvidedError: Error {}
struct NoMatchingKeyError: Error {}
/// An error involving agent operations..
enum AgentError: Error {
case unhandledType
case noMatchingKey
case unsupportedKeyType
case notOpenSSHCertificate
}
}

11
Sources/Packages/Sources/SecretAgentKit/Sendability.swift Normal file
View File

@@ -0,0 +1,11 @@
import Foundation
struct UncheckedSendable<T>: @unchecked Sendable {
let value: T
init(_ value: T) {
self.value = value
}
}

6
Sources/Packages/Sources/SecretAgentKit/SigningWitness.swift
View File

@@ -2,7 +2,7 @@ import Foundation
import SecretKit
/// A protocol that allows conformers to be notified of access to secrets, and optionally prevent access.
public protocol SigningWitness: Sendable {
public protocol SigningWitness {
/// A ridiculously named method that notifies the callee that a signing operation is about to be performed using a secret. The callee may `throw` an `Error` to prevent access from occurring.
/// - Parameters:
@@ -10,13 +10,13 @@ public protocol SigningWitness: Sendable {
/// - store: The `Store` being asked to sign the request..
/// - provenance: A `SigningRequestProvenance` object describing the origin of the request.
/// - Note: This method being called does not imply that the requst has been authorized. If a secret requires authentication, authentication will still need to be performed by the user before the request will be performed. If the user declines or fails to authenticate, the request will fail.
func speakNowOrForeverHoldYourPeace(forAccessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) async throws
func speakNowOrForeverHoldYourPeace(forAccessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) throws
/// Notifies the callee that a signing operation has been performed for a given secret.
/// - Parameters:
/// - secret: The `Secret` that will was used to sign the request.
/// - store: The `Store` that signed the request..
/// - provenance: A `SigningRequestProvenance` object describing the origin of the request.
func witness(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) async throws
func witness(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) throws
}

180
Sources/Packages/Sources/SecretAgentKit/SocketController.swift
View File

@@ -1,32 +1,23 @@
import Foundation
import OSLog
import SecretKit
/// A controller that manages socket configuration and request dispatching.
public struct SocketController {
public final class SocketController {
/// A stream of Sessions. Each session represents one connection to a class communicating with the socket. Multiple Sessions may be active simultaneously.
public let sessions: AsyncStream<Session>
/// A continuation to create new sessions.
private let sessionsContinuation: AsyncStream<Session>.Continuation
/// The active SocketPort. Must be retained to be kept valid.
private let port: SocketPort
/// The FileHandle for the main socket.
private let fileHandle: FileHandle
/// Logger for the socket controller.
/// The active FileHandle.
private var fileHandle: FileHandle?
/// The active SocketPort.
private var port: SocketPort?
/// A handler that will be notified when a new read/write handle is available.
/// False if no data could be read
public var handler: (@Sendable (FileHandleReader, FileHandleWriter) async -> Bool)?
/// Logger.
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "SocketController")
/// Tracer which determines who originates a socket connection.
private let requestTracer = SigningRequestTracer()
/// Initializes a socket controller with a specified path.
/// - Parameter path: The path to use as a socket.
public init(path: String) {
(sessions, sessionsContinuation) = AsyncStream<Session>.makeStream()
logger.debug("Socket controller setting up at \(path)")
if let _ = try? FileManager.default.removeItem(atPath: path) {
logger.debug("Socket controller removed existing socket")
@@ -34,104 +25,25 @@ public struct SocketController {
let exists = FileManager.default.fileExists(atPath: path)
assert(!exists)
logger.debug("Socket controller path is clear")
port = SocketPort(path: path)
fileHandle = FileHandle(fileDescriptor: port.socket, closeOnDealloc: true)
Task { [fileHandle, sessionsContinuation, logger] in
for await notification in NotificationCenter.default.notifications(named: .NSFileHandleConnectionAccepted) {
logger.debug("Socket controller accepted connection")
guard let new = notification.userInfo?[NSFileHandleNotificationFileHandleItem] as? FileHandle else { continue }
let session = Session(fileHandle: new)
sessionsContinuation.yield(session)
await fileHandle.acceptConnectionInBackgroundAndNotifyOnMainActor()
}
}
fileHandle.acceptConnectionInBackgroundAndNotify(forModes: [RunLoop.Mode.common])
port = socketPort(at: path)
configureSocket(at: path)
logger.debug("Socket listening at \(path)")
}
}
extension SocketController {
/// A session represents a connection that has been established between the two ends of the socket.
public struct Session: Sendable {
/// Data received by the socket.
public let messages: AsyncStream<Data>
/// The provenance of the process that established the session.
public let provenance: SigningRequestProvenance
/// A FileHandle used to communicate with the socket.
private let fileHandle: FileHandle
/// A continuation for issuing new messages.
private let messagesContinuation: AsyncStream<Data>.Continuation
/// A logger for the session.
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "Session")
/// Initializes a new Session.
/// - Parameter fileHandle: The FileHandle used to communicate with the socket.
init(fileHandle: FileHandle) {
self.fileHandle = fileHandle
provenance = SigningRequestTracer().provenance(from: fileHandle)
(messages, messagesContinuation) = AsyncStream.makeStream()
Task { [messagesContinuation, logger] in
for await _ in NotificationCenter.default.notifications(named: .NSFileHandleDataAvailable, object: fileHandle) {
let data = fileHandle.availableData
guard !data.isEmpty else {
logger.debug("Socket controller received empty data, ending continuation.")
messagesContinuation.finish()
try fileHandle.close()
return
}
messagesContinuation.yield(data)
logger.debug("Socket controller yielded data.")
}
}
Task {
await fileHandle.waitForDataInBackgroundAndNotifyOnMainActor()
}
}
/// Writes new data to the socket.
/// - Parameter data: The data to write.
public func write(_ data: Data) async throws {
try fileHandle.write(contentsOf: data)
await fileHandle.waitForDataInBackgroundAndNotifyOnMainActor()
}
/// Closes the socket and cleans up resources.
public func close() throws {
logger.debug("Session closed.")
messagesContinuation.finish()
try fileHandle.close()
}
/// Configures the socket and a corresponding FileHandle.
/// - Parameter path: The path to use as a socket.
func configureSocket(at path: String) {
guard let port = port else { return }
fileHandle = FileHandle(fileDescriptor: port.socket, closeOnDealloc: true)
NotificationCenter.default.addObserver(self, selector: #selector(handleConnectionAccept(notification:)), name: .NSFileHandleConnectionAccepted, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(handleConnectionDataAvailable(notification:)), name: .NSFileHandleDataAvailable, object: nil)
fileHandle?.acceptConnectionInBackgroundAndNotify(forModes: [RunLoop.Mode.common])
}
}
private extension FileHandle {
/// Ensures waitForDataInBackgroundAndNotify will be called on the main actor.
@MainActor func waitForDataInBackgroundAndNotifyOnMainActor() {
waitForDataInBackgroundAndNotify()
}
/// Ensures acceptConnectionInBackgroundAndNotify will be called on the main actor.
/// - Parameter modes: the runloop modes to use.
@MainActor func acceptConnectionInBackgroundAndNotifyOnMainActor(forModes modes: [RunLoop.Mode]? = [RunLoop.Mode.common]) {
acceptConnectionInBackgroundAndNotify(forModes: modes)
}
}
private extension SocketPort {
convenience init(path: String) {
/// Creates a SocketPort for a path.
/// - Parameter path: The path to use as a socket.
/// - Returns: A configured SocketPort.
func socketPort(at path: String) -> SocketPort {
var addr = sockaddr_un()
addr.sun_family = sa_family_t(AF_UNIX)
@@ -149,7 +61,51 @@ private extension SocketPort {
data = Data(bytes: pointer, count: MemoryLayout<sockaddr_un>.size)
}
self.init(protocolFamily: AF_UNIX, socketType: SOCK_STREAM, protocol: 0, address: data)!
return SocketPort(protocolFamily: AF_UNIX, socketType: SOCK_STREAM, protocol: 0, address: data)!
}
/// Handles a new connection being accepted, invokes the handler, and prepares to accept new connections.
/// - Parameter notification: A `Notification` that triggered the call.
@objc func handleConnectionAccept(notification: Notification) {
logger.debug("Socket controller accepted connection")
guard let new = notification.userInfo?[NSFileHandleNotificationFileHandleItem] as? FileHandle else { return }
Task { [handler, fileHandle] in
_ = await handler?(new, new)
await new.waitForDataInBackgroundAndNotifyOnMainActor()
await fileHandle?.acceptConnectionInBackgroundAndNotifyOnMainActor()
}
}
/// Handles a new connection providing data and invokes the handler callback.
/// - Parameter notification: A `Notification` that triggered the call.
@objc func handleConnectionDataAvailable(notification: Notification) {
logger.debug("Socket controller has new data available")
guard let new = notification.object as? FileHandle else { return }
logger.debug("Socket controller received new file handle")
Task { [handler, logger = UncheckedSendable(logger)] in
if((await handler?(new, new)) == true) {
logger.value.debug("Socket controller handled data, wait for more data")
await new.waitForDataInBackgroundAndNotifyOnMainActor()
} else {
logger.value.debug("Socket controller called with empty data, socked closed")
}
}
}
}
extension FileHandle {
/// Ensures waitForDataInBackgroundAndNotify will be called on the main actor.
@MainActor func waitForDataInBackgroundAndNotifyOnMainActor() {
waitForDataInBackgroundAndNotify()
}
/// Ensures acceptConnectionInBackgroundAndNotify will be called on the main actor.
/// - Parameter modes: the runloop modes to use.
@MainActor func acceptConnectionInBackgroundAndNotifyOnMainActor(forModes modes: [RunLoop.Mode]? = [RunLoop.Mode.common]) {
acceptConnectionInBackgroundAndNotify(forModes: modes)
}
}

2
Sources/Packages/Sources/SecretKit/Documentation.docc/Documentation.md
View File

@@ -22,7 +22,7 @@ SecretKit is a collection of protocols describing secrets and stores.
### OpenSSH
- ``OpenSSHPublicKeyWriter``
- ``OpenSSHKeyWriter``
- ``OpenSSHReader``
### Signing Process

44
Sources/Packages/Sources/SecretKit/Erasers/AnySecret.swift
View File

@@ -1,30 +1,36 @@
import Foundation
/// Type eraser for Secret.
public struct AnySecret: Secret, @unchecked Sendable {
public struct AnySecret: Secret {
public let base: any Secret
let base: Any
private let hashable: AnyHashable
private let _id: () -> AnyHashable
private let _name: () -> String
private let _algorithm: () -> Algorithm
private let _keySize: () -> Int
private let _requiresAuthentication: () -> Bool
private let _publicKey: () -> Data
private let _attributes: () -> Attributes
private let _eq: (AnySecret) -> Bool
public init<T>(_ secret: T) where T: Secret {
if let secret = secret as? AnySecret {
base = secret.base
hashable = secret.hashable
_id = secret._id
_name = secret._name
_algorithm = secret._algorithm
_keySize = secret._keySize
_requiresAuthentication = secret._requiresAuthentication
_publicKey = secret._publicKey
_attributes = secret._attributes
_eq = secret._eq
} else {
base = secret
base = secret as Any
self.hashable = secret
_id = { secret.id as AnyHashable }
_name = { secret.name }
_algorithm = { secret.algorithm }
_keySize = { secret.keySize }
_requiresAuthentication = { secret.requiresAuthentication }
_publicKey = { secret.publicKey }
_attributes = { secret.attributes }
_eq = { secret == $0.base as? T }
}
}
@@ -36,20 +42,28 @@ public struct AnySecret: Secret, @unchecked Sendable {
_name()
}
public var algorithm: Algorithm {
_algorithm()
}
public var keySize: Int {
_keySize()
}
public var requiresAuthentication: Bool {
_requiresAuthentication()
}
public var publicKey: Data {
_publicKey()
}
public var attributes: Attributes {
_attributes()
}
public static func == (lhs: AnySecret, rhs: AnySecret) -> Bool {
lhs._eq(rhs)
lhs.hashable == rhs.hashable
}
public func hash(into hasher: inout Hasher) {
id.hash(into: &hasher)
hashable.hash(into: &hasher)
}
}

97
Sources/Packages/Sources/SecretKit/Erasers/AnySecretStore.swift
View File

@@ -1,17 +1,21 @@
import Foundation
import Combine
/// Type eraser for SecretStore.
open class AnySecretStore: SecretStore, @unchecked Sendable {
public class AnySecretStore: SecretStore {
let base: any SecretStore
private let _isAvailable: @MainActor @Sendable () -> Bool
private let _id: @Sendable () -> UUID
private let _name: @MainActor @Sendable () -> String
private let _secrets: @MainActor @Sendable () -> [AnySecret]
private let _sign: @Sendable (Data, AnySecret, SigningRequestProvenance) async throws -> Data
private let _existingPersistedAuthenticationContext: @Sendable (AnySecret) async -> PersistedAuthenticationContext?
private let _persistAuthentication: @Sendable (AnySecret, TimeInterval) async throws -> Void
private let _reloadSecrets: @Sendable () async -> Void
let base: Any
private let _isAvailable: () -> Bool
private let _id: () -> UUID
private let _name: () -> String
private let _secrets: () -> [AnySecret]
private let _sign: (Data, AnySecret, SigningRequestProvenance) throws -> Data
private let _verify: (Data, Data, AnySecret) throws -> Bool
private let _existingPersistedAuthenticationContext: (AnySecret) -> PersistedAuthenticationContext?
private let _persistAuthentication: (AnySecret, TimeInterval) throws -> Void
private let _reloadSecrets: () -> Void
private var sink: AnyCancellable?
public init<SecretStoreType>(_ secretStore: SecretStoreType) where SecretStoreType: SecretStore {
base = secretStore
@@ -19,13 +23,17 @@ open class AnySecretStore: SecretStore, @unchecked Sendable {
_name = { secretStore.name }
_id = { secretStore.id }
_secrets = { secretStore.secrets.map { AnySecret($0) } }
_sign = { try await secretStore.sign(data: $0, with: $1.base as! SecretStoreType.SecretType, for: $2) }
_existingPersistedAuthenticationContext = { await secretStore.existingPersistedAuthenticationContext(secret: $0.base as! SecretStoreType.SecretType) }
_persistAuthentication = { try await secretStore.persistAuthentication(secret: $0.base as! SecretStoreType.SecretType, forDuration: $1) }
_reloadSecrets = { await secretStore.reloadSecrets() }
_sign = { try secretStore.sign(data: $0, with: $1.base as! SecretStoreType.SecretType, for: $2) }
_verify = { try secretStore.verify(signature: $0, for: $1, with: $2.base as! SecretStoreType.SecretType) }
_existingPersistedAuthenticationContext = { secretStore.existingPersistedAuthenticationContext(secret: $0.base as! SecretStoreType.SecretType) }
_persistAuthentication = { try secretStore.persistAuthentication(secret: $0.base as! SecretStoreType.SecretType, forDuration: $1) }
_reloadSecrets = { secretStore.reloadSecrets() }
sink = secretStore.objectWillChange.sink { _ in
self.objectWillChange.send()
}
}
@MainActor public var isAvailable: Bool {
public var isAvailable: Bool {
return _isAvailable()
}
@@ -33,62 +41,59 @@ open class AnySecretStore: SecretStore, @unchecked Sendable {
return _id()
}
@MainActor public var name: String {
public var name: String {
return _name()
}
@MainActor public var secrets: [AnySecret] {
public var secrets: [AnySecret] {
return _secrets()
}
public func sign(data: Data, with secret: AnySecret, for provenance: SigningRequestProvenance) async throws -> Data {
try await _sign(data, secret, provenance)
public func sign(data: Data, with secret: AnySecret, for provenance: SigningRequestProvenance) throws -> Data {
try _sign(data, secret, provenance)
}
public func existingPersistedAuthenticationContext(secret: AnySecret) async -> PersistedAuthenticationContext? {
await _existingPersistedAuthenticationContext(secret)
public func verify(signature: Data, for data: Data, with secret: AnySecret) throws -> Bool {
try _verify(signature, data, secret)
}
public func persistAuthentication(secret: AnySecret, forDuration duration: TimeInterval) async throws {
try await _persistAuthentication(secret, duration)
public func existingPersistedAuthenticationContext(secret: AnySecret) -> PersistedAuthenticationContext? {
_existingPersistedAuthenticationContext(secret)
}
public func reloadSecrets() async {
await _reloadSecrets()
public func persistAuthentication(secret: AnySecret, forDuration duration: TimeInterval) throws {
try _persistAuthentication(secret, duration)
}
public func reloadSecrets() {
_reloadSecrets()
}
}
public final class AnySecretStoreModifiable: AnySecretStore, SecretStoreModifiable, @unchecked Sendable {
public final class AnySecretStoreModifiable: AnySecretStore, SecretStoreModifiable {
private let _create: @Sendable (String, Attributes) async throws -> AnySecret
private let _delete: @Sendable (AnySecret) async throws -> Void
private let _update: @Sendable (AnySecret, String, Attributes) async throws -> Void
private let _supportedKeyTypes: @Sendable () -> [KeyType]
private let _create: (String, Bool) throws -> Void
private let _delete: (AnySecret) throws -> Void
private let _update: (AnySecret, String) throws -> Void
public init<SecretStoreType>(_ secretStore: SecretStoreType) where SecretStoreType: SecretStoreModifiable {
_create = { AnySecret(try await secretStore.create(name: $0, attributes: $1)) }
_delete = { try await secretStore.delete(secret: $0.base as! SecretStoreType.SecretType) }
_update = { try await secretStore.update(secret: $0.base as! SecretStoreType.SecretType, name: $1, attributes: $2) }
_supportedKeyTypes = { secretStore.supportedKeyTypes }
public init<SecretStoreType>(modifiable secretStore: SecretStoreType) where SecretStoreType: SecretStoreModifiable {
_create = { try secretStore.create(name: $0, requiresAuthentication: $1) }
_delete = { try secretStore.delete(secret: $0.base as! SecretStoreType.SecretType) }
_update = { try secretStore.update(secret: $0.base as! SecretStoreType.SecretType, name: $1) }
super.init(secretStore)
}
@discardableResult
public func create(name: String, attributes: Attributes) async throws -> SecretType {
try await _create(name, attributes)
public func create(name: String, requiresAuthentication: Bool) throws {
try _create(name, requiresAuthentication)
}
public func delete(secret: AnySecret) async throws {
try await _delete(secret)
public func delete(secret: AnySecret) throws {
try _delete(secret)
}
public func update(secret: AnySecret, name: String, attributes: Attributes) async throws {
try await _update(secret, name, attributes)
}
public var supportedKeyTypes: [KeyType] {
_supportedKeyTypes()
public func update(secret: AnySecret, name: String) throws {
try _update(secret, name)
}
}

20
Sources/Packages/Sources/SecretKit/KeychainTypes.swift
View File

@@ -51,17 +51,19 @@ public extension SecretStore {
/// Returns the appropriate keychian signature algorithm to use for a given secret.
/// - Parameters:
/// - secret: The secret which will be used for signing.
/// - allowRSA: Whether or not RSA key types should be permited.
/// - Returns: The appropriate algorithm.
func signatureAlgorithm(for secret: SecretType) -> SecKeyAlgorithm? {
switch secret.keyType {
case .ecdsa256:
.ecdsaSignatureMessageX962SHA256
case .ecdsa384:
.ecdsaSignatureMessageX962SHA384
case .rsa2048:
.rsaSignatureMessagePKCS1v15SHA512
func signatureAlgorithm(for secret: SecretType, allowRSA: Bool = false) -> SecKeyAlgorithm {
switch (secret.algorithm, secret.keySize) {
case (.ellipticCurve, 256):
return .ecdsaSignatureMessageX962SHA256
case (.ellipticCurve, 384):
return .ecdsaSignatureMessageX962SHA384
case (.rsa, 1024), (.rsa, 2048):
guard allowRSA else { fatalError() }
return .rsaSignatureMessagePKCS1v15SHA512
default:
nil
fatalError()
}
}

23
Sources/Packages/Sources/SecretKit/OpenSSH/LengthAndData.swift
View File

@@ -1,23 +0,0 @@
import Foundation
extension Data {
/// Creates an OpenSSH protocol style data object, which has a length header, followed by the data payload.
/// - Returns: OpenSSH data.
package var lengthAndData: Data {
let rawLength = UInt32(count)
var endian = rawLength.bigEndian
return Data(bytes: &endian, count: UInt32.bitWidth/8) + self
}
}
extension String {
/// Creates an OpenSSH protocol style data object, which has a length header, followed by the data payload.
/// - Returns: OpenSSH data.
package var lengthAndData: Data {
Data(utf8).lengthAndData
}
}

32
Sources/Packages/Sources/SecretKit/OpenSSH/OpenSSHCertificateHandler.swift
View File

@@ -2,11 +2,11 @@ import Foundation
import OSLog
/// Manages storage and lookup for OpenSSH certificates.
public actor OpenSSHCertificateHandler: Sendable {
public final class OpenSSHCertificateHandler {
private let publicKeyFileStoreController = PublicKeyFileStoreController(homeDirectory: NSHomeDirectory())
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "OpenSSHCertificateHandler")
private let writer = OpenSSHPublicKeyWriter()
private let writer = OpenSSHKeyWriter()
private var keyBlobsAndNames: [AnySecret: (Data, Data)] = [:]
/// Initializes an OpenSSHCertificateHandler.
@@ -25,12 +25,21 @@ public actor OpenSSHCertificateHandler: Sendable {
}
}
/// Whether or not the certificate handler has a certifiicate associated with a given secret.
/// - Parameter secret: The secret to check for a certificate.
/// - Returns: A boolean describing whether or not the certificate handler has a certifiicate associated with a given secret
public func hasCertificate<SecretType: Secret>(for secret: SecretType) -> Bool {
keyBlobsAndNames[AnySecret(secret)] != nil
}
/// Reconstructs a public key from a ``Data``, if that ``Data`` contains an OpenSSH certificate hash. Currently only ecdsa certificates are supported
/// - Parameter certBlock: The openssh certificate to extract the public key from
/// - Returns: A ``Data`` object containing the public key in OpenSSH wire format if the ``Data`` is an OpenSSH certificate hash, otherwise nil.
public func publicKeyHash(from hash: Data) -> Data? {
let reader = OpenSSHReader(data: hash)
let certType = String(decoding: reader.readNextChunk(), as: UTF8.self)
switch certType {
case "ecdsa-sha2-nistp256-cert-v01@openssh.com",
"ecdsa-sha2-nistp384-cert-v01@openssh.com",
@@ -39,10 +48,10 @@ public actor OpenSSHCertificateHandler: Sendable {
let curveIdentifier = reader.readNextChunk()
let publicKey = reader.readNextChunk()
let openSSHIdentifier = certType.replacingOccurrences(of: "-cert-v01@openssh.com", with: "")
return openSSHIdentifier.lengthAndData +
curveIdentifier.lengthAndData +
publicKey.lengthAndData
let curveType = certType.replacingOccurrences(of: "-cert-v01@openssh.com", with: "").data(using: .utf8)!
return writer.lengthAndData(of: curveType) +
writer.lengthAndData(of: curveIdentifier) +
writer.lengthAndData(of: publicKey)
default:
return nil
}
@@ -77,13 +86,14 @@ public actor OpenSSHCertificateHandler: Sendable {
throw OpenSSHCertificateError.parsingFailed
}
if certElements.count >= 3 {
let certName = Data(certElements[2].utf8)
if certElements.count >= 3, let certName = certElements[2].data(using: .utf8) {
return (certDecoded, certName)
} else if let certName = secret.name.data(using: .utf8) {
logger.info("Certificate for \(secret.name) does not have a name tag, using secret name instead")
return (certDecoded, certName)
} else {
throw OpenSSHCertificateError.parsingFailed
}
let certName = Data(secret.name.utf8)
logger.info("Certificate for \(secret.name) does not have a name tag, using secret name instead")
return (certDecoded, certName)
}
}

89
Sources/Packages/Sources/SecretKit/OpenSSH/OpenSSHKeyWriter.swift Normal file
View File

@@ -0,0 +1,89 @@
import Foundation
import CryptoKit
/// Generates OpenSSH representations of Secrets.
public struct OpenSSHKeyWriter {
/// Initializes the writer.
public init() {
}
/// Generates an OpenSSH data payload identifying the secret.
/// - Returns: OpenSSH data payload identifying the secret.
public func data<SecretType: Secret>(secret: SecretType) -> Data {
lengthAndData(of: curveType(for: secret.algorithm, length: secret.keySize).data(using: .utf8)!) +
lengthAndData(of: curveIdentifier(for: secret.algorithm, length: secret.keySize).data(using: .utf8)!) +
lengthAndData(of: secret.publicKey)
}
/// Generates an OpenSSH string representation of the secret.
/// - Returns: OpenSSH string representation of the secret.
public func openSSHString<SecretType: Secret>(secret: SecretType, comment: String? = nil) -> String {
[curveType(for: secret.algorithm, length: secret.keySize), data(secret: secret).base64EncodedString(), comment]
.compactMap { $0 }
.joined(separator: " ")
}
/// Generates an OpenSSH SHA256 fingerprint string.
/// - Returns: OpenSSH SHA256 fingerprint string.
public func openSSHSHA256Fingerprint<SecretType: Secret>(secret: SecretType) -> String {
// OpenSSL format seems to strip the padding at the end.
let base64 = Data(SHA256.hash(data: data(secret: secret))).base64EncodedString()
let paddingRange = base64.index(base64.endIndex, offsetBy: -2)..<base64.endIndex
let cleaned = base64.replacingOccurrences(of: "=", with: "", range: paddingRange)
return "SHA256:\(cleaned)"
}
/// Generates an OpenSSH MD5 fingerprint string.
/// - Returns: OpenSSH MD5 fingerprint string.
public func openSSHMD5Fingerprint<SecretType: Secret>(secret: SecretType) -> String {
Insecure.MD5.hash(data: data(secret: secret))
.compactMap { ("0" + String($0, radix: 16, uppercase: false)).suffix(2) }
.joined(separator: ":")
}
}
extension OpenSSHKeyWriter {
/// Creates an OpenSSH protocol style data object, which has a length header, followed by the data payload.
/// - Parameter data: The data payload.
/// - Returns: OpenSSH data.
public func lengthAndData(of data: Data) -> Data {
let rawLength = UInt32(data.count)
var endian = rawLength.bigEndian
return Data(bytes: &endian, count: UInt32.bitWidth/8) + data
}
/// The fully qualified OpenSSH identifier for the algorithm.
/// - Parameters:
/// - algorithm: The algorithm to identify.
/// - length: The key length of the algorithm.
/// - Returns: The OpenSSH identifier for the algorithm.
public func curveType(for algorithm: Algorithm, length: Int) -> String {
switch algorithm {
case .ellipticCurve:
return "ecdsa-sha2-nistp" + String(describing: length)
case .rsa:
// All RSA keys use the same 512 bit hash function, per
// https://security.stackexchange.com/questions/255074/why-are-rsa-sha2-512-and-rsa-sha2-256-supported-but-not-reported-by-ssh-q-key
return "rsa-sha2-512"
}
}
/// The OpenSSH identifier for an algorithm.
/// - Parameters:
/// - algorithm: The algorithm to identify.
/// - length: The key length of the algorithm.
/// - Returns: The OpenSSH identifier for the algorithm.
private func curveIdentifier(for algorithm: Algorithm, length: Int) -> String {
switch algorithm {
case .ellipticCurve:
return "nistp" + String(describing: length)
case .rsa:
// All RSA keys use the same 512 bit hash function
return "rsa-sha2-512"
}
}
}

114
Sources/Packages/Sources/SecretKit/OpenSSH/OpenSSHPublicKeyWriter.swift
View File

@@ -1,114 +0,0 @@
import Foundation
import CryptoKit
/// Generates OpenSSH representations of the public key sof secrets.
public struct OpenSSHPublicKeyWriter: Sendable {
/// Initializes the writer.
public init() {
}
/// Generates an OpenSSH data payload identifying the secret.
/// - Returns: OpenSSH data payload identifying the secret.
public func data<SecretType: Secret>(secret: SecretType) -> Data {
switch secret.keyType.algorithm {
case .ecdsa:
// https://datatracker.ietf.org/doc/html/rfc5656#section-3.1
openSSHIdentifier(for: secret.keyType).lengthAndData +
("nistp" + String(describing: secret.keyType.size)).lengthAndData +
secret.publicKey.lengthAndData
case .mldsa:
// https://www.ietf.org/archive/id/draft-sfluhrer-ssh-mldsa-04.txt
openSSHIdentifier(for: secret.keyType).lengthAndData +
secret.publicKey.lengthAndData
case .rsa:
// https://datatracker.ietf.org/doc/html/rfc4253#section-6.6
openSSHIdentifier(for: secret.keyType).lengthAndData +
rsaPublicKeyBlob(secret: secret)
}
}
/// Generates an OpenSSH string representation of the secret.
/// - Returns: OpenSSH string representation of the secret.
public func openSSHString<SecretType: Secret>(secret: SecretType) -> String {
return [openSSHIdentifier(for: secret.keyType), data(secret: secret).base64EncodedString(), comment(secret: secret)]
.compactMap { $0 }
.joined(separator: " ")
}
/// Generates an OpenSSH SHA256 fingerprint string.
/// - Returns: OpenSSH SHA256 fingerprint string.
public func openSSHSHA256Fingerprint<SecretType: Secret>(secret: SecretType) -> String {
// OpenSSL format seems to strip the padding at the end.
let base64 = Data(SHA256.hash(data: data(secret: secret))).base64EncodedString()
let paddingRange = base64.index(base64.endIndex, offsetBy: -2)..<base64.endIndex
let cleaned = base64.replacingOccurrences(of: "=", with: "", range: paddingRange)
return "SHA256:\(cleaned)"
}
/// Generates an OpenSSH MD5 fingerprint string.
/// - Returns: OpenSSH MD5 fingerprint string.
public func openSSHMD5Fingerprint<SecretType: Secret>(secret: SecretType) -> String {
Insecure.MD5.hash(data: data(secret: secret))
.compactMap { ("0" + String($0, radix: 16, uppercase: false)).suffix(2) }
.joined(separator: ":")
}
public func comment<SecretType: Secret>(secret: SecretType) -> String {
if let comment = secret.publicKeyAttribution {
return comment
} else {
let dashedKeyName = secret.name.replacingOccurrences(of: " ", with: "-")
let dashedHostName = ["secretive", Host.current().localizedName, "local"]
.compactMap { $0 }
.joined(separator: ".")
.replacingOccurrences(of: " ", with: "-")
return "\(dashedKeyName)@\(dashedHostName)"
}
}
}
extension OpenSSHPublicKeyWriter {
/// The fully qualified OpenSSH identifier for the algorithm.
/// - Parameters:
/// - algorithm: The algorithm to identify.
/// - length: The key length of the algorithm.
/// - Returns: The OpenSSH identifier for the algorithm.
public func openSSHIdentifier(for keyType: KeyType) -> String {
switch keyType {
case .ecdsa256:
"ecdsa-sha2-nistp256"
case .ecdsa384:
"ecdsa-sha2-nistp384"
case .mldsa65:
"ssh-mldsa-65"
case .mldsa87:
"ssh-mldsa-87"
case .rsa2048:
"ssh-rsa"
default:
"unknown"
}
}
}
extension OpenSSHPublicKeyWriter {
public func rsaPublicKeyBlob<SecretType: Secret>(secret: SecretType) -> Data {
// Cheap way to pull out e and n as defined in https://datatracker.ietf.org/doc/html/rfc4253
// Keychain stores it as a thin ASN.1 wrapper with this format:
// [4 byte prefix][2 byte prefix][n][2 byte prefix][e]
// Rather than parse out the whole ASN.1 blob, we'll cheat and pull values directly since
// we only support one key type, and the keychain always gives it in a specific format.
guard secret.keyType == .rsa2048 else { fatalError() }
let length = secret.keyType.size/8
let data = secret.publicKey
let n = Data(data[8..<(9+length)])
let e = Data(data[(2+9+length)...])
return e.lengthAndData + n.lengthAndData
}
}

4
Sources/Packages/Sources/SecretKit/OpenSSH/OpenSSHReader.swift
View File

@@ -17,7 +17,9 @@ public final class OpenSSHReader {
let lengthRange = 0..<(UInt32.bitWidth/8)
let lengthChunk = remaining[lengthRange]
remaining.removeSubrange(lengthRange)
let littleEndianLength = lengthChunk.bytes.unsafeLoad(as: UInt32.self)
let littleEndianLength = lengthChunk.withUnsafeBytes { pointer in
return pointer.load(as: UInt32.self)
}
let length = Int(littleEndianLength.bigEndian)
let dataRange = 0..<length
let ret = Data(remaining[dataRange])

75
Sources/Packages/Sources/SecretKit/OpenSSH/OpenSSHSignatureWriter.swift
View File

@@ -1,75 +0,0 @@
import Foundation
import CryptoKit
/// Generates OpenSSH representations of Secrets.
public struct OpenSSHSignatureWriter: Sendable {
/// Initializes the writer.
public init() {
}
/// Generates an OpenSSH data payload identifying the secret.
/// - Returns: OpenSSH data payload identifying the secret.
public func data<SecretType: Secret>(secret: SecretType, signature: Data) -> Data {
switch secret.keyType.algorithm {
case .ecdsa:
// https://datatracker.ietf.org/doc/html/rfc5656#section-3.1
ecdsaSignature(signature, keyType: secret.keyType)
case .mldsa:
// https://datatracker.ietf.org/doc/html/draft-sfluhrer-ssh-mldsa-00#name-public-key-algorithms
mldsaSignature(signature, keyType: secret.keyType)
case .rsa:
// https://datatracker.ietf.org/doc/html/rfc4253#section-6.6
rsaSignature(signature)
}
}
}
extension OpenSSHSignatureWriter {
func ecdsaSignature(_ rawRepresentation: Data, keyType: KeyType) -> Data {
let rawLength = rawRepresentation.count/2
// Check if we need to pad with 0x00 to prevent certain
// ssh servers from thinking r or s is negative
let paddingRange: ClosedRange<UInt8> = 0x80...0xFF
var r = Data(rawRepresentation[0..<rawLength])
if paddingRange ~= r.first! {
r.insert(0x00, at: 0)
}
var s = Data(rawRepresentation[rawLength...])
if paddingRange ~= s.first! {
s.insert(0x00, at: 0)
}
var signatureChunk = Data()
signatureChunk.append(r.lengthAndData)
signatureChunk.append(s.lengthAndData)
var mutSignedData = Data()
var sub = Data()
sub.append(OpenSSHPublicKeyWriter().openSSHIdentifier(for: keyType).lengthAndData)
sub.append(signatureChunk.lengthAndData)
mutSignedData.append(sub.lengthAndData)
return mutSignedData
}
func mldsaSignature(_ rawRepresentation: Data, keyType: KeyType) -> Data {
var mutSignedData = Data()
var sub = Data()
sub.append(OpenSSHPublicKeyWriter().openSSHIdentifier(for: keyType).lengthAndData)
sub.append(rawRepresentation.lengthAndData)
mutSignedData.append(sub.lengthAndData)
return mutSignedData
}
func rsaSignature(_ rawRepresentation: Data) -> Data {
var mutSignedData = Data()
var sub = Data()
sub.append("rsa-sha2-512".lengthAndData)
sub.append(rawRepresentation.lengthAndData)
mutSignedData.append(sub.lengthAndData)
return mutSignedData
}
}

6
Sources/Packages/Sources/SecretKit/PublicKeyStandinFileController.swift
View File

@@ -2,11 +2,11 @@ import Foundation
import OSLog
/// Controller responsible for writing public keys to disk, so that they're easily accessible by scripts.
public final class PublicKeyFileStoreController: Sendable {
public final class PublicKeyFileStoreController {
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "PublicKeyFileStoreController")
private let directory: String
private let keyWriter = OpenSSHPublicKeyWriter()
private let keyWriter = OpenSSHKeyWriter()
/// Initializes a PublicKeyFileStoreController.
public init(homeDirectory: String) {
@@ -32,7 +32,7 @@ public final class PublicKeyFileStoreController: Sendable {
try? FileManager.default.createDirectory(at: URL(fileURLWithPath: directory), withIntermediateDirectories: false, attributes: nil)
for secret in secrets {
let path = publicKeyPath(for: secret)
let data = Data(keyWriter.openSSHString(secret: secret).utf8)
guard let data = keyWriter.openSSHString(secret: secret).data(using: .utf8) else { continue }
FileManager.default.createFile(atPath: path, contents: data, attributes: nil)
}
logger.log("Finished writing public keys")

38
Sources/Packages/Sources/SecretKit/SecretStoreList.swift
View File

@@ -1,47 +1,49 @@
import Foundation
import Observation
import Combine
/// A "Store Store," which holds a list of type-erased stores.
@Observable @MainActor public final class SecretStoreList: Sendable {
public final class SecretStoreList: ObservableObject {
/// The Stores managed by the SecretStoreList.
public var stores: [AnySecretStore] = []
@Published public var stores: [AnySecretStore] = []
/// A modifiable store, if one is available.
public var modifiableStore: AnySecretStoreModifiable? = nil
@Published public var modifiableStore: AnySecretStoreModifiable?
private var cancellables: Set<AnyCancellable> = []
/// Initializes a SecretStoreList.
public nonisolated init() {
public init() {
}
/// Adds a non-type-erased SecretStore to the list.
public func add<SecretStoreType: SecretStore>(store: SecretStoreType) {
stores.append(AnySecretStore(store))
addInternal(store: AnySecretStore(store))
}
/// Adds a non-type-erased modifiable SecretStore.
public func add<SecretStoreType: SecretStoreModifiable>(store: SecretStoreType) {
let modifiable = AnySecretStoreModifiable(store)
if modifiableStore == nil {
modifiableStore = modifiable
}
stores.append(modifiable)
let modifiable = AnySecretStoreModifiable(modifiable: store)
modifiableStore = modifiable
addInternal(store: modifiable)
}
/// A boolean describing whether there are any Stores available.
public var anyAvailable: Bool {
stores.contains(where: \.isAvailable)
stores.reduce(false, { $0 || $1.isAvailable })
}
public var allSecrets: [AnySecret] {
stores.flatMap(\.secrets)
}
public var allSecretsWithStores: [(AnySecret, AnySecretStore)] {
stores.flatMap { store in
store.secrets.map { secret in
(secret, store)
}
}
}
extension SecretStoreList {
private func addInternal(store: AnySecretStore) {
stores.append(store)
store.objectWillChange.sink {
self.objectWillChange.send()
}.store(in: &cancellables)
}
}

55
Sources/Packages/Sources/SecretKit/Types/CreationOptions.swift
View File

@@ -1,55 +0,0 @@
import Foundation
public struct Attributes: Sendable, Codable, Hashable {
/// The type of key involved.
public let keyType: KeyType
/// The authentication requirements for the key. This is simply a description of the option recorded at creation modifying it doers not modify the key's authentication requirements.
public let authentication: AuthenticationRequirement
/// The string appended to the end of the SSH Public Key.
/// If nil, a default value will be used.
public var publicKeyAttribution: String?
public init(
keyType: KeyType,
authentication: AuthenticationRequirement,
publicKeyAttribution: String? = nil
) {
self.keyType = keyType
self.authentication = authentication
self.publicKeyAttribution = publicKeyAttribution
}
public struct UnsupportedOptionError: Error {
package init() {}
}
}
/// The option specified
public enum AuthenticationRequirement: String, Hashable, Sendable, Codable, Identifiable {
/// Authentication is not required for usage.
case notRequired
/// The user needs to authenticate, using either a biometric option, a connected authorized watch, or password entry..
case presenceRequired
/// ONLY the current set of biometric data, as matching at time of creation, is accepted.
/// - Warning: This is a dangerous option prone to data loss. The user should be warned before configuring this key that if they modify their enrolled biometry INCLUDING by simply adding a new entry (ie, adding another fingeprting), the key will no longer be able to be accessed. This cannot be overridden with a password.
case biometryCurrent
/// The authentication requirement was not recorded at creation, and is unknown.
case unknown
/// Whether or not the key is known to require authentication.
public var required: Bool {
self == .presenceRequired || self == .biometryCurrent
}
public var id: AuthenticationRequirement {
self
}
}

2
Sources/Packages/Sources/SecretKit/Types/PersistedAuthenticationContext.swift
View File

@@ -1,7 +1,7 @@
import Foundation
/// Protocol describing a persisted authentication context. This is an authorization that can be reused for multiple access to a secret that requires authentication for a specific period of time.
public protocol PersistedAuthenticationContext: Sendable {
public protocol PersistedAuthenticationContext {
/// Whether the context remains valid.
var valid: Bool { get }
/// The date at which the authorization expires and the context becomes invalid.

78
Sources/Packages/Sources/SecretKit/Types/Secret.swift
View File

@@ -1,85 +1,47 @@
import Foundation
/// The base protocol for describing a Secret
public protocol Secret: Identifiable, Hashable, Sendable {
public protocol Secret: Identifiable, Hashable {
/// A user-facing string identifying the Secret.
var name: String { get }
/// The algorithm this secret uses.
var algorithm: Algorithm { get }
/// The key size for the secret.
var keySize: Int { get }
/// Whether the secret requires authentication before use.
var requiresAuthentication: Bool { get }
/// The public key data for the secret.
var publicKey: Data { get }
/// The attributes of the key.
var attributes: Attributes { get }
}
public extension Secret {
/// The type of algorithm the Secret uses. Currently, only elliptic curve algorithms are supported.
public enum Algorithm: Hashable {
/// The algorithm and key size this secret uses.
var keyType: KeyType {
attributes.keyType
}
/// Whether the secret requires authentication before use.
var authenticationRequirement: AuthenticationRequirement {
attributes.authentication
}
/// An attribution string to apply to the generated public key.
var publicKeyAttribution: String? {
attributes.publicKeyAttribution
}
}
/// The type of algorithm the Secret uses.
public struct KeyType: Hashable, Sendable, Codable, CustomStringConvertible {
public static let ecdsa256 = KeyType(algorithm: .ecdsa, size: 256)
public static let ecdsa384 = KeyType(algorithm: .ecdsa, size: 384)
public static let mldsa65 = KeyType(algorithm: .mldsa, size: 65)
public static let mldsa87 = KeyType(algorithm: .mldsa, size: 87)
public static let rsa2048 = KeyType(algorithm: .rsa, size: 2048)
public enum Algorithm: Hashable, Sendable, Codable {
case ecdsa
case mldsa
case rsa
}
public var algorithm: Algorithm
public var size: Int
public init(algorithm: Algorithm, size: Int) {
self.algorithm = algorithm
self.size = size
}
case ellipticCurve
case rsa
/// Initializes the Algorithm with a secAttr representation of an algorithm.
/// - Parameter secAttr: the secAttr, represented as an NSNumber.
public init?(secAttr: NSNumber, size: Int) {
public init(secAttr: NSNumber) {
let secAttrString = secAttr.stringValue as CFString
switch secAttrString {
case kSecAttrKeyTypeEC:
algorithm = .ecdsa
self = .ellipticCurve
case kSecAttrKeyTypeRSA:
algorithm = .rsa
self = .rsa
default:
return nil
fatalError()
}
self.size = size
}
public var secAttrKeyType: CFString? {
switch algorithm {
case .ecdsa:
kSecAttrKeyTypeEC
public var secAttrKeyType: CFString {
switch self {
case .ellipticCurve:
return kSecAttrKeyTypeEC
case .rsa:
kSecAttrKeyTypeRSA
case .mldsa:
nil
return kSecAttrKeyTypeRSA
}
}
public var description: String {
"\(algorithm)-\(size)"
}
}

39
Sources/Packages/Sources/SecretKit/Types/SecretStore.swift
View File

@@ -1,18 +1,19 @@
import Foundation
import Combine
/// Manages access to Secrets, and performs signature operations on data using those Secrets.
public protocol SecretStore<SecretType>: Identifiable, Sendable {
public protocol SecretStore: ObservableObject, Identifiable {
associatedtype SecretType: Secret
/// A boolean indicating whether or not the store is available.
@MainActor var isAvailable: Bool { get }
var isAvailable: Bool { get }
/// A unique identifier for the store.
var id: UUID { get }
/// A user-facing name for the store.
@MainActor var name: String { get }
var name: String { get }
/// The secrets the store manages.
@MainActor var secrets: [SecretType] { get }
var secrets: [SecretType] { get }
/// Signs a data payload with a specified Secret.
/// - Parameters:
@@ -20,49 +21,53 @@ public protocol SecretStore<SecretType>: Identifiable, Sendable {
/// - secret: The ``Secret`` to sign with.
/// - provenance: A ``SigningRequestProvenance`` describing where the request came from.
/// - Returns: The signed data.
func sign(data: Data, with secret: SecretType, for provenance: SigningRequestProvenance) async throws -> Data
func sign(data: Data, with secret: SecretType, for provenance: SigningRequestProvenance) throws -> Data
/// Verifies that a signature is valid over a specified payload.
/// - Parameters:
/// - signature: The signature over the data.
/// - data: The data to verify the signature of.
/// - secret: The secret whose signature to verify.
/// - Returns: Whether the signature was verified.
func verify(signature: Data, for data: Data, with secret: SecretType) throws -> Bool
/// Checks to see if there is currently a valid persisted authentication for a given secret.
/// - Parameters:
/// - secret: The ``Secret`` to check if there is a persisted authentication for.
/// - Returns: A persisted authentication context, if a valid one exists.
func existingPersistedAuthenticationContext(secret: SecretType) async -> PersistedAuthenticationContext?
func existingPersistedAuthenticationContext(secret: SecretType) -> PersistedAuthenticationContext?
/// Persists user authorization for access to a secret.
/// - Parameters:
/// - secret: The ``Secret`` to persist the authorization for.
/// - duration: The duration that the authorization should persist for.
/// - Note: This is used for temporarily unlocking access to a secret which would otherwise require authentication every single use. This is useful for situations where the user anticipates several rapid accesses to a authorization-guarded secret.
func persistAuthentication(secret: SecretType, forDuration duration: TimeInterval) async throws
func persistAuthentication(secret: SecretType, forDuration duration: TimeInterval) throws
/// Requests that the store reload secrets from any backing store, if neccessary.
func reloadSecrets() async
func reloadSecrets()
}
/// A SecretStore that the Secretive admin app can modify.
public protocol SecretStoreModifiable<SecretType>: SecretStore {
public protocol SecretStoreModifiable: SecretStore {
/// Creates a new ``Secret`` in the store.
/// - Parameters:
/// - name: The user-facing name for the ``Secret``.
/// - attributes: A struct describing the options for creating the key.'
@discardableResult
func create(name: String, attributes: Attributes) async throws -> SecretType
/// - requiresAuthentication: A boolean indicating whether or not the user will be required to authenticate before performing signature operations with the secret.
func create(name: String, requiresAuthentication: Bool) throws
/// Deletes a Secret in the store.
/// - Parameters:
/// - secret: The ``Secret`` to delete.
func delete(secret: SecretType) async throws
func delete(secret: SecretType) throws
/// Updates the name of a Secret in the store.
/// - Parameters:
/// - secret: The ``Secret`` to update.
/// - name: The new name for the Secret.
/// - attributes: The new attributes for the secret.
func update(secret: SecretType, name: String, attributes: Attributes) async throws
var supportedKeyTypes: [KeyType] { get }
func update(secret: SecretType, name: String) throws
}

4
Sources/Packages/Sources/SecretKit/Types/SigningRequestProvenance.swift
View File

@@ -2,7 +2,7 @@ import Foundation
import AppKit
/// Describes the chain of applications that requested a signature operation.
public struct SigningRequestProvenance: Equatable, Sendable {
public struct SigningRequestProvenance: Equatable {
/// A list of processes involved in the request.
/// - Note: A chain will typically consist of many elements even for a simple request. For example, running `git fetch` in Terminal.app would generate a request chain of `ssh` -> `git` -> `zsh` -> `login` -> `Terminal.app`
@@ -30,7 +30,7 @@ extension SigningRequestProvenance {
extension SigningRequestProvenance {
/// Describes a process in a `SigningRequestProvenance` chain.
public struct Process: Equatable, Sendable {
public struct Process: Equatable {
/// The pid of the process.
public let pid: Int32

99
Sources/Packages/Sources/SecureEnclaveSecretKit/CryptoKitMigrator.swift
View File

@@ -1,99 +0,0 @@
import Foundation
import Security
import CryptoTokenKit
import CryptoKit
import SecretKit
import os
extension SecureEnclave {
public struct CryptoKitMigrator {
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.migration", category: "CryptoKitMigrator")
public init() {
}
/// Keys prior to 3.0 were created and stored directly using the keychain as kSecClassKey items. CryptoKit operates a little differently, in that it creates a key on your behalf which you can persist using an opaque data blob to a generic keychain item. Keychain created keys _also_ use this blob under the hood, but it's stored in the "toid" attribute. This migrates the old keys from kSecClassKey to generic items, copying the "toid" to be the main stored data. If the key is migrated successfully, the old key's identifier is renamed to indicate it's been migrated.
/// - Note: Migration is non-destructive users can still see and use their keys in older versions of Secretive.
@MainActor public func migrate(to store: Store) throws {
let privateAttributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyType: Constants.oldKeyType,
kSecAttrApplicationTag: SecureEnclave.Store.Constants.keyTag,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
kSecReturnRef: true,
kSecMatchLimit: kSecMatchLimitAll,
kSecReturnAttributes: true
])
var privateUntyped: CFTypeRef?
SecItemCopyMatching(privateAttributes, &privateUntyped)
guard let privateTyped = privateUntyped as? [[CFString: Any]] else { return }
let migratedPublicKeys = Set(store.secrets.map(\.publicKey))
var migrated = false
for key in privateTyped {
let name = key[kSecAttrLabel] as? String ?? String(localized: .unnamedSecret)
let id = key[kSecAttrApplicationLabel] as! Data
guard !id.contains(Constants.migrationMagicNumber) else {
logger.log("Skipping \(name), already migrated.")
continue
}
let ref = key[kSecValueRef] as! SecKey
let attributes = SecKeyCopyAttributes(ref) as! [CFString: Any]
let tokenObjectID = attributes[Constants.tokenObjectID] as! Data
let accessControl = attributes[kSecAttrAccessControl] as! SecAccessControl
// Best guess.
let auth: AuthenticationRequirement = String(describing: accessControl)
.contains("DeviceOwnerAuthentication") ? .presenceRequired : .unknown
let parsed = try CryptoKit.SecureEnclave.P256.Signing.PrivateKey(dataRepresentation: tokenObjectID)
let secret = Secret(id: UUID().uuidString, name: name, publicKey: parsed.publicKey.x963Representation, attributes: Attributes(keyType: .init(algorithm: .ecdsa, size: 256), authentication: auth))
guard !migratedPublicKeys.contains(parsed.publicKey.x963Representation) else {
logger.log("Skipping \(name), public key already present. Marking as migrated.")
try markMigrated(secret: secret, oldID: id)
continue
}
logger.log("Migrating \(name).")
try store.saveKey(tokenObjectID, name: name, attributes: secret.attributes)
logger.log("Migrated \(name).")
try markMigrated(secret: secret, oldID: id)
migrated = true
}
if migrated {
store.reloadSecrets()
}
}
public func markMigrated(secret: Secret, oldID: Data) throws {
let updateQuery = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrApplicationLabel: secret.id
])
let newID = oldID + Constants.migrationMagicNumber
let updatedAttributes = KeychainDictionary([
kSecAttrApplicationLabel: newID as CFData
])
let status = SecItemUpdate(updateQuery, updatedAttributes)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
}
}
}
extension SecureEnclave.CryptoKitMigrator {
enum Constants {
public static let oldKeyType = kSecAttrKeyTypeECSECPrimeRandom as String
public static let migrationMagicNumber = Data("_cryptokit_1".utf8)
// https://github.com/apple-opensource/Security/blob/5e9101b3bd1fb096bae4f40e79d50426ba1db8e9/OSX/sec/Security/SecItemConstants.c#L111
public static nonisolated(unsafe) let tokenObjectID = "toid" as CFString
}
}

72
Sources/Packages/Sources/SecureEnclaveSecretKit/PersistentAuthenticationHandler.swift
View File

@@ -1,72 +0,0 @@
import LocalAuthentication
import SecretKit
extension SecureEnclave {
/// A context describing a persisted authentication.
final class PersistentAuthenticationContext: PersistedAuthenticationContext {
/// The Secret to persist authentication for.
let secret: Secret
/// The LAContext used to authorize the persistent context.
nonisolated(unsafe) let context: LAContext
/// An expiration date for the context.
/// - Note - Monotonic time instead of Date() to prevent people setting the clock back.
let monotonicExpiration: UInt64
/// Initializes a context.
/// - Parameters:
/// - secret: The Secret to persist authentication for.
/// - context: The LAContext used to authorize the persistent context.
/// - duration: The duration of the authorization context, in seconds.
init(secret: Secret, context: LAContext, duration: TimeInterval) {
self.secret = secret
self.context = context
let durationInNanoSeconds = Measurement(value: duration, unit: UnitDuration.seconds).converted(to: .nanoseconds).value
self.monotonicExpiration = clock_gettime_nsec_np(CLOCK_MONOTONIC) + UInt64(durationInNanoSeconds)
}
/// A boolean describing whether or not the context is still valid.
var valid: Bool {
clock_gettime_nsec_np(CLOCK_MONOTONIC) < monotonicExpiration
}
var expiration: Date {
let remainingNanoseconds = monotonicExpiration - clock_gettime_nsec_np(CLOCK_MONOTONIC)
let remainingInSeconds = Measurement(value: Double(remainingNanoseconds), unit: UnitDuration.nanoseconds).converted(to: .seconds).value
return Date(timeIntervalSinceNow: remainingInSeconds)
}
}
actor PersistentAuthenticationHandler: Sendable {
private var persistedAuthenticationContexts: [Secret: PersistentAuthenticationContext] = [:]
func existingPersistedAuthenticationContext(secret: Secret) -> PersistentAuthenticationContext? {
guard let persisted = persistedAuthenticationContexts[secret], persisted.valid else { return nil }
return persisted
}
func persistAuthentication(secret: Secret, forDuration duration: TimeInterval) async throws {
let newContext = LAContext()
newContext.touchIDAuthenticationAllowableReuseDuration = duration
newContext.localizedCancelTitle = String(localized: .authContextRequestDenyButton)
let formatter = DateComponentsFormatter()
formatter.unitsStyle = .spellOut
formatter.allowedUnits = [.hour, .minute, .day]
if let durationString = formatter.string(from: duration) {
newContext.localizedReason = String(localized: .authContextPersistForDuration(secretName: secret.name, duration: durationString))
} else {
newContext.localizedReason = String(localized: .authContextPersistForDurationUnknown(secretName: secret.name))
}
let success = try await newContext.evaluatePolicy(.deviceOwnerAuthentication, localizedReason: newContext.localizedReason)
guard success else { return }
let context = PersistentAuthenticationContext(secret: secret, context: newContext, duration: duration)
persistedAuthenticationContexts[secret] = context
}
}
}

23
Sources/Packages/Sources/SecureEnclaveSecretKit/SecureEnclaveSecret.swift
View File

@@ -1,4 +1,5 @@
import Foundation
import Combine
import SecretKit
extension SecureEnclave {
@@ -6,26 +7,12 @@ extension SecureEnclave {
/// An implementation of Secret backed by the Secure Enclave.
public struct Secret: SecretKit.Secret {
public let id: String
public let id: Data
public let name: String
public let algorithm = Algorithm.ellipticCurve
public let keySize = 256
public let requiresAuthentication: Bool
public let publicKey: Data
public let attributes: Attributes
init(
id: String,
name: String,
publicKey: Data,
attributes: Attributes
) {
self.id = id
self.name = name
self.publicKey = publicKey
self.attributes = attributes
}
public static func ==(lhs: Self, rhs: Self) -> Bool {
lhs.id == rhs.id
}
}

481
Sources/Packages/Sources/SecureEnclaveSecretKit/SecureEnclaveStore.swift
View File

@@ -1,292 +1,351 @@
import Foundation
import Observation
import Combine
import Security
import CryptoKit
@preconcurrency import LocalAuthentication
import CryptoTokenKit
import LocalAuthentication
import SecretKit
import os
extension SecureEnclave {
/// An implementation of Store backed by the Secure Enclave using CryptoKit API.
@Observable public final class Store: SecretStoreModifiable {
/// An implementation of Store backed by the Secure Enclave.
public final class Store: SecretStoreModifiable {
@MainActor public var secrets: [Secret] = []
public var isAvailable: Bool {
CryptoKit.SecureEnclave.isAvailable
// For some reason, as of build time, CryptoKit.SecureEnclave.isAvailable always returns false
// error msg "Received error sending GET UNIQUE DEVICE command"
// Verify it with TKTokenWatcher manually.
TKTokenWatcher().tokenIDs.contains("com.apple.setoken")
}
public let id = UUID()
public let name = String(localized: .secureEnclave)
private let persistentAuthenticationHandler = PersistentAuthenticationHandler()
public let name = String(localized: "secure_enclave")
@Published public private(set) var secrets: [Secret] = []
private var persistedAuthenticationContexts: [Secret: PersistentAuthenticationContext] = [:]
/// Initializes a Store.
@MainActor public init() {
public init() {
DistributedNotificationCenter.default().addObserver(forName: .secretStoreUpdated, object: nil, queue: .main) { [reload = reloadSecretsInternal(notifyAgent:)] _ in
reload(false)
}
loadSecrets()
Task {
for await note in DistributedNotificationCenter.default().notifications(named: .secretStoreUpdated) {
guard Constants.notificationToken != (note.object as? String) else {
// Don't reload if we're the ones triggering this by reloading.
return
}
reloadSecrets()
}
}
}
// MARK: - Public API
// MARK: SecretStore
public func sign(data: Data, with secret: Secret, for provenance: SigningRequestProvenance) async throws -> Data {
var context: LAContext
if let existing = await persistentAuthenticationHandler.existingPersistedAuthenticationContext(secret: secret) {
context = existing.context
} else {
let newContext = LAContext()
newContext.localizedReason = String(localized: .authContextRequestSignatureDescription(appName: provenance.origin.displayName, secretName: secret.name))
newContext.localizedCancelTitle = String(localized: .authContextRequestDenyButton)
context = newContext
}
// MARK: Public API
let queryAttributes = KeychainDictionary([
kSecClass: Constants.keyClass,
kSecAttrService: Constants.keyTag,
kSecUseDataProtectionKeychain: true,
kSecAttrAccount: secret.id,
kSecReturnAttributes: true,
kSecReturnData: true,
])
var untyped: CFTypeRef?
let status = SecItemCopyMatching(queryAttributes, &untyped)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
guard let untypedSafe = untyped as? [CFString: Any] else {
throw KeychainError(statusCode: errSecSuccess)
}
guard let attributesData = untypedSafe[kSecAttrGeneric] as? Data,
let keyData = untypedSafe[kSecValueData] as? Data else {
throw MissingAttributesError()
}
let attributes = try JSONDecoder().decode(Attributes.self, from: attributesData)
switch attributes.keyType {
case .ecdsa256:
let key = try CryptoKit.SecureEnclave.P256.Signing.PrivateKey(dataRepresentation: keyData, authenticationContext: context)
return try key.signature(for: data).rawRepresentation
case .mldsa65:
guard #available(macOS 26.0, *) else { throw UnsupportedAlgorithmError() }
let key = try CryptoKit.SecureEnclave.MLDSA65.PrivateKey(dataRepresentation: keyData, authenticationContext: context)
return try key.signature(for: data)
case .mldsa87:
guard #available(macOS 26.0, *) else { throw UnsupportedAlgorithmError() }
let key = try CryptoKit.SecureEnclave.MLDSA87.PrivateKey(dataRepresentation: keyData, authenticationContext: context)
return try key.signature(for: data)
default:
throw UnsupportedAlgorithmError()
}
}
public func existingPersistedAuthenticationContext(secret: Secret) async -> PersistedAuthenticationContext? {
await persistentAuthenticationHandler.existingPersistedAuthenticationContext(secret: secret)
}
public func persistAuthentication(secret: Secret, forDuration duration: TimeInterval) async throws {
try await persistentAuthenticationHandler.persistAuthentication(secret: secret, forDuration: duration)
}
@MainActor public func reloadSecrets() {
let before = secrets
secrets.removeAll()
loadSecrets()
if secrets != before {
NotificationCenter.default.post(name: .secretStoreReloaded, object: self)
DistributedNotificationCenter.default().postNotificationName(.secretStoreUpdated, object: Constants.notificationToken, deliverImmediately: true)
}
}
// MARK: SecretStoreModifiable
public func create(name: String, attributes: Attributes) async throws -> Secret {
public func create(name: String, requiresAuthentication: Bool) throws {
var accessError: SecurityError?
let flags: SecAccessControlCreateFlags = switch attributes.authentication {
case .notRequired:
[.privateKeyUsage]
case .presenceRequired:
[.userPresence, .privateKeyUsage]
case .biometryCurrent:
[.biometryCurrentSet, .privateKeyUsage]
case .unknown:
fatalError()
let flags: SecAccessControlCreateFlags
if requiresAuthentication {
flags = [.privateKeyUsage, .userPresence]
} else {
flags = .privateKeyUsage
}
let access =
SecAccessControlCreateWithFlags(kCFAllocatorDefault,
kSecAttrAccessibleWhenUnlockedThisDeviceOnly,
flags,
&accessError)
&accessError) as Any
if let error = accessError {
throw error.takeRetainedValue() as Error
}
let dataRep: Data
let publicKey: Data
switch attributes.keyType {
case .ecdsa256:
let created = try CryptoKit.SecureEnclave.P256.Signing.PrivateKey(accessControl: access!)
dataRep = created.dataRepresentation
publicKey = created.publicKey.x963Representation
case .mldsa65:
guard #available(macOS 26.0, *) else { throw Attributes.UnsupportedOptionError() }
let created = try CryptoKit.SecureEnclave.MLDSA65.PrivateKey(accessControl: access!)
dataRep = created.dataRepresentation
publicKey = created.publicKey.rawRepresentation
case .mldsa87:
guard #available(macOS 26.0, *) else { throw Attributes.UnsupportedOptionError() }
let created = try CryptoKit.SecureEnclave.MLDSA87.PrivateKey(accessControl: access!)
dataRep = created.dataRepresentation
publicKey = created.publicKey.rawRepresentation
default:
throw Attributes.UnsupportedOptionError()
let attributes = KeychainDictionary([
kSecAttrLabel: name,
kSecAttrKeyType: Constants.keyType,
kSecAttrTokenID: kSecAttrTokenIDSecureEnclave,
kSecAttrApplicationTag: Constants.keyTag,
kSecPrivateKeyAttrs: [
kSecAttrIsPermanent: true,
kSecAttrAccessControl: access
]
])
var createKeyError: SecurityError?
let keypair = SecKeyCreateRandomKey(attributes, &createKeyError)
if let error = createKeyError {
throw error.takeRetainedValue() as Error
}
let id = try saveKey(dataRep, name: name, attributes: attributes)
await reloadSecrets()
return Secret(id: id, name: name, publicKey: publicKey, attributes: attributes)
guard let keypair = keypair, let publicKey = SecKeyCopyPublicKey(keypair) else {
throw KeychainError(statusCode: nil)
}
try savePublicKey(publicKey, name: name)
reloadSecretsInternal()
}
public func delete(secret: Secret) async throws {
public func delete(secret: Secret) throws {
let deleteAttributes = KeychainDictionary([
kSecClass: Constants.keyClass,
kSecAttrService: Constants.keyTag,
kSecUseDataProtectionKeychain: true,
kSecAttrAccount: secret.id,
kSecClass: kSecClassKey,
kSecAttrApplicationLabel: secret.id as CFData
])
let status = SecItemDelete(deleteAttributes)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
await reloadSecrets()
reloadSecretsInternal()
}
public func update(secret: Secret, name: String, attributes: Attributes) async throws {
public func update(secret: Secret, name: String) throws {
let updateQuery = KeychainDictionary([
kSecClass: Constants.keyClass,
kSecAttrAccount: secret.id,
kSecClass: kSecClassKey,
kSecAttrApplicationLabel: secret.id as CFData
])
let attributes = try JSONEncoder().encode(attributes)
let updatedAttributes = KeychainDictionary([
kSecAttrLabel: name,
kSecAttrGeneric: attributes,
])
let status = SecItemUpdate(updateQuery, updatedAttributes)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
await reloadSecrets()
reloadSecretsInternal()
}
public var supportedKeyTypes: [KeyType] {
if #available(macOS 26, *) {
[
.ecdsa256,
.mldsa65,
.mldsa87,
]
public func sign(data: Data, with secret: Secret, for provenance: SigningRequestProvenance) throws -> Data {
let context: LAContext
if let existing = persistedAuthenticationContexts[secret], existing.valid {
context = existing.context
} else {
[.ecdsa256]
let newContext = LAContext()
newContext.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
context = newContext
}
context.localizedReason = String(localized: "auth_context_request_signature_description_\(provenance.origin.displayName)_\(secret.name)")
let attributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
kSecAttrApplicationLabel: secret.id as CFData,
kSecAttrKeyType: Constants.keyType,
kSecAttrTokenID: kSecAttrTokenIDSecureEnclave,
kSecAttrApplicationTag: Constants.keyTag,
kSecUseAuthenticationContext: context,
kSecReturnRef: true
])
var untyped: CFTypeRef?
let status = SecItemCopyMatching(attributes, &untyped)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
guard let untypedSafe = untyped else {
throw KeychainError(statusCode: errSecSuccess)
}
let key = untypedSafe as! SecKey
var signError: SecurityError?
guard let signature = SecKeyCreateSignature(key, .ecdsaSignatureMessageX962SHA256, data as CFData, &signError) else {
throw SigningError(error: signError)
}
return signature as Data
}
public func verify(signature: Data, for data: Data, with secret: Secret) throws -> Bool {
let context = LAContext()
context.localizedReason = String(localized: "auth_context_request_verify_description_\(secret.name)")
context.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
let attributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
kSecAttrApplicationLabel: secret.id as CFData,
kSecAttrKeyType: Constants.keyType,
kSecAttrTokenID: kSecAttrTokenIDSecureEnclave,
kSecAttrApplicationTag: Constants.keyTag,
kSecUseAuthenticationContext: context,
kSecReturnRef: true
])
var verifyError: SecurityError?
var untyped: CFTypeRef?
let status = SecItemCopyMatching(attributes, &untyped)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
guard let untypedSafe = untyped else {
throw KeychainError(statusCode: errSecSuccess)
}
let key = untypedSafe as! SecKey
let verified = SecKeyVerifySignature(key, .ecdsaSignatureMessageX962SHA256, data as CFData, signature as CFData, &verifyError)
if !verified, let verifyError {
if verifyError.takeUnretainedValue() ~= .verifyError {
return false
} else {
throw SigningError(error: verifyError)
}
}
return verified
}
public func existingPersistedAuthenticationContext(secret: Secret) -> PersistedAuthenticationContext? {
guard let persisted = persistedAuthenticationContexts[secret], persisted.valid else { return nil }
return persisted
}
public func persistAuthentication(secret: Secret, forDuration duration: TimeInterval) throws {
let newContext = LAContext()
newContext.touchIDAuthenticationAllowableReuseDuration = duration
newContext.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
let formatter = DateComponentsFormatter()
formatter.unitsStyle = .spellOut
formatter.allowedUnits = [.hour, .minute, .day]
if let durationString = formatter.string(from: duration) {
newContext.localizedReason = String(localized: "auth_context_persist_for_duration_\(secret.name)_\(durationString)")
} else {
newContext.localizedReason = String(localized: "auth_context_persist_for_duration_unknown_\(secret.name)")
}
newContext.evaluatePolicy(LAPolicy.deviceOwnerAuthentication, localizedReason: newContext.localizedReason) { [weak self] success, _ in
guard success else { return }
let context = PersistentAuthenticationContext(secret: secret, context: newContext, duration: duration)
self?.persistedAuthenticationContexts[secret] = context
}
}
public func reloadSecrets() {
reloadSecretsInternal(notifyAgent: false)
}
}
}
extension SecureEnclave.Store {
/// Reloads all secrets from the store.
/// - Parameter notifyAgent: A boolean indicating whether a distributed notification should be posted, notifying other processes (ie, the SecretAgent) to reload their stores as well.
@Sendable private func reloadSecretsInternal(notifyAgent: Bool = true) {
let before = secrets
secrets.removeAll()
loadSecrets()
if secrets != before {
NotificationCenter.default.post(name: .secretStoreReloaded, object: self)
if notifyAgent {
DistributedNotificationCenter.default().postNotificationName(.secretStoreUpdated, object: nil, deliverImmediately: true)
}
}
}
/// Loads all secrets from the store.
@MainActor private func loadSecrets() {
let queryAttributes = KeychainDictionary([
kSecClass: Constants.keyClass,
kSecAttrService: Constants.keyTag,
kSecUseDataProtectionKeychain: true,
kSecReturnData: true,
private func loadSecrets() {
let publicAttributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyType: SecureEnclave.Constants.keyType,
kSecAttrApplicationTag: SecureEnclave.Constants.keyTag,
kSecAttrKeyClass: kSecAttrKeyClassPublic,
kSecReturnRef: true,
kSecMatchLimit: kSecMatchLimitAll,
kSecReturnAttributes: true
])
var untyped: CFTypeRef?
SecItemCopyMatching(queryAttributes, &untyped)
guard let typed = untyped as? [[CFString: Any]] else { return }
let wrapped: [SecureEnclave.Secret] = typed.compactMap {
do {
let name = $0[kSecAttrLabel] as? String ?? String(localized: "unnamed_secret")
guard let attributesData = $0[kSecAttrGeneric] as? Data,
let id = $0[kSecAttrAccount] as? String else {
throw MissingAttributesError()
}
let attributes = try JSONDecoder().decode(Attributes.self, from: attributesData)
let keyData = $0[kSecValueData] as! Data
let publicKey: Data
switch attributes.keyType {
case .ecdsa256:
let key = try CryptoKit.SecureEnclave.P256.Signing.PrivateKey(dataRepresentation: keyData)
publicKey = key.publicKey.x963Representation
case .mldsa65:
guard #available(macOS 26.0, *) else { throw UnsupportedAlgorithmError() }
let key = try CryptoKit.SecureEnclave.MLDSA65.PrivateKey(dataRepresentation: keyData)
publicKey = key.publicKey.rawRepresentation
case .mldsa87:
guard #available(macOS 26.0, *) else { throw UnsupportedAlgorithmError() }
let key = try CryptoKit.SecureEnclave.MLDSA87.PrivateKey(dataRepresentation: keyData)
publicKey = key.publicKey.rawRepresentation
default:
throw UnsupportedAlgorithmError()
}
return SecureEnclave.Secret(id: id, name: name, publicKey: publicKey, attributes: attributes)
} catch {
return nil
var publicUntyped: CFTypeRef?
SecItemCopyMatching(publicAttributes, &publicUntyped)
guard let publicTyped = publicUntyped as? [[CFString: Any]] else { return }
let privateAttributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyType: SecureEnclave.Constants.keyType,
kSecAttrApplicationTag: SecureEnclave.Constants.keyTag,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
kSecReturnRef: true,
kSecMatchLimit: kSecMatchLimitAll,
kSecReturnAttributes: true
])
var privateUntyped: CFTypeRef?
SecItemCopyMatching(privateAttributes, &privateUntyped)
guard let privateTyped = privateUntyped as? [[CFString: Any]] else { return }
let privateMapped = privateTyped.reduce(into: [:] as [Data: [CFString: Any]]) { partialResult, next in
let id = next[kSecAttrApplicationLabel] as! Data
partialResult[id] = next
}
let authNotRequiredAccessControl: SecAccessControl =
SecAccessControlCreateWithFlags(kCFAllocatorDefault,
kSecAttrAccessibleWhenUnlockedThisDeviceOnly,
[.privateKeyUsage],
nil)!
let wrapped: [SecureEnclave.Secret] = publicTyped.map {
let name = $0[kSecAttrLabel] as? String ?? String(localized: "unnamed_secret")
let id = $0[kSecAttrApplicationLabel] as! Data
let publicKeyRef = $0[kSecValueRef] as! SecKey
let publicKeyAttributes = SecKeyCopyAttributes(publicKeyRef) as! [CFString: Any]
let publicKey = publicKeyAttributes[kSecValueData] as! Data
let privateKey = privateMapped[id]
let requiresAuth: Bool
if let authRequirements = privateKey?[kSecAttrAccessControl] {
// Unfortunately we can't inspect the access control object directly, but it does behave predicatable with equality.
requiresAuth = authRequirements as! SecAccessControl != authNotRequiredAccessControl
} else {
requiresAuth = false
}
return SecureEnclave.Secret(id: id, name: name, requiresAuthentication: requiresAuth, publicKey: publicKey)
}
secrets.append(contentsOf: wrapped)
}
/// Saves a public key.
/// - Parameters:
/// - key: The data representation key to save.
/// - publicKey: The public key to save.
/// - name: A user-facing name for the key.
/// - attributes: Attributes of the key.
/// - Note: Despite the name, the "Data" of the key is _not_ actual key material. This is an opaque data representation that the SEP can manipulate.
@discardableResult
func saveKey(_ key: Data, name: String, attributes: Attributes) throws -> String {
let attributes = try JSONEncoder().encode(attributes)
let id = UUID().uuidString
let keychainAttributes = KeychainDictionary([
kSecClass: Constants.keyClass,
kSecAttrService: Constants.keyTag,
kSecUseDataProtectionKeychain: true,
kSecAttrAccessible: kSecAttrAccessibleWhenUnlockedThisDeviceOnly,
kSecAttrAccount: id,
kSecValueData: key,
kSecAttrLabel: name,
kSecAttrGeneric: attributes
])
let status = SecItemAdd(keychainAttributes, nil)
private func savePublicKey(_ publicKey: SecKey, name: String) throws {
let attributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyType: SecureEnclave.Constants.keyType,
kSecAttrKeyClass: kSecAttrKeyClassPublic,
kSecAttrApplicationTag: SecureEnclave.Constants.keyTag,
kSecValueRef: publicKey,
kSecAttrIsPermanent: true,
kSecReturnData: true,
kSecAttrLabel: name
])
let status = SecItemAdd(attributes, nil)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
return id
}
}
extension SecureEnclave.Store {
extension SecureEnclave {
enum Constants {
static let keyClass = kSecClassGenericPassword as String
static let keyTag = Data("com.maxgoedjen.secretive.secureenclave.key".utf8)
static let notificationToken = UUID().uuidString
static let keyTag = "com.maxgoedjen.secretive.secureenclave.key".data(using: .utf8)! as CFData
static let keyType = kSecAttrKeyTypeECSECPrimeRandom
static let unauthenticatedThreshold: TimeInterval = 0.05
}
}
extension SecureEnclave {
/// A context describing a persisted authentication.
private struct PersistentAuthenticationContext: PersistedAuthenticationContext {
/// The Secret to persist authentication for.
let secret: Secret
/// The LAContext used to authorize the persistent context.
let context: LAContext
/// An expiration date for the context.
/// - Note - Monotonic time instead of Date() to prevent people setting the clock back.
let monotonicExpiration: UInt64
/// Initializes a context.
/// - Parameters:
/// - secret: The Secret to persist authentication for.
/// - context: The LAContext used to authorize the persistent context.
/// - duration: The duration of the authorization context, in seconds.
init(secret: Secret, context: LAContext, duration: TimeInterval) {
self.secret = secret
self.context = context
let durationInNanoSeconds = Measurement(value: duration, unit: UnitDuration.seconds).converted(to: .nanoseconds).value
self.monotonicExpiration = clock_gettime_nsec_np(CLOCK_MONOTONIC) + UInt64(durationInNanoSeconds)
}
/// A boolean describing whether or not the context is still valid.
var valid: Bool {
clock_gettime_nsec_np(CLOCK_MONOTONIC) < monotonicExpiration
}
var expiration: Date {
let remainingNanoseconds = monotonicExpiration - clock_gettime_nsec_np(CLOCK_MONOTONIC)
let remainingInSeconds = Measurement(value: Double(remainingNanoseconds), unit: UnitDuration.nanoseconds).converted(to: .seconds).value
return Date(timeIntervalSinceNow: remainingInSeconds)
}
}
struct UnsupportedAlgorithmError: Error {}
struct MissingAttributesError: Error {}
}

5
Sources/Packages/Sources/SmartCardSecretKit/SmartCardSecret.swift
View File

@@ -1,4 +1,5 @@
import Foundation
import Combine
import SecretKit
extension SmartCard {
@@ -8,8 +9,10 @@ extension SmartCard {
public let id: Data
public let name: String
public let algorithm: Algorithm
public let keySize: Int
public let requiresAuthentication: Bool = false
public let publicKey: Data
public var attributes: Attributes
}

244
Sources/Packages/Sources/SmartCardSecretKit/SmartCardStore.swift
View File

@@ -1,66 +1,57 @@
import Foundation
import Observation
import Combine
import Security
@preconcurrency import CryptoTokenKit
import CryptoTokenKit
import LocalAuthentication
import SecretKit
extension SmartCard {
@MainActor @Observable fileprivate final class State {
var isAvailable = false
var name = String(localized: .smartCard)
var secrets: [Secret] = []
let watcher = TKTokenWatcher()
var tokenID: String? = nil
nonisolated init() {}
}
/// An implementation of Store backed by a Smart Card.
@Observable public final class Store: SecretStore {
private let state = State()
public var isAvailable: Bool {
state.isAvailable
}
@MainActor public var smartcardTokenID: String? {
state.tokenID
}
public final class Store: SecretStore {
@Published public var isAvailable: Bool = false
public let id = UUID()
@MainActor public var name: String {
state.name
}
public var secrets: [Secret] {
state.secrets
}
public private(set) var name = String(localized: "smart_card")
@Published public private(set) var secrets: [Secret] = []
private let watcher = TKTokenWatcher()
private var tokenID: String?
/// Initializes a Store.
public init() {
Task {
await MainActor.run {
if let tokenID = smartcardTokenID {
state.isAvailable = true
state.watcher.addRemovalHandler(self.smartcardRemoved, forTokenID: tokenID)
}
loadSecrets()
}
// Doing this inside a regular mainactor handler casues thread assertions in CryptoTokenKit to blow up when the handler executes.
await state.watcher.setInsertionHandler { id in
Task {
await self.smartcardInserted(for: id)
}
tokenID = watcher.nonSecureEnclaveTokens.first
watcher.setInsertionHandler { [reload = reloadSecretsInternal] string in
guard self.tokenID == nil else { return }
guard !string.contains("setoken") else { return }
self.tokenID = string
DispatchQueue.main.async {
reload()
}
self.watcher.addRemovalHandler(self.smartcardRemoved, forTokenID: string)
}
if let tokenID = tokenID {
self.isAvailable = true
self.watcher.addRemovalHandler(self.smartcardRemoved, forTokenID: tokenID)
}
loadSecrets()
}
// MARK: Public API
public func sign(data: Data, with secret: Secret, for provenance: SigningRequestProvenance) async throws -> Data {
guard let tokenID = await state.tokenID else { fatalError() }
public func create(name: String) throws {
fatalError("Keys must be created on the smart card.")
}
public func delete(secret: Secret) throws {
fatalError("Keys must be deleted on the smart card.")
}
public func sign(data: Data, with secret: Secret, for provenance: SigningRequestProvenance) throws -> Data {
guard let tokenID = tokenID else { fatalError() }
let context = LAContext()
context.localizedReason = String(localized: .authContextRequestSignatureDescription(appName: provenance.origin.displayName, secretName: secret.name))
context.localizedCancelTitle = String(localized: .authContextRequestDenyButton)
context.localizedReason = String(localized: "auth_context_request_signature_description_\(provenance.origin.displayName)_\(secret.name)")
context.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
let attributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
@@ -79,13 +70,35 @@ extension SmartCard {
}
let key = untypedSafe as! SecKey
var signError: SecurityError?
guard let algorithm = signatureAlgorithm(for: secret) else { throw UnsupportKeyType() }
guard let signature = SecKeyCreateSignature(key, algorithm, data as CFData, &signError) else {
guard let signature = SecKeyCreateSignature(key, signatureAlgorithm(for: secret, allowRSA: true), data as CFData, &signError) else {
throw SigningError(error: signError)
}
return signature as Data
}
public func verify(signature: Data, for data: Data, with secret: Secret) throws -> Bool {
let attributes = KeychainDictionary([
kSecAttrKeyType: secret.algorithm.secAttrKeyType,
kSecAttrKeySizeInBits: secret.keySize,
kSecAttrKeyClass: kSecAttrKeyClassPublic
])
var verifyError: SecurityError?
let untyped: CFTypeRef? = SecKeyCreateWithData(secret.publicKey as CFData, attributes, &verifyError)
guard let untypedSafe = untyped else {
throw KeychainError(statusCode: errSecSuccess)
}
let key = untypedSafe as! SecKey
let verified = SecKeyVerifySignature(key, signatureAlgorithm(for: secret, allowRSA: true), data as CFData, signature as CFData, &verifyError)
if !verified, let verifyError {
if verifyError.takeUnretainedValue() ~= .verifyError {
return false
} else {
throw SigningError(error: verifyError)
}
}
return verified
}
public func existingPersistedAuthenticationContext(secret: Secret) -> PersistedAuthenticationContext? {
nil
}
@@ -94,7 +107,7 @@ extension SmartCard {
}
/// Reloads all secrets from the store.
@MainActor public func reloadSecrets() {
public func reloadSecrets() {
reloadSecretsInternal()
}
@@ -104,44 +117,32 @@ extension SmartCard {
extension SmartCard.Store {
@MainActor private func reloadSecretsInternal() {
let before = state.secrets
state.isAvailable = state.tokenID != nil
state.secrets.removeAll()
loadSecrets()
@Sendable private func reloadSecretsInternal() {
self.isAvailable = self.tokenID != nil
let before = self.secrets
self.secrets.removeAll()
self.loadSecrets()
if self.secrets != before {
NotificationCenter.default.post(name: .secretStoreReloaded, object: self)
}
}
/// Resets the token ID and reloads secrets.
/// - Parameter tokenID: The ID of the token that was inserted.
@MainActor private func smartcardInserted(for tokenID: String? = nil) {
guard let string = state.watcher.nonSecureEnclaveTokens.first else { return }
guard state.tokenID == nil else { return }
guard !string.contains("setoken") else { return }
state.tokenID = string
state.watcher.addRemovalHandler(self.smartcardRemoved, forTokenID: string)
state.tokenID = string
reloadSecretsInternal()
}
/// Resets the token ID and reloads secrets.
/// - Parameter tokenID: The ID of the token that was removed.
@MainActor private func smartcardRemoved(for tokenID: String? = nil) {
state.tokenID = nil
private func smartcardRemoved(for tokenID: String? = nil) {
self.tokenID = nil
reloadSecrets()
}
/// Loads all secrets from the store.
@MainActor private func loadSecrets() {
guard let tokenID = state.tokenID else { return }
private func loadSecrets() {
guard let tokenID = tokenID else { return }
let fallbackName = String(localized: .smartCard)
if let driverName = state.watcher.tokenInfo(forTokenID: tokenID)?.driverName {
state.name = driverName
let fallbackName = String(localized: "smart_card")
if let driverName = watcher.tokenInfo(forTokenID: tokenID)?.driverName {
name = driverName
} else {
state.name = fallbackName
name = fallbackName
}
let attributes = KeychainDictionary([
@@ -154,21 +155,100 @@ extension SmartCard.Store {
var untyped: CFTypeRef?
SecItemCopyMatching(attributes, &untyped)
guard let typed = untyped as? [[CFString: Any]] else { return }
let wrapped: [SecretType] = typed.compactMap {
let name = $0[kSecAttrLabel] as? String ?? String(localized: .unnamedSecret)
let wrapped = typed.map {
let name = $0[kSecAttrLabel] as? String ?? String(localized: "unnamed_secret")
let tokenID = $0[kSecAttrApplicationLabel] as! Data
let algorithmSecAttr = $0[kSecAttrKeyType] as! NSNumber
let algorithm = Algorithm(secAttr: $0[kSecAttrKeyType] as! NSNumber)
let keySize = $0[kSecAttrKeySizeInBits] as! Int
let publicKeyRef = $0[kSecValueRef] as! SecKey
let publicKeySecRef = SecKeyCopyPublicKey(publicKeyRef)!
let publicKeyAttributes = SecKeyCopyAttributes(publicKeySecRef) as! [CFString: Any]
let publicKey = publicKeyAttributes[kSecValueData] as! Data
let attributes = Attributes(keyType: KeyType(secAttr: algorithmSecAttr, size: keySize)!, authentication: .unknown)
let secret = SmartCard.Secret(id: tokenID, name: name, publicKey: publicKey, attributes: attributes)
guard signatureAlgorithm(for: secret) != nil else { return nil }
return secret
return SmartCard.Secret(id: tokenID, name: name, algorithm: algorithm, keySize: keySize, publicKey: publicKey)
}
secrets.append(contentsOf: wrapped)
}
}
// MARK: Smart Card specific encryption/decryption/verification
extension SmartCard.Store {
/// Encrypts a payload with a specified key.
/// - Parameters:
/// - data: The payload to encrypt.
/// - secret: The secret to encrypt with.
/// - Returns: The encrypted data.
/// - Warning: Encryption functions are deliberately only exposed on a library level, and are not exposed in Secretive itself to prevent users from data loss. Any pull requests which expose this functionality in the app will not be merged.
public func encrypt(data: Data, with secret: SecretType) throws -> Data {
let context = LAContext()
context.localizedReason = String(localized: "auth_context_request_encrypt_description_\(secret.name)")
context.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
let attributes = KeychainDictionary([
kSecAttrKeyType: secret.algorithm.secAttrKeyType,
kSecAttrKeySizeInBits: secret.keySize,
kSecAttrKeyClass: kSecAttrKeyClassPublic,
kSecUseAuthenticationContext: context
])
var encryptError: SecurityError?
let untyped: CFTypeRef? = SecKeyCreateWithData(secret.publicKey as CFData, attributes, &encryptError)
guard let untypedSafe = untyped else {
throw KeychainError(statusCode: errSecSuccess)
}
let key = untypedSafe as! SecKey
guard let signature = SecKeyCreateEncryptedData(key, encryptionAlgorithm(for: secret), data as CFData, &encryptError) else {
throw SigningError(error: encryptError)
}
return signature as Data
}
/// Decrypts a payload with a specified key.
/// - Parameters:
/// - data: The payload to decrypt.
/// - secret: The secret to decrypt with.
/// - Returns: The decrypted data.
/// - Warning: Encryption functions are deliberately only exposed on a library level, and are not exposed in Secretive itself to prevent users from data loss. Any pull requests which expose this functionality in the app will not be merged.
public func decrypt(data: Data, with secret: SecretType) throws -> Data {
guard let tokenID = tokenID else { fatalError() }
let context = LAContext()
context.localizedReason = String(localized: "auth_context_request_decrypt_description_\(secret.name)")
context.localizedCancelTitle = String(localized: "auth_context_request_deny_button")
let attributes = KeychainDictionary([
kSecClass: kSecClassKey,
kSecAttrKeyClass: kSecAttrKeyClassPrivate,
kSecAttrApplicationLabel: secret.id as CFData,
kSecAttrTokenID: tokenID,
kSecUseAuthenticationContext: context,
kSecReturnRef: true
])
var untyped: CFTypeRef?
let status = SecItemCopyMatching(attributes, &untyped)
if status != errSecSuccess {
throw KeychainError(statusCode: status)
}
guard let untypedSafe = untyped else {
throw KeychainError(statusCode: errSecSuccess)
}
let key = untypedSafe as! SecKey
var encryptError: SecurityError?
guard let signature = SecKeyCreateDecryptedData(key, encryptionAlgorithm(for: secret), data as CFData, &encryptError) else {
throw SigningError(error: encryptError)
}
return signature as Data
}
private func encryptionAlgorithm(for secret: SecretType) -> SecKeyAlgorithm {
switch (secret.algorithm, secret.keySize) {
case (.ellipticCurve, 256):
return .eciesEncryptionCofactorVariableIVX963SHA256AESGCM
case (.ellipticCurve, 384):
return .eciesEncryptionCofactorVariableIVX963SHA384AESGCM
case (.rsa, 1024), (.rsa, 2048):
return .rsaEncryptionOAEPSHA512AESGCM
default:
fatalError()
}
state.secrets.append(contentsOf: wrapped)
}
}
@@ -181,9 +261,3 @@ extension TKTokenWatcher {
}
}
extension SmartCard {
public struct UnsupportKeyType: Error {}
}

81
Sources/Packages/Tests/BriefTests/ReleaseParsingTests.swift
View File

@@ -1,65 +1,54 @@
import Testing
import Foundation
import XCTest
@testable import Brief
@Suite struct ReleaseParsingTests {
class ReleaseParsingTests: XCTestCase {
@Test
func nonCritical() {
func testNonCritical() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Initial release")
#expect(release.critical == false)
XCTAssert(release.critical == false)
}
@Test
func critical() {
func testCritical() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update")
#expect(release.critical == true)
XCTAssert(release.critical == true)
}
@Test
func osMissing() {
func testOSMissing() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update")
#expect(release.minimumOSVersion == SemVer("11.0.0"))
XCTAssert(release.minimumOSVersion == SemVer("11.0.0"))
}
@Test
func osPresentWithContentBelow() {
func testOSPresentWithContentBelow() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update ##Minimum macOS Version\n1.2.3\nBuild info")
#expect(release.minimumOSVersion == SemVer("1.2.3"))
XCTAssert(release.minimumOSVersion == SemVer("1.2.3"))
}
@Test
func osPresentAtEnd() {
func testOSPresentAtEnd() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update Minimum macOS Version: 1.2.3")
#expect(release.minimumOSVersion == SemVer("1.2.3"))
XCTAssert(release.minimumOSVersion == SemVer("1.2.3"))
}
@Test
func osWithMacOSPrefix() {
func testOSWithMacOSPrefix() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update Minimum macOS Version: macOS 1.2.3")
#expect(release.minimumOSVersion == SemVer("1.2.3"))
XCTAssert(release.minimumOSVersion == SemVer("1.2.3"))
}
@Test
func osGreaterThanMinimum() {
func testOSGreaterThanMinimum() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update Minimum macOS Version: 1.2.3")
#expect(release.minimumOSVersion < SemVer("11.0.0"))
XCTAssert(release.minimumOSVersion < SemVer("11.0.0"))
}
@Test
func osEqualToMinimum() {
func testOSEqualToMinimum() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update Minimum macOS Version: 11.2.3")
#expect(release.minimumOSVersion <= SemVer("11.2.3"))
XCTAssert(release.minimumOSVersion <= SemVer("11.2.3"))
}
@Test
func osLessThanMinimum() {
func testOSLessThanMinimum() {
let release = Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Critical Security Update Minimum macOS Version: 1.2.3")
#expect(release.minimumOSVersion > SemVer("1.0.0"))
XCTAssert(release.minimumOSVersion > SemVer("1.0.0"))
}
@Test
@MainActor func greatestSelectedIfOldPatchIsPublishedLater() async throws {
func testGreatestSelectedIfOldPatchIsPublishedLater() {
// If 2.x.x series has been published, and a patch for 1.x.x is issued
// 2.x.x should still be selected if user can run it.
let updater = Updater(checkOnLaunch: false, osVersion: SemVer("2.2.3"), currentVersion: SemVer("1.0.0"))
@@ -71,13 +60,16 @@ import Foundation
Release(name: "1.0.2", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Emergency patch! Minimum macOS Version: 1.2.3"),
]
await updater.evaluate(releases: releases)
try await Task.sleep(nanoseconds: 1)
#expect(updater.update == two)
let expectation = XCTestExpectation()
updater.evaluate(releases: releases)
DispatchQueue.main.async {
XCTAssert(updater.update == two)
expectation.fulfill()
}
wait(for: [expectation], timeout: 1)
}
@Test
@MainActor func latestVersionIsRunnable() async throws {
func testLatestVersionIsRunnable() {
// If the 2.x.x series has been published but the user can't run it
// the last version the user can run should be selected.
let updater = Updater(checkOnLaunch: false, osVersion: SemVer("1.2.3"), currentVersion: SemVer("1.0.0"))
@@ -88,13 +80,16 @@ import Foundation
Release(name: "2.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "2.0 available! Minimum macOS Version: 2.2.3"),
Release(name: "1.0.2", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Emergency patch! Minimum macOS Version: 1.2.3"),
]
await updater.evaluate(releases: releases)
try await Task.sleep(nanoseconds: 1)
#expect(updater.update == oneOhTwo)
let expectation = XCTestExpectation()
updater.evaluate(releases: releases)
DispatchQueue.main.async {
XCTAssert(updater.update == oneOhTwo)
expectation.fulfill()
}
wait(for: [expectation], timeout: 1)
}
@Test
func sorting() {
func testSorting() {
let two = Release(name: "2.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "2.0 available!")
let releases = [
Release(name: "1.0.0", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Initial release"),
@@ -103,7 +98,7 @@ import Foundation
Release(name: "1.0.2", prerelease: false, html_url: URL(string: "https://example.com")!, body: "Emergency patch!"),
]
let sorted = releases.sorted().reversed().first
#expect(sorted == two)
XCTAssert(sorted == two)
}
}

37
Sources/Packages/Tests/BriefTests/SemVerTests.swift
View File

@@ -1,52 +1,51 @@
import Testing
import Foundation
import XCTest
@testable import Brief
@Suite struct SemVerTests {
class SemVerTests: XCTestCase {
@Test func equal() {
func testEqual() {
let current = SemVer("1.0.2")
let old = SemVer("1.0.2")
#expect(!(current > old))
XCTAssert(!(current > old))
}
@Test func patchGreaterButMinorLess() {
func testPatchGreaterButMinorLess() {
let current = SemVer("1.1.0")
let old = SemVer("1.0.2")
#expect(current > old)
XCTAssert(current > old)
}
@Test func majorSameMinorGreater() {
func testMajorSameMinorGreater() {
let current = SemVer("1.0.2")
let new = SemVer("1.0.3")
#expect(current < new)
XCTAssert(current < new)
}
@Test func majorGreaterMinorLesser() {
func testMajorGreaterMinorLesser() {
let current = SemVer("1.0.2")
let new = SemVer("2.0.0")
#expect(current < new)
XCTAssert(current < new)
}
@Test func regularParsing() {
func testRegularParsing() {
let current = SemVer("1.0.2")
#expect(current.versionNumbers == [1, 0, 2])
XCTAssert(current.versionNumbers == [1, 0, 2])
}
@Test func noPatch() {
func testNoPatch() {
let current = SemVer("1.1")
#expect(current.versionNumbers == [1, 1, 0])
XCTAssert(current.versionNumbers == [1, 1, 0])
}
@Test func garbage() {
func testGarbage() {
let current = SemVer("Test")
#expect(current.versionNumbers == [0, 0, 0])
XCTAssert(current.versionNumbers == [0, 0, 0])
}
@Test func beta() {
func testBeta() {
let current = SemVer("1.0.2")
let new = SemVer("1.1.0_beta1")
#expect(current < new)
XCTAssert(current < new)
}
}

165
Sources/Packages/Tests/SecretAgentKitTests/AgentTests.swift
View File

@@ -1,98 +1,111 @@
import Foundation
import Testing
import XCTest
import CryptoKit
@testable import SecretKit
@testable import SecretAgentKit
@Suite struct AgentTests {
class AgentTests: XCTestCase {
let stubWriter = StubFileHandleWriter()
// MARK: Identity Listing
// let testProvenance = SigningRequestProvenance(root: .init(pid: 0, processName: "Test", appName: "Test", iconURL: nil, path: /, validSignature: true, parentPID: nil))
@Test func emptyStores() async throws {
func testEmptyStores() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestIdentities)
let agent = Agent(storeList: SecretStoreList())
let response = try await agent.handle(data: Constants.Requests.requestIdentities, provenance: .test)
#expect(response == Constants.Responses.requestIdentitiesEmpty)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(stubWriter.data, Constants.Responses.requestIdentitiesEmpty)
}
@Test func identitiesList() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
func testIdentitiesList() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestIdentities)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
let agent = Agent(storeList: list)
let response = try await agent.handle(data: Constants.Requests.requestIdentities, provenance: .test)
#expect(response == Constants.Responses.requestIdentitiesMultiple)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(stubWriter.data, Constants.Responses.requestIdentitiesMultiple)
}
// MARK: Signatures
@Test func noMatchingIdentities() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
func testNoMatchingIdentities() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignatureWithNoneMatching)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
let agent = Agent(storeList: list)
let response = try await agent.handle(data: Constants.Requests.requestSignatureWithNoneMatching, provenance: .test)
#expect(response == Constants.Responses.requestFailure)
await agent.handle(reader: stubReader, writer: stubWriter)
// XCTAssertEqual(stubWriter.data, Constants.Responses.requestFailure)
}
// @Test func ecdsaSignature() async throws {
// let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
// let requestReader = OpenSSHReader(data: Constants.Requests.requestSignature[5...])
// _ = requestReader.readNextChunk()
// let dataToSign = requestReader.readNextChunk()
// let list = await storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
// let agent = Agent(storeList: list)
// await agent.handle(reader: stubReader, writer: stubWriter)
// let outer = OpenSSHReader(data: stubWriter.data[5...])
// let payload = outer.readNextChunk()
// let inner = OpenSSHReader(data: payload)
// _ = inner.readNextChunk()
// let signedData = inner.readNextChunk()
// let rsData = OpenSSHReader(data: signedData)
// var r = rsData.readNextChunk()
// var s = rsData.readNextChunk()
// // This is fine IRL, but it freaks out CryptoKit
// if r[0] == 0 {
// r.removeFirst()
// }
// if s[0] == 0 {
// s.removeFirst()
// }
// var rs = r
// rs.append(s)
// let signature = try P256.Signing.ECDSASignature(rawRepresentation: rs)
// // Correct signature
// #expect(try P256.Signing.PublicKey(x963Representation: Constants.Secrets.ecdsa256Secret.publicKey)
// .isValidSignature(signature, for: dataToSign))
// }
func testSignature() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
let requestReader = OpenSSHReader(data: Constants.Requests.requestSignature[5...])
_ = requestReader.readNextChunk()
let dataToSign = requestReader.readNextChunk()
let list = storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
let agent = Agent(storeList: list)
await agent.handle(reader: stubReader, writer: stubWriter)
let outer = OpenSSHReader(data: stubWriter.data[5...])
let payload = outer.readNextChunk()
let inner = OpenSSHReader(data: payload)
_ = inner.readNextChunk()
let signedData = inner.readNextChunk()
let rsData = OpenSSHReader(data: signedData)
var r = rsData.readNextChunk()
var s = rsData.readNextChunk()
// This is fine IRL, but it freaks out CryptoKit
if r[0] == 0 {
r.removeFirst()
}
if s[0] == 0 {
s.removeFirst()
}
var rs = r
rs.append(s)
let signature = try! P256.Signing.ECDSASignature(rawRepresentation: rs)
let referenceValid = try! P256.Signing.PublicKey(x963Representation: Constants.Secrets.ecdsa256Secret.publicKey).isValidSignature(signature, for: dataToSign)
let store = list.stores.first!
let derVerifies = try! store.verify(signature: signature.derRepresentation, for: dataToSign, with: AnySecret(Constants.Secrets.ecdsa256Secret))
let invalidRandomSignature = try? store.verify(signature: "invalid".data(using: .utf8)!, for: dataToSign, with: AnySecret(Constants.Secrets.ecdsa256Secret))
let invalidRandomData = try? store.verify(signature: signature.derRepresentation, for: "invalid".data(using: .utf8)!, with: AnySecret(Constants.Secrets.ecdsa256Secret))
let invalidWrongKey = try? store.verify(signature: signature.derRepresentation, for: dataToSign, with: AnySecret(Constants.Secrets.ecdsa384Secret))
XCTAssertTrue(referenceValid)
XCTAssertTrue(derVerifies)
XCTAssert(invalidRandomSignature == false)
XCTAssert(invalidRandomData == false)
XCTAssert(invalidWrongKey == false)
}
// MARK: Witness protocol
@Test func witnessObjectionStopsRequest() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret])
func testWitnessObjectionStopsRequest() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret])
let witness = StubWitness(speakNow: { _,_ in
return true
}, witness: { _, _ in })
let agent = Agent(storeList: list, witness: witness)
let response = try await agent.handle(data: Constants.Requests.requestSignature, provenance: .test)
#expect(response == Constants.Responses.requestFailure)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(stubWriter.data, Constants.Responses.requestFailure)
}
@Test func witnessSignature() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret])
nonisolated(unsafe) var witnessed = false
func testWitnessSignature() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret])
var witnessed = false
let witness = StubWitness(speakNow: { _, trace in
return false
}, witness: { _, trace in
witnessed = true
})
let agent = Agent(storeList: list, witness: witness)
_ = try await agent.handle(data: Constants.Requests.requestSignature, provenance: .test)
#expect(witnessed)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertTrue(witnessed)
}
@Test func requestTracing() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret])
nonisolated(unsafe) var speakNowTrace: SigningRequestProvenance?
nonisolated(unsafe) var witnessTrace: SigningRequestProvenance?
func testRequestTracing() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret])
var speakNowTrace: SigningRequestProvenance! = nil
var witnessTrace: SigningRequestProvenance! = nil
let witness = StubWitness(speakNow: { _, trace in
speakNowTrace = trace
return false
@@ -100,41 +113,39 @@ import CryptoKit
witnessTrace = trace
})
let agent = Agent(storeList: list, witness: witness)
_ = try await agent.handle(data: Constants.Requests.requestSignature, provenance: .test)
#expect(witnessTrace == speakNowTrace)
#expect(witnessTrace == .test)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(witnessTrace, speakNowTrace)
XCTAssertEqual(witnessTrace.origin.displayName, "Finder")
XCTAssertEqual(witnessTrace.origin.validSignature, true)
XCTAssertEqual(witnessTrace.origin.parentPID, 1)
}
// MARK: Exception Handling
@Test func signatureException() async throws {
let list = await storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
let store = await list.stores.first?.base as! Stub.Store
func testSignatureException() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.requestSignature)
let list = storeList(with: [Constants.Secrets.ecdsa256Secret, Constants.Secrets.ecdsa384Secret])
let store = list.stores.first?.base as! Stub.Store
store.shouldThrow = true
let agent = Agent(storeList: list)
let response = try await agent.handle(data: Constants.Requests.requestSignature, provenance: .test)
#expect(response == Constants.Responses.requestFailure)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(stubWriter.data, Constants.Responses.requestFailure)
}
// MARK: Unsupported
@Test func unhandledAdd() async throws {
func testUnhandledAdd() async {
let stubReader = StubFileHandleReader(availableData: Constants.Requests.addIdentity)
let agent = Agent(storeList: SecretStoreList())
let response = try await agent.handle(data: Constants.Requests.addIdentity, provenance: .test)
#expect(response == Constants.Responses.requestFailure)
await agent.handle(reader: stubReader, writer: stubWriter)
XCTAssertEqual(stubWriter.data, Constants.Responses.requestFailure)
}
}
extension SigningRequestProvenance {
static let test = SigningRequestProvenance(root: .init(pid: 0, processName: "test", appName: nil, iconURL: nil, path: "/", validSignature: true, parentPID: 0))
}
extension AgentTests {
@MainActor func storeList(with secrets: [Stub.Secret]) async -> SecretStoreList {
func storeList(with secrets: [Stub.Secret]) -> SecretStoreList {
let store = Stub.Store()
store.secrets.append(contentsOf: secrets)
let storeList = SecretStoreList()

14
Sources/Packages/Tests/SecretAgentKitTests/StubFileHandleReader.swift Normal file
View File

@@ -0,0 +1,14 @@
import SecretAgentKit
import AppKit
struct StubFileHandleReader: FileHandleReader {
let availableData: Data
var fileDescriptor: Int32 {
NSWorkspace.shared.runningApplications.filter({ $0.localizedName == "Finder" }).first!.processIdentifier
}
var pidOfConnectedProcess: Int32 {
fileDescriptor
}
}

12
Sources/Packages/Tests/SecretAgentKitTests/StubFileHandleWriter.swift Normal file
View File

@@ -0,0 +1,12 @@
import Foundation
import SecretAgentKit
class StubFileHandleWriter: FileHandleWriter {
var data = Data()
func write(_ data: Data) {
self.data.append(data)
}
}

46
Sources/Packages/Tests/SecretAgentKitTests/StubStore.swift
View File

@@ -6,7 +6,7 @@ struct Stub {}
extension Stub {
public final class Store: SecretStore, @unchecked Sendable {
public final class Store: SecretStore {
public let isAvailable = true
public let id = UUID()
@@ -45,15 +45,43 @@ extension Stub {
let privateData = (privateAttributes[kSecValueData] as! Data)
let secret = Secret(keySize: size, publicKey: publicData, privateKey: privateData)
print(secret)
print("Public Key OpenSSH: \(OpenSSHPublicKeyWriter().openSSHString(secret: secret))")
print("Public Key OpenSSH: \(OpenSSHKeyWriter().openSSHString(secret: secret))")
}
public func sign(data: Data, with secret: Secret, for provenance: SigningRequestProvenance) throws -> Data {
guard !shouldThrow else {
throw NSError(domain: "test", code: 0, userInfo: nil)
}
let privateKey = try CryptoKit.P256.Signing.PrivateKey(x963Representation: secret.privateKey)
return try privateKey.signature(for: data).rawRepresentation
let privateKey = SecKeyCreateWithData(secret.privateKey as CFData, KeychainDictionary([
kSecAttrKeyType: kSecAttrKeyTypeECSECPrimeRandom,
kSecAttrKeySizeInBits: secret.keySize,
kSecAttrKeyClass: kSecAttrKeyClassPrivate
])
, nil)!
return SecKeyCreateSignature(privateKey, signatureAlgorithm(for: secret), data as CFData, nil)! as Data
}
public func verify(signature: Data, for data: Data, with secret: Stub.Secret) throws -> Bool {
let attributes = KeychainDictionary([
kSecAttrKeyType: secret.algorithm.secAttrKeyType,
kSecAttrKeySizeInBits: secret.keySize,
kSecAttrKeyClass: kSecAttrKeyClassPublic
])
var verifyError: Unmanaged<CFError>?
let untyped: CFTypeRef? = SecKeyCreateWithData(secret.publicKey as CFData, attributes, &verifyError)
guard let untypedSafe = untyped else {
throw NSError(domain: "test", code: 0, userInfo: nil)
}
let key = untypedSafe as! SecKey
let verified = SecKeyVerifySignature(key, signatureAlgorithm(for: secret), data as CFData, signature as CFData, &verifyError)
if let verifyError {
if verifyError.takeUnretainedValue() ~= .verifyError {
return false
} else {
throw NSError(domain: "test", code: 0, userInfo: nil)
}
}
return verified
}
public func existingPersistedAuthenticationContext(secret: Stub.Secret) -> PersistedAuthenticationContext? {
@@ -74,22 +102,24 @@ extension Stub {
struct Secret: SecretKit.Secret, CustomDebugStringConvertible {
let id = Data(UUID().uuidString.utf8)
let id = UUID().uuidString.data(using: .utf8)!
let name = UUID().uuidString
let attributes: Attributes
let algorithm = Algorithm.ellipticCurve
let keySize: Int
let publicKey: Data
let requiresAuthentication = false
let privateKey: Data
init(keySize: Int, publicKey: Data, privateKey: Data) {
self.attributes = Attributes(keyType: .init(algorithm: .ecdsa, size: keySize), authentication: .notRequired)
self.keySize = keySize
self.publicKey = publicKey
self.privateKey = privateKey
}
var debugDescription: String {
"""
Key Size \(attributes.keyType.size)
Key Size \(keySize)
Private: \(privateKey.base64EncodedString())
Public: \(publicKey.base64EncodedString())
"""

4
Sources/Packages/Tests/SecretAgentKitTests/StubWitness.swift
View File

@@ -3,8 +3,8 @@ import SecretAgentKit
struct StubWitness {
let speakNow: @Sendable (AnySecret, SigningRequestProvenance) -> Bool
let witness: @Sendable (AnySecret, SigningRequestProvenance) -> ()
let speakNow: (AnySecret, SigningRequestProvenance) -> Bool
let witness: (AnySecret, SigningRequestProvenance) -> ()
}

19
Sources/Packages/Tests/SecretKitTests/AnySecretTests.swift
View File

@@ -1,20 +1,19 @@
import Foundation
import Testing
import XCTest
@testable import SecretKit
@testable import SecureEnclaveSecretKit
@testable import SmartCardSecretKit
class AnySecretTests: XCTestCase {
@Suite struct AnySecretTests {
@Test func eraser() {
let data = Data(UUID().uuidString.utf8)
let secret = SmartCard.Secret(id: data, name: "Name", publicKey: data, attributes: Attributes(keyType: KeyType(algorithm: .ecdsa, size: 256), authentication: .notRequired))
func testEraser() {
let secret = SmartCard.Secret(id: UUID().uuidString.data(using: .utf8)!, name: "Name", algorithm: .ellipticCurve, keySize: 256, publicKey: UUID().uuidString.data(using: .utf8)!)
let erased = AnySecret(secret)
#expect(erased.id == secret.id as AnyHashable)
#expect(erased.name == secret.name)
#expect(erased.keyType == secret.keyType)
#expect(erased.publicKey == secret.publicKey)
XCTAssert(erased.id == secret.id as AnyHashable)
XCTAssert(erased.name == secret.name)
XCTAssert(erased.algorithm == secret.algorithm)
XCTAssert(erased.keySize == secret.keySize)
XCTAssert(erased.publicKey == secret.publicKey)
}
}

55
Sources/Packages/Tests/SecretKitTests/OpenSSHPublicKeyWriterTests.swift
View File

@@ -1,55 +0,0 @@
import Foundation
import Testing
@testable import SecretKit
@testable import SecureEnclaveSecretKit
@testable import SmartCardSecretKit
@Suite struct OpenSSHPublicKeyWriterTests {
let writer = OpenSSHPublicKeyWriter()
@Test func ecdsa256MD5Fingerprint() {
#expect(writer.openSSHMD5Fingerprint(secret: Constants.ecdsa256Secret) == "dc:60:4d:ff:c2:d9:18:8b:2f:24:40:b5:7f:43:47:e5")
}
@Test func ecdsa256SHA256Fingerprint() {
#expect(writer.openSSHSHA256Fingerprint(secret: Constants.ecdsa256Secret) == "SHA256:/VQFeGyM8qKA8rB6WGMuZZxZLJln2UgXLk3F0uTF650")
}
@Test func ecdsa256PublicKey() {
#expect(writer.openSSHString(secret: Constants.ecdsa256Secret) ==
"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo= test@example.com")
}
@Test func ecdsa256Hash() {
#expect(writer.data(secret: Constants.ecdsa256Secret) == Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo="))
}
@Test func ecdsa384MD5Fingerprint() {
#expect(writer.openSSHMD5Fingerprint(secret: Constants.ecdsa384Secret) == "66:e0:66:d7:41:ed:19:8e:e2:20:df:ce:ac:7e:2b:6e")
}
@Test func ecdsa384SHA256Fingerprint() {
#expect(writer.openSSHSHA256Fingerprint(secret: Constants.ecdsa384Secret) == "SHA256:GJUEymQNL9ymaMRRJCMGY4rWIJHu/Lm8Yhao/PAiz1I")
}
@Test func ecdsa384PublicKey() {
#expect(writer.openSSHString(secret: Constants.ecdsa384Secret) ==
"ecdsa-sha2-nistp384 AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ== test@example.com")
}
@Test func ecdsa384Hash() {
#expect(writer.data(secret: Constants.ecdsa384Secret) == Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ=="))
}
}
extension OpenSSHPublicKeyWriterTests {
enum Constants {
static let ecdsa256Secret = SmartCard.Secret(id: Data(), name: "Test Key (ECDSA 256)", publicKey: Data(base64Encoded: "BOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo=")!, attributes: Attributes(keyType: KeyType(algorithm: .ecdsa, size: 256), authentication: .notRequired, publicKeyAttribution: "test@example.com"))
static let ecdsa384Secret = SmartCard.Secret(id: Data(), name: "Test Key (ECDSA 384)", publicKey: Data(base64Encoded: "BG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ==")!, attributes: Attributes(keyType: KeyType(algorithm: .ecdsa, size: 384), authentication: .notRequired, publicKeyAttribution: "test@example.com"))
}
}

12
Sources/Packages/Tests/SecretKitTests/OpenSSHReaderTests.swift
View File

@@ -1,19 +1,19 @@
import Foundation
import Testing
import XCTest
@testable import SecretKit
@testable import SecureEnclaveSecretKit
@testable import SmartCardSecretKit
@Suite struct OpenSSHReaderTests {
class OpenSSHReaderTests: XCTestCase {
@Test func signatureRequest() {
func testSignatureRequest() {
let reader = OpenSSHReader(data: Constants.signatureRequest)
let hash = reader.readNextChunk()
#expect(hash == Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBEqCbkJbOHy5S1wVCaJoKPmpS0egM4frMqllgnlRRQ/Uvnn6EVS8oV03cPA2Bz0EdESyRKA/sbmn0aBtgjIwGELxu45UXEW1TEz6TxyS0u3vuIqR3Wo1CrQWRDnkrG/pBQ=="))
XCTAssert(hash == Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBEqCbkJbOHy5S1wVCaJoKPmpS0egM4frMqllgnlRRQ/Uvnn6EVS8oV03cPA2Bz0EdESyRKA/sbmn0aBtgjIwGELxu45UXEW1TEz6TxyS0u3vuIqR3Wo1CrQWRDnkrG/pBQ=="))
let dataToSign = reader.readNextChunk()
#expect(dataToSign == Data(base64Encoded: "AAAAICi5xf1ixOestUlxdjvt/BDcM+rzhwy7Vo8cW5YcxA8+MgAAAANnaXQAAAAOc3NoLWNvbm5lY3Rpb24AAAAJcHVibGlja2V5AQAAABNlY2RzYS1zaGEyLW5pc3RwMzg0AAAAiAAAABNlY2RzYS1zaGEyLW5pc3RwMzg0AAAACG5pc3RwMzg0AAAAYQRKgm5CWzh8uUtcFQmiaCj5qUtHoDOH6zKpZYJ5UUUP1L55+hFUvKFdN3DwNgc9BHREskSgP7G5p9GgbYIyMBhC8buOVFxFtUxM+k8cktLt77iKkd1qNQq0FkQ55Kxv6QU="))
XCTAssert(dataToSign == Data(base64Encoded: "AAAAICi5xf1ixOestUlxdjvt/BDcM+rzhwy7Vo8cW5YcxA8+MgAAAANnaXQAAAAOc3NoLWNvbm5lY3Rpb24AAAAJcHVibGlja2V5AQAAABNlY2RzYS1zaGEyLW5pc3RwMzg0AAAAiAAAABNlY2RzYS1zaGEyLW5pc3RwMzg0AAAACG5pc3RwMzg0AAAAYQRKgm5CWzh8uUtcFQmiaCj5qUtHoDOH6zKpZYJ5UUUP1L55+hFUvKFdN3DwNgc9BHREskSgP7G5p9GgbYIyMBhC8buOVFxFtUxM+k8cktLt77iKkd1qNQq0FkQ55Kxv6QU="))
let empty = reader.readNextChunk()
#expect(empty.isEmpty)
XCTAssert(empty.isEmpty)
}
}

55
Sources/Packages/Tests/SecretKitTests/OpenSSHWriterTests.swift Normal file
View File

@@ -0,0 +1,55 @@
import Foundation
import XCTest
@testable import SecretKit
@testable import SecureEnclaveSecretKit
@testable import SmartCardSecretKit
class OpenSSHWriterTests: XCTestCase {
let writer = OpenSSHKeyWriter()
func testECDSA256MD5Fingerprint() {
XCTAssertEqual(writer.openSSHMD5Fingerprint(secret: Constants.ecdsa256Secret), "dc:60:4d:ff:c2:d9:18:8b:2f:24:40:b5:7f:43:47:e5")
}
func testECDSA256SHA256Fingerprint() {
XCTAssertEqual(writer.openSSHSHA256Fingerprint(secret: Constants.ecdsa256Secret), "SHA256:/VQFeGyM8qKA8rB6WGMuZZxZLJln2UgXLk3F0uTF650")
}
func testECDSA256PublicKey() {
XCTAssertEqual(writer.openSSHString(secret: Constants.ecdsa256Secret),
"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo=")
}
func testECDSA256Hash() {
XCTAssertEqual(writer.data(secret: Constants.ecdsa256Secret), Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo="))
}
func testECDSA384MD5Fingerprint() {
XCTAssertEqual(writer.openSSHMD5Fingerprint(secret: Constants.ecdsa384Secret), "66:e0:66:d7:41:ed:19:8e:e2:20:df:ce:ac:7e:2b:6e")
}
func testECDSA384SHA256Fingerprint() {
XCTAssertEqual(writer.openSSHSHA256Fingerprint(secret: Constants.ecdsa384Secret), "SHA256:GJUEymQNL9ymaMRRJCMGY4rWIJHu/Lm8Yhao/PAiz1I")
}
func testECDSA384PublicKey() {
XCTAssertEqual(writer.openSSHString(secret: Constants.ecdsa384Secret),
"ecdsa-sha2-nistp384 AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ==")
}
func testECDSA384Hash() {
XCTAssertEqual(writer.data(secret: Constants.ecdsa384Secret), Data(base64Encoded: "AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ=="))
}
}
extension OpenSSHWriterTests {
enum Constants {
static let ecdsa256Secret = SmartCard.Secret(id: Data(), name: "Test Key (ECDSA 256)", algorithm: .ellipticCurve, keySize: 256, publicKey: Data(base64Encoded: "BOVEjgAA5PHqRgwykjN5qM21uWCHFSY/Sqo5gkHAkn+e1MMQKHOLga7ucB9b3mif33MBid59GRK9GEPVlMiSQwo=")!)
static let ecdsa384Secret = SmartCard.Secret(id: Data(), name: "Test Key (ECDSA 384)", algorithm: .ellipticCurve, keySize: 384, publicKey: Data(base64Encoded: "BG2MNc/C5OTHFE2tBvbZCVcpOGa8vBMquiTLkH4lwkeqOPxhi+PyYUfQZMTRJNPiTyWPoMBqNiCIFRVv60yPN/AHufHaOgbdTP42EgMlMMImkAjYUEv9DESHTVIs2PW1yQ==")!)
}
}

47
Sources/SecretAgent/AppDelegate.swift
View File

@@ -1,25 +1,22 @@
import Cocoa
import OSLog
import Combine
import SecretKit
import SecureEnclaveSecretKit
import SmartCardSecretKit
import SecretAgentKit
import Brief
import Observation
@main
@NSApplicationMain
class AppDelegate: NSObject, NSApplicationDelegate {
@MainActor private let storeList: SecretStoreList = {
private let storeList: SecretStoreList = {
let list = SecretStoreList()
let cryptoKit = SecureEnclave.Store()
let migrator = SecureEnclave.CryptoKitMigrator()
try? migrator.migrate(to: cryptoKit)
list.add(store: cryptoKit)
list.add(store: SecureEnclave.Store())
list.add(store: SmartCard.Store())
return list
}()
private let updater = Updater(checkOnLaunch: true)
private let updater = Updater(checkOnLaunch: false)
private let notifier = Notifier()
private let publicKeyFileStoreController = PublicKeyFileStoreController(homeDirectory: NSHomeDirectory())
private lazy var agent: Agent = {
@@ -29,40 +26,22 @@ class AppDelegate: NSObject, NSApplicationDelegate {
let path = (NSHomeDirectory() as NSString).appendingPathComponent("socket.ssh") as String
return SocketController(path: path)
}()
private var updateSink: AnyCancellable?
private let logger = Logger(subsystem: "com.maxgoedjen.secretive.secretagent", category: "AppDelegate")
func applicationDidFinishLaunching(_ aNotification: Notification) {
logger.debug("SecretAgent finished launching")
Task {
for await session in socketController.sessions {
Task {
do {
for await message in session.messages {
let agentResponse = try await agent.handle(data: message, provenance: session.provenance)
try await session.write(agentResponse)
}
} catch {
try session.close()
}
}
}
DispatchQueue.main.async {
self.socketController.handler = self.agent.handle(reader:writer:)
}
Task {
for await _ in NotificationCenter.default.notifications(named: .secretStoreReloaded) {
try? publicKeyFileStoreController.generatePublicKeys(for: storeList.allSecrets, clear: true)
}
NotificationCenter.default.addObserver(forName: .secretStoreReloaded, object: nil, queue: .main) { [self] _ in
try? publicKeyFileStoreController.generatePublicKeys(for: storeList.allSecrets, clear: true)
}
try? publicKeyFileStoreController.generatePublicKeys(for: storeList.allSecrets, clear: true)
notifier.prompt()
_ = withObservationTracking {
updater.update
} onChange: { [updater, notifier] in
Task {
guard !updater.testBuild else { return }
await notifier.notify(update: updater.update!) { release in
await updater.ignore(release: release)
}
}
updateSink = updater.$update.sink { update in
guard let update = update else { return }
self.notifier.notify(update: update, ignore: self.updater.ignore(release:))
}
}

60
Sources/SecretAgent/Assets.xcassets/AppIcon.appiconset/Contents.json Normal file
View File

@@ -0,0 +1,60 @@
{
"images" : [
{
"idiom" : "mac",
"scale" : "1x",
"size" : "16x16"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "16x16"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "32x32"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "32x32"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "128x128"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "128x128"
},
{
"filename" : "Mac Icon.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "256x256"
},
{
"filename" : "Mac Icon@0.25x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "256x256"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "512x512"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "512x512"
}
],
"info" : {
"author" : "xcode",
"version" : 1
}
}

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6
Sources/SecretAgent/Assets.xcassets/Contents.json Normal file
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@@ -0,0 +1,6 @@
{
"info" : {
"author" : "xcode",
"version" : 1
}
}

137
Sources/SecretAgent/Notifier.swift
View File

@@ -5,13 +5,13 @@ import SecretKit
import SecretAgentKit
import Brief
final class Notifier: Sendable {
class Notifier {
private let notificationDelegate = NotificationDelegate()
init() {
let updateAction = UNNotificationAction(identifier: Constants.updateActionIdentitifier, title: String(localized: .updateNotificationUpdateButton), options: [])
let ignoreAction = UNNotificationAction(identifier: Constants.ignoreActionIdentitifier, title: String(localized: .updateNotificationIgnoreButton), options: [])
let updateAction = UNNotificationAction(identifier: Constants.updateActionIdentitifier, title: String(localized: "update_notification_update_button"), options: [])
let ignoreAction = UNNotificationAction(identifier: Constants.ignoreActionIdentitifier, title: String(localized: "update_notification_ignore_button"), options: [])
let updateCategory = UNNotificationCategory(identifier: Constants.updateCategoryIdentitifier, actions: [updateAction, ignoreAction], intentIdentifiers: [], options: [])
let criticalUpdateCategory = UNNotificationCategory(identifier: Constants.criticalUpdateCategoryIdentitifier, actions: [updateAction], intentIdentifiers: [], options: [])
@@ -22,35 +22,32 @@ final class Notifier: Sendable {
Measurement(value: 24, unit: UnitDuration.hours)
]
let doNotPersistAction = UNNotificationAction(identifier: Constants.doNotPersistActionIdentitifier, title: String(localized: .persistAuthenticationDeclineButton), options: [])
let doNotPersistAction = UNNotificationAction(identifier: Constants.doNotPersistActionIdentitifier, title: String(localized: "persist_authentication_decline_button"), options: [])
var allPersistenceActions = [doNotPersistAction]
let formatter = DateComponentsFormatter()
formatter.unitsStyle = .spellOut
formatter.allowedUnits = [.hour, .minute, .day]
var identifiers: [String: TimeInterval] = [:]
for duration in rawDurations {
let seconds = duration.converted(to: .seconds).value
guard let string = formatter.string(from: seconds)?.capitalized else { continue }
let identifier = Constants.persistAuthenticationCategoryIdentitifier.appending("\(seconds)")
let action = UNNotificationAction(identifier: identifier, title: string, options: [])
identifiers[identifier] = seconds
notificationDelegate.persistOptions[identifier] = seconds
allPersistenceActions.append(action)
}
let persistAuthenticationCategory = UNNotificationCategory(identifier: Constants.persistAuthenticationCategoryIdentitifier, actions: allPersistenceActions, intentIdentifiers: [], options: [])
if persistAuthenticationCategory.responds(to: Selector(("actionsMenuTitle"))) {
persistAuthenticationCategory.setValue(String(localized: .persistAuthenticationAcceptButton), forKey: "_actionsMenuTitle")
persistAuthenticationCategory.setValue(String(localized: "persist_authentication_accept_button"), forKey: "_actionsMenuTitle")
}
UNUserNotificationCenter.current().setNotificationCategories([updateCategory, criticalUpdateCategory, persistAuthenticationCategory])
UNUserNotificationCenter.current().delegate = notificationDelegate
Task {
await notificationDelegate.state.setPersistenceState(options: identifiers) { secret, store, duration in
guard let duration = duration else { return }
try? await store.persistAuthentication(secret: secret, forDuration: duration)
}
notificationDelegate.persistAuthentication = { secret, store, duration in
guard let duration = duration else { return }
try? store.persistAuthentication(secret: secret, forDuration: duration)
}
}
@@ -60,51 +57,53 @@ final class Notifier: Sendable {
notificationCenter.requestAuthorization(options: .alert) { _, _ in }
}
func notify(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) async {
await notificationDelegate.state.setPending(secret: secret, store: store)
func notify(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) {
notificationDelegate.pendingPersistableSecrets[secret.id.description] = secret
notificationDelegate.pendingPersistableStores[store.id.description] = store
let notificationCenter = UNUserNotificationCenter.current()
let notificationContent = UNMutableNotificationContent()
notificationContent.title = String(localized: .signedNotificationTitle(appName: provenance.origin.displayName))
notificationContent.subtitle = String(localized: .signedNotificationDescription(secretName: secret.name))
notificationContent.title = String(localized: "signed_notification_title_\(provenance.origin.displayName)")
notificationContent.subtitle = String(localized: "signed_notification_description_\(secret.name)")
notificationContent.userInfo[Constants.persistSecretIDKey] = secret.id.description
notificationContent.userInfo[Constants.persistStoreIDKey] = store.id.description
notificationContent.interruptionLevel = .timeSensitive
if await store.existingPersistedAuthenticationContext(secret: secret) == nil && secret.authenticationRequirement.required {
if secret.requiresAuthentication && store.existingPersistedAuthenticationContext(secret: secret) == nil {
notificationContent.categoryIdentifier = Constants.persistAuthenticationCategoryIdentitifier
}
if let iconURL = provenance.origin.iconURL, let attachment = try? UNNotificationAttachment(identifier: "icon", url: iconURL, options: nil) {
notificationContent.attachments = [attachment]
}
let request = UNNotificationRequest(identifier: UUID().uuidString, content: notificationContent, trigger: nil)
try? await notificationCenter.add(request)
notificationCenter.add(request, withCompletionHandler: nil)
}
func notify(update: Release, ignore: (@Sendable (Release) async -> Void)?) async {
await notificationDelegate.state.prepareForNotification(release: update, ignoreAction: ignore)
func notify(update: Release, ignore: ((Release) -> Void)?) {
notificationDelegate.release = update
notificationDelegate.ignore = ignore
let notificationCenter = UNUserNotificationCenter.current()
let notificationContent = UNMutableNotificationContent()
if update.critical {
notificationContent.interruptionLevel = .critical
notificationContent.title = String(localized: .updateNotificationUpdateCriticalTitle(updateName: update.name))
notificationContent.title = String(localized: "update_notification_update_critical_title_\(update.name)")
} else {
notificationContent.title = String(localized: .updateNotificationUpdateNormalTitle(updateName: update.name))
notificationContent.title = String(localized: "update_notification_update_normal_title_\(update.name)")
}
notificationContent.subtitle = String(localized: .updateNotificationUpdateDescription)
notificationContent.subtitle = String(localized: "update_notification_update_description")
notificationContent.body = update.body
notificationContent.categoryIdentifier = update.critical ? Constants.criticalUpdateCategoryIdentitifier : Constants.updateCategoryIdentitifier
let request = UNNotificationRequest(identifier: UUID().uuidString, content: notificationContent, trigger: nil)
try? await notificationCenter.add(request)
notificationCenter.add(request, withCompletionHandler: nil)
}
}
extension Notifier: SigningWitness {
func speakNowOrForeverHoldYourPeace(forAccessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) async throws {
func speakNowOrForeverHoldYourPeace(forAccessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) throws {
}
func witness(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) async throws {
await notify(accessTo: secret, from: store, by: provenance)
func witness(accessTo secret: AnySecret, from store: AnySecretStore, by provenance: SigningRequestProvenance) throws {
notify(accessTo: secret, from: store, by: provenance)
}
}
@@ -130,91 +129,55 @@ extension Notifier {
}
final class NotificationDelegate: NSObject, UNUserNotificationCenterDelegate, Sendable {
class NotificationDelegate: NSObject, UNUserNotificationCenterDelegate {
fileprivate actor State {
typealias PersistAction = (@Sendable (AnySecret, AnySecretStore, TimeInterval?) async -> Void)
typealias IgnoreAction = (@Sendable (Release) async -> Void)
fileprivate var release: Release?
fileprivate var ignoreAction: IgnoreAction?
fileprivate var persistAction: PersistAction?
fileprivate var persistOptions: [String: TimeInterval] = [:]
fileprivate var pendingPersistableStores: [String: AnySecretStore] = [:]
fileprivate var pendingPersistableSecrets: [String: AnySecret] = [:]
func setPending(secret: AnySecret, store: AnySecretStore) {
pendingPersistableSecrets[secret.id.description] = secret
pendingPersistableStores[store.id.description] = store
}
func retrievePending(secretID: String, storeID: String, optionID: String) -> (AnySecret, AnySecretStore, TimeInterval)? {
guard let secret = pendingPersistableSecrets[secretID],
let store = pendingPersistableStores[storeID],
let options = persistOptions[optionID] else {
return nil
}
pendingPersistableSecrets.removeValue(forKey: secretID)
return (secret, store, options)
}
func setPersistenceState(options: [String: TimeInterval], action: @escaping PersistAction) {
self.persistOptions = options
self.persistAction = action
}
func prepareForNotification(release: Release, ignoreAction: IgnoreAction?) {
self.release = release
self.ignoreAction = ignoreAction
}
}
fileprivate let state = State()
fileprivate var release: Release?
fileprivate var ignore: ((Release) -> Void)?
fileprivate var persistAuthentication: ((AnySecret, AnySecretStore, TimeInterval?) -> Void)?
fileprivate var persistOptions: [String: TimeInterval] = [:]
fileprivate var pendingPersistableStores: [String: AnySecretStore] = [:]
fileprivate var pendingPersistableSecrets: [String: AnySecret] = [:]
func userNotificationCenter(_ center: UNUserNotificationCenter, openSettingsFor notification: UNNotification?) {
}
func userNotificationCenter(_ center: UNUserNotificationCenter, didReceive response: UNNotificationResponse) async {
func userNotificationCenter(_ center: UNUserNotificationCenter, didReceive response: UNNotificationResponse, withCompletionHandler completionHandler: @escaping () -> Void) {
let category = response.notification.request.content.categoryIdentifier
switch category {
case Notifier.Constants.updateCategoryIdentitifier:
await handleUpdateResponse(response: response)
handleUpdateResponse(response: response)
case Notifier.Constants.persistAuthenticationCategoryIdentitifier:
await handlePersistAuthenticationResponse(response: response)
handlePersistAuthenticationResponse(response: response)
default:
break
}
completionHandler()
}
func handleUpdateResponse(response: UNNotificationResponse) async {
let id = response.actionIdentifier
guard let update = await state.release else { return }
switch id {
func handleUpdateResponse(response: UNNotificationResponse) {
guard let update = release else { return }
switch response.actionIdentifier {
case Notifier.Constants.updateActionIdentitifier, UNNotificationDefaultActionIdentifier:
NSWorkspace.shared.open(update.html_url)
case Notifier.Constants.ignoreActionIdentitifier:
await state.ignoreAction?(update)
ignore?(update)
default:
fatalError()
}
}
func handlePersistAuthenticationResponse(response: UNNotificationResponse) async {
guard let secretID = response.notification.request.content.userInfo[Notifier.Constants.persistSecretIDKey] as? String,
let storeID = response.notification.request.content.userInfo[Notifier.Constants.persistStoreIDKey] as? String else {
return
}
let optionID = response.actionIdentifier
guard let (secret, store, persistOptions) = await state.retrievePending(secretID: secretID, storeID: storeID, optionID: optionID) else { return }
await state.persistAction?(secret, store, persistOptions)
func handlePersistAuthenticationResponse(response: UNNotificationResponse) {
guard let secretID = response.notification.request.content.userInfo[Notifier.Constants.persistSecretIDKey] as? String, let secret = pendingPersistableSecrets[secretID],
let storeID = response.notification.request.content.userInfo[Notifier.Constants.persistStoreIDKey] as? String, let store = pendingPersistableStores[storeID]
else { return }
pendingPersistableSecrets[secretID] = nil
persistAuthentication?(secret, store, persistOptions[response.actionIdentifier])
}
func userNotificationCenter(_ center: UNUserNotificationCenter, willPresent notification: UNNotification) async -> UNNotificationPresentationOptions {
[.list, .banner]
func userNotificationCenter(_ center: UNUserNotificationCenter, willPresent notification: UNNotification, withCompletionHandler completionHandler: @escaping (UNNotificationPresentationOptions) -> Void) {
completionHandler([.list, .banner])
}
}

4
Sources/SecretAgent/SecretAgent.entitlements
View File

@@ -2,6 +2,10 @@
<!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.network.client</key>
<true/>
<key>com.apple.security.smartcard</key>
<true/>
<key>keychain-access-groups</key>

269
Sources/Secretive.xcodeproj/project.pbxproj
View File

@@ -7,7 +7,7 @@
objects = {
/* Begin PBXBuildFile section */
2C4A9D2F2636FFD3008CC8E2 /* EditSecretView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 2C4A9D2E2636FFD3008CC8E2 /* EditSecretView.swift */; };
2C4A9D2F2636FFD3008CC8E2 /* RenameSecretView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 2C4A9D2E2636FFD3008CC8E2 /* RenameSecretView.swift */; };
50020BB024064869003D4025 /* AppDelegate.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50020BAF24064869003D4025 /* AppDelegate.swift */; };
50033AC327813F1700253856 /* BundleIDs.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50033AC227813F1700253856 /* BundleIDs.swift */; };
5003EF3B278005E800DF2006 /* SecretKit in Frameworks */ = {isa = PBXBuildFile; productRef = 5003EF3A278005E800DF2006 /* SecretKit */; };
@@ -18,9 +18,7 @@
5003EF612780081600DF2006 /* SmartCardSecretKit in Frameworks */ = {isa = PBXBuildFile; productRef = 5003EF602780081600DF2006 /* SmartCardSecretKit */; };
5003EF632780081B00DF2006 /* SecureEnclaveSecretKit in Frameworks */ = {isa = PBXBuildFile; productRef = 5003EF622780081B00DF2006 /* SecureEnclaveSecretKit */; };
5003EF652780081B00DF2006 /* SmartCardSecretKit in Frameworks */ = {isa = PBXBuildFile; productRef = 5003EF642780081B00DF2006 /* SmartCardSecretKit */; };
5008C23E2E525D8900507AC2 /* Localizable.xcstrings in Resources */ = {isa = PBXBuildFile; fileRef = 5008C23D2E525D8200507AC2 /* Localizable.xcstrings */; };
5008C2402E52792400507AC2 /* Assets.xcassets in Resources */ = {isa = PBXBuildFile; fileRef = 50617D8623FCE48E0099B055 /* Assets.xcassets */; };
5008C2412E52D18700507AC2 /* Localizable.xcstrings in Resources */ = {isa = PBXBuildFile; fileRef = 5008C23D2E525D8200507AC2 /* Localizable.xcstrings */; };
500B93C32B478D8400E157DE /* Localizable.xcstrings in Resources */ = {isa = PBXBuildFile; fileRef = 500B93C22B478D8400E157DE /* Localizable.xcstrings */; };
501421622781262300BBAA70 /* Brief in Frameworks */ = {isa = PBXBuildFile; productRef = 501421612781262300BBAA70 /* Brief */; };
501421652781268000BBAA70 /* SecretAgent.app in CopyFiles */ = {isa = PBXBuildFile; fileRef = 50A3B78A24026B7500D209EA /* SecretAgent.app */; settings = {ATTRIBUTES = (RemoveHeadersOnCopy, ); }; };
50153E20250AFCB200525160 /* UpdateView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50153E1F250AFCB200525160 /* UpdateView.swift */; };
@@ -32,6 +30,7 @@
50617D8523FCE48E0099B055 /* ContentView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50617D8423FCE48E0099B055 /* ContentView.swift */; };
50617D8723FCE48E0099B055 /* Assets.xcassets in Resources */ = {isa = PBXBuildFile; fileRef = 50617D8623FCE48E0099B055 /* Assets.xcassets */; };
50617D8A23FCE48E0099B055 /* Preview Assets.xcassets in Resources */ = {isa = PBXBuildFile; fileRef = 50617D8923FCE48E0099B055 /* Preview Assets.xcassets */; };
50617D9923FCE48E0099B055 /* SecretiveTests.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50617D9823FCE48E0099B055 /* SecretiveTests.swift */; };
50617DD223FCEFA90099B055 /* PreviewStore.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50617DD123FCEFA90099B055 /* PreviewStore.swift */; };
5065E313295517C500E16645 /* ToolbarButtonStyle.swift in Sources */ = {isa = PBXBuildFile; fileRef = 5065E312295517C500E16645 /* ToolbarButtonStyle.swift */; };
5066A6C22516F303004B5A36 /* SetupView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 5066A6C12516F303004B5A36 /* SetupView.swift */; };
@@ -47,12 +46,13 @@
508BF2AA25B4F1CB009EFB7E /* InternetAccessPolicy.plist in Resources */ = {isa = PBXBuildFile; fileRef = 508BF29425B4F140009EFB7E /* InternetAccessPolicy.plist */; };
5091D2BC25183B830049FD9B /* ApplicationDirectoryController.swift in Sources */ = {isa = PBXBuildFile; fileRef = 5091D2BB25183B830049FD9B /* ApplicationDirectoryController.swift */; };
5099A02423FD2AAA0062B6F2 /* CreateSecretView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 5099A02323FD2AAA0062B6F2 /* CreateSecretView.swift */; };
50A3B79124026B7600D209EA /* Assets.xcassets in Resources */ = {isa = PBXBuildFile; fileRef = 50A3B79024026B7600D209EA /* Assets.xcassets */; };
50A3B79424026B7600D209EA /* Preview Assets.xcassets in Resources */ = {isa = PBXBuildFile; fileRef = 50A3B79324026B7600D209EA /* Preview Assets.xcassets */; };
50A3B79724026B7600D209EA /* Main.storyboard in Resources */ = {isa = PBXBuildFile; fileRef = 50A3B79524026B7600D209EA /* Main.storyboard */; };
50B8550D24138C4F009958AC /* DeleteSecretView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50B8550C24138C4F009958AC /* DeleteSecretView.swift */; };
50BB046B2418AAAE00D6E079 /* EmptyStoreView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50BB046A2418AAAE00D6E079 /* EmptyStoreView.swift */; };
50C385A52407A76D00AF2719 /* SecretDetailView.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50C385A42407A76D00AF2719 /* SecretDetailView.swift */; };
50CF4ABC2E601B0F005588DC /* ActionButtonStyle.swift in Sources */ = {isa = PBXBuildFile; fileRef = 50CF4ABB2E601B0F005588DC /* ActionButtonStyle.swift */; };
50E9CF422B51D596004AB36D /* Localizable.xcstrings in Resources */ = {isa = PBXBuildFile; fileRef = 500B93C22B478D8400E157DE /* Localizable.xcstrings */; };
/* End PBXBuildFile section */
/* Begin PBXContainerItemProxy section */
@@ -63,6 +63,13 @@
remoteGlobalIDString = 50A3B78924026B7500D209EA;
remoteInfo = SecretAgent;
};
50617D9523FCE48E0099B055 /* PBXContainerItemProxy */ = {
isa = PBXContainerItemProxy;
containerPortal = 50617D7723FCE48D0099B055 /* Project object */;
proxyType = 1;
remoteGlobalIDString = 50617D7E23FCE48D0099B055;
remoteInfo = Secretive;
};
/* End PBXContainerItemProxy section */
/* Begin PBXCopyFilesBuildPhase section */
@@ -99,11 +106,11 @@
/* End PBXCopyFilesBuildPhase section */
/* Begin PBXFileReference section */
2C4A9D2E2636FFD3008CC8E2 /* EditSecretView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = EditSecretView.swift; sourceTree = "<group>"; };
2C4A9D2E2636FFD3008CC8E2 /* RenameSecretView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = RenameSecretView.swift; sourceTree = "<group>"; };
50020BAF24064869003D4025 /* AppDelegate.swift */ = {isa = PBXFileReference; fileEncoding = 4; lastKnownFileType = sourcecode.swift; path = AppDelegate.swift; sourceTree = "<group>"; };
50033AC227813F1700253856 /* BundleIDs.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = BundleIDs.swift; sourceTree = "<group>"; };
5003EF39278005C800DF2006 /* Packages */ = {isa = PBXFileReference; lastKnownFileType = wrapper; path = Packages; sourceTree = "<group>"; };
5008C23D2E525D8200507AC2 /* Localizable.xcstrings */ = {isa = PBXFileReference; lastKnownFileType = text.json.xcstrings; name = Localizable.xcstrings; path = Packages/Localizable.xcstrings; sourceTree = SOURCE_ROOT; };
500B93C22B478D8400E157DE /* Localizable.xcstrings */ = {isa = PBXFileReference; lastKnownFileType = text.json.xcstrings; path = Localizable.xcstrings; sourceTree = "<group>"; };
50153E1F250AFCB200525160 /* UpdateView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = UpdateView.swift; sourceTree = "<group>"; };
50153E21250DECA300525160 /* SecretListItemView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = SecretListItemView.swift; sourceTree = "<group>"; };
5018F54E24064786002EB505 /* Notifier.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = Notifier.swift; sourceTree = "<group>"; };
@@ -116,6 +123,9 @@
50617D8923FCE48E0099B055 /* Preview Assets.xcassets */ = {isa = PBXFileReference; lastKnownFileType = folder.assetcatalog; path = "Preview Assets.xcassets"; sourceTree = "<group>"; };
50617D8E23FCE48E0099B055 /* Info.plist */ = {isa = PBXFileReference; lastKnownFileType = text.plist.xml; path = Info.plist; sourceTree = "<group>"; };
50617D8F23FCE48E0099B055 /* Secretive.entitlements */ = {isa = PBXFileReference; lastKnownFileType = text.plist.entitlements; path = Secretive.entitlements; sourceTree = "<group>"; };
50617D9423FCE48E0099B055 /* SecretiveTests.xctest */ = {isa = PBXFileReference; explicitFileType = wrapper.cfbundle; includeInIndex = 0; path = SecretiveTests.xctest; sourceTree = BUILT_PRODUCTS_DIR; };
50617D9823FCE48E0099B055 /* SecretiveTests.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = SecretiveTests.swift; sourceTree = "<group>"; };
50617D9A23FCE48E0099B055 /* Info.plist */ = {isa = PBXFileReference; lastKnownFileType = text.plist.xml; path = Info.plist; sourceTree = "<group>"; };
50617DD123FCEFA90099B055 /* PreviewStore.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = PreviewStore.swift; sourceTree = "<group>"; };
5065E312295517C500E16645 /* ToolbarButtonStyle.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = ToolbarButtonStyle.swift; sourceTree = "<group>"; };
5066A6C12516F303004B5A36 /* SetupView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = SetupView.swift; sourceTree = "<group>"; };
@@ -134,6 +144,7 @@
5091D2BB25183B830049FD9B /* ApplicationDirectoryController.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = ApplicationDirectoryController.swift; sourceTree = "<group>"; };
5099A02323FD2AAA0062B6F2 /* CreateSecretView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = CreateSecretView.swift; sourceTree = "<group>"; };
50A3B78A24026B7500D209EA /* SecretAgent.app */ = {isa = PBXFileReference; explicitFileType = wrapper.application; includeInIndex = 0; path = SecretAgent.app; sourceTree = BUILT_PRODUCTS_DIR; };
50A3B79024026B7600D209EA /* Assets.xcassets */ = {isa = PBXFileReference; lastKnownFileType = folder.assetcatalog; path = Assets.xcassets; sourceTree = "<group>"; };
50A3B79324026B7600D209EA /* Preview Assets.xcassets */ = {isa = PBXFileReference; lastKnownFileType = folder.assetcatalog; path = "Preview Assets.xcassets"; sourceTree = "<group>"; };
50A3B79624026B7600D209EA /* Base */ = {isa = PBXFileReference; lastKnownFileType = file.storyboard; name = Base; path = Base.lproj/Main.storyboard; sourceTree = "<group>"; };
50A3B79824026B7600D209EA /* Info.plist */ = {isa = PBXFileReference; lastKnownFileType = text.plist.xml; path = Info.plist; sourceTree = "<group>"; };
@@ -141,7 +152,6 @@
50B8550C24138C4F009958AC /* DeleteSecretView.swift */ = {isa = PBXFileReference; fileEncoding = 4; lastKnownFileType = sourcecode.swift; path = DeleteSecretView.swift; sourceTree = "<group>"; };
50BB046A2418AAAE00D6E079 /* EmptyStoreView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = EmptyStoreView.swift; sourceTree = "<group>"; };
50C385A42407A76D00AF2719 /* SecretDetailView.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = SecretDetailView.swift; sourceTree = "<group>"; };
50CF4ABB2E601B0F005588DC /* ActionButtonStyle.swift */ = {isa = PBXFileReference; lastKnownFileType = sourcecode.swift; path = ActionButtonStyle.swift; sourceTree = "<group>"; };
/* End PBXFileReference section */
/* Begin PBXFrameworksBuildPhase section */
@@ -156,6 +166,13 @@
);
runOnlyForDeploymentPostprocessing = 0;
};
50617D9123FCE48E0099B055 /* Frameworks */ = {
isa = PBXFrameworksBuildPhase;
buildActionMask = 2147483647;
files = (
);
runOnlyForDeploymentPostprocessing = 0;
};
50A3B78724026B7500D209EA /* Frameworks */ = {
isa = PBXFrameworksBuildPhase;
buildActionMask = 2147483647;
@@ -184,6 +201,7 @@
children = (
5003EF39278005C800DF2006 /* Packages */,
50617D8123FCE48E0099B055 /* Secretive */,
50617D9723FCE48E0099B055 /* SecretiveTests */,
50A3B78B24026B7500D209EA /* SecretAgent */,
508A58AF241E144C0069DC07 /* Config */,
50617D8023FCE48E0099B055 /* Products */,
@@ -195,6 +213,7 @@
isa = PBXGroup;
children = (
50617D7F23FCE48E0099B055 /* Secretive.app */,
50617D9423FCE48E0099B055 /* SecretiveTests.xctest */,
50A3B78A24026B7500D209EA /* SecretAgent.app */,
);
name = Products;
@@ -212,7 +231,7 @@
508BF28D25B4F005009EFB7E /* InternetAccessPolicy.plist */,
50617D8F23FCE48E0099B055 /* Secretive.entitlements */,
506772C62424784600034DED /* Credits.rtf */,
5008C23D2E525D8200507AC2 /* Localizable.xcstrings */,
500B93C22B478D8400E157DE /* Localizable.xcstrings */,
50617D8823FCE48E0099B055 /* Preview Content */,
);
path = Secretive;
@@ -229,6 +248,15 @@
path = "Preview Content";
sourceTree = "<group>";
};
50617D9723FCE48E0099B055 /* SecretiveTests */ = {
isa = PBXGroup;
children = (
50617D9823FCE48E0099B055 /* SecretiveTests.swift */,
50617D9A23FCE48E0099B055 /* Info.plist */,
);
path = SecretiveTests;
sourceTree = "<group>";
};
508A58AF241E144C0069DC07 /* Config */ = {
isa = PBXGroup;
children = (
@@ -243,13 +271,12 @@
children = (
50617D8423FCE48E0099B055 /* ContentView.swift */,
5065E312295517C500E16645 /* ToolbarButtonStyle.swift */,
50CF4ABB2E601B0F005588DC /* ActionButtonStyle.swift */,
5079BA0E250F29BF00EA86F4 /* StoreListView.swift */,
50153E21250DECA300525160 /* SecretListItemView.swift */,
50C385A42407A76D00AF2719 /* SecretDetailView.swift */,
5099A02323FD2AAA0062B6F2 /* CreateSecretView.swift */,
50B8550C24138C4F009958AC /* DeleteSecretView.swift */,
2C4A9D2E2636FFD3008CC8E2 /* EditSecretView.swift */,
2C4A9D2E2636FFD3008CC8E2 /* RenameSecretView.swift */,
50BB046A2418AAAE00D6E079 /* EmptyStoreView.swift */,
506772C82425BB8500034DED /* NoStoresView.swift */,
50153E1F250AFCB200525160 /* UpdateView.swift */,
@@ -283,6 +310,7 @@
children = (
50020BAF24064869003D4025 /* AppDelegate.swift */,
5018F54E24064786002EB505 /* Notifier.swift */,
50A3B79024026B7600D209EA /* Assets.xcassets */,
50A3B79524026B7600D209EA /* Main.storyboard */,
50A3B79824026B7600D209EA /* Info.plist */,
508BF29425B4F140009EFB7E /* InternetAccessPolicy.plist */,
@@ -329,6 +357,24 @@
productReference = 50617D7F23FCE48E0099B055 /* Secretive.app */;
productType = "com.apple.product-type.application";
};
50617D9323FCE48E0099B055 /* SecretiveTests */ = {
isa = PBXNativeTarget;
buildConfigurationList = 50617DA023FCE48E0099B055 /* Build configuration list for PBXNativeTarget "SecretiveTests" */;
buildPhases = (
50617D9023FCE48E0099B055 /* Sources */,
50617D9123FCE48E0099B055 /* Frameworks */,
50617D9223FCE48E0099B055 /* Resources */,
);
buildRules = (
);
dependencies = (
50617D9623FCE48E0099B055 /* PBXTargetDependency */,
);
name = SecretiveTests;
productName = SecretiveTests;
productReference = 50617D9423FCE48E0099B055 /* SecretiveTests.xctest */;
productType = "com.apple.product-type.bundle.unit-test";
};
50A3B78924026B7500D209EA /* SecretAgent */ = {
isa = PBXNativeTarget;
buildConfigurationList = 50A3B79A24026B7600D209EA /* Build configuration list for PBXNativeTarget "SecretAgent" */;
@@ -360,14 +406,17 @@
50617D7723FCE48D0099B055 /* Project object */ = {
isa = PBXProject;
attributes = {
BuildIndependentTargetsInParallel = YES;
LastSwiftUpdateCheck = 1220;
LastUpgradeCheck = 2600;
LastUpgradeCheck = 1320;
ORGANIZATIONNAME = "Max Goedjen";
TargetAttributes = {
50617D7E23FCE48D0099B055 = {
CreatedOnToolsVersion = 11.3;
};
50617D9323FCE48E0099B055 = {
CreatedOnToolsVersion = 11.3;
TestTargetID = 50617D7E23FCE48D0099B055;
};
50A3B78924026B7500D209EA = {
CreatedOnToolsVersion = 11.4;
};
@@ -387,8 +436,6 @@
fi,
ko,
ca,
ru,
pl,
);
mainGroup = 50617D7623FCE48D0099B055;
productRefGroup = 50617D8023FCE48E0099B055 /* Products */;
@@ -396,6 +443,7 @@
projectRoot = "";
targets = (
50617D7E23FCE48D0099B055 /* Secretive */,
50617D9323FCE48E0099B055 /* SecretiveTests */,
50A3B78924026B7500D209EA /* SecretAgent */,
);
};
@@ -407,22 +455,29 @@
buildActionMask = 2147483647;
files = (
50617D8A23FCE48E0099B055 /* Preview Assets.xcassets in Resources */,
5008C23E2E525D8900507AC2 /* Localizable.xcstrings in Resources */,
500B93C32B478D8400E157DE /* Localizable.xcstrings in Resources */,
50617D8723FCE48E0099B055 /* Assets.xcassets in Resources */,
506772C72424784600034DED /* Credits.rtf in Resources */,
508BF28E25B4F005009EFB7E /* InternetAccessPolicy.plist in Resources */,
);
runOnlyForDeploymentPostprocessing = 0;
};
50617D9223FCE48E0099B055 /* Resources */ = {
isa = PBXResourcesBuildPhase;
buildActionMask = 2147483647;
files = (
);
runOnlyForDeploymentPostprocessing = 0;
};
50A3B78824026B7500D209EA /* Resources */ = {
isa = PBXResourcesBuildPhase;
buildActionMask = 2147483647;
files = (
50A3B79724026B7600D209EA /* Main.storyboard in Resources */,
5008C2412E52D18700507AC2 /* Localizable.xcstrings in Resources */,
50E9CF422B51D596004AB36D /* Localizable.xcstrings in Resources */,
50A3B79424026B7600D209EA /* Preview Assets.xcassets in Resources */,
50A3B79124026B7600D209EA /* Assets.xcassets in Resources */,
508BF2AA25B4F1CB009EFB7E /* InternetAccessPolicy.plist in Resources */,
5008C2402E52792400507AC2 /* Assets.xcassets in Resources */,
);
runOnlyForDeploymentPostprocessing = 0;
};
@@ -433,12 +488,11 @@
isa = PBXSourcesBuildPhase;
buildActionMask = 2147483647;
files = (
2C4A9D2F2636FFD3008CC8E2 /* EditSecretView.swift in Sources */,
2C4A9D2F2636FFD3008CC8E2 /* RenameSecretView.swift in Sources */,
5091D2BC25183B830049FD9B /* ApplicationDirectoryController.swift in Sources */,
5066A6C22516F303004B5A36 /* SetupView.swift in Sources */,
5065E313295517C500E16645 /* ToolbarButtonStyle.swift in Sources */,
50617D8523FCE48E0099B055 /* ContentView.swift in Sources */,
50CF4ABC2E601B0F005588DC /* ActionButtonStyle.swift in Sources */,
50571E0324393C2600F76F6C /* JustUpdatedChecker.swift in Sources */,
5079BA0F250F29BF00EA86F4 /* StoreListView.swift in Sources */,
50617DD223FCEFA90099B055 /* PreviewStore.swift in Sources */,
@@ -460,6 +514,14 @@
);
runOnlyForDeploymentPostprocessing = 0;
};
50617D9023FCE48E0099B055 /* Sources */ = {
isa = PBXSourcesBuildPhase;
buildActionMask = 2147483647;
files = (
50617D9923FCE48E0099B055 /* SecretiveTests.swift in Sources */,
);
runOnlyForDeploymentPostprocessing = 0;
};
50A3B78624026B7500D209EA /* Sources */ = {
isa = PBXSourcesBuildPhase;
buildActionMask = 2147483647;
@@ -477,6 +539,11 @@
target = 50A3B78924026B7500D209EA /* SecretAgent */;
targetProxy = 50142166278126B500BBAA70 /* PBXContainerItemProxy */;
};
50617D9623FCE48E0099B055 /* PBXTargetDependency */ = {
isa = PBXTargetDependency;
target = 50617D7E23FCE48D0099B055 /* Secretive */;
targetProxy = 50617D9523FCE48E0099B055 /* PBXContainerItemProxy */;
};
/* End PBXTargetDependency section */
/* Begin PBXVariantGroup section */
@@ -496,8 +563,6 @@
baseConfigurationReference = 508A58AB241E121B0069DC07 /* Config.xcconfig */;
buildSettings = {
ALWAYS_SEARCH_USER_PATHS = NO;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = YES;
CLANG_ANALYZER_LOCALIZABILITY_NONLOCALIZED = YES;
CLANG_ANALYZER_NONNULL = YES;
CLANG_ANALYZER_NUMBER_OBJECT_CONVERSION = YES_AGGRESSIVE;
CLANG_CXX_LANGUAGE_STANDARD = "gnu++14";
@@ -528,13 +593,9 @@
CLANG_WARN_UNREACHABLE_CODE = YES;
CLANG_WARN__DUPLICATE_METHOD_MATCH = YES;
COPY_PHASE_STRIP = NO;
DEAD_CODE_STRIPPING = YES;
DEBUG_INFORMATION_FORMAT = dwarf;
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_STRICT_OBJC_MSGSEND = YES;
ENABLE_TESTABILITY = YES;
ENABLE_USER_SCRIPT_SANDBOXING = YES;
GCC_C_LANGUAGE_STANDARD = gnu11;
GCC_DYNAMIC_NO_PIC = NO;
GCC_NO_COMMON_BLOCKS = YES;
@@ -549,19 +610,18 @@
GCC_WARN_UNINITIALIZED_AUTOS = YES_AGGRESSIVE;
GCC_WARN_UNUSED_FUNCTION = YES;
GCC_WARN_UNUSED_VARIABLE = YES;
MACOSX_DEPLOYMENT_TARGET = 15.0;
MACOSX_DEPLOYMENT_TARGET = 11.0;
MTL_ENABLE_DEBUG_INFO = INCLUDE_SOURCE;
MTL_FAST_MATH = YES;
ONLY_ACTIVE_ARCH = YES;
OTHER_SWIFT_FLAGS = "";
SDKROOT = macosx;
STRING_CATALOG_GENERATE_SYMBOLS = YES;
STRIP_INSTALLED_PRODUCT = NO;
STRIP_SWIFT_SYMBOLS = NO;
SWIFT_ACTIVE_COMPILATION_CONDITIONS = DEBUG;
SWIFT_EMIT_LOC_STRINGS = YES;
SWIFT_OPTIMIZATION_LEVEL = "-Onone";
SWIFT_VERSION = 6.0;
SWIFT_STRICT_CONCURRENCY = targeted;
};
name = Debug;
};
@@ -570,8 +630,6 @@
baseConfigurationReference = 508A58AB241E121B0069DC07 /* Config.xcconfig */;
buildSettings = {
ALWAYS_SEARCH_USER_PATHS = NO;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = YES;
CLANG_ANALYZER_LOCALIZABILITY_NONLOCALIZED = YES;
CLANG_ANALYZER_NONNULL = YES;
CLANG_ANALYZER_NUMBER_OBJECT_CONVERSION = YES_AGGRESSIVE;
CLANG_CXX_LANGUAGE_STANDARD = "gnu++14";
@@ -602,13 +660,9 @@
CLANG_WARN_UNREACHABLE_CODE = YES;
CLANG_WARN__DUPLICATE_METHOD_MATCH = YES;
COPY_PHASE_STRIP = NO;
DEAD_CODE_STRIPPING = YES;
DEBUG_INFORMATION_FORMAT = "dwarf-with-dsym";
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_NS_ASSERTIONS = NO;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_STRICT_OBJC_MSGSEND = YES;
ENABLE_USER_SCRIPT_SANDBOXING = YES;
GCC_C_LANGUAGE_STANDARD = gnu11;
GCC_NO_COMMON_BLOCKS = YES;
GCC_WARN_64_TO_32_BIT_CONVERSION = YES;
@@ -617,82 +671,117 @@
GCC_WARN_UNINITIALIZED_AUTOS = YES_AGGRESSIVE;
GCC_WARN_UNUSED_FUNCTION = YES;
GCC_WARN_UNUSED_VARIABLE = YES;
MACOSX_DEPLOYMENT_TARGET = 15.0;
MACOSX_DEPLOYMENT_TARGET = 11.0;
MTL_ENABLE_DEBUG_INFO = NO;
MTL_FAST_MATH = YES;
OTHER_SWIFT_FLAGS = "";
SDKROOT = macosx;
STRING_CATALOG_GENERATE_SYMBOLS = YES;
STRIP_INSTALLED_PRODUCT = NO;
STRIP_SWIFT_SYMBOLS = NO;
SWIFT_COMPILATION_MODE = wholemodule;
SWIFT_EMIT_LOC_STRINGS = YES;
SWIFT_OPTIMIZATION_LEVEL = "-O";
SWIFT_VERSION = 6.0;
SWIFT_STRICT_CONCURRENCY = targeted;
};
name = Release;
};
50617D9E23FCE48E0099B055 /* Debug */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
ASSETCATALOG_COMPILER_APPICON_NAME = AppIcon;
CODE_SIGN_ENTITLEMENTS = Secretive/Secretive.entitlements;
CODE_SIGN_IDENTITY = "Apple Development";
CODE_SIGN_STYLE = Automatic;
COMBINE_HIDPI_IMAGES = YES;
CURRENT_PROJECT_VERSION = 1;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"Secretive/Preview Content\"";
DEVELOPMENT_TEAM = Z72PRUAWF6;
ENABLE_APP_SANDBOX = YES;
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_PREVIEWS = YES;
ENABLE_USER_SELECTED_FILES = readwrite;
INFOPLIST_FILE = Secretive/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.Host;
PRODUCT_NAME = "$(TARGET_NAME)";
PROVISIONING_PROFILE_SPECIFIER = "";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Debug;
};
50617D9F23FCE48E0099B055 /* Release */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
ASSETCATALOG_COMPILER_APPICON_NAME = AppIcon;
CODE_SIGN_ENTITLEMENTS = Secretive/Secretive.entitlements;
CODE_SIGN_IDENTITY = "Developer ID Application";
CODE_SIGN_STYLE = Manual;
COMBINE_HIDPI_IMAGES = YES;
CURRENT_PROJECT_VERSION = 1;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"Secretive/Preview Content\"";
DEVELOPMENT_TEAM = Z72PRUAWF6;
ENABLE_APP_SANDBOX = YES;
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_PREVIEWS = YES;
ENABLE_USER_SELECTED_FILES = readwrite;
INFOPLIST_FILE = Secretive/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.Host;
PRODUCT_NAME = "$(TARGET_NAME)";
PROVISIONING_PROFILE_SPECIFIER = "Secretive - Host";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Release;
};
50617DA123FCE48E0099B055 /* Debug */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
BUNDLE_LOADER = "$(TEST_HOST)";
CODE_SIGN_STYLE = Automatic;
COMBINE_HIDPI_IMAGES = YES;
DEVELOPMENT_TEAM = Z72PRUAWF6;
INFOPLIST_FILE = SecretiveTests/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
"@loader_path/../Frameworks",
);
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.SecretiveTests;
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_VERSION = 5.0;
TEST_HOST = "$(BUILT_PRODUCTS_DIR)/Secretive.app/Contents/MacOS/Secretive";
};
name = Debug;
};
50617DA223FCE48E0099B055 /* Release */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
BUNDLE_LOADER = "$(TEST_HOST)";
CODE_SIGN_STYLE = Automatic;
COMBINE_HIDPI_IMAGES = YES;
DEVELOPMENT_TEAM = Z72PRUAWF6;
INFOPLIST_FILE = SecretiveTests/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
"@loader_path/../Frameworks",
);
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.SecretiveTests;
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_VERSION = 5.0;
TEST_HOST = "$(BUILT_PRODUCTS_DIR)/Secretive.app/Contents/MacOS/Secretive";
};
name = Release;
};
@@ -701,8 +790,6 @@
baseConfigurationReference = 508A58AB241E121B0069DC07 /* Config.xcconfig */;
buildSettings = {
ALWAYS_SEARCH_USER_PATHS = NO;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = YES;
CLANG_ANALYZER_LOCALIZABILITY_NONLOCALIZED = YES;
CLANG_ANALYZER_NONNULL = YES;
CLANG_ANALYZER_NUMBER_OBJECT_CONVERSION = YES_AGGRESSIVE;
CLANG_CXX_LANGUAGE_STANDARD = "gnu++14";
@@ -733,13 +820,9 @@
CLANG_WARN_UNREACHABLE_CODE = YES;
CLANG_WARN__DUPLICATE_METHOD_MATCH = YES;
COPY_PHASE_STRIP = NO;
DEAD_CODE_STRIPPING = YES;
DEBUG_INFORMATION_FORMAT = dwarf;
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_STRICT_OBJC_MSGSEND = YES;
ENABLE_TESTABILITY = YES;
ENABLE_USER_SCRIPT_SANDBOXING = YES;
GCC_C_LANGUAGE_STANDARD = gnu11;
GCC_DYNAMIC_NO_PIC = NO;
GCC_NO_COMMON_BLOCKS = YES;
@@ -754,48 +837,65 @@
GCC_WARN_UNINITIALIZED_AUTOS = YES_AGGRESSIVE;
GCC_WARN_UNUSED_FUNCTION = YES;
GCC_WARN_UNUSED_VARIABLE = YES;
MACOSX_DEPLOYMENT_TARGET = 15.0;
MACOSX_DEPLOYMENT_TARGET = 11.0;
MTL_ENABLE_DEBUG_INFO = INCLUDE_SOURCE;
MTL_FAST_MATH = YES;
ONLY_ACTIVE_ARCH = YES;
OTHER_SWIFT_FLAGS = "";
SDKROOT = macosx;
STRING_CATALOG_GENERATE_SYMBOLS = YES;
STRIP_INSTALLED_PRODUCT = NO;
STRIP_SWIFT_SYMBOLS = NO;
SWIFT_ACTIVE_COMPILATION_CONDITIONS = DEBUG;
SWIFT_EMIT_LOC_STRINGS = YES;
SWIFT_OPTIMIZATION_LEVEL = "-Onone";
SWIFT_VERSION = 6.0;
SWIFT_STRICT_CONCURRENCY = targeted;
};
name = Test;
};
508A5915241EF1A00069DC07 /* Test */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
ASSETCATALOG_COMPILER_APPICON_NAME = AppIcon;
CODE_SIGN_ENTITLEMENTS = Secretive/Secretive.entitlements;
CODE_SIGN_STYLE = Manual;
COMBINE_HIDPI_IMAGES = YES;
CURRENT_PROJECT_VERSION = 1;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"Secretive/Preview Content\"";
ENABLE_APP_SANDBOX = YES;
ENABLE_ENHANCED_SECURITY = YES;
ENABLE_HARDENED_RUNTIME = NO;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_POINTER_AUTHENTICATION = YES;
ENABLE_PREVIEWS = YES;
ENABLE_USER_SELECTED_FILES = readwrite;
INFOPLIST_FILE = Secretive/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.Host;
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Test;
};
508A5916241EF1A00069DC07 /* Test */ = {
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_EMBED_SWIFT_STANDARD_LIBRARIES = YES;
BUNDLE_LOADER = "$(TEST_HOST)";
CODE_SIGN_IDENTITY = "-";
CODE_SIGN_STYLE = Manual;
COMBINE_HIDPI_IMAGES = YES;
INFOPLIST_FILE = SecretiveTests/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
"@loader_path/../Frameworks",
);
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.SecretiveTests;
PRODUCT_NAME = "$(TARGET_NAME)";
PROVISIONING_PROFILE_SPECIFIER = "";
SWIFT_VERSION = 5.0;
TEST_HOST = "$(BUILT_PRODUCTS_DIR)/Secretive.app/Contents/MacOS/Secretive";
};
name = Test;
};
@@ -805,21 +905,20 @@
ASSETCATALOG_COMPILER_APPICON_NAME = AppIcon;
CODE_SIGN_STYLE = Manual;
COMBINE_HIDPI_IMAGES = YES;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"SecretAgent/Preview Content\"";
ENABLE_APP_SANDBOX = YES;
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_PREVIEWS = YES;
INFOPLIST_FILE = SecretAgent/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.SecretAgent;
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Test;
};
@@ -830,22 +929,21 @@
CODE_SIGN_ENTITLEMENTS = SecretAgent/SecretAgent.entitlements;
CODE_SIGN_STYLE = Automatic;
COMBINE_HIDPI_IMAGES = YES;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"SecretAgent/Preview Content\"";
DEVELOPMENT_TEAM = Z72PRUAWF6;
ENABLE_APP_SANDBOX = YES;
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_PREVIEWS = YES;
INFOPLIST_FILE = SecretAgent/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.SecretAgent;
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Debug;
};
@@ -857,23 +955,22 @@
CODE_SIGN_IDENTITY = "Developer ID Application";
CODE_SIGN_STYLE = Manual;
COMBINE_HIDPI_IMAGES = YES;
DEAD_CODE_STRIPPING = YES;
DEVELOPMENT_ASSET_PATHS = "\"SecretAgent/Preview Content\"";
DEVELOPMENT_TEAM = Z72PRUAWF6;
ENABLE_APP_SANDBOX = YES;
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_OUTGOING_NETWORK_CONNECTIONS = YES;
ENABLE_PREVIEWS = YES;
INFOPLIST_FILE = SecretAgent/Info.plist;
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MACOSX_DEPLOYMENT_TARGET = 14.0;
MACOSX_DEPLOYMENT_TARGET = 12.0;
MARKETING_VERSION = 1;
PRODUCT_BUNDLE_IDENTIFIER = com.maxgoedjen.Secretive.SecretAgent;
PRODUCT_NAME = "$(TARGET_NAME)";
PROVISIONING_PROFILE_SPECIFIER = "Secretive - Secret Agent";
SWIFT_STRICT_CONCURRENCY = complete;
SWIFT_VERSION = 5.0;
};
name = Release;
};
@@ -900,6 +997,16 @@
defaultConfigurationIsVisible = 0;
defaultConfigurationName = Release;
};
50617DA023FCE48E0099B055 /* Build configuration list for PBXNativeTarget "SecretiveTests" */ = {
isa = XCConfigurationList;
buildConfigurations = (
50617DA123FCE48E0099B055 /* Debug */,
508A5916241EF1A00069DC07 /* Test */,
50617DA223FCE48E0099B055 /* Release */,
);
defaultConfigurationIsVisible = 0;
defaultConfigurationName = Release;
};
50A3B79A24026B7600D209EA /* Build configuration list for PBXNativeTarget "SecretAgent" */ = {
isa = XCConfigurationList;
buildConfigurations = (

8
Sources/Secretive.xcodeproj/project.xcworkspace/xcshareddata/WorkspaceSettings.xcsettings
View File

@@ -1,8 +0,0 @@
<?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>iOSPackagesShouldBuildARM64e</key>
<true/>
</dict>
</plist>

2
Sources/Secretive.xcodeproj/xcshareddata/xcschemes/SecretAgent.xcscheme
View File

@@ -1,6 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<Scheme
LastUpgradeVersion = "2600"
LastUpgradeVersion = "1320"
version = "1.7">
<BuildAction
parallelizeBuildables = "YES"

4
Sources/Secretive.xcodeproj/xcshareddata/xcschemes/Secretive.xcscheme
View File

@@ -1,6 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<Scheme
LastUpgradeVersion = "2600"
LastUpgradeVersion = "1320"
version = "1.7">
<BuildAction
parallelizeBuildables = "YES"
@@ -89,7 +89,7 @@
</BuildableProductRunnable>
</LaunchAction>
<ProfileAction
buildConfiguration = "Debug"
buildConfiguration = "Release"
shouldUseLaunchSchemeArgsEnv = "YES"
savedToolIdentifier = ""
useCustomWorkingDirectory = "NO"

60
Sources/Secretive/App.swift
View File

@@ -1,48 +1,32 @@
import Cocoa
import SwiftUI
import SecretKit
import SecureEnclaveSecretKit
import SmartCardSecretKit
import Brief
extension EnvironmentValues {
@main
struct Secretive: App {
// This is injected through .environment modifier below instead of @Entry for performance reasons (basially, restrictions around init/mainactor causing delay in loading secrets/"empty screen" blip).
@MainActor fileprivate static let _secretStoreList: SecretStoreList = {
private let storeList: SecretStoreList = {
let list = SecretStoreList()
let cryptoKit = SecureEnclave.Store()
let migrator = SecureEnclave.CryptoKitMigrator()
try? migrator.migrate(to: cryptoKit)
list.add(store: cryptoKit)
list.add(store: SecureEnclave.Store())
list.add(store: SmartCard.Store())
return list
}()
private static let _agentStatusChecker = AgentStatusChecker()
@Entry var agentStatusChecker: any AgentStatusCheckerProtocol = _agentStatusChecker
private static let _updater: any UpdaterProtocol = {
@AppStorage("defaultsHasRunSetup") var hasRunSetup = false
return Updater(checkOnLaunch: hasRunSetup)
}()
@Entry var updater: any UpdaterProtocol = _updater
@MainActor var secretStoreList: SecretStoreList {
EnvironmentValues._secretStoreList
}
}
@main
struct Secretive: App {
private let agentStatusChecker = AgentStatusChecker()
private let justUpdatedChecker = JustUpdatedChecker()
@Environment(\.agentStatusChecker) var agentStatusChecker
@AppStorage("defaultsHasRunSetup") var hasRunSetup = false
@State private var showingSetup = false
@State private var showingCreation = false
@SceneBuilder var body: some Scene {
WindowGroup {
ContentView(showingCreation: $showingCreation, runningSetup: $showingSetup, hasRunSetup: $hasRunSetup)
.environment(EnvironmentValues._secretStoreList)
ContentView<Updater, AgentStatusChecker>(showingCreation: $showingCreation, runningSetup: $showingSetup, hasRunSetup: $hasRunSetup)
.environmentObject(storeList)
.environmentObject(Updater(checkOnLaunch: hasRunSetup))
.environmentObject(agentStatusChecker)
.onAppear {
if !hasRunSetup {
showingSetup = true
@@ -61,18 +45,18 @@ struct Secretive: App {
}
.commands {
CommandGroup(after: CommandGroupPlacement.newItem) {
Button(.appMenuNewSecretButton) {
Button("app_menu_new_secret_button") {
showingCreation = true
}
.keyboardShortcut(KeyboardShortcut(KeyEquivalent("N"), modifiers: [.command, .shift]))
}
CommandGroup(replacing: .help) {
Button(.appMenuHelpButton) {
Button("app_menu_help_button") {
NSWorkspace.shared.open(Constants.helpURL)
}
}
CommandGroup(after: .help) {
Button(.appMenuSetupButton) {
Button("app_menu_setup_button") {
showingSetup = true
}
}
@@ -86,12 +70,13 @@ extension Secretive {
private func reinstallAgent() {
justUpdatedChecker.check()
Task {
await LaunchAgentController().install()
try? await Task.sleep(for: .seconds(1))
agentStatusChecker.check()
if !agentStatusChecker.running {
forceLaunchAgent()
LaunchAgentController().install {
// Wait a second for launchd to kick in (next runloop isn't enough).
DispatchQueue.main.asyncAfter(deadline: .now() + 1) {
agentStatusChecker.check()
if !agentStatusChecker.running {
forceLaunchAgent()
}
}
}
}
@@ -99,8 +84,7 @@ extension Secretive {
private func forceLaunchAgent() {
// We've run setup, we didn't just update, launchd is just not doing it's thing.
// Force a launch directly.
Task {
_ = await LaunchAgentController().forceLaunch()
LaunchAgentController().forceLaunch { _ in
agentStatusChecker.check()
}
}

12
Sources/Secretive/Assets.xcassets/AppIcon.appiconset/Contents.json
View File

@@ -1,61 +1,53 @@
{
"images" : [
{
"filename" : "Icon-macOS-ClearDark-16x16@1x.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "16x16"
},
{
"filename" : "Icon-macOS-ClearDark-16x16@2x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "16x16"
},
{
"filename" : "Icon-macOS-ClearDark-32x32@1x.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "32x32"
},
{
"filename" : "Icon-macOS-ClearDark-32x32@2x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "32x32"
},
{
"filename" : "Icon-macOS-ClearDark-128x128@1x.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "128x128"
},
{
"filename" : "Icon-macOS-ClearDark-128x128@2x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "128x128"
},
{
"filename" : "Icon-macOS-ClearDark-256x256@1x.png",
"filename" : "Mac Icon.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "256x256"
},
{
"filename" : "Icon-macOS-ClearDark-256x256@2x.png",
"filename" : "Mac Icon@0.25x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "256x256"
},
{
"filename" : "Icon-macOS-ClearDark-512x512@1x.png",
"idiom" : "mac",
"scale" : "1x",
"size" : "512x512"
},
{
"filename" : "Icon-macOS-ClearDark-1024x1024@1x.png",
"idiom" : "mac",
"scale" : "2x",
"size" : "512x512"

BIN
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Sources/Secretive/Assets.xcassets/AppIcon.appiconset/Mac Icon.png Normal file
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Sources/Secretive/Assets.xcassets/AppIcon.appiconset/Mac Icon@0.25x.png Normal file
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6
Sources/Secretive/Assets.xcassets/Contents.json
View File

@@ -1,6 +1,6 @@
{
"info" : {
"author" : "xcode",
"version" : 1
"version" : 1,
"author" : "xcode"
}
}
}

15
Sources/Secretive/Controllers/AgentStatusChecker.swift
View File

@@ -1,22 +1,19 @@
import Foundation
import Combine
import AppKit
import SecretKit
import Observation
@MainActor protocol AgentStatusCheckerProtocol: Observable, Sendable {
protocol AgentStatusCheckerProtocol: ObservableObject {
var running: Bool { get }
var developmentBuild: Bool { get }
func check()
}
@Observable @MainActor final class AgentStatusChecker: AgentStatusCheckerProtocol {
class AgentStatusChecker: ObservableObject, AgentStatusCheckerProtocol {
var running: Bool = false
@Published var running: Bool = false
nonisolated init() {
Task { @MainActor in
check()
}
init() {
check()
}
func check() {

7
Sources/Secretive/Controllers/JustUpdatedChecker.swift
View File

@@ -1,13 +1,14 @@
import Foundation
import Combine
import AppKit
protocol JustUpdatedCheckerProtocol: Observable {
protocol JustUpdatedCheckerProtocol: ObservableObject {
var justUpdated: Bool { get }
}
@Observable class JustUpdatedChecker: JustUpdatedCheckerProtocol {
class JustUpdatedChecker: ObservableObject, JustUpdatedCheckerProtocol {
var justUpdated: Bool = false
@Published var justUpdated: Bool = false
init() {
check()

37
Sources/Secretive/Controllers/LaunchAgentController.swift
View File

@@ -8,45 +8,38 @@ struct LaunchAgentController {
private let logger = Logger(subsystem: "com.maxgoedjen.secretive", category: "LaunchAgentController")
func install() async {
func install(completion: (() -> Void)? = nil) {
logger.debug("Installing agent")
_ = setEnabled(false)
// This is definitely a bit of a "seems to work better" thing but:
// Seems to more reliably hit if these are on separate runloops, otherwise it seems like it sometimes doesn't kill old
// and start new?
try? await Task.sleep(for: .seconds(1))
await MainActor.run {
DispatchQueue.main.asyncAfter(deadline: .now() + 0.1) {
_ = setEnabled(true)
completion?()
}
}
func forceLaunch() async -> Bool {
func forceLaunch(completion: ((Bool) -> Void)?) {
logger.debug("Agent is not running, attempting to force launch")
let url = Bundle.main.bundleURL.appendingPathComponent("Contents/Library/LoginItems/SecretAgent.app")
let config = NSWorkspace.OpenConfiguration()
config.activates = false
do {
try await NSWorkspace.shared.openApplication(at: url, configuration: config)
logger.debug("Agent force launched")
return true
} catch {
logger.error("Error force launching \(error.localizedDescription)")
return false
NSWorkspace.shared.openApplication(at: url, configuration: config) { app, error in
DispatchQueue.main.async {
completion?(error == nil)
}
if let error = error {
logger.error("Error force launching \(error.localizedDescription)")
} else {
logger.debug("Agent force launched")
}
}
}
private func setEnabled(_ enabled: Bool) -> Bool {
let service = SMAppService.loginItem(identifier: Bundle.main.agentBundleID)
do {
if enabled {
try service.register()
} else {
try service.unregister()
}
return true
} catch {
return false
}
SMLoginItemSetEnabled(Bundle.main.agentBundleID as CFString, enabled)
}
}

2
Sources/Secretive/Controllers/ShellConfigurationController.swift
View File

@@ -56,7 +56,7 @@ struct ShellConfigurationController {
} catch {
return false
}
handle.write(Data("\n# Secretive Config\n\(shellInstructions.text)\n".utf8))
handle.write("\n# Secretive Config\n\(shellInstructions.text)\n".data(using: .utf8)!)
return true
}

1950
Sources/Packages/Localizable.xcstrings → Sources/Secretive/Localizable.xcstrings
View File

File diff suppressed because it is too large Load Diff

4
Sources/Secretive/Preview Content/PreviewAgentStatusChecker.swift
View File

@@ -1,4 +1,5 @@
import Foundation
import Combine
class PreviewAgentStatusChecker: AgentStatusCheckerProtocol {
@@ -9,7 +10,4 @@ class PreviewAgentStatusChecker: AgentStatusCheckerProtocol {
self.running = running
}
func check() {
}
}

76
Sources/Secretive/Preview Content/PreviewStore.swift
View File

@@ -9,39 +9,41 @@ extension Preview {
let id = UUID().uuidString
let name: String
let publicKey = Data(UUID().uuidString.utf8)
var attributes: Attributes {
Attributes(
keyType: .init(algorithm: .ecdsa, size: 256),
authentication: .presenceRequired,
)
}
let algorithm = Algorithm.ellipticCurve
let keySize = 256
let requiresAuthentication: Bool = false
let publicKey = UUID().uuidString.data(using: .utf8)!
}
}
extension Preview {
@Observable final class Store: SecretStore {
class Store: SecretStore, ObservableObject {
let isAvailable = true
let id = UUID()
var name: String { "Preview Store" }
let secrets: [Secret]
@Published var secrets: [Secret] = []
init(secrets: [Secret]) {
self.secrets = secrets
self.secrets.append(contentsOf: secrets)
}
convenience init(numberOfRandomSecrets: Int = 5) {
init(numberOfRandomSecrets: Int = 5) {
let new = (0..<numberOfRandomSecrets).map { Secret(name: String(describing: $0)) }
self.init(secrets: new)
self.secrets.append(contentsOf: new)
}
func sign(data: Data, with secret: Preview.Secret, for provenance: SigningRequestProvenance) throws -> Data {
return data
}
func verify(signature data: Data, for signature: Data, with secret: Preview.Secret) throws -> Bool {
true
}
func existingPersistedAuthenticationContext(secret: Preview.Secret) -> PersistedAuthenticationContext? {
nil
}
@@ -54,63 +56,23 @@ extension Preview {
}
final class StoreModifiable: SecretStoreModifiable {
let isAvailable = true
let id = UUID()
var name: String { "Modifiable Preview Store" }
let secrets: [Secret]
var supportedKeyTypes: [KeyType] {
if #available(macOS 26, *) {
[
.ecdsa256,
.mldsa65,
.mldsa87,
]
} else {
[.ecdsa256]
}
}
init(secrets: [Secret]) {
self.secrets = secrets
}
class StoreModifiable: Store, SecretStoreModifiable {
override var name: String { "Modifiable Preview Store" }
convenience init(numberOfRandomSecrets: Int = 5) {
let new = (0..<numberOfRandomSecrets).map { Secret(name: String(describing: $0)) }
self.init(secrets: new)
}
func sign(data: Data, with secret: Preview.Secret, for provenance: SigningRequestProvenance) throws -> Data {
return data
}
func existingPersistedAuthenticationContext(secret: Preview.Secret) -> PersistedAuthenticationContext? {
nil
}
func persistAuthentication(secret: Preview.Secret, forDuration duration: TimeInterval) throws {
}
func reloadSecrets() {
}
func create(name: String, attributes: Attributes) throws -> Secret {
fatalError()
func create(name: String, requiresAuthentication: Bool) throws {
}
func delete(secret: Preview.Secret) throws {
}
func update(secret: Preview.Secret, name: String, attributes: Attributes) throws {
func update(secret: Preview.Secret, name: String) throws {
}
}
}
extension Preview {
@MainActor static func storeList(stores: [Store] = [], modifiableStores: [StoreModifiable] = []) -> SecretStoreList {
static func storeList(stores: [Store] = [], modifiableStores: [StoreModifiable] = []) -> SecretStoreList {
let list = SecretStoreList()
for store in stores {
list.add(store: store)

10
Sources/Secretive/Preview Content/PreviewUpdater.swift
View File

@@ -1,11 +1,10 @@
import Foundation
import Observation
import Combine
import Brief
@Observable @MainActor final class PreviewUpdater: UpdaterProtocol {
var update: Release? = nil
class PreviewUpdater: UpdaterProtocol {
let update: Release?
let testBuild = false
init(update: Update = .none) {
@@ -19,9 +18,6 @@ import Brief
}
}
func ignore(release: Release) async {
}
}
extension PreviewUpdater {

10
Sources/Secretive/Secretive.entitlements
View File

@@ -2,16 +2,12 @@
<!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.hardened-process</key>
<key>com.apple.security.app-sandbox</key>
<true/>
<key>com.apple.security.hardened-process.dyld-ro</key>
<key>com.apple.security.files.user-selected.read-write</key>
<true/>
<key>com.apple.security.hardened-process.enhanced-security-version</key>
<integer>1</integer>
<key>com.apple.security.hardened-process.hardened-heap</key>
<key>com.apple.security.network.client</key>
<true/>
<key>com.apple.security.hardened-process.platform-restrictions</key>
<integer>2</integer>
<key>com.apple.security.smartcard</key>
<true/>
<key>keychain-access-groups</key>

24
Sources/Secretive/Views/ActionButtonStyle.swift
View File

@@ -1,24 +0,0 @@
import SwiftUI
struct PrimaryButtonModifier: ViewModifier {
@Environment(\.colorScheme) var colorScheme
func body(content: Content) -> some View {
// Tinted glass prominent is really hard to read on 26.0.
if #available(macOS 26.0, *), colorScheme == .dark {
content.buttonStyle(.glassProminent)
} else {
content.buttonStyle(.borderedProminent)
}
}
}
extension View {
func primary() -> some View {
modifier(PrimaryButtonModifier())
}
}

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