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84 Commits

Author SHA1 Message Date
zarzet c673581c32 feat: multi-select batch delete and album grouping in history
- Add multi-select mode with long-press to select tracks
- Add bottom action bar for selection (Material 3 style)
- Add filter tabs: All/Albums/Singles
- Add album grouping view when Albums filter selected
- Add DownloadedAlbumScreen for viewing tracks in an album
- Reactive UI updates when tracks deleted
- Auto-pop when album has <2 tracks
- Update issue templates with (Stable Version) text
- Bump version to 2.2.8
2026-01-12 06:18:32 +07:00
zarzet a6d488696b chore: add extension API feature request template and ignore docs folder 2026-01-12 01:22:23 +07:00
zarzet 24ef66be4c Merge branch 'main' of https://github.com/zarzet/SpotiFLAC-Mobile 2026-01-11 06:41:54 +07:00
zarzet d07a49f605 UI modernization: Global theme update, redesigned Options/Download settings, and smart filename editor 2026-01-11 06:41:34 +07:00
zarzet 4eba28db7a v2.2.7: CSV import metadata enrichment with Deezer fallback 2026-01-11 06:09:48 +07:00
zarzet b73a3f8912 Add CSV import and optimize Appearance settings 2026-01-11 05:56:30 +07:00
zarzet 9f47f2ce85 UI Modernization: Unified app bars, updated logos, improved settings & Deezer support 2026-01-11 04:28:41 +07:00
zarzet f2aca734a3 fix: improve logging for release builds and UI improvements
- Fix Flutter logs not appearing in release mode by bypassing Logger package
- Add detailed logging for Deezer search API calls
- Replace music_note icon with app logo on home screen
- Remove shadow/border from logo in About and Home screens
- Align icon size (40x40) with avatar in About page for consistent layout
2026-01-11 02:27:26 +07:00
Zarz Eleutherius 09cb637a86 Update VirusTotal link in README.md 2026-01-10 19:27:48 +07:00
zarzet 11e7034cec v2.2.5: In-app logging, ISP blocking detection, Latin script fix 2026-01-10 19:03:39 +07:00
zarzet f12c18d76b Add issue templates, update workflow SDK, fix about logo 2026-01-10 16:53:41 +07:00
zarzet 0da39a1b8b chore: update NDK to r27d LTS (27.3.13750724) for 16KB page size support 2026-01-10 16:48:52 +07:00
Zarz Eleutherius f29fe5054c Updated VirusTotal badge link in README
Updated VirusTotal badge link to the latest report.
2026-01-10 16:09:39 +07:00
zarzet c8c0164964 chore: update targetSdk to 36 (Android 16) with timeout handler 2026-01-10 04:51:15 +07:00
zarzet 52dd657913 fix: improve search result parsing robustness for edge cases 2026-01-10 04:48:32 +07:00
zarzet c30f9fe412 fix(ios): add setSpotifyCredentials method to AppDelegate 2026-01-10 04:36:28 +07:00
zarzet bea5dd1d4a v2.2.0: Default to Tidal, faster ISRC matching, ISRC enrichment for search 2026-01-10 04:33:05 +07:00
Zarz Eleutherius 8726a0858a Update VirusTotal link in README.md 2026-01-09 19:03:36 +07:00
zarzet 74bc747599 chore: update to v2.1.7 with new icons 2026-01-09 17:54:50 +07:00
zarzet cbc8fdcb0c feat: add download badges to release page 2026-01-09 17:25:01 +07:00
zarzet 3b79b4f1ca fix: use absolute path for IPA creation 2026-01-09 02:41:19 +07:00
zarzet 5692a76650 Fix: iOS embedMetadata method + Android APK path detection 2026-01-09 02:31:01 +07:00
zarzet 7a009ad0af Fix R8: add dontwarn for Play Core and javax.xml.stream 2026-01-09 02:19:37 +07:00
zarzet e5e75e7092 Fix iOS build: use xcodebuild with CODE_SIGNING_ALLOWED=NO 2026-01-09 02:18:54 +07:00
zarzet 01b8fd2480 Fix metadata consistency (Go->Flutter) and build optimization
- Backend: Return full metadata (Track, Disc, Year) from Tidal/Qobuz/Amazon download results
- Flutter: Use backend metadata for tagging converted M4A and history entries
- Fix: Duplicate convertTrack method in deezer.go
- Fix: Better error message for Deezer fallback failure
- Changed: Default service fallback to Tidal -> Qobuz -> Amazon
- Build: Re-enabled resource shrinking and minification for release build
2026-01-09 02:12:24 +07:00
Zarz Eleutherius ee807a44cc Update instructions for using Spotify API 2026-01-08 13:36:10 +07:00
Zarz Eleutherius c9b905eb18 Update VirusTotal badge link in README.md 2026-01-08 01:08:32 +07:00
zarzet e9c7bf830e Update changelog for v2.1.5 2026-01-08 00:53:38 +07:00
zarzet 8bc97d5bd3 v2.1.5: Deezer API 2.0, Qobuz default, fetch ISRC for search results 2026-01-08 00:52:24 +07:00
zarzet f2c241c323 Fix .tmp permission issue on Android Music folder 2026-01-08 00:26:49 +07:00
zarzet 9c512ffe28 Add migration for Deezer default (skip if custom Spotify enabled) 2026-01-07 23:19:04 +07:00
zarzet 53a1da6249 v2.1.5: Fix progress bar and incomplete downloads
- Fix progress bar jumping from 1% to 100% (threshold-based updates)
- Fix incomplete downloads with temp file + size validation
- Applies to Tidal, Qobuz, and Amazon services
2026-01-07 23:15:48 +07:00
Zarz Eleutherius d4274e8ca8 Include setup instructions for Spotify API usage
Added detailed instructions for setting up Spotify as a search source, including steps for creating a developer account and entering credentials.
2026-01-07 13:55:31 +07:00
Zarz Eleutherius 49a9f12841 Simplify README by removing Spotify setup details
Removed detailed instructions for using Spotify and support section.
2026-01-07 13:53:30 +07:00
zarzet d7fa040e3c fix: Deezer artist/album screen improvements
- Fix album_screen to support Deezer album IDs (deezer:xxx format)
- Use getSpotifyMetadataWithFallback for Spotify albums
- Hide track count in artist discography when not available from Deezer API
- Deezer /artist/{id}/albums endpoint doesn't return nb_tracks
2026-01-07 04:25:35 +07:00
zarzet 9baa1e2088 fix: Replace android-actions/setup-android with direct SDK setup 2026-01-07 03:38:00 +07:00
zarzet 482457205a feat: Add Deezer as alternative metadata source with auto-fallback
- Add Deezer API client (no auth required, rate limit per user IP)
- Add search source selector in Settings (Deezer/Spotify)
- Default to Deezer for better reliability
- Auto-fallback to Deezer when Spotify API is rate limited (429)
- Support fallback for tracks and albums via SongLink API
- Update README with metadata source documentation
- Version 2.1.5-preview (build 42)
2026-01-07 03:25:14 +07:00
zarzet 3b2ec319e2 Fix pubspec version to 2.1.0+41 2026-01-07 00:19:53 +07:00
zarzet a0f7e75a9a Update VirusTotal badge to 2.1.0 2026-01-07 00:15:43 +07:00
zarzet c725e53e4c Release 2.1.0 2026-01-07 00:00:28 +07:00
zarzet 1d7c43a302 v2.1.0-preview: Download speed optimizations 2026-01-06 03:56:26 +07:00
Zarz Eleutherius df7c1c5bb7 Add VirusTotal badge to README
Added VirusTotal badge to README for safety verification.
2026-01-06 02:05:50 +07:00
zarzet bb05353b7e fix(ios): directory picker - add App Documents option for iOS
- iOS limitation: empty folders cannot be selected via document picker
- Added bottom sheet with App Documents Folder as recommended option
- Shows info message explaining iOS limitation
- Files accessible via iOS Files app

Version: 2.0.7-preview2+38
2026-01-06 00:23:19 +07:00
zarzet 7ac92d77e5 chore: add custom FFmpeg AAR to repo for CI builds 2026-01-05 14:23:41 +07:00
zarzet cf00ecb756 feat: use custom FFmpeg AAR for Android, reduce APK size
- Replace ffmpeg_kit_flutter plugin with custom AAR (arm64 + arm7a only)
- Add MethodChannel bridge for FFmpeg in MainActivity
- Create separate pubspec_ios.yaml for iOS builds with ffmpeg_kit plugin
- Update GitHub workflow to swap pubspec for iOS builds
- Reduces Android APK size by ~50MB
2026-01-05 14:09:32 +07:00
zarzet 525f2fd0cd chore: bump version to 2.0.6+36 2026-01-05 12:21:05 +07:00
zarzet 3e841cef06 fix: duration display, audio quality from file, artist verification, metadata case-sensitivity, settings navigation freeze
- Fix duration showing incorrect values (ms to seconds conversion)
- Read audio quality from FLAC file instead of trusting API
- Add artist verification for Tidal/Qobuz/Amazon downloads
- Fix FLAC metadata case-insensitive replacement
- Fix settings navigation freeze on Android 14+ (PopScope handling)
2026-01-05 10:30:57 +07:00
zarzet a8527df80a docs: application stabilized, remove dev notice 2026-01-05 03:12:30 +07:00
zarzet 51b2ad5c77 v2.0.5: Large playlist support + duration verification fix
- Add pagination for playlists (up to 1000 tracks)
- Add duration verification to prevent wrong track downloads
- When Tidal returns wrong version, fallback to Qobuz/Amazon
2026-01-05 03:08:15 +07:00
zarzet d641a517b8 ci: Fix disk cleanup - only remove safe directories 2026-01-04 12:09:13 +07:00
zarzet 608fa2ca74 ci: Fix disk cleanup - don't remove Android SDK path 2026-01-04 12:08:18 +07:00
zarzet 343b309314 ci: Add disk cleanup step to fix runner space issue 2026-01-04 12:01:34 +07:00
zarzet 0787b32dd8 v2.0.4: Fix Android 11 storage permission denied 2026-01-04 11:51:09 +07:00
zarzet 6927fdf7a9 fix: Android 11 storage permission denied issue 2026-01-04 11:48:19 +07:00
zarzet fe6af34478 Update screenshots 2026-01-04 00:14:33 +07:00
zarzet 85bb67da47 v2.0.3: Custom Spotify credentials, rate limit UI, search fixes 2026-01-03 23:56:03 +07:00
zarzet 794486a200 v2.0.2: Quality display, fallback fix, Open in Spotify fix
- Add actual quality display (bit depth/sample rate) in history and metadata
- Add quality disclaimer in quality picker
- Fix fallback service display showing wrong service
- Fix Open in Spotify not opening app correctly
- Remove romaji conversion feature
- Amazon now reads quality from FLAC file
2026-01-03 07:23:54 +07:00
zarzet 8ce5e958ee docs: update changelog 2026-01-03 05:46:03 +07:00
zarzet 5c6bf02f1c v2.0.1: Unified progress tracking, quality picker consistency, notification fixes 2026-01-03 05:43:14 +07:00
zarzet 852335f794 fix: correct version to 2.0.0 (remove preview suffix) 2026-01-03 04:37:48 +07:00
zarzet b87de1f00a feat: quality picker with track info, update dialog redesign, finalizing notification fix
- Quality picker now shows track name, artist, and cover
- Tap to expand long track titles (icon only shows when truncated)
- Ripple effect follows rounded corners including drag handle
- Update dialog redesigned with Material Expressive 3 style
- Fixed update notification stuck at 100% after download complete
- Ask before download now enabled by default
- Finalizing notification for multi-progress polling
2026-01-03 04:26:19 +07:00
zarzet 8fcb389bb2 fix: play button red flash on app start
Use optimistic rendering for file existence check - assume file exists while async check runs, only show error if file is actually missing
2026-01-03 00:52:34 +07:00
zarzet 08bca30fcd perf: optimize state management, add HTTPS validation, improve UI performance
- Add HTTPS-only validation for APK downloads and update checks
- Use .select() for Riverpod providers to prevent unnecessary rebuilds
- Add keys to all list builders for efficient updates
- Implement request cancellation for outdated API requests
- Debounce all network requests (URLs and searches)
- Limit file existence cache to 500 entries
- Add ref.onDispose for timer cleanup
- Add error handling for share intent stream
- Redesign About page with Material Expressive 3 style
- Rename Search tab to Home
- Remove Features section from README
2026-01-03 00:46:34 +07:00
zarzet a7c5afdd20 ui: redesign About page with contributors and fix title alignment 2026-01-02 20:15:29 +07:00
zarzet 5eac386eba ui: remove Search Music text, keep only logo 2026-01-02 18:30:57 +07:00
zarzet d35d60ac7d docs: update screenshots 2026-01-02 18:28:38 +07:00
zarzet 7c43d4bf70 docs: add active development notice 2026-01-02 18:21:07 +07:00
zarzet 2043370b6c feat: background download service + queue persistence (v1.6.1)
- Add foreground service for background downloads with wake lock
- Persist download queue to SharedPreferences for app restart recovery
- Fix share intent causing app restart (singleTask + onNewIntent)
- Fix back button clearing state during loading
- Upgrade Kotlin to 2.3.0 for share_plus 12.0.1 compatibility
- Add WAKE_LOCK permission for foreground service
2026-01-02 18:14:19 +07:00
zarzet 39ddb7a14f fix: persist download queue to survive app restart (v1.6.1)
- Download queue now persisted to SharedPreferences
- Auto-restore pending downloads on app restart
- Interrupted downloads reset to queued and auto-resumed
- singleTask launch mode to prevent app restart on share intent
- onNewIntent handler for proper intent handling
- Reverted share_plus to 10.1.4 (12.0.1 has Kotlin build issues)
2026-01-02 17:35:34 +07:00
zarzet bd9b527161 release: v1.6.0 - Live search, quality picker, dependency updates 2026-01-02 17:13:22 +07:00
zarzet 39bcc2c547 feat: live search with back navigation and animated transitions 2026-01-02 16:43:59 +07:00
zarzet 973c2e3b41 v1.5.6: UI improvements, logger migration, and bug fixes
- Fix update checker for versions with suffix (hotfix/beta/rc)
- Add collapsing header to Search tab for consistent UI
- Redesign Settings with Android-style grouped cards
- Increase app bar title size (28px) and height (130px)
- Replace all print() with structured logging (logger package)
- Fix lint warnings (curly braces, unnecessary underscores)
2026-01-02 15:16:50 +07:00
zarzet 62805720da Add auto-tag workflow on version change 2026-01-02 06:52:28 +07:00
zarzet 0d8234ccd2 v1.5.5: History tab, share intent, artist support, lyrics viewer, folder organization 2026-01-02 06:47:49 +07:00
zarzet 0edd616c3d Remove redundant workflows, keep only release.yml 2026-01-02 04:44:26 +07:00
zarzet 9ca0e8cf5c v1.5.0-hotfix6: Use sign-android-release action 2026-01-02 04:29:55 +07:00
zarzet 37b8682faa v1.5.0-hotfix5: Use key.properties per Flutter docs 2026-01-02 04:27:02 +07:00
zarzet 6563f0f2b3 Remove APK from tracking 2026-01-02 04:17:44 +07:00
zarzet 562fd4d7bb v1.5.0-hotfix4: Create keystore.properties in workflow 2026-01-02 04:17:24 +07:00
zarzet 7aa3e77df1 Remove APK 2026-01-02 04:10:07 +07:00
zarzet 4caa803eb2 v1.5.0-hotfix3: Decode keystore in workflow 2026-01-02 04:09:49 +07:00
zarzet 6d5c9d0f91 Remove accidentally committed APK 2026-01-02 03:52:00 +07:00
zarzet 1b2ad4cdd5 v1.5.0-hotfix2: Fix CI signing config 2026-01-02 03:51:41 +07:00
zarzet 33e8ddd758 v1.5.0-hotfix: Fix app signing, add in-app update 2026-01-02 03:36:11 +07:00
136 changed files with 21372 additions and 3458 deletions
+123
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@@ -0,0 +1,123 @@
name: Bug Report
description: Report a bug or unexpected behavior
title: "[Bug]: "
labels: ["bug"]
body:
- type: markdown
attributes:
value: |
Thanks for taking the time to report a bug! Please fill out the form below.
- type: checkboxes
id: checklist
attributes:
label: Checklist
description: Please confirm the following before submitting
options:
- label: I have searched existing issues and this bug hasn't been reported yet
required: true
- label: I am using the latest version of SpotiFLAC (Stable Version)
required: true
- type: textarea
id: description
attributes:
label: Bug Description
description: A clear and concise description of what the bug is
placeholder: Describe the bug...
validations:
required: true
- type: textarea
id: steps
attributes:
label: Steps to Reproduce
description: Steps to reproduce the behavior
placeholder: |
1. Go to '...'
2. Click on '...'
3. See error
validations:
required: true
- type: textarea
id: expected
attributes:
label: Expected Behavior
description: What did you expect to happen?
placeholder: Describe what you expected...
validations:
required: true
- type: textarea
id: actual
attributes:
label: Actual Behavior
description: What actually happened?
placeholder: Describe what actually happened...
validations:
required: true
- type: input
id: version
attributes:
label: App Version
description: Which version of SpotiFLAC are you using? (Check in Settings > About)
placeholder: "e.g., v2.2.0"
validations:
required: true
- type: dropdown
id: platform
attributes:
label: Platform
description: Which platform are you using?
options:
- Android
- iOS
validations:
required: true
- type: input
id: device
attributes:
label: Device & OS Version
description: What device and OS version are you using?
placeholder: "e.g., Samsung Galaxy S24, Android 14"
validations:
required: true
- type: dropdown
id: download-service
attributes:
label: Download Service
description: Which download service were you using when the bug occurred?
options:
- Tidal
- Qobuz
- Amazon Music
- Deezer (search only)
- Not applicable
validations:
required: true
- type: textarea
id: logs
attributes:
label: Logs / Screenshots
description: |
If applicable, add logs or screenshots to help explain your problem.
**To get logs:**
1. Go to Settings > Options > Detailed Logging (turn ON)
2. Reproduce the bug
3. Go to Settings > Logs
4. Tap Share button to export logs
placeholder: Paste logs or drag & drop screenshots here...
- type: textarea
id: additional
attributes:
label: Additional Context
description: Any other context about the problem
placeholder: Add any other context...
+8
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@@ -0,0 +1,8 @@
blank_issues_enabled: false
contact_links:
- name: README
url: https://github.com/zarzet/SpotiFLAC-Mobile#readme
about: Check the README for setup instructions and FAQ
- name: Extension Development Guide
url: https://zarz.moe/docs
about: Documentation for building SpotiFLAC extensions
+111
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@@ -0,0 +1,111 @@
name: Download Issue
description: Report issues with downloading specific tracks or albums
title: "[Download]: "
labels: ["download-issue"]
body:
- type: markdown
attributes:
value: |
Having trouble downloading a specific track or album? Please provide details below.
- type: checkboxes
id: checklist
attributes:
label: Checklist
description: Please confirm the following before submitting
options:
- label: I have tried downloading with a different service (Tidal/Qobuz/Amazon)
required: true
- label: I am using the latest version of SpotiFLAC (Stable Version)
required: true
- type: dropdown
id: issue-type
attributes:
label: Issue Type
description: What kind of download issue are you experiencing?
options:
- Track not found on service
- Wrong track downloaded
- Download fails/errors
- Metadata incorrect
- Audio quality issue
- Other
validations:
required: true
- type: input
id: spotify-url
attributes:
label: Spotify URL
description: The Spotify URL of the track/album you're trying to download
placeholder: "https://open.spotify.com/track/..."
validations:
required: true
- type: input
id: track-info
attributes:
label: Track Info
description: Artist name and track title
placeholder: "Artist - Track Title"
validations:
required: true
- type: dropdown
id: download-service
attributes:
label: Download Service
description: Which service did you try to download from?
options:
- Tidal
- Qobuz
- Amazon Music
- All services
validations:
required: true
- type: dropdown
id: search-service
attributes:
label: Search Service
description: Which search service are you using?
options:
- Spotify
- Deezer
validations:
required: true
- type: textarea
id: description
attributes:
label: Description
description: Describe the issue in detail
placeholder: |
What happened? What did you expect?
If wrong track was downloaded, what track was downloaded instead?
validations:
required: true
- type: input
id: version
attributes:
label: App Version
description: Which version of SpotiFLAC are you using?
placeholder: "e.g., v2.2.0"
validations:
required: true
- type: textarea
id: screenshots
attributes:
label: Screenshots / Logs
description: |
If applicable, add screenshots or logs.
**To get logs:**
1. Go to Settings > Options > Detailed Logging (turn ON)
2. Try downloading the track again
3. Go to Settings > Logs
4. Tap Share button to export logs
placeholder: Drag & drop screenshots or paste logs here...
@@ -0,0 +1,117 @@
name: Extension API Feature Request (Alpha)
description: Request new API features or capabilities for extension development (Extension system is in alpha)
title: "[Extension API]: "
labels: ["enhancement", "extension-api"]
body:
- type: markdown
attributes:
value: |
Thanks for helping improve the SpotiFLAC Extension API!
This form is for extension developers who need new features or capabilities that don't exist yet.
- type: checkboxes
id: checklist
attributes:
label: Checklist
description: Please confirm the following before submitting
options:
- label: I have read the [Extension Development Guide](https://zarz.moe/docs)
required: true
- label: I have searched existing issues and this API feature hasn't been requested yet
required: true
- type: textarea
id: extension_goal
attributes:
label: What are you trying to build?
description: Describe the extension or feature you're developing
placeholder: "I'm building an extension that downloads from [service name] / provides metadata from [source]..."
validations:
required: true
- type: textarea
id: current_limitation
attributes:
label: Current API Limitation
description: What's missing or limiting in the current extension API?
placeholder: |
The current API doesn't support:
- [missing feature 1]
- [missing feature 2]
This prevents me from...
validations:
required: true
- type: textarea
id: proposed_api
attributes:
label: Proposed API / Feature
description: Describe the API or feature you'd like to see added
placeholder: |
I would like to have:
- A new function `api.newFeature()` that does X
- A new manifest field `newOption` that enables Y
- Access to Z capability...
validations:
required: true
- type: textarea
id: use_case
attributes:
label: Use Case Example
description: Provide a code example of how you would use this feature
placeholder: |
```javascript
// Example usage in extension code
function download(request, progressCallback) {
const result = api.proposedFeature(params);
// ...
}
```
validations:
required: false
- type: dropdown
id: api_category
attributes:
label: API Category
description: What category does this feature fall under?
options:
- HTTP/Network API
- File System API
- Storage API
- FFmpeg/Audio Processing
- Manifest Options
- Runtime Functions
- UI Integration
- Authentication
- Other
validations:
required: true
- type: dropdown
id: priority
attributes:
label: How critical is this for your extension?
options:
- Blocker - Cannot build my extension without this
- High - Major functionality depends on this
- Medium - Would significantly improve my extension
- Low - Nice to have
validations:
required: true
- type: textarea
id: workaround
attributes:
label: Current Workaround
description: Are you using any workaround currently? If so, describe it.
placeholder: "Currently I'm working around this by..."
- type: textarea
id: additional
attributes:
label: Additional Context
description: Add any other context, links to similar APIs, or examples from other platforms
placeholder: "Similar feature in other platforms: ..."
@@ -0,0 +1,66 @@
name: Feature Request
description: Suggest a new feature or improvement
title: "[Feature]: "
labels: ["enhancement"]
body:
- type: markdown
attributes:
value: |
Thanks for suggesting a feature! Please fill out the form below.
- type: checkboxes
id: checklist
attributes:
label: Checklist
description: Please confirm the following before submitting
options:
- label: I have searched existing issues and this feature hasn't been requested yet
required: true
- type: textarea
id: problem
attributes:
label: Problem / Motivation
description: Is your feature request related to a problem? Please describe.
placeholder: "A clear description of what the problem is. Ex: I'm always frustrated when..."
validations:
required: true
- type: textarea
id: solution
attributes:
label: Proposed Solution
description: Describe the solution you'd like
placeholder: A clear description of what you want to happen...
validations:
required: true
- type: textarea
id: alternatives
attributes:
label: Alternatives Considered
description: Describe any alternative solutions or features you've considered
placeholder: Other approaches you've thought about...
- type: dropdown
id: category
attributes:
label: Category
description: What category does this feature fall under?
options:
- UI/UX Improvement
- Download Feature
- New Service Integration
- Metadata/Tagging
- Performance
- Settings/Configuration
- Other
validations:
required: true
- type: textarea
id: additional
attributes:
label: Additional Context
description: Add any other context, mockups, or screenshots about the feature request
placeholder: Add any other context or screenshots...
-75
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@@ -1,75 +0,0 @@
name: Android Build
on:
push:
tags:
- 'v*'
workflow_dispatch:
jobs:
build-android:
runs-on: ubuntu-latest
steps:
- name: Checkout repository
uses: actions/checkout@v4
- name: Setup Java
uses: actions/setup-java@v4
with:
distribution: 'temurin'
java-version: '17'
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.21'
cache-dependency-path: go_backend/go.sum
- name: Install Android SDK & NDK
uses: android-actions/setup-android@v3
- name: Install gomobile
run: |
go install golang.org/x/mobile/cmd/gomobile@latest
gomobile init
- name: Build Go backend for Android
working-directory: go_backend
run: |
mkdir -p ../android/app/libs
gomobile bind -target=android -androidapi 24 -o ../android/app/libs/gobackend.aar .
env:
CGO_ENABLED: 1
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
cache: true
- name: Get Flutter dependencies
run: flutter pub get
- name: Generate app icons
run: dart run flutter_launcher_icons
- name: Build APK (Release)
run: flutter build apk --release
- name: Build App Bundle (Release)
run: flutter build appbundle --release
- name: Upload APK artifact
uses: actions/upload-artifact@v4
with:
name: SpotiFLAC-Android-APK
path: build/app/outputs/flutter-apk/app-release.apk
retention-days: 30
- name: Upload AAB artifact
uses: actions/upload-artifact@v4
with:
name: SpotiFLAC-Android-AAB
path: build/app/outputs/bundle/release/app-release.aab
retention-days: 30
-69
View File
@@ -1,69 +0,0 @@
name: Auto Release on Version Bump
on:
push:
branches: [main]
paths:
- 'pubspec.yaml'
jobs:
check-version:
runs-on: ubuntu-latest
outputs:
version_changed: ${{ steps.check.outputs.changed }}
new_version: ${{ steps.check.outputs.version }}
steps:
- name: Checkout repository
uses: actions/checkout@v4
with:
fetch-depth: 2
- name: Check if version changed
id: check
run: |
# Get current version
CURRENT_VERSION=$(grep '^version:' pubspec.yaml | sed 's/version: //' | cut -d'+' -f1)
# Get previous version
git show HEAD~1:pubspec.yaml > /tmp/old_pubspec.yaml 2>/dev/null || echo "version: 0.0.0" > /tmp/old_pubspec.yaml
PREVIOUS_VERSION=$(grep '^version:' /tmp/old_pubspec.yaml | sed 's/version: //' | cut -d'+' -f1)
echo "Current version: $CURRENT_VERSION"
echo "Previous version: $PREVIOUS_VERSION"
if [ "$CURRENT_VERSION" != "$PREVIOUS_VERSION" ]; then
echo "Version changed!"
echo "changed=true" >> $GITHUB_OUTPUT
echo "version=v$CURRENT_VERSION" >> $GITHUB_OUTPUT
else
echo "Version unchanged"
echo "changed=false" >> $GITHUB_OUTPUT
fi
create-tag-and-trigger-release:
needs: check-version
if: needs.check-version.outputs.version_changed == 'true'
runs-on: ubuntu-latest
permissions:
contents: write
actions: write
steps:
- name: Checkout repository
uses: actions/checkout@v4
- name: Create and push tag
run: |
git config user.name "github-actions[bot]"
git config user.email "github-actions[bot]@users.noreply.github.com"
git tag ${{ needs.check-version.outputs.new_version }}
git push origin ${{ needs.check-version.outputs.new_version }}
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
- name: Trigger Release workflow
run: |
gh workflow run release.yml -f version=${{ needs.check-version.outputs.new_version }}
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+77
View File
@@ -0,0 +1,77 @@
name: Auto Tag on Version Change
on:
push:
branches:
- main
paths:
- 'pubspec.yaml'
jobs:
check-version:
runs-on: ubuntu-latest
permissions:
contents: write
steps:
- name: Checkout repository
uses: actions/checkout@v4
with:
fetch-depth: 2 # Need previous commit to compare
- name: Get current version
id: current
run: |
VERSION=$(grep '^version:' pubspec.yaml | sed 's/version: //' | cut -d'+' -f1)
echo "version=$VERSION" >> $GITHUB_OUTPUT
echo "Current version: $VERSION"
- name: Get previous version
id: previous
run: |
git checkout HEAD~1 -- pubspec.yaml 2>/dev/null || echo "version: 0.0.0" > pubspec.yaml.old
if [ -f pubspec.yaml.old ]; then
VERSION=$(grep '^version:' pubspec.yaml.old | sed 's/version: //' | cut -d'+' -f1)
else
VERSION=$(grep '^version:' pubspec.yaml | sed 's/version: //' | cut -d'+' -f1)
fi
git checkout HEAD -- pubspec.yaml
echo "version=$VERSION" >> $GITHUB_OUTPUT
echo "Previous version: $VERSION"
- name: Check if version changed
id: check
run: |
CURRENT="${{ steps.current.outputs.version }}"
PREVIOUS="${{ steps.previous.outputs.version }}"
if [ "$CURRENT" != "$PREVIOUS" ]; then
echo "Version changed from $PREVIOUS to $CURRENT"
echo "changed=true" >> $GITHUB_OUTPUT
else
echo "Version unchanged: $CURRENT"
echo "changed=false" >> $GITHUB_OUTPUT
fi
- name: Check if tag exists
id: tag_exists
if: steps.check.outputs.changed == 'true'
run: |
TAG="v${{ steps.current.outputs.version }}"
if git ls-remote --tags origin | grep -q "refs/tags/$TAG"; then
echo "Tag $TAG already exists"
echo "exists=true" >> $GITHUB_OUTPUT
else
echo "Tag $TAG does not exist"
echo "exists=false" >> $GITHUB_OUTPUT
fi
- name: Create and push tag
if: steps.check.outputs.changed == 'true' && steps.tag_exists.outputs.exists == 'false'
run: |
TAG="v${{ steps.current.outputs.version }}"
git config user.name "github-actions[bot]"
git config user.email "github-actions[bot]@users.noreply.github.com"
git tag -a "$TAG" -m "Release $TAG"
git push origin "$TAG"
echo "Created and pushed tag: $TAG"
-118
View File
@@ -1,118 +0,0 @@
name: iOS Build
on:
push:
tags:
- 'v*'
workflow_dispatch:
jobs:
build-ios:
runs-on: macos-latest
steps:
- name: Checkout repository
uses: actions/checkout@v4
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.21'
cache-dependency-path: go_backend/go.sum
- name: Install gomobile
run: |
go install golang.org/x/mobile/cmd/gomobile@latest
gomobile init
- name: Build Go backend for iOS (XCFramework)
working-directory: go_backend
run: |
mkdir -p ../ios/Frameworks
gomobile bind -target=ios -o ../ios/Frameworks/Gobackend.xcframework .
env:
CGO_ENABLED: 1
- name: Verify XCFramework created
run: |
echo "=== Checking XCFramework ==="
ls -la ios/Frameworks/
ls -la ios/Frameworks/Gobackend.xcframework/ || (echo "ERROR: XCFramework not found!" && exit 1)
- name: Add XCFramework to Xcode project
run: |
# Install xcodeproj gem for modifying Xcode project
sudo gem install xcodeproj
# Create Ruby script to add framework
cat > add_framework.rb << 'EOF'
require 'xcodeproj'
project_path = 'ios/Runner.xcodeproj'
project = Xcodeproj::Project.open(project_path)
# Get the main target
target = project.targets.find { |t| t.name == 'Runner' }
# Get or create Frameworks group
frameworks_group = project.main_group.find_subpath('Frameworks', true)
frameworks_group ||= project.main_group.new_group('Frameworks')
# Add XCFramework reference
framework_path = 'Frameworks/Gobackend.xcframework'
framework_ref = frameworks_group.new_file(framework_path, :project)
# Add to frameworks build phase
frameworks_build_phase = target.frameworks_build_phase
frameworks_build_phase.add_file_reference(framework_ref)
# Add to embed frameworks build phase
embed_phase = target.build_phases.find { |p| p.is_a?(Xcodeproj::Project::Object::PBXCopyFilesBuildPhase) && p.name == 'Embed Frameworks' }
if embed_phase
build_file = embed_phase.add_file_reference(framework_ref)
build_file.settings = { 'ATTRIBUTES' => ['CodeSignOnCopy', 'RemoveHeadersOnCopy'] }
end
project.save
puts "Successfully added Gobackend.xcframework to Xcode project"
EOF
ruby add_framework.rb
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
cache: true
- name: Get Flutter dependencies
run: flutter pub get
- name: Generate app icons
run: dart run flutter_launcher_icons
- name: Build iOS (no codesign)
run: flutter build ios --release --no-codesign
- name: Create IPA (unsigned)
run: |
mkdir -p build/ios/ipa
cd build/ios/iphoneos
mkdir Payload
cp -r Runner.app Payload/
zip -r ../ipa/SpotiFLAC-unsigned.ipa Payload
rm -rf Payload
- name: Upload IPA artifact
uses: actions/upload-artifact@v4
with:
name: SpotiFLAC-iOS-unsigned
path: build/ios/ipa/SpotiFLAC-unsigned.ipa
retention-days: 30
- name: Upload XCFramework artifact
uses: actions/upload-artifact@v4
with:
name: Gobackend-XCFramework
path: ios/Frameworks/Gobackend.xcframework
retention-days: 30
+157 -53
View File
@@ -3,13 +3,13 @@ name: Release
on:
push:
tags:
- 'v*'
- "v*"
workflow_dispatch:
inputs:
version:
description: 'Version tag (e.g., v1.0.0)'
description: "Version tag (e.g., v1.0.0)"
required: true
default: 'v1.0.0'
default: "v1.0.0"
jobs:
# Get version first (quick job)
@@ -17,35 +17,61 @@ jobs:
runs-on: ubuntu-latest
outputs:
version: ${{ steps.version.outputs.version }}
is_prerelease: ${{ steps.version.outputs.is_prerelease }}
steps:
- name: Get version
id: version
run: |
if [ "${{ github.event_name }}" = "workflow_dispatch" ]; then
echo "version=${{ github.event.inputs.version }}" >> $GITHUB_OUTPUT
VERSION="${{ github.event.inputs.version }}"
else
echo "version=${GITHUB_REF#refs/tags/}" >> $GITHUB_OUTPUT
VERSION="${GITHUB_REF#refs/tags/}"
fi
echo "version=$VERSION" >> $GITHUB_OUTPUT
# Check if version contains -preview, -beta, -rc, or -alpha (NOT -hotfix)
VERSION_LOWER=$(echo "$VERSION" | tr '[:upper:]' '[:lower:]')
if [[ "$VERSION_LOWER" == *"-preview"* ]] || [[ "$VERSION_LOWER" == *"-beta"* ]] || [[ "$VERSION_LOWER" == *"-rc"* ]] || [[ "$VERSION_LOWER" == *"-alpha"* ]]; then
echo "is_prerelease=true" >> $GITHUB_OUTPUT
echo "Detected pre-release version: $VERSION"
else
echo "is_prerelease=false" >> $GITHUB_OUTPUT
echo "Detected stable version: $VERSION"
fi
# Android and iOS build in PARALLEL
build-android:
runs-on: ubuntu-latest
needs: get-version
steps:
- name: Free disk space
run: |
# Remove large unused tools (~15GB total)
sudo rm -rf /usr/share/dotnet
sudo rm -rf /opt/ghc
sudo rm -rf /opt/hostedtoolcache/CodeQL
sudo rm -rf /usr/local/share/boost
sudo rm -rf /usr/share/swift
sudo rm -rf /usr/local/.ghcup
# Clean docker images
sudo docker image prune --all --force
# Show available space
df -h
- name: Checkout repository
uses: actions/checkout@v4
- name: Setup Java
uses: actions/setup-java@v4
with:
distribution: 'temurin'
java-version: '17'
distribution: "temurin"
java-version: "17"
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.21'
go-version: "1.21"
cache-dependency-path: go_backend/go.sum
# Cache Gradle for faster builds
@@ -59,7 +85,20 @@ jobs:
restore-keys: gradle-${{ runner.os }}-
- name: Install Android SDK & NDK
uses: android-actions/setup-android@v3
run: |
# Use pre-installed Android SDK on GitHub runners
echo "ANDROID_HOME=$ANDROID_HOME"
echo "ANDROID_SDK_ROOT=$ANDROID_SDK_ROOT"
# Accept licenses
yes | $ANDROID_HOME/cmdline-tools/latest/bin/sdkmanager --licenses || true
# Install NDK r27d LTS (required for 16KB page size support on Android 15+)
# Platform android-36 and build-tools 36.0.0 for targetSdk 36 (Android 16)
$ANDROID_HOME/cmdline-tools/latest/bin/sdkmanager "ndk;27.3.13750724" "platforms;android-36" "build-tools;36.0.0"
# Set NDK path
echo "ANDROID_NDK_HOME=$ANDROID_HOME/ndk/27.3.13750724" >> $GITHUB_ENV
- name: Install gomobile
run: |
@@ -77,7 +116,7 @@ jobs:
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
channel: "stable"
cache: true
- name: Get Flutter dependencies
@@ -86,16 +125,36 @@ jobs:
- name: Generate app icons
run: dart run flutter_launcher_icons
- name: Build APK (Release)
run: flutter build apk --release --split-per-abi
- name: Build APK (Release - unsigned)
run: |
flutter build apk --release --split-per-abi || true
# Verify APKs were created
ls -la build/app/outputs/flutter-apk/
if [ ! -f "build/app/outputs/flutter-apk/app-arm64-v8a-release.apk" ]; then
echo "ERROR: APK not found!"
exit 1
fi
- name: Sign APKs
uses: r0adkll/sign-android-release@v1
id: sign_arm64
with:
releaseDirectory: build/app/outputs/flutter-apk
signingKeyBase64: ${{ secrets.KEYSTORE_BASE64 }}
alias: ${{ secrets.KEY_ALIAS }}
keyStorePassword: ${{ secrets.KEYSTORE_PASSWORD }}
keyPassword: ${{ secrets.KEY_PASSWORD }}
env:
BUILD_TOOLS_VERSION: "36.0.0"
- name: Rename APKs
run: |
VERSION=${{ needs.get-version.outputs.version }}
cd build/app/outputs/flutter-apk
mv app-arm64-v8a-release.apk SpotiFLAC-${VERSION}-arm64.apk || true
mv app-armeabi-v7a-release.apk SpotiFLAC-${VERSION}-arm32.apk || true
mv app-release.apk SpotiFLAC-${VERSION}-universal.apk || true
# Signed files have -signed suffix
mv app-arm64-v8a-release-signed.apk SpotiFLAC-${VERSION}-arm64.apk || mv app-arm64-v8a-release.apk SpotiFLAC-${VERSION}-arm64.apk || true
mv app-armeabi-v7a-release-signed.apk SpotiFLAC-${VERSION}-arm32.apk || mv app-armeabi-v7a-release.apk SpotiFLAC-${VERSION}-arm32.apk || true
mv app-release-signed.apk SpotiFLAC-${VERSION}-universal.apk || mv app-release.apk SpotiFLAC-${VERSION}-universal.apk || true
ls -la
- name: Upload APK artifact
@@ -106,8 +165,8 @@ jobs:
build-ios:
runs-on: macos-latest
needs: get-version # Only depends on version, NOT android build!
needs: get-version # Only depends on version, NOT android build!
steps:
- name: Checkout repository
uses: actions/checkout@v4
@@ -115,7 +174,7 @@ jobs:
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.21'
go-version: "1.21"
cache-dependency-path: go_backend/go.sum
# Cache CocoaPods
@@ -143,53 +202,70 @@ jobs:
run: |
ls -la ios/Frameworks/
ls -la ios/Frameworks/Gobackend.xcframework/ || (echo "ERROR: XCFramework not found!" && exit 1)
- name: Add XCFramework to Xcode project
run: |
# Install xcodeproj gem for modifying Xcode project
sudo gem install xcodeproj
# Create Ruby script to add framework
cat > add_framework.rb << 'EOF'
require 'xcodeproj'
project_path = 'ios/Runner.xcodeproj'
project = Xcodeproj::Project.open(project_path)
# Get the main target
target = project.targets.find { |t| t.name == 'Runner' }
# Get or create Frameworks group
frameworks_group = project.main_group.find_subpath('Frameworks', true)
frameworks_group ||= project.main_group.new_group('Frameworks')
# Add XCFramework reference
framework_path = 'Frameworks/Gobackend.xcframework'
framework_ref = frameworks_group.new_file(framework_path, :project)
# Add to frameworks build phase
frameworks_build_phase = target.frameworks_build_phase
frameworks_build_phase.add_file_reference(framework_ref)
# Add to embed frameworks build phase
embed_phase = target.build_phases.find { |p| p.is_a?(Xcodeproj::Project::Object::PBXCopyFilesBuildPhase) && p.name == 'Embed Frameworks' }
if embed_phase
build_file = embed_phase.add_file_reference(framework_ref)
build_file.settings = { 'ATTRIBUTES' => ['CodeSignOnCopy', 'RemoveHeadersOnCopy'] }
end
project.save
puts "Successfully added Gobackend.xcframework to Xcode project"
EOF
ruby add_framework.rb
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
channel: "stable"
cache: true
# Swap pubspec for iOS build (includes ffmpeg_kit_flutter)
- name: Use iOS pubspec with FFmpeg plugin
run: |
cp pubspec.yaml pubspec_android_backup.yaml
cp pubspec_ios.yaml pubspec.yaml
echo "Swapped to iOS pubspec with ffmpeg_kit_flutter"
# Swap FFmpeg service for iOS
- name: Use iOS FFmpeg service
run: |
cp lib/services/ffmpeg_service.dart lib/services/ffmpeg_service_android.dart
cp build_assets/ffmpeg_service_ios.dart lib/services/ffmpeg_service.dart
# Update class name in the swapped file
sed -i '' 's/FFmpegServiceIOS/FFmpegService/g' lib/services/ffmpeg_service.dart
sed -i '' 's/FFmpegResultIOS/FFmpegResult/g' lib/services/ffmpeg_service.dart
echo "Swapped to iOS FFmpeg service"
- name: Get Flutter dependencies
run: flutter pub get
@@ -197,18 +273,44 @@ jobs:
run: dart run flutter_launcher_icons
- name: Build iOS (unsigned)
run: flutter build ios --release --no-codesign
run: |
# Build Flutter iOS without codesigning
flutter build ios --release --no-codesign --config-only
# Use xcodebuild with code signing disabled
cd ios
xcodebuild -workspace Runner.xcworkspace \
-scheme Runner \
-configuration Release \
-sdk iphoneos \
-destination 'generic/platform=iOS' \
-archivePath build/Runner.xcarchive \
archive \
CODE_SIGNING_ALLOWED=NO \
CODE_SIGNING_REQUIRED=NO \
CODE_SIGN_IDENTITY="" \
DEVELOPMENT_TEAM=""
- name: Create IPA
run: |
VERSION=${{ needs.get-version.outputs.version }}
mkdir -p build/ios/ipa
cd build/ios/iphoneos
cd ios/build/Runner.xcarchive/Products/Applications
mkdir Payload
cp -r Runner.app Payload/
zip -r ../ipa/SpotiFLAC-${VERSION}-ios-unsigned.ipa Payload
# Use absolute path to avoid relative path issues
zip -r $GITHUB_WORKSPACE/build/ios/ipa/SpotiFLAC-${VERSION}-ios-unsigned.ipa Payload
rm -rf Payload
- name: Verify IPA created
run: |
ls -la build/ios/ipa/
VERSION=${{ needs.get-version.outputs.version }}
if [ ! -f "build/ios/ipa/SpotiFLAC-${VERSION}-ios-unsigned.ipa" ]; then
echo "ERROR: IPA not created!"
exit 1
fi
- name: Upload IPA artifact
uses: actions/upload-artifact@v4
with:
@@ -220,7 +322,7 @@ jobs:
needs: [get-version, build-android, build-ios]
permissions:
contents: write
steps:
- name: Checkout repository
uses: actions/checkout@v4
@@ -230,13 +332,13 @@ jobs:
run: |
VERSION=${{ needs.get-version.outputs.version }}
VERSION_NUM=${VERSION#v} # Remove 'v' prefix
echo "Looking for version: $VERSION_NUM"
# Extract changelog section for this version using sed
# Find the line with version, then print until next version header or end
CHANGELOG=$(sed -n "/^## \[$VERSION_NUM\]/,/^## \[/{ /^## \[$VERSION_NUM\]/d; /^## \[/d; p; }" CHANGELOG.md)
# If no changelog found, use default message
if [ -z "$CHANGELOG" ]; then
echo "No changelog found for version $VERSION_NUM"
@@ -244,7 +346,7 @@ jobs:
else
echo "Found changelog content"
fi
# Save to file for multiline support
echo "$CHANGELOG" > /tmp/changelog.txt
echo "Extracted changelog:"
@@ -266,32 +368,34 @@ jobs:
run: |
VERSION=${{ needs.get-version.outputs.version }}
cat > /tmp/release_body.txt << 'HEADER'
## SpotiFLAC $VERSION
Download Spotify tracks in FLAC quality from Tidal, Qobuz & Amazon Music.
### What's New
HEADER
# Replace $VERSION in header
sed -i "s/\$VERSION/$VERSION/g" /tmp/release_body.txt
cat /tmp/changelog.txt >> /tmp/release_body.txt
REPO_OWNER="${{ github.repository_owner }}"
REPO_NAME="${{ github.event.repository.name }}"
cat >> /tmp/release_body.txt << FOOTER
---
### Downloads
- **Android (arm64)**: \`SpotiFLAC-${VERSION}-arm64.apk\` (recommended)
- **Android (arm32)**: \`SpotiFLAC-${VERSION}-arm32.apk\` (older devices)
#### Android
- **arm64**: \`SpotiFLAC-${VERSION}-arm64.apk\` (recommended for modern devices)
- **arm32**: \`SpotiFLAC-${VERSION}-arm32.apk\` (older devices)
#### iOS
- **iOS**: \`SpotiFLAC-${VERSION}-ios-unsigned.ipa\` (sideload required)
### Installation
**Android**: Enable "Install from unknown sources" and install the APK
**iOS**: Use AltStore, Sideloadly, or similar tools to sideload the IPA
![arm64](https://img.shields.io/github/downloads/${REPO_OWNER}/${REPO_NAME}/${VERSION}/SpotiFLAC-${VERSION}-arm64.apk?style=flat-square&logo=android&label=arm64&color=3DDC84) ![arm32](https://img.shields.io/github/downloads/${REPO_OWNER}/${REPO_NAME}/${VERSION}/SpotiFLAC-${VERSION}-arm32.apk?style=flat-square&logo=android&label=arm32&color=3DDC84) ![iOS](https://img.shields.io/github/downloads/${REPO_OWNER}/${REPO_NAME}/${VERSION}/SpotiFLAC-${VERSION}-ios-unsigned.ipa?style=flat-square&logo=apple&label=iOS&color=0078D6)
FOOTER
echo "Release body:"
cat /tmp/release_body.txt
@@ -303,6 +407,6 @@ jobs:
body_path: /tmp/release_body.txt
files: ./release/*
draft: false
prerelease: false
prerelease: ${{ needs.get-version.outputs.is_prerelease == 'true' }}
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+9 -3
View File
@@ -13,8 +13,8 @@ Thumbs.db
# Reference folder (development only)
referensi/
# Development notes
COMPARISON_PC_vs_ANDROID.md
# Documentation (hosted separately)
docs/
# Old spotiflac_android folder (moved to root)
spotiflac_android/
@@ -28,6 +28,7 @@ build/
.flutter-plugins
.flutter-plugins-dependencies
.metadata
*.apk
# Go backend build artifacts
go_backend/*.aar
@@ -37,9 +38,13 @@ go_backend/*.xcframework/
# Android
android/.gradle/
android/app/libs/
android/app/libs/gobackend.aar
android/local.properties
android/*.iml
android/key.properties
android/*.jks
android/*.keystore
android/app/*.jks
# iOS
ios/Frameworks/
@@ -47,3 +52,4 @@ ios/Pods/
ios/.symlinks/
ios/Flutter/Flutter.framework/
ios/Flutter/Flutter.podspec
android/app/libs/gobackend-sources.jar
+904 -1
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File diff suppressed because it is too large Load Diff
+26 -14
View File
@@ -1,4 +1,5 @@
[![GitHub All Releases](https://img.shields.io/github/downloads/zarzet/SpotiFLAC-Mobile/total?style=for-the-badge)](https://github.com/zarzet/SpotiFLAC-Mobile/releases)
[![VirusTotal](https://img.shields.io/badge/VirusTotal-Safe-brightgreen?style=for-the-badge&logo=virustotal)](https://www.virustotal.com/gui/file/09c6260e9ebaf2ff0d15f30deda939642f41887f11aad602ac697cb37fa0308c/)
<div align="center">
@@ -13,32 +14,43 @@ Get Spotify tracks in true FLAC from Tidal, Qobuz & Amazon Music — no account
### [Download](https://github.com/zarzet/SpotiFLAC-Mobile/releases)
## Features
- Download tracks, albums, and playlists from Spotify links
- True lossless FLAC quality from Tidal, Qobuz & Amazon Music
- Material Expressive 3 design with dynamic colors
- High performance rendering with Impeller (Vulkan)
- Concurrent downloads up to 3 simultaneous
- Real-time download progress tracking
- Download notifications
## Screenshots
<p align="center">
<img src="assets/images/photo_2026-01-02_02-35-09.jpg" width="200" />
<img src="assets/images/photo_2026-01-02_02-35-34.jpg" width="200" />
<img src="assets/images/photo_2026-01-02_02-35-37.jpg" width="200" />
<img src="assets/images/photo_2026-01-02_02-36-23.jpg" width="200" />
<img src="assets/images/1.jpg?v=2" width="200" />
<img src="assets/images/2.jpg?v=2" width="200" />
<img src="assets/images/3.jpg?v=2" width="200" />
<img src="assets/images/4.jpg?v=2" width="200" />
</p>
## Metadata Source
SpotiFLAC supports two metadata sources for searching tracks:
| Source | Pros | Cons |
|--------|------|------|
| **Deezer** (Default) | No developer account needed, rate limit per user IP | Slightly less comprehensive catalog |
| **Spotify** | More comprehensive catalog, better search results | Requires developer API credentials to avoid rate limiting |
### Using Spotify
To use Spotify as your search source without hitting rate limits:
1. Create a Spotify Developer account at [developer.spotify.com](https://developer.spotify.com)
2. Create an app to get your Client ID and Client Secret
3. Go to **Settings > Options > Spotify API > Change from Deezer to Spotify > Input Custom Credentials**
4. Enter your Client ID and Secret
5. Change **Search Source** to Spotify
## Other project
### [SpotiFLAC (Desktop)](https://github.com/afkarxyz/SpotiFLAC)
Get Spotify tracks in true FLAC from Tidal, Qobuz & Amazon Music for Windows, macOS & Linux
[![Ko-fi](https://img.shields.io/badge/Ko--fi-Support%20Me-FF5E5B?style=for-the-badge&logo=ko-fi&logoColor=white)](https://ko-fi.com/zarzet)
## Disclaimer
> **iOS Support**: This app is primarily tested on Android. iOS support is experimental and may have bugs — the developer is too poor to afford an iPhone for proper testing. If you encounter issues on iOS, please report them!
This project is for **educational and private use only**. The developer does not condone or encourage copyright infringement.
**SpotiFLAC** is a third-party tool and is not affiliated with, endorsed by, or connected to Spotify, Tidal, Qobuz, Amazon Music, or any other streaming service.
+33 -6
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@@ -1,3 +1,6 @@
import java.util.Properties
import java.io.FileInputStream
plugins {
id("com.android.application")
id("kotlin-android")
@@ -5,6 +8,13 @@ plugins {
id("dev.flutter.flutter-gradle-plugin")
}
// Load keystore properties for local builds
val keystorePropertiesFile = rootProject.file("key.properties")
val keystoreProperties = Properties()
if (keystorePropertiesFile.exists()) {
keystoreProperties.load(FileInputStream(keystorePropertiesFile))
}
android {
namespace = "com.zarz.spotiflac"
compileSdk = flutter.compileSdkVersion
@@ -22,16 +32,25 @@ android {
}
}
signingConfigs {
if (keystorePropertiesFile.exists()) {
create("release") {
keyAlias = keystoreProperties.getProperty("keyAlias")
keyPassword = keystoreProperties.getProperty("keyPassword")
storeFile = file(keystoreProperties.getProperty("storeFile"))
storePassword = keystoreProperties.getProperty("storePassword")
}
}
}
defaultConfig {
applicationId = "com.zarz.spotiflac"
minSdk = flutter.minSdkVersion
targetSdk = 34
targetSdk = 36
versionCode = flutter.versionCode
versionName = flutter.versionName
multiDexEnabled = true
// Only include arm64-v8a for smaller APK (most modern devices)
// Remove this line if you need to support older 32-bit devices
ndk {
abiFilters += listOf("arm64-v8a", "armeabi-v7a")
}
@@ -39,8 +58,13 @@ android {
buildTypes {
release {
signingConfig = signingConfigs.getByName("debug")
// Enable code shrinking and resource shrinking
// For local builds: use release signing if key.properties exists
// For CI builds: APK is signed by GitHub Action after build
signingConfig = if (keystorePropertiesFile.exists()) {
signingConfigs.getByName("release")
} else {
signingConfigs.getByName("debug")
}
isMinifyEnabled = true
isShrinkResources = true
proguardFiles(
@@ -73,7 +97,10 @@ repositories {
dependencies {
coreLibraryDesugaring("com.android.tools:desugar_jdk_libs:2.1.4")
implementation(files("libs/gobackend.aar"))
// Include all AAR and JAR files from libs folder
implementation(fileTree(mapOf("dir" to "libs", "include" to listOf("*.jar", "*.aar"))))
implementation("org.jetbrains.kotlinx:kotlinx-coroutines-android:1.7.3")
implementation("androidx.lifecycle:lifecycle-runtime-ktx:2.7.0")
}
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+11
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@@ -6,6 +6,14 @@
-keep class io.flutter.** { *; }
-keep class io.flutter.plugins.** { *; }
# Ignore missing Play Core classes (not used, but referenced by Flutter)
-dontwarn com.google.android.play.core.splitcompat.**
-dontwarn com.google.android.play.core.splitinstall.**
-dontwarn com.google.android.play.core.tasks.**
# Ignore missing javax.xml.stream (not used on Android)
-dontwarn javax.xml.stream.**
# Go backend (gobackend.aar)
-keep class gobackend.** { *; }
-keep class go.** { *; }
@@ -14,6 +22,9 @@
-keep class com.arthenica.ffmpegkit.** { *; }
-keep class com.arthenica.smartexception.** { *; }
# Apache Tika (if used by FFmpeg)
-dontwarn org.apache.tika.**
# Keep native methods
-keepclasseswithmembernames class * {
native <methods>;
+19 -4
View File
@@ -4,26 +4,30 @@
<!-- Permissions -->
<uses-permission android:name="android.permission.INTERNET" />
<uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE"
android:maxSdkVersion="28" />
android:maxSdkVersion="29" />
<uses-permission android:name="android.permission.READ_EXTERNAL_STORAGE"
android:maxSdkVersion="32" />
<!-- For Android 11+ (API 30-32) - full storage access -->
<uses-permission android:name="android.permission.MANAGE_EXTERNAL_STORAGE" />
<uses-permission android:name="android.permission.READ_MEDIA_AUDIO" />
<uses-permission android:name="android.permission.FOREGROUND_SERVICE" />
<uses-permission android:name="android.permission.FOREGROUND_SERVICE_DATA_SYNC" />
<uses-permission android:name="android.permission.POST_NOTIFICATIONS" />
<uses-permission android:name="android.permission.REQUEST_INSTALL_PACKAGES" />
<uses-permission android:name="android.permission.WAKE_LOCK" />
<application
android:label="SpotiFLAC"
android:name="${applicationName}"
android:icon="@mipmap/ic_launcher"
android:requestLegacyExternalStorage="true"
android:usesCleartextTraffic="true">
android:usesCleartextTraffic="true"
android:enableOnBackInvokedCallback="true">
<activity
android:name=".MainActivity"
android:exported="true"
android:launchMode="singleTop"
android:taskAffinity=""
android:launchMode="singleTask"
android:theme="@style/LaunchTheme"
android:configChanges="orientation|keyboardHidden|keyboard|screenSize|smallestScreenSize|locale|layoutDirection|fontScale|screenLayout|density|uiMode"
android:hardwareAccelerated="true"
@@ -76,6 +80,17 @@
<meta-data
android:name="flutterEmbedding"
android:value="2" />
<!-- FileProvider for APK installation -->
<provider
android:name="androidx.core.content.FileProvider"
android:authorities="${applicationId}.fileProvider"
android:exported="false"
android:grantUriPermissions="true">
<meta-data
android:name="android.support.FILE_PROVIDER_PATHS"
android:resource="@xml/file_paths" />
</provider>
</application>
<queries>
@@ -5,83 +5,227 @@ import android.app.NotificationChannel
import android.app.NotificationManager
import android.app.PendingIntent
import android.app.Service
import android.content.Context
import android.content.Intent
import android.os.Build
import android.os.IBinder
import android.os.PowerManager
import androidx.core.app.NotificationCompat
/**
* Foreground service to keep downloads running when app is in background.
* This prevents Android from killing the download process or throttling network.
*
* Note: Android 15+ (API 35+) has a 6-hour timeout for dataSync foreground services.
* The service will be stopped automatically after 6 hours of cumulative runtime in 24 hours.
*/
class DownloadService : Service() {
companion object {
const val CHANNEL_ID = "spotiflac_download_channel"
const val NOTIFICATION_ID = 1
const val ACTION_START = "com.zarz.spotiflac.START_DOWNLOAD"
const val ACTION_STOP = "com.zarz.spotiflac.STOP_DOWNLOAD"
private const val CHANNEL_ID = "download_channel"
private const val NOTIFICATION_ID = 1001
private const val WAKELOCK_TAG = "SpotiFLAC:DownloadWakeLock"
const val ACTION_START = "com.zarz.spotiflac.action.START_DOWNLOAD"
const val ACTION_STOP = "com.zarz.spotiflac.action.STOP_DOWNLOAD"
const val ACTION_UPDATE_PROGRESS = "com.zarz.spotiflac.action.UPDATE_PROGRESS"
const val EXTRA_TRACK_NAME = "track_name"
const val EXTRA_ARTIST_NAME = "artist_name"
const val EXTRA_PROGRESS = "progress"
const val EXTRA_TOTAL = "total"
const val EXTRA_QUEUE_COUNT = "queue_count"
private var isRunning = false
fun isServiceRunning(): Boolean = isRunning
fun start(context: Context, trackName: String = "", artistName: String = "", queueCount: Int = 0) {
val intent = Intent(context, DownloadService::class.java).apply {
action = ACTION_START
putExtra(EXTRA_TRACK_NAME, trackName)
putExtra(EXTRA_ARTIST_NAME, artistName)
putExtra(EXTRA_QUEUE_COUNT, queueCount)
}
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.O) {
context.startForegroundService(intent)
} else {
context.startService(intent)
}
}
fun stop(context: Context) {
val intent = Intent(context, DownloadService::class.java).apply {
action = ACTION_STOP
}
context.startService(intent)
}
fun updateProgress(context: Context, trackName: String, artistName: String, progress: Long, total: Long, queueCount: Int) {
val intent = Intent(context, DownloadService::class.java).apply {
action = ACTION_UPDATE_PROGRESS
putExtra(EXTRA_TRACK_NAME, trackName)
putExtra(EXTRA_ARTIST_NAME, artistName)
putExtra(EXTRA_PROGRESS, progress)
putExtra(EXTRA_TOTAL, total)
putExtra(EXTRA_QUEUE_COUNT, queueCount)
}
context.startService(intent)
}
}
private var wakeLock: PowerManager.WakeLock? = null
private var currentTrackName = ""
private var currentArtistName = ""
private var queueCount = 0
override fun onCreate() {
super.onCreate()
createNotificationChannel()
}
override fun onStartCommand(intent: Intent?, flags: Int, startId: Int): Int {
when (intent?.action) {
ACTION_START -> startForegroundService()
ACTION_STOP -> stopSelf()
ACTION_START -> {
currentTrackName = intent.getStringExtra(EXTRA_TRACK_NAME) ?: ""
currentArtistName = intent.getStringExtra(EXTRA_ARTIST_NAME) ?: ""
queueCount = intent.getIntExtra(EXTRA_QUEUE_COUNT, 0)
startForegroundService()
}
ACTION_STOP -> {
stopForegroundService()
}
ACTION_UPDATE_PROGRESS -> {
currentTrackName = intent.getStringExtra(EXTRA_TRACK_NAME) ?: currentTrackName
currentArtistName = intent.getStringExtra(EXTRA_ARTIST_NAME) ?: currentArtistName
val progress = intent.getLongExtra(EXTRA_PROGRESS, 0)
val total = intent.getLongExtra(EXTRA_TOTAL, 0)
queueCount = intent.getIntExtra(EXTRA_QUEUE_COUNT, queueCount)
updateNotification(progress, total)
}
}
return START_NOT_STICKY
return START_STICKY
}
override fun onBind(intent: Intent?): IBinder? = null
/**
* Called when the foreground service timeout is reached (Android 15+, API 35+).
* dataSync services have a 6-hour limit in a 24-hour period.
* We must call stopSelf() within a few seconds to avoid a crash.
*/
override fun onTimeout(startId: Int, fgsType: Int) {
// Log the timeout for debugging
android.util.Log.w("DownloadService", "Foreground service timeout reached (6 hours limit). Stopping service.")
// Gracefully stop the service
stopForegroundService()
}
private fun createNotificationChannel() {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.O) {
val channel = NotificationChannel(
CHANNEL_ID,
"Download Progress",
"Download Service",
NotificationManager.IMPORTANCE_LOW
).apply {
description = "Shows download progress for SpotiFLAC"
description = "Shows download progress"
setShowBadge(false)
}
val manager = getSystemService(NotificationManager::class.java)
manager.createNotificationChannel(channel)
}
}
private fun startForegroundService() {
val notification = createNotification("Downloading...", 0)
isRunning = true
// Acquire wake lock to prevent CPU sleep
val powerManager = getSystemService(Context.POWER_SERVICE) as PowerManager
wakeLock = powerManager.newWakeLock(
PowerManager.PARTIAL_WAKE_LOCK,
WAKELOCK_TAG
).apply {
acquire(60 * 60 * 1000L) // 1 hour max
}
val notification = buildNotification(0, 0)
startForeground(NOTIFICATION_ID, notification)
}
fun updateProgress(trackName: String, progress: Int) {
val notification = createNotification(trackName, progress)
private fun stopForegroundService() {
isRunning = false
wakeLock?.let {
if (it.isHeld) {
it.release()
}
}
wakeLock = null
stopForeground(STOP_FOREGROUND_REMOVE)
stopSelf()
}
private fun updateNotification(progress: Long, total: Long) {
if (!isRunning) return
val notification = buildNotification(progress, total)
val manager = getSystemService(NotificationManager::class.java)
manager.notify(NOTIFICATION_ID, notification)
}
private fun createNotification(title: String, progress: Int): Notification {
val intent = Intent(this, MainActivity::class.java)
private fun buildNotification(progress: Long, total: Long): Notification {
val pendingIntent = PendingIntent.getActivity(
this, 0, intent,
this,
0,
Intent(this, MainActivity::class.java),
PendingIntent.FLAG_UPDATE_CURRENT or PendingIntent.FLAG_IMMUTABLE
)
val stopIntent = Intent(this, DownloadService::class.java).apply {
action = ACTION_STOP
val title = if (queueCount > 1) {
"Downloading $queueCount tracks"
} else if (currentTrackName.isNotEmpty()) {
currentTrackName
} else {
"Downloading..."
}
val stopPendingIntent = PendingIntent.getService(
this, 0, stopIntent,
PendingIntent.FLAG_UPDATE_CURRENT or PendingIntent.FLAG_IMMUTABLE
)
return NotificationCompat.Builder(this, CHANNEL_ID)
.setContentTitle("SpotiFLAC")
.setContentText(title)
val text = if (currentArtistName.isNotEmpty() && queueCount <= 1) {
currentArtistName
} else if (total > 0) {
val progressPercent = (progress * 100 / total).toInt()
val progressMB = progress / (1024.0 * 1024.0)
val totalMB = total / (1024.0 * 1024.0)
String.format("%.1f / %.1f MB (%d%%)", progressMB, totalMB, progressPercent)
} else {
"Preparing download..."
}
val builder = NotificationCompat.Builder(this, CHANNEL_ID)
.setContentTitle(title)
.setContentText(text)
.setSmallIcon(android.R.drawable.stat_sys_download)
.setProgress(100, progress, progress == 0)
.setOngoing(true)
.setContentIntent(pendingIntent)
.addAction(android.R.drawable.ic_menu_close_clear_cancel, "Cancel", stopPendingIntent)
.build()
.setOngoing(true)
.setOnlyAlertOnce(true)
.setPriority(NotificationCompat.PRIORITY_LOW)
.setCategory(NotificationCompat.CATEGORY_PROGRESS)
if (total > 0) {
builder.setProgress(100, (progress * 100 / total).toInt(), false)
} else {
builder.setProgress(0, 0, true)
}
return builder.build()
}
override fun onDestroy() {
isRunning = false
wakeLock?.let {
if (it.isHeld) {
it.release()
}
}
super.onDestroy()
}
}
@@ -1,9 +1,12 @@
package com.zarz.spotiflac
import android.content.Intent
import io.flutter.embedding.android.FlutterActivity
import io.flutter.embedding.engine.FlutterEngine
import io.flutter.plugin.common.MethodChannel
import gobackend.Gobackend
import com.arthenica.ffmpegkit.FFmpegKit
import com.arthenica.ffmpegkit.ReturnCode
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.Dispatchers
import kotlinx.coroutines.SupervisorJob
@@ -12,8 +15,15 @@ import kotlinx.coroutines.withContext
class MainActivity: FlutterActivity() {
private val CHANNEL = "com.zarz.spotiflac/backend"
private val FFMPEG_CHANNEL = "com.zarz.spotiflac/ffmpeg"
private val scope = CoroutineScope(SupervisorJob() + Dispatchers.Main)
override fun onNewIntent(intent: Intent) {
super.onNewIntent(intent)
// Update the intent so receive_sharing_intent can access the new data
setIntent(intent)
}
override fun configureFlutterEngine(flutterEngine: FlutterEngine) {
super.configureFlutterEngine(flutterEngine)
@@ -43,6 +53,15 @@ class MainActivity: FlutterActivity() {
}
result.success(response)
}
"searchSpotifyAll" -> {
val query = call.argument<String>("query") ?: ""
val trackLimit = call.argument<Int>("track_limit") ?: 15
val artistLimit = call.argument<Int>("artist_limit") ?: 3
val response = withContext(Dispatchers.IO) {
Gobackend.searchSpotifyAll(query, trackLimit.toLong(), artistLimit.toLong())
}
result.success(response)
}
"checkAvailability" -> {
val spotifyId = call.argument<String>("spotify_id") ?: ""
val isrc = call.argument<String>("isrc") ?: ""
@@ -141,8 +160,9 @@ class MainActivity: FlutterActivity() {
val spotifyId = call.argument<String>("spotify_id") ?: ""
val trackName = call.argument<String>("track_name") ?: ""
val artistName = call.argument<String>("artist_name") ?: ""
val filePath = call.argument<String>("file_path") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.getLyricsLRC(spotifyId, trackName, artistName)
Gobackend.getLyricsLRC(spotifyId, trackName, artistName, filePath)
}
result.success(response)
}
@@ -160,6 +180,143 @@ class MainActivity: FlutterActivity() {
}
result.success(null)
}
"readFileMetadata" -> {
val filePath = call.argument<String>("file_path") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.readFileMetadata(filePath)
}
result.success(response)
}
"startDownloadService" -> {
val trackName = call.argument<String>("track_name") ?: ""
val artistName = call.argument<String>("artist_name") ?: ""
val queueCount = call.argument<Int>("queue_count") ?: 0
DownloadService.start(this@MainActivity, trackName, artistName, queueCount)
result.success(null)
}
"stopDownloadService" -> {
DownloadService.stop(this@MainActivity)
result.success(null)
}
"updateDownloadServiceProgress" -> {
val trackName = call.argument<String>("track_name") ?: ""
val artistName = call.argument<String>("artist_name") ?: ""
val progress = call.argument<Long>("progress") ?: 0L
val total = call.argument<Long>("total") ?: 0L
val queueCount = call.argument<Int>("queue_count") ?: 0
DownloadService.updateProgress(this@MainActivity, trackName, artistName, progress, total, queueCount)
result.success(null)
}
"isDownloadServiceRunning" -> {
result.success(DownloadService.isServiceRunning())
}
"setSpotifyCredentials" -> {
val clientId = call.argument<String>("client_id") ?: ""
val clientSecret = call.argument<String>("client_secret") ?: ""
withContext(Dispatchers.IO) {
Gobackend.setSpotifyAPICredentials(clientId, clientSecret)
}
result.success(null)
}
"preWarmTrackCache" -> {
val tracksJson = call.argument<String>("tracks") ?: "[]"
withContext(Dispatchers.IO) {
Gobackend.preWarmTrackCacheJSON(tracksJson)
}
result.success(null)
}
"getTrackCacheSize" -> {
val size = withContext(Dispatchers.IO) {
Gobackend.getTrackCacheSize()
}
result.success(size.toInt())
}
"clearTrackCache" -> {
withContext(Dispatchers.IO) {
Gobackend.clearTrackIDCache()
}
result.success(null)
}
// Deezer API methods
"searchDeezerAll" -> {
val query = call.argument<String>("query") ?: ""
val trackLimit = call.argument<Int>("track_limit") ?: 15
val artistLimit = call.argument<Int>("artist_limit") ?: 3
val response = withContext(Dispatchers.IO) {
Gobackend.searchDeezerAll(query, trackLimit.toLong(), artistLimit.toLong())
}
result.success(response)
}
"getDeezerMetadata" -> {
val resourceType = call.argument<String>("resource_type") ?: ""
val resourceId = call.argument<String>("resource_id") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.getDeezerMetadata(resourceType, resourceId)
}
result.success(response)
}
"parseDeezerUrl" -> {
val url = call.argument<String>("url") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.parseDeezerURLExport(url)
}
result.success(response)
}
"searchDeezerByISRC" -> {
val isrc = call.argument<String>("isrc") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.searchDeezerByISRC(isrc)
}
result.success(response)
}
"convertSpotifyToDeezer" -> {
val resourceType = call.argument<String>("resource_type") ?: ""
val spotifyId = call.argument<String>("spotify_id") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.convertSpotifyToDeezer(resourceType, spotifyId)
}
result.success(response)
}
"getSpotifyMetadataWithFallback" -> {
val url = call.argument<String>("url") ?: ""
val response = withContext(Dispatchers.IO) {
Gobackend.getSpotifyMetadataWithDeezerFallback(url)
}
result.success(response)
}
// Log methods
"getLogs" -> {
val response = withContext(Dispatchers.IO) {
Gobackend.getLogs()
}
result.success(response)
}
"getLogsSince" -> {
val index = call.argument<Int>("index") ?: 0
val response = withContext(Dispatchers.IO) {
Gobackend.getLogsSince(index.toLong())
}
result.success(response)
}
"clearLogs" -> {
withContext(Dispatchers.IO) {
Gobackend.clearLogs()
}
result.success(null)
}
"getLogCount" -> {
val count = withContext(Dispatchers.IO) {
Gobackend.getLogCount()
}
result.success(count.toInt())
}
"setLoggingEnabled" -> {
val enabled = call.argument<Boolean>("enabled") ?: false
withContext(Dispatchers.IO) {
Gobackend.setLoggingEnabled(enabled)
}
result.success(null)
}
else -> result.notImplemented()
}
} catch (e: Exception) {
@@ -167,5 +324,37 @@ class MainActivity: FlutterActivity() {
}
}
}
// FFmpeg method channel
MethodChannel(flutterEngine.dartExecutor.binaryMessenger, FFMPEG_CHANNEL).setMethodCallHandler { call, result ->
scope.launch {
try {
when (call.method) {
"execute" -> {
val command = call.argument<String>("command") ?: ""
val session = withContext(Dispatchers.IO) {
FFmpegKit.execute(command)
}
val returnCode = session.returnCode
val output = session.output ?: ""
result.success(mapOf(
"success" to ReturnCode.isSuccess(returnCode),
"returnCode" to (returnCode?.value ?: -1),
"output" to output
))
}
"getVersion" -> {
val session = withContext(Dispatchers.IO) {
FFmpegKit.execute("-version")
}
result.success(session.output ?: "unknown")
}
else -> result.notImplemented()
}
} catch (e: Exception) {
result.error("FFMPEG_ERROR", e.message, null)
}
}
}
}
}
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@@ -0,0 +1,6 @@
<?xml version="1.0" encoding="utf-8"?>
<paths>
<external-files-path name="external_files" path="." />
<cache-path name="cache" path="." />
<files-path name="files" path="." />
</paths>
+1 -1
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@@ -20,7 +20,7 @@ pluginManagement {
plugins {
id("dev.flutter.flutter-plugin-loader") version "1.0.0"
id("com.android.application") version "8.11.1" apply false
id("org.jetbrains.kotlin.android") version "2.2.20" apply false
id("org.jetbrains.kotlin.android") version "2.3.0" apply false
}
include(":app")
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+208
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@@ -0,0 +1,208 @@
import 'dart:io';
import 'package:ffmpeg_kit_flutter_new_audio/ffmpeg_kit.dart';
import 'package:ffmpeg_kit_flutter_new_audio/return_code.dart';
import 'package:spotiflac_android/utils/logger.dart';
final _log = AppLogger('FFmpeg');
/// FFmpeg service for iOS using ffmpeg_kit_flutter plugin
class FFmpegServiceIOS {
/// Execute FFmpeg command and return result
static Future<FFmpegResultIOS> _execute(String command) async {
try {
final session = await FFmpegKit.execute(command);
final returnCode = await session.getReturnCode();
final output = await session.getOutput() ?? '';
return FFmpegResultIOS(
success: ReturnCode.isSuccess(returnCode),
returnCode: returnCode?.getValue() ?? -1,
output: output,
);
} catch (e) {
_log.e('FFmpeg execute error: $e');
return FFmpegResultIOS(success: false, returnCode: -1, output: e.toString());
}
}
/// Convert M4A (DASH segments) to FLAC
static Future<String?> convertM4aToFlac(String inputPath) async {
final outputPath = inputPath.replaceAll('.m4a', '.flac');
final command = '-i "$inputPath" -c:a flac -compression_level 8 "$outputPath" -y';
final result = await _execute(command);
if (result.success) {
try {
await File(inputPath).delete();
} catch (_) {}
return outputPath;
}
_log.e('M4A to FLAC conversion failed: ${result.output}');
return null;
}
/// Convert FLAC to MP3
static Future<String?> convertFlacToMp3(String inputPath, {String bitrate = '320k'}) async {
final dir = File(inputPath).parent.path;
final baseName = inputPath.split(Platform.pathSeparator).last.replaceAll('.flac', '');
final outputDir = '$dir${Platform.pathSeparator}MP3';
await Directory(outputDir).create(recursive: true);
final outputPath = '$outputDir${Platform.pathSeparator}$baseName.mp3';
final command = '-i "$inputPath" -codec:a libmp3lame -b:a $bitrate -map 0:a -map_metadata 0 -id3v2_version 3 "$outputPath" -y';
final result = await _execute(command);
if (result.success) return outputPath;
_log.e('FLAC to MP3 conversion failed: ${result.output}');
return null;
}
/// Convert FLAC to M4A
static Future<String?> convertFlacToM4a(String inputPath, {String codec = 'aac', String bitrate = '256k'}) async {
final dir = File(inputPath).parent.path;
final baseName = inputPath.split(Platform.pathSeparator).last.replaceAll('.flac', '');
final outputDir = '$dir${Platform.pathSeparator}M4A';
await Directory(outputDir).create(recursive: true);
final outputPath = '$outputDir${Platform.pathSeparator}$baseName.m4a';
String command;
if (codec == 'alac') {
command = '-i "$inputPath" -codec:a alac -map 0:a -map_metadata 0 "$outputPath" -y';
} else {
command = '-i "$inputPath" -codec:a aac -b:a $bitrate -map 0:a -map_metadata 0 "$outputPath" -y';
}
final result = await _execute(command);
if (result.success) return outputPath;
_log.e('FLAC to M4A conversion failed: ${result.output}');
return null;
}
/// Embed cover art to FLAC file
static Future<String?> embedCover(String flacPath, String coverPath) async {
final tempOutput = '$flacPath.tmp';
final command = '-i "$flacPath" -i "$coverPath" -map 0:a -map 1:0 -c copy -metadata:s:v title="Album cover" -metadata:s:v comment="Cover (front)" -disposition:v attached_pic "$tempOutput" -y';
final result = await _execute(command);
if (result.success) {
try {
await File(flacPath).delete();
await File(tempOutput).rename(flacPath);
return flacPath;
} catch (e) {
_log.e('Failed to replace file after cover embed: $e');
return null;
}
}
try {
final tempFile = File(tempOutput);
if (await tempFile.exists()) await tempFile.delete();
} catch (_) {}
_log.e('Cover embed failed: ${result.output}');
return null;
}
/// Embed metadata and cover art to FLAC file
/// Returns the file path on success, null on failure
static Future<String?> embedMetadata({
required String flacPath,
String? coverPath,
Map<String, String>? metadata,
}) async {
final tempOutput = '$flacPath.tmp';
// Construct command
final StringBuffer cmdBuffer = StringBuffer();
cmdBuffer.write('-i "$flacPath" ');
// Add cover input if available
if (coverPath != null) {
cmdBuffer.write('-i "$coverPath" ');
}
// Map audio stream
cmdBuffer.write('-map 0:a ');
// Map cover stream if available
if (coverPath != null) {
cmdBuffer.write('-map 1:0 ');
cmdBuffer.write('-c:v copy ');
cmdBuffer.write('-disposition:v attached_pic ');
cmdBuffer.write('-metadata:s:v title="Album cover" ');
cmdBuffer.write('-metadata:s:v comment="Cover (front)" ');
}
// Copy audio codec (don't re-encode)
cmdBuffer.write('-c:a copy ');
// Add text metadata
if (metadata != null) {
metadata.forEach((key, value) {
// Sanitize value: escape double quotes
final sanitizedValue = value.replaceAll('"', '\\"');
cmdBuffer.write('-metadata $key="$sanitizedValue" ');
});
}
cmdBuffer.write('"$tempOutput" -y');
final command = cmdBuffer.toString();
_log.d('Executing FFmpeg command: $command');
final result = await _execute(command);
if (result.success) {
try {
await File(flacPath).delete();
await File(tempOutput).rename(flacPath);
return flacPath;
} catch (e) {
_log.e('Failed to replace file after metadata embed: $e');
return null;
}
}
// Clean up temp file if exists
try {
final tempFile = File(tempOutput);
if (await tempFile.exists()) {
await tempFile.delete();
}
} catch (_) {}
_log.e('Metadata/Cover embed failed: ${result.output}');
return null;
}
/// Check if FFmpeg is available
static Future<bool> isAvailable() async {
try {
final session = await FFmpegKit.execute('-version');
final returnCode = await session.getReturnCode();
return ReturnCode.isSuccess(returnCode);
} catch (e) {
return false;
}
}
/// Get FFmpeg version info
static Future<String?> getVersion() async {
try {
final session = await FFmpegKit.execute('-version');
return await session.getOutput();
} catch (e) {
return null;
}
}
}
class FFmpegResultIOS {
final bool success;
final int returnCode;
final String output;
FFmpegResultIOS({required this.success, required this.returnCode, required this.output});
}
+3
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@@ -0,0 +1,3 @@
description: This file stores settings for Dart & Flutter DevTools.
documentation: https://docs.flutter.dev/tools/devtools/extensions#configure-extension-enablement-states
extensions:
+355 -83
View File
@@ -1,6 +1,7 @@
package gobackend
import (
"bufio"
"encoding/base64"
"encoding/json"
"fmt"
@@ -10,15 +11,26 @@ import (
"os"
"path/filepath"
"strings"
"sync"
"time"
)
// AmazonDownloader handles Amazon Music downloads using DoubleDouble service (same as PC)
type AmazonDownloader struct {
client *http.Client
regions []string // us, eu regions for DoubleDouble service
client *http.Client
regions []string // us, eu regions for DoubleDouble service
lastAPICallTime time.Time // Rate limiting: track last API call
apiCallCount int // Rate limiting: counter per minute
apiCallResetTime time.Time // Rate limiting: reset time
}
var (
// Global Amazon downloader instance for connection reuse
globalAmazonDownloader *AmazonDownloader
amazonDownloaderOnce sync.Once
amazonRateLimitMu sync.Mutex // Mutex for rate limiting
)
// DoubleDoubleSubmitResponse is the response from DoubleDouble submit endpoint
type DoubleDoubleSubmitResponse struct {
Success bool `json:"success"`
@@ -36,12 +48,114 @@ type DoubleDoubleStatusResponse struct {
} `json:"current"`
}
// NewAmazonDownloader creates a new Amazon downloader using DoubleDouble service
func NewAmazonDownloader() *AmazonDownloader {
return &AmazonDownloader{
client: NewHTTPClientWithTimeout(120 * time.Second), // 120s timeout like PC
regions: []string{"us", "eu"}, // Same regions as PC
// amazonArtistsMatch checks if the artist names are similar enough
func amazonArtistsMatch(expectedArtist, foundArtist string) bool {
normExpected := strings.ToLower(strings.TrimSpace(expectedArtist))
normFound := strings.ToLower(strings.TrimSpace(foundArtist))
// Exact match
if normExpected == normFound {
return true
}
// Check if one contains the other
if strings.Contains(normExpected, normFound) || strings.Contains(normFound, normExpected) {
return true
}
// Check first artist (before comma or feat)
expectedFirst := strings.Split(normExpected, ",")[0]
expectedFirst = strings.Split(expectedFirst, " feat")[0]
expectedFirst = strings.Split(expectedFirst, " ft.")[0]
expectedFirst = strings.TrimSpace(expectedFirst)
foundFirst := strings.Split(normFound, ",")[0]
foundFirst = strings.Split(foundFirst, " feat")[0]
foundFirst = strings.Split(foundFirst, " ft.")[0]
foundFirst = strings.TrimSpace(foundFirst)
if expectedFirst == foundFirst {
return true
}
// Check if first artist is contained in the other
if strings.Contains(expectedFirst, foundFirst) || strings.Contains(foundFirst, expectedFirst) {
return true
}
// If scripts are different (one is ASCII, one is non-ASCII like Japanese/Chinese/Korean),
// assume they're the same artist with different transliteration
expectedASCII := amazonIsASCIIString(expectedArtist)
foundASCII := amazonIsASCIIString(foundArtist)
if expectedASCII != foundASCII {
GoLog("[Amazon] Artist names in different scripts, assuming match: '%s' vs '%s'\n", expectedArtist, foundArtist)
return true
}
return false
}
// amazonIsASCIIString checks if a string contains only ASCII characters
func amazonIsASCIIString(s string) bool {
for _, r := range s {
if r > 127 {
return false
}
}
return true
}
// NewAmazonDownloader creates a new Amazon downloader (returns singleton for connection reuse)
func NewAmazonDownloader() *AmazonDownloader {
amazonDownloaderOnce.Do(func() {
globalAmazonDownloader = &AmazonDownloader{
client: NewHTTPClientWithTimeout(120 * time.Second), // 120s timeout like PC
regions: []string{"us", "eu"}, // Same regions as PC
apiCallResetTime: time.Now(),
}
})
return globalAmazonDownloader
}
// waitForRateLimit implements rate limiting similar to PC version
// Max 9 requests per minute with 7 second delay between requests
func (a *AmazonDownloader) waitForRateLimit() {
amazonRateLimitMu.Lock()
defer amazonRateLimitMu.Unlock()
now := time.Now()
// Reset counter every minute
if now.Sub(a.apiCallResetTime) >= time.Minute {
a.apiCallCount = 0
a.apiCallResetTime = now
}
// If we've hit the limit (9 requests per minute), wait until next minute
if a.apiCallCount >= 9 {
waitTime := time.Minute - now.Sub(a.apiCallResetTime)
if waitTime > 0 {
GoLog("[Amazon] Rate limit reached, waiting %v...\n", waitTime.Round(time.Second))
time.Sleep(waitTime)
a.apiCallCount = 0
a.apiCallResetTime = time.Now()
}
}
// Add delay between requests (7 seconds like PC version)
if !a.lastAPICallTime.IsZero() {
timeSinceLastCall := now.Sub(a.lastAPICallTime)
minDelay := 7 * time.Second
if timeSinceLastCall < minDelay {
waitTime := minDelay - timeSinceLastCall
GoLog("[Amazon] Rate limiting: waiting %v...\n", waitTime.Round(time.Second))
time.Sleep(waitTime)
}
}
// Update tracking
a.lastAPICallTime = time.Now()
a.apiCallCount++
}
// GetAvailableAPIs returns list of available DoubleDouble regions
@@ -56,7 +170,6 @@ func (a *AmazonDownloader) GetAvailableAPIs() []string {
return apis
}
// downloadFromDoubleDoubleService downloads a track using DoubleDouble service (same as PC)
// This uses submit → poll → download mechanism
// Internal function - not exported to gomobile
@@ -64,18 +177,21 @@ func (a *AmazonDownloader) downloadFromDoubleDoubleService(amazonURL, outputDir
var lastError error
for _, region := range a.regions {
fmt.Printf("[Amazon] Trying region: %s...\n", region)
GoLog("[Amazon] Trying region: %s...\n", region)
// Build base URL for DoubleDouble service
// Decode base64 service URL (same as PC)
serviceBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly8=") // https://
serviceBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly8=") // https://
serviceDomain, _ := base64.StdEncoding.DecodeString("LmRvdWJsZWRvdWJsZS50b3A=") // .doubledouble.top
baseURL := fmt.Sprintf("%s%s%s", string(serviceBase), region, string(serviceDomain))
// Step 1: Submit download request
// Step 1: Submit download request with rate limiting
encodedURL := url.QueryEscape(amazonURL)
submitURL := fmt.Sprintf("%s/dl?url=%s", baseURL, encodedURL)
// Apply rate limiting before request (like PC version)
a.waitForRateLimit()
req, err := http.NewRequest("GET", submitURL, nil)
if err != nil {
lastError = fmt.Errorf("failed to create request: %w", err)
@@ -85,15 +201,43 @@ func (a *AmazonDownloader) downloadFromDoubleDoubleService(amazonURL, outputDir
req.Header.Set("User-Agent", getRandomUserAgent())
fmt.Println("[Amazon] Submitting download request...")
resp, err := a.client.Do(req)
if err != nil {
lastError = fmt.Errorf("failed to submit request: %w", err)
continue
// Retry logic for 429 errors (like PC version: 3 retries with 15s wait)
var resp *http.Response
maxRetries := 3
for retry := 0; retry < maxRetries; retry++ {
resp, err = a.client.Do(req)
if err != nil {
lastError = fmt.Errorf("failed to submit request: %w", err)
break
}
if resp.StatusCode == 429 { // Too Many Requests
resp.Body.Close()
if retry < maxRetries-1 {
waitTime := 15 * time.Second
GoLog("[Amazon] Rate limited (429), waiting %v before retry %d/%d...\n", waitTime, retry+2, maxRetries)
time.Sleep(waitTime)
continue
}
lastError = fmt.Errorf("API rate limit exceeded after %d retries", maxRetries)
break
}
if resp.StatusCode != 200 {
resp.Body.Close()
lastError = fmt.Errorf("submit failed with status %d", resp.StatusCode)
break
}
// Success - break retry loop
break
}
if resp.StatusCode != 200 {
resp.Body.Close()
lastError = fmt.Errorf("submit failed with status %d", resp.StatusCode)
if err != nil || lastError != nil {
if resp != nil {
resp.Body.Close()
}
continue
}
@@ -111,7 +255,7 @@ func (a *AmazonDownloader) downloadFromDoubleDoubleService(amazonURL, outputDir
}
downloadID := submitResp.ID
fmt.Printf("[Amazon] Download ID: %s\n", downloadID)
GoLog("[Amazon] Download ID: %s\n", downloadID)
// Step 2: Poll for completion
statusURL := fmt.Sprintf("%s/dl/%s", baseURL, downloadID)
@@ -166,7 +310,7 @@ func (a *AmazonDownloader) downloadFromDoubleDoubleService(amazonURL, outputDir
trackName := status.Current.Name
artist := status.Current.Artist
fmt.Printf("[Amazon] Downloading: %s - %s\n", artist, trackName)
GoLog("[Amazon] Downloading: %s - %s\n", artist, trackName)
return fileURL, trackName, artist, nil
} else if status.Status == "error" {
@@ -200,15 +344,9 @@ func (a *AmazonDownloader) downloadFromDoubleDoubleService(amazonURL, outputDir
return "", "", "", fmt.Errorf("all regions failed. Last error: %v", lastError)
}
// DownloadFile downloads a file from URL with User-Agent and progress tracking
func (a *AmazonDownloader) DownloadFile(downloadURL, outputPath, itemID string) error {
// Set current file being downloaded (legacy)
SetCurrentFile(filepath.Base(outputPath))
SetDownloading(true)
defer SetDownloading(false)
// Initialize item progress if itemID provided
// Initialize item progress (required for all downloads)
if itemID != "" {
StartItemProgress(itemID)
defer CompleteItemProgress(itemID)
@@ -231,71 +369,130 @@ func (a *AmazonDownloader) DownloadFile(downloadURL, outputPath, itemID string)
return fmt.Errorf("download failed: HTTP %d", resp.StatusCode)
}
expectedSize := resp.ContentLength
// Set total bytes if available
if resp.ContentLength > 0 {
SetBytesTotal(resp.ContentLength)
if itemID != "" {
SetItemBytesTotal(itemID, resp.ContentLength)
}
if expectedSize > 0 && itemID != "" {
SetItemBytesTotal(itemID, expectedSize)
}
out, err := os.Create(outputPath)
if err != nil {
return err
}
defer out.Close()
// Use appropriate progress writer
var bytesWritten int64
// Use buffered writer for better performance (256KB buffer)
bufWriter := bufio.NewWriterSize(out, 256*1024)
// Use item progress writer with buffered output
var written int64
if itemID != "" {
pw := NewItemProgressWriter(out, itemID)
bytesWritten, err = io.Copy(pw, resp.Body)
pw := NewItemProgressWriter(bufWriter, itemID)
written, err = io.Copy(pw, resp.Body)
} else {
pw := NewProgressWriter(out)
bytesWritten, err = io.Copy(pw, resp.Body)
}
if err != nil {
return fmt.Errorf("failed to write file: %w", err)
// Fallback: direct copy without progress tracking
written, err = io.Copy(bufWriter, resp.Body)
}
fmt.Printf("\r[Amazon] Downloaded: %.2f MB (Complete)\n", float64(bytesWritten)/(1024*1024))
// Flush buffer before checking for errors
flushErr := bufWriter.Flush()
closeErr := out.Close()
// Check for any errors
if err != nil {
os.Remove(outputPath)
return fmt.Errorf("download interrupted: %w", err)
}
if flushErr != nil {
os.Remove(outputPath)
return fmt.Errorf("failed to flush buffer: %w", flushErr)
}
if closeErr != nil {
os.Remove(outputPath)
return fmt.Errorf("failed to close file: %w", closeErr)
}
// Verify file size if Content-Length was provided
if expectedSize > 0 && written != expectedSize {
os.Remove(outputPath)
return fmt.Errorf("incomplete download: expected %d bytes, got %d bytes", expectedSize, written)
}
fmt.Printf("\r[Amazon] Downloaded: %.2f MB (Complete)\n", float64(written)/(1024*1024))
return nil
}
// AmazonDownloadResult contains download result with quality info
type AmazonDownloadResult struct {
FilePath string
BitDepth int
SampleRate int
Title string
Artist string
Album string
ReleaseDate string
TrackNumber int
DiscNumber int
ISRC string
}
// downloadFromAmazon downloads a track using the request parameters
// Uses DoubleDouble service (same as PC version)
func downloadFromAmazon(req DownloadRequest) (string, error) {
func downloadFromAmazon(req DownloadRequest) (AmazonDownloadResult, error) {
downloader := NewAmazonDownloader()
// Check for existing file first
if existingFile, exists := checkISRCExistsInternal(req.OutputDir, req.ISRC); exists {
return "EXISTS:" + existingFile, nil
return AmazonDownloadResult{FilePath: "EXISTS:" + existingFile}, nil
}
// Get Amazon URL from SongLink
songlink := NewSongLinkClient()
availability, err := songlink.CheckTrackAvailability(req.SpotifyID, req.ISRC)
var availability *TrackAvailability
var err error
// Check if SpotifyID is actually a Deezer ID (format: "deezer:xxxxx")
if strings.HasPrefix(req.SpotifyID, "deezer:") {
// Extract Deezer ID and use Deezer-based lookup
deezerID := strings.TrimPrefix(req.SpotifyID, "deezer:")
GoLog("[Amazon] Using Deezer ID for SongLink lookup: %s\n", deezerID)
availability, err = songlink.CheckAvailabilityFromDeezer(deezerID)
} else if req.SpotifyID != "" {
// Use Spotify ID
availability, err = songlink.CheckTrackAvailability(req.SpotifyID, req.ISRC)
} else {
return AmazonDownloadResult{}, fmt.Errorf("no valid Spotify or Deezer ID provided for Amazon lookup")
}
if err != nil {
return "", fmt.Errorf("failed to check Amazon availability via SongLink: %w", err)
return AmazonDownloadResult{}, fmt.Errorf("failed to check Amazon availability via SongLink: %w", err)
}
if !availability.Amazon || availability.AmazonURL == "" {
return "", fmt.Errorf("track not available on Amazon Music (SongLink returned no Amazon URL)")
return AmazonDownloadResult{}, fmt.Errorf("track not available on Amazon Music (SongLink returned no Amazon URL)")
}
// Create output directory if needed
if req.OutputDir != "." {
if err := os.MkdirAll(req.OutputDir, 0755); err != nil {
return "", fmt.Errorf("failed to create output directory: %w", err)
return AmazonDownloadResult{}, fmt.Errorf("failed to create output directory: %w", err)
}
}
// Download using DoubleDouble service (same as PC)
downloadURL, trackName, artistName, err := downloader.downloadFromDoubleDoubleService(availability.AmazonURL, req.OutputDir)
if err != nil {
return "", fmt.Errorf("failed to get download URL: %w", err)
return AmazonDownloadResult{}, fmt.Errorf("failed to get download URL: %w", err)
}
// Verify artist matches
if artistName != "" && !amazonArtistsMatch(req.ArtistName, artistName) {
GoLog("[Amazon] Artist mismatch: expected '%s', got '%s'. Rejecting.\n", req.ArtistName, artistName)
return AmazonDownloadResult{}, fmt.Errorf("artist mismatch: expected '%s', got '%s'", req.ArtistName, artistName)
}
// Log match found
GoLog("[Amazon] Match found: '%s' by '%s'\n", trackName, artistName)
// Build filename using Spotify metadata (more accurate)
filename := buildFilenameFromTemplate(req.FilenameFormat, map[string]interface{}{
"title": req.TrackName,
@@ -310,69 +507,144 @@ func downloadFromAmazon(req DownloadRequest) (string, error) {
// Check if file already exists
if fileInfo, statErr := os.Stat(outputPath); statErr == nil && fileInfo.Size() > 0 {
return "EXISTS:" + outputPath, nil
return AmazonDownloadResult{FilePath: "EXISTS:" + outputPath}, nil
}
// Download file with item ID for progress tracking
// START PARALLEL: Fetch cover and lyrics while downloading audio
var parallelResult *ParallelDownloadResult
parallelDone := make(chan struct{})
go func() {
defer close(parallelDone)
parallelResult = FetchCoverAndLyricsParallel(
req.CoverURL,
req.EmbedMaxQualityCover,
req.SpotifyID,
req.TrackName,
req.ArtistName,
req.EmbedLyrics,
)
}()
// Download audio file with item ID for progress tracking
if err := downloader.DownloadFile(downloadURL, outputPath, req.ItemID); err != nil {
return "", fmt.Errorf("download failed: %w", err)
return AmazonDownloadResult{}, fmt.Errorf("download failed: %w", err)
}
// Wait for parallel operations to complete
<-parallelDone
// Set progress to 100% and status to finalizing (before embedding)
// This makes the UI show "Finalizing..." while embedding happens
if req.ItemID != "" {
SetItemProgress(req.ItemID, 1.0, 0, 0)
SetItemFinalizing(req.ItemID)
}
// Log track info from DoubleDouble (for debugging)
if trackName != "" && artistName != "" {
fmt.Printf("[Amazon] DoubleDouble returned: %s - %s\n", artistName, trackName)
GoLog("[Amazon] DoubleDouble returned: %s - %s\n", artistName, trackName)
}
// Read existing metadata from downloaded file BEFORE embedding
// Amazon/DoubleDouble files often have correct track/disc numbers that we should preserve
existingMeta, metaErr := ReadMetadata(outputPath)
actualTrackNum := req.TrackNumber
actualDiscNum := req.DiscNumber
if metaErr == nil && existingMeta != nil {
// Use file metadata if it has valid track/disc numbers and request doesn't have them
if existingMeta.TrackNumber > 0 && (req.TrackNumber == 0 || req.TrackNumber == 1) {
actualTrackNum = existingMeta.TrackNumber
GoLog("[Amazon] Using track number from file: %d (request had: %d)\n", actualTrackNum, req.TrackNumber)
}
if existingMeta.DiscNumber > 0 && (req.DiscNumber == 0 || req.DiscNumber == 1) {
actualDiscNum = existingMeta.DiscNumber
GoLog("[Amazon] Using disc number from file: %d (request had: %d)\n", actualDiscNum, req.DiscNumber)
}
}
// Embed metadata using Spotify data (more accurate than DoubleDouble)
// But preserve track/disc numbers from file if they were better
metadata := Metadata{
Title: req.TrackName,
Artist: req.ArtistName,
Album: req.AlbumName,
AlbumArtist: req.AlbumArtist,
Date: req.ReleaseDate,
TrackNumber: req.TrackNumber,
TrackNumber: actualTrackNum,
TotalTracks: req.TotalTracks,
DiscNumber: req.DiscNumber,
DiscNumber: actualDiscNum,
ISRC: req.ISRC,
}
// Download cover to memory (avoids file permission issues on Android)
// Use cover data from parallel fetch
var coverData []byte
if req.CoverURL != "" {
fmt.Println("[Amazon] Downloading cover to memory...")
data, err := downloadCoverToMemory(req.CoverURL, req.EmbedMaxQualityCover)
if err == nil {
coverData = data
fmt.Printf("[Amazon] Cover downloaded successfully (%d bytes)\n", len(coverData))
} else {
fmt.Printf("[Amazon] Warning: failed to download cover: %v\n", err)
}
if parallelResult != nil && parallelResult.CoverData != nil {
coverData = parallelResult.CoverData
GoLog("[Amazon] Using parallel-fetched cover (%d bytes)\n", len(coverData))
}
if err := EmbedMetadataWithCoverData(outputPath, metadata, coverData); err != nil {
fmt.Printf("Warning: failed to embed metadata: %v\n", err)
}
// Embed lyrics if enabled
if req.EmbedLyrics {
fmt.Println("[Amazon] Fetching lyrics...")
lyricsClient := NewLyricsClient()
lyrics, lyricsErr := lyricsClient.FetchLyricsAllSources(req.SpotifyID, req.TrackName, req.ArtistName)
if lyricsErr != nil {
fmt.Printf("[Amazon] Warning: lyrics fetch error: %v\n", lyricsErr)
} else if lyrics == nil || len(lyrics.Lines) == 0 {
fmt.Println("[Amazon] No lyrics found for this track")
// Embed lyrics from parallel fetch
if req.EmbedLyrics && parallelResult != nil && parallelResult.LyricsLRC != "" {
GoLog("[Amazon] Embedding parallel-fetched lyrics (%d lines)...\n", len(parallelResult.LyricsData.Lines))
if embedErr := EmbedLyrics(outputPath, parallelResult.LyricsLRC); embedErr != nil {
GoLog("[Amazon] Warning: failed to embed lyrics: %v\n", embedErr)
} else {
fmt.Printf("[Amazon] Lyrics found (%d lines), embedding...\n", len(lyrics.Lines))
lrcContent := convertToLRC(lyrics)
if embedErr := EmbedLyrics(outputPath, lrcContent); embedErr != nil {
fmt.Printf("[Amazon] Warning: failed to embed lyrics: %v\n", embedErr)
} else {
fmt.Println("[Amazon] Lyrics embedded successfully")
}
fmt.Println("[Amazon] Lyrics embedded successfully")
}
} else if req.EmbedLyrics {
fmt.Println("[Amazon] No lyrics available from parallel fetch")
}
fmt.Println("[Amazon] ✓ Downloaded successfully from Amazon Music")
return outputPath, nil
// Read actual quality from the downloaded FLAC file
// Amazon API doesn't provide quality info, but we can read it from the file itself
quality, err := GetAudioQuality(outputPath)
if err != nil {
GoLog("[Amazon] Warning: couldn't read quality from file: %v\n", err)
} else {
GoLog("[Amazon] Actual quality: %d-bit/%dHz\n", quality.BitDepth, quality.SampleRate)
}
// Read metadata from file AFTER embedding to get accurate values
// This ensures we return what's actually in the file
finalMeta, metaReadErr := ReadMetadata(outputPath)
if metaReadErr == nil && finalMeta != nil {
GoLog("[Amazon] Final metadata from file - Track: %d, Disc: %d, Date: %s\n",
finalMeta.TrackNumber, finalMeta.DiscNumber, finalMeta.Date)
actualTrackNum = finalMeta.TrackNumber
actualDiscNum = finalMeta.DiscNumber
if finalMeta.Date != "" {
// Use date from file if available
req.ReleaseDate = finalMeta.Date
}
}
// Add to ISRC index for fast duplicate checking
AddToISRCIndex(req.OutputDir, req.ISRC, outputPath)
bitDepth := 0
sampleRate := 0
if err == nil {
bitDepth = quality.BitDepth
sampleRate = quality.SampleRate
}
return AmazonDownloadResult{
FilePath: outputPath,
BitDepth: bitDepth,
SampleRate: sampleRate,
Title: req.TrackName,
Artist: req.ArtistName,
Album: req.AlbumName,
ReleaseDate: req.ReleaseDate,
TrackNumber: actualTrackNum,
DiscNumber: actualDiscNum,
ISRC: req.ISRC,
}, nil
}
+742
View File
@@ -0,0 +1,742 @@
package gobackend
import (
"context"
"encoding/json"
"fmt"
"io"
"net/http"
"net/url"
"strings"
"sync"
"time"
)
const (
deezerBaseURL = "https://api.deezer.com/2.0"
deezerSearchURL = deezerBaseURL + "/search"
deezerTrackURL = deezerBaseURL + "/track/%s"
deezerAlbumURL = deezerBaseURL + "/album/%s"
deezerArtistURL = deezerBaseURL + "/artist/%s"
deezerPlaylistURL = deezerBaseURL + "/playlist/%s"
deezerCacheTTL = 10 * time.Minute
// Parallel ISRC fetching settings
deezerMaxParallelISRC = 10 // Max concurrent ISRC fetches
)
// DeezerClient handles Deezer API interactions (no auth required)
type DeezerClient struct {
httpClient *http.Client
searchCache map[string]*cacheEntry
albumCache map[string]*cacheEntry
artistCache map[string]*cacheEntry
isrcCache map[string]string // trackID -> ISRC cache
cacheMu sync.RWMutex
}
// Singleton instance
var (
deezerClient *DeezerClient
deezerClientOnce sync.Once
)
// GetDeezerClient returns singleton Deezer client
func GetDeezerClient() *DeezerClient {
deezerClientOnce.Do(func() {
deezerClient = &DeezerClient{
httpClient: NewHTTPClientWithTimeout(15 * time.Second),
searchCache: make(map[string]*cacheEntry),
albumCache: make(map[string]*cacheEntry),
artistCache: make(map[string]*cacheEntry),
isrcCache: make(map[string]string),
}
})
return deezerClient
}
// Deezer API response types
type deezerTrack struct {
ID int64 `json:"id"`
Title string `json:"title"`
Duration int `json:"duration"` // in seconds
TrackPosition int `json:"track_position"`
DiskNumber int `json:"disk_number"`
ISRC string `json:"isrc"`
Link string `json:"link"`
ReleaseDate string `json:"release_date"` // Sometimes at track level
Artist deezerArtist `json:"artist"`
Album deezerAlbumSimple `json:"album"`
Contributors []deezerArtist `json:"contributors"`
}
type deezerArtist struct {
ID int64 `json:"id"`
Name string `json:"name"`
Picture string `json:"picture"`
PictureMedium string `json:"picture_medium"`
PictureBig string `json:"picture_big"`
PictureXL string `json:"picture_xl"`
NbFan int `json:"nb_fan"`
}
type deezerAlbumSimple struct {
ID int64 `json:"id"`
Title string `json:"title"`
Cover string `json:"cover"`
CoverMedium string `json:"cover_medium"`
CoverBig string `json:"cover_big"`
CoverXL string `json:"cover_xl"`
ReleaseDate string `json:"release_date"` // Sometimes at album level
}
// ... (skip other structs as they are fine/unchanged) ...
// ... (in convertTrack) ...
func (c *DeezerClient) convertTrack(track deezerTrack) TrackMetadata {
artistName := track.Artist.Name
if len(track.Contributors) > 0 {
names := make([]string, len(track.Contributors))
for i, a := range track.Contributors {
names[i] = a.Name
}
artistName = strings.Join(names, ", ")
}
albumImage := track.Album.CoverXL
if albumImage == "" {
albumImage = track.Album.CoverBig
}
if albumImage == "" {
albumImage = track.Album.CoverMedium
}
if albumImage == "" {
albumImage = track.Album.Cover
}
// Try to find release date
releaseDate := track.ReleaseDate
if releaseDate == "" {
releaseDate = track.Album.ReleaseDate
}
return TrackMetadata{
SpotifyID: fmt.Sprintf("deezer:%d", track.ID),
Artists: artistName,
Name: track.Title,
AlbumName: track.Album.Title,
AlbumArtist: track.Artist.Name,
DurationMS: track.Duration * 1000,
Images: albumImage,
ReleaseDate: releaseDate, // Added this
TrackNumber: track.TrackPosition,
DiscNumber: track.DiskNumber,
ExternalURL: track.Link,
ISRC: track.ISRC,
}
}
type deezerAlbumFull struct {
ID int64 `json:"id"`
Title string `json:"title"`
Cover string `json:"cover"`
CoverMedium string `json:"cover_medium"`
CoverBig string `json:"cover_big"`
CoverXL string `json:"cover_xl"`
ReleaseDate string `json:"release_date"`
NbTracks int `json:"nb_tracks"`
Artist deezerArtist `json:"artist"`
Contributors []deezerArtist `json:"contributors"`
Tracks struct {
Data []deezerTrack `json:"data"`
} `json:"tracks"`
}
type deezerArtistFull struct {
ID int64 `json:"id"`
Name string `json:"name"`
Picture string `json:"picture"`
PictureMedium string `json:"picture_medium"`
PictureBig string `json:"picture_big"`
PictureXL string `json:"picture_xl"`
NbFan int `json:"nb_fan"`
NbAlbum int `json:"nb_album"`
}
type deezerPlaylistFull struct {
ID int64 `json:"id"`
Title string `json:"title"`
Picture string `json:"picture"`
PictureMedium string `json:"picture_medium"`
PictureBig string `json:"picture_big"`
PictureXL string `json:"picture_xl"`
NbTracks int `json:"nb_tracks"`
Creator struct {
Name string `json:"name"`
} `json:"creator"`
Tracks struct {
Data []deezerTrack `json:"data"`
} `json:"tracks"`
}
// SearchAll searches for tracks and artists on Deezer
// NOTE: ISRC is NOT fetched during search for performance - use GetTrackISRC when needed for download
func (c *DeezerClient) SearchAll(ctx context.Context, query string, trackLimit, artistLimit int) (*SearchAllResult, error) {
GoLog("[Deezer] SearchAll: query=%q, trackLimit=%d, artistLimit=%d\n", query, trackLimit, artistLimit)
cacheKey := fmt.Sprintf("deezer:all:%s:%d:%d", query, trackLimit, artistLimit)
c.cacheMu.RLock()
if entry, ok := c.searchCache[cacheKey]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
GoLog("[Deezer] SearchAll: returning cached result\n")
return entry.data.(*SearchAllResult), nil
}
c.cacheMu.RUnlock()
result := &SearchAllResult{
Tracks: make([]TrackMetadata, 0),
Artists: make([]SearchArtistResult, 0),
}
// Search tracks - NO ISRC fetch for performance
trackURL := fmt.Sprintf("%s/track?q=%s&limit=%d", deezerSearchURL, url.QueryEscape(query), trackLimit)
GoLog("[Deezer] Fetching tracks from: %s\n", trackURL)
var trackResp struct {
Data []deezerTrack `json:"data"`
Error *struct {
Type string `json:"type"`
Message string `json:"message"`
Code int `json:"code"`
} `json:"error"`
}
if err := c.getJSON(ctx, trackURL, &trackResp); err != nil {
GoLog("[Deezer] Track search failed: %v\n", err)
return nil, fmt.Errorf("deezer track search failed: %w", err)
}
if trackResp.Error != nil {
GoLog("[Deezer] API error: type=%s, code=%d, message=%s\n", trackResp.Error.Type, trackResp.Error.Code, trackResp.Error.Message)
return nil, fmt.Errorf("deezer API error: %s (code %d)", trackResp.Error.Message, trackResp.Error.Code)
}
GoLog("[Deezer] Got %d tracks from API\n", len(trackResp.Data))
for _, track := range trackResp.Data {
// Convert directly without fetching ISRC - much faster
result.Tracks = append(result.Tracks, c.convertTrack(track))
}
// Search artists
artistURL := fmt.Sprintf("%s/artist?q=%s&limit=%d", deezerSearchURL, url.QueryEscape(query), artistLimit)
GoLog("[Deezer] Fetching artists from: %s\n", artistURL)
var artistResp struct {
Data []deezerArtist `json:"data"`
Error *struct {
Type string `json:"type"`
Message string `json:"message"`
Code int `json:"code"`
} `json:"error"`
}
if err := c.getJSON(ctx, artistURL, &artistResp); err == nil {
if artistResp.Error != nil {
GoLog("[Deezer] Artist API error: type=%s, code=%d, message=%s\n", artistResp.Error.Type, artistResp.Error.Code, artistResp.Error.Message)
} else {
GoLog("[Deezer] Got %d artists from API\n", len(artistResp.Data))
for _, artist := range artistResp.Data {
result.Artists = append(result.Artists, SearchArtistResult{
ID: fmt.Sprintf("deezer:%d", artist.ID),
Name: artist.Name,
Images: c.getBestArtistImage(artist),
Followers: artist.NbFan,
Popularity: 0,
})
}
}
} else {
GoLog("[Deezer] Artist search failed: %v\n", err)
}
GoLog("[Deezer] SearchAll complete: %d tracks, %d artists\n", len(result.Tracks), len(result.Artists))
// Cache result
c.cacheMu.Lock()
c.searchCache[cacheKey] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(deezerCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
// GetTrack fetches a single track by Deezer ID
func (c *DeezerClient) GetTrack(ctx context.Context, trackID string) (*TrackResponse, error) {
trackURL := fmt.Sprintf(deezerTrackURL, trackID)
var track deezerTrack
if err := c.getJSON(ctx, trackURL, &track); err != nil {
return nil, err
}
return &TrackResponse{
Track: c.convertTrack(track),
}, nil
}
// GetAlbum fetches album with tracks
// ISRC is fetched in parallel for better performance
func (c *DeezerClient) GetAlbum(ctx context.Context, albumID string) (*AlbumResponsePayload, error) {
c.cacheMu.RLock()
if entry, ok := c.albumCache[albumID]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
return entry.data.(*AlbumResponsePayload), nil
}
c.cacheMu.RUnlock()
albumURL := fmt.Sprintf(deezerAlbumURL, albumID)
var album deezerAlbumFull
if err := c.getJSON(ctx, albumURL, &album); err != nil {
return nil, err
}
albumImage := c.getBestAlbumImage(album)
artistName := album.Artist.Name
if len(album.Contributors) > 0 {
names := make([]string, len(album.Contributors))
for i, a := range album.Contributors {
names[i] = a.Name
}
artistName = strings.Join(names, ", ")
}
info := AlbumInfoMetadata{
TotalTracks: album.NbTracks,
Name: album.Title,
ReleaseDate: album.ReleaseDate,
Artists: artistName,
Images: albumImage,
}
// Fetch ISRCs in parallel
isrcMap := c.fetchISRCsParallel(ctx, album.Tracks.Data)
tracks := make([]AlbumTrackMetadata, 0, len(album.Tracks.Data))
for _, track := range album.Tracks.Data {
trackIDStr := fmt.Sprintf("%d", track.ID)
isrc := isrcMap[trackIDStr]
tracks = append(tracks, AlbumTrackMetadata{
SpotifyID: fmt.Sprintf("deezer:%d", track.ID),
Artists: track.Artist.Name,
Name: track.Title,
AlbumName: album.Title,
AlbumArtist: artistName,
DurationMS: track.Duration * 1000,
Images: albumImage,
ReleaseDate: album.ReleaseDate,
TrackNumber: track.TrackPosition,
TotalTracks: album.NbTracks,
DiscNumber: track.DiskNumber,
ExternalURL: track.Link,
ISRC: isrc,
AlbumID: fmt.Sprintf("deezer:%d", album.ID),
})
}
result := &AlbumResponsePayload{
AlbumInfo: info,
TrackList: tracks,
}
c.cacheMu.Lock()
c.albumCache[albumID] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(deezerCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
// GetArtist fetches artist with albums
func (c *DeezerClient) GetArtist(ctx context.Context, artistID string) (*ArtistResponsePayload, error) {
c.cacheMu.RLock()
if entry, ok := c.artistCache[artistID]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
return entry.data.(*ArtistResponsePayload), nil
}
c.cacheMu.RUnlock()
// Fetch artist info
artistURL := fmt.Sprintf(deezerArtistURL, artistID)
var artist deezerArtistFull
if err := c.getJSON(ctx, artistURL, &artist); err != nil {
return nil, err
}
artistInfo := ArtistInfoMetadata{
ID: fmt.Sprintf("deezer:%d", artist.ID),
Name: artist.Name,
Images: c.getBestArtistImageFull(artist),
Followers: artist.NbFan,
Popularity: 0,
}
// Fetch artist albums
albumsURL := fmt.Sprintf("%s/albums?limit=100", fmt.Sprintf(deezerArtistURL, artistID))
var albumsResp struct {
Data []struct {
ID int64 `json:"id"`
Title string `json:"title"`
ReleaseDate string `json:"release_date"`
NbTracks int `json:"nb_tracks"`
Cover string `json:"cover"`
CoverMedium string `json:"cover_medium"`
CoverBig string `json:"cover_big"`
CoverXL string `json:"cover_xl"`
RecordType string `json:"record_type"` // album, single, ep, compile
} `json:"data"`
}
albums := make([]ArtistAlbumMetadata, 0)
if err := c.getJSON(ctx, albumsURL, &albumsResp); err == nil {
for _, album := range albumsResp.Data {
albumType := album.RecordType
if albumType == "compile" {
albumType = "compilation"
}
coverURL := album.CoverXL
if coverURL == "" {
coverURL = album.CoverBig
}
if coverURL == "" {
coverURL = album.CoverMedium
}
if coverURL == "" {
coverURL = album.Cover
}
albums = append(albums, ArtistAlbumMetadata{
ID: fmt.Sprintf("deezer:%d", album.ID),
Name: album.Title,
ReleaseDate: album.ReleaseDate,
TotalTracks: album.NbTracks,
Images: coverURL,
AlbumType: albumType,
Artists: artist.Name,
})
}
}
result := &ArtistResponsePayload{
ArtistInfo: artistInfo,
Albums: albums,
}
c.cacheMu.Lock()
c.artistCache[artistID] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(deezerCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
// GetPlaylist fetches playlist with tracks
// ISRC is fetched in parallel for better performance
func (c *DeezerClient) GetPlaylist(ctx context.Context, playlistID string) (*PlaylistResponsePayload, error) {
playlistURL := fmt.Sprintf(deezerPlaylistURL, playlistID)
var playlist deezerPlaylistFull
if err := c.getJSON(ctx, playlistURL, &playlist); err != nil {
return nil, err
}
playlistImage := playlist.PictureXL
if playlistImage == "" {
playlistImage = playlist.PictureBig
}
if playlistImage == "" {
playlistImage = playlist.PictureMedium
}
var info PlaylistInfoMetadata
info.Tracks.Total = playlist.NbTracks
info.Owner.DisplayName = playlist.Creator.Name
info.Owner.Name = playlist.Title
info.Owner.Images = playlistImage
// Fetch ISRCs in parallel
isrcMap := c.fetchISRCsParallel(ctx, playlist.Tracks.Data)
tracks := make([]AlbumTrackMetadata, 0, len(playlist.Tracks.Data))
for _, track := range playlist.Tracks.Data {
albumImage := track.Album.CoverXL
if albumImage == "" {
albumImage = track.Album.CoverBig
}
if albumImage == "" {
albumImage = track.Album.CoverMedium
}
trackIDStr := fmt.Sprintf("%d", track.ID)
isrc := isrcMap[trackIDStr]
tracks = append(tracks, AlbumTrackMetadata{
SpotifyID: fmt.Sprintf("deezer:%d", track.ID),
Artists: track.Artist.Name,
Name: track.Title,
AlbumName: track.Album.Title,
AlbumArtist: track.Artist.Name,
DurationMS: track.Duration * 1000,
Images: albumImage,
ReleaseDate: "",
TrackNumber: track.TrackPosition,
DiscNumber: track.DiskNumber,
ExternalURL: track.Link,
ISRC: isrc,
AlbumID: fmt.Sprintf("deezer:%d", track.Album.ID),
})
}
return &PlaylistResponsePayload{
PlaylistInfo: info,
TrackList: tracks,
}, nil
}
// SearchByISRC searches for a track by ISRC using direct endpoint
func (c *DeezerClient) SearchByISRC(ctx context.Context, isrc string) (*TrackMetadata, error) {
// Use direct ISRC endpoint (API 2.0)
// https://api.deezer.com/2.0/track/isrc:{ISRC}
directURL := fmt.Sprintf("%s/track/isrc:%s", deezerBaseURL, isrc)
var track deezerTrack
if err := c.getJSON(ctx, directURL, &track); err != nil {
// Fallback to search if direct endpoint fails
searchURL := fmt.Sprintf("%s/track?q=isrc:%s&limit=1", deezerSearchURL, isrc)
var resp struct {
Data []deezerTrack `json:"data"`
}
if err := c.getJSON(ctx, searchURL, &resp); err != nil {
return nil, err
}
if len(resp.Data) == 0 {
return nil, fmt.Errorf("no track found for ISRC: %s", isrc)
}
result := c.convertTrack(resp.Data[0])
return &result, nil
}
// Check if we got a valid response (ID > 0)
if track.ID == 0 {
return nil, fmt.Errorf("no track found for ISRC: %s", isrc)
}
result := c.convertTrack(track)
return &result, nil
}
func (c *DeezerClient) fetchFullTrack(ctx context.Context, trackID string) (*deezerTrack, error) {
trackURL := fmt.Sprintf(deezerTrackURL, trackID)
var track deezerTrack
if err := c.getJSON(ctx, trackURL, &track); err != nil {
return nil, err
}
return &track, nil
}
// fetchISRCsParallel fetches ISRCs for multiple tracks in parallel with caching
func (c *DeezerClient) fetchISRCsParallel(ctx context.Context, tracks []deezerTrack) map[string]string {
result := make(map[string]string)
var resultMu sync.Mutex
// First, check cache for existing ISRCs
var tracksToFetch []deezerTrack
c.cacheMu.RLock()
for _, track := range tracks {
trackIDStr := fmt.Sprintf("%d", track.ID)
if isrc, ok := c.isrcCache[trackIDStr]; ok {
result[trackIDStr] = isrc
} else {
tracksToFetch = append(tracksToFetch, track)
}
}
c.cacheMu.RUnlock()
if len(tracksToFetch) == 0 {
return result
}
// Use semaphore to limit concurrent requests
sem := make(chan struct{}, deezerMaxParallelISRC)
var wg sync.WaitGroup
for _, track := range tracksToFetch {
wg.Add(1)
go func(t deezerTrack) {
defer wg.Done()
// Acquire semaphore
select {
case sem <- struct{}{}:
defer func() { <-sem }()
case <-ctx.Done():
return
}
trackIDStr := fmt.Sprintf("%d", t.ID)
fullTrack, err := c.fetchFullTrack(ctx, trackIDStr)
if err != nil || fullTrack == nil {
return
}
// Store in result and cache
resultMu.Lock()
result[trackIDStr] = fullTrack.ISRC
resultMu.Unlock()
c.cacheMu.Lock()
c.isrcCache[trackIDStr] = fullTrack.ISRC
c.cacheMu.Unlock()
}(track)
}
wg.Wait()
return result
}
// GetTrackISRC fetches ISRC for a single track (with caching)
// Use this when you need ISRC for download
func (c *DeezerClient) GetTrackISRC(ctx context.Context, trackID string) (string, error) {
// Check cache first
c.cacheMu.RLock()
if isrc, ok := c.isrcCache[trackID]; ok {
c.cacheMu.RUnlock()
return isrc, nil
}
c.cacheMu.RUnlock()
// Fetch from API
fullTrack, err := c.fetchFullTrack(ctx, trackID)
if err != nil {
return "", err
}
// Cache the result
c.cacheMu.Lock()
c.isrcCache[trackID] = fullTrack.ISRC
c.cacheMu.Unlock()
return fullTrack.ISRC, nil
}
func (c *DeezerClient) getBestArtistImage(artist deezerArtist) string {
if artist.PictureXL != "" {
return artist.PictureXL
}
if artist.PictureBig != "" {
return artist.PictureBig
}
if artist.PictureMedium != "" {
return artist.PictureMedium
}
return artist.Picture
}
func (c *DeezerClient) getBestArtistImageFull(artist deezerArtistFull) string {
if artist.PictureXL != "" {
return artist.PictureXL
}
if artist.PictureBig != "" {
return artist.PictureBig
}
if artist.PictureMedium != "" {
return artist.PictureMedium
}
return artist.Picture
}
func (c *DeezerClient) getBestAlbumImage(album deezerAlbumFull) string {
if album.CoverXL != "" {
return album.CoverXL
}
if album.CoverBig != "" {
return album.CoverBig
}
if album.CoverMedium != "" {
return album.CoverMedium
}
return album.Cover
}
func (c *DeezerClient) getJSON(ctx context.Context, endpoint string, dst interface{}) error {
req, err := http.NewRequestWithContext(ctx, http.MethodGet, endpoint, nil)
if err != nil {
return err
}
req.Header.Set("Accept", "application/json")
resp, err := c.httpClient.Do(req)
if err != nil {
return err
}
defer resp.Body.Close()
body, err := io.ReadAll(resp.Body)
if err != nil {
return err
}
if resp.StatusCode != http.StatusOK {
return fmt.Errorf("deezer API returned status %d: %s", resp.StatusCode, string(body))
}
return json.Unmarshal(body, dst)
}
// parseDeezerURL is internal function, returns type and ID
func parseDeezerURL(input string) (string, string, error) {
trimmed := strings.TrimSpace(input)
if trimmed == "" {
return "", "", fmt.Errorf("empty URL")
}
parsed, err := url.Parse(trimmed)
if err != nil {
return "", "", err
}
if parsed.Host != "www.deezer.com" && parsed.Host != "deezer.com" && parsed.Host != "deezer.page.link" {
return "", "", fmt.Errorf("not a Deezer URL")
}
parts := strings.Split(strings.Trim(parsed.Path, "/"), "/")
// Skip language prefix if present (e.g., /en/, /fr/)
if len(parts) > 0 && len(parts[0]) == 2 {
parts = parts[1:]
}
if len(parts) < 2 {
return "", "", fmt.Errorf("invalid Deezer URL format")
}
resourceType := parts[0]
resourceID := parts[1]
switch resourceType {
case "track", "album", "artist", "playlist":
return resourceType, resourceID, nil
default:
return "", "", fmt.Errorf("unsupported Deezer resource type: %s", resourceType)
}
}
+222 -32
View File
@@ -1,49 +1,144 @@
package gobackend
import (
"encoding/json"
"fmt"
"os"
"path/filepath"
"strings"
"sync"
"time"
)
// ISRCIndex holds a cached map of ISRC -> file path for fast duplicate checking
type ISRCIndex struct {
index map[string]string // ISRC (uppercase) -> file path
outputDir string
buildTime time.Time
mu sync.RWMutex
}
// Global ISRC index cache (per output directory)
var (
isrcIndexCache = make(map[string]*ISRCIndex)
isrcIndexCacheMu sync.RWMutex
isrcIndexTTL = 5 * time.Minute // Cache TTL - rebuild after 5 minutes
)
// GetISRCIndex returns or builds an ISRC index for the given directory
func GetISRCIndex(outputDir string) *ISRCIndex {
isrcIndexCacheMu.RLock()
idx, exists := isrcIndexCache[outputDir]
isrcIndexCacheMu.RUnlock()
// Return cached index if still valid
if exists && time.Since(idx.buildTime) < isrcIndexTTL {
return idx
}
// Build new index
return buildISRCIndex(outputDir)
}
// buildISRCIndex scans a directory and builds a map of ISRC -> file path
// Same implementation as PC version for consistency
func buildISRCIndex(outputDir string) *ISRCIndex {
idx := &ISRCIndex{
index: make(map[string]string),
outputDir: outputDir,
buildTime: time.Now(),
}
if outputDir == "" {
return idx
}
startTime := time.Now()
fileCount := 0
// Walk directory - only check .flac files
filepath.Walk(outputDir, func(path string, info os.FileInfo, err error) error {
if err != nil || info.IsDir() {
return nil
}
ext := strings.ToLower(filepath.Ext(path))
if ext != ".flac" {
return nil
}
// Read ISRC from file
metadata, err := ReadMetadata(path)
if err != nil || metadata.ISRC == "" {
return nil
}
// Store in index (uppercase for case-insensitive matching)
idx.index[strings.ToUpper(metadata.ISRC)] = path
fileCount++
return nil
})
fmt.Printf("[ISRCIndex] Built index for %s: %d files in %v\n",
outputDir, fileCount, time.Since(startTime).Round(time.Millisecond))
// Cache the index
isrcIndexCacheMu.Lock()
isrcIndexCache[outputDir] = idx
isrcIndexCacheMu.Unlock()
return idx
}
// lookup checks if an ISRC exists in the index (internal, returns bool)
func (idx *ISRCIndex) lookup(isrc string) (string, bool) {
if isrc == "" {
return "", false
}
idx.mu.RLock()
defer idx.mu.RUnlock()
path, exists := idx.index[strings.ToUpper(isrc)]
return path, exists
}
// Lookup checks if an ISRC exists in the index (gomobile compatible)
// Returns filepath if found, empty string if not found
func (idx *ISRCIndex) Lookup(isrc string) (string, error) {
path, _ := idx.lookup(isrc)
return path, nil
}
// Add adds a new ISRC to the index (call after successful download)
func (idx *ISRCIndex) Add(isrc, filePath string) {
if isrc == "" || filePath == "" {
return
}
idx.mu.Lock()
defer idx.mu.Unlock()
idx.index[strings.ToUpper(isrc)] = filePath
}
// InvalidateCache clears the ISRC index cache for a directory
func InvalidateISRCCache(outputDir string) {
isrcIndexCacheMu.Lock()
delete(isrcIndexCache, outputDir)
isrcIndexCacheMu.Unlock()
}
// checkISRCExistsInternal checks if a file with the given ISRC exists (internal use)
// Uses ISRC index for fast lookup
func checkISRCExistsInternal(outputDir, isrc string) (string, bool) {
if isrc == "" || outputDir == "" {
return "", false
}
// Walk through directory looking for FLAC files
var foundFile string
filepath.Walk(outputDir, func(path string, info os.FileInfo, err error) error {
if err != nil {
return nil
}
// Only check FLAC files
if info.IsDir() || !strings.HasSuffix(strings.ToLower(path), ".flac") {
return nil
}
// Read metadata from file
metadata, err := ReadMetadata(path)
if err != nil {
return nil
}
// Check if ISRC matches
if metadata.ISRC == isrc {
foundFile = path
return filepath.SkipAll // Stop walking
}
return nil
})
if foundFile != "" {
return foundFile, true
}
return "", false
// Use index for fast lookup
idx := GetISRCIndex(outputDir)
return idx.lookup(isrc)
}
// CheckISRCExists is the exported version for gomobile (returns string, error)
@@ -61,3 +156,98 @@ func CheckFileExists(filePath string) bool {
}
return !info.IsDir() && info.Size() > 0
}
// FileExistenceResult represents the result of checking if a file exists
type FileExistenceResult struct {
ISRC string `json:"isrc"`
Exists bool `json:"exists"`
FilePath string `json:"file_path,omitempty"`
TrackName string `json:"track_name,omitempty"`
ArtistName string `json:"artist_name,omitempty"`
}
// CheckFilesExistParallel checks if multiple files exist in parallel
// It builds an ISRC index from the output directory once, then checks all tracks against it
// Same implementation as PC version for consistency
func CheckFilesExistParallel(outputDir string, tracksJSON string) (string, error) {
// Parse input JSON
var tracks []struct {
ISRC string `json:"isrc"`
TrackName string `json:"track_name"`
ArtistName string `json:"artist_name"`
}
if err := json.Unmarshal([]byte(tracksJSON), &tracks); err != nil {
return "", fmt.Errorf("failed to parse tracks JSON: %w", err)
}
results := make([]FileExistenceResult, len(tracks))
// Build ISRC index from output directory (scan once)
isrcIdx := GetISRCIndex(outputDir)
// Check each track against the index (parallel)
var wg sync.WaitGroup
for i, track := range tracks {
wg.Add(1)
go func(resultIdx int, t struct {
ISRC string `json:"isrc"`
TrackName string `json:"track_name"`
ArtistName string `json:"artist_name"`
}) {
defer wg.Done()
result := FileExistenceResult{
ISRC: t.ISRC,
TrackName: t.TrackName,
ArtistName: t.ArtistName,
Exists: false,
}
if t.ISRC != "" {
if filePath, exists := isrcIdx.lookup(t.ISRC); exists {
result.Exists = true
result.FilePath = filePath
}
}
results[resultIdx] = result
}(i, track)
}
wg.Wait()
// Return results as JSON
resultJSON, err := json.Marshal(results)
if err != nil {
return "", fmt.Errorf("failed to marshal results: %w", err)
}
return string(resultJSON), nil
}
// PreBuildISRCIndex pre-builds the ISRC index for a directory
// Call this when app starts or when entering album/playlist screen
func PreBuildISRCIndex(outputDir string) error {
if outputDir == "" {
return fmt.Errorf("output directory is required")
}
buildISRCIndex(outputDir)
return nil
}
// AddToISRCIndex adds a new file to the ISRC index after successful download
// This avoids rebuilding the entire index
func AddToISRCIndex(outputDir, isrc, filePath string) {
if outputDir == "" || isrc == "" || filePath == "" {
return
}
isrcIndexCacheMu.RLock()
idx, exists := isrcIndexCache[outputDir]
isrcIndexCacheMu.RUnlock()
if exists {
idx.Add(isrc, filePath)
}
}
+700 -65
View File
@@ -5,6 +5,7 @@ package gobackend
import (
"context"
"encoding/json"
"fmt"
"strings"
"time"
)
@@ -16,37 +17,43 @@ func ParseSpotifyURL(url string) (string, error) {
if err != nil {
return "", err
}
result := map[string]string{
"type": parsed.Type,
"id": parsed.ID,
}
jsonBytes, err := json.Marshal(result)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// SetSpotifyAPICredentials sets custom Spotify API credentials from Flutter
// Pass empty strings to use default credentials
func SetSpotifyAPICredentials(clientID, clientSecret string) {
SetSpotifyCredentials(clientID, clientSecret)
}
// GetSpotifyMetadata fetches metadata from Spotify URL
// Returns JSON with track/album/playlist data
func GetSpotifyMetadata(spotifyURL string) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
client := NewSpotifyMetadataClient()
data, err := client.GetFilteredData(ctx, spotifyURL, false, 0)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(data)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
@@ -55,18 +62,38 @@ func GetSpotifyMetadata(spotifyURL string) (string, error) {
func SearchSpotify(query string, limit int) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 15*time.Second)
defer cancel()
client := NewSpotifyMetadataClient()
results, err := client.SearchTracks(ctx, query, limit)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(results)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// SearchSpotifyAll searches for tracks and artists on Spotify
// Returns JSON with tracks and artists arrays
func SearchSpotifyAll(query string, trackLimit, artistLimit int) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 15*time.Second)
defer cancel()
client := NewSpotifyMetadataClient()
results, err := client.SearchAll(ctx, query, trackLimit, artistLimit)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(results)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
@@ -78,12 +105,12 @@ func CheckAvailability(spotifyID, isrc string) (string, error) {
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(availability)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
@@ -106,7 +133,8 @@ type DownloadRequest struct {
DiscNumber int `json:"disc_number"`
TotalTracks int `json:"total_tracks"`
ReleaseDate string `json:"release_date"`
ItemID string `json:"item_id"` // Unique ID for progress tracking
ItemID string `json:"item_id"` // Unique ID for progress tracking
DurationMS int `json:"duration_ms"` // Expected duration in milliseconds (for verification)
}
// DownloadResponse represents the result of a download
@@ -115,7 +143,34 @@ type DownloadResponse struct {
Message string `json:"message"`
FilePath string `json:"file_path,omitempty"`
Error string `json:"error,omitempty"`
ErrorType string `json:"error_type,omitempty"` // "not_found", "rate_limit", "network", "unknown"
AlreadyExists bool `json:"already_exists,omitempty"`
// Actual quality info from the source
ActualBitDepth int `json:"actual_bit_depth,omitempty"`
ActualSampleRate int `json:"actual_sample_rate,omitempty"`
Service string `json:"service,omitempty"` // Actual service used (for fallback)
Title string `json:"title,omitempty"`
Artist string `json:"artist,omitempty"`
Album string `json:"album,omitempty"`
ReleaseDate string `json:"release_date,omitempty"`
TrackNumber int `json:"track_number,omitempty"`
DiscNumber int `json:"disc_number,omitempty"`
ISRC string `json:"isrc,omitempty"`
}
// DownloadResult is a generic result type for all downloaders
// DownloadResult is a generic result type for all downloaders
type DownloadResult struct {
FilePath string
BitDepth int
SampleRate int
Title string
Artist string
Album string
ReleaseDate string
TrackNumber int
DiscNumber int
ISRC string
}
// DownloadTrack downloads a track from the specified service
@@ -126,50 +181,132 @@ func DownloadTrack(requestJSON string) (string, error) {
if err := json.Unmarshal([]byte(requestJSON), &req); err != nil {
return errorResponse("Invalid request: " + err.Error())
}
// Trim whitespace from string fields to prevent filename/path issues
req.TrackName = strings.TrimSpace(req.TrackName)
req.ArtistName = strings.TrimSpace(req.ArtistName)
req.AlbumName = strings.TrimSpace(req.AlbumName)
req.AlbumArtist = strings.TrimSpace(req.AlbumArtist)
req.OutputDir = strings.TrimSpace(req.OutputDir)
var filePath string
var result DownloadResult
var err error
switch req.Service {
case "tidal":
filePath, err = downloadFromTidal(req)
tidalResult, tidalErr := downloadFromTidal(req)
if tidalErr == nil {
result = DownloadResult{
FilePath: tidalResult.FilePath,
BitDepth: tidalResult.BitDepth,
SampleRate: tidalResult.SampleRate,
Title: tidalResult.Title,
Artist: tidalResult.Artist,
Album: tidalResult.Album,
ReleaseDate: tidalResult.ReleaseDate,
TrackNumber: tidalResult.TrackNumber,
DiscNumber: tidalResult.DiscNumber,
ISRC: tidalResult.ISRC,
}
}
err = tidalErr
case "qobuz":
filePath, err = downloadFromQobuz(req)
qobuzResult, qobuzErr := downloadFromQobuz(req)
if qobuzErr == nil {
result = DownloadResult{
FilePath: qobuzResult.FilePath,
BitDepth: qobuzResult.BitDepth,
SampleRate: qobuzResult.SampleRate,
Title: qobuzResult.Title,
Artist: qobuzResult.Artist,
Album: qobuzResult.Album,
ReleaseDate: qobuzResult.ReleaseDate,
TrackNumber: qobuzResult.TrackNumber,
DiscNumber: qobuzResult.DiscNumber,
ISRC: qobuzResult.ISRC,
}
}
err = qobuzErr
case "amazon":
filePath, err = downloadFromAmazon(req)
amazonResult, amazonErr := downloadFromAmazon(req)
if amazonErr == nil {
result = DownloadResult{
FilePath: amazonResult.FilePath,
BitDepth: amazonResult.BitDepth,
SampleRate: amazonResult.SampleRate,
Title: amazonResult.Title,
Artist: amazonResult.Artist,
Album: amazonResult.Album,
ReleaseDate: amazonResult.ReleaseDate,
TrackNumber: amazonResult.TrackNumber,
DiscNumber: amazonResult.DiscNumber,
ISRC: amazonResult.ISRC,
}
}
err = amazonErr
default:
return errorResponse("Unknown service: " + req.Service)
}
if err != nil {
return errorResponse(err.Error())
}
// Check if file already exists
if len(filePath) > 7 && filePath[:7] == "EXISTS:" {
if len(result.FilePath) > 7 && result.FilePath[:7] == "EXISTS:" {
actualPath := result.FilePath[7:]
// Read actual quality from existing file
quality, qErr := GetAudioQuality(actualPath)
if qErr == nil {
result.BitDepth = quality.BitDepth
result.SampleRate = quality.SampleRate
}
resp := DownloadResponse{
Success: true,
Message: "File already exists",
FilePath: filePath[7:],
AlreadyExists: true,
Success: true,
Message: "File already exists",
FilePath: actualPath,
AlreadyExists: true,
ActualBitDepth: result.BitDepth,
ActualSampleRate: result.SampleRate,
Service: req.Service,
Title: result.Title,
Artist: result.Artist,
Album: result.Album,
ReleaseDate: result.ReleaseDate,
TrackNumber: result.TrackNumber,
DiscNumber: result.DiscNumber,
ISRC: result.ISRC,
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
}
resp := DownloadResponse{
Success: true,
Message: "Download complete",
FilePath: filePath,
// Read actual quality from downloaded file (more accurate than API)
quality, qErr := GetAudioQuality(result.FilePath)
if qErr == nil {
result.BitDepth = quality.BitDepth
result.SampleRate = quality.SampleRate
GoLog("[Download] Actual quality from file: %d-bit/%dHz\n", quality.BitDepth, quality.SampleRate)
} else {
GoLog("[Download] Could not read quality from file: %v\n", qErr)
}
resp := DownloadResponse{
Success: true,
Message: "Download complete",
FilePath: result.FilePath,
ActualBitDepth: result.BitDepth,
ActualSampleRate: result.SampleRate,
Service: req.Service,
Title: result.Title,
Artist: result.Artist,
Album: result.Album,
ReleaseDate: result.ReleaseDate,
TrackNumber: result.TrackNumber,
DiscNumber: result.DiscNumber,
ISRC: result.ISRC,
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
}
@@ -181,21 +318,23 @@ func DownloadWithFallback(requestJSON string) (string, error) {
if err := json.Unmarshal([]byte(requestJSON), &req); err != nil {
return errorResponse("Invalid request: " + err.Error())
}
// Trim whitespace from string fields to prevent filename/path issues
req.TrackName = strings.TrimSpace(req.TrackName)
req.ArtistName = strings.TrimSpace(req.ArtistName)
req.AlbumName = strings.TrimSpace(req.AlbumName)
req.AlbumArtist = strings.TrimSpace(req.AlbumArtist)
req.OutputDir = strings.TrimSpace(req.OutputDir)
// Build service order starting with preferred service
allServices := []string{"tidal", "qobuz", "amazon"}
preferredService := req.Service
if preferredService == "" {
preferredService = "tidal"
}
GoLog("[DownloadWithFallback] Preferred service from request: '%s'\n", req.Service)
// Create ordered list: preferred first, then others
services := []string{preferredService}
for _, s := range allServices {
@@ -203,49 +342,140 @@ func DownloadWithFallback(requestJSON string) (string, error) {
services = append(services, s)
}
}
GoLog("[DownloadWithFallback] Service order: %v\n", services)
var lastErr error
for _, service := range services {
GoLog("[DownloadWithFallback] Trying service: %s\n", service)
req.Service = service
var filePath string
var result DownloadResult
var err error
switch service {
case "tidal":
filePath, err = downloadFromTidal(req)
tidalResult, tidalErr := downloadFromTidal(req)
if tidalErr == nil {
result = DownloadResult{
FilePath: tidalResult.FilePath,
BitDepth: tidalResult.BitDepth,
SampleRate: tidalResult.SampleRate,
Title: tidalResult.Title,
Artist: tidalResult.Artist,
Album: tidalResult.Album,
ReleaseDate: tidalResult.ReleaseDate,
TrackNumber: tidalResult.TrackNumber,
DiscNumber: tidalResult.DiscNumber,
ISRC: tidalResult.ISRC,
}
} else {
GoLog("[DownloadWithFallback] Tidal error: %v\n", tidalErr)
}
err = tidalErr
case "qobuz":
filePath, err = downloadFromQobuz(req)
qobuzResult, qobuzErr := downloadFromQobuz(req)
if qobuzErr == nil {
result = DownloadResult{
FilePath: qobuzResult.FilePath,
BitDepth: qobuzResult.BitDepth,
SampleRate: qobuzResult.SampleRate,
Title: qobuzResult.Title,
Artist: qobuzResult.Artist,
Album: qobuzResult.Album,
ReleaseDate: qobuzResult.ReleaseDate,
TrackNumber: qobuzResult.TrackNumber,
DiscNumber: qobuzResult.DiscNumber,
ISRC: qobuzResult.ISRC,
}
} else {
GoLog("[DownloadWithFallback] Qobuz error: %v\n", qobuzErr)
}
err = qobuzErr
case "amazon":
filePath, err = downloadFromAmazon(req)
amazonResult, amazonErr := downloadFromAmazon(req)
if amazonErr == nil {
result = DownloadResult{
FilePath: amazonResult.FilePath,
BitDepth: amazonResult.BitDepth,
SampleRate: amazonResult.SampleRate,
Title: amazonResult.Title,
Artist: amazonResult.Artist,
Album: amazonResult.Album,
ReleaseDate: amazonResult.ReleaseDate,
TrackNumber: amazonResult.TrackNumber,
DiscNumber: amazonResult.DiscNumber,
ISRC: amazonResult.ISRC,
}
} else {
GoLog("[DownloadWithFallback] Amazon error: %v\n", amazonErr)
}
err = amazonErr
}
if err == nil {
// Check if file already exists
if len(filePath) > 7 && filePath[:7] == "EXISTS:" {
if len(result.FilePath) > 7 && result.FilePath[:7] == "EXISTS:" {
actualPath := result.FilePath[7:]
// Read actual quality from existing file
quality, qErr := GetAudioQuality(actualPath)
if qErr == nil {
result.BitDepth = quality.BitDepth
result.SampleRate = quality.SampleRate
}
resp := DownloadResponse{
Success: true,
Message: "File already exists",
FilePath: filePath[7:],
AlreadyExists: true,
Success: true,
Message: "File already exists",
FilePath: actualPath,
AlreadyExists: true,
ActualBitDepth: result.BitDepth,
ActualSampleRate: result.SampleRate,
Service: service,
Title: result.Title,
Artist: result.Artist,
Album: result.Album,
ReleaseDate: result.ReleaseDate,
TrackNumber: result.TrackNumber,
DiscNumber: result.DiscNumber,
ISRC: result.ISRC,
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
}
// Read actual quality from downloaded file (more accurate than API)
quality, qErr := GetAudioQuality(result.FilePath)
if qErr == nil {
result.BitDepth = quality.BitDepth
result.SampleRate = quality.SampleRate
GoLog("[Download] Actual quality from file: %d-bit/%dHz\n", quality.BitDepth, quality.SampleRate)
} else {
GoLog("[Download] Could not read quality from file: %v\n", qErr)
}
resp := DownloadResponse{
Success: true,
Message: "Downloaded from " + service,
FilePath: filePath,
Success: true,
Message: "Downloaded from " + service,
FilePath: result.FilePath,
ActualBitDepth: result.BitDepth,
ActualSampleRate: result.SampleRate,
Service: service,
Title: result.Title,
Artist: result.Artist,
Album: result.Album,
ReleaseDate: result.ReleaseDate,
TrackNumber: result.TrackNumber,
DiscNumber: result.DiscNumber,
ISRC: result.ISRC,
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
}
lastErr = err
}
return errorResponse("All services failed. Last error: " + lastErr.Error())
}
@@ -283,6 +513,51 @@ func CleanupConnections() {
CloseIdleConnections()
}
// ReadFileMetadata reads metadata directly from a FLAC file
// Returns JSON with all embedded metadata (title, artist, album, track number, etc.)
// This is useful for displaying accurate metadata in the UI without relying on cached data
func ReadFileMetadata(filePath string) (string, error) {
metadata, err := ReadMetadata(filePath)
if err != nil {
return "", fmt.Errorf("failed to read metadata: %w", err)
}
// Also get audio quality info
quality, qualityErr := GetAudioQuality(filePath)
// Get duration from FLAC stream info
duration := 0
if qualityErr == nil && quality.SampleRate > 0 && quality.TotalSamples > 0 {
duration = int(quality.TotalSamples / int64(quality.SampleRate))
}
result := map[string]interface{}{
"title": metadata.Title,
"artist": metadata.Artist,
"album": metadata.Album,
"album_artist": metadata.AlbumArtist,
"date": metadata.Date,
"track_number": metadata.TrackNumber,
"disc_number": metadata.DiscNumber,
"isrc": metadata.ISRC,
"lyrics": metadata.Lyrics,
"duration": duration,
}
// Add quality info if available
if qualityErr == nil {
result["bit_depth"] = quality.BitDepth
result["sample_rate"] = quality.SampleRate
}
jsonBytes, err := json.Marshal(result)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// SetDownloadDirectory sets the default download directory
func SetDownloadDirectory(path string) error {
return setDownloadDir(path)
@@ -291,27 +566,47 @@ func SetDownloadDirectory(path string) error {
// CheckDuplicate checks if a file with the given ISRC exists
func CheckDuplicate(outputDir, isrc string) (string, error) {
existingFile, exists := CheckISRCExists(outputDir, isrc)
result := map[string]interface{}{
"exists": exists,
"filepath": existingFile,
}
jsonBytes, err := json.Marshal(result)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// CheckDuplicatesBatch checks multiple files for duplicates in parallel
// Uses ISRC index for fast lookup (builds index once, checks all tracks)
// tracksJSON format: [{"isrc": "...", "track_name": "...", "artist_name": "..."}, ...]
// Returns JSON array of results
func CheckDuplicatesBatch(outputDir, tracksJSON string) (string, error) {
return CheckFilesExistParallel(outputDir, tracksJSON)
}
// PreBuildDuplicateIndex pre-builds the ISRC index for a directory
// Call this when entering album/playlist screen for faster duplicate checking
func PreBuildDuplicateIndex(outputDir string) error {
return PreBuildISRCIndex(outputDir)
}
// InvalidateDuplicateIndex clears the ISRC index cache for a directory
// Call this when files are deleted or moved
func InvalidateDuplicateIndex(outputDir string) {
InvalidateISRCCache(outputDir)
}
// BuildFilename builds a filename from template and metadata
func BuildFilename(template string, metadataJSON string) (string, error) {
var metadata map[string]interface{}
if err := json.Unmarshal([]byte(metadataJSON), &metadata); err != nil {
return "", err
}
filename := buildFilenameFromTemplate(template, metadata)
return filename, nil
}
@@ -345,15 +640,26 @@ func FetchLyrics(spotifyID, trackName, artistName string) (string, error) {
return string(jsonBytes), nil
}
// GetLyricsLRC fetches lyrics and converts to LRC format string
func GetLyricsLRC(spotifyID, trackName, artistName string) (string, error) {
// GetLyricsLRC fetches lyrics and converts to LRC format string with metadata headers
// First tries to extract from file, then falls back to fetching from internet
func GetLyricsLRC(spotifyID, trackName, artistName string, filePath string) (string, error) {
// Try to extract from file first (much faster)
if filePath != "" {
lyrics, err := ExtractLyrics(filePath)
if err == nil && lyrics != "" {
return lyrics, nil
}
}
// Fallback to fetching from internet
client := NewLyricsClient()
lyrics, err := client.FetchLyricsAllSources(spotifyID, trackName, artistName)
lyricsData, err := client.FetchLyricsAllSources(spotifyID, trackName, artistName)
if err != nil {
return "", err
}
lrcContent := convertToLRC(lyrics)
// Convert to LRC format with metadata headers (like PC version)
lrcContent := convertToLRCWithMetadata(lyricsData, trackName, artistName)
return lrcContent, nil
}
@@ -373,10 +679,339 @@ func EmbedLyricsToFile(filePath, lyrics string) (string, error) {
return string(jsonBytes), nil
}
// PreWarmTrackCacheJSON pre-warms the track ID cache for album/playlist tracks
// tracksJSON is a JSON array of objects with: isrc, track_name, artist_name, spotify_id, service
// This runs in background and returns immediately
func PreWarmTrackCacheJSON(tracksJSON string) (string, error) {
var tracks []struct {
ISRC string `json:"isrc"`
TrackName string `json:"track_name"`
ArtistName string `json:"artist_name"`
SpotifyID string `json:"spotify_id"`
Service string `json:"service"`
}
if err := json.Unmarshal([]byte(tracksJSON), &tracks); err != nil {
return errorResponse("Invalid JSON: " + err.Error())
}
// Convert to PreWarmCacheRequest
requests := make([]PreWarmCacheRequest, len(tracks))
for i, t := range tracks {
requests[i] = PreWarmCacheRequest{
ISRC: t.ISRC,
TrackName: t.TrackName,
ArtistName: t.ArtistName,
SpotifyID: t.SpotifyID,
Service: t.Service,
}
}
// Run in background
go PreWarmTrackCache(requests)
resp := map[string]interface{}{
"success": true,
"message": fmt.Sprintf("Pre-warming cache for %d tracks in background", len(tracks)),
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
}
// GetTrackCacheSize returns the current track ID cache size
func GetTrackCacheSize() int {
return GetCacheSize()
}
// ClearTrackIDCache clears the track ID cache
func ClearTrackIDCache() {
ClearTrackCache()
}
// ==================== DEEZER API ====================
// SearchDeezerAll searches for tracks and artists on Deezer (no API key required)
// Returns JSON with tracks and artists arrays
func SearchDeezerAll(query string, trackLimit, artistLimit int) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 15*time.Second)
defer cancel()
client := GetDeezerClient()
results, err := client.SearchAll(ctx, query, trackLimit, artistLimit)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(results)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// GetDeezerMetadata fetches metadata from Deezer URL or ID
// resourceType: track, album, artist, playlist
// resourceID: Deezer ID
func GetDeezerMetadata(resourceType, resourceID string) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
client := GetDeezerClient()
var data interface{}
var err error
switch resourceType {
case "track":
data, err = client.GetTrack(ctx, resourceID)
case "album":
data, err = client.GetAlbum(ctx, resourceID)
case "artist":
data, err = client.GetArtist(ctx, resourceID)
case "playlist":
data, err = client.GetPlaylist(ctx, resourceID)
default:
return "", fmt.Errorf("unsupported Deezer resource type: %s", resourceType)
}
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(data)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// ParseDeezerURLExport parses a Deezer URL and returns type and ID
func ParseDeezerURLExport(url string) (string, error) {
resourceType, resourceID, err := parseDeezerURL(url)
if err != nil {
return "", err
}
result := map[string]string{
"type": resourceType,
"id": resourceID,
}
jsonBytes, err := json.Marshal(result)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// SearchDeezerByISRC searches for a track by ISRC on Deezer
func SearchDeezerByISRC(isrc string) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
client := GetDeezerClient()
track, err := client.SearchByISRC(ctx, isrc)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(track)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// ConvertSpotifyToDeezer converts a Spotify track/album ID to Deezer and fetches metadata
// This uses SongLink API to find the Deezer equivalent, then fetches from Deezer
// Useful when Spotify API is rate limited
func ConvertSpotifyToDeezer(resourceType, spotifyID string) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
songlink := NewSongLinkClient()
deezerClient := GetDeezerClient()
// For tracks, we can use SongLink to get Deezer ID
if resourceType == "track" {
deezerID, err := songlink.GetDeezerIDFromSpotify(spotifyID)
if err != nil {
return "", fmt.Errorf("could not find Deezer equivalent: %w", err)
}
// Fetch metadata from Deezer
trackResp, err := deezerClient.GetTrack(ctx, deezerID)
if err != nil {
return "", fmt.Errorf("failed to fetch Deezer metadata: %w", err)
}
jsonBytes, err := json.Marshal(trackResp)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// For albums, SongLink also provides mapping
if resourceType == "album" {
deezerID, err := songlink.GetDeezerAlbumIDFromSpotify(spotifyID)
if err != nil {
return "", fmt.Errorf("could not find Deezer album: %w", err)
}
// Fetch album metadata from Deezer
albumResp, err := deezerClient.GetAlbum(ctx, deezerID)
if err != nil {
return "", fmt.Errorf("failed to fetch Deezer album metadata: %w", err)
}
jsonBytes, err := json.Marshal(albumResp)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// For artists/playlists, SongLink doesn't provide direct mapping
return "", fmt.Errorf("Spotify to Deezer conversion only supported for tracks and albums. Please search by name for %s", resourceType)
}
// GetSpotifyMetadataWithDeezerFallback tries Spotify first, falls back to Deezer on rate limit
func GetSpotifyMetadataWithDeezerFallback(spotifyURL string) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
// Try Spotify first
client := NewSpotifyMetadataClient()
data, err := client.GetFilteredData(ctx, spotifyURL, false, 0)
if err == nil {
jsonBytes, err := json.Marshal(data)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// Check if it's a rate limit error
errStr := strings.ToLower(err.Error())
if !strings.Contains(errStr, "429") && !strings.Contains(errStr, "rate") && !strings.Contains(errStr, "limit") {
// Not a rate limit error, return original error
return "", err
}
// Rate limited - try Deezer fallback for tracks and albums
parsed, parseErr := parseSpotifyURI(spotifyURL)
if parseErr != nil {
return "", fmt.Errorf("spotify rate limited and failed to parse URL: %w", parseErr)
}
GoLog("[Fallback] Spotify rate limited for %s, trying Deezer...\n", parsed.Type)
if parsed.Type == "track" || parsed.Type == "album" {
// Convert to Deezer
return ConvertSpotifyToDeezer(parsed.Type, parsed.ID)
}
// Artist and playlist not supported for fallback
if parsed.Type == "artist" {
return "", fmt.Errorf("spotify rate limited. Artist pages require Spotify API - please try again later")
}
return "", fmt.Errorf("spotify rate limited. Playlists are user-specific and require Spotify API")
}
// ==================== SONGLINK DEEZER SUPPORT ====================
// CheckAvailabilityFromDeezerID checks track availability using Deezer track ID as source
// Returns JSON with availability info for Spotify, Tidal, Amazon, etc.
func CheckAvailabilityFromDeezerID(deezerTrackID string) (string, error) {
client := NewSongLinkClient()
availability, err := client.CheckAvailabilityFromDeezer(deezerTrackID)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(availability)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// CheckAvailabilityByPlatformID checks track availability using any platform as source
// platform: "spotify", "deezer", "tidal", "amazonMusic", "appleMusic", "youtube"
// entityType: "song" or "album"
// entityID: the ID on that platform
func CheckAvailabilityByPlatformID(platform, entityType, entityID string) (string, error) {
client := NewSongLinkClient()
availability, err := client.CheckAvailabilityByPlatform(platform, entityType, entityID)
if err != nil {
return "", err
}
jsonBytes, err := json.Marshal(availability)
if err != nil {
return "", err
}
return string(jsonBytes), nil
}
// GetSpotifyIDFromDeezerTrack converts a Deezer track ID to Spotify track ID
func GetSpotifyIDFromDeezerTrack(deezerTrackID string) (string, error) {
client := NewSongLinkClient()
return client.GetSpotifyIDFromDeezer(deezerTrackID)
}
// GetTidalURLFromDeezerTrack converts a Deezer track ID to Tidal URL
func GetTidalURLFromDeezerTrack(deezerTrackID string) (string, error) {
client := NewSongLinkClient()
return client.GetTidalURLFromDeezer(deezerTrackID)
}
// GetAmazonURLFromDeezerTrack converts a Deezer track ID to Amazon Music URL
func GetAmazonURLFromDeezerTrack(deezerTrackID string) (string, error) {
client := NewSongLinkClient()
return client.GetAmazonURLFromDeezer(deezerTrackID)
}
func errorResponse(msg string) (string, error) {
// Determine error type based on message
errorType := "unknown"
lowerMsg := strings.ToLower(msg)
if strings.Contains(lowerMsg, "isp blocking") ||
strings.Contains(lowerMsg, "try using vpn") ||
strings.Contains(lowerMsg, "change dns") {
errorType = "isp_blocked"
} else if strings.Contains(lowerMsg, "not found") ||
strings.Contains(lowerMsg, "not available") ||
strings.Contains(lowerMsg, "no results") ||
strings.Contains(lowerMsg, "track not found") ||
strings.Contains(lowerMsg, "all services failed") {
errorType = "not_found"
} else if strings.Contains(lowerMsg, "rate limit") ||
strings.Contains(lowerMsg, "429") ||
strings.Contains(lowerMsg, "too many requests") {
errorType = "rate_limit"
} else if strings.Contains(lowerMsg, "network") ||
strings.Contains(lowerMsg, "connection") ||
strings.Contains(lowerMsg, "timeout") ||
strings.Contains(lowerMsg, "dial") {
errorType = "network"
}
resp := DownloadResponse{
Success: false,
Error: msg,
Success: false,
Error: msg,
ErrorType: errorType,
}
jsonBytes, _ := json.Marshal(resp)
return string(jsonBytes), nil
+271 -16
View File
@@ -1,36 +1,75 @@
package gobackend
import (
"crypto/tls"
"errors"
"fmt"
"io"
"math/rand"
"net"
"net/http"
"net/url"
"strconv"
"strings"
"syscall"
"time"
)
// HTTP utility functions for consistent request handling across all downloaders
// User-Agent pool for Android Chrome browsers
var userAgentTemplates = []string{
"Mozilla/5.0 (Linux; Android %d; SM-G%d) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Mobile Safari/537.36",
"Mozilla/5.0 (Linux; Android %d; Pixel %d) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Mobile Safari/537.36",
"Mozilla/5.0 (Linux; Android %d; SM-A%d) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Mobile Safari/537.36",
"Mozilla/5.0 (Linux; Android %d; Redmi Note %d) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Mobile Safari/537.36",
// getRandomUserAgent generates a random Windows Chrome User-Agent string
// Uses same format as PC version (referensi/backend/spotify_metadata.go) for better API compatibility
func getRandomUserAgent() string {
// Windows 10/11 Chrome format - same as PC version for maximum compatibility
// Some APIs may block mobile User-Agents, so we use desktop format
winMajor := rand.Intn(2) + 10 // Windows 10 or 11
chromeVersion := rand.Intn(25) + 100 // Chrome 100-124
chromeBuild := rand.Intn(1500) + 3000 // Build 3000-4500
chromePatch := rand.Intn(65) + 60 // Patch 60-125
return fmt.Sprintf(
"Mozilla/5.0 (Windows NT %d.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Safari/537.36",
winMajor,
chromeVersion,
chromeBuild,
chromePatch,
)
}
// getRandomUserAgent generates a random browser-like User-Agent string (Android Chrome format)
func getRandomUserAgent() string {
template := userAgentTemplates[rand.Intn(len(userAgentTemplates))]
// getRandomMacUserAgent generates a random Mac Chrome User-Agent string
// Alternative format matching referensi/backend/spotify_metadata.go exactly
func getRandomMacUserAgent() string {
macMajor := rand.Intn(4) + 11 // macOS 11-14
macMinor := rand.Intn(5) + 4 // Minor 4-8
webkitMajor := rand.Intn(7) + 530
webkitMinor := rand.Intn(7) + 30
chromeMajor := rand.Intn(25) + 80
chromeBuild := rand.Intn(1500) + 3000
chromePatch := rand.Intn(65) + 60
safariMajor := rand.Intn(7) + 530
safariMinor := rand.Intn(6) + 30
androidVersion := rand.Intn(5) + 10 // Android 10-14
deviceModel := rand.Intn(900) + 100 // Random model number
chromeVersion := rand.Intn(25) + 100 // Chrome 100-124
chromeBuild := rand.Intn(5000) + 5000
chromePatch := rand.Intn(200) + 100
return fmt.Sprintf(
"Mozilla/5.0 (Macintosh; Intel Mac OS X 10_%d_%d) AppleWebKit/%d.%d (KHTML, like Gecko) Chrome/%d.0.%d.%d Safari/%d.%d",
macMajor,
macMinor,
webkitMajor,
webkitMinor,
chromeMajor,
chromeBuild,
chromePatch,
safariMajor,
safariMinor,
)
}
return fmt.Sprintf(template, androidVersion, deviceModel, chromeVersion, chromeBuild, chromePatch)
// getRandomDesktopUserAgent randomly picks between Windows and Mac User-Agent
func getRandomDesktopUserAgent() string {
if rand.Intn(2) == 0 {
return getRandomUserAgent() // Windows
}
return getRandomMacUserAgent() // Mac
}
// Default timeout values
@@ -43,6 +82,7 @@ const (
)
// Shared transport with connection pooling to prevent TCP exhaustion
// Optimized for large file downloads (FLAC ~30-50MB)
var sharedTransport = &http.Transport{
DialContext: (&net.Dialer{
Timeout: 30 * time.Second,
@@ -56,6 +96,9 @@ var sharedTransport = &http.Transport{
ExpectContinueTimeout: 1 * time.Second,
DisableKeepAlives: false, // Enable keep-alives for connection reuse
ForceAttemptHTTP2: true,
WriteBufferSize: 64 * 1024, // 64KB write buffer
ReadBufferSize: 64 * 1024, // 64KB read buffer
DisableCompression: true, // FLAC is already compressed
}
// Shared HTTP client for general requests (reuses connections)
@@ -96,9 +139,15 @@ func CloseIdleConnections() {
}
// DoRequestWithUserAgent executes an HTTP request with a random User-Agent header
// Also checks for ISP blocking on errors
func DoRequestWithUserAgent(client *http.Client, req *http.Request) (*http.Response, error) {
req.Header.Set("User-Agent", getRandomUserAgent())
return client.Do(req)
resp, err := client.Do(req)
if err != nil {
// Check for ISP blocking
CheckAndLogISPBlocking(err, req.URL.String(), "HTTP")
}
return resp, err
}
// RetryConfig holds configuration for retry logic
@@ -121,9 +170,11 @@ func DefaultRetryConfig() RetryConfig {
// DoRequestWithRetry executes an HTTP request with retry logic and exponential backoff
// Handles 429 (Too Many Requests) responses with Retry-After header
// Also detects and logs ISP blocking
func DoRequestWithRetry(client *http.Client, req *http.Request, config RetryConfig) (*http.Response, error) {
var lastErr error
delay := config.InitialDelay
requestURL := req.URL.String()
for attempt := 0; attempt <= config.MaxRetries; attempt++ {
// Clone request for retry (body needs to be re-readable)
@@ -133,7 +184,16 @@ func DoRequestWithRetry(client *http.Client, req *http.Request, config RetryConf
resp, err := client.Do(reqCopy)
if err != nil {
lastErr = err
// Check for ISP blocking on network errors
if CheckAndLogISPBlocking(err, requestURL, "HTTP") {
// Don't retry if ISP blocking is detected - it won't help
return nil, WrapErrorWithISPCheck(err, requestURL, "HTTP")
}
if attempt < config.MaxRetries {
GoLog("[HTTP] Request failed (attempt %d/%d): %v, retrying in %v...\n",
attempt+1, config.MaxRetries+1, err, delay)
time.Sleep(delay)
delay = calculateNextDelay(delay, config)
}
@@ -154,17 +214,43 @@ func DoRequestWithRetry(client *http.Client, req *http.Request, config RetryConf
}
lastErr = fmt.Errorf("rate limited (429)")
if attempt < config.MaxRetries {
GoLog("[HTTP] Rate limited, waiting %v before retry...\n", delay)
time.Sleep(delay)
delay = calculateNextDelay(delay, config)
}
continue
}
// Check for ISP blocking via HTTP status codes
// Some ISPs return 403 or 451 when blocking content
if resp.StatusCode == 403 || resp.StatusCode == 451 {
body, _ := io.ReadAll(resp.Body)
resp.Body.Close()
bodyStr := strings.ToLower(string(body))
// Check if response looks like ISP blocking page
ispBlockingIndicators := []string{
"blocked", "forbidden", "access denied", "not available in your",
"restricted", "censored", "unavailable for legal", "blocked by",
}
for _, indicator := range ispBlockingIndicators {
if strings.Contains(bodyStr, indicator) {
LogError("HTTP", "ISP BLOCKING DETECTED via HTTP %d response", resp.StatusCode)
LogError("HTTP", "Domain: %s", req.URL.Host)
LogError("HTTP", "Response contains: %s", indicator)
LogError("HTTP", "Suggestion: Try using a VPN or changing your DNS to 1.1.1.1 or 8.8.8.8")
return nil, fmt.Errorf("ISP blocking detected for %s (HTTP %d) - try using VPN or change DNS", req.URL.Host, resp.StatusCode)
}
}
}
// Server errors (5xx) - retry
if resp.StatusCode >= 500 {
resp.Body.Close()
lastErr = fmt.Errorf("server error: HTTP %d", resp.StatusCode)
if attempt < config.MaxRetries {
GoLog("[HTTP] Server error %d, retrying in %v...\n", resp.StatusCode, delay)
time.Sleep(delay)
delay = calculateNextDelay(delay, config)
}
@@ -258,3 +344,172 @@ func BuildErrorMessage(apiURL string, statusCode int, responsePreview string) st
}
return msg
}
// ISPBlockingError represents an error caused by ISP blocking
type ISPBlockingError struct {
Domain string
Reason string
OriginalErr error
}
func (e *ISPBlockingError) Error() string {
return fmt.Sprintf("ISP blocking detected for %s: %s", e.Domain, e.Reason)
}
// IsISPBlocking checks if an error is likely caused by ISP blocking
// Returns the ISPBlockingError if detected, nil otherwise
func IsISPBlocking(err error, requestURL string) *ISPBlockingError {
if err == nil {
return nil
}
// Extract domain from URL
domain := extractDomain(requestURL)
errStr := strings.ToLower(err.Error())
// Check for DNS resolution failure (common ISP blocking method)
var dnsErr *net.DNSError
if errors.As(err, &dnsErr) {
if dnsErr.IsNotFound || dnsErr.IsTemporary {
return &ISPBlockingError{
Domain: domain,
Reason: "DNS resolution failed - domain may be blocked by ISP",
OriginalErr: err,
}
}
}
// Check for connection refused (ISP firewall blocking)
var opErr *net.OpError
if errors.As(err, &opErr) {
if opErr.Op == "dial" {
// Check for specific syscall errors
var syscallErr syscall.Errno
if errors.As(opErr.Err, &syscallErr) {
switch syscallErr {
case syscall.ECONNREFUSED:
return &ISPBlockingError{
Domain: domain,
Reason: "Connection refused - port may be blocked by ISP/firewall",
OriginalErr: err,
}
case syscall.ECONNRESET:
return &ISPBlockingError{
Domain: domain,
Reason: "Connection reset - ISP may be intercepting traffic",
OriginalErr: err,
}
case syscall.ETIMEDOUT:
return &ISPBlockingError{
Domain: domain,
Reason: "Connection timed out - ISP may be blocking access",
OriginalErr: err,
}
case syscall.ENETUNREACH:
return &ISPBlockingError{
Domain: domain,
Reason: "Network unreachable - ISP may be blocking route",
OriginalErr: err,
}
case syscall.EHOSTUNREACH:
return &ISPBlockingError{
Domain: domain,
Reason: "Host unreachable - ISP may be blocking destination",
OriginalErr: err,
}
}
}
}
}
// Check for TLS handshake failure (ISP MITM or blocking HTTPS)
var tlsErr *tls.RecordHeaderError
if errors.As(err, &tlsErr) {
return &ISPBlockingError{
Domain: domain,
Reason: "TLS handshake failed - ISP may be intercepting HTTPS traffic",
OriginalErr: err,
}
}
// Check error message patterns for common ISP blocking indicators
blockingPatterns := []struct {
pattern string
reason string
}{
{"connection reset by peer", "Connection reset - ISP may be intercepting traffic"},
{"connection refused", "Connection refused - port may be blocked"},
{"no such host", "DNS lookup failed - domain may be blocked by ISP"},
{"i/o timeout", "Connection timed out - ISP may be blocking access"},
{"network is unreachable", "Network unreachable - ISP may be blocking route"},
{"tls: ", "TLS error - ISP may be intercepting HTTPS traffic"},
{"certificate", "Certificate error - ISP may be using MITM proxy"},
{"eof", "Connection closed unexpectedly - ISP may be blocking"},
{"context deadline exceeded", "Request timed out - ISP may be throttling"},
}
for _, bp := range blockingPatterns {
if strings.Contains(errStr, bp.pattern) {
return &ISPBlockingError{
Domain: domain,
Reason: bp.reason,
OriginalErr: err,
}
}
}
return nil
}
// CheckAndLogISPBlocking checks for ISP blocking and logs if detected
// Returns true if ISP blocking was detected
func CheckAndLogISPBlocking(err error, requestURL string, tag string) bool {
ispErr := IsISPBlocking(err, requestURL)
if ispErr != nil {
LogError(tag, "ISP BLOCKING DETECTED: %s", ispErr.Error())
LogError(tag, "Domain: %s", ispErr.Domain)
LogError(tag, "Reason: %s", ispErr.Reason)
LogError(tag, "Original error: %v", ispErr.OriginalErr)
LogError(tag, "Suggestion: Try using a VPN or changing your DNS to 1.1.1.1 or 8.8.8.8")
return true
}
return false
}
// extractDomain extracts the domain from a URL string
func extractDomain(rawURL string) string {
if rawURL == "" {
return "unknown"
}
parsed, err := url.Parse(rawURL)
if err != nil {
// Try to extract domain manually
rawURL = strings.TrimPrefix(rawURL, "https://")
rawURL = strings.TrimPrefix(rawURL, "http://")
if idx := strings.Index(rawURL, "/"); idx > 0 {
return rawURL[:idx]
}
return rawURL
}
if parsed.Host != "" {
return parsed.Host
}
return "unknown"
}
// WrapErrorWithISPCheck wraps an error with ISP blocking detection
// If ISP blocking is detected, returns a more descriptive error
func WrapErrorWithISPCheck(err error, requestURL string, tag string) error {
if err == nil {
return nil
}
if CheckAndLogISPBlocking(err, requestURL, tag) {
domain := extractDomain(requestURL)
return fmt.Errorf("ISP blocking detected for %s - try using VPN or change DNS to 1.1.1.1/8.8.8.8: %w", domain, err)
}
return err
}
+203
View File
@@ -0,0 +1,203 @@
package gobackend
import (
"encoding/json"
"fmt"
"strings"
"sync"
"time"
)
// LogEntry represents a single log entry
type LogEntry struct {
Timestamp string `json:"timestamp"`
Level string `json:"level"`
Tag string `json:"tag"`
Message string `json:"message"`
}
// LogBuffer stores logs in a circular buffer for retrieval by Flutter
type LogBuffer struct {
entries []LogEntry
maxSize int
mu sync.RWMutex
loggingEnabled bool // Whether logging is enabled (controlled by Flutter)
}
var (
globalLogBuffer *LogBuffer
logBufferOnce sync.Once
)
// GetLogBuffer returns the singleton log buffer instance
func GetLogBuffer() *LogBuffer {
logBufferOnce.Do(func() {
globalLogBuffer = &LogBuffer{
entries: make([]LogEntry, 0, 500),
maxSize: 500,
loggingEnabled: false, // Default: disabled for performance (user can enable in settings)
}
})
return globalLogBuffer
}
// SetLoggingEnabled enables or disables logging
func (lb *LogBuffer) SetLoggingEnabled(enabled bool) {
lb.mu.Lock()
defer lb.mu.Unlock()
lb.loggingEnabled = enabled
}
// IsLoggingEnabled returns whether logging is enabled
func (lb *LogBuffer) IsLoggingEnabled() bool {
lb.mu.RLock()
defer lb.mu.RUnlock()
return lb.loggingEnabled
}
// Add adds a log entry to the buffer
func (lb *LogBuffer) Add(level, tag, message string) {
lb.mu.Lock()
defer lb.mu.Unlock()
// Skip if logging is disabled (except for errors which are always logged)
if !lb.loggingEnabled && level != "ERROR" && level != "FATAL" {
return
}
entry := LogEntry{
Timestamp: time.Now().Format("15:04:05.000"),
Level: level,
Tag: tag,
Message: message,
}
if len(lb.entries) >= lb.maxSize {
// Remove oldest entry
lb.entries = lb.entries[1:]
}
lb.entries = append(lb.entries, entry)
// Also print to logcat for debugging
fmt.Printf("[%s] %s\n", tag, message)
}
// GetAll returns all log entries as JSON
func (lb *LogBuffer) GetAll() string {
lb.mu.RLock()
defer lb.mu.RUnlock()
jsonBytes, _ := json.Marshal(lb.entries)
return string(jsonBytes)
}
// getSince returns log entries since the given index (internal use)
func (lb *LogBuffer) getSince(index int) ([]LogEntry, int) {
lb.mu.RLock()
defer lb.mu.RUnlock()
if index < 0 {
index = 0
}
if index >= len(lb.entries) {
return []LogEntry{}, len(lb.entries)
}
entries := lb.entries[index:]
return entries, len(lb.entries)
}
// Clear clears all log entries
func (lb *LogBuffer) Clear() {
lb.mu.Lock()
defer lb.mu.Unlock()
lb.entries = lb.entries[:0]
}
// Count returns the number of log entries
func (lb *LogBuffer) Count() int {
lb.mu.RLock()
defer lb.mu.RUnlock()
return len(lb.entries)
}
// Helper functions for logging with different levels
func LogDebug(tag, format string, args ...interface{}) {
GetLogBuffer().Add("DEBUG", tag, fmt.Sprintf(format, args...))
}
func LogInfo(tag, format string, args ...interface{}) {
GetLogBuffer().Add("INFO", tag, fmt.Sprintf(format, args...))
}
func LogWarn(tag, format string, args ...interface{}) {
GetLogBuffer().Add("WARN", tag, fmt.Sprintf(format, args...))
}
func LogError(tag, format string, args ...interface{}) {
GetLogBuffer().Add("ERROR", tag, fmt.Sprintf(format, args...))
}
// GoLog is a drop-in replacement for fmt.Printf that also logs to buffer
// It parses the tag from the format string if it starts with [Tag]
func GoLog(format string, args ...interface{}) {
message := fmt.Sprintf(format, args...)
message = strings.TrimSuffix(message, "\n")
// Extract tag from message if present (e.g., "[Tidal] message")
tag := "Go"
level := "INFO"
if strings.HasPrefix(message, "[") {
endBracket := strings.Index(message, "]")
if endBracket > 1 {
tag = message[1:endBracket]
message = strings.TrimSpace(message[endBracket+1:])
}
}
// Determine level from message content
msgLower := strings.ToLower(message)
if strings.Contains(msgLower, "error") || strings.Contains(msgLower, "failed") || strings.HasPrefix(message, "✗") {
level = "ERROR"
} else if strings.Contains(msgLower, "warning") || strings.Contains(msgLower, "warn") {
level = "WARN"
} else if strings.HasPrefix(message, "✓") || strings.Contains(msgLower, "success") || strings.Contains(msgLower, "match found") {
level = "INFO"
} else if strings.Contains(msgLower, "searching") || strings.Contains(msgLower, "trying") || strings.Contains(msgLower, "found") {
level = "DEBUG"
}
GetLogBuffer().Add(level, tag, message)
}
// Exported functions for Flutter
// GetLogs returns all logs as JSON array
func GetLogs() string {
return GetLogBuffer().GetAll()
}
// GetLogsSince returns logs since the given index
// Returns JSON: {"logs": [...], "next_index": N}
func GetLogsSince(index int) string {
entries, nextIndex := GetLogBuffer().getSince(index)
logsJson, _ := json.Marshal(entries)
result := fmt.Sprintf(`{"logs":%s,"next_index":%d}`, string(logsJson), nextIndex)
return result
}
// ClearLogs clears all logs
func ClearLogs() {
GetLogBuffer().Clear()
}
// GetLogCount returns the number of log entries
func GetLogCount() int {
return GetLogBuffer().Count()
}
// SetLoggingEnabled enables or disables logging from Flutter
func SetLoggingEnabled(enabled bool) {
GetLogBuffer().SetLoggingEnabled(enabled)
}
+41
View File
@@ -248,6 +248,8 @@ func msToLRCTimestamp(ms int64) string {
return fmt.Sprintf("[%02d:%02d.%02d]", minutes, seconds, centiseconds)
}
// convertToLRC converts lyrics to LRC format string (without metadata headers)
// Use convertToLRCWithMetadata for full LRC with headers
func convertToLRC(lyrics *LyricsResponse) string {
if lyrics == nil || len(lyrics.Lines) == 0 {
return ""
@@ -272,6 +274,45 @@ func convertToLRC(lyrics *LyricsResponse) string {
return builder.String()
}
// convertToLRCWithMetadata converts lyrics to LRC format with metadata headers
// Includes [ti:], [ar:], [by:] headers
func convertToLRCWithMetadata(lyrics *LyricsResponse, trackName, artistName string) string {
if lyrics == nil || len(lyrics.Lines) == 0 {
return ""
}
var builder strings.Builder
// Add metadata headers
builder.WriteString(fmt.Sprintf("[ti:%s]\n", trackName))
builder.WriteString(fmt.Sprintf("[ar:%s]\n", artistName))
builder.WriteString("[by:SpotiFLAC-Mobile]\n")
builder.WriteString("\n")
// Add lyrics lines
if lyrics.SyncType == "LINE_SYNCED" {
for _, line := range lyrics.Lines {
if line.Words == "" {
continue
}
timestamp := msToLRCTimestamp(line.StartTimeMs)
builder.WriteString(timestamp)
builder.WriteString(line.Words)
builder.WriteString("\n")
}
} else {
for _, line := range lyrics.Lines {
if line.Words == "" {
continue
}
builder.WriteString(line.Words)
builder.WriteString("\n")
}
}
return builder.String()
}
func simplifyTrackName(name string) string {
patterns := []string{
`\s*\(feat\..*?\)`,
+500 -15
View File
@@ -4,6 +4,7 @@ import (
"fmt"
"os"
"strconv"
"strings"
"github.com/go-flac/flacpicture"
"github.com/go-flac/flacvorbis"
@@ -57,7 +58,7 @@ func EmbedMetadata(filePath string, metadata Metadata, coverPath string) error {
setComment(cmt, "ALBUM", metadata.Album)
setComment(cmt, "ALBUMARTIST", metadata.AlbumArtist)
setComment(cmt, "DATE", metadata.Date)
if metadata.TrackNumber > 0 {
if metadata.TotalTracks > 0 {
setComment(cmt, "TRACKNUMBER", fmt.Sprintf("%d/%d", metadata.TrackNumber, metadata.TotalTracks))
@@ -65,15 +66,15 @@ func EmbedMetadata(filePath string, metadata Metadata, coverPath string) error {
setComment(cmt, "TRACKNUMBER", strconv.Itoa(metadata.TrackNumber))
}
}
if metadata.DiscNumber > 0 {
setComment(cmt, "DISCNUMBER", strconv.Itoa(metadata.DiscNumber))
}
if metadata.ISRC != "" {
setComment(cmt, "ISRC", metadata.ISRC)
}
if metadata.Description != "" {
setComment(cmt, "DESCRIPTION", metadata.Description)
}
@@ -104,7 +105,7 @@ func EmbedMetadata(filePath string, metadata Metadata, coverPath string) error {
f.Meta = append(f.Meta[:i], f.Meta[i+1:]...)
}
}
picture, err := flacpicture.NewFromImageData(
flacpicture.PictureTypeFrontCover,
"Front Cover",
@@ -161,7 +162,7 @@ func EmbedMetadataWithCoverData(filePath string, metadata Metadata, coverData []
setComment(cmt, "ALBUM", metadata.Album)
setComment(cmt, "ALBUMARTIST", metadata.AlbumArtist)
setComment(cmt, "DATE", metadata.Date)
if metadata.TrackNumber > 0 {
if metadata.TotalTracks > 0 {
setComment(cmt, "TRACKNUMBER", fmt.Sprintf("%d/%d", metadata.TrackNumber, metadata.TotalTracks))
@@ -169,15 +170,15 @@ func EmbedMetadataWithCoverData(filePath string, metadata Metadata, coverData []
setComment(cmt, "TRACKNUMBER", strconv.Itoa(metadata.TrackNumber))
}
}
if metadata.DiscNumber > 0 {
setComment(cmt, "DISCNUMBER", strconv.Itoa(metadata.DiscNumber))
}
if metadata.ISRC != "" {
setComment(cmt, "ISRC", metadata.ISRC)
}
if metadata.Description != "" {
setComment(cmt, "DESCRIPTION", metadata.Description)
}
@@ -203,7 +204,7 @@ func EmbedMetadataWithCoverData(filePath string, metadata Metadata, coverData []
f.Meta = append(f.Meta[:i], f.Meta[i+1:]...)
}
}
picture, err := flacpicture.NewFromImageData(
flacpicture.PictureTypeFrontCover,
"Front Cover",
@@ -256,11 +257,30 @@ func ReadMetadata(filePath string) (*Metadata, error) {
if trackNum != "" {
fmt.Sscanf(trackNum, "%d", &metadata.TrackNumber)
}
// Also try lowercase variant (some encoders use lowercase)
if metadata.TrackNumber == 0 {
trackNum = getComment(cmt, "TRACK")
if trackNum != "" {
fmt.Sscanf(trackNum, "%d", &metadata.TrackNumber)
}
}
discNum := getComment(cmt, "DISCNUMBER")
if discNum != "" {
fmt.Sscanf(discNum, "%d", &metadata.DiscNumber)
}
// Also try DISC variant
if metadata.DiscNumber == 0 {
discNum = getComment(cmt, "DISC")
if discNum != "" {
fmt.Sscanf(discNum, "%d", &metadata.DiscNumber)
}
}
// Try DATE variants
if metadata.Date == "" {
metadata.Date = getComment(cmt, "YEAR")
}
break
}
@@ -273,10 +293,16 @@ func setComment(cmt *flacvorbis.MetaDataBlockVorbisComment, key, value string) {
if value == "" {
return
}
// Remove existing
// Remove existing (case-insensitive comparison for Vorbis comments)
keyUpper := strings.ToUpper(key)
for i := len(cmt.Comments) - 1; i >= 0; i-- {
if len(cmt.Comments[i]) > len(key)+1 && cmt.Comments[i][:len(key)+1] == key+"=" {
cmt.Comments = append(cmt.Comments[:i], cmt.Comments[i+1:]...)
comment := cmt.Comments[i]
eqIdx := strings.Index(comment, "=")
if eqIdx > 0 {
existingKey := strings.ToUpper(comment[:eqIdx])
if existingKey == keyUpper {
cmt.Comments = append(cmt.Comments[:i], cmt.Comments[i+1:]...)
}
}
}
// Add new
@@ -284,9 +310,14 @@ func setComment(cmt *flacvorbis.MetaDataBlockVorbisComment, key, value string) {
}
func getComment(cmt *flacvorbis.MetaDataBlockVorbisComment, key string) string {
keyUpper := strings.ToUpper(key) + "="
for _, comment := range cmt.Comments {
if len(comment) > len(key)+1 && comment[:len(key)+1] == key+"=" {
return comment[len(key)+1:]
if len(comment) > len(key) {
// Case-insensitive comparison for Vorbis comments
commentUpper := strings.ToUpper(comment[:len(key)+1])
if commentUpper == keyUpper {
return comment[len(key)+1:]
}
}
}
return ""
@@ -335,3 +366,457 @@ func EmbedLyrics(filePath string, lyrics string) error {
return f.Save(filePath)
}
// ExtractLyrics extracts embedded lyrics from a FLAC file
func ExtractLyrics(filePath string) (string, error) {
f, err := flac.ParseFile(filePath)
if err != nil {
return "", fmt.Errorf("failed to parse FLAC file: %w", err)
}
for _, meta := range f.Meta {
if meta.Type == flac.VorbisComment {
cmt, err := flacvorbis.ParseFromMetaDataBlock(*meta)
if err != nil {
continue
}
// Try LYRICS tag first
lyrics, err := cmt.Get("LYRICS")
if err == nil && len(lyrics) > 0 && lyrics[0] != "" {
return lyrics[0], nil
}
// Fallback to UNSYNCEDLYRICS
lyrics, err = cmt.Get("UNSYNCEDLYRICS")
if err == nil && len(lyrics) > 0 && lyrics[0] != "" {
return lyrics[0], nil
}
}
}
return "", fmt.Errorf("no lyrics found in file")
}
// AudioQuality represents audio quality info from a FLAC file
type AudioQuality struct {
BitDepth int `json:"bit_depth"`
SampleRate int `json:"sample_rate"`
TotalSamples int64 `json:"total_samples"`
}
// GetAudioQuality reads bit depth and sample rate from a FLAC file's StreamInfo block
// FLAC StreamInfo is always the first metadata block after the 4-byte "fLaC" marker
// For M4A files, it delegates to GetM4AQuality
func GetAudioQuality(filePath string) (AudioQuality, error) {
file, err := os.Open(filePath)
if err != nil {
return AudioQuality{}, fmt.Errorf("failed to open file: %w", err)
}
defer file.Close()
// Read first 4 bytes to detect file type
marker := make([]byte, 4)
if _, err := file.Read(marker); err != nil {
return AudioQuality{}, fmt.Errorf("failed to read marker: %w", err)
}
// Check if it's a FLAC file
if string(marker) == "fLaC" {
// Continue reading FLAC metadata
// Read metadata block header (4 bytes)
header := make([]byte, 4)
if _, err := file.Read(header); err != nil {
return AudioQuality{}, fmt.Errorf("failed to read header: %w", err)
}
blockType := header[0] & 0x7F
if blockType != 0 {
return AudioQuality{}, fmt.Errorf("first block is not STREAMINFO")
}
// Read STREAMINFO block (34 bytes minimum)
streamInfo := make([]byte, 34)
if _, err := file.Read(streamInfo); err != nil {
return AudioQuality{}, fmt.Errorf("failed to read STREAMINFO: %w", err)
}
// Parse sample rate (20 bits starting at byte 10)
sampleRate := (int(streamInfo[10]) << 12) | (int(streamInfo[11]) << 4) | (int(streamInfo[12]) >> 4)
// Parse bits per sample (5 bits)
bitsPerSample := ((int(streamInfo[12]) & 0x01) << 4) | (int(streamInfo[13]) >> 4) + 1
// Parse total samples (36 bits: 4 bits from byte 13, all of bytes 14-17)
totalSamples := int64(streamInfo[13]&0x0F)<<32 |
int64(streamInfo[14])<<24 |
int64(streamInfo[15])<<16 |
int64(streamInfo[16])<<8 |
int64(streamInfo[17])
return AudioQuality{
BitDepth: bitsPerSample,
SampleRate: sampleRate,
TotalSamples: totalSamples,
}, nil
}
// Check if it's an M4A/MP4 file (starts with size + "ftyp")
// First 4 bytes are size, next 4 should be "ftyp"
file.Seek(0, 0) // Reset to beginning
header8 := make([]byte, 8)
if _, err := file.Read(header8); err != nil {
return AudioQuality{}, fmt.Errorf("failed to read header: %w", err)
}
if string(header8[4:8]) == "ftyp" {
// It's an M4A/MP4 file, use M4A quality reader
file.Close() // Close before calling GetM4AQuality which opens the file again
return GetM4AQuality(filePath)
}
return AudioQuality{}, fmt.Errorf("unsupported file format (not FLAC or M4A)")
}
// ========================================
// M4A (MP4/AAC) Metadata Embedding
// ========================================
// EmbedM4AMetadata embeds metadata into an M4A file using iTunes-style atoms
// This is a simplified implementation that writes metadata to the file
func EmbedM4AMetadata(filePath string, metadata Metadata, coverData []byte) error {
// Read the entire file
data, err := os.ReadFile(filePath)
if err != nil {
return fmt.Errorf("failed to read M4A file: %w", err)
}
// Find moov atom position
moovPos := findAtom(data, "moov", 0)
if moovPos < 0 {
return fmt.Errorf("moov atom not found in M4A file")
}
// Find udta atom inside moov, or create one
moovSize := int(data[moovPos]<<24 | data[moovPos+1]<<16 | data[moovPos+2]<<8 | data[moovPos+3])
udtaPos := findAtom(data, "udta", moovPos+8)
// Build new metadata atoms
metaAtom := buildMetaAtom(metadata, coverData)
var newData []byte
if udtaPos >= 0 && udtaPos < moovPos+moovSize {
// udta exists, find meta inside it or replace
udtaSize := int(data[udtaPos]<<24 | data[udtaPos+1]<<16 | data[udtaPos+2]<<8 | data[udtaPos+3])
metaPos := findAtom(data, "meta", udtaPos+8)
if metaPos >= 0 && metaPos < udtaPos+udtaSize {
// Replace existing meta atom
metaSize := int(data[metaPos]<<24 | data[metaPos+1]<<16 | data[metaPos+2]<<8 | data[metaPos+3])
newData = append(newData, data[:metaPos]...)
newData = append(newData, metaAtom...)
newData = append(newData, data[metaPos+metaSize:]...)
} else {
// Add meta atom to udta
newUdtaContent := append(data[udtaPos+8:udtaPos+udtaSize], metaAtom...)
newUdtaSize := 8 + len(newUdtaContent)
newUdta := make([]byte, 4)
newUdta[0] = byte(newUdtaSize >> 24)
newUdta[1] = byte(newUdtaSize >> 16)
newUdta[2] = byte(newUdtaSize >> 8)
newUdta[3] = byte(newUdtaSize)
newUdta = append(newUdta, []byte("udta")...)
newUdta = append(newUdta, newUdtaContent...)
newData = append(newData, data[:udtaPos]...)
newData = append(newData, newUdta...)
newData = append(newData, data[udtaPos+udtaSize:]...)
}
} else {
// Create new udta with meta
udtaContent := metaAtom
udtaSize := 8 + len(udtaContent)
newUdta := make([]byte, 4)
newUdta[0] = byte(udtaSize >> 24)
newUdta[1] = byte(udtaSize >> 16)
newUdta[2] = byte(udtaSize >> 8)
newUdta[3] = byte(udtaSize)
newUdta = append(newUdta, []byte("udta")...)
newUdta = append(newUdta, udtaContent...)
// Insert udta at end of moov
insertPos := moovPos + moovSize
newData = append(newData, data[:insertPos]...)
newData = append(newData, newUdta...)
newData = append(newData, data[insertPos:]...)
}
// Update moov size
newMoovSize := moovSize + len(newData) - len(data)
newData[moovPos] = byte(newMoovSize >> 24)
newData[moovPos+1] = byte(newMoovSize >> 16)
newData[moovPos+2] = byte(newMoovSize >> 8)
newData[moovPos+3] = byte(newMoovSize)
// Write back to file
if err := os.WriteFile(filePath, newData, 0644); err != nil {
return fmt.Errorf("failed to write M4A file: %w", err)
}
fmt.Printf("[M4A] Metadata embedded successfully\n")
return nil
}
// findAtom finds an atom by name starting from offset
func findAtom(data []byte, name string, offset int) int {
for i := offset; i < len(data)-8; {
size := int(data[i]<<24 | data[i+1]<<16 | data[i+2]<<8 | data[i+3])
if size < 8 {
break
}
atomName := string(data[i+4 : i+8])
if atomName == name {
return i
}
i += size
}
return -1
}
// buildMetaAtom builds a complete meta atom with ilst containing metadata
func buildMetaAtom(metadata Metadata, coverData []byte) []byte {
// Build ilst content
var ilst []byte
// ©nam - Title
if metadata.Title != "" {
ilst = append(ilst, buildTextAtom("©nam", metadata.Title)...)
}
// ©ART - Artist
if metadata.Artist != "" {
ilst = append(ilst, buildTextAtom("©ART", metadata.Artist)...)
}
// ©alb - Album
if metadata.Album != "" {
ilst = append(ilst, buildTextAtom("©alb", metadata.Album)...)
}
// aART - Album Artist
if metadata.AlbumArtist != "" {
ilst = append(ilst, buildTextAtom("aART", metadata.AlbumArtist)...)
}
// ©day - Year/Date
if metadata.Date != "" {
ilst = append(ilst, buildTextAtom("©day", metadata.Date)...)
}
// trkn - Track Number
if metadata.TrackNumber > 0 {
ilst = append(ilst, buildTrackNumberAtom(metadata.TrackNumber, metadata.TotalTracks)...)
}
// disk - Disc Number
if metadata.DiscNumber > 0 {
ilst = append(ilst, buildDiscNumberAtom(metadata.DiscNumber, 0)...)
}
// ©lyr - Lyrics
if metadata.Lyrics != "" {
ilst = append(ilst, buildTextAtom("©lyr", metadata.Lyrics)...)
}
// covr - Cover Art
if len(coverData) > 0 {
ilst = append(ilst, buildCoverAtom(coverData)...)
}
// Build ilst atom
ilstSize := 8 + len(ilst)
ilstAtom := make([]byte, 4)
ilstAtom[0] = byte(ilstSize >> 24)
ilstAtom[1] = byte(ilstSize >> 16)
ilstAtom[2] = byte(ilstSize >> 8)
ilstAtom[3] = byte(ilstSize)
ilstAtom = append(ilstAtom, []byte("ilst")...)
ilstAtom = append(ilstAtom, ilst...)
// Build hdlr atom (required for meta)
hdlr := []byte{
0, 0, 0, 33, // size = 33
'h', 'd', 'l', 'r',
0, 0, 0, 0, // version + flags
0, 0, 0, 0, // predefined
'm', 'd', 'i', 'r', // handler type
'a', 'p', 'p', 'l', // manufacturer
0, 0, 0, 0, // component flags
0, 0, 0, 0, // component flags mask
0, // null terminator
}
// Build meta atom
metaContent := append([]byte{0, 0, 0, 0}, hdlr...) // version + flags + hdlr
metaContent = append(metaContent, ilstAtom...)
metaSize := 8 + len(metaContent)
metaAtom := make([]byte, 4)
metaAtom[0] = byte(metaSize >> 24)
metaAtom[1] = byte(metaSize >> 16)
metaAtom[2] = byte(metaSize >> 8)
metaAtom[3] = byte(metaSize)
metaAtom = append(metaAtom, []byte("meta")...)
metaAtom = append(metaAtom, metaContent...)
return metaAtom
}
// buildTextAtom builds a text metadata atom (©nam, ©ART, etc.)
func buildTextAtom(name, value string) []byte {
valueBytes := []byte(value)
// data atom
dataSize := 16 + len(valueBytes)
dataAtom := make([]byte, 4)
dataAtom[0] = byte(dataSize >> 24)
dataAtom[1] = byte(dataSize >> 16)
dataAtom[2] = byte(dataSize >> 8)
dataAtom[3] = byte(dataSize)
dataAtom = append(dataAtom, []byte("data")...)
dataAtom = append(dataAtom, 0, 0, 0, 1) // type = UTF-8
dataAtom = append(dataAtom, 0, 0, 0, 0) // locale
dataAtom = append(dataAtom, valueBytes...)
// container atom
atomSize := 8 + len(dataAtom)
atom := make([]byte, 4)
atom[0] = byte(atomSize >> 24)
atom[1] = byte(atomSize >> 16)
atom[2] = byte(atomSize >> 8)
atom[3] = byte(atomSize)
atom = append(atom, []byte(name)...)
atom = append(atom, dataAtom...)
return atom
}
// buildTrackNumberAtom builds trkn atom
func buildTrackNumberAtom(track, total int) []byte {
// data atom with track number
dataAtom := []byte{
0, 0, 0, 24, // size
'd', 'a', 't', 'a',
0, 0, 0, 0, // type = implicit
0, 0, 0, 0, // locale
0, 0, // padding
byte(track >> 8), byte(track), // track number
byte(total >> 8), byte(total), // total tracks
0, 0, // padding
}
// trkn atom
atomSize := 8 + len(dataAtom)
atom := make([]byte, 4)
atom[0] = byte(atomSize >> 24)
atom[1] = byte(atomSize >> 16)
atom[2] = byte(atomSize >> 8)
atom[3] = byte(atomSize)
atom = append(atom, []byte("trkn")...)
atom = append(atom, dataAtom...)
return atom
}
// buildDiscNumberAtom builds disk atom
func buildDiscNumberAtom(disc, total int) []byte {
// data atom with disc number
dataAtom := []byte{
0, 0, 0, 22, // size
'd', 'a', 't', 'a',
0, 0, 0, 0, // type = implicit
0, 0, 0, 0, // locale
0, 0, // padding
byte(disc >> 8), byte(disc), // disc number
byte(total >> 8), byte(total), // total discs
}
// disk atom
atomSize := 8 + len(dataAtom)
atom := make([]byte, 4)
atom[0] = byte(atomSize >> 24)
atom[1] = byte(atomSize >> 16)
atom[2] = byte(atomSize >> 8)
atom[3] = byte(atomSize)
atom = append(atom, []byte("disk")...)
atom = append(atom, dataAtom...)
return atom
}
// buildCoverAtom builds covr atom with image data
func buildCoverAtom(coverData []byte) []byte {
// Detect image type (JPEG = 13, PNG = 14)
imageType := byte(13) // default JPEG
if len(coverData) > 8 && coverData[0] == 0x89 && coverData[1] == 'P' && coverData[2] == 'N' && coverData[3] == 'G' {
imageType = 14 // PNG
}
// data atom
dataSize := 16 + len(coverData)
dataAtom := make([]byte, 4)
dataAtom[0] = byte(dataSize >> 24)
dataAtom[1] = byte(dataSize >> 16)
dataAtom[2] = byte(dataSize >> 8)
dataAtom[3] = byte(dataSize)
dataAtom = append(dataAtom, []byte("data")...)
dataAtom = append(dataAtom, 0, 0, 0, imageType) // type = JPEG or PNG
dataAtom = append(dataAtom, 0, 0, 0, 0) // locale
dataAtom = append(dataAtom, coverData...)
// covr atom
atomSize := 8 + len(dataAtom)
atom := make([]byte, 4)
atom[0] = byte(atomSize >> 24)
atom[1] = byte(atomSize >> 16)
atom[2] = byte(atomSize >> 8)
atom[3] = byte(atomSize)
atom = append(atom, []byte("covr")...)
atom = append(atom, dataAtom...)
return atom
}
// GetM4AQuality reads audio quality from M4A file
func GetM4AQuality(filePath string) (AudioQuality, error) {
data, err := os.ReadFile(filePath)
if err != nil {
return AudioQuality{}, fmt.Errorf("failed to read M4A file: %w", err)
}
// Find moov -> trak -> mdia -> minf -> stbl -> stsd
moovPos := findAtom(data, "moov", 0)
if moovPos < 0 {
return AudioQuality{}, fmt.Errorf("moov atom not found")
}
// Search for mp4a or alac atom which contains audio info
// This is a simplified search - real implementation would traverse the atom tree
for i := moovPos; i < len(data)-20; i++ {
if string(data[i:i+4]) == "mp4a" || string(data[i:i+4]) == "alac" {
// Sample rate is at offset 22-23 from atom start (16-bit big-endian)
if i+24 < len(data) {
sampleRate := int(data[i+22])<<8 | int(data[i+23])
// For AAC, bit depth is typically 16
bitDepth := 16
if string(data[i:i+4]) == "alac" {
// ALAC can have higher bit depth, check esds or alac specific data
bitDepth = 24 // Assume 24-bit for ALAC
}
return AudioQuality{BitDepth: bitDepth, SampleRate: sampleRate}, nil
}
}
}
return AudioQuality{}, fmt.Errorf("audio info not found in M4A file")
}
+289
View File
@@ -0,0 +1,289 @@
package gobackend
import (
"fmt"
"sync"
"time"
)
// ========================================
// ISRC to Track ID Cache
// ========================================
// TrackIDCacheEntry holds cached track ID with metadata
type TrackIDCacheEntry struct {
TidalTrackID int64
QobuzTrackID int64
AmazonTrackID string
ExpiresAt time.Time
}
// TrackIDCache caches ISRC to track ID mappings
type TrackIDCache struct {
cache map[string]*TrackIDCacheEntry
mu sync.RWMutex
ttl time.Duration
}
var (
globalTrackIDCache *TrackIDCache
trackIDCacheOnce sync.Once
)
// GetTrackIDCache returns the global track ID cache
func GetTrackIDCache() *TrackIDCache {
trackIDCacheOnce.Do(func() {
globalTrackIDCache = &TrackIDCache{
cache: make(map[string]*TrackIDCacheEntry),
ttl: 30 * time.Minute, // Cache for 30 minutes
}
})
return globalTrackIDCache
}
// Get retrieves a cached entry by ISRC
func (c *TrackIDCache) Get(isrc string) *TrackIDCacheEntry {
c.mu.RLock()
defer c.mu.RUnlock()
entry, exists := c.cache[isrc]
if !exists || time.Now().After(entry.ExpiresAt) {
return nil
}
return entry
}
// SetTidal caches Tidal track ID for an ISRC
func (c *TrackIDCache) SetTidal(isrc string, trackID int64) {
c.mu.Lock()
defer c.mu.Unlock()
entry, exists := c.cache[isrc]
if !exists {
entry = &TrackIDCacheEntry{}
c.cache[isrc] = entry
}
entry.TidalTrackID = trackID
entry.ExpiresAt = time.Now().Add(c.ttl)
}
// SetQobuz caches Qobuz track ID for an ISRC
func (c *TrackIDCache) SetQobuz(isrc string, trackID int64) {
c.mu.Lock()
defer c.mu.Unlock()
entry, exists := c.cache[isrc]
if !exists {
entry = &TrackIDCacheEntry{}
c.cache[isrc] = entry
}
entry.QobuzTrackID = trackID
entry.ExpiresAt = time.Now().Add(c.ttl)
}
// SetAmazon caches Amazon track ID for an ISRC
func (c *TrackIDCache) SetAmazon(isrc string, trackID string) {
c.mu.Lock()
defer c.mu.Unlock()
entry, exists := c.cache[isrc]
if !exists {
entry = &TrackIDCacheEntry{}
c.cache[isrc] = entry
}
entry.AmazonTrackID = trackID
entry.ExpiresAt = time.Now().Add(c.ttl)
}
// Clear removes all cached entries
func (c *TrackIDCache) Clear() {
c.mu.Lock()
defer c.mu.Unlock()
c.cache = make(map[string]*TrackIDCacheEntry)
}
// Size returns the number of cached entries
func (c *TrackIDCache) Size() int {
c.mu.RLock()
defer c.mu.RUnlock()
return len(c.cache)
}
// ========================================
// Parallel Download Helper
// ========================================
// ParallelDownloadResult holds results from parallel operations
type ParallelDownloadResult struct {
CoverData []byte
LyricsData *LyricsResponse
LyricsLRC string
CoverErr error
LyricsErr error
}
// FetchCoverAndLyricsParallel downloads cover and fetches lyrics in parallel
// This runs while the main audio download is happening
func FetchCoverAndLyricsParallel(
coverURL string,
maxQualityCover bool,
spotifyID string,
trackName string,
artistName string,
embedLyrics bool,
) *ParallelDownloadResult {
result := &ParallelDownloadResult{}
var wg sync.WaitGroup
// Download cover in parallel
if coverURL != "" {
wg.Add(1)
go func() {
defer wg.Done()
fmt.Println("[Parallel] Starting cover download...")
data, err := downloadCoverToMemory(coverURL, maxQualityCover)
if err != nil {
result.CoverErr = err
fmt.Printf("[Parallel] Cover download failed: %v\n", err)
} else {
result.CoverData = data
fmt.Printf("[Parallel] Cover downloaded: %d bytes\n", len(data))
}
}()
}
// Fetch lyrics in parallel
if embedLyrics {
wg.Add(1)
go func() {
defer wg.Done()
fmt.Println("[Parallel] Starting lyrics fetch...")
client := NewLyricsClient()
lyrics, err := client.FetchLyricsAllSources(spotifyID, trackName, artistName)
if err != nil {
result.LyricsErr = err
fmt.Printf("[Parallel] Lyrics fetch failed: %v\n", err)
} else if lyrics != nil && len(lyrics.Lines) > 0 {
result.LyricsData = lyrics
// Use LRC with metadata headers (like PC version)
result.LyricsLRC = convertToLRCWithMetadata(lyrics, trackName, artistName)
fmt.Printf("[Parallel] Lyrics fetched: %d lines\n", len(lyrics.Lines))
} else {
result.LyricsErr = fmt.Errorf("no lyrics found")
fmt.Println("[Parallel] No lyrics found")
}
}()
}
wg.Wait()
return result
}
// ========================================
// Pre-warm Cache for Album/Playlist
// ========================================
// PreWarmCacheRequest represents a track to pre-warm cache for
type PreWarmCacheRequest struct {
ISRC string
TrackName string
ArtistName string
SpotifyID string // Needed for Amazon (SongLink lookup)
Service string // "tidal", "qobuz", "amazon"
}
// PreWarmTrackCache pre-fetches track IDs for multiple tracks (for album/playlist)
// This runs in background while user is viewing the track list
func PreWarmTrackCache(requests []PreWarmCacheRequest) {
if len(requests) == 0 {
return
}
fmt.Printf("[Cache] Pre-warming cache for %d tracks...\n", len(requests))
cache := GetTrackIDCache()
// Limit concurrent pre-warm requests
semaphore := make(chan struct{}, 3) // Max 3 concurrent
var wg sync.WaitGroup
for _, req := range requests {
// Skip if already cached
if cached := cache.Get(req.ISRC); cached != nil {
continue
}
wg.Add(1)
go func(r PreWarmCacheRequest) {
defer wg.Done()
semaphore <- struct{}{} // Acquire
defer func() { <-semaphore }() // Release
switch r.Service {
case "tidal":
preWarmTidalCache(r.ISRC, r.TrackName, r.ArtistName)
case "qobuz":
preWarmQobuzCache(r.ISRC)
case "amazon":
preWarmAmazonCache(r.ISRC, r.SpotifyID)
}
}(req)
}
wg.Wait()
fmt.Printf("[Cache] Pre-warm complete. Cache size: %d\n", cache.Size())
}
func preWarmTidalCache(isrc, trackName, artistName string) {
downloader := NewTidalDownloader()
track, err := downloader.SearchTrackByISRC(isrc)
if err == nil && track != nil {
GetTrackIDCache().SetTidal(isrc, track.ID)
fmt.Printf("[Cache] Cached Tidal ID for ISRC %s: %d\n", isrc, track.ID)
}
}
func preWarmQobuzCache(isrc string) {
downloader := NewQobuzDownloader()
track, err := downloader.SearchTrackByISRC(isrc)
if err == nil && track != nil {
GetTrackIDCache().SetQobuz(isrc, track.ID)
fmt.Printf("[Cache] Cached Qobuz ID for ISRC %s: %d\n", isrc, track.ID)
}
}
func preWarmAmazonCache(isrc, spotifyID string) {
// Amazon uses SongLink to get URL, so we pre-warm by checking availability
client := NewSongLinkClient()
availability, err := client.CheckTrackAvailability(spotifyID, isrc)
if err == nil && availability != nil && availability.Amazon {
// Store Amazon URL in cache (using ISRC as key)
GetTrackIDCache().SetAmazon(isrc, availability.AmazonURL)
fmt.Printf("[Cache] Cached Amazon URL for ISRC %s\n", isrc)
}
}
// ========================================
// Exported Functions for Flutter
// ========================================
// PreWarmCache is called from Flutter to pre-warm cache for album/playlist tracks
// tracksJSON is a JSON array of {isrc, track_name, artist_name, service}
func PreWarmCache(tracksJSON string) error {
var requests []PreWarmCacheRequest
// Parse JSON (simplified - in production use proper JSON parsing)
// For now, this is called from exports.go with proper parsing
go PreWarmTrackCache(requests) // Run in background
return nil
}
// ClearTrackCache clears the track ID cache
func ClearTrackCache() {
GetTrackIDCache().Clear()
fmt.Println("[Cache] Track ID cache cleared")
}
// GetCacheSize returns the current cache size
func GetCacheSize() int {
return GetTrackIDCache().Size()
}
+115 -120
View File
@@ -3,9 +3,11 @@ package gobackend
import (
"encoding/json"
"sync"
"time"
)
// DownloadProgress represents current download progress (legacy single download)
// DownloadProgress represents current download progress
// Now unified - returns data from multi-progress system
type DownloadProgress struct {
CurrentFile string `json:"current_file"`
Progress float64 `json:"progress"`
@@ -13,6 +15,7 @@ type DownloadProgress struct {
BytesTotal int64 `json:"bytes_total"`
BytesReceived int64 `json:"bytes_received"`
IsDownloading bool `json:"is_downloading"`
Status string `json:"status"` // "downloading", "finalizing", "completed"
}
// ItemProgress represents progress for a single download item
@@ -21,7 +24,9 @@ type ItemProgress struct {
BytesTotal int64 `json:"bytes_total"`
BytesReceived int64 `json:"bytes_received"`
Progress float64 `json:"progress"` // 0.0 to 1.0
SpeedMBps float64 `json:"speed_mbps"` // Download speed in MB/s
IsDownloading bool `json:"is_downloading"`
Status string `json:"status"` // "downloading", "finalizing", "completed"
}
// MultiProgress holds progress for multiple concurrent downloads
@@ -30,28 +35,40 @@ type MultiProgress struct {
}
var (
currentProgress DownloadProgress
progressMu sync.RWMutex
downloadDir string
downloadDirMu sync.RWMutex
// Multi-download progress tracking
downloadDir string
downloadDirMu sync.RWMutex
// Multi-download progress tracking (unified system)
multiProgress = MultiProgress{Items: make(map[string]*ItemProgress)}
multiMu sync.RWMutex
)
// getProgress returns current download progress (legacy)
// getProgress returns current download progress from multi-progress system
// Returns first active item's progress for backward compatibility
func getProgress() DownloadProgress {
progressMu.RLock()
defer progressMu.RUnlock()
return currentProgress
multiMu.RLock()
defer multiMu.RUnlock()
// Find first active item
for _, item := range multiProgress.Items {
return DownloadProgress{
CurrentFile: item.ItemID,
Progress: item.Progress * 100, // Convert to percentage
BytesTotal: item.BytesTotal,
BytesReceived: item.BytesReceived,
IsDownloading: item.IsDownloading,
Status: item.Status,
}
}
return DownloadProgress{}
}
// GetMultiProgress returns progress for all active downloads as JSON
func GetMultiProgress() string {
multiMu.RLock()
defer multiMu.RUnlock()
jsonBytes, err := json.Marshal(multiProgress)
if err != nil {
return "{\"items\":{}}"
@@ -63,7 +80,7 @@ func GetMultiProgress() string {
func GetItemProgress(itemID string) string {
multiMu.RLock()
defer multiMu.RUnlock()
if item, ok := multiProgress.Items[itemID]; ok {
jsonBytes, _ := json.Marshal(item)
return string(jsonBytes)
@@ -75,13 +92,14 @@ func GetItemProgress(itemID string) string {
func StartItemProgress(itemID string) {
multiMu.Lock()
defer multiMu.Unlock()
multiProgress.Items[itemID] = &ItemProgress{
ItemID: itemID,
BytesTotal: 0,
BytesReceived: 0,
Progress: 0,
IsDownloading: true,
Status: "downloading",
}
}
@@ -89,7 +107,7 @@ func StartItemProgress(itemID string) {
func SetItemBytesTotal(itemID string, total int64) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.BytesTotal = total
}
@@ -99,7 +117,7 @@ func SetItemBytesTotal(itemID string, total int64) {
func SetItemBytesReceived(itemID string, received int64) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.BytesReceived = received
if item.BytesTotal > 0 {
@@ -108,14 +126,56 @@ func SetItemBytesReceived(itemID string, received int64) {
}
}
// SetItemBytesReceivedWithSpeed sets bytes received and speed for an item
func SetItemBytesReceivedWithSpeed(itemID string, received int64, speedMBps float64) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.BytesReceived = received
item.SpeedMBps = speedMBps
if item.BytesTotal > 0 {
item.Progress = float64(received) / float64(item.BytesTotal)
}
}
}
// CompleteItemProgress marks an item as complete
func CompleteItemProgress(itemID string) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.Progress = 1.0
item.IsDownloading = false
item.Status = "completed"
}
}
// SetItemProgress sets progress for an item directly
func SetItemProgress(itemID string, progress float64, bytesReceived, bytesTotal int64) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.Progress = progress
if bytesReceived > 0 {
item.BytesReceived = bytesReceived
}
if bytesTotal > 0 {
item.BytesTotal = bytesTotal
}
}
}
// SetItemFinalizing marks an item as finalizing (embedding metadata)
func SetItemFinalizing(itemID string) {
multiMu.Lock()
defer multiMu.Unlock()
if item, ok := multiProgress.Items[itemID]; ok {
item.Progress = 1.0
item.Status = "finalizing"
}
}
@@ -123,7 +183,7 @@ func CompleteItemProgress(itemID string) {
func RemoveItemProgress(itemID string) {
multiMu.Lock()
defer multiMu.Unlock()
delete(multiProgress.Items, itemID)
}
@@ -131,45 +191,10 @@ func RemoveItemProgress(itemID string) {
func ClearAllItemProgress() {
multiMu.Lock()
defer multiMu.Unlock()
multiProgress.Items = make(map[string]*ItemProgress)
}
// Legacy functions for backward compatibility
// SetDownloadProgress sets the current download progress (MB downloaded)
func SetDownloadProgress(mbDownloaded float64) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.Progress = mbDownloaded
currentProgress.IsDownloading = true
}
// SetDownloadSpeed sets the current download speed
func SetDownloadSpeed(speedMBps float64) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.Speed = speedMBps
}
// SetCurrentFile sets the current file being downloaded and resets progress
func SetCurrentFile(filename string) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.BytesReceived = 0
currentProgress.BytesTotal = 0
currentProgress.Progress = 0
currentProgress.CurrentFile = filename
currentProgress.IsDownloading = true
}
// ResetProgress resets the download progress
func ResetProgress() {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress = DownloadProgress{}
}
// setDownloadDir sets the default download directory
func setDownloadDir(path string) error {
downloadDirMu.Lock()
@@ -185,87 +210,57 @@ func getDownloadDir() string {
return downloadDir
}
// SetDownloading sets the download status
func SetDownloading(status bool) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.IsDownloading = status
}
// SetBytesTotal sets total bytes to download
func SetBytesTotal(total int64) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.BytesTotal = total
}
// SetBytesReceived sets bytes received so far
func SetBytesReceived(received int64) {
progressMu.Lock()
defer progressMu.Unlock()
currentProgress.BytesReceived = received
if currentProgress.BytesTotal > 0 {
currentProgress.Progress = float64(received) / float64(currentProgress.BytesTotal) * 100
}
}
// ProgressWriter wraps io.Writer to track download progress (legacy single)
type ProgressWriter struct {
writer interface{ Write([]byte) (int, error) }
total int64
current int64
}
// NewProgressWriter creates a new progress writer wrapping an io.Writer
func NewProgressWriter(w interface{ Write([]byte) (int, error) }) *ProgressWriter {
SetBytesReceived(0)
return &ProgressWriter{
writer: w,
current: 0,
total: 0,
}
}
// Write implements io.Writer
func (pw *ProgressWriter) Write(p []byte) (int, error) {
n, err := pw.writer.Write(p)
if err != nil {
return n, err
}
pw.current += int64(n)
pw.total += int64(n)
SetBytesReceived(pw.current)
return n, nil
}
// GetTotal returns total bytes written
func (pw *ProgressWriter) GetTotal() int64 {
return pw.total
}
// ItemProgressWriter wraps io.Writer to track download progress for a specific item
type ItemProgressWriter struct {
writer interface{ Write([]byte) (int, error) }
itemID string
current int64
writer interface{ Write([]byte) (int, error) }
itemID string
current int64
lastReported int64 // Track last reported bytes for threshold-based updates
startTime time.Time // Track start time for speed calculation
lastTime time.Time // Track last update time for speed calculation
lastBytes int64 // Track bytes at last speed calculation
}
const progressUpdateThreshold = 64 * 1024 // Update progress every 64KB
// NewItemProgressWriter creates a new progress writer for a specific item
func NewItemProgressWriter(w interface{ Write([]byte) (int, error) }, itemID string) *ItemProgressWriter {
now := time.Now()
return &ItemProgressWriter{
writer: w,
itemID: itemID,
current: 0,
writer: w,
itemID: itemID,
current: 0,
lastReported: 0,
startTime: now,
lastTime: now,
lastBytes: 0,
}
}
// Write implements io.Writer
// Write implements io.Writer with threshold-based progress updates and speed tracking
func (pw *ItemProgressWriter) Write(p []byte) (int, error) {
n, err := pw.writer.Write(p)
if err != nil {
return n, err
}
pw.current += int64(n)
SetItemBytesReceived(pw.itemID, pw.current)
// Update progress when we've received at least 64KB since last update
// Also update on first write to show download has started
if pw.lastReported == 0 || pw.current-pw.lastReported >= progressUpdateThreshold {
// Calculate speed (MB/s) based on bytes received since last update
now := time.Now()
elapsed := now.Sub(pw.lastTime).Seconds()
var speedMBps float64
if elapsed > 0 {
bytesInInterval := pw.current - pw.lastBytes
speedMBps = float64(bytesInInterval) / (1024 * 1024) / elapsed
}
SetItemBytesReceivedWithSpeed(pw.itemID, pw.current, speedMBps)
pw.lastReported = pw.current
pw.lastTime = now
pw.lastBytes = pw.current
}
return n, nil
}
+661 -88
View File
@@ -1,6 +1,7 @@
package gobackend
import (
"bufio"
"encoding/base64"
"encoding/json"
"fmt"
@@ -9,6 +10,8 @@ import (
"net/url"
"os"
"path/filepath"
"strings"
"sync"
)
// QobuzDownloader handles Qobuz downloads
@@ -18,6 +21,12 @@ type QobuzDownloader struct {
apiURL string
}
var (
// Global Qobuz downloader instance for connection reuse
globalQobuzDownloader *QobuzDownloader
qobuzDownloaderOnce sync.Once
)
// QobuzTrack represents a Qobuz track
type QobuzTrack struct {
ID int64 `json:"id"`
@@ -39,12 +48,257 @@ type QobuzTrack struct {
} `json:"performer"`
}
// NewQobuzDownloader creates a new Qobuz downloader
func NewQobuzDownloader() *QobuzDownloader {
return &QobuzDownloader{
client: NewHTTPClientWithTimeout(DefaultTimeout), // 60s timeout
appID: "798273057",
// qobuzArtistsMatch checks if the artist names are similar enough
func qobuzArtistsMatch(expectedArtist, foundArtist string) bool {
normExpected := strings.ToLower(strings.TrimSpace(expectedArtist))
normFound := strings.ToLower(strings.TrimSpace(foundArtist))
// Exact match
if normExpected == normFound {
return true
}
// Check if one contains the other
if strings.Contains(normExpected, normFound) || strings.Contains(normFound, normExpected) {
return true
}
// Check first artist (before comma or feat)
expectedFirst := strings.Split(normExpected, ",")[0]
expectedFirst = strings.Split(expectedFirst, " feat")[0]
expectedFirst = strings.Split(expectedFirst, " ft.")[0]
expectedFirst = strings.TrimSpace(expectedFirst)
foundFirst := strings.Split(normFound, ",")[0]
foundFirst = strings.Split(foundFirst, " feat")[0]
foundFirst = strings.Split(foundFirst, " ft.")[0]
foundFirst = strings.TrimSpace(foundFirst)
if expectedFirst == foundFirst {
return true
}
// Check if first artist is contained in the other
if strings.Contains(expectedFirst, foundFirst) || strings.Contains(foundFirst, expectedFirst) {
return true
}
// If scripts are TRULY different (Latin vs CJK/Arabic/Cyrillic), assume match (transliteration)
// Don't treat Latin Extended (Polish, French, etc.) as different script
expectedLatin := qobuzIsLatinScript(expectedArtist)
foundLatin := qobuzIsLatinScript(foundArtist)
if expectedLatin != foundLatin {
GoLog("[Qobuz] Artist names in different scripts, assuming match: '%s' vs '%s'\n", expectedArtist, foundArtist)
return true
}
return false
}
// qobuzTitlesMatch checks if track titles are similar enough
func qobuzTitlesMatch(expectedTitle, foundTitle string) bool {
normExpected := strings.ToLower(strings.TrimSpace(expectedTitle))
normFound := strings.ToLower(strings.TrimSpace(foundTitle))
// Exact match
if normExpected == normFound {
return true
}
// Check if one contains the other
if strings.Contains(normExpected, normFound) || strings.Contains(normFound, normExpected) {
return true
}
// Clean BOTH titles and compare (removes suffixes like remaster, remix, etc)
cleanExpected := qobuzCleanTitle(normExpected)
cleanFound := qobuzCleanTitle(normFound)
if cleanExpected == cleanFound {
return true
}
// Check if cleaned versions contain each other
if cleanExpected != "" && cleanFound != "" {
if strings.Contains(cleanExpected, cleanFound) || strings.Contains(cleanFound, cleanExpected) {
return true
}
}
// Extract core title (before any parentheses/brackets)
coreExpected := qobuzExtractCoreTitle(normExpected)
coreFound := qobuzExtractCoreTitle(normFound)
if coreExpected != "" && coreFound != "" && coreExpected == coreFound {
return true
}
// If scripts are TRULY different (Latin vs CJK/Arabic/Cyrillic), assume match (transliteration)
// Don't treat Latin Extended (Polish, French, etc.) as different script
expectedLatin := qobuzIsLatinScript(expectedTitle)
foundLatin := qobuzIsLatinScript(foundTitle)
if expectedLatin != foundLatin {
GoLog("[Qobuz] Titles in different scripts, assuming match: '%s' vs '%s'\n", expectedTitle, foundTitle)
return true
}
return false
}
// qobuzExtractCoreTitle extracts the main title before any parentheses or brackets
func qobuzExtractCoreTitle(title string) string {
// Find first occurrence of ( or [
parenIdx := strings.Index(title, "(")
bracketIdx := strings.Index(title, "[")
dashIdx := strings.Index(title, " - ")
cutIdx := len(title)
if parenIdx > 0 && parenIdx < cutIdx {
cutIdx = parenIdx
}
if bracketIdx > 0 && bracketIdx < cutIdx {
cutIdx = bracketIdx
}
if dashIdx > 0 && dashIdx < cutIdx {
cutIdx = dashIdx
}
return strings.TrimSpace(title[:cutIdx])
}
// qobuzCleanTitle removes common suffixes from track titles for comparison
func qobuzCleanTitle(title string) string {
cleaned := title
// Remove content in parentheses/brackets that are version indicators
// This helps match "Song (Remastered)" with "Song" or "Song (2024 Remaster)"
versionPatterns := []string{
"remaster", "remastered", "deluxe", "bonus", "single",
"album version", "radio edit", "original mix", "extended",
"club mix", "remix", "live", "acoustic", "demo",
}
// Remove parenthetical content if it contains version indicators
for {
startParen := strings.LastIndex(cleaned, "(")
endParen := strings.LastIndex(cleaned, ")")
if startParen >= 0 && endParen > startParen {
content := strings.ToLower(cleaned[startParen+1 : endParen])
isVersionIndicator := false
for _, pattern := range versionPatterns {
if strings.Contains(content, pattern) {
isVersionIndicator = true
break
}
}
if isVersionIndicator {
cleaned = strings.TrimSpace(cleaned[:startParen]) + cleaned[endParen+1:]
continue
}
}
break
}
// Same for brackets
for {
startBracket := strings.LastIndex(cleaned, "[")
endBracket := strings.LastIndex(cleaned, "]")
if startBracket >= 0 && endBracket > startBracket {
content := strings.ToLower(cleaned[startBracket+1 : endBracket])
isVersionIndicator := false
for _, pattern := range versionPatterns {
if strings.Contains(content, pattern) {
isVersionIndicator = true
break
}
}
if isVersionIndicator {
cleaned = strings.TrimSpace(cleaned[:startBracket]) + cleaned[endBracket+1:]
continue
}
}
break
}
// Remove trailing " - version" patterns
dashPatterns := []string{
" - remaster", " - remastered", " - single version", " - radio edit",
" - live", " - acoustic", " - demo", " - remix",
}
for _, pattern := range dashPatterns {
if strings.HasSuffix(strings.ToLower(cleaned), pattern) {
cleaned = cleaned[:len(cleaned)-len(pattern)]
}
}
// Remove multiple spaces
for strings.Contains(cleaned, " ") {
cleaned = strings.ReplaceAll(cleaned, " ", " ")
}
return strings.TrimSpace(cleaned)
}
// qobuzIsLatinScript checks if a string is primarily Latin script
// Returns true for ASCII and Latin Extended characters (European languages)
// Returns false for CJK, Arabic, Cyrillic, etc.
func qobuzIsLatinScript(s string) bool {
for _, r := range s {
// Skip common punctuation and numbers
if r < 128 {
continue
}
// Latin Extended-A: U+0100 to U+017F (Polish, Czech, etc.)
// Latin Extended-B: U+0180 to U+024F
// Latin Extended Additional: U+1E00 to U+1EFF
// Latin Extended-C/D/E: various ranges
if (r >= 0x0100 && r <= 0x024F) || // Latin Extended A & B
(r >= 0x1E00 && r <= 0x1EFF) || // Latin Extended Additional
(r >= 0x00C0 && r <= 0x00FF) { // Latin-1 Supplement (accented chars)
continue
}
// CJK ranges - definitely different script
if (r >= 0x4E00 && r <= 0x9FFF) || // CJK Unified Ideographs
(r >= 0x3040 && r <= 0x309F) || // Hiragana
(r >= 0x30A0 && r <= 0x30FF) || // Katakana
(r >= 0xAC00 && r <= 0xD7AF) || // Hangul (Korean)
(r >= 0x0600 && r <= 0x06FF) || // Arabic
(r >= 0x0400 && r <= 0x04FF) { // Cyrillic
return false
}
}
return true
}
// qobuzIsASCIIString checks if a string contains only ASCII characters
func qobuzIsASCIIString(s string) bool {
for _, r := range s {
if r > 127 {
return false
}
}
return true
}
// containsQueryQobuz checks if a query already exists in the list
func containsQueryQobuz(queries []string, query string) bool {
for _, q := range queries {
if q == query {
return true
}
}
return false
}
// NewQobuzDownloader creates a new Qobuz downloader (returns singleton for connection reuse)
func NewQobuzDownloader() *QobuzDownloader {
qobuzDownloaderOnce.Do(func() {
globalQobuzDownloader = &QobuzDownloader{
client: NewHTTPClientWithTimeout(DefaultTimeout), // 60s timeout
appID: "798273057",
}
})
return globalQobuzDownloader
}
// GetAvailableAPIs returns list of available Qobuz APIs
@@ -53,8 +307,8 @@ func (q *QobuzDownloader) GetAvailableAPIs() []string {
// Same APIs as PC version (referensi/backend/qobuz.go)
// Primary: dab.yeet.su, Fallback: dabmusic.xyz
encodedAPIs := []string{
"ZGFiLnllZXQuc3UvYXBpL3N0cmVhbT90cmFja0lkPQ==", // dab.yeet.su/api/stream?trackId= (PRIMARY - same as PC)
"ZGFibXVzaWMueHl6L2FwaS9zdHJlYW0/dHJhY2tJZD0=", // dabmusic.xyz/api/stream?trackId= (FALLBACK - same as PC)
"ZGFiLnllZXQuc3UvYXBpL3N0cmVhbT90cmFja0lkPQ==", // dab.yeet.su/api/stream?trackId= (PRIMARY - same as PC)
"ZGFibXVzaWMueHl6L2FwaS9zdHJlYW0/dHJhY2tJZD0=", // dabmusic.xyz/api/stream?trackId= (FALLBACK - same as PC)
}
var apis []string
@@ -112,11 +366,107 @@ func (q *QobuzDownloader) SearchTrackByISRC(isrc string) (*QobuzTrack, error) {
return nil, fmt.Errorf("no exact ISRC match found for: %s", isrc)
}
// SearchTrackByISRCWithTitle searches for a track by ISRC with duration verification
// expectedDurationSec is the expected duration in seconds (0 to skip verification)
func (q *QobuzDownloader) SearchTrackByISRCWithDuration(isrc string, expectedDurationSec int) (*QobuzTrack, error) {
GoLog("[Qobuz] Searching by ISRC: %s\n", isrc)
apiBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly93d3cucW9idXouY29tL2FwaS5qc29uLzAuMi90cmFjay9zZWFyY2g/cXVlcnk9")
searchURL := fmt.Sprintf("%s%s&limit=50&app_id=%s", string(apiBase), url.QueryEscape(isrc), q.appID)
req, err := http.NewRequest("GET", searchURL, nil)
if err != nil {
return nil, err
}
resp, err := DoRequestWithUserAgent(q.client, req)
if err != nil {
return nil, err
}
defer resp.Body.Close()
if resp.StatusCode != 200 {
return nil, fmt.Errorf("search failed: HTTP %d", resp.StatusCode)
}
var result struct {
Tracks struct {
Items []QobuzTrack `json:"items"`
} `json:"tracks"`
}
if err := json.NewDecoder(resp.Body).Decode(&result); err != nil {
return nil, err
}
GoLog("[Qobuz] ISRC search returned %d results\n", len(result.Tracks.Items))
// Find ISRC matches
var isrcMatches []*QobuzTrack
for i := range result.Tracks.Items {
if result.Tracks.Items[i].ISRC == isrc {
isrcMatches = append(isrcMatches, &result.Tracks.Items[i])
}
}
GoLog("[Qobuz] Found %d exact ISRC matches\n", len(isrcMatches))
if len(isrcMatches) > 0 {
// Verify duration if provided
if expectedDurationSec > 0 {
var durationVerifiedMatches []*QobuzTrack
for _, track := range isrcMatches {
durationDiff := track.Duration - expectedDurationSec
if durationDiff < 0 {
durationDiff = -durationDiff
}
// Allow 10 seconds tolerance
if durationDiff <= 10 {
durationVerifiedMatches = append(durationVerifiedMatches, track)
}
}
if len(durationVerifiedMatches) > 0 {
GoLog("[Qobuz] ISRC match with duration verification: '%s' (expected %ds, found %ds)\n",
durationVerifiedMatches[0].Title, expectedDurationSec, durationVerifiedMatches[0].Duration)
return durationVerifiedMatches[0], nil
}
// ISRC matches but duration doesn't
GoLog("[Qobuz] WARNING: ISRC %s found but duration mismatch. Expected=%ds, Found=%ds. Rejecting.\n",
isrc, expectedDurationSec, isrcMatches[0].Duration)
return nil, fmt.Errorf("ISRC found but duration mismatch: expected %ds, found %ds (likely different version)",
expectedDurationSec, isrcMatches[0].Duration)
}
// No duration to verify, return first match
GoLog("[Qobuz] ISRC match (no duration verification): '%s'\n", isrcMatches[0].Title)
return isrcMatches[0], nil
}
if len(result.Tracks.Items) == 0 {
return nil, fmt.Errorf("no tracks found for ISRC: %s", isrc)
}
return nil, fmt.Errorf("no exact ISRC match found for: %s", isrc)
}
// SearchTrackByISRCWithTitle is deprecated, use SearchTrackByISRCWithDuration instead
func (q *QobuzDownloader) SearchTrackByISRCWithTitle(isrc, expectedTitle string) (*QobuzTrack, error) {
return q.SearchTrackByISRCWithDuration(isrc, 0)
}
// SearchTrackByMetadata searches for a track using artist name and track name
func (q *QobuzDownloader) SearchTrackByMetadata(trackName, artistName string) (*QobuzTrack, error) {
return q.SearchTrackByMetadataWithDuration(trackName, artistName, 0)
}
// SearchTrackByMetadataWithDuration searches for a track with duration verification
// Now includes romaji conversion for Japanese text (same as Tidal)
// Also includes title verification to prevent wrong song downloads
func (q *QobuzDownloader) SearchTrackByMetadataWithDuration(trackName, artistName string, expectedDurationSec int) (*QobuzTrack, error) {
apiBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly93d3cucW9idXouY29tL2FwaS5qc29uLzAuMi90cmFjay9zZWFyY2g/cXVlcnk9")
// Try multiple search strategies
// Try multiple search strategies (same as Tidal/PC version)
queries := []string{}
// Strategy 1: Artist + Track name
@@ -129,8 +479,54 @@ func (q *QobuzDownloader) SearchTrackByMetadata(trackName, artistName string) (*
queries = append(queries, trackName)
}
// Strategy 3: Romaji versions if Japanese detected
if ContainsJapanese(trackName) || ContainsJapanese(artistName) {
// Convert to romaji (hiragana/katakana only, kanji stays)
romajiTrack := JapaneseToRomaji(trackName)
romajiArtist := JapaneseToRomaji(artistName)
// Clean and remove ALL non-ASCII characters (including kanji)
cleanRomajiTrack := CleanToASCII(romajiTrack)
cleanRomajiArtist := CleanToASCII(romajiArtist)
// Artist + Track romaji (cleaned to ASCII only)
if cleanRomajiArtist != "" && cleanRomajiTrack != "" {
romajiQuery := cleanRomajiArtist + " " + cleanRomajiTrack
if !containsQueryQobuz(queries, romajiQuery) {
queries = append(queries, romajiQuery)
GoLog("[Qobuz] Japanese detected, adding romaji query: %s\n", romajiQuery)
}
}
// Track romaji only (cleaned)
if cleanRomajiTrack != "" && cleanRomajiTrack != trackName {
if !containsQueryQobuz(queries, cleanRomajiTrack) {
queries = append(queries, cleanRomajiTrack)
}
}
}
// Strategy 4: Artist only as last resort
if artistName != "" {
artistOnly := CleanToASCII(JapaneseToRomaji(artistName))
if artistOnly != "" && !containsQueryQobuz(queries, artistOnly) {
queries = append(queries, artistOnly)
}
}
var allTracks []QobuzTrack
searchedQueries := make(map[string]bool)
for _, query := range queries {
searchURL := fmt.Sprintf("%s%s&limit=50&app_id=%s", string(apiBase), url.QueryEscape(query), q.appID)
cleanQuery := strings.TrimSpace(query)
if cleanQuery == "" || searchedQueries[cleanQuery] {
continue
}
searchedQueries[cleanQuery] = true
GoLog("[Qobuz] Searching for: %s\n", cleanQuery)
searchURL := fmt.Sprintf("%s%s&limit=50&app_id=%s", string(apiBase), url.QueryEscape(cleanQuery), q.appID)
req, err := http.NewRequest("GET", searchURL, nil)
if err != nil {
@@ -139,6 +535,7 @@ func (q *QobuzDownloader) SearchTrackByMetadata(trackName, artistName string) (*
resp, err := DoRequestWithUserAgent(q.client, req)
if err != nil {
GoLog("[Qobuz] Search error for '%s': %v\n", cleanQuery, err)
continue
}
@@ -159,19 +556,82 @@ func (q *QobuzDownloader) SearchTrackByMetadata(trackName, artistName string) (*
resp.Body.Close()
if len(result.Tracks.Items) > 0 {
// Return first result with best quality
for i := range result.Tracks.Items {
track := &result.Tracks.Items[i]
if track.MaximumBitDepth >= 24 {
return track, nil
}
}
// Return first result if no hi-res found
return &result.Tracks.Items[0], nil
GoLog("[Qobuz] Found %d results for '%s'\n", len(result.Tracks.Items), cleanQuery)
allTracks = append(allTracks, result.Tracks.Items...)
}
}
return nil, fmt.Errorf("no tracks found for: %s - %s", artistName, trackName)
if len(allTracks) == 0 {
return nil, fmt.Errorf("no tracks found for: %s - %s", artistName, trackName)
}
// Filter by title match first (NEW - like Tidal)
var titleMatches []*QobuzTrack
for i := range allTracks {
track := &allTracks[i]
if qobuzTitlesMatch(trackName, track.Title) {
titleMatches = append(titleMatches, track)
}
}
GoLog("[Qobuz] Title matches: %d out of %d results\n", len(titleMatches), len(allTracks))
// If no title matches, log warning but continue with all tracks
tracksToCheck := titleMatches
if len(titleMatches) == 0 {
GoLog("[Qobuz] WARNING: No title matches for '%s', checking all %d results\n", trackName, len(allTracks))
for i := range allTracks {
tracksToCheck = append(tracksToCheck, &allTracks[i])
}
}
// If duration verification is requested
if expectedDurationSec > 0 {
var durationMatches []*QobuzTrack
for _, track := range tracksToCheck {
durationDiff := track.Duration - expectedDurationSec
if durationDiff < 0 {
durationDiff = -durationDiff
}
if durationDiff <= 10 {
durationMatches = append(durationMatches, track)
}
}
if len(durationMatches) > 0 {
// Return best quality among duration matches
for _, track := range durationMatches {
if track.MaximumBitDepth >= 24 {
GoLog("[Qobuz] ✓ Match found: '%s' by '%s' (title+duration verified, hi-res)\n",
track.Title, track.Performer.Name)
return track, nil
}
}
GoLog("[Qobuz] ✓ Match found: '%s' by '%s' (title+duration verified)\n",
durationMatches[0].Title, durationMatches[0].Performer.Name)
return durationMatches[0], nil
}
// No duration match found
return nil, fmt.Errorf("no tracks found with matching title and duration (expected '%s', %ds)", trackName, expectedDurationSec)
}
// No duration verification, return best quality from title matches
for _, track := range tracksToCheck {
if track.MaximumBitDepth >= 24 {
GoLog("[Qobuz] ✓ Match found: '%s' by '%s' (title verified, hi-res)\n",
track.Title, track.Performer.Name)
return track, nil
}
}
if len(tracksToCheck) > 0 {
GoLog("[Qobuz] ✓ Match found: '%s' by '%s' (title verified)\n",
tracksToCheck[0].Title, tracksToCheck[0].Performer.Name)
return tracksToCheck[0], nil
}
return nil, fmt.Errorf("no matching track found for: %s - %s", artistName, trackName)
}
// getQobuzDownloadURLSequential requests download URL from APIs sequentially
@@ -190,7 +650,7 @@ func getQobuzDownloadURLSequential(apis []string, trackID int64, quality string)
// The apiURL already includes the path, just append trackID and quality
reqURL := fmt.Sprintf("%s%d&quality=%s", apiURL, trackID, quality)
fmt.Printf("[Qobuz] Trying: %s\n", reqURL)
GoLog("[Qobuz] Trying: %s\n", reqURL)
req, err := http.NewRequest("GET", reqURL, nil)
if err != nil {
@@ -235,7 +695,7 @@ func getQobuzDownloadURLSequential(apis []string, trackID int64, quality string)
}
if result.URL != "" {
fmt.Printf("[Qobuz] Got download URL from: %s\n", apiURL)
GoLog("[Qobuz] Got download URL from: %s\n", apiURL)
return apiURL, result.URL, nil
}
@@ -262,12 +722,7 @@ func (q *QobuzDownloader) GetDownloadURL(trackID int64, quality string) (string,
// DownloadFile downloads a file from URL with User-Agent and progress tracking
func (q *QobuzDownloader) DownloadFile(downloadURL, outputPath, itemID string) error {
// Set current file being downloaded (legacy)
SetCurrentFile(filepath.Base(outputPath))
SetDownloading(true)
defer SetDownloading(false)
// Initialize item progress if itemID provided
// Initialize item progress (required for all downloads)
if itemID != "" {
StartItemProgress(itemID)
defer CompleteItemProgress(itemID)
@@ -288,59 +743,140 @@ func (q *QobuzDownloader) DownloadFile(downloadURL, outputPath, itemID string) e
return fmt.Errorf("download failed: HTTP %d", resp.StatusCode)
}
expectedSize := resp.ContentLength
// Set total bytes if available
if resp.ContentLength > 0 {
SetBytesTotal(resp.ContentLength)
if itemID != "" {
SetItemBytesTotal(itemID, resp.ContentLength)
}
if expectedSize > 0 && itemID != "" {
SetItemBytesTotal(itemID, expectedSize)
}
out, err := os.Create(outputPath)
if err != nil {
return err
}
defer out.Close()
// Use appropriate progress writer
// Use buffered writer for better performance (256KB buffer)
bufWriter := bufio.NewWriterSize(out, 256*1024)
// Use item progress writer with buffered output
var written int64
if itemID != "" {
progressWriter := NewItemProgressWriter(out, itemID)
_, err = io.Copy(progressWriter, resp.Body)
progressWriter := NewItemProgressWriter(bufWriter, itemID)
written, err = io.Copy(progressWriter, resp.Body)
} else {
progressWriter := NewProgressWriter(out)
_, err = io.Copy(progressWriter, resp.Body)
// Fallback: direct copy without progress tracking
written, err = io.Copy(bufWriter, resp.Body)
}
return err
// Flush buffer before checking for errors
flushErr := bufWriter.Flush()
closeErr := out.Close()
// Check for any errors
if err != nil {
os.Remove(outputPath)
return fmt.Errorf("download interrupted: %w", err)
}
if flushErr != nil {
os.Remove(outputPath)
return fmt.Errorf("failed to flush buffer: %w", flushErr)
}
if closeErr != nil {
os.Remove(outputPath)
return fmt.Errorf("failed to close file: %w", closeErr)
}
// Verify file size if Content-Length was provided
if expectedSize > 0 && written != expectedSize {
os.Remove(outputPath)
return fmt.Errorf("incomplete download: expected %d bytes, got %d bytes", expectedSize, written)
}
return nil
}
// QobuzDownloadResult contains download result with quality info
type QobuzDownloadResult struct {
FilePath string
BitDepth int
SampleRate int
Title string
Artist string
Album string
ReleaseDate string
TrackNumber int
DiscNumber int
ISRC string
}
// downloadFromQobuz downloads a track using the request parameters
func downloadFromQobuz(req DownloadRequest) (string, error) {
func downloadFromQobuz(req DownloadRequest) (QobuzDownloadResult, error) {
downloader := NewQobuzDownloader()
// Check for existing file first
if existingFile, exists := checkISRCExistsInternal(req.OutputDir, req.ISRC); exists {
return "EXISTS:" + existingFile, nil
return QobuzDownloadResult{FilePath: "EXISTS:" + existingFile}, nil
}
// Convert expected duration from ms to seconds
expectedDurationSec := req.DurationMS / 1000
var track *QobuzTrack
var err error
// Strategy 1: Search by ISRC
// OPTIMIZATION: Check cache first for track ID
if req.ISRC != "" {
track, err = downloader.SearchTrackByISRC(req.ISRC)
if cached := GetTrackIDCache().Get(req.ISRC); cached != nil && cached.QobuzTrackID > 0 {
GoLog("[Qobuz] Cache hit! Using cached track ID: %d\n", cached.QobuzTrackID)
// For Qobuz we need to search again to get full track info, but we can use the ID
track, err = downloader.SearchTrackByISRC(req.ISRC)
if err != nil {
GoLog("[Qobuz] Cache hit but search failed: %v\n", err)
track = nil
}
}
}
// Strategy 2: Search by metadata
// Strategy 1: Search by ISRC with duration verification
if track == nil && req.ISRC != "" {
GoLog("[Qobuz] Trying ISRC search: %s\n", req.ISRC)
track, err = downloader.SearchTrackByISRCWithDuration(req.ISRC, expectedDurationSec)
// Verify artist AND title
if track != nil {
if !qobuzArtistsMatch(req.ArtistName, track.Performer.Name) {
GoLog("[Qobuz] Artist mismatch from ISRC search: expected '%s', got '%s'. Rejecting.\n",
req.ArtistName, track.Performer.Name)
track = nil
} else if !qobuzTitlesMatch(req.TrackName, track.Title) {
GoLog("[Qobuz] Title mismatch from ISRC search: expected '%s', got '%s'. Rejecting.\n",
req.TrackName, track.Title)
track = nil
}
}
}
// Strategy 2: Search by metadata with duration verification (includes title verification)
if track == nil {
track, err = downloader.SearchTrackByMetadata(req.TrackName, req.ArtistName)
track, err = downloader.SearchTrackByMetadataWithDuration(req.TrackName, req.ArtistName, expectedDurationSec)
// Verify artist (title already verified in SearchTrackByMetadataWithDuration)
if track != nil && !qobuzArtistsMatch(req.ArtistName, track.Performer.Name) {
GoLog("[Qobuz] Artist mismatch from metadata search: expected '%s', got '%s'. Rejecting.\n",
req.ArtistName, track.Performer.Name)
track = nil
}
}
if track == nil {
errMsg := "could not find track on Qobuz"
errMsg := "could not find matching track on Qobuz (artist/duration mismatch)"
if err != nil {
errMsg = err.Error()
}
return "", fmt.Errorf("qobuz search failed: %s", errMsg)
return QobuzDownloadResult{}, fmt.Errorf("qobuz search failed: %s", errMsg)
}
// Log match found and cache the track ID
GoLog("[Qobuz] Match found: '%s' by '%s' (duration: %ds)\n", track.Title, track.Performer.Name, track.Duration)
if req.ISRC != "" {
GetTrackIDCache().SetQobuz(req.ISRC, track.ID)
}
// Build filename
@@ -357,7 +893,7 @@ func downloadFromQobuz(req DownloadRequest) (string, error) {
// Check if file already exists
if fileInfo, statErr := os.Stat(outputPath); statErr == nil && fileInfo.Size() > 0 {
return "EXISTS:" + outputPath, nil
return QobuzDownloadResult{FilePath: "EXISTS:" + outputPath}, nil
}
// Map quality from Tidal format to Qobuz format
@@ -372,68 +908,105 @@ func downloadFromQobuz(req DownloadRequest) (string, error) {
case "HI_RES_LOSSLESS":
qobuzQuality = "27" // 24-bit 192kHz
}
fmt.Printf("[Qobuz] Using quality: %s (mapped from %s)\n", qobuzQuality, req.Quality)
GoLog("[Qobuz] Using quality: %s (mapped from %s)\n", qobuzQuality, req.Quality)
// Get actual quality from track metadata
actualBitDepth := track.MaximumBitDepth
actualSampleRate := int(track.MaximumSamplingRate * 1000) // Convert kHz to Hz
GoLog("[Qobuz] Actual quality: %d-bit/%.1fkHz\n", actualBitDepth, track.MaximumSamplingRate)
// Get download URL using parallel API requests
downloadURL, err := downloader.GetDownloadURL(track.ID, qobuzQuality)
if err != nil {
return "", fmt.Errorf("failed to get download URL: %w", err)
return QobuzDownloadResult{}, fmt.Errorf("failed to get download URL: %w", err)
}
// Download file with item ID for progress tracking
// START PARALLEL: Fetch cover and lyrics while downloading audio
var parallelResult *ParallelDownloadResult
parallelDone := make(chan struct{})
go func() {
defer close(parallelDone)
parallelResult = FetchCoverAndLyricsParallel(
req.CoverURL,
req.EmbedMaxQualityCover,
req.SpotifyID,
req.TrackName,
req.ArtistName,
req.EmbedLyrics,
)
}()
// Download audio file with item ID for progress tracking
if err := downloader.DownloadFile(downloadURL, outputPath, req.ItemID); err != nil {
return "", fmt.Errorf("download failed: %w", err)
return QobuzDownloadResult{}, fmt.Errorf("download failed: %w", err)
}
// Wait for parallel operations to complete
<-parallelDone
// Set progress to 100% and status to finalizing (before embedding)
// This makes the UI show "Finalizing..." while embedding happens
if req.ItemID != "" {
SetItemProgress(req.ItemID, 1.0, 0, 0)
SetItemFinalizing(req.ItemID)
}
// Embed metadata using parallel-fetched cover data
// Use metadata from the actual Qobuz track found (more accurate than request) but prefer
// requested Album Name to avoid ISRC version mismatches (e.g. Compilations vs Original)
albumName := track.Album.Title
if req.AlbumName != "" {
albumName = req.AlbumName
}
// Embed metadata
metadata := Metadata{
Title: req.TrackName,
Artist: req.ArtistName,
Album: req.AlbumName,
AlbumArtist: req.AlbumArtist,
Date: req.ReleaseDate,
TrackNumber: req.TrackNumber,
Title: track.Title,
Artist: track.Performer.Name,
Album: albumName,
AlbumArtist: req.AlbumArtist, // Qobuz track struct might not have this handy, keep req or check album struct
Date: track.Album.ReleaseDate,
TrackNumber: track.TrackNumber,
TotalTracks: req.TotalTracks,
DiscNumber: req.DiscNumber,
ISRC: req.ISRC,
DiscNumber: req.DiscNumber, // QobuzTrack struct usually doesn't have disc info in simple search result
ISRC: track.ISRC,
}
// Download cover to memory (avoids file permission issues on Android)
// Use cover data from parallel fetch
var coverData []byte
if req.CoverURL != "" {
fmt.Println("[Qobuz] Downloading cover to memory...")
data, err := downloadCoverToMemory(req.CoverURL, req.EmbedMaxQualityCover)
if err == nil {
coverData = data
fmt.Printf("[Qobuz] Cover downloaded successfully (%d bytes)\n", len(coverData))
} else {
fmt.Printf("[Qobuz] Warning: failed to download cover: %v\n", err)
}
if parallelResult != nil && parallelResult.CoverData != nil {
coverData = parallelResult.CoverData
GoLog("[Qobuz] Using parallel-fetched cover (%d bytes)\n", len(coverData))
}
if err := EmbedMetadataWithCoverData(outputPath, metadata, coverData); err != nil {
fmt.Printf("Warning: failed to embed metadata: %v\n", err)
}
// Embed lyrics if enabled
if req.EmbedLyrics {
fmt.Println("[Qobuz] Fetching lyrics...")
lyricsClient := NewLyricsClient()
lyrics, lyricsErr := lyricsClient.FetchLyricsAllSources(req.SpotifyID, req.TrackName, req.ArtistName)
if lyricsErr != nil {
fmt.Printf("[Qobuz] Warning: lyrics fetch error: %v\n", lyricsErr)
} else if lyrics == nil || len(lyrics.Lines) == 0 {
fmt.Println("[Qobuz] No lyrics found for this track")
// Embed lyrics from parallel fetch
if req.EmbedLyrics && parallelResult != nil && parallelResult.LyricsLRC != "" {
GoLog("[Qobuz] Embedding parallel-fetched lyrics (%d lines)...\n", len(parallelResult.LyricsData.Lines))
if embedErr := EmbedLyrics(outputPath, parallelResult.LyricsLRC); embedErr != nil {
GoLog("[Qobuz] Warning: failed to embed lyrics: %v\n", embedErr)
} else {
fmt.Printf("[Qobuz] Lyrics found (%d lines), embedding...\n", len(lyrics.Lines))
lrcContent := convertToLRC(lyrics)
if embedErr := EmbedLyrics(outputPath, lrcContent); embedErr != nil {
fmt.Printf("[Qobuz] Warning: failed to embed lyrics: %v\n", embedErr)
} else {
fmt.Println("[Qobuz] Lyrics embedded successfully")
}
fmt.Println("[Qobuz] Lyrics embedded successfully")
}
} else if req.EmbedLyrics {
fmt.Println("[Qobuz] No lyrics available from parallel fetch")
}
return outputPath, nil
// Add to ISRC index for fast duplicate checking
AddToISRCIndex(req.OutputDir, req.ISRC, outputPath)
return QobuzDownloadResult{
FilePath: outputPath,
BitDepth: actualBitDepth,
SampleRate: actualSampleRate,
Title: track.Title,
Artist: track.Performer.Name,
Album: track.Album.Title,
ReleaseDate: track.Album.ReleaseDate,
TrackNumber: track.TrackNumber,
DiscNumber: req.DiscNumber, // Qobuz track struct limitations
ISRC: track.ISRC,
}, nil
}
+93 -147
View File
@@ -5,109 +5,61 @@ import (
"unicode"
)
// Japanese character ranges
const (
hiraganaStart = 0x3040
hiraganaEnd = 0x309F
katakanaStart = 0x30A0
katakanaEnd = 0x30FF
kanjiStart = 0x4E00
kanjiEnd = 0x9FFF
)
// hiraganaToRomaji maps hiragana characters to romaji
// Hiragana to Romaji mapping
var hiraganaToRomaji = map[rune]string{
// Basic vowels
'あ': "a", 'い': "i", 'う': "u", 'え': "e", 'お': "o",
// K-row
'か': "ka", 'き': "ki", 'く': "ku", 'け': "ke", 'こ': "ko",
// S-row
'さ': "sa", 'し': "shi", 'す': "su", 'せ': "se", 'そ': "so",
// T-row
'た': "ta", 'ち': "chi", 'つ': "tsu", 'て': "te", 'と': "to",
// N-row
'な': "na", 'に': "ni", 'ぬ': "nu", 'ね': "ne", 'の': "no",
// H-row
'は': "ha", 'ひ': "hi", 'ふ': "fu", 'へ': "he", 'ほ': "ho",
// M-row
'ま': "ma", 'み': "mi", 'む': "mu", 'め': "me", 'も': "mo",
// Y-row
'や': "ya", 'ゆ': "yu", 'よ': "yo",
// R-row
'ら': "ra", 'り': "ri", 'る': "ru", 'れ': "re", 'ろ': "ro",
// W-row
'わ': "wa", 'を': "wo",
// N
'ん': "n",
// Voiced (dakuten) - G-row
'わ': "wa", 'を': "wo", 'ん': "n",
// Dakuten (voiced)
'が': "ga", 'ぎ': "gi", 'ぐ': "gu", 'げ': "ge", 'ご': "go",
// Z-row
'ざ': "za", 'じ': "ji", 'ず': "zu", 'ぜ': "ze", 'ぞ': "zo",
// D-row
'だ': "da", 'ぢ': "ji", 'づ': "zu", 'で': "de", 'ど': "do",
// B-row
'ば': "ba", 'び': "bi", 'ぶ': "bu", 'べ': "be", 'ぼ': "bo",
// P-row (handakuten)
// Handakuten (semi-voiced)
'ぱ': "pa", 'ぴ': "pi", 'ぷ': "pu", 'ぺ': "pe", 'ぽ': "po",
// Small characters
'ゃ': "ya", 'ゅ': "yu", 'ょ': "yo",
'っ': "", // Double consonant marker
'ぁ': "a", 'ぃ': "i", 'ぅ': "u", 'ぇ': "e", 'ぉ': "o",
'っ': "", // Small tsu - handled specially
// Long vowel mark
'ー': "",
}
// katakanaToRomaji maps katakana characters to romaji
// Katakana to Romaji mapping
var katakanaToRomaji = map[rune]string{
// Basic vowels
'ア': "a", 'イ': "i", 'ウ': "u", 'エ': "e", 'オ': "o",
// K-row
'カ': "ka", 'キ': "ki", 'ク': "ku", 'ケ': "ke", 'コ': "ko",
// S-row
'サ': "sa", 'シ': "shi", 'ス': "su", 'セ': "se", 'ソ': "so",
// T-row
'タ': "ta", 'チ': "chi", 'ツ': "tsu", 'テ': "te", 'ト': "to",
// N-row
'ナ': "na", 'ニ': "ni", 'ヌ': "nu", 'ネ': "ne", '': "no",
// H-row
'ハ': "ha", 'ヒ': "hi", 'フ': "fu", 'ヘ': "he", 'ホ': "ho",
// M-row
'マ': "ma", 'ミ': "mi", 'ム': "mu", 'メ': "me", 'モ': "mo",
// Y-row
'ヤ': "ya", 'ユ': "yu", 'ヨ': "yo",
// R-row
'ラ': "ra", 'リ': "ri", 'ル': "ru", 'レ': "re", 'ロ': "ro",
// W-row
'ワ': "wa", 'ヲ': "wo",
// N
'ン': "n",
// Voiced (dakuten) - G-row
'ワ': "wa", 'ヲ': "wo", 'ン': "n",
// Dakuten (voiced)
'ガ': "ga", 'ギ': "gi", 'グ': "gu", 'ゲ': "ge", 'ゴ': "go",
// Z-row
'ザ': "za", 'ジ': "ji", 'ズ': "zu", 'ゼ': "ze", 'ゾ': "zo",
// D-row
'ダ': "da", 'ヂ': "ji", 'ヅ': "zu", 'デ': "de", 'ド': "do",
// B-row
'バ': "ba", 'ビ': "bi", 'ブ': "bu", 'ベ': "be", 'ボ': "bo",
// P-row (handakuten)
// Handakuten (semi-voiced)
'パ': "pa", 'ピ': "pi", 'プ': "pu", 'ペ': "pe", 'ポ': "po",
// Small characters
'ャ': "ya", 'ュ': "yu", 'ョ': "yo",
'ッ': "", // Double consonant marker
'ァ': "a", 'ィ': "i", 'ゥ': "u", 'ェ': "e", 'ォ': "o",
'ッ': "", // Small tsu - handled specially
// Extended katakana
'ー': "", // Long vowel mark
'ヴ': "vu",
// Long vowel mark
'ー': "",
}
// Extended katakana combinations (multi-character)
var katakanaExtended = map[string]string{
"ファ": "fa", "フィ": "fi", "フェ": "fe", "フォ": "fo",
}
// Combination mappings for small ya/yu/yo
var hiraganaCombo = map[string]string{
// Combination mappings for きゃ, しゃ, etc.
var combinationHiragana = map[string]string{
"きゃ": "kya", "きゅ": "kyu", "きょ": "kyo",
"しゃ": "sha", "しゅ": "shu", "しょ": "sho",
"ちゃ": "cha", "ちゅ": "chu", "ちょ": "cho",
@@ -121,7 +73,7 @@ var hiraganaCombo = map[string]string{
"ぴゃ": "pya", "ぴゅ": "pyu", "ぴょ": "pyo",
}
var katakanaCombo = map[string]string{
var combinationKatakana = map[string]string{
"キャ": "kya", "キュ": "kyu", "キョ": "kyo",
"シャ": "sha", "シュ": "shu", "ショ": "sho",
"チャ": "cha", "チュ": "chu", "チョ": "cho",
@@ -133,15 +85,13 @@ var katakanaCombo = map[string]string{
"ジャ": "ja", "ジュ": "ju", "ジョ": "jo",
"ビャ": "bya", "ビュ": "byu", "ビョ": "byo",
"ピャ": "pya", "ピュ": "pyu", "ピョ": "pyo",
// Extended katakana combinations
"ティ": "ti", "ディ": "di",
"トゥ": "tu", "ドゥ": "du",
// Extended combinations
"ティ": "ti", "ディ": "di", "トゥ": "tu", "ドゥ": "du",
"ファ": "fa", "フィ": "fi", "フェ": "fe", "フォ": "fo",
"ウィ": "wi", "ウェ": "we", "ウォ": "wo",
"ヴァ": "va", "ヴィ": "vi", "ヴェ": "ve", "ヴォ": "vo",
}
// ContainsJapanese checks if a string contains Japanese characters (Hiragana, Katakana, or Kanji)
// ContainsJapanese checks if a string contains Japanese characters
func ContainsJapanese(s string) bool {
for _, r := range s {
if isHiragana(r) || isKatakana(r) || isKanji(r) {
@@ -151,107 +101,72 @@ func ContainsJapanese(s string) bool {
return false
}
// ContainsKana checks if a string contains Hiragana or Katakana (convertible to romaji)
func ContainsKana(s string) bool {
for _, r := range s {
if isHiragana(r) || isKatakana(r) {
return true
}
}
return false
}
func isHiragana(r rune) bool {
return r >= hiraganaStart && r <= hiraganaEnd
return r >= 0x3040 && r <= 0x309F
}
func isKatakana(r rune) bool {
return r >= katakanaStart && r <= katakanaEnd
return r >= 0x30A0 && r <= 0x30FF
}
func isKanji(r rune) bool {
return r >= kanjiStart && r <= kanjiEnd
return (r >= 0x4E00 && r <= 0x9FFF) || // CJK Unified Ideographs
(r >= 0x3400 && r <= 0x4DBF) // CJK Unified Ideographs Extension A
}
// ToRomaji converts Japanese kana (Hiragana/Katakana) to romaji
// Kanji characters are preserved as-is since they require dictionary lookup
func ToRomaji(s string) string {
if !ContainsKana(s) {
return s
// JapaneseToRomaji converts Japanese text (hiragana/katakana) to romaji
// Note: Kanji cannot be converted without a dictionary, so they are kept as-is
func JapaneseToRomaji(text string) string {
if !ContainsJapanese(text) {
return text
}
runes := []rune(s)
var result strings.Builder
result.Grow(len(s) * 2) // Romaji is typically longer
runes := []rune(text)
i := 0
for i < len(runes) {
r := runes[i]
// Check for っ/ッ (double consonant)
if i < len(runes)-1 && (runes[i] == 'っ' || runes[i] == 'ッ') {
nextRomaji := ""
if romaji, ok := hiraganaToRomaji[runes[i+1]]; ok {
nextRomaji = romaji
} else if romaji, ok := katakanaToRomaji[runes[i+1]]; ok {
nextRomaji = romaji
}
if len(nextRomaji) > 0 {
result.WriteByte(nextRomaji[0]) // Double the first consonant
}
i++
continue
}
// Check for two-character combinations first
if i+1 < len(runes) {
// Check for two-character combinations
if i < len(runes)-1 {
combo := string(runes[i : i+2])
if romaji, ok := hiraganaCombo[combo]; ok {
if romaji, ok := combinationHiragana[combo]; ok {
result.WriteString(romaji)
i += 2
continue
}
if romaji, ok := katakanaCombo[combo]; ok {
if romaji, ok := combinationKatakana[combo]; ok {
result.WriteString(romaji)
i += 2
continue
}
}
// Handle small tsu (っ/ッ) - doubles the next consonant
if r == 'っ' || r == 'ッ' {
if i+1 < len(runes) {
nextRune := runes[i+1]
var nextRomaji string
if romaji, ok := hiraganaToRomaji[nextRune]; ok {
nextRomaji = romaji
} else if romaji, ok := katakanaToRomaji[nextRune]; ok {
nextRomaji = romaji
}
if len(nextRomaji) > 0 {
result.WriteByte(nextRomaji[0]) // Double the consonant
}
}
i++
continue
}
// Handle long vowel mark (ー)
if r == 'ー' {
// Extend the previous vowel
resultStr := result.String()
if len(resultStr) > 0 {
lastChar := resultStr[len(resultStr)-1]
if lastChar == 'a' || lastChar == 'i' || lastChar == 'u' || lastChar == 'e' || lastChar == 'o' {
result.WriteByte(lastChar)
}
}
i++
continue
}
// Single character conversion
r := runes[i]
if romaji, ok := hiraganaToRomaji[r]; ok {
result.WriteString(romaji)
i++
continue
}
if romaji, ok := katakanaToRomaji[r]; ok {
} else if romaji, ok := katakanaToRomaji[r]; ok {
result.WriteString(romaji)
i++
continue
}
// Keep non-Japanese characters as-is
if unicode.IsSpace(r) {
result.WriteRune(' ')
} else if isKanji(r) {
// Keep kanji as-is (would need dictionary for proper conversion)
result.WriteRune(r)
} else {
// Keep other characters (punctuation, spaces, etc.)
result.WriteRune(r)
}
i++
@@ -260,17 +175,48 @@ func ToRomaji(s string) string {
return result.String()
}
// GetRomajiVariants returns search variants for Japanese text
// Returns the original string plus romaji version if applicable
func GetRomajiVariants(s string) []string {
variants := []string{s}
// BuildSearchQuery creates a search query from track name and artist
// Converts Japanese to romaji if present
func BuildSearchQuery(trackName, artistName string) string {
// Convert Japanese to romaji
trackRomaji := JapaneseToRomaji(trackName)
artistRomaji := JapaneseToRomaji(artistName)
if ContainsKana(s) {
romaji := ToRomaji(s)
if romaji != s && strings.TrimSpace(romaji) != "" {
variants = append(variants, romaji)
// Clean up the query - remove special characters that might interfere with search
trackClean := cleanSearchQuery(trackRomaji)
artistClean := cleanSearchQuery(artistRomaji)
return strings.TrimSpace(artistClean + " " + trackClean)
}
// cleanSearchQuery removes special characters that might interfere with search
func cleanSearchQuery(s string) string {
var result strings.Builder
for _, r := range s {
if unicode.IsLetter(r) || unicode.IsNumber(r) || unicode.IsSpace(r) {
result.WriteRune(r)
} else if r == '-' || r == '\'' {
result.WriteRune(r)
}
}
return variants
return strings.TrimSpace(result.String())
}
// CleanToASCII removes all non-ASCII characters and keeps only letters, numbers, spaces
// This is useful for creating search queries that work better with Tidal's search
func CleanToASCII(s string) string {
var result strings.Builder
for _, r := range s {
// Keep only ASCII letters, numbers, spaces, and basic punctuation
if (r >= 'a' && r <= 'z') || (r >= 'A' && r <= 'Z') ||
(r >= '0' && r <= '9') || r == ' ' || r == '-' || r == '\'' {
result.WriteRune(r)
} else if r == ',' || r == '.' {
// Convert punctuation to space
result.WriteRune(' ')
}
}
// Clean up multiple spaces
cleaned := strings.Join(strings.Fields(result.String()), " ")
return strings.TrimSpace(cleaned)
}
+397 -6
View File
@@ -6,6 +6,8 @@ import (
"fmt"
"net/http"
"net/url"
"strings"
"sync"
"time"
)
@@ -20,20 +22,37 @@ type TrackAvailability struct {
Tidal bool `json:"tidal"`
Amazon bool `json:"amazon"`
Qobuz bool `json:"qobuz"`
Deezer bool `json:"deezer"`
TidalURL string `json:"tidal_url,omitempty"`
AmazonURL string `json:"amazon_url,omitempty"`
QobuzURL string `json:"qobuz_url,omitempty"`
DeezerURL string `json:"deezer_url,omitempty"`
DeezerID string `json:"deezer_id,omitempty"`
}
// NewSongLinkClient creates a new SongLink client
var (
// Global SongLink client instance for connection reuse
globalSongLinkClient *SongLinkClient
songLinkClientOnce sync.Once
)
// NewSongLinkClient creates a new SongLink client (returns singleton for connection reuse)
func NewSongLinkClient() *SongLinkClient {
return &SongLinkClient{
client: NewHTTPClientWithTimeout(SongLinkTimeout), // 30s timeout
}
songLinkClientOnce.Do(func() {
globalSongLinkClient = &SongLinkClient{
client: NewHTTPClientWithTimeout(SongLinkTimeout), // 30s timeout
}
})
return globalSongLinkClient
}
// CheckTrackAvailability checks track availability on streaming platforms
func (s *SongLinkClient) CheckTrackAvailability(spotifyTrackID string, isrc string) (*TrackAvailability, error) {
// Validate Spotify ID format (should be 22 characters alphanumeric)
if spotifyTrackID == "" {
return nil, fmt.Errorf("spotify track ID is empty")
}
// Use global rate limiter - blocks until request is allowed
songLinkRateLimiter.WaitForSlot()
@@ -57,8 +76,18 @@ func (s *SongLinkClient) CheckTrackAvailability(spotifyTrackID string, isrc stri
}
defer resp.Body.Close()
// Handle specific error codes
if resp.StatusCode == 400 {
return nil, fmt.Errorf("track not found on SongLink (invalid Spotify ID or track unavailable)")
}
if resp.StatusCode == 404 {
return nil, fmt.Errorf("track not found on any streaming platform")
}
if resp.StatusCode == 429 {
return nil, fmt.Errorf("SongLink rate limit exceeded")
}
if resp.StatusCode != 200 {
return nil, fmt.Errorf("API returned status %d", resp.StatusCode)
return nil, fmt.Errorf("SongLink API returned status %d", resp.StatusCode)
}
body, err := ReadResponseBody(resp)
@@ -92,7 +121,15 @@ func (s *SongLinkClient) CheckTrackAvailability(spotifyTrackID string, isrc stri
availability.AmazonURL = amazonLink.URL
}
// Check Qobuz using ISRC
// Check Deezer
if deezerLink, ok := songLinkResp.LinksByPlatform["deezer"]; ok && deezerLink.URL != "" {
availability.Deezer = true
availability.DeezerURL = deezerLink.URL
// Extract Deezer ID from URL (e.g., https://www.deezer.com/track/123456)
availability.DeezerID = extractDeezerIDFromURL(deezerLink.URL)
}
// Check Qobuz using ISRC (SongLink doesn't support Qobuz directly)
if isrc != "" {
availability.Qobuz = checkQobuzAvailability(isrc)
}
@@ -151,3 +188,357 @@ func checkQobuzAvailability(isrc string) bool {
return searchResp.Tracks.Total > 0
}
// extractDeezerIDFromURL extracts Deezer track/album/artist ID from URL
func extractDeezerIDFromURL(deezerURL string) string {
// URL format: https://www.deezer.com/track/123456 or https://www.deezer.com/en/track/123456
parts := strings.Split(deezerURL, "/")
if len(parts) > 0 {
// Get the last part which should be the ID
lastPart := parts[len(parts)-1]
// Remove any query parameters
if idx := strings.Index(lastPart, "?"); idx > 0 {
lastPart = lastPart[:idx]
}
return lastPart
}
return ""
}
// GetDeezerIDFromSpotify converts a Spotify track ID to Deezer track ID using SongLink
func (s *SongLinkClient) GetDeezerIDFromSpotify(spotifyTrackID string) (string, error) {
availability, err := s.CheckTrackAvailability(spotifyTrackID, "")
if err != nil {
return "", err
}
if !availability.Deezer || availability.DeezerID == "" {
return "", fmt.Errorf("track not found on Deezer")
}
return availability.DeezerID, nil
}
// AlbumAvailability represents album availability on different platforms
type AlbumAvailability struct {
SpotifyID string `json:"spotify_id"`
Deezer bool `json:"deezer"`
DeezerURL string `json:"deezer_url,omitempty"`
DeezerID string `json:"deezer_id,omitempty"`
}
// CheckAlbumAvailability checks album availability on streaming platforms using SongLink
func (s *SongLinkClient) CheckAlbumAvailability(spotifyAlbumID string) (*AlbumAvailability, error) {
// Use global rate limiter
songLinkRateLimiter.WaitForSlot()
// Build API URL for album
spotifyBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly9vcGVuLnNwb3RpZnkuY29tL2FsYnVtLw==")
spotifyURL := fmt.Sprintf("%s%s", string(spotifyBase), spotifyAlbumID)
apiBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly9hcGkuc29uZy5saW5rL3YxLWFscGhhLjEvbGlua3M/dXJsPQ==")
apiURL := fmt.Sprintf("%s%s", string(apiBase), url.QueryEscape(spotifyURL))
req, err := http.NewRequest("GET", apiURL, nil)
if err != nil {
return nil, fmt.Errorf("failed to create request: %w", err)
}
retryConfig := DefaultRetryConfig()
resp, err := DoRequestWithRetry(s.client, req, retryConfig)
if err != nil {
return nil, fmt.Errorf("failed to check album availability: %w", err)
}
defer resp.Body.Close()
if resp.StatusCode != 200 {
return nil, fmt.Errorf("API returned status %d", resp.StatusCode)
}
body, err := ReadResponseBody(resp)
if err != nil {
return nil, fmt.Errorf("failed to read response: %w", err)
}
var songLinkResp struct {
LinksByPlatform map[string]struct {
URL string `json:"url"`
} `json:"linksByPlatform"`
}
if err := json.Unmarshal(body, &songLinkResp); err != nil {
return nil, fmt.Errorf("failed to decode response: %w", err)
}
availability := &AlbumAvailability{
SpotifyID: spotifyAlbumID,
}
// Check Deezer
if deezerLink, ok := songLinkResp.LinksByPlatform["deezer"]; ok && deezerLink.URL != "" {
availability.Deezer = true
availability.DeezerURL = deezerLink.URL
availability.DeezerID = extractDeezerIDFromURL(deezerLink.URL)
}
return availability, nil
}
// GetDeezerAlbumIDFromSpotify converts a Spotify album ID to Deezer album ID using SongLink
func (s *SongLinkClient) GetDeezerAlbumIDFromSpotify(spotifyAlbumID string) (string, error) {
availability, err := s.CheckAlbumAvailability(spotifyAlbumID)
if err != nil {
return "", err
}
if !availability.Deezer || availability.DeezerID == "" {
return "", fmt.Errorf("album not found on Deezer")
}
return availability.DeezerID, nil
}
// ========================================
// Deezer ID Support - Query SongLink using Deezer as source
// ========================================
// CheckAvailabilityFromDeezer checks track availability using Deezer track ID as source
// This is useful when we have Deezer metadata and want to find the track on other platforms
func (s *SongLinkClient) CheckAvailabilityFromDeezer(deezerTrackID string) (*TrackAvailability, error) {
if deezerTrackID == "" {
return nil, fmt.Errorf("deezer track ID is empty")
}
// Use global rate limiter
songLinkRateLimiter.WaitForSlot()
// Build Deezer URL
deezerURL := fmt.Sprintf("https://www.deezer.com/track/%s", deezerTrackID)
// Build API URL using Deezer URL as source
apiBase, _ := base64.StdEncoding.DecodeString("aHR0cHM6Ly9hcGkuc29uZy5saW5rL3YxLWFscGhhLjEvbGlua3M/dXJsPQ==")
apiURL := fmt.Sprintf("%s%s&userCountry=US", string(apiBase), url.QueryEscape(deezerURL))
req, err := http.NewRequest("GET", apiURL, nil)
if err != nil {
return nil, fmt.Errorf("failed to create request: %w", err)
}
retryConfig := DefaultRetryConfig()
resp, err := DoRequestWithRetry(s.client, req, retryConfig)
if err != nil {
return nil, fmt.Errorf("failed to check availability: %w", err)
}
defer resp.Body.Close()
// Handle specific error codes
if resp.StatusCode == 400 {
return nil, fmt.Errorf("track not found on SongLink (invalid Deezer ID)")
}
if resp.StatusCode == 404 {
return nil, fmt.Errorf("track not found on any streaming platform")
}
if resp.StatusCode == 429 {
return nil, fmt.Errorf("SongLink rate limit exceeded")
}
if resp.StatusCode != 200 {
return nil, fmt.Errorf("SongLink API returned status %d", resp.StatusCode)
}
body, err := ReadResponseBody(resp)
if err != nil {
return nil, fmt.Errorf("failed to read response: %w", err)
}
var songLinkResp struct {
LinksByPlatform map[string]struct {
URL string `json:"url"`
} `json:"linksByPlatform"`
EntitiesByUniqueId map[string]struct {
ID string `json:"id"`
Type string `json:"type"`
Title string `json:"title"`
ArtistName string `json:"artistName"`
} `json:"entitiesByUniqueId"`
}
if err := json.Unmarshal(body, &songLinkResp); err != nil {
return nil, fmt.Errorf("failed to decode response: %w", err)
}
availability := &TrackAvailability{
Deezer: true,
DeezerID: deezerTrackID,
}
// Check Spotify
if spotifyLink, ok := songLinkResp.LinksByPlatform["spotify"]; ok && spotifyLink.URL != "" {
// Extract Spotify ID from URL
availability.SpotifyID = extractSpotifyIDFromURL(spotifyLink.URL)
}
// Check Tidal
if tidalLink, ok := songLinkResp.LinksByPlatform["tidal"]; ok && tidalLink.URL != "" {
availability.Tidal = true
availability.TidalURL = tidalLink.URL
}
// Check Amazon
if amazonLink, ok := songLinkResp.LinksByPlatform["amazonMusic"]; ok && amazonLink.URL != "" {
availability.Amazon = true
availability.AmazonURL = amazonLink.URL
}
// Check Deezer URL
if deezerLink, ok := songLinkResp.LinksByPlatform["deezer"]; ok && deezerLink.URL != "" {
availability.DeezerURL = deezerLink.URL
}
return availability, nil
}
// CheckAvailabilityByPlatform checks track availability using any supported platform
// platform: "spotify", "deezer", "tidal", "amazonMusic", "appleMusic", "youtube", etc.
// entityType: "song" or "album"
// entityID: the ID on that platform
func (s *SongLinkClient) CheckAvailabilityByPlatform(platform, entityType, entityID string) (*TrackAvailability, error) {
if entityID == "" {
return nil, fmt.Errorf("%s ID is empty", platform)
}
// Use global rate limiter
songLinkRateLimiter.WaitForSlot()
// Build API URL using platform, type, and id parameters (as per API docs)
// https://api.song.link/v1-alpha.1/links?platform=deezer&type=song&id=123456
apiURL := fmt.Sprintf("https://api.song.link/v1-alpha.1/links?platform=%s&type=%s&id=%s&userCountry=US",
url.QueryEscape(platform),
url.QueryEscape(entityType),
url.QueryEscape(entityID))
req, err := http.NewRequest("GET", apiURL, nil)
if err != nil {
return nil, fmt.Errorf("failed to create request: %w", err)
}
retryConfig := DefaultRetryConfig()
resp, err := DoRequestWithRetry(s.client, req, retryConfig)
if err != nil {
return nil, fmt.Errorf("failed to check availability: %w", err)
}
defer resp.Body.Close()
// Handle specific error codes
if resp.StatusCode == 400 {
return nil, fmt.Errorf("track not found on SongLink (invalid %s ID)", platform)
}
if resp.StatusCode == 404 {
return nil, fmt.Errorf("track not found on any streaming platform")
}
if resp.StatusCode == 429 {
return nil, fmt.Errorf("SongLink rate limit exceeded")
}
if resp.StatusCode != 200 {
return nil, fmt.Errorf("SongLink API returned status %d", resp.StatusCode)
}
body, err := ReadResponseBody(resp)
if err != nil {
return nil, fmt.Errorf("failed to read response: %w", err)
}
var songLinkResp struct {
LinksByPlatform map[string]struct {
URL string `json:"url"`
} `json:"linksByPlatform"`
}
if err := json.Unmarshal(body, &songLinkResp); err != nil {
return nil, fmt.Errorf("failed to decode response: %w", err)
}
availability := &TrackAvailability{}
// Check Spotify
if spotifyLink, ok := songLinkResp.LinksByPlatform["spotify"]; ok && spotifyLink.URL != "" {
availability.SpotifyID = extractSpotifyIDFromURL(spotifyLink.URL)
}
// Check Tidal
if tidalLink, ok := songLinkResp.LinksByPlatform["tidal"]; ok && tidalLink.URL != "" {
availability.Tidal = true
availability.TidalURL = tidalLink.URL
}
// Check Amazon
if amazonLink, ok := songLinkResp.LinksByPlatform["amazonMusic"]; ok && amazonLink.URL != "" {
availability.Amazon = true
availability.AmazonURL = amazonLink.URL
}
// Check Deezer
if deezerLink, ok := songLinkResp.LinksByPlatform["deezer"]; ok && deezerLink.URL != "" {
availability.Deezer = true
availability.DeezerURL = deezerLink.URL
availability.DeezerID = extractDeezerIDFromURL(deezerLink.URL)
}
return availability, nil
}
// extractSpotifyIDFromURL extracts Spotify track ID from URL
func extractSpotifyIDFromURL(spotifyURL string) string {
// URL format: https://open.spotify.com/track/0Jcij1eWd5bDMU5iPbxe2i
parts := strings.Split(spotifyURL, "/track/")
if len(parts) > 1 {
// Get the ID part and remove any query parameters
idPart := parts[1]
if idx := strings.Index(idPart, "?"); idx > 0 {
idPart = idPart[:idx]
}
return idPart
}
return ""
}
// GetSpotifyIDFromDeezer converts a Deezer track ID to Spotify track ID using SongLink
func (s *SongLinkClient) GetSpotifyIDFromDeezer(deezerTrackID string) (string, error) {
availability, err := s.CheckAvailabilityFromDeezer(deezerTrackID)
if err != nil {
return "", err
}
if availability.SpotifyID == "" {
return "", fmt.Errorf("track not found on Spotify")
}
return availability.SpotifyID, nil
}
// GetTidalURLFromDeezer converts a Deezer track ID to Tidal URL using SongLink
func (s *SongLinkClient) GetTidalURLFromDeezer(deezerTrackID string) (string, error) {
availability, err := s.CheckAvailabilityFromDeezer(deezerTrackID)
if err != nil {
return "", err
}
if !availability.Tidal || availability.TidalURL == "" {
return "", fmt.Errorf("track not found on Tidal")
}
return availability.TidalURL, nil
}
// GetAmazonURLFromDeezer converts a Deezer track ID to Amazon Music URL using SongLink
func (s *SongLinkClient) GetAmazonURLFromDeezer(deezerTrackID string) (string, error) {
availability, err := s.CheckAvailabilityFromDeezer(deezerTrackID)
if err != nil {
return "", err
}
if !availability.Amazon || availability.AmazonURL == "" {
return "", fmt.Errorf("track not found on Amazon Music")
}
return availability.AmazonURL, nil
}
+489 -32
View File
@@ -10,6 +10,7 @@ import (
"math/rand"
"net/http"
"net/url"
"os"
"strings"
"sync"
"time"
@@ -20,11 +21,28 @@ const (
playlistBaseURL = "https://api.spotify.com/v1/playlists/%s"
albumBaseURL = "https://api.spotify.com/v1/albums/%s"
trackBaseURL = "https://api.spotify.com/v1/tracks/%s"
artistBaseURL = "https://api.spotify.com/v1/artists/%s"
artistAlbumsURL = "https://api.spotify.com/v1/artists/%s/albums"
searchBaseURL = "https://api.spotify.com/v1/search"
// Cache TTL settings
artistCacheTTL = 10 * time.Minute
searchCacheTTL = 5 * time.Minute
albumCacheTTL = 10 * time.Minute
)
var errInvalidSpotifyURL = errors.New("invalid or unsupported Spotify URL")
// cacheEntry holds cached data with expiration
type cacheEntry struct {
data interface{}
expiresAt time.Time
}
func (e *cacheEntry) isExpired() bool {
return time.Now().After(e.expiresAt)
}
// SpotifyMetadataClient handles Spotify API interactions
type SpotifyMetadataClient struct {
httpClient *http.Client
@@ -32,31 +50,76 @@ type SpotifyMetadataClient struct {
clientSecret string
cachedToken string
tokenExpiresAt time.Time
tokenMu sync.Mutex // Protects token cache for concurrent access
rng *rand.Rand
rngMu sync.Mutex
userAgent string
// Caches to reduce API calls
artistCache map[string]*cacheEntry // key: artistID
searchCache map[string]*cacheEntry // key: query+type
albumCache map[string]*cacheEntry // key: albumID
cacheMu sync.RWMutex
}
// Custom credentials storage (set from Flutter)
var (
customClientID string
customClientSecret string
credentialsMu sync.RWMutex
)
// SetSpotifyCredentials sets custom Spotify API credentials
// Pass empty strings to use default credentials
func SetSpotifyCredentials(clientID, clientSecret string) {
credentialsMu.Lock()
defer credentialsMu.Unlock()
customClientID = clientID
customClientSecret = clientSecret
}
// getCredentials returns the current credentials (custom or default)
func getCredentials() (string, string) {
credentialsMu.RLock()
defer credentialsMu.RUnlock()
if customClientID != "" && customClientSecret != "" {
return customClientID, customClientSecret
}
// Fall back to default credentials
clientID := os.Getenv("SPOTIFY_CLIENT_ID")
if clientID == "" {
if decoded, err := base64.StdEncoding.DecodeString("NWY1NzNjOTYyMDQ5NGJhZTg3ODkwYzBmMDhhNjAyOTM="); err == nil {
clientID = string(decoded)
}
}
clientSecret := os.Getenv("SPOTIFY_CLIENT_SECRET")
if clientSecret == "" {
if decoded, err := base64.StdEncoding.DecodeString("MjEyNDc2ZDliMGYzNDcyZWFhNzYyZDkwYjE5YjBiYTg="); err == nil {
clientSecret = string(decoded)
}
}
return clientID, clientSecret
}
// NewSpotifyMetadataClient creates a new Spotify client
func NewSpotifyMetadataClient() *SpotifyMetadataClient {
src := rand.NewSource(time.Now().UnixNano())
// Decode credentials from base64
clientID := ""
if decoded, err := base64.StdEncoding.DecodeString("NWY1NzNjOTYyMDQ5NGJhZTg3ODkwYzBmMDhhNjAyOTM="); err == nil {
clientID = string(decoded)
}
clientSecret := ""
if decoded, err := base64.StdEncoding.DecodeString("MjEyNDc2ZDliMGYzNDcyZWFhNzYyZDkwYjE5YjBiYTg="); err == nil {
clientSecret = string(decoded)
}
// Get credentials (custom or default)
clientID, clientSecret := getCredentials()
c := &SpotifyMetadataClient{
httpClient: &http.Client{Timeout: 15 * time.Second},
httpClient: NewHTTPClientWithTimeout(15 * time.Second), // Use shared transport for connection pooling
clientID: clientID,
clientSecret: clientSecret,
rng: rand.New(src),
artistCache: make(map[string]*cacheEntry),
searchCache: make(map[string]*cacheEntry),
albumCache: make(map[string]*cacheEntry),
}
c.userAgent = c.randomUserAgent()
return c
@@ -131,6 +194,32 @@ type PlaylistResponsePayload struct {
TrackList []AlbumTrackMetadata `json:"track_list"`
}
// ArtistInfoMetadata holds artist information
type ArtistInfoMetadata struct {
ID string `json:"id"`
Name string `json:"name"`
Images string `json:"images"`
Followers int `json:"followers"`
Popularity int `json:"popularity"`
}
// ArtistAlbumMetadata holds album info for artist discography
type ArtistAlbumMetadata struct {
ID string `json:"id"`
Name string `json:"name"`
ReleaseDate string `json:"release_date"`
TotalTracks int `json:"total_tracks"`
Images string `json:"images"`
AlbumType string `json:"album_type"` // album, single, compilation
Artists string `json:"artists"`
}
// ArtistResponsePayload is the response for artist requests
type ArtistResponsePayload struct {
ArtistInfo ArtistInfoMetadata `json:"artist_info"`
Albums []ArtistAlbumMetadata `json:"albums"`
}
// TrackResponse is the response for single track requests
type TrackResponse struct {
Track TrackMetadata `json:"track"`
@@ -142,6 +231,21 @@ type SearchResult struct {
Total int `json:"total"`
}
// SearchArtistResult represents an artist in search results
type SearchArtistResult struct {
ID string `json:"id"`
Name string `json:"name"`
Images string `json:"images"`
Followers int `json:"followers"`
Popularity int `json:"popularity"`
}
// SearchAllResult represents combined search results for tracks and artists
type SearchAllResult struct {
Tracks []TrackMetadata `json:"tracks"`
Artists []SearchArtistResult `json:"artists"`
}
type spotifyURI struct {
Type string
ID string
@@ -212,6 +316,8 @@ func (c *SpotifyMetadataClient) GetFilteredData(ctx context.Context, spotifyURL
return c.fetchAlbum(ctx, parsed.ID, token)
case "playlist":
return c.fetchPlaylist(ctx, parsed.ID, token)
case "artist":
return c.fetchArtist(ctx, parsed.ID, token)
default:
return nil, fmt.Errorf("unsupported Spotify type: %s", parsed.Type)
}
@@ -263,6 +369,98 @@ func (c *SpotifyMetadataClient) SearchTracks(ctx context.Context, query string,
return result, nil
}
// SearchAll searches for tracks and artists on Spotify
func (c *SpotifyMetadataClient) SearchAll(ctx context.Context, query string, trackLimit, artistLimit int) (*SearchAllResult, error) {
// Create cache key
cacheKey := fmt.Sprintf("all:%s:%d:%d", query, trackLimit, artistLimit)
// Check cache first
c.cacheMu.RLock()
if entry, ok := c.searchCache[cacheKey]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
return entry.data.(*SearchAllResult), nil
}
c.cacheMu.RUnlock()
token, err := c.getAccessToken(ctx)
if err != nil {
return nil, err
}
searchURL := fmt.Sprintf("%s?q=%s&type=track,artist&limit=%d", searchBaseURL, url.QueryEscape(query), trackLimit)
var response struct {
Tracks struct {
Items []trackFull `json:"items"`
} `json:"tracks"`
Artists struct {
Items []struct {
ID string `json:"id"`
Name string `json:"name"`
Images []image `json:"images"`
Followers struct {
Total int `json:"total"`
} `json:"followers"`
Popularity int `json:"popularity"`
} `json:"items"`
} `json:"artists"`
}
if err := c.getJSON(ctx, searchURL, token, &response); err != nil {
return nil, err
}
result := &SearchAllResult{
Tracks: make([]TrackMetadata, 0, len(response.Tracks.Items)),
Artists: make([]SearchArtistResult, 0, len(response.Artists.Items)),
}
for _, track := range response.Tracks.Items {
result.Tracks = append(result.Tracks, TrackMetadata{
SpotifyID: track.ID,
Artists: joinArtists(track.Artists),
Name: track.Name,
AlbumName: track.Album.Name,
AlbumArtist: joinArtists(track.Album.Artists),
DurationMS: track.DurationMS,
Images: firstImageURL(track.Album.Images),
ReleaseDate: track.Album.ReleaseDate,
TrackNumber: track.TrackNumber,
TotalTracks: track.Album.TotalTracks,
DiscNumber: track.DiscNumber,
ExternalURL: track.ExternalURL.Spotify,
ISRC: track.ExternalID.ISRC,
})
}
// Limit artists to artistLimit
artistCount := len(response.Artists.Items)
if artistCount > artistLimit {
artistCount = artistLimit
}
for i := 0; i < artistCount; i++ {
artist := response.Artists.Items[i]
result.Artists = append(result.Artists, SearchArtistResult{
ID: artist.ID,
Name: artist.Name,
Images: firstImageURL(artist.Images),
Followers: artist.Followers.Total,
Popularity: artist.Popularity,
})
}
// Store in cache
c.cacheMu.Lock()
c.searchCache[cacheKey] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(searchCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
func (c *SpotifyMetadataClient) fetchTrack(ctx context.Context, trackID, token string) (*TrackResponse, error) {
var data trackFull
if err := c.getJSON(ctx, fmt.Sprintf(trackBaseURL, trackID), token, &data); err != nil {
@@ -289,6 +487,25 @@ func (c *SpotifyMetadataClient) fetchTrack(ctx context.Context, trackID, token s
}
func (c *SpotifyMetadataClient) fetchAlbum(ctx context.Context, albumID, token string) (*AlbumResponsePayload, error) {
// Check cache first
c.cacheMu.RLock()
if entry, ok := c.albumCache[albumID]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
return entry.data.(*AlbumResponsePayload), nil
}
c.cacheMu.RUnlock()
// Track item structure for pagination
type trackItem struct {
ID string `json:"id"`
Name string `json:"name"`
DurationMS int `json:"duration_ms"`
TrackNumber int `json:"track_number"`
DiscNumber int `json:"disc_number"`
ExternalURL externalURL `json:"external_urls"`
Artists []artist `json:"artists"`
}
var data struct {
Name string `json:"name"`
ReleaseDate string `json:"release_date"`
@@ -296,15 +513,8 @@ func (c *SpotifyMetadataClient) fetchAlbum(ctx context.Context, albumID, token s
Images []image `json:"images"`
Artists []artist `json:"artists"`
Tracks struct {
Items []struct {
ID string `json:"id"`
Name string `json:"name"`
DurationMS int `json:"duration_ms"`
TrackNumber int `json:"track_number"`
DiscNumber int `json:"disc_number"`
ExternalURL externalURL `json:"external_urls"`
Artists []artist `json:"artists"`
} `json:"items"`
Items []trackItem `json:"items"`
Next string `json:"next"`
} `json:"tracks"`
}
@@ -321,10 +531,38 @@ func (c *SpotifyMetadataClient) fetchAlbum(ctx context.Context, albumID, token s
Images: albumImage,
}
tracks := make([]AlbumTrackMetadata, 0, len(data.Tracks.Items))
for _, item := range data.Tracks.Items {
// Fetch ISRC for each track
isrc := c.fetchTrackISRC(ctx, item.ID, token)
// Collect all tracks (including paginated)
allTrackItems := data.Tracks.Items
nextURL := data.Tracks.Next
// Fetch remaining tracks using pagination (no limit)
for nextURL != "" {
var pageData struct {
Items []trackItem `json:"items"`
Next string `json:"next"`
}
if err := c.getJSON(ctx, nextURL, token, &pageData); err != nil {
fmt.Printf("[Spotify] Warning: failed to fetch album tracks page: %v\n", err)
break
}
allTrackItems = append(allTrackItems, pageData.Items...)
nextURL = pageData.Next
}
fmt.Printf("[Spotify] Album has %d tracks (total: %d)\n", len(allTrackItems), data.TotalTracks)
// Collect track IDs for parallel ISRC fetching
trackIDs := make([]string, len(allTrackItems))
for i, item := range allTrackItems {
trackIDs[i] = item.ID
}
// Fetch ISRCs in parallel for ALL tracks (like Deezer implementation)
isrcMap := c.fetchISRCsParallel(ctx, trackIDs, token)
tracks := make([]AlbumTrackMetadata, 0, len(allTrackItems))
for _, item := range allTrackItems {
isrc := isrcMap[item.ID]
tracks = append(tracks, AlbumTrackMetadata{
SpotifyID: item.ID,
@@ -344,13 +582,65 @@ func (c *SpotifyMetadataClient) fetchAlbum(ctx context.Context, albumID, token s
})
}
return &AlbumResponsePayload{
result := &AlbumResponsePayload{
AlbumInfo: info,
TrackList: tracks,
}, nil
}
// Store in cache
c.cacheMu.Lock()
c.albumCache[albumID] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(albumCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
// fetchISRCsParallel fetches ISRCs for multiple tracks in parallel
// Similar to Deezer implementation for consistency
func (c *SpotifyMetadataClient) fetchISRCsParallel(ctx context.Context, trackIDs []string, token string) map[string]string {
const maxParallelISRC = 10 // Max concurrent ISRC fetches
result := make(map[string]string)
var resultMu sync.Mutex
if len(trackIDs) == 0 {
return result
}
// Use semaphore to limit concurrent requests
sem := make(chan struct{}, maxParallelISRC)
var wg sync.WaitGroup
for _, trackID := range trackIDs {
wg.Add(1)
go func(id string) {
defer wg.Done()
// Acquire semaphore
select {
case sem <- struct{}{}:
defer func() { <-sem }()
case <-ctx.Done():
return
}
isrc := c.fetchTrackISRC(ctx, id, token)
resultMu.Lock()
result[id] = isrc
resultMu.Unlock()
}(trackID)
}
wg.Wait()
return result
}
func (c *SpotifyMetadataClient) fetchPlaylist(ctx context.Context, playlistID, token string) (*PlaylistResponsePayload, error) {
// First request to get playlist info and first batch of tracks
var data struct {
Name string `json:"name"`
Images []image `json:"images"`
@@ -361,7 +651,8 @@ func (c *SpotifyMetadataClient) fetchPlaylist(ctx context.Context, playlistID, t
Items []struct {
Track *trackFull `json:"track"`
} `json:"items"`
Total int `json:"total"`
Total int `json:"total"`
Next string `json:"next"`
} `json:"tracks"`
}
@@ -375,7 +666,10 @@ func (c *SpotifyMetadataClient) fetchPlaylist(ctx context.Context, playlistID, t
info.Owner.Name = data.Name
info.Owner.Images = firstImageURL(data.Images)
tracks := make([]AlbumTrackMetadata, 0, len(data.Tracks.Items))
// Pre-allocate with expected capacity
tracks := make([]AlbumTrackMetadata, 0, data.Tracks.Total)
// Add first batch of tracks
for _, item := range data.Tracks.Items {
if item.Track == nil {
continue
@@ -399,12 +693,157 @@ func (c *SpotifyMetadataClient) fetchPlaylist(ctx context.Context, playlistID, t
})
}
// Fetch remaining tracks using pagination (NO LIMIT - fetch all tracks)
nextURL := data.Tracks.Next
for nextURL != "" {
var pageData struct {
Items []struct {
Track *trackFull `json:"track"`
} `json:"items"`
Next string `json:"next"`
}
if err := c.getJSON(ctx, nextURL, token, &pageData); err != nil {
// Log error but return what we have so far
fmt.Printf("[Spotify] Warning: failed to fetch page, returning %d tracks: %v\n", len(tracks), err)
break
}
for _, item := range pageData.Items {
if item.Track == nil {
continue
}
tracks = append(tracks, AlbumTrackMetadata{
SpotifyID: item.Track.ID,
Artists: joinArtists(item.Track.Artists),
Name: item.Track.Name,
AlbumName: item.Track.Album.Name,
AlbumArtist: joinArtists(item.Track.Album.Artists),
DurationMS: item.Track.DurationMS,
Images: firstImageURL(item.Track.Album.Images),
ReleaseDate: item.Track.Album.ReleaseDate,
TrackNumber: item.Track.TrackNumber,
TotalTracks: item.Track.Album.TotalTracks,
DiscNumber: item.Track.DiscNumber,
ExternalURL: item.Track.ExternalURL.Spotify,
ISRC: item.Track.ExternalID.ISRC,
AlbumID: item.Track.Album.ID,
AlbumURL: item.Track.Album.ExternalURL.Spotify,
})
}
nextURL = pageData.Next
}
fmt.Printf("[Spotify] Fetched %d tracks from playlist (total: %d)\n", len(tracks), data.Tracks.Total)
return &PlaylistResponsePayload{
PlaylistInfo: info,
TrackList: tracks,
}, nil
}
func (c *SpotifyMetadataClient) fetchArtist(ctx context.Context, artistID, token string) (*ArtistResponsePayload, error) {
// Check cache first
c.cacheMu.RLock()
if entry, ok := c.artistCache[artistID]; ok && !entry.isExpired() {
c.cacheMu.RUnlock()
return entry.data.(*ArtistResponsePayload), nil
}
c.cacheMu.RUnlock()
// Fetch artist info
var artistData struct {
ID string `json:"id"`
Name string `json:"name"`
Images []image `json:"images"`
Followers struct {
Total int `json:"total"`
} `json:"followers"`
Popularity int `json:"popularity"`
}
if err := c.getJSON(ctx, fmt.Sprintf(artistBaseURL, artistID), token, &artistData); err != nil {
return nil, err
}
artistInfo := ArtistInfoMetadata{
ID: artistData.ID,
Name: artistData.Name,
Images: firstImageURL(artistData.Images),
Followers: artistData.Followers.Total,
Popularity: artistData.Popularity,
}
// Fetch artist albums (all types: album, single, compilation)
albums := make([]ArtistAlbumMetadata, 0)
offset := 0
limit := 50
for {
albumsURL := fmt.Sprintf("%s?include_groups=album,single,compilation&limit=%d&offset=%d",
fmt.Sprintf(artistAlbumsURL, artistID), limit, offset)
var albumsData struct {
Items []struct {
ID string `json:"id"`
Name string `json:"name"`
ReleaseDate string `json:"release_date"`
TotalTracks int `json:"total_tracks"`
Images []image `json:"images"`
AlbumType string `json:"album_type"`
Artists []artist `json:"artists"`
ExternalURL externalURL `json:"external_urls"`
} `json:"items"`
Next string `json:"next"`
Total int `json:"total"`
}
if err := c.getJSON(ctx, albumsURL, token, &albumsData); err != nil {
return nil, err
}
for _, album := range albumsData.Items {
albums = append(albums, ArtistAlbumMetadata{
ID: album.ID,
Name: album.Name,
ReleaseDate: album.ReleaseDate,
TotalTracks: album.TotalTracks,
Images: firstImageURL(album.Images),
AlbumType: album.AlbumType,
Artists: joinArtists(album.Artists),
})
}
// Check if there are more albums
if albumsData.Next == "" || len(albumsData.Items) < limit {
break
}
offset += limit
// Safety limit to prevent infinite loops
if offset > 500 {
break
}
}
result := &ArtistResponsePayload{
ArtistInfo: artistInfo,
Albums: albums,
}
// Store in cache
c.cacheMu.Lock()
c.artistCache[artistID] = &cacheEntry{
data: result,
expiresAt: time.Now().Add(artistCacheTTL),
}
c.cacheMu.Unlock()
return result, nil
}
func (c *SpotifyMetadataClient) fetchTrackISRC(ctx context.Context, trackID, token string) string {
var data struct {
ExternalID externalID `json:"external_ids"`
@@ -465,8 +904,16 @@ func (c *SpotifyMetadataClient) getJSON(ctx context.Context, endpoint, token str
return err
}
// Set headers (same as PC version baseHeaders)
req.Header.Set("User-Agent", c.userAgent)
req.Header.Set("Accept", "application/json")
req.Header.Set("Accept-Language", "en-US,en;q=0.9")
req.Header.Set("sec-ch-ua-platform", "\"Windows\"")
req.Header.Set("sec-fetch-dest", "empty")
req.Header.Set("sec-fetch-mode", "cors")
req.Header.Set("sec-fetch-site", "same-origin")
req.Header.Set("Referer", "https://open.spotify.com/")
req.Header.Set("Origin", "https://open.spotify.com")
if token != "" {
req.Header.Set("Authorization", "Bearer "+token)
}
@@ -493,13 +940,23 @@ func (c *SpotifyMetadataClient) randomUserAgent() string {
c.rngMu.Lock()
defer c.rngMu.Unlock()
chromeMajor := 80 + c.rng.Intn(25)
chromeBuild := 3000 + c.rng.Intn(1500)
chromePatch := 60 + c.rng.Intn(65)
// Use Mac User-Agent format (same as PC version)
macMajor := c.rng.Intn(4) + 11 // 11-14
macMinor := c.rng.Intn(5) + 4 // 4-8
webkitMajor := c.rng.Intn(7) + 530 // 530-536
webkitMinor := c.rng.Intn(7) + 30 // 30-36
chromeMajor := c.rng.Intn(25) + 80 // 80-104
chromeBuild := c.rng.Intn(1500) + 3000 // 3000-4499
chromePatch := c.rng.Intn(65) + 60 // 60-124
safariMajor := c.rng.Intn(7) + 530 // 530-536
safariMinor := c.rng.Intn(6) + 30 // 30-35
return fmt.Sprintf(
"Mozilla/5.0 (Linux; Android 12) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/%d.0.%d.%d Mobile Safari/537.36",
"Mozilla/5.0 (Macintosh; Intel Mac OS X 10_%d_%d) AppleWebKit/%d.%d (KHTML, like Gecko) Chrome/%d.0.%d.%d Safari/%d.%d",
macMajor, macMinor,
webkitMajor, webkitMinor,
chromeMajor, chromeBuild, chromePatch,
safariMajor, safariMinor,
)
}
+1029 -192
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@@ -427,7 +427,7 @@
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_SEARCH_USER_PATHS = NO;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = YES;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = AppIcon;
CLANG_ANALYZER_NONNULL = YES;
CLANG_CXX_LANGUAGE_STANDARD = "gnu++0x";
CLANG_CXX_LIBRARY = "libc++";
@@ -484,7 +484,7 @@
isa = XCBuildConfiguration;
buildSettings = {
ALWAYS_SEARCH_USER_PATHS = NO;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = YES;
ASSETCATALOG_COMPILER_GENERATE_SWIFT_ASSET_SYMBOL_EXTENSIONS = AppIcon;
CLANG_ANALYZER_NONNULL = YES;
CLANG_CXX_LANGUAGE_STANDARD = "gnu++0x";
CLANG_CXX_LIBRARY = "libc++";
+111 -1
View File
@@ -66,6 +66,15 @@ import Gobackend // Import Go framework
if let error = error { throw error }
return response
case "searchSpotifyAll":
let args = call.arguments as! [String: Any]
let query = args["query"] as! String
let trackLimit = args["track_limit"] as? Int ?? 15
let artistLimit = args["artist_limit"] as? Int ?? 3
let response = GobackendSearchSpotifyAll(query, Int(trackLimit), Int(artistLimit), &error)
if let error = error { throw error }
return response
case "checkAvailability":
let args = call.arguments as! [String: Any]
let spotifyId = args["spotify_id"] as! String
@@ -155,7 +164,8 @@ import Gobackend // Import Go framework
let spotifyId = args["spotify_id"] as! String
let trackName = args["track_name"] as! String
let artistName = args["artist_name"] as! String
let response = GobackendGetLyricsLRC(spotifyId, trackName, artistName, &error)
let filePath = args["file_path"] as? String ?? ""
let response = GobackendGetLyricsLRC(spotifyId, trackName, artistName, filePath, &error)
if let error = error { throw error }
return response
@@ -171,6 +181,106 @@ import Gobackend // Import Go framework
GobackendCleanupConnections()
return nil
case "readFileMetadata":
let args = call.arguments as! [String: Any]
let filePath = args["file_path"] as! String
let response = GobackendReadFileMetadata(filePath, &error)
if let error = error { throw error }
return response
case "searchDeezerAll":
let args = call.arguments as! [String: Any]
let query = args["query"] as! String
let trackLimit = args["track_limit"] as? Int ?? 15
let artistLimit = args["artist_limit"] as? Int ?? 3
let response = GobackendSearchDeezerAll(query, Int(trackLimit), Int(artistLimit), &error)
if let error = error { throw error }
return response
case "getDeezerMetadata":
let args = call.arguments as! [String: Any]
let resourceType = args["resource_type"] as! String
let resourceId = args["resource_id"] as! String
let response = GobackendGetDeezerMetadata(resourceType, resourceId, &error)
if let error = error { throw error }
return response
case "parseDeezerUrl":
let args = call.arguments as! [String: Any]
let url = args["url"] as! String
let response = GobackendParseDeezerURLExport(url, &error)
if let error = error { throw error }
return response
case "searchDeezerByISRC":
let args = call.arguments as! [String: Any]
let isrc = args["isrc"] as! String
let response = GobackendSearchDeezerByISRC(isrc, &error)
if let error = error { throw error }
return response
case "convertSpotifyToDeezer":
let args = call.arguments as! [String: Any]
let resourceType = args["resource_type"] as! String
let spotifyId = args["spotify_id"] as! String
let response = GobackendConvertSpotifyToDeezer(resourceType, spotifyId, &error)
if let error = error { throw error }
return response
case "getSpotifyMetadataWithFallback":
let args = call.arguments as! [String: Any]
let url = args["url"] as! String
let response = GobackendGetSpotifyMetadataWithDeezerFallback(url, &error)
if let error = error { throw error }
return response
case "preWarmTrackCache":
let args = call.arguments as! [String: Any]
let tracksJson = args["tracks"] as! String
let _ = GobackendPreWarmTrackCacheJSON(tracksJson, &error)
if let error = error { throw error }
return nil
case "getTrackCacheSize":
let response = GobackendGetTrackCacheSize()
return response
case "clearTrackCache":
GobackendClearTrackCache()
return nil
case "setSpotifyCredentials":
let args = call.arguments as! [String: Any]
let clientId = args["client_id"] as! String
let clientSecret = args["client_secret"] as! String
GobackendSetSpotifyAPICredentials(clientId, clientSecret)
return nil
// Log methods
case "getLogs":
let response = GobackendGetLogs()
return response
case "getLogsSince":
let args = call.arguments as! [String: Any]
let index = args["index"] as? Int ?? 0
let response = GobackendGetLogsSince(Int(index))
return response
case "clearLogs":
GobackendClearLogs()
return nil
case "getLogCount":
let response = GobackendGetLogCount()
return response
case "setLoggingEnabled":
let args = call.arguments as! [String: Any]
let enabled = args["enabled"] as? Bool ?? false
GobackendSetLoggingEnabled(enabled)
return nil
default:
throw NSError(
domain: "SpotiFLAC",
@@ -1,122 +1 @@
{
"images" : [
{
"size" : "20x20",
"idiom" : "iphone",
"filename" : "Icon-App-20x20@2x.png",
"scale" : "2x"
},
{
"size" : "20x20",
"idiom" : "iphone",
"filename" : "Icon-App-20x20@3x.png",
"scale" : "3x"
},
{
"size" : "29x29",
"idiom" : "iphone",
"filename" : "Icon-App-29x29@1x.png",
"scale" : "1x"
},
{
"size" : "29x29",
"idiom" : "iphone",
"filename" : "Icon-App-29x29@2x.png",
"scale" : "2x"
},
{
"size" : "29x29",
"idiom" : "iphone",
"filename" : "Icon-App-29x29@3x.png",
"scale" : "3x"
},
{
"size" : "40x40",
"idiom" : "iphone",
"filename" : "Icon-App-40x40@2x.png",
"scale" : "2x"
},
{
"size" : "40x40",
"idiom" : "iphone",
"filename" : "Icon-App-40x40@3x.png",
"scale" : "3x"
},
{
"size" : "60x60",
"idiom" : "iphone",
"filename" : "Icon-App-60x60@2x.png",
"scale" : "2x"
},
{
"size" : "60x60",
"idiom" : "iphone",
"filename" : "Icon-App-60x60@3x.png",
"scale" : "3x"
},
{
"size" : "20x20",
"idiom" : "ipad",
"filename" : "Icon-App-20x20@1x.png",
"scale" : "1x"
},
{
"size" : "20x20",
"idiom" : "ipad",
"filename" : "Icon-App-20x20@2x.png",
"scale" : "2x"
},
{
"size" : "29x29",
"idiom" : "ipad",
"filename" : "Icon-App-29x29@1x.png",
"scale" : "1x"
},
{
"size" : "29x29",
"idiom" : "ipad",
"filename" : "Icon-App-29x29@2x.png",
"scale" : "2x"
},
{
"size" : "40x40",
"idiom" : "ipad",
"filename" : "Icon-App-40x40@1x.png",
"scale" : "1x"
},
{
"size" : "40x40",
"idiom" : "ipad",
"filename" : "Icon-App-40x40@2x.png",
"scale" : "2x"
},
{
"size" : "76x76",
"idiom" : "ipad",
"filename" : "Icon-App-76x76@1x.png",
"scale" : "1x"
},
{
"size" : "76x76",
"idiom" : "ipad",
"filename" : "Icon-App-76x76@2x.png",
"scale" : "2x"
},
{
"size" : "83.5x83.5",
"idiom" : "ipad",
"filename" : "Icon-App-83.5x83.5@2x.png",
"scale" : "2x"
},
{
"size" : "1024x1024",
"idiom" : "ios-marketing",
"filename" : "Icon-App-1024x1024@1x.png",
"scale" : "1x"
}
],
"info" : {
"version" : 1,
"author" : "xcode"
}
}
{"images":[{"size":"20x20","idiom":"iphone","filename":"Icon-App-20x20@2x.png","scale":"2x"},{"size":"20x20","idiom":"iphone","filename":"Icon-App-20x20@3x.png","scale":"3x"},{"size":"29x29","idiom":"iphone","filename":"Icon-App-29x29@1x.png","scale":"1x"},{"size":"29x29","idiom":"iphone","filename":"Icon-App-29x29@2x.png","scale":"2x"},{"size":"29x29","idiom":"iphone","filename":"Icon-App-29x29@3x.png","scale":"3x"},{"size":"40x40","idiom":"iphone","filename":"Icon-App-40x40@2x.png","scale":"2x"},{"size":"40x40","idiom":"iphone","filename":"Icon-App-40x40@3x.png","scale":"3x"},{"size":"57x57","idiom":"iphone","filename":"Icon-App-57x57@1x.png","scale":"1x"},{"size":"57x57","idiom":"iphone","filename":"Icon-App-57x57@2x.png","scale":"2x"},{"size":"60x60","idiom":"iphone","filename":"Icon-App-60x60@2x.png","scale":"2x"},{"size":"60x60","idiom":"iphone","filename":"Icon-App-60x60@3x.png","scale":"3x"},{"size":"20x20","idiom":"ipad","filename":"Icon-App-20x20@1x.png","scale":"1x"},{"size":"20x20","idiom":"ipad","filename":"Icon-App-20x20@2x.png","scale":"2x"},{"size":"29x29","idiom":"ipad","filename":"Icon-App-29x29@1x.png","scale":"1x"},{"size":"29x29","idiom":"ipad","filename":"Icon-App-29x29@2x.png","scale":"2x"},{"size":"40x40","idiom":"ipad","filename":"Icon-App-40x40@1x.png","scale":"1x"},{"size":"40x40","idiom":"ipad","filename":"Icon-App-40x40@2x.png","scale":"2x"},{"size":"50x50","idiom":"ipad","filename":"Icon-App-50x50@1x.png","scale":"1x"},{"size":"50x50","idiom":"ipad","filename":"Icon-App-50x50@2x.png","scale":"2x"},{"size":"72x72","idiom":"ipad","filename":"Icon-App-72x72@1x.png","scale":"1x"},{"size":"72x72","idiom":"ipad","filename":"Icon-App-72x72@2x.png","scale":"2x"},{"size":"76x76","idiom":"ipad","filename":"Icon-App-76x76@1x.png","scale":"1x"},{"size":"76x76","idiom":"ipad","filename":"Icon-App-76x76@2x.png","scale":"2x"},{"size":"83.5x83.5","idiom":"ipad","filename":"Icon-App-83.5x83.5@2x.png","scale":"2x"},{"size":"1024x1024","idiom":"ios-marketing","filename":"Icon-App-1024x1024@1x.png","scale":"1x"}],"info":{"version":1,"author":"xcode"}}
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+5 -2
View File
@@ -1,10 +1,11 @@
/// App version and info constants
/// Update version here only - all other files will reference this
class AppInfo {
static const String version = '1.5.0';
static const String buildNumber = '14';
static const String version = '2.2.8';
static const String buildNumber = '50';
static const String fullVersion = '$version+$buildNumber';
static const String appName = 'SpotiFLAC';
static const String copyright = '© 2026 SpotiFLAC';
@@ -14,4 +15,6 @@ class AppInfo {
static const String githubRepo = 'zarzet/SpotiFLAC-Mobile';
static const String githubUrl = 'https://github.com/$githubRepo';
static const String originalGithubUrl = 'https://github.com/afkarxyz/SpotiFLAC';
static const String kofiUrl = 'https://ko-fi.com/zarzet';
}
+4
View File
@@ -3,6 +3,7 @@ import 'package:flutter_riverpod/flutter_riverpod.dart';
import 'package:spotiflac_android/app.dart';
import 'package:spotiflac_android/providers/download_queue_provider.dart';
import 'package:spotiflac_android/services/notification_service.dart';
import 'package:spotiflac_android/services/share_intent_service.dart';
void main() async {
WidgetsFlutterBinding.ensureInitialized();
@@ -10,6 +11,9 @@ void main() async {
// Initialize notification service
await NotificationService().initialize();
// Initialize share intent service
await ShareIntentService().initialize();
runApp(
ProviderScope(
child: const _EagerInitialization(
+37
View File
@@ -7,11 +7,20 @@ part 'download_item.g.dart';
enum DownloadStatus {
queued,
downloading,
finalizing, // Embedding metadata, cover, lyrics
completed,
failed,
skipped,
}
/// Error type enum for better error handling
enum DownloadErrorType {
unknown,
notFound, // Track not found on any service
rateLimit, // Rate limited by service
network, // Network/connection error
}
@JsonSerializable()
class DownloadItem {
final String id;
@@ -19,9 +28,12 @@ class DownloadItem {
final String service;
final DownloadStatus status;
final double progress;
final double speedMBps; // Download speed in MB/s
final String? filePath;
final String? error;
final DownloadErrorType? errorType;
final DateTime createdAt;
final String? qualityOverride; // Override quality for this specific download
const DownloadItem({
required this.id,
@@ -29,9 +41,12 @@ class DownloadItem {
required this.service,
this.status = DownloadStatus.queued,
this.progress = 0.0,
this.speedMBps = 0.0,
this.filePath,
this.error,
this.errorType,
required this.createdAt,
this.qualityOverride,
});
DownloadItem copyWith({
@@ -40,9 +55,12 @@ class DownloadItem {
String? service,
DownloadStatus? status,
double? progress,
double? speedMBps,
String? filePath,
String? error,
DownloadErrorType? errorType,
DateTime? createdAt,
String? qualityOverride,
}) {
return DownloadItem(
id: id ?? this.id,
@@ -50,12 +68,31 @@ class DownloadItem {
service: service ?? this.service,
status: status ?? this.status,
progress: progress ?? this.progress,
speedMBps: speedMBps ?? this.speedMBps,
filePath: filePath ?? this.filePath,
error: error ?? this.error,
errorType: errorType ?? this.errorType,
createdAt: createdAt ?? this.createdAt,
qualityOverride: qualityOverride ?? this.qualityOverride,
);
}
/// Get user-friendly error message based on error type
String get errorMessage {
if (error == null) return '';
switch (errorType) {
case DownloadErrorType.notFound:
return 'Song not found on any service';
case DownloadErrorType.rateLimit:
return 'Rate limit reached, try again later';
case DownloadErrorType.network:
return 'Connection failed, check your internet';
default:
return error ?? 'An error occurred';
}
}
factory DownloadItem.fromJson(Map<String, dynamic> json) =>
_$DownloadItemFromJson(json);
Map<String, dynamic> toJson() => _$DownloadItemToJson(this);
+14
View File
@@ -14,9 +14,12 @@ DownloadItem _$DownloadItemFromJson(Map<String, dynamic> json) => DownloadItem(
$enumDecodeNullable(_$DownloadStatusEnumMap, json['status']) ??
DownloadStatus.queued,
progress: (json['progress'] as num?)?.toDouble() ?? 0.0,
speedMBps: (json['speedMBps'] as num?)?.toDouble() ?? 0.0,
filePath: json['filePath'] as String?,
error: json['error'] as String?,
errorType: $enumDecodeNullable(_$DownloadErrorTypeEnumMap, json['errorType']),
createdAt: DateTime.parse(json['createdAt'] as String),
qualityOverride: json['qualityOverride'] as String?,
);
Map<String, dynamic> _$DownloadItemToJson(DownloadItem instance) =>
@@ -26,15 +29,26 @@ Map<String, dynamic> _$DownloadItemToJson(DownloadItem instance) =>
'service': instance.service,
'status': _$DownloadStatusEnumMap[instance.status]!,
'progress': instance.progress,
'speedMBps': instance.speedMBps,
'filePath': instance.filePath,
'error': instance.error,
'errorType': _$DownloadErrorTypeEnumMap[instance.errorType],
'createdAt': instance.createdAt.toIso8601String(),
'qualityOverride': instance.qualityOverride,
};
const _$DownloadStatusEnumMap = {
DownloadStatus.queued: 'queued',
DownloadStatus.downloading: 'downloading',
DownloadStatus.finalizing: 'finalizing',
DownloadStatus.completed: 'completed',
DownloadStatus.failed: 'failed',
DownloadStatus.skipped: 'skipped',
};
const _$DownloadErrorTypeEnumMap = {
DownloadErrorType.unknown: 'unknown',
DownloadErrorType.notFound: 'notFound',
DownloadErrorType.rateLimit: 'rateLimit',
DownloadErrorType.network: 'network',
};
+44
View File
@@ -14,6 +14,17 @@ class AppSettings {
final bool isFirstLaunch;
final int concurrentDownloads; // 1 = sequential (default), max 3
final bool checkForUpdates; // Check for updates on app start
final String updateChannel; // stable, preview
final bool hasSearchedBefore; // Hide helper text after first search
final String folderOrganization; // none, artist, album, artist_album
final String historyViewMode; // list, grid
final String historyFilterMode; // all, albums, singles
final bool askQualityBeforeDownload; // Show quality picker before each download
final String spotifyClientId; // Custom Spotify client ID (empty = use default)
final String spotifyClientSecret; // Custom Spotify client secret (empty = use default)
final bool useCustomSpotifyCredentials; // Whether to use custom credentials (if set)
final String metadataSource; // spotify, deezer - source for search and metadata
final bool enableLogging; // Enable detailed logging for debugging
const AppSettings({
this.defaultService = 'tidal',
@@ -26,6 +37,17 @@ class AppSettings {
this.isFirstLaunch = true,
this.concurrentDownloads = 1, // Default: sequential (off)
this.checkForUpdates = true, // Default: enabled
this.updateChannel = 'stable', // Default: stable releases only
this.hasSearchedBefore = false, // Default: show helper text
this.folderOrganization = 'none', // Default: no folder organization
this.historyViewMode = 'grid', // Default: grid view
this.historyFilterMode = 'all', // Default: show all
this.askQualityBeforeDownload = true, // Default: ask quality before download
this.spotifyClientId = '', // Default: use built-in credentials
this.spotifyClientSecret = '', // Default: use built-in credentials
this.useCustomSpotifyCredentials = true, // Default: use custom if set
this.metadataSource = 'deezer', // Default: Deezer (no rate limit)
this.enableLogging = false, // Default: disabled for performance
});
AppSettings copyWith({
@@ -39,6 +61,17 @@ class AppSettings {
bool? isFirstLaunch,
int? concurrentDownloads,
bool? checkForUpdates,
String? updateChannel,
bool? hasSearchedBefore,
String? folderOrganization,
String? historyViewMode,
String? historyFilterMode,
bool? askQualityBeforeDownload,
String? spotifyClientId,
String? spotifyClientSecret,
bool? useCustomSpotifyCredentials,
String? metadataSource,
bool? enableLogging,
}) {
return AppSettings(
defaultService: defaultService ?? this.defaultService,
@@ -51,6 +84,17 @@ class AppSettings {
isFirstLaunch: isFirstLaunch ?? this.isFirstLaunch,
concurrentDownloads: concurrentDownloads ?? this.concurrentDownloads,
checkForUpdates: checkForUpdates ?? this.checkForUpdates,
updateChannel: updateChannel ?? this.updateChannel,
hasSearchedBefore: hasSearchedBefore ?? this.hasSearchedBefore,
folderOrganization: folderOrganization ?? this.folderOrganization,
historyViewMode: historyViewMode ?? this.historyViewMode,
historyFilterMode: historyFilterMode ?? this.historyFilterMode,
askQualityBeforeDownload: askQualityBeforeDownload ?? this.askQualityBeforeDownload,
spotifyClientId: spotifyClientId ?? this.spotifyClientId,
spotifyClientSecret: spotifyClientSecret ?? this.spotifyClientSecret,
useCustomSpotifyCredentials: useCustomSpotifyCredentials ?? this.useCustomSpotifyCredentials,
metadataSource: metadataSource ?? this.metadataSource,
enableLogging: enableLogging ?? this.enableLogging,
);
}
+23
View File
@@ -17,6 +17,18 @@ AppSettings _$AppSettingsFromJson(Map<String, dynamic> json) => AppSettings(
isFirstLaunch: json['isFirstLaunch'] as bool? ?? true,
concurrentDownloads: (json['concurrentDownloads'] as num?)?.toInt() ?? 1,
checkForUpdates: json['checkForUpdates'] as bool? ?? true,
updateChannel: json['updateChannel'] as String? ?? 'stable',
hasSearchedBefore: json['hasSearchedBefore'] as bool? ?? false,
folderOrganization: json['folderOrganization'] as String? ?? 'none',
historyViewMode: json['historyViewMode'] as String? ?? 'grid',
historyFilterMode: json['historyFilterMode'] as String? ?? 'all',
askQualityBeforeDownload: json['askQualityBeforeDownload'] as bool? ?? true,
spotifyClientId: json['spotifyClientId'] as String? ?? '',
spotifyClientSecret: json['spotifyClientSecret'] as String? ?? '',
useCustomSpotifyCredentials:
json['useCustomSpotifyCredentials'] as bool? ?? true,
metadataSource: json['metadataSource'] as String? ?? 'deezer',
enableLogging: json['enableLogging'] as bool? ?? false,
);
Map<String, dynamic> _$AppSettingsToJson(AppSettings instance) =>
@@ -31,4 +43,15 @@ Map<String, dynamic> _$AppSettingsToJson(AppSettings instance) =>
'isFirstLaunch': instance.isFirstLaunch,
'concurrentDownloads': instance.concurrentDownloads,
'checkForUpdates': instance.checkForUpdates,
'updateChannel': instance.updateChannel,
'hasSearchedBefore': instance.hasSearchedBefore,
'folderOrganization': instance.folderOrganization,
'historyViewMode': instance.historyViewMode,
'historyFilterMode': instance.historyFilterMode,
'askQualityBeforeDownload': instance.askQualityBeforeDownload,
'spotifyClientId': instance.spotifyClientId,
'spotifyClientSecret': instance.spotifyClientSecret,
'useCustomSpotifyCredentials': instance.useCustomSpotifyCredentials,
'metadataSource': instance.metadataSource,
'enableLogging': instance.enableLogging,
};
+10 -2
View File
@@ -4,6 +4,7 @@ import 'package:flutter/material.dart';
const String kThemeModeKey = 'theme_mode';
const String kUseDynamicColorKey = 'use_dynamic_color';
const String kSeedColorKey = 'seed_color';
const String kUseAmoledKey = 'use_amoled';
/// Default Spotify green color for fallback
const int kDefaultSeedColor = 0xFF1DB954;
@@ -13,11 +14,13 @@ class ThemeSettings {
final ThemeMode themeMode;
final bool useDynamicColor;
final int seedColorValue;
final bool useAmoled; // Pure black background for OLED screens
const ThemeSettings({
this.themeMode = ThemeMode.system,
this.useDynamicColor = true,
this.seedColorValue = kDefaultSeedColor,
this.useAmoled = false,
});
/// Get seed color as Color object
@@ -28,11 +31,13 @@ class ThemeSettings {
ThemeMode? themeMode,
bool? useDynamicColor,
int? seedColorValue,
bool? useAmoled,
}) {
return ThemeSettings(
themeMode: themeMode ?? this.themeMode,
useDynamicColor: useDynamicColor ?? this.useDynamicColor,
seedColorValue: seedColorValue ?? this.seedColorValue,
useAmoled: useAmoled ?? this.useAmoled,
);
}
@@ -41,6 +46,7 @@ class ThemeSettings {
kThemeModeKey: themeMode.name,
kUseDynamicColorKey: useDynamicColor,
kSeedColorKey: seedColorValue,
kUseAmoledKey: useAmoled,
};
/// Create from JSON map
@@ -49,6 +55,7 @@ class ThemeSettings {
themeMode: _themeModeFromString(json[kThemeModeKey] as String?),
useDynamicColor: json[kUseDynamicColorKey] as bool? ?? true,
seedColorValue: json[kSeedColorKey] as int? ?? kDefaultSeedColor,
useAmoled: json[kUseAmoledKey] as bool? ?? false,
);
}
@@ -58,12 +65,13 @@ class ThemeSettings {
return other is ThemeSettings &&
other.themeMode == themeMode &&
other.useDynamicColor == useDynamicColor &&
other.seedColorValue == seedColorValue;
other.seedColorValue == seedColorValue &&
other.useAmoled == useAmoled;
}
@override
int get hashCode =>
themeMode.hashCode ^ useDynamicColor.hashCode ^ seedColorValue.hashCode;
themeMode.hashCode ^ useDynamicColor.hashCode ^ seedColorValue.hashCode ^ useAmoled.hashCode;
}
/// Helper to convert string to ThemeMode
+8
View File
@@ -16,6 +16,7 @@ class Track {
final int? trackNumber;
final int? discNumber;
final String? releaseDate;
final String? deezerId;
final ServiceAvailability? availability;
const Track({
@@ -30,6 +31,7 @@ class Track {
this.trackNumber,
this.discNumber,
this.releaseDate,
this.deezerId,
this.availability,
});
@@ -42,17 +44,23 @@ class ServiceAvailability {
final bool tidal;
final bool qobuz;
final bool amazon;
final bool deezer;
final String? tidalUrl;
final String? qobuzUrl;
final String? amazonUrl;
final String? deezerUrl;
final String? deezerId;
const ServiceAvailability({
this.tidal = false,
this.qobuz = false,
this.amazon = false,
this.deezer = false,
this.tidalUrl,
this.qobuzUrl,
this.amazonUrl,
this.deezerUrl,
this.deezerId,
});
factory ServiceAvailability.fromJson(Map<String, dynamic> json) =>
+8
View File
@@ -18,6 +18,7 @@ Track _$TrackFromJson(Map<String, dynamic> json) => Track(
trackNumber: (json['trackNumber'] as num?)?.toInt(),
discNumber: (json['discNumber'] as num?)?.toInt(),
releaseDate: json['releaseDate'] as String?,
deezerId: json['deezerId'] as String?,
availability: json['availability'] == null
? null
: ServiceAvailability.fromJson(
@@ -37,6 +38,7 @@ Map<String, dynamic> _$TrackToJson(Track instance) => <String, dynamic>{
'trackNumber': instance.trackNumber,
'discNumber': instance.discNumber,
'releaseDate': instance.releaseDate,
'deezerId': instance.deezerId,
'availability': instance.availability,
};
@@ -45,9 +47,12 @@ ServiceAvailability _$ServiceAvailabilityFromJson(Map<String, dynamic> json) =>
tidal: json['tidal'] as bool? ?? false,
qobuz: json['qobuz'] as bool? ?? false,
amazon: json['amazon'] as bool? ?? false,
deezer: json['deezer'] as bool? ?? false,
tidalUrl: json['tidalUrl'] as String?,
qobuzUrl: json['qobuzUrl'] as String?,
amazonUrl: json['amazonUrl'] as String?,
deezerUrl: json['deezerUrl'] as String?,
deezerId: json['deezerId'] as String?,
);
Map<String, dynamic> _$ServiceAvailabilityToJson(
@@ -56,7 +61,10 @@ Map<String, dynamic> _$ServiceAvailabilityToJson(
'tidal': instance.tidal,
'qobuz': instance.qobuz,
'amazon': instance.amazon,
'deezer': instance.deezer,
'tidalUrl': instance.tidalUrl,
'qobuzUrl': instance.qobuzUrl,
'amazonUrl': instance.amazonUrl,
'deezerUrl': instance.deezerUrl,
'deezerId': instance.deezerId,
};
File diff suppressed because it is too large Load Diff
+127
View File
@@ -2,8 +2,12 @@ import 'dart:convert';
import 'package:flutter_riverpod/flutter_riverpod.dart';
import 'package:shared_preferences/shared_preferences.dart';
import 'package:spotiflac_android/models/settings.dart';
import 'package:spotiflac_android/services/platform_bridge.dart';
import 'package:spotiflac_android/utils/logger.dart';
const _settingsKey = 'app_settings';
const _migrationVersionKey = 'settings_migration_version';
const _currentMigrationVersion = 1;
class SettingsNotifier extends Notifier<AppSettings> {
@override
@@ -17,6 +21,35 @@ class SettingsNotifier extends Notifier<AppSettings> {
final json = prefs.getString(_settingsKey);
if (json != null) {
state = AppSettings.fromJson(jsonDecode(json));
// Run migrations if needed
await _runMigrations(prefs);
// Apply Spotify credentials to Go backend on load
_applySpotifyCredentials();
// Sync logging state
LogBuffer.loggingEnabled = state.enableLogging;
}
}
/// Run one-time migrations for settings
Future<void> _runMigrations(SharedPreferences prefs) async {
final lastMigration = prefs.getInt(_migrationVersionKey) ?? 0;
if (lastMigration < 1) {
// Migration 1: Set metadataSource to 'deezer' for existing users
// Only apply if user hasn't enabled custom Spotify credentials
// (users with custom credentials likely prefer Spotify)
if (!state.useCustomSpotifyCredentials) {
state = state.copyWith(metadataSource: 'deezer');
await _saveSettings();
}
}
// Save current migration version
if (lastMigration < _currentMigrationVersion) {
await prefs.setInt(_migrationVersionKey, _currentMigrationVersion);
}
}
@@ -25,6 +58,22 @@ class SettingsNotifier extends Notifier<AppSettings> {
await prefs.setString(_settingsKey, jsonEncode(state.toJson()));
}
/// Apply current Spotify credentials to Go backend
Future<void> _applySpotifyCredentials() async {
// Only apply custom credentials if enabled and both fields are set
if (state.useCustomSpotifyCredentials &&
state.spotifyClientId.isNotEmpty &&
state.spotifyClientSecret.isNotEmpty) {
await PlatformBridge.setSpotifyCredentials(
state.spotifyClientId,
state.spotifyClientSecret,
);
} else {
// Clear to use default
await PlatformBridge.setSpotifyCredentials('', '');
}
}
void setDefaultService(String service) {
state = state.copyWith(defaultService: service);
_saveSettings();
@@ -76,6 +125,84 @@ class SettingsNotifier extends Notifier<AppSettings> {
state = state.copyWith(checkForUpdates: enabled);
_saveSettings();
}
void setUpdateChannel(String channel) {
state = state.copyWith(updateChannel: channel);
_saveSettings();
}
void setHasSearchedBefore() {
if (!state.hasSearchedBefore) {
state = state.copyWith(hasSearchedBefore: true);
_saveSettings();
}
}
void setFolderOrganization(String organization) {
state = state.copyWith(folderOrganization: organization);
_saveSettings();
}
void setHistoryViewMode(String mode) {
state = state.copyWith(historyViewMode: mode);
_saveSettings();
}
void setHistoryFilterMode(String mode) {
state = state.copyWith(historyFilterMode: mode);
_saveSettings();
}
void setAskQualityBeforeDownload(bool enabled) {
state = state.copyWith(askQualityBeforeDownload: enabled);
_saveSettings();
}
void setSpotifyClientId(String clientId) {
state = state.copyWith(spotifyClientId: clientId);
_saveSettings();
}
void setSpotifyClientSecret(String clientSecret) {
state = state.copyWith(spotifyClientSecret: clientSecret);
_saveSettings();
}
void setSpotifyCredentials(String clientId, String clientSecret) {
state = state.copyWith(
spotifyClientId: clientId,
spotifyClientSecret: clientSecret,
);
_saveSettings();
_applySpotifyCredentials();
}
void clearSpotifyCredentials() {
state = state.copyWith(
spotifyClientId: '',
spotifyClientSecret: '',
);
_saveSettings();
_applySpotifyCredentials();
}
void setUseCustomSpotifyCredentials(bool enabled) {
state = state.copyWith(useCustomSpotifyCredentials: enabled);
_saveSettings();
_applySpotifyCredentials();
}
void setMetadataSource(String source) {
state = state.copyWith(metadataSource: source);
_saveSettings();
}
void setEnableLogging(bool enabled) {
state = state.copyWith(enableLogging: enabled);
_saveSettings();
// Sync logging state to LogBuffer
LogBuffer.loggingEnabled = enabled;
}
}
final settingsProvider = NotifierProvider<SettingsNotifier, AppSettings>(
+9
View File
@@ -24,11 +24,13 @@ class ThemeNotifier extends Notifier<ThemeSettings> {
final modeString = prefs.getString(kThemeModeKey);
final useDynamic = prefs.getBool(kUseDynamicColorKey);
final seedColor = prefs.getInt(kSeedColorKey);
final useAmoled = prefs.getBool(kUseAmoledKey);
state = ThemeSettings(
themeMode: _themeModeFromString(modeString),
useDynamicColor: useDynamic ?? true,
seedColorValue: seedColor ?? kDefaultSeedColor,
useAmoled: useAmoled ?? false,
);
} catch (e) {
debugPrint('Error loading theme settings: $e');
@@ -43,6 +45,7 @@ class ThemeNotifier extends Notifier<ThemeSettings> {
await prefs.setString(kThemeModeKey, state.themeMode.name);
await prefs.setBool(kUseDynamicColorKey, state.useDynamicColor);
await prefs.setInt(kSeedColorKey, state.seedColorValue);
await prefs.setBool(kUseAmoledKey, state.useAmoled);
} catch (e) {
debugPrint('Error saving theme settings: $e');
}
@@ -72,6 +75,12 @@ class ThemeNotifier extends Notifier<ThemeSettings> {
await _saveToStorage();
}
/// Enable or disable AMOLED mode (pure black background)
Future<void> setUseAmoled(bool value) async {
state = state.copyWith(useAmoled: value);
await _saveToStorage();
}
/// Helper to convert string to ThemeMode
ThemeMode _themeModeFromString(String? value) {
if (value == null) return ThemeMode.system;
+259 -30
View File
@@ -1,112 +1,283 @@
import 'package:flutter_riverpod/flutter_riverpod.dart';
import 'package:spotiflac_android/models/track.dart';
import 'package:spotiflac_android/services/platform_bridge.dart';
import 'package:spotiflac_android/utils/logger.dart';
final _log = AppLogger('TrackProvider');
class TrackState {
final List<Track> tracks;
final bool isLoading;
final String? error;
final String? albumId;
final String? albumName;
final String? playlistName;
final String? artistId;
final String? artistName;
final String? coverUrl;
final List<ArtistAlbum>? artistAlbums; // For artist page
final List<SearchArtist>? searchArtists; // For search results
final bool hasSearchText; // For back button handling
const TrackState({
this.tracks = const [],
this.isLoading = false,
this.error,
this.albumId,
this.albumName,
this.playlistName,
this.artistId,
this.artistName,
this.coverUrl,
this.artistAlbums,
this.searchArtists,
this.hasSearchText = false,
});
bool get hasContent => tracks.isNotEmpty || artistAlbums != null || (searchArtists != null && searchArtists!.isNotEmpty);
TrackState copyWith({
List<Track>? tracks,
bool? isLoading,
String? error,
String? albumId,
String? albumName,
String? playlistName,
String? artistId,
String? artistName,
String? coverUrl,
List<ArtistAlbum>? artistAlbums,
List<SearchArtist>? searchArtists,
bool? hasSearchText,
}) {
return TrackState(
tracks: tracks ?? this.tracks,
isLoading: isLoading ?? this.isLoading,
error: error,
albumId: albumId ?? this.albumId,
albumName: albumName ?? this.albumName,
playlistName: playlistName ?? this.playlistName,
artistId: artistId ?? this.artistId,
artistName: artistName ?? this.artistName,
coverUrl: coverUrl ?? this.coverUrl,
artistAlbums: artistAlbums ?? this.artistAlbums,
searchArtists: searchArtists ?? this.searchArtists,
hasSearchText: hasSearchText ?? this.hasSearchText,
);
}
}
/// Represents an album in artist discography
class ArtistAlbum {
final String id;
final String name;
final String releaseDate;
final int totalTracks;
final String? coverUrl;
final String albumType; // album, single, compilation
final String artists;
const ArtistAlbum({
required this.id,
required this.name,
required this.releaseDate,
required this.totalTracks,
this.coverUrl,
required this.albumType,
required this.artists,
});
}
/// Represents an artist in search results
class SearchArtist {
final String id;
final String name;
final String? imageUrl;
final int followers;
final int popularity;
const SearchArtist({
required this.id,
required this.name,
this.imageUrl,
required this.followers,
required this.popularity,
});
}
class TrackNotifier extends Notifier<TrackState> {
/// Request ID to track and cancel outdated requests
int _currentRequestId = 0;
@override
TrackState build() {
return const TrackState();
}
Future<void> fetchFromUrl(String url) async {
state = state.copyWith(isLoading: true, error: null);
/// Check if request is still valid (not cancelled by newer request)
bool _isRequestValid(int requestId) => requestId == _currentRequestId;
Future<void> fetchFromUrl(String url, {bool useDeezerFallback = true}) async {
// Increment request ID to cancel any pending requests
final requestId = ++_currentRequestId;
// Preserve hasSearchText during fetch
state = TrackState(isLoading: true, hasSearchText: state.hasSearchText);
try {
final parsed = await PlatformBridge.parseSpotifyUrl(url);
if (!_isRequestValid(requestId)) return; // Request cancelled
final type = parsed['type'] as String;
final metadata = await PlatformBridge.getSpotifyMetadata(url);
// Use the new fallback-enabled method
Map<String, dynamic> metadata;
try {
// ignore: avoid_print
print('[FetchURL] Fetching $type with Deezer fallback enabled...');
metadata = await PlatformBridge.getSpotifyMetadataWithFallback(url);
// ignore: avoid_print
print('[FetchURL] Metadata fetch success');
} catch (e) {
// If fallback also fails, show error
// ignore: avoid_print
print('[FetchURL] Metadata fetch failed: $e');
rethrow;
}
if (!_isRequestValid(requestId)) return; // Request cancelled
if (type == 'track') {
final trackData = metadata['track'] as Map<String, dynamic>;
final track = _parseTrack(trackData);
state = state.copyWith(
state = TrackState(
tracks: [track],
isLoading: false,
albumName: null,
playlistName: null,
coverUrl: track.coverUrl,
);
} else if (type == 'album') {
final albumInfo = metadata['album_info'] as Map<String, dynamic>;
final trackList = metadata['track_list'] as List<dynamic>;
final tracks = trackList.map((t) => _parseTrack(t as Map<String, dynamic>)).toList();
state = state.copyWith(
state = TrackState(
tracks: tracks,
isLoading: false,
albumId: parsed['id'] as String?,
albumName: albumInfo['name'] as String?,
playlistName: null,
coverUrl: albumInfo['images'] as String?,
);
// Pre-warm cache for album tracks in background
_preWarmCacheForTracks(tracks);
} else if (type == 'playlist') {
final playlistInfo = metadata['playlist_info'] as Map<String, dynamic>;
final trackList = metadata['track_list'] as List<dynamic>;
final tracks = trackList.map((t) => _parseTrack(t as Map<String, dynamic>)).toList();
final owner = playlistInfo['owner'] as Map<String, dynamic>?;
state = state.copyWith(
state = TrackState(
tracks: tracks,
isLoading: false,
albumName: null,
playlistName: owner?['name'] as String?,
coverUrl: owner?['images'] as String?,
);
// Pre-warm cache for playlist tracks in background
_preWarmCacheForTracks(tracks);
} else if (type == 'artist') {
final artistInfo = metadata['artist_info'] as Map<String, dynamic>;
final albumsList = metadata['albums'] as List<dynamic>;
final albums = albumsList.map((a) => _parseArtistAlbum(a as Map<String, dynamic>)).toList();
state = TrackState(
tracks: [], // No tracks for artist view
isLoading: false,
artistId: artistInfo['id'] as String?,
artistName: artistInfo['name'] as String?,
coverUrl: artistInfo['images'] as String?,
artistAlbums: albums,
);
}
} catch (e) {
state = state.copyWith(isLoading: false, error: e.toString());
if (!_isRequestValid(requestId)) return; // Request cancelled
// Preserve hasSearchText on error so user stays on search screen
state = TrackState(isLoading: false, error: e.toString(), hasSearchText: state.hasSearchText);
}
}
Future<void> search(String query) async {
state = state.copyWith(isLoading: true, error: null);
Future<void> search(String query, {String? metadataSource}) async {
// Increment request ID to cancel any pending requests
final requestId = ++_currentRequestId;
// Preserve hasSearchText during search
state = TrackState(isLoading: true, hasSearchText: state.hasSearchText);
try {
final results = await PlatformBridge.searchSpotify(query, limit: 20);
// Use Deezer or Spotify based on settings
final source = metadataSource ?? 'deezer';
_log.i('Search started: source=$source, query="$query"');
Map<String, dynamic> results;
if (source == 'deezer') {
_log.d('Calling Deezer search API...');
results = await PlatformBridge.searchDeezerAll(query, trackLimit: 20, artistLimit: 5);
_log.i('Deezer returned ${(results['tracks'] as List?)?.length ?? 0} tracks, ${(results['artists'] as List?)?.length ?? 0} artists');
} else {
_log.d('Calling Spotify search API...');
results = await PlatformBridge.searchSpotifyAll(query, trackLimit: 20, artistLimit: 5);
_log.i('Spotify returned ${(results['tracks'] as List?)?.length ?? 0} tracks, ${(results['artists'] as List?)?.length ?? 0} artists');
}
if (!_isRequestValid(requestId)) {
_log.w('Search request cancelled (requestId=$requestId)');
return;
}
final trackList = results['tracks'] as List<dynamic>? ?? [];
final tracks = trackList.map((t) => _parseSearchTrack(t as Map<String, dynamic>)).toList();
state = state.copyWith(
final artistList = results['artists'] as List<dynamic>? ?? [];
_log.d('Raw results: ${trackList.length} tracks, ${artistList.length} artists');
// Parse tracks with error handling per item
final tracks = <Track>[];
for (int i = 0; i < trackList.length; i++) {
final t = trackList[i];
try {
if (t is Map<String, dynamic>) {
tracks.add(_parseSearchTrack(t));
} else {
_log.w('Track[$i] is not a Map: ${t.runtimeType}');
}
} catch (e) {
_log.e('Failed to parse track[$i]: $e', e);
}
}
// Parse artists with error handling per item
final artists = <SearchArtist>[];
for (int i = 0; i < artistList.length; i++) {
final a = artistList[i];
try {
if (a is Map<String, dynamic>) {
artists.add(_parseSearchArtist(a));
} else {
_log.w('Artist[$i] is not a Map: ${a.runtimeType}');
}
} catch (e) {
_log.e('Failed to parse artist[$i]: $e', e);
}
}
_log.i('Search complete: ${tracks.length} tracks, ${artists.length} artists parsed successfully');
state = TrackState(
tracks: tracks,
searchArtists: artists,
isLoading: false,
albumName: null,
playlistName: null,
hasSearchText: state.hasSearchText,
);
} catch (e) {
state = state.copyWith(isLoading: false, error: e.toString());
} catch (e, stackTrace) {
if (!_isRequestValid(requestId)) return;
_log.e('Search failed: $e', e, stackTrace);
state = TrackState(isLoading: false, error: e.toString(), hasSearchText: state.hasSearchText);
}
}
@@ -152,6 +323,11 @@ class TrackNotifier extends Notifier<TrackState> {
state = const TrackState();
}
/// Set search text state for back button handling
void setSearchText(bool hasText) {
state = state.copyWith(hasSearchText: hasText);
}
Track _parseTrack(Map<String, dynamic> data) {
return Track(
id: data['spotify_id'] as String? ?? '',
@@ -161,7 +337,7 @@ class TrackNotifier extends Notifier<TrackState> {
albumArtist: data['album_artist'] as String?,
coverUrl: data['images'] as String?,
isrc: data['isrc'] as String?,
duration: data['duration_ms'] as int? ?? 0,
duration: ((data['duration_ms'] as int? ?? 0) / 1000).round(),
trackNumber: data['track_number'] as int?,
discNumber: data['disc_number'] as int?,
releaseDate: data['release_date'] as String?,
@@ -169,20 +345,73 @@ class TrackNotifier extends Notifier<TrackState> {
}
Track _parseSearchTrack(Map<String, dynamic> data) {
// Handle duration_ms which might be int or double
int durationMs = 0;
final durationValue = data['duration_ms'];
if (durationValue is int) {
durationMs = durationValue;
} else if (durationValue is double) {
durationMs = durationValue.toInt();
}
return Track(
id: data['spotify_id'] as String? ?? '',
name: data['name'] as String? ?? '',
artistName: data['artists'] as String? ?? '',
albumName: data['album_name'] as String? ?? '',
albumArtist: data['album_artist'] as String?,
coverUrl: data['images'] as String?,
isrc: data['isrc'] as String?,
duration: data['duration_ms'] as int? ?? 0,
id: (data['spotify_id'] ?? data['id'] ?? '').toString(),
name: (data['name'] ?? '').toString(),
artistName: (data['artists'] ?? data['artist'] ?? '').toString(),
albumName: (data['album_name'] ?? data['album'] ?? '').toString(),
albumArtist: data['album_artist']?.toString(),
coverUrl: data['images']?.toString(),
isrc: data['isrc']?.toString(),
duration: (durationMs / 1000).round(),
trackNumber: data['track_number'] as int?,
discNumber: data['disc_number'] as int?,
releaseDate: data['release_date'] as String?,
releaseDate: data['release_date']?.toString(),
);
}
ArtistAlbum _parseArtistAlbum(Map<String, dynamic> data) {
return ArtistAlbum(
id: data['id'] as String? ?? '',
name: data['name'] as String? ?? '',
releaseDate: data['release_date'] as String? ?? '',
totalTracks: data['total_tracks'] as int? ?? 0,
coverUrl: data['images'] as String?,
albumType: data['album_type'] as String? ?? 'album',
artists: data['artists'] as String? ?? '',
);
}
SearchArtist _parseSearchArtist(Map<String, dynamic> data) {
return SearchArtist(
id: data['id'] as String? ?? '',
name: data['name'] as String? ?? '',
imageUrl: data['images'] as String?,
followers: data['followers'] as int? ?? 0,
popularity: data['popularity'] as int? ?? 0,
);
}
/// Pre-warm track ID cache for faster downloads
/// Runs in background, doesn't block UI
void _preWarmCacheForTracks(List<Track> tracks) {
// Only pre-warm if we have tracks with ISRC
final tracksWithIsrc = tracks.where((t) => t.isrc != null && t.isrc!.isNotEmpty).toList();
if (tracksWithIsrc.isEmpty) return;
// Build request list for Go backend
final cacheRequests = tracksWithIsrc.map((t) => {
'isrc': t.isrc!,
'track_name': t.name,
'artist_name': t.artistName,
'spotify_id': t.id, // Include Spotify ID for Amazon lookup
'service': 'tidal', // Default to tidal for pre-warming
}).toList();
// Fire and forget - runs in background
PlatformBridge.preWarmTrackCache(cacheRequests).catchError((_) {
// Silently ignore errors - this is just an optimization
});
}
}
final trackProvider = NotifierProvider<TrackNotifier, TrackState>(

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