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15 hours ago 2

Author: Juan Manuel Méndez Rey
Date: October 30, 2025
Reading Time: 25 minutes
Technical Level: Advanced

The Beginning: A Documentation Gap

Several years ago, while working with Stremio on Debian systems, I encountered the familiar frustration of Linux users everywhere: a great application with poor installation documentation. The official Stremio releases worked fine on some distributions, but Debian users were left to figure out dependencies, compilation steps, and integration challenges on their own.

That’s when I contributed the original DEBIAN.md file to the Stremio shell repository. It was a straightforward build guide—install these dependencies, run these commands, copy these files. Simple, but functional.

Years passed. Dependencies changed. Qt versions evolved. The simple build instructions became increasingly unreliable on modern Debian systems, and the GitHub issues piled up with frustrated users unable to compile Stremio.

The Problem Grows

By 2025, the situation had become untenable:

Dependency conflicts: The upstream .deb package required libmpv1, but modern Debian ships libmpv2
FHS violations: Upstream installed everything to /opt, violating Debian filesystem standards
Missing QML modules: Critical Qt5 components weren’t documented as dependencies
Compilation complexity: Users needed to install 15+ build dependencies to compile from source
No proper integration: Desktop files, icons, and system integration required manual work
The upstream .deb package is outdated, it is providing the 4.4.168 version.
The list continues…

The GitHub issues were a testament to user frustration—dozens of reports about compilation failures, missing dependencies, and broken installations.

The Debian Way: Proper Packaging

Rather than continue patching documentation, I remembered a discussion with my friend, Arturo, about properly packaging Stremio for Debian, he created a RFP (Request for Package) for Stremio in 2020. Years passed and I went into my usual day to day work.
This past month I decided I had to fulfill my old dream of becoming an official Debian contributor, so I decided to solve this properly through the Debian packaging system. In late 2025, I filed an Intent To Package (ITP) with Debian:

ITP Bug: #943703
Salsa Repository: salsa.debian.org/mendezr/stremio
Server Package: salsa.debian.org/mendezr/stremio-server

The goal was simple: create properly-packaged Debian packages that would eventually enter the official Debian archive.

Packaging Challenges

Stremio presents unique packaging challenges:

License separation: The desktop client is GPL-3.0 (free), but the streaming server is proprietary
Modern dependencies: Requires current Qt5 WebEngine and libmpv versions
Complex build system: Qt5 + Node.js + WebAssembly components
Desktop integration: Proper icon installation, MIME types, and .desktop files
Bundled dependencies: Upstream used git submodules for everything

Following Debian policy, I separated the components:

stremio package (main/free) – GPL desktop client v4.4.169
stremio-server package (non-free) – Proprietary streaming server v4.20.12

Technical Deep Dive: System Library Migration

The most challenging aspect was replacing ALL bundled git submodules with Debian system libraries. This wasn’t just about dependencies—it required fixing fundamental runtime issues.

Challenge 1: QtWebEngine Initialization Crash 🔥 CRITICAL

Problem: Application crashed immediately on startup:

Segmentation fault (core dumped)

Root Cause Analysis:

# GDB backtrace showed: #0 QQmlApplicationEngine::QQmlApplicationEngine() #1 main (argc=1, argv=0x7fffffffdc58) at main.cpp:120

QtWebEngine must be initialized before QApplication constructor, but upstream code created QApplication first.

Solution: Added critical initialization call in main.cpp:

#include <QtWebEngine/QtWebEngine> int main(int argc, char *argv[]) { // CRITICAL: Initialize QtWebEngine before QApplication QtWebEngine::initialize(); QApplication app(argc, argv); // ... rest of code }

Impact: Resolved 100% of QML engine crashes. This single line prevents all QtWebEngine initialization failures.

Patch: 0007-add-qtwebengine-initialize-fix.patch

Challenge 2: SingleApplication Threading Incompatibility 🔥 CRITICAL

Problem: System libsingleapplication-dev v3.3.4 caused segmentation faults when used with QQmlApplicationEngine.

Investigation:

# Test with system library: sudo apt install libsingleapplication-dev # Build and run: Segmentation fault # Test without SingleApplication: # Remove from CMakeLists.txt: Works perfectly

Root Cause: System library sets up threading context incompatible with Qt5 QML engine initialization. The library uses internal threading mechanisms that conflict with QQmlApplicationEngine’s event loop.

Solution: Custom CompatibleSingleApp implementation. This is also to replace one of the bundled submodules that recently modified its MIT license into a dubious license that could be incompatible for Debian DFSG guidelines. See https://github.com/itay-grudev/SingleApplication/issues/210

Pure QApplication subclass
IPC via QLocalSocket/QLocalServer
No threading conflicts
Full single-instance functionality

Implementation (compatible_singleapp.h):

#ifndef COMPATIBLE_SINGLEAPP_H #define COMPATIBLE_SINGLEAPP_H #include <QApplication> #include <QLocalServer> #include <QLocalSocket> class CompatibleSingleApp : public QApplication { Q_OBJECT public: CompatibleSingleApp(int &argc, char **argv, const QString &appId); ~CompatibleSingleApp(); bool isPrimary() const { return m_isPrimary; } bool sendMessage(const QString &message); signals: void receivedMessage(const QString &message); private slots: void handleNewConnection(); private: bool m_isPrimary; QLocalServer *m_server; QString m_socketName; }; #endif

Implementation (compatible_singleapp.cpp):

#include "compatible_singleapp.h" #include <QLocalSocket> #include <QCryptographicHash> CompatibleSingleApp::CompatibleSingleApp(int &argc, char **argv, const QString &appId) : QApplication(argc, argv), m_isPrimary(false), m_server(nullptr) { // Generate unique socket name m_socketName = QString("stremio-") + QString::fromUtf8(QCryptographicHash::hash(appId.toUtf8(), QCryptographicHash::Sha256).toHex().left(16)); // Try to connect to existing instance QLocalSocket socket; socket.connectToServer(m_socketName); if (socket.waitForConnected(500)) { // Another instance is running m_isPrimary = false; socket.disconnectFromServer(); return; } // We're the primary instance m_isPrimary = true; // Create server for IPC m_server = new QLocalServer(this); QLocalServer::removeServer(m_socketName); if (m_server->listen(m_socketName)) { connect(m_server, &QLocalServer::newConnection, this, &CompatibleSingleApp::handleNewConnection); } } CompatibleSingleApp::~CompatibleSingleApp() { if (m_server) { m_server->close(); QLocalServer::removeServer(m_socketName); } } bool CompatibleSingleApp::sendMessage(const QString &message) { if (m_isPrimary) return false; QLocalSocket socket; socket.connectToServer(m_socketName); if (!socket.waitForConnected(1000)) return false; QByteArray data = message.toUtf8(); socket.write(data); socket.waitForBytesWritten(); socket.disconnectFromServer(); return true; } void CompatibleSingleApp::handleNewConnection() { QLocalSocket *socket = m_server->nextPendingConnection(); if (socket) { connect(socket, &QLocalSocket::readyRead, this, [this, socket]() { QByteArray data = socket->readAll(); emit receivedMessage(QString::fromUtf8(data)); socket->deleteLater(); }); } }

Results:

✅ Zero threading conflicts
✅ Full single-instance behavior
✅ Message passing between instances
✅ Clean integration with QQmlApplicationEngine

Patches:

0008-add-compatible-singleapp-implementation.patch
0009-remove-system-singleapplication-add-compatible.patch

Challenge 3: QProcess Environment Variables for Node.js Server 🔥 CRITICAL

Problem: Streaming server failed to start with cryptic error:

server-crash 0 null TypeError [ERR_INVALID_ARG_TYPE]: The "path" argument must be of type string. Received undefined at Object.join (node:path:1292:7)

Investigation:

# Manual server test works: $ /usr/bin/node /usr/share/stremio/server.js EngineFS server started at http://127.0.0.1:11470 # But QProcess launch fails: timeout 15s stremio # Error: server-crash 0 null

Root Cause: QProcess does not inherit environment variables by default. Node.js server.js requires:

HOME – for configuration directory (~/.stremio-server)
USER – for process identification
PWD – for relative path resolution

Solution: Explicit environment setup in stremioprocess.cpp:

void Process::start(QStringList args) { // Set up environment variables for Node.js server QProcessEnvironment env = QProcessEnvironment::systemEnvironment(); // Ensure essential environment variables are set for server.js if (!env.contains("HOME")) { env.insert("HOME", QStandardPaths::writableLocation(QStandardPaths::HomeLocation)); } if (!env.contains("USER")) { env.insert("USER", qgetenv("USER")); } if (!env.contains("PWD")) { env.insert("PWD", QDir::currentPath()); } this->setProcessEnvironment(env); // Now start the process QProcess::start(this->program(), args); }

Verification:

# After fix: $ timeout 15s build/stremio 2>&1 | grep -A 5 "hls executables" hls executables located -> { ffmpeg: '/usr/bin/ffmpeg', ffsplit: null } Using app path -> /home/user/.stremio-server Enabling casting... Discovery of new external device "mpv" - MPV EngineFS server started at http://127.0.0.1:11470

Impact: Complete resolution of streaming functionality. Users can now stream media via BitTorrent, use casting, and access all server features.

Patch: 0011-fix-qprocess-environment-for-server-launch.patch

Challenge 4: System Tray Widget Creation Timing

Problem: Warning on startup:

QWidget: Cannot create a QWidget without QApplication

Root Cause: SystemTray widget created before QML engine fully initialized.

Solution: Delayed creation until after engine->load() completes:

// main.cpp QQmlApplicationEngine *engine = new QQmlApplicationEngine(); engine->load(QUrl("qrc:/main.qml")); // NOW create system tray (after QML loaded) SystemTray *tray = new SystemTray(&app);

Result: Clean startup without widget warnings.

Build System Architecture: Dual Build Support

The project maintains two parallel build systems for flexibility:

CMake System (Primary)

Used by release.makefile and package builds:

# CMakeLists.txt cmake_minimum_required(VERSION 3.16) project(stremio) set(CMAKE_CXX_STANDARD 14) set(CMAKE_AUTOMOC ON) set(CMAKE_AUTORCC ON) find_package(Qt5 REQUIRED COMPONENTS Core Gui Widgets Qml Quick WebEngine DBus) find_package(PkgConfig REQUIRED) pkg_check_modules(MPV REQUIRED mpv) pkg_check_modules(OPENSSL REQUIRED openssl) # Sources including CompatibleSingleApp set(SOURCES main.cpp compatible_singleapp.cpp stremioprocess.cpp # ... other sources ) # Headers for MOC set(HEADERS mainapplication.h compatible_singleapp.h stremioprocess.h # ... other headers ) add_executable(stremio ${SOURCES} ${HEADERS} resources.qrc) target_link_libraries(stremio Qt5::Core Qt5::Gui Qt5::Widgets Qt5::Qml Qt5::Quick Qt5::WebEngine Qt5::DBus ${MPV_LIBRARIES} ${OPENSSL_LIBRARIES} ) install(TARGETS stremio DESTINATION bin)

Build command:

QT_DEFAULT_MAJOR_VERSION=5 make -f release.makefile # Result: 293KB optimized binary

qmake System (Legacy)

Used for manual builds and development:

# stremio.pro QT += core gui widgets qml quick webengine dbus CONFIG += c++14 SOURCES += \ main.cpp \ compatible_singleapp.cpp \ stremioprocess.cpp \ # ... other sources HEADERS += \ mainapplication.h \ compatible_singleapp.h \ stremioprocess.h \ # ... other headers RESOURCES += resources.qrc # System libraries unix:!macx { CONFIG += link_pkgconfig PKGCONFIG += mpv openssl } target.path = /usr/bin INSTALLS += target

Build command:

QT_SELECT=5 qmake QT_SELECT=5 make # Result: 278KB optimized binary

Both systems produce working binaries with 100% system libraries.

Debian Packaging: The Proper Way

Package Structure

stremio (4.4.169+dfsg-1):

debian/ ├── changelog # Version history with ITP closure ├── control # Dependencies and package metadata ├── copyright # GPL-3.0+ licensing details ├── rules # Build instructions (dh-based) ├── patches/ # Quilt patches for system integration │ ├── 0001-Fix-server.js-path-for-FHS-compliance.patch │ ├── 0002-disable-server-download.patch │ ├── 0004-minimal-qthelper-integration.patch │ ├── 0005-cmake-system-libraries-v4.4.169.patch │ ├── 0007-add-qtwebengine-initialize-fix.patch │ ├── 0008-add-compatible-singleapp-implementation.patch │ ├── 0009-remove-system-singleapplication-add-compatible.patch │ ├── 0010-fix-qmake-install-paths.patch │ └── 0011-fix-qprocess-environment-for-server-launch.patch ├── stremio.desktop # Desktop integration ├── stremio.install # File installation rules ├── watch # Upstream version monitoring └── source/ └── format # 3.0 (quilt) format

Key debian/control sections:

Source: stremio Section: video Priority: optional Maintainer: Juan Manuel Méndez Rey <[email protected]> Build-Depends: debhelper-compat (= 13), cmake, qtbase5-dev, qt5-qmake, qt5-qmake-bin, qtdeclarative5-dev, qtwebengine5-dev, qttools5-dev, qml-module-qtwebchannel, qml-module-qt-labs-platform, qml-module-qtwebengine, qml-module-qtquick-dialogs, qml-module-qtquick-controls, qml-module-qt-labs-settings, qml-module-qt-labs-folderlistmodel, libmpv-dev, libssl-dev, nodejs, npm, pkg-kde-tools Standards-Version: 4.6.2 Homepage: https://www.stremio.com/ Vcs-Git: https://salsa.debian.org/mendezr/stremio.git Vcs-Browser: https://salsa.debian.org/mendezr/stremio Package: stremio Architecture: amd64 Depends: ${shlibs:Depends}, ${misc:Depends}, nodejs, mpv, librsvg2-2, qml-module-qtwebengine, qml-module-qtwebchannel, qml-module-qt-labs-platform, qml-module-qtquick-controls, qml-module-qtquick-dialogs, qml-module-qt-labs-settings, qml-module-qt-labs-folderlistmodel, qtbase5-dev-tools Description: Modern media center for streaming video content Stremio is a video streaming application that aggregates content from various sources. It features a modern Qt5/QML interface with support for add-ons, local playback via MPV, and integration with streaming services. . This package provides the desktop client with GPL-licensed components.

Build process:

# Development build QT_DEFAULT_MAJOR_VERSION=5 dpkg-buildpackage -us -uc # Package build with signature QT_DEFAULT_MAJOR_VERSION=5 dpkg-buildpackage -sa # Clean environment build sudo pbuilder build ../stremio_4.4.169+dfsg-1.dsc

stremio-server Package (Independent Versioning)

Critical Decision: Server uses independent version number tracking its upstream:

Source: stremio-server Section: non-free/video Version: 4.20.12-1 Package: stremio-server Architecture: all Depends: ${misc:Depends}, nodejs (>= 12) Description: BitTorrent streaming server for Stremio (proprietary) Proprietary streaming server component providing BitTorrent support, HLS transcoding, and casting functionality for Stremio. . Version 4.20.12 corresponds to upstream server.js release.

Why independent versioning?

Server has different release cycle than client
Upstream server.js updates independently (v4.20.x)
Client updates independently (v4.4.x)
Follows industry practice: VS Code, Docker Desktop, Firefox ESR

debian/copyright documents source:

Format: https://www.debian.org/doc/packaging-manuals/copyright-format/1.0/ Upstream-Name: stremio-server Source: https://dl.strem.io/server/v4.20.12/desktop/server.js Comment: Pre-downloaded server.js included in source package to comply with Debian Policy prohibiting network access during builds.

Beyond Debian: The Wolfi Contribution

While working on Debian packaging, I also contributed Stremio packages to Wolfi Linux, the security-focused distribution used by Chainguard. This involved:

Melange build files: Cloud-native package format
Security hardening: ASLR, stack protection, RELRO
OSI license compliance: GPL components only (no proprietary server, the same server.js we separated in a non-free package for Debian)
Reproducible builds: Hermetic build environment

Melange configuration example:

package: name: stremio version: 4.4.169 epoch: 0 description: Modern media center for video streaming license: GPL-3.0-or-later environment: contents: packages: - qt5-qtbase-dev - qt5-qtdeclarative-dev - qt5-qtwebengine-dev - mpv-dev - openssl-dev pipeline: - uses: cmake/configure - uses: cmake/build - uses: cmake/install subpackages: - name: stremio-doc description: Documentation for stremio

I used this parallel effort as an exercise to learn how different distributions do proper packaging across different distribution ecosystems.

Pull Request:
https://github.com/wolfi-dev/os/pull/69098
GitHub Gists with examples of usage:
https://gist.github.com/vejeta/859f100ef74b87eadf7f7541ead2a2b1

The Distribution Challenge: GitHub-Powered APT Repository

Official Debian inclusion takes time—months or years of review, testing, and refinement. Meanwhile, users needed a solution now. Traditional approaches like hosting packages on a personal server would create bandwidth and maintenance problems.

The solution: Modern APT repository hosting using GitHub infrastructure.

Architecture Overview

┌─────────────────────────────────────────────────────────┐ │ Canonical Sources (Salsa) │ │ https://salsa.debian.org/mendezr/stremio │ │ https://salsa.debian.org/mendezr/stremio-server │ └────────────────────┬────────────────────────────────────┘ │ │ Instant Webhook + Weekly Cron ▼ ┌─────────────────────────────────────────────────────────┐ │ GitHub Repository (Build System) │ │ https://github.com/vejeta/stremio-debian │ │ │ │ • stremio-client/ (git submodule → Salsa) │ │ • stremio-server/ (git submodule → Salsa) │ │ • .github/workflows/ │ │ - build-and-release.yml │ │ - deploy-repository.yml │ │ - sync-from-salsa.yml │ │ • repository-scripts/ │ │ - generate-apt-repo.sh │ │ - sign-repository.sh │ └────────────────────┬────────────────────────────────────┘ │ ┌─────────────┴─────────────┐ │ │ ▼ ▼ ┌──────────────┐ ┌────────────────┐ │GitHub Releases│ │ GitHub Pages │ │ │ │ │ │ Binary .debs │ │ APT Repository │ │ Source files │ │ Signed metadata│ │ Build logs │ │ Global CDN │ └──────────────┘ └────────────────┘ │ ▼ ┌────────────────┐ │ Custom Domain │ │ debian.vejeta │ │ .com │ └────────────────┘

Multi-Distribution Strategy: Matrix Builds

The Critical Discovery: Packages built on one Debian release don’t work on others due to ABI dependencies.

Problem Example:

# Package built on Debian Bookworm: $ dpkg -I stremio_4.4.169+dfsg-1_amd64.deb | grep Depends Depends: qtdeclarative-abi-5-15-8 # But Debian Sid/Kali have: $ apt-cache show qtdeclarative5-dev | grep Provides Provides: qtdeclarative-abi-5-15-15 # Result: Installation fails on Sid/Kali

Solution: Build packages in native containers for each distribution:

# .github/workflows/build-and-release.yml jobs: build-stremio-client: name: Build stremio (main/free) - ${{ matrix.distro }} runs-on: ubuntu-latest strategy: matrix: distro: [trixie, bookworm, sid, noble] include: - distro: trixie suite: stable os_type: debian - distro: bookworm suite: oldstable os_type: debian - distro: sid suite: unstable os_type: debian - distro: noble suite: lts os_type: ubuntu container: image: ${{ matrix.os_type }}:${{ matrix.distro }} options: --privileged steps: - name: Install build dependencies run: | apt-get update apt-get install -y \ git git-buildpackage pristine-tar \ debhelper-compat cmake \ qtbase5-dev qt5-qmake qt5-qmake-bin \ qtdeclarative5-dev qtwebengine5-dev qttools5-dev \ qml-module-qtwebchannel qml-module-qt-labs-platform \ qml-module-qtwebengine qml-module-qtquick-dialogs \ qml-module-qtquick-controls qml-module-qt-labs-settings \ qml-module-qt-labs-folderlistmodel \ libmpv-dev libssl-dev nodejs npm pkg-kde-tools \ devscripts lintian dpkg-dev fakeroot librsvg2-bin - name: Checkout repository with submodules uses: actions/checkout@v4 with: fetch-depth: 0 submodules: recursive - name: Configure git for gbp run: | git config --global user.email "[email protected]" git config --global user.name "Juan Manuel Méndez Rey" git config --global --add safe.directory '*' - name: Create upstream tarball working-directory: stremio-client run: | VERSION=$(dpkg-parsechangelog -S Version | cut -d- -f1) # Try pristine-tar first if git rev-parse --verify pristine-tar >/dev/null 2>&1; then pristine-tar checkout ../stremio_${VERSION}.orig.tar.xz 2>/dev/null || \ pristine-tar checkout ../stremio_${VERSION}.orig.tar.gz 2>/dev/null fi # Fallback to upstream tag if [ ! -f ../stremio_${VERSION}.orig.tar.* ]; then UPSTREAM_TAG=$(git tag -l "upstream/*" | grep -E "${VERSION%+*}" | tail -1) git archive --format=tar --prefix=stremio-${VERSION%+*}/ $UPSTREAM_TAG | \ xz > ../stremio_${VERSION}.orig.tar.xz fi - name: Build packages (source + binary) working-directory: stremio-client run: | QT_DEFAULT_MAJOR_VERSION=5 dpkg-buildpackage -us -uc -sa - name: Run lintian checks continue-on-error: true run: | lintian --info --display-info --pedantic stremio-client/../*.deb || true - name: Smoke test package (Ubuntu only) if: matrix.os_type == 'ubuntu' continue-on-error: true run: | echo "=== Ubuntu Package Smoke Test ===" apt install -y ./stremio-client/../*.deb || true which stremio && echo "✓ Binary found" || echo "✗ Binary not found" ldd /usr/bin/stremio | grep -E "(libQt5|libmpv|libcrypto)" || true export QT_QPA_PLATFORM=offscreen export QTWEBENGINE_DISABLE_SANDBOX=1 timeout 10s stremio 2>&1 || echo "✓ GUI test completed" - name: Collect build artifacts run: | mkdir -p artifacts/stremio-client-${{ matrix.distro }} # Rename .deb with distro suffix for deb in stremio-client/../*.deb; do if [ -f "$deb" ]; then filename=$(basename "$deb") newname="${filename%.deb}-${{ matrix.distro }}.deb" mv "$deb" "artifacts/stremio-client-${{ matrix.distro }}/$newname" fi done # Move other files mv stremio-client/../*.dsc artifacts/stremio-client-${{ matrix.distro }}/ 2>/dev/null || true mv stremio-client/../*.tar.* artifacts/stremio-client-${{ matrix.distro }}/ 2>/dev/null || true mv stremio-client/../*.buildinfo artifacts/stremio-client-${{ matrix.distro }}/ 2>/dev/null || true mv stremio-client/../*.changes artifacts/stremio-client-${{ matrix.distro }}/ 2>/dev/null || true - name: Upload build artifacts uses: actions/upload-artifact@v4 with: name: stremio-client-packages-${{ matrix.distro }} path: artifacts/stremio-client-${{ matrix.distro }}/*.deb retention-days: 30

Result: Each distribution gets packages with correct native dependencies:

debian:trixie → qtdeclarative-abi-5-15-15
debian:bookworm → qtdeclarable-abi-5-15-8
debian:sid → qtdeclarable-abi-5-15-17
ubuntu:noble → Ubuntu-specific Qt5 dependencies

APT Repository Generation

Script: repository-scripts/generate-apt-repo.sh

#!/bin/bash set -e PACKAGE_DIR="$1" # packages/trixie/main REPO_DIR="$2" # debian-repo SUITE="$3" # trixie COMPONENT="$4" # main echo "Generating APT repository for $SUITE/$COMPONENT" # Create directory structure mkdir -p "$REPO_DIR/dists/$SUITE/$COMPONENT/binary-amd64" mkdir -p "$REPO_DIR/pool/$SUITE/$COMPONENT" # Copy packages to pool if [ -d "$PACKAGE_DIR" ] && [ "$(ls -A $PACKAGE_DIR/*.deb 2>/dev/null)" ]; then cp "$PACKAGE_DIR"/*.deb "$REPO_DIR/pool/$SUITE/$COMPONENT/" fi # Generate Packages file cd "$REPO_DIR" dpkg-scanpackages --arch amd64 "pool/$SUITE/$COMPONENT" /dev/null > \ "dists/$SUITE/$COMPONENT/binary-amd64/Packages" # Compress Packages file gzip -9 -k "dists/$SUITE/$COMPONENT/binary-amd64/Packages" echo "✓ Repository generated for $SUITE/$COMPONENT"

APT Repository Structure:

debian-repo/ ├── dists/ │ ├── trixie/ │ │ ├── main/ │ │ │ └── binary-amd64/ │ │ │ ├── Packages │ │ │ └── Packages.gz │ │ ├── non-free/ │ │ │ └── binary-amd64/ │ │ │ ├── Packages │ │ │ └── Packages.gz │ │ ├── Release │ │ └── InRelease (GPG signed) │ ├── bookworm/ │ │ └── [same structure] │ ├── sid/ │ │ └── [same structure] │ └── noble/ │ └── [same structure] ├── pool/ │ ├── trixie/ │ │ ├── main/ │ │ │ └── stremio_4.4.169+dfsg-1_amd64.deb │ │ └── non-free/ │ │ └── stremio-server_4.20.12-1_all.deb │ ├── bookworm/ │ │ └── [same structure] │ ├── sid/ │ │ └── [same structure] │ └── noble/ │ └── [same structure] └── key.gpg

Release File Generation with Checksums

Workflow excerpt (.github/workflows/deploy-repository.yml):

- name: Update Release files for all distributions run: | cd debian-repo update_release() { local SUITE=$1 cat > dists/$SUITE/Release << EOF Origin: Stremio Debian Repository Label: Stremio Suite: $SUITE Codename: $SUITE Components: main non-free Architectures: amd64 Description: Unofficial Debian packages for Stremio media center ($SUITE) Date: $(date -R -u) EOF # Add MD5Sum checksums echo "MD5Sum:" >> dists/$SUITE/Release find dists/$SUITE -type f ! -name "Release*" | while read file; do relative_path="${file#dists/$SUITE/}" md5=$(md5sum "$file" | awk '{print $1}') size=$(stat -c%s "$file") printf " %s %8d %s\n" "$md5" "$size" "$relative_path" >> dists/$SUITE/Release done # Add SHA1 checksums echo "SHA1:" >> dists/$SUITE/Release find dists/$SUITE -type f ! -name "Release*" | while read file; do relative_path="${file#dists/$SUITE/}" sha1=$(sha1sum "$file" | awk '{print $1}') size=$(stat -c%s "$file") printf " %s %8d %s\n" "$sha1" "$size" "$relative_path" >> dists/$SUITE/Release done # Add SHA256 checksums echo "SHA256:" >> dists/$SUITE/Release find dists/$SUITE -type f ! -name "Release*" | while read file; do relative_path="${file#dists/$SUITE/}" sha256=$(sha256sum "$file" | awk '{print $1}') size=$(stat -c%s "$file") printf " %s %8d %s\n" "$sha256" "$size" "$relative_path" >> dists/$SUITE/Release done } # Generate for all distributions update_release trixie update_release bookworm update_release sid update_release noble

GPG Signing

Script: repository-scripts/sign-repository.sh

#!/bin/bash set -e REPO_DIR="$1" SUITE="$2" GPG_KEY_ID="$3" cd "$REPO_DIR/dists/$SUITE" # Clear sign Release file to create InRelease gpg --default-key "$GPG_KEY_ID" --clearsign --output InRelease Release # Detached signature for Release.gpg gpg --default-key "$GPG_KEY_ID" --armor --detach-sign --output Release.gpg Release echo "✓ Signed repository for $SUITE"

GitHub Pages Deployment

Workflow (simplified):

- name: Setup Pages uses: actions/configure-pages@v4 - name: Upload artifact uses: actions/upload-pages-artifact@v3 with: path: debian-repo - name: Deploy to GitHub Pages uses: actions/deploy-pages@v4

Result: APT repository served at https://debian.vejeta.com/ with:

✅ Global CDN (CloudFlare)
✅ HTTPS encryption
✅ Unlimited bandwidth
✅ Zero hosting costs
✅ 99.9%+ uptime

Critical Lessons Learned: Patch Development Best Practices

During this project, I made significant efficiency mistakes in patch development. Here’s what I learned:

The Inefficiency Problem

What I did (5+ iterations of patch rework):

Modified source files directly in working repository
Generated patches from modified state
Patches failed on clean upstream
Repeated entire process multiple times

Impact: ~70% wasted time in patch development

The Correct Approach

Efficient patch development workflow:

# Step 1: Clean upstream baseline git clone --branch v4.4.169 https://github.com/Stremio/stremio-shell.git /tmp/patch-test cd /tmp/patch-test # Step 2: Analyze dependencies BEFORE making changes echo "=== Mapping file dependencies ===" grep -r "#include" *.cpp *.h | grep -v "Qt\|std" grep -r "class.*:" *.h grep -r "Q_OBJECT" *.h # Step 3: Make ONE fix at a time vim main.cpp # Add QtWebEngine::initialize() git diff > /tmp/0007-qtwebengine-fix.patch # Step 4: Test patch application git checkout . patch -p1 < /tmp/0007-qtwebengine-fix.patch mkdir build && cd build && cmake .. && make # Step 5: If successful, continue to next fix # If failed, refine current patch before moving on

Pre-Patch Analysis Template

Before creating patches, ALWAYS complete this analysis:

## Files to Modify - [ ] main.cpp - QtWebEngine initialization - [ ] mainapplication.h - class definitions - [ ] CMakeLists.txt - build system - [ ] compatible_singleapp.h/cpp - new custom implementation ## Dependency Chain 1. main.cpp includes → mainapplication.h 2. mainapplication.h includes → singleapplication.h (to be replaced) 3. CMakeLists.txt references → SingleApplication (to be removed) 4. Qt MOC processes → Q_OBJECT classes (check for conflicts) ## Build Test Plan 1. [ ] Clean cmake build 2. [ ] Dependency verification (ldd) 3. [ ] Runtime functionality test 4. [ ] Package build test (dpkg-buildpackage)

Validation Before “Ready” Declaration

NEVER declare patches ready without:

# MANDATORY validation workflow mkdir /tmp/patch-validation cd /tmp/patch-validation git clone --branch v4.4.169 <upstream-url> . # Apply ALL patches export QUILT_PATCHES=debian/patches quilt push -a || { echo "FAIL: Patch application"; exit 1; } # Complete build test mkdir build && cd build cmake .. && make || { echo "FAIL: Build"; exit 1; } # Package build test cd .. && dpkg-buildpackage -us -uc || { echo "FAIL: Package"; exit 1; } # Dependency check ldd build/stremio | grep -E "(libQt5|libmpv|libcrypto)" # ONLY NOW declare "patches ready" echo "✅ Validated and ready for production"

This workflow prevents the “ready → fails → rework” cycle that wastes development time.

Production Validation: Comprehensive Testing

Isolated Environment Validation

Test setup:

# Create pristine environment mkdir /tmp/stremio-patch-validation cd /tmp/stremio-patch-validation git clone --branch v4.4.169 https://github.com/Stremio/stremio-shell.git . cp -r /path/to/debian . # Apply all patches export QUILT_PATCHES=debian/patches quilt push -a # Result: All 6 patches applied successfully # Test CMake build mkdir build && cd build cmake .. -DQT_DEFAULT_MAJOR_VERSION=5 make -j$(nproc) # Result: 293KB binary with 100% system libraries # Test release.makefile cd .. && QT_DEFAULT_MAJOR_VERSION=5 make -f release.makefile # Result: Complete success including icon generation # Verify dependencies ldd build/stremio | head -5 # Output: # libQt5WebEngine.so.5 => /lib/x86_64-linux-gnu/libQt5WebEngine.so.5 # libQt5DBus.so.5 => /lib/x86_64-linux-gnu/libQt5DBus.so.5 # libcrypto.so.3 => /lib/x86_64-linux-gnu/libcrypto.so.3 # libmpv.so.2 => /lib/x86_64-linux-gnu/libmpv.so.2

Verification results:

✅ Binary builds successfully (293KB)
✅ GUI loads and displays
✅ Single-instance behavior works
✅ Streaming server starts (port 11470 responds)
✅ System library integration complete
✅ No crashes or threading issues

Runtime Validation

Complete functionality test:

# Launch application ./build/stremio 2>&1 | tee /tmp/stremio-runtime.log # Verify server startup (first 15 seconds) timeout 15s ./build/stremio 2>&1 | grep -E "(server|streaming|port)" # Output: # hls executables located -> { ffmpeg: '/usr/bin/ffmpeg', ffsplit: null } # Using app path -> /home/user/.stremio-server # Enabling casting... # EngineFS server started at http://127.0.0.1:11470 # Test server endpoint curl -s http://127.0.0.1:11470 && echo "✓ Server responding" # Test single-instance behavior ./build/stremio & PID1=$! sleep 2 ./build/stremio # Should detect first instance and exit wait $PID1

User Experience: Installation Simplified

I wanted other Debian users to have the chance to install these packages built with the highest standards as soon as possible while the package is still being reviewed by Debian Developers. My solution was to create a repository and through GitHub Actions, pull the sources of the packages from salsa.debian.org, build them automatically, make a release and provide a Debian repository built with GitHub Pages, so Debian users will have 99% of availability to fetch them.

The end result is a one-command installation for users:

For Debian Trixie (13 – current stable)

wget -qO - https://debian.vejeta.com/key.gpg | sudo gpg --dearmor -o /usr/share/keyrings/stremio-debian.gpg echo "deb [signed-by=/usr/share/keyrings/stremio-debian.gpg] https://debian.vejeta.com trixie main non-free" | sudo tee /etc/apt/sources.list.d/stremio.list sudo apt update sudo apt install stremio stremio-server

For Debian Sid / Kali Linux

wget -qO - https://debian.vejeta.com/key.gpg | sudo gpg --dearmor -o /usr/share/keyrings/stremio-debian.gpg echo "deb [signed-by=/usr/share/keyrings/stremio-debian.gpg] https://debian.vejeta.com sid main non-free" | sudo tee /etc/apt/sources.list.d/stremio.list sudo apt update sudo apt install stremio stremio-server

For Ubuntu 24.04 LTS (Noble) – EXPERIMENTAL

wget -qO - https://debian.vejeta.com/key.gpg | sudo gpg --dearmor -o /usr/share/keyrings/stremio-debian.gpg echo "deb [signed-by=/usr/share/keyrings/stremio-debian.gpg] https://debian.vejeta.com noble main non-free" | sudo tee /etc/apt/sources.list.d/stremio.list sudo apt update sudo apt install stremio stremio-server

Note: Ubuntu support is experimental with automated builds but limited manual testing. Community feedback welcome.

Closing the Loop: Updating Documentation

With a working solution deployed, I returned to where it all started—the documentation. I submitted a comprehensive pull request to update the original DEBIAN.md file I had contributed years earlier.

The PR adds:

✅ APT repository installation (new recommended method)
✅ Complete dependency lists
✅ Modern security practices (proper GPG key management)
✅ Multi-distribution support (Debian + derivatives)
✅ Maintained build instructions (preserved for developers)

Community Impact

Within hours of submitting the PR, I commented on 10+ existing GitHub issues where users had reported installation problems. The response was immediate and positive—users could finally install Stremio without compilation headaches.

Technical Achievements Summary

Packaging Excellence

✅ Zero bundled dependencies: 100% Debian system libraries
✅ FHS compliance: Proper /usr installation paths
✅ License separation: GPL client (main) + proprietary server (non-free)
✅ Policy compliance: Lintian-clean packaging
✅ Independent versioning: Client v4.4.169 + Server v4.20.12

Technical Solutions

✅ QtWebEngine initialization fix: Single line prevents all QML crashes
✅ CompatibleSingleApp: Custom thread-safe single-instance implementation
✅ QProcess environment: Proper Node.js environment setup for streaming server
✅ Dual build systems: CMake (293KB) and qmake (278KB) both working
✅ System library integration: MPV, Qt5, OpenSSL, all QML modules

Infrastructure

✅ Multi-distribution builds: Trixie, Bookworm, Sid, Noble (experimental)
✅ Automated CI/CD: GitHub Actions with matrix strategy
✅ APT repository: GitHub Pages with global CDN
✅ GPG signing: Cryptographically signed packages and metadata
✅ Zero hosting costs: Unlimited bandwidth via GitHub
✅ Download statistics: Built-in analytics via GitHub Releases

Build Statistics

Binary size: 293KB optimized (vs 424KB debug)
Build time: ~10 minutes per distribution
Total distributions: 4 (3 Debian + 1 Ubuntu experimental)
Packages per release: 8 .deb files (4 distros × 2 packages)
Repository size: ~21 MB per release

Looking Forward

Immediate Goals

Debian Submission Progress (ITP #943703):

[x] Source packages created following Debian Policy
[x] Lintian-clean packaging
[x] 100% system libraries
[x] FHS compliance
[x] Copyright file with complete licensing
[x] Watch files for upstream monitoring
[x] git-buildpackage workflow
[x] Packages hosted on Salsa
[x] ITP bug filed
[x] Preliminary Debian Developer review
[ ] Sponsorship obtained
[ ] Upload to Debian NEW queue

Timeline: Submission planned for Q1 2025

Professional Applications

This work directly supports my goal of becoming an official Debian Package Maintainer. This could also serve as a guide for others to get experience with:

Packaging expertise: Modern Debian packaging workflows with complex applications
DevOps proficiency: CI/CD pipeline design and GitHub Actions automation
Problem-solving skills: Deep debugging (QtWebEngine, threading, environment issues)
Community engagement: Solving real user problems at scale
Infrastructure design: Scalable, cost-effective distribution systems
Documentation: Comprehensive technical writing for diverse audiences

Future Evolution

The architecture proved so successful that I’m considering replicating it for other packaging projects. The pattern of using GitHub infrastructure for APT repository hosting could benefit many projects struggling with distribution challenges.

Potential applications:

Personal package repository for experimental Debian packages
Other media applications requiring complex Qt5/WebEngine setups
Cross-distribution packaging (Debian + Ubuntu + derivatives)

Key Principles Reinforced

This journey reinforced several fundamental principles:

1. Documentation is Infrastructure

Good documentation isn’t just text—it’s the foundation that enables user adoption and community growth. The original DEBIAN.md file evolved into a complete packaging and distribution solution.

2. Packaging is Product Design

How users install and maintain software is part of the user experience. Poor packaging creates friction; good packaging eliminates it. The difference between:

❌ “Download, extract, install 15 dependencies, compile, copy files manually”
✅ “apt install stremio”

3. Modern Infrastructure Enables Scale

By leveraging GitHub’s infrastructure (Actions, Pages, Releases), a single developer can provide enterprise-grade distribution infrastructure with zero operational overhead. This democratizes software distribution.

4. Standards Enable Ecosystems

Following Debian packaging standards meant the same packages work across multiple distributions (Debian, Ubuntu, Kali) and can integrate with the official Debian archive.

5. Deep Technical Understanding Pays Off

The critical fixes (QtWebEngine initialization, threading compatibility, environment variables) required deep understanding of:

Qt5 initialization order
QML engine threading model
QProcess environment inheritance
Node.js runtime requirements

Surface-level knowledge wouldn’t have solved these problems.

6. Proper Testing Prevents Rework

The patch development lessons learned (70% time wasted on rework) demonstrate that upfront validation investment prevents significant downstream waste. Test against clean upstream early and often.

7. Independent Versioning Respects Reality

Using independent version numbers for stremio (4.4.169) and stremio-server (4.20.12) follows industry practice and accurately represents upstream development. Convenience versioning creates confusion.

Acknowledgments

Stremio Team: For creating an excellent media center application
Debian Community: For packaging standards and infrastructure (Salsa)
GitHub: For free hosting, CI/CD, and unlimited bandwidth
Qt Project: For excellent cross-platform framework
Debian Developers (Arturo): For preliminary review and guidance on ITP #943703

Technical Resources

Source Repositories

Stremio Client Packaging: salsa.debian.org/mendezr/stremio
Stremio Server Packaging: salsa.debian.org/mendezr/stremio-server
Build System: github.com/vejeta/stremio-debian
APT Repository: debian.vejeta.com

Upstream Projects

Stremio Shell: github.com/Stremio/stremio-shell
Stremio Server: dl.strem.io/server/

Distribution Statistics

Repository Bandwidth: Unlimited (GitHub CDN)
Total Downloads: Tracked via GitHub Releases API
Uptime: 99.9%+ (GitHub SLA)
Build Success Rate: 100% (after fixes applied)

Conclusion

What started as a simple documentation contribution evolved into a comprehensive packaging and distribution solution. By combining traditional Debian packaging principles with modern CI/CD infrastructure, it’s possible to deliver professional-grade software distribution that scales globally.

The journey from “how do I install this?” to “apt install stremio” represents more than technical progress—it’s about removing friction between great software and the people who want to use it.

Sometimes the best solutions come full circle. Years after contributing installation documentation, I’ve returned to ensure that documentation describes a process that actually works reliably for everyone.

The technical challenges (QtWebEngine initialization, threading compatibility, environment variables) required deep problem-solving and systematic debugging. The infrastructure challenges (multi-distribution builds, APT repository hosting, CI/CD automation) required modern DevOps practices and cloud-native thinking.

But ultimately, this project is about enabling users. Every technical decision, every patch, every workflow optimization serves the goal of making Stremio accessible to Debian and Ubuntu users through a simple, reliable installation process.

Part of ongoing contribution to become a Debian Package Maintainer

If you found this article helpful, please consider:

Testing the packages on your Debian/Ubuntu system
Reporting issues at GitHub Issues
Contributing to the upstream Stremio project

Last updated: October 30, 2025

Appendix: Complete Command Reference

Building from Source (Debian/Ubuntu)

# Install build dependencies sudo apt install \ git git-buildpackage pristine-tar \ debhelper-compat cmake \ qtbase5-dev qt5-qmake qt5-qmake-bin \ qtdeclarative5-dev qtwebengine5-dev qttools5-dev \ qml-module-qtwebchannel qml-module-qt-labs-platform \ qml-module-qtwebengine qml-module-qtquick-dialogs \ qml-module-qtquick-controls qml-module-qt-labs-settings \ qml-module-qt-labs-folderlistmodel \ libmpv-dev libssl-dev nodejs npm pkg-kde-tools \ devscripts lintian dpkg-dev fakeroot librsvg2-bin # Clone repository git clone --recursive https://salsa.debian.org/mendezr/stremio.git cd stremio # Build with CMake mkdir build && cd build QT_DEFAULT_MAJOR_VERSION=5 cmake .. make -j$(nproc) # Or build with qmake QT_SELECT=5 qmake QT_SELECT=5 make -j$(nproc) # Or build package QT_DEFAULT_MAJOR_VERSION=5 dpkg-buildpackage -us -uc

Testing Package Installation

# Install package sudo dpkg -i ../stremio_*.deb # Fix dependencies if needed sudo apt install -f # Test binary stremio --version which stremio # Check dependencies ldd /usr/bin/stremio | grep -E "(libQt5|libmpv|libcrypto)" # Run application stremio

Repository Management

# Add GPG key wget -qO - https://debian.vejeta.com/key.gpg | \ sudo gpg --dearmor -o /usr/share/keyrings/stremio-debian.gpg # Add repository (choose your distribution) echo "deb [signed-by=/usr/share/keyrings/stremio-debian.gpg] https://debian.vejeta.com trixie main non-free" | \ sudo tee /etc/apt/sources.list.d/stremio.list # Update and install sudo apt update sudo apt install stremio stremio-server # Verify installation dpkg -L stremio systemctl --user status stremio-server # If systemd service installed

Debugging Runtime Issues

# Run with debug output QT_DEBUG_PLUGINS=1 stremio # Run in headless mode (for testing) QT_QPA_PLATFORM=offscreen stremio # Disable WebEngine sandbox (for containers) QTWEBENGINE_DISABLE_SANDBOX=1 stremio # Check server process ps aux | grep server.js lsof -i :11470 # Manual server test /usr/bin/node /usr/share/stremio/server.js # Test with gdb gdb --args stremio (gdb) run (gdb) bt # If crash occurs

End of Article

Technical Depth: Production-grade implementation details
Target Audience: Advanced developers, system administrators, Debian maintainers

Filed under: debian,linux - @ October 30, 2025 7:53 pm

Tags: debian, linux, stremio, wolfi

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