Ubuntu Touch
Ubuntu Touch is a free and open-source Linux-based mobile operating system designed for smartphones and tablets, emphasizing user privacy, freedom, and convergence between mobile and desktop computing environments.[1][2] Originally initiated by Canonical Ltd. as a touch-optimized variant of Ubuntu in 2011, the project was discontinued by Canonical in April 2017, after which the community-driven UBports Foundation assumed full responsibility for its development and maintenance.[3][4] The operating system features a gesture-based user interface built with Qt/QML technologies, enabling smooth navigation without reliance on traditional buttons or menus, and includes core applications such as a dialer, calendar, and photo gallery.[2] Its architecture incorporates a read-only root filesystem for enhanced stability and security, with user data managed through bind mounts, and utilizes Halium—a hardware abstraction layer based on Android's kernel via LXC containers—to ensure compatibility with a wide range of devices.[2] Security is bolstered by AppArmor for application confinement and a trusted/untrusted app model, while features like Libertine allow running desktop Linux applications in isolated containers, and experimental Waydroid support enables execution of Android apps.[2][5] A hallmark of Ubuntu Touch is its convergence mode, which transforms the device into a desktop workstation when connected to an external display via USB-C, utilizing the phone's screen as a touchpad for input.[2] Native applications are developed using the Clickable tool and distributed as Click packages through the OpenStore, promoting a privacy-focused ecosystem free from proprietary dependencies.[2] As of its latest release, Ubuntu Touch 24.04-1.0 (based on Ubuntu 24.04 LTS), the OS supports dozens of devices, including promoted models like the Fairphone 5, Google Pixel 3a, OnePlus 6, and Volla Phone series, with enhancements such as light mode theming, experimental data encryption, and improved USB tethering.[1][6] This release underscores UBports' commitment to long-term device support, extending usability to hardware over nine years old in some cases.[7]History
Canonical era
Canonical initiated the development of a mobile operating system in February 2012 with the announcement of Ubuntu for Android, a project designed to integrate Ubuntu's desktop environment with Android devices in a dual-boot-like fashion, allowing users to access a full Ubuntu desktop when the phone was docked to a monitor via HDMI.[8] This approach aimed to leverage existing Android hardware while providing Linux-based productivity features, but it represented a hybrid solution rather than a standalone mobile OS.[9] By January 2013, Canonical pivoted to the Ubuntu Mobile project, rebranded as Ubuntu for phones, with the goal of creating a complete Linux-based mobile operating system optimized for touch interfaces and convergence across devices like phones, tablets, and PCs. The project emphasized a unified OS experience, where a single device could switch seamlessly between mobile and desktop modes, a concept heavily promoted by Canonical founder Mark Shuttleworth in blog posts highlighting the potential for phone-PC convergence.[10] At CES 2013, Shuttleworth demonstrated an early prototype on a Galaxy Nexus, showcasing gesture-based navigation and the promise of desktop-like capabilities when connected to external displays, though the demo focused more on interface fluidity than full functionality.[11] The first developer preview of Ubuntu Touch was released on February 21, 2013, initially supporting the Galaxy Nexus and Nexus 4, enabling developers to test core features like telephony, messaging, and web browsing on actual hardware.[12] In 2014, Canonical secured partnerships with OEMs including Meizu and BQ to produce commercial devices, while continuing developer support for Nexus hardware; these collaborations aimed to bring Ubuntu Touch to mid- and high-end smartphones by year's end, though delays pushed initial shipments.[13] Shuttleworth reiterated the convergence vision in mid-2014 blog updates, envisioning Ubuntu phones as versatile computing hubs that could drive external monitors and peripherals without additional hardware. The first commercial release of Ubuntu Touch for supported devices such as the BQ Aquaris E5, launched in October 2015 based on Ubuntu 15.04, introduced improved app scopes and better hardware integration for partners like Meizu's MX4 and BQ's Aquaris series. However, the era was marked by challenges, including unfulfilled convergence promises that relied on widespread OEM adoption, which failed to materialize due to limited app ecosystem growth and competition from Android and iOS. In April 2017, Canonical announced its withdrawal from Ubuntu Touch development, citing insufficient carrier and OEM support to achieve commercial viability. The project was subsequently handed over to the UBports community for continued maintenance.UBports transition
In April 2017, following Canonical's announcement to discontinue development of Ubuntu Touch, the UBports community assumed full responsibility for the project's maintenance, establishing itself as a non-profit organization dedicated to sustaining the mobile operating system.[14] The UBports Foundation was formally registered in Germany in 2019, but its community-led efforts began immediately in 2017 to preserve and advance the platform through open-source collaboration.[15] To address the challenges of porting Ubuntu Touch to diverse hardware reliant on Android drivers, the community initiated the Halium project in April 2017, which provides a unified hardware abstraction layer integrating Android's binary blobs with GNU/Linux distributions.[16] Halium enabled efficient reuse of existing Android kernel components, allowing Ubuntu Touch to run on devices without proprietary codebases from scratch, and positioned the Nexus 5 (codename hammerhead) as an early reference device for these ports.[17] This integration was crucial for UBports' initial efforts, as it reduced fragmentation across mobile Linux projects like Ubuntu Touch.[18] The first major UBports release, Ubuntu Touch 16.04 (OTA-4), arrived in August 2018, upgrading the base from Canonical's Ubuntu 15.04 to the more stable 16.04 LTS for enhanced security and reliability on supported devices.[19] This update prioritized stability improvements, such as power-saving features and better hardware compatibility, over new functionalities, reflecting the community's focus on maintaining usability for existing users during the transition.[20] Sustained by volunteer developers and key contributors like Zied Hamzaoui, UBports relied on community funding through donations via platforms such as Patreon, Liberapay, and PayPal to cover infrastructure, events, and development coordination.[21] These efforts were essential, as the project transitioned from corporate backing to grassroots support without dedicated salaries for most participants. The handover presented significant challenges, including the abrupt loss of Canonical's engineering resources and codebases, which left UBports without a structured transition and forced reliance on volunteer-driven ports for legacy hardware like the Nexus 5.[22] Early development emphasized stabilizing ports for such older devices, where volunteer efforts addressed hardware-specific issues like display and sensor integration amid limited testing capabilities.[23] A key milestone was the launch of the UBports Installer in early 2018, a cross-platform graphical tool that simplified device flashing by automating bootloader unlocking, Android ROM installation, and Ubuntu Touch deployment, making the OS more accessible to non-technical users.[24] While UBports continued to draw inspiration from Canonical's convergence vision—enabling seamless desktop-like experiences on external displays—the community faced ongoing hurdles in fully realizing it due to hardware and resource constraints.[25]Post-2020 developments
Following the UBports transition, Ubuntu Touch continued to evolve through a series of over-the-air (OTA) updates in the 16.04-based series during the early 2020s, with OTA-13 released in September 2020 adding support for six new devices including the Google Pixel 3a and OnePlus 6T. Subsequent releases like OTA-14 in November 2020 introduced testing for enhanced stability and device compatibility.[26] This period saw incremental improvements in hardware support and bug fixes, culminating in OTA-25 on March 31, 2023, which marked the end of the 16.04 series.[27] A major milestone came with the launch of the Ubuntu 20.04 LTS-based series in March 2023, starting with OTA-1 Focal, which brought updated security patches, better multimedia handling via improved QtWebEngine, and initial support for devices like the Volla Phone.[28] OTA-2 in July 2023 expanded compatibility to include the Fairphone 3 and F(x)tec Pro1 X, alongside refinements in power efficiency. OTA-3 in November 2023 further enhanced multimedia capabilities through Bluetooth audio fixes and added beta OTA support for Pine64's PinePhone and PineTab devices.[29] The 20.04 series progressed with OTA-4 in January 2024, focusing on security updates and user privacy features such as hiding notification content on the lock screen and requiring confirmation for ADB connections from new computers.[30] OTA-5 in July 2024 improved power management with a more granular power profile system distinguishing between sustained and interactive modes on supported hardware.[31] OTA-6 in November 2024 was a minor update prioritizing base OS stability ahead of larger changes.[32] OTA-7 in November 2024 delivered critical security fixes for PulseAudio and other components.[33] In March 2025, OTA-8 introduced modern enhancements including VoLTE support for select Volla devices, WPA3 Wi-Fi compatibility, and general stability improvements, with plans for broader rollout.[34] OTA-9 in June 2025 further advanced VoLTE out-of-the-box for additional Volla models and integrated Waydroid features for better Android app compatibility. OTA-10 in September 2025 added an upgrader tool for migrating to the new base and support for the Rabbit R1 device.[35] Parallel to these releases, UBports initiated development on a Ubuntu 24.04 LTS base in late 2024, with the development release 24.04-1.x entering testing phases by early 2025.[36] Stabilization efforts were discussed in community forums during May and June 2025, addressing boot issues and compatibility. The stable 24.04-1.0 release arrived on September 30, 2025, supporting devices like the Fairphone 3/3+, Asus Zenfone Max Pro M1, and F(x)tec Pro1 X, with fresh logos and enhanced convergence features.[1] In late 2025, testing commenced for 24.04-1.1, focusing on bug fixes including voice call issues on select devices, with release anticipated in mid-November.[37] Community growth accelerated post-2020, with increased device ports including full support for the Fairphone 4 by early 2025, featuring active commits as recent as October 2025.[38] Ongoing partnerships with Pine64 ensured robust compatibility for the PinePhone series, including OTA updates tailored for its hardware.[29] Funding expanded through Patreon contributions, which supported monthly development, alongside one-time donations via the UBports webshop and Liberapay.[21] Community events, such as presentations at FOSDEM in prior years, helped raise awareness and attract contributors.[39] In 2025, forum discussions on forums.ubports.com highlighted progress in 5G and VoLTE, with VoLTE and VoWiFi enhancements enabled for devices like the Fairphone 4 and Poco X3 following the 24.04 upgrade, and initial 5G testing on models like the OnePlus Nord N10 5G.[40][41] These updates were shared in status threads throughout the year, emphasizing improved telephony for daily use.[42]Technical foundation
Architecture and components
Ubuntu Touch is built on the Ubuntu operating system, specifically based on Ubuntu 24.04 LTS in its 2025 releases, providing a Debian-derived foundation adapted for mobile devices.[43] This base includes core Linux components optimized for touch-based interactions and resource-constrained hardware, with a read-only root filesystem to enhance stability and security by preventing unauthorized modifications to system files.[2] The system employs a device-specific Linux kernel, with versions varying by device (e.g., 4.9 for older Android ports like the Google Pixel 3a, 5.4 for the Fairphone 5), often derived from the original Android kernel to leverage proprietary drivers.[44][45][46][47] Halium serves as the key hardware abstraction layer, replacing the Android HAL through libhybris, which translates Android-specific interfaces to standard Linux APIs, enabling compatibility with components like cameras, sensors, and modems without full mainline kernel support.[44] The display is managed by Wayland, integrated via the Lomiri compositor for efficient rendering on mobile screens.[48] Systemd functions as the init system, handling service management and boot processes in a parallelized manner suitable for quick startup on embedded devices.[49] Native applications are developed using the Qt framework (version 5) with QML for declarative UI design, distributed as Click packages that integrate seamlessly with the system's sandboxed environment.[2] For legacy desktop applications, Libertine provides LXC-based containers to run traditional Debian packages in isolation, allowing compatibility with X11-based software without compromising the mobile core.[2] Security is enforced through AppArmor profiles that confine applications to minimal permissions, a read-only filesystem that limits root access, and privacy defaults that prohibit telemetry collection or data transmission without explicit user consent; however, full-disk encryption remains unsupported in current implementations.[5][50] The boot process generally utilizes the device's existing Android bootloader, with the UBports installer repartitioning and flashing Ubuntu Touch images while preserving options for dual-booting where feasible. On native Linux devices like the PinePhone, U-Boot serves as the bootloader for greater flexibility.[51] Compared to desktop Ubuntu, Ubuntu Touch incorporates mobile-specific kernel patches for power management, touch input calibration, and battery optimization, ensuring efficient operation on ARM-based hardware with limited resources.User interface design
Ubuntu Touch's user interface is powered by Lomiri, a touch-optimized graphical shell originally developed as Unity 8 by Canonical starting in 2015 and forked by the UBports community in 2017 to continue development after Canonical discontinued the project.[52][53] In 2020, UBports renamed it Lomiri to distinguish it from the unrelated Unity game engine and to reflect its evolution into a convergent environment adaptable to phones, tablets, and desktops.[52] Lomiri is built using QML on the Qt framework, enabling fluid rendering and interactions suited for touchscreen devices. The design philosophy of Lomiri emphasizes minimalism and efficiency for mobile use, featuring a card-based layout where applications appear as interactive cards that users can spread across the screen for multitasking.[2] Navigation relies on intuitive gesture controls, such as edge swipes from the left to open the app drawer, right swipes to access notifications, and three-finger gestures to enter side-stage mode for running secondary apps alongside the primary one.[2] This gesture-based paradigm reduces reliance on on-screen buttons, promoting a clean, immersive experience optimized for small displays.[54] A key element of the interface is Scopes, a unified content aggregation system introduced in early Ubuntu Touch versions to provide dynamic, contextual views pulling from apps, web services, and device data without opening individual applications.[55] Scopes function as customizable lenses, such as a news scope aggregating headlines or a media scope displaying photos and videos, enhancing discoverability in a touch-centric environment.[56] Theming in Lomiri supports customization through Qt stylesheets, allowing users to adjust colors, icons, and layouts via system settings or third-party tools. Dark mode, introduced in OTA-8, became a standard option to improve visibility in low-light conditions and reduce battery consumption on OLED screens, with automatic switching based on time or manual toggle.[57] Accessibility features include gesture customization, where users can remap swipes and taps for easier interaction.[58]Core features
Ubuntu Touch emphasizes gesture-based navigation and multitasking, enabling users to interact seamlessly with the operating system on touchscreens. The Lomiri user interface powers these interactions, allowing for smooth transitions between apps through intuitive swipes and pinches. A key aspect is the side stage multitasking feature, which lets users run a secondary app in a resizable floating window alongside the primary application, facilitating efficient productivity without full app switching.[59] The lock screen in Ubuntu Touch is designed for quick access and customization, displaying notifications, weather updates via integrated apps, and quick toggles for settings like Wi-Fi or brightness. Users can personalize it further with third-party apps, such as those adding custom messages or enhanced info circles. Where supported by hardware, it accommodates biometric unlock methods like fingerprint scanning for secure and convenient access.[60][61][62] Privacy is a foundational element of Ubuntu Touch, with apps running in sandboxed environments enforced by AppArmor, restricting access to system resources unless explicitly permitted. By default, the OS excludes Google services, promoting a de-Googled experience focused on user control and data sovereignty. VPN integration is straightforward, allowing easy setup of providers like ProtonVPN for encrypted connections.[5][63][64] Offline capabilities underscore Ubuntu Touch's Linux roots, providing full terminal access through a dedicated app for command-line operations without internet dependency. The built-in file manager supports USB OTG connectivity, enabling direct interaction with external storage devices like flash drives for file transfers and management.[65][66] Battery management includes do-not-disturb modes to suppress notifications during focused periods and adaptive features that optimize polling rates for sensors and background processes. Releases in 2025, such as the Ubuntu 24.04 LTS-based version, incorporate refinements for improved standby efficiency and overall performance on supported hardware.[67][68] A distinctive capability is the potential for on-device self-hosting, where users can leverage Ubuntu Touch's Linux foundation to run lightweight server services, aligning with privacy-focused tools like FreedomBox for personal data management without external clouds.[69]Software and applications
Pre-installed apps
Ubuntu Touch comes pre-installed with a suite of open-source applications designed to provide essential functionality for mobile use, all developed without proprietary dependencies and primarily built using native Qt frameworks or HTML5 technologies for seamless integration with the Lomiri user interface. These apps leverage QML for user interfaces and JavaScript or C++ for backend logic, ensuring compatibility and performance on supported hardware. The core communication apps include the Dialer, which handles voice calls and supports Voice over LTE (VoLTE) on compatible devices and carriers, enabling high-definition audio over 4G networks where hardware and modem firmware allow. The Messages app manages SMS and MMS communications, providing a simple interface for text-based interactions with threaded conversations and media attachments. For media handling, the Camera app captures photos and videos using the device's hardware sensors, supporting standard formats though advanced features like RAW output remain under development despite hardware capabilities on many devices.[70] The Gallery app organizes and views images and videos in a grid-based layout, with basic editing tools and support for EXIF metadata. The Music app plays audio files from local storage, featuring playback controls, playlists, and equalizer options for supported formats. The Clock app includes alarm, timer, stopwatch, and world clock functions for time management.[71] Productivity tools encompass the Document Viewer, which renders PDF files and common office formats like DOCX and ODT using open-source libraries for annotation and zooming. The Calculator app offers basic arithmetic, scientific functions, and unit conversions in a touch-friendly design. Notes, available as a core app, allows quick text entry and organization, with options for syncing via compatible services like Nextcloud.[72][73] The web browser, known as Morph Browser, is based on QtWebEngine—a Chromium-derived engine—providing modern rendering, tab management, and bookmarking without extension support. Utilities include the File Manager for navigating storage, copying files, and basic operations across local and connected devices; the Terminal app for command-line access to the underlying Linux shell; and the Settings app, which centralizes system configuration with dedicated privacy toggles for permissions, location services, and app data access.[34] In the Ubuntu Touch 24.04-1.0 release (September 2025), enhancements to pre-installed apps included system-wide theme switching with dark and light mode support, improving usability across applications like Morph Browser.[1]App ecosystem and compatibility
Ubuntu Touch's app ecosystem centers on the OpenStore, its primary native app repository, which hosts a catalog of between 400 and 500 applications as of 2025, focusing on free and open-source software tailored for mobile use.[74] Developers can create native apps using the Lomiri UI Toolkit, a set of Qt/C++ components designed for building convergent interfaces that adapt across devices, enabling seamless experiences from phones to desktops.[75] This toolkit supports rapid prototyping and deployment, with apps distributed directly through the OpenStore for easy installation on supported devices.[76] For broader compatibility, Ubuntu Touch integrates Waydroid, a container-based system that runs Android applications alongside native ones, serving as a modern successor to the older Anbox framework.[76] Waydroid allows users to sideload APK files obtained from sources like F-Droid, with tools such as the Aurora Store providing an open-source interface to access and download apps anonymously without requiring a Google account.[77] Additionally, WebApps wrap web services into native-like experiences using a dedicated web engine container, enabling quick access to online tools like email or social platforms without full app development.[78] Despite these options, the ecosystem faces challenges, including a relatively small native app selection compared to the millions available on Android or iOS platforms, which limits options for proprietary or specialized software.[74] Community efforts have addressed some gaps through ports of popular applications, such as enhanced Firefox compatibility via configuration tweaks for better touchscreen support and ongoing discussions for native integration.[79] Similar volunteer-driven adaptations exist for messaging apps like Signal, though full native versions remain scarce. As of November 2025, the Ubuntu Touch 24.04-1.0 release (September 2025) has stabilized the base system with improvements to Waydroid for better APK sideloading and app compatibility, without pursuing official Google Play integration to uphold the platform's privacy-centric philosophy.[1][80]Convergence capabilities
Ubuntu Touch's convergence capabilities enable the operating system to seamlessly transition from a mobile interface to a full desktop environment when connected to an external display, fulfilling a vision originally outlined by Canonical in 2013 during demonstrations of Ubuntu for smartphones.[81] This feature, now maintained by the UBports community, activates automatically upon docking via HDMI or USB-C, switching the user interface to the Lomiri desktop shell for a traditional computing experience.[2] Key features include support for windowed desktop applications, such as LibreOffice installed through the Libertine LXC container system, alongside native keyboard and mouse input for precise control.[82] Multi-monitor configurations are possible where the underlying hardware supports extended display outputs, and the phone's screen can function as a touchpad in this setup. Qt-based applications further enhance convergence by dynamically adapting their layouts to the larger screen and input methods without requiring separate codebases.[25] Hardware requirements center on devices capable of video output, typically through USB-C with DisplayPort alternate mode or legacy MHL adapters for compatible ports.[2] UBports has refined these capabilities since taking over development, with the OTA-6 update in 2024 improving wireless display stability and input handling to enhance overall usability.[83] As of 2025, convergence remains partially implemented on older devices due to hardware constraints like limited video output support, but it operates fully on modern hardware such as the PinePhone Pro.[84] This mode positions Ubuntu Touch devices as versatile productivity tools, allowing users to repurpose their phone as a portable personal computer for tasks like document editing and web browsing when docked to external peripherals.[25]System requirements and installation
Hardware specifications
Ubuntu Touch is designed to run on a variety of mobile devices, primarily targeting ARM-based hardware to ensure compatibility with common smartphone and tablet architectures. The operating system requires processors from the ARMv7 family or higher, including Cortex-A8, A9, and subsequent models, with a preference for 64-bit ARMv8 architectures for optimal performance.[85] Community discussions suggest that devices with at least 2 GB RAM perform better for basic functions and multitasking, though official minimums are not specified. Lower amounts may lead to instability.[86][87] Storage needs are modest, with sufficient internal flash storage required for installation and user data; the OS itself occupies around 5-7 GB.[51] The display must feature a capacitive touchscreen with multi-touch support to enable the gesture-driven user interface. Devices lacking these display capabilities are incompatible.[85] Additional hardware components enhance functionality: integrated Wi-Fi (802.11 b/g/n or better), Bluetooth 4.0+, and GPS are standard for location services and connectivity. A cellular modem is optional but necessary for voice calls and data; recent 2025 ports support VoLTE and emerging 5G on compatible chipsets. Power management relies on batteries exceeding 2000 mAh for reasonable usage, with effective thermal controls to prevent throttling during prolonged operation.[51] As of 2025, Ubuntu Touch has been optimized for mid-range devices, delivering fluid performance on hardware like those with Snapdragon 600-series or equivalent SoCs. However, it may struggle on very low-end systems.[87]Supported devices
Ubuntu Touch is compatible with dozens of devices as of 2025, encompassing smartphones and tablets with varying levels of support maintained by UBports and the community; the UBports installer includes a compatibility checker to verify device eligibility before installation.[51][88] Official UBports-supported devices include the Fairphone 4 and Fairphone 5 (with full support for the latter confirmed stable in 2025), PinePhone and PinePhone Pro (pre-installed options from partners like Pine64), Volla Phone series (including Volla Phone 22, with stable status in 2025), Google Pixel 3a, and OnePlus 6.[88][89][90] Community ports extend compatibility to devices such as select Google Pixel models (with varying functionality), Xiaomi Poco X3 NFC, and others.[89][91][92] Support levels are classified as full (encompassing calls, camera, and core hardware), partial (often restricted to Wi-Fi and basic operations), or end-of-life (EOL, such as the Nexus 4, which no longer receives updates).[93][92] In 2025, notable updates include new ports achieving stable status for the Fairphone 5 and Volla Phone 22, alongside device-specific kernel optimizations introduced in OTA-8 to enhance hardware integration on Volla devices.[90][94] For users seeking enhanced privacy, UBports recommends acquiring end-of-life Android smartphones from the supported list, enabling migration to a de-Googled Linux-based OS without compromising existing hardware investments.[88]Installation methods
Ubuntu Touch installation primarily relies on the UBports Installer, a graphical user interface tool available for Windows, Linux, and macOS that automates the process of downloading necessary images and flashing them to compatible devices via USB connection.[95] To use the installer, users download the appropriate package from the official UBports website—such as the .exe for Windows, .dmg for macOS, or Snap/AppImage for Linux—then launch the application without elevated privileges like sudo on Linux.[24] The tool guides users through selecting a supported device from the list, verifying prerequisites, and proceeding with the installation, which includes booting the device into fastboot or recovery mode automatically.[96] Key prerequisites for installation include an unlocked bootloader on the target device, which typically requires enabling developer options, USB debugging, and OEM unlocking in the device's Android settings before using commands likefastboot oem unlock or equivalent tools.[96] Additionally, users must install ADB and fastboot drivers on their computer, ensure the device runs a compatible stock or specific Android ROM version as required by the device port, and back up all data since the process erases the device.[97] Unlocking the bootloader and flashing custom software voids the manufacturer's warranty and carries risks of bricking the device if not followed correctly.[98]
For advanced users preferring manual installation, the process involves using command-line tools like fastboot for bootloader unlocking and image flashing on devices with Qualcomm or MediaTek chipsets, or Heimdall for Samsung Exynos-based devices.[99] This method requires downloading device-specific system images and root filesystem from the UBports repository, booting into fastboot mode with adb reboot bootloader, and executing commands such as fastboot flash boot boot.img followed by fastboot flash system system.img and rebooting.[24] Manual methods are documented in device-specific porting guides on the UBports forums and are recommended only for those familiar with Android development tools to avoid errors.[98]
Dual-booting Ubuntu Touch alongside Android has limited support and is not officially endorsed by UBports, though older methods using MultiROM—a custom recovery tool—were possible on select devices like Nexus series by flashing a modified kernel and secondary ROM partitions.[51] Current installations via the UBports Installer replace the primary Android partition entirely, precluding native dual-boot without advanced partitioning that risks system instability.[100]
Post-installation, over-the-air (OTA) updates are managed through the built-in System Updater application, which checks for and applies new channel releases like devel, rc, or stable without requiring a computer. Rollback to Android is feasible on many devices by reflashing the original stock ROM using the manufacturer's tools or fastboot, provided the bootloader remains unlocked and compatible images are available—users should follow device-specific guides to restore the factory state.[101]
As of 2025, the UBports Installer has seen updates improving compatibility, with version 0.11.0 (released June 2025) and later versions enhancing device detection and error handling during the flashing process for broader hardware support.[102][103]