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172 lines
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172 lines
7.0 KiB
Plaintext
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========
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Road Map
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========
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Herein, we lay out our plans for evolving Genode. Progress in addition to this
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planning will very much depend on the degree of community support the project
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will receive. The
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[https://genode.org/about/challenges - Challenges] page collects some of our ideas to
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advance Genode in various further directions.
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The road map is not fixed. If there is commercial interest of pushing the
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Genode technology to a certain direction, we are willing to revisit our plans.
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Review of 2020
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##############
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The overarching theme of our road map for 2020 was "Dwarfing the barrier of
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entry", which expressed the ambition to reach a wider audience. On that
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account, we identified four promising directions: First, making Sculpt OS
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palatable for a wider circle. Second, fostering the public perception of the
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high quality of Genode to reinforce the confidence of people who are sceptical
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towards novel operating-system technology. Third, lowering the barrier of
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entry by providing frictionless tooling. And fourth, publicly presenting use
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cases that prove the fitness and flexibility of Genode. These directions
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certainly did a good job of motivating the working topics of last year's four
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releases
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[https://genode.org/documentation/release-notes/20.02 - 20.02],
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[https://genode.org/documentation/release-notes/20.05 - 20.05],
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[https://genode.org/documentation/release-notes/20.08 - 20.08], and
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[https://genode.org/documentation/release-notes/20.11 - 20.11].
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The UI improvements of Sculpt OS in version 20.02 largely eliminated the need
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to use the command line as presented
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[https://www.youtube.com/watch?v=vmgWgzeKAjU - here].
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The second direction - software quality - motivated the steady improvements of
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our POSIX runtime, ultimately enabling highly sophisticated workloads like the
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Chromium web engine on Genode. Regarding our stated commitment to 64-bit ARM
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hardware, in particular supporting the NXP i.MX8 SoC, we covered 64-bit
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multi-core virtualization, HDMI, touch input, OLED, networking, LTE, USB,
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clock and power management, VirtIO, up to running Sculpt OS on this platform.
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Granted, Genode's audience hasn't increased by a large margin as a direct
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result of these efforts. But as illustrated by the fruitful road-map
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discussion for 2021 on the
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[https://genode.org/community/mailing-lists - mailing list],
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our community is more engaged and enthusiastic than ever before.
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2021 - Optimization and Platform diversity
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##########################################
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For the initial conquering of 64-bit ARM territory, restraining our focus to
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one particular SoC - namely NXP i.MX8 - was a healthy approach. Now it is the
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right time to optimize and to branch out the development to further
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platforms. The following key aspects of our road map for 2021 reflect that.
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:Pinephone:
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By the end of the year, we want be able to use Genode on the
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[https://pine64.com/product-category/pinephone/ - Pinephone]
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as a feature phone, covering basic web-browsing needs, placing calls, and
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SMS.
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:Linux-device-driver environment re-imagined:
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We are convinced that we have to dramatically reduce the engineering
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effort needed to port device drivers from the Linux kernel to Genode. With
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many years of driver-porting experience under our belts, we plan to condense
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the lessons learned in the form of new tooling and documentation. This, in
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turn, will hopefully pave the ground for more and more developers
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contributing to Genode's device-driver coverage in the future.
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:Developer experience:
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Speaking of new developers, we see Genode's existing tool set as a barrier
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because it requires a rather steep learning curve. Hence, this year, we will
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have a fresh take on tooling and workflows. The starting point will be the
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experimental [https://github.com/nfeske/goa - Goa] tool, which in principle
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allows developers to use familiar build systems for Genode development. We
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plan to extend Goa to cover more build systems, and shape the tool towards
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system-integration tasks and quick compile-test cycles targeting embedded
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devices.
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:Optimization:
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Motivated by usage scenarios like the Pinephone, we are eager to tap into
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plenty of opportunities for optimization. Based on data gathered by improved
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system tracing, we consider interface refinements to improve the batching of
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I/O (file-system access, networking), micro-optimizations of hot code paths
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(like TLS lookup, parsers, and allocators), as well as structural changes
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(like the consolidation of low-level services).
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:GPU support:
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Distantly related to optimization, GPU support is an increasingly requested
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feature. We already
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[https://genode.org/documentation/release-notes/17.08#Hardware-accelerated_graphics_for_Intel_Gen-8_GPUs - wetted our toes]
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in the past. But GPU support has not yet become routinely supported in
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system scenarios like Sculpt OS. In 2021, we want to change that, making GPU
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support a feature that can be relied on. We will primarily address Intel
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graphics first but also explore GPUs on ARM-based devices.
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Milestones for 2021
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###################
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In the following, we present a rough schedule of the planned work. As usual,
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it is not set in stone. If you are interested in a particular line of work,
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please get in touch.
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February - Release 21.02
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========================
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* Pluggable device drivers (NIC, WLAN, framebuffer, input)
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* VirtualBox 6
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* Sculpt: basic UI for the consistent block encrypter (CBE)
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* 64-bit ARM
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* VirtIO block-device support for virtual machines
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* Base platform support for the Pine A64 board (kernel base framework)
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May - Release 21.05
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===================
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* Annual documentation update, including the "Genode Foundations" book
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* GPU support
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* MESA update
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* Experiments on ARM (e.g., Vivante on i.MX8, or Mali-400 on A64)
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* Sculpt OS on Pine A64 (USB, input, framebuffer, SD-card, networking)
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* 64-bit ARM
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* Platform-driver consolidation between ARM and x86
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* PCI-express support for MNT Reform (i.MX8)
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* Tool-chain update (e.g., switching to hard-float on ARM)
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* Modernized client-side NIC and uplink APIs
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* Goa
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* Broadened architecture support and testing workflow
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* API projects
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* Inter-project dependencies
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August - Release 21.08
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======================
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* Linux DDE re-imagined
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* Improved tooling
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* Exploring Goa-based development workflow
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* GPU support
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* GPU multiplexer for Intel Gen9 graphics
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* Harmonization of GPU driver with Intel framebuffer driver
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* Initial version of a custom kernel (Spunky) implemented in Ada/SPARK
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* System-level tracing infrastructure for guiding and validating optimizations
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* Pinephone
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* Touchscreen and display
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* Mobile web browser
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* Goa
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* CMake-based Qt5 applications
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* QML-based applications
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November - Release 21.11
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========================
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* Pinephone
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* Mobile data connectivity (LTE)
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* Phone calls (audio)
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* SMS
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* seL4
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* Update to current kernel version, MCS scheduling
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* Combining CAmkES with Genode
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* SMMU (I/O-MMU for ARM) support for our custom (base-hw) kernel
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* Multi-monitor support
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