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Genode OS Framework
armcpluspluscppframeworkgenodegoahypervisorlinuxmicrokernelnovaobject-capabilitiesoperating-systemosdevriscvsculpt-ossel4virtualizationx86
9a65e4f607
This patch was back ported from upstream Mesa and generalizes the memory management of buffer objects used by the binder. Before this patch the binder was treated as a special case where buffer objects were allocated with a simple "next block or wrap" allocator. With this commit the binder now uses the vm_heap allocators as done by all other buffer allocations which leads to issues with reference counting and object destruction being resolved. Original commit message: We're moving towards a path where all contexts share the same virtual memory - because this will make implementing vm_bind much easier - , and to achieve that we need to rework the binder memzone. As it is, different contexts will choose overlapping addresses. So in this patch we adjust the Binder to be 1GB - per Ken's suggestion - and use a real vma_heap for it. As a bonus the code gets simpler since it just reuses the same pattern we already have for the other memzones. |
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================================= Genode Operating System Framework ================================= This is the source code of Genode, which is a framework for creating component-based operating systems. It combines capability-based security, microkernel technology, sandboxed device drivers, and virtualization with a novel operating system architecture. For a general overview about the architecture, please refer to the project's official website: :Website for the Genode OS Framework: [https://genode.org/documentation/general-overview] Genode-based operating systems can be compiled for a variety of kernels: Linux, L4ka::Pistachio, L4/Fiasco, OKL4, NOVA, Fiasco.OC, seL4, and a custom "hw" microkernel for running Genode without a 3rd-party kernel. Whereas the Linux version serves us as development vehicle and enables us to rapidly develop the generic parts of the system, the actual target platforms of the framework are microkernels. There is no "perfect" microkernel - and neither should there be one. If a microkernel pretended to be fit for all use cases, it wouldn't be "micro". Hence, all microkernels differ in terms of their respective features, complexity, and supported hardware architectures. Genode allows for the use of each of the supported kernels with a rich set of device drivers, protocol stacks, libraries, and applications in a uniform way. For developers, the framework provides an easy way to target multiple different kernels instead of tying the development to a particular kernel technology. For kernel developers, Genode contributes advanced workloads, stress-testing their kernel, and enabling a variety of application use cases that would not be possible otherwise. For users and system integrators, it enables the choice of the kernel that fits best with the requirements at hand for the particular usage scenario. Documentation ############# The primary documentation is the book "Genode Foundations", which is available on the front page of the Genode website: :Download the book "Genode Foundations": [https://genode.org] The book describes Genode in a holistic and comprehensive way. It equips you with a thorough understanding of the architecture, assists developers with the explanation of the development environment and system configuration, and provides a look under the hood of the framework. Furthermore, it contains the specification of the framework's programming interface. The project has a quarterly release cycle. Each version is accompanied with detailed release documentation, which is available at the documentation section of the project website: :Release documentation: [https://genode.org/documentation/release-notes/] Directory overview ################## The source tree is composed of the following subdirectories: :'doc': This directory contains general documentation along with a comprehensive collection of release notes. :'repos': This directory contains the source code, organized in so-called source-code repositories. Please refer to the README file in the 'repos' directory to learn more about the roles of the individual repositories. :'tool': Source-code management tools and scripts. Please refer to the README file contained in the directory. Additional hardware support ########################### The framework supports a variety of hardware platforms such as different ARM SoC families via supplemental repositories. :Repositories maintained by Genode Labs: [https://github.com/orgs/genodelabs/repositories] Additional community-maintained components ########################################## The components found within the main source tree are complemented by a growing library of additional software, which can be seamlessly integrated into Genode system scenarios. :Genode-world repository: [https://github.com/genodelabs/genode-world] Community blog ############## Genodians.org presents ideas, announcements, experience stories, and tutorials around Genode, informally written by Genode users and developers. :Genodians.org: [https://genodians.org] Contact ####### The best way to get in touch with Genode developers and users is the project's mailing list. Please feel welcome to join in! :Genode Mailing Lists: [https://genode.org/community/mailing-lists] Commercial support ################## The driving force behind the Genode OS Framework is the German company Genode Labs. The company offers commercial licensing, trainings, support, and contracted development work: :Genode Labs website: [https://www.genode-labs.com]