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863 lines
42 KiB
Plaintext
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===============================================
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Release notes for the Genode OS Framework 12.02
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===============================================
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Genode Labs
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The release of Genode 12.02 marks an exciting point in the history of the
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project as it is the first version developed in the open rather than within the
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chambers of Genode Labs. Thereby, we have embraced GitHub as central facility
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for discussion and source-code management. This change has benefits for users
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and developers of the framework alike. For users, it has become possible to get
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hold of the latest developments using the official 'genodelabs/master' branch and
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get involved with discussing the current activities. For regular Genode
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developers, the public Git repository replaces a former mix of public
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Subversion and company-internal Mercurial repositories, making life much
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easier. In Section [Liberation of the development process], we outline the
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motivation behind this change and give pointers to the new resources.
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The major new additions to the base system are a new framework API for accessing
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memory-mapped I/O resources, special support for using Genode as user-level
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component framework on Linux, and API support for the reuse of existing
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components in the form of sandboxed libraries. These changes are accompanied
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with new device-driver infrastructure such as the first version of a device
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driver manager and a new ACPI parser.
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Feature-wise, the current release takes the first steps towards the goal of the
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[http://genode.org/about/road-map - Roadmap for 2012], turning Genode into a
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general-purpose OS ready for everyday use by its developers. According to the
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roadmap, we enhanced the Noux runtime with fork semantics so that we can run
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command-line based GNU programs such as the bash shell and coreutils unmodified
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and natively on various microkernels. Furthermore, the library infrastructure
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has been enhanced by porting and updating libraries such as Qt 4.7.4 and the
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MuPDF PDF rendering engine.
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Liberation of the development process
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#####################################
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In summer 2011, we started a discussion within Genode Labs about changing the
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mode of how Genode is developed. Until then, most design discussions and the
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actual development work took place locally at the company. At quarterly
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intervals, we used to publish our work in the form of official Genode
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releases. This way of development seemed to work quite well for us, we were
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satisfied about the pace of development, and with each release, our project got
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more recognition.
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However, the excellent book [http://producingoss.com/ - Producing Open Source Software]
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made us realize that even though we released our work under an Open-Source
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license, our development process was actually far from being open and may have
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discouraged participation of people outside the inner circle of developers.
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Because we believe that the framework has reached a state where it becomes
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interesting for a wider audience of users and developers, the idea was born
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to liberate the project from its closed fashion of development.
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In the beginning of December, the vague idea has become a plan. So we finally
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brought the topic to our mailing list
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([http://genode.org/news/steps-towards-an-open-development-process - Steps towards an open development process]).
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We decided to take the release cycle for Genode 12.02 as the opportunity to put
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our plan to practice. The central element of this endeavour was moving the
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project over to GitHub and adapt our workflows and tooling support accordingly.
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First, we started to embrace GitHub's issue tracker for the management of
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working topics:
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:[http://github.com/genodelabs/genode/issues]: Issue Tracker
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The most significant step was leaving our Genode-Labs-internal code
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repositories behind and starting a completely public Git repository instead:
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:[https://github.com/genodelabs]: Genode Labs at GitHub
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With the code repository going public, the way was cleared to opening up design
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discussions as well. Instead of having such discussions internally at Genode
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Labs, we try to increasingly take them to our mailing list and issue tracker.
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With this new way of development, we hope to make the project much more
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approachable for people who want to get involved and let Genode reach far out
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beyond the reach of our little company.
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The changes mentioned above are actually just the tip of the iceberg. For
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example, the transition phase required us to rethink the way the project
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website is maintained. From now on, almost all of the content of genode.org
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comes directly from the project's Git repository. So maintaining website
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content is done in the same coherent and transparent way as working on Genode's
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code base. So we could finally put the old Wiki to rest. In the process, we
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largely revisited the existing content. For example, we rewrote the
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[http://genode.org/community/contributions - contributions] document in a
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tutorial-like style and incorporated several practical hints, in particular
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related to the recommended use of Git.
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Although it is probably too early to judge the outcome of our transition, we
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are excited how smooth this massive change went. We attribute this pleasant
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experience mostly to the excellent GitHub hosting platform, which instantly
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ignited a spirit of open collaboration among us. We are excited to see new
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people approaching us and showing their interest for teaming up, and we are
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curious about where this new model of development will take Genode in the
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future.
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Base framework, low-level OS infrastructure
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###########################################
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RPC framework refinements
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=========================
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Until now, the RPC framework did not support const RPC functions. Rather than
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being a limitation inherent to the concept, const RPC functions plainly did not
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exist. So supporting them was not deemed too important. However, there are uses
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of RPC interfaces that would benefit from a way to declare an RPC function as
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const. Candidates are functions like 'Framebuffer::Session::mode()' and
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'Input::Session::is_pending()'.
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With the current version, we clear the way towards declaring such functions as
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const. Even though the change is pretty straight-forward, the thorough support
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for const-qualified RPC functions would double the number of overloads for the
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'call_member' function template (in 'base/include/util/meta.h'). For this
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reason, as of now, the support of const functions is limited to typical getter
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functions with no arguments. This appears to be the most common use of such
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functions.
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API support for enslaving services
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==================================
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While evolving and using the framework, we always keep an eye on recurring
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patterns of how its API is used. Once such a pattern becomes obvious, we try
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to take a step back, generalize the observed pattern, and come up with a new
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building block that unifies the former repetitive code fragments.
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One of those patterns that was far from obvious when we designed Genode years
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ago is the use of a service running as child of its own client. At the first
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glance, this idea seems counter-intuitive because normally, services are
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understood as components that operate independently and protected from their
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(untrusted) clients. But there is a class of problems where this approach
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becomes extremely useful: The reuse of protocol implementations as a
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library-like building block. Most services are actually protocol stacks that
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translate a low-level protocol to a more abstract API. For example, a block
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device driver translates a specific device API to the generic 'Block_session'
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interface. Or the 'iso9660' service translates the 'Block_session' interface to
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the 'Rom_session' interface by parsing the ISO9660 file system. Or similarly,
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the 'tar_rom' service parses the tar file format to make its content available
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via the 'Rom_session' interface.
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If a particular functionality is needed by multiple programs, it is common
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practice to move this functionality into a dedicated library to avoid the
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duplication of the same code at many places. For example, if a program would
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need to parse a tar archive, it might be tempting to move the tar-parsing code
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from the 'tar_rom' service into a dedicated library, which can then be used by
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both the 'tar_rom' service and the new program. An alternative approach is to
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just re-use the 'tar_rom' service as a black box and treat it like it was a
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library. That is, start the 'tar_rom' service as a child process, supply the
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resources the component needs to operate and, in turn, use its API (now in the
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form of an RPC interface) to get work done. Because the service is started as a
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mere tool at the discretion of its client, we call it *slave*. It turns out
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that this idea works exceedingly well in many cases. In a way, it resembles the
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Unix philosophy to solve complex problems by combining many small tools each
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with a specific purpose. In contrast to the use of libraries, the reuse of
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entire components has benefits with regard to fault isolation. Because the
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reused functionality is sandboxed within a distinct process, the environment
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exposed to this code can be tailored to a rigid subset of the host program's
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environment. In the event of a fault within the reused component, the reach of
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problem is therefore limited.
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On the other hand, we observed that even though this idea works as intended,
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implementing the idea for a particular use case involved a good deal of
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boiler-plate code where most of this code is needed to define the slave's
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environment and resources. Hence, we reviewed the existing occurrences of the
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slave pattern and condensed their common concerns into the 'Slave_policy' and
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'Slave' classes residing in 'os/include/os/slave.h'. The 'Slave' class is meant
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to be used as is. It is merely a convenience wrapper for a child process and
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its basic resources. The 'Slave_policy' is meant as a hook for service-specific
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customizations. The best showcase is the new 'd3m' component located at
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'gems/src/server/d3m'. D3m extensively uses the slave pattern by instantiating
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and destroying drivers and file-system instances on-the-fly. A further instance
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of this pattern can be found in the new ACPI driver introduced with the current
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release.
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Support for resizable framebuffers
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==================================
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The framebuffer-session interface has remained largely untouched since the
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original release of Genode in 2008. Back then, we were used to rely on C-style
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out parameters in RPC functions. The current RPC framework, however, promotes
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the use of a more object-oriented style. So the time has come to revisit the
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framebuffer session interface. Instead of using C-style out parameters, the new
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'mode()' RPC call returns the mode information as an object of type 'Mode'.
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Consequently, mode-specific functions such as 'bytes_per_pixel()' have been
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moved to the new 'Framebuffer::Mode' class. The former 'info()' function is
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gone.
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In addition to the overhaul of the RPC interface, we introduced basic support
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for resizable framebuffers. The new 'mode_sigh()' function enables a client to
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register a signal handler at the framebuffer session. This signal handler gets
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notified in the event of server-side mode changes. Via the new 'release()'
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function, the client is able to acknowledge a mode change. By calling it, the
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client tells the framebuffer service that it no longer uses the original
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framebuffer dataspace. So the server can replace it by a new one. After having
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called 'release()', the client can obtain the dataspace for the new mode by
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calling 'dataspace()' again.
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MMIO access framework
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=====================
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As the arsenal of native device drivers for Genode grows, we are observing
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an increased demand to formalize the style of how drivers are written to
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foster code consistency. One particular cause of inconsistency used to be
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the way of how memory-mapped I/O registers are accessed. C++ has poor support
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for defining bit-accurate register layouts in memory. Therefore, driver code
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usually carries along a custom set of convenience functions for reading and
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writing registers of different widths as well as a list of bit definitions in
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the form of enum values or '#define' statements. To access parts of a register,
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the usual pattern is similar to the following example (taken from the pl011
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UART driver:
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! enum {
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! UARTCR = 0x030, /* control register */
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! UARTCR_UARTEN = 0x0001, /* enable bit in control register */
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! ...
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! }
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! ...
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!
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! /* enable UART */
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! _write_reg(UARTCR, _read_reg(UARTCR) | UARTCR_UARTEN);
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This example showcases two inconveniences: The way the register layout is
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expressed and the manual labour needed to access parts of registers. In the
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general case, a driver needs to also consider 'MASK' and 'SHIFT' values to
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implement access to partial registers properly. This is not just inconvenient
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but also error prone. For lazy programmers as ourselves, it's just too easy to
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overwrite "undefined" bits in a register instead of explicitly masking the
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access to the actually targeted bits. Consequently, the driver may work fine
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with the current generation of devices but break with the next generation.
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So the idea was born to introduce an easy-to-use formalism for this problem. We
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had two goals: First, we wanted to cleanly separate the declaration of register
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layouts from the program logic of the driver. The actual driver program should
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be free from any intrinsics in the form of bit-masking operations. Second, we
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wanted to promote uncluttered driver code that uses names (i.e., in the form of
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type names) rather than values to express its operations. The latter goal is
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actually achieved by the example above by the use of enum values, but this is
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only achieved through discipline. We would prefer to have an API that
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facilitates the use of proper names as the most convenient way to express an
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operation.
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The resulting MMIO API comes in the form of two new header files located at
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'base/include/util/register.h' and 'base/include/util/mmio.h'.
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Register declarations
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~~~~~~~~~~~~~~~~~~~~~
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The class templates found in 'util/register.h' provide a means to express
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register layouts using C++ types. In a way, these templates make up for
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C++'s missing facility to define accurate bitfields. Let's take a look at
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a simple example of the 'Register' class template that can be used to define
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a register as well as a bitfield within this register:
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! struct Vaporizer : Register<16>
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! {
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! struct Enable : Bitfield<2,1> { };
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! struct State : Bitfield<3,3> {
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! enum{ SOLID = 1, LIQUID = 2, GASSY = 3 };
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! };
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!
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! static void write (access_t value);
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! static access_t read ();
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! };
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In the example, 'Vaporizer' is a 16-bit register, which is expressed via the
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'Register' template argument. The 'Register' class template allows for
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accessing register content at a finer granularity than the whole register
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width. To give a specific part of the register a name, the 'Register::Bitfield'
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class template is used. It describes a bit region within the range of the
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compound register. The bit 2 corresponds to true if the device is enabled and
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bits 3 to 5 encode the 'State'. To access the actual register, the methods
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'read()' and 'write()' must be provided as backend, which performs the access
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of the whole register. Once defined, the 'Vaporizer' offers a handy way to
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access the individual parts of the register, for example:
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! /* read the whole register content */
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! Vaporizer::access_t r = Vaporizer::read();
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!
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! /* clear a bit field */
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! Vaporizer::Enable::clear(r);
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!
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! /* read a bit field value */
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! unsigned old_state = Vaporizer::State::get(r);
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!
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! /* assign new bit field value */
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! Vaporizer::State::set(r, Vaporizer::State::LIQUID);
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!
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! /* write whole register */
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! Vaporizer::write(r);
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Memory-mapped I/O
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~~~~~~~~~~~~~~~~~
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The utilities provided by 'util/mmio.h' use the 'Register' template class as
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a building block to provide easy-to-use access to memory-mapped I/O registers.
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The 'Mmio' class represents a memory-mapped I/O region taking its local base
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address as constructor argument. Let's take a simple example to see how it is
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supposed to be used:
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! class Timer : Mmio
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! {
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! struct Value : Register<0x0, 32> { };
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! struct Control : Register<0x4, 8> {
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! struct Enable : Bitfield<0,1> { };
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! struct Irq : Bitfield<3,1> { };
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! struct Method : Bitfield<1,2>
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! {
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! enum { ONCE = 1, RELOAD = 2, CYCLE = 3 };
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! };
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! };
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!
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! public:
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!
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! Timer(addr_t base) : Mmio(base) { }
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!
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! void enable();
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! void set_timeout(Value::access_t duration);
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! bool irq_raised();
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! };
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The memory-mapped timer device consists of two registers: The 32-bit 'Value'
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register and the 8-bit 'Control' register. They are located at the MMIO offsets
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0x0 and 0x4, respectively. Some parts of the 'Control' register have specific
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meanings as expressed by the 'Bitfield' definitions within the 'Control'
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struct.
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Using these declarations, accessing the individual bits becomes almost a
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verbatim description of how the device is used. For example:
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! void enable()
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! {
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! /* access an individual bitfield */
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! write<Control::Enable>(true);
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! }
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!
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! void set_timeout(Value::access_t duration)
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! {
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! /* write complete content of a register */
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! write<Value>(duration);
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!
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! /* write all bitfields as one transaction */
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! write<Control>(Control::Enable::bits(1) |
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! Control::Method::bits(Control::Method::ONCE) |
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! Control::Irq::bits(0));
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! }
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!
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! bool irq_raised()
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! {
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! return read<Control::Irq>();
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! }
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In addition to those basic facilities, further noteworthy features of the new
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API are the support for register arrays and the graceful overflow handling
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with respect to register and bitfield boundaries.
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C Runtime
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=========
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We extended our FreeBSD-based C runtime to accommodate the needs of the Noux
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runtime environment and our port of the MuPDF application.
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* The dummy implementation of '_ioctl()' has been removed. This function is
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called internally within the libc, i.e., by 'tcgetattr()'. For running
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libreadline in Noux, we need to hook into those ioctl operations via the
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libc plugin interface.
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* The 'libc/regex' and 'libc/compat' modules have been added to the libc.
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These libraries are needed by the forthcoming port of Slashem to Noux.
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* We added a default implementation of 'chdir()'. It relies on the sequence of
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'open()', 'fchdir()', 'close()'.
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* The new libc plugin 'libc_rom' enables the use of libc file I/O functions
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to access ROM files as provided by Genode ROM session.
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* We changed the libc dummy implementations to always return ENOSYS. Prior
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this change, 'errno' used to remain untouched by those functions causing
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indeterministic behaviour of code that calls those functions, observes the
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error return value (as returned by most dummies), and evaluates the error
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condition reported by errno.
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* If using the libc for Noux programs, the default implementations of
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time-related functions such as 'gettimeofday()' cannot be used because they
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rely on a dedicated timeout-scheduler thread. Noux programs, however, are
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expected to contain only the main thread. By turning the functions into weak
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symbols, we enabled the noux libc-plugin to provide custom implementations.
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DDE Kit
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=======
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Linux DDE used to implement Linux spin locks based on 'dde_kit_lock'. This
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works fine if a spin lock is initialized only once and used from then on. But
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if spin locks are initialized on-the-fly at a high rate, each initialization
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causes the allocation of a new 'dde_kit_lock'. Because in contrast to normal
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locks, spinlocks cannot be explicitly destroyed, the spin-lock emulating locks
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are never freed. To solve the leakage of locks, we complemented DDE Kit with
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the new 'os/include/dde_kit/spin_lock.h' API providing the semantics as
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expected by Linux drivers.
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Libraries and applications
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##########################
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New and updated libraries
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=========================
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:Qt4 updated to version 4.7.4:
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We updated Qt4 from version 4.7.1 to version 4.7.4. For the most part, the
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update contains bug fixes as detailed in the release notes for the versions
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[http://qt.nokia.com/products/changes/changes-4.7.2 - 4.7.2],
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[http://qt.nokia.com/products/changes/changes-4.7.3 - 4.7.3], and
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[http://labs.qt.nokia.com/2011/09/01/qt-4-7-4-released - 4.7.4].
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:Update of zlib to version 1.2.6:
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Because zlib 1.2.5 is no more available at zlib.net, we bumped the zlib
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version to 1.2.6.
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:New ports of openjpeg, jbig2dec, and mupdf:
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MuPDF is a fast and versatile PDF rendering library with only a few
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dependencies. It depends on openjpeg (JPEG2000 codec) and jbig2dec (b/w image
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compression library). With the current version, we integrated those libraries
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alongside the MuPDF library to the 'libports' repository.
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GDB monitor refinements and automated test
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==========================================
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We improved the support for GDB-based user-level debugging as introduced with
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the previous release.
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For the x86 architecture, we fixed a corner-case problem with using the
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two-byte 'INT 0' instruction for breakpoints. The fix changes the breakpoint
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instruction to the single-byte 'HLT'. 'HLT' is a privileged instruction and
|
|
triggers an exception when executed in user mode.
|
|
|
|
The new 'gdb_monitor_interactive.run' script extends the original
|
|
'gdb_monitor.run' script with a startup sequence that automates the
|
|
initial break-in at the 'main()' function of a dynamically linked binary.
|
|
|
|
The revised 'gdb_monitor.run' script has been improved to become a full
|
|
automated test case for GDB functionalities. It exercises the following
|
|
features (currently on Fiasco.OC only):
|
|
* Breakpoint in 'main()'
|
|
* Breakpoint in a shared-library function
|
|
* Stack trace when not in a syscall
|
|
* Thread info
|
|
* Single stepping
|
|
* Handling of segmentation-fault exception
|
|
* Stack trace when in a syscall
|
|
|
|
|
|
PDF viewer
|
|
==========
|
|
|
|
According to our road map for 2012, we pursued the port of an existing PDF
|
|
viewer as native application to Genode.
|
|
|
|
We first looked at the [http://poppler.freedesktop.org - libpoppler],
|
|
which seems to be the most popular PDF rendering engine in the world of
|
|
freedesktop.org. To get a grasp on what the porting effort of this engine may
|
|
be, we looked at projects using this library as well as the library source
|
|
code. By examining applications such as the light-weight epdfview
|
|
application, we observed that libpoppler's primary design goal is to integrate
|
|
well with existing freedesktop.org infrastructure rather than to reimplement
|
|
functionality that is provided by another library. For example, fontconfig is
|
|
used to obtain font information and Cairo is used as rendering backend. In the
|
|
context of freedesktop.org, this makes perfect sense. But in our context,
|
|
porting libpoppler would require us to port all this infrastructure to Genode
|
|
as well. To illustrate the order of magnitude of the effort needed, epdfview
|
|
depends on 65 shared libraries. Of course, at some point in the future, we will
|
|
be faced to carry out this porting work. But for the immediate goal to have a
|
|
PDF rendering engine available on Genode, it seems overly involved. Another
|
|
criterion to evaluate the feasibility of integrating libpoppler with Genode is
|
|
its API. By glancing at the API, it seems to be extremely feature rich and
|
|
complex - certainly not a thing to conquer in one evening with a glass of wine.
|
|
The Qt4 backend of the library comprises circa 8000 lines of code. This value
|
|
can be taken as a vague hint at the amount of work needed to create a custom
|
|
backend, i.e., for Genode's framebuffer-session interface.
|
|
|
|
Fortunately for us, there exists an alternative PDF rendering engine named
|
|
MuPDF. The concept of MuPDF is quite the opposite of that of libpoppler.
|
|
MuPDF tries to be as self-sufficient as possible in order to be suitable
|
|
for embedded systems without comprehensive OS infrastructure. It comes with a
|
|
custom vector-graphics library (instead of using an existing library such as
|
|
Cairo) and it even has statically linked-in all font information needed to
|
|
display PDF files that come with no embedded fonts. That said, it does not
|
|
try to reinvent the wheel in every regard. For example, it relies on
|
|
common libraries such as zlib, libpng, jpeg, freetype, and openjpeg. Most
|
|
of them are already available on Genode. And the remaining libraries are rather
|
|
free-standing and easy to port. To illustrate the low degree of dependencies,
|
|
the MuPDF application on GNU/Linux depends on only 15 shared libraries. The
|
|
best thing about MuPDF from our perspective however, is its lean and clean API,
|
|
and the wonderfully simple example application. Thanks to this example, it was
|
|
a breeze to integrate the MuPDF engine with Genode's native framebuffer-session
|
|
and input-session interfaces. The effort needed for this integration work lies
|
|
in the order of less than 300 lines of code.
|
|
|
|
At the current stage, the MuPDF rendering engine successfully runs on Genode
|
|
in the form of a simple interactive test program, which can be started
|
|
via the 'libports/run/mupdf' run script. The program supports the basic key
|
|
handling required to browse through a multi-page PDF document
|
|
(page-up or enter -> next page, page-down or backspace -> previous page).
|
|
|
|
|
|
Improved terminal performance
|
|
=============================
|
|
|
|
The terminal component used to make all intermediate states visible to the
|
|
framebuffer in a fully synchronous fashion. This is an unfortunate behaviour
|
|
when scrolling through large text outputs. By decoupling the conversion of the
|
|
terminal state to pixels from the 'Terminal::write()' RPC function,
|
|
intermediate terminal states produced by sub sequential write operations do not
|
|
end up on screen one by one but only the final state becomes visible. This
|
|
improvement drastically improves the speed in situations with a lot of
|
|
intermediate states.
|
|
|
|
|
|
Noux support for fork semantics
|
|
===============================
|
|
|
|
Genode proclaims to be a framework out of which operating systems can be built.
|
|
There is no better way of putting this claim to the test than to use the
|
|
framework for building a Unix-like OS. This is the role of the Noux runtime
|
|
environment.
|
|
|
|
During the past releases, Noux evolved into a runtime environment that is able
|
|
to execute complex command-line-based GNU software such as VIM with no
|
|
modification. However, we cannot talk of Unix without talking about its
|
|
fundamental concept embodied in the form of the 'fork()' system call. We did
|
|
not entirely dismiss the idea of implementing 'fork()' into Noux but up to now,
|
|
it was something that we willingly overlooked. However, the primary goal of
|
|
Noux is to run the GNU userland natively on Genode. This includes a good deal
|
|
of programs that rely on fork semantics. We could either try to change all the
|
|
programs to use a Genode-specific way of starting programs or bite in the
|
|
bullet and implement fork. With the current release, we did the latter.
|
|
|
|
The biggest challenge of implementing fork was to find a solution that is not
|
|
tied to one kernel but one that works across all the different base platforms.
|
|
The principle problem of starting a new process in a platform-independent
|
|
manner is already solved by Genode in the form of the 'Process' API. But this
|
|
startup procedure is entirely different from the semantics of fork. The key to
|
|
the solution was Genode's natural ability to virtualize the access to low-level
|
|
platform resources. To implement fork semantics, all Noux has to do is to
|
|
provide local implementations of core's RAM, RM, and CPU session interfaces.
|
|
|
|
The custom implementation of the CPU session interface is used to tweak the
|
|
startup procedure as performed by the 'Process' class. Normally, processes
|
|
start execution immediately at creation time at the ELF entry point. For
|
|
implementing fork semantics, however, this default behavior does not work.
|
|
Instead, we need to defer the start of the main thread until we have finished
|
|
copying the address space of the forking process. Furthermore, we need to start
|
|
the main thread at a custom trampoline function rather than at the ELF entry
|
|
point. Those customizations are possible by wrapping core's CPU service.
|
|
|
|
The custom implementation of the RAM session interface provides a pool of RAM
|
|
shared by Noux and all Noux processes. The use of a shared pool alleviates the
|
|
need to assign RAM quota to individual Noux processes. Furthermore, the custom
|
|
implementation is needed to get hold of the RAM dataspaces allocated by each
|
|
Noux process. When forking a process, the acquired information is used to
|
|
create a shadow copy of the forking address space.
|
|
|
|
Finally, a custom RM service implementation is used for recording all RM
|
|
regions attached to the region-manager session of a Noux process. Using the
|
|
recorded information, the address-space layout can then be replayed onto a new
|
|
process created via fork.
|
|
|
|
With the virtualized platform resources in place, the only puzzle piece that
|
|
is missing is the bootstrapping of the new process. When its main thread is
|
|
started, it has an identical address-space content as the forking process but
|
|
it has to talk to a different parent entrypoint and a different Noux session.
|
|
The procedure of re-establishing the relationship of the new process to its
|
|
parent is achieved via a small trampoline function that re-initializes the
|
|
process environment and then branches to the original forking point via
|
|
setjmp/longjmp. This mechanism is implemented in the libc_noux plugin.
|
|
|
|
As the immediate result of this work, a simple fork test can be executed across
|
|
all base platforms except for Linux (Linux is not supported yet). The test
|
|
program is located at 'ports/src/test/noux_fork' and can be started with the
|
|
'ports/run/noux_fork.run' script.
|
|
|
|
Furthermore, as a slightly more exciting example, there is a run script for
|
|
running a bash shell on a tar file system that contains coreutils. By starting
|
|
the 'ports/run/noux_bash.run' script, you get presented an interactive bash
|
|
shell. The shell is displayed via the terminal service and accepts user input.
|
|
It allows you to start one of the coreutils programs such as ls or cat. Please
|
|
note that the current state is still largely untested, incomplete, and flaky.
|
|
But considering that Noux is comprised of less than 2500 lines of code, we are
|
|
quite surprised of how far one can get with such little effort.
|
|
|
|
|
|
Device drivers
|
|
##############
|
|
|
|
Driver improvements to accommodate dynamic (re-)loading
|
|
=======================================================
|
|
|
|
To support the dynamic probing of devices as performed by the new d3m
|
|
component, the ATAPI and USB device drivers have been enhanced to support the
|
|
subsequent closing and re-opening of sessions.
|
|
|
|
|
|
First bits of the d3m device-driver manager
|
|
===========================================
|
|
|
|
The abbreviation d3m stands for demo device-driver manager. It is our current
|
|
solution for the automated loading of suitable drivers as needed for running
|
|
Genode from a Live CD or USB stick. Because of the current narrow focus of d3m,
|
|
it is not a generic driver-management solution but a first step in this
|
|
direction. We hope that in the long run, d3m will evolve to become a generic
|
|
driver-management facility so that we can remove one of the "D"s from its name.
|
|
In the current form d3m solves the problems of merging input-event streams,
|
|
selecting the boot device, and dealing with failing network drivers.
|
|
|
|
When using the live CD, we expect user input to come from USB HID devices or
|
|
from a PS/2 mouse and keyboard. The live system should be operational if at
|
|
least one of those sources of input is available. In the presence of multiple
|
|
sources, we want to accumulate the events of all of them.
|
|
|
|
The live CD should come in the form of a single ISO image that can be burned onto a CDROM or
|
|
alternatively copied to an USB stick. The live system should boot fine in both
|
|
cases. The first boot stage is accommodated by syslinux and the GRUB boot
|
|
loader using BIOS functions. But once Genode takes over control, it needs to
|
|
figure out on its own from where to fetch data. A priori, there is no way to
|
|
guess whether the ATAPI driver or the USB storage driver should be used.
|
|
|
|
[image d3m_what_next]
|
|
|
|
Therefore, d3m implements a probing mechanism that starts each of the drivers,
|
|
probes for the presence of a particular file on an iso9660 file system.
|
|
|
|
[image d3m_probing]
|
|
|
|
Once d3m observes a drivers that is able to successfully access the magic file,
|
|
it keeps the driver and announces the driver's service to its own parent. For
|
|
the system outside of d3m, the probing procedure is completely transparent. D3m
|
|
appears to be just a service that always provides the valid block session for
|
|
the boot medium.
|
|
|
|
[image d3m_ready]
|
|
|
|
The network device drivers that we ported from the iPXE project cover the
|
|
range of most common wired network adaptors, in particular the E1000 family.
|
|
But we cannot presume that a computer running the live system comes equipped
|
|
with one of the supported devices. If no supported network card could be
|
|
detected the driver would simply fail. Applications requesting a NIC session
|
|
would block until a NIC service becomes available, which won't happen. To
|
|
prevent this situation, d3m wraps the NIC driver and provides a dummy NIC
|
|
service in the event the drivers fails. This way, the client application won't
|
|
block infinitely but receive an error on the first attempt to use the NIC.
|
|
|
|
|
|
ACPI support
|
|
============
|
|
|
|
To accommodate kernels like Fiasco.OC or NOVA that take advantage of x86's
|
|
APIC, we have introduced a simple ACPI parser located at 'os/src/drivers/acpi'.
|
|
The server traverses the ACPI tables and sets the interrupt line of devices
|
|
within the PCI config space to the GSIs found in the ACPI tables. Internally it
|
|
uses Genode's existing PCI driver as a child process for performing PCI access
|
|
and, in turn, announces a PCI service itself.
|
|
|
|
For obtaining the IRQ routing information from the ACPI tables without
|
|
employing a full-blown ACPI interpreter, the ACPI driver uses an ingenious
|
|
technique invented by Bernhard Kauer, which is described in the following
|
|
paper:
|
|
|
|
:[http://os.inf.tu-dresden.de/papers_ps/tr-atare-2009.pdf - ATARE - ACPI Tables and Regular Expressions]:
|
|
_TU Dresden technical report TUD-FI09-09, Dresden, Germany, August 2009_
|
|
|
|
:Usage:
|
|
|
|
Start the 'acpi_drv' in your Genode environment. Do not start the 'pci_drv'
|
|
since this will be used as a slave of the 'acpi_drv'. You still must load the
|
|
'pci_drv' in your boot loader. To integrate the ACPI driver into your boot
|
|
configuration, you may take the following snippet as reference:
|
|
|
|
!<start name="acpi">
|
|
! <resource name="RAM" quantum="2M"/>
|
|
! <binary name="acpi_drv"/>
|
|
! <provides><service name="PCI"/></provides>
|
|
! <route>
|
|
! <service name="ROM"> <parent/> </service>
|
|
! <any-service> <any-child/> <parent/> </any-service>
|
|
! </route>
|
|
!</start>
|
|
|
|
:Limitations and known issues:
|
|
|
|
Currently there is no interface to set the interrupt mode for core's IRQ
|
|
sessions (e.g., level or edge triggered). This is required by Fiasco.OCs kernel
|
|
interface. We regard this as future work.
|
|
|
|
|
|
Platform support
|
|
################
|
|
|
|
Fiasco.OC microkernel
|
|
=====================
|
|
|
|
The support for the Fiasco.OC base platform is still lacking proper handling
|
|
for releasing resources such as kernel capabilities. Although this is a known
|
|
issue, we underestimated the reach of the problem when Genode's signal API is
|
|
used. Each emitted signal happens to consume one kernel capability within core,
|
|
ultimately leading to a resource outage when executing signal-intensive code
|
|
such as the packet-stream interface. The current release comes with an interim
|
|
solution. To remedy the acute problem, we extended the 'Capability_allocator'
|
|
class with the ability to register the global ID of a Genode capability so
|
|
that the ID gets associated with a process-local kernel capability. Whenever
|
|
a Genode capability gets unmarshalled from an IPC message, the
|
|
capability-allocator is asked, with the global ID as key, whether the
|
|
kernel-cap already exists. This significantly reduces the waste of
|
|
kernel-capability slots.
|
|
|
|
To circumvent problems of having one and the same ID for different kernel
|
|
objects, the following problems had to be solved:
|
|
|
|
* Replace pseudo IDs with unique ones from core's badge allocator
|
|
* When freeing a session object, free the global ID _after_ unmapping
|
|
the kernel object, otherwise the global ID might get re-used in some
|
|
process and the registry will find a valid but wrong capability
|
|
for the ID
|
|
|
|
Because core aggregates all capabilities of all different processes, its
|
|
capability registry needs much more memory compared to a regular process.
|
|
By parametrizing capability allocators differently for core and non-core
|
|
processes, the global memory overhead for capability registries is kept
|
|
at a reasonable level.
|
|
|
|
Please note that this solution is meant as an interim fix until we have
|
|
resolved the root of the problem, which is the proper tracking and releasing
|
|
of capability selectors.
|
|
|
|
|
|
Linux
|
|
=====
|
|
|
|
Linux is one of the two original base platforms of Genode. The original
|
|
intension behind supporting Linux besides a microkernel was to facilitate
|
|
portability of the API design and to have a convenient testing environment for
|
|
platform-independent code. Running Genode in the form of a bunch of plain Linux
|
|
processes has become an invaluable feature for our fast-paced development.
|
|
|
|
To our delight, we lately discovered that the use of running Genode on Linux
|
|
can actually go far beyond this original incentive. Apparently, on Linux, the
|
|
framework represents an equally powerful component framework as on the other
|
|
platforms. Hence, Genode has the potential to become an attractive option for
|
|
creating complex component-based user-level software on Linux.
|
|
|
|
For this intended use, however, the framework has to fulfill the following
|
|
additional requirements:
|
|
|
|
* Developers on Linux expect that their components integrate seamlessly with
|
|
their existing library infrastructure including all shared libraries
|
|
installed on Linux.
|
|
|
|
* The use of a custom tool chain is hard to justify to developers who regard
|
|
Genode merely as an application framework. Hence, a way to use the normal
|
|
tool chain as installed on the Linux host system is desired.
|
|
|
|
* Application developers are accustomed with using GDB for debugging and expect
|
|
that GDB can be attached to an arbitrary Genode program in an intuitive way.
|
|
|
|
Genode's original support for Linux as base platform did not meet those
|
|
expectations. Because Genode's libc would ultimately collide with the Linux
|
|
glibc, Genode is built with no glibc dependency at all. It talks to the kernel
|
|
directly using custom kernel bindings. In particular, Genode threads are created
|
|
directly via the 'clone()' system call and thread-local storage (TLS) is managed
|
|
in the same way as for the other base platforms. This has two implications.
|
|
First, because Genode's TLS mechanism is different than the Linux TLS
|
|
mechanism, Genode cannot be built with the normal host tool chain. This
|
|
compiler would generate code that would simply break on the first attempt to
|
|
use TLS. We solved this problem with our custom tool chain, which is configured
|
|
for Genode's needs. The second implication is that GDB is not able to handle
|
|
threads created differently than those created via the pthread library. Even
|
|
though GDB can be attached to each thread individually, the debugger would not
|
|
correctly handle a multi-threaded Genode process as a multi-threaded Linux
|
|
program. With regard to the use of Linux shared libraries, Genode used to
|
|
support a few special programs that used both the Genode API and Linux
|
|
libraries. Those programs (called hybrid Linux/Genode programs) were typically
|
|
pseudo device drivers that translate a Linux API to a Genode service. For
|
|
example, there exists a framebuffer service that uses libSDL as back end.
|
|
Because those programs were a rarity, the support by the build system for such
|
|
hybrid targets was rather poor.
|
|
|
|
Fortunately, all the problems outlined above could be remedied pretty easily.
|
|
It turns out that our custom libc is simply not relevant when Genode is
|
|
used as plain application framework on Linux. For this intended use, we always
|
|
want to use the host's normal libc. This way, the sole reason for using plain
|
|
system calls instead of the pthread library vanishes, which, in turn,
|
|
alleviates the need for a custom tool chain. Genode threads are then simply
|
|
pthreads compatible with the TLS code as emitted by the host compiler and
|
|
perfectly recognised by GDB. With the surprisingly little effort of creating a
|
|
new implementation of Genode's thread API to target pthreads instead of using
|
|
syscalls, we managed to provide a decent level of support for using Genode as
|
|
user-level component framework on Linux.
|
|
|
|
These technical changes alone, however, are not sufficient to make Genode
|
|
practical for real-world use. As stated above, the few hybrid Linux/Genode
|
|
programs used to be regarded as some leprous artifacts. When using Genode as
|
|
Linux application framework, however, this kind of programs are becoming the
|
|
norm rather than an exception. For this reason, we introduced new support for
|
|
such hybrid programs into the build system. By listing the 'lx_hybrid'
|
|
library in the 'LIBS' declaration of a target, this target magically becomes a
|
|
hybrid Linux/Genode program. It gets linked to the glibc and uses pthreads
|
|
instead of direct syscalls. Furthermore, host libraries can be linked to the
|
|
program by stating their respective names in the 'LX_LIBS' variable. For an
|
|
example, please refer to the libSDL-based framebuffer at
|
|
'os/src/drivers/framebuffer/sdl/target.mk'.
|
|
|
|
To enforce the build of all targets as hybrid Linux/Genode programs, the build
|
|
system features the 'alyways_hybrid' 'SPEC' value. To make it easy to create a
|
|
build directory with all targets forced to be hybrid, we have added the new
|
|
'lx_hybrid_x86' platform to the 'create_builddir' tool.
|
|
|
|
|
|
OKL4
|
|
====
|
|
|
|
:Sending an invalid-opcode exception IPC on OKL4:
|
|
|
|
When an invalid opcode gets executed, OKL4 switches to the kernel debugger
|
|
console instead of sending an exception IPC to the userland. We fixed this
|
|
problem by removing the code that invokes the debugger console from the kernel.
|
|
|
|
:Hard-wire OKL4 elfweaver to Python 2:
|
|
|
|
Recent Linux distributions use Python version 3 by default. But OKL4's
|
|
elfweaver is not compatible with this version of Python. For this reason, we
|
|
introduced a patch for pinning the Python version used by elfweaver to
|
|
version 2.
|
|
|
|
Both patches get automatically applied when preparing the 'base-okl4'
|
|
repository via 'make prepare'.
|
|
|
|
|
|
Build system and tools
|
|
######################
|
|
|
|
:Facility for explicitly building all libraries:
|
|
|
|
During its normal operation, the build system creates libraries as mere side
|
|
effects of building targets. There is no way to explicitly trigger the build of
|
|
libraries only. However, in some circumstances (for example for testing the
|
|
thorough build of all libraries), a mechanism for explicitly building libraries
|
|
would be convenient. Hence we introduced this feature in the form of the pseudo
|
|
target located at 'base/src/lib/target.mk'. By issuing 'make lib' in a build
|
|
directory, this target triggers the build of all libraries available for the
|
|
given platform.
|