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70d0b00dde
r3 contains the recent Nova upstream kernel version plus the Genode specific extensions and changes as known from r2. Additionally, the r3 branch * contains the assign_pci patch now directly, * adds support for cross CPU IPC, * fixes some issues with freeing up kernel memory part of r2 and * update the documentation a bit. Fixes #814
236 lines
11 KiB
Plaintext
236 lines
11 KiB
Plaintext
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==========================================
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How to use Genode with the NOVA hypervisor
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==========================================
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Norman Feske
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When we started the development of Genode in 2006 at the OS Group of the TU
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Dresden, it was originally designated to be the user land of a next-generation
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and to-be-developed new kernel called NOVA. Because the kernel was not ready at
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that time, we had to rely on intermediate solutions as kernel platform such as
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L4/Fiasco and Linux during development. These circumstances led us to the
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extremely portable design that Genode has today and motivated us to make Genode
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available on the whole family of L4 microkernels. In December 2009, the day we
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waited for a long time had come. The first version of NOVA was publicly
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released:
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:Official website of the NOVA hypervisor:
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[http://hypervisor.org]
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Besides the novel and modern kernel interface, NOVA has a list of features that
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sets it apart from most other microkernels, in particular support for
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virtualization hardware, multi-processor support, and capability-based
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security.
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Why bringing Genode to NOVA?
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############################
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NOVA is an acronym for NOVA OS Virtualization Architecture. It stands for a
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radically new approach of combining full x86 virtualization with microkernel
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design principles. Because NOVA is a microkernelized hypervisor, the term
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microhypervisor was coined. In its current form, it successfully addresses
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three main challenges. First, how to consolidate a microkernel system-call API
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with a hypercall API in such a way that the API remains orthogonal? The answer
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to this question lies in NOVA's unique IPC interface. Second, how to implement
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a virtual machine monitor outside the hypervisor without spoiling
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performance? The Vancouver virtual machine monitor that runs on top NOVA proves
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that a decomposition at this system level is not only feasible but can yield
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high performance. Third, being a modern microkernel, NOVA set out to pursue a
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capability-based security model, which is a challenge on its own.
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Up to now, the NOVA developers were most concerned about optimizing and
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evaluating NOVA for the execution of virtual machines, not so much about
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running a fine-grained decomposed multi-server operating system. This is where
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Genode comes into play. With our port of Genode to NOVA, we contribute the
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workload to evaluate NOVA's kernel API against this use case. We are happy to
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report that the results so far are overly positive.
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At this point, we want to thank the main developers of NOVA Udo Steinberg and
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Bernhard Kauer for making their exceptional work and documentation publicly
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available, and for being so responsive to our questions. We also greatly
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enjoyed the technical discussions we had and look forward to the future
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evolution of NOVA.
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How to explore Genode on NOVA?
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##############################
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To download the NOVA kernel and integrate it with Genode, issue the following
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command from within the 'base-nova' directory:
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! make prepare
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For the vesa driver on x86 the x86emu library is required and can be downloaded
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and prepared by invoking the following command from within the 'libports'
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directory:
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! make prepare PKG=x86emu
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For creating a preconfigured build directory prepared for compiling Genode for
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NOVA, use the 'create_builddir' tool:
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! <genode-dir>/tool/create_builddir nova_x86_32 BUILD_DIR=<build-dir>
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This tool will create a fresh build directory at the location specified
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as 'BUILD_DIR'. Provided that you have installed the
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[http://genode.org/download/tool-chain - Genode tool chain], you can now build
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the NOVA kernel via
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! make kernel
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For test driving Genode on NOVA directly from the build directory, you can use
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Genode's run mechanism. For example, the following command builds and executes
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Genode's graphical demo scenario on Qemu:
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! make run/demo
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Challenges
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##########
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From all currently supported base platforms of Genode, the port to NOVA was
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the most venturesome effort. It is the first platform with kernel support for
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capabilities and local names. That means no process except the kernel has
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global knowledge. This raises a number of questions that seem extremely hard
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to solve at the first sight. For example: There are no global IDs for threads
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and other kernel objects. So how to address the destination for an IPC message?
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Or another example: A thread does not know its own identity per se and there is
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no system call similar to 'getpid' or 'l4_myself', not even a way to get a
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pointer to a thread's own user-level thread-control block (UTCB). The UTCB,
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however, is needed to invoke system calls. So how can a thread obtain its UTCB
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in order to use system calls? The answers to these questions must be provided by
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user-level concepts. Fortunately, Genode was designed for a capability kernel
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right from the beginning so that we already had solutions to most of these
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questions. In the following, we give a brief summary of the specifics of Genode
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on NOVA:
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* We maintain our own system-call bindings for NOVA ('base-nova/include/nova/')
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derived from the NOVA specification. We put the bindings under MIT license
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to encourage their use outside of Genode.
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* Core runs directly as roottask on the NOVA hypervisor. On startup, core
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maps the complete I/O port range to itself and implements debug output via
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comport 0.
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* Because NOVA does not allow rootask to have a BSS segment, we need a slightly
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modified linker script for core (see 'src/platform/roottask.ld').
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All other Genode programs use Genode's generic linker script.
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* The Genode 'Capability' type consists of a portal selector expressing the
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destination of a capability invocation.
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* Thread-local data such as the UTCB pointer is provided by the new thread
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context management introduced with the Genode release 10.02. It enables
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each thread to determine its thread-local data using the current stack
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pointer.
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* NOVA provides threads without time called local execution contexts (EC).
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Local ECs are used as server-side RPC handlers. The processing time
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needed to perform RPC requests is provided by the client during the RPC call.
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This way, RPC semantics becomes very similar to function call semantics with
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regard to the accounting of CPU time. Genode already distinguishes normal
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threads (with CPU time) and server-side RPC handlers ('Server_activation')
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and, therefore, can fully utilize this elegant mechanism without changing the
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Genode API.
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* On NOVA, there are no IPC send or IPC receive operations. Hence, this part
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of Genode's IPC framework cannot be implemented on NOVA. However, the
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corresponding classes 'Ipc_istream' and 'Ipc_ostream' are never used directly
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but only as building blocks for the actually used 'Ipc_client' and
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'Ipc_server' classes. Compared with the other Genode base platforms, Genode's
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API for synchronous IPC communication maps more directly onto the NOVA
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system-call interface.
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* The Lock implementation utilizes NOVA's semaphore as a utility to let a
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thread block in the attempt to get a contended lock. In contrast to the
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intuitive way of using one kernel semaphore for each user lock, we use only
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one kernel semaphore per thread and the peer-to-peer wake-up mechanism we
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introduced in the release 9.08. This has two advantages: First, a lock does
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not consume a kernel resource, and second, the full semantics of the Genode
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lock including the 'cancel-blocking' semantics are preserved.
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* NOVA does not support server-side out-of-order processing of RPC requests.
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This is particularly problematic in three cases: Page-fault handling, signal
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delivery, and the timer service.
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A page-fault handler can receive a page fault request only if the previous
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page fault has been answered. However, if there is no answer for a
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page-fault, the page-fault handler has to decide whether to reply with a
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dummy answer (in this case, the faulter will immediately raise the same page
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fault again) or block until the page-fault can be resolved. But in the latter
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case, the page-fault handler cannot handle any other page faults. This is
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unfeasible if there is only one page-fault handler in the system. Therefore,
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we instantiate one pager per user thread. This way, we can block and unblock
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individual threads when faulting.
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Another classical use case for out-of-order RPC processing is signal
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delivery. Each process has a signal-receiver thread that blocks at core's
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signal service using an RPC call. This way, core can selectively deliver
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signals by replying to one of these in-flight RPCs with a zero-timeout
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response (preserving the fire-and-forget signal semantics). On NOVA however,
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a server cannot have multiple RPCs in flight. Hence, we use a NOVA semaphore
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shared between core and the signal-receiver thread to wakeup the
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signal-receiver on the occurrence of a signal. Because a semaphore-up
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operation does not carry payload, the signal has to perform a non-blocking
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RPC call to core to pick up the details about the signal. Thanks to Genode's
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RPC framework, the use of the NOVA semaphore is hidden in NOVA-specific stub
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code for the signal interface and remains completely transparent at API
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level.
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* Because NOVA provides no time source, we use the x86 PIT as user-level time
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source, similar as on OKL4.
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* On the current version of NOVA, kernel capabilities are delegated using IPC.
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Genode supports this scheme by being able to marshal 'Capability' objects as
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RPC message payload. In contrast to all other Genode base platforms where
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the 'Capability' object is just plain data, the NOVA version must marshal
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'Capability' objects such that the kernel translates the sender-local name to
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the receiver-local name. This special treatment is achieved by overloading
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the marshalling and unmarshalling operators of Genode's RPC framework. The
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transfer of capabilities is completely transparent at API level and no
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modification of existing RPC stub code was needed.
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Manually booting Genode on NOVA
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###############################
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NOVA supports multi-boot-compliant boot loaders such as GRUB, Pulsar, or gPXE.
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For example, a GRUB configuration entry for booting the Genode demo scenario
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with NOVA looks as follows, whereas 'genode/' is a symbolic link to the
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'var/run/demo/genode' directory created by invoking the 'demo' run script.
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! title Genode demo scenario
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! kernel /hypervisor iommu serial
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! module /genode/core
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! module /genode/config
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! module /genode/init
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! module /genode/timer
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! module /genode/nitpicker
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! module /genode/liquid_fb
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! module /genode/launchpad
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! module /genode/scout
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! module /genode/testnit
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! module /genode/nitlog
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! module /genode/pci_drv
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! module /genode/ps2_drv
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! module /genode/fb_drv
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Limitations
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###########
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The current NOVA version of Genode is able to run the complete Genode demo
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scenario including several device drivers (PIT, PS/2, VESA, PCI) and the GUI.
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Still the NOVA support is not on par with some of the other platforms.
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The current limitations are:
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* Threads (ECs) can not be migrated to another CPU once started.
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* For portals used as exception vectors for threads, the thread causing the
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exception and the handler thread which is bound to the exception portal must
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be on the same CPU.
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* Priorities for Genode threads are not supported.
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