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ce508a3c29
It can be tricky to troubleshoot qos-test when a test won't execute. Add an explanation of how to trace qgraph node connectivity and find which node has the problem. Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Message-Id: <20210412143437.727560-3-stefanha@redhat.com> Acked-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Thomas Huth <thuth@redhat.com>
627 lines
22 KiB
ReStructuredText
627 lines
22 KiB
ReStructuredText
.. _qgraph:
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========================================
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Qtest Driver Framework
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========================================
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In order to test a specific driver, plain libqos tests need to
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take care of booting QEMU with the right machine and devices.
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This makes each test "hardcoded" for a specific configuration, reducing
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the possible coverage that it can reach.
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For example, the sdhci device is supported on both x86_64 and ARM boards,
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therefore a generic sdhci test should test all machines and drivers that
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support that device.
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Using only libqos APIs, the test has to manually take care of
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covering all the setups, and build the correct command line.
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This also introduces backward compability issues: if a device/driver command
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line name is changed, all tests that use that will not work
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properly anymore and need to be adjusted.
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The aim of qgraph is to create a graph of drivers, machines and tests such that
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a test aimed to a certain driver does not have to care of
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booting the right QEMU machine, pick the right device, build the command line
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and so on. Instead, it only defines what type of device it is testing
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(interface in qgraph terms) and the framework takes care of
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covering all supported types of devices and machine architectures.
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Following the above example, an interface would be ``sdhci``,
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so the sdhci-test should only care of linking its qgraph node with
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that interface. In this way, if the command line of a sdhci driver
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is changed, only the respective qgraph driver node has to be adjusted.
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The graph is composed by nodes that represent machines, drivers, tests
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and edges that define the relationships between them (``CONSUMES``, ``PRODUCES``, and
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``CONTAINS``).
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Nodes
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^^^^^^
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A node can be of four types:
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- **QNODE_MACHINE**: for example ``arm/raspi2``
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- **QNODE_DRIVER**: for example ``generic-sdhci``
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- **QNODE_INTERFACE**: for example ``sdhci`` (interface for all ``-sdhci``
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drivers).
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An interface is not explicitly created, it will be automatically
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instantiated when a node consumes or produces it.
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An interface is simply a struct that abstracts the various drivers
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for the same type of device, and offers an API to the nodes that
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use it ("consume" relation in qgraph terms) that is implemented/backed up by the drivers that implement it ("produce" relation in qgraph terms).
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- **QNODE_TEST**: for example ``sdhci-test``. A test consumes an interface
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and tests the functions provided by it.
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Notes for the nodes:
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- QNODE_MACHINE: each machine struct must have a ``QGuestAllocator`` and
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implement ``get_driver()`` to return the allocator mapped to the interface
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"memory". The function can also return ``NULL`` if the allocator
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is not set.
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- QNODE_DRIVER: driver names must be unique, and machines and nodes
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planned to be "consumed" by other nodes must match QEMU
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drivers name, otherwise they won't be discovered
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Edges
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^^^^^^
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An edge relation between two nodes (drivers or machines) `X` and `Y` can be:
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- ``X CONSUMES Y``: `Y` can be plugged into `X`
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- ``X PRODUCES Y``: `X` provides the interface `Y`
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- ``X CONTAINS Y``: `Y` is part of `X` component
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Execution steps
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^^^^^^^^^^^^^^^
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The basic framework steps are the following:
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- All nodes and edges are created in their respective
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machine/driver/test files
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- The framework starts QEMU and asks for a list of available devices
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and machines (note that only machines and "consumed" nodes are mapped
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1:1 with QEMU devices)
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- The framework walks the graph starting from the available machines and
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performs a Depth First Search for tests
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- Once a test is found, the path is walked again and all drivers are
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allocated accordingly and the final interface is passed to the test
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- The test is executed
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- Unused objects are cleaned and the path discovery is continued
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Depending on the QEMU binary used, only some drivers/machines will be
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available and only test that are reached by them will be executed.
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Troubleshooting unavailable tests
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If there is no path from an available machine to a test then that test will be
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unavailable and won't execute. This can happen if a test or driver did not set
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up its qgraph node correctly. It can also happen if the necessary machine type
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or device is missing from the QEMU binary because it was compiled out or
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otherwise.
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It is possible to troubleshoot unavailable tests by running::
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$ QTEST_QEMU_BINARY=build/qemu-system-x86_64 build/tests/qtest/qos-test --verbose
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# ALL QGRAPH EDGES: {
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# src='virtio-net'
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# |-> dest='virtio-net-tests/vhost-user/multiqueue' type=2 (node=0x559142109e30)
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# |-> dest='virtio-net-tests/vhost-user/migrate' type=2 (node=0x559142109d00)
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# src='virtio-net-pci'
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# |-> dest='virtio-net' type=1 (node=0x55914210d740)
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# src='pci-bus'
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# |-> dest='virtio-net-pci' type=2 (node=0x55914210d880)
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# src='pci-bus-pc'
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# |-> dest='pci-bus' type=1 (node=0x559142103f40)
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# src='i440FX-pcihost'
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# |-> dest='pci-bus-pc' type=0 (node=0x55914210ac70)
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# src='x86_64/pc'
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# |-> dest='i440FX-pcihost' type=0 (node=0x5591421117f0)
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# src=''
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# |-> dest='x86_64/pc' type=0 (node=0x559142111600)
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# |-> dest='arm/raspi2' type=0 (node=0x559142110740)
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...
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# }
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# ALL QGRAPH NODES: {
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# name='virtio-net-tests/announce-self' type=3 cmd_line='(null)' [available]
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# name='arm/raspi2' type=0 cmd_line='-M raspi2 ' [UNAVAILABLE]
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...
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# }
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The ``virtio-net-tests/announce-self`` test is listed as "available" in the
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"ALL QGRAPH NODES" output. This means the test will execute. We can follow the
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qgraph path in the "ALL QGRAPH EDGES" output as follows: '' -> 'x86_64/pc' ->
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'i440FX-pcihost' -> 'pci-bus-pc' -> 'pci-bus' -> 'virtio-net-pci' ->
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'virtio-net'. The root of the qgraph is '' and the depth first search begins
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there.
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The ``arm/raspi`` machine node is listed as "UNAVAILABLE". Although it is
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reachable from the root via '' -> 'arm/raspi2' the node is unavailable because
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the QEMU binary did not list it when queried by the framework. This is expected
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because we used the ``qemu-system-x86_64`` binary which does not support ARM
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machine types.
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If a test is unexpectedly listed as "UNAVAILABLE", first check that the "ALL
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QGRAPH EDGES" output reports edge connectivity from the root ('') to the test.
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If there is no connectivity then the qgraph nodes were not set up correctly and
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the driver or test code is incorrect. If there is connectivity, check the
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availability of each node in the path in the "ALL QGRAPH NODES" output. The
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first unavailable node in the path is the reason why the test is unavailable.
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Typically this is because the QEMU binary lacks support for the necessary
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machine type or device.
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Creating a new driver and its interface
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"""""""""""""""""""""""""""""""""""""""""
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Here we continue the ``sdhci`` use case, with the following scenario:
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- ``sdhci-test`` aims to test the ``read[q,w], writeq`` functions
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offered by the ``sdhci`` drivers.
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- The current ``sdhci`` device is supported by both ``x86_64/pc`` and ``ARM``
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(in this example we focus on the ``arm-raspi2``) machines.
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- QEMU offers 2 types of drivers: ``QSDHCI_MemoryMapped`` for ``ARM`` and
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``QSDHCI_PCI`` for ``x86_64/pc``. Both implement the
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``read[q,w], writeq`` functions.
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In order to implement such scenario in qgraph, the test developer needs to:
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- Create the ``x86_64/pc`` machine node. This machine uses the
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``pci-bus`` architecture so it ``contains`` a PCI driver,
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``pci-bus-pc``. The actual path is
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``x86_64/pc --contains--> 1440FX-pcihost --contains-->
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pci-bus-pc --produces--> pci-bus``.
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For the sake of this example,
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we do not focus on the PCI interface implementation.
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- Create the ``sdhci-pci`` driver node, representing ``QSDHCI_PCI``.
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The driver uses the PCI bus (and its API),
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so it must ``consume`` the ``pci-bus`` generic interface (which abstracts
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all the pci drivers available)
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``sdhci-pci --consumes--> pci-bus``
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- Create an ``arm/raspi2`` machine node. This machine ``contains``
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a ``generic-sdhci`` memory mapped ``sdhci`` driver node, representing
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``QSDHCI_MemoryMapped``.
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``arm/raspi2 --contains--> generic-sdhci``
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- Create the ``sdhci`` interface node. This interface offers the
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functions that are shared by all ``sdhci`` devices.
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The interface is produced by ``sdhci-pci`` and ``generic-sdhci``,
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the available architecture-specific drivers.
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``sdhci-pci --produces--> sdhci``
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``generic-sdhci --produces--> sdhci``
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- Create the ``sdhci-test`` test node. The test ``consumes`` the
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``sdhci`` interface, using its API. It doesn't need to look at
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the supported machines or drivers.
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``sdhci-test --consumes--> sdhci``
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``arm-raspi2`` machine, simplified from
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``tests/qtest/libqos/arm-raspi2-machine.c``::
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#include "qgraph.h"
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struct QRaspi2Machine {
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QOSGraphObject obj;
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QGuestAllocator alloc;
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QSDHCI_MemoryMapped sdhci;
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};
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static void *raspi2_get_driver(void *object, const char *interface)
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{
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QRaspi2Machine *machine = object;
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if (!g_strcmp0(interface, "memory")) {
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return &machine->alloc;
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}
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fprintf(stderr, "%s not present in arm/raspi2\n", interface);
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g_assert_not_reached();
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}
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static QOSGraphObject *raspi2_get_device(void *obj,
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const char *device)
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{
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QRaspi2Machine *machine = obj;
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if (!g_strcmp0(device, "generic-sdhci")) {
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return &machine->sdhci.obj;
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}
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fprintf(stderr, "%s not present in arm/raspi2\n", device);
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g_assert_not_reached();
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}
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static void *qos_create_machine_arm_raspi2(QTestState *qts)
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{
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QRaspi2Machine *machine = g_new0(QRaspi2Machine, 1);
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alloc_init(&machine->alloc, ...);
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/* Get node(s) contained inside (CONTAINS) */
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machine->obj.get_device = raspi2_get_device;
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/* Get node(s) produced (PRODUCES) */
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machine->obj.get_driver = raspi2_get_driver;
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/* free the object */
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machine->obj.destructor = raspi2_destructor;
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qos_init_sdhci_mm(&machine->sdhci, ...);
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return &machine->obj;
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}
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static void raspi2_register_nodes(void)
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{
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/* arm/raspi2 --contains--> generic-sdhci */
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qos_node_create_machine("arm/raspi2",
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qos_create_machine_arm_raspi2);
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qos_node_contains("arm/raspi2", "generic-sdhci", NULL);
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}
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libqos_init(raspi2_register_nodes);
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``x86_64/pc`` machine, simplified from
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``tests/qtest/libqos/x86_64_pc-machine.c``::
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#include "qgraph.h"
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struct i440FX_pcihost {
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QOSGraphObject obj;
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QPCIBusPC pci;
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};
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struct QX86PCMachine {
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QOSGraphObject obj;
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QGuestAllocator alloc;
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i440FX_pcihost bridge;
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};
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/* i440FX_pcihost */
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static QOSGraphObject *i440FX_host_get_device(void *obj,
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const char *device)
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{
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i440FX_pcihost *host = obj;
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if (!g_strcmp0(device, "pci-bus-pc")) {
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return &host->pci.obj;
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}
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fprintf(stderr, "%s not present in i440FX-pcihost\n", device);
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g_assert_not_reached();
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}
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/* x86_64/pc machine */
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static void *pc_get_driver(void *object, const char *interface)
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{
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QX86PCMachine *machine = object;
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if (!g_strcmp0(interface, "memory")) {
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return &machine->alloc;
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}
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fprintf(stderr, "%s not present in x86_64/pc\n", interface);
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g_assert_not_reached();
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}
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static QOSGraphObject *pc_get_device(void *obj, const char *device)
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{
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QX86PCMachine *machine = obj;
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if (!g_strcmp0(device, "i440FX-pcihost")) {
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return &machine->bridge.obj;
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}
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fprintf(stderr, "%s not present in x86_64/pc\n", device);
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g_assert_not_reached();
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}
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static void *qos_create_machine_pc(QTestState *qts)
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{
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QX86PCMachine *machine = g_new0(QX86PCMachine, 1);
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/* Get node(s) contained inside (CONTAINS) */
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machine->obj.get_device = pc_get_device;
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/* Get node(s) produced (PRODUCES) */
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machine->obj.get_driver = pc_get_driver;
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/* free the object */
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machine->obj.destructor = pc_destructor;
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pc_alloc_init(&machine->alloc, qts, ALLOC_NO_FLAGS);
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/* Get node(s) contained inside (CONTAINS) */
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machine->bridge.obj.get_device = i440FX_host_get_device;
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return &machine->obj;
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}
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static void pc_machine_register_nodes(void)
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{
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/* x86_64/pc --contains--> 1440FX-pcihost --contains-->
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* pci-bus-pc [--produces--> pci-bus (in pci.h)] */
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qos_node_create_machine("x86_64/pc", qos_create_machine_pc);
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qos_node_contains("x86_64/pc", "i440FX-pcihost", NULL);
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/* contained drivers don't need a constructor,
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* they will be init by the parent */
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qos_node_create_driver("i440FX-pcihost", NULL);
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qos_node_contains("i440FX-pcihost", "pci-bus-pc", NULL);
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}
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libqos_init(pc_machine_register_nodes);
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``sdhci`` taken from ``tests/qtest/libqos/sdhci.c``::
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/* Interface node, offers the sdhci API */
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struct QSDHCI {
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uint16_t (*readw)(QSDHCI *s, uint32_t reg);
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uint64_t (*readq)(QSDHCI *s, uint32_t reg);
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void (*writeq)(QSDHCI *s, uint32_t reg, uint64_t val);
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/* other fields */
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};
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/* Memory Mapped implementation of QSDHCI */
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struct QSDHCI_MemoryMapped {
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QOSGraphObject obj;
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QSDHCI sdhci;
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/* other driver-specific fields */
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};
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/* PCI implementation of QSDHCI */
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struct QSDHCI_PCI {
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QOSGraphObject obj;
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QSDHCI sdhci;
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/* other driver-specific fields */
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};
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/* Memory mapped implementation of QSDHCI */
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static void *sdhci_mm_get_driver(void *obj, const char *interface)
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{
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QSDHCI_MemoryMapped *smm = obj;
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if (!g_strcmp0(interface, "sdhci")) {
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return &smm->sdhci;
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}
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fprintf(stderr, "%s not present in generic-sdhci\n", interface);
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g_assert_not_reached();
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}
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void qos_init_sdhci_mm(QSDHCI_MemoryMapped *sdhci, QTestState *qts,
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uint32_t addr, QSDHCIProperties *common)
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{
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/* Get node contained inside (CONTAINS) */
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sdhci->obj.get_driver = sdhci_mm_get_driver;
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/* SDHCI interface API */
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sdhci->sdhci.readw = sdhci_mm_readw;
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sdhci->sdhci.readq = sdhci_mm_readq;
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sdhci->sdhci.writeq = sdhci_mm_writeq;
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sdhci->qts = qts;
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}
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/* PCI implementation of QSDHCI */
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static void *sdhci_pci_get_driver(void *object,
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const char *interface)
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{
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QSDHCI_PCI *spci = object;
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if (!g_strcmp0(interface, "sdhci")) {
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return &spci->sdhci;
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}
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fprintf(stderr, "%s not present in sdhci-pci\n", interface);
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g_assert_not_reached();
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}
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static void *sdhci_pci_create(void *pci_bus,
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QGuestAllocator *alloc,
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void *addr)
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{
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QSDHCI_PCI *spci = g_new0(QSDHCI_PCI, 1);
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QPCIBus *bus = pci_bus;
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uint64_t barsize;
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qpci_device_init(&spci->dev, bus, addr);
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/* SDHCI interface API */
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spci->sdhci.readw = sdhci_pci_readw;
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spci->sdhci.readq = sdhci_pci_readq;
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spci->sdhci.writeq = sdhci_pci_writeq;
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/* Get node(s) produced (PRODUCES) */
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spci->obj.get_driver = sdhci_pci_get_driver;
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spci->obj.start_hw = sdhci_pci_start_hw;
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spci->obj.destructor = sdhci_destructor;
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return &spci->obj;
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}
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static void qsdhci_register_nodes(void)
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{
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QOSGraphEdgeOptions opts = {
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.extra_device_opts = "addr=04.0",
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};
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/* generic-sdhci */
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/* generic-sdhci --produces--> sdhci */
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qos_node_create_driver("generic-sdhci", NULL);
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qos_node_produces("generic-sdhci", "sdhci");
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/* sdhci-pci */
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/* sdhci-pci --produces--> sdhci
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* sdhci-pci --consumes--> pci-bus */
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qos_node_create_driver("sdhci-pci", sdhci_pci_create);
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qos_node_produces("sdhci-pci", "sdhci");
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qos_node_consumes("sdhci-pci", "pci-bus", &opts);
|
|
}
|
|
|
|
libqos_init(qsdhci_register_nodes);
|
|
|
|
In the above example, all possible types of relations are created::
|
|
|
|
x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
|
|
|
|
|
sdhci-pci --consumes--> pci-bus <--produces--+
|
|
|
|
|
+--produces--+
|
|
|
|
|
v
|
|
sdhci
|
|
^
|
|
|
|
|
+--produces-- +
|
|
|
|
|
arm/raspi2 --contains--> generic-sdhci
|
|
|
|
or inverting the consumes edge in consumed_by::
|
|
|
|
x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
|
|
|
|
|
sdhci-pci <--consumed by-- pci-bus <--produces--+
|
|
|
|
|
+--produces--+
|
|
|
|
|
v
|
|
sdhci
|
|
^
|
|
|
|
|
+--produces-- +
|
|
|
|
|
arm/raspi2 --contains--> generic-sdhci
|
|
|
|
Adding a new test
|
|
"""""""""""""""""
|
|
|
|
Given the above setup, adding a new test is very simple.
|
|
``sdhci-test``, taken from ``tests/qtest/sdhci-test.c``::
|
|
|
|
static void check_capab_sdma(QSDHCI *s, bool supported)
|
|
{
|
|
uint64_t capab, capab_sdma;
|
|
|
|
capab = s->readq(s, SDHC_CAPAB);
|
|
capab_sdma = FIELD_EX64(capab, SDHC_CAPAB, SDMA);
|
|
g_assert_cmpuint(capab_sdma, ==, supported);
|
|
}
|
|
|
|
static void test_registers(void *obj, void *data,
|
|
QGuestAllocator *alloc)
|
|
{
|
|
QSDHCI *s = obj;
|
|
|
|
/* example test */
|
|
check_capab_sdma(s, s->props.capab.sdma);
|
|
}
|
|
|
|
static void register_sdhci_test(void)
|
|
{
|
|
/* sdhci-test --consumes--> sdhci */
|
|
qos_add_test("registers", "sdhci", test_registers, NULL);
|
|
}
|
|
|
|
libqos_init(register_sdhci_test);
|
|
|
|
Here a new test is created, consuming ``sdhci`` interface node
|
|
and creating a valid path from both machines to a test.
|
|
Final graph will be like this::
|
|
|
|
x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
|
|
|
|
|
sdhci-pci --consumes--> pci-bus <--produces--+
|
|
|
|
|
+--produces--+
|
|
|
|
|
v
|
|
sdhci <--consumes-- sdhci-test
|
|
^
|
|
|
|
|
+--produces-- +
|
|
|
|
|
arm/raspi2 --contains--> generic-sdhci
|
|
|
|
or inverting the consumes edge in consumed_by::
|
|
|
|
x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
|
|
|
|
|
sdhci-pci <--consumed by-- pci-bus <--produces--+
|
|
|
|
|
+--produces--+
|
|
|
|
|
v
|
|
sdhci --consumed by--> sdhci-test
|
|
^
|
|
|
|
|
+--produces-- +
|
|
|
|
|
arm/raspi2 --contains--> generic-sdhci
|
|
|
|
Assuming there the binary is
|
|
``QTEST_QEMU_BINARY=./qemu-system-x86_64``
|
|
a valid test path will be:
|
|
``/x86_64/pc/1440FX-pcihost/pci-bus-pc/pci-bus/sdhci-pc/sdhci/sdhci-test``
|
|
|
|
and for the binary ``QTEST_QEMU_BINARY=./qemu-system-arm``:
|
|
|
|
``/arm/raspi2/generic-sdhci/sdhci/sdhci-test``
|
|
|
|
Additional examples are also in ``test-qgraph.c``
|
|
|
|
Command line:
|
|
""""""""""""""
|
|
|
|
Command line is built by using node names and optional arguments
|
|
passed by the user when building the edges.
|
|
|
|
There are three types of command line arguments:
|
|
|
|
- ``in node`` : created from the node name. For example, machines will
|
|
have ``-M <machine>`` to its command line, while devices
|
|
``-device <device>``. It is automatically done by the framework.
|
|
- ``after node`` : added as additional argument to the node name.
|
|
This argument is added optionally when creating edges,
|
|
by setting the parameter ``after_cmd_line`` and
|
|
``extra_edge_opts`` in ``QOSGraphEdgeOptions``.
|
|
The framework automatically adds
|
|
a comma before ``extra_edge_opts``,
|
|
because it is going to add attributes
|
|
after the destination node pointed by
|
|
the edge containing these options, and automatically
|
|
adds a space before ``after_cmd_line``, because it
|
|
adds an additional device, not an attribute.
|
|
- ``before node`` : added as additional argument to the node name.
|
|
This argument is added optionally when creating edges,
|
|
by setting the parameter ``before_cmd_line`` in
|
|
``QOSGraphEdgeOptions``. This attribute
|
|
is going to add attributes before the destination node
|
|
pointed by the edge containing these options. It is
|
|
helpful to commands that are not node-representable,
|
|
such as ``-fdsev`` or ``-netdev``.
|
|
|
|
While adding command line in edges is always used, not all nodes names are
|
|
used in every path walk: this is because the contained or produced ones
|
|
are already added by QEMU, so only nodes that "consumes" will be used to
|
|
build the command line. Also, nodes that will have ``{ "abstract" : true }``
|
|
as QMP attribute will loose their command line, since they are not proper
|
|
devices to be added in QEMU.
|
|
|
|
Example::
|
|
|
|
QOSGraphEdgeOptions opts = {
|
|
.before_cmd_line = "-drive id=drv0,if=none,file=null-co://,"
|
|
"file.read-zeroes=on,format=raw",
|
|
.after_cmd_line = "-device scsi-hd,bus=vs0.0,drive=drv0",
|
|
|
|
opts.extra_device_opts = "id=vs0";
|
|
};
|
|
|
|
qos_node_create_driver("virtio-scsi-device",
|
|
virtio_scsi_device_create);
|
|
qos_node_consumes("virtio-scsi-device", "virtio-bus", &opts);
|
|
|
|
Will produce the following command line:
|
|
``-drive id=drv0,if=none,file=null-co://, -device virtio-scsi-device,id=vs0 -device scsi-hd,bus=vs0.0,drive=drv0``
|
|
|
|
Qgraph API reference
|
|
^^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. kernel-doc:: tests/qtest/libqos/qgraph.h
|