xref: /openbmc/qemu/docs/devel/testing/qgraph.rst (revision ff788b70)
1.. _qgraph:
2
3Qtest Driver Framework
4======================
5
6In order to test a specific driver, plain libqos tests need to
7take care of booting QEMU with the right machine and devices.
8This makes each test "hardcoded" for a specific configuration, reducing
9the possible coverage that it can reach.
10
11For example, the sdhci device is supported on both x86_64 and ARM boards,
12therefore a generic sdhci test should test all machines and drivers that
13support that device.
14Using only libqos APIs, the test has to manually take care of
15covering all the setups, and build the correct command line.
16
17This also introduces backward compatibility issues: if a device/driver command
18line name is changed, all tests that use that will not work
19properly anymore and need to be adjusted.
20
21The aim of qgraph is to create a graph of drivers, machines and tests such that
22a test aimed to a certain driver does not have to care of
23booting the right QEMU machine, pick the right device, build the command line
24and so on. Instead, it only defines what type of device it is testing
25(interface in qgraph terms) and the framework takes care of
26covering all supported types of devices and machine architectures.
27
28Following the above example, an interface would be ``sdhci``,
29so the sdhci-test should only care of linking its qgraph node with
30that interface. In this way, if the command line of a sdhci driver
31is changed, only the respective qgraph driver node has to be adjusted.
32
33QGraph concepts
34---------------
35
36The graph is composed by nodes that represent machines, drivers, tests
37and edges that define the relationships between them (``CONSUMES``, ``PRODUCES``, and
38``CONTAINS``).
39
40Nodes
41~~~~~
42
43A node can be of four types:
44
45- **QNODE_MACHINE**:   for example ``arm/raspi2b``
46- **QNODE_DRIVER**:    for example ``generic-sdhci``
47- **QNODE_INTERFACE**: for example ``sdhci`` (interface for all ``-sdhci``
48  drivers).
49  An interface is not explicitly created, it will be automatically
50  instantiated when a node consumes or produces it.
51  An interface is simply a struct that abstracts the various drivers
52  for the same type of device, and offers an API to the nodes that
53  use it ("consume" relation in qgraph terms) that is implemented/backed up by the drivers that implement it ("produce" relation in qgraph terms).
54- **QNODE_TEST**:      for example ``sdhci-test``. A test consumes an interface
55  and tests the functions provided by it.
56
57Notes for the nodes:
58
59- QNODE_MACHINE: each machine struct must have a ``QGuestAllocator`` and
60  implement ``get_driver()`` to return the allocator mapped to the interface
61  "memory". The function can also return ``NULL`` if the allocator
62  is not set.
63- QNODE_DRIVER:  driver names must be unique, and machines and nodes
64  planned to be "consumed" by other nodes must match QEMU
65  drivers name, otherwise they won't be discovered
66
67Edges
68~~~~~
69
70An edge relation between two nodes (drivers or machines) ``X`` and ``Y`` can be:
71
72- ``X CONSUMES Y``: ``Y`` can be plugged into ``X``
73- ``X PRODUCES Y``: ``X`` provides the interface ``Y``
74- ``X CONTAINS Y``: ``Y`` is part of ``X`` component
75
76Execution steps
77~~~~~~~~~~~~~~~
78
79The basic framework steps are the following:
80
81- All nodes and edges are created in their respective
82  machine/driver/test files
83- The framework starts QEMU and asks for a list of available devices
84  and machines (note that only machines and "consumed" nodes are mapped
85  1:1 with QEMU devices)
86- The framework walks the graph starting from the available machines and
87  performs a Depth First Search for tests
88- Once a test is found, the path is walked again and all drivers are
89  allocated accordingly and the final interface is passed to the test
90- The test is executed
91- Unused objects are cleaned and the path discovery is continued
92
93Depending on the QEMU binary used, only some drivers/machines will be
94available and only test that are reached by them will be executed.
95
96Command line
97~~~~~~~~~~~~
98
99Command line is built by using node names and optional arguments
100passed by the user when building the edges.
101
102There are three types of command line arguments:
103
104- ``in node``      : created from the node name. For example, machines will
105  have ``-M <machine>`` to its command line, while devices
106  ``-device <device>``. It is automatically done by the framework.
107- ``after node``   : added as additional argument to the node name.
108  This argument is added optionally when creating edges,
109  by setting the parameter ``after_cmd_line`` and
110  ``extra_edge_opts`` in ``QOSGraphEdgeOptions``.
111  The framework automatically adds
112  a comma before ``extra_edge_opts``,
113  because it is going to add attributes
114  after the destination node pointed by
115  the edge containing these options, and automatically
116  adds a space before ``after_cmd_line``, because it
117  adds an additional device, not an attribute.
118- ``before node``  : added as additional argument to the node name.
119  This argument is added optionally when creating edges,
120  by setting the parameter ``before_cmd_line`` in
121  ``QOSGraphEdgeOptions``. This attribute
122  is going to add attributes before the destination node
123  pointed by the edge containing these options. It is
124  helpful to commands that are not node-representable,
125  such as ``-fdsev`` or ``-netdev``.
126
127While adding command line in edges is always used, not all nodes names are
128used in every path walk: this is because the contained or produced ones
129are already added by QEMU, so only nodes that "consumes" will be used to
130build the command line. Also, nodes that will have ``{ "abstract" : true }``
131as QMP attribute will loose their command line, since they are not proper
132devices to be added in QEMU.
133
134Example::
135
136    QOSGraphEdgeOptions opts = {
137        .before_cmd_line = "-drive id=drv0,if=none,file=null-co://,"
138                           "file.read-zeroes=on,format=raw",
139        .after_cmd_line = "-device scsi-hd,bus=vs0.0,drive=drv0",
140
141        opts.extra_device_opts = "id=vs0";
142    };
143
144    qos_node_create_driver("virtio-scsi-device",
145                            virtio_scsi_device_create);
146    qos_node_consumes("virtio-scsi-device", "virtio-bus", &opts);
147
148Will produce the following command line:
149``-drive id=drv0,if=none,file=null-co://, -device virtio-scsi-device,id=vs0 -device scsi-hd,bus=vs0.0,drive=drv0``
150
151Troubleshooting unavailable tests
152~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
153
154If there is no path from an available machine to a test then that test will be
155unavailable and won't execute. This can happen if a test or driver did not set
156up its qgraph node correctly. It can also happen if the necessary machine type
157or device is missing from the QEMU binary because it was compiled out or
158otherwise.
159
160It is possible to troubleshoot unavailable tests by running::
161
162  $ QTEST_QEMU_BINARY=build/qemu-system-x86_64 build/tests/qtest/qos-test --verbose
163  # ALL QGRAPH EDGES: {
164  #   src='virtio-net'
165  #      |-> dest='virtio-net-tests/vhost-user/multiqueue' type=2 (node=0x559142109e30)
166  #      |-> dest='virtio-net-tests/vhost-user/migrate' type=2 (node=0x559142109d00)
167  #   src='virtio-net-pci'
168  #      |-> dest='virtio-net' type=1 (node=0x55914210d740)
169  #   src='pci-bus'
170  #      |-> dest='virtio-net-pci' type=2 (node=0x55914210d880)
171  #   src='pci-bus-pc'
172  #      |-> dest='pci-bus' type=1 (node=0x559142103f40)
173  #   src='i440FX-pcihost'
174  #      |-> dest='pci-bus-pc' type=0 (node=0x55914210ac70)
175  #   src='x86_64/pc'
176  #      |-> dest='i440FX-pcihost' type=0 (node=0x5591421117f0)
177  #   src=''
178  #      |-> dest='x86_64/pc' type=0 (node=0x559142111600)
179  #      |-> dest='arm/raspi2b' type=0 (node=0x559142110740)
180  ...
181  # }
182  # ALL QGRAPH NODES: {
183  #   name='virtio-net-tests/announce-self' type=3 cmd_line='(null)' [available]
184  #   name='arm/raspi2b' type=0 cmd_line='-M raspi2b ' [UNAVAILABLE]
185  ...
186  # }
187
188The ``virtio-net-tests/announce-self`` test is listed as "available" in the
189"ALL QGRAPH NODES" output. This means the test will execute. We can follow the
190qgraph path in the "ALL QGRAPH EDGES" output as follows: '' -> 'x86_64/pc' ->
191'i440FX-pcihost' -> 'pci-bus-pc' -> 'pci-bus' -> 'virtio-net-pci' ->
192'virtio-net'. The root of the qgraph is '' and the depth first search begins
193there.
194
195The ``arm/raspi2b`` machine node is listed as "UNAVAILABLE". Although it is
196reachable from the root via '' -> 'arm/raspi2b' the node is unavailable because
197the QEMU binary did not list it when queried by the framework. This is expected
198because we used the ``qemu-system-x86_64`` binary which does not support ARM
199machine types.
200
201If a test is unexpectedly listed as "UNAVAILABLE", first check that the "ALL
202QGRAPH EDGES" output reports edge connectivity from the root ('') to the test.
203If there is no connectivity then the qgraph nodes were not set up correctly and
204the driver or test code is incorrect. If there is connectivity, check the
205availability of each node in the path in the "ALL QGRAPH NODES" output. The
206first unavailable node in the path is the reason why the test is unavailable.
207Typically this is because the QEMU binary lacks support for the necessary
208machine type or device.
209
210Creating a new driver and its interface
211---------------------------------------
212
213Here we continue the ``sdhci`` use case, with the following scenario:
214
215- ``sdhci-test`` aims to test the ``read[q,w], writeq`` functions
216  offered by the ``sdhci`` drivers.
217- The current ``sdhci`` device is supported by both ``x86_64/pc`` and ``ARM``
218  (in this example we focus on the ``arm-raspi2b``) machines.
219- QEMU offers 2 types of drivers: ``QSDHCI_MemoryMapped`` for ``ARM`` and
220  ``QSDHCI_PCI`` for ``x86_64/pc``. Both implement the
221  ``read[q,w], writeq`` functions.
222
223In order to implement such scenario in qgraph, the test developer needs to:
224
225- Create the ``x86_64/pc`` machine node. This machine uses the
226  ``pci-bus`` architecture so it ``contains`` a PCI driver,
227  ``pci-bus-pc``. The actual path is
228
229  ``x86_64/pc --contains--> 1440FX-pcihost --contains-->
230  pci-bus-pc --produces--> pci-bus``.
231
232  For the sake of this example,
233  we do not focus on the PCI interface implementation.
234- Create the ``sdhci-pci`` driver node, representing ``QSDHCI_PCI``.
235  The driver uses the PCI bus (and its API),
236  so it must ``consume`` the ``pci-bus`` generic interface (which abstracts
237  all the pci drivers available)
238
239  ``sdhci-pci --consumes--> pci-bus``
240- Create an ``arm/raspi2b`` machine node. This machine ``contains``
241  a ``generic-sdhci`` memory mapped ``sdhci`` driver node, representing
242  ``QSDHCI_MemoryMapped``.
243
244  ``arm/raspi2b --contains--> generic-sdhci``
245- Create the ``sdhci`` interface node. This interface offers the
246  functions that are shared by all ``sdhci`` devices.
247  The interface is produced by ``sdhci-pci`` and ``generic-sdhci``,
248  the available architecture-specific drivers.
249
250  ``sdhci-pci --produces--> sdhci``
251
252  ``generic-sdhci --produces--> sdhci``
253- Create the ``sdhci-test`` test node. The test ``consumes`` the
254  ``sdhci`` interface, using its API. It doesn't need to look at
255  the supported machines or drivers.
256
257  ``sdhci-test --consumes--> sdhci``
258
259``arm-raspi2b`` machine, simplified from
260``tests/qtest/libqos/arm-raspi2-machine.c``::
261
262    #include "qgraph.h"
263
264    struct QRaspi2Machine {
265        QOSGraphObject obj;
266        QGuestAllocator alloc;
267        QSDHCI_MemoryMapped sdhci;
268    };
269
270    static void *raspi2_get_driver(void *object, const char *interface)
271    {
272        QRaspi2Machine *machine = object;
273        if (!g_strcmp0(interface, "memory")) {
274            return &machine->alloc;
275        }
276
277        fprintf(stderr, "%s not present in arm/raspi2b\n", interface);
278        g_assert_not_reached();
279    }
280
281    static QOSGraphObject *raspi2_get_device(void *obj,
282                                                const char *device)
283    {
284        QRaspi2Machine *machine = obj;
285        if (!g_strcmp0(device, "generic-sdhci")) {
286            return &machine->sdhci.obj;
287        }
288
289        fprintf(stderr, "%s not present in arm/raspi2b\n", device);
290        g_assert_not_reached();
291    }
292
293    static void *qos_create_machine_arm_raspi2(QTestState *qts)
294    {
295        QRaspi2Machine *machine = g_new0(QRaspi2Machine, 1);
296
297        alloc_init(&machine->alloc, ...);
298
299        /* Get node(s) contained inside (CONTAINS) */
300        machine->obj.get_device = raspi2_get_device;
301
302        /* Get node(s) produced (PRODUCES) */
303        machine->obj.get_driver = raspi2_get_driver;
304
305        /* free the object */
306        machine->obj.destructor = raspi2_destructor;
307        qos_init_sdhci_mm(&machine->sdhci, ...);
308        return &machine->obj;
309    }
310
311    static void raspi2_register_nodes(void)
312    {
313        /* arm/raspi2b --contains--> generic-sdhci */
314        qos_node_create_machine("arm/raspi2b",
315                                 qos_create_machine_arm_raspi2);
316        qos_node_contains("arm/raspi2b", "generic-sdhci", NULL);
317    }
318
319    libqos_init(raspi2_register_nodes);
320
321``x86_64/pc`` machine, simplified from
322``tests/qtest/libqos/x86_64_pc-machine.c``::
323
324    #include "qgraph.h"
325
326    struct i440FX_pcihost {
327        QOSGraphObject obj;
328        QPCIBusPC pci;
329    };
330
331    struct QX86PCMachine {
332        QOSGraphObject obj;
333        QGuestAllocator alloc;
334        i440FX_pcihost bridge;
335    };
336
337    /* i440FX_pcihost */
338
339    static QOSGraphObject *i440FX_host_get_device(void *obj,
340                                                const char *device)
341    {
342        i440FX_pcihost *host = obj;
343        if (!g_strcmp0(device, "pci-bus-pc")) {
344            return &host->pci.obj;
345        }
346        fprintf(stderr, "%s not present in i440FX-pcihost\n", device);
347        g_assert_not_reached();
348    }
349
350    /* x86_64/pc machine */
351
352    static void *pc_get_driver(void *object, const char *interface)
353    {
354        QX86PCMachine *machine = object;
355        if (!g_strcmp0(interface, "memory")) {
356            return &machine->alloc;
357        }
358
359        fprintf(stderr, "%s not present in x86_64/pc\n", interface);
360        g_assert_not_reached();
361    }
362
363    static QOSGraphObject *pc_get_device(void *obj, const char *device)
364    {
365        QX86PCMachine *machine = obj;
366        if (!g_strcmp0(device, "i440FX-pcihost")) {
367            return &machine->bridge.obj;
368        }
369
370        fprintf(stderr, "%s not present in x86_64/pc\n", device);
371        g_assert_not_reached();
372    }
373
374    static void *qos_create_machine_pc(QTestState *qts)
375    {
376        QX86PCMachine *machine = g_new0(QX86PCMachine, 1);
377
378        /* Get node(s) contained inside (CONTAINS) */
379        machine->obj.get_device = pc_get_device;
380
381        /* Get node(s) produced (PRODUCES) */
382        machine->obj.get_driver = pc_get_driver;
383
384        /* free the object */
385        machine->obj.destructor = pc_destructor;
386        pc_alloc_init(&machine->alloc, qts, ALLOC_NO_FLAGS);
387
388        /* Get node(s) contained inside (CONTAINS) */
389        machine->bridge.obj.get_device = i440FX_host_get_device;
390
391        return &machine->obj;
392    }
393
394    static void pc_machine_register_nodes(void)
395    {
396        /* x86_64/pc --contains--> 1440FX-pcihost --contains-->
397         * pci-bus-pc [--produces--> pci-bus (in pci.h)] */
398        qos_node_create_machine("x86_64/pc", qos_create_machine_pc);
399        qos_node_contains("x86_64/pc", "i440FX-pcihost", NULL);
400
401        /* contained drivers don't need a constructor,
402         * they will be init by the parent */
403        qos_node_create_driver("i440FX-pcihost", NULL);
404        qos_node_contains("i440FX-pcihost", "pci-bus-pc", NULL);
405    }
406
407    libqos_init(pc_machine_register_nodes);
408
409``sdhci`` taken from ``tests/qtest/libqos/sdhci.c``::
410
411    /* Interface node, offers the sdhci API */
412    struct QSDHCI {
413        uint16_t (*readw)(QSDHCI *s, uint32_t reg);
414        uint64_t (*readq)(QSDHCI *s, uint32_t reg);
415        void (*writeq)(QSDHCI *s, uint32_t reg, uint64_t val);
416        /* other fields */
417    };
418
419    /* Memory Mapped implementation of QSDHCI */
420    struct QSDHCI_MemoryMapped {
421        QOSGraphObject obj;
422        QSDHCI sdhci;
423        /* other driver-specific fields */
424    };
425
426    /* PCI implementation of QSDHCI */
427    struct QSDHCI_PCI {
428        QOSGraphObject obj;
429        QSDHCI sdhci;
430        /* other driver-specific fields */
431    };
432
433    /* Memory mapped implementation of QSDHCI */
434
435    static void *sdhci_mm_get_driver(void *obj, const char *interface)
436    {
437        QSDHCI_MemoryMapped *smm = obj;
438        if (!g_strcmp0(interface, "sdhci")) {
439            return &smm->sdhci;
440        }
441        fprintf(stderr, "%s not present in generic-sdhci\n", interface);
442        g_assert_not_reached();
443    }
444
445    void qos_init_sdhci_mm(QSDHCI_MemoryMapped *sdhci, QTestState *qts,
446                        uint32_t addr, QSDHCIProperties *common)
447    {
448        /* Get node contained inside (CONTAINS) */
449        sdhci->obj.get_driver = sdhci_mm_get_driver;
450
451        /* SDHCI interface API */
452        sdhci->sdhci.readw = sdhci_mm_readw;
453        sdhci->sdhci.readq = sdhci_mm_readq;
454        sdhci->sdhci.writeq = sdhci_mm_writeq;
455        sdhci->qts = qts;
456    }
457
458    /* PCI implementation of QSDHCI */
459
460    static void *sdhci_pci_get_driver(void *object,
461                                      const char *interface)
462    {
463        QSDHCI_PCI *spci = object;
464        if (!g_strcmp0(interface, "sdhci")) {
465            return &spci->sdhci;
466        }
467
468        fprintf(stderr, "%s not present in sdhci-pci\n", interface);
469        g_assert_not_reached();
470    }
471
472    static void *sdhci_pci_create(void *pci_bus,
473                                  QGuestAllocator *alloc,
474                                  void *addr)
475    {
476        QSDHCI_PCI *spci = g_new0(QSDHCI_PCI, 1);
477        QPCIBus *bus = pci_bus;
478        uint64_t barsize;
479
480        qpci_device_init(&spci->dev, bus, addr);
481
482        /* SDHCI interface API */
483        spci->sdhci.readw = sdhci_pci_readw;
484        spci->sdhci.readq = sdhci_pci_readq;
485        spci->sdhci.writeq = sdhci_pci_writeq;
486
487        /* Get node(s) produced (PRODUCES) */
488        spci->obj.get_driver = sdhci_pci_get_driver;
489
490        spci->obj.start_hw = sdhci_pci_start_hw;
491        spci->obj.destructor = sdhci_destructor;
492        return &spci->obj;
493    }
494
495    static void qsdhci_register_nodes(void)
496    {
497        QOSGraphEdgeOptions opts = {
498            .extra_device_opts = "addr=04.0",
499        };
500
501        /* generic-sdhci */
502        /* generic-sdhci --produces--> sdhci */
503        qos_node_create_driver("generic-sdhci", NULL);
504        qos_node_produces("generic-sdhci", "sdhci");
505
506        /* sdhci-pci */
507        /* sdhci-pci --produces--> sdhci
508         * sdhci-pci --consumes--> pci-bus */
509        qos_node_create_driver("sdhci-pci", sdhci_pci_create);
510        qos_node_produces("sdhci-pci", "sdhci");
511        qos_node_consumes("sdhci-pci", "pci-bus", &opts);
512    }
513
514    libqos_init(qsdhci_register_nodes);
515
516In the above example, all possible types of relations are created::
517
518  x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
519                                                            |
520               sdhci-pci --consumes--> pci-bus <--produces--+
521                  |
522                  +--produces--+
523                               |
524                               v
525                             sdhci
526                               ^
527                               |
528                               +--produces-- +
529                                             |
530               arm/raspi2b --contains--> generic-sdhci
531
532or inverting the consumes edge in consumed_by::
533
534  x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
535                                                            |
536            sdhci-pci <--consumed by-- pci-bus <--produces--+
537                |
538                +--produces--+
539                             |
540                             v
541                            sdhci
542                             ^
543                             |
544                             +--produces-- +
545                                           |
546            arm/raspi2b --contains--> generic-sdhci
547
548Adding a new test
549-----------------
550
551Given the above setup, adding a new test is very simple.
552``sdhci-test``, taken from ``tests/qtest/sdhci-test.c``::
553
554    static void check_capab_sdma(QSDHCI *s, bool supported)
555    {
556        uint64_t capab, capab_sdma;
557
558        capab = s->readq(s, SDHC_CAPAB);
559        capab_sdma = FIELD_EX64(capab, SDHC_CAPAB, SDMA);
560        g_assert_cmpuint(capab_sdma, ==, supported);
561    }
562
563    static void test_registers(void *obj, void *data,
564                                QGuestAllocator *alloc)
565    {
566        QSDHCI *s = obj;
567
568        /* example test */
569        check_capab_sdma(s, s->props.capab.sdma);
570    }
571
572    static void register_sdhci_test(void)
573    {
574        /* sdhci-test --consumes--> sdhci */
575        qos_add_test("registers", "sdhci", test_registers, NULL);
576    }
577
578    libqos_init(register_sdhci_test);
579
580Here a new test is created, consuming ``sdhci`` interface node
581and creating a valid path from both machines to a test.
582Final graph will be like this::
583
584  x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
585                                                            |
586               sdhci-pci --consumes--> pci-bus <--produces--+
587                  |
588                  +--produces--+
589                               |
590                               v
591                             sdhci <--consumes-- sdhci-test
592                               ^
593                               |
594                               +--produces-- +
595                                             |
596               arm/raspi2b --contains--> generic-sdhci
597
598or inverting the consumes edge in consumed_by::
599
600  x86_64/pc --contains--> 1440FX-pcihost --contains--> pci-bus-pc
601                                                            |
602            sdhci-pci <--consumed by-- pci-bus <--produces--+
603                |
604                +--produces--+
605                             |
606                             v
607                            sdhci --consumed by--> sdhci-test
608                             ^
609                             |
610                             +--produces-- +
611                                           |
612            arm/raspi2b --contains--> generic-sdhci
613
614Assuming there the binary is
615``QTEST_QEMU_BINARY=./qemu-system-x86_64``
616a valid test path will be:
617``/x86_64/pc/1440FX-pcihost/pci-bus-pc/pci-bus/sdhci-pc/sdhci/sdhci-test``
618
619and for the binary ``QTEST_QEMU_BINARY=./qemu-system-arm``:
620
621``/arm/raspi2b/generic-sdhci/sdhci/sdhci-test``
622
623Additional examples are also in ``test-qgraph.c``
624
625Qgraph API reference
626--------------------
627
628.. kernel-doc:: tests/qtest/libqos/qgraph.h
629