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