#include #include #include #include #include "testutils.h" #ifdef WITH_QEMU # include "internal.h" # include "viralloc.h" # include "viridentity.h" # include "qemu/qemu_block.h" # include "qemu/qemu_capabilities.h" # include "qemu/qemu_domain.h" # include "qemu/qemu_migration.h" # include "qemu/qemu_process.h" # include "qemu/qemu_slirp.h" # include "datatypes.h" # include "conf/storage_conf.h" # include "virfilewrapper.h" # include "configmake.h" # include "testutilsqemuschema.h" # define LIBVIRT_QEMU_CAPSPRIV_H_ALLOW # include "qemu/qemu_capspriv.h" # include "testutilsqemu.h" # define VIR_FROM_THIS VIR_FROM_QEMU static virQEMUDriver driver; static unsigned char * fakeSecretGetValue(virSecretPtr obj G_GNUC_UNUSED, size_t *value_size, unsigned int fakeflags G_GNUC_UNUSED) { char *secret; secret = g_strdup("AQCVn5hO6HzFAhAAq0NCv8jtJcIcE+HOBlMQ1A"); *value_size = strlen(secret); return (unsigned char *) secret; } static virSecretPtr fakeSecretLookupByUsage(virConnectPtr conn, int usageType, const char *usageID) { unsigned char uuid[VIR_UUID_BUFLEN]; if (usageType == VIR_SECRET_USAGE_TYPE_VOLUME) { if (!STRPREFIX(usageID, "/storage/guest_disks/")) { virReportError(VIR_ERR_INTERNAL_ERROR, "test provided invalid volume storage prefix '%s'", usageID); return NULL; } } else if (STRNEQ(usageID, "mycluster_myname") && STRNEQ(usageID, "client.admin secret")) { virReportError(VIR_ERR_INTERNAL_ERROR, "test provided incorrect usage '%s'", usageID); return NULL; } if (virUUIDGenerate(uuid) < 0) return NULL; return virGetSecret(conn, uuid, usageType, usageID); } static virSecretPtr fakeSecretLookupByUUID(virConnectPtr conn, const unsigned char *uuid) { /* NB: This mocked value could be "tls" or "volume" depending on * which test is being run, we'll leave at NONE (or 0) */ return virGetSecret(conn, uuid, VIR_SECRET_USAGE_TYPE_NONE, ""); } static virSecretDriver fakeSecretDriver = { .connectNumOfSecrets = NULL, .connectListSecrets = NULL, .secretLookupByUUID = fakeSecretLookupByUUID, .secretLookupByUsage = fakeSecretLookupByUsage, .secretDefineXML = NULL, .secretGetXMLDesc = NULL, .secretSetValue = NULL, .secretGetValue = fakeSecretGetValue, .secretUndefine = NULL, }; # define STORAGE_POOL_XML_PATH "storagepoolxml2xmlout/" static const unsigned char fakeUUID[VIR_UUID_BUFLEN] = "fakeuuid"; static virStoragePoolPtr fakeStoragePoolLookupByName(virConnectPtr conn, const char *name) { g_autofree char *xmlpath = NULL; if (STRNEQ(name, "inactive")) { xmlpath = g_strdup_printf("%s/%s%s.xml", abs_srcdir, STORAGE_POOL_XML_PATH, name); if (!virFileExists(xmlpath)) { virReportError(VIR_ERR_NO_STORAGE_POOL, "File '%s' not found", xmlpath); return NULL; } } return virGetStoragePool(conn, name, fakeUUID, NULL, NULL); } static virStorageVolPtr fakeStorageVolLookupByName(virStoragePoolPtr pool, const char *name) { g_auto(GStrv) volinfo = NULL; if (STREQ(pool->name, "inactive")) { virReportError(VIR_ERR_OPERATION_INVALID, "storage pool '%s' is not active", pool->name); return NULL; } if (STREQ(name, "nonexistent")) { virReportError(VIR_ERR_NO_STORAGE_VOL, "no storage vol with matching name '%s'", name); return NULL; } if (!(volinfo = g_strsplit(name, "+", 2))) return NULL; if (!volinfo[1]) { return virGetStorageVol(pool->conn, pool->name, name, "block", NULL, NULL); } return virGetStorageVol(pool->conn, pool->name, volinfo[1], volinfo[0], NULL, NULL); } static int fakeStorageVolGetInfo(virStorageVolPtr vol, virStorageVolInfoPtr info) { memset(info, 0, sizeof(*info)); info->type = virStorageVolTypeFromString(vol->key); if (info->type < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, "Invalid volume type '%s'", vol->key); return -1; } return 0; } static char * fakeStorageVolGetPath(virStorageVolPtr vol) { return g_strdup_printf("/some/%s/device/%s", vol->key, vol->name); } static char * fakeStoragePoolGetXMLDesc(virStoragePoolPtr pool, unsigned int flags_unused G_GNUC_UNUSED) { g_autofree char *xmlpath = NULL; char *xmlbuf = NULL; if (STREQ(pool->name, "inactive")) { virReportError(VIR_ERR_NO_STORAGE_POOL, NULL); return NULL; } xmlpath = g_strdup_printf("%s/%s%s.xml", abs_srcdir, STORAGE_POOL_XML_PATH, pool->name); if (virTestLoadFile(xmlpath, &xmlbuf) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, "failed to load XML file '%s'", xmlpath); return NULL; } return xmlbuf; } static int fakeStoragePoolIsActive(virStoragePoolPtr pool) { if (STREQ(pool->name, "inactive")) return 0; return 1; } /* Test storage pool implementation * * These functions aid testing of storage pool related stuff when creating a * qemu command line. * * There are a few "magic" values to pass to these functions: * * 1) "inactive" as a pool name to create an inactive pool. All other names are * interpreted as file names in storagepoolxml2xmlout/ and are used as the * definition for the pool. If the file doesn't exist the pool doesn't exist. * * 2) "nonexistent" returns an error while looking up a volume. Otherwise * pattern VOLUME_TYPE+VOLUME_PATH can be used to simulate a volume in a pool. * This creates a fake path for this volume. If the '+' sign is omitted, block * type is assumed. */ static virStorageDriver fakeStorageDriver = { .storagePoolLookupByName = fakeStoragePoolLookupByName, .storageVolLookupByName = fakeStorageVolLookupByName, .storagePoolGetXMLDesc = fakeStoragePoolGetXMLDesc, .storageVolGetPath = fakeStorageVolGetPath, .storageVolGetInfo = fakeStorageVolGetInfo, .storagePoolIsActive = fakeStoragePoolIsActive, }; /* virNetDevOpenvswitchGetVhostuserIfname mocks a portdev name - handle that */ static virNWFilterBindingPtr fakeNWFilterBindingLookupByPortDev(virConnectPtr conn, const char *portdev) { if (STREQ(portdev, "vhost-user0")) return virGetNWFilterBinding(conn, "fake_vnet0", "fakeFilterName"); virReportError(VIR_ERR_NO_NWFILTER_BINDING, "no nwfilter binding for port dev '%s'", portdev); return NULL; } static int fakeNWFilterBindingDelete(virNWFilterBindingPtr binding G_GNUC_UNUSED) { return 0; } static virNWFilterDriver fakeNWFilterDriver = { .nwfilterBindingLookupByPortDev = fakeNWFilterBindingLookupByPortDev, .nwfilterBindingDelete = fakeNWFilterBindingDelete, }; static void testUpdateQEMUCapsHostCPUModel(virQEMUCaps *qemuCaps, virArch hostArch) { virQEMUCapsUpdateHostCPUModel(qemuCaps, hostArch, VIR_DOMAIN_VIRT_KVM); virQEMUCapsUpdateHostCPUModel(qemuCaps, hostArch, VIR_DOMAIN_VIRT_QEMU); } static int testCheckExclusiveFlags(int flags) { virCheckFlags(FLAG_EXPECT_FAILURE | FLAG_EXPECT_PARSE_ERROR | FLAG_FIPS_HOST | FLAG_REAL_CAPS | FLAG_SLIRP_HELPER | 0, -1); return 0; } static virCommand * testCompareXMLToArgvCreateArgs(virQEMUDriver *drv, virDomainObj *vm, const char *migrateURI, struct testQemuInfo *info, unsigned int flags) { qemuDomainObjPrivate *priv = vm->privateData; size_t i; drv->hostFips = flags & FLAG_FIPS_HOST; if (qemuProcessCreatePretendCmdPrepare(drv, vm, migrateURI, VIR_QEMU_PROCESS_START_COLD) < 0) return NULL; if (qemuDomainDeviceBackendChardevForeach(vm->def, testQemuPrepareHostBackendChardevOne, vm) < 0) return NULL; if (testQemuPrepareHostBackendChardevOne(NULL, priv->monConfig, vm) < 0) return NULL; for (i = 0; i < vm->def->ndisks; i++) { virDomainDiskDef *disk = vm->def->disks[i]; virStorageSource *src; /* host cdrom requires special treatment in qemu, mock it */ if (disk->device == VIR_DOMAIN_DISK_DEVICE_CDROM && disk->src->format == VIR_STORAGE_FILE_RAW && virStorageSourceIsBlockLocal(disk->src) && STREQ(disk->src->path, "/dev/cdrom")) disk->src->hostcdrom = true; if (info->args.vdpafds) { for (src = disk->src; virStorageSourceIsBacking(src); src = src->backingStore) { gpointer value; if (src->type != VIR_STORAGE_TYPE_VHOST_VDPA) continue; if ((value = g_hash_table_lookup(info->args.vdpafds, src->vdpadev))) { int fd = GPOINTER_TO_INT(value); qemuDomainStorageSourcePrivate *srcpriv; VIR_AUTOCLOSE fakefd = open("/dev/zero", O_RDWR); if (fcntl(fd, F_GETFD) != -1) { fprintf(stderr, "fd '%d' is already in use\n", fd); abort(); } if (dup2(fakefd, fd) < 0) { fprintf(stderr, "failed to duplicate fake fd: %s", g_strerror(errno)); abort(); } srcpriv = qemuDomainStorageSourcePrivateFetch(src); srcpriv->fdpass = qemuFDPassNew(qemuBlockStorageSourceGetStorageNodename(src), priv); qemuFDPassAddFD(srcpriv->fdpass, &fd, "-vdpa"); } } } } if (vm->def->vsock) { virDomainVsockDef *vsock = vm->def->vsock; qemuDomainVsockPrivate *vsockPriv = (qemuDomainVsockPrivate *)vsock->privateData; if (vsock->auto_cid == VIR_TRISTATE_BOOL_YES) vsock->guest_cid = 42; vsockPriv->vhostfd = 6789; } for (i = 0; i < vm->def->ntpms; i++) { if (vm->def->tpms[i]->type != VIR_DOMAIN_TPM_TYPE_EMULATOR) continue; VIR_FREE(vm->def->tpms[i]->data.emulator.source->data.nix.path); vm->def->tpms[i]->data.emulator.source->type = VIR_DOMAIN_CHR_TYPE_UNIX; vm->def->tpms[i]->data.emulator.source->data.nix.path = g_strdup("/dev/test"); } for (i = 0; i < vm->def->nvideos; i++) { virDomainVideoDef *video = vm->def->videos[i]; if (video->backend == VIR_DOMAIN_VIDEO_BACKEND_TYPE_VHOSTUSER) { qemuDomainVideoPrivate *vpriv = QEMU_DOMAIN_VIDEO_PRIVATE(video); vpriv->vhost_user_fd = 1729; } } if (flags & FLAG_SLIRP_HELPER) { for (i = 0; i < vm->def->nnets; i++) { virDomainNetDef *net = vm->def->nets[i]; if (net->type == VIR_DOMAIN_NET_TYPE_USER && net->backend.type == VIR_DOMAIN_NET_BACKEND_DEFAULT && virQEMUCapsGet(info->qemuCaps, QEMU_CAPS_DBUS_VMSTATE)) { qemuSlirp *slirp = qemuSlirpNew(); slirp->fd[0] = 42; QEMU_DOMAIN_NETWORK_PRIVATE(net)->slirp = slirp; } } } return qemuProcessCreatePretendCmdBuild(vm, migrateURI); } struct testValidateSchemaCommandData { const char *name; const char *schema; bool allowIncomplete; /* relax validator for commands with incomplete schema */ }; static const struct testValidateSchemaCommandData commands[] = { { "-blockdev", "blockdev-add", false }, { "-netdev", "netdev_add", false }, { "-object", "object-add", false }, { "-device", "device_add", true }, }; static int testCompareXMLToArgvValidateSchemaCommand(GStrv args, GHashTable *schema) { GStrv arg; for (arg = args; *arg; arg++) { const char *curcommand = *arg; const char *curargs = *(arg + 1); size_t i; for (i = 0; i < G_N_ELEMENTS(commands); i++) { const struct testValidateSchemaCommandData *command = commands + i; g_auto(virBuffer) debug = VIR_BUFFER_INITIALIZER; g_autoptr(virJSONValue) jsonargs = NULL; if (STRNEQ(curcommand, command->name)) continue; if (!curargs) { VIR_TEST_VERBOSE("expected arguments for command '%s'", command->name); return -1; } if (*curargs != '{') { arg++; break; } if (!(jsonargs = virJSONValueFromString(curargs))) return -1; if (testQEMUSchemaValidateCommand(command->schema, jsonargs, schema, false, false, command->allowIncomplete, &debug) < 0) { VIR_TEST_VERBOSE("failed to validate '%s %s' against QAPI schema: %s", command->name, curargs, virBufferCurrentContent(&debug)); return -1; } arg++; } } return 0; } static int testCompareXMLToArgvValidateSchema(virCommand *cmd, struct testQemuInfo *info) { g_auto(GStrv) args = NULL; if (!info->qmpSchema) return 0; if (virCommandGetArgList(cmd, &args) < 0) return -1; if (testCompareXMLToArgvValidateSchemaCommand(args, info->qmpSchema) < 0) return -1; return 0; } static int testCompareXMLToArgv(const void *data) { struct testQemuInfo *info = (void *) data; g_autofree char *migrateURI = NULL; g_auto(virBuffer) actualBuf = VIR_BUFFER_INITIALIZER; g_autofree char *actualargv = NULL; unsigned int flags = info->flags; unsigned int parseFlags = info->parseFlags; int ret = -1; virDomainObj *vm = NULL; virDomainChrSourceDef monitor_chr = { 0 }; g_autoptr(virConnect) conn = NULL; virError *err = NULL; g_autofree char *log = NULL; g_autoptr(virCommand) cmd = NULL; qemuDomainObjPrivate *priv = NULL; g_autoptr(xmlDoc) xml = NULL; g_autoptr(xmlXPathContext) ctxt = NULL; g_autofree char *archstr = NULL; virArch arch = VIR_ARCH_NONE; g_autoptr(virIdentity) sysident = virIdentityGetSystem(); if (testQemuInfoInitArgs((struct testQemuInfo *) info) < 0) goto cleanup; if (info->arch != VIR_ARCH_NONE && info->arch != VIR_ARCH_X86_64) qemuTestSetHostArch(&driver, info->arch); if (info->args.capsHostCPUModel) { virCPUDef *hostCPUModel = qemuTestGetCPUDef(info->args.capsHostCPUModel); qemuTestSetHostCPU(&driver, driver.hostarch, hostCPUModel); testUpdateQEMUCapsHostCPUModel(info->qemuCaps, driver.hostarch); } if (!(conn = virGetConnect())) goto cleanup; conn->secretDriver = &fakeSecretDriver; conn->storageDriver = &fakeStorageDriver; conn->nwfilterDriver = &fakeNWFilterDriver; virSetConnectInterface(conn); virSetConnectNetwork(conn); virSetConnectNWFilter(conn); virSetConnectNodeDev(conn); virSetConnectSecret(conn); virSetConnectStorage(conn); if (virIdentitySetCurrent(sysident) < 0) goto cleanup; if (testCheckExclusiveFlags(info->flags) < 0) goto cleanup; if (!(xml = virXMLParse(info->infile, NULL, "(domain_definition)", "domain", &ctxt, NULL, false))) goto cleanup; if ((archstr = virXPathString("string(./os/type[1]/@arch)", ctxt))) arch = virArchFromString(archstr); if (arch == VIR_ARCH_NONE) arch = virArchFromHost(); virFileCacheClear(driver.qemuCapsCache); if (qemuTestCapsCacheInsert(driver.qemuCapsCache, info->qemuCaps) < 0) goto cleanup; if (info->nbdkitCaps) { if (virFileCacheInsertData(driver.nbdkitCapsCache, TEST_NBDKIT_PATH, g_object_ref(info->nbdkitCaps)) < 0) { g_object_unref(info->nbdkitCaps); goto cleanup; } } if (info->migrateFrom && !(migrateURI = qemuMigrationDstGetURI(info->migrateFrom, info->migrateFd))) goto cleanup; if (!(vm = virDomainObjNew(driver.xmlopt))) goto cleanup; if (!virFileExists(info->infile)) { virReportError(VIR_ERR_INTERNAL_ERROR, "Input file '%s' not found", info->infile); goto cleanup; } parseFlags |= VIR_DOMAIN_DEF_PARSE_INACTIVE; if (!(vm->def = virDomainDefParseNode(ctxt, driver.xmlopt, NULL, parseFlags))) { err = virGetLastError(); if (!err) { VIR_TEST_DEBUG("no error was reported for expected parse error"); goto cleanup; } if (flags & FLAG_EXPECT_PARSE_ERROR) { g_autofree char *tmperr = g_strdup_printf("%s\n", NULLSTR(err->message)); if (virTestCompareToFile(tmperr, info->errfile) >= 0) goto ok; } goto cleanup; } if (flags & FLAG_EXPECT_PARSE_ERROR) { VIR_TEST_DEBUG("passed instead of expected parse error"); goto cleanup; } priv = vm->privateData; if (info->args.fds) { g_clear_pointer(&priv->fds, g_hash_table_unref); priv->fds = g_steal_pointer(&info->args.fds); } if (virBitmapParse("0-3", &priv->autoNodeset, 4) < 0) goto cleanup; if (!virDomainDefCheckABIStability(vm->def, vm->def, driver.xmlopt)) { VIR_TEST_DEBUG("ABI stability check failed on %s", info->infile); goto cleanup; } vm->def->id = -1; if (qemuProcessPrepareMonitorChr(&monitor_chr, priv->libDir) < 0) goto cleanup; virResetLastError(); if (!(cmd = testCompareXMLToArgvCreateArgs(&driver, vm, migrateURI, info, flags))) { err = virGetLastError(); if (!err) { VIR_TEST_DEBUG("no error was reported for expected failure"); goto cleanup; } if (flags & FLAG_EXPECT_FAILURE) { g_autofree char *tmperr = g_strdup_printf("%s\n", NULLSTR(err->message)); if (virTestCompareToFile(tmperr, info->errfile) >= 0) goto ok; } goto cleanup; } if (flags & FLAG_EXPECT_FAILURE) { VIR_TEST_DEBUG("passed instead of expected failure"); goto cleanup; } if (testCompareXMLToArgvValidateSchema(cmd, info) < 0) goto cleanup; if (virCommandToStringBuf(cmd, &actualBuf, true, false) < 0) goto cleanup; virBufferAddLit(&actualBuf, "\n"); actualargv = virBufferContentAndReset(&actualBuf); if (virTestCompareToFileFull(actualargv, info->outfile, false) < 0) goto cleanup; ret = 0; ok: if (ret == 0 && flags & FLAG_EXPECT_FAILURE) { ret = -1; VIR_TEST_DEBUG("Error expected but there wasn't any."); goto cleanup; } if (flags & FLAG_EXPECT_FAILURE) { if ((log = virTestLogContentAndReset())) VIR_TEST_DEBUG("Got expected error: \n%s", log); } virResetLastError(); ret = 0; cleanup: /* clear overriden host cpu */ if (info->args.capsHostCPUModel) qemuTestSetHostCPU(&driver, driver.hostarch, NULL); virDomainChrSourceDefClear(&monitor_chr); virObjectUnref(vm); virIdentitySetCurrent(NULL); virSetConnectSecret(NULL); virSetConnectStorage(NULL); if (info->arch != VIR_ARCH_NONE && info->arch != VIR_ARCH_X86_64) qemuTestSetHostArch(&driver, VIR_ARCH_NONE); return ret; } static void testInfoSetPaths(struct testQemuInfo *info, const char *suffix) { info->infile = g_strdup_printf("%s/qemuxml2argvdata/%s.xml", abs_srcdir, info->name); info->outfile = g_strdup_printf("%s/qemuxml2argvdata/%s%s.args", abs_srcdir, info->name, suffix ? suffix : ""); info->errfile = g_strdup_printf("%s/qemuxml2argvdata/%s%s.err", abs_srcdir, info->name, suffix ? suffix : ""); } static int mymain(void) { int ret = 0; g_autoptr(GHashTable) capslatest = testQemuGetLatestCaps(); g_autoptr(GHashTable) qapiSchemaCache = virHashNew((GDestroyNotify) g_hash_table_unref); g_autoptr(GHashTable) capscache = virHashNew(virObjectUnref); struct testQemuConf testConf = { .capslatest = capslatest, .capscache = capscache, .qapiSchemaCache = qapiSchemaCache }; if (!capslatest) return EXIT_FAILURE; /* Set the timezone because we are mocking the time() function. * If we don't do that, then localtime() may return unpredictable * results. In order to detect things that just work by a blind * chance, we need to set an virtual timezone that no libvirt * developer resides in. */ if (g_setenv("TZ", "VIR00:30", TRUE) == FALSE) { perror("g_setenv"); return EXIT_FAILURE; } if (qemuTestDriverInit(&driver) < 0) return EXIT_FAILURE; virFileWrapperAddPrefix("/sys/devices/system", abs_srcdir "/vircaps2xmldata/linux-basic/system"); virFileWrapperAddPrefix(SYSCONFDIR "/qemu/firmware", abs_srcdir "/qemufirmwaredata/etc/qemu/firmware"); virFileWrapperAddPrefix(PREFIX "/share/qemu/firmware", abs_srcdir "/qemufirmwaredata/usr/share/qemu/firmware"); virFileWrapperAddPrefix("/home/user/.config/qemu/firmware", abs_srcdir "/qemufirmwaredata/home/user/.config/qemu/firmware"); virFileWrapperAddPrefix(SYSCONFDIR "/qemu/vhost-user", abs_srcdir "/qemuvhostuserdata/etc/qemu/vhost-user"); virFileWrapperAddPrefix(PREFIX "/share/qemu/vhost-user", abs_srcdir "/qemuvhostuserdata/usr/share/qemu/vhost-user"); virFileWrapperAddPrefix("/home/user/.config/qemu/vhost-user", abs_srcdir "/qemuvhostuserdata/home/user/.config/qemu/vhost-user"); virFileWrapperAddPrefix("/usr/libexec/qemu/vhost-user", abs_srcdir "/qemuvhostuserdata/usr/libexec/qemu/vhost-user"); /** * The following set of macros allows testing of XML -> argv conversion with a * real set of capabilities gathered from a real qemu copy. It is desired to use * these for positive test cases as it provides combinations of flags which * can be met in real life. * * The capabilities are taken from the real capabilities stored in * tests/qemucapabilitiesdata. * * It is suggested to use the DO_TEST_CAPS_LATEST macro which always takes the * most recent capability set. In cases when the new code would change behaviour * the test cases should be forked using DO_TEST_CAPS_VER with the appropriate * version. */ # define DO_TEST_FULL(_name, _suffix, ...) \ do { \ static struct testQemuInfo info = { \ .name = _name, \ }; \ testQemuInfoSetArgs(&info, &testConf, __VA_ARGS__); \ testInfoSetPaths(&info, _suffix); \ virTestRunLog(&ret, "QEMU XML-2-ARGV " _name _suffix, testCompareXMLToArgv, &info); \ testQemuInfoClear(&info); \ } while (0) # define DO_TEST_CAPS_INTERNAL(name, arch, ver, ...) \ DO_TEST_FULL(name, "." arch "-" ver, \ ARG_CAPS_ARCH, arch, \ ARG_CAPS_VER, ver, \ __VA_ARGS__, \ ARG_END) # define DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, ...) \ DO_TEST_CAPS_INTERNAL(name, arch, "latest", __VA_ARGS__) # define DO_TEST_CAPS_ARCH_VER_FULL(name, arch, ver, ...) \ DO_TEST_CAPS_INTERNAL(name, arch, ver, __VA_ARGS__) # define DO_TEST_CAPS_ARCH_LATEST(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, ARG_END) # define DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, \ ARG_PARSEFLAGS, VIR_DOMAIN_DEF_PARSE_ABI_UPDATE, \ ARG_END) # define DO_TEST_CAPS_ARCH_VER(name, arch, ver) \ DO_TEST_CAPS_ARCH_VER_FULL(name, arch, ver, ARG_END) # if WITH_NBDKIT # define DO_TEST_CAPS_LATEST_NBDKIT(name, ...) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, "x86_64", ARG_NBDKIT_CAPS, __VA_ARGS__, QEMU_NBDKIT_CAPS_LAST, ARG_END) # else # define DO_TEST_CAPS_LATEST_NBDKIT(name, ...) # endif /* WITH_NBDKIT */ # define DO_TEST_CAPS_LATEST(name) \ DO_TEST_CAPS_ARCH_LATEST(name, "x86_64") # define DO_TEST_CAPS_LATEST_ABI_UPDATE(name) \ DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE(name, "x86_64") # define DO_TEST_CAPS_VER(name, ver) \ DO_TEST_CAPS_ARCH_VER(name, "x86_64", ver) # define DO_TEST_CAPS_LATEST_PPC64(name) \ DO_TEST_CAPS_ARCH_LATEST(name, "ppc64") # define DO_TEST_CAPS_LATEST_PPC64_HOSTCPU(name, hostcpu) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, "ppc64", \ ARG_CAPS_HOST_CPU_MODEL, hostcpu) # define DO_TEST_CAPS_LATEST_PPC64_HOSTCPU_FAILURE(name, hostcpu) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, "ppc64", \ ARG_CAPS_HOST_CPU_MODEL, hostcpu, \ ARG_FLAGS, FLAG_EXPECT_FAILURE) # define DO_TEST_CAPS_ARCH_LATEST_FAILURE(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, \ ARG_FLAGS, FLAG_EXPECT_FAILURE) # define DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE_FAILURE(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, \ ARG_PARSEFLAGS, VIR_DOMAIN_DEF_PARSE_ABI_UPDATE, \ ARG_FLAGS, FLAG_EXPECT_FAILURE) # define DO_TEST_CAPS_ARCH_VER_FAILURE(name, arch, ver) \ DO_TEST_CAPS_ARCH_VER_FULL(name, arch, ver, \ ARG_FLAGS, FLAG_EXPECT_FAILURE) # define DO_TEST_CAPS_LATEST_FAILURE(name) \ DO_TEST_CAPS_ARCH_LATEST_FAILURE(name, "x86_64") # define DO_TEST_CAPS_LATEST_ABI_UPDATE_FAILURE(name) \ DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE_FAILURE(name, "x86_64") # define DO_TEST_CAPS_VER_FAILURE(name, ver) \ DO_TEST_CAPS_ARCH_VER_FAILURE(name, "x86_64", ver) # define DO_TEST_CAPS_ARCH_LATEST_PARSE_ERROR(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, \ ARG_FLAGS, FLAG_EXPECT_PARSE_ERROR) # define DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE_PARSE_ERROR(name, arch) \ DO_TEST_CAPS_ARCH_LATEST_FULL(name, arch, \ ARG_PARSEFLAGS, VIR_DOMAIN_DEF_PARSE_ABI_UPDATE, \ ARG_FLAGS, FLAG_EXPECT_PARSE_ERROR) # define DO_TEST_CAPS_ARCH_VER_PARSE_ERROR(name, arch, ver) \ DO_TEST_CAPS_ARCH_VER_FULL(name, arch, ver, \ ARG_FLAGS, FLAG_EXPECT_PARSE_ERROR) # define DO_TEST_CAPS_LATEST_PARSE_ERROR(name) \ DO_TEST_CAPS_ARCH_LATEST_PARSE_ERROR(name, "x86_64") # define DO_TEST_CAPS_LATEST_ABI_UPDATE_PARSE_ERROR(name) \ DO_TEST_CAPS_ARCH_LATEST_ABI_UPDATE_PARSE_ERROR(name, "x86_64") # define DO_TEST_CAPS_VER_PARSE_ERROR(name, ver) \ DO_TEST_CAPS_ARCH_VER_PARSE_ERROR(name, "x86_64", ver) # define DO_TEST_GIC(name, ver, gic) \ DO_TEST_CAPS_ARCH_VER_FULL(name, "aarch64", ver, ARG_GIC, gic, ARG_END) /* Unset or set all envvars here that are copied in qemudBuildCommandLine * using ADD_ENV_COPY, otherwise these tests may fail due to unexpected * values for these envvars */ g_setenv("PATH", "/bin", TRUE); g_setenv("USER", "test", TRUE); g_setenv("LOGNAME", "test", TRUE); g_setenv("HOME", "/home/test", TRUE); g_setenv("LC_ALL", "C", TRUE); g_unsetenv("TMPDIR"); g_unsetenv("LD_PRELOAD"); g_unsetenv("LD_LIBRARY_PATH"); g_unsetenv("DYLD_INSERT_LIBRARIES"); g_unsetenv("DYLD_FORCE_FLAT_NAMESPACE"); g_unsetenv("QEMU_AUDIO_DRV"); g_unsetenv("SDL_AUDIODRIVER"); g_unsetenv("PIPEWIRE_CORE"); g_unsetenv("PIPEWIRE_REMOTE"); g_unsetenv("PIPEWIRE_RUNTIME_DIR"); DO_TEST_CAPS_LATEST("minimal"); DO_TEST_CAPS_LATEST_PARSE_ERROR("minimal-no-memory"); DO_TEST_CAPS_LATEST("genid"); DO_TEST_CAPS_LATEST("genid-auto"); DO_TEST_CAPS_LATEST("machine-aliases1"); DO_TEST_CAPS_LATEST("machine-aliases2"); DO_TEST_CAPS_LATEST("machine-core-on"); driver.config->dumpGuestCore = true; DO_TEST_CAPS_LATEST("machine-core-off"); driver.config->dumpGuestCore = false; DO_TEST_CAPS_LATEST("machine-smm-on"); DO_TEST_CAPS_LATEST("machine-smm-off"); DO_TEST_CAPS_LATEST("machine-vmport-opt"); DO_TEST_CAPS_LATEST("default-kvm-host-arch"); DO_TEST_CAPS_LATEST("default-qemu-host-arch"); DO_TEST_CAPS_LATEST("x86-kvm-32-on-64"); DO_TEST_CAPS_LATEST("boot-cdrom"); DO_TEST_CAPS_LATEST("boot-network"); DO_TEST_CAPS_LATEST("boot-floppy"); DO_TEST_CAPS_LATEST("boot-floppy-q35"); DO_TEST_CAPS_LATEST("boot-multi"); DO_TEST_CAPS_LATEST("boot-menu-enable"); DO_TEST_CAPS_LATEST("boot-menu-enable-with-timeout"); DO_TEST_CAPS_LATEST_PARSE_ERROR("boot-menu-enable-with-timeout-invalid"); DO_TEST_CAPS_LATEST("boot-menu-disable"); DO_TEST_CAPS_LATEST("boot-menu-disable-drive"); DO_TEST_CAPS_LATEST_PARSE_ERROR("boot-dev+order"); DO_TEST_CAPS_LATEST("boot-order"); DO_TEST_CAPS_LATEST("boot-complex"); DO_TEST_CAPS_LATEST("audio-none-minimal"); DO_TEST_CAPS_LATEST("audio-alsa-minimal"); DO_TEST_CAPS_LATEST("audio-coreaudio-minimal"); DO_TEST_CAPS_LATEST("audio-jack-minimal"); DO_TEST_CAPS_LATEST("audio-oss-minimal"); DO_TEST_CAPS_LATEST("audio-pulseaudio-minimal"); g_setenv("PIPEWIRE_RUNTIME_DIR", "/run/user/1000", TRUE); DO_TEST_CAPS_LATEST("audio-pipewire-minimal"); g_unsetenv("PIPEWIRE_RUNTIME_DIR"); DO_TEST_CAPS_LATEST("audio-sdl-minimal"); DO_TEST_CAPS_LATEST("audio-spice-minimal"); DO_TEST_CAPS_LATEST("audio-file-minimal"); DO_TEST_CAPS_LATEST("audio-none-best"); DO_TEST_CAPS_LATEST("audio-alsa-best"); DO_TEST_CAPS_LATEST("audio-coreaudio-best"); DO_TEST_CAPS_LATEST("audio-oss-best"); DO_TEST_CAPS_LATEST("audio-pulseaudio-best"); DO_TEST_CAPS_LATEST("audio-pipewire-best"); DO_TEST_CAPS_LATEST("audio-sdl-best"); DO_TEST_CAPS_LATEST("audio-spice-best"); DO_TEST_CAPS_LATEST("audio-file-best"); DO_TEST_CAPS_LATEST("audio-none-full"); DO_TEST_CAPS_LATEST("audio-alsa-full"); DO_TEST_CAPS_LATEST("audio-coreaudio-full"); DO_TEST_CAPS_LATEST("audio-jack-full"); DO_TEST_CAPS_LATEST("audio-oss-full"); DO_TEST_CAPS_LATEST("audio-pulseaudio-full"); DO_TEST_CAPS_LATEST("audio-pipewire-full"); DO_TEST_CAPS_LATEST("audio-sdl-full"); DO_TEST_CAPS_LATEST("audio-spice-full"); DO_TEST_CAPS_LATEST("audio-file-full"); g_setenv("PIPEWIRE_RUNTIME_DIR", "/run/user/1000", TRUE); DO_TEST_CAPS_LATEST("audio-many-backends"); g_unsetenv("PIPEWIRE_RUNTIME_DIR"); /* Validate auto-creation of