#include #include "testutils.h" #ifdef WITH_BHYVE # include "datatypes.h" # include "bhyve/bhyve_capabilities.h" # include "bhyve/bhyve_domain.h" # include "bhyve/bhyve_utils.h" # include "bhyve/bhyve_command.h" # define VIR_FROM_THIS VIR_FROM_BHYVE static bhyveConn driver; typedef enum { FLAG_EXPECT_FAILURE = 1 << 0, FLAG_EXPECT_PARSE_ERROR = 1 << 1, } virBhyveXMLToArgvTestFlags; static int testCompareXMLToArgvFiles(const char *xml, const char *cmdline, const char *ldcmdline, const char *dmcmdline, unsigned int flags) { char *actualargv = NULL, *actualld = NULL, *actualdm = NULL; virDomainDefPtr vmdef = NULL; virCommandPtr cmd = NULL, ldcmd = NULL; virConnectPtr conn; int ret = -1; if (!(conn = virGetConnect())) goto out; if (!(vmdef = virDomainDefParseFile(xml, driver.caps, driver.xmlopt, NULL, VIR_DOMAIN_DEF_PARSE_INACTIVE))) { if (flags & FLAG_EXPECT_PARSE_ERROR) { ret = 0; } else if (flags & FLAG_EXPECT_FAILURE) { ret = 0; VIR_TEST_DEBUG("Got expected error: %s\n", virGetLastErrorMessage()); virResetLastError(); } goto out; } conn->privateData = &driver; cmd = virBhyveProcessBuildBhyveCmd(conn, vmdef, false); if (vmdef->os.loader) ldcmd = virCommandNew("dummy"); else ldcmd = virBhyveProcessBuildLoadCmd(conn, vmdef, "", &actualdm); if ((cmd == NULL) || (ldcmd == NULL)) { if (flags & FLAG_EXPECT_FAILURE) { ret = 0; VIR_TEST_DEBUG("Got expected error: %s\n", virGetLastErrorMessage()); virResetLastError(); } goto out; } if (!(actualargv = virCommandToString(cmd))) goto out; if (actualdm != NULL) virTrimSpaces(actualdm, NULL); if (!(actualld = virCommandToString(ldcmd))) goto out; if (virTestCompareToFile(actualargv, cmdline) < 0) goto out; if (virTestCompareToFile(actualld, ldcmdline) < 0) goto out; if (virFileExists(dmcmdline) || actualdm) { if (virTestCompareToFile(actualdm, dmcmdline) < 0) goto out; } ret = 0; out: VIR_FREE(actualargv); VIR_FREE(actualld); VIR_FREE(actualdm); virCommandFree(cmd); virCommandFree(ldcmd); virDomainDefFree(vmdef); virObjectUnref(conn); return ret; } struct testInfo { const char *name; unsigned int flags; }; static int testCompareXMLToArgvHelper(const void *data) { int ret = -1; const struct testInfo *info = data; char *xml = NULL; char *args = NULL, *ldargs = NULL, *dmargs = NULL; if (virAsprintf(&xml, "%s/bhyvexml2argvdata/bhyvexml2argv-%s.xml", abs_srcdir, info->name) < 0 || virAsprintf(&args, "%s/bhyvexml2argvdata/bhyvexml2argv-%s.args", abs_srcdir, info->name) < 0 || virAsprintf(&ldargs, "%s/bhyvexml2argvdata/bhyvexml2argv-%s.ldargs", abs_srcdir, info->name) < 0 || virAsprintf(&dmargs, "%s/bhyvexml2argvdata/bhyvexml2argv-%s.devmap", abs_srcdir, info->name) < 0) goto cleanup; ret = testCompareXMLToArgvFiles(xml, args, ldargs, dmargs, info->flags); cleanup: VIR_FREE(xml); VIR_FREE(args); VIR_FREE(ldargs); VIR_FREE(dmargs); return ret; } static int mymain(void) { int ret = 0; if ((driver.caps = virBhyveCapsBuild()) == NULL) return EXIT_FAILURE; if ((driver.xmlopt = virBhyveDriverCreateXMLConf(&driver)) == NULL) return EXIT_FAILURE; # define DO_TEST_FULL(name, flags) \ do { \ static struct testInfo info = { \ name, (flags) \ }; \ if (virTestRun("BHYVE XML-2-ARGV " name, \ testCompareXMLToArgvHelper, &info) < 0) \ ret = -1; \ } while (0) # define DO_TEST(name) \ DO_TEST_FULL(name, 0) # define DO_TEST_FAILURE(name) \ DO_TEST_FULL(name, FLAG_EXPECT_FAILURE) # define DO_TEST_PARSE_ERROR(name) \ DO_TEST_FULL(name, FLAG_EXPECT_PARSE_ERROR) driver.grubcaps = BHYVE_GRUB_CAP_CONSDEV; driver.bhyvecaps = BHYVE_CAP_RTC_UTC | BHYVE_CAP_AHCI32SLOT | \ BHYVE_CAP_NET_E1000 | BHYVE_CAP_LPC_BOOTROM | \ BHYVE_CAP_FBUF | BHYVE_CAP_XHCI; DO_TEST("base"); DO_TEST("acpiapic"); DO_TEST("disk-cdrom"); DO_TEST("disk-virtio"); DO_TEST("macaddr"); DO_TEST("serial"); DO_TEST("console"); DO_TEST("grub-defaults"); DO_TEST("grub-bootorder"); DO_TEST("grub-bootorder2"); DO_TEST("bhyveload-bootorder"); DO_TEST("bhyveload-bootorder1"); DO_TEST_FAILURE("bhyveload-bootorder2"); DO_TEST("bhyveload-bootorder3"); DO_TEST("bhyveload-explicitargs"); DO_TEST_FAILURE("bhyveload-bootorder4"); DO_TEST_PARSE_ERROR("bhyveload-bootorder5"); DO_TEST("custom-loader"); DO_TEST("disk-cdrom-grub"); DO_TEST("serial-grub"); DO_TEST("localtime"); DO_TEST("net-e1000"); DO_TEST("uefi"); DO_TEST("vnc"); /* Address allocation tests */ DO_TEST("addr-single-sata-disk"); DO_TEST("addr-multiple-sata-disks"); DO_TEST("addr-more-than-32-sata-disks"); DO_TEST("addr-single-virtio-disk"); DO_TEST("addr-multiple-virtio-disks"); /* The same without 32 devs per controller support */ driver.bhyvecaps ^= BHYVE_CAP_AHCI32SLOT; DO_TEST("addr-no32devs-single-sata-disk"); DO_TEST("addr-no32devs-multiple-sata-disks"); DO_TEST_FAILURE("addr-no32devs-more-than-32-sata-disks"); /* USB xhci tablet */ DO_TEST("input-xhci-tablet"); DO_TEST_FAILURE("xhci-multiple-controllers"); DO_TEST_FAILURE("xhci-no-devs"); DO_TEST_FAILURE("xhci-multiple-devs"); driver.bhyvecaps ^= BHYVE_CAP_XHCI; DO_TEST_FAILURE("input-xhci-tablet"); driver.grubcaps = 0; DO_TEST("serial-grub-nocons"); driver.bhyvecaps &= ~BHYVE_CAP_NET_E1000; DO_TEST_FAILURE("net-e1000"); driver.bhyvecaps &= ~BHYVE_CAP_LPC_BOOTROM; DO_TEST_FAILURE("uefi"); driver.bhyvecaps &= ~BHYVE_CAP_FBUF; DO_TEST_FAILURE("vnc"); virObjectUnref(driver.caps); virObjectUnref(driver.xmlopt); return ret == 0 ? EXIT_SUCCESS : EXIT_FAILURE; } VIRT_TEST_MAIN_PRELOAD(mymain, abs_builddir "/.libs/bhyvexml2argvmock.so") #else int main(void) { return EXIT_AM_SKIP; } #endif /* WITH_BHYVE */