/* * Copyright (C) 2011-2013 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see * . * */ #include #include #include "testutils.h" #include "testutilsqemuschema.h" #include "qemumonitortestutils.h" #include "virthread.h" #define LIBVIRT_QEMU_PROCESSPRIV_H_ALLOW #include "qemu/qemu_processpriv.h" #include "qemu/qemu_monitor.h" #include "qemu/qemu_agent.h" #include "qemu/qemu_qapi.h" #include "rpc/virnetsocket.h" #include "viralloc.h" #include "virlog.h" #include "virerror.h" #include "virstring.h" #include "vireventthread.h" #define VIR_FROM_THIS VIR_FROM_NONE VIR_LOG_INIT("tests.qemumonitortestutils"); struct _qemuMonitorTestItem { char *identifier; qemuMonitorTestResponseCallback cb; void *opaque; virFreeCallback freecb; }; struct _qemuMonitorTest { virMutex lock; virThread thread; bool quit; bool running; bool started; bool allowUnusedCommands; bool skipValidationDeprecated; bool skipValidationRemoved; char *incoming; size_t incomingLength; size_t incomingCapacity; char *outgoing; size_t outgoingLength; size_t outgoingCapacity; virNetSocket *server; virNetSocket *client; virEventThread *eventThread; qemuMonitor *mon; qemuAgent *agent; char *tmpdir; size_t nitems; qemuMonitorTestItem **items; virDomainObj *vm; GHashTable *qapischema; }; static void qemuMonitorTestItemFree(qemuMonitorTestItem *item) { if (!item) return; g_free(item->identifier); if (item->freecb) (item->freecb)(item->opaque); g_free(item); } /* * Appends data for a reply to the outgoing buffer */ int qemuMonitorTestAddResponse(qemuMonitorTest *test, const char *response) { size_t want = strlen(response) + 2; size_t have = test->outgoingCapacity - test->outgoingLength; VIR_DEBUG("Adding response to monitor command: '%s", response); if (have < want) { size_t need = want - have; VIR_EXPAND_N(test->outgoing, test->outgoingCapacity, need); } want -= 2; memcpy(test->outgoing + test->outgoingLength, response, want); memcpy(test->outgoing + test->outgoingLength + want, "\r\n", 2); test->outgoingLength += want + 2; return 0; } static int qemuMonitorTestAddErrorResponseInternal(qemuMonitorTest *test, const char *usermsg) { g_auto(virBuffer) buf = VIR_BUFFER_INITIALIZER; g_autofree char *escapemsg = NULL; g_autofree char *jsonmsg = NULL; char *tmp; if (!usermsg) usermsg = "unexpected command"; virBufferEscape(&buf, '\\', "\"", "%s", usermsg); escapemsg = virBufferContentAndReset(&buf); /* replace newline/carriage return with space */ tmp = escapemsg; while (*tmp) { if (*tmp == '\r' || *tmp == '\n') *tmp = ' '; tmp++; } /* format the JSON error message */ jsonmsg = g_strdup_printf("{ \"error\": " " { \"desc\": \"%s\", " " \"class\": \"UnexpectedCommand\" } }", escapemsg); return qemuMonitorTestAddResponse(test, jsonmsg); } int qemuMonitorTestAddInvalidCommandResponse(qemuMonitorTest *test, const char *expectedcommand, const char *actualcommand) { g_autofree char *msg = NULL; msg = g_strdup_printf("expected command '%s' got '%s'", expectedcommand, actualcommand); return qemuMonitorTestAddErrorResponseInternal(test, msg); } int G_GNUC_PRINTF(2, 3) qemuMonitorTestAddErrorResponse(qemuMonitorTest *test, const char *errmsg, ...) { va_list msgargs; g_autofree char *msg = NULL; g_autofree char *jsonmsg = NULL; int ret = -1; va_start(msgargs, errmsg); msg = g_strdup_vprintf(errmsg, msgargs); jsonmsg = g_strdup_printf("{ \"error\": " " { \"desc\": \"%s\", " " \"class\": \"UnexpectedCommand\" } }", msg); ret = qemuMonitorTestAddResponse(test, jsonmsg); va_end(msgargs); return ret; } static void G_GNUC_NORETURN G_GNUC_PRINTF(1, 2) qemuMonitorTestError(const char *errmsg, ...) { va_list msgargs; va_start(msgargs, errmsg); g_fprintf(stderr, "\n"); g_vfprintf(stderr, errmsg, msgargs); g_fprintf(stderr, "\n"); exit(EXIT_FAILURE); /* exempt from syntax-check */ } static void G_GNUC_NORETURN qemuMonitorTestErrorInvalidCommand(const char *expectedcommand, const char *actualcommand) { qemuMonitorTestError("expected command '%s' got '%s'", expectedcommand, actualcommand); } static int qemuMonitorTestProcessCommand(qemuMonitorTest *test, const char *cmdstr) { int ret; VIR_DEBUG("Processing string from monitor handler: '%s", cmdstr); if (test->nitems == 0) { qemuMonitorTestError("unexpected command: '%s'", cmdstr); } else { qemuMonitorTestItem *item = test->items[0]; ret = (item->cb)(test, item, cmdstr); qemuMonitorTestItemFree(item); if (VIR_DELETE_ELEMENT(test->items, 0, test->nitems) < 0) return -1; } return ret; } /* * Handles read/write of monitor data on the monitor server side */ static void qemuMonitorTestIO(virNetSocket *sock, int events, void *opaque) { qemuMonitorTest *test = opaque; bool err = false; virMutexLock(&test->lock); if (test->quit) { virMutexUnlock(&test->lock); return; } if (events & VIR_EVENT_HANDLE_WRITABLE) { ssize_t ret; if ((ret = virNetSocketWrite(sock, test->outgoing, test->outgoingLength)) < 0) { err = true; goto cleanup; } memmove(test->outgoing, test->outgoing + ret, test->outgoingLength - ret); test->outgoingLength -= ret; if ((test->outgoingCapacity - test->outgoingLength) > 1024) VIR_SHRINK_N(test->outgoing, test->outgoingCapacity, 1024); } if (events & VIR_EVENT_HANDLE_READABLE) { ssize_t ret, used; char *t1, *t2; if ((test->incomingCapacity - test->incomingLength) < 1024) { VIR_EXPAND_N(test->incoming, test->incomingCapacity, 1024); } if ((ret = virNetSocketRead(sock, test->incoming + test->incomingLength, (test->incomingCapacity - test->incomingLength) - 1)) < 0) { err = true; goto cleanup; } test->incomingLength += ret; test->incoming[test->incomingLength] = '\0'; /* Look to see if we've got a complete line, and * if so, handle that command */ t1 = test->incoming; while ((t2 = strstr(t1, "\n")) || (test->agent && (t2 = strstr(t1, "\r")))) { *t2 = '\0'; if (qemuMonitorTestProcessCommand(test, t1) < 0) { err = true; goto cleanup; } t1 = t2 + 1; } used = t1 - test->incoming; memmove(test->incoming, t1, test->incomingLength - used); test->incomingLength -= used; if ((test->incomingCapacity - test->incomingLength) > 1024) { VIR_SHRINK_N(test->incoming, test->incomingCapacity, 1024); } } if (events & (VIR_EVENT_HANDLE_HANGUP | VIR_EVENT_HANDLE_ERROR)) err = true; cleanup: if (err) { virNetSocketRemoveIOCallback(sock); virNetSocketClose(sock); g_clear_pointer(&test->client, virObjectUnref); } else { events = VIR_EVENT_HANDLE_READABLE; if (test->outgoingLength) events |= VIR_EVENT_HANDLE_WRITABLE; virNetSocketUpdateIOCallback(sock, events); } virMutexUnlock(&test->lock); } static void qemuMonitorTestWorker(void *opaque) { qemuMonitorTest *test = opaque; virMutexLock(&test->lock); while (!test->quit) { virMutexUnlock(&test->lock); if (virEventRunDefaultImpl() < 0) { virMutexLock(&test->lock); test->quit = true; break; } virMutexLock(&test->lock); } test->running = false; virMutexUnlock(&test->lock); return; } static void qemuMonitorTestFreeTimer(int timer G_GNUC_UNUSED, void *opaque G_GNUC_UNUSED) { /* nothing to be done here */ } void qemuMonitorTestFree(qemuMonitorTest *test) { size_t i; int timer = -1; if (!test) return; virMutexLock(&test->lock); if (test->running) { test->quit = true; /* HACK: Add a dummy timeout to break event loop */ timer = virEventAddTimeout(0, qemuMonitorTestFreeTimer, NULL, NULL); } virMutexUnlock(&test->lock); if (test->client) { virNetSocketRemoveIOCallback(test->client); virNetSocketClose(test->client); virObjectUnref(test->client); } virObjectUnref(test->server); if (test->mon) { virObjectUnlock(test->mon); qemuMonitorClose(test->mon); } if (test->agent) { virObjectUnlock(test->agent); qemuAgentClose(test->agent); } g_object_unref(test->eventThread); virObjectUnref(test->vm); if (test->started) virThreadJoin(&test->thread); if (timer != -1) virEventRemoveTimeout(timer); g_free(test->incoming); g_free(test->outgoing); for (i = 0; i < test->nitems; i++) { if (!test->allowUnusedCommands) { g_fprintf(stderr, "\nunused test monitor item '%s'", NULLSTR(test->items[i]->identifier)); } qemuMonitorTestItemFree(test->items[i]); } g_free(test->items); if (test->tmpdir && rmdir(test->tmpdir) < 0) VIR_WARN("Failed to remove tempdir: %s", g_strerror(errno)); g_free(test->tmpdir); if (!test->allowUnusedCommands && test->nitems != 0) { qemuMonitorTestError("unused test monitor items are not allowed for this test\n"); } virMutexDestroy(&test->lock); g_free(test); } int qemuMonitorTestAddHandler(qemuMonitorTest *test, const char *identifier, qemuMonitorTestResponseCallback cb, void *opaque, virFreeCallback freecb) { qemuMonitorTestItem *item; item = g_new0(qemuMonitorTestItem, 1); item->identifier = g_strdup(identifier); item->cb = cb; item->freecb = freecb; item->opaque = opaque; virMutexLock(&test->lock); VIR_APPEND_ELEMENT(test->items, test->nitems, item); virMutexUnlock(&test->lock); return 0; } void * qemuMonitorTestItemGetPrivateData(qemuMonitorTestItem *item) { return item ? item->opaque : NULL; } typedef struct _qemuMonitorTestCommandArgs qemuMonitorTestCommandArgs; struct _qemuMonitorTestCommandArgs { char *argname; char *argval; }; struct qemuMonitorTestHandlerData { char *command_name; char *cmderr; char *response; size_t nargs; qemuMonitorTestCommandArgs *args; char *expectArgs; }; static void qemuMonitorTestHandlerDataFree(void *opaque) { struct qemuMonitorTestHandlerData *data = opaque; size_t i; if (!data) return; for (i = 0; i < data->nargs; i++) { g_free(data->args[i].argname); g_free(data->args[i].argval); } g_free(data->command_name); g_free(data->cmderr); g_free(data->response); g_free(data->args); g_free(data->expectArgs); g_free(data); } /* Returns -1 on error, 0 if validation was successful/not necessary */ static int qemuMonitorTestProcessCommandDefaultValidate(qemuMonitorTest *test, const char *cmdname, virJSONValue *args) { g_auto(virBuffer) debug = VIR_BUFFER_INITIALIZER; bool allowIncomplete = false; if (!test->qapischema) return 0; if (test->agent) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", "Command validation testing is not " "implemented for the guest agent"); return -1; } /* The schema of 'device_add' is incomplete so we relax the validator */ if (STREQ(cmdname, "device_add")) allowIncomplete = true; if (testQEMUSchemaValidateCommand(cmdname, args, test->qapischema, test->skipValidationDeprecated, test->skipValidationRemoved, allowIncomplete, &debug) < 0) { if (virTestGetDebug() == 2) { g_autofree char *argstr = NULL; if (args) argstr = virJSONValueToString(args, true); fprintf(stderr, "\nfailed to validate arguments of '%s' against QAPI schema\n" "args:\n%s\nvalidator output:\n %s\n", cmdname, NULLSTR(argstr), virBufferCurrentContent(&debug)); } qemuMonitorTestError("failed to validate arguments of '%s' " "against QAPI schema " "(to see debug output use VIR_TEST_DEBUG=2)", cmdname); return -1; } return 0; } static int qemuMonitorTestProcessCommandDefault(qemuMonitorTest *test, qemuMonitorTestItem *item, const char *cmdstr) { struct qemuMonitorTestHandlerData *data = item->opaque; g_autoptr(virJSONValue) val = NULL; virJSONValue *cmdargs = NULL; const char *cmdname; if (!(val = virJSONValueFromString(cmdstr))) return -1; if (!(cmdname = virJSONValueObjectGetString(val, "execute"))) { qemuMonitorTestError("Missing command name in %s", cmdstr); return -1; } cmdargs = virJSONValueObjectGet(val, "arguments"); if (qemuMonitorTestProcessCommandDefaultValidate(test, cmdname, cmdargs) < 0) return -1; if (data->command_name && STRNEQ(data->command_name, cmdname)) { qemuMonitorTestErrorInvalidCommand(data->command_name, cmdname); return -1; } else { return qemuMonitorTestAddResponse(test, data->response); } } int qemuMonitorTestAddItem(qemuMonitorTest *test, const char *command_name, const char *response) { struct qemuMonitorTestHandlerData *data; data = g_new0(struct qemuMonitorTestHandlerData, 1); data->command_name = g_strdup(command_name); data->response = g_strdup(response); return qemuMonitorTestAddHandler(test, command_name, qemuMonitorTestProcessCommandDefault, data, qemuMonitorTestHandlerDataFree); } static int qemuMonitorTestProcessCommandVerbatim(qemuMonitorTest *test, qemuMonitorTestItem *item, const char *cmdstr) { struct qemuMonitorTestHandlerData *data = item->opaque; g_autofree char *reformatted = NULL; g_autoptr(virJSONValue) json = NULL; virJSONValue *cmdargs; const char *cmdname; int ret = -1; /* JSON strings will be reformatted to simplify checking */ if (!(json = virJSONValueFromString(cmdstr)) || !(reformatted = virJSONValueToString(json, false))) return -1; cmdstr = reformatted; /* in this case we do a best-effort schema check if we can find the command */ if ((cmdname = virJSONValueObjectGetString(json, "execute"))) { cmdargs = virJSONValueObjectGet(json, "arguments"); if (qemuMonitorTestProcessCommandDefaultValidate(test, cmdname, cmdargs) < 0) return -1; } if (STREQ(data->command_name, cmdstr)) { ret = qemuMonitorTestAddResponse(test, data->response); } else { if (data->cmderr) { qemuMonitorTestError("%s: %s expected %s", data->cmderr, cmdstr, data->command_name); } else { qemuMonitorTestErrorInvalidCommand(data->command_name, cmdstr); } } return ret; } /** * qemuMonitorTestAddItemVerbatim: * @test: monitor test object * @command: full expected command syntax * @cmderr: possible explanation of expected command (may be NULL) * @response: full reply of @command * * Adds a test command for the simulated monitor. The full syntax is checked * as specified in @command. For JSON monitor tests formatting/whitespace is * ignored. If the command on the monitor is not as expected an error containing * @cmderr is returned. Otherwise @response is put as-is on the monitor. * * Returns 0 when command was successfully added, -1 on error. */ int qemuMonitorTestAddItemVerbatim(qemuMonitorTest *test, const char *command, const char *cmderr, const char *response) { struct qemuMonitorTestHandlerData *data; data = g_new0(struct qemuMonitorTestHandlerData, 1); data->response = g_strdup(response); data->cmderr = g_strdup(cmderr); data->command_name = virJSONStringReformat(command, false); if (!data->command_name) goto error; return qemuMonitorTestAddHandler(test, command, qemuMonitorTestProcessCommandVerbatim, data, qemuMonitorTestHandlerDataFree); error: qemuMonitorTestHandlerDataFree(data); return -1; } static int qemuMonitorTestProcessGuestAgentSync(qemuMonitorTest *test, qemuMonitorTestItem *item G_GNUC_UNUSED, const char *cmdstr) { g_autoptr(virJSONValue) val = NULL; virJSONValue *args; unsigned long long id; const char *cmdname; g_autofree char *retmsg = NULL; if (!(val = virJSONValueFromString(cmdstr))) return -1; if (!(cmdname = virJSONValueObjectGetString(val, "execute"))) return qemuMonitorTestAddErrorResponse(test, "Missing guest-sync command name"); if (STRNEQ(cmdname, "guest-sync")) return qemuMonitorTestAddInvalidCommandResponse(test, "guest-sync", cmdname); if (!(args = virJSONValueObjectGet(val, "arguments"))) return qemuMonitorTestAddErrorResponse(test, "Missing arguments for guest-sync"); if (virJSONValueObjectGetNumberUlong(args, "id", &id)) return qemuMonitorTestAddErrorResponse(test, "Missing id for guest sync"); retmsg = g_strdup_printf("{\"return\":%llu}", id); return qemuMonitorTestAddResponse(test, retmsg); } int qemuMonitorTestAddAgentSyncResponse(qemuMonitorTest *test) { if (!test->agent) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", "This test is not an agent test"); return -1; } return qemuMonitorTestAddHandler(test, "agent-sync", qemuMonitorTestProcessGuestAgentSync, NULL, NULL); } static int qemuMonitorTestProcessCommandWithArgs(qemuMonitorTest *test, qemuMonitorTestItem *item, const char *cmdstr) { struct qemuMonitorTestHandlerData *data = item->opaque; g_autoptr(virJSONValue) val = NULL; virJSONValue *args; virJSONValue *argobj; const char *cmdname; size_t i; if (!(val = virJSONValueFromString(cmdstr))) return -1; if (!(cmdname = virJSONValueObjectGetString(val, "execute"))) { qemuMonitorTestError("Missing command name in %s", cmdstr); return -1; } if (data->command_name && STRNEQ(data->command_name, cmdname)) { qemuMonitorTestErrorInvalidCommand(data->command_name, cmdname); return -1; } if (!(args = virJSONValueObjectGet(val, "arguments"))) { qemuMonitorTestError("Missing arguments section for command '%s'", NULLSTR(data->command_name)); return -1; } /* validate the args */ for (i = 0; i < data->nargs; i++) { qemuMonitorTestCommandArgs *arg = &data->args[i]; g_autofree char *argstr = NULL; if (!(argobj = virJSONValueObjectGet(args, arg->argname))) { qemuMonitorTestError("Missing argument '%s' for command '%s'", arg->argname, NULLSTR(data->command_name)); return -1; } /* convert the argument to string */ if (!(argstr = virJSONValueToString(argobj, false))) return -1; /* verify that the argument value is expected */ if (STRNEQ(argstr, arg->argval)) { qemuMonitorTestError("Invalid value of argument '%s' of command '%s': " "expected '%s' got '%s'", arg->argname, NULLSTR(data->command_name), arg->argval, argstr); return -1; } } /* arguments checked out, return the response */ return qemuMonitorTestAddResponse(test, data->response); } /* this allows to add a responder that is able to check * a (shallow) structure of arguments for a command */ int qemuMonitorTestAddItemParams(qemuMonitorTest *test, const char *cmdname, const char *response, ...) { struct qemuMonitorTestHandlerData *data; const char *argname; const char *argval; va_list args; va_start(args, response); data = g_new0(struct qemuMonitorTestHandlerData, 1); data->command_name = g_strdup(cmdname); data->response = g_strdup(response); while ((argname = va_arg(args, char *))) { size_t i; if (!(argval = va_arg(args, char *))) { virReportError(VIR_ERR_INTERNAL_ERROR, "Missing argument value for argument '%s'", argname); goto error; } i = data->nargs; VIR_EXPAND_N(data->args, data->nargs, 1); data->args[i].argname = g_strdup(argname); data->args[i].argval = g_strdup(argval); } va_end(args); return qemuMonitorTestAddHandler(test, cmdname, qemuMonitorTestProcessCommandWithArgs, data, qemuMonitorTestHandlerDataFree); error: va_end(args); qemuMonitorTestHandlerDataFree(data); return -1; } static int qemuMonitorTestProcessCommandWithArgStr(qemuMonitorTest *test, qemuMonitorTestItem *item, const char *cmdstr) { struct qemuMonitorTestHandlerData *data = item->opaque; g_autoptr(virJSONValue) val = NULL; virJSONValue *args; g_autofree char *argstr = NULL; const char *cmdname; if (!(val = virJSONValueFromString(cmdstr))) return -1; if (!(cmdname = virJSONValueObjectGetString(val, "execute"))) { qemuMonitorTestError("Missing command name in %s", cmdstr); return -1; } if (STRNEQ(data->command_name, cmdname)) { qemuMonitorTestErrorInvalidCommand(data->command_name, cmdname); return -1; } if (!(args = virJSONValueObjectGet(val, "arguments"))) { qemuMonitorTestError("Missing arguments section for command '%s'", data->command_name); return -1; } /* convert the arguments to string */ if (!(argstr = virJSONValueToString(args, false))) return -1; /* verify that the argument value is expected */ if (STRNEQ(argstr, data->expectArgs)) { qemuMonitorTestError("%s: expected arguments: '%s', got: '%s'", data->command_name, data->expectArgs, argstr); return -1; } /* arguments checked out, return the response */ return qemuMonitorTestAddResponse(test, data->response); } /** * qemuMonitorTestAddItemExpect: * * @test: test monitor object * @cmdname: command name * @cmdargs: expected arguments of the command * @apostrophe: convert apostrophes (') in @cmdargs to quotes (") * @response: simulated response of the command * * Simulates a qemu monitor command. Checks that the 'arguments' of the qmp * command are expected. If @apostrophe is true apostrophes are converted to * quotes for simplification of writing the strings into code. */ int qemuMonitorTestAddItemExpect(qemuMonitorTest *test, const char *cmdname, const char *cmdargs, bool apostrophe, const char *response) { struct qemuMonitorTestHandlerData *data; data = g_new0(struct qemuMonitorTestHandlerData, 1); data->command_name = g_strdup(cmdname); data->response = g_strdup(response); data->expectArgs = g_strdup(cmdargs); if (apostrophe) { char *tmp = data->expectArgs; while (*tmp != '\0') { if (*tmp == '\'') *tmp = '"'; tmp++; } } return qemuMonitorTestAddHandler(test, cmdname, qemuMonitorTestProcessCommandWithArgStr, data, qemuMonitorTestHandlerDataFree); } static void qemuMonitorTestEOFNotify(qemuMonitor *mon G_GNUC_UNUSED, virDomainObj *vm G_GNUC_UNUSED, void *opaque G_GNUC_UNUSED) { } static void qemuMonitorTestErrorNotify(qemuMonitor *mon G_GNUC_UNUSED, virDomainObj *vm G_GNUC_UNUSED, void *opaque G_GNUC_UNUSED) { } static qemuMonitorCallbacks qemuMonitorTestCallbacks = { .eofNotify = qemuMonitorTestEOFNotify, .errorNotify = qemuMonitorTestErrorNotify, .domainDeviceDeleted = qemuProcessHandleDeviceDeleted, }; static void qemuMonitorTestAgentNotify(qemuAgent *agent G_GNUC_UNUSED, virDomainObj *vm G_GNUC_UNUSED) { } static qemuAgentCallbacks qemuMonitorTestAgentCallbacks = { .eofNotify = qemuMonitorTestAgentNotify, .errorNotify = qemuMonitorTestAgentNotify, }; static qemuMonitorTest * qemuMonitorCommonTestNew(virDomainXMLOption *xmlopt, virDomainObj *vm, virDomainChrSourceDef *src) { g_autoptr(qemuMonitorTest) test = NULL; g_autofree char *path = NULL; g_autofree char *tmpdir_template = NULL; test = g_new0(qemuMonitorTest, 1); if (virMutexInit(&test->lock) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", "Cannot initialize mutex"); VIR_FREE(test); return NULL; } tmpdir_template = g_strdup("/tmp/libvirt_XXXXXX"); if (!(test->tmpdir = g_mkdtemp(tmpdir_template))) { virReportSystemError(errno, "%s", "Failed to create temporary directory"); return NULL; } tmpdir_template = NULL; path = g_strdup_printf("%s/qemumonitorjsontest.sock", test->tmpdir); if (vm) { test->vm = virObjectRef(vm); } else { test->vm = virDomainObjNew(xmlopt); if (!test->vm) return NULL; if (!(test->vm->def = virDomainDefNew(xmlopt))) return NULL; } if (virNetSocketNewListenUNIX(path, 0700, geteuid(), getegid(), &test->server) < 0) return NULL; memset(src, 0, sizeof(*src)); src->type = VIR_DOMAIN_CHR_TYPE_UNIX; src->data.nix.path = (char *)path; src->data.nix.listen = false; path = NULL; if (virNetSocketListen(test->server, 1) < 0) return NULL; return g_steal_pointer(&test); } static int qemuMonitorCommonTestInit(qemuMonitorTest *test) { int events = VIR_EVENT_HANDLE_READABLE; if (!test) return -1; if (virNetSocketAccept(test->server, &test->client) < 0) return -1; if (!test->client) return -1; if (test->outgoingLength > 0) events = VIR_EVENT_HANDLE_WRITABLE; if (virNetSocketAddIOCallback(test->client, events, qemuMonitorTestIO, test, NULL) < 0) return -1; virMutexLock(&test->lock); if (virThreadCreate(&test->thread, true, qemuMonitorTestWorker, test) < 0) { virMutexUnlock(&test->lock); return -1; } test->started = test->running = true; virMutexUnlock(&test->lock); return 0; } #define QEMU_JSON_GREETING "{\"QMP\":"\ " {\"version\":"\ " {\"qemu\":"\ " {\"micro\": 1,"\ " \"minor\": 0,"\ " \"major\": 1"\ " },"\ " \"package\": \"(qemu-kvm-1.0.1)"\ " \"},"\ " \"capabilities\": []"\ " }"\ "}" /* We skip the normal handshake reply of "{\"execute\":\"qmp_capabilities\"}" */ qemuMonitorTest * qemuMonitorTestNew(virDomainXMLOption *xmlopt, virDomainObj *vm, virQEMUDriver *driver, const char *greeting, GHashTable *schema) { g_autoptr(qemuMonitorTest) test = NULL; virDomainChrSourceDef src; memset(&src, 0, sizeof(src)); if (!(test = qemuMonitorCommonTestNew(xmlopt, vm, &src))) goto error; if (!(test->eventThread = virEventThreadNew("mon-test"))) goto error; test->qapischema = schema; if (!(test->mon = qemuMonitorOpen(test->vm, &src, true, 0, virEventThreadGetContext(test->eventThread), &qemuMonitorTestCallbacks, driver))) goto error; virObjectLock(test->mon); if (!greeting) greeting = QEMU_JSON_GREETING; if (qemuMonitorTestAddResponse(test, greeting) < 0) goto error; if (qemuMonitorCommonTestInit(test) < 0) goto error; virDomainChrSourceDefClear(&src); return g_steal_pointer(&test); error: virDomainChrSourceDefClear(&src); return NULL; } /** * qemuMonitorTestNewFromFile: * @fileName: File name to load monitor replies from * @xmlopt: XML parser configuration object * @simple: see below * * Create a JSON test monitor simulator object and fill it with replies * specified in @fileName. The file contains JSON reply objects separated by * empty lines. If @simple is true a generic QMP greeting is automatically * added as the first reply, otherwise the first entry in the file is used. * * Returns the monitor object on success; NULL on error. */ qemuMonitorTest * qemuMonitorTestNewFromFile(const char *fileName, virDomainXMLOption *xmlopt, bool simple) { g_autoptr(qemuMonitorTest) test = NULL; g_autofree char *json = NULL; char *tmp; char *singleReply; if (virTestLoadFile(fileName, &json) < 0) return NULL; if (simple && !(test = qemuMonitorTestNewSimple(xmlopt))) return NULL; /* Our JSON parser expects replies to be separated by a newline character. * Hence we must preprocess the file a bit. */ tmp = singleReply = json; while ((tmp = strchr(tmp, '\n'))) { /* It is safe to touch tmp[1] since all strings ends with '\0'. */ bool eof = !tmp[1]; if (*(tmp + 1) != '\n') { *tmp = ' '; tmp++; } else { /* Cut off a single reply. */ *(tmp + 1) = '\0'; if (test) { if (qemuMonitorTestAddItem(test, NULL, singleReply) < 0) return NULL; } else { /* Create new mocked monitor with our greeting */ if (!(test = qemuMonitorTestNew(xmlopt, NULL, NULL, singleReply, NULL))) return NULL; } if (!eof) { /* Move the @tmp and @singleReply. */ tmp += 2; singleReply = tmp; } } if (eof) break; } if (test && qemuMonitorTestAddItem(test, NULL, singleReply) < 0) return NULL; return g_steal_pointer(&test); } /** * qemuMonitorTestAllowUnusedCommands: * @test: test monitor object * * By default all test items/commands must be used by the test. This function * allows to override the requirement for individual tests e.g. if it's necessary * to test some negative scenarios which would not use all commands. */ void qemuMonitorTestAllowUnusedCommands(qemuMonitorTest *test) { test->allowUnusedCommands = true; } /** * qemuMonitorTestSkipDeprecatedValidation: * @test: test monitor object * @allowRemoved: don't produce errors if command was removed from QMP schema * * By default if the QMP schema is provided all test items/commands are * validated against the schema. This function allows to override the validation * and additionally if @allowRemoved is true and if such a command is no longer * present in the QMP, only a warning is printed. * * '@allowRemoved' must be used only if a suitable replacement is already in * use and the code tests legacy interactions. * * Note that currently '@allowRemoved' influences only removed commands. If an * argument is removed it will still fail validation. */ void qemuMonitorTestSkipDeprecatedValidation(qemuMonitorTest *test, bool allowRemoved) { test->skipValidationDeprecated = true; test->skipValidationRemoved = allowRemoved; } static int qemuMonitorTestFullAddItem(qemuMonitorTest *test, const char *filename, const char *command, const char *response, size_t line) { g_autofree char *cmderr = NULL; cmderr = g_strdup_printf("wrong expected command in %s:%zu: ", filename, line); return qemuMonitorTestAddItemVerbatim(test, command, cmderr, response); } /** * qemuMonitorTestProcessFileEntries: * @inputstr: input file contents (modified) * @fileName: File name of @inputstr (for error reporting) * @items: filled with command, reply tuples * @nitems: Count of elements in @items. * * Process a monitor interaction file. * * The file contains a sequence of JSON commands and reply objects separated by * empty lines. A command is followed by a reply. */ int qemuMonitorTestProcessFileEntries(char *inputstr, const char *fileName, struct qemuMonitorTestCommandReplyTuple **items, size_t *nitems) { size_t nalloc = 0; char *tmp = inputstr; size_t line = 0; char *command = inputstr; char *response = NULL; size_t commandln = 0; *items = NULL; *nitems = 0; while ((tmp = strchr(tmp, '\n'))) { line++; /* eof */ if (!tmp[1]) break; /* concatenate block which was broken up for readability */ if (*(tmp + 1) != '\n') { *tmp = ' '; tmp++; continue; } /* Cut off a single reply. */ *(tmp + 1) = '\0'; if (response) { struct qemuMonitorTestCommandReplyTuple *item; VIR_RESIZE_N(*items, nalloc, *nitems, 1); item = *items + *nitems; item->command = g_steal_pointer(&command); item->reply = g_steal_pointer(&response); item->line = commandln; (*nitems)++; } /* Move the @tmp and @singleReply. */ tmp += 2; if (!command) { commandln = line; command = tmp; } else { response = tmp; } } if (command) { struct qemuMonitorTestCommandReplyTuple *item; if (!response) { virReportError(VIR_ERR_INTERNAL_ERROR, "missing response for command " "on line '%zu' in '%s'", commandln, fileName); return -1; } VIR_RESIZE_N(*items, nalloc, *nitems, 1); item = *items + *nitems; item->command = g_steal_pointer(&command); item->reply = g_steal_pointer(&response); item->line = commandln; (*nitems)++; } return 0; } /** * qemuMonitorTestNewFromFileFull: * @fileName: File name to load monitor replies from * @driver: qemu driver object * @vm: domain object (may be null if it's not needed by the test) * @qmpschema: QMP schema data hash table if QMP checking is required * * Create a JSON test monitor simulator object and fill it with expected command * sequence and replies specified in @fileName. * * The file contains a sequence of JSON commands and reply objects separated by * empty lines. A command is followed by a reply. The QMP greeting is added * automatically. * * Returns the monitor object on success; NULL on error. */ qemuMonitorTest * qemuMonitorTestNewFromFileFull(const char *fileName, virQEMUDriver *driver, virDomainObj *vm, GHashTable *qmpschema) { g_autoptr(qemuMonitorTest) ret = NULL; g_autofree char *jsonstr = NULL; g_autofree struct qemuMonitorTestCommandReplyTuple *items = NULL; size_t nitems = 0; size_t i; if (virTestLoadFile(fileName, &jsonstr) < 0) return NULL; if (!(ret = qemuMonitorTestNew(driver->xmlopt, vm, driver, NULL, qmpschema))) return NULL; if (qemuMonitorTestProcessFileEntries(jsonstr, fileName, &items, &nitems) < 0) return NULL; for (i = 0; i < nitems; i++) { struct qemuMonitorTestCommandReplyTuple *item = items + i; if (qemuMonitorTestFullAddItem(ret, fileName, item->command, item->reply, item->line) < 0) return NULL; } return g_steal_pointer(&ret); } qemuMonitorTest * qemuMonitorTestNewAgent(virDomainXMLOption *xmlopt) { g_autoptr(qemuMonitorTest) test = NULL; virDomainChrSourceDef src; memset(&src, 0, sizeof(src)); if (!(test = qemuMonitorCommonTestNew(xmlopt, NULL, &src))) goto error; if (!(test->eventThread = virEventThreadNew("agent-test"))) goto error; if (!(test->agent = qemuAgentOpen(test->vm, &src, virEventThreadGetContext(test->eventThread), &qemuMonitorTestAgentCallbacks, false))) goto error; virObjectLock(test->agent); if (qemuMonitorCommonTestInit(test) < 0) goto error; virDomainChrSourceDefClear(&src); return g_steal_pointer(&test); error: virDomainChrSourceDefClear(&src); return NULL; } qemuMonitor * qemuMonitorTestGetMonitor(qemuMonitorTest *test) { return test->mon; } qemuAgent * qemuMonitorTestGetAgent(qemuMonitorTest *test) { return test->agent; } virDomainObj * qemuMonitorTestGetDomainObj(qemuMonitorTest *test) { return test->vm; }