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dd21074972
Tests that require global_qtest or the related wrapper functions now use the libqtest-single.h header that is dedicated for everything related to global_qtest. The core libqtest.c and libqtest.h files are now completely indepedent from global_qtest, so that the core library is now not depending on a global state anymore. Message-Id: <20190904130047.25808-7-thuth@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com> Reviewed-by: Stefan Hajnoczi <stefanha@redhat.com> Signed-off-by: Thomas Huth <thuth@redhat.com>
450 lines
14 KiB
C
450 lines
14 KiB
C
/*
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* libqos driver framework
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*
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* Copyright (c) 2018 Emanuele Giuseppe Esposito <e.emanuelegiuseppe@gmail.com>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License version 2 as published by the Free Software Foundation.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, see <http://www.gnu.org/licenses/>
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*/
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#include "qemu/osdep.h"
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#include <getopt.h>
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#include "libqtest-single.h"
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#include "qapi/qmp/qdict.h"
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#include "qapi/qmp/qbool.h"
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#include "qapi/qmp/qstring.h"
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#include "qemu/module.h"
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#include "qapi/qmp/qlist.h"
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#include "libqos/malloc.h"
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#include "libqos/qgraph.h"
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#include "libqos/qgraph_internal.h"
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static char *old_path;
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static void apply_to_node(const char *name, bool is_machine, bool is_abstract)
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{
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char *machine_name = NULL;
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if (is_machine) {
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const char *arch = qtest_get_arch();
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machine_name = g_strconcat(arch, "/", name, NULL);
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name = machine_name;
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}
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qos_graph_node_set_availability(name, true);
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if (is_abstract) {
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qos_delete_cmd_line(name);
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}
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g_free(machine_name);
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}
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/**
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* apply_to_qlist(): using QMP queries QEMU for a list of
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* machines and devices available, and sets the respective node
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* as true. If a node is found, also all its produced and contained
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* child are marked available.
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*
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* See qos_graph_node_set_availability() for more info
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*/
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static void apply_to_qlist(QList *list, bool is_machine)
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{
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const QListEntry *p;
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const char *name;
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bool abstract;
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QDict *minfo;
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QObject *qobj;
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QString *qstr;
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QBool *qbool;
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for (p = qlist_first(list); p; p = qlist_next(p)) {
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minfo = qobject_to(QDict, qlist_entry_obj(p));
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qobj = qdict_get(minfo, "name");
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qstr = qobject_to(QString, qobj);
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name = qstring_get_str(qstr);
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qobj = qdict_get(minfo, "abstract");
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if (qobj) {
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qbool = qobject_to(QBool, qobj);
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abstract = qbool_get_bool(qbool);
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} else {
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abstract = false;
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}
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apply_to_node(name, is_machine, abstract);
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qobj = qdict_get(minfo, "alias");
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if (qobj) {
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qstr = qobject_to(QString, qobj);
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name = qstring_get_str(qstr);
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apply_to_node(name, is_machine, abstract);
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}
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}
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}
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/**
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* qos_set_machines_devices_available(): sets availability of qgraph
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* machines and devices.
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*
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* This function firstly starts QEMU with "-machine none" option,
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* and then executes the QMP protocol asking for the list of devices
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* and machines available.
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*
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* for each of these items, it looks up the corresponding qgraph node,
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* setting it as available. The list currently returns all devices that
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* are either machines or QEDGE_CONSUMED_BY other nodes.
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* Therefore, in order to mark all other nodes, it recursively sets
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* all its QEDGE_CONTAINS and QEDGE_PRODUCES child as available too.
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*/
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static void qos_set_machines_devices_available(void)
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{
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QDict *response;
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QDict *args = qdict_new();
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QList *list;
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qtest_start("-machine none");
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response = qmp("{ 'execute': 'query-machines' }");
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list = qdict_get_qlist(response, "return");
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apply_to_qlist(list, true);
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qobject_unref(response);
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qdict_put_bool(args, "abstract", true);
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qdict_put_str(args, "implements", "device");
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response = qmp("{'execute': 'qom-list-types',"
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" 'arguments': %p }", args);
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g_assert(qdict_haskey(response, "return"));
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list = qdict_get_qlist(response, "return");
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apply_to_qlist(list, false);
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qtest_end();
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qobject_unref(response);
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}
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static QGuestAllocator *get_machine_allocator(QOSGraphObject *obj)
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{
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return obj->get_driver(obj, "memory");
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}
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static void restart_qemu_or_continue(char *path)
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{
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/* compares the current command line with the
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* one previously executed: if they are the same,
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* don't restart QEMU, if they differ, stop previous
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* QEMU subprocess (if active) and start over with
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* the new command line
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*/
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if (g_strcmp0(old_path, path)) {
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qtest_end();
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qos_invalidate_command_line();
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old_path = g_strdup(path);
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qtest_start(path);
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} else { /* if cmd line is the same, reset the guest */
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qobject_unref(qmp("{ 'execute': 'system_reset' }"));
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qmp_eventwait("RESET");
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}
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}
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void qos_invalidate_command_line(void)
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{
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g_free(old_path);
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old_path = NULL;
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}
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/**
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* allocate_objects(): given an array of nodes @arg,
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* walks the path invoking all constructors and
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* passing the corresponding parameter in order to
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* continue the objects allocation.
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* Once the test is reached, return the object it consumes.
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*
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* Since the machine and QEDGE_CONSUMED_BY nodes allocate
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* memory in the constructor, g_test_queue_destroy is used so
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* that after execution they can be safely free'd. (The test's
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* ->before callback is also welcome to use g_test_queue_destroy).
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*
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* Note: as specified in walk_path() too, @arg is an array of
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* char *, where arg[0] is a pointer to the command line
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* string that will be used to properly start QEMU when executing
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* the test, and the remaining elements represent the actual objects
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* that will be allocated.
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*/
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static void *allocate_objects(QTestState *qts, char **path, QGuestAllocator **p_alloc)
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{
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int current = 0;
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QGuestAllocator *alloc;
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QOSGraphObject *parent = NULL;
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QOSGraphEdge *edge;
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QOSGraphNode *node;
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void *edge_arg;
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void *obj;
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node = qos_graph_get_node(path[current]);
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g_assert(node->type == QNODE_MACHINE);
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obj = qos_machine_new(node, qts);
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qos_object_queue_destroy(obj);
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alloc = get_machine_allocator(obj);
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if (p_alloc) {
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*p_alloc = alloc;
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}
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for (;;) {
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if (node->type != QNODE_INTERFACE) {
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qos_object_start_hw(obj);
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parent = obj;
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}
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/* follow edge and get object for next node constructor */
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current++;
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edge = qos_graph_get_edge(path[current - 1], path[current]);
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node = qos_graph_get_node(path[current]);
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if (node->type == QNODE_TEST) {
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g_assert(qos_graph_edge_get_type(edge) == QEDGE_CONSUMED_BY);
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return obj;
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}
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switch (qos_graph_edge_get_type(edge)) {
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case QEDGE_PRODUCES:
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obj = parent->get_driver(parent, path[current]);
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break;
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case QEDGE_CONSUMED_BY:
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edge_arg = qos_graph_edge_get_arg(edge);
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obj = qos_driver_new(node, obj, alloc, edge_arg);
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qos_object_queue_destroy(obj);
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break;
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case QEDGE_CONTAINS:
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obj = parent->get_device(parent, path[current]);
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break;
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}
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}
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}
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/* The argument to run_one_test, which is the test function that is registered
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* with GTest, is a vector of strings. The first item is the initial command
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* line (before it is modified by the test's "before" function), the remaining
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* items are node names forming the path to the test node.
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*/
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static char **current_path;
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const char *qos_get_current_command_line(void)
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{
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return current_path[0];
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}
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void *qos_allocate_objects(QTestState *qts, QGuestAllocator **p_alloc)
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{
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return allocate_objects(qts, current_path + 1, p_alloc);
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}
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/**
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* run_one_test(): given an array of nodes @arg,
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* walks the path invoking all constructors and
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* passing the corresponding parameter in order to
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* continue the objects allocation.
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* Once the test is reached, its function is executed.
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*
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* Since the machine and QEDGE_CONSUMED_BY nodes allocate
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* memory in the constructor, g_test_queue_destroy is used so
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* that after execution they can be safely free'd. The test's
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* ->before callback is also welcome to use g_test_queue_destroy.
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*
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* Note: as specified in walk_path() too, @arg is an array of
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* char *, where arg[0] is a pointer to the command line
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* string that will be used to properly start QEMU when executing
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* the test, and the remaining elements represent the actual objects
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* that will be allocated.
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*
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* The order of execution is the following:
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* 1) @before test function as defined in the given QOSGraphTestOptions
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* 2) start QEMU
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* 3) call all nodes constructor and get_driver/get_device depending on edge,
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* start the hardware (*_device_enable functions)
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* 4) start test
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*/
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static void run_one_test(const void *arg)
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{
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QOSGraphNode *test_node;
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QGuestAllocator *alloc = NULL;
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void *obj;
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char **path = (char **) arg;
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GString *cmd_line = g_string_new(path[0]);
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void *test_arg;
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/* Before test */
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current_path = path;
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test_node = qos_graph_get_node(path[(g_strv_length(path) - 1)]);
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test_arg = test_node->u.test.arg;
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if (test_node->u.test.before) {
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test_arg = test_node->u.test.before(cmd_line, test_arg);
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}
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restart_qemu_or_continue(cmd_line->str);
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g_string_free(cmd_line, true);
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obj = qos_allocate_objects(global_qtest, &alloc);
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test_node->u.test.function(obj, test_arg, alloc);
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}
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static void subprocess_run_one_test(const void *arg)
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{
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const gchar *path = arg;
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g_test_trap_subprocess(path, 0, 0);
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g_test_trap_assert_passed();
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}
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/*
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* in this function, 2 path will be built:
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* path_str, a one-string path (ex "pc/i440FX-pcihost/...")
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* path_vec, a string-array path (ex [0] = "pc", [1] = "i440FX-pcihost").
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*
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* path_str will be only used to build the test name, and won't need the
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* architecture name at beginning, since it will be added by qtest_add_func().
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*
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* path_vec is used to allocate all constructors of the path nodes.
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* Each name in this array except position 0 must correspond to a valid
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* QOSGraphNode name.
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* Position 0 is special, initially contains just the <machine> name of
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* the node, (ex for "x86_64/pc" it will be "pc"), used to build the test
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* path (see below). After it will contain the command line used to start
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* qemu with all required devices.
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*
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* Note that the machine node name must be with format <arch>/<machine>
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* (ex "x86_64/pc"), because it will identify the node "x86_64/pc"
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* and start QEMU with "-M pc". For this reason,
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* when building path_str, path_vec
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* initially contains the <machine> at position 0 ("pc"),
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* and the node name at position 1 (<arch>/<machine>)
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* ("x86_64/pc"), followed by the rest of the nodes.
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*/
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static void walk_path(QOSGraphNode *orig_path, int len)
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{
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QOSGraphNode *path;
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QOSGraphEdge *edge;
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/* etype set to QEDGE_CONSUMED_BY so that machine can add to the command line */
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QOSEdgeType etype = QEDGE_CONSUMED_BY;
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/* twice QOS_PATH_MAX_ELEMENT_SIZE since each edge can have its arg */
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char **path_vec = g_new0(char *, (QOS_PATH_MAX_ELEMENT_SIZE * 2));
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int path_vec_size = 0;
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char *after_cmd, *before_cmd, *after_device;
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GString *after_device_str = g_string_new("");
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char *node_name = orig_path->name, *path_str;
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GString *cmd_line = g_string_new("");
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GString *cmd_line2 = g_string_new("");
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path = qos_graph_get_node(node_name); /* root */
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node_name = qos_graph_edge_get_dest(path->path_edge); /* machine name */
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path_vec[path_vec_size++] = node_name;
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path_vec[path_vec_size++] = qos_get_machine_type(node_name);
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for (;;) {
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path = qos_graph_get_node(node_name);
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if (!path->path_edge) {
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break;
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}
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node_name = qos_graph_edge_get_dest(path->path_edge);
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/* append node command line + previous edge command line */
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if (path->command_line && etype == QEDGE_CONSUMED_BY) {
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g_string_append(cmd_line, path->command_line);
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g_string_append(cmd_line, after_device_str->str);
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g_string_truncate(after_device_str, 0);
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}
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path_vec[path_vec_size++] = qos_graph_edge_get_name(path->path_edge);
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/* detect if edge has command line args */
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after_cmd = qos_graph_edge_get_after_cmd_line(path->path_edge);
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after_device = qos_graph_edge_get_extra_device_opts(path->path_edge);
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before_cmd = qos_graph_edge_get_before_cmd_line(path->path_edge);
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edge = qos_graph_get_edge(path->name, node_name);
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etype = qos_graph_edge_get_type(edge);
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if (before_cmd) {
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g_string_append(cmd_line, before_cmd);
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}
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if (after_cmd) {
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g_string_append(cmd_line2, after_cmd);
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}
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if (after_device) {
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g_string_append(after_device_str, after_device);
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}
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}
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path_vec[path_vec_size++] = NULL;
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g_string_append(cmd_line, after_device_str->str);
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g_string_free(after_device_str, true);
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g_string_append(cmd_line, cmd_line2->str);
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g_string_free(cmd_line2, true);
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/* here position 0 has <arch>/<machine>, position 1 has <machine>.
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* The path must not have the <arch>, qtest_add_data_func adds it.
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*/
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path_str = g_strjoinv("/", path_vec + 1);
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/* put arch/machine in position 1 so run_one_test can do its work
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* and add the command line at position 0.
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*/
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path_vec[1] = path_vec[0];
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path_vec[0] = g_string_free(cmd_line, false);
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if (path->u.test.subprocess) {
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gchar *subprocess_path = g_strdup_printf("/%s/%s/subprocess",
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qtest_get_arch(), path_str);
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qtest_add_data_func(path_str, subprocess_path, subprocess_run_one_test);
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g_test_add_data_func(subprocess_path, path_vec, run_one_test);
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} else {
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qtest_add_data_func(path_str, path_vec, run_one_test);
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}
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g_free(path_str);
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}
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/**
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* main(): heart of the qgraph framework.
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*
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* - Initializes the glib test framework
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* - Creates the graph by invoking the various _init constructors
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* - Starts QEMU to mark the available devices
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* - Walks the graph, and each path is added to
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* the glib test framework (walk_path)
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* - Runs the tests, calling allocate_object() and allocating the
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* machine/drivers/test objects
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* - Cleans up everything
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*/
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int main(int argc, char **argv)
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{
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g_test_init(&argc, &argv, NULL);
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qos_graph_init();
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module_call_init(MODULE_INIT_QOM);
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module_call_init(MODULE_INIT_LIBQOS);
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qos_set_machines_devices_available();
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qos_graph_foreach_test_path(walk_path);
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g_test_run();
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qtest_end();
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qos_graph_destroy();
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g_free(old_path);
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return 0;
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}
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