2 * Lockstep Execution Plugin
4 * Allows you to execute two QEMU instances in lockstep and report
5 * when their execution diverges. This is mainly useful for developers
6 * who want to see where a change to TCG code generation has
7 * introduced a subtle and hard to find bug.
10 * - single-threaded linux-user apps only with non-deterministic syscalls
11 * - no MTTCG enabled system emulation (icount may help)
13 * While icount makes things more deterministic it doesn't mean a
14 * particular run may execute the exact same sequence of blocks. An
15 * asynchronous event (for example X11 graphics update) may cause a
16 * block to end early and a new partial block to start. This means
17 * serial only test cases are a better bet. -d nochain may also help.
19 * This code is not thread safe!
21 * Copyright (c) 2020 Linaro Ltd
23 * SPDX-License-Identifier: GPL-2.0-or-later
29 #include <sys/socket.h>
34 #include <qemu-plugin.h>
36 QEMU_PLUGIN_EXPORT
int qemu_plugin_version
= QEMU_PLUGIN_VERSION
;
38 /* saved so we can uninstall later */
39 static qemu_plugin_id_t our_id
;
41 static unsigned long bb_count
;
42 static unsigned long insn_count
;
44 /* Information about a translated block */
50 /* Information about an execution state in the log */
53 unsigned long insn_count
;
54 unsigned long block_count
;
57 /* The execution state we compare */
60 unsigned long insn_count
;
68 /* list of translated block info */
69 static GSList
*blocks
;
71 /* execution log and points of divergence */
72 static GSList
*log
, *divergence_log
;
75 static char *path_to_unlink
;
79 static void plugin_cleanup(qemu_plugin_id_t id
)
81 /* Free our block data */
82 g_slist_free_full(blocks
, &g_free
);
83 g_slist_free_full(log
, &g_free
);
84 g_slist_free(divergence_log
);
88 unlink(path_to_unlink
);
92 static void plugin_exit(qemu_plugin_id_t id
, void *p
)
94 g_autoptr(GString
) out
= g_string_new("No divergence :-)\n");
95 g_string_append_printf(out
, "Executed %ld/%d blocks\n",
96 bb_count
, g_slist_length(log
));
97 g_string_append_printf(out
, "Executed ~%ld instructions\n", insn_count
);
98 qemu_plugin_outs(out
->str
);
103 static void report_divergance(ExecState
*us
, ExecState
*them
)
105 DivergeState divrec
= { log
, 0 };
106 g_autoptr(GString
) out
= g_string_new("");
107 bool diverged
= false;
110 * If we have diverged before did we get back on track or are we
111 * totally loosing it?
113 if (divergence_log
) {
114 DivergeState
*last
= (DivergeState
*) divergence_log
->data
;
117 for (entry
= log
; g_slist_next(entry
); entry
= g_slist_next(entry
)) {
118 if (entry
== last
->log_pos
) {
125 * If the last two records are so close it is likely we will
126 * not recover synchronisation with the other end.
128 if (divrec
.distance
== 1 && last
->distance
== 1) {
132 divergence_log
= g_slist_prepend(divergence_log
,
133 g_memdup(&divrec
, sizeof(divrec
)));
135 /* Output short log entry of going out of sync... */
136 if (verbose
|| divrec
.distance
== 1 || diverged
) {
137 g_string_printf(out
, "@ %#016lx vs %#016lx (%d/%d since last)\n",
138 us
->pc
, them
->pc
, g_slist_length(divergence_log
),
140 qemu_plugin_outs(out
->str
);
147 g_string_printf(out
, "Δ insn_count @ %#016lx (%ld) vs %#016lx (%ld)\n",
148 us
->pc
, us
->insn_count
, them
->pc
, them
->insn_count
);
150 for (entry
= log
, i
= 0;
151 g_slist_next(entry
) && i
< 5;
152 entry
= g_slist_next(entry
), i
++) {
153 ExecInfo
*prev
= (ExecInfo
*) entry
->data
;
154 g_string_append_printf(out
,
155 " previously @ %#016lx/%ld (%ld insns)\n",
156 prev
->block
->pc
, prev
->block
->insns
,
159 qemu_plugin_outs(out
->str
);
160 qemu_plugin_outs("too much divergence... giving up.");
161 qemu_plugin_uninstall(our_id
, plugin_cleanup
);
165 static void vcpu_tb_exec(unsigned int cpu_index
, void *udata
)
167 BlockInfo
*bi
= (BlockInfo
*) udata
;
173 us
.insn_count
= insn_count
;
176 * Write our current position to the other end. If we fail the
177 * other end has probably died and we should shut down gracefully.
179 bytes
= write(socket_fd
, &us
, sizeof(ExecState
));
180 if (bytes
< sizeof(ExecState
)) {
181 qemu_plugin_outs(bytes
< 0 ?
182 "problem writing to socket" :
183 "wrote less than expected to socket");
184 qemu_plugin_uninstall(our_id
, plugin_cleanup
);
189 * Now read where our peer has reached. Again a failure probably
190 * indicates the other end died and we should close down cleanly.
192 bytes
= read(socket_fd
, &them
, sizeof(ExecState
));
193 if (bytes
< sizeof(ExecState
)) {
194 qemu_plugin_outs(bytes
< 0 ?
195 "problem reading from socket" :
196 "read less than expected");
197 qemu_plugin_uninstall(our_id
, plugin_cleanup
);
202 * Compare and report if we have diverged.
204 if (us
.pc
!= them
.pc
) {
205 report_divergance(&us
, &them
);
209 * Assume this block will execute fully and record it
210 * in the execution log.
212 insn_count
+= bi
->insns
;
214 exec
= g_new0(ExecInfo
, 1);
216 exec
->insn_count
= insn_count
;
217 exec
->block_count
= bb_count
;
218 log
= g_slist_prepend(log
, exec
);
221 static void vcpu_tb_trans(qemu_plugin_id_t id
, struct qemu_plugin_tb
*tb
)
223 BlockInfo
*bi
= g_new0(BlockInfo
, 1);
224 bi
->pc
= qemu_plugin_tb_vaddr(tb
);
225 bi
->insns
= qemu_plugin_tb_n_insns(tb
);
227 /* save a reference so we can free later */
228 blocks
= g_slist_prepend(blocks
, bi
);
229 qemu_plugin_register_vcpu_tb_exec_cb(tb
, vcpu_tb_exec
,
230 QEMU_PLUGIN_CB_NO_REGS
, (void *)bi
);
235 * Instead of encoding master/slave status into what is essentially
236 * two peers we shall just take the simple approach of checking for
237 * the existence of the pipe and assuming if it's not there we are the
240 static bool setup_socket(const char *path
)
242 struct sockaddr_un sockaddr
;
245 fd
= socket(AF_UNIX
, SOCK_STREAM
, 0);
247 perror("create socket");
251 sockaddr
.sun_family
= AF_UNIX
;
252 g_strlcpy(sockaddr
.sun_path
, path
, sizeof(sockaddr
.sun_path
) - 1);
253 if (bind(fd
, (struct sockaddr
*)&sockaddr
, sizeof(sockaddr
)) < 0) {
254 perror("bind socket");
259 /* remember to clean-up */
260 path_to_unlink
= g_strdup(path
);
262 if (listen(fd
, 1) < 0) {
263 perror("listen socket");
268 socket_fd
= accept(fd
, NULL
, NULL
);
269 if (socket_fd
< 0 && errno
!= EINTR
) {
270 perror("accept socket");
274 qemu_plugin_outs("setup_socket::ready\n");
279 static bool connect_socket(const char *path
)
282 struct sockaddr_un sockaddr
;
284 fd
= socket(AF_UNIX
, SOCK_STREAM
, 0);
286 perror("create socket");
290 sockaddr
.sun_family
= AF_UNIX
;
291 g_strlcpy(sockaddr
.sun_path
, path
, sizeof(sockaddr
.sun_path
) - 1);
293 if (connect(fd
, (struct sockaddr
*)&sockaddr
, sizeof(sockaddr
)) < 0) {
294 perror("failed to connect");
298 qemu_plugin_outs("connect_socket::ready\n");
304 static bool setup_unix_socket(const char *path
)
306 if (g_file_test(path
, G_FILE_TEST_EXISTS
)) {
307 return connect_socket(path
);
309 return setup_socket(path
);
314 QEMU_PLUGIN_EXPORT
int qemu_plugin_install(qemu_plugin_id_t id
,
315 const qemu_info_t
*info
,
316 int argc
, char **argv
)
320 if (!argc
|| !argv
[0]) {
321 qemu_plugin_outs("Need a socket path to talk to other instance.");
325 for (i
= 0; i
< argc
; i
++) {
327 if (strcmp(p
, "verbose") == 0) {
329 } else if (!setup_unix_socket(argv
[0])) {
330 qemu_plugin_outs("Failed to setup socket for communications.");
337 qemu_plugin_register_vcpu_tb_trans_cb(id
, vcpu_tb_trans
);
338 qemu_plugin_register_atexit_cb(id
, plugin_exit
, NULL
);