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4025874199
It was hard to track down this leak as it was an internal allocation by glib and the backtraces did not give much away. The autofree was freeing the allocation with g_free() but not taking care of the individual strings. They should have been freed with g_strfreev() instead. Searching the glib source code for the correct string free function led to: G_DEFINE_AUTO_CLEANUP_FREE_FUNC(GStrv, g_strfreev, NULL) and indeed if you read to the bottom of the documentation page you will find: typedef gchar** GStrv; A typedef alias for gchar**. This is mostly useful when used together with g_auto(). So fix up all the g_autofree g_strsplit case that smugly thought they had de-allocation covered. Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Reviewed-by: Philippe Mathieu-Daudé <philmd@linaro.org> Signed-off-by: Alex Bennée <alex.bennee@linaro.org> Message-Id: <20230630180423.558337-21-alex.bennee@linaro.org>
219 lines
6.5 KiB
C
219 lines
6.5 KiB
C
/*
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* Copyright (C) 2018, Emilio G. Cota <cota@braap.org>
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*
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* License: GNU GPL, version 2 or later.
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* See the COPYING file in the top-level directory.
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*/
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#include <inttypes.h>
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#include <assert.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <stdio.h>
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#include <glib.h>
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#include <qemu-plugin.h>
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QEMU_PLUGIN_EXPORT int qemu_plugin_version = QEMU_PLUGIN_VERSION;
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#define MAX_CPUS 8 /* lets not go nuts */
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typedef struct {
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uint64_t insn_count;
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} InstructionCount;
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static InstructionCount counts[MAX_CPUS];
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static uint64_t inline_insn_count;
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static bool do_inline;
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static bool do_size;
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static GArray *sizes;
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typedef struct {
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char *match_string;
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uint64_t hits[MAX_CPUS];
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uint64_t last_hit[MAX_CPUS];
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uint64_t total_delta[MAX_CPUS];
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GPtrArray *history[MAX_CPUS];
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} Match;
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static GArray *matches;
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typedef struct {
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Match *match;
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uint64_t vaddr;
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uint64_t hits;
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char *disas;
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} Instruction;
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static void vcpu_insn_exec_before(unsigned int cpu_index, void *udata)
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{
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unsigned int i = cpu_index % MAX_CPUS;
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InstructionCount *c = &counts[i];
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c->insn_count++;
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}
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static void vcpu_insn_matched_exec_before(unsigned int cpu_index, void *udata)
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{
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unsigned int i = cpu_index % MAX_CPUS;
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Instruction *insn = (Instruction *) udata;
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Match *match = insn->match;
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g_autoptr(GString) ts = g_string_new("");
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insn->hits++;
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g_string_append_printf(ts, "0x%" PRIx64 ", '%s', %"PRId64 " hits",
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insn->vaddr, insn->disas, insn->hits);
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uint64_t icount = counts[i].insn_count;
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uint64_t delta = icount - match->last_hit[i];
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match->hits[i]++;
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match->total_delta[i] += delta;
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g_string_append_printf(ts,
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", %"PRId64" match hits, "
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"Δ+%"PRId64 " since last match,"
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" %"PRId64 " avg insns/match\n",
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match->hits[i], delta,
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match->total_delta[i] / match->hits[i]);
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match->last_hit[i] = icount;
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qemu_plugin_outs(ts->str);
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g_ptr_array_add(match->history[i], insn);
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}
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static void vcpu_tb_trans(qemu_plugin_id_t id, struct qemu_plugin_tb *tb)
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{
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size_t n = qemu_plugin_tb_n_insns(tb);
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size_t i;
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for (i = 0; i < n; i++) {
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struct qemu_plugin_insn *insn = qemu_plugin_tb_get_insn(tb, i);
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if (do_inline) {
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qemu_plugin_register_vcpu_insn_exec_inline(
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insn, QEMU_PLUGIN_INLINE_ADD_U64, &inline_insn_count, 1);
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} else {
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uint64_t vaddr = qemu_plugin_insn_vaddr(insn);
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qemu_plugin_register_vcpu_insn_exec_cb(
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insn, vcpu_insn_exec_before, QEMU_PLUGIN_CB_NO_REGS,
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GUINT_TO_POINTER(vaddr));
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}
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if (do_size) {
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size_t sz = qemu_plugin_insn_size(insn);
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if (sz > sizes->len) {
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g_array_set_size(sizes, sz);
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}
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unsigned long *cnt = &g_array_index(sizes, unsigned long, sz);
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(*cnt)++;
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}
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/*
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* If we are tracking certain instructions we will need more
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* information about the instruction which we also need to
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* save if there is a hit.
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*/
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if (matches) {
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char *insn_disas = qemu_plugin_insn_disas(insn);
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int j;
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for (j = 0; j < matches->len; j++) {
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Match *m = &g_array_index(matches, Match, j);
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if (g_str_has_prefix(insn_disas, m->match_string)) {
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Instruction *rec = g_new0(Instruction, 1);
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rec->disas = g_strdup(insn_disas);
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rec->vaddr = qemu_plugin_insn_vaddr(insn);
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rec->match = m;
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qemu_plugin_register_vcpu_insn_exec_cb(
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insn, vcpu_insn_matched_exec_before,
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QEMU_PLUGIN_CB_NO_REGS, rec);
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}
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}
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g_free(insn_disas);
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}
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}
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}
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static void plugin_exit(qemu_plugin_id_t id, void *p)
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{
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g_autoptr(GString) out = g_string_new(NULL);
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int i;
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if (do_size) {
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for (i = 0; i <= sizes->len; i++) {
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unsigned long *cnt = &g_array_index(sizes, unsigned long, i);
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if (*cnt) {
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g_string_append_printf(out,
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"len %d bytes: %ld insns\n", i, *cnt);
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}
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}
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} else if (do_inline) {
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g_string_append_printf(out, "insns: %" PRIu64 "\n", inline_insn_count);
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} else {
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uint64_t total_insns = 0;
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for (i = 0; i < MAX_CPUS; i++) {
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InstructionCount *c = &counts[i];
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if (c->insn_count) {
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g_string_append_printf(out, "cpu %d insns: %" PRIu64 "\n",
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i, c->insn_count);
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total_insns += c->insn_count;
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}
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}
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g_string_append_printf(out, "total insns: %" PRIu64 "\n",
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total_insns);
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}
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qemu_plugin_outs(out->str);
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}
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/* Add a match to the array of matches */
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static void parse_match(char *match)
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{
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Match new_match = { .match_string = match };
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int i;
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for (i = 0; i < MAX_CPUS; i++) {
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new_match.history[i] = g_ptr_array_new();
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}
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if (!matches) {
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matches = g_array_new(false, true, sizeof(Match));
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}
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g_array_append_val(matches, new_match);
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}
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QEMU_PLUGIN_EXPORT int qemu_plugin_install(qemu_plugin_id_t id,
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const qemu_info_t *info,
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int argc, char **argv)
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{
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for (int i = 0; i < argc; i++) {
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char *opt = argv[i];
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g_auto(GStrv) tokens = g_strsplit(opt, "=", 2);
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if (g_strcmp0(tokens[0], "inline") == 0) {
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if (!qemu_plugin_bool_parse(tokens[0], tokens[1], &do_inline)) {
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fprintf(stderr, "boolean argument parsing failed: %s\n", opt);
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return -1;
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}
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} else if (g_strcmp0(tokens[0], "sizes") == 0) {
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if (!qemu_plugin_bool_parse(tokens[0], tokens[1], &do_size)) {
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fprintf(stderr, "boolean argument parsing failed: %s\n", opt);
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return -1;
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}
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} else if (g_strcmp0(tokens[0], "match") == 0) {
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parse_match(tokens[1]);
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} else {
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fprintf(stderr, "option parsing failed: %s\n", opt);
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return -1;
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}
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}
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if (do_size) {
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sizes = g_array_new(true, true, sizeof(unsigned long));
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}
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qemu_plugin_register_vcpu_tb_trans_cb(id, vcpu_tb_trans);
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qemu_plugin_register_atexit_cb(id, plugin_exit, NULL);
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return 0;
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}
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