Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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/*
* upb - a minimalist implementation of protocol buffers.
*
* Copyright (c) 2011 Google Inc. See LICENSE for details.
*
* Test of defs and symtab. There should be far more tests of edge conditions
* (like attempts to link defs that don't have required properties set).
*/
#include "upb/def.h"
#include "upb/pb/glue.h"
#include "upb_test.h"
#include <stdlib.h>
#include <string.h>
const char *descriptor_file;
static void test_empty_symtab() {
upb_symtab *s = upb_symtab_new(&s);
upb_symtab_iter i;
for (upb_symtab_begin(&i, s, UPB_DEF_ANY); !upb_symtab_done(&i);
upb_symtab_next(&i)) {
ASSERT(false); // Should not get here.
}
upb_symtab_unref(s, &s);
}
static void test_noreftracking() {
// Reftracking is not required; clients can pass UPB_UNTRACKED_REF for owner.
upb_msgdef *md = upb_msgdef_new(UPB_UNTRACKED_REF);
upb_msgdef_ref(md, UPB_UNTRACKED_REF);
// Clients can mix tracked and untracked refs.
upb_msgdef_ref(md, &md);
upb_msgdef_unref(md, UPB_UNTRACKED_REF);
upb_msgdef_unref(md, UPB_UNTRACKED_REF);
// Call some random function on the messagedef to test that it is alive.
ASSERT(!upb_msgdef_isfrozen(md));
upb_msgdef_unref(md, &md);
}
static upb_symtab *load_test_proto(void *owner) {
upb_symtab *s = upb_symtab_new(owner);
ASSERT(s);
upb_status status = UPB_STATUS_INIT;
if (!upb_load_descriptor_file_into_symtab(s, descriptor_file, &status)) {
fprintf(stderr, "Error loading descriptor file: %s\n",
upb_status_errmsg(&status));
ASSERT(false);
}
ASSERT(!upb_symtab_isfrozen(s));
upb_symtab_freeze(s);
ASSERT(upb_symtab_isfrozen(s));
return s;
}
static void test_cycles() {
upb_symtab *s = load_test_proto(&s);
// Test cycle detection by making a cyclic def's main refcount go to zero
// and then be incremented to one again.
const upb_def *def = upb_symtab_lookup(s, "A");
upb_def_ref(def, &def);
ASSERT(def);
ASSERT(upb_def_isfrozen(def));
upb_symtab_unref(s, &s);
// Message A has only one subfield: "optional B b = 1".
const upb_msgdef *m = upb_downcast_msgdef(def);
const upb_fielddef *f = upb_msgdef_itof(m, 1);
ASSERT(f);
ASSERT(upb_fielddef_hassubdef(f));
ASSERT(upb_msgdef_ntofz(m, "b") == f);
ASSERT(upb_msgdef_ntof(m, "b", 1) == f);
const upb_def *def2 = upb_fielddef_subdef(f);
ASSERT(upb_downcast_msgdef(def2));
ASSERT(strcmp(upb_def_fullname(def2), "B") == 0);
upb_def_ref(def2, &def2);
upb_def_unref(def, &def);
// We know "def" is still alive because it's reachable from def2.
ASSERT(strcmp(upb_def_fullname(def), "A") == 0);
upb_def_unref(def2, &def2);
}
static void test_symbol_resolution() {
upb_status s = UPB_STATUS_INIT;
upb_symtab *symtab = upb_symtab_new(&symtab);
ASSERT(symtab);
// m1 has name "A.B.C" and no fields. We'll add it to the symtab now.
upb_msgdef *m1 = upb_msgdef_new(&m1);
ASSERT(m1);
ASSERT_STATUS(upb_msgdef_setfullname(m1, "A.B.C", &s), &s);
ASSERT_STATUS(upb_symtab_add(symtab, (upb_def**)&m1, 1,
NULL, &s), &s);
// m2 has name "D.E" and no fields. We'll add it in the same batch as m3
// below.
upb_msgdef *m2 = upb_msgdef_new(&m2);
ASSERT(m2);
ASSERT_STATUS(upb_msgdef_setfullname(m2, "D.E", &s), &s);
// m3 has name "F.G" and two fields, of type A.B.C and D.E respectively. We'll
// add it in the same batch as m2 above.
upb_msgdef *m3 = upb_msgdef_new(&m3);
ASSERT(m3);
ASSERT_STATUS(upb_msgdef_setfullname(m3, "F.G", &s), &s);
upb_fielddef *m3_field1 = upb_fielddef_new(&m3_field1);
ASSERT_STATUS(upb_fielddef_setname(m3_field1, "field1", &s), &s);
ASSERT_STATUS(upb_fielddef_setnumber(m3_field1, 1, &s), &s);
upb_fielddef_setlabel(m3_field1, UPB_LABEL_OPTIONAL);
upb_fielddef_settype(m3_field1, UPB_TYPE_MESSAGE);
ASSERT_STATUS(upb_fielddef_setsubdefname(m3_field1, ".A.B.C", &s), &s);
ASSERT_STATUS(upb_msgdef_addfield(m3, m3_field1, NULL, &s), &s);
upb_fielddef *m3_field2 = upb_fielddef_new(&m3_field2);
ASSERT_STATUS(upb_fielddef_setname(m3_field2, "field2", &s), &s);
ASSERT_STATUS(upb_fielddef_setnumber(m3_field2, 2, &s), &s);
upb_fielddef_setlabel(m3_field2, UPB_LABEL_OPTIONAL);
upb_fielddef_settype(m3_field2, UPB_TYPE_MESSAGE);
ASSERT_STATUS(upb_fielddef_setsubdefname(m3_field2, ".D.E", &s), &s);
ASSERT_STATUS(upb_msgdef_addfield(m3, m3_field2, NULL, &s), &s);
upb_def *defs[2] = { (upb_def*)m2, (upb_def*)m3 };
ASSERT_STATUS(upb_symtab_add(symtab, defs, 2, NULL, &s), &s);
upb_fielddef_unref(m3_field2, &m3_field2);
upb_fielddef_unref(m3_field1, &m3_field1);
upb_msgdef_unref(m3, &m3);
upb_msgdef_unref(m2, &m2);
upb_msgdef_unref(m1, &m1);
upb_symtab_unref(symtab, &symtab);
}
static void test_fielddef_unref() {
upb_symtab *s = load_test_proto(&s);
const upb_msgdef *md = upb_symtab_lookupmsg(s, "A");
const upb_fielddef *f = upb_msgdef_itof(md, 1);
upb_fielddef_ref(f, &f);
// Unref symtab; now fielddef is the only thing keeping the msgdef alive.
upb_symtab_unref(s, &s);
// Check that md is still alive.
ASSERT(strcmp(upb_msgdef_fullname(md), "A") == 0);
// Check that unref of fielddef frees the whole remaining graph.
upb_fielddef_unref(f, &f);
}
static void test_fielddef_accessors() {
upb_fielddef *f1 = upb_fielddef_new(&f1);
upb_fielddef *f2 = upb_fielddef_new(&f2);
ASSERT(!upb_fielddef_isfrozen(f1));
ASSERT(upb_fielddef_setname(f1, "f1", NULL));
ASSERT(upb_fielddef_setnumber(f1, 1937, NULL));
upb_fielddef_settype(f1, UPB_TYPE_INT64);
upb_fielddef_setlabel(f1, UPB_LABEL_REPEATED);
ASSERT(upb_fielddef_number(f1) == 1937);
ASSERT(!upb_fielddef_isfrozen(f2));
ASSERT(upb_fielddef_setname(f2, "f2", NULL));
ASSERT(upb_fielddef_setnumber(f2, 123456789, NULL));
upb_fielddef_settype(f2, UPB_TYPE_BYTES);
upb_fielddef_setlabel(f2, UPB_LABEL_REPEATED);
ASSERT(upb_fielddef_number(f2) == 123456789);
upb_fielddef_unref(f1, &f1);
upb_fielddef_unref(f2, &f2);
// Test that we don't leak an unresolved subdef name.
f1 = upb_fielddef_new(&f1);
upb_fielddef_settype(f1, UPB_TYPE_MESSAGE);
ASSERT(upb_fielddef_setsubdefname(f1, "YO", NULL));
upb_fielddef_unref(f1, &f1);
}
static upb_fielddef *newfield(
const char *name, int32_t num, uint8_t type, uint8_t label,
const char *type_name, void *owner) {
upb_fielddef *f = upb_fielddef_new(owner);
ASSERT(upb_fielddef_setname(f, name, NULL));
ASSERT(upb_fielddef_setnumber(f, num, NULL));
upb_fielddef_settype(f, type);
upb_fielddef_setlabel(f, label);
ASSERT(upb_fielddef_setsubdefname(f, type_name, NULL));
return f;
}
static upb_msgdef *upb_msgdef_newnamed(const char *name, void *owner) {
upb_msgdef *m = upb_msgdef_new(owner);
upb_msgdef_setfullname(m, name, NULL);
return m;
}
static upb_enumdef *upb_enumdef_newnamed(const char *name, void *owner) {
upb_enumdef *e = upb_enumdef_new(owner);
upb_enumdef_setfullname(e, name, NULL);
return e;
}
static void test_replacement() {
upb_symtab *s = upb_symtab_new(&s);
upb_msgdef *m = upb_msgdef_newnamed("MyMessage", &s);
upb_msgdef_addfield(m, newfield("field1", 1, UPB_TYPE_ENUM,
UPB_LABEL_OPTIONAL, ".MyEnum", &s),
&s, NULL);
upb_msgdef *m2 = upb_msgdef_newnamed("MyMessage2", &s);
upb_enumdef *e = upb_enumdef_newnamed("MyEnum", &s);
upb_status status = UPB_STATUS_INIT;
ASSERT_STATUS(upb_enumdef_addval(e, "VAL1", 1, &status), &status);
upb_def *newdefs[] = {UPB_UPCAST(m), UPB_UPCAST(m2), UPB_UPCAST(e)};
ASSERT_STATUS(upb_symtab_add(s, newdefs, 3, &s, &status), &status);
// Try adding a new definition of MyEnum, MyMessage should get replaced with
// a new version.
upb_enumdef *e2 = upb_enumdef_newnamed("MyEnum", &s);
ASSERT_STATUS(upb_enumdef_addval(e2, "VAL1", 1, &status), &status);
upb_def *newdefs2[] = {UPB_UPCAST(e2)};
ASSERT_STATUS(upb_symtab_add(s, newdefs2, 1, &s, &status), &status);
const upb_msgdef *m3 = upb_symtab_lookupmsg(s, "MyMessage");
ASSERT(m3);
// Must be different because it points to MyEnum which was replaced.
ASSERT(m3 != m);
m3 = upb_symtab_lookupmsg(s, "MyMessage2");
// Should be the same because it was not replaced, nor were any defs that
// are reachable from it.
ASSERT(m3 == m2);
upb_symtab_unref(s, &s);
}
static void test_freeze_free() {
// Test that freeze frees defs that were only being kept alive by virtue of
// sharing a group with other defs that are being frozen.
upb_msgdef *m1 = upb_msgdef_newnamed("M1", &m1);
upb_msgdef *m2 = upb_msgdef_newnamed("M2", &m2);
upb_msgdef *m3 = upb_msgdef_newnamed("M3", &m3);
upb_msgdef *m4 = upb_msgdef_newnamed("M4", &m4);
// Freeze M4 and make M1 point to it.
upb_def_freeze((upb_def*const*)&m4, 1, NULL);
upb_fielddef *f = upb_fielddef_new(&f);
upb_fielddef_settype(f, UPB_TYPE_MESSAGE);
ASSERT(upb_fielddef_setnumber(f, 1, NULL));
ASSERT(upb_fielddef_setname(f, "foo", NULL));
ASSERT(upb_fielddef_setmsgsubdef(f, m4, NULL));
ASSERT(upb_msgdef_addfield(m1, f, &f, NULL));
// After this unref, M1 is the only thing keeping M4 alive.
upb_msgdef_unref(m4, &m4);
// Force M1/M2/M3 into a single mutable refcounting group.
f = upb_fielddef_new(&f);
upb_fielddef_settype(f, UPB_TYPE_MESSAGE);
ASSERT(upb_fielddef_setnumber(f, 1, NULL));
ASSERT(upb_fielddef_setname(f, "foo", NULL));
ASSERT(upb_fielddef_setmsgsubdef(f, m1, NULL));
ASSERT(upb_fielddef_setmsgsubdef(f, m2, NULL));
ASSERT(upb_fielddef_setmsgsubdef(f, m3, NULL));
// Make M3 cyclic with itself.
ASSERT(upb_msgdef_addfield(m3, f, &f, NULL));
// These will be kept alive since they are in the same refcounting group as
// M3, which still has a ref. Note: this behavior is not guaranteed by the
// API, but true in practice with its current implementation.
upb_msgdef_unref(m1, &m1);
upb_msgdef_unref(m2, &m2);
// Test that they are still alive (NOT allowed by the API).
ASSERT(strcmp("M1", upb_msgdef_fullname(m1)) == 0);
ASSERT(strcmp("M2", upb_msgdef_fullname(m2)) == 0);
// Freeze M3. If the test leaked no memory, then freeing m1 and m2 was
// successful.
ASSERT(upb_def_freeze((upb_def*const*)&m3, 1, NULL));
upb_msgdef_unref(m3, &m3);
}
static void test_partial_freeze() {
// Test that freeze of only part of the graph correctly adjusts objects that
// point to the newly-frozen objects.
upb_msgdef *m1 = upb_msgdef_newnamed("M1", &m1);
upb_msgdef *m2 = upb_msgdef_newnamed("M2", &m2);
upb_msgdef *m3 = upb_msgdef_newnamed("M3", &m3);
upb_fielddef *f1 = upb_fielddef_new(&f1);
upb_fielddef_settype(f1, UPB_TYPE_MESSAGE);
ASSERT(upb_fielddef_setnumber(f1, 1, NULL));
ASSERT(upb_fielddef_setname(f1, "f1", NULL));
ASSERT(upb_fielddef_setmsgsubdef(f1, m1, NULL));
upb_fielddef *f2 = upb_fielddef_new(&f2);
upb_fielddef_settype(f2, UPB_TYPE_MESSAGE);
ASSERT(upb_fielddef_setnumber(f2, 2, NULL));
ASSERT(upb_fielddef_setname(f2, "f2", NULL));
ASSERT(upb_fielddef_setmsgsubdef(f2, m2, NULL));
ASSERT(upb_msgdef_addfield(m3, f1, &f1, NULL));
ASSERT(upb_msgdef_addfield(m3, f2, &f2, NULL));
// Freeze M1 and M2, which should cause the group to be split
// and m3 (left mutable) to take references on m1 and m2.
upb_def *defs[] = {UPB_UPCAST(m1), UPB_UPCAST(m2)};
ASSERT(upb_def_freeze(defs, 2, NULL));
ASSERT(upb_msgdef_isfrozen(m1));
ASSERT(upb_msgdef_isfrozen(m2));
ASSERT(!upb_msgdef_isfrozen(m3));
upb_msgdef_unref(m1, &m1);
upb_msgdef_unref(m2, &m2);
upb_msgdef_unref(m3, &m3);
}
static void test_descriptor_flags() {
upb_msgdef *m = upb_msgdef_new(&m);
ASSERT(upb_msgdef_mapentry(m) == false);
upb_status s = UPB_STATUS_INIT;
upb_msgdef_setfullname(m, "TestMessage", &s);
ASSERT(upb_ok(&s));
upb_msgdef_setmapentry(m, true);
ASSERT(upb_msgdef_mapentry(m) == true);
upb_msgdef *m2 = upb_msgdef_dup(m, &m2);
ASSERT(upb_msgdef_mapentry(m2) == true);
upb_msgdef_unref(m, &m);
upb_msgdef_unref(m2, &m2);
}
int run_tests(int argc, char *argv[]) {
if (argc < 2) {
fprintf(stderr, "Usage: test_def <test.proto.pb>\n");
return 1;
}
descriptor_file = argv[1];
test_empty_symtab();
test_cycles();
test_symbol_resolution();
test_fielddef_accessors();
test_fielddef_unref();
test_replacement();
test_freeze_free();
test_partial_freeze();
test_noreftracking();
test_descriptor_flags();
return 0;
}