/* SPDX-License-Identifier: MPL-2.0 */ #include "../tests/testutil.hpp" #if defined(min) #undef min #endif #include #include void setUp () { } void tearDown () { } int getlen (const zmq::generic_mtrie_t::prefix_t &data_) { return static_cast (strlen (reinterpret_cast (data_))); } void test_create () { zmq::generic_mtrie_t mtrie; } void mtrie_count (int *pipe_, int *count_) { LIBZMQ_UNUSED (pipe_); ++*count_; } void test_check_empty_match_nonempty_data () { zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (0, count); } void test_check_empty_match_empty_data () { zmq::generic_mtrie_t mtrie; int count = 0; mtrie.match (NULL, 0, mtrie_count, &count); TEST_ASSERT_EQUAL_INT (0, count); } void test_add_single_entry_match_exact () { int pipe; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); bool res = mtrie.add (test_name, getlen (test_name), &pipe); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (1, count); } void test_add_single_entry_twice_match_exact () { int pipe; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); bool res = mtrie.add (test_name, getlen (test_name), &pipe); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); res = mtrie.add (test_name, getlen (test_name), &pipe); TEST_ASSERT_FALSE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (1, count); } void test_add_two_entries_with_same_name_match_exact () { int pipe_1, pipe_2; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); bool res = mtrie.add (test_name, getlen (test_name), &pipe_1); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); res = mtrie.add (test_name, getlen (test_name), &pipe_2); TEST_ASSERT_FALSE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (2, count); } void test_add_two_entries_match_prefix_and_exact () { int pipe_1, pipe_2; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name_prefix = reinterpret_cast::prefix_t> ("foo"); const zmq::generic_mtrie_t::prefix_t test_name_full = reinterpret_cast::prefix_t> ("foobar"); bool res = mtrie.add (test_name_prefix, getlen (test_name_prefix), &pipe_1); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); res = mtrie.add (test_name_full, getlen (test_name_full), &pipe_2); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name_full, getlen (test_name_full), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (2, count); } void test_add_rm_single_entry_match_exact () { int pipe; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); mtrie.add (test_name, getlen (test_name), &pipe); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); zmq::generic_mtrie_t::rm_result res = mtrie.rm (test_name, getlen (test_name), &pipe); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::last_value_removed, res); TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (0, count); } void test_rm_nonexistent_0_size_empty () { int pipe; zmq::generic_mtrie_t mtrie; zmq::generic_mtrie_t::rm_result res = mtrie.rm (0, 0, &pipe); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::not_found, res); TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ()); } void test_rm_nonexistent_empty () { int pipe; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t test_name = reinterpret_cast::prefix_t> ("foo"); zmq::generic_mtrie_t::rm_result res = mtrie.rm (test_name, getlen (test_name), &pipe); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::not_found, res); TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ()); int count = 0; mtrie.match (test_name, getlen (test_name), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (0, count); } void test_add_and_rm_other (const char *add_name_, const char *rm_name_) { int addpipe, rmpipe; zmq::generic_mtrie_t mtrie; const zmq::generic_mtrie_t::prefix_t add_name_data = reinterpret_cast::prefix_t> (add_name_); const zmq::generic_mtrie_t::prefix_t rm_name_data = reinterpret_cast::prefix_t> (rm_name_); mtrie.add (add_name_data, getlen (add_name_data), &addpipe); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); zmq::generic_mtrie_t::rm_result res = mtrie.rm (rm_name_data, getlen (rm_name_data), &rmpipe); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::not_found, res); TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ()); { int count = 0; mtrie.match (add_name_data, getlen (add_name_data), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (1, count); } if (strncmp (add_name_, rm_name_, std::min (strlen (add_name_), strlen (rm_name_) + 1)) != 0) { int count = 0; mtrie.match (rm_name_data, getlen (rm_name_data), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (0, count); } } void test_rm_nonexistent_nonempty_samename () { // TODO this triggers an assertion test_add_and_rm_other ("foo", "foo"); } void test_rm_nonexistent_nonempty_differentname () { test_add_and_rm_other ("foo", "bar"); } void test_rm_nonexistent_nonempty_prefix () { // TODO here, a test assertion fails test_add_and_rm_other ("foobar", "foo"); } void test_rm_nonexistent_nonempty_prefixed () { test_add_and_rm_other ("foo", "foobar"); } void add_indexed_expect_unique (zmq::generic_mtrie_t &mtrie_, int *pipes_, const char **names_, size_t i_) { const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (names_[i_]); bool res = mtrie_.add (name_data, getlen (name_data), &pipes_[i_]); TEST_ASSERT_EQUAL ( zmq::generic_mtrie_t::last_value_removed, res); // FIXME asserting equality between enum and bool? I think first arg for macro should be "true" } void test_rm_nonexistent_between () { int pipes[3]; const char *names[] = {"foo1", "foo2", "foo3"}; zmq::generic_mtrie_t mtrie; add_indexed_expect_unique (mtrie, pipes, names, 0); add_indexed_expect_unique (mtrie, pipes, names, 2); TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ()); const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (names[1]); zmq::generic_mtrie_t::rm_result res = mtrie.rm (name_data, getlen (name_data), &pipes[1]); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::not_found, res); TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ()); } template void add_entries (zmq::generic_mtrie_t &mtrie_, int (&pipes_)[N], const char *(&names_)[N]) { for (size_t i = 0; i < N; ++i) { add_indexed_expect_unique (mtrie_, pipes_, names_, i); } TEST_ASSERT_EQUAL_INT (N, mtrie_.num_prefixes ()); } void test_add_multiple () { int pipes[3]; const char *names[] = {"foo1", "foo2", "foo3"}; zmq::generic_mtrie_t mtrie; add_entries (mtrie, pipes, names); for (size_t i = 0; i < sizeof (names) / sizeof (names[0]); ++i) { const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (names[i]); int count = 0; mtrie.match (name_data, getlen (name_data), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (1, count); } } void test_add_multiple_reverse () { int pipes[3]; const char *names[] = {"foo1", "foo2", "foo3"}; zmq::generic_mtrie_t mtrie; for (int i = 2; i >= 0; --i) { add_indexed_expect_unique (mtrie, pipes, names, static_cast (i)); } TEST_ASSERT_EQUAL_INT (3, mtrie.num_prefixes ()); for (size_t i = 0; i < 3; ++i) { const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (names[i]); int count = 0; mtrie.match (name_data, getlen (name_data), mtrie_count, &count); TEST_ASSERT_EQUAL_INT (1, count); } } template void add_and_rm_entries (const char *(&names_)[N]) { int pipes[N]; zmq::generic_mtrie_t mtrie; add_entries (mtrie, pipes, names_); for (size_t i = 0; i < N; ++i) { const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (names_[i]); zmq::generic_mtrie_t::rm_result res = mtrie.rm (name_data, getlen (name_data), &pipes[i]); TEST_ASSERT_EQUAL (zmq::generic_mtrie_t::last_value_removed, res); } TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ()); } void test_rm_multiple_in_order () { const char *names[] = {"foo1", "foo2", "foo3"}; add_and_rm_entries (names); } void test_rm_multiple_reverse_order () { const char *names[] = {"foo3", "foo2", "foo1"}; add_and_rm_entries (names); } void check_name (zmq::generic_mtrie_t::prefix_t data_, size_t len_, const char *name_) { TEST_ASSERT_EQUAL_UINT (strlen (name_), len_); TEST_ASSERT_EQUAL_STRING_LEN (name_, data_, len_); } template void add_entries_rm_pipes_unique (const char *(&names_)[N]) { int pipes[N]; zmq::generic_mtrie_t mtrie; add_entries (mtrie, pipes, names_); for (size_t i = 0; i < N; ++i) { mtrie.rm (&pipes[i], check_name, names_[i], false); } } void test_rm_with_callback_multiple_in_order () { const char *names[] = {"foo1", "foo2", "foo3"}; add_entries_rm_pipes_unique (names); } void test_rm_with_callback_multiple_reverse_order () { const char *names[] = {"foo3", "foo2", "foo1"}; add_entries_rm_pipes_unique (names); } void check_count (zmq::generic_mtrie_t::prefix_t data_, size_t len_, int *count_) { --(*count_); TEST_ASSERT_GREATER_OR_EQUAL (0, *count_); } void add_duplicate_entry (zmq::generic_mtrie_t &mtrie_, int (&pipes_)[2]) { const char *name = "foo"; const zmq::generic_mtrie_t::prefix_t name_data = reinterpret_cast::prefix_t> (name); bool res = mtrie_.add (name_data, getlen (name_data), &pipes_[0]); TEST_ASSERT_TRUE (res); TEST_ASSERT_EQUAL_INT (1, mtrie_.num_prefixes ()); res = mtrie_.add (name_data, getlen (name_data), &pipes_[1]); TEST_ASSERT_FALSE (res); TEST_ASSERT_EQUAL_INT (1, mtrie_.num_prefixes ()); } void test_rm_with_callback_duplicate () { int pipes[2]; zmq::generic_mtrie_t mtrie; add_duplicate_entry (mtrie, pipes); int count = 1; mtrie.rm (&pipes[0], check_count, &count, false); count = 1; mtrie.rm (&pipes[1], check_count, &count, false); } void test_rm_with_callback_duplicate_uniq_only () { int pipes[2]; zmq::generic_mtrie_t mtrie; add_duplicate_entry (mtrie, pipes); int count = 0; mtrie.rm (&pipes[0], check_count, &count, true); count = 1; mtrie.rm (&pipes[1], check_count, &count, true); } int main (void) { setup_test_environment (); UNITY_BEGIN (); RUN_TEST (test_create); RUN_TEST (test_check_empty_match_nonempty_data); RUN_TEST (test_check_empty_match_empty_data); RUN_TEST (test_add_single_entry_match_exact); RUN_TEST (test_add_single_entry_twice_match_exact); RUN_TEST (test_add_rm_single_entry_match_exact); RUN_TEST (test_add_two_entries_match_prefix_and_exact); RUN_TEST (test_add_two_entries_with_same_name_match_exact); RUN_TEST (test_rm_nonexistent_0_size_empty); RUN_TEST (test_rm_nonexistent_empty); RUN_TEST (test_rm_nonexistent_nonempty_samename); RUN_TEST (test_rm_nonexistent_nonempty_differentname); RUN_TEST (test_rm_nonexistent_nonempty_prefix); RUN_TEST (test_rm_nonexistent_nonempty_prefixed); RUN_TEST (test_rm_nonexistent_between); RUN_TEST (test_add_multiple); RUN_TEST (test_add_multiple_reverse); RUN_TEST (test_rm_multiple_in_order); RUN_TEST (test_rm_multiple_reverse_order); RUN_TEST (test_rm_with_callback_multiple_in_order); RUN_TEST (test_rm_with_callback_multiple_reverse_order); RUN_TEST (test_rm_with_callback_duplicate); RUN_TEST (test_rm_with_callback_duplicate_uniq_only); return UNITY_END (); }