/* Simple Plugin API */ /* SPDX-FileCopyrightText: Copyright © 2018 Collabora Ltd. */ /* @author George Kiagiadakis */ /* SPDX-License-Identifier: MIT */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "pwtest.h" PWTEST(utils_abi_sizes) { #if defined(__x86_64__) && defined(__LP64__) /* dict */ pwtest_int_eq(sizeof(struct spa_dict_item), 16U); pwtest_int_eq(sizeof(struct spa_dict), 16U); /* hook */ pwtest_int_eq(sizeof(struct spa_hook_list), sizeof(struct spa_list)); pwtest_int_eq(sizeof(struct spa_hook), 48U); /* list */ pwtest_int_eq(sizeof(struct spa_list), 16U); return PWTEST_PASS; #endif return PWTEST_SKIP; } PWTEST(utils_abi) { /* defs */ pwtest_int_eq(SPA_DIRECTION_INPUT, 0); pwtest_int_eq(SPA_DIRECTION_OUTPUT, 1); pwtest_int_eq(sizeof(struct spa_rectangle), 8U); pwtest_int_eq(sizeof(struct spa_point), 8U); pwtest_int_eq(sizeof(struct spa_region), 16U); pwtest_int_eq(sizeof(struct spa_fraction), 8U); { struct spa_rectangle r = SPA_RECTANGLE(12, 14); pwtest_int_eq(r.width, 12U); pwtest_int_eq(r.height, 14U); } { struct spa_point p = SPA_POINT(8, 34); pwtest_int_eq(p.x, 8); pwtest_int_eq(p.y, 34); } { struct spa_region r = SPA_REGION(4, 5, 12, 13); pwtest_int_eq(r.position.x, 4); pwtest_int_eq(r.position.y, 5); pwtest_int_eq(r.size.width, 12U); pwtest_int_eq(r.size.height, 13U); } { struct spa_fraction f = SPA_FRACTION(56, 125); pwtest_int_eq(f.num, 56U); pwtest_int_eq(f.denom, 125U); } /* ringbuffer */ pwtest_int_eq(sizeof(struct spa_ringbuffer), 8U); /* type */ pwtest_int_eq(SPA_TYPE_START, 0); pwtest_int_eq(SPA_TYPE_None, 1); pwtest_int_eq(SPA_TYPE_Bool, 2); pwtest_int_eq(SPA_TYPE_Id, 3); pwtest_int_eq(SPA_TYPE_Int, 4); pwtest_int_eq(SPA_TYPE_Long, 5); pwtest_int_eq(SPA_TYPE_Float, 6); pwtest_int_eq(SPA_TYPE_Double, 7); pwtest_int_eq(SPA_TYPE_String, 8); pwtest_int_eq(SPA_TYPE_Bytes, 9); pwtest_int_eq(SPA_TYPE_Rectangle, 10); pwtest_int_eq(SPA_TYPE_Fraction, 11); pwtest_int_eq(SPA_TYPE_Bitmap, 12); pwtest_int_eq(SPA_TYPE_Array, 13); pwtest_int_eq(SPA_TYPE_Struct, 14); pwtest_int_eq(SPA_TYPE_Object, 15); pwtest_int_eq(SPA_TYPE_Sequence, 16); pwtest_int_eq(SPA_TYPE_Pointer, 17); pwtest_int_eq(SPA_TYPE_Fd, 18); pwtest_int_eq(SPA_TYPE_Choice, 19); pwtest_int_eq(SPA_TYPE_Pod, 20); pwtest_int_eq(_SPA_TYPE_LAST, 21); pwtest_int_eq(SPA_TYPE_EVENT_START, 0x20000); pwtest_int_eq(SPA_TYPE_EVENT_Device, 0x20001); pwtest_int_eq(SPA_TYPE_EVENT_Node, 0x20002); pwtest_int_eq(_SPA_TYPE_EVENT_LAST, 0x20003); pwtest_int_eq(SPA_TYPE_COMMAND_START, 0x30000); pwtest_int_eq(SPA_TYPE_COMMAND_Device, 0x30001); pwtest_int_eq(SPA_TYPE_COMMAND_Node, 0x30002); pwtest_int_eq(_SPA_TYPE_COMMAND_LAST, 0x30003); pwtest_int_eq(SPA_TYPE_OBJECT_START, 0x40000); pwtest_int_eq(SPA_TYPE_OBJECT_PropInfo, 0x40001); pwtest_int_eq(SPA_TYPE_OBJECT_Props, 0x40002); pwtest_int_eq(SPA_TYPE_OBJECT_Format, 0x40003); pwtest_int_eq(SPA_TYPE_OBJECT_ParamBuffers, 0x40004); pwtest_int_eq(SPA_TYPE_OBJECT_ParamMeta, 0x40005); pwtest_int_eq(SPA_TYPE_OBJECT_ParamIO, 0x40006); pwtest_int_eq(SPA_TYPE_OBJECT_ParamProfile, 0x40007); pwtest_int_eq(SPA_TYPE_OBJECT_ParamPortConfig, 0x40008); pwtest_int_eq(SPA_TYPE_OBJECT_ParamRoute, 0x40009); pwtest_int_eq(SPA_TYPE_OBJECT_Profiler, 0x4000a); pwtest_int_eq(SPA_TYPE_OBJECT_ParamLatency, 0x4000b); pwtest_int_eq(SPA_TYPE_OBJECT_ParamProcessLatency, 0x4000c); pwtest_int_eq(SPA_TYPE_OBJECT_ParamTag, 0x4000d); pwtest_int_eq(_SPA_TYPE_OBJECT_LAST, 0x4000e); pwtest_int_eq(SPA_TYPE_VENDOR_PipeWire, 0x02000000); pwtest_int_eq(SPA_TYPE_VENDOR_Other, 0x7f000000); return PWTEST_PASS; } PWTEST(utils_macros) { uint8_t ptr[64]; uint16_t i16[14]; uint32_t i32[10]; uint64_t i64[12]; unsigned char c[16]; pwtest_int_eq(SPA_MIN(1, 2), 1); pwtest_int_eq(SPA_MIN(1, -2), -2); pwtest_int_eq(SPA_MAX(1, 2), 2); pwtest_int_eq(SPA_MAX(1, -2), 1); pwtest_int_eq(SPA_CLAMP(23, 1, 16), 16); pwtest_int_eq(SPA_CLAMP(-1, 1, 16), 1); pwtest_int_eq(SPA_CLAMP(8, 1, 16), 8); /* SPA_MEMBER exists for backwards compatibility but should no * longer be used, let's make sure it does what we expect it to */ pwtest_ptr_eq(SPA_MEMBER(ptr, 4, void), SPA_PTROFF(ptr, 4, void)); pwtest_ptr_eq(SPA_MEMBER(ptr, 32, void), SPA_PTROFF(ptr, 32, void)); pwtest_ptr_eq(SPA_MEMBER(ptr, 0, void), SPA_PTROFF(ptr, 0, void)); pwtest_ptr_eq(SPA_MEMBER_ALIGN(ptr, 0, 4, void), SPA_PTROFF_ALIGN(ptr, 0, 4, void)); pwtest_ptr_eq(SPA_MEMBER_ALIGN(ptr, 4, 32, void), SPA_PTROFF_ALIGN(ptr, 4, 32, void)); pwtest_int_eq(SPA_N_ELEMENTS(ptr), 64U); pwtest_int_eq(SPA_N_ELEMENTS(i32), 10U); pwtest_int_eq(SPA_N_ELEMENTS(i64), 12U); pwtest_int_eq(SPA_N_ELEMENTS(i16), 14U); pwtest_int_eq(SPA_N_ELEMENTS(c), 16U); #define check_traversal(array_) \ { \ int count = 0; \ SPA_FOR_EACH_ELEMENT_VAR(array_, it) \ *it = count++; \ for (size_t i = 0; i < SPA_N_ELEMENTS(array_); i++) \ pwtest_int_eq(array_[i], i); \ } check_traversal(ptr); check_traversal(i64); check_traversal(i32); check_traversal(i16); check_traversal(c); return PWTEST_PASS; } PWTEST(utils_result) { int res; pwtest_int_eq(SPA_RESULT_IS_OK(0), true); pwtest_int_eq(SPA_RESULT_IS_OK(1), true); pwtest_int_eq(SPA_RESULT_IS_ERROR(0), false); pwtest_int_eq(SPA_RESULT_IS_ERROR(1), false); pwtest_int_eq(SPA_RESULT_IS_ERROR(-1), true); pwtest_int_eq(SPA_RESULT_IS_ASYNC(-1), false); pwtest_int_eq(SPA_RESULT_IS_ASYNC(0), false); res = SPA_RESULT_RETURN_ASYNC(11); pwtest_int_eq(SPA_RESULT_IS_ASYNC(res), true); pwtest_int_eq(SPA_RESULT_IS_ERROR(res), false); pwtest_int_eq(SPA_RESULT_IS_OK(res), true); pwtest_int_eq(SPA_RESULT_ASYNC_SEQ(res), 11); return PWTEST_PASS; } PWTEST(utils_dict) { struct spa_dict_item items[5] = { SPA_DICT_ITEM_INIT("key", "value"), SPA_DICT_ITEM_INIT("pipe", "wire"), SPA_DICT_ITEM_INIT("test", "Works!"), SPA_DICT_ITEM_INIT("123", ""), SPA_DICT_ITEM_INIT("SPA", "Simple Plugin API"), }; struct spa_dict dict = SPA_DICT_INIT_ARRAY (items); const struct spa_dict_item *it; int i = 0; pwtest_int_eq(dict.n_items, 5U); pwtest_str_eq(spa_dict_lookup(&dict, "pipe"), "wire"); pwtest_str_eq(spa_dict_lookup(&dict, "123"), ""); pwtest_str_eq(spa_dict_lookup(&dict, "key"), "value"); pwtest_str_eq(spa_dict_lookup(&dict, "SPA"), "Simple Plugin API"); pwtest_str_eq(spa_dict_lookup(&dict, "test"), "Works!"); pwtest_ptr_null(spa_dict_lookup(&dict, "nonexistent")); pwtest_ptr_eq(spa_dict_lookup_item(&dict, "123"), &items[3]); pwtest_ptr_null(spa_dict_lookup_item(&dict, "foobar")); spa_dict_for_each(it, &dict) { pwtest_ptr_eq(it, &items[i++]); } pwtest_int_eq(i, 5); return PWTEST_PASS; } struct string_list { char string[20]; struct spa_list node; }; PWTEST(utils_list) { struct string_list list; struct spa_list *head = &list.node; struct string_list *e; int i; spa_list_init(head); pwtest_bool_true(spa_list_is_empty(head)); e = malloc(sizeof(struct string_list)); strcpy(e->string, "test"); spa_list_insert(head, &e->node); pwtest_bool_false(spa_list_is_empty(head)); pwtest_ptr_eq(spa_list_first(head, struct string_list, node), e); pwtest_ptr_eq(spa_list_last(head, struct string_list, node), e); e = malloc(sizeof(struct string_list)); strcpy(e->string, "pipewire!"); spa_list_append(head, &e->node); pwtest_bool_false(spa_list_is_empty(head)); pwtest_ptr_eq(spa_list_last(head, struct string_list, node), e); e = malloc(sizeof(struct string_list)); strcpy(e->string, "First element"); spa_list_prepend(head, &e->node); pwtest_bool_false(spa_list_is_empty(head)); pwtest_ptr_eq(spa_list_first(head, struct string_list, node), e); i = 0; spa_list_for_each(e, head, node) { switch (i++) { case 0: pwtest_str_eq(e->string, "First element"); break; case 1: pwtest_str_eq(e->string, "test"); break; case 2: pwtest_str_eq(e->string, "pipewire!"); break; default: pwtest_fail_if_reached(); break; } } i = 0; spa_list_consume(e, head, node) { spa_list_remove(&e->node); free(e); i++; } pwtest_int_eq(i, 3); pwtest_bool_true(spa_list_is_empty(head)); return PWTEST_PASS; } struct my_hook { int version; void (*invoke) (void *); }; struct my_hook_data { bool cb1; bool cb2; bool cb3; }; static void test_hook_callback_1(void *data) { ((struct my_hook_data *) data)->cb1 = true; } static void test_hook_callback_2(void *data) { ((struct my_hook_data *) data)->cb2 = true; } static void test_hook_callback_3(void *data) { ((struct my_hook_data *) data)->cb3 = true; } static void test_hook_callback_4(void *data) { pwtest_fail_if_reached(); } static int hook_free_count = 0; static void hook_removed_cb(struct spa_hook *h) { free(h); hook_free_count++; } PWTEST(utils_hook) { const int HOOK_VERSION = 2; struct spa_hook_list hl; struct my_hook callbacks[4] = { {2, test_hook_callback_1}, {3, test_hook_callback_2}, {2, test_hook_callback_3}, /* version 1 should not be called */ {1, test_hook_callback_4} }; struct my_hook_data data = {0}; struct spa_hook *h; int count = 0; spa_hook_list_init(&hl); h = malloc(sizeof(struct spa_hook)); spa_hook_list_append(&hl, h, &callbacks[1], &data); h->removed = hook_removed_cb; h = malloc(sizeof(struct spa_hook)); spa_hook_list_append(&hl, h, &callbacks[2], &data); h->removed = hook_removed_cb; /* iterate with the simple API */ spa_hook_list_call_simple(&hl, struct my_hook, invoke, HOOK_VERSION); pwtest_bool_eq(data.cb1, false); pwtest_bool_eq(data.cb2, true); pwtest_bool_eq(data.cb3, true); /* reset cb* booleans to false */ memset(&data, 0, sizeof(struct my_hook_data)); h = malloc(sizeof(struct spa_hook)); spa_hook_list_prepend(&hl, h, &callbacks[0], &data); h->removed = hook_removed_cb; /* call only the first hook - this should be callback_1 */ count = spa_hook_list_call_once(&hl, struct my_hook, invoke, HOOK_VERSION); pwtest_int_eq(count, 1); pwtest_bool_eq(data.cb1, true); pwtest_bool_eq(data.cb2, false); pwtest_bool_eq(data.cb3, false); /* reset cb* booleans to false */ memset(&data, 0, sizeof(struct my_hook_data)); /* add callback_4 - this is version 1, so it shouldn't be executed */ h = malloc(sizeof(struct spa_hook)); spa_hook_list_append(&hl, h, &callbacks[3], &data); h->removed = hook_removed_cb; count = spa_hook_list_call(&hl, struct my_hook, invoke, HOOK_VERSION); pwtest_int_eq(count, 3); pwtest_bool_eq(data.cb1, true); pwtest_bool_eq(data.cb2, true); pwtest_bool_eq(data.cb3, true); count = 0; hook_free_count = 0; spa_list_consume(h, &hl.list, link) { spa_hook_remove(h); count++; } pwtest_int_eq(count, 4); pwtest_int_eq(hook_free_count, 4); /* remove a zeroed hook */ struct spa_hook hook; spa_zero(hook); spa_hook_remove(&hook); return PWTEST_PASS; } PWTEST(utils_ringbuffer) { struct spa_ringbuffer rb; char buffer[20]; char readbuf[20]; uint32_t idx; int32_t fill; spa_ringbuffer_init(&rb); fill = spa_ringbuffer_get_write_index(&rb, &idx); pwtest_int_eq(idx, 0U); pwtest_int_eq(fill, 0); spa_ringbuffer_write_data(&rb, buffer, 20, idx, "hello pipewire", 14); spa_ringbuffer_write_update(&rb, idx + 14); fill = spa_ringbuffer_get_write_index(&rb, &idx); pwtest_int_eq(idx, 14U); pwtest_int_eq(fill, 14); fill = spa_ringbuffer_get_read_index(&rb, &idx); pwtest_int_eq(idx, 0U); pwtest_int_eq(fill, 14); spa_ringbuffer_read_data(&rb, buffer, 20, idx, readbuf, 6); spa_ringbuffer_read_update(&rb, idx + 6); pwtest_int_eq(memcmp(readbuf, "hello ", 6), 0); fill = spa_ringbuffer_get_read_index(&rb, &idx); pwtest_int_eq(idx, 6U); pwtest_int_eq(fill, 8); fill = spa_ringbuffer_get_write_index(&rb, &idx); pwtest_int_eq(idx, 14U); pwtest_int_eq(fill, 8); spa_ringbuffer_write_data(&rb, buffer, 20, idx, " rocks !!!", 10); spa_ringbuffer_write_update(&rb, idx + 10); fill = spa_ringbuffer_get_write_index(&rb, &idx); pwtest_int_eq(idx, 24U); pwtest_int_eq(fill, 18); fill = spa_ringbuffer_get_read_index(&rb, &idx); pwtest_int_eq(idx, 6U); pwtest_int_eq(fill, 18); spa_ringbuffer_read_data(&rb, buffer, 20, idx, readbuf, 18); spa_ringbuffer_read_update(&rb, idx + 18); pwtest_str_eq_n(readbuf, "pipewire rocks !!!", 18); fill = spa_ringbuffer_get_read_index(&rb, &idx); pwtest_int_eq(idx, 24U); pwtest_int_eq(fill, 0); fill = spa_ringbuffer_get_write_index(&rb, &idx); pwtest_int_eq(idx, 24U); pwtest_int_eq(fill, 0); /* actual buffer must have wrapped around */ pwtest_str_eq_n(buffer, " !!!o pipewire rocks", 20); return PWTEST_PASS; } PWTEST(utils_strtol) { int32_t v = 0xabcd; pwtest_bool_true(spa_atoi32("0", &v, 0)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi32("0", &v, 16)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi32("0", &v, 32)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi32("-1", &v, 0)); pwtest_int_eq(v, -1); pwtest_bool_true(spa_atoi32("-1234", &v, 0)); pwtest_int_eq(v, -1234); pwtest_bool_true(spa_atoi32("-2147483648", &v, 0)); pwtest_int_eq(v, -2147483648); pwtest_bool_true(spa_atoi32("+1", &v, 0)); pwtest_int_eq(v, 1); pwtest_bool_true(spa_atoi32("+1234", &v, 0)); pwtest_int_eq(v, 1234); pwtest_bool_true(spa_atoi32("+2147483647", &v, 0)); pwtest_int_eq(v, 2147483647); pwtest_bool_true(spa_atoi32("65535", &v, 0)); pwtest_int_eq(v, 0xffff); pwtest_bool_true(spa_atoi32("65535", &v, 10)); pwtest_int_eq(v, 0xffff); pwtest_bool_true(spa_atoi32("65535", &v, 16)); pwtest_int_eq(v, 0x65535); pwtest_bool_true(spa_atoi32("0xff", &v, 0)); pwtest_int_eq(v, 0xff); pwtest_bool_true(spa_atoi32("0xff", &v, 16)); pwtest_int_eq(v, 0xff); v = 0xabcd; pwtest_bool_false(spa_atoi32("0xff", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("fabc", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("fabc", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("124bogus", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("124bogus", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("124bogus", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("0xbogus", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("bogus", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("bogus", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32(" ", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32(" ", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("-2147483649", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("2147483648", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("9223372036854775807", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("-9223372036854775808", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32("9223372036854775808999", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32(NULL, &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32(NULL, &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi32(NULL, &v, 16)); pwtest_int_eq(v, 0xabcd); return PWTEST_PASS; } PWTEST(utils_strtoul) { uint32_t v = 0xabcd; pwtest_bool_true(spa_atou32("0", &v, 0)); pwtest_int_eq(v, 0U); pwtest_bool_true(spa_atou32("0", &v, 16)); pwtest_int_eq(v, 0U); pwtest_bool_true(spa_atou32("0", &v, 32)); pwtest_int_eq(v, 0U); pwtest_bool_true(spa_atou32("+1", &v, 0)); pwtest_int_eq(v, 1U); pwtest_bool_true(spa_atou32("+1234", &v, 0)); pwtest_int_eq(v, 1234U); pwtest_bool_true(spa_atou32("+4294967295", &v, 0)); pwtest_int_eq(v, 4294967295U); pwtest_bool_true(spa_atou32("4294967295", &v, 0)); pwtest_int_eq(v, 4294967295U); pwtest_bool_true(spa_atou32("65535", &v, 0)); pwtest_int_eq(v, 0xffffU); pwtest_bool_true(spa_atou32("65535", &v, 10)); pwtest_int_eq(v, 0xffffU); pwtest_bool_true(spa_atou32("65535", &v, 16)); pwtest_int_eq(v, 0x65535U); pwtest_bool_true(spa_atou32("0xff", &v, 0)); pwtest_int_eq(v, 0xffU); pwtest_bool_true(spa_atou32("0xff", &v, 16)); pwtest_int_eq(v, 0xffU); v = 0xabcd; pwtest_bool_false(spa_atou32("-1", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("-1234", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("-2147483648", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("0xff", &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("fabc", &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("fabc", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("124bogus", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("124bogus", &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("124bogus", &v, 16)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("0xbogus", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("bogus", &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("bogus", &v, 16)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("", &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("", &v, 16)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32(" ", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32(" ", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("-2147483649", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("4294967296", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("9223372036854775807", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("-9223372036854775808", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32("9223372036854775808999", &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32(NULL, &v, 0)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32(NULL, &v, 10)); pwtest_int_eq(v, 0xabcdU); pwtest_bool_false(spa_atou32(NULL, &v, 16)); pwtest_int_eq(v, 0xabcdU); return PWTEST_PASS; } PWTEST(utils_strtoll) { int64_t v = 0xabcd; pwtest_bool_true(spa_atoi64("0", &v, 0)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi64("0", &v, 16)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi64("0", &v, 32)); pwtest_int_eq(v, 0); pwtest_bool_true(spa_atoi64("-1", &v, 0)); pwtest_int_eq(v, -1); pwtest_bool_true(spa_atoi64("-1234", &v, 0)); pwtest_int_eq(v, -1234); pwtest_bool_true(spa_atoi64("-2147483648", &v, 0)); pwtest_int_eq(v, -2147483648); pwtest_bool_true(spa_atoi64("+1", &v, 0)); pwtest_int_eq(v, 1); pwtest_bool_true(spa_atoi64("+1234", &v, 0)); pwtest_int_eq(v, 1234); pwtest_bool_true(spa_atoi64("+2147483647", &v, 0)); pwtest_int_eq(v, 2147483647); pwtest_bool_true(spa_atoi64("65535", &v, 0)); pwtest_int_eq(v, 0xffff); pwtest_bool_true(spa_atoi64("65535", &v, 10)); pwtest_int_eq(v, 0xffff); pwtest_bool_true(spa_atoi64("65535", &v, 16)); pwtest_int_eq(v, 0x65535); pwtest_bool_true(spa_atoi64("0xff", &v, 0)); pwtest_int_eq(v, 0xff); pwtest_bool_true(spa_atoi64("0xff", &v, 16)); pwtest_int_eq(v, 0xff); pwtest_bool_true(spa_atoi64("9223372036854775807", &v, 0)); pwtest_int_eq(v, 0x7fffffffffffffff); pwtest_bool_true(spa_atoi64("-9223372036854775808", &v, 0)); pwtest_int_eq((uint64_t)v, 0x8000000000000000); v = 0xabcd; pwtest_bool_false(spa_atoi64("0xff", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("fabc", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("fabc", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("124bogus", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("124bogus", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("124bogus", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("0xbogus", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("bogus", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("bogus", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("", &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("", &v, 16)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64(" ", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64(" ", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64("9223372036854775808999", &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64(NULL, &v, 0)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64(NULL, &v, 10)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atoi64(NULL, &v, 16)); pwtest_int_eq(v, 0xabcd); return PWTEST_PASS; } PWTEST(utils_strtof) { float v = 0xabcd; setlocale(LC_NUMERIC, "C"); /* For decimal number parsing */ pwtest_bool_true(spa_atof("0", &v)); pwtest_double_eq(v, 0.0f); pwtest_bool_true(spa_atof("0.00", &v)); pwtest_double_eq(v, 0.0f); pwtest_bool_true(spa_atof("1", &v)); pwtest_double_eq(v, 1.0f); pwtest_bool_true(spa_atof("-1", &v)); pwtest_double_eq(v, -1.0f); pwtest_bool_true(spa_atof("0x1", &v)); pwtest_double_eq(v, 1.0f); v = 0xabcd; pwtest_bool_false(spa_atof("0,00", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof("fabc", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof("1.bogus", &v));pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof("1.0a", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof(" ", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof(" ", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof("", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atof(NULL, &v)); pwtest_int_eq(v, 0xabcd); return PWTEST_PASS; } PWTEST(utils_strtod) { double v = 0xabcd; pwtest_bool_true(spa_atod("0", &v)); pwtest_double_eq(v, 0.0); pwtest_bool_true(spa_atod("0.00", &v)); pwtest_double_eq(v, 0.0); pwtest_bool_true(spa_atod("1", &v)); pwtest_double_eq(v, 1.0); pwtest_bool_true(spa_atod("-1", &v)); pwtest_double_eq(v, -1.0); pwtest_bool_true(spa_atod("0x1", &v)); pwtest_double_eq(v, 1.0); v = 0xabcd; pwtest_bool_false(spa_atod("0,00", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod("fabc", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod("1.bogus", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod("1.0a", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod(" ", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod(" ", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod("", &v)); pwtest_int_eq(v, 0xabcd); pwtest_bool_false(spa_atod(NULL, &v)); pwtest_int_eq(v, 0xabcd); return PWTEST_PASS; } PWTEST(utils_streq) { pwtest_bool_true(spa_streq(NULL, NULL)); pwtest_bool_true(spa_streq("", "")); pwtest_bool_true(spa_streq("a", "a")); pwtest_bool_true(spa_streq("abc", "abc")); pwtest_bool_false(spa_streq(NULL, "abc")); pwtest_bool_false(spa_streq("abc", NULL)); pwtest_bool_true(spa_strneq("abc", "aaa", 1)); pwtest_bool_true(spa_strneq("abc", "abc", 7)); pwtest_bool_false(spa_strneq("abc", "aaa", 2)); pwtest_bool_false(spa_strneq("abc", NULL, 7)); pwtest_bool_false(spa_strneq(NULL, "abc", 7)); return PWTEST_PASS; } PWTEST(utils_strendswith) { pwtest_bool_true(spa_strendswith("foo", "o")); pwtest_bool_true(spa_strendswith("foobar", "bar")); pwtest_bool_false(spa_strendswith(NULL, "bar")); pwtest_bool_false(spa_strendswith("foo", "f")); pwtest_bool_false(spa_strendswith("foo", "fo")); pwtest_bool_false(spa_strendswith("foo", "foobar")); return PWTEST_PASS; } PWTEST(utils_strendswith_null_suffix) { spa_strendswith("foo", NULL); return PWTEST_FAIL; } PWTEST(utils_atob) { pwtest_bool_true(spa_atob("true")); pwtest_bool_true(spa_atob("1")); pwtest_bool_false(spa_atob("0")); pwtest_bool_false(spa_atob("-1")); pwtest_bool_false(spa_atob("10")); pwtest_bool_false(spa_atob("11")); pwtest_bool_false(spa_atob("t")); pwtest_bool_false(spa_atob("yes")); pwtest_bool_false(spa_atob("no")); pwtest_bool_false(spa_atob(NULL)); pwtest_bool_false(spa_atob("True")); /* lower-case required */ pwtest_bool_false(spa_atob("TRUE")); return PWTEST_PASS; } PWTEST(utils_ansi) { /* Visual test only */ printf("%sBOLD%s\n", SPA_ANSI_BOLD, SPA_ANSI_RESET); printf("%sUNDERLINE%s\n", SPA_ANSI_UNDERLINE, SPA_ANSI_RESET); printf("%sITALIC%s\n", SPA_ANSI_ITALIC, SPA_ANSI_RESET); printf("%sBLACK%s\n", SPA_ANSI_BLACK, SPA_ANSI_RESET); printf("%sBRIGHT_BLACK%s\n", SPA_ANSI_BRIGHT_BLACK, SPA_ANSI_RESET); printf("%sDARK_BLACK%s\n", SPA_ANSI_DARK_BLACK, SPA_ANSI_RESET); printf("%sBOLD_BLACK%s\n", SPA_ANSI_BOLD_BLACK, SPA_ANSI_RESET); printf("%sRED%s\n", SPA_ANSI_RED, SPA_ANSI_RESET); printf("%sBRIGHT_RED%s\n", SPA_ANSI_BRIGHT_RED, SPA_ANSI_RESET); printf("%sDARK_RED%s\n", SPA_ANSI_DARK_RED, SPA_ANSI_RESET); printf("%sBOLD_RED%s\n", SPA_ANSI_BOLD_RED, SPA_ANSI_RESET); printf("%sGREEN%s\n", SPA_ANSI_GREEN, SPA_ANSI_RESET); printf("%sBRIGHT_GREEN%s\n", SPA_ANSI_BRIGHT_GREEN, SPA_ANSI_RESET); printf("%sDARK_GREEN%s\n", SPA_ANSI_DARK_GREEN, SPA_ANSI_RESET); printf("%sBOLD_GREEN%s\n", SPA_ANSI_BOLD_GREEN, SPA_ANSI_RESET); printf("%sYELLOW%s\n", SPA_ANSI_YELLOW, SPA_ANSI_RESET); printf("%sBRIGHT_YELLOW%s\n", SPA_ANSI_BRIGHT_YELLOW, SPA_ANSI_RESET); printf("%sDARK_YELLOW%s\n", SPA_ANSI_DARK_YELLOW, SPA_ANSI_RESET); printf("%sBOLD_YELLOW%s\n", SPA_ANSI_BOLD_YELLOW, SPA_ANSI_RESET); printf("%sBLUE%s\n", SPA_ANSI_BLUE, SPA_ANSI_RESET); printf("%sBRIGHT_BLUE%s\n", SPA_ANSI_BRIGHT_BLUE, SPA_ANSI_RESET); printf("%sDARK_BLUE%s\n", SPA_ANSI_DARK_BLUE, SPA_ANSI_RESET); printf("%sBOLD_BLUE%s\n", SPA_ANSI_BOLD_BLUE, SPA_ANSI_RESET); printf("%sMAGENTA%s\n", SPA_ANSI_MAGENTA, SPA_ANSI_RESET); printf("%sBRIGHT_MAGENTA%s\n", SPA_ANSI_BRIGHT_MAGENTA, SPA_ANSI_RESET); printf("%sDARK_MAGENTA%s\n", SPA_ANSI_DARK_MAGENTA, SPA_ANSI_RESET); printf("%sBOLD_MAGENTA%s\n", SPA_ANSI_BOLD_MAGENTA, SPA_ANSI_RESET); printf("%sCYAN%s\n", SPA_ANSI_CYAN, SPA_ANSI_RESET); printf("%sBRIGHT_CYAN%s\n", SPA_ANSI_BRIGHT_CYAN, SPA_ANSI_RESET); printf("%sDARK_CYAN%s\n", SPA_ANSI_DARK_CYAN, SPA_ANSI_RESET); printf("%sBOLD_CYAN%s\n", SPA_ANSI_BOLD_CYAN, SPA_ANSI_RESET); printf("%sWHITE%s\n", SPA_ANSI_WHITE, SPA_ANSI_RESET); printf("%sBRIGHT_WHITE%s\n", SPA_ANSI_BRIGHT_WHITE, SPA_ANSI_RESET); printf("%sDARK_WHITE%s\n", SPA_ANSI_DARK_WHITE, SPA_ANSI_RESET); printf("%sBOLD_WHITE%s\n", SPA_ANSI_BOLD_WHITE, SPA_ANSI_RESET); /* Background colors */ printf("%sBG_BLACK%s\n", SPA_ANSI_BG_BLACK, SPA_ANSI_RESET); printf("%sBG_BRIGHT_BLACK%s\n", SPA_ANSI_BG_BRIGHT_BLACK, SPA_ANSI_RESET); printf("%sBG_RED%s\n", SPA_ANSI_BG_RED, SPA_ANSI_RESET); printf("%sBG_BRIGHT_RED%s\n", SPA_ANSI_BG_BRIGHT_RED, SPA_ANSI_RESET); printf("%sBG_GREEN%s\n", SPA_ANSI_BG_GREEN, SPA_ANSI_RESET); printf("%sBG_BRIGHT_GREEN%s\n", SPA_ANSI_BG_BRIGHT_GREEN, SPA_ANSI_RESET); printf("%sBG_YELLOW%s\n", SPA_ANSI_BG_YELLOW, SPA_ANSI_RESET); printf("%sBG_BRIGHT_YELLOW%s\n", SPA_ANSI_BG_BRIGHT_YELLOW, SPA_ANSI_RESET); printf("%sBG_BLUE%s\n", SPA_ANSI_BG_BLUE, SPA_ANSI_RESET); printf("%sBG_BRIGHT_BLUE%s\n", SPA_ANSI_BG_BRIGHT_BLUE, SPA_ANSI_RESET); printf("%sBG_MAGENTA%s\n", SPA_ANSI_BG_MAGENTA, SPA_ANSI_RESET); printf("%sBG_BRIGHT_MAGENTA%s\n", SPA_ANSI_BG_BRIGHT_MAGENTA, SPA_ANSI_RESET); printf("%sBG_CYAN%s\n", SPA_ANSI_BG_CYAN, SPA_ANSI_RESET); printf("%sBG_BRIGHT_CYAN%s\n", SPA_ANSI_BG_BRIGHT_CYAN, SPA_ANSI_RESET); printf("%sBG_WHITE%s\n", SPA_ANSI_BG_WHITE, SPA_ANSI_RESET); printf("%sBG_BRIGHT_WHITE%s\n", SPA_ANSI_BG_BRIGHT_WHITE, SPA_ANSI_RESET); /* A combo */ printf("normal%s%s%sBG_BLUE,ITALIC,BOLD_YELLOW%snormal\n", SPA_ANSI_BG_BLUE, SPA_ANSI_ITALIC, SPA_ANSI_BOLD_YELLOW, SPA_ANSI_RESET); return PWTEST_PASS; } PWTEST(utils_snprintf) { char dest[8]; int len; /* Basic printf */ pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "foo%d%s", 10, "2"), 6); pwtest_str_eq(dest, "foo102"); /* Print a few strings, make sure dest is truncated and return value * is the length of the returned string */ pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "1234567"), 7); pwtest_str_eq(dest, "1234567"); pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "12345678"), 7); pwtest_str_eq(dest, "1234567"); pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "123456789"), 7); pwtest_str_eq(dest, "1234567"); /* Same as above, but with printf %s expansion */ pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "%s", "1234567"), 7); pwtest_str_eq(dest, "1234567"); pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "%s", "12345678"), 7); pwtest_str_eq(dest, "1234567"); pwtest_int_eq(spa_scnprintf(dest, sizeof(dest), "%s", "123456789"), 7); pwtest_str_eq(dest, "1234567"); pwtest_int_eq(spa_scnprintf(dest, 2, "1234567"), 1); pwtest_str_eq(dest, "1"); pwtest_int_eq(spa_scnprintf(dest, 1, "1234567"), 0); pwtest_str_eq(dest, ""); /* The "append until buffer is full" use-case */ len = 0; while ((size_t)len < sizeof(dest) - 1) len += spa_scnprintf(dest + len, sizeof(dest) - len, "123"); /* and once more for good measure, this should print 0 characters */ len = spa_scnprintf(dest + len, sizeof(dest) - len, "abc"); pwtest_int_eq(len, 0); pwtest_str_eq(dest, "1231231"); return PWTEST_PASS; } PWTEST(utils_snprintf_abort_neg_size) { size_t size = pwtest_get_iteration(current_test); char dest[8]; if (RUNNING_ON_VALGRIND) return PWTEST_SKIP; spa_scnprintf(dest, size, "1234"); /* expected to abort() */ return PWTEST_FAIL; } struct cbtest_data { bool invoked; const char *data; }; static void cbtest_func(void *object, const char *msg) { struct cbtest_data *data = object; data->invoked = true; data->data = msg; } PWTEST(utils_callback) { struct cbtest_methods { uint32_t version; void (*func_v0)(void *object, const char *msg); void (*func_v1)(void *object, const char *msg); } methods = { 0, cbtest_func, cbtest_func }; struct cbtest { struct spa_interface iface; } cbtest; struct cbtest_data data; /* Interface version doesn't matter for this test */ cbtest.iface = SPA_INTERFACE_INIT("cbtest type", 0, &methods, &data); /* Methods are version 0 */ methods.version = 0; data.invoked = false; spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v0, 0, "cbtest v0"); pwtest_bool_true(data.invoked); pwtest_str_eq(data.data, "cbtest v0"); /* v1 call should be silently filtered */ data.invoked = false; spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v1, 1, "cbtest v1"); pwtest_bool_false(data.invoked); /* Methods are version 1 */ methods.version = 1; data.invoked = false; spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v0, 0, "cbtest v0"); pwtest_bool_true(data.invoked); pwtest_str_eq(data.data, "cbtest v0"); /* v1 call expected to be called */ data.invoked = false; spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v1, 1, "cbtest v1"); pwtest_bool_true(data.invoked); pwtest_str_eq(data.data, "cbtest v1"); return PWTEST_PASS; } PWTEST(utils_callback_func_is_null) { struct cbtest_methods { uint32_t version; void (*func_v0)(void *object, const char *msg); void (*func_v1)(void *object, const char *msg); } methods = { 0, NULL, NULL }; struct cbtest { struct spa_interface iface; } cbtest; struct cbtest_data data; /* Interface version doesn't matter for this test */ cbtest.iface = SPA_INTERFACE_INIT("cbtest type", 0, &methods, &data); /* Methods are version 0 */ methods.version = 0; /* func_v0 and func_v1 are NULL so this shouldn't crash */ data.invoked = false; spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v0, 0, "cbtest v0"); pwtest_bool_false(data.invoked); spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v1, 0, "cbtest v1"); pwtest_bool_false(data.invoked); /* func_v1 is NULL so this shouldn't crash, though the call should get * filtered anyway due to version mismatch */ spa_interface_call(&cbtest.iface, struct cbtest_methods, func_v1, 1, "cbtest v1"); pwtest_bool_false(data.invoked); return PWTEST_PASS; } PWTEST(utils_callback_version) { struct cbtest_methods { uint32_t version; void (*func_v0)(void *object, const char *msg); } methods = { 0, cbtest_func }; struct cbtest { struct spa_interface iface; } cbtest; struct cbtest_data data; /* Interface version doesn't matter for this test */ cbtest.iface = SPA_INTERFACE_INIT("cbtest type", 0, &methods, &data); /* Methods are version 0 */ methods.version = 0; pwtest_bool_true(spa_interface_callback_version_min(&cbtest.iface, struct cbtest_methods, 0)); pwtest_bool_false(spa_interface_callback_version_min(&cbtest.iface, struct cbtest_methods, 1)); /* Methods are version 1 */ methods.version = 1; pwtest_bool_true(spa_interface_callback_version_min(&cbtest.iface, struct cbtest_methods, 0)); pwtest_bool_true(spa_interface_callback_version_min(&cbtest.iface, struct cbtest_methods, 1)); pwtest_bool_false(spa_interface_callback_version_min(&cbtest.iface, struct cbtest_methods, 2)); return PWTEST_PASS; } PWTEST_SUITE(spa_utils) { pwtest_add(utils_abi_sizes, PWTEST_NOARG); pwtest_add(utils_abi, PWTEST_NOARG); pwtest_add(utils_macros, PWTEST_NOARG); pwtest_add(utils_result, PWTEST_NOARG); pwtest_add(utils_dict, PWTEST_NOARG); pwtest_add(utils_list, PWTEST_NOARG); pwtest_add(utils_hook, PWTEST_NOARG); pwtest_add(utils_ringbuffer, PWTEST_NOARG); pwtest_add(utils_strtol, PWTEST_NOARG); pwtest_add(utils_strtoul, PWTEST_NOARG); pwtest_add(utils_strtoll, PWTEST_NOARG); pwtest_add(utils_strtof, PWTEST_NOARG); pwtest_add(utils_strtod, PWTEST_NOARG); pwtest_add(utils_streq, PWTEST_NOARG); pwtest_add(utils_strendswith, PWTEST_NOARG); pwtest_add(utils_strendswith_null_suffix, PWTEST_ARG_SIGNAL, SIGABRT); pwtest_add(utils_snprintf, PWTEST_NOARG); pwtest_add(utils_snprintf_abort_neg_size, PWTEST_ARG_SIGNAL, SIGABRT, PWTEST_ARG_RANGE, -2, 0); pwtest_add(utils_atob, PWTEST_NOARG); pwtest_add(utils_ansi, PWTEST_NOARG); pwtest_add(utils_callback, PWTEST_NOARG); pwtest_add(utils_callback_func_is_null, PWTEST_NOARG); pwtest_add(utils_callback_version, PWTEST_NOARG); return PWTEST_PASS; }