AlkantarClanX12
Current Path : /opt/cpanel/ea-ruby27/src/passenger-release-6.0.23/test/cxx/MemoryKit/ |
Current File : //opt/cpanel/ea-ruby27/src/passenger-release-6.0.23/test/cxx/MemoryKit/MbufTest.cpp |
#include <TestSupport.h> #include <boost/move/move.hpp> #include <Constants.h> #include <MemoryKit/mbuf.h> using namespace Passenger; using namespace Passenger::MemoryKit; using namespace std; namespace tut { struct MemoryKit_MbufTest: public TestBase { struct mbuf_pool pool; MemoryKit_MbufTest() { pool.mbuf_block_chunk_size = DEFAULT_MBUF_CHUNK_SIZE; mbuf_pool_init(&pool); } ~MemoryKit_MbufTest() { mbuf_pool_deinit(&pool); } }; DEFINE_TEST_GROUP(MemoryKit_MbufTest); TEST_METHOD(1) { set_test_name("Initial pool state"); ensure_equals(pool.nfree_mbuf_blockq, 0u); ensure_equals(pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(2) { set_test_name("mbuf_block_get() and mbuf_block_put()"); struct mbuf_block *block = mbuf_block_get(&pool); ensure_equals("(1)", block->refcount, 1u); ensure_equals("(2)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(3)", pool.nactive_mbuf_blockq, 1u); struct mbuf_block *block2 = mbuf_block_get(&pool); ensure_equals("(4)", block->refcount, 1u); ensure_equals("(5)", block2->refcount, 1u); ensure_equals("(6)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(7)", pool.nactive_mbuf_blockq, 2u); block->refcount = 0; mbuf_block_put(block); ensure_equals("(8)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 1u); block2->refcount = 0; mbuf_block_put(block2); ensure_equals("(10)", pool.nfree_mbuf_blockq, 2u); ensure_equals("(11)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(3) { set_test_name("mbuf_block reference counting"); struct mbuf_block *block = mbuf_block_get(&pool); mbuf_block_ref(block); ensure_equals("(1)", block->refcount, 2u); ensure_equals("(2)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(3)", pool.nactive_mbuf_blockq, 1u); mbuf_block_unref(block); ensure_equals("(4)", block->refcount, 1u); ensure_equals("(5)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 1u); mbuf_block_unref(block); ensure_equals("(7)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(8)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(4) { set_test_name("mbuf_block freelist reuse"); struct mbuf_block *block = mbuf_block_get(&pool); struct mbuf_block *block2 = mbuf_block_get(&pool); mbuf_block_unref(block); block = mbuf_block_get(&pool); ensure_equals("(1)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(2)", pool.nactive_mbuf_blockq, 2u); mbuf_block_unref(block); mbuf_block_unref(block2); } TEST_METHOD(5) { set_test_name("mbuf class"); mbuf buffer(mbuf_get(&pool)); ensure_equals("(1)", buffer.mbuf_block->refcount, 1u); ensure_equals("(2)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(3)", pool.nactive_mbuf_blockq, 1u); buffer = mbuf(); ensure_equals("(2)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(3)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(6) { set_test_name("mbuf class copy constructor"); mbuf buffer(mbuf_get(&pool)); { mbuf buffer2(buffer); ensure_equals("(1)", buffer.mbuf_block, buffer2.mbuf_block); ensure_equals("(2)", buffer.mbuf_block->refcount, 2u); ensure_equals("(3)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(4)", pool.nactive_mbuf_blockq, 1u); } ensure_equals("(5)", buffer.mbuf_block->refcount, 1u); ensure_equals("(6)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(7)", pool.nactive_mbuf_blockq, 1u); buffer = mbuf(); ensure_equals("(8)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(7) { set_test_name("mbuf class move constructor"); mbuf buffer(mbuf_get(&pool)); { mbuf buffer2(boost::move(buffer)); ensure_equals<void *>("(1)", buffer.mbuf_block, NULL); ensure_equals<void *>("(2)", buffer.start, NULL); ensure_equals<void *>("(3)", buffer.end, NULL); ensure_equals("(4)", buffer2.mbuf_block->refcount, 1u); ensure_equals("(5)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 1u); } ensure_equals("(8)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(10) { set_test_name("mbuf class copy assignment"); mbuf buffer(mbuf_get(&pool)); { mbuf buffer2; buffer2 = buffer; ensure_equals("(1)", buffer.mbuf_block, buffer2.mbuf_block); ensure_equals("(2)", buffer.mbuf_block->refcount, 2u); ensure_equals("(3)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(4)", pool.nactive_mbuf_blockq, 1u); } ensure_equals("(5)", buffer.mbuf_block->refcount, 1u); ensure_equals("(6)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(7)", pool.nactive_mbuf_blockq, 1u); buffer = mbuf(); ensure_equals("(8)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(11) { set_test_name("mbuf class copy assignment on itself"); mbuf buffer(mbuf_get(&pool)); struct mbuf_block *orig_mbuf_block = buffer.mbuf_block; const char *orig_start = buffer.start; const char *orig_end = buffer.end; mbuf buffer2 = buffer; ensure_equals("(1)", buffer2.mbuf_block, orig_mbuf_block); ensure_equals("(2)", buffer2.start, orig_start); ensure_equals("(3)", buffer2.end, orig_end); } TEST_METHOD(12) { set_test_name("mbuf class move assignment"); mbuf buffer(mbuf_get(&pool)); { mbuf buffer2; buffer2 = boost::move(buffer); ensure_equals<void *>("(1)", buffer.mbuf_block, NULL); ensure_equals<void *>("(2)", buffer.start, NULL); ensure_equals<void *>("(3)", buffer.end, NULL); ensure_equals("(4)", buffer2.mbuf_block->refcount, 1u); ensure_equals("(5)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 1u); } ensure_equals("(8)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(13) { set_test_name("mbuf class move assignment on itself"); mbuf buffer(mbuf_get(&pool)); struct mbuf_block *orig_mbuf_block = buffer.mbuf_block; const char *orig_start = buffer.start; const char *orig_end = buffer.end; buffer = boost::move(buffer); ensure_equals("(1)", buffer.mbuf_block, orig_mbuf_block); ensure_equals("(2)", buffer.start, orig_start); ensure_equals("(3)", buffer.end, orig_end); } TEST_METHOD(20) { set_test_name("mbuf class slicing"); mbuf buffer(mbuf_get(&pool)); { mbuf buffer2(buffer, 1, 2); ensure_equals("(1)", buffer.mbuf_block, buffer2.mbuf_block); ensure_equals("(2)", buffer.mbuf_block->refcount, 2u); ensure_equals("(3)", buffer2.start, buffer.start + 1); ensure_equals("(4)", buffer2.end, buffer.start + 3); ensure_equals("(5)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 1u); } ensure_equals("(7)", buffer.mbuf_block->refcount, 1u); ensure_equals("(8)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(9)", pool.nactive_mbuf_blockq, 1u); buffer = mbuf(); ensure_equals("(10)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(11)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(21) { set_test_name("mbuf class freelist reuse"); mbuf buffer(mbuf_get(&pool)); mbuf buffer2(mbuf_get(&pool)); buffer = mbuf(); buffer = mbuf_get(&pool); ensure_equals("(1)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(2)", pool.nactive_mbuf_blockq, 2u); } TEST_METHOD(22) { set_test_name("mbuf_get_with_size (small)"); { mbuf buffer(mbuf_get_with_size(&pool, 6)); ensure_equals("(1)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(2)", pool.nactive_mbuf_blockq, 1u); ensure_equals("(3)", buffer.size(), 6u); memcpy(buffer.start, "hello", 6); ensure_equals("(4)", string(buffer.start), "hello"); } ensure_equals("(5)", pool.nfree_mbuf_blockq, 1u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 0u); } TEST_METHOD(23) { set_test_name("mbuf_get_with_size (large)"); { mbuf buffer(mbuf_get_with_size(&pool, mbuf_pool_data_size(&pool) + alignof(struct mbuf_block))); ensure_equals("(1)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(2)", pool.nactive_mbuf_blockq, 1u); ensure_equals("(3)", buffer.size(), mbuf_pool_data_size(&pool) + alignof(struct mbuf_block)); memcpy(buffer.start, "hello", 6); ensure_equals("(4)", string(buffer.start), "hello"); } ensure_equals("(5)", pool.nfree_mbuf_blockq, 0u); ensure_equals("(6)", pool.nactive_mbuf_blockq, 0u); } }