diff options
author | Philip Withnall <philip.withnall@collabora.co.uk> | 2014-01-16 16:11:25 +0000 |
---|---|---|
committer | Olivier Crête <olivier.crete@collabora.com> | 2014-01-31 01:49:07 -0500 |
commit | 905aa83910ef9922cdd302eb4f17e0ff510fb5ce (patch) | |
tree | b3fd0bea44bab4f857baa7588f5f72a0268114d1 /tests/test-send-recv.c | |
parent | 253be34806bee232df55f2a92609f74a015797da (diff) |
tests: Update test-send-recv to support vectored I/O
Diffstat (limited to 'tests/test-send-recv.c')
-rw-r--r-- | tests/test-send-recv.c | 432 |
1 files changed, 338 insertions, 94 deletions
diff --git a/tests/test-send-recv.c b/tests/test-send-recv.c index 701d921..1dd1de4 100644 --- a/tests/test-send-recv.c +++ b/tests/test-send-recv.c @@ -82,6 +82,20 @@ typedef enum { #define BUFFER_SIZE_STRATEGY_N_ELEMENTS (BUFFER_SIZE_RANDOM + 1) typedef enum { + BUFFER_COUNT_CONSTANT_ONE, /* always a single buffer */ + BUFFER_COUNT_CONSTANT_TWO, /* always two buffers */ + BUFFER_COUNT_RANDOM, /* random every time */ +} BufferCountStrategy; +#define BUFFER_COUNT_STRATEGY_N_ELEMENTS (BUFFER_COUNT_RANDOM + 1) + +typedef enum { + MESSAGE_COUNT_CONSTANT_ONE, /* always a single message */ + MESSAGE_COUNT_CONSTANT_TWO, /* always two messages */ + MESSAGE_COUNT_RANDOM, /* random every time */ +} MessageCountStrategy; +#define MESSAGE_COUNT_STRATEGY_N_ELEMENTS (MESSAGE_COUNT_RANDOM + 1) + +typedef enum { BUFFER_DATA_CONSTANT, /* fill with 0xfe */ BUFFER_DATA_ASCENDING, /* ascending values for each byte */ BUFFER_DATA_PSEUDO_RANDOM, /* every byte is pseudo-random */ @@ -92,8 +106,16 @@ typedef struct { /* Test configuration (immutable per test run). */ gboolean reliable; StreamApi stream_api; - BufferSizeStrategy transmit_buffer_size_strategy; - BufferSizeStrategy receive_buffer_size_strategy; + struct { + BufferSizeStrategy buffer_size_strategy; + BufferCountStrategy buffer_count_strategy; + MessageCountStrategy message_count_strategy; + } transmit; + struct { + BufferSizeStrategy buffer_size_strategy; + BufferCountStrategy buffer_count_strategy; + MessageCountStrategy message_count_strategy; + } receive; BufferDataStrategy buffer_data_strategy; gsize n_bytes; @@ -137,11 +159,28 @@ stream_api_is_reliable_only (StreamApi stream_api) } } -/* Generate a size for the @buffer_index-th buffer. Guaranteed to be in - * the interval [1, 1 << 16). ((1 << 16) is the maximum message size.) */ +/* Whether @stream_api supports vectored I/O (multiple buffers or messages). */ +static gboolean +stream_api_supports_vectored_io (StreamApi stream_api) +{ + switch (stream_api) { + case STREAM_AGENT: + case STREAM_AGENT_NONBLOCKING: + return TRUE; + case STREAM_GSOURCE: + case STREAM_GIO: + return FALSE; + default: + g_assert_not_reached (); + } +} + +/* Generate a size for the buffer containing the @buffer_offset-th byte. + * Guaranteed to be in the interval [1, 1 << 16). ((1 << 16) is the maximum + * message size.) */ static gsize generate_buffer_size (BufferSizeStrategy strategy, GRand *rand, - guint buffer_index) + gsize buffer_offset) { switch (strategy) { case BUFFER_SIZE_CONSTANT_LARGE: @@ -154,7 +193,7 @@ generate_buffer_size (BufferSizeStrategy strategy, GRand *rand, return 1; case BUFFER_SIZE_ASCENDING: - return CLAMP (1L << buffer_index, 1, (1 << 16) - 1); + return CLAMP (1L << buffer_offset, 1, (1 << 16) - 1); case BUFFER_SIZE_RANDOM: return g_rand_int_range (rand, 1, 1 << 16); @@ -164,6 +203,50 @@ generate_buffer_size (BufferSizeStrategy strategy, GRand *rand, } } +/* Generate a number of buffers to allocate when receiving the @buffer_offset-th + * byte. Guaranteed to be in the interval [1, 100], where 100 was chosen + * arbitrarily.*/ +static guint +generate_buffer_count (BufferCountStrategy strategy, GRand *rand, + gsize buffer_offset) +{ + switch (strategy) { + case BUFFER_COUNT_CONSTANT_ONE: + return 1; + + case BUFFER_COUNT_CONSTANT_TWO: + return 2; + + case BUFFER_COUNT_RANDOM: + return g_rand_int_range (rand, 1, 100 + 1); + + default: + g_assert_not_reached (); + } +} + +/* Generate a number of messages to allocate and receive into when receiving the + * @buffer_offset-th byte. Guaranteed to be in the interval [1, 100], where 100 + * was chosen arbitrarily.*/ +static guint +generate_message_count (MessageCountStrategy strategy, GRand *rand, + guint buffer_index) +{ + switch (strategy) { + case MESSAGE_COUNT_CONSTANT_ONE: + return 1; + + case MESSAGE_COUNT_CONSTANT_TWO: + return 2; + + case MESSAGE_COUNT_RANDOM: + return g_rand_int_range (rand, 1, 100 + 1); + + default: + g_assert_not_reached (); + } +} + /* Fill the given @buf with @buf_len bytes of generated data. The data is * deterministically generated, so that: * generate_buffer_data(_, I, buf, 2) @@ -231,7 +314,7 @@ generate_buffer_to_receive (TestIOStreamThreadData *data, gsize buffer_offset, TestData *test_data = data->user_data; /* Allocate the buffer. */ - *buf_len = generate_buffer_size (test_data->receive_buffer_size_strategy, + *buf_len = generate_buffer_size (test_data->receive.buffer_size_strategy, test_data->receive_size_rand, buffer_offset); *buf = g_malloc (*buf_len); @@ -239,6 +322,70 @@ generate_buffer_to_receive (TestIOStreamThreadData *data, gsize buffer_offset, memset (*buf, 0xaa, *buf_len); } +/* Similar to generate_buffer_to_receive(), but generate an entire message array + * with multiple buffers instead. + * + * @max_buffer_size may be used to limit the total size of all the buffers in + * all the messages, for example to avoid blocking on receiving data which will + * never be sent. + * + * @messages must be freed with g_free(), as must all of the buffer arrays and + * the buffers themselves. */ +static void +generate_messages_to_receive (TestIOStreamThreadData *data, gsize buffer_offset, + NiceInputMessage **messages, guint *n_messages, gsize max_buffer_size) +{ + TestData *test_data = data->user_data; + guint i; + + /* Allocate the messages. */ + *n_messages = + generate_message_count (test_data->receive.message_count_strategy, + test_data->receive_size_rand, buffer_offset); + *messages = g_malloc_n (*n_messages, sizeof (NiceInputMessage)); + + for (i = 0; i < *n_messages; i++) { + NiceInputMessage *message = &((*messages)[i]); + guint j; + + message->n_buffers = + generate_buffer_count (test_data->receive.buffer_count_strategy, + test_data->receive_size_rand, buffer_offset); + message->buffers = g_malloc_n (message->n_buffers, sizeof (GInputVector)); + message->from = NULL; + message->length = 0; + + for (j = 0; j < (guint) message->n_buffers; j++) { + GInputVector *buffer = &message->buffers[j]; + gsize buf_len; + + buf_len = + generate_buffer_size (test_data->receive.buffer_size_strategy, + test_data->receive_size_rand, buffer_offset); + + /* Trim the buffer length if it would otherwise cause the API to block. */ + if (data->reliable) + buf_len = MIN (buf_len, max_buffer_size); + + max_buffer_size -= buf_len; + buffer->size = buf_len; + + buffer->buffer = g_malloc (buffer->size); + + /* Fill it with poison to try and detect incorrect writes. */ + memset (buffer->buffer, 0xaa, buffer->size); + + /* If we’ve hit the max_buffer_size, adjust the buffer and message counts + * and run away. */ + if (max_buffer_size == 0) { + message->n_buffers = j + 1; + *n_messages = i + 1; + return; + } + } + } +} + /* Validate the length and data of a received buffer of length @buf_len, filled * with @len valid bytes. Updates the internal state machine to mark the bytes * as received. This consumes @buf. */ @@ -268,6 +415,73 @@ validate_received_buffer (TestIOStreamThreadData *data, gsize buffer_offset, g_free (*buf); } +/* Similar to validate_received_buffer(), except it validates a message array + * instead of a single buffer. This consumes @messages. */ +static void +validate_received_messages (TestIOStreamThreadData *data, gsize buffer_offset, + NiceInputMessage **messages, guint n_messages, gint n_valid_messages) +{ + TestData *test_data = data->user_data; + guint i; + gsize prev_message_len = G_MAXSIZE; + + g_assert_cmpint (n_valid_messages, <=, n_messages); + g_assert_cmpint (n_valid_messages, >=, 0); + + if (stream_api_is_blocking (test_data->stream_api)) + g_assert_cmpint (n_valid_messages, ==, n_messages); + + /* Validate the message contents. */ + for (i = 0; i < (guint) n_valid_messages; i++) { + NiceInputMessage *message = &((*messages)[i]); + guint j; + gsize total_buf_len = 0; + gsize message_len_remaining = message->length; + + g_assert_cmpint (message->n_buffers, >, 0); + + for (j = 0; j < (guint) message->n_buffers; j++) { + GInputVector *buffer = &message->buffers[j]; + guint8 *expected_buf; + gsize valid_len; + + total_buf_len += buffer->size; + valid_len = MIN (message_len_remaining, buffer->size); + + expected_buf = g_malloc (buffer->size); + memset (expected_buf, 0xaa, buffer->size); + generate_buffer_data (test_data->buffer_data_strategy, buffer_offset, + expected_buf, valid_len); + g_assert (memcmp (buffer->buffer, expected_buf, buffer->size) == 0); + g_free (expected_buf); + + test_data->received_bytes += valid_len; + buffer_offset += valid_len; + message_len_remaining -= valid_len; + + g_free (buffer->buffer); + } + + g_assert_cmpuint (message->length, <=, total_buf_len); + g_assert_cmpuint (message->length, >=, 0); + + /* No non-empty messages can follow an empty message. */ + if (prev_message_len == 0) + g_assert_cmpuint (message->length, ==, 0); + prev_message_len = message->length; + + /* If the API was blocking, it should have completely filled the message. */ + if (stream_api_is_blocking (test_data->stream_api)) + g_assert_cmpuint (message->length, ==, total_buf_len); + + g_assert (message->from == NULL); + + g_free (message->buffers); + } + + g_free (*messages); +} + /* Determine a size for the next transmit buffer, allocate it, and fill it with * data to be transmitted. */ static void @@ -277,7 +491,7 @@ generate_buffer_to_transmit (TestIOStreamThreadData *data, gsize buffer_offset, TestData *test_data = data->user_data; /* Allocate the buffer. */ - *buf_len = generate_buffer_size (test_data->transmit_buffer_size_strategy, + *buf_len = generate_buffer_size (test_data->transmit.buffer_size_strategy, test_data->transmit_size_rand, buffer_offset); *buf_len = MIN (*buf_len, test_data->n_bytes - test_data->transmitted_bytes); *buf = g_malloc (*buf_len); @@ -304,7 +518,7 @@ notify_transmitted_buffer (TestIOStreamThreadData *data, gsize buffer_offset, } /* - * Implementation using nice_agent_recv() and nice_agent_send(). + * Implementation using nice_agent_recv_messages() and nice_agent_send(). */ static void read_thread_agent_cb (GInputStream *input_stream, TestIOStreamThreadData *data) @@ -319,27 +533,22 @@ read_thread_agent_cb (GInputStream *input_stream, TestIOStreamThreadData *data) while (test_data->received_bytes < test_data->n_bytes) { GError *error = NULL; - guint8 *buf = NULL; - gsize buf_len = 0; - gssize len; + NiceInputMessage *messages; + guint n_messages; + gint n_valid_messages; - /* Initialise a receive buffer. */ - generate_buffer_to_receive (data, test_data->received_bytes, &buf, - &buf_len); - - /* Trim the receive buffer to avoid blocking on bytes which will never - * appear. */ - if (data->reliable) - buf_len = MIN (buf_len, test_data->n_bytes - test_data->received_bytes); + /* Initialise an array of messages to receive into. */ + generate_messages_to_receive (data, test_data->received_bytes, &messages, + &n_messages, test_data->n_bytes - test_data->received_bytes); /* Block on receiving some data. */ - len = nice_agent_recv (data->agent, stream_id, component_id, buf, buf_len, - NULL, &error); + n_valid_messages = nice_agent_recv_messages (data->agent, stream_id, + component_id, messages, n_messages, NULL, &error); g_assert_no_error (error); - /* Check the buffer and update the test’s state machine. */ - validate_received_buffer (data, test_data->received_bytes, &buf, buf_len, - len); + /* Check the messages and update the test’s state machine. */ + validate_received_messages (data, test_data->received_bytes, &messages, + n_messages, n_valid_messages); } check_for_termination (data, &test_data->received_bytes, @@ -413,30 +622,26 @@ read_thread_agent_nonblocking_cb (GInputStream *input_stream, while (test_data->received_bytes < test_data->n_bytes) { GError *error = NULL; - guint8 *buf = NULL; - gsize buf_len = 0; - gssize len; + NiceInputMessage *messages; + guint n_messages; + gint n_valid_messages; - /* Initialise a receive buffer. */ - generate_buffer_to_receive (data, test_data->received_bytes, &buf, - &buf_len); - - /* Trim the receive buffer to avoid consuming the ‘done’ message. */ - if (data->reliable) - buf_len = MIN (buf_len, test_data->n_bytes - test_data->received_bytes); + /* Initialise an array of messages to receive into. */ + generate_messages_to_receive (data, test_data->received_bytes, &messages, + &n_messages, test_data->n_bytes - test_data->received_bytes); /* Busy loop on receiving some data. */ do { g_clear_error (&error); - len = nice_agent_recv_nonblocking (data->agent, stream_id, component_id, - buf, buf_len, NULL, &error); - } while (len == -1 && + n_valid_messages = nice_agent_recv_messages_nonblocking (data->agent, + stream_id, component_id, messages, n_messages, NULL, &error); + } while (n_valid_messages == -1 && g_error_matches (error, G_IO_ERROR, G_IO_ERROR_WOULD_BLOCK)); g_assert_no_error (error); - /* Check the buffer and update the test’s state machine. */ - validate_received_buffer (data, test_data->received_bytes, &buf, buf_len, - len); + /* Check the messages and update the test’s state machine. */ + validate_received_messages (data, test_data->received_bytes, &messages, + n_messages, n_valid_messages); } check_for_termination (data, &test_data->received_bytes, @@ -685,15 +890,23 @@ write_thread_gsource_cb (GOutputStream *output_stream, static void test_data_init (TestData *data, gboolean reliable, StreamApi stream_api, gsize n_bytes, BufferSizeStrategy transmit_buffer_size_strategy, + BufferCountStrategy transmit_buffer_count_strategy, + MessageCountStrategy transmit_message_count_strategy, BufferSizeStrategy receive_buffer_size_strategy, + BufferCountStrategy receive_buffer_count_strategy, + MessageCountStrategy receive_message_count_strategy, BufferDataStrategy buffer_data_strategy, guint32 transmit_seed, guint32 receive_seed, gsize *other_received_bytes) { data->reliable = reliable; data->stream_api = stream_api; data->n_bytes = n_bytes; - data->transmit_buffer_size_strategy = transmit_buffer_size_strategy; - data->receive_buffer_size_strategy = receive_buffer_size_strategy; + data->transmit.buffer_size_strategy = transmit_buffer_size_strategy; + data->transmit.buffer_count_strategy = transmit_buffer_count_strategy; + data->transmit.message_count_strategy = transmit_message_count_strategy; + data->receive.buffer_size_strategy = receive_buffer_size_strategy; + data->receive.buffer_count_strategy = receive_buffer_count_strategy; + data->receive.message_count_strategy = receive_message_count_strategy; data->buffer_data_strategy = buffer_data_strategy; data->transmit_size_rand = g_rand_new_with_seed (transmit_seed); data->receive_size_rand = g_rand_new_with_seed (receive_seed); @@ -715,7 +928,11 @@ test_data_clear (TestData *data) static void test (gboolean reliable, StreamApi stream_api, gsize n_bytes, BufferSizeStrategy transmit_buffer_size_strategy, + BufferCountStrategy transmit_buffer_count_strategy, + MessageCountStrategy transmit_message_count_strategy, BufferSizeStrategy receive_buffer_size_strategy, + BufferCountStrategy receive_buffer_count_strategy, + MessageCountStrategy receive_message_count_strategy, BufferDataStrategy buffer_data_strategy, guint32 transmit_seed, guint32 receive_seed, guint deadlock_timeout) @@ -734,11 +951,15 @@ test (gboolean reliable, StreamApi stream_api, gsize n_bytes, }; test_data_init (&l_data, reliable, stream_api, n_bytes, - transmit_buffer_size_strategy, receive_buffer_size_strategy, + transmit_buffer_size_strategy, transmit_buffer_count_strategy, + transmit_message_count_strategy, receive_buffer_size_strategy, + receive_buffer_count_strategy, receive_message_count_strategy, buffer_data_strategy, transmit_seed, receive_seed, &r_data.received_bytes); test_data_init (&r_data, reliable, stream_api, n_bytes, - transmit_buffer_size_strategy, receive_buffer_size_strategy, + transmit_buffer_size_strategy, transmit_buffer_count_strategy, + transmit_message_count_strategy, receive_buffer_size_strategy, + receive_buffer_count_strategy, receive_message_count_strategy, buffer_data_strategy, transmit_seed, receive_seed, &l_data.received_bytes); @@ -776,7 +997,11 @@ main (int argc, char *argv[]) gboolean reliable; StreamApi stream_api; BufferSizeStrategy transmit_buffer_size_strategy; + BufferCountStrategy transmit_buffer_count_strategy; + MessageCountStrategy transmit_message_count_strategy; BufferSizeStrategy receive_buffer_size_strategy; + BufferCountStrategy receive_buffer_count_strategy; + MessageCountStrategy receive_message_count_strategy; BufferDataStrategy buffer_data_strategy; guint32 transmit_seed; guint32 receive_seed; @@ -836,68 +1061,87 @@ main (int argc, char *argv[]) transmit_buffer_size_strategy = BUFFER_SIZE_RANDOM; buffer_data_strategy = BUFFER_DATA_PSEUDO_RANDOM; + if (stream_api_supports_vectored_io (stream_api)) { + transmit_buffer_count_strategy = BUFFER_COUNT_RANDOM; + transmit_message_count_strategy = MESSAGE_COUNT_RANDOM; + receive_buffer_count_strategy = BUFFER_COUNT_RANDOM; + receive_message_count_strategy = MESSAGE_COUNT_RANDOM; + } else { + transmit_buffer_count_strategy = BUFFER_COUNT_CONSTANT_ONE; + transmit_message_count_strategy = MESSAGE_COUNT_CONSTANT_ONE; + receive_buffer_count_strategy = BUFFER_COUNT_CONSTANT_ONE; + receive_message_count_strategy = MESSAGE_COUNT_CONSTANT_ONE; + } + g_debug ("Running test (%u, %u, %" G_GSIZE_FORMAT ", %u, " "%u, %u, %u, %u)…", reliable, stream_api, n_bytes, transmit_buffer_size_strategy, receive_buffer_size_strategy, buffer_data_strategy, transmit_seed, receive_seed); test (reliable, stream_api, n_bytes, transmit_buffer_size_strategy, - receive_buffer_size_strategy, buffer_data_strategy, + transmit_buffer_count_strategy, transmit_message_count_strategy, + receive_buffer_size_strategy, receive_buffer_count_strategy, + receive_message_count_strategy, buffer_data_strategy, transmit_seed, receive_seed, - deadlock_timeout / 20 /* arbitrary reduction */); + deadlock_timeout); } } goto done; } - /* Transmit buffer strategy. */ - for (transmit_buffer_size_strategy = 0; - (guint) transmit_buffer_size_strategy < BUFFER_SIZE_STRATEGY_N_ELEMENTS; - transmit_buffer_size_strategy++) { - /* Receive buffer strategy. */ - for (receive_buffer_size_strategy = 0; - (guint) receive_buffer_size_strategy < BUFFER_SIZE_STRATEGY_N_ELEMENTS; - receive_buffer_size_strategy++) { - /* Transmit data strategy. */ - for (buffer_data_strategy = 0; - (guint) buffer_data_strategy < BUFFER_DATA_STRATEGY_N_ELEMENTS; - buffer_data_strategy++) { - /* Reliability. */ - for (reliable = 0; reliable < 2; reliable++) { - /* Stream API. */ - for (stream_api = 0; - (guint) stream_api < STREAM_API_N_ELEMENTS; - stream_api++) { - /* GIO streams must always be reliable. */ - if (!reliable && stream_api_is_reliable_only (stream_api)) - continue; - - /* Non-reliable socket receives require large buffers. We don’t - * claim to support using them with small (<< 65535B) buffers, so - * don’t test them. */ - if (!reliable && - receive_buffer_size_strategy != BUFFER_SIZE_CONSTANT_LARGE) - continue; - - /* Non-reliable socket transmits will always block with huge - * buffers. */ - if (!reliable && - transmit_buffer_size_strategy == BUFFER_SIZE_CONSTANT_LARGE) - continue; - - g_debug ("Running test (%u, %u, %" G_GSIZE_FORMAT ", %u, " - "%u, %u, %u, %u)…", - reliable, stream_api, n_bytes, transmit_buffer_size_strategy, - receive_buffer_size_strategy, buffer_data_strategy, - transmit_seed, receive_seed); - test (reliable, stream_api, n_bytes, transmit_buffer_size_strategy, - receive_buffer_size_strategy, buffer_data_strategy, - transmit_seed, receive_seed, - deadlock_timeout); - } - } - } +#define STRATEGY_LOOP(V, L) for (V = 0; (guint) V < L##_N_ELEMENTS; V++) + STRATEGY_LOOP(transmit_buffer_size_strategy, BUFFER_SIZE_STRATEGY) + STRATEGY_LOOP(transmit_buffer_count_strategy, BUFFER_COUNT_STRATEGY) + STRATEGY_LOOP(transmit_message_count_strategy, MESSAGE_COUNT_STRATEGY) + STRATEGY_LOOP(receive_buffer_size_strategy, BUFFER_SIZE_STRATEGY) + STRATEGY_LOOP(receive_buffer_count_strategy, BUFFER_COUNT_STRATEGY) + STRATEGY_LOOP(receive_message_count_strategy, MESSAGE_COUNT_STRATEGY) + STRATEGY_LOOP(buffer_data_strategy, BUFFER_DATA_STRATEGY) + /* Reliability. */ + for (reliable = 0; reliable < 2; reliable++) { + /* Stream API. */ + for (stream_api = 0; + (guint) stream_api < STREAM_API_N_ELEMENTS; + stream_api++) { + /* GIO streams must always be reliable. */ + if (!reliable && stream_api_is_reliable_only (stream_api)) + continue; + + /* Non-reliable socket receives require large buffers. We don’t claim to + * support using them with small (< 65536B) buffers, so don’t test + * them. */ + if (!reliable && + receive_buffer_size_strategy != BUFFER_SIZE_CONSTANT_LARGE) + continue; + + /* Non-reliable socket transmits will always block with huge buffers. */ + if (!reliable && + transmit_buffer_size_strategy == BUFFER_SIZE_CONSTANT_LARGE) + continue; + + /* Stream APIs which don’t support vectored I/O must not be passed + * I/O vectors. */ + if (!stream_api_supports_vectored_io (stream_api) && + (transmit_buffer_count_strategy != BUFFER_COUNT_CONSTANT_ONE || + transmit_message_count_strategy != MESSAGE_COUNT_CONSTANT_ONE || + receive_buffer_count_strategy != BUFFER_COUNT_CONSTANT_ONE || + receive_message_count_strategy != MESSAGE_COUNT_CONSTANT_ONE)) + continue; + + g_debug ("Running test (%u, %u, %" G_GSIZE_FORMAT ", %u, " + "%u, %u, %u, %u, %u, %u, %u, %u)…", + reliable, stream_api, n_bytes, transmit_buffer_size_strategy, + transmit_buffer_count_strategy, transmit_message_count_strategy, + receive_buffer_size_strategy, receive_buffer_count_strategy, + receive_message_count_strategy, buffer_data_strategy, + transmit_seed, receive_seed); + test (reliable, stream_api, n_bytes, transmit_buffer_size_strategy, + transmit_buffer_count_strategy, transmit_message_count_strategy, + receive_buffer_size_strategy, receive_buffer_count_strategy, + receive_message_count_strategy, buffer_data_strategy, + transmit_seed, receive_seed, + deadlock_timeout); } } |