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mbed-os/features/FEATURE_LWIP/TESTS/mbedmicro-net/udp_echo_parallel/main.cpp

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#if !FEATURE_LWIP
#error [NOT_SUPPORTED] LWIP not supported for this target
#endif
#if DEVICE_EMAC
#error [NOT_SUPPORTED] Not supported for WiFi targets
#endif
#include "mbed.h"
#include "EthernetInterface.h"
#include "UDPSocket.h"
#include "greentea-client/test_env.h"
#include "unity/unity.h"
#include "utest.h"
using namespace utest::v1;
#ifndef MBED_CFG_UDP_CLIENT_ECHO_BUFFER_SIZE
#define MBED_CFG_UDP_CLIENT_ECHO_BUFFER_SIZE 64
#endif
#ifndef MBED_CFG_UDP_CLIENT_ECHO_TIMEOUT
#define MBED_CFG_UDP_CLIENT_ECHO_TIMEOUT 500
#endif
#ifndef MBED_CFG_UDP_CLIENT_ECHO_THREADS
#define MBED_CFG_UDP_CLIENT_ECHO_THREADS 3
#endif
const int ECHO_LOOPS = 16;
EthernetInterface net;
SocketAddress udp_addr;
Mutex iomutex;
char uuid[GREENTEA_UUID_LENGTH] = {0};
// NOTE: assuming that "id" stays in the single digits
//
// Creates a buffer that first contains the thread's id.
//
// The second part of the buffer contains the test's UUID so the output can be
// associated with individual test runs.
//
// The rest of the buffer is filled with random data so it is unique within the
// CURRENT test run.
//
// Ex. A thread with id "2" and a test with UUID of `33e5002c-9722-4685-817a-709cc69c4701`
// would have a buffer filled with something like `2 33e5002c-9722-4685-817a-709cc69c4701 12594387`
// where `2` is the thread id, `33e5002c-9722-4685-817a-709cc69c4701` is the UUID
// and `12594387` is the random data
void prep_buffer(unsigned int id, char *uuid, char *tx_buffer, size_t tx_size) {
size_t i = 0;
tx_buffer[i++] = '0' + id;
tx_buffer[i++] = ' ';
memcpy(tx_buffer+i, uuid, strlen(uuid));
i += strlen(uuid);
tx_buffer[i++] = ' ';
for (; i<tx_size; ++i) {
tx_buffer[i] = (rand() % 10) + '0';
}
}
// Each echo class is in charge of one parallel transaction
class Echo {
private:
char tx_buffer[MBED_CFG_UDP_CLIENT_ECHO_BUFFER_SIZE];
char rx_buffer[MBED_CFG_UDP_CLIENT_ECHO_BUFFER_SIZE];
UDPSocket sock;
Thread thread;
bool result;
unsigned int id;
char *uuid;
public:
// Limiting stack size to 1k
Echo(): thread(osPriorityNormal, 1024), result(false) {
}
void start(unsigned int id, char *uuid) {
this->id = id;
this->uuid = uuid;
osStatus status = thread.start(callback(this, &Echo::echo));
}
void join() {
osStatus status = thread.join();
TEST_ASSERT_EQUAL(osOK, status);
}
void echo() {
int success = 0;
int err = sock.open(&net);
TEST_ASSERT_EQUAL(0, err);
sock.set_timeout(MBED_CFG_UDP_CLIENT_ECHO_TIMEOUT);
for (unsigned int i = 0; success < ECHO_LOOPS; i++) {
prep_buffer(id, uuid, tx_buffer, sizeof(tx_buffer));
int ret = sock.sendto(udp_addr, tx_buffer, sizeof(tx_buffer));
if (ret >= 0) {
iomutex.lock();
printf("[ID:%01u][%02u] sent %d bytes - %.*s \n", id, i, ret, ret, tx_buffer);
iomutex.unlock();
} else {
iomutex.lock();
printf("[ID:%01u][%02u] Network error %d\n", id, i, ret);
iomutex.unlock();
continue;
}
SocketAddress temp_addr;
ret = sock.recvfrom(&temp_addr, rx_buffer, sizeof(rx_buffer));
if (ret >= 0) {
iomutex.lock();
printf("[ID:%01u][%02u] recv %d bytes - %.*s \n", id, i, ret, ret, tx_buffer);
iomutex.unlock();
} else {
iomutex.lock();
printf("[ID:%01u][%02u] Network error %d\n", id, i, ret);
iomutex.unlock();
continue;
}
if ((temp_addr == udp_addr &&
ret == sizeof(tx_buffer) &&
memcmp(rx_buffer, tx_buffer, sizeof(rx_buffer)) == 0)) {
success += 1;
iomutex.lock();
printf("[ID:%01u][%02u] success #%d\n", id, i, success);
iomutex.unlock();
continue;
}
// failed, clean out any remaining bad packets
sock.set_timeout(0);
while (true) {
err = sock.recvfrom(NULL, NULL, 0);
if (err == NSAPI_ERROR_WOULD_BLOCK) {
break;
}
}
sock.set_timeout(MBED_CFG_UDP_CLIENT_ECHO_TIMEOUT);
}
result = success == ECHO_LOOPS;
err = sock.close();
printf("[ID:%01u] Failed to close socket!\n", id);
if (err) {
result = false;
}
}
bool get_result() {
return result;
}
};
Echo *echoers[MBED_CFG_UDP_CLIENT_ECHO_THREADS];
void test_udp_echo_parallel() {
int err = net.connect();
TEST_ASSERT_EQUAL(0, err);
printf("UDP client IP Address is %s\n", net.get_ip_address());
greentea_send_kv("target_ip", net.get_ip_address());
char recv_key[] = "host_port";
char ipbuf[60] = {0};
char portbuf[16] = {0};
unsigned int port = 0;
greentea_send_kv("host_ip", " ");
greentea_parse_kv(recv_key, ipbuf, sizeof(recv_key), sizeof(ipbuf));
greentea_send_kv("host_port", " ");
greentea_parse_kv(recv_key, portbuf, sizeof(recv_key), sizeof(ipbuf));
sscanf(portbuf, "%u", &port);
printf("MBED: UDP Server IP address received: %s:%d \n", ipbuf, port);
udp_addr.set_ip_address(ipbuf);
udp_addr.set_port(port);
// Startup echo threads in parallel
for (unsigned int i = 0; i < MBED_CFG_UDP_CLIENT_ECHO_THREADS; i++) {
echoers[i] = new Echo;
echoers[i]->start(i, uuid);
}
bool result = true;
for (unsigned int i = 0; i < MBED_CFG_UDP_CLIENT_ECHO_THREADS; i++) {
echoers[i]->join();
result = result && echoers[i]->get_result();
delete echoers[i];
}
net.disconnect();
TEST_ASSERT(result);
}
// Test setup
utest::v1::status_t test_setup(const size_t number_of_cases) {
GREENTEA_SETUP_UUID(120, "udp_echo", uuid, GREENTEA_UUID_LENGTH);
return verbose_test_setup_handler(number_of_cases);
}
Case cases[] = {
Case("UDP echo parallel", test_udp_echo_parallel),
};
Specification specification(test_setup, cases);
int main() {
return !Harness::run(specification);
}
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