SymphonyElectron/auto_update/tests.cpp
2021-05-19 10:43:50 +02:00

234 lines
9.0 KiB
C++

#define _CRT_SECURE_NO_WARNINGS
#define _CRT_NONSTDC_NO_WARNINGS
#if defined( _WIN32 ) && defined( _DEBUG )
#include <crtdbg.h>
#endif
#include "testfw.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <windows.h>
#include "ipc.h"
bool pipe_exists( const char* pipe_name );
void test_fw_ok() {
TESTFW_TEST_BEGIN( "Checking that test framework is ok" );
TESTFW_EXPECTED( true );
TESTFW_TEST_END();
}
void ipc_tests() {
{
TESTFW_TEST_BEGIN( "Check that IPC server is not already running" );
TESTFW_EXPECTED( !pipe_exists( "test_pipe" ) );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can start IPC server" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const*, void*, char*, size_t ) { }, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can stop IPC server" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const*, void*, char*, size_t ) { }, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_server_stop( server );
TESTFW_EXPECTED( !pipe_exists( "test_pipe" ) );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can connect multiple IPC clients" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const*, void*, char*, size_t ) { }, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* clients[ 32 ];
for( int i = 0; i < sizeof( clients ) / sizeof( *clients ); ++i ) {
clients[ i ] = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( clients[ i ] );
}
for( int i = 0; i < sizeof( clients ) / sizeof( *clients ); ++i ) {
ipc_client_disconnect( clients[ i ] );
}
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can connect multiple IPC clients multiple times" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const*, void*, char*, size_t ) { }, NULL );
TESTFW_EXPECTED( server != NULL );
for( int j = 0; j < 10; ++j ) {
ipc_client_t* clients[ 32 ];
for( int i = 0; i < sizeof( clients ) / sizeof( *clients ); ++i ) {
clients[ i ] = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( clients[ i ] );
}
for( int i = 0; i < sizeof( clients ) / sizeof( *clients ); ++i ) {
ipc_client_disconnect( clients[ i ] );
}
}
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can connect IPC client" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const*, void*, char*, size_t ) { }, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* client = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( client != NULL );
ipc_client_disconnect( client );
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can send IPC message from client to server" );
bool message_received = false;
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const* message, void* user_data, char*, size_t ) {
bool* message_received = (bool*) user_data;
*message_received = true;
TESTFW_EXPECTED( strcmp( message, "Test message" ) == 0 );
}, &message_received );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* client = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( client != NULL );
TESTFW_EXPECTED( ipc_client_send( client, "Test message" ) == true );
char temp[ IPC_MESSAGE_MAX_LENGTH ];
int size = 0;
ipc_client_receive( client, temp, sizeof( temp ), &size );
TESTFW_EXPECTED( message_received == true );
ipc_client_disconnect( client );
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can receive IPC response from server" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const* message, void* user_data, char* response, size_t ) {
strcpy( response, "Test response" );
}, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* client = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( client != NULL );
TESTFW_EXPECTED( ipc_client_send( client, "Test message" ) == true );
char response[ IPC_MESSAGE_MAX_LENGTH ];
int size = 0;
TESTFW_EXPECTED( ipc_client_receive( client, response, sizeof( response ), &size ) == IPC_RECEIVE_STATUS_DONE );
TESTFW_EXPECTED( size == strlen( "Test response" ) + 1 );
TESTFW_EXPECTED( strcmp( response, "Test response" ) == 0 );
ipc_client_disconnect( client );
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can send and receive long IPC messages" );
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const* message, void* user_data, char* response, size_t capacity ) {
char expected_message[ IPC_MESSAGE_MAX_LENGTH ];
for( int i = 0; i < IPC_MESSAGE_MAX_LENGTH - 1; ++i ) {
expected_message[ i ] = 'A' + ( i % ( 'Z' - 'A' + 1 ) );
}
expected_message[ IPC_MESSAGE_MAX_LENGTH - 1 ] = '\0';
TESTFW_EXPECTED( strcmp( message, expected_message ) == 0 );
for( int i = 0; i < (int) capacity - 1; ++i ) {
response[ i ] = 'a' + ( i % ( 'z' - 'a' + 1 ) );
}
response[ capacity - 1 ] = '\0';
}, NULL );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* client = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( client != NULL );
char message[ IPC_MESSAGE_MAX_LENGTH ];
for( int i = 0; i < IPC_MESSAGE_MAX_LENGTH - 1; ++i ) {
message[ i ] = 'A' + ( i % ( 'Z' - 'A' + 1 ) );
}
message[ IPC_MESSAGE_MAX_LENGTH - 1 ] = '\0';
TESTFW_EXPECTED( ipc_client_send( client, message ) == true );
char response[ IPC_MESSAGE_MAX_LENGTH ];
int size = 0;
TESTFW_EXPECTED( ipc_client_receive( client, response, sizeof( response ), &size ) == IPC_RECEIVE_STATUS_DONE );
char expected_response[ IPC_MESSAGE_MAX_LENGTH ];
for( int i = 0; i < IPC_MESSAGE_MAX_LENGTH - 1; ++i ) {
expected_response[ i ] = 'a' + ( i % ( 'z' - 'a' + 1 ) );
}
expected_response[ IPC_MESSAGE_MAX_LENGTH - 1 ] = '\0';
TESTFW_EXPECTED( size == IPC_MESSAGE_MAX_LENGTH );
TESTFW_EXPECTED( strcmp( response, expected_response ) == 0 );
ipc_client_disconnect( client );
ipc_server_stop( server );
TESTFW_TEST_END();
}
{
TESTFW_TEST_BEGIN( "Can send and receive multiple IPC messages" );
int received_count = 0;
ipc_server_t* server = ipc_server_start( "test_pipe",
[]( char const* message, void* user_data, char* response, size_t ) {
int* received_count = (int*) user_data;
char expected_message[ IPC_MESSAGE_MAX_LENGTH ];
sprintf( expected_message, "Test message %d", *received_count );
TESTFW_EXPECTED( strcmp( message, expected_message ) == 0 );
sprintf( response, "Test response %d", *received_count );
*received_count = *received_count + 1;
}, &received_count );
TESTFW_EXPECTED( server != NULL );
ipc_client_t* client = ipc_client_connect( "test_pipe" );
TESTFW_EXPECTED( client != NULL );
for( int i = 0; i < 64; ++i ) {
char message[ IPC_MESSAGE_MAX_LENGTH ];
sprintf( message, "Test message %d", i );
TESTFW_EXPECTED( ipc_client_send( client, message ) == true );
char response[ IPC_MESSAGE_MAX_LENGTH ];
int size = 0;
TESTFW_EXPECTED( ipc_client_receive( client, response, sizeof( response ), &size ) == IPC_RECEIVE_STATUS_DONE );
char expected_response[ IPC_MESSAGE_MAX_LENGTH ];
sprintf( expected_response, "Test response %d", i );
TESTFW_EXPECTED( size == strlen( expected_response ) + 1 );
TESTFW_EXPECTED( strcmp( response, expected_response ) == 0 );
}
TESTFW_EXPECTED( received_count == 64 );
ipc_client_disconnect( client );
ipc_server_stop( server );
TESTFW_TEST_END();
}
}
int main( int argc, char** argv ) {
TESTFW_INIT();
test_fw_ok();
ipc_tests();
int result = TESTFW_SUMMARY();
return result == 0 ? EXIT_SUCCESS : EXIT_FAILURE;
}
#define IPC_IMPLEMENTATION
#include "ipc.h"
#define TESTFW_IMPLEMENTATION
#define TESTFW_NO_ANSI
#include "testfw.h"