/* This case tests abnormal cases. */ #include "tx_api.h" #include "nx_api.h" #include "fx_api.h" #include "nx_web_http_client.h" #include "nx_web_http_server.h" extern void test_control_return(UINT); #if !defined(NX_DISABLE_IPV4) #ifdef NX_WEB_HTTPS_ENABLE #include "test_device_cert.c" #include "test_ca_cert.c" #define ca_cert_der test_ca_cert_der #define ca_cert_der_len test_ca_cert_der_len #endif /* NX_WEB_HTTPS_ENABLE */ #define DEMO_STACK_SIZE 4096 /* Set up FileX and file memory resources. */ static CHAR ram_disk_memory[4096]; static FX_MEDIA ram_disk; static UCHAR media_memory[4096]; static UCHAR server_stack[16000]; /* Define device drivers. */ extern void _fx_ram_driver(FX_MEDIA *media_ptr); extern void _nx_ram_network_driver_1024(NX_IP_DRIVER *driver_req_ptr); /* Set up the HTTP client global variables. */ #define CLIENT_PACKET_SIZE (NX_WEB_HTTP_CLIENT_MIN_PACKET_SIZE * 2) static TX_THREAD client_thread; static NX_PACKET_POOL client_pool; static NX_WEB_HTTP_CLIENT my_client; static NX_IP client_ip; static UINT error_counter; /* Set up the HTTP server global variables */ #define SERVER_PACKET_SIZE (NX_WEB_HTTP_SERVER_MIN_PACKET_SIZE * 2) static NX_WEB_HTTP_SERVER my_server; static NX_PACKET_POOL server_pool; static TX_THREAD server_thread; static NX_IP server_ip; static NXD_ADDRESS server_ip_address; static void thread_client_entry(ULONG thread_input); static void thread_server_entry(ULONG thread_input); #define HTTP_SERVER_ADDRESS IP_ADDRESS(1,2,3,4) #define HTTP_CLIENT_ADDRESS IP_ADDRESS(1,2,3,5) #ifdef NX_WEB_HTTPS_ENABLE static UINT loop = 2; extern const NX_SECURE_TLS_CRYPTO nx_crypto_tls_ciphers; static CHAR crypto_metadata_server[20000 * NX_WEB_HTTP_SERVER_SESSION_MAX]; static CHAR crypto_metadata_client[20000 * NX_WEB_HTTP_SERVER_SESSION_MAX]; static UCHAR tls_packet_buffer[18500]; static NX_SECURE_X509_CERT certificate; static NX_SECURE_X509_CERT trusted_certificate; static NX_SECURE_X509_CERT remote_certificate, remote_issuer; static UCHAR remote_cert_buffer[2000]; static UCHAR remote_issuer_buffer[2000]; static UINT tls_setup_callback(NX_WEB_HTTP_CLIENT *client_ptr, NX_SECURE_TLS_SESSION *tls_session); #else static UINT loop = 1; #endif /* NX_WEB_HTTPS_ENABLE */ static TX_SEMAPHORE semaphore_server_start; static TX_SEMAPHORE semaphore_client_stop; #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_web_client_send_fail_test_application_define(void *first_unused_memory) #endif { CHAR *pointer; UINT status; error_counter = 0; /* Setup the working pointer. */ pointer = (CHAR *) first_unused_memory; /* Create a helper thread for the server. */ tx_thread_create(&server_thread, "HTTP Server thread", thread_server_entry, 0, pointer, DEMO_STACK_SIZE, NX_WEB_HTTP_SERVER_PRIORITY, NX_WEB_HTTP_SERVER_PRIORITY, TX_NO_TIME_SLICE, TX_AUTO_START); pointer = pointer + DEMO_STACK_SIZE; tx_semaphore_create(&semaphore_server_start, "semaphore server start", 0); tx_semaphore_create(&semaphore_client_stop, "semaphore client stop", 0); /* Initialize the NetX system. */ nx_system_initialize(); /* Create the server packet pool. */ status = nx_packet_pool_create(&server_pool, "HTTP Server Packet Pool", SERVER_PACKET_SIZE, pointer, SERVER_PACKET_SIZE*8); pointer = pointer + SERVER_PACKET_SIZE * 8; if (status) error_counter++; /* Create an IP instance. */ status = nx_ip_create(&server_ip, "HTTP Server IP", HTTP_SERVER_ADDRESS, 0xFFFFFF00UL, &server_pool, _nx_ram_network_driver_1024, pointer, 4096, 1); pointer = pointer + 4096; if (status) error_counter++; /* Enable ARP and supply ARP cache memory for the server IP instance. */ status = nx_arp_enable(&server_ip, (void *) pointer, 1024); pointer = pointer + 1024; if (status) error_counter++; /* Enable TCP traffic. */ status = nx_tcp_enable(&server_ip); if (status) error_counter++; /* Create the HTTP Client thread. */ status = tx_thread_create(&client_thread, "HTTP Client", thread_client_entry, 0, pointer, DEMO_STACK_SIZE, NX_WEB_HTTP_SERVER_PRIORITY + 2, NX_WEB_HTTP_SERVER_PRIORITY + 2, TX_NO_TIME_SLICE, TX_AUTO_START); pointer = pointer + DEMO_STACK_SIZE; if (status) error_counter++; /* Create the Client packet pool. */ status = nx_packet_pool_create(&client_pool, "HTTP Client Packet Pool", CLIENT_PACKET_SIZE, pointer, CLIENT_PACKET_SIZE*8); pointer = pointer + CLIENT_PACKET_SIZE * 8; if (status) error_counter++; /* Create an IP instance. */ status = nx_ip_create(&client_ip, "HTTP Client IP", HTTP_CLIENT_ADDRESS, 0xFFFFFF00UL, &client_pool, _nx_ram_network_driver_1024, pointer, 2048, 1); pointer = pointer + 2048; if (status) error_counter++; status = nx_arp_enable(&client_ip, (void *) pointer, 1024); pointer = pointer + 2048; if (status) error_counter++; /* Enable TCP traffic. */ status = nx_tcp_enable(&client_ip); if (status) error_counter++; } #ifdef NX_WEB_HTTPS_ENABLE /* Define the TLS setup callback function. */ static UINT tls_setup_callback(NX_WEB_HTTP_CLIENT *client_ptr, NX_SECURE_TLS_SESSION *tls_session) { UINT status; /* Initialize and create TLS session. */ status = nx_secure_tls_session_create(tls_session, &nx_crypto_tls_ciphers, crypto_metadata_client, sizeof(crypto_metadata_client)); /* Check status. */ if (status) { return(status); } /* Allocate space for packet reassembly. */ status = nx_secure_tls_session_packet_buffer_set(&(client_ptr -> nx_web_http_client_tls_session), tls_packet_buffer, sizeof(tls_packet_buffer)); /* Check status. */ if (status) { return(status); } /* Add a CA Certificate to our trusted store for verifying incoming server certificates. */ nx_secure_x509_certificate_initialize(&trusted_certificate, ca_cert_der, ca_cert_der_len, NX_NULL, 0, NULL, 0, NX_SECURE_X509_KEY_TYPE_NONE); nx_secure_tls_trusted_certificate_add(&(client_ptr -> nx_web_http_client_tls_session), &trusted_certificate); /* Need to allocate space for the certificate coming in from the remote host. */ nx_secure_tls_remote_certificate_allocate(&(client_ptr -> nx_web_http_client_tls_session), &remote_certificate, remote_cert_buffer, sizeof(remote_cert_buffer)); nx_secure_tls_remote_certificate_allocate(&(client_ptr -> nx_web_http_client_tls_session), &remote_issuer, remote_issuer_buffer, sizeof(remote_issuer_buffer)); return(NX_SUCCESS); } #endif /* NX_WEB_HTTPS_ENABLE */ void thread_client_entry(ULONG thread_input) { UINT i, j; UINT status; NX_PACKET *recv_packet; ULONG temp; /* Give IP task and driver a chance to initialize the system. */ tx_thread_sleep(NX_IP_PERIODIC_RATE); /* Set server IP address. */ server_ip_address.nxd_ip_address.v4 = HTTP_SERVER_ADDRESS; server_ip_address.nxd_ip_version = NX_IP_VERSION_V4; /* First loop test HTTP, second loop test HTTPS. */ for (i = 0; i < loop ; i++) { /* Create an HTTP client instance. */ status = nx_web_http_client_create(&my_client, "HTTP Client", &client_ip, &client_pool, 1536); /* Check status. */ if (status) error_counter++; tx_semaphore_get(&semaphore_server_start, NX_WAIT_FOREVER); for (j = 0; j < 2; j++) { /* Connect to server. */ if (i == 0) { status = nx_web_http_client_connect(&my_client, &server_ip_address, NX_WEB_HTTP_SERVER_PORT, NX_WAIT_FOREVER); } #ifdef NX_WEB_HTTPS_ENABLE else { status = nx_web_http_client_secure_connect(&my_client, &server_ip_address, NX_WEB_HTTPS_SERVER_PORT, tls_setup_callback, NX_WAIT_FOREVER); } #endif /* NX_WEB_HTTPS_ENABLE */ /* Check status. */ if (status) error_counter++; /* Initialize the request. */ status = nx_web_http_client_request_initialize(&my_client, NX_WEB_HTTP_METHOD_GET, "/test.txt", "1.2.3.4", 0, NX_FALSE, "name", "password", NX_WAIT_FOREVER); /* Check status. */ if (status) error_counter++; if (j == 0) { temp = my_client.nx_web_http_client_socket.nx_tcp_socket_connect_mss; my_client.nx_web_http_client_socket.nx_tcp_socket_connect_mss = 1; /* Send the request. */ status = nx_web_http_client_request_send(&my_client, NX_NO_WAIT); if (!status) error_counter++; my_client.nx_web_http_client_socket.nx_tcp_socket_connect_mss = temp; continue; } /* Send the request. */ status = nx_web_http_client_request_send(&my_client, NX_IP_PERIODIC_RATE); if (status) error_counter++; /* Get response from server. */ while (1) { status = nx_web_http_client_response_body_get(&my_client, &recv_packet, 1 * NX_IP_PERIODIC_RATE); if (status) break; else nx_packet_release(recv_packet); } /* Check status. */ if (status != NX_WEB_HTTP_GET_DONE) error_counter++; else nx_packet_release(recv_packet); } status = nx_web_http_client_delete(&my_client); if (status) error_counter++; tx_semaphore_put(&semaphore_client_stop); } } /* Define the helper HTTP server thread. */ void thread_server_entry(ULONG thread_input) { UINT i; UINT status; FX_FILE my_file; UINT server_port = NX_WEB_HTTP_SERVER_PORT; /* Print out test information banner. */ printf("NetX Test: Web Client Send Fail Test................................."); /* Check for earlier error. */ if(error_counter) { printf("ERROR!\n"); test_control_return(1); } fx_media_format(&ram_disk, _fx_ram_driver, // Driver entry ram_disk_memory, // RAM disk memory pointer media_memory, // Media buffer pointer sizeof(media_memory), // Media buffer size "MY_RAM_DISK", // Volume Name 1, // Number of FATs 32, // Directory Entries 0, // Hidden sectors 256, // Total sectors 512, // Sector size 8, // Sectors per cluster 1, // Heads 1); // Sectors per track /* Open the RAM disk. */ status = fx_media_open(&ram_disk, "RAM DISK", _fx_ram_driver, ram_disk_memory, media_memory, sizeof(media_memory)) ; status += fx_file_create(&ram_disk, "TEST.TXT"); status += fx_file_open(&ram_disk, &my_file, "TEST.TXT", FX_OPEN_FOR_WRITE); status += fx_file_write(&my_file, "https server", 12); status += fx_file_close(&my_file); if(status) error_counter++; /* Give NetX a chance to initialize the system. */ tx_thread_sleep(NX_IP_PERIODIC_RATE); /* First loop test HTTP, second loop test HTTPS. */ for (i = 0; i < loop; i++) { if (i == 1) { server_port = NX_WEB_HTTPS_SERVER_PORT; } /* Create the HTTP Server. */ status = nx_web_http_server_create(&my_server, "My HTTP Server", &server_ip, server_port, &ram_disk, &server_stack, sizeof(server_stack), &server_pool, NX_NULL, NX_NULL); if (status) error_counter++; #ifdef NX_WEB_HTTPS_ENABLE /* Set TLS for HTTPS. */ if (i == 1) { /* Initialize device certificate (used for all sessions in HTTPS server). */ memset(&certificate, 0, sizeof(certificate)); nx_secure_x509_certificate_initialize(&certificate, test_device_cert_der, test_device_cert_der_len, NX_NULL, 0, test_device_cert_key_der, test_device_cert_key_der_len, NX_SECURE_X509_KEY_TYPE_RSA_PKCS1_DER); /* Setup TLS session data for the TCP server. */ status = nx_web_http_server_secure_configure(&my_server, &nx_crypto_tls_ciphers, crypto_metadata_server, sizeof(crypto_metadata_server), tls_packet_buffer, sizeof(tls_packet_buffer), &certificate, NX_NULL, 0, NX_NULL, 0, NX_NULL, 0); if (status) error_counter++; } #endif /* NX_WEB_HTTPS_ENABLE */ /* OK to start the HTTP Server. */ status = nx_web_http_server_start(&my_server); if (status) error_counter++; tx_semaphore_put(&semaphore_server_start); tx_semaphore_get(&semaphore_client_stop, NX_WAIT_FOREVER); status = nx_web_http_server_stop(&my_server); if (status) error_counter++; status = nx_web_http_server_delete(&my_server); if (status) error_counter++; } /* Check packet pool. */ if (server_pool.nx_packet_pool_available != server_pool.nx_packet_pool_total) { error_counter++; } if (client_pool.nx_packet_pool_available != client_pool.nx_packet_pool_total) { error_counter++; } if(error_counter) { printf("ERROR!\n"); test_control_return(1); } else { printf("SUCCESS!\n"); test_control_return(0); } } #else #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_web_client_send_fail_test_application_define(void *first_unused_memory) #endif { /* Print out test information banner. */ printf("NetX Test: Web Client Send Fail Test.................................N/A\n"); test_control_return(3); } #endif