#include "tx_api.h" #include "nx_api.h" #include "nxd_tftp_client.h" #include "nxd_tftp_server.h" #include "fx_api.h" extern void test_control_return(UINT); #if !defined(NX_DISABLE_IPV4) #define DEMO_STACK_SIZE 4096 /* Define the ThreadX, NetX, and FileX object control blocks... */ static TX_THREAD server_thread; static TX_THREAD client_thread; static NX_PACKET_POOL server_pool; static NX_IP server_ip; static NX_PACKET_POOL client_pool; static NX_IP client_ip; static FX_MEDIA ram_disk; /* Define the NetX DUO TFTP object control blocks. */ static NX_TFTP_CLIENT client; static NX_TFTP_SERVER server; /* Define the application global variables */ #define CLIENT_ADDRESS IP_ADDRESS(1, 2, 3, 5) #define SERVER_ADDRESS IP_ADDRESS(1, 2, 3, 4) #ifdef __PRODUCT_NETXDUO__ #define IP_TYPE 4 static NXD_ADDRESS server_ip_address; #else static ULONG server_ip_address; #endif static UINT error_counter = 0; /* Define buffer used in the demo application. */ static UCHAR buffer[255]; static ULONG data_length; /* Define the memory area for the FileX RAM disk. */ static UCHAR ram_disk_memory[32000]; static UCHAR ram_disk_sector_cache[512]; /* Define function prototypes. */ extern void _fx_ram_driver(FX_MEDIA *media_ptr); extern void _nx_ram_network_driver_512(NX_IP_DRIVER *driver_req_ptr); static void client_thread_entry(ULONG thread_input); static void server_thread_entry(ULONG thread_input); #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_tftp_basic_test_application_define(void *first_unused_memory) #endif { UINT status; UCHAR *pointer; /* Setup the working pointer. */ pointer = (UCHAR *) first_unused_memory; /* Create the main TFTPv6 server thread. */ status = tx_thread_create(&server_thread, "TFTP Server Thread", server_thread_entry, 0, pointer, DEMO_STACK_SIZE, 4,4, TX_NO_TIME_SLICE, TX_AUTO_START); pointer += DEMO_STACK_SIZE ; /* Check for errors. */ if (status) error_counter++; /* Create the main TFTPv6 client thread at a slightly lower priority. */ status = tx_thread_create(&client_thread, "TFTP Client Thread", client_thread_entry, 0, pointer, DEMO_STACK_SIZE, 5, 5, TX_NO_TIME_SLICE, TX_DONT_START); pointer += DEMO_STACK_SIZE ; /* Check for errors. */ if (status) error_counter++; /* Initialize the NetX system. */ nx_system_initialize(); /* Note: The data portion of a packet is exactly 512 bytes, but the packet payload size must be at least 580 bytes. The remaining bytes are used for the UDP, IP, and Ethernet headers and byte alignment requirements. */ status = nx_packet_pool_create(&server_pool, "TFTP Server Packet Pool", NX_TFTP_PACKET_SIZE, pointer, 8192); pointer = pointer + 8192; /* Check for errors. */ if (status) error_counter++; /* Create the IP instance for the TFTP Server. */ status = nx_ip_create(&server_ip, "NetX Server IP Instance", SERVER_ADDRESS, 0xFFFFFF00UL, &server_pool, _nx_ram_network_driver_512, pointer, 2048, 1); pointer = pointer + 2048; /* Check for errors. */ if (status) error_counter++; /* Enable ARP and supply ARP cache memory for IP Instance 0. */ status = nx_arp_enable(&server_ip, (void *) pointer, 1024); pointer = pointer + 1024; /* Check for errors. */ if (status) error_counter++; /* Enable UDP. */ status = nx_udp_enable(&server_ip); /* Check for errors. */ if (status) error_counter++; /* Create the TFTP server. */ #ifdef __PRODUCT_NETXDUO__ server_ip_address.nxd_ip_version = NX_IP_VERSION_V4; server_ip_address.nxd_ip_address.v4 = SERVER_ADDRESS; #else server_ip_address = SERVER_ADDRESS; #endif #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_server_create(&server, "TFTP Server Instance", &server_ip, &ram_disk, pointer, DEMO_STACK_SIZE, &server_pool); #else status = nx_tftp_server_create(&server, "TFTP Server Instance", &server_ip, &ram_disk, pointer, DEMO_STACK_SIZE, &server_pool); #endif pointer = pointer + DEMO_STACK_SIZE; /* Check for errors for the server. */ if (status) error_counter++; /* Create a packet pool for the TFTP client. */ /* Note: The data portion of a packet is exactly 512 bytes, but the packet payload size must be at least 580 bytes. The remaining bytes are used for the UDP, IP, and Ethernet headers and byte alignment requirements. */ status = nx_packet_pool_create(&client_pool, "TFTP Client Packet Pool", NX_TFTP_PACKET_SIZE, pointer, 8192); pointer = pointer + 8192; /* Check for errors. */ if (status) error_counter++; /* Create an IP instance for the TFTP client. */ status = nx_ip_create(&client_ip, "TFTP Client IP Instance", CLIENT_ADDRESS, 0xFFFFFF00UL, &client_pool, _nx_ram_network_driver_512, pointer, 2048, 1); pointer = pointer + 2048; /* Check for errors. */ if (status) error_counter++; /* Enable ARP and supply ARP cache memory for IP Instance 1. */ status = nx_arp_enable(&client_ip, (void *) pointer, 1024); pointer = pointer + 1024; /* Enable UDP for client IP instance. */ status += nx_udp_enable(&client_ip); status += nx_icmp_enable(&client_ip); /* Check for errors. */ if (status) error_counter++; tx_thread_resume(&client_thread); } void server_thread_entry(ULONG thread_input) { UINT status; /* Print out test information banner. */ printf("NetX Test: TFTP Basic Test..........................................."); /* Check for earlier error. */ if(error_counter) { printf("ERROR!\n"); test_control_return(1); } /* Format the RAM disk - the memory for the RAM disk was defined above. */ status = fx_media_format(&ram_disk, _fx_ram_driver, /* Driver entry */ ram_disk_memory, /* RAM disk memory pointer */ ram_disk_sector_cache, /* Media buffer pointer */ sizeof(ram_disk_sector_cache), /* Media buffer size */ "MY_RAM_DISK", /* Volume Name */ 1, /* Number of FATs */ 32, /* Directory Entries */ 0, /* Hidden sectors */ 256, /* Total sectors */ 128, /* Sector size */ 1, /* Sectors per cluster */ 1, /* Heads */ 1); /* Sectors per track */ /* Check for errors. */ if (status) error_counter++; /* Open the RAM disk. */ status = fx_media_open(&ram_disk, "RAM DISK", _fx_ram_driver, ram_disk_memory, ram_disk_sector_cache, sizeof(ram_disk_sector_cache)); /* Check for errors. */ if (status) error_counter++; /* Start the NetX Duo TFTP server. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_server_start(&server); #else status = nx_tftp_server_start(&server); #endif /* Check for errors. */ if (status) error_counter++; /* Run for a while */ tx_thread_sleep(3 * NX_IP_PERIODIC_RATE); #ifdef __PRODUCT_NETXDUO__ nxd_tftp_server_delete(&server); #else nx_tftp_server_delete(&server); #endif if(error_counter) { printf("ERROR!\n"); test_control_return(1); } else { printf("SUCCESS!\n"); test_control_return(0); } } /* Define the TFTP client thread. */ void client_thread_entry(ULONG thread_input) { NX_PACKET *my_packet; UINT status; UINT all_done = NX_FALSE; /* The TFTP services used below include the NetX equivalent service which will work with NetX Duo TFTP. However, it is recommended for developers to port their applications to the newer services that take the NXD_ADDRESS type and support both IPv4 and IPv6 communication. */ /* Create a TFTP client. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_create(&client, "TFTP Client", &client_ip, &client_pool, IP_TYPE); #else status = nx_tftp_client_create(&client, "TFTP Client", &client_ip, &client_pool); #endif /* Check status. */ if (status) error_counter++; /* Open a TFTP file for writing. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_open(&client, "test.txt", &server_ip_address, NX_TFTP_OPEN_FOR_WRITE, NX_IP_PERIODIC_RATE, IP_TYPE); #else status = nx_tftp_client_file_open(&client, "test.txt", SERVER_ADDRESS, NX_TFTP_OPEN_FOR_WRITE, NX_IP_PERIODIC_RATE); #endif /* Check status. */ if (status) error_counter++; /* Allocate a TFTP packet. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_packet_allocate(&client_pool, &my_packet, NX_IP_PERIODIC_RATE, IP_TYPE); #else status = nx_tftp_client_packet_allocate(&client_pool, &my_packet, NX_IP_PERIODIC_RATE); #endif /* Check status. */ if (status) error_counter++; /* Write ABCs into the packet payload! */ memcpy(my_packet -> nx_packet_prepend_ptr, "ABCDEFGHIJKLMNOPQRSTUVWXYZ ", 28); /* Adjust the write pointer. */ my_packet -> nx_packet_length = 28; my_packet -> nx_packet_append_ptr = my_packet -> nx_packet_prepend_ptr + 28; /* Write this packet to the file via TFTP. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_write(&client, my_packet, NX_IP_PERIODIC_RATE, IP_TYPE); #else status = nx_tftp_client_file_write(&client, my_packet, NX_IP_PERIODIC_RATE); #endif /* Check status. */ if (status) error_counter++; /* Close this file. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_close(&client, IP_TYPE); #else status = nx_tftp_client_file_close(&client); #endif /* Check status. */ if (status) error_counter++; /* Open the same file for reading. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_open(&client, "test.txt", &server_ip_address, NX_TFTP_OPEN_FOR_READ, NX_IP_PERIODIC_RATE, IP_TYPE); #else status = nx_tftp_client_file_open(&client, "test.txt", SERVER_ADDRESS, NX_TFTP_OPEN_FOR_READ, NX_IP_PERIODIC_RATE); #endif /* Check status. */ if (status) error_counter++; do { /* Read the file back. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_read(&client, &my_packet, NX_IP_PERIODIC_RATE, IP_TYPE); #else status = nx_tftp_client_file_read(&client, &my_packet, NX_IP_PERIODIC_RATE); #endif /* Check for retranmission/dropped packet error. Benign. Try again... */ if (status == NX_TFTP_INVALID_BLOCK_NUMBER) { continue; } else if (status == NX_TFTP_END_OF_FILE) { /* All done. */ all_done = NX_TRUE; } else if (status) { error_counter++; /* Internal error, invalid packet or error on read. */ break; } /* Do something with the packet data and release when done. */ nx_packet_data_retrieve(my_packet, buffer, &data_length); buffer[data_length] = 0; nx_packet_release(my_packet); } while (all_done == NX_FALSE); /* Close the file again. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_file_close(&client, IP_TYPE); #else status = nx_tftp_client_file_close(&client); #endif /* Check status. */ if (status) error_counter++; /* Delete the client. */ #ifdef __PRODUCT_NETXDUO__ status = nxd_tftp_client_delete(&client); #else status = nx_tftp_client_delete(&client); #endif /* Check status. */ if (status) error_counter++; } #else #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_tftp_basic_test_application_define(void *first_unused_memory) #endif { /* Print out test information banner. */ printf("NetX Test: TFTP Basic Test...........................................N/A\n"); test_control_return(3); } #endif