#include "tx_api.h" #include "nx_api.h" #include "nxd_dhcp_client.h" #include "nxd_dhcp_server.h" extern void test_control_return(UINT status); #if !defined(NX_DISABLE_IPV4) #define DEMO_STACK_SIZE 4096 #define NX_PACKET_SIZE 1536 #define NX_PACKET_POOL_SIZE NX_PACKET_SIZE * 8 #define NX_DHCP_SERVER_IP_ADDRESS_0 IP_ADDRESS(10,0,0,1) #define START_IP_ADDRESS_LIST_0 IP_ADDRESS(10,0,0,10) #define END_IP_ADDRESS_LIST_0 IP_ADDRESS(10,0,0,19) #define NX_DHCP_SUBNET_MASK_0 IP_ADDRESS(255,255,255,0) #define NX_DHCP_DEFAULT_GATEWAY_0 IP_ADDRESS(10,0,0,1) #define NX_DHCP_DNS_SERVER_0 IP_ADDRESS(10,0,0,1) /* If defined, the host requests a (previous) client IP address. */ /* #define REQUEST_CLIENT_IP */ /* If defined the client requests to jump to the boot state and skip the DISCOVER message. If REQUEST_CLIENT_IP is not defined, this has no effect. */ /* #define SKIP_DISCOVER_MESSAGE */ /* Define the ThreadX and NetX object control blocks... */ static TX_THREAD client_thread; static NX_PACKET_POOL client_pool; static NX_IP client_ip; static NX_DHCP dhcp_client; static TX_THREAD server_thread; static NX_PACKET_POOL server_pool; static NX_IP server_ip; static NX_DHCP_SERVER dhcp_server; /* Define the counters used in the demo application... */ static ULONG state_changes; static ULONG error_counter; static CHAR *pointer; static UCHAR message[50] = "My Ping Request!" ; /* Define thread prototypes. */ static void server_thread_entry(ULONG thread_input); static void client_thread_entry(ULONG thread_input); static void dhcp_state_change(NX_DHCP *dhcp_ptr, UCHAR new_state); /******** Optionally substitute your Ethernet driver here. ***********/ extern void _nx_ram_network_driver_1024(struct NX_IP_DRIVER_STRUCT *driver_req); /* Define what the initial system looks like. */ #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_dhcp_basic_test_application_define(void *first_unused_memory) #endif { UINT status; /* Setup the working pointer. */ pointer = (CHAR *) first_unused_memory; /* Create the client thread. */ tx_thread_create(&client_thread, "thread client", client_thread_entry, 0, pointer, DEMO_STACK_SIZE, 4, 4, TX_NO_TIME_SLICE, TX_AUTO_START); pointer = pointer + DEMO_STACK_SIZE; /* Create the server thread. */ tx_thread_create(&server_thread, "thread server", server_thread_entry, 0, pointer, DEMO_STACK_SIZE, 3, 3, TX_NO_TIME_SLICE, TX_AUTO_START); pointer = pointer + DEMO_STACK_SIZE; /* Initialize the NetX system. */ nx_system_initialize(); /* Create the client packet pool. */ status = nx_packet_pool_create(&client_pool, "NetX Main Packet Pool", 1024, pointer, NX_PACKET_POOL_SIZE); pointer = pointer + NX_PACKET_POOL_SIZE; /* Check for pool creation error. */ if (status) error_counter++; /* Create the server packet pool. */ status = nx_packet_pool_create(&server_pool, "NetX Main Packet Pool", 1024, pointer, NX_PACKET_POOL_SIZE); pointer = pointer + NX_PACKET_POOL_SIZE; /* Check for pool creation error. */ if (status) error_counter++; /* Create an IP instance for the DHCP Client. */ status = nx_ip_create(&client_ip, "DHCP Client", IP_ADDRESS(0, 0, 0, 0), 0xFFFFFF00UL, &client_pool, _nx_ram_network_driver_1024, pointer, 2048, 1); pointer = pointer + 2048; /* Check for IP create errors. */ if (status) error_counter++; /* Create an IP instance for the DHCP Server. */ status = nx_ip_create(&server_ip, "DHCP Server", NX_DHCP_SERVER_IP_ADDRESS_0, 0xFFFFFF00UL, &server_pool, _nx_ram_network_driver_1024, pointer, 2048, 1); pointer = pointer + 2048; /* Check for IP create errors. */ if (status) error_counter++; /* Enable ARP and supply ARP cache memory for DHCP Client IP. */ status = nx_arp_enable(&client_ip, (void *) pointer, 1024); pointer = pointer + 1024; /* Check for ARP enable errors. */ if (status) error_counter++; /* Enable ARP and supply ARP cache memory for DHCP Server IP. */ status = nx_arp_enable(&server_ip, (void *) pointer, 1024); pointer = pointer + 1024; /* Check for ARP enable errors. */ if (status) error_counter++; /* Enable UDP traffic. */ status = nx_udp_enable(&client_ip); /* Check for UDP enable errors. */ if (status) error_counter++; /* Enable UDP traffic. */ status = nx_udp_enable(&server_ip); /* Check for UDP enable errors. */ if (status) error_counter++; /* Enable ICMP. */ status = nx_icmp_enable(&client_ip); /* Check for errors. */ if (status) error_counter++; /* Enable ICMP. */ status = nx_icmp_enable(&server_ip); /* Check for errors. */ if (status) error_counter++; return; } /* Define the test threads. */ void server_thread_entry(ULONG thread_input) { UINT status; UINT iface_index; UINT addresses_added; printf("NetX Test: DHCP Basic Test..........................................."); /* Create the DHCP Server. */ status = nx_dhcp_server_create(&dhcp_server, &server_ip, pointer, DEMO_STACK_SIZE, "DHCP Server", &server_pool); pointer = pointer + DEMO_STACK_SIZE; /* Check for errors creating the DHCP Server. */ if (status) error_counter++; /* Load the assignable DHCP IP addresses for the first interface. */ iface_index = 0; status = nx_dhcp_create_server_ip_address_list(&dhcp_server, iface_index, START_IP_ADDRESS_LIST_0, END_IP_ADDRESS_LIST_0, &addresses_added); /* Check for errors creating the list. */ if (status) { error_counter++; } /* Verify all the addresses were added to the list. */ if (addresses_added != 10) { error_counter++; } status = nx_dhcp_set_interface_network_parameters(&dhcp_server, iface_index, NX_DHCP_SUBNET_MASK_0, NX_DHCP_DEFAULT_GATEWAY_0, NX_DHCP_DNS_SERVER_0); /* Check for errors setting network parameters. */ if (status) { error_counter++; } /* Start DHCP Server task. */ status = nx_dhcp_server_start(&dhcp_server); /* Check for errors starting up the DHCP server. */ if (status) { error_counter++; } tx_thread_sleep(20 * NX_IP_PERIODIC_RATE); if(error_counter) { printf("ERROR!\n"); test_control_return(1); } else { printf("SUCCESS!\n"); test_control_return(0); } return; } UINT length; #if defined(__PRODUCT_NETXDUO__) && defined(NX_ENABLE_IP_PACKET_FILTER) static UINT packet_filter_extended(NX_IP *ip_ptr, NX_PACKET *packet_ptr, UINT direction) { if ((direction == NX_IP_PACKET_OUT) && ((packet_ptr -> nx_packet_ip_header == NX_NULL) || (packet_ptr -> nx_packet_ip_header_length == 0))) { error_counter++; } return(NX_SUCCESS); } #endif /* Define the test threads. */ void client_thread_entry(ULONG thread_input) { UINT status; NX_PACKET *my_packet; UCHAR buffer[4]; UINT buffer_size = 4; ULONG *long_ptr; #ifdef REQUEST_CLIENT_IP ULONG requested_ip; UINT skip_discover_message = NX_FALSE; #endif /* Create the DHCP instance. */ status = nx_dhcp_create(&dhcp_client, &client_ip, "dhcp_client"); if (status) error_counter++; #ifdef NX_DHCP_CLIENT_USER_CREATE_PACKET_POOL status = nx_dhcp_packet_pool_set(&dhcp_client, &client_pool); if (status) error_counter++; #endif /* NX_DHCP_CLIENT_USER_CREATE_PACKET_POOL */ #if defined(__PRODUCT_NETXDUO__) && defined(NX_ENABLE_IP_PACKET_FILTER) client_ip.nx_ip_packet_filter_extended = packet_filter_extended; #endif /* Set the client IP if the host is configured to do so. */ #ifdef REQUEST_CLIENT_IP requested_ip = (ULONG)CLIENT_IP_ADDRESS; /* Request a specific IP address using the DHCP client address option. */ status = nx_dhcp_request_client_ip(&dhcp_client, requested_ip, skip_discover_message); if (status) error_counter++; #endif /* Register state change variable. */ status = nx_dhcp_state_change_notify(&dhcp_client, dhcp_state_change); if (status) error_counter++; /* Start the DHCP Client. */ status = nx_dhcp_start(&dhcp_client); if (status) error_counter++; /* Check for address resolution. */ status = nx_ip_status_check(&client_ip, NX_IP_ADDRESS_RESOLVED, (ULONG *) &status, 20 * NX_IP_PERIODIC_RATE); /* Check status. */ if (status) error_counter++; /* Get the DNS Server address. */ status = nx_dhcp_user_option_retrieve(&dhcp_client, NX_DHCP_OPTION_DNS_SVR, buffer, &buffer_size); /* Check status. */ if (status == NX_SUCCESS) { /* Set the pointer. */ long_ptr = (ULONG *)(buffer); /* Check the DNS address. */ if (*long_ptr != NX_DHCP_DNS_SERVER_0) error_counter++; } else { error_counter++; } /* Get the lease time value. */ status = nx_dhcp_user_option_retrieve(&dhcp_client, NX_DHCP_OPTION_DHCP_LEASE, buffer, &buffer_size); /* Check status. */ if (status == NX_SUCCESS) { /* Set the pointer. */ long_ptr = (ULONG *)(buffer); /* Check the lease time value. */ if (*long_ptr != NX_DHCP_DEFAULT_LEASE_TIME) error_counter++; } else { error_counter++; } length = sizeof(message); /* Send pings to another host on the network... */ status = nx_icmp_ping(&client_ip, NX_DHCP_SERVER_IP_ADDRESS_0, (CHAR *)message, length, &my_packet, NX_IP_PERIODIC_RATE); if (status) error_counter++; else nx_packet_release(my_packet); /* Stopping the DHCP client. */ nx_dhcp_stop(&dhcp_client); /* All done. Return resources to NetX and ThreadX. */ nx_dhcp_delete(&dhcp_client); return; } void dhcp_state_change(NX_DHCP *dhcp_ptr, UCHAR new_state) { /* Increment state changes counter. */ state_changes++; return; } #else #ifdef CTEST VOID test_application_define(void *first_unused_memory) #else void netx_dhcp_basic_test_application_define(void *first_unused_memory) #endif { /* Print out test information banner. */ printf("NetX Test: NetX DHCP Basic Test......................................N/A\n"); test_control_return(3); } #endif