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demo_netxduo_http.c
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demo_netxduo_http.c
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/* This is a small demo of the NetX HTTP Client Server API running on a
high-performance NetX TCP/IP stack. */
#include "tx_api.h"
#include "nx_api.h"
/* If not using FileX, define this option and define the file writing services
declared in filex_stub.h.
#define NX_HTTP_NO_FILEX
*/
#ifndef NX_HTTP_NO_FILEX
#include "fx_api.h"
#else
#include "filex_stub.h"
#endif
#include "nxd_http_client.h"
#include "nxd_http_server.h"
/* For NetX Duo applications, determine which IP version to use. For IPv6,
set IP_TYPE to 6; for IPv4 set to 4. Note that for IPv6, you must enable
USE_DUO so the application 'knows' to enabled IPv6 services on the IP task. */
#ifdef NX_DISABLE_IPV4
#define IP_TYPE 6
#else
#define IP_TYPE 4
#endif /* NX_DISABLE_IPV4 */
#define DEMO_STACK_SIZE 4096
/* Set up FileX and file memory resources. */
UCHAR ram_disk_memory[32000];
FX_MEDIA ram_disk;
unsigned char media_memory[512];
/* Define device drivers. */
extern void _fx_ram_driver(FX_MEDIA *media_ptr);
/* Replace the 'ram' driver with your Ethernet driver. */
VOID _nx_ram_network_driver(NX_IP_DRIVER *driver_req_ptr);
UINT authentication_check(NX_HTTP_SERVER *server_ptr, UINT request_type,
CHAR *resource, CHAR **name, CHAR **password, CHAR **realm);
/* Set up the HTTP client global variables. */
TX_THREAD client_thread;
NX_PACKET_POOL client_pool;
NX_HTTP_CLIENT my_client;
NX_IP client_ip;
#define CLIENT_PACKET_SIZE (NX_HTTP_SERVER_MIN_PACKET_SIZE * 2)
/* Set up the HTTP server global variables */
NX_HTTP_SERVER my_server;
NX_PACKET_POOL server_pool;
TX_THREAD server_thread;
NX_IP server_ip;
NXD_ADDRESS server_ip_address;
#define SERVER_PACKET_SIZE (NX_HTTP_SERVER_MIN_PACKET_SIZE * 2)
void thread_client_entry(ULONG thread_input);
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)
/* Define the application's authentication check. This is called by
the HTTP server whenever a new request is received. */
UINT authentication_check(NX_HTTP_SERVER *server_ptr, UINT request_type,
CHAR *resource, CHAR **name, CHAR **password, CHAR **realm)
{
NX_PARAMETER_NOT_USED(server_ptr);
NX_PARAMETER_NOT_USED(request_type);
NX_PARAMETER_NOT_USED(resource);
/* Just use a simple name, password, and realm for all
requests and resources. */
*name = "name";
*password = "password";
*realm = "NetX Duo HTTP demo";
/* Request basic authentication. */
return(NX_HTTP_BASIC_AUTHENTICATE);
}
/* Define main entry point. */
int main()
{
/* Enter the ThreadX kernel. */
tx_kernel_enter();
}
/* Define what the initial system looks like. */
void tx_application_define(void *first_unused_memory)
{
CHAR *pointer;
UINT status;
/* 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,
4, 4, TX_NO_TIME_SLICE, TX_AUTO_START);
pointer = pointer + DEMO_STACK_SIZE;
/* 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*4);
pointer = pointer + SERVER_PACKET_SIZE * 4;
/* Check for pool creation error. */
if (status)
{
return;
}
/* Create an IP instance. */
status = nx_ip_create(&server_ip, "HTTP Server IP", HTTP_SERVER_ADDRESS,
0xFFFFFF00UL, &server_pool, _nx_ram_network_driver,
pointer, 4096, 1);
pointer = pointer + 4096;
/* Check for IP create errors. */
if (status)
{
return;
}
#ifndef NX_DISABLE_IPV4
/* Enable ARP and supply ARP cache memory for the server IP instance. */
status = nx_arp_enable(&server_ip, (void *) pointer, 1024);
pointer = pointer + 1024;
/* Check for ARP enable errors. */
if (status)
{
return;
}
#endif /* NX_DISABLE_IPV4 */
/* Enable TCP traffic. */
status = nx_tcp_enable(&server_ip);
if (status)
{
return;
}
#if (IP_TYPE==6)
/* Set up the server's IPv6 address here. */
server_ip_address.nxd_ip_address.v6[3] = 0x105;
server_ip_address.nxd_ip_address.v6[2] = 0x0;
server_ip_address.nxd_ip_address.v6[1] = 0x0000f101;
server_ip_address.nxd_ip_address.v6[0] = 0x20010db8;
server_ip_address.nxd_ip_version = NX_IP_VERSION_V6;
#else
/* Set up the server's IPv4 address here. */
server_ip_address.nxd_ip_address.v4 = HTTP_SERVER_ADDRESS;
server_ip_address.nxd_ip_version = NX_IP_VERSION_V4;
#endif /* (IP_TYPE==6) */
/* Create the HTTP Server. */
status = nx_http_server_create(&my_server, "My HTTP Server", &server_ip, &ram_disk,
pointer, 2048, &server_pool, authentication_check, NX_NULL);
if (status)
{
return;
}
pointer = pointer + 2048;
/* Create the HTTP Client thread. */
status = tx_thread_create(&client_thread, "HTTP Client", thread_client_entry, 0,
pointer, DEMO_STACK_SIZE,
6, 6, TX_NO_TIME_SLICE, TX_AUTO_START);
pointer = pointer + DEMO_STACK_SIZE;
/* Check for thread create error. */
if (status)
{
return;
}
/* Create the Client packet pool. */
status = nx_packet_pool_create(&client_pool, "HTTP Client Packet Pool", SERVER_PACKET_SIZE,
pointer, SERVER_PACKET_SIZE*4);
pointer = pointer + SERVER_PACKET_SIZE * 4;
/* Check for pool creation error. */
if (status)
{
return;
}
/* Create an IP instance. */
status = nx_ip_create(&client_ip, "HTTP Client IP", HTTP_CLIENT_ADDRESS,
0xFFFFFF00UL, &client_pool, _nx_ram_network_driver,
pointer, 2048, 1);
pointer = pointer + 2048;
/* Check for IP create errors. */
if (status)
{
return;
}
#ifndef NX_DISABLE_IPV4
/* Enable ARP and supply ARP cache memory for the client IP instance. */
status = nx_arp_enable(&client_ip, (void *) pointer, 1024);
pointer = pointer + 2048;
/* Check for ARP enable errors. */
if (status)
{
return;
}
#endif /* NX_DISABLE_IPV4 */
/* Enable TCP traffic. */
status = nx_tcp_enable(&client_ip);
return;
}
VOID thread_client_entry(ULONG thread_input)
{
UINT status;
NX_PACKET *my_packet;
#if (IP_TYPE == 6)
UINT iface_index;
UINT address_index;
NXD_ADDRESS client_ip_address;
#endif
NX_PARAMETER_NOT_USED(thread_input);
/* Format the RAM disk - the memory for the RAM disk was setup in
tx_application_define above. This must be set up before the client(s) start
sending requests. */
status = 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 */
128, /* Sector size */
1, /* Sectors per cluster */
1, /* Heads */
1); /* Sectors per track */
/* Check the media format status. */
if (status != FX_SUCCESS)
{
/* Error, bail out. */
return ;
}
/* Open the RAM disk. */
status = fx_media_open(&ram_disk, "RAM DISK", _fx_ram_driver, ram_disk_memory, media_memory, sizeof(media_memory));
/* Check the media open status. */
if (status != FX_SUCCESS)
{
/* Error, bail out. */
return ;
}
/* Give IP task and driver a chance to initialize the system. */
tx_thread_sleep(NX_IP_PERIODIC_RATE);
/* Create an HTTP client instance. */
status = nx_http_client_create(&my_client, "HTTP Client", &client_ip, &client_pool, 600);
/* Check status. */
if (status != NX_SUCCESS)
{
return;
}
#if (IP_TYPE == 6)
/* Set up the client IPv6 address here. */
client_ip_address.nxd_ip_address.v6[3] = 0x101;
client_ip_address.nxd_ip_address.v6[2] = 0x0;
client_ip_address.nxd_ip_address.v6[1] = 0x0000f101;
client_ip_address.nxd_ip_address.v6[0] = 0x20010db8;
client_ip_address.nxd_ip_version = NX_IP_VERSION_V6;
/* Enable ICMPv6 services for the Client. */
status = nxd_icmp_enable(&client_ip);
if (status != NX_SUCCESS)
{
return;
}
/* Enable IPv6 services for the Client. */
status = nxd_ipv6_enable(&client_ip);
if (status != NX_SUCCESS)
{
return;
}
/* Register the Client link local and global IPv6 address with NetX Duo. */
/* This assumes we are using the Server primary interface. See the NetX Duo
User Guide for more information on address configuration. */
/* This assumes we are using the Client primary interface. See the NetX Duo
User Guide for more information on address configuration. */
iface_index = 0;
status = nxd_ipv6_address_set(&client_ip, iface_index, NX_NULL, 10, &address_index);
status += nxd_ipv6_address_set(&client_ip, iface_index, &client_ip_address, 64, &address_index);
if (status != NX_SUCCESS)
{
return;
}
/* Wait for DAD to validate Client addresses. */
tx_thread_sleep(5 * NX_IP_PERIODIC_RATE);
#endif /* (IP_TYPE == 6) */
/* Now upload an HTML file to the HTTP IP server using the 'duo' service (supports IPv4 and IPv6). */
status = nxd_http_client_put_start(&my_client, &server_ip_address, "/client_test.htm",
"name", "password", 112, 5 * NX_IP_PERIODIC_RATE);
/* Check status. */
if (status != NX_SUCCESS)
{
tx_thread_sleep(NX_IP_PERIODIC_RATE);
}
/* Allocate a packet. */
status = nx_packet_allocate(&client_pool, &my_packet, NX_TCP_PACKET, NX_WAIT_FOREVER);
/* Check status. */
if (status != NX_SUCCESS)
{
return;
}
/* Build a simple 103-byte HTML page. */
nx_packet_data_append(my_packet, "<HTML>\r\n", 8,
&client_pool, NX_WAIT_FOREVER);
nx_packet_data_append(my_packet,
"<HEAD><TITLE>NetX HTTP Test</TITLE></HEAD>\r\n", 44,
&client_pool, NX_WAIT_FOREVER);
nx_packet_data_append(my_packet, "<BODY>\r\n", 8,
&client_pool, NX_WAIT_FOREVER);
nx_packet_data_append(my_packet, "<H1>Another NetX Test Page!</H1>\r\n", 34,
&client_pool, NX_WAIT_FOREVER);
nx_packet_data_append(my_packet, "</BODY>\r\n", 9,
&client_pool, NX_WAIT_FOREVER);
nx_packet_data_append(my_packet, "</HTML>\r\n", 9,
&client_pool, NX_WAIT_FOREVER);
/* Complete the PUT by writing the total length. */
status = nx_http_client_put_packet(&my_client, my_packet, 50);
/* Check status. */
if (status != NX_SUCCESS)
{
return;
}
/* Now GET the test file */
/* Use the 'duo' service to send a GET request to the server (can use IPv4 or IPv6 addresses). */
status = nxd_http_client_get_start(&my_client, &server_ip_address,
"/client_test.htm", NX_NULL, 0, "name", "password", 50);
/* Check status. */
if (status != NX_SUCCESS)
{
return;
}
status = nx_http_client_delete(&my_client);
return;
}
/* Define the helper HTTP server thread. */
void thread_server_entry(ULONG thread_input)
{
UINT status;
#if (IP_TYPE == 6)
UINT iface_index;
UINT address_index;
#endif
NX_PARAMETER_NOT_USED(thread_input);
/* Give NetX a chance to initialize the system. */
tx_thread_sleep(NX_IP_PERIODIC_RATE);
#if (IP_TYPE == 6)
/* Here's where we make the HTTP server IPv6 enabled. */
/* Enable ICMPv6 services for the Server. */
status = nxd_icmp_enable(&server_ip);
if (status != NX_SUCCESS)
{
return;
}
/* Enable IPv6 services for the Server. */
status = nxd_ipv6_enable(&server_ip);
if (status != NX_SUCCESS)
{
return;
}
/* Register the Server link local and global IPv6 address with NetX Duo. */
/* This assumes we are using the Server primary interface. See the NetX Duo
User Guide for more information on address configuration. */
iface_index = 0;
status = nxd_ipv6_address_set(&server_ip, iface_index, NX_NULL, 10, &address_index);
status += nxd_ipv6_address_set(&server_ip, iface_index, &server_ip_address, 64, &address_index);
if (status != NX_SUCCESS)
{
return;
}
/* Wait for DAD to validate Server address. */
tx_thread_sleep(5 * NX_IP_PERIODIC_RATE);
#endif /* (IP_TYPE == 6) */
/* OK to start the HTTP Server. */
status = nx_http_server_start(&my_server);
if (status != NX_SUCCESS)
{
return;
}
/* HTTP server ready to take requests! */
/* Let the IP thread execute. */
tx_thread_sleep(NX_IP_PERIODIC_RATE);
return;
}