/************************************************************************
* NAME: fnet_timer_delay
*
* DESCRIPTION: Do delay for a given number of timer ticks.
*
*************************************************************************/
void fnet_timer_delay( unsigned long delay_ticks )
{
unsigned long start = fnet_current_time;
while(fnet_timer_get_interval(start, fnet_timer_ticks()) < delay_ticks)
{ };
}
/************************************************************************
* NAME: fnet_timer_delay
*
* DESCRIPTION: Do delay for a given number of timer ticks.
*
*************************************************************************/
void fnet_timer_delay( fnet_time_t delay_ticks )
{
fnet_time_t start_ticks = fnet_current_time;
while(fnet_timer_get_interval(start_ticks, fnet_timer_ticks()) < delay_ticks)
{}
}
/************************************************************************
* NAME: fapp_http_cgi_stdata_handle
*
* DESCRIPTION:
*************************************************************************/
static int fapp_http_cgi_stdata_handle(char * query, long *cookie)
{
unsigned long time, t_hour, t_min, t_sec;
struct fnet_netif_statistics statistics;
FNET_COMP_UNUSED_ARG(query);
/* Get Time. */
time = fnet_timer_ticks();
t_hour = time/FNET_TIMER_TICK_IN_HOUR;
t_min = (time%FNET_TIMER_TICK_IN_HOUR)/FNET_TIMER_TICK_IN_MIN;
t_sec = (time%FNET_TIMER_TICK_IN_MIN)/FNET_TIMER_TICK_IN_SEC;
/* Get statistics. */
fnet_memset_zero( &statistics, sizeof(struct fnet_netif_statistics) );
fnet_netif_get_statistics(fapp_default_netif, &statistics);
/* Write to the temprorary buffer. */
fnet_snprintf(fapp_http_cgi_buffer, sizeof(fapp_http_cgi_buffer), "({\"time\":\"%02d:%02d:%02d\",\"tx\":%d,\"rx\":%d})",
t_hour, t_min, t_sec, statistics.tx_packet, statistics.rx_packet);
*cookie = (long)fapp_http_cgi_buffer; /* Save fapp_http_cgi_buffer as cookie.*/
return FNET_OK;
}
/************************************************************************
* NAME: fnet_arp_resolve
*
* DESCRIPTION: This function finds the first unused or the oldest
* ARP table entry and makes a new entry
* to prepare it for an ARP reply.
*************************************************************************/
void fnet_arp_resolve(fnet_netif_t *netif, fnet_ip4_addr_t ipaddr, fnet_netbuf_t *nb)
{
fnet_arp_if_t *arpif = netif->arp_if_ptr;
fnet_index_t i;
fnet_arp_entry_t *entry;
fnet_isr_lock();
for (i = 0U; i < FNET_CFG_ARP_TABLE_SIZE; i++)
{
if (ipaddr == arpif->arp_table[i].prot_addr)
{
break;
}
}
/* If no unused entry is found, create it. */
if (i == FNET_CFG_ARP_TABLE_SIZE)
{
entry = fnet_arp_add_entry(netif, ipaddr, fnet_eth_null_addr);
}
else
{
entry = &arpif->arp_table[i];
}
if (entry->hold)
{
fnet_netbuf_free_chain(entry->hold);
entry->hold = NULL;
}
if ((i == FNET_CFG_ARP_TABLE_SIZE) || ((entry->hold) && (((fnet_timer_ticks() - entry->hold_time) * FNET_TIMER_PERIOD_MS) > 1000U)) || (!entry->hold))
{
entry->hold_time = fnet_timer_ticks();
entry->hold = nb;
fnet_arp_request(netif, ipaddr);
}
else
{
entry->hold = nb;
}
fnet_isr_unlock();
}
/************************************************************************
* NAME: fnet_telnet_send
*
* DESCRIPTION:
************************************************************************/
static void fnet_telnet_send(struct fnet_telnet_session_if *session)
{
int res;
int tx_buffer_tail_index = 0;
unsigned long timeout = fnet_timer_ticks();
/* Send all data in the buffer.*/
while(tx_buffer_tail_index != session->tx_buffer_head_index)
{
if((res = send(session->socket_foreign, &session->tx_buffer[tx_buffer_tail_index], session->tx_buffer_head_index - tx_buffer_tail_index, 0)) != SOCKET_ERROR)
{
if(res) /* >0 */
{
/* Update buffer pointers. */
tx_buffer_tail_index += res;
/* Reset timeout. */
timeout = fnet_timer_ticks();
}
else if( fnet_timer_get_interval(timeout, fnet_timer_ticks())
> (FNET_TELNET_WAIT_SEND_MS / FNET_TIMER_PERIOD_MS) ) /* Check timeout */
{
FNET_DEBUG_TELNET("TELNET:Send timeout.");
break; /* Time-out. */
}
}
else /* Error.*/
{
FNET_DEBUG_TELNET("TELNET:Send error.");
session->state = FNET_TELNET_STATE_CLOSING; /*=> CLOSING */
break;
}
}
/* Reset TX buffer index. */
session->tx_buffer_head_index = 0;
}
/************************************************************************
* NAME: fnet_arp_resolve
*
* DESCRIPTION: This function finds the first unused or the oldest
* ARP table entry and makes a new entry
* to prepare it for an ARP reply.
*************************************************************************/
void fnet_arp_resolve( fnet_netif_t *netif, fnet_ip4_addr_t ipaddr, fnet_netbuf_t *nb )
{
fnet_arp_if_t *arpif = &(((fnet_eth_if_t *)(netif->if_ptr))->arp_if); //PFI
int i;
fnet_arp_entry_t *entry;
for (i = 0; i < FNET_ARP_TABLE_SIZE; i++)
{
if(ipaddr == arpif->arp_table[i].prot_addr)
{
break;
}
}
/* If no unused entry is found, create it. */
if(i == FNET_ARP_TABLE_SIZE)
entry = fnet_arp_add_entry(netif, ipaddr, fnet_eth_null_addr);
else
entry = &arpif->arp_table[i];
if(entry->hold)
{
fnet_netbuf_free_chain(entry->hold);
}
if((i == FNET_ARP_TABLE_SIZE)||
((entry->hold)&&(((fnet_timer_ticks()-entry->hold_time)*FNET_TIMER_PERIOD_MS)>1000))||
(!entry->hold))
{
entry->hold_time = fnet_timer_ticks();
entry->hold = nb;
fnet_arp_request(netif, ipaddr);
}
else
entry->hold = nb;
}
static void fnet_arp_timer(fnet_uint32_t cookie)
{
fnet_arp_if_t *arpif = (fnet_arp_if_t *)cookie;
fnet_index_t i;
for (i = 0U; i < FNET_CFG_ARP_TABLE_SIZE; i++)
{
if ((arpif->arp_table[i].prot_addr) && (((fnet_timer_ticks() - arpif->arp_table[i].cr_time)) > (fnet_time_t)((FNET_CFG_ARP_EXPIRE_TIMEOUT * 1000U) / FNET_TIMER_PERIOD_MS)))
{
if (arpif->arp_table[i].hold)
{
fnet_netbuf_free_chain(arpif->arp_table[i].hold);
}
fnet_memset_zero(&(arpif->arp_table[i]), sizeof(fnet_arp_entry_t));
}
}
}
/************************************************************************
* NAME: fnet_arp_timer
*
* DESCRIPTION: ARP timer.
*************************************************************************/
static void fnet_arp_timer( void *cookie )
{
fnet_arp_if_t *arpif = (fnet_arp_if_t *)cookie;
int i;
for (i = 0; i < FNET_ARP_TABLE_SIZE; i++)
{
if((arpif->arp_table[i].prot_addr)
&& ((fnet_timer_ticks() - arpif->arp_table[i].cr_time))
> (unsigned long)(FNET_ARP_TIMEOUT / FNET_TIMER_PERIOD_MS))
{
if(arpif->arp_table[i].hold)
fnet_netbuf_free_chain(arpif->arp_table[i].hold);
fnet_memset_zero(&(arpif->arp_table[i]), sizeof(fnet_arp_entry_t));
}
}
}
/************************************************************************
* NAME: fnet_arp_update_entry
*
* DESCRIPTION: Upates ARP table.
*************************************************************************/
static fnet_arp_entry_t *fnet_arp_update_entry(fnet_netif_t *netif, fnet_ip4_addr_t ipaddr, fnet_mac_addr_t ethaddr)
{
fnet_arp_if_t *arpif = netif->arp_if_ptr;
fnet_index_t i;
/* Find an entry to update. */
for (i = 0U; i < FNET_CFG_ARP_TABLE_SIZE; ++i)
{
/* Check if the source IP address of the incoming packet matches
* the IP address in this ARP table entry.*/
if (ipaddr == arpif->arp_table[i].prot_addr)
{
/* Update this and return. */
fnet_memcpy(arpif->arp_table[i].hard_addr, ethaddr, sizeof(fnet_mac_addr_t));
arpif->arp_table[i].cr_time = fnet_timer_ticks();
return (&arpif->arp_table[i]);
}
}
return FNET_NULL;
}
/************************************************************************
* NAME: fapp_bench_udp_tx
*
* DESCRIPTION: Start TX TCP Benchmark.
************************************************************************/
static void fapp_bench_udp_tx (struct fapp_bench_tx_params *params)
{
int send_result;
char ip_str[FNET_IP_ADDR_STR_SIZE];
int i;
int received;
const struct linger linger_option ={1, /*l_onoff*/
4 /*l_linger*/};
const unsigned long bufsize_option = FAPP_BENCH_SOCKET_BUF_SIZE;
struct sockaddr foreign_addr;
int exit_flag = 0;
int sock_err;
unsigned int option_len;
fnet_shell_desc_t desc = params->desc;
int packet_size = params->packet_size;
int cur_packet_number;
int iterations = params->iteration_number;
fnet_address_family_t family = params->foreign_addr.sa_family;
if(packet_size > FAPP_BENCH_BUFFER_SIZE) /* Check max size.*/
packet_size = FAPP_BENCH_BUFFER_SIZE;
fapp_bench.socket_listen = SOCKET_INVALID;
/* ------ Start test.----------- */
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, " UDP TX Test" );
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_S, "Remote IP addr", fnet_inet_ntop(family, params->foreign_addr.sa_data, ip_str, sizeof(ip_str)));
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Remote Port", fnet_ntohs(params->foreign_addr.sa_port));
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Message Size", params->packet_size);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Num. of messages", params->packet_number);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Num. of iterations", params->iteration_number);
fnet_shell_println(desc, FAPP_TOCANCEL_STR);
fnet_shell_println(desc, FAPP_DELIMITER_STR);
while(iterations--)
{
/* Create socket */
if((fapp_bench.socket_foreign = socket(family, SOCK_DGRAM, 0)) == SOCKET_INVALID)
{
FNET_DEBUG("BENCH: Socket creation error.\n");
iterations = 0;
goto ERROR_1;
}
/* Set Socket options. */
if( /* Setup linger option. */
(setsockopt (fapp_bench.socket_foreign, SOL_SOCKET, SO_LINGER, (char *)&linger_option, sizeof(linger_option)) == SOCKET_ERROR) ||
/* Set socket buffer size. */
(setsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_RCVBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
(setsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_SNDBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR)
)
{
FNET_DEBUG("BENCH: Socket setsockopt error.\n");
iterations = 0;
goto ERROR_2;
}
/* Bind to the server.*/
fnet_shell_println(desc,"Connecting.");
foreign_addr = params->foreign_addr;
if(connect(fapp_bench.socket_foreign, &foreign_addr, sizeof(foreign_addr))== FNET_ERR)
{
fnet_shell_println(desc, "Connection failed.");
iterations = 0;
goto ERROR_2;
}
/* Sending.*/
fnet_shell_println(desc,"Sending.");
fapp_bench.bytes = 0;
fapp_bench.remote_bytes = 0;
cur_packet_number = 0;
fapp_bench.first_time = fnet_timer_ticks();
while(1)
{
send_result = send( fapp_bench.socket_foreign, (char*)(&fapp_bench.buffer[0]), packet_size, 0);
fapp_bench.last_time = fnet_timer_ticks();
if ( send_result == SOCKET_ERROR )
{
option_len = sizeof(sock_err);
getsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_ERROR, (char*)&sock_err, &option_len);
fnet_shell_println(desc, "socket_error = %d", sock_err);
iterations = 0;
goto ERROR_2;
}
else
{
fapp_bench.bytes += send_result;
cur_packet_number ++;
exit_flag = fnet_shell_ctrlc (desc); /* Check [Ctrl+c]*/
if((cur_packet_number >= params->packet_number)|| exit_flag)
{
if(exit_flag)
{
fnet_shell_println(desc, FAPP_SHELL_CANCELED_CTRL_C);
iterations = 0;
}
break;/* => TX END. */
}
}
}
/* Send End mark.*/
for(i=0; i < FAPP_BENCH_TX_UDP_END_ITERATIONS; i++)
{
unsigned long ack_bytes;
/* Send END mark.*/
send( fapp_bench.socket_foreign, (char*)(&fapp_bench.buffer[0]), 1, 0);
fnet_timer_delay(1);
/* Check ACK. It should contain recieved amount of data.*/
received = recv(fapp_bench.socket_foreign, (char*)(&ack_bytes), sizeof(ack_bytes), 0);
if(received == sizeof(ack_bytes)) /* ACK received.*/
{
fapp_bench.remote_bytes = fnet_ntohl(ack_bytes);
break;
}
else if(received == SOCKET_ERROR)
{
break;
}
else
{}
}
/* Print benchmark results.*/
fapp_bench_print_results (desc);
ERROR_2:
closesocket(fapp_bench.socket_foreign);
}
ERROR_1:
fnet_shell_println(desc, FAPP_BENCH_COMPLETED_STR);
}
/************************************************************************
* NAME: fapp_bench_tcp_tx
*
* DESCRIPTION: Start TX TCP Benchmark.
************************************************************************/
static void fapp_bench_tcp_tx (struct fapp_bench_tx_params *params)
{
int send_result;
char ip_str[FNET_IP_ADDR_STR_SIZE];
const struct linger linger_option ={1, /*l_onoff*/
4 /*l_linger*/};
const unsigned long bufsize_option = FAPP_BENCH_SOCKET_BUF_SIZE;
const int keepalive_option = 1;
const int keepcnt_option = FAPP_BENCH_TCP_KEEPCNT;
const int keepintvl_option = FAPP_BENCH_TCP_KEEPINTVL;
const int keepidle_option = FAPP_BENCH_TCP_KEEPIDLE;
struct sockaddr foreign_addr;
int exit_flag = 0;
int sock_err ;
unsigned int option_len;
fnet_shell_desc_t desc = params->desc;
fnet_socket_state_t connection_state;
int packet_size = params->packet_size;
int cur_packet_number;
int buffer_offset;
int iterations = params->iteration_number;
fnet_address_family_t family = params->foreign_addr.sa_family;
if(packet_size > FAPP_BENCH_BUFFER_SIZE) /* Check max size.*/
packet_size = FAPP_BENCH_BUFFER_SIZE;
fapp_bench.socket_listen = SOCKET_INVALID;
/* ------ Start test.----------- */
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, " TCP TX Test" );
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_S, "Remote IP Addr", fnet_inet_ntop(family, params->foreign_addr.sa_data, ip_str, sizeof(ip_str)));
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Remote Port", fnet_ntohs(params->foreign_addr.sa_port));
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Message Size", params->packet_size);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Num. of messages", params->packet_number);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Num. of iterations", params->iteration_number);
fnet_shell_println(desc, FAPP_TOCANCEL_STR);
fnet_shell_println(desc, FAPP_DELIMITER_STR);
while(iterations--)
{
/* Create socket */
if((fapp_bench.socket_foreign = socket(family, SOCK_STREAM, 0)) == SOCKET_INVALID)
{
FNET_DEBUG("BENCH: Socket creation error.\n");
iterations = 0;
goto ERROR_1;
}
/* Set Socket options. */
if( /* Setup linger option. */
(setsockopt (fapp_bench.socket_foreign, SOL_SOCKET, SO_LINGER, (char *)&linger_option, sizeof(linger_option)) == SOCKET_ERROR) ||
/* Set socket buffer size. */
(setsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_RCVBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
(setsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_SNDBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
/* Enable keepalive_option option. */
(setsockopt (fapp_bench.socket_foreign, SOL_SOCKET, SO_KEEPALIVE, (char *)&keepalive_option, sizeof(keepalive_option)) == SOCKET_ERROR) ||
/* Keepalive probe retransmit limit. */
(setsockopt (fapp_bench.socket_foreign, IPPROTO_TCP, TCP_KEEPCNT, (char *)&keepcnt_option, sizeof(keepcnt_option)) == SOCKET_ERROR) ||
/* Keepalive retransmit interval.*/
(setsockopt (fapp_bench.socket_foreign, IPPROTO_TCP, TCP_KEEPINTVL, (char *)&keepintvl_option, sizeof(keepintvl_option)) == SOCKET_ERROR) ||
/* Time between keepalive probes.*/
(setsockopt (fapp_bench.socket_foreign, IPPROTO_TCP, TCP_KEEPIDLE, (char *)&keepidle_option, sizeof(keepidle_option)) == SOCKET_ERROR)
)
{
FNET_DEBUG("BENCH: Socket setsockopt error.\n");
iterations = 0;
goto ERROR_2;
}
/* Connect to the server.*/
fnet_shell_println(desc,"Connecting.");
foreign_addr = params->foreign_addr;
connect(fapp_bench.socket_foreign, (struct sockaddr *)(&foreign_addr), sizeof(foreign_addr));
do
{
option_len = sizeof(connection_state);
getsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_STATE, (char*)&connection_state, &option_len);
}
while (connection_state == SS_CONNECTING);
if(connection_state != SS_CONNECTED)
{
fnet_shell_println(desc, "Connection failed.");
iterations = 0;
goto ERROR_2;
}
/* Sending.*/
fnet_shell_println(desc,"Sending.");
fapp_bench.bytes = 0;
fapp_bench.remote_bytes = 0;
cur_packet_number = 0;
buffer_offset = 0;
fapp_bench.first_time = fnet_timer_ticks();
while(1)
{
send_result = send( fapp_bench.socket_foreign, (char*)(&fapp_bench.buffer[buffer_offset]), (packet_size-buffer_offset), 0);
fapp_bench.last_time = fnet_timer_ticks();
if ( send_result == SOCKET_ERROR )
{
option_len = sizeof(sock_err);
getsockopt(fapp_bench.socket_foreign, SOL_SOCKET, SO_ERROR, (char*)&sock_err, &option_len);
fnet_shell_println(desc, "Socket error = %d", sock_err);
iterations = 0;
#if 0
/* Print benchmark results.*/
fapp_bench_print_results (desc);
#endif
break;
}
else if(send_result)
{
fapp_bench.bytes += send_result;
buffer_offset += send_result;
if(buffer_offset == packet_size)
{
cur_packet_number ++;
buffer_offset = 0;
}
exit_flag = fnet_shell_ctrlc(desc); /* Check [Ctrl+c]*/
if((cur_packet_number >= params->packet_number)|| exit_flag)
{
if(exit_flag)
{
fnet_shell_println(desc, FAPP_SHELL_CANCELED_CTRL_C);
iterations = 0;
}
/* Print benchmark results.*/
fapp_bench_print_results (desc);
break;
}
}
else
{}
}
ERROR_2:
closesocket(fapp_bench.socket_foreign);
}
ERROR_1:
fnet_shell_println(desc, FAPP_BENCH_COMPLETED_STR);
}
/************************************************************************
* NAME: fapp_bench_udp_rx
*
* DESCRIPTION: Start Benchmark UDP server.
************************************************************************/
static void fapp_bench_udp_rx (fnet_shell_desc_t desc, fnet_address_family_t family, struct sockaddr *multicast_address /* optional, set to 0*/)
{
struct sockaddr local_addr;
const unsigned long bufsize_option = FAPP_BENCH_SOCKET_BUF_SIZE;
int received;
char ip_str[FNET_IP_ADDR_STR_SIZE];
struct sockaddr addr;
unsigned int addr_len;
int is_first = 1;
int exit_flag = 0;
/* Create listen socket */
if((fapp_bench.socket_listen = socket(family, SOCK_DGRAM, 0)) == SOCKET_INVALID)
{
FNET_DEBUG("BENCH: Socket creation error.\n");
goto ERROR_1;
}
/*Bind.*/
fnet_memset_zero(&local_addr, sizeof(local_addr));
local_addr.sa_port = FAPP_BENCH_PORT;
local_addr.sa_family = family;
if(bind(fapp_bench.socket_listen, &local_addr, sizeof(local_addr)) == SOCKET_ERROR)
{
FNET_DEBUG("BENCH: Socket bind error.\n");
goto ERROR_2;
}
/* Set socket options. */
if(
/* Set socket buffer size. */
(setsockopt(fapp_bench.socket_listen, SOL_SOCKET, SO_RCVBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
(setsockopt(fapp_bench.socket_listen, SOL_SOCKET, SO_SNDBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR)
)
{
FNET_DEBUG("BENCH: Socket setsockopt error.\n");
goto ERROR_2;
}
/* Join multicast group, if set. */
if(multicast_address)
{
#if FNET_CFG_IP4
if(multicast_address->sa_family == AF_INET)
{
struct ip_mreq mreq; /* Multicast group information.*/
mreq.imr_multiaddr.s_addr = ((struct sockaddr_in*)multicast_address)->sin_addr.s_addr;
mreq.imr_interface.s_addr = FNET_HTONL(INADDR_ANY); /* Default Interface.*/
/* Join multicast group. */
if(setsockopt(fapp_bench.socket_listen, IPPROTO_IP, IP_ADD_MEMBERSHIP, (char *)&mreq, sizeof(mreq)) == SOCKET_ERROR)
{
FNET_DEBUG("BENCH: Joining to multicast group is failed.\n");
goto ERROR_2;
}
}
#endif
#if FNET_CFG_IP6
if(multicast_address->sa_family == AF_INET6)
{
struct ipv6_mreq mreq6; /* Multicast group information.*/
FNET_IP6_ADDR_COPY(&((struct sockaddr_in6*)multicast_address)->sin6_addr.s6_addr, &mreq6.ipv6imr_multiaddr.s6_addr);
mreq6.ipv6imr_interface = ((struct sockaddr_in6*)multicast_address)->sin6_scope_id;
/* Join multicast group. */
if(setsockopt(fapp_bench.socket_listen, IPPROTO_IPV6, IPV6_JOIN_GROUP, (char *)&mreq6, sizeof(mreq6)) == SOCKET_ERROR)
{
FNET_DEBUG("BENCH: Joining to multicast group is failed.\n");
goto ERROR_2;
}
}
#endif
}
/* ------ Start test.----------- */
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, " UDP RX Test" );
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fapp_netif_addr_print(desc, family, fapp_default_netif, FNET_FALSE);
if(multicast_address)
{
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_S, "Multicast Group", fnet_inet_ntop(multicast_address->sa_family, (char*)(multicast_address->sa_data), ip_str, sizeof(ip_str)) );
}
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Local Port", FNET_NTOHS(FAPP_BENCH_PORT));
fnet_shell_println(desc, FAPP_TOCANCEL_STR);
fnet_shell_println(desc, FAPP_DELIMITER_STR);
while(exit_flag == 0) /* Main loop */
{
fnet_shell_println(desc, "Waiting.");
fapp_bench.bytes = 0;
fapp_bench.remote_bytes = 0;
addr_len = sizeof(addr);
is_first = 1;
while(exit_flag == 0) /* Test loop. */
{
/* Receive data */
received = recvfrom (fapp_bench.socket_listen, (char*)(&fapp_bench.buffer[0]), FAPP_BENCH_BUFFER_SIZE, 0,
&addr, &addr_len );
if(received >= FAPP_BENCH_UDP_END_BUFFER_LENGTH)
{
/* Reset timeout. */
fapp_bench.last_time = fnet_timer_ticks();
if(is_first)
{
if( received > FAPP_BENCH_UDP_END_BUFFER_LENGTH )
{
fnet_shell_println(desc,"Receiving from %s:%d", fnet_inet_ntop(addr.sa_family, (char*)(addr.sa_data), ip_str, sizeof(ip_str)), fnet_ntohs(addr.sa_port));
fapp_bench.first_time = fnet_timer_ticks();
is_first = 0;
}
}
else
{
if(received == FAPP_BENCH_UDP_END_BUFFER_LENGTH ) /* End of transfer. */
{
/* Send ACK containing amount of received data.*/
unsigned long ack_bytes = fnet_htonl(fapp_bench.bytes);
/* Send several times, just to be sure that it is received/not lost.*/
sendto(fapp_bench.socket_listen, (char*)(&ack_bytes), sizeof(ack_bytes), 0, (struct sockaddr*)&addr, sizeof(addr));
sendto(fapp_bench.socket_listen, (char*)(&ack_bytes), sizeof(ack_bytes), 0, (struct sockaddr*)&addr, sizeof(addr));
sendto(fapp_bench.socket_listen, (char*)(&ack_bytes), sizeof(ack_bytes), 0, (struct sockaddr*)&addr, sizeof(addr));
/* Print benchmark results.*/
fapp_bench_print_results (desc);
break;
}
else
fapp_bench.bytes += received;
}
}
else
{
/* Check error. Check timeout */
if(received == SOCKET_ERROR)
{
fnet_shell_println(desc, "BENCH: Error (%d).", fnet_error_get());
break;
}
/* Check timeout. */
if((is_first == 0) &&
(fnet_timer_get_interval(fapp_bench.last_time, fnet_timer_ticks()) > (FAPP_UDP_TIMEOUT_MS/FNET_TIMER_PERIOD_MS)))
{
fnet_shell_println(desc, "BENCH: Exit on timeout.");
fapp_bench_print_results (desc);
break;
}
}
exit_flag = fnet_shell_ctrlc (desc);
}
}
ERROR_2:
closesocket(fapp_bench.socket_listen);
ERROR_1:
fnet_shell_println(desc, FAPP_BENCH_COMPLETED_STR);
}
/************************************************************************
* NAME: fapp_bench_tcp_rx
*
* DESCRIPTION: Start Benchmark TCP server.
************************************************************************/
static void fapp_bench_tcp_rx (fnet_shell_desc_t desc, fnet_address_family_t family)
{
struct sockaddr local_addr;
int received;
char ip_str[FNET_IP_ADDR_STR_SIZE];
struct linger linger_option ={1, /*l_onoff*/
4 /*l_linger*/};
unsigned long bufsize_option = FAPP_BENCH_SOCKET_BUF_SIZE;
int keepalive_option = 1;
int keepcnt_option = FAPP_BENCH_TCP_KEEPCNT;
int keepintvl_option = FAPP_BENCH_TCP_KEEPINTVL;
int keepidle_option = FAPP_BENCH_TCP_KEEPIDLE;
struct sockaddr foreign_addr;
unsigned int addr_len;
int exit_flag = 0;
fapp_bench.socket_foreign = SOCKET_INVALID;
/* Create listen socket */
if((fapp_bench.socket_listen = socket(family, SOCK_STREAM, 0)) == SOCKET_INVALID)
{
FNET_DEBUG("BENCH: Socket creation error.");
goto ERROR_1;
}
/* Bind socket.*/
fnet_memset_zero(&local_addr, sizeof(local_addr));
local_addr.sa_port = FAPP_BENCH_PORT;
local_addr.sa_family = family;
if(bind(fapp_bench.socket_listen, &local_addr, sizeof(local_addr)) == SOCKET_ERROR)
{
FNET_DEBUG("BENCH: Socket bind error.");
goto ERROR_2;
}
/* Set Socket options. */
if( /* Setup linger option. */
(setsockopt (fapp_bench.socket_listen, SOL_SOCKET, SO_LINGER, (char *)&linger_option, sizeof(linger_option)) == SOCKET_ERROR) ||
/* Set socket buffer size. */
(setsockopt(fapp_bench.socket_listen, SOL_SOCKET, SO_RCVBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
(setsockopt(fapp_bench.socket_listen, SOL_SOCKET, SO_SNDBUF, (char *) &bufsize_option, sizeof(bufsize_option))== SOCKET_ERROR) ||
/* Enable keepalive_option option. */
(setsockopt (fapp_bench.socket_listen, SOL_SOCKET, SO_KEEPALIVE, (char *)&keepalive_option, sizeof(keepalive_option)) == SOCKET_ERROR) ||
/* Keepalive probe retransmit limit. */
(setsockopt (fapp_bench.socket_listen, IPPROTO_TCP, TCP_KEEPCNT, (char *)&keepcnt_option, sizeof(keepcnt_option)) == SOCKET_ERROR) ||
/* Keepalive retransmit interval.*/
(setsockopt (fapp_bench.socket_listen, IPPROTO_TCP, TCP_KEEPINTVL, (char *)&keepintvl_option, sizeof(keepintvl_option)) == SOCKET_ERROR) ||
/* Time between keepalive probes.*/
(setsockopt (fapp_bench.socket_listen, IPPROTO_TCP, TCP_KEEPIDLE, (char *)&keepidle_option, sizeof(keepidle_option)) == SOCKET_ERROR)
)
{
FNET_DEBUG("BENCH: Socket setsockopt error.\n");
goto ERROR_2;
}
/* Listen. */
if(listen(fapp_bench.socket_listen, 1) == SOCKET_ERROR)
{
FNET_DEBUG("BENCH: Socket listen error.\n");
goto ERROR_2;
}
/* ------ Start test.----------- */
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fnet_shell_println(desc, " TCP RX Test");
fnet_shell_println(desc, FAPP_DELIMITER_STR);
fapp_netif_addr_print(desc, family, fapp_default_netif, FNET_FALSE);
fnet_shell_println(desc, FAPP_SHELL_INFO_FORMAT_D, "Local Port", FNET_NTOHS(FAPP_BENCH_PORT));
fnet_shell_println(desc, FAPP_TOCANCEL_STR);
fnet_shell_println(desc, FAPP_DELIMITER_STR);
while(exit_flag == 0)
{
fnet_shell_println(desc, "Waiting.");
fapp_bench.bytes = 0;
fapp_bench.remote_bytes = 0;
if(fapp_bench.socket_foreign != SOCKET_INVALID)
{
closesocket(fapp_bench.socket_foreign);
fapp_bench.socket_foreign = SOCKET_INVALID;
}
while((fapp_bench.socket_foreign == SOCKET_INVALID) && (exit_flag == 0))
{
/*Accept*/
addr_len = sizeof(foreign_addr);
fapp_bench.socket_foreign = accept(fapp_bench.socket_listen, &foreign_addr, &addr_len);
exit_flag = fnet_shell_ctrlc (desc);
if(fapp_bench.socket_foreign != SOCKET_INVALID)
{
fnet_shell_println(desc,"Receiving from %s:%d", fnet_inet_ntop(foreign_addr.sa_family, (char*)(foreign_addr.sa_data), ip_str, sizeof(ip_str)), fnet_ntohs(foreign_addr.sa_port));
fapp_bench.first_time = fnet_timer_ticks();
while(1) /* Receiving data.*/
{
received = recv(fapp_bench.socket_foreign, (char*)(&fapp_bench.buffer[0]), FAPP_BENCH_BUFFER_SIZE, 0);
if ((received == SOCKET_ERROR) || exit_flag)
{
fapp_bench.last_time = fnet_timer_ticks();
/* Print benchmark results.*/
fapp_bench_print_results (desc);
break;
}
else
{
fapp_bench.bytes += received;
}
exit_flag = fnet_shell_ctrlc (desc); /* Check [Ctrl+c]*/
}
}
}
}
closesocket(fapp_bench.socket_foreign);
ERROR_2:
closesocket(fapp_bench.socket_listen);
ERROR_1:
fnet_shell_println(desc, FAPP_BENCH_COMPLETED_STR);
}
/************************************************************************
* NAME: fnet_icmp_input
*
* DESCRIPTION: ICMP input function.
*************************************************************************/
static void fnet_icmp_input(fnet_netif_t *netif, struct sockaddr *src_addr, struct sockaddr *dest_addr, fnet_netbuf_t *nb, fnet_netbuf_t *ip4_nb)
{
fnet_icmp_header_t *hdr;
fnet_prot_notify_t prot_cmd;
fnet_ip4_addr_t src_ip;
fnet_ip4_addr_t dest_ip;
fnet_netbuf_free_chain(ip4_nb); /* Not used.*/
if((netif != 0) && (nb != 0) )
{
if(fnet_netbuf_pullup(&nb, sizeof(fnet_icmp_header_t)) == FNET_ERR) /* The header must reside in contiguous area of memory. */
{
goto DISCARD;
}
hdr = (fnet_icmp_header_t *)nb->data_ptr;
src_ip = ((struct sockaddr_in*)(src_addr))->sin_addr.s_addr;
dest_ip = ((struct sockaddr_in*)(dest_addr))->sin_addr.s_addr;
if(
#if FNET_CFG_CPU_ETH_HW_RX_PROTOCOL_CHECKSUM || FNET_CFG_CPU_ETH_HW_TX_PROTOCOL_CHECKSUM
((nb->flags & FNET_NETBUF_FLAG_HW_PROTOCOL_CHECKSUM) == 0) &&
#endif
(fnet_checksum(nb, nb->total_length))
|| (fnet_ip_addr_is_broadcast(src_ip, netif))
|| FNET_IP4_ADDR_IS_MULTICAST(src_ip))
{
goto DISCARD;
}
fnet_icmp_trace("RX", hdr);
switch(hdr->type)
{
/**************************
* ICMP Request Processing
**************************/
case FNET_ICMP_ECHO:
if((nb->total_length < sizeof(fnet_icmp_echo_header_t)) ||
/* An ICMP Echo Request destined to an IP broadcast or IP
* multicast address MAY be silently discarded.(RFC1122)*/
(fnet_ip_addr_is_broadcast(dest_ip, netif)) || FNET_IP4_ADDR_IS_MULTICAST(dest_ip))
{
goto DISCARD;
}
hdr->type = FNET_ICMP_ECHOREPLY;
fnet_icmp_output(netif, dest_ip, src_ip, nb);
break;
#if 0 /* Optional functionality.*/
/************************
* Time Stamp Query
************************/
case FNET_ICMP_TSTAMP:
/* The header must reside in contiguous area of memory. */
if(fnet_netbuf_pullup(&nb, sizeof(fnet_icmp_timestamp_header_t)) == FNET_ERR)
{
goto DISCARD;
}
hdr = nb->data_ptr;
hdr->type = FNET_ICMP_TSTAMPREPLY;
/* All times are in milliseconds since the stack timer start modulo 1 day.
* The high-order bit is set as the time value is recorded in nonstandard units. */
((fnet_icmp_timestamp_header_t *)hdr)->receive_timestamp
= fnet_htonl(((fnet_timer_ticks() * FNET_TIMER_PERIOD_MS) % (24 * 60 * 60 * 1000)) | (0x80000000));
dest_ip = netif->ip4_addr.address;
fnet_icmp_output(netif, dest_ip, src_ip, nb);
break;
/************************
* Address Mask Query
************************/
case FNET_ICMP_MASKREQ:
/* The header must reside in contiguous area of memory*/
if(fnet_netbuf_pullup(&nb, sizeof(fnet_icmp_mask_header_t)) == FNET_ERR)
{
goto DISCARD;
}
hdr = nb->data_ptr;
hdr->type = FNET_ICMP_MASKREPLY;
((fnet_icmp_mask_header_t *)hdr)->mask = netif->ip4_addr.subnetmask;
dest_ip = netif->ip4_addr.address;
fnet_icmp_output(netif, dest_ip, src_ip, nb);
break;
#endif
/**************************
* ICMP Error Processing
**************************/
case FNET_ICMP_UNREACHABLE:
switch(hdr->code)
{
case FNET_ICMP_UNREACHABLE_NET: /* net unreachable */
case FNET_ICMP_UNREACHABLE_NET_UNKNOWN: /* unknown net */
case FNET_ICMP_UNREACHABLE_NET_PROHIB: /* prohibited access */
case FNET_ICMP_UNREACHABLE_TOSNET: /* bad tos for net */
prot_cmd = FNET_PROT_NOTIFY_UNREACH_NET;
break;
case FNET_ICMP_UNREACHABLE_HOST: /* host unreachable */
case FNET_ICMP_UNREACHABLE_HOST_UNKNOWN: /* unknown host */
case FNET_ICMP_UNREACHABLE_ISOLATED: /* src host isolated */
case FNET_ICMP_UNREACHABLE_HOST_PROHIB: /* ditto */
case FNET_ICMP_UNREACHABLE_TOSHOST: /* bad tos for host */
prot_cmd = FNET_PROT_NOTIFY_UNREACH_HOST;
break;
case FNET_ICMP_UNREACHABLE_PROTOCOL: /* protocol unreachable */
prot_cmd = FNET_PROT_NOTIFY_UNREACH_PROTOCOL;
break;
case FNET_ICMP_UNREACHABLE_PORT: /* port unreachable */
prot_cmd = FNET_PROT_NOTIFY_UNREACH_PORT;
break;
case FNET_ICMP_UNREACHABLE_SRCFAIL: /* source route failed */
prot_cmd = FNET_PROT_NOTIFY_UNREACH_SRCFAIL;
break;
case FNET_ICMP_UNREACHABLE_NEEDFRAG: /* fragmentation needed and DF set*/
prot_cmd = FNET_PROT_NOTIFY_MSGSIZE;
break;
default:
goto DISCARD;
}
fnet_icmp_notify_protocol(prot_cmd, nb); /* Protocol notification.*/
break;
case FNET_ICMP_TIMXCEED:
switch(hdr->code)
{
case FNET_ICMP_TIMXCEED_INTRANS: /* time to live exceeded in transit (ttl==0)*/
prot_cmd = FNET_PROT_NOTIFY_TIMXCEED_INTRANS;
break;
case FNET_ICMP_TIMXCEED_REASS: /* fragment reassembly time exceeded (ttl==0)*/
prot_cmd = FNET_PROT_NOTIFY_TIMXCEED_REASS;
break;
default:
goto DISCARD;
}
fnet_icmp_notify_protocol(prot_cmd, nb); /* Protocol notification.*/
break;
case FNET_ICMP_PARAMPROB: /* Parameter Problem Message.*/
if(hdr->code > 1u)
{
goto DISCARD;
}
prot_cmd = FNET_PROT_NOTIFY_PARAMPROB;
fnet_icmp_notify_protocol(prot_cmd, nb); /* Protocol notification.*/
break;
case FNET_ICMP_SOURCEQUENCH: /* Source Quench Message; packet lost, slow down.*/
if(hdr->code)
{
goto DISCARD;
}
prot_cmd = FNET_PROT_NOTIFY_QUENCH;
fnet_icmp_notify_protocol(prot_cmd, nb); /* Protocol notification.*/
break;
/************************
* Ignore others
************************/
/*
case FNET_ICMP_REDIRECT:
case FNET_ICMP_ECHOREPLY:
case FNET_ICMP_ROUTERADVERT:
case FNET_ICMP_ROUTERSOLICIT:
case FNET_ICMP_TSTAMPREPLY:
case FNET_ICMP_IREQREPLY:
case FNET_ICMP_MASKREPLY:*/
default:
goto DISCARD;
}/* switch(hdr->type) */
}
else
{
DISCARD:
fnet_netbuf_free_chain(nb);
}
}
/************************************************************************
* NAME: fnet_http_state_machine
*
* DESCRIPTION: Http server state machine.
************************************************************************/
static void fnet_http_state_machine( void *http_if_p )
{
struct sockaddr foreign_addr;
int len;
int res;
struct fnet_http_if *http = (struct fnet_http_if *)http_if_p;
int iteration;
char *ch;
int i;
struct fnet_http_session_if *session;
for(i=0; i<FNET_CFG_HTTP_SESSION_MAX; i++)
{
session = &http->session[i];
http->session_active = session;
for(iteration = 0; iteration < FNET_HTTP_ITERATION_NUMBER; iteration++)
{
switch(session->state)
{
/*---- LISTENING ------------------------------------------------*/
case FNET_HTTP_STATE_LISTENING:
len = sizeof(foreign_addr);
if((session->socket_foreign = accept(http->socket_listen, &foreign_addr, &len)) != SOCKET_INVALID)
{
#if FNET_CFG_DEBUG_HTTP
{
char ip_str[FNET_IP_ADDR_STR_SIZE];
fnet_inet_ntop(foreign_addr.sa_family, (char*)(foreign_addr.sa_data), ip_str, sizeof(ip_str));
FNET_DEBUG_HTTP("");
FNET_DEBUG_HTTP("HTTP: RX Request From: %s; Port: %d.", ip_str, fnet_ntohs(foreign_addr.sa_port));
}
#endif
/* Reset response & request parameters.*/
fnet_memset_zero(&session->response, sizeof(struct fnet_http_response));
fnet_memset_zero(&session->request, sizeof(struct fnet_http_request));
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
session->response.content_length = -1; /* No content length by default.*/
/* Default HTTP version response.*/
session->response.version.major = FNET_HTTP_VERSION_MAJOR;
session->response.version.minor = FNET_HTTP_VERSION_MINOR;
session->response.tx_data = fnet_http_tx_status_line;
#endif
session->state_time = fnet_timer_ticks(); /* Reset timeout. */
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_RX_REQUEST; /* => WAITING HTTP REQUEST */
}
break;
/*---- RX_LINE -----------------------------------------------*/
case FNET_HTTP_STATE_RX_REQUEST:
do
{
/* Read character by character.*/
ch = &session->buffer[session->buffer_actual_size];
if((res = recv(session->socket_foreign, ch, 1, 0) )!= SOCKET_ERROR)
{
if(res > 0) /* Received a data.*/
{
session->state_time = fnet_timer_ticks(); /* Reset timeout.*/
session->buffer_actual_size++;
if(*ch == '\r')
*ch = '\0';
else if(*ch == '\n')
/* Line received.*/
{
char * req_buf = &session->buffer[0];
*ch = '\0';
if(session->request.method == 0)
/* Parse Request line.*/
{
const struct fnet_http_method **method = &fnet_http_method_list[0];
FNET_DEBUG_HTTP("HTTP: RX Request: %s", req_buf);
/* Determine the method type. */
while(*method)
{
if ( !fnet_strcmp_splitter(req_buf, (*method)->token, ' ') )
{
req_buf+=fnet_strlen((*method)->token);
session->request.method = *method;
break;
}
method++;
}
/* Check if the method is supported? */
if(session->request.method && session->request.method->handle)
{
/* Parse URI.*/
req_buf = fnet_http_uri_parse(req_buf, &session->request.uri);
FNET_DEBUG_HTTP("HTTP: URI Path = %s; Query = %s", http->request.uri.path, http->request.uri.query);
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
/* Parse HTTP/x.x version.*/
fnet_http_version_parse(++req_buf, &session->response.version);
/* Check the highest supported HTTP version.*/
if(((session->response.version.major<<8)|session->response.version.minor) > ((FNET_HTTP_VERSION_MAJOR<<8)|FNET_HTTP_VERSION_MINOR))
{
session->response.version.major = FNET_HTTP_VERSION_MAJOR;
session->response.version.minor = FNET_HTTP_VERSION_MINOR;
}
if(session->response.version.major == 0)
/* HTTP/0.x */
{
session->state = FNET_HTTP_STATE_CLOSING; /* Client does not support HTTP/1.x*/
break;
}
#if FNET_CFG_HTTP_AUTHENTICATION_BASIC
/* Check Authentification.*/
fnet_http_auth_validate_uri(http);
#endif
#endif/*FNET_CFG_HTTP_VERSION_MAJOR*/
/* Call method initial handler.*/
res = session->request.method->handle(http, &session->request.uri);
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
if(fnet_http_status_ok(res) == FNET_OK)
#else
if((res == FNET_OK))
#endif
{
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
session->buffer_actual_size = 0;
/* => Parse Header line.*/
#else /* HTTP/0.9 */
session->response.tx_data = session->request.method->send;
/* Reset buffer pointers.*/
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_TX; /* Send data.*/
#endif
}
/* Method error.*/
else /* Error.*/
{
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
/* Default code = FNET_HTTP_STATUS_CODE_INTERNAL_SERVER_ERROR. */
if(res != FNET_ERR)
session->response.status.code = (fnet_http_status_code_t)res;
/* Send status line.*/
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_TX; /* Send error.*/
#else /* HTTP/0.9 */
session->state = FNET_HTTP_STATE_CLOSING;
#endif
}
}
/* Method is not supported.*/
else /* Error.*/
{
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
session->response.status.code = FNET_HTTP_STATUS_CODE_NOT_IMPLEMENTED;
/* Send status line.*/
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_TX; /* Send error.*/
#else /* HTTP/0.9 */
session->state = FNET_HTTP_STATE_CLOSING;
#endif
}
}
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
/* Parse Header line.*/
else
{
if(session->request.skip_line == 0)
{
if(*req_buf == 0)
/* === Empty line => End of the request header. ===*/
{
#if FNET_CFG_HTTP_AUTHENTICATION_BASIC
if(session->response.auth_entry)
/* Send UNAUTHORIZED error.*/
session->response.status.code = FNET_HTTP_STATUS_CODE_UNAUTHORIZED;
else /* Send Data.*/
#endif
session->response.status.code = FNET_HTTP_STATUS_CODE_OK;
#if FNET_CFG_HTTP_POST
if(session->request.content_length > 0)
/* RX Entity-Body.*/
{
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_RX;
}
else
#endif
/* TX Full-Responce.*/
{
/* Send status line.*/
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_TX;
}
break;
}
else
/* === Parse header fields. ===*/
{
FNET_DEBUG_HTTP("HTTP: RX Header: %s", req_buf);
#if FNET_CFG_HTTP_AUTHENTICATION_BASIC
/* --- Authorization: ---*/
if (session->response.auth_entry && fnet_strncmp(req_buf, FNET_HTTP_HEADER_FIELD_AUTHORIZATION, sizeof(FNET_HTTP_HEADER_FIELD_AUTHORIZATION)-1) == 0)
/* Authetication is required.*/
{
char *auth_str = &req_buf[sizeof(FNET_HTTP_HEADER_FIELD_AUTHORIZATION)-1];
/* Validate credentials.*/
if(fnet_http_auth_validate_credentials(http, auth_str) == FNET_OK)
session->response.auth_entry = 0; /* Authorization is succesful.*/
}
#endif
#if FNET_CFG_HTTP_POST
/* --- Content-Length: ---*/
if (session->request.method->receive && fnet_strncmp(req_buf, FNET_HTTP_HEADER_FIELD_CONTENT_LENGTH, sizeof(FNET_HTTP_HEADER_FIELD_CONTENT_LENGTH)-1) == 0)
{
char *p;
char *length_str = &req_buf[sizeof(FNET_HTTP_HEADER_FIELD_CONTENT_LENGTH)-1];
session->request.content_length = (long)fnet_strtoul(length_str,&p,10);
}
#endif
}
}
/* Line is skiped.*/
else
session->request.skip_line = 0; /* Reset the Skip flag.*/
session->buffer_actual_size = 0; /* => Parse Next Header line.*/
}
#endif/* FNET_CFG_HTTP_VERSION_MAJOR */
}
/* Not whole line received yet.*/
else if (session->buffer_actual_size == FNET_HTTP_BUF_SIZE)
/* Buffer is full.*/
{
#if FNET_CFG_HTTP_VERSION_MAJOR /* HTTP/1.x*/
if(session->request.method != 0)
/* For header, skip the line.*/
{
/* Skip line.*/
session->request.skip_line = 1;
session->buffer_actual_size = 0;
}
else /* Error.*/
{
/* Default code = FNET_HTTP_STATUS_CODE_INTERNAL_SERVER_ERROR. */
session->buffer_actual_size = 0;
session->state = FNET_HTTP_STATE_TX; /* Send error.*/
}
#else /* HTTP/0.9 */
session->state = FNET_HTTP_STATE_CLOSING;
#endif
}
}
/* No data.*/
else if(fnet_timer_get_interval(session->state_time, fnet_timer_ticks()) /* Time out? */
> (FNET_HTTP_WAIT_RX_MS / FNET_TIMER_PERIOD_MS))
{
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
}
/* else => WAITING REQUEST. */
}
/* recv() error.*/
else
{
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
}
}
while ((res > 0) && (session->state == FNET_HTTP_STATE_RX_REQUEST)); /* Till receiving the request header.*/
break;
#if FNET_CFG_HTTP_POST
/*---- RX --------------------------------------------------*/
case FNET_HTTP_STATE_RX: /* Receive data (Entity-Body). */
if((res = recv(session->socket_foreign, &session->buffer[session->buffer_actual_size], (int)(FNET_HTTP_BUF_SIZE-session->buffer_actual_size), 0) )!= SOCKET_ERROR)
{
session->buffer_actual_size += res;
session->request.content_length -= res;
if(res > 0)
/* Some Data.*/
{
session->state_time = fnet_timer_ticks(); /* Reset timeout.*/
res = session->request.method->receive(http);
if(fnet_http_status_ok(res) != FNET_OK)
{
if(res != FNET_ERR)
session->response.status.code = (fnet_http_status_code_t)res;
else
session->response.status.code = FNET_HTTP_STATUS_CODE_INTERNAL_SERVER_ERROR;
session->request.content_length = 0;
}
if(session->request.content_length <= 0) /* The last data.*/
{
session->state = FNET_HTTP_STATE_TX; /* Send data.*/
}
session->buffer_actual_size = 0;
}
else
/* No Data.*/
{
if(fnet_timer_get_interval(session->state_time, fnet_timer_ticks())
> (FNET_HTTP_WAIT_RX_MS / FNET_TIMER_PERIOD_MS))
/* Time out.*/
{
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
}
}
}
else
/* Socket error.*/
{
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
}
break;
#endif /* FNET_CFG_HTTP_POST.*/
/*---- TX --------------------------------------------------*/
case FNET_HTTP_STATE_TX: /* Send data. */
if(fnet_timer_get_interval(session->state_time, fnet_timer_ticks())
< (FNET_HTTP_WAIT_TX_MS / FNET_TIMER_PERIOD_MS)) /* Check timeout */
{
int send_size;
if(session->buffer_actual_size == session->response.buffer_sent)
{
/* Reset counters.*/
session->buffer_actual_size =0;
session->response.buffer_sent = 0;
if(session->response.send_eof || session->response.tx_data(http) == FNET_ERR) /* get data for sending */
{
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
break;
}
}
send_size = (int)(session->buffer_actual_size - (int)session->response.buffer_sent);
if(send_size > http->send_max)
send_size = (int)http->send_max;
if((res = send(session->socket_foreign, session->buffer
+ session->response.buffer_sent, send_size, 0)) != SOCKET_ERROR)
{
if(res)
{
FNET_DEBUG_HTTP("HTTP: TX %d bytes.", res);
session->state_time = fnet_timer_ticks(); /* reset timeout */
session->response.buffer_sent += res;
}
break; /* => SENDING */
}
}
session->state = FNET_HTTP_STATE_CLOSING; /*=> CLOSING */
break;
/*---- CLOSING --------------------------------------------------*/
case FNET_HTTP_STATE_CLOSING:
if(session->request.method && session->request.method->close)
session->request.method->close(http);
closesocket(session->socket_foreign);
session->socket_foreign = SOCKET_INVALID;
session->state = FNET_HTTP_STATE_LISTENING; /*=> LISTENING */
break;
default:
break;
}
}
} /*for(sessions)*/
}
/************************************************************************
* NAME: fnet_ping_state_machine
*
* DESCRIPTION: PING service state machine.
************************************************************************/
static void fnet_ping_state_machine(void *fnet_ping_if_p)
{
fnet_int32_t received;
fnet_icmp_echo_header_t *hdr;
fnet_ping_if_t *ping_if = (fnet_ping_if_t *)fnet_ping_if_p;
struct sockaddr addr;
fnet_size_t addr_len = sizeof(addr);
switch(ping_if->state)
{
/*===================================*/
case FNET_PING_STATE_SENDING_REQUEST:
/* Build message.*/
hdr = (fnet_icmp_echo_header_t *)&fnet_ping_if.buffer[0];
/* Fill ICMP Echo request header.*/
fnet_memset_zero(hdr, sizeof(*hdr));
hdr->header.type = (fnet_uint8_t)((fnet_ping_if.family == AF_INET) ? FNET_ICMP_ECHO: FNET_ICMP6_TYPE_ECHO_REQ);
hdr->identifier = FNET_CFG_PING_IDENTIFIER;
fnet_ping_if.sequence_number++;
hdr->sequence_number = fnet_htons(fnet_ping_if.sequence_number);
/* Fill payload data by pattern.*/
fnet_memset(&fnet_ping_if.buffer[sizeof(*hdr)], ping_if->pattern, ping_if->packet_size);
/* Checksum.*/
#if FNET_CFG_IP4
if(ping_if->family == AF_INET)
{
hdr->header.checksum = fnet_checksum_buf(&fnet_ping_if.buffer[0], (sizeof(*hdr) + ping_if->packet_size));
}
else
#endif
#if FNET_CFG_IP6
if(ping_if->family == AF_INET6)
{
const fnet_ip6_addr_t *src_ip = fnet_ip6_select_src_addr(FNET_NULL, (fnet_ip6_addr_t *)ping_if->target_addr.sa_data); /*TBD Check result.*/
hdr->header.checksum = fnet_checksum_pseudo_buf(&fnet_ping_if.buffer[0],
(fnet_uint16_t)(sizeof(*hdr) + ping_if->packet_size),
FNET_HTONS((fnet_uint16_t)IPPROTO_ICMPV6),
(const fnet_uint8_t *)src_ip,
ping_if->target_addr.sa_data,
sizeof(fnet_ip6_addr_t));
}
else
#endif
{}
/* Send request.*/
fnet_socket_sendto(fnet_ping_if.socket_foreign, (fnet_uint8_t*)(&fnet_ping_if.buffer[0]), (sizeof(*hdr) + ping_if->packet_size), 0u, &ping_if->target_addr, sizeof(ping_if->target_addr));
ping_if->packet_count--;
fnet_ping_if.send_time = fnet_timer_ticks();
ping_if->state = FNET_PING_STATE_WAITING_REPLY;
break;
/*===================================*/
case FNET_PING_STATE_WAITING_REPLY:
/* Receive data */
received = fnet_socket_recvfrom(ping_if->socket_foreign, (fnet_uint8_t*)(&ping_if->buffer[0]), FNET_PING_BUFFER_SIZE, 0u, &addr, &addr_len );
if(received > 0 )
{
fnet_uint16_t checksum = 0u;
hdr = (fnet_icmp_echo_header_t *)(ping_if->buffer);
/* Check checksum.*/
#if FNET_CFG_IP4
if(ping_if->family == AF_INET)
{
checksum = fnet_checksum_buf(&fnet_ping_if.buffer[0], (fnet_size_t)received);
}
else
#endif
#if 0 /* #if FNET_CFG_IP6 */ /* TBD case to receive from multicast address ff02::1*/
if(ping_if->family == AF_INET6)
{
checksum = fnet_checksum_pseudo_buf(&fnet_ping_if.buffer[0],
(fnet_uint16_t)(received),
IPPROTO_ICMPV6,
ping_if->local_addr.sa_data,
ping_if->target_addr.sa_data,
sizeof(fnet_ip6_addr_t));
}
else
#endif
{}
/* Check header.*/
if( checksum
||(hdr->header.type != ((addr.sa_family == AF_INET) ? FNET_ICMP_ECHOREPLY: FNET_ICMP6_TYPE_ECHO_REPLY))
||(hdr->identifier != FNET_CFG_PING_IDENTIFIER)
||(hdr->sequence_number != fnet_htons(ping_if->sequence_number)) )
{
goto NO_DATA;
}
/* Call handler.*/
if(ping_if->handler)
{
ping_if->handler(FNET_ERR_OK, ping_if->packet_count, &addr, ping_if->handler_cookie);
}
if(ping_if->packet_count)
{
ping_if->state = FNET_PING_STATE_WAITING_TIMEOUT;
}
else
{
fnet_ping_release();
}
}
else if(received == FNET_ERR)
{
/* Call handler.*/
if(ping_if->handler)
{
fnet_error_t sock_err ;
fnet_size_t option_len;
/* Get socket error.*/
option_len = sizeof(sock_err);
fnet_socket_getopt(ping_if->socket_foreign, SOL_SOCKET, SO_ERROR, (fnet_uint8_t*)&sock_err, &option_len);
ping_if->handler(sock_err, ping_if->packet_count, FNET_NULL, ping_if->handler_cookie);
}
if(ping_if->packet_count)
{
ping_if->state = FNET_PING_STATE_WAITING_TIMEOUT;
}
else
{
fnet_ping_release();
}
}
else /* No data. Check timeout */
{
NO_DATA:
if(fnet_timer_get_interval(fnet_ping_if.send_time, fnet_timer_ticks()) > fnet_ping_if.timeout_clk)
{
/* Call handler.*/
if(ping_if->handler)
{
ping_if->handler(FNET_ERR_TIMEDOUT, ping_if->packet_count, FNET_NULL, ping_if->handler_cookie);
}
if(ping_if->packet_count)
{
ping_if->state = FNET_PING_STATE_SENDING_REQUEST;
}
else
{
fnet_ping_release();
}
}
}
break;
/*===================================*/
case FNET_PING_STATE_WAITING_TIMEOUT:
if(fnet_timer_get_interval(fnet_ping_if.send_time, fnet_timer_ticks()) > fnet_ping_if.timeout_clk)
{
ping_if->state = FNET_PING_STATE_SENDING_REQUEST;
}
break;
default:
break; /* do nothing, avoid compiler warning "enumeration value not handled in switch" */
}
}
/************************************************************************
* NAME: fnet_arp_add_entry
*
* DESCRIPTION: Adds entry to the ARP table.
*************************************************************************/
static fnet_arp_entry_t *fnet_arp_add_entry( fnet_netif_t *netif, fnet_ip4_addr_t ipaddr,
const fnet_mac_addr_t ethaddr )
{
fnet_arp_if_t *arpif = &(((fnet_eth_if_t *)(netif->if_ptr))->arp_if);
int i, j;
unsigned long max_time;
/* Find an entry to update. */
for (i = 0; i < FNET_ARP_TABLE_SIZE; ++i)
{
/* Check if the source IP address of the incoming packet matches
* the IP address in this ARP table entry.*/
if(ipaddr == arpif->arp_table[i].prot_addr)
{
/* Update this and return. */
fnet_memcpy(arpif->arp_table[i].hard_addr, ethaddr, sizeof(fnet_mac_addr_t));
arpif->arp_table[i].cr_time = fnet_timer_ticks();
goto ADDED;
}
}
/* If we get here, no existing ARP table entry was found. */
/* Find an unused entry in the ARP table. */
for (i = 0; i < FNET_ARP_TABLE_SIZE; ++i)
{
if(arpif->arp_table[i].prot_addr == 0)
{
break;
}
}
/* If no unused entry is found, we try to find the oldest entry and throw it away.*/
if(i == FNET_ARP_TABLE_SIZE)
{
max_time = 0;
j = 0;
for (i = 0; i < FNET_ARP_TABLE_SIZE; ++i)
{
if((fnet_timer_ticks() - arpif->arp_table[i].cr_time) > max_time)
{
max_time = fnet_timer_ticks() - arpif->arp_table[i].cr_time;
j = i;
}
}
i = j;
}
/* Now, it is the ARP table entry which we will fill with the new information. */
if(arpif->arp_table[i].hold)
{
fnet_netbuf_free_chain(arpif->arp_table[i].hold);
arpif->arp_table[i].hold = 0;
arpif->arp_table[i].hold_time = 0;
}
arpif->arp_table[i].prot_addr = ipaddr;
fnet_memcpy(arpif->arp_table[i].hard_addr, ethaddr, sizeof(fnet_mac_addr_t));
arpif->arp_table[i].cr_time = fnet_timer_ticks();
ADDED:
return ( &arpif->arp_table[i]);
}
/************************************************************************
* NAME: fnet_dns_state_machine
*
* DESCRIPTION: DNS-client state machine.
************************************************************************/
static void fnet_dns_state_machine( void *fnet_dns_if_p )
{
int sent_size;
int received;
unsigned int i;
fnet_dns_header_t *header;
fnet_dns_rr_header_t *rr_header;
fnet_dns_if_t *dns_if = (fnet_dns_if_t *)fnet_dns_if_p;
switch(dns_if->state)
{
/*---- TX --------------------------------------------*/
case FNET_DNS_STATE_TX:
FNET_DEBUG_DNS("Sending query...");
sent_size = send(dns_if->socket_cln, dns_if->message, dns_if->message_size, 0U);
if (sent_size != (int)dns_if->message_size)
{
dns_if->state = FNET_DNS_STATE_RELEASE; /* ERROR */
}
else
{
dns_if->last_time = fnet_timer_ticks();
dns_if->state = FNET_DNS_STATE_RX;
}
break;
/*---- RX -----------------------------------------------*/
case FNET_DNS_STATE_RX:
/* Receive data */
received = recv(dns_if->socket_cln, dns_if->message, sizeof(dns_if->message), 0U);
if(received > 0 )
{
header = (fnet_dns_header_t *)fnet_dns_if.message;
if((header->id == dns_if->id) && /* Check the ID.*/
((header->flags & FNET_DNS_HEADER_FLAGS_QR)==FNET_DNS_HEADER_FLAGS_QR)) /* Is response.*/
{
for (i=(sizeof(fnet_dns_header_t)-1U); i < (unsigned int)received; i++)
{
/* [RFC1035 4.1.4.] In order to reduce the size of messages, the domain system utilizes a
* compression scheme which eliminates the repetition of domain names in a
* message. In this scheme, an entire domain name or a list of labels at
* the end of a domain name is replaced with a pointer to a prior occurance
* of the same name.
* The pointer takes the form of a two octet sequence:
* +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
* | 1 1| OFFSET |
* +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
*/
/* => Check for 0xC0. */
if ((unsigned char)dns_if->message[i] == FNET_DNS_NAME_COMPRESSED_MASK) /* look for the beginnig of the response (Question Name == 192 (label compression))*/
{
rr_header = (fnet_dns_rr_header_t *)&dns_if->message[i];
/* Check Question Type, Class and Resource Data Length. */
if ( (rr_header->type == dns_if->dns_type) &&
(rr_header->rr_class == FNET_HTONS(FNET_DNS_HEADER_CLASS_IN)))
{
/* Resolved.*/
if(rr_header->type == FNET_HTONS(FNET_DNS_TYPE_A))
{
dns_if->resolved_ip4_addr[dns_if->addr_number].ip4_addr = *((fnet_ip4_addr_t*)(&rr_header->rdata));
dns_if->resolved_ip4_addr[dns_if->addr_number].ttl = rr_header->ttl;
}
else /* AF_INET6 */
{
FNET_IP6_ADDR_COPY( (fnet_ip6_addr_t*)(&rr_header->rdata), &dns_if->resolved_ip6_addr[dns_if->addr_number].ip6_addr );
dns_if->resolved_ip6_addr[dns_if->addr_number].ttl = rr_header->ttl;
}
dns_if->addr_number++;
}
i+=(unsigned int)(sizeof(fnet_dns_rr_header_t)+fnet_ntohs(rr_header->rdlength)-4U-1U);
}
}
}
/* else = wrong message.*/
dns_if->state = FNET_DNS_STATE_RELEASE;
}
else if(received == SOCKET_ERROR) /* Check error.*/
{
dns_if->state = FNET_DNS_STATE_RELEASE; /* ERROR */
}
else /* No data. Check timeout */
if(fnet_timer_get_interval(dns_if->last_time, fnet_timer_ticks()) > ((FNET_CFG_DNS_RETRANSMISSION_TIMEOUT*1000U)/FNET_TIMER_PERIOD_MS))
{
dns_if->iteration++;
if(dns_if->iteration > FNET_CFG_DNS_RETRANSMISSION_MAX)
{
dns_if->state = FNET_DNS_STATE_RELEASE; /* ERROR */
}
else
{
dns_if->state = FNET_DNS_STATE_TX;
}
}
else
{}
break;
/*---- RELEASE -------------------------------------------------*/
case FNET_DNS_STATE_RELEASE:
{
struct fnet_dns_resolved_addr *addr_list = FNET_NULL;
fnet_dns_release();
/* Fill fnet_dns_resolved_addr */
if(dns_if->addr_number > 0)
{
if(dns_if->addr_family == AF_INET)
{
for(i=0; i<dns_if->addr_number; i++)
{
fnet_memset_zero(&dns_if->resolved_ip4_addr_sock[i].resolved_addr, sizeof(dns_if->resolved_ip4_addr_sock[i].resolved_addr));
dns_if->resolved_ip4_addr_sock[i].resolved_addr.sa_family = AF_INET;
((struct sockaddr_in*)(&dns_if->resolved_ip4_addr_sock[i].resolved_addr))->sin_addr.s_addr = dns_if->resolved_ip4_addr[i].ip4_addr;
dns_if->resolved_ip4_addr_sock[i].resolved_addr_ttl = dns_if->resolved_ip4_addr[i].ttl;
}
addr_list = dns_if->resolved_ip4_addr_sock;
}
else if(dns_if->addr_family == AF_INET6)
{
for(i=0; i<dns_if->addr_number; i++)
{
fnet_memset_zero(&dns_if->resolved_ip6_addr_sock[i].resolved_addr, sizeof(dns_if->resolved_ip4_addr_sock[i].resolved_addr));
dns_if->resolved_ip6_addr_sock[i].resolved_addr.sa_family = AF_INET6;
FNET_IP6_ADDR_COPY(&dns_if->resolved_ip6_addr[i].ip6_addr, &((struct sockaddr_in6*)(&dns_if->resolved_ip6_addr_sock[i].resolved_addr))->sin6_addr.s6_addr);
dns_if->resolved_ip6_addr_sock[i].resolved_addr_ttl = dns_if->resolved_ip6_addr[i].ttl;
}
addr_list = dns_if->resolved_ip6_addr_sock;
}
else
{}
}
dns_if->handler(addr_list, dns_if->addr_number, dns_if->handler_cookie); /* User Callback.*/
}
break;
default:
break;
}
}
