Daniele Lacamera
Free (GPLv2) TCP/IP stack developed by TASS Belgium
Dependents: lpc1768-picotcp-demo ZeroMQ_PicoTCP_Publisher_demo TCPSocket_HelloWorld_PicoTCP Pico_TCP_UDP_Test ... more
PicoTCP. Copyright (c) 2013 TASS Belgium NV.
Released under the GNU General Public License, version 2.
Different licensing models may exist, at the sole discretion of the Copyright holders.
Official homepage: http://www.picotcp.com
Bug tracker: https://github.com/tass-belgium/picotcp/issues
Development steps:
initial integration with mbed RTOSgeneric mbed Ethernet driverhigh performance NXP LPC1768 specific Ethernet driverMulti-threading support for mbed RTOSBerkeley sockets and integration with the New Socket APIFork of the apps running on top of the New Socket APIScheduling optimizations- Debugging/benchmarking/testing
Demo application (measuring TCP sender performance):
Import programlpc1768-picotcp-demo
A PicoTCP demo app testing the ethernet throughput on the lpc1768 mbed board.
Last commit 17 May 2013 by 
TASS Belgium
modules/pico_icmp4.c
- Committer:
- tass
- Date:
- 2016-01-28
- Revision:
- 155:a70f34550c34
- Parent:
- 152:a3d286bf94e5
File content as of revision 155:a70f34550c34:
/*********************************************************************
PicoTCP. Copyright (c) 2012-2015 Altran Intelligent Systems. Some rights reserved.
See LICENSE and COPYING for usage.
.
Authors: Daniele Lacamera
*********************************************************************/
#include "pico_icmp4.h"
#include "pico_config.h"
#include "pico_ipv4.h"
#include "pico_eth.h"
#include "pico_device.h"
#include "pico_stack.h"
#include "pico_tree.h"
/* Queues */
static struct pico_queue icmp_in = {
0
};
static struct pico_queue icmp_out = {
0
};
/* Functions */
static int pico_icmp4_checksum(struct pico_frame *f)
{
struct pico_icmp4_hdr *hdr = (struct pico_icmp4_hdr *) f->transport_hdr;
if (!hdr) {
pico_err = PICO_ERR_EINVAL;
return -1;
}
hdr->crc = 0;
hdr->crc = short_be(pico_checksum(hdr, f->transport_len));
return 0;
}
#ifdef PICO_SUPPORT_PING
static void ping_recv_reply(struct pico_frame *f);
#endif
static int pico_icmp4_process_in(struct pico_protocol *self, struct pico_frame *f)
{
struct pico_icmp4_hdr *hdr = (struct pico_icmp4_hdr *) f->transport_hdr;
static int firstpkt = 1;
static uint16_t last_id = 0;
static uint16_t last_seq = 0;
IGNORE_PARAMETER(self);
if (hdr->type == PICO_ICMP_ECHO) {
hdr->type = PICO_ICMP_ECHOREPLY;
/* outgoing frames require a f->len without the ethernet header len */
if (f->dev && f->dev->eth)
f->len -= PICO_SIZE_ETHHDR;
if (!firstpkt && (hdr->hun.ih_idseq.idseq_id == last_id) && (last_seq == hdr->hun.ih_idseq.idseq_seq)) {
/* The network duplicated the echo. Do not reply. */
pico_frame_discard(f);
return 0;
}
firstpkt = 0;
last_id = hdr->hun.ih_idseq.idseq_id;
last_seq = hdr->hun.ih_idseq.idseq_seq;
pico_icmp4_checksum(f);
pico_ipv4_rebound(f);
} else if (hdr->type == PICO_ICMP_UNREACH) {
f->net_hdr = f->transport_hdr + PICO_ICMPHDR_UN_SIZE;
pico_ipv4_unreachable(f, hdr->code);
} else if (hdr->type == PICO_ICMP_ECHOREPLY) {
#ifdef PICO_SUPPORT_PING
ping_recv_reply(f);
#endif
pico_frame_discard(f);
} else {
pico_frame_discard(f);
}
return 0;
}
static int pico_icmp4_process_out(struct pico_protocol *self, struct pico_frame *f)
{
IGNORE_PARAMETER(self);
IGNORE_PARAMETER(f);
dbg("Called %s\n", __FUNCTION__);
return 0;
}
/* Interface: protocol definition */
struct pico_protocol pico_proto_icmp4 = {
.name = "icmp4",
.proto_number = PICO_PROTO_ICMP4,
.layer = PICO_LAYER_TRANSPORT,
.process_in = pico_icmp4_process_in,
.process_out = pico_icmp4_process_out,
.q_in = &icmp_in,
.q_out = &icmp_out,
};
static int pico_icmp4_notify(struct pico_frame *f, uint8_t type, uint8_t code)
{
struct pico_frame *reply;
struct pico_icmp4_hdr *hdr;
struct pico_ipv4_hdr *info;
uint16_t f_tot_len;
f_tot_len = short_be(((struct pico_ipv4_hdr *)f->net_hdr)->len);
if (f_tot_len < (sizeof(struct pico_ipv4_hdr)))
return -1;
/* Truncate tot len to be at most 8 bytes + iphdr */
if (f_tot_len > (sizeof(struct pico_ipv4_hdr) + 8u)) {
f_tot_len = (sizeof(struct pico_ipv4_hdr) + 8u);
}
if (f == NULL) {
pico_err = PICO_ERR_EINVAL;
return -1;
}
reply = pico_proto_ipv4.alloc(&pico_proto_ipv4, (uint16_t) (f_tot_len + PICO_ICMPHDR_UN_SIZE));
info = (struct pico_ipv4_hdr*)(f->net_hdr);
hdr = (struct pico_icmp4_hdr *) reply->transport_hdr;
hdr->type = type;
hdr->code = code;
hdr->hun.ih_pmtu.ipm_nmtu = short_be(1500);
hdr->hun.ih_pmtu.ipm_void = 0;
reply->transport_len = (uint16_t)(f_tot_len + PICO_ICMPHDR_UN_SIZE);
reply->payload = reply->transport_hdr + PICO_ICMPHDR_UN_SIZE;
memcpy(reply->payload, f->net_hdr, f_tot_len);
pico_icmp4_checksum(reply);
pico_ipv4_frame_push(reply, &info->src, PICO_PROTO_ICMP4);
return 0;
}
int pico_icmp4_port_unreachable(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_UNREACH, PICO_ICMP_UNREACH_PORT);
}
int pico_icmp4_proto_unreachable(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_UNREACH, PICO_ICMP_UNREACH_PROTOCOL);
}
int pico_icmp4_dest_unreachable(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_UNREACH, PICO_ICMP_UNREACH_HOST);
}
int pico_icmp4_ttl_expired(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_TIME_EXCEEDED, PICO_ICMP_TIMXCEED_INTRANS);
}
MOCKABLE int pico_icmp4_frag_expired(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_TIME_EXCEEDED, PICO_ICMP_TIMXCEED_REASS);
}
int pico_icmp4_mtu_exceeded(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
return pico_icmp4_notify(f, PICO_ICMP_UNREACH, PICO_ICMP_UNREACH_NEEDFRAG);
}
int pico_icmp4_packet_filtered(struct pico_frame *f)
{
/*Parameter check executed in pico_icmp4_notify*/
/*Packet Filtered: type 3, code 13 (Communication Administratively Prohibited)*/
return pico_icmp4_notify(f, PICO_ICMP_UNREACH, PICO_ICMP_UNREACH_FILTER_PROHIB);
}
int pico_icmp4_param_problem(struct pico_frame *f, uint8_t code)
{
return pico_icmp4_notify(f, PICO_ICMP_PARAMPROB, code);
}
/***********************/
/* Ping implementation */
/***********************/
/***********************/
/***********************/
/***********************/
#ifdef PICO_SUPPORT_PING
struct pico_icmp4_ping_cookie
{
struct pico_ip4 dst;
uint16_t err;
uint16_t id;
uint16_t seq;
uint16_t size;
int count;
pico_time timestamp;
int interval;
int timeout;
void (*cb)(struct pico_icmp4_stats*);
};
static int cookie_compare(void *ka, void *kb)
{
struct pico_icmp4_ping_cookie *a = ka, *b = kb;
if (a->id < b->id)
return -1;
if (a->id > b->id)
return 1;
return (a->seq - b->seq);
}
PICO_TREE_DECLARE(Pings, cookie_compare);
static int8_t pico_icmp4_send_echo(struct pico_icmp4_ping_cookie *cookie)
{
struct pico_frame *echo = pico_proto_ipv4.alloc(&pico_proto_ipv4, (uint16_t)(PICO_ICMPHDR_UN_SIZE + cookie->size));
struct pico_icmp4_hdr *hdr;
if (!echo) {
return -1;
}
hdr = (struct pico_icmp4_hdr *) echo->transport_hdr;
hdr->type = PICO_ICMP_ECHO;
hdr->code = 0;
hdr->hun.ih_idseq.idseq_id = short_be(cookie->id);
hdr->hun.ih_idseq.idseq_seq = short_be(cookie->seq);
echo->transport_len = (uint16_t)(PICO_ICMPHDR_UN_SIZE + cookie->size);
echo->payload = echo->transport_hdr + PICO_ICMPHDR_UN_SIZE;
echo->payload_len = cookie->size;
/* XXX: Fill payload */
pico_icmp4_checksum(echo);
pico_ipv4_frame_push(echo, &cookie->dst, PICO_PROTO_ICMP4);
return 0;
}
static void ping_timeout(pico_time now, void *arg)
{
struct pico_icmp4_ping_cookie *cookie = (struct pico_icmp4_ping_cookie *)arg;
IGNORE_PARAMETER(now);
if(pico_tree_findKey(&Pings, cookie)) {
if (cookie->err == PICO_PING_ERR_PENDING) {
struct pico_icmp4_stats stats;
stats.dst = cookie->dst;
stats.seq = cookie->seq;
stats.time = 0;
stats.size = cookie->size;
stats.err = PICO_PING_ERR_TIMEOUT;
dbg(" ---- Ping timeout!!!\n");
cookie->cb(&stats);
}
pico_tree_delete(&Pings, cookie);
PICO_FREE(cookie);
}
}
static void next_ping(pico_time now, void *arg);
static inline void send_ping(struct pico_icmp4_ping_cookie *cookie)
{
pico_icmp4_send_echo(cookie);
cookie->timestamp = pico_tick;
pico_timer_add((uint32_t)cookie->timeout, ping_timeout, cookie);
if (cookie->seq < (uint16_t)cookie->count)
pico_timer_add((uint32_t)cookie->interval, next_ping, cookie);
}
static void next_ping(pico_time now, void *arg)
{
struct pico_icmp4_ping_cookie *newcookie, *cookie = (struct pico_icmp4_ping_cookie *)arg;
IGNORE_PARAMETER(now);
if(pico_tree_findKey(&Pings, cookie)) {
if (cookie->err == PICO_PING_ERR_ABORTED)
return;
if (cookie->seq < (uint16_t)cookie->count) {
newcookie = PICO_ZALLOC(sizeof(struct pico_icmp4_ping_cookie));
if (!newcookie)
return;
memcpy(newcookie, cookie, sizeof(struct pico_icmp4_ping_cookie));
newcookie->seq++;
pico_tree_insert(&Pings, newcookie);
send_ping(newcookie);
}
}
}
static void ping_recv_reply(struct pico_frame *f)
{
struct pico_icmp4_ping_cookie test, *cookie;
struct pico_icmp4_hdr *hdr = (struct pico_icmp4_hdr *) f->transport_hdr;
test.id = short_be(hdr->hun.ih_idseq.idseq_id );
test.seq = short_be(hdr->hun.ih_idseq.idseq_seq);
cookie = pico_tree_findKey(&Pings, &test);
if (cookie) {
struct pico_icmp4_stats stats;
if (cookie->err == PICO_PING_ERR_ABORTED)
return;
cookie->err = PICO_PING_ERR_REPLIED;
stats.dst = ((struct pico_ipv4_hdr *)f->net_hdr)->src;
stats.seq = cookie->seq;
stats.size = cookie->size;
stats.time = pico_tick - cookie->timestamp;
stats.err = cookie->err;
stats.ttl = ((struct pico_ipv4_hdr *)f->net_hdr)->ttl;
if(cookie->cb != NULL)
cookie->cb(&stats);
} else {
dbg("Reply for seq=%d, not found.\n", test.seq);
}
}
int pico_icmp4_ping(char *dst, int count, int interval, int timeout, int size, void (*cb)(struct pico_icmp4_stats *))
{
static uint16_t next_id = 0x91c0;
struct pico_icmp4_ping_cookie *cookie;
if((dst == NULL) || (interval == 0) || (timeout == 0) || (count == 0)) {
pico_err = PICO_ERR_EINVAL;
return -1;
}
cookie = PICO_ZALLOC(sizeof(struct pico_icmp4_ping_cookie));
if (!cookie) {
pico_err = PICO_ERR_ENOMEM;
return -1;
}
if (pico_string_to_ipv4(dst, (uint32_t *)&cookie->dst.addr) < 0) {
pico_err = PICO_ERR_EINVAL;
PICO_FREE(cookie);
return -1;
}
cookie->seq = 1;
cookie->id = next_id++;
cookie->err = PICO_PING_ERR_PENDING;
cookie->size = (uint16_t)size;
cookie->interval = interval;
cookie->timeout = timeout;
cookie->cb = cb;
cookie->count = count;
pico_tree_insert(&Pings, cookie);
send_ping(cookie);
return cookie->id;
}
int pico_icmp4_ping_abort(int id)
{
struct pico_tree_node *node;
int found = 0;
pico_tree_foreach(node, &Pings)
{
struct pico_icmp4_ping_cookie *ck =
(struct pico_icmp4_ping_cookie *) node->keyValue;
if (ck->id == (uint16_t)id) {
ck->err = PICO_PING_ERR_ABORTED;
found++;
}
}
if (found > 0)
return 0; /* OK if at least one pending ping has been canceled */
pico_err = PICO_ERR_ENOENT;
return -1;
}
#endif
