lwip/test/unit/ip4/test_ip4.c

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#include "test_ip4.h"
#include "lwip/icmp.h"
#include "lwip/ip4.h"
#include "lwip/etharp.h"
#include "lwip/inet_chksum.h"
#include "lwip/stats.h"
#include "lwip/prot/ip.h"
#include "lwip/prot/ip4.h"
#include "lwip/tcpip.h"
#if !LWIP_IPV4 || !IP_REASSEMBLY || !MIB2_STATS || !IPFRAG_STATS
#error "This tests needs LWIP_IPV4, IP_REASSEMBLY; MIB2- and IPFRAG-statistics enabled"
#endif
static struct netif test_netif;
static ip4_addr_t test_ipaddr, test_netmask, test_gw;
static int linkoutput_ctr;
static int linkoutput_byte_ctr;
static u16_t linkoutput_pkt_len;
static u8_t linkoutput_pkt[100];
/* reference internal lwip variable in netif.c */
static err_t
test_netif_linkoutput(struct netif *netif, struct pbuf *p)
{
fail_unless(netif == &test_netif);
fail_unless(p != NULL);
linkoutput_ctr++;
linkoutput_byte_ctr += p->tot_len;
/* Copy start of packet into buffer */
linkoutput_pkt_len = pbuf_copy_partial(p, linkoutput_pkt, sizeof(linkoutput_pkt), 0);
return ERR_OK;
}
static err_t
test_netif_init(struct netif *netif)
{
fail_unless(netif != NULL);
netif->linkoutput = test_netif_linkoutput;
netif->output = etharp_output;
netif->mtu = 1500;
netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | NETIF_FLAG_LINK_UP;
netif->hwaddr_len = ETHARP_HWADDR_LEN;
return ERR_OK;
}
static void
test_netif_add(void)
{
IP4_ADDR(&test_gw, 192,168,0,1);
IP4_ADDR(&test_ipaddr, 192,168,0,1);
IP4_ADDR(&test_netmask, 255,255,0,0);
fail_unless(netif_default == NULL);
netif_add(&test_netif, &test_ipaddr, &test_netmask, &test_gw,
NULL, test_netif_init, NULL);
netif_set_default(&test_netif);
netif_set_up(&test_netif);
}
static void
test_netif_remove(void)
{
if (netif_default == &test_netif) {
netif_remove(&test_netif);
}
}
/* Helper functions */
static void
create_ip4_input_fragment(u16_t ip_id, u16_t start, u16_t len, int last)
{
struct pbuf *p;
struct netif *input_netif = netif_list; /* just use any netif */
fail_unless((start & 7) == 0);
fail_unless(((len & 7) == 0) || last);
fail_unless(input_netif != NULL);
p = pbuf_alloc(PBUF_RAW, len + sizeof(struct ip_hdr), PBUF_RAM);
fail_unless(p != NULL);
if (p != NULL) {
err_t err;
struct ip_hdr *iphdr = (struct ip_hdr *)p->payload;
IPH_VHL_SET(iphdr, 4, sizeof(struct ip_hdr) / 4);
IPH_TOS_SET(iphdr, 0);
IPH_LEN_SET(iphdr, lwip_htons(p->tot_len));
IPH_ID_SET(iphdr, lwip_htons(ip_id));
if (last) {
IPH_OFFSET_SET(iphdr, lwip_htons(start / 8));
} else {
IPH_OFFSET_SET(iphdr, lwip_htons((start / 8) | IP_MF));
}
IPH_TTL_SET(iphdr, 5);
IPH_PROTO_SET(iphdr, IP_PROTO_UDP);
IPH_CHKSUM_SET(iphdr, 0);
ip4_addr_copy(iphdr->src, *netif_ip4_addr(input_netif));
iphdr->src.addr = lwip_htonl(lwip_htonl(iphdr->src.addr) + 1);
ip4_addr_copy(iphdr->dest, *netif_ip4_addr(input_netif));
IPH_CHKSUM_SET(iphdr, inet_chksum(iphdr, sizeof(struct ip_hdr)));
err = ip4_input(p, input_netif);
if (err != ERR_OK) {
pbuf_free(p);
}
fail_unless(err == ERR_OK);
}
}
static err_t arpless_output(struct netif *netif, struct pbuf *p,
const ip4_addr_t *ipaddr) {
LWIP_UNUSED_ARG(ipaddr);
return netif->linkoutput(netif, p);
}
/* Setups/teardown functions */
static void
ip4_setup(void)
{
lwip_check_ensure_no_alloc(SKIP_POOL(MEMP_SYS_TIMEOUT));
}
static void
ip4_teardown(void)
{
if (netif_list->loop_first != NULL) {
pbuf_free(netif_list->loop_first);
netif_list->loop_first = NULL;
}
netif_list->loop_last = NULL;
/* poll until all memory is released... */
tcpip_thread_poll_one();
lwip_check_ensure_no_alloc(SKIP_POOL(MEMP_SYS_TIMEOUT));
test_netif_remove();
netif_set_up(netif_get_loopif());
}
/* Test functions */
START_TEST(test_ip4_frag)
{
struct pbuf *data = pbuf_alloc(PBUF_IP, 8000, PBUF_RAM);
ip_addr_t peer_ip = IPADDR4_INIT_BYTES(192,168,0,5);
err_t err;
LWIP_UNUSED_ARG(_i);
linkoutput_ctr = 0;
/* Verify that 8000 byte payload is split into six packets */
fail_unless(data != NULL);
test_netif_add();
test_netif.output = arpless_output;
err = ip4_output_if_src(data, &test_ipaddr, ip_2_ip4(&peer_ip),
16, 0, IP_PROTO_UDP, &test_netif);
fail_unless(err == ERR_OK);
fail_unless(linkoutput_ctr == 6);
fail_unless(linkoutput_byte_ctr == (8000 + (6 * IP_HLEN)));
pbuf_free(data);
test_netif_remove();
}
END_TEST
START_TEST(test_ip4_reass)
{
const u16_t ip_id = 128;
LWIP_UNUSED_ARG(_i);
memset(&lwip_stats.mib2, 0, sizeof(lwip_stats.mib2));
create_ip4_input_fragment(ip_id, 8*200, 200, 1);
fail_unless(lwip_stats.ip_frag.recv == 1);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 0*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 2);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 1*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 3);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 2*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 4);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 3*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 5);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 4*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 6);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 7*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 7);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 6*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 8);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 0);
create_ip4_input_fragment(ip_id, 5*200, 200, 0);
fail_unless(lwip_stats.ip_frag.recv == 9);
fail_unless(lwip_stats.ip_frag.err == 0);
fail_unless(lwip_stats.ip_frag.memerr == 0);
fail_unless(lwip_stats.ip_frag.drop == 0);
fail_unless(lwip_stats.mib2.ipreasmoks == 1);
}
END_TEST
/* packets to 127.0.0.1 shall not be sent out to netif_default */
START_TEST(test_127_0_0_1)
{
ip4_addr_t localhost;
struct pbuf* p;
LWIP_UNUSED_ARG(_i);
linkoutput_ctr = 0;
test_netif_add();
netif_set_down(netif_get_loopif());
IP4_ADDR(&localhost, 127, 0, 0, 1);
p = pbuf_alloc(PBUF_IP, 10, PBUF_POOL);
if(ip4_output(p, netif_ip4_addr(netif_default), &localhost, 0, 0, IP_PROTO_UDP) != ERR_OK) {
pbuf_free(p);
}
fail_unless(linkoutput_ctr == 0);
}
END_TEST
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START_TEST(test_ip4addr_aton)
{
ip4_addr_t ip_addr;
LWIP_UNUSED_ARG(_i);
fail_unless(ip4addr_aton("192.168.0.1", &ip_addr) == 1);
fail_unless(ip4addr_aton("192.168.0.0001", &ip_addr) == 1);
fail_unless(ip4addr_aton("192.168.0.zzz", &ip_addr) == 0);
fail_unless(ip4addr_aton("192.168.1", &ip_addr) == 1);
fail_unless(ip4addr_aton("192.168.0xd3", &ip_addr) == 1);
fail_unless(ip4addr_aton("192.168.0xz5", &ip_addr) == 0);
fail_unless(ip4addr_aton("192.168.095", &ip_addr) == 0);
}
END_TEST
/* Test for bug #59364 */
START_TEST(test_ip4_icmp_replylen_short)
{
/* IP packet to 192.168.0.1 using proto 0x22 and 1 byte payload */
const u8_t unknown_proto[] = {
0x45, 0x00, 0x00, 0x15, 0xd4, 0x31, 0x00, 0x00, 0xff, 0x22,
0x66, 0x41, 0xc0, 0xa8, 0x00, 0x02, 0xc0, 0xa8, 0x00, 0x01,
0xaa };
struct pbuf *p;
const int icmp_len = IP_HLEN + sizeof(struct icmp_hdr);
LWIP_UNUSED_ARG(_i);
linkoutput_ctr = 0;
test_netif_add();
test_netif.output = arpless_output;
p = pbuf_alloc(PBUF_IP, sizeof(unknown_proto), PBUF_RAM);
pbuf_take(p, unknown_proto, sizeof(unknown_proto));
fail_unless(ip4_input(p, &test_netif) == ERR_OK);
fail_unless(linkoutput_ctr == 1);
/* Verify outgoing ICMP packet has no extra data */
fail_unless(linkoutput_pkt_len == icmp_len + sizeof(unknown_proto));
fail_if(memcmp(&linkoutput_pkt[icmp_len], unknown_proto, sizeof(unknown_proto)));
}
END_TEST
START_TEST(test_ip4_icmp_replylen_first_8)
{
/* IP packet to 192.168.0.1 using proto 0x22 and 11 bytes payload */
const u8_t unknown_proto[] = {
0x45, 0x00, 0x00, 0x1f, 0xd4, 0x31, 0x00, 0x00, 0xff, 0x22,
0x66, 0x37, 0xc0, 0xa8, 0x00, 0x02, 0xc0, 0xa8, 0x00, 0x01,
0xa0, 0xa1, 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7, 0xa8, 0xa9,
0xaa };
struct pbuf *p;
const int icmp_len = IP_HLEN + sizeof(struct icmp_hdr);
const int unreach_len = IP_HLEN + 8;
LWIP_UNUSED_ARG(_i);
linkoutput_ctr = 0;
test_netif_add();
test_netif.output = arpless_output;
p = pbuf_alloc(PBUF_IP, sizeof(unknown_proto), PBUF_RAM);
pbuf_take(p, unknown_proto, sizeof(unknown_proto));
fail_unless(ip4_input(p, &test_netif) == ERR_OK);
fail_unless(linkoutput_ctr == 1);
fail_unless(linkoutput_pkt_len == icmp_len + unreach_len);
fail_if(memcmp(&linkoutput_pkt[icmp_len], unknown_proto, unreach_len));
}
END_TEST
/** Create the suite including all tests for this module */
Suite *
ip4_suite(void)
{
testfunc tests[] = {
TESTFUNC(test_ip4_frag),
TESTFUNC(test_ip4_reass),
TESTFUNC(test_127_0_0_1),
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TESTFUNC(test_ip4addr_aton),
TESTFUNC(test_ip4_icmp_replylen_short),
TESTFUNC(test_ip4_icmp_replylen_first_8),
};
return create_suite("IPv4", tests, sizeof(tests)/sizeof(testfunc), ip4_setup, ip4_teardown);
}