rt-thread/components/net/lwip-1.4.0/test/unit/tcp/test_tcp_oos.c

541 lines
17 KiB
C
Raw Normal View History

#include "test_tcp_oos.h"
#include "lwip/tcp_impl.h"
#include "lwip/stats.h"
#include "tcp_helper.h"
#if !LWIP_STATS || !TCP_STATS || !MEMP_STATS
#error "This tests needs TCP- and MEMP-statistics enabled"
#endif
#if !TCP_QUEUE_OOSEQ
#error "This tests needs TCP_QUEUE_OOSEQ enabled"
#endif
/** CHECK_SEGMENTS_ON_OOSEQ:
* 1: check count, seqno and len of segments on pcb->ooseq (strict)
* 0: only check that bytes are received in correct order (less strict) */
#define CHECK_SEGMENTS_ON_OOSEQ 1
#if CHECK_SEGMENTS_ON_OOSEQ
#define EXPECT_OOSEQ(x) EXPECT(x)
#else
#define EXPECT_OOSEQ(x)
#endif
/* helper functions */
/** Get the numbers of segments on the ooseq list */
static int tcp_oos_count(struct tcp_pcb* pcb)
{
int num = 0;
struct tcp_seg* seg = pcb->ooseq;
while(seg != NULL) {
num++;
seg = seg->next;
}
return num;
}
/** Get the seqno of a segment (by index) on the ooseq list
*
* @param pcb the pcb to check for ooseq segments
* @param seg_index index of the segment on the ooseq list
* @return seqno of the segment
*/
static u32_t
tcp_oos_seg_seqno(struct tcp_pcb* pcb, int seg_index)
{
int num = 0;
struct tcp_seg* seg = pcb->ooseq;
/* then check the actual segment */
while(seg != NULL) {
if(num == seg_index) {
return seg->tcphdr->seqno;
}
num++;
seg = seg->next;
}
fail();
return 0;
}
/** Get the tcplen (datalen + SYN/FIN) of a segment (by index) on the ooseq list
*
* @param pcb the pcb to check for ooseq segments
* @param seg_index index of the segment on the ooseq list
* @return tcplen of the segment
*/
static int
tcp_oos_seg_tcplen(struct tcp_pcb* pcb, int seg_index)
{
int num = 0;
struct tcp_seg* seg = pcb->ooseq;
/* then check the actual segment */
while(seg != NULL) {
if(num == seg_index) {
return TCP_TCPLEN(seg);
}
num++;
seg = seg->next;
}
fail();
return -1;
}
/** Get the tcplen (datalen + SYN/FIN) of all segments on the ooseq list
*
* @param pcb the pcb to check for ooseq segments
* @return tcplen of all segment
*/
static int
tcp_oos_tcplen(struct tcp_pcb* pcb)
{
int len = 0;
struct tcp_seg* seg = pcb->ooseq;
/* then check the actual segment */
while(seg != NULL) {
len += TCP_TCPLEN(seg);
seg = seg->next;
}
return len;
}
/* Setup/teardown functions */
static void
tcp_oos_setup(void)
{
tcp_remove_all();
}
static void
tcp_oos_teardown(void)
{
tcp_remove_all();
}
/* Test functions */
/** create multiple segments and pass them to tcp_input in a wrong
* order to see if ooseq-caching works correctly
* FIN is received in out-of-sequence segments only */
START_TEST(test_tcp_recv_ooseq_FIN_OOSEQ)
{
struct test_tcp_counters counters;
struct tcp_pcb* pcb;
struct pbuf *p_8_9, *p_4_8, *p_4_10, *p_2_14, *p_fin, *pinseq;
char data[] = {
1, 2, 3, 4,
5, 6, 7, 8,
9, 10, 11, 12,
13, 14, 15, 16};
ip_addr_t remote_ip, local_ip;
u16_t data_len;
u16_t remote_port = 0x100, local_port = 0x101;
struct netif netif;
LWIP_UNUSED_ARG(_i);
/* initialize local vars */
memset(&netif, 0, sizeof(netif));
IP4_ADDR(&local_ip, 192, 168, 1, 1);
IP4_ADDR(&remote_ip, 192, 168, 1, 2);
data_len = sizeof(data);
/* initialize counter struct */
memset(&counters, 0, sizeof(counters));
counters.expected_data_len = data_len;
counters.expected_data = data;
/* create and initialize the pcb */
pcb = test_tcp_new_counters_pcb(&counters);
EXPECT_RET(pcb != NULL);
tcp_set_state(pcb, ESTABLISHED, &local_ip, &remote_ip, local_port, remote_port);
/* create segments */
/* pinseq is sent as last segment! */
pinseq = tcp_create_rx_segment(pcb, &data[0], 4, 0, 0, TCP_ACK);
/* p1: 8 bytes before FIN */
/* seqno: 8..16 */
p_8_9 = tcp_create_rx_segment(pcb, &data[8], 8, 8, 0, TCP_ACK|TCP_FIN);
/* p2: 4 bytes before p1, including the first 4 bytes of p1 (partly duplicate) */
/* seqno: 4..11 */
p_4_8 = tcp_create_rx_segment(pcb, &data[4], 8, 4, 0, TCP_ACK);
/* p3: same as p2 but 2 bytes longer */
/* seqno: 4..13 */
p_4_10 = tcp_create_rx_segment(pcb, &data[4], 10, 4, 0, TCP_ACK);
/* p4: 14 bytes before FIN, includes data from p1 and p2, plus partly from pinseq */
/* seqno: 2..15 */
p_2_14 = tcp_create_rx_segment(pcb, &data[2], 14, 2, 0, TCP_ACK);
/* FIN, seqno 16 */
p_fin = tcp_create_rx_segment(pcb, NULL, 0,16, 0, TCP_ACK|TCP_FIN);
EXPECT(pinseq != NULL);
EXPECT(p_8_9 != NULL);
EXPECT(p_4_8 != NULL);
EXPECT(p_4_10 != NULL);
EXPECT(p_2_14 != NULL);
EXPECT(p_fin != NULL);
if ((pinseq != NULL) && (p_8_9 != NULL) && (p_4_8 != NULL) && (p_4_10 != NULL) && (p_2_14 != NULL) && (p_fin != NULL)) {
/* pass the segment to tcp_input */
test_tcp_input(p_8_9, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 8);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 9); /* includes FIN */
/* pass the segment to tcp_input */
test_tcp_input(p_4_8, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 4);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 4);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 1) == 8);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 1) == 9); /* includes FIN */
/* pass the segment to tcp_input */
test_tcp_input(p_4_10, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* ooseq queue: unchanged */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 4);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 4);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 1) == 8);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 1) == 9); /* includes FIN */
/* pass the segment to tcp_input */
test_tcp_input(p_2_14, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 2);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 15); /* includes FIN */
/* pass the segment to tcp_input */
test_tcp_input(p_fin, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* ooseq queue: unchanged */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 2);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 15); /* includes FIN */
/* pass the segment to tcp_input */
test_tcp_input(pinseq, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 1);
EXPECT(counters.recv_calls == 1);
EXPECT(counters.recved_bytes == data_len);
EXPECT(counters.err_calls == 0);
EXPECT(pcb->ooseq == NULL);
}
/* make sure the pcb is freed */
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
END_TEST
/** create multiple segments and pass them to tcp_input in a wrong
* order to see if ooseq-caching works correctly
* FIN is received IN-SEQUENCE at the end */
START_TEST(test_tcp_recv_ooseq_FIN_INSEQ)
{
struct test_tcp_counters counters;
struct tcp_pcb* pcb;
struct pbuf *p_1_2, *p_4_8, *p_3_11, *p_2_12, *p_15_1, *p_15_1a, *pinseq, *pinseqFIN;
char data[] = {
1, 2, 3, 4,
5, 6, 7, 8,
9, 10, 11, 12,
13, 14, 15, 16};
ip_addr_t remote_ip, local_ip;
u16_t data_len;
u16_t remote_port = 0x100, local_port = 0x101;
struct netif netif;
LWIP_UNUSED_ARG(_i);
/* initialize local vars */
memset(&netif, 0, sizeof(netif));
IP4_ADDR(&local_ip, 192, 168, 1, 1);
IP4_ADDR(&remote_ip, 192, 168, 1, 2);
data_len = sizeof(data);
/* initialize counter struct */
memset(&counters, 0, sizeof(counters));
counters.expected_data_len = data_len;
counters.expected_data = data;
/* create and initialize the pcb */
pcb = test_tcp_new_counters_pcb(&counters);
EXPECT_RET(pcb != NULL);
tcp_set_state(pcb, ESTABLISHED, &local_ip, &remote_ip, local_port, remote_port);
/* create segments */
/* p1: 7 bytes - 2 before FIN */
/* seqno: 1..2 */
p_1_2 = tcp_create_rx_segment(pcb, &data[1], 2, 1, 0, TCP_ACK);
/* p2: 4 bytes before p1, including the first 4 bytes of p1 (partly duplicate) */
/* seqno: 4..11 */
p_4_8 = tcp_create_rx_segment(pcb, &data[4], 8, 4, 0, TCP_ACK);
/* p3: same as p2 but 2 bytes longer and one byte more at the front */
/* seqno: 3..13 */
p_3_11 = tcp_create_rx_segment(pcb, &data[3], 11, 3, 0, TCP_ACK);
/* p4: 13 bytes - 2 before FIN - should be ignored as contained in p1 and p3 */
/* seqno: 2..13 */
p_2_12 = tcp_create_rx_segment(pcb, &data[2], 12, 2, 0, TCP_ACK);
/* pinseq is the first segment that is held back to create ooseq! */
/* seqno: 0..3 */
pinseq = tcp_create_rx_segment(pcb, &data[0], 4, 0, 0, TCP_ACK);
/* p5: last byte before FIN */
/* seqno: 15 */
p_15_1 = tcp_create_rx_segment(pcb, &data[15], 1, 15, 0, TCP_ACK);
/* p6: same as p5, should be ignored */
p_15_1a= tcp_create_rx_segment(pcb, &data[15], 1, 15, 0, TCP_ACK);
/* pinseqFIN: last 2 bytes plus FIN */
/* only segment containing seqno 14 and FIN */
pinseqFIN = tcp_create_rx_segment(pcb, &data[14], 2, 14, 0, TCP_ACK|TCP_FIN);
EXPECT(pinseq != NULL);
EXPECT(p_1_2 != NULL);
EXPECT(p_4_8 != NULL);
EXPECT(p_3_11 != NULL);
EXPECT(p_2_12 != NULL);
EXPECT(p_15_1 != NULL);
EXPECT(p_15_1a != NULL);
EXPECT(pinseqFIN != NULL);
if ((pinseq != NULL) && (p_1_2 != NULL) && (p_4_8 != NULL) && (p_3_11 != NULL) && (p_2_12 != NULL)
&& (p_15_1 != NULL) && (p_15_1a != NULL) && (pinseqFIN != NULL)) {
/* pass the segment to tcp_input */
test_tcp_input(p_1_2, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 1);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 2);
/* pass the segment to tcp_input */
test_tcp_input(p_4_8, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 1);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 1) == 4);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 1) == 8);
/* pass the segment to tcp_input */
test_tcp_input(p_3_11, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 1);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 2);
/* p_3_11 has removed p_4_8 from ooseq */
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 1) == 3);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 1) == 11);
/* pass the segment to tcp_input */
test_tcp_input(p_2_12, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 2);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 1);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 1) == 2);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 1) == 12);
/* pass the segment to tcp_input */
test_tcp_input(pinseq, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 1);
EXPECT(counters.recved_bytes == 14);
EXPECT(counters.err_calls == 0);
EXPECT(pcb->ooseq == NULL);
/* pass the segment to tcp_input */
test_tcp_input(p_15_1, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 1);
EXPECT(counters.recved_bytes == 14);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 15);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 1);
/* pass the segment to tcp_input */
test_tcp_input(p_15_1a, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 1);
EXPECT(counters.recved_bytes == 14);
EXPECT(counters.err_calls == 0);
/* check ooseq queue: unchanged */
EXPECT_OOSEQ(tcp_oos_count(pcb) == 1);
EXPECT_OOSEQ(tcp_oos_seg_seqno(pcb, 0) == 15);
EXPECT_OOSEQ(tcp_oos_seg_tcplen(pcb, 0) == 1);
/* pass the segment to tcp_input */
test_tcp_input(pinseqFIN, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 1);
EXPECT(counters.recv_calls == 2);
EXPECT(counters.recved_bytes == data_len);
EXPECT(counters.err_calls == 0);
EXPECT(pcb->ooseq == NULL);
}
/* make sure the pcb is freed */
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
END_TEST
static char data_full_wnd[TCP_WND];
/** create multiple segments and pass them to tcp_input with the first segment missing
* to simulate overruning the rxwin with ooseq queueing enabled */
START_TEST(test_tcp_recv_ooseq_overrun_rxwin)
{
int i, k;
struct test_tcp_counters counters;
struct tcp_pcb* pcb;
struct pbuf *pinseq, *p_ovr;
ip_addr_t remote_ip, local_ip;
u16_t remote_port = 0x100, local_port = 0x101;
struct netif netif;
int datalen = 0;
int datalen2;
LWIP_UNUSED_ARG(_i);
for(i = 0; i < sizeof(data_full_wnd); i++) {
data_full_wnd[i] = (char)i;
}
/* initialize local vars */
memset(&netif, 0, sizeof(netif));
IP4_ADDR(&local_ip, 192, 168, 1, 1);
IP4_ADDR(&remote_ip, 192, 168, 1, 2);
/* initialize counter struct */
memset(&counters, 0, sizeof(counters));
counters.expected_data_len = TCP_WND;
counters.expected_data = data_full_wnd;
/* create and initialize the pcb */
pcb = test_tcp_new_counters_pcb(&counters);
EXPECT_RET(pcb != NULL);
tcp_set_state(pcb, ESTABLISHED, &local_ip, &remote_ip, local_port, remote_port);
pcb->rcv_nxt = 0x8000;
/* create segments */
/* pinseq is sent as last segment! */
pinseq = tcp_create_rx_segment(pcb, &data_full_wnd[0], TCP_MSS, 0, 0, TCP_ACK);
for(i = TCP_MSS, k = 0; i < TCP_WND; i += TCP_MSS, k++) {
int count, expected_datalen;
struct pbuf *p = tcp_create_rx_segment(pcb, &data_full_wnd[TCP_MSS*(k+1)],
TCP_MSS, TCP_MSS*(k+1), 0, TCP_ACK);
EXPECT(p != NULL);
/* pass the segment to tcp_input */
test_tcp_input(p, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
count = tcp_oos_count(pcb);
EXPECT_OOSEQ(count == k+1);
datalen = tcp_oos_tcplen(pcb);
if (i + TCP_MSS < TCP_WND) {
expected_datalen = (k+1)*TCP_MSS;
} else {
expected_datalen = TCP_WND - TCP_MSS;
}
if (datalen != expected_datalen) {
EXPECT_OOSEQ(datalen == expected_datalen);
}
}
/* pass in one more segment, cleary overrunning the rxwin */
p_ovr = tcp_create_rx_segment(pcb, &data_full_wnd[TCP_MSS*(k+1)], TCP_MSS, TCP_MSS*(k+1), 0, TCP_ACK);
EXPECT(p_ovr != NULL);
/* pass the segment to tcp_input */
test_tcp_input(p_ovr, &netif);
/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 0);
EXPECT(counters.recved_bytes == 0);
EXPECT(counters.err_calls == 0);
/* check ooseq queue */
EXPECT_OOSEQ(tcp_oos_count(pcb) == k);
datalen2 = tcp_oos_tcplen(pcb);
EXPECT_OOSEQ(datalen == datalen2);
/* now pass inseq */
test_tcp_input(pinseq, &netif);
EXPECT(pcb->ooseq == NULL);
/* make sure the pcb is freed */
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
END_TEST
/** Create the suite including all tests for this module */
Suite *
tcp_oos_suite(void)
{
TFun tests[] = {
test_tcp_recv_ooseq_FIN_OOSEQ,
test_tcp_recv_ooseq_FIN_INSEQ,
test_tcp_recv_ooseq_overrun_rxwin,
};
return create_suite("TCP_OOS", tests, sizeof(tests)/sizeof(TFun), tcp_oos_setup, tcp_oos_teardown);
}