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https://github.com/lwip-tcpip/lwip.git
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6fe66771cb
This creates a single version of test IP addresses, netmasks, and ports. All tests were using the same values, but duplicated in each test This also adds const to some functions so we can use a const version of addresses
319 lines
9.8 KiB
C
319 lines
9.8 KiB
C
#include "tcp_helper.h"
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#include "lwip/priv/tcp_priv.h"
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#include "lwip/stats.h"
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#include "lwip/pbuf.h"
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#include "lwip/inet_chksum.h"
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#include "lwip/ip_addr.h"
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#if !LWIP_STATS || !TCP_STATS || !MEMP_STATS
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#error "This tests needs TCP- and MEMP-statistics enabled"
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#endif
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const ip_addr_t test_local_ip = IPADDR4_INIT_BYTES(192, 168, 1, 1);
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const ip_addr_t test_remote_ip = IPADDR4_INIT_BYTES(192, 168, 1, 2);
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const ip_addr_t test_netmask = IPADDR4_INIT_BYTES(255, 255, 255, 0);
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/** Remove all pcbs on the given list. */
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static void
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tcp_remove(struct tcp_pcb* pcb_list)
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{
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struct tcp_pcb *pcb = pcb_list;
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struct tcp_pcb *pcb2;
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while(pcb != NULL) {
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pcb2 = pcb;
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pcb = pcb->next;
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tcp_abort(pcb2);
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}
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}
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/** Remove all pcbs on listen-, active- and time-wait-list (bound- isn't exported). */
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void
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tcp_remove_all(void)
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{
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tcp_remove(tcp_listen_pcbs.pcbs);
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tcp_remove(tcp_active_pcbs);
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tcp_remove(tcp_tw_pcbs);
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fail_unless(MEMP_STATS_GET(used, MEMP_TCP_PCB) == 0);
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fail_unless(MEMP_STATS_GET(used, MEMP_TCP_PCB_LISTEN) == 0);
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fail_unless(MEMP_STATS_GET(used, MEMP_TCP_SEG) == 0);
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fail_unless(MEMP_STATS_GET(used, MEMP_PBUF_POOL) == 0);
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}
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/** Create a TCP segment usable for passing to tcp_input */
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static struct pbuf*
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tcp_create_segment_wnd(ip_addr_t* src_ip, ip_addr_t* dst_ip,
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u16_t src_port, u16_t dst_port, void* data, size_t data_len,
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u32_t seqno, u32_t ackno, u8_t headerflags, u16_t wnd)
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{
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struct pbuf *p, *q;
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struct ip_hdr* iphdr;
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struct tcp_hdr* tcphdr;
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u16_t pbuf_len = (u16_t)(sizeof(struct ip_hdr) + sizeof(struct tcp_hdr) + data_len);
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LWIP_ASSERT("data_len too big", data_len <= 0xFFFF);
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p = pbuf_alloc(PBUF_RAW, pbuf_len, PBUF_POOL);
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EXPECT_RETNULL(p != NULL);
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/* first pbuf must be big enough to hold the headers */
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EXPECT_RETNULL(p->len >= (sizeof(struct ip_hdr) + sizeof(struct tcp_hdr)));
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if (data_len > 0) {
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/* first pbuf must be big enough to hold at least 1 data byte, too */
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EXPECT_RETNULL(p->len > (sizeof(struct ip_hdr) + sizeof(struct tcp_hdr)));
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}
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for(q = p; q != NULL; q = q->next) {
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memset(q->payload, 0, q->len);
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}
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iphdr = (struct ip_hdr*)p->payload;
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/* fill IP header */
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iphdr->dest.addr = ip_2_ip4(dst_ip)->addr;
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iphdr->src.addr = ip_2_ip4(src_ip)->addr;
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IPH_VHL_SET(iphdr, 4, IP_HLEN / 4);
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IPH_TOS_SET(iphdr, 0);
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IPH_LEN_SET(iphdr, htons(p->tot_len));
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IPH_CHKSUM_SET(iphdr, inet_chksum(iphdr, IP_HLEN));
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/* let p point to TCP header */
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pbuf_header(p, -(s16_t)sizeof(struct ip_hdr));
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tcphdr = (struct tcp_hdr*)p->payload;
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tcphdr->src = htons(src_port);
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tcphdr->dest = htons(dst_port);
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tcphdr->seqno = htonl(seqno);
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tcphdr->ackno = htonl(ackno);
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TCPH_HDRLEN_SET(tcphdr, sizeof(struct tcp_hdr)/4);
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TCPH_FLAGS_SET(tcphdr, headerflags);
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tcphdr->wnd = htons(wnd);
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if (data_len > 0) {
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/* let p point to TCP data */
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pbuf_header(p, -(s16_t)sizeof(struct tcp_hdr));
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/* copy data */
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pbuf_take(p, data, (u16_t)data_len);
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/* let p point to TCP header again */
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pbuf_header(p, sizeof(struct tcp_hdr));
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}
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/* calculate checksum */
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tcphdr->chksum = ip_chksum_pseudo(p,
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IP_PROTO_TCP, p->tot_len, src_ip, dst_ip);
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pbuf_header(p, sizeof(struct ip_hdr));
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return p;
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}
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/** Create a TCP segment usable for passing to tcp_input */
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struct pbuf*
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tcp_create_segment(ip_addr_t* src_ip, ip_addr_t* dst_ip,
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u16_t src_port, u16_t dst_port, void* data, size_t data_len,
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u32_t seqno, u32_t ackno, u8_t headerflags)
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{
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return tcp_create_segment_wnd(src_ip, dst_ip, src_port, dst_port, data,
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data_len, seqno, ackno, headerflags, TCP_WND);
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}
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/** Create a TCP segment usable for passing to tcp_input
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* - IP-addresses, ports, seqno and ackno are taken from pcb
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* - seqno and ackno can be altered with an offset
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*/
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struct pbuf*
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tcp_create_rx_segment(struct tcp_pcb* pcb, void* data, size_t data_len, u32_t seqno_offset,
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u32_t ackno_offset, u8_t headerflags)
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{
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return tcp_create_segment(&pcb->remote_ip, &pcb->local_ip, pcb->remote_port, pcb->local_port,
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data, data_len, pcb->rcv_nxt + seqno_offset, pcb->lastack + ackno_offset, headerflags);
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}
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/** Create a TCP segment usable for passing to tcp_input
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* - IP-addresses, ports, seqno and ackno are taken from pcb
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* - seqno and ackno can be altered with an offset
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* - TCP window can be adjusted
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*/
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struct pbuf* tcp_create_rx_segment_wnd(struct tcp_pcb* pcb, void* data, size_t data_len,
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u32_t seqno_offset, u32_t ackno_offset, u8_t headerflags, u16_t wnd)
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{
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return tcp_create_segment_wnd(&pcb->remote_ip, &pcb->local_ip, pcb->remote_port, pcb->local_port,
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data, data_len, pcb->rcv_nxt + seqno_offset, pcb->lastack + ackno_offset, headerflags, wnd);
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}
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/** Safely bring a tcp_pcb into the requested state */
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void
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tcp_set_state(struct tcp_pcb* pcb, enum tcp_state state, const ip_addr_t* local_ip,
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const ip_addr_t* remote_ip, u16_t local_port, u16_t remote_port)
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{
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u32_t iss;
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/* @todo: are these all states? */
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/* @todo: remove from previous list */
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pcb->state = state;
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iss = tcp_next_iss(pcb);
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pcb->snd_wl2 = iss;
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pcb->snd_nxt = iss;
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pcb->lastack = iss;
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pcb->snd_lbb = iss;
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if (state == ESTABLISHED) {
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TCP_REG(&tcp_active_pcbs, pcb);
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ip_addr_copy(pcb->local_ip, *local_ip);
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pcb->local_port = local_port;
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ip_addr_copy(pcb->remote_ip, *remote_ip);
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pcb->remote_port = remote_port;
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} else if(state == LISTEN) {
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TCP_REG(&tcp_listen_pcbs.pcbs, pcb);
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ip_addr_copy(pcb->local_ip, *local_ip);
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pcb->local_port = local_port;
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} else if(state == TIME_WAIT) {
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TCP_REG(&tcp_tw_pcbs, pcb);
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ip_addr_copy(pcb->local_ip, *local_ip);
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pcb->local_port = local_port;
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ip_addr_copy(pcb->remote_ip, *remote_ip);
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pcb->remote_port = remote_port;
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} else {
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fail();
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}
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}
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void
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test_tcp_counters_err(void* arg, err_t err)
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{
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struct test_tcp_counters* counters = (struct test_tcp_counters*)arg;
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EXPECT_RET(arg != NULL);
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counters->err_calls++;
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counters->last_err = err;
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}
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static void
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test_tcp_counters_check_rxdata(struct test_tcp_counters* counters, struct pbuf* p)
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{
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struct pbuf* q;
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u32_t i, received;
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if(counters->expected_data == NULL) {
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/* no data to compare */
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return;
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}
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EXPECT_RET(counters->recved_bytes + p->tot_len <= counters->expected_data_len);
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received = counters->recved_bytes;
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for(q = p; q != NULL; q = q->next) {
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char *data = (char*)q->payload;
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for(i = 0; i < q->len; i++) {
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EXPECT_RET(data[i] == counters->expected_data[received]);
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received++;
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}
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}
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EXPECT(received == counters->recved_bytes + p->tot_len);
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}
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err_t
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test_tcp_counters_recv(void* arg, struct tcp_pcb* pcb, struct pbuf* p, err_t err)
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{
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struct test_tcp_counters* counters = (struct test_tcp_counters*)arg;
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EXPECT_RETX(arg != NULL, ERR_OK);
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EXPECT_RETX(pcb != NULL, ERR_OK);
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EXPECT_RETX(err == ERR_OK, ERR_OK);
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if (p != NULL) {
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if (counters->close_calls == 0) {
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counters->recv_calls++;
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test_tcp_counters_check_rxdata(counters, p);
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counters->recved_bytes += p->tot_len;
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} else {
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counters->recv_calls_after_close++;
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counters->recved_bytes_after_close += p->tot_len;
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}
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pbuf_free(p);
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} else {
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counters->close_calls++;
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}
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EXPECT(counters->recv_calls_after_close == 0 && counters->recved_bytes_after_close == 0);
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return ERR_OK;
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}
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/** Allocate a pcb and set up the test_tcp_counters_* callbacks */
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struct tcp_pcb*
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test_tcp_new_counters_pcb(struct test_tcp_counters* counters)
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{
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struct tcp_pcb* pcb = tcp_new();
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if (pcb != NULL) {
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/* set up args and callbacks */
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tcp_arg(pcb, counters);
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tcp_recv(pcb, test_tcp_counters_recv);
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tcp_err(pcb, test_tcp_counters_err);
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pcb->snd_wnd = TCP_WND;
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pcb->snd_wnd_max = TCP_WND;
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}
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return pcb;
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}
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/** Calls tcp_input() after adjusting current_iphdr_dest */
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void test_tcp_input(struct pbuf *p, struct netif *inp)
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{
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struct ip_hdr *iphdr = (struct ip_hdr*)p->payload;
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/* these lines are a hack, don't use them as an example :-) */
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ip_addr_copy_from_ip4(*ip_current_dest_addr(), iphdr->dest);
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ip_addr_copy_from_ip4(*ip_current_src_addr(), iphdr->src);
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ip_current_netif() = inp;
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ip_data.current_ip4_header = iphdr;
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/* since adding IPv6, p->payload must point to tcp header, not ip header */
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pbuf_header(p, -(s16_t)sizeof(struct ip_hdr));
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tcp_input(p, inp);
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ip_addr_set_zero(ip_current_dest_addr());
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ip_addr_set_zero(ip_current_src_addr());
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ip_current_netif() = NULL;
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ip_data.current_ip4_header = NULL;
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}
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static err_t test_tcp_netif_output(struct netif *netif, struct pbuf *p,
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const ip4_addr_t *ipaddr)
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{
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struct test_tcp_txcounters *txcounters = (struct test_tcp_txcounters*)netif->state;
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LWIP_UNUSED_ARG(ipaddr);
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if (txcounters != NULL)
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{
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txcounters->num_tx_calls++;
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txcounters->num_tx_bytes += p->tot_len;
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if (txcounters->copy_tx_packets) {
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struct pbuf *p_copy = pbuf_alloc(PBUF_LINK, p->tot_len, PBUF_RAM);
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err_t err;
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EXPECT(p_copy != NULL);
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err = pbuf_copy(p_copy, p);
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EXPECT(err == ERR_OK);
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if (txcounters->tx_packets == NULL) {
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txcounters->tx_packets = p_copy;
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} else {
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pbuf_cat(txcounters->tx_packets, p_copy);
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}
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}
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}
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return ERR_OK;
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}
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void test_tcp_init_netif(struct netif *netif, struct test_tcp_txcounters *txcounters,
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const ip_addr_t *ip_addr, const ip_addr_t *netmask)
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{
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struct netif *n;
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memset(netif, 0, sizeof(struct netif));
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if (txcounters != NULL) {
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memset(txcounters, 0, sizeof(struct test_tcp_txcounters));
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netif->state = txcounters;
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}
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netif->output = test_tcp_netif_output;
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netif->flags |= NETIF_FLAG_UP | NETIF_FLAG_LINK_UP;
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ip_addr_copy_from_ip4(netif->netmask, *ip_2_ip4(netmask));
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ip_addr_copy_from_ip4(netif->ip_addr, *ip_2_ip4(ip_addr));
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for (n = netif_list; n != NULL; n = n->next) {
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if (n == netif) {
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return;
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}
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}
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netif->next = NULL;
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netif_list = netif;
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}
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