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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 | /* main.c - Application main entry point */ /* * Copyright (c) 2016 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include <logging/log.h> LOG_MODULE_REGISTER(net_test, CONFIG_NET_TCP_LOG_LEVEL); #include <zephyr.h> #include <zephyr/types.h> #include <stddef.h> #include <string.h> #include <stdio.h> #include <errno.h> #include <device.h> #include <init.h> #include <sys/printk.h> #include <net/buf.h> #include <net/net_core.h> #include <net/net_pkt.h> #include <net/net_ip.h> #include <net/dummy.h> #include <tc_util.h> #if defined(CONFIG_NET_TCP_LOG_LEVEL_DBG) #define DBG(fmt, ...) printk(fmt, ##__VA_ARGS__) #define NET_LOG_ENABLED 1 #else #define DBG(fmt, ...) #endif #include "tcp_internal.h" #include "net_private.h" #include "ipv6.h" #include "ipv4.h" static bool test_failed; static bool fail = true; static struct k_sem recv_lock; static struct net_context *v6_ctx; static struct net_context *reply_v6_ctx; static struct net_context *v4_ctx; static struct net_context *reply_v4_ctx; static struct sockaddr_in6 any_addr6; static const struct in6_addr sin6_addr_any = IN6ADDR_ANY_INIT; static struct sockaddr_in any_addr4; static const struct in_addr sin_addr_any = INADDR_ANY_INIT; static struct in6_addr my_v6_inaddr = { { { 0x20, 0x01, 0x0d, 0xb8, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2a } } }; static struct in6_addr peer_v6_inaddr = { { { 0x20, 0x01, 0x0d, 0xb8, 0, 0, 0, 0, 0, 0, 0, 0x4e, 0x11, 0, 0, 0xa2 } } }; static struct sockaddr_in6 my_v6_addr; static struct sockaddr_in6 peer_v6_addr; static struct in_addr my_v4_inaddr = { { { 192, 0, 2, 150 } } }; static struct in_addr peer_v4_inaddr = { { { 192, 0, 2, 250 } } }; static struct sockaddr_in my_v4_addr; static struct sockaddr_in peer_v4_addr; static struct net_if *my_iface; static struct net_if *peer_iface; #define MY_TCP_PORT 5545 #define PEER_TCP_PORT 9876 #define WAIT_TIME 250 #define WAIT_TIME_LONG MSEC_PER_SEC static struct k_sem wait_connect; #if 0 static struct k_sem wait_in_accept; static bool connect_cb_called; static int accept_cb_called; #endif static bool syn_v6_sent; struct net_tcp_context { }; int net_tcp_dev_init(struct device *dev) { return 0; } static void net_tcp_iface_init(struct net_if *iface) { static u8_t mac_addr_1[6]; static u8_t mac_addr_2[6]; if (mac_addr_1[0] == 0U) { /* 00-00-5E-00-53-xx Documentation RFC 7042 */ mac_addr_1[0] = 0x00; mac_addr_1[1] = 0x00; mac_addr_1[2] = 0x5E; mac_addr_1[3] = 0x00; mac_addr_1[4] = 0x53; mac_addr_1[5] = 0x01; net_if_set_link_addr(iface, mac_addr_1, 6, NET_LINK_ETHERNET); } if (mac_addr_2[0] == 0U) { mac_addr_2[0] = 0x00; mac_addr_2[1] = 0x00; mac_addr_2[2] = 0x5E; mac_addr_2[3] = 0x00; mac_addr_2[4] = 0x53; mac_addr_2[5] = 0x02; net_if_set_link_addr(iface, mac_addr_2, 6, NET_LINK_ETHERNET); } return; } struct net_tcp_hdr *net_tcp_get_hdr(struct net_pkt *pkt, struct net_tcp_hdr *hdr) { NET_PKT_DATA_ACCESS_CONTIGUOUS_DEFINE(tcp_access, struct net_tcp_hdr); struct net_pkt_cursor backup; struct net_tcp_hdr *tcp_hdr; bool overwrite; tcp_access.data = hdr; overwrite = net_pkt_is_being_overwritten(pkt); net_pkt_set_overwrite(pkt, true); net_pkt_cursor_backup(pkt, &backup); net_pkt_cursor_init(pkt); if (net_pkt_skip(pkt, net_pkt_ip_hdr_len(pkt) + net_pkt_ipv6_ext_len(pkt))) { tcp_hdr = NULL; goto out; } tcp_hdr = (struct net_tcp_hdr *)net_pkt_get_data(pkt, &tcp_access); out: net_pkt_cursor_restore(pkt, &backup); net_pkt_set_overwrite(pkt, overwrite); return tcp_hdr; } struct net_tcp_hdr *net_tcp_set_hdr(struct net_pkt *pkt, struct net_tcp_hdr *hdr) { NET_PKT_DATA_ACCESS_DEFINE(tcp_access, struct net_tcp_hdr); struct net_pkt_cursor backup; struct net_tcp_hdr *tcp_hdr; bool overwrite; overwrite = net_pkt_is_being_overwritten(pkt); net_pkt_set_overwrite(pkt, true); net_pkt_cursor_backup(pkt, &backup); net_pkt_cursor_init(pkt); if (net_pkt_skip(pkt, net_pkt_ip_hdr_len(pkt) + net_pkt_ipv6_ext_len(pkt))) { tcp_hdr = NULL; goto out; } tcp_hdr = (struct net_tcp_hdr *)net_pkt_get_data(pkt, &tcp_access); if (!tcp_hdr) { goto out; } memcpy(tcp_hdr, hdr, sizeof(struct net_tcp_hdr)); net_pkt_set_data(pkt, &tcp_access); out: net_pkt_cursor_restore(pkt, &backup); net_pkt_set_overwrite(pkt, overwrite); return tcp_hdr == NULL ? NULL : hdr; } static void v6_send_syn_ack(struct net_pkt *req) { struct net_if *iface = net_pkt_iface(req); struct net_pkt *rsp = NULL; struct net_tcp_hdr *tcp_rsp, *tcp_req; int ret; ret = net_tcp_prepare_segment(reply_v6_ctx->tcp, NET_TCP_SYN | NET_TCP_ACK, NULL, 0, NULL, (struct sockaddr *)&my_v6_addr, &rsp); if (ret) { DBG("TCP packet creation failed\n"); return; } tcp_rsp = net_tcp_get_hdr(rsp, NULL); tcp_req = net_tcp_get_hdr(req, NULL); DBG("1) rsp src %s/%d\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(rsp)->src), ntohs(tcp_rsp->src_port)); DBG("1) rsp dst %s/%d\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(rsp)->dst), ntohs(tcp_rsp->dst_port)); net_ipaddr_copy(&NET_IPV6_HDR(rsp)->src, &NET_IPV6_HDR(req)->dst); net_ipaddr_copy(&NET_IPV6_HDR(rsp)->dst, &NET_IPV6_HDR(req)->src); tcp_rsp->src_port = tcp_req->dst_port; tcp_rsp->dst_port = tcp_req->src_port; DBG("rsp src %s/%d\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(rsp)->src), ntohs(tcp_rsp->src_port)); DBG("rsp dst %s/%d\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(rsp)->dst), ntohs(tcp_rsp->dst_port)); net_pkt_hexdump(req, "request TCPv6"); net_pkt_hexdump(rsp, "reply TCPv6"); ret = net_recv_data(iface, rsp); if (!ret) { net_pkt_unref(rsp); } k_sem_give(&wait_connect); } static int send_status = -EINVAL; static int tester_send(struct device *dev, struct net_pkt *pkt) { if (!pkt->buffer) { DBG("No data to send!\n"); return -ENODATA; } if (syn_v6_sent && net_pkt_family(pkt) == AF_INET6) { DBG("v6 SYN was sent successfully\n"); syn_v6_sent = false; v6_send_syn_ack(pkt); } send_status = 0; return 0; } static int tester_send_peer(struct device *dev, struct net_pkt *pkt) { if (!pkt->buffer) { DBG("No data to send!\n"); return -ENODATA; } DBG("Peer data was sent successfully\n"); return 0; } static inline struct in_addr *if_get_addr(struct net_if *iface) { int i; for (i = 0; i < NET_IF_MAX_IPV4_ADDR; i++) { if (iface->config.ip.ipv4->unicast[i].is_used && iface->config.ip.ipv4->unicast[i].address.family == AF_INET && iface->config.ip.ipv4->unicast[i].addr_state == NET_ADDR_PREFERRED) { return &iface->config.ip.ipv4->unicast[i].address.in_addr; } } return NULL; } struct ud { const struct sockaddr *remote_addr; const struct sockaddr *local_addr; u16_t remote_port; u16_t local_port; char *test; struct net_conn_handle *handle; }; static struct ud *returned_ud; static enum net_verdict test_ok(struct net_conn *conn, struct net_pkt *pkt, union net_ip_header *ip_hdr, union net_proto_header *proto_hdr, void *user_data) { struct ud *ud = (struct ud *)user_data; k_sem_give(&recv_lock); if (!ud) { fail = true; DBG("Test failed.\n"); return NET_DROP; } fail = false; returned_ud = user_data; net_pkt_unref(pkt); return NET_OK; } static enum net_verdict test_fail(struct net_conn *conn, struct net_pkt *pkt, union net_ip_header *ip_hdr, union net_proto_header *proto_hdr, void *user_data) { /* This function should never be called as there should not * be a matching TCP connection. */ fail = true; return NET_DROP; } static u8_t data[] = { 'f', 'o', 'o', 'b', 'a', 'r' }; static struct net_pkt *setup_ipv6_tcp(struct net_if *iface, struct in6_addr *remote_addr, struct in6_addr *local_addr, u16_t remote_port, u16_t local_port) { struct net_pkt *pkt; struct net_tcp_hdr tcp_hdr; pkt = net_pkt_alloc_with_buffer(iface, sizeof(data), AF_INET6, IPPROTO_TCP, K_FOREVER); if (!pkt) { return NULL; } net_ipv6_create(pkt, remote_addr, local_addr); tcp_hdr.src_port = htons(remote_port); tcp_hdr.dst_port = htons(local_port); net_pkt_write(pkt, &tcp_hdr, sizeof(struct net_tcp_hdr)); net_pkt_write(pkt, data, sizeof(data)); net_pkt_cursor_init(pkt); net_ipv6_finalize(pkt, IPPROTO_TCP); return pkt; } static struct net_pkt *setup_ipv4_tcp(struct net_if *iface, struct in_addr *remote_addr, struct in_addr *local_addr, u16_t remote_port, u16_t local_port) { struct net_pkt *pkt; struct net_tcp_hdr tcp_hdr; pkt = net_pkt_alloc_with_buffer(iface, sizeof(data), AF_INET, IPPROTO_TCP, K_FOREVER); if (!pkt) { return NULL; } net_ipv4_create(pkt, remote_addr, local_addr); tcp_hdr.src_port = htons(remote_port); tcp_hdr.dst_port = htons(local_port); net_pkt_write(pkt, &tcp_hdr, sizeof(struct net_tcp_hdr)); net_pkt_write(pkt, data, sizeof(data)); net_pkt_cursor_init(pkt); net_ipv4_finalize(pkt, IPPROTO_TCP); return pkt; } u8_t ipv6_hop_by_hop_ext_hdr[] = { /* Next header TCP */ 0x06, /* Length (multiple of 8 octets) */ 0x08, /* Experimental extension */ 0x3e, /* Length in bytes */ 0x20, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49, 0x4A, 0x4B, 0x4C, 0x4E, 0x4F, 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x5F, 0x60, 0x61, 0x62, /* Another experimental extension */ 0x3e, /* Length in bytes */ 0x20, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69, 0x6A, 0x6B, 0x6C, 0x6D, 0x6F, 0x70, 0x71, 0x72, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x79, 0x7A, 0x7B, 0x7C, 0x7D, 0x7E, 0x21, 0x22, 0x23, 0x24, 0x25, /* Padding */ 0x00, /* Padding */ 0x00, }; static struct net_pkt *setup_ipv6_tcp_long(struct net_if *iface, struct in6_addr *remote_addr, struct in6_addr *local_addr, u16_t remote_port, u16_t local_port) { struct net_pkt *pkt; struct net_tcp_hdr tcp_hdr; pkt = net_pkt_alloc_with_buffer(iface, sizeof(ipv6_hop_by_hop_ext_hdr) + sizeof(data), AF_INET6, IPPROTO_TCP, K_FOREVER); if (!pkt) { return NULL; } net_pkt_set_ipv6_hop_limit(pkt, 255); net_ipv6_create(pkt, remote_addr, local_addr); net_pkt_write(pkt, ipv6_hop_by_hop_ext_hdr, sizeof(ipv6_hop_by_hop_ext_hdr)); net_pkt_set_ipv6_ext_len(pkt, sizeof(ipv6_hop_by_hop_ext_hdr)); tcp_hdr.src_port = htons(remote_port); tcp_hdr.dst_port = htons(local_port); net_pkt_write(pkt, &tcp_hdr, sizeof(struct net_tcp_hdr)); net_pkt_write(pkt, data, sizeof(data)); net_pkt_set_ipv6_next_hdr(pkt, 0); /* hop-by-hop option */ net_pkt_cursor_init(pkt); net_ipv6_finalize(pkt, IPPROTO_TCP); return pkt; } #define TIMEOUT K_MSEC(200) static bool send_ipv6_tcp_msg(struct net_if *iface, struct in6_addr *src, struct in6_addr *dst, u16_t src_port, u16_t dst_port, struct ud *ud, bool expect_failure) { struct net_pkt *pkt; int ret; pkt = setup_ipv6_tcp(iface, src, dst, src_port, dst_port); ret = net_recv_data(iface, pkt); if (ret < 0) { DBG("Cannot recv pkt %p, ret %d\n", pkt, ret); return false; } if (k_sem_take(&recv_lock, TIMEOUT)) { if (expect_failure) { return true; } else { DBG("Timeout, packet not received\n"); return false; } } /* Check that the returned user data is the same as what was given * as a parameter. */ if (ud != returned_ud && !expect_failure) { DBG("IPv6 wrong user data %p returned, expected %p\n", returned_ud, ud); return false; } return !fail; } static bool send_ipv4_tcp_msg(struct net_if *iface, struct in_addr *src, struct in_addr *dst, u16_t src_port, u16_t dst_port, struct ud *ud, bool expect_failure) { struct net_pkt *pkt; int ret; pkt = setup_ipv4_tcp(iface, src, dst, src_port, dst_port); ret = net_recv_data(iface, pkt); if (ret < 0) { DBG("Cannot recv pkt %p, ret %d\n", pkt, ret); return false; } if (k_sem_take(&recv_lock, TIMEOUT)) { if (expect_failure) { return true; } else { DBG("Timeout, packet not received\n"); return false; } } /* Check that the returned user data is the same as what was given * as a parameter. */ if (ud != returned_ud && !expect_failure) { DBG("IPv4 wrong user data %p returned, expected %p\n", returned_ud, ud); return false; } return !fail; } static bool send_ipv6_tcp_long_msg(struct net_if *iface, struct in6_addr *src, struct in6_addr *dst, u16_t src_port, u16_t dst_port, struct ud *ud, bool expect_failure) { struct net_pkt *pkt; int ret; pkt = setup_ipv6_tcp_long(iface, src, dst, src_port, dst_port); ret = net_recv_data(iface, pkt); if (ret < 0) { DBG("Cannot recv pkt %p, ret %d\n", pkt, ret); return false; } if (k_sem_take(&recv_lock, TIMEOUT)) { if (expect_failure) { return true; } else { DBG("Timeout, packet not received\n"); return false; } } /* Check that the returned user data is the same as what was given * as a parameter. */ if (ud != returned_ud && !expect_failure) { DBG("IPv6 wrong user data %p returned, expected %p\n", returned_ud, ud); return false; } return !fail; } static void set_port(sa_family_t family, struct sockaddr *raddr, struct sockaddr *laddr, u16_t rport, u16_t lport) { if (family == AF_INET6) { if (raddr) { ((struct sockaddr_in6 *)raddr)-> sin6_port = htons(rport); } if (laddr) { ((struct sockaddr_in6 *)laddr)-> sin6_port = htons(lport); } } else if (family == AF_INET) { if (raddr) { ((struct sockaddr_in *)raddr)-> sin_port = htons(rport); } if (laddr) { ((struct sockaddr_in *)laddr)-> sin_port = htons(lport); } } } static bool test_register(void) { struct net_conn_handle *handlers[CONFIG_NET_MAX_CONN]; struct net_if *iface = my_iface; struct net_if_addr *ifaddr; struct ud *ud; int ret, i = 0; bool st; struct sockaddr_in6 my_addr6; struct in6_addr in6addr_my = { { { 0x20, 0x01, 0x0d, 0xb8, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x1 } } }; struct sockaddr_in6 peer_addr6; struct in6_addr in6addr_peer = { { { 0x20, 0x01, 0x0d, 0xb8, 0, 0, 0, 0, 0, 0, 0, 0x4e, 0x11, 0, 0, 0x2 } } }; struct sockaddr_in my_addr4; struct in_addr in4addr_my = { { { 192, 0, 2, 1 } } }; struct sockaddr_in peer_addr4; struct in_addr in4addr_peer = { { { 192, 0, 2, 9 } } }; net_ipaddr_copy(&my_addr6.sin6_addr, &in6addr_my); my_addr6.sin6_family = AF_INET6; net_ipaddr_copy(&peer_addr6.sin6_addr, &in6addr_peer); peer_addr6.sin6_family = AF_INET6; net_ipaddr_copy(&my_addr4.sin_addr, &in4addr_my); my_addr4.sin_family = AF_INET; net_ipaddr_copy(&peer_addr4.sin_addr, &in4addr_peer); peer_addr4.sin_family = AF_INET; k_sem_init(&recv_lock, 0, UINT_MAX); ifaddr = net_if_ipv6_addr_add(iface, &in6addr_my, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv6_addr(&in6addr_my), iface); return false; } ifaddr = net_if_ipv4_addr_add(iface, &in4addr_my, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv4_addr(&in4addr_my), iface); return false; } /* * First test the TCP port handling logic. This just simulates * received packet when TCP connection has been already connected. * These tests are similar as when testing UDP. */ #define REGISTER(family, raddr, laddr, rport, lport) \ ({ \ static struct ud user_data; \ \ user_data.remote_addr = (struct sockaddr *)raddr; \ user_data.local_addr = (struct sockaddr *)laddr; \ user_data.remote_port = rport; \ user_data.local_port = lport; \ user_data.test = #raddr"-"#laddr"-"#rport"-"#lport; \ \ set_port(family, (struct sockaddr *)raddr, \ (struct sockaddr *)laddr, rport, lport); \ \ ret = net_tcp_register(family, \ (struct sockaddr *)raddr, \ (struct sockaddr *)laddr, \ rport, lport, \ test_ok, &user_data, \ &handlers[i]); \ if (ret) { \ DBG("TCP register %s failed (%d)\n", \ user_data.test, ret); \ return false; \ } \ user_data.handle = handlers[i++]; \ &user_data; \ }) #define REGISTER_FAIL(raddr, laddr, rport, lport) \ ret = net_tcp_register(AF_INET, \ (struct sockaddr *)raddr, \ (struct sockaddr *)laddr, \ rport, lport, \ test_fail, INT_TO_POINTER(0), NULL); \ if (!ret) { \ DBG("TCP register invalid match %s failed\n", \ #raddr"-"#laddr"-"#rport"-"#lport); \ return false; \ } #define UNREGISTER(ud) \ ret = net_tcp_unregister(ud->handle); \ if (ret) { \ DBG("TCP unregister %p failed (%d)\n", ud->handle, \ ret); \ return false; \ } #define TEST_IPV6_OK(ud, raddr, laddr, rport, lport) \ st = send_ipv6_tcp_msg(iface, raddr, laddr, rport, lport, ud, \ false); \ if (!st) { \ DBG("%d: TCP test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } #define TEST_IPV4_OK(ud, raddr, laddr, rport, lport) \ st = send_ipv4_tcp_msg(iface, raddr, laddr, rport, lport, ud, \ false); \ if (!st) { \ DBG("%d: TCP test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } #define TEST_IPV6_LONG_OK(ud, raddr, laddr, rport, lport) \ st = send_ipv6_tcp_long_msg(iface, raddr, laddr, rport, lport, ud, \ false); \ if (!st) { \ DBG("%d: TCP long test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } #define TEST_IPV4_LONG_OK(ud, raddr, laddr, rport, lport) \ st = send_ipv4_tcp_long_msg(iface, raddr, laddr, rport, lport, ud, \ false); \ if (!st) { \ DBG("%d: TCP long_test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } #define TEST_IPV6_FAIL(ud, raddr, laddr, rport, lport) \ st = send_ipv6_tcp_msg(iface, raddr, laddr, rport, lport, ud, \ true); \ if (!st) { \ DBG("%d: TCP neg test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } #define TEST_IPV4_FAIL(ud, raddr, laddr, rport, lport) \ st = send_ipv4_tcp_msg(iface, raddr, laddr, rport, lport, ud, \ true); \ if (!st) { \ DBG("%d: TCP neg test \"%s\" fail\n", __LINE__, \ ud->test); \ return false; \ } ud = REGISTER(AF_INET6, &any_addr6, &any_addr6, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); UNREGISTER(ud); ud = REGISTER(AF_INET, &any_addr4, &any_addr4, 1234, 4242); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 4242); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 4242); TEST_IPV4_FAIL(ud, &in4addr_peer, &in4addr_my, 1234, 4325); TEST_IPV4_FAIL(ud, &in4addr_peer, &in4addr_my, 1234, 4325); UNREGISTER(ud); ud = REGISTER(AF_INET6, &any_addr6, NULL, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); UNREGISTER(ud); ud = REGISTER(AF_INET6, NULL, &any_addr6, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 61400); UNREGISTER(ud); ud = REGISTER(AF_INET6, &peer_addr6, &my_addr6, 1234, 4242); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 4242); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 1234, 4243); ud = REGISTER(AF_INET, &peer_addr4, &my_addr4, 1234, 4242); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 4242); TEST_IPV4_FAIL(ud, &in4addr_peer, &in4addr_my, 1234, 4243); ud = REGISTER(AF_UNSPEC, NULL, NULL, 1234, 42423); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 42423); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 42423); ud = REGISTER(AF_UNSPEC, NULL, NULL, 1234, 0); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 42422); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 42422); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 1234, 42422); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 1234, 42422); TEST_IPV4_FAIL(ud, &in4addr_peer, &in4addr_my, 12345, 42421); TEST_IPV6_FAIL(ud, &in6addr_peer, &in6addr_my, 12345, 42421); ud = REGISTER(AF_UNSPEC, NULL, NULL, 0, 0); TEST_IPV4_OK(ud, &in4addr_peer, &in4addr_my, 12345, 42421); TEST_IPV6_OK(ud, &in6addr_peer, &in6addr_my, 12345, 42421); TEST_IPV6_LONG_OK(ud, &in6addr_peer, &in6addr_my, 12345, 42421); /* Remote addr same as local addr, these two will never match */ REGISTER(AF_INET6, &my_addr6, NULL, 1234, 4242); REGISTER(AF_INET, &my_addr4, NULL, 1234, 4242); /* IPv4 remote addr and IPv6 remote addr, impossible combination */ REGISTER_FAIL(&my_addr4, &my_addr6, 1234, 4242); if (fail) { DBG("Tests failed\n"); return false; } i--; while (i) { ret = net_tcp_unregister(handlers[i]); if (ret < 0 && ret != -ENOENT) { DBG("Cannot unregister tcp %d\n", i); return false; } i--; } if (!(net_tcp_unregister(NULL) < 0)) { DBG("Unregister tcp failed\n"); return false; } st = net_if_ipv6_addr_rm(iface, &in6addr_my); if (!st) { DBG("Cannot remove %s from interface %p\n", net_sprint_ipv6_addr(&in6addr_my), iface); return false; } st = net_if_ipv4_addr_rm(iface, &in4addr_my); if (!st) { DBG("Cannot rm %s from interface %p\n", net_sprint_ipv4_addr(&in4addr_my), iface); return false; } return true; } static bool v6_check_port_and_address(char *test_str, struct net_pkt *pkt, const struct in6_addr *expected_dst_addr, u16_t expected_dst_port) { struct net_tcp_hdr *tcp_hdr; tcp_hdr = net_tcp_get_hdr(pkt, NULL); if (!net_ipv6_addr_cmp(&NET_IPV6_HDR(pkt)->src, &my_v6_addr.sin6_addr)) { DBG("%s: IPv6 source address mismatch, should be %s ", test_str, net_sprint_ipv6_addr(&my_v6_addr.sin6_addr)); DBG("was %s\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(pkt)->src)); return false; } if (tcp_hdr->src_port != my_v6_addr.sin6_port) { DBG("%s: IPv6 source port mismatch, %d vs %d\n", test_str, ntohs(tcp_hdr->src_port), ntohs(my_v6_addr.sin6_port)); return false; } if (!net_ipv6_addr_cmp(expected_dst_addr, &NET_IPV6_HDR(pkt)->dst)) { DBG("%s: IPv6 destination address mismatch, should be %s ", test_str, net_sprint_ipv6_addr(expected_dst_addr)); DBG("was %s\n", net_sprint_ipv6_addr(&NET_IPV6_HDR(pkt)->dst)); return false; } if (tcp_hdr->dst_port != htons(expected_dst_port)) { DBG("%s: IPv6 destination port mismatch, %d vs %d\n", test_str, ntohs(tcp_hdr->dst_port), expected_dst_port); return false; } return true; } static bool v4_check_port_and_address(char *test_str, struct net_pkt *pkt, const struct in_addr *expected_dst_addr, u16_t expected_dst_port) { struct net_tcp_hdr *tcp_hdr; tcp_hdr = net_tcp_get_hdr(pkt, NULL); if (!net_ipv4_addr_cmp(&NET_IPV4_HDR(pkt)->src, &my_v4_addr.sin_addr)) { DBG("%s: IPv4 source address mismatch, should be %s ", test_str, net_sprint_ipv4_addr(&my_v4_addr.sin_addr)); DBG("was %s\n", net_sprint_ipv4_addr(&NET_IPV4_HDR(pkt)->src)); return false; } if (tcp_hdr->src_port != my_v4_addr.sin_port) { DBG("%s: IPv4 source port mismatch, %d vs %d\n", test_str, ntohs(tcp_hdr->src_port), ntohs(my_v4_addr.sin_port)); return false; } if (!net_ipv4_addr_cmp(expected_dst_addr, &NET_IPV4_HDR(pkt)->dst)) { DBG("%s: IPv4 destination address mismatch, should be %s ", test_str, net_sprint_ipv4_addr(expected_dst_addr)); DBG("was %s\n", net_sprint_ipv4_addr(&NET_IPV4_HDR(pkt)->dst)); return false; } if (tcp_hdr->dst_port != htons(expected_dst_port)) { DBG("%s: IPv4 destination port mismatch, %d vs %d\n", test_str, ntohs(tcp_hdr->dst_port), expected_dst_port); return false; } return true; } static bool test_create_v6_reset_packet(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_RST; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv6"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_RST)) { DBG("Reset flag not set\n"); return false; } if (!v6_check_port_and_address("TCP reset", pkt, &peer_v6_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v4_reset_packet(void) { struct net_tcp *tcp = v4_ctx->tcp; u8_t flags = NET_TCP_RST; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v4_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv4"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_RST)) { DBG("Reset flag not set\n"); return false; } if (!v4_check_port_and_address("TCP reset", pkt, &peer_v4_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v6_syn_packet(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_SYN; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv6"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_SYN)) { DBG("SYN flag not set\n"); return false; } if (!v6_check_port_and_address("TCP syn", pkt, &peer_v6_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v4_syn_packet(void) { struct net_tcp *tcp = v4_ctx->tcp; u8_t flags = NET_TCP_SYN; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v4_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv4"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_SYN)) { DBG("Reset flag not set\n"); return false; } if (!v4_check_port_and_address("TCP syn", pkt, &peer_v4_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v6_synack_packet(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_SYN | NET_TCP_ACK; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv6"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!((NET_TCP_FLAGS(tcp_hdr) & NET_TCP_SYN) && (NET_TCP_FLAGS(tcp_hdr) & NET_TCP_ACK))) { DBG("SYN|ACK flag not set\n"); return false; } if (!v6_check_port_and_address("TCP synack", pkt, &peer_v6_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v4_synack_packet(void) { struct net_tcp *tcp = v4_ctx->tcp; u8_t flags = NET_TCP_SYN | NET_TCP_ACK; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v4_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv4"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!((NET_TCP_FLAGS(tcp_hdr) & NET_TCP_SYN) && (NET_TCP_FLAGS(tcp_hdr) & NET_TCP_ACK))) { DBG("SYN|ACK flag not set\n"); return false; } if (!v4_check_port_and_address("TCP synack", pkt, &peer_v4_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v6_fin_packet(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_FIN; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv6"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_FIN)) { DBG("FIN flag not set\n"); return false; } if (!v6_check_port_and_address("TCP fin", pkt, &peer_v6_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_create_v4_fin_packet(void) { struct net_tcp *tcp = v4_ctx->tcp; u8_t flags = NET_TCP_FIN; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v4_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } net_pkt_hexdump(pkt, "TCPv4"); tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { return false; } if (!(NET_TCP_FLAGS(tcp_hdr) & NET_TCP_FIN)) { DBG("FIN flag not set\n"); return false; } if (!v4_check_port_and_address("TCP fin", pkt, &peer_v4_inaddr, PEER_TCP_PORT)) { return false; } net_pkt_unref(pkt); return true; } static bool test_v6_seq_check(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_SYN; struct net_pkt *pkt = NULL; struct net_tcp_hdr *tcp_hdr; u32_t seq; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } tcp_hdr = net_tcp_get_hdr(pkt, NULL); net_pkt_hexdump(pkt, "TCPv6"); seq = tcp_hdr->seq[0] << 24 | tcp_hdr->seq[1] << 16 | tcp_hdr->seq[2] << 8 | tcp_hdr->seq[3]; if (seq != tcp->send_seq) { DBG("Seq does not match (%u vs %u)\n", seq, tcp->send_seq); return false; } net_pkt_unref(pkt); return true; } static bool test_v4_seq_check(void) { struct net_tcp *tcp = v4_ctx->tcp; u8_t flags = NET_TCP_SYN; struct net_pkt *pkt = NULL; struct net_tcp_hdr *tcp_hdr; u32_t seq; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v4_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } tcp_hdr = net_tcp_get_hdr(pkt, NULL); net_pkt_hexdump(pkt, "TCPv4"); seq = tcp_hdr->seq[0] << 24 | tcp_hdr->seq[1] << 16 | tcp_hdr->seq[2] << 8 | tcp_hdr->seq[3]; if (seq != tcp->send_seq) { DBG("Seq does not match (%u vs %u)\n", seq, tcp->send_seq); return false; } net_pkt_unref(pkt); return true; } #if 0 static void connect_v6_cb(struct net_context *context, void *user_data) { if (POINTER_TO_INT(user_data) != AF_INET6) { fail = true; } fail = false; connect_cb_called = true; DBG("IPv6 connect cb called\n"); } static void connect_v4_cb(struct net_context *context, void *user_data) { if (POINTER_TO_INT(user_data) != AF_INET) { fail = true; } fail = false; connect_cb_called = true; k_sem_give(&wait_connect); DBG("IPv4 connect cb called\n"); } #endif #if 0 static bool test_create_v6_data_packet(void) { return true; } #endif struct net_tcp_context net_tcp_context_data; struct net_tcp_context net_tcp_context_data_peer; static struct dummy_api net_tcp_if_api = { .iface_api.init = net_tcp_iface_init, .send = tester_send, }; static struct dummy_api net_tcp_if_api_peer = { .iface_api.init = net_tcp_iface_init, .send = tester_send_peer, }; #define _ETH_L2_LAYER DUMMY_L2 #define _ETH_L2_CTX_TYPE NET_L2_GET_CTX_TYPE(DUMMY_L2) NET_DEVICE_INIT_INSTANCE(net_tcp_test, "net_tcp_test", host, net_tcp_dev_init, &net_tcp_context_data, NULL, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT, &net_tcp_if_api, _ETH_L2_LAYER, _ETH_L2_CTX_TYPE, 127); NET_DEVICE_INIT_INSTANCE(net_tcp_test_peer, "net_tcp_test_peer", peer, net_tcp_dev_init, &net_tcp_context_data_peer, NULL, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT, &net_tcp_if_api_peer, _ETH_L2_LAYER, _ETH_L2_CTX_TYPE, 127); static bool test_init_tcp_context(void) { struct net_if *iface = my_iface; struct net_if_addr *ifaddr; int ret; ifaddr = net_if_ipv6_addr_add(iface, &my_v6_inaddr, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv6_addr(&my_v6_inaddr), iface); return false; } ifaddr = net_if_ipv4_addr_add(iface, &my_v4_inaddr, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv4_addr(&my_v4_inaddr), iface); return false; } ret = net_context_get(AF_INET6, SOCK_STREAM, IPPROTO_TCP, &v6_ctx); if (ret != 0) { TC_ERROR("Context get v6 test failed.\n"); return false; } if (!v6_ctx) { TC_ERROR("Got NULL v6 context\n"); return false; } net_ipaddr_copy(&my_v6_addr.sin6_addr, &my_v6_inaddr); my_v6_addr.sin6_family = AF_INET6; my_v6_addr.sin6_port = htons(MY_TCP_PORT); net_ipaddr_copy(&peer_v6_addr.sin6_addr, &peer_v6_inaddr); peer_v6_addr.sin6_family = AF_INET6; peer_v6_addr.sin6_port = htons(PEER_TCP_PORT); ret = net_context_bind(v6_ctx, (struct sockaddr *)&my_v6_addr, sizeof(my_v6_addr)); if (ret) { TC_ERROR("Context bind v6 test failed (%d)\n", ret); return false; } ret = net_context_get(AF_INET, SOCK_STREAM, IPPROTO_TCP, &v4_ctx); if (ret != 0) { TC_ERROR("Context get v4 test failed.\n"); return false; } if (!v4_ctx) { TC_ERROR("Got NULL v4 context\n"); return false; } net_ipaddr_copy(&my_v4_addr.sin_addr, &my_v4_inaddr); my_v4_addr.sin_family = AF_INET; my_v4_addr.sin_port = htons(MY_TCP_PORT); net_ipaddr_copy(&peer_v4_addr.sin_addr, &peer_v4_inaddr); peer_v4_addr.sin_family = AF_INET; peer_v4_addr.sin_port = htons(PEER_TCP_PORT); ret = net_context_bind(v4_ctx, (struct sockaddr *)&my_v4_addr, sizeof(my_v4_addr)); if (ret) { TC_ERROR("Context bind v4 test failed (%d)\n", ret); return false; } return true; } /* Receive window helper function copied from tcp.c */ static inline u32_t get_recv_wnd(struct net_tcp *tcp) { ARG_UNUSED(tcp); /* We don't queue received data inside the stack, we hand off * packets to synchronous callbacks (who can queue if they * want, but it's not our business). So the available window * size is always the same. There are two configurables to * check though. */ return MIN(NET_TCP_MAX_WIN, NET_TCP_BUF_MAX_LEN); } static bool test_tcp_seq_validity(void) { struct net_tcp *tcp = v6_ctx->tcp; u8_t flags = NET_TCP_RST; struct net_pkt *pkt = NULL; struct net_tcp_hdr hdr, *tcp_hdr; int ret; ret = net_tcp_prepare_segment(tcp, flags, NULL, 0, NULL, (struct sockaddr *)&peer_v6_addr, &pkt); if (ret) { DBG("Prepare segment failed (%d)\n", ret); return false; } tcp_hdr = net_tcp_get_hdr(pkt, &hdr); if (!tcp_hdr) { DBG("Grabbing TCP hdr failed\n"); return false; } tcp->send_ack = sys_get_be32(tcp_hdr->seq) - get_recv_wnd(tcp) / 2U; if (!net_tcp_validate_seq(tcp, tcp_hdr)) { DBG("1) Sequence validation failed (send_ack %u vs seq %u)\n", tcp->send_ack, sys_get_be32(tcp_hdr->seq)); return false; } tcp->send_ack = sys_get_be32(tcp_hdr->seq); if (!net_tcp_validate_seq(tcp, tcp_hdr)) { DBG("2) Sequence validation failed (send_ack %u vs seq %u)\n", tcp->send_ack, sys_get_be32(tcp_hdr->seq)); return false; } tcp->send_ack = sys_get_be32(tcp_hdr->seq) + get_recv_wnd(tcp) * 2U; if (net_tcp_validate_seq(tcp, tcp_hdr)) { DBG("3) Sequence validation failed (send_ack %u vs seq %u)\n", tcp->send_ack, sys_get_be32(tcp_hdr->seq)); return false; } tcp->send_ack = sys_get_be32(tcp_hdr->seq) - get_recv_wnd(tcp) * 2U; if (net_tcp_validate_seq(tcp, tcp_hdr)) { DBG("4) Sequence validation failed (send_ack %u vs seq %u)\n", tcp->send_ack, sys_get_be32(tcp_hdr->seq)); return false; } return true; } static bool test_init_tcp_reply_context(void) { struct net_if *iface = peer_iface; struct net_if_addr *ifaddr; int ret; ifaddr = net_if_ipv6_addr_add(iface, &peer_v6_inaddr, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv6_addr(&peer_v6_inaddr), iface); return false; } ifaddr = net_if_ipv4_addr_add(iface, &peer_v4_inaddr, NET_ADDR_MANUAL, 0); if (!ifaddr) { DBG("Cannot add %s to interface %p\n", net_sprint_ipv4_addr(&peer_v4_inaddr), iface); return false; } ret = net_context_get(AF_INET6, SOCK_STREAM, IPPROTO_TCP, &reply_v6_ctx); if (ret != 0) { TC_ERROR("Context get reply v6 test failed.\n"); return false; } if (!reply_v6_ctx) { TC_ERROR("Got NULL reply v6 context\n"); return false; } ret = net_context_bind(reply_v6_ctx, (struct sockaddr *)&peer_v6_addr, sizeof(peer_v6_addr)); if (ret) { TC_ERROR("Context bind reply v6 test failed (%d)\n", ret); return false; } ret = net_context_get(AF_INET, SOCK_STREAM, IPPROTO_TCP, &reply_v4_ctx); if (ret != 0) { TC_ERROR("Context get reply v4 test failed.\n"); return false; } if (!reply_v4_ctx) { TC_ERROR("Got NULL reply v4 context\n"); return false; } ret = net_context_bind(reply_v4_ctx, (struct sockaddr *)&peer_v4_addr, sizeof(peer_v4_addr)); if (ret) { TC_ERROR("Context bind reply v4 test failed (%d)\n", ret); return false; } return true; } static void accept_v6_cb(struct net_context *new_context, struct sockaddr *addr, socklen_t addrlen, int error, void *user_data) { DBG("error %d\n", error); } static void accept_v4_cb(struct net_context *new_context, struct sockaddr *addr, socklen_t addrlen, int error, void *user_data) { DBG("error %d\n", error); } static bool test_init_tcp_accept(void) { int ret; ret = net_context_listen(reply_v6_ctx, 0); if (ret) { TC_ERROR("Context listen v6 test failed (%d)\n", ret); return false; } ret = net_context_accept(reply_v6_ctx, accept_v6_cb, K_NO_WAIT, INT_TO_POINTER(AF_INET6)); if (ret) { TC_ERROR("Context accept v6 test failed (%d)\n", ret); return false; } ret = net_context_listen(reply_v4_ctx, 0); if (ret) { TC_ERROR("Context listen v4 test failed (%d)\n", ret); return false; } ret = net_context_accept(reply_v4_ctx, accept_v4_cb, K_NO_WAIT, INT_TO_POINTER(AF_INET)); if (ret) { TC_ERROR("Context accept v4 test failed (%d)\n", ret); return false; } DBG("Waiting a connection...\n"); return true; } #if 0 static bool test_init_tcp_connect(void) { int ret; fail = false; syn_v6_sent = true; ret = net_context_connect(v6_ctx, (struct sockaddr *)&peer_v6_addr, sizeof(peer_v6_addr), connect_v6_cb, 0, INT_TO_POINTER(AF_INET6)); if (ret) { TC_ERROR("Context connect v6 test failed (%d)\n", ret); return false; } if (k_sem_take(&wait_in_accept, WAIT_TIME_LONG)) { TC_ERROR("Timeout while waiting data back\n"); return false; } if (!accept_cb_called) { TC_ERROR("No IPv6 accept cb called on time, " "TCP accept test failed\n"); return false; } accept_cb_called = false; ret = net_context_connect(v6_ctx, (struct sockaddr *)&my_v6_addr, sizeof(my_v6_addr), connect_v6_cb, 0, INT_TO_POINTER(AF_INET6)); if (ret || fail) { TC_ERROR("Context connect v6 test failed (%d)\n", ret); return false; } DBG("Waiting v6 connection\n"); if (k_sem_take(&wait_connect, WAIT_TIME_LONG)) { TC_ERROR("Timeout while waiting data back\n"); return false; } if (!connect_cb_called) { TC_ERROR("No IPv6 connect cb called on time, " "TCP connect test failed\n"); return false; } connect_cb_called = false; ret = net_context_connect(v4_ctx, (struct sockaddr *)&my_v4_addr, sizeof(my_v4_addr), connect_v4_cb, 0, INT_TO_POINTER(AF_INET)); if (ret || fail) { TC_ERROR("Context connect v4 test failed (%d)\n", ret); return false; } k_sem_take(&wait_connect, WAIT_TIME); if (!connect_cb_called) { TC_ERROR("No IPv4 connect cb called on time, " "TCP connect test failed\n"); return false; } connect_cb_called = false; return true; } #endif static bool test_init(void) { struct net_if *iface = net_if_get_default(); struct net_if_addr *ifaddr; const struct dummy_api *api; if (!iface) { TC_ERROR("Interface is NULL\n"); return false; } /* Make sure that we always use the correct network interface when * simulating the local and peer devices. To do this, we check what * device API corresponds to what network interface sending function. * This way we can use the correct network interface to set the IP * addresses etc. * The network interfaces might be set in different order depending on * used target board and linker. We cannot guarantee that network * interfaces are always set the same way in the linker section. */ api = net_if_get_device(iface)->driver_api; if (api->send != tester_send) { my_iface = iface + 1; peer_iface = iface; } else { my_iface = iface; peer_iface = iface + 1; } iface = my_iface; ifaddr = net_if_ipv6_addr_add(iface, &my_v6_inaddr, NET_ADDR_MANUAL, 0); if (!ifaddr) { TC_ERROR("Cannot add address\n"); return false; } net_ipaddr_copy(&any_addr6.sin6_addr, &sin6_addr_any); any_addr6.sin6_family = AF_INET6; net_ipaddr_copy(&any_addr4.sin_addr, &sin_addr_any); any_addr4.sin_family = AF_INET; k_sem_init(&wait_connect, 0, UINT_MAX); return true; } static bool test_cleanup(void) { int ret; ret = net_context_put(v6_ctx); if (ret != 0) { TC_ERROR("Context free v6 failed.\n"); return false; } ret = net_context_put(v4_ctx); if (ret != 0) { TC_ERROR("Context free v4 failed.\n"); return false; } ret = net_context_put(reply_v6_ctx); if (ret != 0) { TC_ERROR("Context free reply v6 failed.\n"); return false; } ret = net_context_put(reply_v4_ctx); if (ret != 0) { TC_ERROR("Context free reply v4 failed.\n"); return false; } return true; } static const struct { const char *name; bool (*func)(void); } tests[] = { { "test TCP init", test_init }, { "test TCP register/unregister port cb", test_register }, { "test TCP context init", test_init_tcp_context }, { "test IPv6 TCP reset packet creation", test_create_v6_reset_packet }, { "test IPv4 TCP reset packet creation", test_create_v4_reset_packet }, { "test IPv6 TCP syn packet creation", test_create_v6_syn_packet }, { "test IPv4 TCP syn packet creation", test_create_v4_syn_packet }, { "test IPv6 TCP synack packet create", test_create_v6_synack_packet }, { "test IPv4 TCP synack packet create", test_create_v4_synack_packet }, { "test IPv6 TCP fin packet creation", test_create_v6_fin_packet }, { "test IPv4 TCP fin packet creation", test_create_v4_fin_packet }, { "test IPv6 TCP seq check", test_v6_seq_check }, { "test IPv4 TCP seq check", test_v4_seq_check }, { "test TCP seq validity", test_tcp_seq_validity }, { "test TCP reply context init", test_init_tcp_reply_context }, { "test TCP accept init", test_init_tcp_accept }, #if 0 /* TBD: more tests are needed */ { "test TCP connect init", test_init_tcp_connect }, { "test IPv6 TCP data packet creation", test_create_v6_data_packet }, { "test IPv4 TCP data packet creation", test_create_v4_data_packet }, #endif { "test cleanup", test_cleanup }, }; void main(void) { int count, pass; for (count = 0, pass = 0; count < ARRAY_SIZE(tests); count++) { TC_START(tests[count].name); test_failed = false; if (!tests[count].func() || test_failed) { TC_END(FAIL, "failed\n"); } else { TC_END(PASS, "passed\n"); pass++; } } TC_END_REPORT(((pass != ARRAY_SIZE(tests)) ? TC_FAIL : TC_PASS)); } |