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For this reason it * is not integrated in kselftests. * * CMD=$((./csum -[46] -[tu] -S $SADDR -D $DADDR -[RT] -r 1 $EXTRA_ARGS)) * * Rx: * * The sender sends packets with a known checksum field using PF_INET(6) * SOCK_RAW sockets. * * good packet: $CMD [-t] * bad packet: $CMD [-t] -E * * The receiver reads UDP packets with a UDP socket. This is not an * option for TCP packets ('-t'). Optionally insert an iptables filter * to avoid these entering the real protocol stack. * * The receiver also reads all packets with a PF_PACKET socket, to * observe whether both good and bad packets arrive on the host. And to * read the optional TP_STATUS_CSUM_VALID bit. This requires setting * option PACKET_AUXDATA, and works only for CHECKSUM_UNNECESSARY. * * Tx: * * The sender needs to build CHECKSUM_PARTIAL packets to exercise tx * checksum offload. * * The sender can sends packets with a UDP socket. * * Optionally crafts a packet that sums up to zero to verify that the * device writes negative zero 0xFFFF in this case to distinguish from * 0x0000 (checksum disabled), as required by RFC 768. Hit this case * by choosing a specific source port. * * good packet: $CMD -U * zero csum: $CMD -U -Z * * The sender can also build packets with PF_PACKET with PACKET_VNET_HDR, * to cover more protocols. PF_PACKET requires passing src and dst mac * addresses. * * good packet: $CMD -s $smac -d $dmac -p [-t] * * Argument '-z' sends UDP packets with a 0x000 checksum disabled field, * to verify that the NIC passes these packets unmodified. * * Argument '-e' adds a transport mode encapsulation header between * network and transport header. This will fail for devices that parse * headers. Should work on devices that implement protocol agnostic tx * checksum offload (NETIF_F_HW_CSUM). * * Argument '-r $SEED' optionally randomizes header, payload and length * to increase coverage between packets sent. SEED 1 further chooses a * different seed for each run (and logs this for reproducibility). It * is advised to enable this for extra coverage in continuous testing. */ #define _GNU_SOURCE #include <arpa/inet.h> #include <asm/byteorder.h> #include <errno.h> #include <error.h> #include <linux/filter.h> #include <linux/if_packet.h> #include <linux/ipv6.h> #include <linux/virtio_net.h> #include <net/ethernet.h> #include <net/if.h> #include <netinet/if_ether.h> #include <netinet/in.h> #include <netinet/ip.h> #include <netinet/ip6.h> #include <netinet/tcp.h> #include <netinet/udp.h> #include <poll.h> #include <sched.h> #include <stdbool.h> #include <stddef.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/socket.h> #include <sys/stat.h> #include <sys/time.h> #include <sys/types.h> #include <unistd.h> static bool cfg_bad_csum; static int cfg_family = PF_INET6; static int cfg_num_pkt = 4; static bool cfg_do_rx = true; static bool cfg_do_tx = true; static bool cfg_encap; static char *cfg_ifname = "eth0"; static char *cfg_mac_dst; static char *cfg_mac_src; static int cfg_proto = IPPROTO_UDP; static int cfg_payload_char = 'a'; static int cfg_payload_len = 100; static uint16_t cfg_port_dst = 34000; static uint16_t cfg_port_src = 33000; static uint16_t cfg_port_src_encap = 33001; static unsigned int cfg_random_seed; static int cfg_rcvbuf = 1 << 22; /* be able to queue large cfg_num_pkt */ static bool cfg_send_pfpacket; static bool cfg_send_udp; static int cfg_timeout_ms = 2000; static bool cfg_zero_disable; /* skip checksum: set to zero (udp only) */ static bool cfg_zero_sum; /* create packet that adds up to zero */ static struct sockaddr_in cfg_daddr4 = {.sin_family = AF_INET}; static struct sockaddr_in cfg_saddr4 = {.sin_family = AF_INET}; static struct sockaddr_in6 cfg_daddr6 = {.sin6_family = AF_INET6}; static struct sockaddr_in6 cfg_saddr6 = {.sin6_family = AF_INET6}; #define ENC_HEADER_LEN (sizeof(struct udphdr) + sizeof(struct udp_encap_hdr)) #define MAX_HEADER_LEN (sizeof(struct ipv6hdr) + ENC_HEADER_LEN + sizeof(struct tcphdr)) #define MAX_PAYLOAD_LEN 1024 /* Trivial demo encap. Stand-in for transport layer protocols like ESP or PSP */ struct udp_encap_hdr { uint8_t nexthdr; uint8_t padding[3]; }; /* Ipaddrs, for pseudo csum. Global var is ugly, pass through funcs was worse */ static void *iph_addr_p; static unsigned long gettimeofday_ms(void) { struct timeval tv; gettimeofday(&tv, NULL); return (tv.tv_sec * 1000UL) + (tv.tv_usec / 1000UL); } static uint32_t checksum_nofold(char *data, size_t len, uint32_t sum) { uint16_t *words = (uint16_t *)data; int i; for (i = 0; i < len / 2; i++) sum += words[i]; if (len & 1) sum += ((unsigned char *)data)[len - 1]; return sum; } static uint16_t checksum_fold(void *data, size_t len, uint32_t sum) { sum = checksum_nofold(data, len, sum); while (sum > 0xFFFF) sum = (sum & 0xFFFF) + (sum >> 16); return ~sum; } static uint16_t checksum(void *th, uint16_t proto, size_t len) { uint32_t sum; int alen; alen = cfg_family == PF_INET6 ? 32 : 8; sum = checksum_nofold(iph_addr_p, alen, 0); sum += htons(proto); sum += htons(len); /* With CHECKSUM_PARTIAL kernel expects non-inverted pseudo csum */ if (cfg_do_tx && cfg_send_pfpacket) return ~checksum_fold(NULL, 0, sum); else return checksum_fold(th, len, sum); } static void *build_packet_ipv4(void *_iph, uint8_t proto, unsigned int len) { struct iphdr *iph = _iph; memset(iph, 0, sizeof(*iph)); iph->version = 4; iph->ihl = 5; iph->ttl = 8; iph->protocol = proto; iph->saddr = cfg_saddr4.sin_addr.s_addr; iph->daddr = cfg_daddr4.sin_addr.s_addr; iph->tot_len = htons(sizeof(*iph) + len); iph->check = checksum_fold(iph, sizeof(*iph), 0); iph_addr_p = &iph->saddr; return iph + 1; } static void *build_packet_ipv6(void *_ip6h, uint8_t proto, unsigned int len) { struct ipv6hdr *ip6h = _ip6h; memset(ip6h, 0, sizeof(*ip6h)); ip6h->version = 6; ip6h->payload_len = htons(len); ip6h->nexthdr = proto; ip6h->hop_limit = 64; ip6h->saddr = cfg_saddr6.sin6_addr; ip6h->daddr = cfg_daddr6.sin6_addr; iph_addr_p = &ip6h->saddr; return ip6h + 1; } static void *build_packet_udp(void *_uh) { struct udphdr *uh = _uh; uh->source = htons(cfg_port_src); uh->dest = htons(cfg_port_dst); uh->len = htons(sizeof(*uh) + cfg_payload_len); uh->check = 0; /* choose source port so that uh->check adds up to zero */ if (cfg_zero_sum) { uh->source = 0; uh->source = checksum(uh, IPPROTO_UDP, sizeof(*uh) + cfg_payload_len); fprintf(stderr, "tx: changing sport: %hu -> %hu\n", cfg_port_src, ntohs(uh->source)); cfg_port_src = ntohs(uh->source); } if (cfg_zero_disable) uh->check = 0; else uh->check = checksum(uh, IPPROTO_UDP, sizeof(*uh) + cfg_payload_len); if (cfg_bad_csum) uh->check = ~uh->check; fprintf(stderr, "tx: sending checksum: 0x%x\n", uh->check); return uh + 1; } static void *build_packet_tcp(void *_th) { struct tcphdr *th = _th; th->source = htons(cfg_port_src); th->dest = htons(cfg_port_dst); th->doff = 5; th->check = 0; th->check = checksum(th, IPPROTO_TCP, sizeof(*th) + cfg_payload_len); if (cfg_bad_csum) th->check = ~th->check; fprintf(stderr, "tx: sending checksum: 0x%x\n", th->check); return th + 1; } static char *build_packet_udp_encap(void *_uh) { struct udphdr *uh = _uh; struct udp_encap_hdr *eh = _uh + sizeof(*uh); /* outer dst == inner dst, to simplify BPF filter * outer src != inner src, to demultiplex on recv */ uh->dest = htons(cfg_port_dst); uh->source = htons(cfg_port_src_encap); uh->check = 0; uh->len = htons(sizeof(*uh) + sizeof(*eh) + sizeof(struct tcphdr) + cfg_payload_len); eh->nexthdr = IPPROTO_TCP; return build_packet_tcp(eh + 1); } static char *build_packet(char *buf, int max_len, int *len) { uint8_t proto; char *off; int tlen; if (cfg_random_seed) { int *buf32 = (void *)buf; int i; for (i = 0; i < (max_len / sizeof(int)); i++) buf32[i] = rand(); } else { memset(buf, cfg_payload_char, max_len); } if (cfg_proto == IPPROTO_UDP) tlen = sizeof(struct udphdr) + cfg_payload_len; else tlen = sizeof(struct tcphdr) + cfg_payload_len; if (cfg_encap) { proto = IPPROTO_UDP; tlen += ENC_HEADER_LEN; } else { proto = cfg_proto; } if (cfg_family == PF_INET) off = build_packet_ipv4(buf, proto, tlen); else off = build_packet_ipv6(buf, proto, tlen); if (cfg_encap) off = build_packet_udp_encap(off); else if (cfg_proto == IPPROTO_UDP) off = build_packet_udp(off); else off = build_packet_tcp(off); /* only pass the payload, but still compute headers for cfg_zero_sum */ if (cfg_send_udp) { *len = cfg_payload_len; return off; } *len = off - buf + cfg_payload_len; return buf; } static int open_inet(int ipproto, int protocol) { int fd; fd = socket(cfg_family, ipproto, protocol); if (fd == -1) error(1, errno, "socket inet"); if (cfg_family == PF_INET6) { /* may have been updated by cfg_zero_sum */ cfg_saddr6.sin6_port = htons(cfg_port_src); if (bind(fd, (void *)&cfg_saddr6, sizeof(cfg_saddr6))) error(1, errno, "bind dgram 6"); if (connect(fd, (void *)&cfg_daddr6, sizeof(cfg_daddr6))) error(1, errno, "connect dgram 6"); } else { /* may have been updated by cfg_zero_sum */ cfg_saddr4.sin_port = htons(cfg_port_src); if (bind(fd, (void *)&cfg_saddr4, sizeof(cfg_saddr4))) error(1, errno, "bind dgram 4"); if (connect(fd, (void *)&cfg_daddr4, sizeof(cfg_daddr4))) error(1, errno, "connect dgram 4"); } return fd; } static int open_packet(void) { int fd, one = 1; fd = socket(PF_PACKET, SOCK_RAW, 0); if (fd == -1) error(1, errno, "socket packet"); if (setsockopt(fd, SOL_PACKET, PACKET_VNET_HDR, &one, sizeof(one))) error(1, errno, "setsockopt packet_vnet_ndr"); return fd; } static void send_inet(int fd, const char *buf, int len) { int ret; ret = write(fd, buf, len); if (ret == -1) error(1, errno, "write"); if (ret != len) error(1, 0, "write: %d", ret); } static void eth_str_to_addr(const char *str, unsigned char *eth) { if (sscanf(str, "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx", ð[0], ð[1], ð[2], ð[3], ð[4], ð[5]) != 6) error(1, 0, "cannot parse mac addr %s", str); } static void send_packet(int fd, const char *buf, int len) { struct virtio_net_hdr vh = {0}; struct sockaddr_ll addr = {0}; struct msghdr msg = {0}; struct ethhdr eth; struct iovec iov[3]; int ret; addr.sll_family = AF_PACKET; addr.sll_halen = ETH_ALEN; addr.sll_ifindex = if_nametoindex(cfg_ifname); if (!addr.sll_ifindex) error(1, errno, "if_nametoindex %s", cfg_ifname); vh.flags = VIRTIO_NET_HDR_F_NEEDS_CSUM; if (cfg_family == PF_INET6) { vh.csum_start = sizeof(struct ethhdr) + sizeof(struct ipv6hdr); addr.sll_protocol = htons(ETH_P_IPV6); } else { vh.csum_start = sizeof(struct ethhdr) + sizeof(struct iphdr); addr.sll_protocol = htons(ETH_P_IP); } if (cfg_encap) vh.csum_start += ENC_HEADER_LEN; if (cfg_proto == IPPROTO_TCP) { vh.csum_offset = __builtin_offsetof(struct tcphdr, check); vh.hdr_len = vh.csum_start + sizeof(struct tcphdr); } else { vh.csum_offset = __builtin_offsetof(struct udphdr, check); vh.hdr_len = vh.csum_start + sizeof(struct udphdr); } eth_str_to_addr(cfg_mac_src, eth.h_source); eth_str_to_addr(cfg_mac_dst, eth.h_dest); eth.h_proto = addr.sll_protocol; iov[0].iov_base = &vh; iov[0].iov_len = sizeof(vh); iov[1].iov_base = ð iov[1].iov_len = sizeof(eth); iov[2].iov_base = (void *)buf; iov[2].iov_len = len; msg.msg_iov = iov; msg.msg_iovlen = sizeof(iov) / sizeof(iov[0]); msg.msg_name = &addr; msg.msg_namelen = sizeof(addr); ret = sendmsg(fd, &msg, 0); if (ret == -1) error(1, errno, "sendmsg packet"); if (ret != sizeof(vh) + sizeof(eth) + len) error(1, errno, "sendmsg packet: %u", ret); } static int recv_prepare_udp(void) { int fd; fd = socket(cfg_family, SOCK_DGRAM, 0); if (fd == -1) error(1, errno, "socket r"); if (setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &cfg_rcvbuf, sizeof(cfg_rcvbuf))) error(1, errno, "setsockopt SO_RCVBUF r"); if (cfg_family == PF_INET6) { if (bind(fd, (void *)&cfg_daddr6, sizeof(cfg_daddr6))) error(1, errno, "bind r"); } else { if (bind(fd, (void *)&cfg_daddr4, sizeof(cfg_daddr4))) error(1, errno, "bind r"); } return fd; } /* Filter out all traffic that is not cfg_proto with our destination port. * * Otherwise background noise may cause PF_PACKET receive queue overflow, * dropping the expected packets and failing the test. */ static void __recv_prepare_packet_filter(int fd, int off_nexthdr, int off_dport) { struct sock_filter filter[] = { BPF_STMT(BPF_LD + BPF_B + BPF_ABS, SKF_AD_OFF + SKF_AD_PKTTYPE), BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, PACKET_HOST, 0, 4), BPF_STMT(BPF_LD + BPF_B + BPF_ABS, off_nexthdr), BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, cfg_encap ? IPPROTO_UDP : cfg_proto, 0, 2), BPF_STMT(BPF_LD + BPF_H + BPF_ABS, off_dport), BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, cfg_port_dst, 1, 0), BPF_STMT(BPF_RET + BPF_K, 0), BPF_STMT(BPF_RET + BPF_K, 0xFFFF), }; struct sock_fprog prog = {}; prog.filter = filter; prog.len = sizeof(filter) / sizeof(struct sock_filter); if (setsockopt(fd, SOL_SOCKET, SO_ATTACH_FILTER, &prog, sizeof(prog))) error(1, errno, "setsockopt filter"); } static void recv_prepare_packet_filter(int fd) { const int off_dport = offsetof(struct tcphdr, dest); /* same for udp */ if (cfg_family == AF_INET) __recv_prepare_packet_filter(fd, offsetof(struct iphdr, protocol), sizeof(struct iphdr) + off_dport); else __recv_prepare_packet_filter(fd, offsetof(struct ipv6hdr, nexthdr), sizeof(struct ipv6hdr) + off_dport); } static void recv_prepare_packet_bind(int fd) { struct sockaddr_ll laddr = {0}; laddr.sll_family = AF_PACKET; if (cfg_family == PF_INET) laddr.sll_protocol = htons(ETH_P_IP); else laddr.sll_protocol = htons(ETH_P_IPV6); laddr.sll_ifindex = if_nametoindex(cfg_ifname); if (!laddr.sll_ifindex) error(1, 0, "if_nametoindex %s", cfg_ifname); if (bind(fd, (void *)&laddr, sizeof(laddr))) error(1, errno, "bind pf_packet"); } static int recv_prepare_packet(void) { int fd, one = 1; fd = socket(PF_PACKET, SOCK_DGRAM, 0); if (fd == -1) error(1, errno, "socket p"); if (setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &cfg_rcvbuf, sizeof(cfg_rcvbuf))) error(1, errno, "setsockopt SO_RCVBUF p"); /* enable auxdata to recv checksum status (valid vs unknown) */ if (setsockopt(fd, SOL_PACKET, PACKET_AUXDATA, &one, sizeof(one))) error(1, errno, "setsockopt auxdata"); /* install filter to restrict packet flow to match */ recv_prepare_packet_filter(fd); /* bind to address family to start packet flow */ recv_prepare_packet_bind(fd); return fd; } static int recv_udp(int fd) { static char buf[MAX_PAYLOAD_LEN]; int ret, count = 0; while (1) { ret = recv(fd, buf, sizeof(buf), MSG_DONTWAIT); if (ret == -1 && errno == EAGAIN) break; if (ret == -1) error(1, errno, "recv r"); fprintf(stderr, "rx: udp: len=%u\n", ret); count++; } return count; } static int recv_verify_csum(void *th, int len, uint16_t sport, uint16_t csum_field) { uint16_t csum; csum = checksum(th, cfg_proto, len); fprintf(stderr, "rx: pkt: sport=%hu len=%u csum=0x%hx verify=0x%hx\n", sport, len, csum_field, csum); /* csum must be zero unless cfg_bad_csum indicates bad csum */ if (csum && !cfg_bad_csum) { fprintf(stderr, "pkt: bad csum\n"); return 1; } else if (cfg_bad_csum && !csum) { fprintf(stderr, "pkt: good csum, while bad expected\n"); return 1; } if (cfg_zero_sum && csum_field != 0xFFFF) { fprintf(stderr, "pkt: zero csum: field should be 0xFFFF, is 0x%hx\n", csum_field); return 1; } return 0; } static int recv_verify_packet_tcp(void *th, int len) { struct tcphdr *tcph = th; if (len < sizeof(*tcph) || tcph->dest != htons(cfg_port_dst)) return -1; return recv_verify_csum(th, len, ntohs(tcph->source), tcph->check); } static int recv_verify_packet_udp_encap(void *th, int len) { struct udp_encap_hdr *eh = th; if (len < sizeof(*eh) || eh->nexthdr != IPPROTO_TCP) return -1; return recv_verify_packet_tcp(eh + 1, len - sizeof(*eh)); } static int recv_verify_packet_udp(void *th, int len) { struct udphdr *udph = th; if (len < sizeof(*udph)) return -1; if (udph->dest != htons(cfg_port_dst)) return -1; if (udph->source == htons(cfg_port_src_encap)) return recv_verify_packet_udp_encap(udph + 1, len - sizeof(*udph)); return recv_verify_csum(th, len, ntohs(udph->source), udph->check); } static int recv_verify_packet_ipv4(void *nh, int len) { struct iphdr *iph = nh; uint16_t proto = cfg_encap ? IPPROTO_UDP : cfg_proto; if (len < sizeof(*iph) || iph->protocol != proto) return -1; iph_addr_p = &iph->saddr; if (proto == IPPROTO_TCP) return recv_verify_packet_tcp(iph + 1, len - sizeof(*iph)); else return recv_verify_packet_udp(iph + 1, len - sizeof(*iph)); } static int recv_verify_packet_ipv6(void *nh, int len) { struct ipv6hdr *ip6h = nh; uint16_t proto = cfg_encap ? IPPROTO_UDP : cfg_proto; if (len < sizeof(*ip6h) || ip6h->nexthdr != proto) return -1; iph_addr_p = &ip6h->saddr; if (proto == IPPROTO_TCP) return recv_verify_packet_tcp(ip6h + 1, len - sizeof(*ip6h)); else return recv_verify_packet_udp(ip6h + 1, len - sizeof(*ip6h)); } /* return whether auxdata includes TP_STATUS_CSUM_VALID */ static bool recv_verify_packet_csum(struct msghdr *msg) { struct tpacket_auxdata *aux = NULL; struct cmsghdr *cm; if (msg->msg_flags & MSG_CTRUNC) error(1, 0, "cmsg: truncated"); for (cm = CMSG_FIRSTHDR(msg); cm; cm = CMSG_NXTHDR(msg, cm)) { if (cm->cmsg_level != SOL_PACKET || cm->cmsg_type != PACKET_AUXDATA) error(1, 0, "cmsg: level=%d type=%d\n", cm->cmsg_level, cm->cmsg_type); if (cm->cmsg_len != CMSG_LEN(sizeof(struct tpacket_auxdata))) error(1, 0, "cmsg: len=%lu expected=%lu", cm->cmsg_len, CMSG_LEN(sizeof(struct tpacket_auxdata))); aux = (void *)CMSG_DATA(cm); } if (!aux) error(1, 0, "cmsg: no auxdata"); return aux->tp_status & TP_STATUS_CSUM_VALID; } static int recv_packet(int fd) { static char _buf[MAX_HEADER_LEN + MAX_PAYLOAD_LEN]; unsigned long total = 0, bad_csums = 0, bad_validations = 0; char ctrl[CMSG_SPACE(sizeof(struct tpacket_auxdata))]; struct pkt *buf = (void *)_buf; struct msghdr msg = {0}; struct iovec iov; int len, ret; iov.iov_base = _buf; iov.iov_len = sizeof(_buf); msg.msg_iov = &iov; msg.msg_iovlen = 1; msg.msg_control = ctrl; msg.msg_controllen = sizeof(ctrl); while (1) { msg.msg_flags = 0; len = recvmsg(fd, &msg, MSG_DONTWAIT); if (len == -1 && errno == EAGAIN) break; if (len == -1) error(1, errno, "recv p"); if (cfg_family == PF_INET6) ret = recv_verify_packet_ipv6(buf, len); else ret = recv_verify_packet_ipv4(buf, len); if (ret == -1 /* skip: non-matching */) continue; total++; if (ret == 1) bad_csums++; /* Fail if kernel returns valid for known bad csum. * Do not fail if kernel does not validate a good csum: * Absence of validation does not imply invalid. */ if (recv_verify_packet_csum(&msg) && cfg_bad_csum) { fprintf(stderr, "cmsg: expected bad csum, pf_packet returns valid\n"); bad_validations++; } } if (bad_csums || bad_validations) error(1, 0, "rx: errors at pf_packet: total=%lu bad_csums=%lu bad_valids=%lu\n", total, bad_csums, bad_validations); return total; } static void parse_args(int argc, char *const argv[]) { const char *daddr = NULL, *saddr = NULL; int c; while ((c = getopt(argc, argv, "46d:D:eEi:l:L:n:r:PRs:S:tTuUzZ")) != -1) { switch (c) { case '4': cfg_family = PF_INET; break; case '6': cfg_family = PF_INET6; break; case 'd': cfg_mac_dst = optarg; break; case 'D': daddr = optarg; break; case 'e': cfg_encap = true; break; case 'E': cfg_bad_csum = true; break; case 'i': cfg_ifname = optarg; break; case 'l': cfg_payload_len = strtol(optarg, NULL, 0); break; case 'L': cfg_timeout_ms = strtol(optarg, NULL, 0) * 1000; break; case 'n': cfg_num_pkt = strtol(optarg, NULL, 0); break; case 'r': cfg_random_seed = strtol(optarg, NULL, 0); break; case 'P': cfg_send_pfpacket = true; break; case 'R': /* only Rx: used with two machine tests */ cfg_do_tx = false; break; case 's': cfg_mac_src = optarg; break; case 'S': saddr = optarg; break; case 't': cfg_proto = IPPROTO_TCP; break; case 'T': /* only Tx: used with two machine tests */ cfg_do_rx = false; break; case 'u': cfg_proto = IPPROTO_UDP; break; case 'U': /* send using real udp socket, * to exercise tx checksum offload */ cfg_send_udp = true; break; case 'z': cfg_zero_disable = true; break; case 'Z': cfg_zero_sum = true; break; default: error(1, 0, "unknown arg %c", c); } } if (!daddr || !saddr) error(1, 0, "Must pass -D <daddr> and -S <saddr>"); if (cfg_do_tx && cfg_send_pfpacket && (!cfg_mac_src || !cfg_mac_dst)) error(1, 0, "Transmit with pf_packet requires mac addresses"); if (cfg_payload_len > MAX_PAYLOAD_LEN) error(1, 0, "Payload length exceeds max"); if (cfg_proto != IPPROTO_UDP && (cfg_zero_sum || cfg_zero_disable)) error(1, 0, "Only UDP supports zero csum"); if (cfg_zero_sum && !cfg_send_udp) error(1, 0, "Zero checksum conversion requires -U for tx csum offload"); if (cfg_zero_sum && cfg_bad_csum) error(1, 0, "Cannot combine zero checksum conversion and invalid checksum"); if (cfg_zero_sum && cfg_random_seed) error(1, 0, "Cannot combine zero checksum conversion with randomization"); if (cfg_family == PF_INET6) { cfg_saddr6.sin6_port = htons(cfg_port_src); cfg_daddr6.sin6_port = htons(cfg_port_dst); if (inet_pton(cfg_family, daddr, &cfg_daddr6.sin6_addr) != 1) error(1, errno, "Cannot parse ipv6 -D"); if (inet_pton(cfg_family, saddr, &cfg_saddr6.sin6_addr) != 1) error(1, errno, "Cannot parse ipv6 -S"); } else { cfg_saddr4.sin_port = htons(cfg_port_src); cfg_daddr4.sin_port = htons(cfg_port_dst); if (inet_pton(cfg_family, daddr, &cfg_daddr4.sin_addr) != 1) error(1, errno, "Cannot parse ipv4 -D"); if (inet_pton(cfg_family, saddr, &cfg_saddr4.sin_addr) != 1) error(1, errno, "Cannot parse ipv4 -S"); } if (cfg_do_tx && cfg_random_seed) { /* special case: time-based seed */ if (cfg_random_seed == 1) cfg_random_seed = (unsigned int)gettimeofday_ms(); srand(cfg_random_seed); fprintf(stderr, "randomization seed: %u\n", cfg_random_seed); } } static void do_tx(void) { static char _buf[MAX_HEADER_LEN + MAX_PAYLOAD_LEN]; char *buf; int fd, len, i; buf = build_packet(_buf, sizeof(_buf), &len); if (cfg_send_pfpacket) fd = open_packet(); else if (cfg_send_udp) fd = open_inet(SOCK_DGRAM, 0); else fd = open_inet(SOCK_RAW, IPPROTO_RAW); for (i = 0; i < cfg_num_pkt; i++) { if (cfg_send_pfpacket) send_packet(fd, buf, len); else send_inet(fd, buf, len); /* randomize each packet individually to increase coverage */ if (cfg_random_seed) { cfg_payload_len = rand() % MAX_PAYLOAD_LEN; buf = build_packet(_buf, sizeof(_buf), &len); } } if (close(fd)) error(1, errno, "close tx"); } static void do_rx(int fdp, int fdr) { unsigned long count_udp = 0, count_pkt = 0; long tleft, tstop; struct pollfd pfd; tstop = gettimeofday_ms() + cfg_timeout_ms; tleft = cfg_timeout_ms; do { pfd.events = POLLIN; pfd.fd = fdp; if (poll(&pfd, 1, tleft) == -1) error(1, errno, "poll"); if (pfd.revents & POLLIN) count_pkt += recv_packet(fdp); if (cfg_proto == IPPROTO_UDP) count_udp += recv_udp(fdr); tleft = tstop - gettimeofday_ms(); } while (tleft > 0); if (close(fdr)) error(1, errno, "close r"); if (close(fdp)) error(1, errno, "close p"); if (count_pkt < cfg_num_pkt) error(1, 0, "rx: missing packets at pf_packet: %lu < %u", count_pkt, cfg_num_pkt); if (cfg_proto == IPPROTO_UDP) { if (cfg_bad_csum && count_udp) error(1, 0, "rx: unexpected packets at udp"); if (!cfg_bad_csum && !count_udp) error(1, 0, "rx: missing packets at udp"); } } int main(int argc, char *const argv[]) { int fdp = -1, fdr = -1; /* -1 to silence -Wmaybe-uninitialized */ parse_args(argc, argv); /* open receive sockets before transmitting */ if (cfg_do_rx) { fdp = recv_prepare_packet(); fdr = recv_prepare_udp(); } if (cfg_do_tx) do_tx(); if (cfg_do_rx) do_rx(fdp, fdr); fprintf(stderr, "OK\n"); return 0; } |