#include #include "packet_build.h" #include "checksum.h" #include "tcp_utils.h" #include "udp_utils.h" #include "ipv4_utils.h" #include "ipv6_utils.h" #include "packet_priv.h" #include "packet_utils.h" #define PACKET_BUILD_LOG_DEBUG(format, ...) LOG_DEBUG("packet build", format, ##__VA_ARGS__) #define PACKET_BUILD_LOG_ERROR(format, ...) LOG_ERROR("packet build", format, ##__VA_ARGS__) struct packet_fingerprint { // TODO uint16_t ip_id; uint8_t ip_ttl; uint16_t tcp_win; }; static inline void calc_packet_fingerprint(struct packet_fingerprint *finger) { #define RANGE(rand, start, end) (start + rand % (end - start + 1)) // [start, end] struct timespec time; clock_gettime(CLOCK_MONOTONIC, &time); uint64_t random = 0x013579ABCDEF ^ time.tv_nsec; finger->ip_id = (uint16_t)(RANGE(random, 32767, 65535)); finger->ip_ttl = (uint8_t)(RANGE(random, 48, 120)); finger->tcp_win = (uint16_t)(RANGE(random, 1000, 1460)); } static void update_tcp_hdr(struct tcphdr *tcphdr, uint32_t seq, uint32_t ack, uint16_t win, uint8_t flags) { tcp_hdr_set_seq(tcphdr, seq); tcp_hdr_set_ack(tcphdr, ack); tcp_hdr_set_hdr_len(tcphdr, sizeof(struct tcphdr)); tcp_hdr_set_flags(tcphdr, flags); tcp_hdr_set_window(tcphdr, win); tcp_hdr_set_urg_ptr(tcphdr, 0); tcp_hdr_set_checksum(tcphdr, 0); } static void update_udp_hdr(struct udphdr *udphdr, int trim) { uint16_t total = udp_hdr_get_total_len(udphdr); udp_hdr_set_total_len(udphdr, total - trim); udp_hdr_set_checksum(udphdr, 0); } static void update_ip4_hdr(struct ip *iphdr, uint16_t ipid, uint8_t ttl, int trim) { int hdr_len = ipv4_hdr_get_hdr_len(iphdr); uint16_t total = ipv4_hdr_get_total_len(iphdr); ipv4_hdr_set_total_len(iphdr, total - trim); ipv4_hdr_set_ipid(iphdr, ipid); ipv4_hdr_set_ttl(iphdr, ttl); iphdr->ip_sum = 0; iphdr->ip_sum = checksum((const char *)iphdr, hdr_len); } static void update_ip6_hdr(struct ip6_hdr *ip6hdr, int trim) { uint16_t len = ipv6_hdr_get_payload_len(ip6hdr); ipv6_hdr_set_payload_len(ip6hdr, len - trim); } struct packet *imitate_tcp_packet(const struct packet *origin_pkt, uint32_t tcp_seq, uint32_t tcp_ack, uint8_t tcp_flags, const char *tcp_payload, uint16_t tcp_payload_len) { // check arguments if (origin_pkt == NULL || (tcp_payload == NULL && tcp_payload_len != 0) || (tcp_payload != NULL && tcp_payload_len == 0)) { PACKET_BUILD_LOG_ERROR("imitate TCP packet failed, invalid arguments"); return NULL; } // check the innermost layer of the original packet int layers = packet_get_layer_count(origin_pkt); const struct raw_layer *tcp_layer = packet_get_raw_layer(origin_pkt, layers - 1); if (tcp_layer == NULL || tcp_layer->proto != LAYER_PROTO_TCP) { PACKET_BUILD_LOG_ERROR("imitate TCP packet failed, the innermost layer of the original packet is not TCP"); return NULL; } // calculate the new packet length int trim = tcp_layer->hdr_len + tcp_layer->pld_len - tcp_payload_len - sizeof(struct tcphdr); uint16_t new_pkt_len = origin_pkt->data_len - origin_pkt->trim_len - trim; struct packet *new_pkt = packet_new(new_pkt_len); if (new_pkt == NULL) { PACKET_BUILD_LOG_ERROR("imitate TCP packet failed, no space to allocate new packet"); return NULL; } // copy the data to the new packet char *new_pkt_data = (char *)packet_get_raw_data(new_pkt); memcpy(new_pkt_data, packet_get_raw_data(origin_pkt), tcp_layer->hdr_offset + sizeof(struct tcphdr)); memcpy(new_pkt_data + tcp_layer->hdr_offset + sizeof(struct tcphdr), tcp_payload, tcp_payload_len); // update the headers of the new packet struct tcphdr *tcp_hdr = NULL; struct udphdr *udp_hdr = NULL; struct ip *ip4_hdr = NULL; struct ip6_hdr *ip6_hdr = NULL; struct raw_layer *curr_layer = NULL; struct raw_layer *last_layer = NULL; struct packet_fingerprint finger = {0}; calc_packet_fingerprint(&finger); for (int i = layers - 1; i >= 0; i--) { curr_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i); switch (curr_layer->proto) { case LAYER_PROTO_TCP: tcp_hdr = (struct tcphdr *)(new_pkt_data + curr_layer->hdr_offset); update_tcp_hdr(tcp_hdr, tcp_seq, tcp_ack, finger.tcp_win, tcp_flags); break; case LAYER_PROTO_UDP: udp_hdr = (struct udphdr *)(new_pkt_data + curr_layer->hdr_offset); update_udp_hdr(udp_hdr, trim); break; case LAYER_PROTO_IPV4: ip4_hdr = (struct ip *)(new_pkt_data + curr_layer->hdr_offset); last_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i + 1); if (last_layer->proto == LAYER_PROTO_TCP) { tcp_hdr = (struct tcphdr *)(new_pkt_data + last_layer->hdr_offset); tcp_hdr->th_sum = checksum_v4(tcp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_TCP, &ip4_hdr->ip_src, &ip4_hdr->ip_dst); } if (last_layer->proto == LAYER_PROTO_UDP) { udp_hdr = (struct udphdr *)(new_pkt_data + last_layer->hdr_offset); udp_hdr->uh_sum = checksum_v4(udp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_UDP, &ip4_hdr->ip_src, &ip4_hdr->ip_dst); } update_ip4_hdr(ip4_hdr, finger.ip_id, finger.ip_ttl, trim); break; case LAYER_PROTO_IPV6: ip6_hdr = (struct ip6_hdr *)(new_pkt_data + curr_layer->hdr_offset); last_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i + 1); if (last_layer->proto == LAYER_PROTO_TCP) { tcp_hdr = (struct tcphdr *)(new_pkt_data + last_layer->hdr_offset); tcp_hdr->th_sum = checksum_v6(tcp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_TCP, &ip6_hdr->ip6_src, &ip6_hdr->ip6_dst); } if (last_layer->proto == LAYER_PROTO_UDP) { udp_hdr = (struct udphdr *)(new_pkt_data + last_layer->hdr_offset); udp_hdr->uh_sum = checksum_v6(udp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_UDP, &ip6_hdr->ip6_src, &ip6_hdr->ip6_dst); } update_ip6_hdr(ip6_hdr, trim); break; case LAYER_PROTO_GRE: // TODO break; default: break; } } packet_parse(new_pkt, new_pkt_data, new_pkt_len); memcpy(&new_pkt->meta, &origin_pkt->meta, sizeof(struct metadata)); new_pkt->meta.origin_ctx = NULL; return new_pkt; } struct packet *imitate_udp_packet(const struct packet *origin_pkt, const char *udp_payload, uint16_t udp_payload_len) { // check arguments if (origin_pkt == NULL || (udp_payload == NULL && udp_payload_len != 0) || (udp_payload != NULL && udp_payload_len == 0)) { PACKET_BUILD_LOG_ERROR("imitate UDP packet failed, invalid arguments"); return NULL; } // check the innermost layer of the original packet int layers = packet_get_layer_count(origin_pkt); const struct raw_layer *udp_layer = packet_get_raw_layer(origin_pkt, layers - 1); if (udp_layer == NULL || udp_layer->proto != LAYER_PROTO_UDP) { PACKET_BUILD_LOG_ERROR("imitate UDP packet failed, the innermost layer of the original packet is not UDP"); return NULL; } // calculate the new packet length int trim = udp_layer->hdr_len + udp_layer->pld_len - udp_payload_len - sizeof(struct udphdr); uint16_t new_pkt_len = origin_pkt->data_len - origin_pkt->trim_len - trim; struct packet *new_pkt = packet_new(new_pkt_len); if (new_pkt == NULL) { PACKET_BUILD_LOG_ERROR("imitate UDP packet failed, no space to allocate new packet"); return NULL; } // copy the data to the new packet char *new_pkt_data = (char *)packet_get_raw_data(new_pkt); memcpy(new_pkt_data, packet_get_raw_data(origin_pkt), udp_layer->hdr_offset + sizeof(struct udphdr)); memcpy(new_pkt_data + udp_layer->hdr_offset + sizeof(struct udphdr), udp_payload, udp_payload_len); // update the headers of the new packet struct udphdr *udp_hdr = NULL; struct ip *ip4_hdr = NULL; struct ip6_hdr *ip6_hdr = NULL; struct raw_layer *curr_layer = NULL; struct raw_layer *last_layer = NULL; struct packet_fingerprint finger = {0}; calc_packet_fingerprint(&finger); for (int i = layers - 1; i >= 0; i--) { curr_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i); switch (curr_layer->proto) { case LAYER_PROTO_UDP: udp_hdr = (struct udphdr *)(new_pkt_data + curr_layer->hdr_offset); update_udp_hdr(udp_hdr, trim); break; case LAYER_PROTO_IPV4: ip4_hdr = (struct ip *)(new_pkt_data + curr_layer->hdr_offset); last_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i + 1); if (last_layer->proto == LAYER_PROTO_UDP) { udp_hdr = (struct udphdr *)(new_pkt_data + last_layer->hdr_offset); udp_hdr->uh_sum = checksum_v4(udp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_UDP, &ip4_hdr->ip_src, &ip4_hdr->ip_dst); } update_ip4_hdr(ip4_hdr, finger.ip_id, finger.ip_ttl, trim); break; case LAYER_PROTO_IPV6: ip6_hdr = (struct ip6_hdr *)(new_pkt_data + curr_layer->hdr_offset); last_layer = (struct raw_layer *)packet_get_raw_layer(origin_pkt, i + 1); if (last_layer->proto == LAYER_PROTO_UDP) { udp_hdr = (struct udphdr *)(new_pkt_data + last_layer->hdr_offset); udp_hdr->uh_sum = checksum_v6(udp_hdr, new_pkt_len - last_layer->hdr_offset, IPPROTO_UDP, &ip6_hdr->ip6_src, &ip6_hdr->ip6_dst); } update_ip6_hdr(ip6_hdr, trim); break; case LAYER_PROTO_GRE: // TODO break; default: break; } } packet_parse(new_pkt, new_pkt_data, new_pkt_len); memcpy(&new_pkt->meta, &origin_pkt->meta, sizeof(struct metadata)); new_pkt->meta.origin_ctx = NULL; return new_pkt; }