/* Copyright (C) 2000,2001 Salvatore Sanfilippo * See the LICENSE file for more information. * * TODO: * o Functions to add addresses and timestamps for some IP and TCP option * o IGMP support * o DNS support * o ARS add_build_layer() facility and Co., read the PROPOSAL file. */ /* $Id: ars.c,v 1.1.1.1 2012/02/21 22:11:37 misho Exp $ */ #include #include #include #include #include #include #include #include #include #include "ars.h" /* prototypes */ int ars_compiler_ip(struct ars_packet *pkt, int layer); int ars_compiler_ipopt(struct ars_packet *pkt, int layer); int ars_compiler_tcp(struct ars_packet *pkt, int layer); int ars_compiler_tcpopt(struct ars_packet *pkt, int layer); int ars_compiler_udp(struct ars_packet *pkt, int layer); int ars_compiler_icmp(struct ars_packet *pkt, int layer); int ars_compiler_abort(struct ars_packet *pkt, int layer) { return 0; } /* Initialize a packets context: * must be called before to work with the packet's layers */ int ars_init(struct ars_packet *pkt) { int j; pkt->p_error = NULL; pkt->p_layer_nr = 0; for (j = 0; j < ARS_MAX_LAYER; j++) { pkt->p_layer[j].l_size = 0; pkt->p_layer[j].l_flags = 0; pkt->p_layer[j].l_type = ARS_TYPE_NULL; pkt->p_layer[j].l_data = NULL; pkt->p_layer[j].l_packet = pkt; } for (j = 0; j < ARS_TYPE_SIZE; j++) pkt->p_default[j] = NULL; return -ARS_OK; } /* Destroy (free the allocated memory) a packet context */ int ars_destroy(struct ars_packet *pkt) { int j; free(pkt->p_error); for (j = 0; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type != ARS_TYPE_NULL && pkt->p_layer[j].l_data != NULL) free(pkt->p_layer[j].l_data); } return ars_init(pkt); /* Re-initialize it */ } /* THe out of memory message must be statically allocated */ char *ars_error_nomem = "Out of memory"; /* Set the error description */ int ars_set_error(struct ars_packet *pkt, char *error) { if (pkt == NULL) return -ARS_OK; free(pkt->p_error); /* p_error is initialized to NULL */ if ((pkt->p_error = strdup(error)) == NULL) { /* To put the error description for the -KO_NOMEM * error we needs a statically allocated error message: * Note that all other functions don't need to report * a statically allocated error message for -KO_NOMEM * it will be auto-selected if strdup() returns NULL */ pkt->p_error = ars_error_nomem; } return -ARS_OK; /* report anyway success */ } /* Set the default for a layer */ int ars_set_default(struct ars_packet *pkt, int layer_type, void *def) { pkt->p_default[layer_type] = def; return -ARS_OK; } /* return nonzero if the packet is full */ int ars_nospace(struct ars_packet *pkt) { return (pkt->p_layer_nr == ARS_MAX_LAYER); } /* Check if the layer number is valid */ int ars_valid_layer(int layer) { if (layer < 0 || layer >= ARS_MAX_LAYER) return -ARS_INVALID; return -ARS_OK; } /* Add an a generic layer */ int ars_add_generic(struct ars_packet *pkt, size_t size, int type) { int layer; if (ars_nospace(pkt)) { ars_set_error(pkt, "No space for the next layer"); return -ARS_NOSPACE; } layer = pkt->p_layer_nr; /* You may want to create a 0 len layer and then realloc */ if (size != 0) { pkt->p_layer[layer].l_data = malloc(size); if (pkt->p_layer[layer].l_data == NULL) { ars_set_error(pkt, "Out of memory adding a new layer"); return -ARS_NOMEM; } memset(pkt->p_layer[layer].l_data, 0, size); /* Copy the default if any */ if (pkt->p_default[type] != NULL) { memcpy(pkt->p_layer[layer].l_data, pkt->p_default[type], size); } } pkt->p_layer[layer].l_type = type; pkt->p_layer[layer].l_size = size; return -ARS_OK; } /* Add an IP layer */ void *ars_add_iphdr(struct ars_packet *pkt, int unused) { int retval; retval = ars_add_generic(pkt, sizeof(struct ars_iphdr), ARS_TYPE_IP); if (retval != -ARS_OK) return NULL; pkt->p_layer_nr++; return pkt->p_layer[pkt->p_layer_nr-1].l_data; } /* Add on IP option */ void *ars_add_ipopt(struct ars_packet *pkt, int option) { int retval; struct ars_ipopt *ipopt; int opt_len; switch(option) { case ARS_IPOPT_END: case ARS_IPOPT_NOOP: opt_len = 1; break; case ARS_IPOPT_SEC: opt_len = 11; break; case ARS_IPOPT_SID: opt_len = 4; break; case ARS_IPOPT_LSRR: case ARS_IPOPT_SSRR: case ARS_IPOPT_RR: case ARS_IPOPT_TIMESTAMP: /* We allocate the max (40 bytes) but the real layer size * may be modified by ars_ipopt_set*() functions */ opt_len = 40; break; default: return NULL; /* Unsupported option */ break; } retval = ars_add_generic(pkt, opt_len, ARS_TYPE_IPOPT); if (retval != -ARS_OK) return NULL; ipopt = pkt->p_layer[pkt->p_layer_nr].l_data; pkt->p_layer_nr++; ipopt->kind = option; ipopt->len = opt_len; /* the default, can be modified inside switch() */ /* Perform some special operation for some option */ switch(option) { case ARS_IPOPT_LSRR: /* ars_ipopt_setls() will change some field */ case ARS_IPOPT_SSRR: /* ars_ipopt_setss() will change some field */ case ARS_IPOPT_RR: /* ars_ipopt_setrr() will change some field */ /* RFC 791 needs the roomlen - 3 octects, so the gateways * can compare len and ptr to check for room. * Try to break this to stress lame TCP/IP implementation */ ipopt->len = opt_len - 2 - 3; ipopt->un.rr.ptr = 4; break; case ARS_IPOPT_TIMESTAMP: ipopt->un.tstamp.ptr = 5; ipopt->un.tstamp.flags = ARS_IPOPT_TS_TSONLY; /* default */ break; } return ipopt; } /* Add a UDP layer */ void *ars_add_udphdr(struct ars_packet *pkt, int unused) { int retval; retval = ars_add_generic(pkt, sizeof(struct ars_udphdr), ARS_TYPE_UDP); if (retval != -ARS_OK) return NULL; pkt->p_layer_nr++; return pkt->p_layer[pkt->p_layer_nr-1].l_data; } /* Add a TCP layer */ void *ars_add_tcphdr(struct ars_packet *pkt, int unused) { int retval; retval = ars_add_generic(pkt, sizeof(struct ars_tcphdr), ARS_TYPE_TCP); if (retval != -ARS_OK) return NULL; pkt->p_layer_nr++; return pkt->p_layer[pkt->p_layer_nr-1].l_data; } /* Add TCP options */ void *ars_add_tcpopt(struct ars_packet *pkt, int option) { int retval; struct ars_tcpopt *tcpopt; int opt_len; switch(option) { case ARS_TCPOPT_NOP: case ARS_TCPOPT_EOL: opt_len = 1; break; case ARS_TCPOPT_MAXSEG: opt_len = 4; break; case ARS_TCPOPT_WINDOW: opt_len = 3; break; case ARS_TCPOPT_SACK_PERM: /* ars_tcpopt_setsack() must change this */ case ARS_TCPOPT_SACK: opt_len = 2; break; case ARS_TCPOPT_ECHOREQUEST: case ARS_TCPOPT_ECHOREPLY: opt_len = 6; break; case ARS_TCPOPT_TIMESTAMP: opt_len = 10; break; default: return NULL; /* Unsupported option */ break; } retval = ars_add_generic(pkt, opt_len, ARS_TYPE_TCPOPT); if (retval != -ARS_OK) return NULL; tcpopt = pkt->p_layer[pkt->p_layer_nr].l_data; pkt->p_layer_nr++; tcpopt->kind = option; /* EOL and NOP lacks the len field */ if (option != ARS_TCPOPT_EOL && option != ARS_TCPOPT_NOP) tcpopt->len = opt_len; /* Perform some special operation for the option */ switch(option) { case ARS_TCPOPT_ECHOREQUEST: case ARS_TCPOPT_ECHOREPLY: memset(tcpopt->un.echo.info, 0, 4); break; case ARS_TCPOPT_TIMESTAMP: memset(tcpopt->un.timestamp.tsval, 0, 4); memset(tcpopt->un.timestamp.tsecr, 0, 4); break; } return tcpopt; } /* Add an ICMP layer */ void *ars_add_icmphdr(struct ars_packet *pkt, int unused) { int retval; struct ars_icmphdr *icmp; retval = ars_add_generic(pkt, sizeof(struct ars_icmphdr),ARS_TYPE_ICMP); if (retval != -ARS_OK) return NULL; icmp = pkt->p_layer[pkt->p_layer_nr].l_data; pkt->p_layer_nr++; return (struct ars_icmphdr*) pkt->p_layer[pkt->p_layer_nr-1].l_data; } /* Add data, for IP-RAW, TCP, UDP, and so on */ void *ars_add_data(struct ars_packet *pkt, int size) { int retval; void *boguspointer = "zzappt"; /* we can't return NULL for size == 0 */ if (size < 0) { ars_set_error(pkt, "Tryed to add a DATA layer with size < 0"); return NULL; } retval = ars_add_generic(pkt, size, ARS_TYPE_DATA); if (retval != -ARS_OK) return NULL; pkt->p_layer_nr++; if (size > 0) return pkt->p_layer[pkt->p_layer_nr-1].l_data; else return boguspointer; } /* Remove a layer */ int ars_remove_layer(struct ars_packet *pkt, int layer) { if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr -1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; free(pkt->p_layer[layer].l_data); /* No problem if it's NULL */ pkt->p_layer[layer].l_type = ARS_TYPE_NULL; pkt->p_layer[layer].l_size = 0; pkt->p_layer[layer].l_flags = 0; pkt->p_layer[layer].l_data = NULL; pkt->p_layer[layer].l_packet = pkt; return -ARS_OK; } /* Return the sum of the size of the specifed layer and of all the * following layers */ size_t ars_relative_size(struct ars_packet *pkt, int layer_nr) { int j = layer_nr, rel_size = 0; while (j < ARS_MAX_LAYER && pkt->p_layer[j].l_type != ARS_TYPE_NULL) { rel_size += pkt->p_layer[j].l_size; j++; } return rel_size; } /* Just a short cut for ars_relative_size(), to get the total size */ size_t ars_packet_size(struct ars_packet *pkt) { return ars_relative_size(pkt, 0); } /* from R. Stevens's Network Programming */ u_int16_t ars_cksum(void *vbuf, size_t nbytes) { u_int16_t *buf = (u_int16_t*) vbuf; u_int32_t sum; u_int16_t oddbyte; sum = 0; while (nbytes > 1) { sum += *buf++; nbytes -= 2; } if (nbytes == 1) { oddbyte = 0; *((u_int16_t *) &oddbyte) = *(u_int8_t *) buf; sum += oddbyte; } sum = (sum >> 16) + (sum & 0xffff); sum += (sum >> 16); return (u_int16_t) ~sum; } /* Multiple buffers checksum facility */ u_int16_t ars_multi_cksum(struct mc_context *c, int op, void *vbuf, size_t nbytes) { u_int16_t *buf = (u_int16_t*) vbuf; u_int32_t sum; u_int16_t oddbyte; void *tmp; if (op == ARS_MC_INIT) { c->oddbyte_flag = 0; c->old = 0; return -ARS_OK; } else if (op == ARS_MC_UPDATE) { if (c->oddbyte_flag) { u_int8_t *x = (u_int8_t*)&oddbyte; oddbyte = 0; *((u_int16_t *) &oddbyte) = c->oddbyte << 8; *((u_int16_t *) &oddbyte) |= *(u_int8_t *) buf; oddbyte = (x[0] << 8) | x[1]; /* fix endianess */ c->old += oddbyte; nbytes--; c->oddbyte_flag = 0; /* We need to stay aligned -- bad slowdown, fix? */ tmp = alloca(nbytes); memcpy(tmp, vbuf+1, nbytes); buf = tmp; } sum = c->old; while (nbytes > 1) { sum += *buf++; nbytes -= 2; } c->old = sum; if (nbytes == 1) { c->oddbyte = *(u_int8_t*) buf; c->oddbyte_flag++; } return -ARS_OK; } else if (op == ARS_MC_FINAL) { sum = c->old; if (c->oddbyte_flag == 1) { oddbyte = 0; *((u_int16_t *) &oddbyte) = c->oddbyte; sum += oddbyte; } sum = (sum >> 16) + (sum & 0xffff); sum += (sum >> 16); return (u_int16_t) ~sum; } else { assert("else reached in ars_multi_cksum()" == ""); } return 0; /* unreached, here to prevent warnings */ } /* The ARS compiler table is just a function pointers array: * For example to select the right function to compile an IP * layer use: ars_compiler[ARS_TYPE_IP](pkt, layer); * You can, of course, add your protocols and compilers: * * WARNING: take it syncronized with ars.h ARS_TYPE_* defines */ struct ars_layer_info ars_linfo[ARS_TYPE_SIZE] = { /* NAME COMPILER ID * * ---- -------- -- */ { "NULL", ars_compiler_abort, 0 }, { "IP", ars_compiler_ip, 1 }, { "IPOPT", ars_compiler_ipopt, 2 }, { "ICMP", ars_compiler_icmp, 3 }, { "UDP", ars_compiler_udp, 4 }, { "TCP", ars_compiler_tcp, 5 }, { "TCPOPT", ars_compiler_tcpopt, 6 }, { NULL, NULL, 7 }, { NULL, NULL, 8 }, { NULL, NULL, 9 }, { NULL, NULL, 10 }, { NULL, NULL, 11 }, { NULL, NULL, 12 }, { NULL, NULL, 13 }, { NULL, NULL, 14 }, { NULL, NULL, 15 }, { NULL, NULL, 16 }, { NULL, NULL, 17 }, { NULL, NULL, 18 }, { NULL, NULL, 19 }, { NULL, NULL, 20 }, { NULL, NULL, 21 }, { NULL, NULL, 22 }, { NULL, NULL, 23 }, { NULL, NULL, 24 }, { NULL, NULL, 25 }, { NULL, NULL, 26 }, { NULL, NULL, 27 }, { NULL, NULL, 28 }, { NULL, NULL, 29 }, { NULL, NULL, 30 }, { "DATA", NULL, 31 } }; /* This function call the right compiler for all the layers of the packet: * A compiler just set the protocol fields like the checksum, len, and so on * accordly to the following layers. * Note that the layers are compiled from the last to the first, to ensure * that the checksum and other dependences are sane. */ int ars_compile(struct ars_packet *pkt) { int j, err; for (j = pkt->p_layer_nr - 1; j >= 0; j--) { __D(printf("Compiling layer %d\n", j);) /* Skip NULL compilers */ if (ars_linfo[pkt->p_layer[j].l_type].li_compiler != NULL) { /* Call the compiler */ err = ars_linfo[pkt->p_layer[j].l_type].li_compiler(pkt, j); if (err != -ARS_OK) return err; } } return -ARS_OK; } /* The IP compiler: probably the more complex, but still simple */ int ars_compiler_ip(struct ars_packet *pkt, int layer) { struct ars_iphdr *ip = pkt->p_layer[layer].l_data; int j = layer, err; int flags = pkt->p_layer[layer].l_flags; int ipoptlen = 0; struct mc_context mc; /* multi-buffer checksum context */ /* IP version */ if (ARS_DONTTAKE(flags, ARS_TAKE_IP_VERSION)) ip->version = 4; /* IP header len */ if (ARS_DONTTAKE(flags, ARS_TAKE_IP_HDRLEN)) { ip->ihl = (ARS_IPHDR_SIZE >> 2); /* Add IP options len */ for (j = layer+1; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type != ARS_TYPE_IPOPT) break; ipoptlen += pkt->p_layer[j].l_size; } ip->ihl += ipoptlen >> 2; } /* IP tot len */ if (ARS_DONTTAKE(flags, ARS_TAKE_IP_TOTLEN)) ip->tot_len = htons(ars_relative_size(pkt, layer)); /* IP protocol field */ if (ARS_DONTTAKE(flags, ARS_TAKE_IP_PROTOCOL)) { ip->protocol = ARS_IPPROTO_RAW; /* This is the default */ while (j < ARS_MAX_LAYER) { if (pkt->p_layer[j].l_type == ARS_TYPE_IPOPT) { j++; continue; } switch(pkt->p_layer[j].l_type) { case ARS_TYPE_IP: ip->protocol = ARS_IPPROTO_IPIP; break; case ARS_TYPE_ICMP: ip->protocol = ARS_IPPROTO_ICMP; break; case ARS_TYPE_UDP: ip->protocol = ARS_IPPROTO_UDP; break; case ARS_TYPE_TCP: ip->protocol = ARS_IPPROTO_TCP; break; } break; } } /* We always calculate the IP checksum, since the kernel * do it only for the first IP header in the datagram */ if (ARS_DONTTAKE(flags, ARS_TAKE_IP_CKSUM)) { ip->check = 0; ars_multi_cksum(&mc, ARS_MC_INIT, NULL, 0); err = ars_multi_cksum(&mc, ARS_MC_UPDATE, ip, ARS_IPHDR_SIZE); if (err != -ARS_OK) return err; for (j = layer+1; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type != ARS_TYPE_IPOPT) break; err = ars_multi_cksum(&mc, ARS_MC_UPDATE, pkt->p_layer[j].l_data, pkt->p_layer[j].l_size); if (err != -ARS_OK) return err; } ip->check = ars_multi_cksum(&mc, ARS_MC_FINAL, NULL, 0); } return -ARS_OK; } /* The ip options compiler: do just option padding with NOP options */ int ars_compiler_ipopt(struct ars_packet *pkt, int layer) { int j, opt_size; /* Padding is needed only in the last IP option */ if (layer != ARS_MAX_LAYER-1 && pkt->p_layer[layer+1].l_type == ARS_TYPE_IPOPT) return ARS_OK; /* Search the layer of the relative first TCP option */ j = layer - 1; /* We know that 'layer' is a tcp option */ while (j < ARS_MAX_LAYER && j >= 0 && pkt->p_layer[j].l_type == ARS_TYPE_IPOPT) j--; j++; __D(printf("First IP OPTION layer is %d\n", j);) opt_size = ars_relative_size(pkt, j) - ars_relative_size(pkt, layer+1); __D(printf("IP OPTION size %d\n", opt_size);) if (opt_size % 4) { int padding = 4 - (opt_size % 4); unsigned char *t; int cur_size = pkt->p_layer[layer].l_size; __D(printf("IP OPTION at layer %d needs %d bytes " "of padding\n", layer, padding);) t = realloc(pkt->p_layer[layer].l_data, cur_size + padding); if (t == NULL) { ars_set_error(pkt, "Out of memory padding IP options"); return -ARS_NOMEM; } memset(t+cur_size, ARS_IPOPT_NOP, padding); pkt->p_layer[layer].l_size += padding; } return -ARS_OK; } /* Compute the UDP and TCP checksum using the pseudoheader. * Note that this functions automatically care about TCP/UDP data */ int ars_udptcp_cksum(struct ars_packet *pkt, int layer, u_int16_t *sum) { struct ars_iphdr *ip; struct ars_pseudohdr pseudo; struct mc_context mc; /* multi-buffer checksum context */ int j = layer - 1, err; /* search the first IP layer on the left: * it returns an error if between the IP and * the TCP layer there aren't just IPOPT layers: * even with malformed packets this does not * makes sense. */ while (j > 0 && pkt->p_layer[j].l_type == ARS_TYPE_IPOPT) j--; if (pkt->p_layer[j].l_type != ARS_TYPE_IP) { ars_set_error(pkt, "TCP/UDP checksum requested, but IP header " "not found"); return -ARS_INVALID; } ip = pkt->p_layer[j].l_data; memset(&pseudo, 0, sizeof(pseudo)); /* actually not needed */ /* Copy the src and dst IP address */ memcpy(&pseudo.saddr, &ip->saddr, 4); memcpy(&pseudo.daddr, &ip->daddr, 4); pseudo.protocol = (pkt->p_layer[layer].l_type == ARS_TYPE_TCP) ? ARS_IPPROTO_TCP : ARS_IPPROTO_UDP; pseudo.lenght = htons(ars_relative_size(pkt, layer)); /* Finally do the checksum */ ars_multi_cksum(&mc, ARS_MC_INIT, NULL, 0); err = ars_multi_cksum(&mc, ARS_MC_UPDATE, &pseudo, sizeof(pseudo)); if (err != -ARS_OK) return err; for (j = layer; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type == ARS_TYPE_NULL) break; err = ars_multi_cksum(&mc, ARS_MC_UPDATE, pkt->p_layer[j].l_data, pkt->p_layer[j].l_size); if (err != -ARS_OK) return err; } *sum = ars_multi_cksum(&mc, ARS_MC_FINAL, NULL, 0); return -ARS_OK; } /* The tcp compiler */ int ars_compiler_tcp(struct ars_packet *pkt, int layer) { struct ars_tcphdr *tcp = pkt->p_layer[layer].l_data; int j, err, tcpoptlen = 0; int flags = pkt->p_layer[layer].l_flags; if (ARS_DONTTAKE(flags, ARS_TAKE_TCP_HDRLEN)) { tcp->th_off = ARS_TCPHDR_SIZE >> 2; /* Add the len of the options */ for (j = layer+1; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type != ARS_TYPE_TCPOPT) break; tcpoptlen += pkt->p_layer[j].l_size; } tcp->th_off += tcpoptlen >> 2; } if (ARS_DONTTAKE(flags, ARS_TAKE_TCP_CKSUM)) { tcp->th_sum = 0; err = ars_udptcp_cksum(pkt, layer, &tcp->th_sum); if (err != -ARS_OK) return err; } return -ARS_OK; } /* The tcp options compiler: do just option padding with NOP options */ int ars_compiler_tcpopt(struct ars_packet *pkt, int layer) { int j, opt_size; /* Padding is needed only in the last TCP option */ if (layer != ARS_MAX_LAYER-1 && pkt->p_layer[layer+1].l_type == ARS_TYPE_TCPOPT) return ARS_OK; /* Search the layer of the relative first TCP option */ j = layer - 1; /* We know that 'layer' is a tcp option */ while (j < ARS_MAX_LAYER && j >= 0 && pkt->p_layer[j].l_type == ARS_TYPE_TCPOPT) j--; j++; __D(printf("First TCP OPTION layer is %d\n", j);) opt_size = ars_relative_size(pkt, j) - ars_relative_size(pkt, layer+1); __D(printf("TCP OPTION size %d\n", opt_size);) if (opt_size % 4) { int padding = 4 - (opt_size % 4); unsigned char *t; int cur_size = pkt->p_layer[layer].l_size; __D(printf("TCP OPTION at layer %d needs %d bytes " "of padding\n", layer, padding);) t = realloc(pkt->p_layer[layer].l_data, cur_size + padding); if (t == NULL) { ars_set_error(pkt, "Out of memory padding TCP options"); return -ARS_NOMEM; } memset(t+cur_size, ARS_TCPOPT_NOP, padding); pkt->p_layer[layer].l_size += padding; } return -ARS_OK; } /* The udp compiler, very simple */ int ars_compiler_udp(struct ars_packet *pkt, int layer) { struct ars_udphdr *udp = pkt->p_layer[layer].l_data; int err; int flags = pkt->p_layer[layer].l_flags; if (ARS_DONTTAKE(flags, ARS_TAKE_UDP_LEN)) udp->uh_ulen = htons(ars_relative_size(pkt, layer)); if (ARS_DONTTAKE(flags, ARS_TAKE_UDP_CKSUM)) { udp->uh_sum = 0; err = ars_udptcp_cksum(pkt, layer, &udp->uh_sum); if (err != -ARS_OK) return err; } return -ARS_OK; } /* The icmp compiler, just compute the checksum */ int ars_compiler_icmp(struct ars_packet *pkt, int layer) { struct ars_icmphdr *icmp = pkt->p_layer[layer].l_data; struct mc_context mc; /* multi-buffer checksum context */ int err, j; int flags = pkt->p_layer[layer].l_flags; if (ARS_DONTTAKE(flags, ARS_TAKE_ICMP_CKSUM)) { icmp->checksum = 0; ars_multi_cksum(&mc, ARS_MC_INIT, NULL, 0); for (j = layer; j < ARS_MAX_LAYER; j++) { if (pkt->p_layer[j].l_type == ARS_TYPE_NULL) break; err = ars_multi_cksum(&mc, ARS_MC_UPDATE, pkt->p_layer[j].l_data, pkt->p_layer[j].l_size); if (err != -ARS_OK) return err; } icmp->checksum = ars_multi_cksum(&mc, ARS_MC_FINAL, NULL, 0); } return -ARS_OK; } /* Open a raw socket, ready for IP header creation and broadcast addresses */ int ars_open_rawsocket(struct ars_packet *pkt) { int s; const int one = 1; if ((s = socket(AF_INET, SOCK_RAW, IPPROTO_RAW)) == -1) { ars_set_error(pkt, "Can't open the raw socket"); return -ARS_ERROR; } if (setsockopt(s, SOL_SOCKET, SO_BROADCAST, (char*)&one, sizeof(one)) == -1 || setsockopt(s, IPPROTO_IP, IP_HDRINCL, (char*)&one, sizeof(one)) == -1) { close(s); ars_set_error(pkt, "Can't set socket options"); return -ARS_ERROR; } return s; } /* Create the packets using the layers. This function is often called * after the layers compilation. Note that since the packet created * is sane the strange-rawsocket-behaviour of some *BSD will not * be able to send this packet. Use the function ars_bsd_fix() to fix it. * WARNING: The packets returned is malloc()ated, free it */ int ars_build_packet(struct ars_packet *pkt, unsigned char **packet, size_t *size) { size_t tot_size, offset = 0; int j = 0; if ((tot_size = ars_packet_size(pkt)) == 0) { ars_set_error(pkt, "Total size 0 building the packet"); return -ARS_INVALID; } if ((*packet = malloc(tot_size)) == NULL) { ars_set_error(pkt, "Out of memory building the packet"); return -ARS_NOMEM; } while (j < ARS_MAX_LAYER && pkt->p_layer[j].l_type != ARS_TYPE_NULL) { memcpy((*packet)+offset, pkt->p_layer[j].l_data, pkt->p_layer[j].l_size); offset += pkt->p_layer[j].l_size; j++; } *size = tot_size; return -ARS_OK; } /* FreeBSD and NetBSD have a strange raw socket layer :( * Call this function anyway to increase portability * since it does not perform any operation if the * system isn't FreeBSD or NetBSD. */ int ars_bsd_fix(struct ars_packet *pkt, unsigned char *packet, size_t size) { struct ars_iphdr *ip; if (pkt->p_layer[0].l_type != ARS_TYPE_IP || size < sizeof(struct ars_iphdr)) { ars_set_error(pkt, "BSD fix requested, but layer 0 not IP"); return -ARS_INVALID; } ip = (struct ars_iphdr*) packet; #if defined OSTYPE_FREEBSD || defined OSTYPE_NETBSD || defined OSTYPE_BSDI ip->tot_len = ntohs(ip->tot_len); ip->frag_off = ntohs(ip->frag_off); #endif return -ARS_OK; } /* Set the flags for some layer: if layer == -1 the last layer will be used */ int ars_set_flags(struct ars_packet *pkt, int layer, int flags) { if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (layer < 0 || layer >= ARS_MAX_LAYER) { ars_set_error(pkt, "Invalid layer setting layer flags"); return -ARS_INVALID; } pkt->p_layer[layer].l_flags = flags; return -ARS_OK; } /* Build, fix, and send the packet */ int ars_send(int s, struct ars_packet *pkt, struct sockaddr *sa, socklen_t slen) { struct sockaddr_in sain; struct sockaddr *_sa = sa; unsigned char *packet; size_t size; int error; /* Perform the socket address completion if sa == NULL */ if (sa == NULL) { struct ars_iphdr *ip; memset(&sain, 0, sizeof(sain)); sain.sin_family = AF_INET; /* The first layer MUST be IP if the user requested * the socket address completion */ if (pkt->p_layer[0].l_type != ARS_TYPE_IP) { ars_set_error(pkt, "socket address completion" "requested, but layer 0 isn't IP"); return -ARS_ERROR; } ip = (struct ars_iphdr*) pkt->p_layer[0].l_data; memcpy(&sain.sin_addr.s_addr, &ip->daddr, 4); _sa = (struct sockaddr*) &sain; slen = sizeof(sain); } if ((error = ars_build_packet(pkt, &packet, &size)) != ARS_OK) return error; if ((error = ars_bsd_fix(pkt, packet, size)) != ARS_OK) return error; error = sendto(s, packet, size, 0, _sa, slen); free(packet); return (error != -1) ? -ARS_OK : -ARS_ERROR; } /* Resolve an hostname and write to 'dest' the IP */ int ars_resolve(struct ars_packet *pkt, u_int32_t *dest, char *hostname) { struct sockaddr_in sa; if (inet_aton(hostname, &sa.sin_addr) == 0) { struct hostent *he; he = gethostbyname(hostname); if (he == NULL) { ars_set_error(pkt, "Can't resolve the hostname"); return -ARS_ERROR; } sa.sin_addr.s_addr = ((struct in_addr*) he->h_addr)->s_addr; } memcpy(dest, &sa.sin_addr.s_addr, sizeof(u_int32_t)); return -ARS_OK; }