embedaddon/hping2/apd.c - view

File: [ELWIX - Embedded LightWeight unIX -] / embedaddon / hping2 / apd.c
Revision 1.1.1.1 (vendor branch): download - view: text, annotated - select for diffs - revision graph
Tue Feb 21 22:11:37 2012 UTC (12 years, 2 months ago) by misho
Branches: hping2, MAIN
CVS tags: v2_0_0rc3p7, v2_0_0rc3p5, v2_0_0rc3p4, v2_0_0rc3p0, v2_0_0rc3, HEAD

hping2

/* Copyright (C) 2000,2001 Salvatore Sanfilippo <antirez@invece.org> * See the LICENSE file for more information. * * ARS Packet Description System. * * Please, prefix all the function with ars_d_ */ #include <stdio.h> #include <string.h> #include <stdlib.h> #include <sys/types.h> #include <netinet/in.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include "ars.h" #define ARS_MAX_TSIZE 1024 char *ars_d_parser(char *t, char *next, size_t size) { int i = 0; if (size == 0 || next == NULL || *t == '\0') return NULL; size--; /* space for nul term */ while (1) { /* no space for the next char */ if (i == size) { next[i] = '\0'; return t; } switch(*t) { case '\0': case '{': case '}': case ',': case '=': case '+': if (i == 0) { next[i] = *t; next[i+1] = '\0'; return t+1; } else { next[i] = '\0'; return t; } default: next[i++] = *t++; break; } } return NULL; /* unreached */ } /* states */ #define ARS_G_LAYER 0 #define ARS_G_FIELD 1 #define ARS_G_VALUE 2 #define ARS_G_OBRACE_OR_PLUS 3 #define ARS_G_CBRACE 4 #define ARS_G_COMMA_OR_CBRACE 5 #define ARS_G_LEN_OR_PLUS 6 #define ARS_G_PLUS 7 #define ARS_G_EQUAL 8 struct ars_d_keyword_info { char *ki_keyword; int ki_opt; void *(*ki_add) (struct ars_packet *pkt, int opt); int (*ki_set) (struct ars_packet *pkt, int layer, char *f, char *v); }; #define ARS_DKINFO_SIZE 64 #define BOGUS_SET_F(x) \ int (x)(struct ars_packet *pkt, int layer, char *f, char *v) { return 0; } int ars_d_set_ip(struct ars_packet *pkt, int layer, char *f, char *v); int ars_d_set_udp(struct ars_packet *pkt, int layer, char *f, char *v); int ars_d_set_tcp(struct ars_packet *pkt, int layer, char *f, char *v); int ars_d_set_icmp(struct ars_packet *pkt, int layer, char *f, char *v); int ars_d_set_data(struct ars_packet *pkt, int layer, char *f, char *v); BOGUS_SET_F(ars_d_set_ipopt_sec) BOGUS_SET_F(ars_d_set_ipopt_sid) BOGUS_SET_F(ars_d_set_ipopt_lsrr) BOGUS_SET_F(ars_d_set_ipopt_ssrr) BOGUS_SET_F(ars_d_set_ipopt_rr) BOGUS_SET_F(ars_d_set_ipopt_ts) BOGUS_SET_F(ars_d_set_tcpopt_mss) BOGUS_SET_F(ars_d_set_tcpopt_wscale) BOGUS_SET_F(ars_d_set_tcpopt_sackperm) BOGUS_SET_F(ars_d_set_tcpopt_sack) BOGUS_SET_F(ars_d_set_tcpopt_echo) BOGUS_SET_F(ars_d_set_tcpopt_echoreply) BOGUS_SET_F(ars_d_set_tcpopt_ts) struct ars_d_keyword_info ars_dkinfo[ARS_DKINFO_SIZE] = { /* KEYWORD OPT ADD function SET function * * --------------------------------------------------------- */ {"ip", 0, ars_add_iphdr, ars_d_set_ip}, {"ipopt.eol", ARS_IPOPT_EOL, ars_add_ipopt, NULL}, {"ipopt.nop", ARS_IPOPT_NOP, ars_add_ipopt, NULL}, {"ipopt.sec", ARS_IPOPT_SEC, ars_add_ipopt, ars_d_set_ipopt_sec}, {"ipopt.sid", ARS_IPOPT_SID, ars_add_ipopt, ars_d_set_ipopt_sid}, {"ipopt.lsrr", ARS_IPOPT_LSRR, ars_add_ipopt, ars_d_set_ipopt_lsrr}, {"ipopt.ssrr", ARS_IPOPT_SSRR, ars_add_ipopt, ars_d_set_ipopt_ssrr}, {"ipopt.rr", ARS_IPOPT_RR, ars_add_ipopt, ars_d_set_ipopt_rr}, {"ipopt.ts", ARS_IPOPT_TIMESTAMP, ars_add_ipopt, ars_d_set_ipopt_ts}, {"udp", 0, ars_add_udphdr, ars_d_set_udp}, {"tcp", 0, ars_add_tcphdr, ars_d_set_tcp}, {"tcpopt.end", ARS_TCPOPT_EOL, ars_add_tcpopt, NULL}, {"tcpopt.nop", ARS_TCPOPT_NOP, ars_add_tcpopt, NULL}, {"tcpopt.mss", ARS_TCPOPT_MAXSEG, ars_add_tcpopt, ars_d_set_tcpopt_mss}, {"tcpopt.wscale", ARS_TCPOPT_WINDOW, ars_add_tcpopt, ars_d_set_tcpopt_wscale}, {"tcpopt.sackperm", ARS_TCPOPT_SACK_PERM, ars_add_tcpopt, ars_d_set_tcpopt_sackperm}, {"tcpopt.sack", ARS_TCPOPT_SACK, ars_add_tcpopt, ars_d_set_tcpopt_sack}, {"tcpopt.echo", ARS_TCPOPT_ECHOREQUEST, ars_add_tcpopt, ars_d_set_tcpopt_echo}, {"tcpopt.echoreply", ARS_TCPOPT_ECHOREPLY, ars_add_tcpopt, ars_d_set_tcpopt_echoreply}, {"tcpopt.ts", ARS_TCPOPT_TIMESTAMP, ars_add_tcpopt, ars_d_set_tcpopt_ts}, {"icmp", 0, ars_add_icmphdr, ars_d_set_icmp}, {"data", 0, ars_add_data, ars_d_set_data}, {NULL, 0, NULL, NULL} /* nul term */ }; struct ars_d_keyword_info *ars_get_keyword_by_name(char *name) { struct ars_d_keyword_info *k = ars_dkinfo; while (k->ki_keyword) { if (strcasecmp(k->ki_keyword, name) == 0) return k; k++; } return NULL; } int ars_d_setlayer_size(struct ars_packet *pkt, int layer, char *size) { size_t newsize; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; newsize = ars_atou(size); if (newsize < 1 || newsize > pkt->p_layer[layer].l_size) { ars_set_error(pkt, "Invalid layer size in description"); return -ARS_INVALID; } pkt->p_layer[layer].l_size = newsize; __D(printf("Setting the layer to size %s\n", size);) return -ARS_OK; } int ars_d_set_ip(struct ars_packet *pkt, int layer, char *f, char *v) { struct ars_iphdr *ip; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; ip = pkt->p_layer[layer].l_data; if (strcasecmp(f, "saddr") == 0) { return ars_resolve(pkt, &ip->saddr, v); } else if (strcasecmp(f, "daddr") == 0) { return ars_resolve(pkt, &ip->daddr, v); } else if (strcasecmp(f, "ihl") == 0) { ip->ihl = ars_atou(v); pkt->p_layer[layer].l_flags |= ARS_TAKE_IP_HDRLEN; } else if (strcasecmp(f, "ver") == 0) { ip->version = ars_atou(v); pkt->p_layer[layer].l_flags |= ARS_TAKE_IP_VERSION; } else if (strcasecmp(f, "tos") == 0) { ip->tos = ars_atou(v); } else if (strcasecmp(f, "totlen") == 0) { ip->tot_len = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_IP_TOTLEN; } else if (strcasecmp(f, "id") == 0) { ip->id = htons(ars_atou(v)); } else if (strcasecmp(f, "fragoff") == 0) { ip->frag_off = ip->frag_off & 0xE000; ip->frag_off = htons(ars_atou(v) >> 3); } else if (strcasecmp(f, "mf") == 0) { if (ars_atou(v) == 0) ip->frag_off &= htons(~ARS_IP_MF); else ip->frag_off |= htons(ARS_IP_MF); } else if (strcasecmp(f, "df") == 0) { if (ars_atou(v) == 0) ip->frag_off &= htons(~ARS_IP_DF); else ip->frag_off |= htons(ARS_IP_DF); } else if (strcasecmp(f, "rf") == 0) { if (ars_atou(v) == 0) ip->frag_off &= htons((u_int16_t)~ARS_IP_RF); else ip->frag_off |= htons(ARS_IP_RF); } else if (strcasecmp(f, "ttl") == 0) { ip->ttl = ars_atou(v); } else if (strcasecmp(f, "proto") == 0) { ip->protocol = ars_atou(v); pkt->p_layer[layer].l_flags |= ARS_TAKE_IP_PROTOCOL; } else if (strcasecmp(f, "cksum") == 0) { ip->check = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_IP_CKSUM; } else { ars_set_error(pkt, "Invalid field for IP layer"); return -ARS_INVALID; } return -ARS_OK; } int ars_d_set_udp(struct ars_packet *pkt, int layer, char *f, char *v) { struct ars_udphdr *udp; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; udp = pkt->p_layer[layer].l_data; if (strcasecmp(f, "sport") == 0) { udp->uh_sport = htons(ars_atou(v)); } else if (strcasecmp(f, "dport") == 0) { udp->uh_dport = htons(ars_atou(v)); } else if (strcasecmp(f, "len") == 0) { udp->uh_ulen = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_UDP_LEN; } else if (strcasecmp(f, "cksum") == 0) { udp->uh_sum = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_UDP_CKSUM; } else { ars_set_error(pkt, "Invalid field for UDP layer"); return -ARS_INVALID; } return -ARS_OK; } int ars_d_set_tcp(struct ars_packet *pkt, int layer, char *f, char *v) { struct ars_tcphdr *tcp; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; tcp = pkt->p_layer[layer].l_data; if (strcasecmp(f, "sport") == 0) { tcp->th_sport = htons(ars_atou(v)); } else if (strcasecmp(f, "dport") == 0) { tcp->th_dport = htons(ars_atou(v)); } else if (strcasecmp(f, "seq") == 0) { tcp->th_seq = htonl(ars_atou(v)); } else if (strcasecmp(f, "ack") == 0) { tcp->th_ack = htonl(ars_atou(v)); } else if (strcasecmp(f, "x2") == 0) { tcp->th_x2 = ars_atou(v); } else if (strcasecmp(f, "off") == 0) { tcp->th_off = ars_atou(v); pkt->p_layer[layer].l_flags |= ARS_TAKE_TCP_HDRLEN; } else if (strcasecmp(f, "flags") == 0) { tcp->th_flags = 0; if (strchr(v, 'f') || strchr(v, 'F')) tcp->th_flags |= ARS_TCP_TH_FIN; if (strchr(v, 's') || strchr(v, 'S')) tcp->th_flags |= ARS_TCP_TH_SYN; if (strchr(v, 'r') || strchr(v, 'R')) tcp->th_flags |= ARS_TCP_TH_RST; if (strchr(v, 'p') || strchr(v, 'P')) tcp->th_flags |= ARS_TCP_TH_PUSH; if (strchr(v, 'a') || strchr(v, 'A')) tcp->th_flags |= ARS_TCP_TH_ACK; if (strchr(v, 'u') || strchr(v, 'U')) tcp->th_flags |= ARS_TCP_TH_URG; if (strchr(v, 'x') || strchr(v, 'X')) tcp->th_flags |= ARS_TCP_TH_X; if (strchr(v, 'y') || strchr(v, 'Y')) tcp->th_flags |= ARS_TCP_TH_Y; } else if (strcasecmp(f, "win") == 0) { tcp->th_win = htons(ars_atou(v)); } else if (strcasecmp(f, "cksum") == 0) { tcp->th_sum = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_TCP_CKSUM; } else if (strcasecmp(f, "urp") == 0) { tcp->th_urp = htons(ars_atou(v)); } else { ars_set_error(pkt, "Invalid field for TCP layer"); return -ARS_INVALID; } return -ARS_OK; } int ars_d_set_icmp(struct ars_packet *pkt, int layer, char *f, char *v) { struct ars_icmphdr *icmp; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; icmp = pkt->p_layer[layer].l_data; if (strcasecmp(f, "type") == 0) { icmp->type = ars_atou(v); } else if (strcasecmp(f, "code") == 0) { icmp->code = ars_atou(v); } else if (strcasecmp(f, "cksum") == 0) { icmp->checksum = htons(ars_atou(v)); pkt->p_layer[layer].l_flags |= ARS_TAKE_ICMP_CKSUM; } else if (strcasecmp(f, "id") == 0) { icmp->un.echo.id = htons(ars_atou(v)); } else if (strcasecmp(f, "seq") == 0) { icmp->un.echo.sequence = htons(ars_atou(v)); } else if (strcasecmp(f, "gw") == 0) { return ars_resolve(pkt, &icmp->un.gateway, v); } else { ars_set_error(pkt, "Invalid field for ICMP layer"); return -ARS_INVALID; } return -ARS_OK; } int ars_push_data(struct ars_packet *pkt, int layer, void *data, size_t size) { char *p; int old_size; if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; old_size = pkt->p_layer[layer].l_size; p = realloc(pkt->p_layer[layer].l_data, old_size + size); if (p == NULL) return -ARS_NOMEM; memcpy(p+old_size, data, size); pkt->p_layer[layer].l_data = p; pkt->p_layer[layer].l_size += size; return ARS_OK; } #define ARS_DATA_BUF_SIZE 4096 int ars_d_set_data(struct ars_packet *pkt, int layer, char *f, char *v) { if (layer == ARS_LAST_LAYER) layer = pkt->p_layer_nr - 1; if (ars_valid_layer(layer) != -ARS_OK) return -ARS_INVALID; if (strcasecmp(f, "file") == 0) { int fd, n_read; unsigned char buffer[ARS_DATA_BUF_SIZE]; if ((fd = open(v, O_RDONLY)) == -1) { ars_set_error(pkt, "Can't open the DATA file"); return -ARS_ERROR; } if ((n_read = read(fd, buffer, ARS_DATA_BUF_SIZE)) == -1) { close(fd); ars_set_error(pkt, "Can't read DATA from file"); return -ARS_ERROR; } close(fd); if (n_read == 0) return -ARS_OK; return ars_push_data(pkt, layer, buffer, n_read); } else if (strcasecmp(f, "str") == 0) { return ars_push_data(pkt, layer, v, strlen(v)); } else { ars_set_error(pkt, "Invalid field for DATA layer"); return -ARS_INVALID; } return -ARS_OK; } /* A Finite state machine to build the packet using the description */ int ars_d_build(struct ars_packet *pkt, char *t) { struct ars_d_keyword_info *k = NULL; char next[ARS_MAX_TSIZE]; char field[ARS_MAX_TSIZE]; int state = ARS_G_LAYER; int error; void *p; while ((t = ars_d_parser(t, next, ARS_MAX_TSIZE)) != NULL) { switch(state) { case ARS_G_LAYER: k = ars_get_keyword_by_name(next); if (k == NULL) { ars_set_error(pkt, "Unknown keyword"); return -ARS_INVALID; } __D(printf("Adding a new layer (%s)\n", next);) p = k->ki_add(pkt, k->ki_opt); if (p == NULL) return -ARS_INVALID; state = ARS_G_OBRACE_OR_PLUS; break; case ARS_G_FIELD: strncpy(field, next, ARS_MAX_TSIZE); state = ARS_G_EQUAL; break; case ARS_G_VALUE: if (k->ki_set == NULL) { ars_set_error(pkt, "Field specified for" "a layer that doesn't support fields"); return -ARS_INVALID; } error = k->ki_set(pkt, ARS_LAST_LAYER, field, next); if (error != -ARS_OK) return error; state = ARS_G_COMMA_OR_CBRACE; break; case ARS_G_OBRACE_OR_PLUS: if (next[0] == '{' && next[1] == '\0') { state = ARS_G_FIELD; break; } else if (next[0] == '+' && next[1] == '\0') { state = ARS_G_LAYER; break; } else { ars_set_error(pkt, "Missing brace or plus"); return -ARS_INVALID; } break; case ARS_G_CBRACE: if (next[0] != '}' || next[1] != '\0') { ars_set_error(pkt, "Missing closed brace"); return -ARS_INVALID; } state = ARS_G_LEN_OR_PLUS; break; case ARS_G_COMMA_OR_CBRACE: if (next[0] == '}' && next[1] == '\0') { state = ARS_G_LEN_OR_PLUS; break; } else if (next[0] == ',' && next[1] == '\0') { state = ARS_G_FIELD; break; } else { ars_set_error(pkt, "Missing brace or comma"); return -ARS_INVALID; } break; case ARS_G_LEN_OR_PLUS: if (next[0] == '+' && next[1] == '\0') { state = ARS_G_LAYER; break; } error = ars_d_setlayer_size(pkt, ARS_LAST_LAYER, next); if (error != -ARS_OK) return error; state = ARS_G_PLUS; break; case ARS_G_PLUS: if (next[0] != '+' || next[1] != '\0') { ars_set_error(pkt, "Missing plus"); return -ARS_INVALID; } state = ARS_G_LAYER; break; case ARS_G_EQUAL: if (next[0] != '=' || next[1] != '\0') { ars_set_error(pkt, "Missing equal"); return -ARS_INVALID; } state = ARS_G_VALUE; break; } } if (state != ARS_G_LEN_OR_PLUS && state != ARS_G_PLUS && state != ARS_G_OBRACE_OR_PLUS) { ars_set_error(pkt, "Packet description truncated"); return -ARS_INVALID; } return -ARS_OK; }