hping3/waitpacket.c

850 lines
21 KiB
C
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2022-04-13 18:01:39 +08:00
/* waitpacket.c -- handle and print the incoming packet
* Copyright(C) 1999-2001 Salvatore Sanfilippo
* Under GPL, see the COPYING file for more information about
* the license. */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <errno.h>
#include <time.h>
#include <ctype.h>
#include <unistd.h>
#include "hping2.h"
#include "globals.h"
static int icmp_unreach_rtt(void *quoted_ip, int size,
int *seqp, float *ms_delay);
static void print_tcp_timestamp(void *tcp, int tcpsize);
static int recv_icmp(void *packet, size_t size);
static int recv_udp(void *packet, size_t size);
static int recv_tcp(void *packet, size_t size);
static void hex_dump(void *packet, int size);
static void human_dump(void *packet, int size);
static void handle_hcmp(char *packet, int size);
static struct myiphdr *ip;
static struct myip6hdr *ip6;
static int ip_size;
static struct in_addr src, dst;
static struct in6_addr src6, dst6;
static int handle_ipv4(char *ip_packet, int ip_size);
static int handle_ipv6(char *ip_packet, int ip_size);
static int icmp6_unreach_rtt(void *quoted_ip, int size, int *seqp, float *ms_delay);
static int icmp_unreach_rtt(void *quoted_ip, int size, int *seqp, float *ms_delay);
static int notrace;
void wait_packet(void)
{
int match = 0;
int size;
char packet [IP_MAX_SIZE+linkhdr_size];
char *ip_packet;
size = read_packet(packet, IP_MAX_SIZE+linkhdr_size);
switch(size) {
case 0:
return;
case -1:
exit(1);
}
/* Check if the packet is shorter than the link header size */
if (size < linkhdr_size) {
if (opt_debug)
printf("DEBUG: WARNING: packet size(%i) < linkhdr_size(%i)\n",
size, linkhdr_size);
return;
}
/* IP packet pointer and len */
ip_packet = packet + linkhdr_size;
ip_size = size - linkhdr_size;
/* Truncated IP header? */
if ((!opt_ipv6 && ip_size < IPHDR_SIZE) ||
(opt_ipv6 && ip_size < IP6HDR_SIZE)) {
if (opt_debug)
printf("[|ip fix]\n");
return;
}
ip = (struct myiphdr*)(packet+linkhdr_size);
if(ip->version == 4 && !opt_ipv6)
match = handle_ipv4(ip_packet, ip_size);
else if(ip->version == 6 && opt_ipv6)
{
ip6 = (struct myip6hdr*)(packet+linkhdr_size);
match = handle_ipv6(ip_packet, ip_size);
}
if (match)
recv_pkt++;
/* Dump the packet in hex */
if (opt_hexdump && match && !opt_quiet)
hex_dump(ip_packet, ip_size);
/* Dump printable characters inside the packet */
if (opt_contdump && match && !opt_quiet)
human_dump(ip_packet, ip_size);
/* Display IP options */
if (match && opt_rroute && !opt_quiet && !opt_ipv6)
display_ipopt(ip_packet);
/* --tr-stop stops hping in traceroute mode when the
* first not ICMP time exceeded packet is received */
if (opt_traceroute && opt_tr_stop && notrace)
print_statistics(0);
/* if the count was reached exit now */
if (count != -1 && count == recv_pkt)
print_statistics(0);
}
static int
handle_ipv4(char *ip_packet, int ip_size)
{
int iphdr_size, enc_size;
char *enc_packet;
iphdr_size = ip->ihl * 4;
/* Bad IP header len? */
if (iphdr_size > ip_size) {
if (opt_debug)
printf("[|iphdr size]\n");
return 0;
}
/* Handle the HCMP for almost safe file transfer with hping */
if (opt_sign)
handle_hcmp(ip_packet, ip_size);
/* Check if the dest IP address is the one of our interface */
if (memcmp(&ip->daddr, &ADDR4(&local), sizeof(ip->daddr)))
return 0;
/* If the packet isn't an ICMP error it should come from
* our target IP addresss. We accept packets from all the
* source if the random destination option is active */
if (ip->protocol != IPPROTO_ICMP && !opt_rand_dest) {
if (memcmp(&ip->saddr, &ADDR4(&remote), sizeof(ip->saddr)))
return 0;
}
/* Get the encapsulated protocol offset and size */
enc_packet = ip_packet + iphdr_size;
enc_size = ip_size - iphdr_size;
/* Put the IP source and dest addresses in a struct in_addr */
memcpy(&src, &(ip->saddr), sizeof(struct in_addr));
memcpy(&dst, &(ip->daddr), sizeof(struct in_addr));
switch(ip->protocol) {
case IPPROTO_ICMP:
return recv_icmp(enc_packet, enc_size);
break;
case IPPROTO_UDP:
return recv_udp(enc_packet, enc_size);
break;
case IPPROTO_TCP:
return recv_tcp(enc_packet, enc_size);
break;
default:
return 0;
}
}
static int
handle_ipv6(char *ip_packet, int ip_size)
{
int enc_size;
char *enc_packet;
/* Check if the dest IP address is the one of our interface */
if (memcmp(ip6->daddr, &ADDR6(&local), 16))
return 0;
/* If the packet isn't an ICMP error it should come from
* our target IP addresss. We accept packets from all the
* source if the random destination option is active */
if (ip6->nextheader != 58 && !opt_rand_dest) {
if (memcmp(ip6->saddr, &ADDR6(&remote), 16))
return 0;
}
/* Get the encapsulated protocol offset and size */
enc_packet = ip_packet + sizeof(*ip6);
enc_size = ip_size - sizeof(*ip6);
/* Put the IP source and dest addresses in a struct in_addr */
memcpy(&src6, ip6->saddr, sizeof(struct in6_addr));
memcpy(&dst6, ip6->daddr, sizeof(struct in6_addr));
switch(ip6->nextheader) {
case 58:
return recv_icmp6(enc_packet, enc_size);
break;
case IPPROTO_UDP:
return recv_udp(enc_packet, enc_size);
break;
case IPPROTO_TCP:
return recv_tcp(enc_packet, enc_size);
break;
default:
printf("xx %i\n", ip6->nextheader);
}
return 0;
}
static void
log_ipv4(int status, int sequence)
{
int rel_id, ip_id;
/* get ip->id */
if (opt_winid_order)
ip_id = ip->id;
else
ip_id = htons(ip->id);
if (opt_relid)
rel_id = relativize_id(sequence, &ip_id);
else
rel_id = 0;
printf("len=%d ip=%s ttl=%d %sid%s%d ", ip_size, inet_ntoa(src),
ip->ttl,
(ntohs(ip->frag_off) ? "DF " : ""),
(rel_id ? "=+" : "="), ip_id);
if (opt_verbose && !opt_quiet)
printf("tos=%x iplen=%u\n", ip->tos, htons(ip->tot_len));
}
static void
log_ipv6(int status, int sequence)
{
char tmp[1024];
printf("len=%d ip=%s ttl=%d ", ip_size, inet_ntop(opt_af, &src6, tmp, sizeof(tmp)),
ip6->hoplimit);
if (opt_verbose && !opt_quiet)
printf("tc=%x flowlabel=%u\n", (ip6->tc1 << 4) | ip6->tc2, (ip6->flowlabel1 << 16) | ip6->flowlabel2);
}
static void
log_ip(int status, int sequence)
{
if(status == S_RECV)
printf("DUP! ");
if(ip->version == 4)
log_ipv4(status, sequence);
else
log_ipv6(status, sequence);
}
void log_icmp_ts(void *ts)
{
struct icmp_tstamp_data icmp_tstamp;
memcpy(&icmp_tstamp, ts, sizeof(icmp_tstamp));
printf("ICMP timestamp: Originate=%u Receive=%u Transmit=%u\n",
(unsigned int) ntohl(icmp_tstamp.orig),
(unsigned int) ntohl(icmp_tstamp.recv),
(unsigned int) ntohl(icmp_tstamp.tran));
printf("ICMP timestamp RTT tsrtt=%lu\n\n",
(long unsigned int) (get_midnight_ut_ms()
- ntohl(icmp_tstamp.orig)));
}
void log_icmp_addr(void *addrptr)
{
unsigned char *addr = addrptr;
printf("ICMP address mask: icmpam=%u.%u.%u.%u\n\n",
addr[0], addr[1], addr[2], addr[3]);
}
void log_traceroute(void *packet, int size, int icmp_code)
{
static __u8 old_src_addr[16];
int sequence = 0, retval;
float rtt;
char tmp[1024];
if (!opt_ipv6 && !opt_tr_keep_ttl && !memcmp(&ip->saddr, old_src_addr, 4))
return;
if (opt_ipv6 && !opt_tr_keep_ttl && !memcmp(&ip6->saddr, old_src_addr, 16))
return;
if(opt_ipv6)
retval = icmp6_unreach_rtt(packet+ICMPHDR_SIZE, size-ICMPHDR_SIZE,
&sequence, &rtt);
else
retval = icmp_unreach_rtt(packet+ICMPHDR_SIZE, size-ICMPHDR_SIZE,
&sequence, &rtt);
printf("hop=%d ", src_ttl);
fflush(stdout);
if(!opt_ipv6)
{
memcpy(old_src_addr, &ip->saddr, sizeof(ip->saddr));
log_icmp_timeexc(inet_ntop(opt_af, &src, tmp, sizeof(tmp)), icmp_code);
}
else
{
memcpy(old_src_addr, ip6->saddr, sizeof(ip6->saddr));
log_icmp_timeexc(inet_ntop(opt_af, &src6, tmp, sizeof(tmp)), icmp_code);
}
if (retval != -1)
printf(" hoprtt=%.1f ms", rtt);
if (!opt_tr_keep_ttl)
src_ttl++;
putchar('\n');
}
int recv_icmp(void *packet, size_t size)
{
struct myicmphdr *icmp;
struct myiphdr quoted_ip;
/* Check if the packet can contain the ICMP header */
if (size < ICMPHDR_SIZE) {
printf("[|icmp]\n");
return 0;
}
icmp = (struct myicmphdr *)packet;
/* --------------------------- *
* ICMP ECHO/TIMESTAMP/ADDRESS *
* --------------------------- */
if ((icmp->type == ICMP_ECHOREPLY ||
icmp->type == ICMP_TIMESTAMPREPLY ||
icmp->type == ICMP_ADDRESSREPLY) &&
icmp->un.echo.id == (getpid() & 0xffff))
{
int icmp_seq = icmp->un.echo.sequence;
int status;
float ms_delay;
/* obtain round trip time */
status = rtt(&icmp_seq, 0, &ms_delay);
log_ip(status, icmp_seq);
printf("icmp_seq=%d rtt=%.1f ms\n", icmp_seq, ms_delay);
if (icmp->type == ICMP_TIMESTAMPREPLY) {
if ((size - ICMPHDR_SIZE) >= 12)
log_icmp_ts(packet+ICMPHDR_SIZE);
else
printf("[|icmp timestamp]\n");
} else if (icmp->type == ICMP_ADDRESSREPLY) {
if ((size - ICMPHDR_SIZE) >= 4)
log_icmp_addr(packet+ICMPHDR_SIZE);
else
printf("[|icmp subnet address]\n");
}
notrace = 1;
return 1;
}
/* ------------------------------------ *
* ICMP DEST UNREACHABLE, TIME EXCEEDED *
* ------------------------------------ */
else if (icmp->type == 3 || icmp->type == 11) {
if ((size - ICMPHDR_SIZE) < sizeof(struct myiphdr)) {
printf("[|icmp quoted ip]\n");
return 0;
}
memcpy(&quoted_ip, packet+ICMPHDR_SIZE, sizeof(quoted_ip));
if (memcmp(&quoted_ip.daddr, &ADDR4(&remote),
sizeof(quoted_ip.daddr)) ||
memcmp(&ip->daddr, &ADDR4(&local), sizeof(ip->daddr)))
return 0; /* addresses don't match */
/* Now we can handle the specific type */
switch(icmp->type) {
case 3:
if (!opt_quiet)
log_icmp_unreach(inet_ntoa(src), icmp->code);
notrace = 1;
return 1;
case 11:
if (opt_traceroute)
log_traceroute(packet, size, icmp->code);
else
{
log_icmp_timeexc(inet_ntoa(src), icmp->code);
putchar('\n');
notrace = 1;
}
return 1;
}
}
return 0; /* don't match */
}
int recv_icmp6(void *packet, size_t size)
{
struct myicmphdr *icmp;
struct myip6hdr *quoted_ip;
char tmp[1024];
/* Check if the packet can contain the ICMP header */
if (size < ICMPHDR_SIZE) {
printf("[|icmp]\n");
return 0;
}
icmp = (struct myicmphdr *)packet;
/* --------------------------- *
* ICMP ECHO/TIMESTAMP/ADDRESS *
* --------------------------- */
if (icmp->type == ICMP6_ECHOREPLY &&
icmp->un.echo.id == (getpid() & 0xffff))
{
int icmp_seq = icmp->un.echo.sequence;
int status;
float ms_delay;
/* obtain round trip time */
status = rtt(&icmp_seq, 0, &ms_delay);
log_ip(status, icmp_seq);
printf("icmp_seq=%d rtt=%.1f ms\n", icmp_seq, ms_delay);
notrace = 1;
return 1;
}
/* ------------------------------------ *
* ICMP DEST UNREACHABLE, TIME EXCEEDED *
* ------------------------------------ */
if ((size - ICMPHDR_SIZE) < sizeof(struct myip6hdr)) {
printf("[|icmp quoted ip]\n");
return 0;
}
quoted_ip = (struct myip6hdr *)(packet + ICMPHDR_SIZE);
if(memcmp(quoted_ip->daddr, &ADDR6(&remote),
sizeof(quoted_ip->daddr)) ||
memcmp(ip6->daddr, &ADDR6(&local), sizeof(ip6->daddr)))
return 0; /* addresses don't match */
/* Now we can handle the specific type */
switch(icmp->type) {
case 1:
if (!opt_quiet)
log_icmp6_unreach(inet_ntop(opt_af, &src6, tmp, sizeof(tmp)), icmp->code);
notrace = 1;
return 1;
case 2:
if (!opt_quiet)
log_icmp6_ptb(inet_ntop(opt_af, &src6, tmp, sizeof(tmp)), ntohl(icmp->un.mtu));
notrace = 1;
return 1;
case 3:
if (opt_traceroute)
log_traceroute(packet, size, icmp->code);
else
{
log_icmp_timeexc(inet_ntop(opt_af, &src6, tmp, sizeof(tmp)), icmp->code);
putchar('\n');
notrace = 1;
}
return 1;
}
return 0; /* don't match */
}
int recv_udp(void *packet, size_t size)
{
struct myudphdr udp;
int sequence = 0, status;
float ms_delay;
if (size < UDPHDR_SIZE) {
printf("[|udp]\n");
return 0;
}
memcpy(&udp, packet, sizeof(udp));
/* check if the packet matches */
if ((ntohs(udp.uh_sport) == dst_port) ||
(opt_force_incdport &&
(ntohs(udp.uh_sport) >= base_dst_port &&
ntohs(udp.uh_sport) <= dst_port)))
{
status = rtt(&sequence, ntohs(udp.uh_dport), &ms_delay);
if (!opt_quiet) {
log_ip(status, sequence);
printf("seq=%d rtt=%.1f ms\n", sequence, ms_delay);
}
if (opt_incdport && !opt_force_incdport)
dst_port++;
notrace = 1;
return 1;
}
return 0;
}
int recv_tcp(void *packet, size_t size)
{
struct mytcphdr tcp;
int sequence = 0, status;
float ms_delay;
char flags[16];
if (size < TCPHDR_SIZE) {
printf("[|tcp]\n");
return 0;
}
memcpy(&tcp, packet, sizeof(tcp));
/* check if the packet matches */
if ((ntohs(tcp.th_sport) == dst_port) ||
(opt_force_incdport &&
(ntohs(tcp.th_sport) >= base_dst_port &&
ntohs(tcp.th_sport) <= dst_port)))
{
tcp_exitcode = tcp.th_flags;
status = rtt(&sequence, ntohs(tcp.th_dport), &ms_delay);
if (opt_seqnum) {
static __u32 old_th_seq = 0;
__u32 seq_diff, tmp;
tmp = ntohl(tcp.th_seq);
if (tmp >= old_th_seq)
seq_diff = tmp - old_th_seq;
else
seq_diff = (4294967295U - old_th_seq)
+ tmp;
old_th_seq = tmp;
printf("%10lu +%lu\n",
(unsigned long) tmp,
(unsigned long) seq_diff);
goto out;
}
if (opt_quiet)
goto out;
flags[0] = '\0';
if (tcp.th_flags & TH_RST) strcat(flags, "R");
if (tcp.th_flags & TH_SYN) strcat(flags, "S");
if (tcp.th_flags & TH_ACK) strcat(flags, "A");
if (tcp.th_flags & TH_FIN) strcat(flags, "F");
if (tcp.th_flags & TH_PUSH) strcat(flags, "P");
if (tcp.th_flags & TH_URG) strcat(flags, "U");
if (tcp.th_flags & TH_X) strcat(flags, "X");
if (tcp.th_flags & TH_Y) strcat(flags, "Y");
if (flags[0] == '\0') strcat(flags, "none");
log_ip(status, sequence);
printf("sport=%d flags=%s seq=%d win=%d rtt=%.1f ms\n",
ntohs(tcp.th_sport), flags, sequence,
ntohs(tcp.th_win), ms_delay);
if (opt_verbose) {
printf("seq=%lu ack=%lu sum=%x urp=%u\n\n",
(unsigned long) ntohl(tcp.th_seq),
(unsigned long) ntohl(tcp.th_ack),
tcp.th_sum, ntohs(tcp.th_urp));
}
/* Get and log the TCP timestamp */
if (opt_tcp_timestamp)
print_tcp_timestamp(packet, size);
out:
if (opt_incdport && !opt_force_incdport)
dst_port++;
notrace = 1;
return 1;
}
return 0;
}
/* Try to extract information about the original packet from the
* ICMP error to obtain the round time trip
*
* Note that size is the the packet size starting from the
* IP packet quoted in the ICMP error, it may be negative
* if the ICMP is broken */
static int
icmp_unreach_rtt(void *quoted_ip, int size, int *seqp, float *ms_delay)
{
int src_port;
int sequence = 0;
int quoted_iphdr_size;
struct myudphdr udp;
struct myicmphdr icmp;
struct myiphdr qip;
/* The user specified --no-rtt */
if (opt_tr_no_rtt)
return -1;
if (size < sizeof(struct myiphdr))
return -1;
memcpy(&qip, quoted_ip, sizeof(struct myiphdr));
quoted_iphdr_size = qip.ihl << 2;
/* Ok, enough room, try to get the rtt,
* but check if the original packet was an UDP/TCP one */
if (qip.protocol == IPPROTO_TCP ||
qip.protocol == IPPROTO_UDP) {
/* We need at least 2 bytes of the quoted UDP/TCP header
* for the source port */
if ((size - quoted_iphdr_size) < 2)
return -1;
/* Use the UDP header for both UDP and TCP, they are
* the same in the 4 first bytes (source and dest port) */
memcpy(&udp, quoted_ip+quoted_iphdr_size, sizeof(udp));
src_port = htons(udp.uh_sport);
return rtt(&sequence, src_port, ms_delay);
} else if (qip.protocol == IPPROTO_ICMP) {
int s;
/* We need the whole 8 byte ICMP header to get
* the sequence field, also the type must be
* ICMP_ECHO */
memcpy(&icmp, quoted_ip+quoted_iphdr_size, sizeof(icmp));
if ((size - quoted_iphdr_size) < 8 ||
icmp.type != ICMP_ECHO)
return -1;
s = icmp.un.echo.sequence;
return rtt(&s, 0, ms_delay);
}
return -1; /* no way */
}
static int
icmp6_unreach_rtt(void *quoted_ip, int size, int *seqp, float *ms_delay)
{
int src_port;
int sequence = 0;
struct myudphdr udp;
struct myicmphdr icmp;
struct myip6hdr *qip;
/* The user specified --no-rtt */
if (opt_tr_no_rtt)
return -1;
if (size < sizeof(struct myip6hdr))
return -1;
qip = (struct myip6hdr *)quoted_ip;
/* Ok, enough room, try to get the rtt,
* but check if the original packet was an UDP/TCP one */
if (qip->nextheader == IPPROTO_TCP ||
qip->nextheader == IPPROTO_UDP) {
/* We need at least 2 bytes of the quoted UDP/TCP header
* for the source port */
if ((size - IP6HDR_SIZE) < 2)
return -1;
/* Use the UDP header for both UDP and TCP, they are
* the same in the 4 first bytes (source and dest port) */
memcpy(&udp, quoted_ip + IP6HDR_SIZE, sizeof(udp));
src_port = htons(udp.uh_sport);
return rtt(&sequence, src_port, ms_delay);
} else if (qip->nextheader == 58) {
int s;
/* We need the whole 8 byte ICMP header to get
* the sequence field, also the type must be
* ICMP_ECHO */
memcpy(&icmp, quoted_ip + IP6HDR_SIZE, sizeof(icmp));
if ((size - IP6HDR_SIZE) < 8 ||
icmp.type != ICMP6_ECHO)
return -1;
s = icmp.un.echo.sequence;
return rtt(&s, 0, ms_delay);
}
return -1; /* no way */
}
void print_tcp_timestamp(void *tcp, int tcpsize)
{
int optlen;
unsigned char *opt;
__u32 tstamp, echo;
static __u32 last_tstamp = 0;
struct mytcphdr tmptcphdr;
unsigned int tcphdrlen;
if (tcpsize < TCPHDR_SIZE)
return;
memcpy(&tmptcphdr, tcp, sizeof(struct mytcphdr));
tcphdrlen = tmptcphdr.th_off * 4;
/* bad len or no options in the TCP header */
if (tcphdrlen <= 20 || tcphdrlen < tcpsize)
return;
optlen = tcphdrlen - TCPHDR_SIZE;
opt = (unsigned char*)tcp + TCPHDR_SIZE; /* skips the TCP fix header */
while(optlen) {
switch(*opt) {
case 0: /* end of option */
return;
case 1: /* noop */
opt++;
optlen--;
continue;
default:
if (optlen < 2)
return;
if (opt[1] > optlen)
return;
if (opt[0] != 8) { /* not timestamp */
optlen -= opt[1];
opt += opt[1];
continue;
}
/* timestamp found */
if (opt[1] != 10) /* bad len */
return;
memcpy(&tstamp, opt+2, 4);
memcpy(&echo, opt+6, 4);
tstamp = ntohl(tstamp);
echo = ntohl(echo);
goto found;
}
}
found:
printf(" TCP timestamp: tcpts=%u\n", tstamp);
if (last_tstamp && !opt_waitinusec) {
int tsdiff = (tstamp - last_tstamp) / sending_wait;
int hz_set[] = { 2, 10, 100, 1000, 0 };
int hzdiff = -1;
int hz = 0, sec;
int days, hours, minutes;
if (tsdiff > 0) {
int i = 0;
while(hz_set[i]) {
if (hzdiff == -1) {
hzdiff = ABS(tsdiff-hz_set[i]);
hz = hz_set[i];
} else if (hzdiff > ABS(tsdiff-hz_set[i])) {
hzdiff = ABS(tsdiff-hz_set[i]);
hz = hz_set[i];
}
i++;
}
printf(" HZ seems hz=%d\n", hz);
sec = tstamp/hz; /* Get the uptime in seconds */
days = sec / (3600*24);
sec %= 3600*24;
hours = sec / 3600;
sec %= 3600;
minutes = sec / 60;
sec %= 60;
printf(" System uptime seems: %d days, %d hours, "
"%d minutes, %d seconds\n",
days, hours, minutes, sec);
}
}
printf("\n");
last_tstamp = tstamp;
}
/* This function is exported to listen.c also */
int read_packet(void *packet, int size)
{
#if (!defined OSTYPE_LINUX) || (defined FORCE_LIBPCAP)
size = pcap_recv(packet, size);
if (size == -1)
perror("[wait_packet] pcap_recv()");
#else
size = recv(sockpacket, packet, size, 0);
if (size == -1) {
if (errno != EINTR)
perror("[wait_packet] recv");
else
return 0;
}
#endif
return size;
}
void hex_dump(void *packet, int size)
{
unsigned char *byte = packet;
int count = 0;
printf("\t\t");
for (; byte < (unsigned char*) (packet+size); byte++) {
count++;
printf("%02x", *byte);
if (count % 2 == 0) printf(" ");
if (count % 16 == 0) printf("\n\t\t");
}
printf("\n\n");
}
void human_dump(void *packet, int size)
{
unsigned char *byte = packet;
int count = 0;
printf("\t\t");
for (; byte < (unsigned char*) (packet+size); byte++) {
count ++;
if (isprint(*byte))
printf("%c", *byte);
else
printf(".");
if (count % 32 == 0) printf("\n\t\t");
}
printf("\n\n");
}
void handle_hcmp(char *packet, int size)
{
char *p;
struct hcmphdr hcmph;
unsigned int seq;
/* Search for the reverse signature inside the packet */
if ((p = memstr(packet, rsign, size)) == NULL)
return;
if (opt_debug)
fprintf(stderr, "DEBUG: HCMP received\n");
p+=strlen(rsign);
if ((size-(packet-p)) < sizeof(struct hcmphdr)) {
if (opt_verbose || opt_debug)
fprintf(stderr, "bad HCMP len received\n");
return;
}
memcpy(&hcmph, p, sizeof(hcmph));
switch(hcmph.type) {
case HCMP_RESTART:
seq = ntohs(hcmph.typedep.seqnum);
src_id = seq; /* set the id */
datafiller(NULL, seq); /* data seek */
if (opt_debug)
printf("DEBUG: HCMP restart from %d\n",
seq);
return;
case HCMP_SOURCE_QUENCH:
case HCMP_SOURCE_STIRUP:
printf("HCMP source quench/stirup received\n");
return;
default:
if (opt_verbose || opt_debug)
fprintf(stderr, "bad HCMP type received\n");
return;
}
}