mirror of
https://github.com/bol-van/zapret.git
synced 2024-11-14 18:48:33 +05:00
417 lines
12 KiB
C
417 lines
12 KiB
C
#include "conntrack.h"
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#include "darkmagic.h"
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#include <arpa/inet.h>
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#include <stdio.h>
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#undef uthash_nonfatal_oom
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#define uthash_nonfatal_oom(elt) ut_oom_recover(elt)
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static bool oom = false;
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static void ut_oom_recover(void *elem)
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{
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oom = true;
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}
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const char *l7proto_str(t_l7proto l7)
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{
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switch(l7)
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{
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case HTTP: return "http";
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case TLS: return "tls";
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case QUIC: return "quic";
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case WIREGUARD: return "wireguard";
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case DHT: return "dht";
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default: return "unknown";
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}
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}
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bool l7_proto_match(t_l7proto l7proto, uint32_t filter_l7)
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{
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return (l7proto==UNKNOWN && (filter_l7 & L7_PROTO_UNKNOWN)) ||
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(l7proto==HTTP && (filter_l7 & L7_PROTO_HTTP)) ||
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(l7proto==TLS && (filter_l7 & L7_PROTO_TLS)) ||
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(l7proto==QUIC && (filter_l7 & L7_PROTO_QUIC)) ||
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(l7proto==WIREGUARD && (filter_l7 & L7_PROTO_WIREGUARD)) ||
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(l7proto==DHT && (filter_l7 & L7_PROTO_DHT));
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}
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static const char *connstate_s[]={"SYN","ESTABLISHED","FIN"};
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static void connswap(const t_conn *c, t_conn *c2)
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{
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memset(c2,0,sizeof(*c2));
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c2->l3proto = c->l3proto;
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c2->l4proto = c->l4proto;
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c2->src = c->dst;
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c2->dst = c->src;
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c2->sport = c->dport;
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c2->dport = c->sport;
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}
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void ConntrackClearHostname(t_ctrack *track)
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{
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if (track->hostname)
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{
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free(track->hostname);
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track->hostname = NULL;
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}
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}
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static void ConntrackClearTrack(t_ctrack *track)
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{
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ConntrackClearHostname(track);
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ReasmClear(&track->reasm_orig);
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rawpacket_queue_destroy(&track->delayed);
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}
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static void ConntrackFreeElem(t_conntrack_pool *elem)
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{
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ConntrackClearTrack(&elem->track);
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free(elem);
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}
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static void ConntrackPoolDestroyPool(t_conntrack_pool **pp)
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{
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t_conntrack_pool *elem, *tmp;
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HASH_ITER(hh, *pp, elem, tmp) { HASH_DEL(*pp, elem); ConntrackFreeElem(elem); }
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}
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void ConntrackPoolDestroy(t_conntrack *p)
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{
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ConntrackPoolDestroyPool(&p->pool);
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}
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void ConntrackPoolInit(t_conntrack *p, time_t purge_interval, uint32_t timeout_syn, uint32_t timeout_established, uint32_t timeout_fin, uint32_t timeout_udp)
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{
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p->timeout_syn = timeout_syn;
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p->timeout_established = timeout_established;
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p->timeout_fin = timeout_fin;
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p->timeout_udp= timeout_udp;
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p->t_purge_interval = purge_interval;
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time(&p->t_last_purge);
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p->pool = NULL;
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}
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void ConntrackExtractConn(t_conn *c, bool bReverse, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr)
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{
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memset(c,0,sizeof(*c));
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if (ip)
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{
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c->l3proto = IPPROTO_IP;
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c->dst.ip = bReverse ? ip->ip_src : ip->ip_dst;
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c->src.ip = bReverse ? ip->ip_dst : ip->ip_src;
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}
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else if (ip6)
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{
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c->l3proto = IPPROTO_IPV6;
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c->dst.ip6 = bReverse ? ip6->ip6_src : ip6->ip6_dst;
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c->src.ip6 = bReverse ? ip6->ip6_dst : ip6->ip6_src;
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}
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else
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c->l3proto = -1;
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extract_ports(tcphdr, udphdr, &c->l4proto, bReverse ? &c->dport : &c->sport, bReverse ? &c->sport : &c->dport);
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}
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static t_conntrack_pool *ConntrackPoolSearch(t_conntrack_pool *p, const t_conn *c)
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{
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t_conntrack_pool *t;
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HASH_FIND(hh, p, c, sizeof(*c), t);
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return t;
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}
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static void ConntrackInitTrack(t_ctrack *t)
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{
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memset(t,0,sizeof(*t));
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t->scale_orig = t->scale_reply = SCALE_NONE;
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time(&t->t_start);
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rawpacket_queue_init(&t->delayed);
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}
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static void ConntrackReInitTrack(t_ctrack *t)
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{
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ConntrackClearTrack(t);
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ConntrackInitTrack(t);
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}
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static t_conntrack_pool *ConntrackNew(t_conntrack_pool **pp, const t_conn *c)
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{
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t_conntrack_pool *ctnew;
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if (!(ctnew = malloc(sizeof(*ctnew)))) return NULL;
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ctnew->conn = *c;
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oom = false;
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HASH_ADD(hh, *pp, conn, sizeof(*c), ctnew);
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if (oom) { free(ctnew); return NULL; }
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ConntrackInitTrack(&ctnew->track);
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return ctnew;
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}
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// non-tcp packets are passed with tcphdr=NULL but len_payload filled
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static void ConntrackFeedPacket(t_ctrack *t, bool bReverse, const struct tcphdr *tcphdr, uint32_t len_payload)
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{
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uint8_t scale;
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if (bReverse)
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{
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t->pcounter_reply++;
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t->pdcounter_reply+=!!len_payload;
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}
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else
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{
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t->pcounter_orig++;
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t->pdcounter_orig+=!!len_payload;
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}
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if (tcphdr)
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{
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if (tcp_syn_segment(tcphdr))
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{
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if (t->state!=SYN) ConntrackReInitTrack(t); // erase current entry
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t->seq0 = ntohl(tcphdr->th_seq);
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}
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else if (tcp_synack_segment(tcphdr))
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{
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if (t->state!=SYN) ConntrackReInitTrack(t); // erase current entry
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if (!t->seq0) t->seq0 = ntohl(tcphdr->th_ack)-1;
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t->ack0 = ntohl(tcphdr->th_seq);
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}
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else if (tcphdr->th_flags & (TH_FIN|TH_RST))
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{
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t->state = FIN;
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}
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else
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{
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if (t->state==SYN)
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{
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t->state=ESTABLISHED;
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if (!bReverse && !t->ack0) t->ack0 = ntohl(tcphdr->th_ack)-1;
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}
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}
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scale = tcp_find_scale_factor(tcphdr);
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if (bReverse)
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{
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t->pos_orig = t->seq_last = ntohl(tcphdr->th_ack);
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t->ack_last = ntohl(tcphdr->th_seq);
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t->pos_reply = t->ack_last + len_payload;
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t->winsize_reply = ntohs(tcphdr->th_win);
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if (scale!=SCALE_NONE) t->scale_reply = scale;
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}
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else
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{
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t->seq_last = ntohl(tcphdr->th_seq);
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t->pos_orig = t->seq_last + len_payload;
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t->pos_reply = t->ack_last = ntohl(tcphdr->th_ack);
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t->winsize_orig = ntohs(tcphdr->th_win);
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if (scale!=SCALE_NONE) t->scale_orig = scale;
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}
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}
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else
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{
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if (bReverse)
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{
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t->ack_last=t->pos_reply;
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t->pos_reply+=len_payload;
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}
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else
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{
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t->seq_last=t->pos_orig;
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t->pos_orig+=len_payload;
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}
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}
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time(&t->t_last);
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}
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static bool ConntrackPoolDoubleSearchPool(t_conntrack_pool **pp, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr, t_ctrack **ctrack, bool *bReverse)
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{
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t_conn conn,connswp;
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t_conntrack_pool *ctr;
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ConntrackExtractConn(&conn,false,ip,ip6,tcphdr,udphdr);
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if ((ctr=ConntrackPoolSearch(*pp,&conn)))
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{
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if (bReverse) *bReverse = false;
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if (ctrack) *ctrack = &ctr->track;
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return true;
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}
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else
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{
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connswap(&conn,&connswp);
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if ((ctr=ConntrackPoolSearch(*pp,&connswp)))
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{
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if (bReverse) *bReverse = true;
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if (ctrack) *ctrack = &ctr->track;
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return true;
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}
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}
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return false;
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}
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bool ConntrackPoolDoubleSearch(t_conntrack *p, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr, t_ctrack **ctrack, bool *bReverse)
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{
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return ConntrackPoolDoubleSearchPool(&p->pool, ip, ip6, tcphdr, udphdr, ctrack, bReverse);
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}
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static bool ConntrackPoolFeedPool(t_conntrack_pool **pp, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr, size_t len_payload, t_ctrack **ctrack, bool *bReverse)
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{
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t_conn conn, connswp;
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t_conntrack_pool *ctr;
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bool b_rev;
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ConntrackExtractConn(&conn,false,ip,ip6,tcphdr,udphdr);
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if ((ctr=ConntrackPoolSearch(*pp,&conn)))
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{
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ConntrackFeedPacket(&ctr->track, (b_rev=false), tcphdr, len_payload);
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goto ok;
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}
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else
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{
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connswap(&conn,&connswp);
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if ((ctr=ConntrackPoolSearch(*pp,&connswp)))
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{
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ConntrackFeedPacket(&ctr->track, (b_rev=true), tcphdr, len_payload);
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goto ok;
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}
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}
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b_rev = tcphdr && tcp_synack_segment(tcphdr);
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if ((tcphdr && tcp_syn_segment(tcphdr)) || b_rev || udphdr)
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{
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if ((ctr=ConntrackNew(pp, b_rev ? &connswp : &conn)))
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{
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ConntrackFeedPacket(&ctr->track, b_rev, tcphdr, len_payload);
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goto ok;
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}
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}
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return false;
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ok:
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if (ctrack) *ctrack = &ctr->track;
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if (bReverse) *bReverse = b_rev;
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return true;
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}
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bool ConntrackPoolFeed(t_conntrack *p, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr, size_t len_payload, t_ctrack **ctrack, bool *bReverse)
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{
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return ConntrackPoolFeedPool(&p->pool,ip,ip6,tcphdr,udphdr,len_payload,ctrack,bReverse);
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}
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static bool ConntrackPoolDropPool(t_conntrack_pool **pp, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr)
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{
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t_conn conn, connswp;
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t_conntrack_pool *t;
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ConntrackExtractConn(&conn,false,ip,ip6,tcphdr,udphdr);
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if (!(t=ConntrackPoolSearch(*pp,&conn)))
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{
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connswap(&conn,&connswp);
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t=ConntrackPoolSearch(*pp,&connswp);
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}
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if (!t) return false;
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HASH_DEL(*pp, t); ConntrackFreeElem(t);
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return true;
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}
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bool ConntrackPoolDrop(t_conntrack *p, const struct ip *ip, const struct ip6_hdr *ip6, const struct tcphdr *tcphdr, const struct udphdr *udphdr)
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{
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return ConntrackPoolDropPool(&p->pool,ip,ip6,tcphdr,udphdr);
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}
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void ConntrackPoolPurge(t_conntrack *p)
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{
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time_t tidle, tnow = time(NULL);
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t_conntrack_pool *t, *tmp;
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if ((tnow - p->t_last_purge)>=p->t_purge_interval)
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{
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HASH_ITER(hh, p->pool , t, tmp) {
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tidle = tnow - t->track.t_last;
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if ( t->track.b_cutoff ||
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(t->conn.l4proto==IPPROTO_TCP && (
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(t->track.state==SYN && tidle>=p->timeout_syn) ||
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(t->track.state==ESTABLISHED && tidle>=p->timeout_established) ||
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(t->track.state==FIN && tidle>=p->timeout_fin))
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) || (t->conn.l4proto==IPPROTO_UDP && tidle>=p->timeout_udp)
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)
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{
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HASH_DEL(p->pool, t); ConntrackFreeElem(t);
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}
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}
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p->t_last_purge = tnow;
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}
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}
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static void taddr2str(uint8_t l3proto, const t_addr *a, char *buf, size_t bufsize)
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{
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if (!inet_ntop(family_from_proto(l3proto), a, buf, bufsize) && bufsize) *buf=0;
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}
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void ConntrackPoolDump(const t_conntrack *p)
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{
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t_conntrack_pool *t, *tmp;
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char sa1[40],sa2[40];
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time_t tnow = time(NULL);
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HASH_ITER(hh, p->pool, t, tmp) {
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taddr2str(t->conn.l3proto, &t->conn.src, sa1, sizeof(sa1));
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taddr2str(t->conn.l3proto, &t->conn.dst, sa2, sizeof(sa2));
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printf("%s [%s]:%u => [%s]:%u : %s : t0=%llu last=t0+%llu now=last+%llu packets_orig=d%llu/n%llu packets_reply=d%llu/n%llu ",
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proto_name(t->conn.l4proto),
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sa1, t->conn.sport, sa2, t->conn.dport,
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t->conn.l4proto==IPPROTO_TCP ? connstate_s[t->track.state] : "-",
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(unsigned long long)t->track.t_start, (unsigned long long)(t->track.t_last - t->track.t_start), (unsigned long long)(tnow - t->track.t_last),
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(unsigned long long)t->track.pdcounter_orig, (unsigned long long)t->track.pcounter_orig,
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(unsigned long long)t->track.pdcounter_reply, (unsigned long long)t->track.pcounter_reply);
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if (t->conn.l4proto==IPPROTO_TCP)
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printf("seq0=%u rseq=%u pos_orig=%u ack0=%u rack=%u pos_reply=%u wsize_orig=%u:%d wsize_reply=%u:%d",
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t->track.seq0, t->track.seq_last - t->track.seq0, t->track.pos_orig - t->track.seq0,
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t->track.ack0, t->track.ack_last - t->track.ack0, t->track.pos_reply - t->track.ack0,
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t->track.winsize_orig, t->track.scale_orig==SCALE_NONE ? -1 : t->track.scale_orig,
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t->track.winsize_reply, t->track.scale_reply==SCALE_NONE ? -1 : t->track.scale_reply);
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else
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printf("rseq=%u pos_orig=%u rack=%u pos_reply=%u",
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t->track.seq_last, t->track.pos_orig,
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t->track.ack_last, t->track.pos_reply);
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printf(" req_retrans=%u cutoff=%u wss_cutoff=%u d_cutoff=%u hostname=%s l7proto=%s\n",
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t->track.req_retrans_counter, t->track.b_cutoff, t->track.b_wssize_cutoff, t->track.b_desync_cutoff, t->track.hostname, l7proto_str(t->track.l7proto));
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};
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}
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void ReasmClear(t_reassemble *reasm)
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{
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if (reasm->packet)
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{
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free(reasm->packet);
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reasm->packet = NULL;
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}
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reasm->size = reasm->size_present = 0;
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}
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bool ReasmInit(t_reassemble *reasm, size_t size_requested, uint32_t seq_start)
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{
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reasm->packet = malloc(size_requested);
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if (!reasm->packet) return false;
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reasm->size = size_requested;
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reasm->size_present = 0;
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reasm->seq = seq_start;
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return true;
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}
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bool ReasmResize(t_reassemble *reasm, size_t new_size)
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{
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uint8_t *p = realloc(reasm->packet, new_size);
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if (!p) return false;
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reasm->packet = p;
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reasm->size = new_size;
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if (reasm->size_present > new_size) reasm->size_present = new_size;
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return true;
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}
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bool ReasmFeed(t_reassemble *reasm, uint32_t seq, const void *payload, size_t len)
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{
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if (reasm->seq!=seq) return false; // fail session if out of sequence
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size_t szcopy;
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szcopy = reasm->size - reasm->size_present;
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if (len<szcopy) szcopy = len;
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memcpy(reasm->packet + reasm->size_present, payload, szcopy);
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reasm->size_present += szcopy;
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reasm->seq += (uint32_t)szcopy;
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return true;
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}
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bool ReasmHasSpace(t_reassemble *reasm, size_t len)
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{
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return (reasm->size_present+len)<=reasm->size;
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}
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