/* * Copyright (c) 2020 Darren Tucker * Copyright (c) 2024 Damien Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "includes.h" #include #include #include #include #include #include #include #include #include "addr.h" #include "canohost.h" #include "log.h" #include "misc.h" #include "srclimit.h" #include "xmalloc.h" #include "servconf.h" #include "match.h" static int max_children, max_persource, ipv4_masklen, ipv6_masklen; static struct per_source_penalty penalty_cfg; static char *penalty_exempt; /* Per connection state, used to enforce unauthenticated connection limit. */ static struct child_info { int id; struct xaddr addr; } *children; /* * Penalised addresses, active entries here prohibit connections until expired. * Entries become active when more than penalty_min seconds of penalty are * outstanding. */ struct penalty { struct xaddr addr; time_t expiry; int active; const char *reason; RB_ENTRY(penalty) by_addr; RB_ENTRY(penalty) by_expiry; }; static int penalty_addr_cmp(struct penalty *a, struct penalty *b); static int penalty_expiry_cmp(struct penalty *a, struct penalty *b); RB_HEAD(penalties_by_addr, penalty) penalties_by_addr4, penalties_by_addr6; RB_HEAD(penalties_by_expiry, penalty) penalties_by_expiry4, penalties_by_expiry6; RB_GENERATE_STATIC(penalties_by_addr, penalty, by_addr, penalty_addr_cmp) RB_GENERATE_STATIC(penalties_by_expiry, penalty, by_expiry, penalty_expiry_cmp) static size_t npenalties4, npenalties6; static int srclimit_mask_addr(const struct xaddr *addr, int bits, struct xaddr *masked) { struct xaddr xmask; /* Mask address off address to desired size. */ if (addr_netmask(addr->af, bits, &xmask) != 0 || addr_and(masked, addr, &xmask) != 0) { debug3_f("%s: invalid mask %d bits", __func__, bits); return -1; } return 0; } static int srclimit_peer_addr(int sock, struct xaddr *addr) { struct sockaddr_storage storage; socklen_t addrlen = sizeof(storage); struct sockaddr *sa = (struct sockaddr *)&storage; if (getpeername(sock, sa, &addrlen) != 0) return 1; /* not remote socket? */ if (addr_sa_to_xaddr(sa, addrlen, addr) != 0) return 1; /* unknown address family? */ return 0; } void srclimit_init(int max, int persource, int ipv4len, int ipv6len, struct per_source_penalty *penalty_conf, const char *penalty_exempt_conf) { int i; max_children = max; ipv4_masklen = ipv4len; ipv6_masklen = ipv6len; max_persource = persource; penalty_cfg = *penalty_conf; if (penalty_cfg.max_sources4 < 0 || penalty_cfg.max_sources6 < 0) fatal_f("invalid max_sources"); /* shouldn't happen */ penalty_exempt = penalty_exempt_conf == NULL ? NULL : xstrdup(penalty_exempt_conf); RB_INIT(&penalties_by_addr4); RB_INIT(&penalties_by_expiry4); RB_INIT(&penalties_by_addr6); RB_INIT(&penalties_by_expiry6); if (max_persource == INT_MAX) /* no limit */ return; debug("%s: max connections %d, per source %d, masks %d,%d", __func__, max, persource, ipv4len, ipv6len); if (max <= 0) fatal("%s: invalid number of sockets: %d", __func__, max); children = xcalloc(max_children, sizeof(*children)); for (i = 0; i < max_children; i++) children[i].id = -1; } /* returns 1 if connection allowed, 0 if not allowed. */ int srclimit_check_allow(int sock, int id) { struct xaddr xa, xb; int i, bits, first_unused, count = 0; char xas[NI_MAXHOST]; if (max_persource == INT_MAX) /* no limit */ return 1; debug("%s: sock %d id %d limit %d", __func__, sock, id, max_persource); if (srclimit_peer_addr(sock, &xa) != 0) return 1; bits = xa.af == AF_INET ? ipv4_masklen : ipv6_masklen; if (srclimit_mask_addr(&xa, bits, &xb) != 0) return 1; first_unused = max_children; /* Count matching entries and find first unused one. */ for (i = 0; i < max_children; i++) { if (children[i].id == -1) { if (i < first_unused) first_unused = i; } else if (addr_cmp(&children[i].addr, &xb) == 0) { count++; } } if (addr_ntop(&xa, xas, sizeof(xas)) != 0) { debug3("%s: addr ntop failed", __func__); return 1; } debug3("%s: new unauthenticated connection from %s/%d, at %d of %d", __func__, xas, bits, count, max_persource); if (first_unused == max_children) { /* no free slot found */ debug3("%s: no free slot", __func__); return 0; } if (first_unused < 0 || first_unused >= max_children) fatal("%s: internal error: first_unused out of range", __func__); if (count >= max_persource) return 0; /* Connection allowed, store masked address. */ children[first_unused].id = id; memcpy(&children[first_unused].addr, &xb, sizeof(xb)); return 1; } void srclimit_done(int id) { int i; if (max_persource == INT_MAX) /* no limit */ return; debug("%s: id %d", __func__, id); /* Clear corresponding state entry. */ for (i = 0; i < max_children; i++) { if (children[i].id == id) { children[i].id = -1; return; } } } static int penalty_addr_cmp(struct penalty *a, struct penalty *b) { return addr_cmp(&a->addr, &b->addr); /* Addresses must be unique in by_addr, so no need to tiebreak */ } static int penalty_expiry_cmp(struct penalty *a, struct penalty *b) { if (a->expiry != b->expiry) return a->expiry < b->expiry ? -1 : 1; /* Tiebreak on addresses */ return addr_cmp(&a->addr, &b->addr); } static void expire_penalties_from_tree(time_t now, const char *t, struct penalties_by_expiry *by_expiry, struct penalties_by_addr *by_addr, size_t *npenaltiesp) { struct penalty *penalty, *tmp; /* XXX avoid full scan of tree, e.g. min-heap */ RB_FOREACH_SAFE(penalty, penalties_by_expiry, by_expiry, tmp) { if (penalty->expiry >= now) break; if (RB_REMOVE(penalties_by_expiry, by_expiry, penalty) != penalty || RB_REMOVE(penalties_by_addr, by_addr, penalty) != penalty) fatal_f("internal error: %s penalty table corrupt", t); free(penalty); if ((*npenaltiesp)-- == 0) fatal_f("internal error: %s npenalties underflow", t); } } static void expire_penalties(time_t now) { expire_penalties_from_tree(now, "ipv4", &penalties_by_expiry4, &penalties_by_addr4, &npenalties4); expire_penalties_from_tree(now, "ipv6", &penalties_by_expiry6, &penalties_by_addr6, &npenalties6); } static void addr_masklen_ntop(struct xaddr *addr, int masklen, char *s, size_t slen) { size_t o; if (addr_ntop(addr, s, slen) != 0) { strlcpy(s, "UNKNOWN", slen); return; } if ((o = strlen(s)) < slen) snprintf(s + o, slen - o, "/%d", masklen); } int srclimit_penalty_check_allow(int sock, const char **reason) { struct xaddr addr; struct penalty find, *penalty; time_t now; int bits, max_sources, overflow_mode; char addr_s[NI_MAXHOST]; struct penalties_by_addr *by_addr; size_t npenalties; if (!penalty_cfg.enabled) return 1; if (srclimit_peer_addr(sock, &addr) != 0) return 1; if (penalty_exempt != NULL) { if (addr_ntop(&addr, addr_s, sizeof(addr_s)) != 0) return 1; /* shouldn't happen */ if (addr_match_list(addr_s, penalty_exempt) == 1) { return 1; } } now = monotime(); expire_penalties(now); by_addr = addr.af == AF_INET ? &penalties_by_addr4 : &penalties_by_addr6; max_sources = addr.af == AF_INET ? penalty_cfg.max_sources4 : penalty_cfg.max_sources6; overflow_mode = addr.af == AF_INET ? penalty_cfg.overflow_mode : penalty_cfg.overflow_mode6; npenalties = addr.af == AF_INET ? npenalties4 : npenalties6; if (npenalties >= (size_t)max_sources && overflow_mode == PER_SOURCE_PENALTY_OVERFLOW_DENY_ALL) { *reason = "too many penalised addresses"; return 0; } bits = addr.af == AF_INET ? ipv4_masklen : ipv6_masklen; memset(&find, 0, sizeof(find)); if (srclimit_mask_addr(&addr, bits, &find.addr) != 0) return 1; if ((penalty = RB_FIND(penalties_by_addr, by_addr, &find)) == NULL) return 1; /* no penalty */ if (penalty->expiry < now) { expire_penalties(now); return 1; /* expired penalty */ } if (!penalty->active) return 1; /* Penalty hasn't hit activation threshold yet */ *reason = penalty->reason; return 0; } static void srclimit_early_expire_penalties_from_tree(const char *t, struct penalties_by_expiry *by_expiry, struct penalties_by_addr *by_addr, size_t *npenaltiesp, size_t max_sources) { struct penalty *p = NULL; int bits; char s[NI_MAXHOST + 4]; /* Delete the soonest-to-expire penalties. */ while (*npenaltiesp > max_sources) { if ((p = RB_MIN(penalties_by_expiry, by_expiry)) == NULL) fatal_f("internal error: %s table corrupt (find)", t); bits = p->addr.af == AF_INET ? ipv4_masklen : ipv6_masklen; addr_masklen_ntop(&p->addr, bits, s, sizeof(s)); debug3_f("%s overflow, remove %s", t, s); if (RB_REMOVE(penalties_by_expiry, by_expiry, p) != p || RB_REMOVE(penalties_by_addr, by_addr, p) != p) fatal_f("internal error: %s table corrupt (remove)", t); free(p); (*npenaltiesp)--; } } static void srclimit_early_expire_penalties(void) { srclimit_early_expire_penalties_from_tree("ipv4", &penalties_by_expiry4, &penalties_by_addr4, &npenalties4, (size_t)penalty_cfg.max_sources4); srclimit_early_expire_penalties_from_tree("ipv6", &penalties_by_expiry6, &penalties_by_addr6, &npenalties6, (size_t)penalty_cfg.max_sources6); } void srclimit_penalise(struct xaddr *addr, int penalty_type) { struct xaddr masked; struct penalty *penalty = NULL, *existing = NULL; time_t now; int bits, penalty_secs, max_sources = 0, overflow_mode; char addrnetmask[NI_MAXHOST + 4]; const char *reason = NULL, *t; size_t *npenaltiesp = NULL; struct penalties_by_addr *by_addr = NULL; struct penalties_by_expiry *by_expiry = NULL; if (!penalty_cfg.enabled) return; if (penalty_exempt != NULL) { if (addr_ntop(addr, addrnetmask, sizeof(addrnetmask)) != 0) return; /* shouldn't happen */ if (addr_match_list(addrnetmask, penalty_exempt) == 1) { debug3_f("address %s is exempt", addrnetmask); return; } } switch (penalty_type) { case SRCLIMIT_PENALTY_NONE: return; case SRCLIMIT_PENALTY_CRASH: penalty_secs = penalty_cfg.penalty_crash; reason = "penalty: caused crash"; break; case SRCLIMIT_PENALTY_AUTHFAIL: penalty_secs = penalty_cfg.penalty_authfail; reason = "penalty: failed authentication"; break; case SRCLIMIT_PENALTY_NOAUTH: penalty_secs = penalty_cfg.penalty_noauth; reason = "penalty: connections without attempting authentication"; break; case SRCLIMIT_PENALTY_REFUSECONNECTION: penalty_secs = penalty_cfg.penalty_refuseconnection; reason = "penalty: connection prohibited by RefuseConnection"; break; case SRCLIMIT_PENALTY_GRACE_EXCEEDED: penalty_secs = penalty_cfg.penalty_crash; reason = "penalty: exceeded LoginGraceTime"; break; default: fatal_f("internal error: unknown penalty %d", penalty_type); } bits = addr->af == AF_INET ? ipv4_masklen : ipv6_masklen; if (srclimit_mask_addr(addr, bits, &masked) != 0) return; addr_masklen_ntop(addr, bits, addrnetmask, sizeof(addrnetmask)); now = monotime(); expire_penalties(now); by_expiry = addr->af == AF_INET ? &penalties_by_expiry4 : &penalties_by_expiry6; by_addr = addr->af == AF_INET ? &penalties_by_addr4 : &penalties_by_addr6; max_sources = addr->af == AF_INET ? penalty_cfg.max_sources4 : penalty_cfg.max_sources6; overflow_mode = addr->af == AF_INET ? penalty_cfg.overflow_mode : penalty_cfg.overflow_mode6; npenaltiesp = addr->af == AF_INET ? &npenalties4 : &npenalties6; t = addr->af == AF_INET ? "ipv4" : "ipv6"; if (*npenaltiesp >= (size_t)max_sources && overflow_mode == PER_SOURCE_PENALTY_OVERFLOW_DENY_ALL) { verbose_f("%s penalty table full, cannot penalise %s for %s", t, addrnetmask, reason); return; } penalty = xcalloc(1, sizeof(*penalty)); penalty->addr = masked; penalty->expiry = now + penalty_secs; penalty->reason = reason; if ((existing = RB_INSERT(penalties_by_addr, by_addr, penalty)) == NULL) { /* penalty didn't previously exist */ if (penalty_secs > penalty_cfg.penalty_min) penalty->active = 1; if (RB_INSERT(penalties_by_expiry, by_expiry, penalty) != NULL) fatal_f("internal error: %s penalty tables corrupt", t); verbose_f("%s: new %s %s penalty of %d seconds for %s", t, addrnetmask, penalty->active ? "active" : "deferred", penalty_secs, reason); if (++(*npenaltiesp) > (size_t)max_sources) srclimit_early_expire_penalties(); /* permissive */ return; } debug_f("%s penalty for %s %s already exists, %lld seconds remaining", existing->active ? "active" : "inactive", t, addrnetmask, (long long)(existing->expiry - now)); /* Expiry information is about to change, remove from tree */ if (RB_REMOVE(penalties_by_expiry, by_expiry, existing) != existing) fatal_f("internal error: %s penalty table corrupt (remove)", t); /* An entry already existed. Accumulate penalty up to maximum */ existing->expiry += penalty_secs; if (existing->expiry - now > penalty_cfg.penalty_max) existing->expiry = now + penalty_cfg.penalty_max; if (existing->expiry - now > penalty_cfg.penalty_min && !existing->active) { verbose_f("%s: activating %s penalty of %lld seconds for %s", addrnetmask, t, (long long)(existing->expiry - now), reason); existing->active = 1; } existing->reason = penalty->reason; free(penalty); penalty = NULL; /* Re-insert into expiry tree */ if (RB_INSERT(penalties_by_expiry, by_expiry, existing) != NULL) fatal_f("internal error: %s penalty table corrupt (insert)", t); } static void srclimit_penalty_info_for_tree(const char *t, struct penalties_by_expiry *by_expiry, size_t npenalties) { struct penalty *p = NULL; int bits; char s[NI_MAXHOST + 4]; time_t now; now = monotime(); logit("%zu active %s penalties", npenalties, t); RB_FOREACH(p, penalties_by_expiry, by_expiry) { bits = p->addr.af == AF_INET ? ipv4_masklen : ipv6_masklen; addr_masklen_ntop(&p->addr, bits, s, sizeof(s)); if (p->expiry < now) logit("client %s %s (expired)", s, p->reason); else { logit("client %s %s (%llu secs left)", s, p->reason, (long long)(p->expiry - now)); } } } void srclimit_penalty_info(void) { srclimit_penalty_info_for_tree("ipv4", &penalties_by_expiry4, npenalties4); srclimit_penalty_info_for_tree("ipv6", &penalties_by_expiry6, npenalties6); }