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|
/* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2013, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/**
* \file policies.c
* \brief Code to parse and use address policies and exit policies.
**/
#include "or.h"
#include "config.h"
#include "dirserv.h"
#include "nodelist.h"
#include "policies.h"
#include "routerparse.h"
#include "geoip.h"
#include "ht.h"
/** Policy that addresses for incoming SOCKS connections must match. */
static smartlist_t *socks_policy = NULL;
/** Policy that addresses for incoming directory connections must match. */
static smartlist_t *dir_policy = NULL;
/** Policy that addresses for incoming router descriptors must match in order
* to be published by us. */
static smartlist_t *authdir_reject_policy = NULL;
/** Policy that addresses for incoming router descriptors must match in order
* to be marked as valid in our networkstatus. */
static smartlist_t *authdir_invalid_policy = NULL;
/** Policy that addresses for incoming router descriptors must <b>not</b>
* match in order to not be marked as BadDirectory. */
static smartlist_t *authdir_baddir_policy = NULL;
/** Policy that addresses for incoming router descriptors must <b>not</b>
* match in order to not be marked as BadExit. */
static smartlist_t *authdir_badexit_policy = NULL;
/** Parsed addr_policy_t describing which addresses we believe we can start
* circuits at. */
static smartlist_t *reachable_or_addr_policy = NULL;
/** Parsed addr_policy_t describing which addresses we believe we can connect
* to directories at. */
static smartlist_t *reachable_dir_addr_policy = NULL;
/** Element of an exit policy summary */
typedef struct policy_summary_item_t {
uint16_t prt_min; /**< Lowest port number to accept/reject. */
uint16_t prt_max; /**< Highest port number to accept/reject. */
uint64_t reject_count; /**< Number of IP-Addresses that are rejected to
this port range. */
unsigned int accepted:1; /** Has this port already been accepted */
} policy_summary_item_t;
/** Private networks. This list is used in two places, once to expand the
* "private" keyword when parsing our own exit policy, secondly to ignore
* just such networks when building exit policy summaries. It is important
* that all authorities agree on that list when creating summaries, so don't
* just change this without a proper migration plan and a proposal and stuff.
*/
static const char *private_nets[] = {
"0.0.0.0/8", "169.254.0.0/16",
"127.0.0.0/8", "192.168.0.0/16", "10.0.0.0/8", "172.16.0.0/12",
"[::]/8",
"[fc00::]/7", "[fe80::]/10", "[fec0::]/10", "[ff00::]/8", "[::]/127",
NULL
};
/** Replace all "private" entries in *<b>policy</b> with their expanded
* equivalents. */
void
policy_expand_private(smartlist_t **policy)
{
uint16_t port_min, port_max;
int i;
smartlist_t *tmp;
if (!*policy) /*XXXX disallow NULL policies? */
return;
tmp = smartlist_new();
SMARTLIST_FOREACH_BEGIN(*policy, addr_policy_t *, p) {
if (! p->is_private) {
smartlist_add(tmp, p);
continue;
}
for (i = 0; private_nets[i]; ++i) {
addr_policy_t newpolicy;
memcpy(&newpolicy, p, sizeof(addr_policy_t));
newpolicy.is_private = 0;
newpolicy.is_canonical = 0;
if (tor_addr_parse_mask_ports(private_nets[i], 0,
&newpolicy.addr,
&newpolicy.maskbits, &port_min, &port_max)<0) {
tor_assert(0);
}
smartlist_add(tmp, addr_policy_get_canonical_entry(&newpolicy));
}
addr_policy_free(p);
} SMARTLIST_FOREACH_END(p);
smartlist_free(*policy);
*policy = tmp;
}
/** Expand each of the AF_UNSPEC elements in *<b>policy</b> (which indicate
* protocol-neutral wildcards) into a pair of wildcard elements: one IPv4-
* specific and one IPv6-specific. */
void
policy_expand_unspec(smartlist_t **policy)
{
smartlist_t *tmp;
if (!*policy)
return;
tmp = smartlist_new();
SMARTLIST_FOREACH_BEGIN(*policy, addr_policy_t *, p) {
sa_family_t family = tor_addr_family(&p->addr);
if (family == AF_INET6 || family == AF_INET || p->is_private) {
smartlist_add(tmp, p);
} else if (family == AF_UNSPEC) {
addr_policy_t newpolicy_ipv4;
addr_policy_t newpolicy_ipv6;
memcpy(&newpolicy_ipv4, p, sizeof(addr_policy_t));
memcpy(&newpolicy_ipv6, p, sizeof(addr_policy_t));
newpolicy_ipv4.is_canonical = 0;
newpolicy_ipv6.is_canonical = 0;
if (p->maskbits != 0) {
log_warn(LD_BUG, "AF_UNSPEC policy with maskbits==%d", p->maskbits);
newpolicy_ipv4.maskbits = 0;
newpolicy_ipv6.maskbits = 0;
}
tor_addr_from_ipv4h(&newpolicy_ipv4.addr, 0);
tor_addr_from_ipv6_bytes(&newpolicy_ipv6.addr,
"\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0");
smartlist_add(tmp, addr_policy_get_canonical_entry(&newpolicy_ipv4));
smartlist_add(tmp, addr_policy_get_canonical_entry(&newpolicy_ipv6));
addr_policy_free(p);
} else {
log_warn(LD_BUG, "Funny-looking address policy with family %d", family);
smartlist_add(tmp, p);
}
} SMARTLIST_FOREACH_END(p);
smartlist_free(*policy);
*policy = tmp;
}
/**
* Given a linked list of config lines containing "allow" and "deny"
* tokens, parse them and append the result to <b>dest</b>. Return -1
* if any tokens are malformed (and don't append any), else return 0.
*
* If <b>assume_action</b> is nonnegative, then insert its action
* (ADDR_POLICY_ACCEPT or ADDR_POLICY_REJECT) for items that specify no
* action.
*/
static int
parse_addr_policy(config_line_t *cfg, smartlist_t **dest,
int assume_action)
{
smartlist_t *result;
smartlist_t *entries;
addr_policy_t *item;
int r = 0;
if (!cfg)
return 0;
result = smartlist_new();
entries = smartlist_new();
for (; cfg; cfg = cfg->next) {
smartlist_split_string(entries, cfg->value, ",",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
SMARTLIST_FOREACH_BEGIN(entries, const char *, ent) {
log_debug(LD_CONFIG,"Adding new entry '%s'",ent);
item = router_parse_addr_policy_item_from_string(ent, assume_action);
if (item) {
smartlist_add(result, item);
} else {
log_warn(LD_CONFIG,"Malformed policy '%s'.", ent);
r = -1;
}
} SMARTLIST_FOREACH_END(ent);
SMARTLIST_FOREACH(entries, char *, ent, tor_free(ent));
smartlist_clear(entries);
}
smartlist_free(entries);
if (r == -1) {
addr_policy_list_free(result);
} else {
policy_expand_private(&result);
policy_expand_unspec(&result);
if (*dest) {
smartlist_add_all(*dest, result);
smartlist_free(result);
} else {
*dest = result;
}
}
return r;
}
/** Helper: parse the Reachable(Dir|OR)?Addresses fields into
* reachable_(or|dir)_addr_policy. The options should already have
* been validated by validate_addr_policies.
*/
static int
parse_reachable_addresses(void)
{
const or_options_t *options = get_options();
int ret = 0;
if (options->ReachableDirAddresses &&
options->ReachableORAddresses &&
options->ReachableAddresses) {
log_warn(LD_CONFIG,
"Both ReachableDirAddresses and ReachableORAddresses are set. "
"ReachableAddresses setting will be ignored.");
}
addr_policy_list_free(reachable_or_addr_policy);
reachable_or_addr_policy = NULL;
if (!options->ReachableORAddresses && options->ReachableAddresses)
log_info(LD_CONFIG,
"Using ReachableAddresses as ReachableORAddresses.");
if (parse_addr_policy(options->ReachableORAddresses ?
options->ReachableORAddresses :
options->ReachableAddresses,
&reachable_or_addr_policy, ADDR_POLICY_ACCEPT)) {
log_warn(LD_CONFIG,
"Error parsing Reachable%sAddresses entry; ignoring.",
options->ReachableORAddresses ? "OR" : "");
ret = -1;
}
addr_policy_list_free(reachable_dir_addr_policy);
reachable_dir_addr_policy = NULL;
if (!options->ReachableDirAddresses && options->ReachableAddresses)
log_info(LD_CONFIG,
"Using ReachableAddresses as ReachableDirAddresses");
if (parse_addr_policy(options->ReachableDirAddresses ?
options->ReachableDirAddresses :
options->ReachableAddresses,
&reachable_dir_addr_policy, ADDR_POLICY_ACCEPT)) {
if (options->ReachableDirAddresses)
log_warn(LD_CONFIG,
"Error parsing ReachableDirAddresses entry; ignoring.");
ret = -1;
}
return ret;
}
/** Return true iff the firewall options might block any address:port
* combination.
*/
int
firewall_is_fascist_or(void)
{
return reachable_or_addr_policy != NULL;
}
/** Return true iff <b>policy</b> (possibly NULL) will allow a
* connection to <b>addr</b>:<b>port</b>.
*/
static int
addr_policy_permits_tor_addr(const tor_addr_t *addr, uint16_t port,
smartlist_t *policy)
{
addr_policy_result_t p;
p = compare_tor_addr_to_addr_policy(addr, port, policy);
switch (p) {
case ADDR_POLICY_PROBABLY_ACCEPTED:
case ADDR_POLICY_ACCEPTED:
return 1;
case ADDR_POLICY_PROBABLY_REJECTED:
case ADDR_POLICY_REJECTED:
return 0;
default:
log_warn(LD_BUG, "Unexpected result: %d", (int)p);
return 0;
}
}
/** Return true iff <b> policy</b> (possibly NULL) will allow a connection to
* <b>addr</b>:<b>port</b>. <b>addr</b> is an IPv4 address given in host
* order. */
/* XXXX deprecate when possible. */
static int
addr_policy_permits_address(uint32_t addr, uint16_t port,
smartlist_t *policy)
{
tor_addr_t a;
tor_addr_from_ipv4h(&a, addr);
return addr_policy_permits_tor_addr(&a, port, policy);
}
/** Return true iff we think our firewall will let us make an OR connection to
* addr:port. */
int
fascist_firewall_allows_address_or(const tor_addr_t *addr, uint16_t port)
{
return addr_policy_permits_tor_addr(addr, port,
reachable_or_addr_policy);
}
/** Return true iff we think our firewall will let us make an OR connection to
* <b>ri</b>. */
int
fascist_firewall_allows_or(const routerinfo_t *ri)
{
/* XXXX proposal 118 */
tor_addr_t addr;
tor_addr_from_ipv4h(&addr, ri->addr);
return fascist_firewall_allows_address_or(&addr, ri->or_port);
}
/** Return true iff we think our firewall will let us make an OR connection to
* <b>node</b>. */
int
fascist_firewall_allows_node(const node_t *node)
{
if (node->ri) {
return fascist_firewall_allows_or(node->ri);
} else if (node->rs) {
tor_addr_t addr;
tor_addr_from_ipv4h(&addr, node->rs->addr);
return fascist_firewall_allows_address_or(&addr, node->rs->or_port);
} else {
return 1;
}
}
/** Return true iff we think our firewall will let us make a directory
* connection to addr:port. */
int
fascist_firewall_allows_address_dir(const tor_addr_t *addr, uint16_t port)
{
return addr_policy_permits_tor_addr(addr, port,
reachable_dir_addr_policy);
}
/** Return 1 if <b>addr</b> is permitted to connect to our dir port,
* based on <b>dir_policy</b>. Else return 0.
*/
int
dir_policy_permits_address(const tor_addr_t *addr)
{
return addr_policy_permits_tor_addr(addr, 1, dir_policy);
}
/** Return 1 if <b>addr</b> is permitted to connect to our socks port,
* based on <b>socks_policy</b>. Else return 0.
*/
int
socks_policy_permits_address(const tor_addr_t *addr)
{
return addr_policy_permits_tor_addr(addr, 1, socks_policy);
}
/** Return true iff the address <b>addr</b> is in a country listed in the
* case-insensitive list of country codes <b>cc_list</b>. */
static int
addr_is_in_cc_list(uint32_t addr, const smartlist_t *cc_list)
{
country_t country;
const char *name;
tor_addr_t tar;
if (!cc_list)
return 0;
/* XXXXipv6 */
tor_addr_from_ipv4h(&tar, addr);
country = geoip_get_country_by_addr(&tar);
name = geoip_get_country_name(country);
return smartlist_contains_string_case(cc_list, name);
}
/** Return 1 if <b>addr</b>:<b>port</b> is permitted to publish to our
* directory, based on <b>authdir_reject_policy</b>. Else return 0.
*/
int
authdir_policy_permits_address(uint32_t addr, uint16_t port)
{
if (! addr_policy_permits_address(addr, port, authdir_reject_policy))
return 0;
return !addr_is_in_cc_list(addr, get_options()->AuthDirRejectCCs);
}
/** Return 1 if <b>addr</b>:<b>port</b> is considered valid in our
* directory, based on <b>authdir_invalid_policy</b>. Else return 0.
*/
int
authdir_policy_valid_address(uint32_t addr, uint16_t port)
{
if (! addr_policy_permits_address(addr, port, authdir_invalid_policy))
return 0;
return !addr_is_in_cc_list(addr, get_options()->AuthDirInvalidCCs);
}
/** Return 1 if <b>addr</b>:<b>port</b> should be marked as a bad dir,
* based on <b>authdir_baddir_policy</b>. Else return 0.
*/
int
authdir_policy_baddir_address(uint32_t addr, uint16_t port)
{
if (! addr_policy_permits_address(addr, port, authdir_baddir_policy))
return 1;
return addr_is_in_cc_list(addr, get_options()->AuthDirBadDirCCs);
}
/** Return 1 if <b>addr</b>:<b>port</b> should be marked as a bad exit,
* based on <b>authdir_badexit_policy</b>. Else return 0.
*/
int
authdir_policy_badexit_address(uint32_t addr, uint16_t port)
{
if (! addr_policy_permits_address(addr, port, authdir_badexit_policy))
return 1;
return addr_is_in_cc_list(addr, get_options()->AuthDirBadExitCCs);
}
#define REJECT(arg) \
STMT_BEGIN *msg = tor_strdup(arg); goto err; STMT_END
/** Config helper: If there's any problem with the policy configuration
* options in <b>options</b>, return -1 and set <b>msg</b> to a newly
* allocated description of the error. Else return 0. */
int
validate_addr_policies(const or_options_t *options, char **msg)
{
/* XXXX Maybe merge this into parse_policies_from_options, to make sure
* that the two can't go out of sync. */
smartlist_t *addr_policy=NULL;
*msg = NULL;
if (policies_parse_exit_policy(options->ExitPolicy, &addr_policy,
options->IPv6Exit,
options->ExitPolicyRejectPrivate, NULL,
!options->BridgeRelay))
REJECT("Error in ExitPolicy entry.");
/* The rest of these calls *append* to addr_policy. So don't actually
* use the results for anything other than checking if they parse! */
if (parse_addr_policy(options->DirPolicy, &addr_policy, -1))
REJECT("Error in DirPolicy entry.");
if (parse_addr_policy(options->SocksPolicy, &addr_policy, -1))
REJECT("Error in SocksPolicy entry.");
if (parse_addr_policy(options->AuthDirReject, &addr_policy,
ADDR_POLICY_REJECT))
REJECT("Error in AuthDirReject entry.");
if (parse_addr_policy(options->AuthDirInvalid, &addr_policy,
ADDR_POLICY_REJECT))
REJECT("Error in AuthDirInvalid entry.");
if (parse_addr_policy(options->AuthDirBadDir, &addr_policy,
ADDR_POLICY_REJECT))
REJECT("Error in AuthDirBadDir entry.");
if (parse_addr_policy(options->AuthDirBadExit, &addr_policy,
ADDR_POLICY_REJECT))
REJECT("Error in AuthDirBadExit entry.");
if (parse_addr_policy(options->ReachableAddresses, &addr_policy,
ADDR_POLICY_ACCEPT))
REJECT("Error in ReachableAddresses entry.");
if (parse_addr_policy(options->ReachableORAddresses, &addr_policy,
ADDR_POLICY_ACCEPT))
REJECT("Error in ReachableORAddresses entry.");
if (parse_addr_policy(options->ReachableDirAddresses, &addr_policy,
ADDR_POLICY_ACCEPT))
REJECT("Error in ReachableDirAddresses entry.");
err:
addr_policy_list_free(addr_policy);
return *msg ? -1 : 0;
#undef REJECT
}
/** Parse <b>string</b> in the same way that the exit policy
* is parsed, and put the processed version in *<b>policy</b>.
* Ignore port specifiers.
*/
static int
load_policy_from_option(config_line_t *config, smartlist_t **policy,
int assume_action)
{
int r;
addr_policy_list_free(*policy);
*policy = NULL;
r = parse_addr_policy(config, policy, assume_action);
if (r < 0) {
return -1;
}
if (*policy) {
SMARTLIST_FOREACH_BEGIN(*policy, addr_policy_t *, n) {
/* ports aren't used in these. */
if (n->prt_min > 1 || n->prt_max != 65535) {
addr_policy_t newp, *c;
memcpy(&newp, n, sizeof(newp));
newp.prt_min = 1;
newp.prt_max = 65535;
newp.is_canonical = 0;
c = addr_policy_get_canonical_entry(&newp);
SMARTLIST_REPLACE_CURRENT(*policy, n, c);
addr_policy_free(n);
}
} SMARTLIST_FOREACH_END(n);
}
return 0;
}
/** Set all policies based on <b>options</b>, which should have been validated
* first by validate_addr_policies. */
int
policies_parse_from_options(const or_options_t *options)
{
int ret = 0;
if (load_policy_from_option(options->SocksPolicy, &socks_policy, -1) < 0)
ret = -1;
if (load_policy_from_option(options->DirPolicy, &dir_policy, -1) < 0)
ret = -1;
if (load_policy_from_option(options->AuthDirReject,
&authdir_reject_policy, ADDR_POLICY_REJECT) < 0)
ret = -1;
if (load_policy_from_option(options->AuthDirInvalid,
&authdir_invalid_policy, ADDR_POLICY_REJECT) < 0)
ret = -1;
if (load_policy_from_option(options->AuthDirBadDir,
&authdir_baddir_policy, ADDR_POLICY_REJECT) < 0)
ret = -1;
if (load_policy_from_option(options->AuthDirBadExit,
&authdir_badexit_policy, ADDR_POLICY_REJECT) < 0)
ret = -1;
if (parse_reachable_addresses() < 0)
ret = -1;
return ret;
}
/** Compare two provided address policy items, and return -1, 0, or 1
* if the first is less than, equal to, or greater than the second. */
static int
cmp_single_addr_policy(addr_policy_t *a, addr_policy_t *b)
{
int r;
if ((r=((int)a->policy_type - (int)b->policy_type)))
return r;
if ((r=((int)a->is_private - (int)b->is_private)))
return r;
if ((r=tor_addr_compare(&a->addr, &b->addr, CMP_EXACT)))
return r;
if ((r=((int)a->maskbits - (int)b->maskbits)))
return r;
if ((r=((int)a->prt_min - (int)b->prt_min)))
return r;
if ((r=((int)a->prt_max - (int)b->prt_max)))
return r;
return 0;
}
/** Like cmp_single_addr_policy() above, but looks at the
* whole set of policies in each case. */
int
cmp_addr_policies(smartlist_t *a, smartlist_t *b)
{
int r, i;
int len_a = a ? smartlist_len(a) : 0;
int len_b = b ? smartlist_len(b) : 0;
for (i = 0; i < len_a && i < len_b; ++i) {
if ((r = cmp_single_addr_policy(smartlist_get(a, i), smartlist_get(b, i))))
return r;
}
if (i == len_a && i == len_b)
return 0;
if (i < len_a)
return -1;
else
return 1;
}
/** Node in hashtable used to store address policy entries. */
typedef struct policy_map_ent_t {
HT_ENTRY(policy_map_ent_t) node;
addr_policy_t *policy;
} policy_map_ent_t;
/* DOCDOC policy_root */
static HT_HEAD(policy_map, policy_map_ent_t) policy_root = HT_INITIALIZER();
/** Return true iff a and b are equal. */
static INLINE int
policy_eq(policy_map_ent_t *a, policy_map_ent_t *b)
{
return cmp_single_addr_policy(a->policy, b->policy) == 0;
}
/** Return a hashcode for <b>ent</b> */
static unsigned int
policy_hash(const policy_map_ent_t *ent)
{
const addr_policy_t *a = ent->policy;
addr_policy_t aa;
memset(&aa, 0, sizeof(aa));
aa.prt_min = a->prt_min;
aa.prt_max = a->prt_max;
aa.maskbits = a->maskbits;
aa.policy_type = a->policy_type;
aa.is_private = a->is_private;
if (a->is_private) {
aa.is_private = 1;
} else {
tor_addr_copy_tight(&aa.addr, &a->addr);
}
return (unsigned) siphash24g(&aa, sizeof(aa));
}
HT_PROTOTYPE(policy_map, policy_map_ent_t, node, policy_hash,
policy_eq)
HT_GENERATE(policy_map, policy_map_ent_t, node, policy_hash,
policy_eq, 0.6, malloc, realloc, free)
/** Given a pointer to an addr_policy_t, return a copy of the pointer to the
* "canonical" copy of that addr_policy_t; the canonical copy is a single
* reference-counted object. */
addr_policy_t *
addr_policy_get_canonical_entry(addr_policy_t *e)
{
policy_map_ent_t search, *found;
if (e->is_canonical)
return e;
search.policy = e;
found = HT_FIND(policy_map, &policy_root, &search);
if (!found) {
found = tor_malloc_zero(sizeof(policy_map_ent_t));
found->policy = tor_memdup(e, sizeof(addr_policy_t));
found->policy->is_canonical = 1;
found->policy->refcnt = 0;
HT_INSERT(policy_map, &policy_root, found);
}
tor_assert(!cmp_single_addr_policy(found->policy, e));
++found->policy->refcnt;
return found->policy;
}
/** Helper for compare_tor_addr_to_addr_policy. Implements the case where
* addr and port are both known. */
static addr_policy_result_t
compare_known_tor_addr_to_addr_policy(const tor_addr_t *addr, uint16_t port,
const smartlist_t *policy)
{
/* We know the address and port, and we know the policy, so we can just
* compute an exact match. */
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, tmpe) {
/* Address is known */
if (!tor_addr_compare_masked(addr, &tmpe->addr, tmpe->maskbits,
CMP_EXACT)) {
if (port >= tmpe->prt_min && port <= tmpe->prt_max) {
/* Exact match for the policy */
return tmpe->policy_type == ADDR_POLICY_ACCEPT ?
ADDR_POLICY_ACCEPTED : ADDR_POLICY_REJECTED;
}
}
} SMARTLIST_FOREACH_END(tmpe);
/* accept all by default. */
return ADDR_POLICY_ACCEPTED;
}
/** Helper for compare_tor_addr_to_addr_policy. Implements the case where
* addr is known but port is not. */
static addr_policy_result_t
compare_known_tor_addr_to_addr_policy_noport(const tor_addr_t *addr,
const smartlist_t *policy)
{
/* We look to see if there's a definite match. If so, we return that
match's value, unless there's an intervening possible match that says
something different. */
int maybe_accept = 0, maybe_reject = 0;
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, tmpe) {
if (!tor_addr_compare_masked(addr, &tmpe->addr, tmpe->maskbits,
CMP_EXACT)) {
if (tmpe->prt_min <= 1 && tmpe->prt_max >= 65535) {
/* Definitely matches, since it covers all ports. */
if (tmpe->policy_type == ADDR_POLICY_ACCEPT) {
/* If we already hit a clause that might trigger a 'reject', than we
* can't be sure of this certain 'accept'.*/
return maybe_reject ? ADDR_POLICY_PROBABLY_ACCEPTED :
ADDR_POLICY_ACCEPTED;
} else {
return maybe_accept ? ADDR_POLICY_PROBABLY_REJECTED :
ADDR_POLICY_REJECTED;
}
} else {
/* Might match. */
if (tmpe->policy_type == ADDR_POLICY_REJECT)
maybe_reject = 1;
else
maybe_accept = 1;
}
}
} SMARTLIST_FOREACH_END(tmpe);
/* accept all by default. */
return maybe_reject ? ADDR_POLICY_PROBABLY_ACCEPTED : ADDR_POLICY_ACCEPTED;
}
/** Helper for compare_tor_addr_to_addr_policy. Implements the case where
* port is known but address is not. */
static addr_policy_result_t
compare_unknown_tor_addr_to_addr_policy(uint16_t port,
const smartlist_t *policy)
{
/* We look to see if there's a definite match. If so, we return that
match's value, unless there's an intervening possible match that says
something different. */
int maybe_accept = 0, maybe_reject = 0;
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, tmpe) {
if (tmpe->prt_min <= port && port <= tmpe->prt_max) {
if (tmpe->maskbits == 0) {
/* Definitely matches, since it covers all addresses. */
if (tmpe->policy_type == ADDR_POLICY_ACCEPT) {
/* If we already hit a clause that might trigger a 'reject', than we
* can't be sure of this certain 'accept'.*/
return maybe_reject ? ADDR_POLICY_PROBABLY_ACCEPTED :
ADDR_POLICY_ACCEPTED;
} else {
return maybe_accept ? ADDR_POLICY_PROBABLY_REJECTED :
ADDR_POLICY_REJECTED;
}
} else {
/* Might match. */
if (tmpe->policy_type == ADDR_POLICY_REJECT)
maybe_reject = 1;
else
maybe_accept = 1;
}
}
} SMARTLIST_FOREACH_END(tmpe);
/* accept all by default. */
return maybe_reject ? ADDR_POLICY_PROBABLY_ACCEPTED : ADDR_POLICY_ACCEPTED;
}
/** Decide whether a given addr:port is definitely accepted,
* definitely rejected, probably accepted, or probably rejected by a
* given policy. If <b>addr</b> is 0, we don't know the IP of the
* target address. If <b>port</b> is 0, we don't know the port of the
* target address. (At least one of <b>addr</b> and <b>port</b> must be
* provided. If you want to know whether a policy would definitely reject
* an unknown address:port, use policy_is_reject_star().)
*
* We could do better by assuming that some ranges never match typical
* addresses (127.0.0.1, and so on). But we'll try this for now.
*/
addr_policy_result_t
compare_tor_addr_to_addr_policy(const tor_addr_t *addr, uint16_t port,
const smartlist_t *policy)
{
if (!policy) {
/* no policy? accept all. */
return ADDR_POLICY_ACCEPTED;
} else if (addr == NULL || tor_addr_is_null(addr)) {
if (port == 0) {
log_info(LD_BUG, "Rejecting null address with 0 port (family %d)",
addr ? tor_addr_family(addr) : -1);
return ADDR_POLICY_REJECTED;
}
return compare_unknown_tor_addr_to_addr_policy(port, policy);
} else if (port == 0) {
return compare_known_tor_addr_to_addr_policy_noport(addr, policy);
} else {
return compare_known_tor_addr_to_addr_policy(addr, port, policy);
}
}
/** Return true iff the address policy <b>a</b> covers every case that
* would be covered by <b>b</b>, so that a,b is redundant. */
static int
addr_policy_covers(addr_policy_t *a, addr_policy_t *b)
{
if (tor_addr_family(&a->addr) != tor_addr_family(&b->addr)) {
/* You can't cover a different family. */
return 0;
}
/* We can ignore accept/reject, since "accept *:80, reject *:80" reduces
* to "accept *:80". */
if (a->maskbits > b->maskbits) {
/* a has more fixed bits than b; it can't possibly cover b. */
return 0;
}
if (tor_addr_compare_masked(&a->addr, &b->addr, a->maskbits, CMP_EXACT)) {
/* There's a fixed bit in a that's set differently in b. */
return 0;
}
return (a->prt_min <= b->prt_min && a->prt_max >= b->prt_max);
}
/** Return true iff the address policies <b>a</b> and <b>b</b> intersect,
* that is, there exists an address/port that is covered by <b>a</b> that
* is also covered by <b>b</b>.
*/
static int
addr_policy_intersects(addr_policy_t *a, addr_policy_t *b)
{
maskbits_t minbits;
/* All the bits we care about are those that are set in both
* netmasks. If they are equal in a and b's networkaddresses
* then the networks intersect. If there is a difference,
* then they do not. */
if (a->maskbits < b->maskbits)
minbits = a->maskbits;
else
minbits = b->maskbits;
if (tor_addr_compare_masked(&a->addr, &b->addr, minbits, CMP_EXACT))
return 0;
if (a->prt_max < b->prt_min || b->prt_max < a->prt_min)
return 0;
return 1;
}
/** Add the exit policy described by <b>more</b> to <b>policy</b>.
*/
static void
append_exit_policy_string(smartlist_t **policy, const char *more)
{
config_line_t tmp;
tmp.key = NULL;
tmp.value = (char*) more;
tmp.next = NULL;
if (parse_addr_policy(&tmp, policy, -1)<0) {
log_warn(LD_BUG, "Unable to parse internally generated policy %s",more);
}
}
/** Add "reject <b>addr</b>:*" to <b>dest</b>, creating the list as needed. */
void
addr_policy_append_reject_addr(smartlist_t **dest, const tor_addr_t *addr)
{
addr_policy_t p, *add;
memset(&p, 0, sizeof(p));
p.policy_type = ADDR_POLICY_REJECT;
p.maskbits = tor_addr_family(addr) == AF_INET6 ? 128 : 32;
tor_addr_copy(&p.addr, addr);
p.prt_min = 1;
p.prt_max = 65535;
add = addr_policy_get_canonical_entry(&p);
if (!*dest)
*dest = smartlist_new();
smartlist_add(*dest, add);
}
/** Detect and excise "dead code" from the policy *<b>dest</b>. */
static void
exit_policy_remove_redundancies(smartlist_t *dest)
{
addr_policy_t *ap, *tmp;
int i, j;
/* Step one: kill every ipv4 thing after *4:*, every IPv6 thing after *6:*
*/
{
int kill_v4=0, kill_v6=0;
for (i = 0; i < smartlist_len(dest); ++i) {
sa_family_t family;
ap = smartlist_get(dest, i);
family = tor_addr_family(&ap->addr);
if ((family == AF_INET && kill_v4) ||
(family == AF_INET6 && kill_v6)) {
smartlist_del_keeporder(dest, i--);
addr_policy_free(ap);
continue;
}
if (ap->maskbits == 0 && ap->prt_min <= 1 && ap->prt_max >= 65535) {
/* This is a catch-all line -- later lines are unreachable. */
if (family == AF_INET) {
kill_v4 = 1;
} else if (family == AF_INET6) {
kill_v6 = 1;
}
}
}
}
/* Step two: for every entry, see if there's a redundant entry
* later on, and remove it. */
for (i = 0; i < smartlist_len(dest)-1; ++i) {
ap = smartlist_get(dest, i);
for (j = i+1; j < smartlist_len(dest); ++j) {
tmp = smartlist_get(dest, j);
tor_assert(j > i);
if (addr_policy_covers(ap, tmp)) {
char p1[POLICY_BUF_LEN], p2[POLICY_BUF_LEN];
policy_write_item(p1, sizeof(p1), tmp, 0);
policy_write_item(p2, sizeof(p2), ap, 0);
log_debug(LD_CONFIG, "Removing exit policy %s (%d). It is made "
"redundant by %s (%d).", p1, j, p2, i);
smartlist_del_keeporder(dest, j--);
addr_policy_free(tmp);
}
}
}
/* Step three: for every entry A, see if there's an entry B making this one
* redundant later on. This is the case if A and B are of the same type
* (accept/reject), A is a subset of B, and there is no other entry of
* different type in between those two that intersects with A.
*
* Anybody want to double-check the logic here? XXX
*/
for (i = 0; i < smartlist_len(dest)-1; ++i) {
ap = smartlist_get(dest, i);
for (j = i+1; j < smartlist_len(dest); ++j) {
// tor_assert(j > i); // j starts out at i+1; j only increases; i only
// // decreases.
tmp = smartlist_get(dest, j);
if (ap->policy_type != tmp->policy_type) {
if (addr_policy_intersects(ap, tmp))
break;
} else { /* policy_types are equal. */
if (addr_policy_covers(tmp, ap)) {
char p1[POLICY_BUF_LEN], p2[POLICY_BUF_LEN];
policy_write_item(p1, sizeof(p1), ap, 0);
policy_write_item(p2, sizeof(p2), tmp, 0);
log_debug(LD_CONFIG, "Removing exit policy %s. It is already "
"covered by %s.", p1, p2);
smartlist_del_keeporder(dest, i--);
addr_policy_free(ap);
break;
}
}
}
}
}
#define DEFAULT_EXIT_POLICY \
"reject *:25,reject *:119,reject *:135-139,reject *:445," \
"reject *:563,reject *:1214,reject *:4661-4666," \
"reject *:6346-6429,reject *:6699,reject *:6881-6999,accept *:*"
/** Parse the exit policy <b>cfg</b> into the linked list *<b>dest</b>. If
* cfg doesn't end in an absolute accept or reject and if
* <b>add_default_policy</b> is true, add the default exit
* policy afterwards. If <b>rejectprivate</b> is true, prepend
* "reject private:*" to the policy. Return -1 if we can't parse cfg,
* else return 0.
*
* This function is used to parse the exit policy from our torrc. For
* the functions used to parse the exit policy from a router descriptor,
* see router_add_exit_policy.
*/
int
policies_parse_exit_policy(config_line_t *cfg, smartlist_t **dest,
int ipv6_exit,
int rejectprivate, const char *local_address,
int add_default_policy)
{
if (!ipv6_exit) {
append_exit_policy_string(dest, "reject *6:*");
}
if (rejectprivate) {
append_exit_policy_string(dest, "reject private:*");
if (local_address) {
char buf[POLICY_BUF_LEN];
tor_snprintf(buf, sizeof(buf), "reject %s:*", local_address);
append_exit_policy_string(dest, buf);
}
}
if (parse_addr_policy(cfg, dest, -1))
return -1;
if (add_default_policy) {
append_exit_policy_string(dest, DEFAULT_EXIT_POLICY);
} else {
append_exit_policy_string(dest, "reject *4:*");
append_exit_policy_string(dest, "reject *6:*");
}
exit_policy_remove_redundancies(*dest);
return 0;
}
/** Add "reject *:*" to the end of the policy in *<b>dest</b>, allocating
* *<b>dest</b> as needed. */
void
policies_exit_policy_append_reject_star(smartlist_t **dest)
{
append_exit_policy_string(dest, "reject *4:*");
append_exit_policy_string(dest, "reject *6:*");
}
/** Replace the exit policy of <b>node</b> with reject *:* */
void
policies_set_node_exitpolicy_to_reject_all(node_t *node)
{
node->rejects_all = 1;
}
/** Return 1 if there is at least one /8 subnet in <b>policy</b> that
* allows exiting to <b>port</b>. Otherwise, return 0. */
static int
exit_policy_is_general_exit_helper(smartlist_t *policy, int port)
{
uint32_t mask, ip, i;
/* Is this /8 rejected (1), or undecided (0)? */
char subnet_status[256];
memset(subnet_status, 0, sizeof(subnet_status));
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, p) {
if (tor_addr_family(&p->addr) != AF_INET)
continue; /* IPv4 only for now */
if (p->prt_min > port || p->prt_max < port)
continue; /* Doesn't cover our port. */
mask = 0;
tor_assert(p->maskbits <= 32);
if (p->maskbits)
mask = UINT32_MAX<<(32-p->maskbits);
ip = tor_addr_to_ipv4h(&p->addr);
/* Calculate the first and last subnet that this exit policy touches
* and set it as loop boundaries. */
for (i = ((mask & ip)>>24); i <= (~((mask & ip) ^ mask)>>24); ++i) {
tor_addr_t addr;
if (subnet_status[i] != 0)
continue; /* We already reject some part of this /8 */
tor_addr_from_ipv4h(&addr, i<<24);
if (tor_addr_is_internal(&addr, 0))
continue; /* Local or non-routable addresses */
if (p->policy_type == ADDR_POLICY_ACCEPT) {
if (p->maskbits > 8)
continue; /* Narrower than a /8. */
/* We found an allowed subnet of at least size /8. Done
* for this port! */
return 1;
} else if (p->policy_type == ADDR_POLICY_REJECT) {
subnet_status[i] = 1;
}
}
} SMARTLIST_FOREACH_END(p);
return 0;
}
/** Return true iff <b>ri</b> is "useful as an exit node", meaning
* it allows exit to at least one /8 address space for at least
* two of ports 80, 443, and 6667. */
int
exit_policy_is_general_exit(smartlist_t *policy)
{
static const int ports[] = { 80, 443, 6667 };
int n_allowed = 0;
int i;
if (!policy) /*XXXX disallow NULL policies? */
return 0;
for (i = 0; i < 3; ++i) {
n_allowed += exit_policy_is_general_exit_helper(policy, ports[i]);
}
return n_allowed >= 2;
}
/** Return false if <b>policy</b> might permit access to some addr:port;
* otherwise if we are certain it rejects everything, return true. */
int
policy_is_reject_star(const smartlist_t *policy, sa_family_t family)
{
if (!policy) /*XXXX disallow NULL policies? */
return 1;
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, p) {
if (p->policy_type == ADDR_POLICY_ACCEPT &&
(tor_addr_family(&p->addr) == family ||
tor_addr_family(&p->addr) == AF_UNSPEC)) {
return 0;
} else if (p->policy_type == ADDR_POLICY_REJECT &&
p->prt_min <= 1 && p->prt_max == 65535 &&
p->maskbits == 0 &&
(tor_addr_family(&p->addr) == family ||
tor_addr_family(&p->addr) == AF_UNSPEC)) {
return 1;
}
} SMARTLIST_FOREACH_END(p);
return 1;
}
/** Write a single address policy to the buf_len byte buffer at buf. Return
* the number of characters written, or -1 on failure. */
int
policy_write_item(char *buf, size_t buflen, addr_policy_t *policy,
int format_for_desc)
{
size_t written = 0;
char addrbuf[TOR_ADDR_BUF_LEN];
const char *addrpart;
int result;
const int is_accept = policy->policy_type == ADDR_POLICY_ACCEPT;
const sa_family_t family = tor_addr_family(&policy->addr);
const int is_ip6 = (family == AF_INET6);
tor_addr_to_str(addrbuf, &policy->addr, sizeof(addrbuf), 1);
/* write accept/reject 1.2.3.4 */
if (policy->is_private) {
addrpart = "private";
} else if (policy->maskbits == 0) {
if (format_for_desc)
addrpart = "*";
else if (family == AF_INET6)
addrpart = "*6";
else if (family == AF_INET)
addrpart = "*4";
else
addrpart = "*";
} else {
addrpart = addrbuf;
}
result = tor_snprintf(buf, buflen, "%s%s %s",
is_accept ? "accept" : "reject",
(is_ip6&&format_for_desc)?"6":"",
addrpart);
if (result < 0)
return -1;
written += strlen(buf);
/* If the maskbits is 32 we don't need to give it. If the mask is 0,
* we already wrote "*". */
if (policy->maskbits < 32 && policy->maskbits > 0) {
if (tor_snprintf(buf+written, buflen-written, "/%d", policy->maskbits)<0)
return -1;
written += strlen(buf+written);
}
if (policy->prt_min <= 1 && policy->prt_max == 65535) {
/* There is no port set; write ":*" */
if (written+4 > buflen)
return -1;
strlcat(buf+written, ":*", buflen-written);
written += 2;
} else if (policy->prt_min == policy->prt_max) {
/* There is only one port; write ":80". */
result = tor_snprintf(buf+written, buflen-written, ":%d", policy->prt_min);
if (result<0)
return -1;
written += result;
} else {
/* There is a range of ports; write ":79-80". */
result = tor_snprintf(buf+written, buflen-written, ":%d-%d",
policy->prt_min, policy->prt_max);
if (result<0)
return -1;
written += result;
}
if (written < buflen)
buf[written] = '\0';
else
return -1;
return (int)written;
}
/** Create a new exit policy summary, initially only with a single
* port 1-64k item */
/* XXXX This entire thing will do most stuff in O(N^2), or worse. Use an
* RB-tree if that turns out to matter. */
static smartlist_t *
policy_summary_create(void)
{
smartlist_t *summary;
policy_summary_item_t* item;
item = tor_malloc_zero(sizeof(policy_summary_item_t));
item->prt_min = 1;
item->prt_max = 65535;
item->reject_count = 0;
item->accepted = 0;
summary = smartlist_new();
smartlist_add(summary, item);
return summary;
}
/** Split the summary item in <b>item</b> at the port <b>new_starts</b>.
* The current item is changed to end at new-starts - 1, the new item
* copies reject_count and accepted from the old item,
* starts at new_starts and ends at the port where the original item
* previously ended.
*/
static policy_summary_item_t*
policy_summary_item_split(policy_summary_item_t* old, uint16_t new_starts)
{
policy_summary_item_t* new;
new = tor_malloc_zero(sizeof(policy_summary_item_t));
new->prt_min = new_starts;
new->prt_max = old->prt_max;
new->reject_count = old->reject_count;
new->accepted = old->accepted;
old->prt_max = new_starts-1;
tor_assert(old->prt_min <= old->prt_max);
tor_assert(new->prt_min <= new->prt_max);
return new;
}
/* XXXX Nick says I'm going to hell for this. If he feels charitably towards
* my immortal soul, he can clean it up himself. */
#define AT(x) ((policy_summary_item_t*)smartlist_get(summary, x))
#define REJECT_CUTOFF_COUNT (1<<25)
/** Split an exit policy summary so that prt_min and prt_max
* fall at exactly the start and end of an item respectively.
*/
static int
policy_summary_split(smartlist_t *summary,
uint16_t prt_min, uint16_t prt_max)
{
int start_at_index;
int i = 0;
while (AT(i)->prt_max < prt_min)
i++;
if (AT(i)->prt_min != prt_min) {
policy_summary_item_t* new_item;
new_item = policy_summary_item_split(AT(i), prt_min);
smartlist_insert(summary, i+1, new_item);
i++;
}
start_at_index = i;
while (AT(i)->prt_max < prt_max)
i++;
if (AT(i)->prt_max != prt_max) {
policy_summary_item_t* new_item;
new_item = policy_summary_item_split(AT(i), prt_max+1);
smartlist_insert(summary, i+1, new_item);
}
return start_at_index;
}
/** Mark port ranges as accepted if they are below the reject_count */
static void
policy_summary_accept(smartlist_t *summary,
uint16_t prt_min, uint16_t prt_max)
{
int i = policy_summary_split(summary, prt_min, prt_max);
while (i < smartlist_len(summary) &&
AT(i)->prt_max <= prt_max) {
if (!AT(i)->accepted &&
AT(i)->reject_count <= REJECT_CUTOFF_COUNT)
AT(i)->accepted = 1;
i++;
}
tor_assert(i < smartlist_len(summary) || prt_max==65535);
}
/** Count the number of addresses in a network with prefixlen maskbits
* against the given portrange. */
static void
policy_summary_reject(smartlist_t *summary,
maskbits_t maskbits,
uint16_t prt_min, uint16_t prt_max)
{
int i = policy_summary_split(summary, prt_min, prt_max);
/* XXX: ipv4 specific */
uint64_t count = (U64_LITERAL(1) << (32-maskbits));
while (i < smartlist_len(summary) &&
AT(i)->prt_max <= prt_max) {
AT(i)->reject_count += count;
i++;
}
tor_assert(i < smartlist_len(summary) || prt_max==65535);
}
/** Add a single exit policy item to our summary:
* If it is an accept ignore it unless it is for all IP addresses
* ("*"), i.e. it's prefixlen/maskbits is 0, else call
* policy_summary_accept().
* If it's a reject ignore it if it is about one of the private
* networks, else call policy_summary_reject().
*/
static void
policy_summary_add_item(smartlist_t *summary, addr_policy_t *p)
{
if (p->policy_type == ADDR_POLICY_ACCEPT) {
if (p->maskbits == 0) {
policy_summary_accept(summary, p->prt_min, p->prt_max);
}
} else if (p->policy_type == ADDR_POLICY_REJECT) {
int is_private = 0;
int i;
for (i = 0; private_nets[i]; ++i) {
tor_addr_t addr;
maskbits_t maskbits;
if (tor_addr_parse_mask_ports(private_nets[i], 0, &addr,
&maskbits, NULL, NULL)<0) {
tor_assert(0);
}
if (tor_addr_compare(&p->addr, &addr, CMP_EXACT) == 0 &&
p->maskbits == maskbits) {
is_private = 1;
break;
}
}
if (!is_private) {
policy_summary_reject(summary, p->maskbits, p->prt_min, p->prt_max);
}
} else
tor_assert(0);
}
/** Create a string representing a summary for an exit policy.
* The summary will either be an "accept" plus a comma-separated list of port
* ranges or a "reject" plus port-ranges, depending on which is shorter.
*
* If no exits are allowed at all then NULL is returned, if no ports
* are blocked instead of "reject " we return "accept 1-65535" (this
* is an exception to the shorter-representation-wins rule).
*/
char *
policy_summarize(smartlist_t *policy, sa_family_t family)
{
smartlist_t *summary = policy_summary_create();
smartlist_t *accepts, *rejects;
int i, last, start_prt;
size_t accepts_len, rejects_len;
char *accepts_str = NULL, *rejects_str = NULL, *shorter_str, *result;
const char *prefix;
tor_assert(policy);
/* Create the summary list */
SMARTLIST_FOREACH_BEGIN(policy, addr_policy_t *, p) {
sa_family_t f = tor_addr_family(&p->addr);
if (f != AF_INET && f != AF_INET6) {
log_warn(LD_BUG, "Weird family when summarizing address policy");
}
if (f != family)
continue;
/* XXXX-ipv6 More family work is needed */
policy_summary_add_item(summary, p);
} SMARTLIST_FOREACH_END(p);
/* Now create two lists of strings, one for accepted and one
* for rejected ports. We take care to merge ranges so that
* we avoid getting stuff like "1-4,5-9,10", instead we want
* "1-10"
*/
i = 0;
start_prt = 1;
accepts = smartlist_new();
rejects = smartlist_new();
while (1) {
last = i == smartlist_len(summary)-1;
if (last ||
AT(i)->accepted != AT(i+1)->accepted) {
char buf[POLICY_BUF_LEN];
if (start_prt == AT(i)->prt_max)
tor_snprintf(buf, sizeof(buf), "%d", start_prt);
else
tor_snprintf(buf, sizeof(buf), "%d-%d", start_prt, AT(i)->prt_max);
if (AT(i)->accepted)
smartlist_add(accepts, tor_strdup(buf));
else
smartlist_add(rejects, tor_strdup(buf));
if (last)
break;
start_prt = AT(i+1)->prt_min;
};
i++;
};
/* Figure out which of the two stringlists will be shorter and use
* that to build the result
*/
if (smartlist_len(accepts) == 0) { /* no exits at all */
result = tor_strdup("reject 1-65535");
goto cleanup;
}
if (smartlist_len(rejects) == 0) { /* no rejects at all */
result = tor_strdup("accept 1-65535");
goto cleanup;
}
accepts_str = smartlist_join_strings(accepts, ",", 0, &accepts_len);
rejects_str = smartlist_join_strings(rejects, ",", 0, &rejects_len);
if (rejects_len > MAX_EXITPOLICY_SUMMARY_LEN-strlen("reject")-1 &&
accepts_len > MAX_EXITPOLICY_SUMMARY_LEN-strlen("accept")-1) {
char *c;
shorter_str = accepts_str;
prefix = "accept";
c = shorter_str + (MAX_EXITPOLICY_SUMMARY_LEN-strlen(prefix)-1);
while (*c != ',' && c >= shorter_str)
c--;
tor_assert(c >= shorter_str);
tor_assert(*c == ',');
*c = '\0';
} else if (rejects_len < accepts_len) {
shorter_str = rejects_str;
prefix = "reject";
} else {
shorter_str = accepts_str;
prefix = "accept";
}
tor_asprintf(&result, "%s %s", prefix, shorter_str);
cleanup:
/* cleanup */
SMARTLIST_FOREACH(summary, policy_summary_item_t *, s, tor_free(s));
smartlist_free(summary);
tor_free(accepts_str);
SMARTLIST_FOREACH(accepts, char *, s, tor_free(s));
smartlist_free(accepts);
tor_free(rejects_str);
SMARTLIST_FOREACH(rejects, char *, s, tor_free(s));
smartlist_free(rejects);
return result;
}
/** Convert a summarized policy string into a short_policy_t. Return NULL
* if the string is not well-formed. */
short_policy_t *
parse_short_policy(const char *summary)
{
const char *orig_summary = summary;
short_policy_t *result;
int is_accept;
int n_entries;
short_policy_entry_t entries[MAX_EXITPOLICY_SUMMARY_LEN]; /* overkill */
const char *next;
if (!strcmpstart(summary, "accept ")) {
is_accept = 1;
summary += strlen("accept ");
} else if (!strcmpstart(summary, "reject ")) {
is_accept = 0;
summary += strlen("reject ");
} else {
log_fn(LOG_PROTOCOL_WARN, LD_DIR, "Unrecognized policy summary keyword");
return NULL;
}
n_entries = 0;
for ( ; *summary; summary = next) {
const char *comma = strchr(summary, ',');
unsigned low, high;
char dummy;
char ent_buf[32];
size_t len;
next = comma ? comma+1 : strchr(summary, '\0');
len = comma ? (size_t)(comma - summary) : strlen(summary);
if (n_entries == MAX_EXITPOLICY_SUMMARY_LEN) {
log_fn(LOG_PROTOCOL_WARN, LD_DIR, "Impossibly long policy summary %s",
escaped(orig_summary));
return NULL;
}
if (! TOR_ISDIGIT(*summary) || len > (sizeof(ent_buf)-1)) {
/* unrecognized entry format. skip it. */
continue;
}
if (len < 1) {
/* empty; skip it. */
/* XXX This happens to be unreachable, since if len==0, then *summary is
* ',' or '\0', and the TOR_ISDIGIT test above would have failed. */
continue;
}
memcpy(ent_buf, summary, len);
ent_buf[len] = '\0';
if (tor_sscanf(ent_buf, "%u-%u%c", &low, &high, &dummy) == 2) {
if (low<1 || low>65535 || high<1 || high>65535 || low>high) {
log_fn(LOG_PROTOCOL_WARN, LD_DIR,
"Found bad entry in policy summary %s", escaped(orig_summary));
return NULL;
}
} else if (tor_sscanf(ent_buf, "%u%c", &low, &dummy) == 1) {
if (low<1 || low>65535) {
log_fn(LOG_PROTOCOL_WARN, LD_DIR,
"Found bad entry in policy summary %s", escaped(orig_summary));
return NULL;
}
high = low;
} else {
log_fn(LOG_PROTOCOL_WARN, LD_DIR,"Found bad entry in policy summary %s",
escaped(orig_summary));
return NULL;
}
entries[n_entries].min_port = low;
entries[n_entries].max_port = high;
n_entries++;
}
if (n_entries == 0) {
log_fn(LOG_PROTOCOL_WARN, LD_DIR,
"Found no port-range entries in summary %s", escaped(orig_summary));
return NULL;
}
{
size_t size = STRUCT_OFFSET(short_policy_t, entries) +
sizeof(short_policy_entry_t)*(n_entries);
result = tor_malloc_zero(size);
tor_assert( (char*)&result->entries[n_entries-1] < ((char*)result)+size);
}
result->is_accept = is_accept;
result->n_entries = n_entries;
memcpy(result->entries, entries, sizeof(short_policy_entry_t)*n_entries);
return result;
}
/** Write <b>policy</b> back out into a string. Used only for unit tests
* currently. */
char *
write_short_policy(const short_policy_t *policy)
{
int i;
char *answer;
smartlist_t *sl = smartlist_new();
smartlist_add_asprintf(sl, "%s", policy->is_accept ? "accept " : "reject ");
for (i=0; i < policy->n_entries; i++) {
const short_policy_entry_t *e = &policy->entries[i];
if (e->min_port == e->max_port) {
smartlist_add_asprintf(sl, "%d", e->min_port);
} else {
smartlist_add_asprintf(sl, "%d-%d", e->min_port, e->max_port);
}
if (i < policy->n_entries-1)
smartlist_add(sl, tor_strdup(","));
}
answer = smartlist_join_strings(sl, "", 0, NULL);
SMARTLIST_FOREACH(sl, char *, a, tor_free(a));
smartlist_free(sl);
return answer;
}
/** Release all storage held in <b>policy</b>. */
void
short_policy_free(short_policy_t *policy)
{
tor_free(policy);
}
/** See whether the <b>addr</b>:<b>port</b> address is likely to be accepted
* or rejected by the summarized policy <b>policy</b>. Return values are as
* for compare_tor_addr_to_addr_policy. Unlike the regular addr_policy
* functions, requires the <b>port</b> be specified. */
addr_policy_result_t
compare_tor_addr_to_short_policy(const tor_addr_t *addr, uint16_t port,
const short_policy_t *policy)
{
int i;
int found_match = 0;
int accept;
tor_assert(port != 0);
if (addr && tor_addr_is_null(addr))
addr = NULL; /* Unspec means 'no address at all,' in this context. */
if (addr && get_options()->ClientRejectInternalAddresses &&
(tor_addr_is_internal(addr, 0) || tor_addr_is_loopback(addr)))
return ADDR_POLICY_REJECTED;
for (i=0; i < policy->n_entries; ++i) {
const short_policy_entry_t *e = &policy->entries[i];
if (e->min_port <= port && port <= e->max_port) {
found_match = 1;
break;
}
}
if (found_match)
accept = policy->is_accept;
else
accept = ! policy->is_accept;
/* ???? are these right? -NM */
/* We should be sure not to return ADDR_POLICY_ACCEPTED in the accept
* case here, because it would cause clients to believe that the node
* allows exit enclaving. Trying it anyway would open up a cool attack
* where the node refuses due to exitpolicy, the client reacts in
* surprise by rewriting the node's exitpolicy to reject *:*, and then
* a bad guy targets users by causing them to attempt such connections
* to 98% of the exits.
*
* Once microdescriptors can handle addresses in special cases (e.g. if
* we ever solve ticket 1774), we can provide certainty here. -RD */
if (accept)
return ADDR_POLICY_PROBABLY_ACCEPTED;
else
return ADDR_POLICY_REJECTED;
}
/** Return true iff <b>policy</b> seems reject all ports */
int
short_policy_is_reject_star(const short_policy_t *policy)
{
/* This doesn't need to be as much on the lookout as policy_is_reject_star,
* since policy summaries are from the consensus or from consensus
* microdescs.
*/
tor_assert(policy);
/* Check for an exact match of "reject 1-65535". */
return (policy->is_accept == 0 && policy->n_entries == 1 &&
policy->entries[0].min_port == 1 &&
policy->entries[0].max_port == 65535);
}
/** Decide whether addr:port is probably or definitely accepted or rejected by
* <b>node</b>. See compare_tor_addr_to_addr_policy for details on addr/port
* interpretation. */
addr_policy_result_t
compare_tor_addr_to_node_policy(const tor_addr_t *addr, uint16_t port,
const node_t *node)
{
if (node->rejects_all)
return ADDR_POLICY_REJECTED;
if (addr && tor_addr_family(addr) == AF_INET6) {
const short_policy_t *p = NULL;
if (node->ri)
p = node->ri->ipv6_exit_policy;
else if (node->md)
p = node->md->ipv6_exit_policy;
if (p)
return compare_tor_addr_to_short_policy(addr, port, p);
else
return ADDR_POLICY_REJECTED;
}
if (node->ri) {
return compare_tor_addr_to_addr_policy(addr, port, node->ri->exit_policy);
} else if (node->md) {
if (node->md->exit_policy == NULL)
return ADDR_POLICY_REJECTED;
else
return compare_tor_addr_to_short_policy(addr, port,
node->md->exit_policy);
} else {
return ADDR_POLICY_PROBABLY_REJECTED;
}
}
/** Implementation for GETINFO control command: knows the answer for questions
* about "exit-policy/..." */
int
getinfo_helper_policies(control_connection_t *conn,
const char *question, char **answer,
const char **errmsg)
{
(void) conn;
(void) errmsg;
if (!strcmp(question, "exit-policy/default")) {
*answer = tor_strdup(DEFAULT_EXIT_POLICY);
}
return 0;
}
/** Release all storage held by <b>p</b>. */
void
addr_policy_list_free(smartlist_t *lst)
{
if (!lst)
return;
SMARTLIST_FOREACH(lst, addr_policy_t *, policy, addr_policy_free(policy));
smartlist_free(lst);
}
/** Release all storage held by <b>p</b>. */
void
addr_policy_free(addr_policy_t *p)
{
if (!p)
return;
if (--p->refcnt <= 0) {
if (p->is_canonical) {
policy_map_ent_t search, *found;
search.policy = p;
found = HT_REMOVE(policy_map, &policy_root, &search);
if (found) {
tor_assert(p == found->policy);
tor_free(found);
}
}
tor_free(p);
}
}
/** Release all storage held by policy variables. */
void
policies_free_all(void)
{
addr_policy_list_free(reachable_or_addr_policy);
reachable_or_addr_policy = NULL;
addr_policy_list_free(reachable_dir_addr_policy);
reachable_dir_addr_policy = NULL;
addr_policy_list_free(socks_policy);
socks_policy = NULL;
addr_policy_list_free(dir_policy);
dir_policy = NULL;
addr_policy_list_free(authdir_reject_policy);
authdir_reject_policy = NULL;
addr_policy_list_free(authdir_invalid_policy);
authdir_invalid_policy = NULL;
addr_policy_list_free(authdir_baddir_policy);
authdir_baddir_policy = NULL;
addr_policy_list_free(authdir_badexit_policy);
authdir_badexit_policy = NULL;
if (!HT_EMPTY(&policy_root)) {
policy_map_ent_t **ent;
int n = 0;
char buf[POLICY_BUF_LEN];
log_warn(LD_MM, "Still had %d address policies cached at shutdown.",
(int)HT_SIZE(&policy_root));
/* Note the first 10 cached policies to try to figure out where they
* might be coming from. */
HT_FOREACH(ent, policy_map, &policy_root) {
if (++n > 10)
break;
if (policy_write_item(buf, sizeof(buf), (*ent)->policy, 0) >= 0)
log_warn(LD_MM," %d [%d]: %s", n, (*ent)->policy->refcnt, buf);
}
}
HT_CLEAR(policy_map, &policy_root);
}
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