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|
/* Copyright (c) 2009-2012, The Tor Project, Inc. */
/* See LICENSE for licensing information */
#include "or.h"
#include "circuitbuild.h"
#include "config.h"
#include "directory.h"
#include "dirserv.h"
#include "microdesc.h"
#include "networkstatus.h"
#include "nodelist.h"
#include "policies.h"
#include "router.h"
#include "routerlist.h"
#include "routerparse.h"
/** A data structure to hold a bunch of cached microdescriptors. There are
* two active files in the cache: a "cache file" that we mmap, and a "journal
* file" that we append to. Periodically, we rebuild the cache file to hold
* only the microdescriptors that we want to keep */
struct microdesc_cache_t {
/** Map from sha256-digest to microdesc_t for every microdesc_t in the
* cache. */
HT_HEAD(microdesc_map, microdesc_t) map;
/** Name of the cache file. */
char *cache_fname;
/** Name of the journal file. */
char *journal_fname;
/** Mmap'd contents of the cache file, or NULL if there is none. */
tor_mmap_t *cache_content;
/** Number of bytes used in the journal file. */
size_t journal_len;
/** Number of bytes in descriptors removed as too old. */
size_t bytes_dropped;
/** Total bytes of microdescriptor bodies we have added to this cache */
uint64_t total_len_seen;
/** Total number of microdescriptors we have added to this cache */
unsigned n_seen;
};
/** Helper: computes a hash of <b>md</b> to place it in a hash table. */
static INLINE unsigned int
_microdesc_hash(microdesc_t *md)
{
unsigned *d = (unsigned*)md->digest;
#if SIZEOF_INT == 4
return d[0] ^ d[1] ^ d[2] ^ d[3] ^ d[4] ^ d[5] ^ d[6] ^ d[7];
#else
return d[0] ^ d[1] ^ d[2] ^ d[3];
#endif
}
/** Helper: compares <b>a</b> and </b> for equality for hash-table purposes. */
static INLINE int
_microdesc_eq(microdesc_t *a, microdesc_t *b)
{
return tor_memeq(a->digest, b->digest, DIGEST256_LEN);
}
HT_PROTOTYPE(microdesc_map, microdesc_t, node,
_microdesc_hash, _microdesc_eq);
HT_GENERATE(microdesc_map, microdesc_t, node,
_microdesc_hash, _microdesc_eq, 0.6,
malloc, realloc, free);
/** Write the body of <b>md</b> into <b>f</b>, with appropriate annotations.
* On success, return the total number of bytes written, and set
* *<b>annotation_len_out</b> to the number of bytes written as
* annotations. */
static ssize_t
dump_microdescriptor(FILE *f, microdesc_t *md, size_t *annotation_len_out)
{
ssize_t r = 0;
size_t written;
/* XXXX drops unkown annotations. */
if (md->last_listed) {
char buf[ISO_TIME_LEN+1];
char annotation[ISO_TIME_LEN+32];
format_iso_time(buf, md->last_listed);
tor_snprintf(annotation, sizeof(annotation), "@last-listed %s\n", buf);
if (fputs(annotation, f) < 0) {
log_warn(LD_DIR,
"Couldn't write microdescriptor annotation: %s",
strerror(ferror(f)));
return -1;
}
r += strlen(annotation);
*annotation_len_out = r;
} else {
*annotation_len_out = 0;
}
md->off = (off_t) ftell(f);
written = fwrite(md->body, 1, md->bodylen, f);
if (written != md->bodylen) {
log_warn(LD_DIR,
"Couldn't dump microdescriptor (wrote %lu out of %lu): %s",
(unsigned long)written, (unsigned long)md->bodylen,
strerror(ferror(f)));
return -1;
}
r += md->bodylen;
return r;
}
/** Holds a pointer to the current microdesc_cache_t object, or NULL if no
* such object has been allocated. */
static microdesc_cache_t *the_microdesc_cache = NULL;
/** Return a pointer to the microdescriptor cache, loading it if necessary. */
microdesc_cache_t *
get_microdesc_cache(void)
{
if (PREDICT_UNLIKELY(the_microdesc_cache==NULL)) {
microdesc_cache_t *cache = tor_malloc_zero(sizeof(microdesc_cache_t));
HT_INIT(microdesc_map, &cache->map);
cache->cache_fname = get_datadir_fname("cached-microdescs");
cache->journal_fname = get_datadir_fname("cached-microdescs.new");
microdesc_cache_reload(cache);
the_microdesc_cache = cache;
}
return the_microdesc_cache;
}
/* There are three sources of microdescriptors:
1) Generated by us while acting as a directory authority.
2) Loaded from the cache on disk.
3) Downloaded.
*/
/** Decode the microdescriptors from the string starting at <b>s</b> and
* ending at <b>eos</b>, and store them in <b>cache</b>. If <b>no-save</b>,
* mark them as non-writable to disk. If <b>where</b> is SAVED_IN_CACHE,
* leave their bodies as pointers to the mmap'd cache. If where is
* <b>SAVED_NOWHERE</b>, do not allow annotations. If listed_at is positive,
* set the last_listed field of every microdesc to listed_at. If
* requested_digests is non-null, then it contains a list of digests we mean
* to allow, so we should reject any non-requested microdesc with a different
* digest, and alter the list to contain only the digests of those microdescs
* we didn't find.
* Return a newly allocated list of the added microdescriptors, or NULL */
smartlist_t *
microdescs_add_to_cache(microdesc_cache_t *cache,
const char *s, const char *eos, saved_location_t where,
int no_save, time_t listed_at,
smartlist_t *requested_digests256)
{
smartlist_t *descriptors, *added;
const int allow_annotations = (where != SAVED_NOWHERE);
const int copy_body = (where != SAVED_IN_CACHE);
descriptors = microdescs_parse_from_string(s, eos,
allow_annotations,
copy_body);
if (listed_at > 0) {
SMARTLIST_FOREACH(descriptors, microdesc_t *, md,
md->last_listed = listed_at);
}
if (requested_digests256) {
digestmap_t *requested; /* XXXX actuqlly we should just use a
digest256map */
requested = digestmap_new();
SMARTLIST_FOREACH(requested_digests256, const char *, cp,
digestmap_set(requested, cp, (void*)1));
SMARTLIST_FOREACH_BEGIN(descriptors, microdesc_t *, md) {
if (digestmap_get(requested, md->digest)) {
digestmap_set(requested, md->digest, (void*)2);
} else {
log_fn(LOG_PROTOCOL_WARN, LD_DIR, "Received non-requested microcdesc");
microdesc_free(md);
SMARTLIST_DEL_CURRENT(descriptors, md);
}
} SMARTLIST_FOREACH_END(md);
SMARTLIST_FOREACH_BEGIN(requested_digests256, char *, cp) {
if (digestmap_get(requested, cp) == (void*)2) {
tor_free(cp);
SMARTLIST_DEL_CURRENT(requested_digests256, cp);
}
} SMARTLIST_FOREACH_END(cp);
digestmap_free(requested, NULL);
}
added = microdescs_add_list_to_cache(cache, descriptors, where, no_save);
smartlist_free(descriptors);
return added;
}
/** As microdescs_add_to_cache, but takes a list of micrdescriptors instead of
* a string to decode. Frees any members of <b>descriptors</b> that it does
* not add. */
smartlist_t *
microdescs_add_list_to_cache(microdesc_cache_t *cache,
smartlist_t *descriptors, saved_location_t where,
int no_save)
{
smartlist_t *added;
open_file_t *open_file = NULL;
FILE *f = NULL;
// int n_added = 0;
ssize_t size = 0;
if (where == SAVED_NOWHERE && !no_save) {
f = start_writing_to_stdio_file(cache->journal_fname,
OPEN_FLAGS_APPEND|O_BINARY,
0600, &open_file);
if (!f) {
log_warn(LD_DIR, "Couldn't append to journal in %s: %s",
cache->journal_fname, strerror(errno));
return NULL;
}
}
added = smartlist_new();
SMARTLIST_FOREACH_BEGIN(descriptors, microdesc_t *, md) {
microdesc_t *md2;
md2 = HT_FIND(microdesc_map, &cache->map, md);
if (md2) {
/* We already had this one. */
if (md2->last_listed < md->last_listed)
md2->last_listed = md->last_listed;
microdesc_free(md);
if (where != SAVED_NOWHERE)
cache->bytes_dropped += size;
continue;
}
/* Okay, it's a new one. */
if (f) {
size_t annotation_len;
size = dump_microdescriptor(f, md, &annotation_len);
if (size < 0) {
/* we already warned in dump_microdescriptor; */
abort_writing_to_file(open_file);
smartlist_clear(added);
return added;
}
md->saved_location = SAVED_IN_JOURNAL;
cache->journal_len += size;
} else {
md->saved_location = where;
}
md->no_save = no_save;
HT_INSERT(microdesc_map, &cache->map, md);
md->held_in_map = 1;
smartlist_add(added, md);
++cache->n_seen;
cache->total_len_seen += md->bodylen;
} SMARTLIST_FOREACH_END(md);
if (f)
finish_writing_to_file(open_file); /*XXX Check me.*/
{
networkstatus_t *ns = networkstatus_get_latest_consensus();
if (ns && ns->flavor == FLAV_MICRODESC)
SMARTLIST_FOREACH(added, microdesc_t *, md, nodelist_add_microdesc(md));
}
if (smartlist_len(added))
router_dir_info_changed();
return added;
}
/** Remove every microdescriptor in <b>cache</b>. */
void
microdesc_cache_clear(microdesc_cache_t *cache)
{
microdesc_t **entry, **next;
for (entry = HT_START(microdesc_map, &cache->map); entry; entry = next) {
microdesc_t *md = *entry;
next = HT_NEXT_RMV(microdesc_map, &cache->map, entry);
md->held_in_map = 0;
microdesc_free(md);
}
HT_CLEAR(microdesc_map, &cache->map);
if (cache->cache_content) {
tor_munmap_file(cache->cache_content);
cache->cache_content = NULL;
}
cache->total_len_seen = 0;
cache->n_seen = 0;
cache->bytes_dropped = 0;
}
/** Reload the contents of <b>cache</b> from disk. If it is empty, load it
* for the first time. Return 0 on success, -1 on failure. */
int
microdesc_cache_reload(microdesc_cache_t *cache)
{
struct stat st;
char *journal_content;
smartlist_t *added;
tor_mmap_t *mm;
int total = 0;
microdesc_cache_clear(cache);
mm = cache->cache_content = tor_mmap_file(cache->cache_fname);
if (mm) {
added = microdescs_add_to_cache(cache, mm->data, mm->data+mm->size,
SAVED_IN_CACHE, 0, -1, NULL);
if (added) {
total += smartlist_len(added);
smartlist_free(added);
}
}
journal_content = read_file_to_str(cache->journal_fname,
RFTS_IGNORE_MISSING, &st);
if (journal_content) {
cache->journal_len = (size_t) st.st_size;
added = microdescs_add_to_cache(cache, journal_content,
journal_content+st.st_size,
SAVED_IN_JOURNAL, 0, -1, NULL);
if (added) {
total += smartlist_len(added);
smartlist_free(added);
}
tor_free(journal_content);
}
log_notice(LD_DIR, "Reloaded microdescriptor cache. Found %d descriptors.",
total);
microdesc_cache_rebuild(cache, 0 /* don't force */);
return 0;
}
/** By default, we remove any microdescriptors that have gone at least this
* long without appearing in a current consensus. */
#define TOLERATE_MICRODESC_AGE (7*24*60*60)
/** Remove all microdescriptors from <b>cache</b> that haven't been listed for
* a long time. Does not rebuild the cache on disk. If <b>cutoff</b> is
* positive, specifically remove microdescriptors that have been unlisted
* since <b>cutoff</b>. If <b>force</b> is true, remove microdescriptors even
* if we have no current live microdescriptor consensus.
*/
void
microdesc_cache_clean(microdesc_cache_t *cache, time_t cutoff, int force)
{
microdesc_t **mdp, *victim;
int dropped=0, kept=0;
size_t bytes_dropped = 0;
time_t now = time(NULL);
/* If we don't know a live consensus, don't believe last_listed values: we
* might be starting up after being down for a while. */
if (! force &&
! networkstatus_get_reasonably_live_consensus(now, FLAV_MICRODESC))
return;
if (cutoff <= 0)
cutoff = now - TOLERATE_MICRODESC_AGE;
for (mdp = HT_START(microdesc_map, &cache->map); mdp != NULL; ) {
if ((*mdp)->last_listed < cutoff) {
++dropped;
victim = *mdp;
mdp = HT_NEXT_RMV(microdesc_map, &cache->map, mdp);
victim->held_in_map = 0;
bytes_dropped += victim->bodylen;
microdesc_free(victim);
} else {
++kept;
mdp = HT_NEXT(microdesc_map, &cache->map, mdp);
}
}
if (dropped) {
log_info(LD_DIR, "Removed %d/%d microdescriptors as old.",
dropped,dropped+kept);
cache->bytes_dropped += bytes_dropped;
}
}
static int
should_rebuild_md_cache(microdesc_cache_t *cache)
{
const size_t old_len =
cache->cache_content ? cache->cache_content->size : 0;
const size_t journal_len = cache->journal_len;
const size_t dropped = cache->bytes_dropped;
if (journal_len < 16384)
return 0; /* Don't bother, not enough has happened yet. */
if (dropped > (journal_len + old_len) / 3)
return 1; /* We could save 1/3 or more of the currently used space. */
if (journal_len > old_len / 2)
return 1; /* We should append to the regular file */
return 0;
}
/** Regenerate the main cache file for <b>cache</b>, clear the journal file,
* and update every microdesc_t in the cache with pointers to its new
* location. If <b>force</b> is true, do this unconditionally. If
* <b>force</b> is false, do it only if we expect to save space on disk. */
int
microdesc_cache_rebuild(microdesc_cache_t *cache, int force)
{
open_file_t *open_file;
FILE *f;
microdesc_t **mdp;
smartlist_t *wrote;
ssize_t size;
off_t off = 0;
int orig_size, new_size;
if (cache == NULL) {
cache = the_microdesc_cache;
if (cache == NULL)
return 0;
}
/* Remove dead descriptors */
microdesc_cache_clean(cache, 0/*cutoff*/, 0/*force*/);
if (!force && !should_rebuild_md_cache(cache))
return 0;
log_info(LD_DIR, "Rebuilding the microdescriptor cache...");
orig_size = (int)(cache->cache_content ? cache->cache_content->size : 0);
orig_size += (int)cache->journal_len;
f = start_writing_to_stdio_file(cache->cache_fname,
OPEN_FLAGS_REPLACE|O_BINARY,
0600, &open_file);
if (!f)
return -1;
wrote = smartlist_new();
HT_FOREACH(mdp, microdesc_map, &cache->map) {
microdesc_t *md = *mdp;
size_t annotation_len;
if (md->no_save)
continue;
size = dump_microdescriptor(f, md, &annotation_len);
if (size < 0) {
/* XXX handle errors from dump_microdescriptor() */
/* log? return -1? die? coredump the universe? */
continue;
}
tor_assert(((size_t)size) == annotation_len + md->bodylen);
md->off = off + annotation_len;
off += size;
if (md->saved_location != SAVED_IN_CACHE) {
tor_free(md->body);
md->saved_location = SAVED_IN_CACHE;
}
smartlist_add(wrote, md);
}
if (cache->cache_content)
tor_munmap_file(cache->cache_content);
finish_writing_to_file(open_file); /*XXX Check me.*/
cache->cache_content = tor_mmap_file(cache->cache_fname);
if (!cache->cache_content && smartlist_len(wrote)) {
log_err(LD_DIR, "Couldn't map file that we just wrote to %s!",
cache->cache_fname);
smartlist_free(wrote);
return -1;
}
SMARTLIST_FOREACH_BEGIN(wrote, microdesc_t *, md) {
tor_assert(md->saved_location == SAVED_IN_CACHE);
md->body = (char*)cache->cache_content->data + md->off;
if (PREDICT_UNLIKELY(
md->bodylen < 9 || fast_memneq(md->body, "onion-key", 9) != 0)) {
/* XXXX once bug 2022 is solved, we can kill this block and turn it
* into just the tor_assert(!memcmp) */
off_t avail = cache->cache_content->size - md->off;
char *bad_str;
tor_assert(avail >= 0);
bad_str = tor_strndup(md->body, MIN(128, (size_t)avail));
log_err(LD_BUG, "After rebuilding microdesc cache, offsets seem wrong. "
" At offset %d, I expected to find a microdescriptor starting "
" with \"onion-key\". Instead I got %s.",
(int)md->off, escaped(bad_str));
tor_free(bad_str);
tor_assert(fast_memeq(md->body, "onion-key", 9));
}
} SMARTLIST_FOREACH_END(md);
smartlist_free(wrote);
write_str_to_file(cache->journal_fname, "", 1);
cache->journal_len = 0;
cache->bytes_dropped = 0;
new_size = cache->cache_content ? (int)cache->cache_content->size : 0;
log_info(LD_DIR, "Done rebuilding microdesc cache. "
"Saved %d bytes; %d still used.",
orig_size-new_size, new_size);
return 0;
}
/** Make sure that the reference count of every microdescriptor in cache is
* accurate. */
void
microdesc_check_counts(void)
{
microdesc_t **mdp;
if (!the_microdesc_cache)
return;
HT_FOREACH(mdp, microdesc_map, &the_microdesc_cache->map) {
microdesc_t *md = *mdp;
unsigned int found=0;
const smartlist_t *nodes = nodelist_get_list();
SMARTLIST_FOREACH(nodes, node_t *, node, {
if (node->md == md) {
++found;
}
});
tor_assert(found == md->held_by_nodes);
}
}
/** Deallocate a single microdescriptor. Note: the microdescriptor MUST have
* previously been removed from the cache if it had ever been inserted. */
void
microdesc_free(microdesc_t *md)
{
if (!md)
return;
/* Make sure that the microdesc was really removed from the appropriate data
structures. */
if (md->held_in_map) {
microdesc_cache_t *cache = get_microdesc_cache();
microdesc_t *md2 = HT_FIND(microdesc_map, &cache->map, md);
if (md2 == md) {
log_warn(LD_BUG, "microdesc_free() called, but md was still in "
"microdesc_map");
HT_REMOVE(microdesc_map, &cache->map, md);
} else {
log_warn(LD_BUG, "microdesc_free() called with held_in_map set, but "
"microdesc was not in the map.");
}
tor_fragile_assert();
}
if (md->held_by_nodes) {
int found=0;
const smartlist_t *nodes = nodelist_get_list();
SMARTLIST_FOREACH(nodes, node_t *, node, {
if (node->md == md) {
++found;
node->md = NULL;
}
});
if (found) {
log_warn(LD_BUG, "microdesc_free() called, but md was still referenced "
"%d node(s); held_by_nodes == %u", found, md->held_by_nodes);
} else {
log_warn(LD_BUG, "microdesc_free() called with held_by_nodes set to %u, "
"but md was not referenced by any nodes", md->held_by_nodes);
}
tor_fragile_assert();
}
//tor_assert(md->held_in_map == 0);
//tor_assert(md->held_by_nodes == 0);
if (md->onion_pkey)
crypto_pk_free(md->onion_pkey);
if (md->body && md->saved_location != SAVED_IN_CACHE)
tor_free(md->body);
if (md->family) {
SMARTLIST_FOREACH(md->family, char *, cp, tor_free(cp));
smartlist_free(md->family);
}
short_policy_free(md->exit_policy);
tor_free(md);
}
/** Free all storage held in the microdesc.c module. */
void
microdesc_free_all(void)
{
if (the_microdesc_cache) {
microdesc_cache_clear(the_microdesc_cache);
tor_free(the_microdesc_cache->cache_fname);
tor_free(the_microdesc_cache->journal_fname);
tor_free(the_microdesc_cache);
}
}
/** If there is a microdescriptor in <b>cache</b> whose sha256 digest is
* <b>d</b>, return it. Otherwise return NULL. */
microdesc_t *
microdesc_cache_lookup_by_digest256(microdesc_cache_t *cache, const char *d)
{
microdesc_t *md, search;
if (!cache)
cache = get_microdesc_cache();
memcpy(search.digest, d, DIGEST256_LEN);
md = HT_FIND(microdesc_map, &cache->map, &search);
return md;
}
/** Return the mean size of decriptors added to <b>cache</b> since it was last
* cleared. Used to estimate the size of large downloads. */
size_t
microdesc_average_size(microdesc_cache_t *cache)
{
if (!cache)
cache = get_microdesc_cache();
if (!cache->n_seen)
return 512;
return (size_t)(cache->total_len_seen / cache->n_seen);
}
/** Return a smartlist of all the sha256 digest of the microdescriptors that
* are listed in <b>ns</b> but not present in <b>cache</b>. Returns pointers
* to internals of <b>ns</b>; you should not free the members of the resulting
* smartlist. Omit all microdescriptors whose digest appear in <b>skip</b>. */
smartlist_t *
microdesc_list_missing_digest256(networkstatus_t *ns, microdesc_cache_t *cache,
int downloadable_only, digestmap_t *skip)
{
smartlist_t *result = smartlist_new();
time_t now = time(NULL);
tor_assert(ns->flavor == FLAV_MICRODESC);
SMARTLIST_FOREACH_BEGIN(ns->routerstatus_list, routerstatus_t *, rs) {
if (microdesc_cache_lookup_by_digest256(cache, rs->descriptor_digest))
continue;
if (downloadable_only &&
!download_status_is_ready(&rs->dl_status, now,
MAX_MICRODESC_DOWNLOAD_FAILURES))
continue;
if (skip && digestmap_get(skip, rs->descriptor_digest))
continue;
if (tor_mem_is_zero(rs->descriptor_digest, DIGEST256_LEN))
continue;
/* XXXX Also skip if we're a noncache and wouldn't use this router.
* XXXX NM Microdesc
*/
smartlist_add(result, rs->descriptor_digest);
} SMARTLIST_FOREACH_END(rs);
return result;
}
/** Launch download requests for mircodescriptors as appropriate.
*
* Specifically, we should launch download requests if we are configured to
* download mirodescriptors, and there are some microdescriptors listed the
* current microdesc consensus that we don't have, and either we never asked
* for them, or we failed to download them but we're willing to retry.
*/
void
update_microdesc_downloads(time_t now)
{
const or_options_t *options = get_options();
networkstatus_t *consensus;
smartlist_t *missing;
digestmap_t *pending;
if (should_delay_dir_fetches(options))
return;
if (directory_too_idle_to_fetch_descriptors(options, now))
return;
consensus = networkstatus_get_reasonably_live_consensus(now, FLAV_MICRODESC);
if (!consensus)
return;
if (!we_fetch_microdescriptors(options))
return;
pending = digestmap_new();
list_pending_microdesc_downloads(pending);
missing = microdesc_list_missing_digest256(consensus,
get_microdesc_cache(),
1,
pending);
digestmap_free(pending, NULL);
launch_descriptor_downloads(DIR_PURPOSE_FETCH_MICRODESC,
missing, NULL, now);
smartlist_free(missing);
}
/** For every microdescriptor listed in the current microdecriptor consensus,
* update its last_listed field to be at least as recent as the publication
* time of the current microdescriptor consensus.
*/
void
update_microdescs_from_networkstatus(time_t now)
{
microdesc_cache_t *cache = get_microdesc_cache();
microdesc_t *md;
networkstatus_t *ns =
networkstatus_get_reasonably_live_consensus(now, FLAV_MICRODESC);
if (! ns)
return;
tor_assert(ns->flavor == FLAV_MICRODESC);
SMARTLIST_FOREACH_BEGIN(ns->routerstatus_list, routerstatus_t *, rs) {
md = microdesc_cache_lookup_by_digest256(cache, rs->descriptor_digest);
if (md && ns->valid_after > md->last_listed)
md->last_listed = ns->valid_after;
} SMARTLIST_FOREACH_END(rs);
}
/** Return true iff we should prefer to use microdescriptors rather than
* routerdescs for building circuits. */
int
we_use_microdescriptors_for_circuits(const or_options_t *options)
{
int ret = options->UseMicrodescriptors;
if (ret == -1) {
/* UseMicrodescriptors is "auto"; we need to decide: */
/* If we are configured to use bridges and one of our bridges doesn't
* know what a microdescriptor is, the answer is no. */
if (options->UseBridges && any_bridges_dont_support_microdescriptors())
return 0;
/* Otherwise, we decide that we'll use microdescriptors iff we are
* not a server, and we're not autofetching everything. */
/* XXX023 what does not being a server have to do with it? also there's
* a partitioning issue here where bridges differ from clients. */
ret = !server_mode(options) && !options->FetchUselessDescriptors;
}
return ret;
}
/** Return true iff we should try to download microdescriptors at all. */
int
we_fetch_microdescriptors(const or_options_t *options)
{
if (directory_caches_dir_info(options))
return 1;
if (options->FetchUselessDescriptors)
return 1;
return we_use_microdescriptors_for_circuits(options);
}
/** Return true iff we should try to download router descriptors at all. */
int
we_fetch_router_descriptors(const or_options_t *options)
{
if (directory_caches_dir_info(options))
return 1;
if (options->FetchUselessDescriptors)
return 1;
return ! we_use_microdescriptors_for_circuits(options);
}
/** Return the consensus flavor we actually want to use to build circuits. */
int
usable_consensus_flavor(void)
{
if (we_use_microdescriptors_for_circuits(get_options())) {
return FLAV_MICRODESC;
} else {
return FLAV_NS;
}
}
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