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- /* Copyright (c) 2016-2018, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- /**
- * \file shared_random.c
- *
- * \brief Functions and data structure needed to accomplish the shared
- * random protocol as defined in proposal #250.
- *
- * \details
- *
- * This file implements the dirauth-only commit-and-reveal protocol specified
- * by proposal #250. The protocol has two phases (sr_phase_t): the commitment
- * phase and the reveal phase (see get_sr_protocol_phase()).
- *
- * During the protocol, directory authorities keep state in memory (using
- * sr_state_t) and in disk (using sr_disk_state_t). The synchronization between
- * these two data structures happens in disk_state_update() and
- * disk_state_parse().
- *
- * Here is a rough protocol outline:
- *
- * 1) In the beginning of the commitment phase, dirauths generate a
- * commitment/reveal value for the current protocol run (see
- * new_protocol_run() and sr_generate_our_commit()).
- *
- * 2) During voting, dirauths publish their commits in their votes
- * depending on the current phase. Dirauths also include the two
- * latest shared random values (SRV) in their votes.
- * (see sr_get_string_for_vote())
- *
- * 3) Upon receiving a commit from a vote, authorities parse it, verify
- * it, and attempt to save any new commitment or reveal information in
- * their state file (see extract_shared_random_commits() and
- * sr_handle_received_commits()). They also parse SRVs from votes to
- * decide which SRV should be included in the final consensus (see
- * extract_shared_random_srvs()).
- *
- * 3) After voting is done, we count the SRVs we extracted from the votes,
- * to find the one voted by the majority of dirauths which should be
- * included in the final consensus (see get_majority_srv_from_votes()).
- * If an appropriate SRV is found, it is embedded in the consensus (see
- * sr_get_string_for_consensus()).
- *
- * 4) At the end of the reveal phase, dirauths compute a fresh SRV for the
- * day using the active commits (see sr_compute_srv()). This new SRV
- * is embedded in the votes as described above.
- *
- * Some more notes:
- *
- * - To support rebooting authorities and to avoid double voting, each dirauth
- * saves the current state of the protocol on disk so that it can resume
- * normally in case of reboot. The disk state (sr_disk_state_t) is managed by
- * shared_random_state.c:state_query() and we go to extra lengths to ensure
- * that the state is flushed on disk everytime we receive any useful
- * information like commits or SRVs.
- *
- * - When we receive a commit from a vote, we examine it to see if it's useful
- * to us and whether it's appropriate to receive it according to the current
- * phase of the protocol (see should_keep_commit()). If the commit is useful
- * to us, we save it in our disk state using save_commit_to_state(). When we
- * receive the reveal information corresponding to a commitment, we verify
- * that they indeed match using verify_commit_and_reveal().
- *
- * - We treat consensuses as the ground truth, so everytime we generate a new
- * consensus we update our SR state accordingly even if our local view was
- * different (see sr_act_post_consensus()).
- *
- * - After a consensus has been composed, the SR protocol state gets prepared
- * for the next voting session using sr_state_update(). That function takes
- * care of housekeeping and also rotates the SRVs and commits in case a new
- * protocol run is coming up. We also call sr_state_update() on bootup (in
- * sr_state_init()), to prepare the state for the very first voting session.
- *
- * Terminology:
- *
- * - "Commitment" is the commitment value of the commit-and-reveal protocol.
- *
- * - "Reveal" is the reveal value of the commit-and-reveal protocol.
- *
- * - "Commit" is a struct (sr_commit_t) that contains a commitment value and
- * optionally also a corresponding reveal value.
- *
- * - "SRV" is the Shared Random Value that gets generated as the result of the
- * commit-and-reveal protocol.
- **/
- #define SHARED_RANDOM_PRIVATE
- #include "core/or/or.h"
- #include "feature/dirauth/shared_random.h"
- #include "app/config/config.h"
- #include "app/config/confparse.h"
- #include "lib/crypt_ops/crypto_rand.h"
- #include "lib/crypt_ops/crypto_util.h"
- #include "feature/nodelist/networkstatus.h"
- #include "feature/relay/router.h"
- #include "feature/relay/routerkeys.h"
- #include "feature/nodelist/dirlist.h"
- #include "feature/hs_common/shared_random_client.h"
- #include "feature/dirauth/shared_random_state.h"
- #include "feature/dircommon/voting_schedule.h"
- #include "feature/dirauth/dirvote.h"
- #include "feature/dirauth/authmode.h"
- #include "feature/nodelist/authority_cert_st.h"
- #include "feature/nodelist/networkstatus_st.h"
- /* String prefix of shared random values in votes/consensuses. */
- static const char previous_srv_str[] = "shared-rand-previous-value";
- static const char current_srv_str[] = "shared-rand-current-value";
- static const char commit_ns_str[] = "shared-rand-commit";
- static const char sr_flag_ns_str[] = "shared-rand-participate";
- /* The value of the consensus param AuthDirNumSRVAgreements found in the
- * vote. This is set once the consensus creation subsystem requests the
- * SRV(s) that should be put in the consensus. We use this value to decide
- * if we keep or not an SRV. */
- static int32_t num_srv_agreements_from_vote;
- /* Return a heap allocated copy of the SRV <b>orig</b>. */
- STATIC sr_srv_t *
- srv_dup(const sr_srv_t *orig)
- {
- sr_srv_t *duplicate = NULL;
- if (!orig) {
- return NULL;
- }
- duplicate = tor_malloc_zero(sizeof(sr_srv_t));
- duplicate->num_reveals = orig->num_reveals;
- memcpy(duplicate->value, orig->value, sizeof(duplicate->value));
- return duplicate;
- }
- /* Allocate a new commit object and initializing it with <b>rsa_identity</b>
- * that MUST be provided. The digest algorithm is set to the default one
- * that is supported. The rest is uninitialized. This never returns NULL. */
- static sr_commit_t *
- commit_new(const char *rsa_identity)
- {
- sr_commit_t *commit;
- tor_assert(rsa_identity);
- commit = tor_malloc_zero(sizeof(*commit));
- commit->alg = SR_DIGEST_ALG;
- memcpy(commit->rsa_identity, rsa_identity, sizeof(commit->rsa_identity));
- base16_encode(commit->rsa_identity_hex, sizeof(commit->rsa_identity_hex),
- commit->rsa_identity, sizeof(commit->rsa_identity));
- return commit;
- }
- /* Issue a log message describing <b>commit</b>. */
- static void
- commit_log(const sr_commit_t *commit)
- {
- tor_assert(commit);
- log_debug(LD_DIR, "SR: Commit from %s", sr_commit_get_rsa_fpr(commit));
- log_debug(LD_DIR, "SR: Commit: [TS: %" PRIu64 "] [Encoded: %s]",
- commit->commit_ts, commit->encoded_commit);
- log_debug(LD_DIR, "SR: Reveal: [TS: %" PRIu64 "] [Encoded: %s]",
- commit->reveal_ts, safe_str(commit->encoded_reveal));
- }
- /* Make sure that the commitment and reveal information in <b>commit</b>
- * match. If they match return 0, return -1 otherwise. This function MUST be
- * used everytime we receive a new reveal value. Furthermore, the commit
- * object MUST have a reveal value and the hash of the reveal value. */
- STATIC int
- verify_commit_and_reveal(const sr_commit_t *commit)
- {
- tor_assert(commit);
- log_debug(LD_DIR, "SR: Validating commit from authority %s",
- sr_commit_get_rsa_fpr(commit));
- /* Check that the timestamps match. */
- if (commit->commit_ts != commit->reveal_ts) {
- log_warn(LD_BUG, "SR: Commit timestamp %" PRIu64 " doesn't match reveal "
- "timestamp %" PRIu64, commit->commit_ts,
- commit->reveal_ts);
- goto invalid;
- }
- /* Verify that the hashed_reveal received in the COMMIT message, matches
- * the reveal we just received. */
- {
- /* We first hash the reveal we just received. */
- char received_hashed_reveal[sizeof(commit->hashed_reveal)];
- /* Only sha3-256 is supported. */
- if (commit->alg != SR_DIGEST_ALG) {
- goto invalid;
- }
- /* Use the invariant length since the encoded reveal variable has an
- * extra byte for the NUL terminated byte. */
- if (crypto_digest256(received_hashed_reveal, commit->encoded_reveal,
- SR_REVEAL_BASE64_LEN, commit->alg) < 0) {
- /* Unable to digest the reveal blob, this is unlikely. */
- goto invalid;
- }
- /* Now compare that with the hashed_reveal we received in COMMIT. */
- if (fast_memneq(received_hashed_reveal, commit->hashed_reveal,
- sizeof(received_hashed_reveal))) {
- log_warn(LD_BUG, "SR: Received reveal value from authority %s "
- "doesn't match the commit value.",
- sr_commit_get_rsa_fpr(commit));
- goto invalid;
- }
- }
- return 0;
- invalid:
- return -1;
- }
- /* Return true iff the commit contains an encoded reveal value. */
- STATIC int
- commit_has_reveal_value(const sr_commit_t *commit)
- {
- return !tor_mem_is_zero(commit->encoded_reveal,
- sizeof(commit->encoded_reveal));
- }
- /* Parse the encoded commit. The format is:
- * base64-encode( TIMESTAMP || H(REVEAL) )
- *
- * If successfully decoded and parsed, commit is updated and 0 is returned.
- * On error, return -1. */
- STATIC int
- commit_decode(const char *encoded, sr_commit_t *commit)
- {
- int decoded_len = 0;
- size_t offset = 0;
- char b64_decoded[SR_COMMIT_LEN];
- tor_assert(encoded);
- tor_assert(commit);
- if (strlen(encoded) > SR_COMMIT_BASE64_LEN) {
- /* This means that if we base64 decode successfully the reveiced commit,
- * we'll end up with a bigger decoded commit thus unusable. */
- goto error;
- }
- /* Decode our encoded commit. Let's be careful here since _encoded_ is
- * coming from the network in a dirauth vote so we expect nothing more
- * than the base64 encoded length of a commit. */
- decoded_len = base64_decode(b64_decoded, sizeof(b64_decoded),
- encoded, strlen(encoded));
- if (decoded_len < 0) {
- log_warn(LD_BUG, "SR: Commit from authority %s can't be decoded.",
- sr_commit_get_rsa_fpr(commit));
- goto error;
- }
- if (decoded_len != SR_COMMIT_LEN) {
- log_warn(LD_BUG, "SR: Commit from authority %s decoded length doesn't "
- "match the expected length (%d vs %u).",
- sr_commit_get_rsa_fpr(commit), decoded_len,
- (unsigned)SR_COMMIT_LEN);
- goto error;
- }
- /* First is the timestamp (8 bytes). */
- commit->commit_ts = tor_ntohll(get_uint64(b64_decoded));
- offset += sizeof(uint64_t);
- /* Next is hashed reveal. */
- memcpy(commit->hashed_reveal, b64_decoded + offset,
- sizeof(commit->hashed_reveal));
- /* Copy the base64 blob to the commit. Useful for voting. */
- strlcpy(commit->encoded_commit, encoded, sizeof(commit->encoded_commit));
- return 0;
- error:
- return -1;
- }
- /* Parse the b64 blob at <b>encoded</b> containing reveal information and
- * store the information in-place in <b>commit</b>. Return 0 on success else
- * a negative value. */
- STATIC int
- reveal_decode(const char *encoded, sr_commit_t *commit)
- {
- int decoded_len = 0;
- char b64_decoded[SR_REVEAL_LEN];
- tor_assert(encoded);
- tor_assert(commit);
- if (strlen(encoded) > SR_REVEAL_BASE64_LEN) {
- /* This means that if we base64 decode successfully the received reveal
- * value, we'll end up with a bigger decoded value thus unusable. */
- goto error;
- }
- /* Decode our encoded reveal. Let's be careful here since _encoded_ is
- * coming from the network in a dirauth vote so we expect nothing more
- * than the base64 encoded length of our reveal. */
- decoded_len = base64_decode(b64_decoded, sizeof(b64_decoded),
- encoded, strlen(encoded));
- if (decoded_len < 0) {
- log_warn(LD_BUG, "SR: Reveal from authority %s can't be decoded.",
- sr_commit_get_rsa_fpr(commit));
- goto error;
- }
- if (decoded_len != SR_REVEAL_LEN) {
- log_warn(LD_BUG, "SR: Reveal from authority %s decoded length is "
- "doesn't match the expected length (%d vs %u)",
- sr_commit_get_rsa_fpr(commit), decoded_len,
- (unsigned)SR_REVEAL_LEN);
- goto error;
- }
- commit->reveal_ts = tor_ntohll(get_uint64(b64_decoded));
- /* Copy the last part, the random value. */
- memcpy(commit->random_number, b64_decoded + 8,
- sizeof(commit->random_number));
- /* Also copy the whole message to use during verification */
- strlcpy(commit->encoded_reveal, encoded, sizeof(commit->encoded_reveal));
- return 0;
- error:
- return -1;
- }
- /* Encode a reveal element using a given commit object to dst which is a
- * buffer large enough to put the base64-encoded reveal construction. The
- * format is as follow:
- * REVEAL = base64-encode( TIMESTAMP || H(RN) )
- * Return base64 encoded length on success else a negative value.
- */
- STATIC int
- reveal_encode(const sr_commit_t *commit, char *dst, size_t len)
- {
- int ret;
- size_t offset = 0;
- char buf[SR_REVEAL_LEN] = {0};
- tor_assert(commit);
- tor_assert(dst);
- set_uint64(buf, tor_htonll(commit->reveal_ts));
- offset += sizeof(uint64_t);
- memcpy(buf + offset, commit->random_number,
- sizeof(commit->random_number));
- /* Let's clean the buffer and then b64 encode it. */
- memset(dst, 0, len);
- ret = base64_encode(dst, len, buf, sizeof(buf), 0);
- /* Wipe this buffer because it contains our random value. */
- memwipe(buf, 0, sizeof(buf));
- return ret;
- }
- /* Encode the given commit object to dst which is a buffer large enough to
- * put the base64-encoded commit. The format is as follow:
- * COMMIT = base64-encode( TIMESTAMP || H(H(RN)) )
- * Return base64 encoded length on success else a negative value.
- */
- STATIC int
- commit_encode(const sr_commit_t *commit, char *dst, size_t len)
- {
- size_t offset = 0;
- char buf[SR_COMMIT_LEN] = {0};
- tor_assert(commit);
- tor_assert(dst);
- /* First is the timestamp (8 bytes). */
- set_uint64(buf, tor_htonll(commit->commit_ts));
- offset += sizeof(uint64_t);
- /* and then the hashed reveal. */
- memcpy(buf + offset, commit->hashed_reveal,
- sizeof(commit->hashed_reveal));
- /* Clean the buffer and then b64 encode it. */
- memset(dst, 0, len);
- return base64_encode(dst, len, buf, sizeof(buf), 0);
- }
- /* Cleanup both our global state and disk state. */
- static void
- sr_cleanup(void)
- {
- sr_state_free_all();
- }
- /* Using <b>commit</b>, return a newly allocated string containing the commit
- * information that should be used during SRV calculation. It's the caller
- * responsibility to free the memory. Return NULL if this is not a commit to be
- * used for SRV calculation. */
- static char *
- get_srv_element_from_commit(const sr_commit_t *commit)
- {
- char *element;
- tor_assert(commit);
- if (!commit_has_reveal_value(commit)) {
- return NULL;
- }
- tor_asprintf(&element, "%s%s", sr_commit_get_rsa_fpr(commit),
- commit->encoded_reveal);
- return element;
- }
- /* Return a srv object that is built with the construction:
- * SRV = SHA3-256("shared-random" | INT_8(reveal_num) |
- * INT_4(version) | HASHED_REVEALS | previous_SRV)
- * This function cannot fail. */
- static sr_srv_t *
- generate_srv(const char *hashed_reveals, uint64_t reveal_num,
- const sr_srv_t *previous_srv)
- {
- char msg[DIGEST256_LEN + SR_SRV_MSG_LEN] = {0};
- size_t offset = 0;
- sr_srv_t *srv;
- tor_assert(hashed_reveals);
- /* Add the invariant token. */
- memcpy(msg, SR_SRV_TOKEN, SR_SRV_TOKEN_LEN);
- offset += SR_SRV_TOKEN_LEN;
- set_uint64(msg + offset, tor_htonll(reveal_num));
- offset += sizeof(uint64_t);
- set_uint32(msg + offset, htonl(SR_PROTO_VERSION));
- offset += sizeof(uint32_t);
- memcpy(msg + offset, hashed_reveals, DIGEST256_LEN);
- offset += DIGEST256_LEN;
- if (previous_srv != NULL) {
- memcpy(msg + offset, previous_srv->value, sizeof(previous_srv->value));
- }
- /* Ok we have our message and key for the HMAC computation, allocate our
- * srv object and do the last step. */
- srv = tor_malloc_zero(sizeof(*srv));
- crypto_digest256((char *) srv->value, msg, sizeof(msg), SR_DIGEST_ALG);
- srv->num_reveals = reveal_num;
- {
- /* Debugging. */
- char srv_hash_encoded[SR_SRV_VALUE_BASE64_LEN + 1];
- sr_srv_encode(srv_hash_encoded, sizeof(srv_hash_encoded), srv);
- log_info(LD_DIR, "SR: Generated SRV: %s", srv_hash_encoded);
- }
- return srv;
- }
- /* Compare reveal values and return the result. This should exclusively be
- * used by smartlist_sort(). */
- static int
- compare_reveal_(const void **_a, const void **_b)
- {
- const sr_commit_t *a = *_a, *b = *_b;
- return fast_memcmp(a->hashed_reveal, b->hashed_reveal,
- sizeof(a->hashed_reveal));
- }
- /* Given <b>commit</b> give the line that we should place in our votes.
- * It's the responsibility of the caller to free the string. */
- static char *
- get_vote_line_from_commit(const sr_commit_t *commit, sr_phase_t phase)
- {
- char *vote_line = NULL;
- switch (phase) {
- case SR_PHASE_COMMIT:
- tor_asprintf(&vote_line, "%s %u %s %s %s\n",
- commit_ns_str,
- SR_PROTO_VERSION,
- crypto_digest_algorithm_get_name(commit->alg),
- sr_commit_get_rsa_fpr(commit),
- commit->encoded_commit);
- break;
- case SR_PHASE_REVEAL:
- {
- /* Send a reveal value for this commit if we have one. */
- const char *reveal_str = commit->encoded_reveal;
- if (tor_mem_is_zero(commit->encoded_reveal,
- sizeof(commit->encoded_reveal))) {
- reveal_str = "";
- }
- tor_asprintf(&vote_line, "%s %u %s %s %s %s\n",
- commit_ns_str,
- SR_PROTO_VERSION,
- crypto_digest_algorithm_get_name(commit->alg),
- sr_commit_get_rsa_fpr(commit),
- commit->encoded_commit, reveal_str);
- break;
- }
- default:
- tor_assert(0);
- }
- log_debug(LD_DIR, "SR: Commit vote line: %s", vote_line);
- return vote_line;
- }
- /* Return a heap allocated string that contains the given <b>srv</b> string
- * representation formatted for a networkstatus document using the
- * <b>key</b> as the start of the line. This doesn't return NULL. */
- static char *
- srv_to_ns_string(const sr_srv_t *srv, const char *key)
- {
- char *srv_str;
- char srv_hash_encoded[SR_SRV_VALUE_BASE64_LEN + 1];
- tor_assert(srv);
- tor_assert(key);
- sr_srv_encode(srv_hash_encoded, sizeof(srv_hash_encoded), srv);
- tor_asprintf(&srv_str, "%s %" PRIu64 " %s\n", key,
- srv->num_reveals, srv_hash_encoded);
- log_debug(LD_DIR, "SR: Consensus SRV line: %s", srv_str);
- return srv_str;
- }
- /* Given the previous SRV and the current SRV, return a heap allocated
- * string with their data that could be put in a vote or a consensus. Caller
- * must free the returned string. Return NULL if no SRVs were provided. */
- static char *
- get_ns_str_from_sr_values(const sr_srv_t *prev_srv, const sr_srv_t *cur_srv)
- {
- smartlist_t *chunks = NULL;
- char *srv_str;
- if (!prev_srv && !cur_srv) {
- return NULL;
- }
- chunks = smartlist_new();
- if (prev_srv) {
- char *srv_line = srv_to_ns_string(prev_srv, previous_srv_str);
- smartlist_add(chunks, srv_line);
- }
- if (cur_srv) {
- char *srv_line = srv_to_ns_string(cur_srv, current_srv_str);
- smartlist_add(chunks, srv_line);
- }
- /* Join the line(s) here in one string to return. */
- srv_str = smartlist_join_strings(chunks, "", 0, NULL);
- SMARTLIST_FOREACH(chunks, char *, s, tor_free(s));
- smartlist_free(chunks);
- return srv_str;
- }
- /* Return 1 iff the two commits have the same commitment values. This
- * function does not care about reveal values. */
- STATIC int
- commitments_are_the_same(const sr_commit_t *commit_one,
- const sr_commit_t *commit_two)
- {
- tor_assert(commit_one);
- tor_assert(commit_two);
- if (strcmp(commit_one->encoded_commit, commit_two->encoded_commit)) {
- return 0;
- }
- return 1;
- }
- /* We just received a commit from the vote of authority with
- * <b>identity_digest</b>. Return 1 if this commit is authorititative that
- * is, it belongs to the authority that voted it. Else return 0 if not. */
- STATIC int
- commit_is_authoritative(const sr_commit_t *commit,
- const char *voter_key)
- {
- tor_assert(commit);
- tor_assert(voter_key);
- return fast_memeq(commit->rsa_identity, voter_key,
- sizeof(commit->rsa_identity));
- }
- /* Decide if the newly received <b>commit</b> should be kept depending on
- * the current phase and state of the protocol. The <b>voter_key</b> is the
- * RSA identity key fingerprint of the authority's vote from which the
- * commit comes from. The <b>phase</b> is the phase we should be validating
- * the commit for. Return 1 if the commit should be added to our state or 0
- * if not. */
- STATIC int
- should_keep_commit(const sr_commit_t *commit, const char *voter_key,
- sr_phase_t phase)
- {
- const sr_commit_t *saved_commit;
- tor_assert(commit);
- tor_assert(voter_key);
- log_debug(LD_DIR, "SR: Inspecting commit from %s (voter: %s)?",
- sr_commit_get_rsa_fpr(commit),
- hex_str(voter_key, DIGEST_LEN));
- /* For a commit to be considered, it needs to be authoritative (it should
- * be the voter's own commit). */
- if (!commit_is_authoritative(commit, voter_key)) {
- log_debug(LD_DIR, "SR: Ignoring non-authoritative commit.");
- goto ignore;
- }
- /* Let's make sure, for extra safety, that this fingerprint is known to
- * us. Even though this comes from a vote, doesn't hurt to be
- * extracareful. */
- if (trusteddirserver_get_by_v3_auth_digest(commit->rsa_identity) == NULL) {
- log_warn(LD_DIR, "SR: Fingerprint %s is not from a recognized "
- "authority. Discarding commit.",
- escaped(commit->rsa_identity));
- goto ignore;
- }
- /* Check if the authority that voted for <b>commit</b> has already posted
- * a commit before. */
- saved_commit = sr_state_get_commit(commit->rsa_identity);
- switch (phase) {
- case SR_PHASE_COMMIT:
- /* Already having a commit for an authority so ignore this one. */
- if (saved_commit) {
- /* Receiving known commits should happen naturally since commit phase
- lasts multiple rounds. However if the commitment value changes
- during commit phase, it might be a bug so log more loudly. */
- if (!commitments_are_the_same(commit, saved_commit)) {
- log_info(LD_DIR,
- "SR: Received altered commit from %s in commit phase.",
- sr_commit_get_rsa_fpr(commit));
- } else {
- log_debug(LD_DIR, "SR: Ignoring known commit during commit phase.");
- }
- goto ignore;
- }
- /* A commit with a reveal value during commitment phase is very wrong. */
- if (commit_has_reveal_value(commit)) {
- log_warn(LD_DIR, "SR: Commit from authority %s has a reveal value "
- "during COMMIT phase. (voter: %s)",
- sr_commit_get_rsa_fpr(commit),
- hex_str(voter_key, DIGEST_LEN));
- goto ignore;
- }
- break;
- case SR_PHASE_REVEAL:
- /* We are now in reveal phase. We keep a commit if and only if:
- *
- * - We have already seen a commit by this auth, AND
- * - the saved commit has the same commitment value as this one, AND
- * - the saved commit has no reveal information, AND
- * - this commit does have reveal information, AND
- * - the reveal & commit information are matching.
- *
- * If all the above are true, then we are interested in this new commit
- * for its reveal information. */
- if (!saved_commit) {
- log_debug(LD_DIR, "SR: Ignoring commit first seen in reveal phase.");
- goto ignore;
- }
- if (!commitments_are_the_same(commit, saved_commit)) {
- log_warn(LD_DIR, "SR: Commit from authority %s is different from "
- "previous commit in our state (voter: %s)",
- sr_commit_get_rsa_fpr(commit),
- hex_str(voter_key, DIGEST_LEN));
- goto ignore;
- }
- if (commit_has_reveal_value(saved_commit)) {
- log_debug(LD_DIR, "SR: Ignoring commit with known reveal info.");
- goto ignore;
- }
- if (!commit_has_reveal_value(commit)) {
- log_debug(LD_DIR, "SR: Ignoring commit without reveal value.");
- goto ignore;
- }
- if (verify_commit_and_reveal(commit) < 0) {
- log_warn(LD_BUG, "SR: Commit from authority %s has an invalid "
- "reveal value. (voter: %s)",
- sr_commit_get_rsa_fpr(commit),
- hex_str(voter_key, DIGEST_LEN));
- goto ignore;
- }
- break;
- default:
- tor_assert(0);
- }
- return 1;
- ignore:
- return 0;
- }
- /* We are in reveal phase and we found a valid and verified <b>commit</b> in
- * a vote that contains reveal values that we could use. Update the commit
- * we have in our state. Never call this with an unverified commit. */
- STATIC void
- save_commit_during_reveal_phase(const sr_commit_t *commit)
- {
- sr_commit_t *saved_commit;
- tor_assert(commit);
- /* Get the commit from our state. */
- saved_commit = sr_state_get_commit(commit->rsa_identity);
- tor_assert(saved_commit);
- /* Safety net. They can not be different commitments at this point. */
- int same_commits = commitments_are_the_same(commit, saved_commit);
- tor_assert(same_commits);
- /* Copy reveal information to our saved commit. */
- sr_state_copy_reveal_info(saved_commit, commit);
- }
- /* Save <b>commit</b> to our persistent state. Depending on the current
- * phase, different actions are taken. Steals reference of <b>commit</b>.
- * The commit object MUST be valid and verified before adding it to the
- * state. */
- STATIC void
- save_commit_to_state(sr_commit_t *commit)
- {
- sr_phase_t phase = sr_state_get_phase();
- ASSERT_COMMIT_VALID(commit);
- switch (phase) {
- case SR_PHASE_COMMIT:
- /* During commit phase, just save any new authoritative commit */
- sr_state_add_commit(commit);
- break;
- case SR_PHASE_REVEAL:
- save_commit_during_reveal_phase(commit);
- sr_commit_free(commit);
- break;
- default:
- tor_assert(0);
- }
- }
- /* Return 1 if we should we keep an SRV voted by <b>n_agreements</b> auths.
- * Return 0 if we should ignore it. */
- static int
- should_keep_srv(int n_agreements)
- {
- /* Check if the most popular SRV has reached majority. */
- int n_voters = get_n_authorities(V3_DIRINFO);
- int votes_required_for_majority = (n_voters / 2) + 1;
- /* We need at the very least majority to keep a value. */
- if (n_agreements < votes_required_for_majority) {
- log_notice(LD_DIR, "SR: SRV didn't reach majority [%d/%d]!",
- n_agreements, votes_required_for_majority);
- return 0;
- }
- /* When we just computed a new SRV, we need to have super majority in order
- * to keep it. */
- if (sr_state_srv_is_fresh()) {
- /* Check if we have super majority for this new SRV value. */
- if (n_agreements < num_srv_agreements_from_vote) {
- log_notice(LD_DIR, "SR: New SRV didn't reach agreement [%d/%d]!",
- n_agreements, num_srv_agreements_from_vote);
- return 0;
- }
- }
- return 1;
- }
- /* Helper: compare two DIGEST256_LEN digests. */
- static int
- compare_srvs_(const void **_a, const void **_b)
- {
- const sr_srv_t *a = *_a, *b = *_b;
- return tor_memcmp(a->value, b->value, sizeof(a->value));
- }
- /* Return the most frequent member of the sorted list of DIGEST256_LEN
- * digests in <b>sl</b> with the count of that most frequent element. */
- static sr_srv_t *
- smartlist_get_most_frequent_srv(const smartlist_t *sl, int *count_out)
- {
- return smartlist_get_most_frequent_(sl, compare_srvs_, count_out);
- }
- /** Compare two SRVs. Used in smartlist sorting. */
- static int
- compare_srv_(const void **_a, const void **_b)
- {
- const sr_srv_t *a = *_a, *b = *_b;
- return fast_memcmp(a->value, b->value,
- sizeof(a->value));
- }
- /* Using a list of <b>votes</b>, return the SRV object from them that has
- * been voted by the majority of dirauths. If <b>current</b> is set, we look
- * for the current SRV value else the previous one. The returned pointer is
- * an object located inside a vote. NULL is returned if no appropriate value
- * could be found. */
- STATIC sr_srv_t *
- get_majority_srv_from_votes(const smartlist_t *votes, int current)
- {
- int count = 0;
- sr_srv_t *most_frequent_srv = NULL;
- sr_srv_t *the_srv = NULL;
- smartlist_t *srv_list;
- tor_assert(votes);
- srv_list = smartlist_new();
- /* Walk over votes and register any SRVs found. */
- SMARTLIST_FOREACH_BEGIN(votes, networkstatus_t *, v) {
- sr_srv_t *srv_tmp = NULL;
- if (!v->sr_info.participate) {
- /* Ignore vote that do not participate. */
- continue;
- }
- /* Do we want previous or current SRV? */
- srv_tmp = current ? v->sr_info.current_srv : v->sr_info.previous_srv;
- if (!srv_tmp) {
- continue;
- }
- smartlist_add(srv_list, srv_tmp);
- } SMARTLIST_FOREACH_END(v);
- smartlist_sort(srv_list, compare_srv_);
- most_frequent_srv = smartlist_get_most_frequent_srv(srv_list, &count);
- if (!most_frequent_srv) {
- goto end;
- }
- /* Was this SRV voted by enough auths for us to keep it? */
- if (!should_keep_srv(count)) {
- goto end;
- }
- /* We found an SRV that we can use! Habemus SRV! */
- the_srv = most_frequent_srv;
- {
- /* Debugging */
- char encoded[SR_SRV_VALUE_BASE64_LEN + 1];
- sr_srv_encode(encoded, sizeof(encoded), the_srv);
- log_debug(LD_DIR, "SR: Chosen SRV by majority: %s (%d votes)", encoded,
- count);
- }
- end:
- /* We do not free any sr_srv_t values, we don't have the ownership. */
- smartlist_free(srv_list);
- return the_srv;
- }
- /* Free a commit object. */
- void
- sr_commit_free_(sr_commit_t *commit)
- {
- if (commit == NULL) {
- return;
- }
- /* Make sure we do not leave OUR random number in memory. */
- memwipe(commit->random_number, 0, sizeof(commit->random_number));
- tor_free(commit);
- }
- /* Generate the commitment/reveal value for the protocol run starting at
- * <b>timestamp</b>. <b>my_rsa_cert</b> is our authority RSA certificate. */
- sr_commit_t *
- sr_generate_our_commit(time_t timestamp, const authority_cert_t *my_rsa_cert)
- {
- sr_commit_t *commit = NULL;
- char digest[DIGEST_LEN];
- tor_assert(my_rsa_cert);
- /* Get our RSA identity fingerprint */
- if (crypto_pk_get_digest(my_rsa_cert->identity_key, digest) < 0) {
- goto error;
- }
- /* New commit with our identity key. */
- commit = commit_new(digest);
- /* Generate the reveal random value */
- crypto_strongest_rand(commit->random_number,
- sizeof(commit->random_number));
- commit->commit_ts = commit->reveal_ts = timestamp;
- /* Now get the base64 blob that corresponds to our reveal */
- if (reveal_encode(commit, commit->encoded_reveal,
- sizeof(commit->encoded_reveal)) < 0) {
- log_err(LD_DIR, "SR: Unable to encode our reveal value!");
- goto error;
- }
- /* Now let's create the commitment */
- tor_assert(commit->alg == SR_DIGEST_ALG);
- /* The invariant length is used here since the encoded reveal variable
- * has an extra byte added for the NULL terminated byte. */
- if (crypto_digest256(commit->hashed_reveal, commit->encoded_reveal,
- SR_REVEAL_BASE64_LEN, commit->alg) < 0) {
- goto error;
- }
- /* Now get the base64 blob that corresponds to our commit. */
- if (commit_encode(commit, commit->encoded_commit,
- sizeof(commit->encoded_commit)) < 0) {
- log_err(LD_DIR, "SR: Unable to encode our commit value!");
- goto error;
- }
- log_debug(LD_DIR, "SR: Generated our commitment:");
- commit_log(commit);
- /* Our commit better be valid :). */
- commit->valid = 1;
- return commit;
- error:
- sr_commit_free(commit);
- return NULL;
- }
- /* Compute the shared random value based on the active commits in our state. */
- void
- sr_compute_srv(void)
- {
- uint64_t reveal_num = 0;
- char *reveals = NULL;
- smartlist_t *chunks, *commits;
- digestmap_t *state_commits;
- /* Computing a shared random value in the commit phase is very wrong. This
- * should only happen at the very end of the reveal phase when a new
- * protocol run is about to start. */
- tor_assert(sr_state_get_phase() == SR_PHASE_REVEAL);
- state_commits = sr_state_get_commits();
- commits = smartlist_new();
- chunks = smartlist_new();
- /* We must make a list of commit ordered by authority fingerprint in
- * ascending order as specified by proposal 250. */
- DIGESTMAP_FOREACH(state_commits, key, sr_commit_t *, c) {
- /* Extra safety net, make sure we have valid commit before using it. */
- ASSERT_COMMIT_VALID(c);
- /* Let's not use a commit from an authority that we don't know. It's
- * possible that an authority could be removed during a protocol run so
- * that commit value should never be used in the SRV computation. */
- if (trusteddirserver_get_by_v3_auth_digest(c->rsa_identity) == NULL) {
- log_warn(LD_DIR, "SR: Fingerprint %s is not from a recognized "
- "authority. Discarding commit for the SRV computation.",
- sr_commit_get_rsa_fpr(c));
- continue;
- }
- /* We consider this commit valid. */
- smartlist_add(commits, c);
- } DIGESTMAP_FOREACH_END;
- smartlist_sort(commits, compare_reveal_);
- /* Now for each commit for that sorted list in ascending order, we'll
- * build the element for each authority that needs to go into the srv
- * computation. */
- SMARTLIST_FOREACH_BEGIN(commits, const sr_commit_t *, c) {
- char *element = get_srv_element_from_commit(c);
- if (element) {
- smartlist_add(chunks, element);
- reveal_num++;
- }
- } SMARTLIST_FOREACH_END(c);
- smartlist_free(commits);
- {
- /* Join all reveal values into one giant string that we'll hash so we
- * can generated our shared random value. */
- sr_srv_t *current_srv;
- char hashed_reveals[DIGEST256_LEN];
- reveals = smartlist_join_strings(chunks, "", 0, NULL);
- SMARTLIST_FOREACH(chunks, char *, s, tor_free(s));
- smartlist_free(chunks);
- if (crypto_digest256(hashed_reveals, reveals, strlen(reveals),
- SR_DIGEST_ALG) < 0) {
- goto end;
- }
- current_srv = generate_srv(hashed_reveals, reveal_num,
- sr_state_get_previous_srv());
- sr_state_set_current_srv(current_srv);
- /* We have a fresh SRV, flag our state. */
- sr_state_set_fresh_srv();
- }
- end:
- tor_free(reveals);
- }
- /* Parse a commit from a vote or from our disk state and return a newly
- * allocated commit object. NULL is returned on error.
- *
- * The commit's data is in <b>args</b> and the order matters very much:
- * version, algname, RSA fingerprint, commit value[, reveal value]
- */
- sr_commit_t *
- sr_parse_commit(const smartlist_t *args)
- {
- uint32_t version;
- char *value, digest[DIGEST_LEN];
- digest_algorithm_t alg;
- const char *rsa_identity_fpr;
- sr_commit_t *commit = NULL;
- if (smartlist_len(args) < 4) {
- goto error;
- }
- /* First is the version number of the SR protocol which indicates at which
- * version that commit was created. */
- value = smartlist_get(args, 0);
- version = (uint32_t) tor_parse_ulong(value, 10, 1, UINT32_MAX, NULL, NULL);
- if (version > SR_PROTO_VERSION) {
- log_info(LD_DIR, "SR: Commit version %" PRIu32 " (%s) is not supported.",
- version, escaped(value));
- goto error;
- }
- /* Second is the algorithm. */
- value = smartlist_get(args, 1);
- alg = crypto_digest_algorithm_parse_name(value);
- if (alg != SR_DIGEST_ALG) {
- log_warn(LD_BUG, "SR: Commit algorithm %s is not recognized.",
- escaped(value));
- goto error;
- }
- /* Third argument is the RSA fingerprint of the auth and turn it into a
- * digest value. */
- rsa_identity_fpr = smartlist_get(args, 2);
- if (base16_decode(digest, DIGEST_LEN, rsa_identity_fpr,
- HEX_DIGEST_LEN) < 0) {
- log_warn(LD_DIR, "SR: RSA fingerprint %s not decodable",
- escaped(rsa_identity_fpr));
- goto error;
- }
- /* Allocate commit since we have a valid identity now. */
- commit = commit_new(digest);
- /* Fourth argument is the commitment value base64-encoded. */
- value = smartlist_get(args, 3);
- if (commit_decode(value, commit) < 0) {
- goto error;
- }
- /* (Optional) Fifth argument is the revealed value. */
- if (smartlist_len(args) > 4) {
- value = smartlist_get(args, 4);
- if (reveal_decode(value, commit) < 0) {
- goto error;
- }
- }
- return commit;
- error:
- sr_commit_free(commit);
- return NULL;
- }
- /* Called when we are done parsing a vote by <b>voter_key</b> that might
- * contain some useful <b>commits</b>. Find if any of them should be kept
- * and update our state accordingly. Once done, the list of commitments will
- * be empty. */
- void
- sr_handle_received_commits(smartlist_t *commits, crypto_pk_t *voter_key)
- {
- char rsa_identity[DIGEST_LEN];
- tor_assert(voter_key);
- /* It's possible that the vote has _NO_ commits. */
- if (commits == NULL) {
- return;
- }
- /* Get the RSA identity fingerprint of this voter */
- if (crypto_pk_get_digest(voter_key, rsa_identity) < 0) {
- return;
- }
- SMARTLIST_FOREACH_BEGIN(commits, sr_commit_t *, commit) {
- /* We won't need the commit in this list anymore, kept or not. */
- SMARTLIST_DEL_CURRENT(commits, commit);
- /* Check if this commit is valid and should be stored in our state. */
- if (!should_keep_commit(commit, rsa_identity,
- sr_state_get_phase())) {
- sr_commit_free(commit);
- continue;
- }
- /* Ok, we have a valid commit now that we are about to put in our state.
- * so flag it valid from now on. */
- commit->valid = 1;
- /* Everything lines up: save this commit to state then! */
- save_commit_to_state(commit);
- } SMARTLIST_FOREACH_END(commit);
- }
- /* Return a heap-allocated string containing commits that should be put in
- * the votes. It's the responsibility of the caller to free the string.
- * This always return a valid string, either empty or with line(s). */
- char *
- sr_get_string_for_vote(void)
- {
- char *vote_str = NULL;
- digestmap_t *state_commits;
- smartlist_t *chunks = smartlist_new();
- const or_options_t *options = get_options();
- /* Are we participating in the protocol? */
- if (!options->AuthDirSharedRandomness) {
- goto end;
- }
- log_debug(LD_DIR, "SR: Preparing our vote info:");
- /* First line, put in the vote the participation flag. */
- {
- char *sr_flag_line;
- tor_asprintf(&sr_flag_line, "%s\n", sr_flag_ns_str);
- smartlist_add(chunks, sr_flag_line);
- }
- /* In our vote we include every commitment in our permanent state. */
- state_commits = sr_state_get_commits();
- smartlist_t *state_commit_vote_lines = smartlist_new();
- DIGESTMAP_FOREACH(state_commits, key, const sr_commit_t *, commit) {
- char *line = get_vote_line_from_commit(commit, sr_state_get_phase());
- smartlist_add(state_commit_vote_lines, line);
- } DIGESTMAP_FOREACH_END;
- /* Sort the commit strings by version (string, not numeric), algorithm,
- * and fingerprint. This makes sure the commit lines in votes are in a
- * recognisable, stable order. */
- smartlist_sort_strings(state_commit_vote_lines);
- /* Now add the sorted list of commits to the vote */
- smartlist_add_all(chunks, state_commit_vote_lines);
- smartlist_free(state_commit_vote_lines);
- /* Add the SRV value(s) if any. */
- {
- char *srv_lines = get_ns_str_from_sr_values(sr_state_get_previous_srv(),
- sr_state_get_current_srv());
- if (srv_lines) {
- smartlist_add(chunks, srv_lines);
- }
- }
- end:
- vote_str = smartlist_join_strings(chunks, "", 0, NULL);
- SMARTLIST_FOREACH(chunks, char *, s, tor_free(s));
- smartlist_free(chunks);
- return vote_str;
- }
- /* Return a heap-allocated string that should be put in the consensus and
- * contains the shared randomness values. It's the responsibility of the
- * caller to free the string. NULL is returned if no SRV(s) available.
- *
- * This is called when a consensus (any flavor) is bring created thus it
- * should NEVER change the state nor the state should be changed in between
- * consensus creation.
- *
- * <b>num_srv_agreements</b> is taken from the votes thus the voted value
- * that should be used.
- * */
- char *
- sr_get_string_for_consensus(const smartlist_t *votes,
- int32_t num_srv_agreements)
- {
- char *srv_str;
- const or_options_t *options = get_options();
- tor_assert(votes);
- /* Not participating, avoid returning anything. */
- if (!options->AuthDirSharedRandomness) {
- log_info(LD_DIR, "SR: Support disabled (AuthDirSharedRandomness %d)",
- options->AuthDirSharedRandomness);
- goto end;
- }
- /* Set the global value of AuthDirNumSRVAgreements found in the votes. */
- num_srv_agreements_from_vote = num_srv_agreements;
- /* Check the votes and figure out if SRVs should be included in the final
- * consensus. */
- sr_srv_t *prev_srv = get_majority_srv_from_votes(votes, 0);
- sr_srv_t *cur_srv = get_majority_srv_from_votes(votes, 1);
- srv_str = get_ns_str_from_sr_values(prev_srv, cur_srv);
- if (!srv_str) {
- goto end;
- }
- return srv_str;
- end:
- return NULL;
- }
- /* We just computed a new <b>consensus</b>. Update our state with the SRVs
- * from the consensus (might be NULL as well). Register the SRVs in our SR
- * state and prepare for the upcoming protocol round. */
- void
- sr_act_post_consensus(const networkstatus_t *consensus)
- {
- const or_options_t *options = get_options();
- /* Don't act if our state hasn't been initialized. We can be called during
- * boot time when loading consensus from disk which is prior to the
- * initialization of the SR subsystem. We also should not be doing
- * anything if we are _not_ a directory authority and if we are a bridge
- * authority. */
- if (!sr_state_is_initialized() || !authdir_mode_v3(options) ||
- authdir_mode_bridge(options)) {
- return;
- }
- /* Set the majority voted SRVs in our state even if both are NULL. It
- * doesn't matter this is what the majority has decided. Obviously, we can
- * only do that if we have a consensus. */
- if (consensus) {
- /* Start by freeing the current SRVs since the SRVs we believed during
- * voting do not really matter. Now that all the votes are in, we use the
- * majority's opinion on which are the active SRVs. */
- sr_state_clean_srvs();
- /* Reset the fresh flag of the SRV so we know that from now on we don't
- * have a new SRV to vote for. We just used the one from the consensus
- * decided by the majority. */
- sr_state_unset_fresh_srv();
- /* Set the SR values from the given consensus. */
- sr_state_set_previous_srv(srv_dup(consensus->sr_info.previous_srv));
- sr_state_set_current_srv(srv_dup(consensus->sr_info.current_srv));
- }
- /* Prepare our state so that it's ready for the next voting period. */
- sr_state_update(voting_schedule_get_next_valid_after_time());
- }
- /* Initialize shared random subsystem. This MUST be called early in the boot
- * process of tor. Return 0 on success else -1 on error. */
- int
- sr_init(int save_to_disk)
- {
- return sr_state_init(save_to_disk, 1);
- }
- /* Save our state to disk and cleanup everything. */
- void
- sr_save_and_cleanup(void)
- {
- sr_state_save();
- sr_cleanup();
- }
- #ifdef TOR_UNIT_TESTS
- /* Set the global value of number of SRV agreements so the test can play
- * along by calling specific functions that don't parse the votes prior for
- * the AuthDirNumSRVAgreements value. */
- void
- set_num_srv_agreements(int32_t value)
- {
- num_srv_agreements_from_vote = value;
- }
- #endif /* defined(TOR_UNIT_TESTS) */
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