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- /* Copyright (c) 2016, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- /**
- * \file shared_random_state.c
- *
- * \brief Functions and data structures for the state of the random protocol
- * as defined in proposal #250.
- **/
- #define SHARED_RANDOM_STATE_PRIVATE
- #include "or.h"
- #include "shared_random.h"
- #include "config.h"
- #include "confparse.h"
- #include "dirvote.h"
- #include "networkstatus.h"
- #include "router.h"
- #include "shared_random_state.h"
- /* Default filename of the shared random state on disk. */
- static const char default_fname[] = "sr-state";
- /* String representation of a protocol phase. */
- static const char *phase_str[] = { "unknown", "commit", "reveal" };
- /* Our shared random protocol state. There is only one possible state per
- * protocol run so this is the global state which is reset at every run once
- * the shared random value has been computed. */
- static sr_state_t *sr_state = NULL;
- /* Representation of our persistent state on disk. The sr_state above
- * contains the data parsed from this state. When we save to disk, we
- * translate the sr_state to this sr_disk_state. */
- static sr_disk_state_t *sr_disk_state = NULL;
- /* Disk state file keys. */
- static const char dstate_commit_key[] = "Commit";
- static const char dstate_prev_srv_key[] = "SharedRandPreviousValue";
- static const char dstate_cur_srv_key[] = "SharedRandCurrentValue";
- /* These next two are duplicates or near-duplicates from config.c */
- #define VAR(name, conftype, member, initvalue) \
- { name, CONFIG_TYPE_ ## conftype, STRUCT_OFFSET(sr_disk_state_t, member), \
- initvalue }
- /* As VAR, but the option name and member name are the same. */
- #define V(member, conftype, initvalue) \
- VAR(#member, conftype, member, initvalue)
- /* Our persistent state magic number. */
- #define SR_DISK_STATE_MAGIC 0x98AB1254
- /* Each protocol phase has 12 rounds */
- #define SHARED_RANDOM_N_ROUNDS 12
- /* Number of phase we have in a protocol. */
- #define SHARED_RANDOM_N_PHASES 2
- static int
- disk_state_validate_cb(void *old_state, void *state, void *default_state,
- int from_setconf, char **msg);
- /* Array of variables that are saved to disk as a persistent state. */
- static config_var_t state_vars[] = {
- V(Version, UINT, "0"),
- V(TorVersion, STRING, NULL),
- V(ValidAfter, ISOTIME, NULL),
- V(ValidUntil, ISOTIME, NULL),
- V(Commit, LINELIST, NULL),
- V(SharedRandValues, LINELIST_V, NULL),
- VAR("SharedRandPreviousValue",LINELIST_S, SharedRandValues, NULL),
- VAR("SharedRandCurrentValue", LINELIST_S, SharedRandValues, NULL),
- { NULL, CONFIG_TYPE_OBSOLETE, 0, NULL }
- };
- /* "Extra" variable in the state that receives lines we can't parse. This
- * lets us preserve options from versions of Tor newer than us. */
- static config_var_t state_extra_var = {
- "__extra", CONFIG_TYPE_LINELIST,
- STRUCT_OFFSET(sr_disk_state_t, ExtraLines), NULL
- };
- /* Configuration format of sr_disk_state_t. */
- static const config_format_t state_format = {
- sizeof(sr_disk_state_t),
- SR_DISK_STATE_MAGIC,
- STRUCT_OFFSET(sr_disk_state_t, magic_),
- NULL,
- NULL,
- state_vars,
- disk_state_validate_cb,
- &state_extra_var,
- };
- /* Return a string representation of a protocol phase. */
- STATIC const char *
- get_phase_str(sr_phase_t phase)
- {
- const char *the_string = NULL;
- switch (phase) {
- case SR_PHASE_COMMIT:
- case SR_PHASE_REVEAL:
- the_string = phase_str[phase];
- break;
- default:
- /* Unknown phase shouldn't be possible. */
- tor_assert(0);
- }
- return the_string;
- }
- /* Return the voting interval of the tor vote subsystem. */
- static int
- get_voting_interval(void)
- {
- int interval;
- networkstatus_t *consensus = networkstatus_get_live_consensus(time(NULL));
- if (consensus) {
- interval = (int)(consensus->fresh_until - consensus->valid_after);
- } else {
- /* Same for both a testing and real network. We voluntarily ignore the
- * InitialVotingInterval since it complexifies things and it doesn't
- * affect the SR protocol. */
- interval = get_options()->V3AuthVotingInterval;
- }
- tor_assert(interval > 0);
- return interval;
- }
- /* Given the time <b>now</b>, return the start time of the current round of
- * the SR protocol. For example, if it's 23:47:08, the current round thus
- * started at 23:47:00 for a voting interval of 10 seconds. */
- static time_t
- get_start_time_of_current_round(time_t now)
- {
- const or_options_t *options = get_options();
- int voting_interval = get_voting_interval();
- voting_schedule_t *new_voting_schedule =
- get_voting_schedule(options, now, LOG_INFO);
- tor_assert(new_voting_schedule);
- /* First, get the start time of the next round */
- time_t next_start = new_voting_schedule->interval_starts;
- /* Now roll back next_start by a voting interval to find the start time of
- the current round. */
- time_t curr_start = dirvote_get_start_of_next_interval(
- next_start - voting_interval - 1,
- voting_interval,
- options->TestingV3AuthVotingStartOffset);
- voting_schedule_free(new_voting_schedule);
- return curr_start;
- }
- /* Return the time we should expire the state file created at <b>now</b>.
- * We expire the state file in the beginning of the next protocol run. */
- STATIC time_t
- get_state_valid_until_time(time_t now)
- {
- int total_rounds = SHARED_RANDOM_N_ROUNDS * SHARED_RANDOM_N_PHASES;
- int current_round, voting_interval, rounds_left;
- time_t valid_until, beginning_of_current_round;
- voting_interval = get_voting_interval();
- /* Find the time the current round started. */
- beginning_of_current_round = get_start_time_of_current_round(now);
- /* Find how many rounds are left till the end of the protocol run */
- current_round = (now / voting_interval) % total_rounds;
- rounds_left = total_rounds - current_round;
- /* To find the valid-until time now, take the start time of the current
- * round and add to it the time it takes for the leftover rounds to
- * complete. */
- valid_until = beginning_of_current_round + (rounds_left * voting_interval);
- { /* Logging */
- char tbuf[ISO_TIME_LEN + 1];
- format_iso_time(tbuf, valid_until);
- log_debug(LD_DIR, "SR: Valid until time for state set to %s.", tbuf);
- }
- return valid_until;
- }
- /* Given the consensus 'valid-after' time, return the protocol phase we should
- * be in. */
- STATIC sr_phase_t
- get_sr_protocol_phase(time_t valid_after)
- {
- /* Shared random protocol has two phases, commit and reveal. */
- int total_periods = SHARED_RANDOM_N_ROUNDS * SHARED_RANDOM_N_PHASES;
- int current_slot;
- /* Split time into slots of size 'voting_interval'. See which slot we are
- * currently into, and find which phase it corresponds to. */
- current_slot = (valid_after / get_voting_interval()) % total_periods;
- if (current_slot < SHARED_RANDOM_N_ROUNDS) {
- return SR_PHASE_COMMIT;
- } else {
- return SR_PHASE_REVEAL;
- }
- }
- /* Add the given <b>commit</b> to <b>state</b>. It MUST be a valid commit
- * and there shouldn't be a commit from the same authority in the state
- * already else verification hasn't been done prior. This takes ownership of
- * the commit once in our state. */
- static void
- commit_add_to_state(sr_commit_t *commit, sr_state_t *state)
- {
- sr_commit_t *saved_commit;
- tor_assert(commit);
- tor_assert(state);
- saved_commit = digestmap_set(state->commits, commit->rsa_identity,
- commit);
- if (saved_commit != NULL) {
- /* This means we already have that commit in our state so adding twice
- * the same commit is either a code flow error, a corrupted disk state
- * or some new unknown issue. */
- log_warn(LD_DIR, "SR: Commit from %s exists in our state while "
- "adding it: '%s'", sr_commit_get_rsa_fpr(commit),
- commit->encoded_commit);
- sr_commit_free(saved_commit);
- }
- }
- /* Helper: deallocate a commit object. (Used with digestmap_free(), which
- * requires a function pointer whose argument is void *). */
- static void
- commit_free_(void *p)
- {
- sr_commit_free(p);
- }
- /* Free a state that was allocated with state_new(). */
- static void
- state_free(sr_state_t *state)
- {
- if (state == NULL) {
- return;
- }
- tor_free(state->fname);
- digestmap_free(state->commits, commit_free_);
- tor_free(state->current_srv);
- tor_free(state->previous_srv);
- tor_free(state);
- }
- /* Allocate an sr_state_t object and returns it. If no <b>fname</b>, the
- * default file name is used. This function does NOT initialize the state
- * timestamp, phase or shared random value. NULL is never returned. */
- static sr_state_t *
- state_new(const char *fname, time_t now)
- {
- sr_state_t *new_state = tor_malloc_zero(sizeof(*new_state));
- /* If file name is not provided, use default. */
- if (fname == NULL) {
- fname = default_fname;
- }
- new_state->fname = tor_strdup(fname);
- new_state->version = SR_PROTO_VERSION;
- new_state->commits = digestmap_new();
- new_state->phase = get_sr_protocol_phase(now);
- new_state->valid_until = get_state_valid_until_time(now);
- return new_state;
- }
- /* Set our global state pointer with the one given. */
- static void
- state_set(sr_state_t *state)
- {
- tor_assert(state);
- if (sr_state != NULL) {
- state_free(sr_state);
- }
- sr_state = state;
- }
- /* Free an allocated disk state. */
- static void
- disk_state_free(sr_disk_state_t *state)
- {
- if (state == NULL) {
- return;
- }
- config_free(&state_format, state);
- }
- /* Allocate a new disk state, initialize it and return it. */
- static sr_disk_state_t *
- disk_state_new(time_t now)
- {
- sr_disk_state_t *new_state = tor_malloc_zero(sizeof(*new_state));
- new_state->magic_ = SR_DISK_STATE_MAGIC;
- new_state->Version = SR_PROTO_VERSION;
- new_state->TorVersion = tor_strdup(get_version());
- new_state->ValidUntil = get_state_valid_until_time(now);
- new_state->ValidAfter = now;
- /* Init config format. */
- config_init(&state_format, new_state);
- return new_state;
- }
- /* Set our global disk state with the given state. */
- static void
- disk_state_set(sr_disk_state_t *state)
- {
- tor_assert(state);
- if (sr_disk_state != NULL) {
- disk_state_free(sr_disk_state);
- }
- sr_disk_state = state;
- }
- /* Return -1 if the disk state is invalid (something in there that we can't or
- * shouldn't use). Return 0 if everything checks out. */
- static int
- disk_state_validate(const sr_disk_state_t *state)
- {
- time_t now;
- tor_assert(state);
- /* Do we support the protocol version in the state or is it 0 meaning
- * Version wasn't found in the state file or bad anyway ? */
- if (state->Version == 0 || state->Version > SR_PROTO_VERSION) {
- goto invalid;
- }
- /* If the valid until time is before now, we shouldn't use that state. */
- now = time(NULL);
- if (state->ValidUntil < now) {
- log_info(LD_DIR, "SR: Disk state has expired. Ignoring it.");
- goto invalid;
- }
- /* Make sure we don't have a valid after time that is earlier than a valid
- * until time which would make things not work well. */
- if (state->ValidAfter >= state->ValidUntil) {
- log_info(LD_DIR, "SR: Disk state valid after/until times are invalid.");
- goto invalid;
- }
- return 0;
- invalid:
- return -1;
- }
- /* Validate the disk state (NOP for now). */
- static int
- disk_state_validate_cb(void *old_state, void *state, void *default_state,
- int from_setconf, char **msg)
- {
- /* We don't use these; only options do. */
- (void) from_setconf;
- (void) default_state;
- (void) old_state;
- /* This is called by config_dump which is just before we are about to
- * write it to disk. At that point, our global memory state has been
- * copied to the disk state so it's fair to assume it's trustable. */
- (void) state;
- (void) msg;
- return 0;
- }
- /* Parse the Commit line(s) in the disk state and translate them to the
- * the memory state. Return 0 on success else -1 on error. */
- static int
- disk_state_parse_commits(sr_state_t *state,
- const sr_disk_state_t *disk_state)
- {
- config_line_t *line;
- smartlist_t *args = NULL;
- tor_assert(state);
- tor_assert(disk_state);
- for (line = disk_state->Commit; line; line = line->next) {
- sr_commit_t *commit = NULL;
- /* Extra safety. */
- if (strcasecmp(line->key, dstate_commit_key) ||
- line->value == NULL) {
- /* Ignore any lines that are not commits. */
- tor_fragile_assert();
- continue;
- }
- args = smartlist_new();
- smartlist_split_string(args, line->value, " ",
- SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
- if (smartlist_len(args) < 3) {
- log_warn(LD_BUG, "SR: Too few arguments in Commit Line: %s",
- escaped(line->value));
- goto error;
- }
- commit = sr_parse_commit(args);
- if (commit == NULL) {
- /* Ignore badly formed commit. It could also be a authority
- * fingerprint that we don't know about so it shouldn't be used. */
- continue;
- }
- /* We consider parseable commit from our disk state to be valid because
- * they need to be in the first place to get in there. */
- commit->valid = 1;
- /* Add commit to our state pointer. */
- commit_add_to_state(commit, state);
- SMARTLIST_FOREACH(args, char *, cp, tor_free(cp));
- smartlist_free(args);
- }
- return 0;
- error:
- SMARTLIST_FOREACH(args, char *, cp, tor_free(cp));
- smartlist_free(args);
- return -1;
- }
- /* Parse a share random value line from the disk state and save it to dst
- * which is an allocated srv object. Return 0 on success else -1. */
- static int
- disk_state_parse_srv(const char *value, sr_srv_t *dst)
- {
- int ret = -1;
- smartlist_t *args;
- sr_srv_t *srv;
- tor_assert(value);
- tor_assert(dst);
- args = smartlist_new();
- smartlist_split_string(args, value, " ",
- SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
- if (smartlist_len(args) < 2) {
- log_warn(LD_BUG, "SR: Too few arguments in shared random value. "
- "Line: %s", escaped(value));
- goto error;
- }
- srv = sr_parse_srv(args);
- if (srv == NULL) {
- goto error;
- }
- dst->num_reveals = srv->num_reveals;
- memcpy(dst->value, srv->value, sizeof(dst->value));
- tor_free(srv);
- ret = 0;
- error:
- SMARTLIST_FOREACH(args, char *, s, tor_free(s));
- smartlist_free(args);
- return ret;
- }
- /* Parse both SharedRandCurrentValue and SharedRandPreviousValue line from
- * the state. Return 0 on success else -1. */
- static int
- disk_state_parse_sr_values(sr_state_t *state,
- const sr_disk_state_t *disk_state)
- {
- /* Only one value per type (current or previous) is allowed so we keep
- * track of it with these flag. */
- unsigned int seen_previous = 0, seen_current = 0;
- config_line_t *line;
- sr_srv_t *srv = NULL;
- tor_assert(state);
- tor_assert(disk_state);
- for (line = disk_state->SharedRandValues; line; line = line->next) {
- if (line->value == NULL) {
- continue;
- }
- srv = tor_malloc_zero(sizeof(*srv));
- if (disk_state_parse_srv(line->value, srv) < 0) {
- log_warn(LD_BUG, "SR: Broken current SRV line in state %s",
- escaped(line->value));
- goto bad;
- }
- if (!strcasecmp(line->key, dstate_prev_srv_key)) {
- if (seen_previous) {
- log_warn(LD_DIR, "SR: Second previous SRV value seen. Bad state");
- goto bad;
- }
- state->previous_srv = srv;
- seen_previous = 1;
- } else if (!strcasecmp(line->key, dstate_cur_srv_key)) {
- if (seen_current) {
- log_warn(LD_DIR, "SR: Second current SRV value seen. Bad state");
- goto bad;
- }
- state->current_srv = srv;
- seen_current = 1;
- } else {
- /* Unknown key. Ignoring. */
- tor_free(srv);
- }
- }
- return 0;
- bad:
- tor_free(srv);
- return -1;
- }
- /* Parse the given disk state and set a newly allocated state. On success,
- * return that state else NULL. */
- static sr_state_t *
- disk_state_parse(const sr_disk_state_t *new_disk_state)
- {
- sr_state_t *new_state = state_new(default_fname, time(NULL));
- tor_assert(new_disk_state);
- new_state->version = new_disk_state->Version;
- new_state->valid_until = new_disk_state->ValidUntil;
- new_state->valid_after = new_disk_state->ValidAfter;
- /* Set our current phase according to the valid-after time in our disk
- * state. The disk state we are parsing contains everything for the phase
- * starting at valid_after so make sure our phase reflects that. */
- new_state->phase = get_sr_protocol_phase(new_state->valid_after);
- /* Parse the shared random values. */
- if (disk_state_parse_sr_values(new_state, new_disk_state) < 0) {
- goto error;
- }
- /* Parse the commits. */
- if (disk_state_parse_commits(new_state, new_disk_state) < 0) {
- goto error;
- }
- /* Great! This new state contains everything we had on disk. */
- return new_state;
- error:
- state_free(new_state);
- return NULL;
- }
- /* From a valid commit object and an allocated config line, set the line's
- * value to the state string representation of a commit. */
- static void
- disk_state_put_commit_line(const sr_commit_t *commit, config_line_t *line)
- {
- char *reveal_str = NULL;
- tor_assert(commit);
- tor_assert(line);
- if (!tor_mem_is_zero(commit->encoded_reveal,
- sizeof(commit->encoded_reveal))) {
- /* Add extra whitespace so we can format the line correctly. */
- tor_asprintf(&reveal_str, " %s", commit->encoded_reveal);
- }
- tor_asprintf(&line->value, "%u %s %s %s%s",
- SR_PROTO_VERSION,
- crypto_digest_algorithm_get_name(commit->alg),
- sr_commit_get_rsa_fpr(commit),
- commit->encoded_commit,
- reveal_str != NULL ? reveal_str : "");
- if (reveal_str != NULL) {
- memwipe(reveal_str, 0, strlen(reveal_str));
- tor_free(reveal_str);
- }
- }
- /* From a valid srv object and an allocated config line, set the line's
- * value to the state string representation of a shared random value. */
- static void
- disk_state_put_srv_line(const sr_srv_t *srv, config_line_t *line)
- {
- char encoded[SR_SRV_VALUE_BASE64_LEN + 1];
- tor_assert(line);
- /* No SRV value thus don't add the line. This is possible since we might
- * not have a current or previous SRV value in our state. */
- if (srv == NULL) {
- return;
- }
- sr_srv_encode(encoded, sizeof(encoded), srv);
- tor_asprintf(&line->value, "%" PRIu64 " %s", srv->num_reveals, encoded);
- }
- /* Reset disk state that is free allocated memory and zeroed the object. */
- static void
- disk_state_reset(void)
- {
- /* Free allocated memory */
- config_free_lines(sr_disk_state->Commit);
- config_free_lines(sr_disk_state->SharedRandValues);
- config_free_lines(sr_disk_state->ExtraLines);
- tor_free(sr_disk_state->TorVersion);
- /* Clean up the struct */
- memset(sr_disk_state, 0, sizeof(*sr_disk_state));
- /* Reset it with useful data */
- sr_disk_state->magic_ = SR_DISK_STATE_MAGIC;
- sr_disk_state->TorVersion = tor_strdup(get_version());
- }
- /* Update our disk state based on our global SR state. */
- static void
- disk_state_update(void)
- {
- config_line_t **next, *line;
- tor_assert(sr_disk_state);
- tor_assert(sr_state);
- /* Reset current disk state. */
- disk_state_reset();
- /* First, update elements that we don't need to do a construction. */
- sr_disk_state->Version = sr_state->version;
- sr_disk_state->ValidUntil = sr_state->valid_until;
- sr_disk_state->ValidAfter = sr_state->valid_after;
- /* Shared random values. */
- next = &sr_disk_state->SharedRandValues;
- if (sr_state->previous_srv != NULL) {
- *next = line = tor_malloc_zero(sizeof(config_line_t));
- line->key = tor_strdup(dstate_prev_srv_key);
- disk_state_put_srv_line(sr_state->previous_srv, line);
- /* Go to the next shared random value. */
- next = &(line->next);
- }
- if (sr_state->current_srv != NULL) {
- *next = line = tor_malloc_zero(sizeof(*line));
- line->key = tor_strdup(dstate_cur_srv_key);
- disk_state_put_srv_line(sr_state->current_srv, line);
- }
- /* Parse the commits and construct config line(s). */
- next = &sr_disk_state->Commit;
- DIGESTMAP_FOREACH(sr_state->commits, key, sr_commit_t *, commit) {
- *next = line = tor_malloc_zero(sizeof(*line));
- line->key = tor_strdup(dstate_commit_key);
- disk_state_put_commit_line(commit, line);
- next = &(line->next);
- } DIGESTMAP_FOREACH_END;
- }
- /* Load state from disk and put it into our disk state. If the state passes
- * validation, our global state will be updated with it. Return 0 on
- * success. On error, -EINVAL is returned if the state on disk did contained
- * something malformed or is unreadable. -ENOENT is returned indicating that
- * the state file is either empty of non existing. */
- static int
- disk_state_load_from_disk(void)
- {
- int ret;
- char *fname;
- fname = get_datadir_fname(default_fname);
- ret = disk_state_load_from_disk_impl(fname);
- tor_free(fname);
- return ret;
- }
- /* Helper for disk_state_load_from_disk(). */
- STATIC int
- disk_state_load_from_disk_impl(const char *fname)
- {
- int ret;
- char *content = NULL;
- sr_state_t *parsed_state = NULL;
- sr_disk_state_t *disk_state = NULL;
- /* Read content of file so we can parse it. */
- if ((content = read_file_to_str(fname, 0, NULL)) == NULL) {
- log_warn(LD_FS, "SR: Unable to read SR state file %s",
- escaped(fname));
- ret = -errno;
- goto error;
- }
- {
- config_line_t *lines = NULL;
- char *errmsg = NULL;
- /* Every error in this code path will return EINVAL. */
- ret = -EINVAL;
- if (config_get_lines(content, &lines, 0) < 0) {
- config_free_lines(lines);
- goto error;
- }
- disk_state = disk_state_new(time(NULL));
- config_assign(&state_format, disk_state, lines, 0, &errmsg);
- config_free_lines(lines);
- if (errmsg) {
- log_warn(LD_DIR, "SR: Reading state error: %s", errmsg);
- tor_free(errmsg);
- goto error;
- }
- }
- /* So far so good, we've loaded our state file into our disk state. Let's
- * validate it and then parse it. */
- if (disk_state_validate(disk_state) < 0) {
- ret = -EINVAL;
- goto error;
- }
- parsed_state = disk_state_parse(disk_state);
- if (parsed_state == NULL) {
- ret = -EINVAL;
- goto error;
- }
- state_set(parsed_state);
- disk_state_set(disk_state);
- tor_free(content);
- log_info(LD_DIR, "SR: State loaded successfully from file %s", fname);
- return 0;
- error:
- disk_state_free(disk_state);
- tor_free(content);
- return ret;
- }
- /* Save the disk state to disk but before that update it from the current
- * state so we always have the latest. Return 0 on success else -1. */
- static int
- disk_state_save_to_disk(void)
- {
- int ret;
- char *state, *content = NULL, *fname = NULL;
- char tbuf[ISO_TIME_LEN + 1];
- time_t now = time(NULL);
- /* If we didn't have the opportunity to setup an internal disk state,
- * don't bother saving something to disk. */
- if (sr_disk_state == NULL) {
- ret = 0;
- goto done;
- }
- /* Make sure that our disk state is up to date with our memory state
- * before saving it to disk. */
- disk_state_update();
- state = config_dump(&state_format, NULL, sr_disk_state, 0, 0);
- format_local_iso_time(tbuf, now);
- tor_asprintf(&content,
- "# Tor shared random state file last generated on %s "
- "local time\n"
- "# Other times below are in UTC\n"
- "# Please *do not* edit this file.\n\n%s",
- tbuf, state);
- tor_free(state);
- fname = get_datadir_fname(default_fname);
- if (write_str_to_file(fname, content, 0) < 0) {
- log_warn(LD_FS, "SR: Unable to write SR state to file %s", fname);
- ret = -1;
- goto done;
- }
- ret = 0;
- log_debug(LD_DIR, "SR: Saved state to file %s", fname);
- done:
- tor_free(fname);
- tor_free(content);
- return ret;
- }
- /* Reset our state to prepare for a new protocol run. Once this returns, all
- * commits in the state will be removed and freed. */
- STATIC void
- reset_state_for_new_protocol_run(time_t valid_after)
- {
- tor_assert(sr_state);
- /* Keep counters in track */
- sr_state->n_reveal_rounds = 0;
- sr_state->n_commit_rounds = 0;
- sr_state->n_protocol_runs++;
- /* Reset valid-until */
- sr_state->valid_until = get_state_valid_until_time(valid_after);
- sr_state->valid_after = valid_after;
- /* We are in a new protocol run so cleanup commits. */
- sr_state_delete_commits();
- }
- /* This is the first round of the new protocol run starting at
- * <b>valid_after</b>. Do the necessary housekeeping. */
- STATIC void
- new_protocol_run(time_t valid_after)
- {
- sr_commit_t *our_commitment = NULL;
- /* Only compute the srv at the end of the reveal phase. */
- if (sr_state->phase == SR_PHASE_REVEAL) {
- /* We are about to compute a new shared random value that will be set in
- * our state as the current value so rotate values. */
- state_rotate_srv();
- /* Compute the shared randomness value of the day. */
- sr_compute_srv();
- }
- /* Prepare for the new protocol run by reseting the state */
- reset_state_for_new_protocol_run(valid_after);
- /* Do some logging */
- log_info(LD_DIR, "SR: Protocol run #%" PRIu64 " starting!",
- sr_state->n_protocol_runs);
- /* Generate fresh commitments for this protocol run */
- our_commitment = sr_generate_our_commit(valid_after,
- get_my_v3_authority_cert());
- if (our_commitment) {
- /* Add our commitment to our state. In case we are unable to create one
- * (highly unlikely), we won't vote for this protocol run since our
- * commitment won't be in our state. */
- sr_state_add_commit(our_commitment);
- }
- }
- /* Return 1 iff the <b>next_phase</b> is a phase transition from the current
- * phase that is it's different. */
- STATIC int
- is_phase_transition(sr_phase_t next_phase)
- {
- return sr_state->phase != next_phase;
- }
- /* Helper function: return a commit using the RSA fingerprint of the
- * authority or NULL if no such commit is known. */
- static sr_commit_t *
- state_query_get_commit(const char *rsa_fpr)
- {
- tor_assert(rsa_fpr);
- return digestmap_get(sr_state->commits, rsa_fpr);
- }
- /* Helper function: This handles the GET state action using an
- * <b>obj_type</b> and <b>data</b> needed for the action. */
- static void *
- state_query_get_(sr_state_object_t obj_type, const void *data)
- {
- void *obj = NULL;
- switch (obj_type) {
- case SR_STATE_OBJ_COMMIT:
- {
- obj = state_query_get_commit(data);
- break;
- }
- case SR_STATE_OBJ_COMMITS:
- obj = sr_state->commits;
- break;
- case SR_STATE_OBJ_CURSRV:
- obj = sr_state->current_srv;
- break;
- case SR_STATE_OBJ_PREVSRV:
- obj = sr_state->previous_srv;
- break;
- case SR_STATE_OBJ_PHASE:
- obj = &sr_state->phase;
- break;
- case SR_STATE_OBJ_VALID_AFTER:
- default:
- tor_assert(0);
- }
- return obj;
- }
- /* Helper function: This handles the PUT state action using an
- * <b>obj_type</b> and <b>data</b> needed for the action. */
- static void
- state_query_put_(sr_state_object_t obj_type, void *data)
- {
- switch (obj_type) {
- case SR_STATE_OBJ_COMMIT:
- {
- sr_commit_t *commit = data;
- tor_assert(commit);
- commit_add_to_state(commit, sr_state);
- break;
- }
- case SR_STATE_OBJ_CURSRV:
- sr_state->current_srv = (sr_srv_t *) data;
- break;
- case SR_STATE_OBJ_PREVSRV:
- sr_state->previous_srv = (sr_srv_t *) data;
- break;
- case SR_STATE_OBJ_VALID_AFTER:
- sr_state->valid_after = *((time_t *) data);
- break;
- /* It's not allowed to change the phase nor the full commitments map from
- * the state. The phase is decided during a strict process post voting and
- * the commits should be put individually. */
- case SR_STATE_OBJ_PHASE:
- case SR_STATE_OBJ_COMMITS:
- default:
- tor_assert(0);
- }
- }
- /* Helper function: This handles the DEL_ALL state action using an
- * <b>obj_type</b> and <b>data</b> needed for the action. */
- static void
- state_query_del_all_(sr_state_object_t obj_type)
- {
- switch (obj_type) {
- case SR_STATE_OBJ_COMMIT:
- {
- /* We are in a new protocol run so cleanup commitments. */
- DIGESTMAP_FOREACH_MODIFY(sr_state->commits, key, sr_commit_t *, c) {
- sr_commit_free(c);
- MAP_DEL_CURRENT(key);
- } DIGESTMAP_FOREACH_END;
- break;
- }
- /* The following object are _NOT_ suppose to be removed. */
- case SR_STATE_OBJ_CURSRV:
- case SR_STATE_OBJ_PREVSRV:
- case SR_STATE_OBJ_PHASE:
- case SR_STATE_OBJ_COMMITS:
- case SR_STATE_OBJ_VALID_AFTER:
- default:
- tor_assert(0);
- }
- }
- /* Helper function: This handles the DEL state action using an
- * <b>obj_type</b> and <b>data</b> needed for the action. */
- static void
- state_query_del_(sr_state_object_t obj_type, void *data)
- {
- (void) data;
- switch (obj_type) {
- case SR_STATE_OBJ_PREVSRV:
- tor_free(sr_state->previous_srv);
- break;
- case SR_STATE_OBJ_CURSRV:
- tor_free(sr_state->current_srv);
- break;
- case SR_STATE_OBJ_COMMIT:
- case SR_STATE_OBJ_COMMITS:
- case SR_STATE_OBJ_PHASE:
- case SR_STATE_OBJ_VALID_AFTER:
- default:
- tor_assert(0);
- }
- }
- /* Query state using an <b>action</b> for an object type <b>obj_type</b>.
- * The <b>data</b> pointer needs to point to an object that the action needs
- * to use and if anything is required to be returned, it is stored in
- * <b>out</b>.
- *
- * This mechanism exists so we have one single point where we synchronized
- * our memory state with our disk state for every actions that changes it.
- * We then trigger a write on disk immediately.
- *
- * This should be the only entry point to our memory state. It's used by all
- * our state accessors and should be in the future. */
- static void
- state_query(sr_state_action_t action, sr_state_object_t obj_type,
- void *data, void **out)
- {
- switch (action) {
- case SR_STATE_ACTION_GET:
- *out = state_query_get_(obj_type, data);
- break;
- case SR_STATE_ACTION_PUT:
- state_query_put_(obj_type, data);
- break;
- case SR_STATE_ACTION_DEL:
- state_query_del_(obj_type, data);
- break;
- case SR_STATE_ACTION_DEL_ALL:
- state_query_del_all_(obj_type);
- break;
- case SR_STATE_ACTION_SAVE:
- /* Only trigger a disk state save. */
- break;
- default:
- tor_assert(0);
- }
- /* If the action actually changes the state, immediately save it to disk.
- * The following will sync the state -> disk state and then save it. */
- if (action != SR_STATE_ACTION_GET) {
- disk_state_save_to_disk();
- }
- }
- /* Delete the current SRV value from the state freeing it and the value is set
- * to NULL meaning empty. */
- static void
- state_del_current_srv(void)
- {
- state_query(SR_STATE_ACTION_DEL, SR_STATE_OBJ_CURSRV, NULL, NULL);
- }
- /* Delete the previous SRV value from the state freeing it and the value is
- * set to NULL meaning empty. */
- static void
- state_del_previous_srv(void)
- {
- state_query(SR_STATE_ACTION_DEL, SR_STATE_OBJ_PREVSRV, NULL, NULL);
- }
- /* Rotate SRV value by freeing the previous value, assigning the current
- * value to the previous one and nullifying the current one. */
- STATIC void
- state_rotate_srv(void)
- {
- /* First delete previous SRV from the state. Object will be freed. */
- state_del_previous_srv();
- /* Set previous SRV with the current one. */
- sr_state_set_previous_srv(sr_state_get_current_srv());
- /* Nullify the current srv. */
- sr_state_set_current_srv(NULL);
- }
- /* Set valid after time in the our state. */
- void
- sr_state_set_valid_after(time_t valid_after)
- {
- state_query(SR_STATE_ACTION_PUT, SR_STATE_OBJ_VALID_AFTER,
- (void *) &valid_after, NULL);
- }
- /* Return the phase we are currently in according to our state. */
- sr_phase_t
- sr_state_get_phase(void)
- {
- void *ptr;
- state_query(SR_STATE_ACTION_GET, SR_STATE_OBJ_PHASE, NULL, &ptr);
- return *(sr_phase_t *) ptr;
- }
- /* Return the previous SRV value from our state. Value CAN be NULL. */
- const sr_srv_t *
- sr_state_get_previous_srv(void)
- {
- const sr_srv_t *srv;
- state_query(SR_STATE_ACTION_GET, SR_STATE_OBJ_PREVSRV, NULL,
- (void *) &srv);
- return srv;
- }
- /* Set the current SRV value from our state. Value CAN be NULL. The srv
- * object ownership is transfered to the state object. */
- void
- sr_state_set_previous_srv(const sr_srv_t *srv)
- {
- state_query(SR_STATE_ACTION_PUT, SR_STATE_OBJ_PREVSRV, (void *) srv,
- NULL);
- }
- /* Return the current SRV value from our state. Value CAN be NULL. */
- const sr_srv_t *
- sr_state_get_current_srv(void)
- {
- const sr_srv_t *srv;
- state_query(SR_STATE_ACTION_GET, SR_STATE_OBJ_CURSRV, NULL,
- (void *) &srv);
- return srv;
- }
- /* Set the current SRV value from our state. Value CAN be NULL. The srv
- * object ownership is transfered to the state object. */
- void
- sr_state_set_current_srv(const sr_srv_t *srv)
- {
- state_query(SR_STATE_ACTION_PUT, SR_STATE_OBJ_CURSRV, (void *) srv,
- NULL);
- }
- /* Clean all the SRVs in our state. */
- void
- sr_state_clean_srvs(void)
- {
- /* Remove SRVs from state. They will be set to NULL as "empty". */
- state_del_previous_srv();
- state_del_current_srv();
- }
- /* Return a pointer to the commits map from our state. CANNOT be NULL. */
- digestmap_t *
- sr_state_get_commits(void)
- {
- digestmap_t *commits;
- state_query(SR_STATE_ACTION_GET, SR_STATE_OBJ_COMMITS,
- NULL, (void *) &commits);
- tor_assert(commits);
- return commits;
- }
- /* Update the current SR state as needed for the upcoming voting round at
- * <b>valid_after</b>. */
- void
- sr_state_update(time_t valid_after)
- {
- sr_phase_t next_phase;
- tor_assert(sr_state);
- /* Don't call this function twice in the same voting period. */
- if (valid_after <= sr_state->valid_after) {
- log_info(LD_DIR, "SR: Asked to update state twice. Ignoring.");
- return;
- }
- /* Get phase of upcoming round. */
- next_phase = get_sr_protocol_phase(valid_after);
- /* If we are transitioning to a new protocol phase, prepare the stage. */
- if (is_phase_transition(next_phase)) {
- if (next_phase == SR_PHASE_COMMIT) {
- /* Going into commit phase means we are starting a new protocol run. */
- new_protocol_run(valid_after);
- }
- /* Set the new phase for this round */
- sr_state->phase = next_phase;
- } else if (sr_state->phase == SR_PHASE_COMMIT &&
- digestmap_size(sr_state->commits) == 0) {
- /* We are _NOT_ in a transition phase so if we are in the commit phase
- * and have no commit, generate one. Chances are that we are booting up
- * so let's have a commit in our state for the next voting period. */
- sr_commit_t *our_commit =
- sr_generate_our_commit(valid_after, get_my_v3_authority_cert());
- if (our_commit) {
- /* Add our commitment to our state. In case we are unable to create one
- * (highly unlikely), we won't vote for this protocol run since our
- * commitment won't be in our state. */
- sr_state_add_commit(our_commit);
- }
- }
- sr_state_set_valid_after(valid_after);
- /* Count the current round */
- if (sr_state->phase == SR_PHASE_COMMIT) {
- /* invariant check: we've not entered reveal phase yet */
- tor_assert(sr_state->n_reveal_rounds == 0);
- sr_state->n_commit_rounds++;
- } else {
- sr_state->n_reveal_rounds++;
- }
- { /* Debugging. */
- char tbuf[ISO_TIME_LEN + 1];
- format_iso_time(tbuf, valid_after);
- log_info(LD_DIR, "SR: State prepared for upcoming voting period (%s). "
- "Upcoming phase is %s (counters: %d commit & %d reveal rounds).",
- tbuf, get_phase_str(sr_state->phase),
- sr_state->n_commit_rounds, sr_state->n_reveal_rounds);
- }
- }
- /* Return commit object from the given authority digest <b>rsa_identity</b>.
- * Return NULL if not found. */
- sr_commit_t *
- sr_state_get_commit(const char *rsa_identity)
- {
- sr_commit_t *commit;
- tor_assert(rsa_identity);
- state_query(SR_STATE_ACTION_GET, SR_STATE_OBJ_COMMIT,
- (void *) rsa_identity, (void *) &commit);
- return commit;
- }
- /* Add <b>commit</b> to the permanent state. The commit object ownership is
- * transfered to the state so the caller MUST not free it. */
- void
- sr_state_add_commit(sr_commit_t *commit)
- {
- tor_assert(commit);
- /* Put the commit to the global state. */
- state_query(SR_STATE_ACTION_PUT, SR_STATE_OBJ_COMMIT,
- (void *) commit, NULL);
- log_debug(LD_DIR, "SR: Commit from %s has been added to our state.",
- sr_commit_get_rsa_fpr(commit));
- }
- /* Remove all commits from our state. */
- void
- sr_state_delete_commits(void)
- {
- state_query(SR_STATE_ACTION_DEL_ALL, SR_STATE_OBJ_COMMIT, NULL, NULL);
- }
- /* Copy the reveal information from <b>commit</b> into <b>saved_commit</b>.
- * This <b>saved_commit</b> MUST come from our current SR state. Once modified,
- * the disk state is updated. */
- void
- sr_state_copy_reveal_info(sr_commit_t *saved_commit, const sr_commit_t *commit)
- {
- tor_assert(saved_commit);
- tor_assert(commit);
- saved_commit->reveal_ts = commit->reveal_ts;
- memcpy(saved_commit->random_number, commit->random_number,
- sizeof(saved_commit->random_number));
- strlcpy(saved_commit->encoded_reveal, commit->encoded_reveal,
- sizeof(saved_commit->encoded_reveal));
- state_query(SR_STATE_ACTION_SAVE, 0, NULL, NULL);
- log_debug(LD_DIR, "SR: Reveal value learned %s (for commit %s) from %s",
- saved_commit->encoded_reveal, saved_commit->encoded_commit,
- sr_commit_get_rsa_fpr(saved_commit));
- }
- /* Set the fresh SRV flag from our state. This doesn't need to trigger a
- * disk state synchronization so we directly change the state. */
- void
- sr_state_set_fresh_srv(void)
- {
- sr_state->is_srv_fresh = 1;
- }
- /* Unset the fresh SRV flag from our state. This doesn't need to trigger a
- * disk state synchronization so we directly change the state. */
- void
- sr_state_unset_fresh_srv(void)
- {
- sr_state->is_srv_fresh = 0;
- }
- /* Return the value of the fresh SRV flag. */
- unsigned int
- sr_state_srv_is_fresh(void)
- {
- return sr_state->is_srv_fresh;
- }
- /* Cleanup and free our disk and memory state. */
- void
- sr_state_free(void)
- {
- state_free(sr_state);
- disk_state_free(sr_disk_state);
- /* Nullify our global state. */
- sr_state = NULL;
- sr_disk_state = NULL;
- }
- /* Save our current state in memory to disk. */
- void
- sr_state_save(void)
- {
- /* Query a SAVE action on our current state so it's synced and saved. */
- state_query(SR_STATE_ACTION_SAVE, 0, NULL, NULL);
- }
- /* Return 1 iff the state has been initialized that is it exists in memory.
- * Return 0 otherwise. */
- int
- sr_state_is_initialized(void)
- {
- return sr_state == NULL ? 0 : 1;
- }
- /* Initialize the disk and memory state.
- *
- * If save_to_disk is set to 1, the state is immediately saved to disk after
- * creation else it's not thus only kept in memory.
- * If read_from_disk is set to 1, we try to load the state from the disk and
- * if not found, a new state is created.
- *
- * Return 0 on success else a negative value on error. */
- int
- sr_state_init(int save_to_disk, int read_from_disk)
- {
- int ret = -ENOENT;
- time_t now = time(NULL);
- /* We shouldn't have those assigned. */
- tor_assert(sr_disk_state == NULL);
- tor_assert(sr_state == NULL);
- /* First, try to load the state from disk. */
- if (read_from_disk) {
- ret = disk_state_load_from_disk();
- }
- if (ret < 0) {
- switch (-ret) {
- case EINVAL:
- /* We have a state on disk but it contains something we couldn't parse
- * or an invalid entry in the state file. Let's remove it since it's
- * obviously unusable and replace it by an new fresh state below. */
- case ENOENT:
- {
- /* No state on disk so allocate our states for the first time. */
- sr_state_t *new_state = state_new(default_fname, now);
- sr_disk_state_t *new_disk_state = disk_state_new(now);
- state_set(new_state);
- /* It's important to set our disk state pointer since the save call
- * below uses it to synchronized it with our memory state. */
- disk_state_set(new_disk_state);
- /* No entry, let's save our new state to disk. */
- if (save_to_disk && disk_state_save_to_disk() < 0) {
- goto error;
- }
- break;
- }
- default:
- /* Big problem. Not possible. */
- tor_assert(0);
- }
- }
- /* We have a state in memory, let's make sure it's updated for the current
- * and next voting round. */
- {
- time_t valid_after = get_next_valid_after_time(now);
- sr_state_update(valid_after);
- }
- return 0;
- error:
- return -1;
- }
- #ifdef TOR_UNIT_TESTS
- /* Set the current phase of the protocol. Used only by unit tests. */
- void
- set_sr_phase(sr_phase_t phase)
- {
- tor_assert(sr_state);
- sr_state->phase = phase;
- }
- /* Get the SR state. Used only by unit tests */
- sr_state_t *
- get_sr_state(void)
- {
- return sr_state;
- }
- #endif /* TOR_UNIT_TESTS */
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