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diff --git a/src/ticket.c b/src/ticket.c
index ffabfcb..8b0df45 100644
--- a/src/ticket.c
+++ b/src/ticket.c
@@ -1,1263 +1,1267 @@
/*
* Copyright (C) 2011 Jiaju Zhang <jjzhang@suse.de>
* Copyright (C) 2013-2014 Philipp Marek <philipp.marek@linbit.com>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <arpa/inet.h>
#include <inttypes.h>
#include <stdio.h>
#include <assert.h>
#include <time.h>
#include <clplumbing/cl_random.h>
#include "b_config.h"
#include "ticket.h"
#include "config.h"
#include "pacemaker.h"
#include "inline-fn.h"
#include "log.h"
#include "booth.h"
#include "raft.h"
#include "handler.h"
#include "request.h"
#define TK_LINE 256
extern int TIME_RES;
/* Untrusted input, must fit (incl. \0) in a buffer of max chars. */
int check_max_len_valid(const char *s, int max)
{
int i;
for(i=0; i<max; i++)
if (s[i] == 0)
return 1;
return 0;
}
int find_ticket_by_name(const char *ticket, struct ticket_config **found)
{
int i;
if (found)
*found = NULL;
for (i = 0; i < booth_conf->ticket_count; i++) {
if (!strcmp(booth_conf->ticket[i].name, ticket)) {
if (found)
*found = booth_conf->ticket + i;
return 1;
}
}
return 0;
}
int check_ticket(char *ticket, struct ticket_config **found)
{
if (found)
*found = NULL;
if (!booth_conf)
return 0;
if (!check_max_len_valid(ticket, sizeof(booth_conf->ticket[0].name)))
return 0;
return find_ticket_by_name(ticket, found);
}
int check_site(char *site, int *is_local)
{
struct booth_site *node;
if (!check_max_len_valid(site, sizeof(node->addr_string)))
return 0;
if (find_site_by_name(site, &node, 0)) {
*is_local = node->local;
return 1;
}
return 0;
}
/* is it safe to commit the grant?
* if we didn't hear from all sites on the initial grant, we may
* need to delay the commit
*
* TODO: investigate possibility to devise from history whether a
* missing site could be holding a ticket or not
*/
static int ticket_dangerous(struct ticket_config *tk)
{
int tdiff;
/* we may be invoked often, don't spam the log unnecessarily
*/
static int no_log_delay_msg;
if (!is_time_set(&tk->delay_commit))
return 0;
if (is_past(&tk->delay_commit) || all_sites_replied(tk)) {
if (tk->leader == local) {
tk_log_info("%s, committing to CIB",
is_past(&tk->delay_commit) ?
"ticket delay expired" : "all sites replied");
}
time_reset(&tk->delay_commit);
no_log_delay_msg = 0;
return 0;
}
tdiff = time_left(&tk->delay_commit);
tk_log_debug("delay ticket commit for another " intfmt(tdiff));
if (!no_log_delay_msg) {
tk_log_info("delaying ticket commit to CIB for " intfmt(tdiff));
tk_log_info("(or all sites are reached)");
no_log_delay_msg = 1;
}
return 1;
}
int ticket_write(struct ticket_config *tk)
{
if (local->type != SITE)
return -EINVAL;
if (ticket_dangerous(tk))
return 1;
if (tk->leader == local) {
pcmk_handler.grant_ticket(tk);
} else {
pcmk_handler.revoke_ticket(tk);
}
tk->update_cib = 0;
return 0;
}
static void ext_prog_failed(struct ticket_config *tk,
int start_election)
{
/* Give it to somebody else.
* Just send a VOTE_FOR message, so the
* others can start elections. */
if (leader_and_valid(tk)) {
save_committed_tkt(tk);
reset_ticket(tk);
ticket_write(tk);
if (start_election) {
ticket_broadcast(tk, OP_VOTE_FOR, OP_REQ_VOTE, RLT_SUCCESS, OR_LOCAL_FAIL);
}
}
}
/* Ask an external program whether getting the ticket
* makes sense.
* Eg. if the services have a failcount of INFINITY,
* we can't serve here anyway. */
static int run_external_prog(struct ticket_config *tk,
int start_election)
{
int rv;
rv = run_handler(tk);
switch (rv) {
case RUNCMD_ERR:
tk_log_warn("couldn't run external test, not allowed to acquire ticket");
ext_prog_failed(tk, start_election);
break;
case 0:
/* immediately returned with success */
break;
case RUNCMD_MORE:
tk_log_debug("forked %s", tk->clu_test.prog);
break;
default:
break;
}
return rv;
}
static int test_exit_status(struct ticket_config *tk,
int start_election)
{
int rv = -1, status;
status = tk->clu_test.status;
if (WIFEXITED(status)) {
rv = WEXITSTATUS(status);
} else if (WIFSIGNALED(status)) {
rv = 128 + WTERMSIG(status);
}
if (rv) {
tk_log_warn("handler \"%s\" failed: %s",
tk->clu_test.prog, interpret_rv(status));
tk_log_warn("we are not allowed to acquire ticket");
ext_prog_failed(tk, start_election);
} else {
tk_log_debug("handler \"%s\" exited with success",
tk->clu_test.prog);
}
tk->clu_test.pid = 0;
tk->clu_test.progstate = EXTPROG_IDLE;
return rv;
}
/* do we need to run the external program?
* or we already done that and waiting for the outcome
* or program exited and we can collect the status
* return codes
* 0: no program defined
* RUNCMD_MORE: program forked, results later
* != 0: executing program failed (or some other failure)
*/
static int do_ext_prog(struct ticket_config *tk,
int start_election)
{
int rv = 0;
if (!tk->clu_test.prog)
return 0;
switch(tk->clu_test.progstate) {
case EXTPROG_IDLE:
rv = run_external_prog(tk, start_election);
break;
case EXTPROG_RUNNING:
/* should never get here, but just in case */
rv = RUNCMD_MORE;
break;
case EXTPROG_EXITED:
rv = test_exit_status(tk, start_election);
break;
case EXTPROG_IGNORE:
/* nothing to do here */
break;
}
return rv;
}
/* Try to acquire a ticket
* Could be manual grant or after start (if the ticket is granted
* and still valid in the CIB)
* If the external program needs to run, this is run twice, once
* to start the program, and then to get the result and start
* elections.
*/
int acquire_ticket(struct ticket_config *tk, cmd_reason_t reason)
{
int rv;
switch(do_ext_prog(tk, 0)) {
case 0:
/* everything fine */
break;
case RUNCMD_MORE:
/* need to wait for the outcome before starting elections */
/* set next_state appropriately, so that elections are
* started */
set_next_state(tk, ST_LEADER);
return 0;
default:
return RLT_EXT_FAILED;
}
rv = new_election(tk, local, 1, reason);
return rv ? RLT_SYNC_FAIL : 0;
}
/** Try to get the ticket for the local site.
* */
int do_grant_ticket(struct ticket_config *tk, int options)
{
int rv;
tk_log_info("granting ticket");
if (tk->leader == local)
return RLT_SUCCESS;
if (is_owned(tk))
return RLT_OVERGRANT;
set_future_time(&tk->delay_commit, tk->term_duration + tk->acquire_after);
if (options & OPT_IMMEDIATE) {
tk_log_warn("granting ticket immediately! If there are "
"unreachable sites, _hope_ you are sure that they don't "
"have the ticket!");
time_reset(&tk->delay_commit);
}
rv = acquire_ticket(tk, OR_ADMIN);
if (rv) {
time_reset(&tk->delay_commit);
return rv;
} else {
return RLT_MORE;
}
}
static void ignore_extprog(struct ticket_config *tk)
{
if (tk->clu_test.prog && tk->clu_test.pid >= 0 &&
tk->clu_test.progstate == EXTPROG_RUNNING) {
tk->clu_test.progstate = EXTPROG_IGNORE;
(void)kill(tk->clu_test.pid, SIGTERM);
}
}
static void start_revoke_ticket(struct ticket_config *tk)
{
tk_log_info("revoking ticket");
save_committed_tkt(tk);
reset_ticket(tk);
set_leader(tk, no_leader);
ignore_extprog(tk);
ticket_write(tk);
ticket_broadcast(tk, OP_REVOKE, OP_ACK, RLT_SUCCESS, OR_ADMIN);
}
/** Ticket revoke.
* Only to be started from the leader. */
int do_revoke_ticket(struct ticket_config *tk)
{
if (tk->acks_expected) {
tk_log_info("delay ticket revoke until the current operation finishes");
set_next_state(tk, ST_INIT);
return RLT_MORE;
} else {
start_revoke_ticket(tk);
return RLT_SUCCESS;
}
}
int list_ticket(char **pdata, unsigned int *len)
{
struct ticket_config *tk;
char timeout_str[64];
char pending_str[64];
char *data, *cp;
int i, alloc;
time_t ts;
*pdata = NULL;
*len = 0;
alloc = 256 +
booth_conf->ticket_count * (BOOTH_NAME_LEN * 2 + 128);
data = malloc(alloc);
if (!data)
return -ENOMEM;
cp = data;
foreach_ticket(i, tk) {
if (is_time_set(&tk->term_expires)) {
ts = wall_ts(&tk->term_expires);
strftime(timeout_str, sizeof(timeout_str), "%F %T",
localtime(&ts));
} else
strcpy(timeout_str, "INF");
if (tk->leader == local && is_time_set(&tk->delay_commit)
&& !is_past(&tk->delay_commit)) {
ts = wall_ts(&tk->delay_commit);
strcpy(pending_str, " (commit pending until ");
strftime(pending_str + strlen(" (commit pending until "),
sizeof(pending_str) - strlen(" (commit pending until ") - 1,
"%F %T", localtime(&ts));
strcat(pending_str, ")");
} else
*pending_str = '\0';
cp += snprintf(cp,
alloc - (cp - data),
"ticket: %s, leader: %s",
tk->name,
ticket_leader_string(tk));
if (is_owned(tk)) {
cp += snprintf(cp,
alloc - (cp - data),
", expires: %s%s\n",
timeout_str,
pending_str);
} else {
cp += snprintf(cp, alloc - (cp - data), "\n");
}
if (alloc - (cp - data) <= 0)
return -ENOMEM;
}
*pdata = data;
*len = cp - data;
return 0;
}
void disown_ticket(struct ticket_config *tk)
{
set_leader(tk, NULL);
tk->is_granted = 0;
get_time(&tk->term_expires);
}
int disown_if_expired(struct ticket_config *tk)
{
if (is_past(&tk->term_expires) ||
!tk->leader) {
disown_ticket(tk);
return 1;
}
return 0;
}
void reset_ticket(struct ticket_config *tk)
{
disown_ticket(tk);
no_resends(tk);
set_state(tk, ST_INIT);
tk->voted_for = NULL;
}
static void log_reacquire_reason(struct ticket_config *tk)
{
int valid;
const char *where_granted = "\0";
char buff[64];
valid = is_time_set(&tk->term_expires) && !is_past(&tk->term_expires);
if (tk->leader == local) {
where_granted = "granted here";
} else {
snprintf(buff, sizeof(buff), "granted to %s",
site_string(tk->leader));
where_granted = buff;
}
if (!valid) {
tk_log_warn("%s, but not valid "
"anymore (will try to reacquire)", where_granted);
}
if (tk->is_granted && tk->leader != local) {
if (tk->leader && tk->leader != no_leader) {
tk_log_error("granted here, but also %s, "
"that's really too bad (will try to reacquire)",
where_granted);
} else {
tk_log_warn("granted here, but we're "
"not recorded as the grantee (will try to reacquire)");
}
}
}
void update_ticket_state(struct ticket_config *tk, struct booth_site *sender)
{
if (tk->state == ST_CANDIDATE) {
tk_log_info("learned from %s about "
"newer ticket, stopping elections",
site_string(sender));
/* there could be rejects coming from others; don't log
* warnings unnecessarily */
tk->expect_more_rejects = 1;
}
if (tk->leader == local || tk->is_granted) {
/* message from a live leader with valid ticket? */
if (sender == tk->leader && term_time_left(tk)) {
if (tk->is_granted) {
tk_log_warn("ticket was granted here, "
"but it's live at %s (revoking here)",
site_string(sender));
} else {
tk_log_info("ticket live at %s",
site_string(sender));
}
disown_ticket(tk);
ticket_write(tk);
set_state(tk, ST_FOLLOWER);
set_next_state(tk, ST_FOLLOWER);
} else {
if (tk->state == ST_CANDIDATE) {
set_state(tk, ST_FOLLOWER);
}
set_next_state(tk, ST_LEADER);
}
} else {
if (!tk->leader || tk->leader == no_leader) {
if (sender)
tk_log_info("ticket is not granted");
else
tk_log_info("ticket is not granted (from CIB)");
set_state(tk, ST_INIT);
} else {
if (sender)
tk_log_info("ticket granted to %s (says %s)",
site_string(tk->leader),
site_string(sender));
else
tk_log_info("ticket granted to %s (from CIB)",
site_string(tk->leader));
set_state(tk, ST_FOLLOWER);
/* just make sure that we check the ticket soon */
set_next_state(tk, ST_FOLLOWER);
}
}
}
int setup_ticket(void)
{
struct ticket_config *tk;
int i;
foreach_ticket(i, tk) {
reset_ticket(tk);
if (local->type == SITE) {
if (!pcmk_handler.load_ticket(tk)) {
update_ticket_state(tk, NULL);
}
tk->update_cib = 1;
}
tk_log_info("broadcasting state query");
/* wait until all send their status (or the first
* timeout) */
tk->start_postpone = 1;
ticket_broadcast(tk, OP_STATUS, OP_MY_INDEX, RLT_SUCCESS, 0);
}
return 0;
}
int ticket_answer_list(int fd, struct boothc_ticket_msg *msg)
{
char *data;
int olen, rv;
struct boothc_hdr_msg hdr;
rv = list_ticket(&data, &olen);
if (rv < 0)
- return rv;
+ goto out;
init_header(&hdr.header, CL_LIST, 0, 0, RLT_SUCCESS, 0, sizeof(hdr) + olen);
+ rv = send_header_plus(fd, &hdr, data, olen);
- return send_header_plus(fd, &hdr, data, olen);
+out:
+ if (data)
+ free(data);
+ return rv;
}
int process_client_request(struct client *req_client, struct boothc_ticket_msg *msg)
{
int rv, rc = 1;
struct ticket_config *tk;
int cmd;
struct boothc_ticket_msg omsg;
cmd = ntohl(msg->header.cmd);
if (!check_ticket(msg->ticket.id, &tk)) {
log_warn("client referenced unknown ticket %s",
msg->ticket.id);
rv = RLT_INVALID_ARG;
goto reply_now;
}
if ((cmd == CMD_GRANT) && is_owned(tk)) {
log_warn("client wants to grant an (already granted!) ticket %s",
msg->ticket.id);
rv = RLT_OVERGRANT;
goto reply_now;
}
if ((cmd == CMD_REVOKE) && !is_owned(tk)) {
log_info("client wants to revoke a free ticket %s",
msg->ticket.id);
rv = RLT_TICKET_IDLE;
goto reply_now;
}
if ((cmd == CMD_REVOKE) && tk->leader != local) {
log_info("the ticket %s is not granted here, "
"redirect to %s",
msg->ticket.id, ticket_leader_string(tk));
rv = RLT_REDIRECT;
goto reply_now;
}
if (cmd == CMD_REVOKE)
rv = do_revoke_ticket(tk);
else
rv = do_grant_ticket(tk, ntohl(msg->header.options));
if (rv == RLT_MORE) {
/* client may receive further notifications, save the
* request for further processing */
add_req(tk, req_client, msg);
tk_log_debug("queue request %s for client %d",
state_to_string(cmd), req_client->fd);
rc = 0; /* we're not yet done with the message */
}
reply_now:
init_ticket_msg(&omsg, CL_RESULT, 0, rv, 0, tk);
send_client_msg(req_client->fd, &omsg);
return rc;
}
int notify_client(struct ticket_config *tk, int client_fd,
struct boothc_ticket_msg *msg)
{
struct boothc_ticket_msg omsg;
void (*deadfn) (int ci);
int rv, rc, ci;
int cmd, options;
struct client *req_client;
cmd = ntohl(msg->header.cmd);
options = ntohl(msg->header.options);
rv = tk->outcome;
ci = find_client_by_fd(client_fd);
if (ci < 0) {
tk_log_info("client %d (request %s) left before being notified",
client_fd, state_to_string(cmd));
return 0;
}
tk_log_debug("notifying client %d (request %s)",
client_fd, state_to_string(cmd));
init_ticket_msg(&omsg, CL_RESULT, 0, rv, 0, tk);
rc = send_client_msg(client_fd, &omsg);
if (rc == 0 && ((rv == RLT_MORE) ||
(rv == RLT_CIB_PENDING && (options & OPT_WAIT_COMMIT)))) {
/* more to do here, keep the request */
return 1;
} else {
/* we sent a definite answer or there was a write error, drop
* the client */
if (rc) {
tk_log_debug("failed to notify client %d (request %s)",
client_fd, state_to_string(cmd));
} else {
tk_log_debug("client %d (request %s) got final notification",
client_fd, state_to_string(cmd));
}
req_client = clients + ci;
deadfn = req_client->deadfn;
if(deadfn) {
deadfn(ci);
}
return 0; /* we're done with this request */
}
}
int ticket_broadcast(struct ticket_config *tk,
cmd_request_t cmd, cmd_request_t expected_reply,
cmd_result_t res, cmd_reason_t reason)
{
struct boothc_ticket_msg msg;
init_ticket_msg(&msg, cmd, 0, res, reason, tk);
tk_log_debug("broadcasting '%s' (term=%d, valid=%d)",
state_to_string(cmd),
ntohl(msg.ticket.term),
msg_term_time(&msg));
tk->last_request = cmd;
if (expected_reply) {
expect_replies(tk, expected_reply);
}
ticket_activate_timeout(tk);
return transport()->broadcast_auth(&msg, sendmsglen(&msg));
}
/* update the ticket on the leader, write it to the CIB, and
send out the update message to others with the new expiry
time
*/
int leader_update_ticket(struct ticket_config *tk)
{
int rv = 0, rv2;
timetype now;
if (tk->ticket_updated >= 2)
return 0;
if (tk->ticket_updated < 1) {
tk->ticket_updated = 1;
get_time(&now);
copy_time(&now, &tk->last_renewal);
set_future_time(&tk->term_expires, tk->term_duration);
rv = ticket_broadcast(tk, OP_UPDATE, OP_ACK, RLT_SUCCESS, 0);
}
if (tk->ticket_updated < 2) {
rv2 = ticket_write(tk);
switch(rv2) {
case 0:
tk->ticket_updated = 2;
tk->outcome = RLT_SUCCESS;
foreach_tkt_req(tk, notify_client);
break;
case 1:
if (tk->outcome != RLT_CIB_PENDING) {
tk->outcome = RLT_CIB_PENDING;
foreach_tkt_req(tk, notify_client);
}
break;
default:
break;
}
}
return rv;
}
static void log_lost_servers(struct ticket_config *tk)
{
struct booth_site *n;
int i;
if (tk->retry_number > 1)
/* log those that we couldn't reach, but do
* that only on the first retry
*/
return;
for (i = 0; i < booth_conf->site_count; i++) {
n = booth_conf->site + i;
if (!(tk->acks_received & n->bitmask)) {
tk_log_warn("%s %s didn't acknowledge our %s, "
"will retry %d times",
(n->type == ARBITRATOR ? "arbitrator" : "site"),
site_string(n),
state_to_string(tk->last_request),
tk->retries);
}
}
}
static void resend_msg(struct ticket_config *tk)
{
struct booth_site *n;
int i;
if (!(tk->acks_received ^ local->bitmask)) {
ticket_broadcast(tk, tk->last_request, 0, RLT_SUCCESS, 0);
} else {
for (i = 0; i < booth_conf->site_count; i++) {
n = booth_conf->site + i;
if (!(tk->acks_received & n->bitmask)) {
tk_log_debug("resending %s to %s",
state_to_string(tk->last_request),
site_string(n)
);
send_msg(tk->last_request, tk, n, NULL);
}
}
ticket_activate_timeout(tk);
}
}
static void handle_resends(struct ticket_config *tk)
{
int ack_cnt;
if (++tk->retry_number > tk->retries) {
tk_log_debug("giving up on sending retries");
no_resends(tk);
set_ticket_wakeup(tk);
return;
}
/* try to reach some sites again if we just stepped down */
if (tk->last_request == OP_VOTE_FOR) {
tk_log_warn("no answers to our request (try #%d), "
"we are alone",
tk->retry_number);
goto just_resend;
}
if (!majority_of_bits(tk, tk->acks_received)) {
ack_cnt = count_bits(tk->acks_received) - 1;
if (!ack_cnt) {
tk_log_warn("no answers to our request (try #%d), "
"we are alone",
tk->retry_number);
} else {
tk_log_warn("not enough answers to our request (try #%d): "
"only got %d answers",
tk->retry_number,
ack_cnt);
}
} else {
log_lost_servers(tk);
}
just_resend:
resend_msg(tk);
}
int postpone_ticket_processing(struct ticket_config *tk)
{
extern timetype start_time;
return tk->start_postpone &&
(-time_left(&start_time) < tk->timeout);
}
#define has_extprog_exited(tk) ((tk)->clu_test.progstate == EXTPROG_EXITED)
static void process_next_state(struct ticket_config *tk)
{
switch(tk->next_state) {
case ST_LEADER:
log_reacquire_reason(tk);
acquire_ticket(tk, OR_REACQUIRE);
break;
case ST_INIT:
no_resends(tk);
start_revoke_ticket(tk);
tk->outcome = RLT_SUCCESS;
foreach_tkt_req(tk, notify_client);
break;
/* wanting to be follower is not much of an ambition; no
* processing, just return; don't reset start_postpone until
* we got some replies to status */
case ST_FOLLOWER:
return;
default:
break;
}
tk->start_postpone = 0;
}
static void ticket_lost(struct ticket_config *tk)
{
if (tk->leader != local) {
tk_log_warn("lost at %s", site_string(tk->leader));
} else {
tk_log_warn("lost majority (revoking locally)");
}
tk->lost_leader = tk->leader;
save_committed_tkt(tk);
reset_ticket(tk);
set_state(tk, ST_FOLLOWER);
if (local->type == SITE) {
ticket_write(tk);
schedule_election(tk, OR_TKT_LOST);
}
}
static void next_action(struct ticket_config *tk)
{
switch(tk->state) {
case ST_INIT:
/* init state, handle resends for ticket revoke */
/* and rebroadcast if stepping down */
if (tk->acks_expected) {
handle_resends(tk);
}
break;
case ST_FOLLOWER:
/* leader/ticket lost? and we didn't vote yet */
tk_log_debug("leader: %s, voted_for: %s",
site_string(tk->leader),
site_string(tk->voted_for));
if (!tk->leader) {
if (!tk->voted_for || !tk->in_election) {
disown_ticket(tk);
if (!new_election(tk, NULL, 1, OR_AGAIN)) {
ticket_activate_timeout(tk);
}
} else {
/* we should restart elections in case nothing
* happens in the meantime */
tk->in_election = 0;
ticket_activate_timeout(tk);
}
}
break;
case ST_CANDIDATE:
/* elections timed out? */
elections_end(tk);
break;
case ST_LEADER:
/* timeout or ticket renewal? */
if (tk->acks_expected) {
handle_resends(tk);
if (majority_of_bits(tk, tk->acks_received)) {
leader_update_ticket(tk);
}
} else {
/* this is ticket renewal, run local test */
if (!do_ext_prog(tk, 1)) {
ticket_broadcast(tk, OP_HEARTBEAT, OP_ACK, RLT_SUCCESS, 0);
tk->ticket_updated = 0;
}
}
break;
default:
break;
}
}
static void ticket_cron(struct ticket_config *tk)
{
/* don't process the tickets too early after start */
if (postpone_ticket_processing(tk)) {
tk_log_debug("ticket processing postponed (start_postpone=%d)",
tk->start_postpone);
/* but run again soon */
ticket_activate_timeout(tk);
return;
}
/* no need for status resends, we hope we got at least one
* my_index back */
if (tk->acks_expected == OP_MY_INDEX) {
no_resends(tk);
}
/* after startup, we need to decide what to do based on the
* current ticket state; tk->next_state has a hint
* also used for revokes which had to be delayed
*/
if (tk->next_state) {
process_next_state(tk);
goto out;
}
/* Has an owner, has an expiry date, and expiry date in the past?
* Losing the ticket must happen in _every_ state.
*/
if (is_owned(tk) && is_time_set(&tk->term_expires)
&& is_past(&tk->term_expires)) {
ticket_lost(tk);
goto out;
}
next_action(tk);
out:
tk->next_state = 0;
if (!tk->in_election && tk->update_cib)
ticket_write(tk);
}
void process_tickets(void)
{
struct ticket_config *tk;
int i;
timetype last_cron;
foreach_ticket(i, tk) {
if (!has_extprog_exited(tk) &&
is_time_set(&tk->next_cron) && !is_past(&tk->next_cron))
continue;
tk_log_debug("ticket cron");
copy_time(&tk->next_cron, &last_cron);
ticket_cron(tk);
if (time_cmp(&last_cron, &tk->next_cron, ==)) {
tk_log_debug("nobody set ticket wakeup");
set_ticket_wakeup(tk);
}
}
}
void tickets_log_info(void)
{
struct ticket_config *tk;
int i;
time_t ts;
foreach_ticket(i, tk) {
ts = wall_ts(&tk->term_expires);
tk_log_info("state '%s' "
"term %d "
"leader %s "
"expires %-24.24s",
state_to_string(tk->state),
tk->current_term,
ticket_leader_string(tk),
ctime(&ts));
}
}
static void update_acks(
struct ticket_config *tk,
struct booth_site *sender,
struct booth_site *leader,
struct boothc_ticket_msg *msg
)
{
uint32_t cmd;
uint32_t req;
cmd = ntohl(msg->header.cmd);
req = ntohl(msg->header.request);
if (req != tk->last_request ||
(tk->acks_expected != cmd &&
tk->acks_expected != OP_REJECTED))
return;
/* got an ack! */
tk->acks_received |= sender->bitmask;
if (all_replied(tk) ||
/* we just stepped down, need only one site to start
* elections */
(cmd == OP_REQ_VOTE && tk->last_request == OP_VOTE_FOR)) {
no_resends(tk);
tk->start_postpone = 0;
set_ticket_wakeup(tk);
}
}
/* UDP message receiver. */
int message_recv(struct boothc_ticket_msg *msg, int msglen)
{
uint32_t from;
struct booth_site *source;
struct ticket_config *tk;
struct booth_site *leader;
uint32_t leader_u;
from = ntohl(msg->header.from);
if (!find_site_by_id(from, &source) || !source) {
log_error("unknown sender: %08x", from);
return -1;
}
if (check_boothc_header(&msg->header, msglen) < 0) {
log_error("message from %s receive error", site_string(source));
return -1;
}
if (check_auth(source, msg, msglen)) {
log_error("%s failed to authenticate", site_string(source));
return -1;
}
if (!check_ticket(msg->ticket.id, &tk)) {
log_warn("got invalid ticket name %s from %s",
msg->ticket.id, site_string(source));
return -EINVAL;
}
leader_u = ntohl(msg->ticket.leader);
if (!find_site_by_id(leader_u, &leader)) {
tk_log_error("message with unknown leader %u received", leader_u);
return -EINVAL;
}
update_acks(tk, source, leader, msg);
return raft_answer(tk, source, leader, msg);
}
static void log_next_wakeup(struct ticket_config *tk)
{
int left;
left = time_left(&tk->next_cron);
tk_log_debug("set ticket wakeup in " intfmt(left));
}
/* New vote round; §5.2 */
/* delay the next election start for some random time
* (up to 1 second)
*/
void add_random_delay(struct ticket_config *tk)
{
timetype tv;
interval_add(&tk->next_cron, rand_time(min(1000, tk->timeout)), &tv);
ticket_next_cron_at(tk, &tv);
if (ANYDEBUG) {
log_next_wakeup(tk);
}
}
void set_ticket_wakeup(struct ticket_config *tk)
{
timetype near_future, tv, next_vote;
/* At least every hour, perhaps sooner (default) */
ticket_next_cron_in(tk, 3600*TIME_RES);
set_future_time(&near_future, 10);
switch (tk->state) {
case ST_LEADER:
assert(tk->leader == local);
get_next_election_time(tk, &next_vote);
/* If timestamp is in the past, wakeup in
* near future */
if (!is_time_set(&next_vote)) {
tk_log_debug("next ts unset, wakeup soon");
ticket_next_cron_at(tk, &near_future);
} else if (is_past(&next_vote)) {
int tdiff = time_left(&next_vote);
tk_log_debug("next ts in the past " intfmt(tdiff));
ticket_next_cron_at(tk, &near_future);
} else {
ticket_next_cron_at(tk, &next_vote);
}
break;
case ST_CANDIDATE:
assert(is_time_set(&tk->election_end));
ticket_next_cron_at(tk, &tk->election_end);
break;
case ST_INIT:
case ST_FOLLOWER:
/* If there is (or should be) some owner, check on it later on.
* If no one is interested - don't care. */
if (is_owned(tk) &&
(local->type == SITE)) {
interval_add(&tk->term_expires, tk->acquire_after, &tv);
ticket_next_cron_at(tk, &tv);
}
break;
default:
tk_log_error("unknown ticket state: %d", tk->state);
}
if (tk->next_state) {
/* we need to do something soon here */
if (!tk->acks_expected) {
ticket_next_cron_at(tk, &near_future);
} else {
ticket_activate_timeout(tk);
}
}
if (ANYDEBUG) {
log_next_wakeup(tk);
}
}
void schedule_election(struct ticket_config *tk, cmd_reason_t reason)
{
if (local->type != SITE)
return;
tk->election_reason = reason;
get_time(&tk->next_cron);
/* introduce a short delay before starting election */
add_random_delay(tk);
}
/* Given a state (in host byte order), return a human-readable (char*).
* An array is used so that multiple states can be printed in a single printf(). */
char *state_to_string(uint32_t state_ho)
{
union mu { cmd_request_t s; char c[5]; };
static union mu cache[6] = { { 0 } }, *cur;
static int current = 0;
current ++;
if (current >= sizeof(cache)/sizeof(cache[0]))
current = 0;
cur = cache + current;
cur->s = htonl(state_ho);
/* Shouldn't be necessary, union array is initialized with zeroes, and
* these bytes never get written. */
cur->c[4] = 0;
return cur->c;
}
int send_reject(struct booth_site *dest, struct ticket_config *tk,
cmd_result_t code, struct boothc_ticket_msg *in_msg)
{
int req = ntohl(in_msg->header.cmd);
struct boothc_ticket_msg msg;
tk_log_debug("sending reject to %s",
site_string(dest));
init_ticket_msg(&msg, OP_REJECTED, req, code, 0, tk);
return booth_udp_send_auth(dest, &msg, sendmsglen(&msg));
}
int send_msg (
int cmd,
struct ticket_config *current_tk,
struct booth_site *dest,
struct boothc_ticket_msg *in_msg
)
{
int req = 0;
struct ticket_config *tk = current_tk;
struct boothc_ticket_msg msg;
if (cmd == OP_MY_INDEX) {
if (current_tk->state == ST_CANDIDATE &&
current_tk->last_valid_tk->current_term) {
tk = current_tk->last_valid_tk;
}
tk_log_info("sending status to %s",
site_string(dest));
}
if (in_msg)
req = ntohl(in_msg->header.cmd);
init_ticket_msg(&msg, cmd, req, RLT_SUCCESS, 0, tk);
return booth_udp_send_auth(dest, &msg, sendmsglen(&msg));
}

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