diff --git a/src/attr.c b/src/attr.c index daa7648..086dc98 100644 --- a/src/attr.c +++ b/src/attr.c @@ -1,475 +1,475 @@ /* * Copyright (C) 2015 Dejan Muhamedagic * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include "attr.h" #include "booth.h" #include "ticket.h" #include "pacemaker.h" void print_geostore_usage(void) { printf( "Usage:\n" " geostore {list|set|get|delete} [-t ticket] [options] attr [value]\n" "\n" " list: List all attributes\n" " set: Set attribute to a value\n" " get: Get attribute's value\n" " delete: Delete attribute\n" "\n" " -t Ticket where attribute resides\n" " (required, if more than one ticket is configured)\n" "\n" "Options:\n" " -c FILE Specify config file [default " BOOTH_DEFAULT_CONF "]\n" " Can be a path or just a name without \".conf\" suffix\n" " -s Connect to a different site\n" " -h Print this help\n" "\n" "Examples:\n" "\n" " # geostore list -t ticket-A -s 10.121.8.183\n" " # geostore set -s 10.121.8.183 sr_status ACTIVE\n" " # geostore get -t ticket-A -s 10.121.8.183 sr_status\n" " # geostore delete -s 10.121.8.183 sr_status\n" "\n" "See the geostore(8) man page for more details.\n" ); } /* * the client side */ /* cl has all the input parameters: * ticket, attr name, attr value */ int test_attr_reply(cmd_result_t reply_code, cmd_request_t cmd) { int rv = 0; const char *op_str = NULL; switch (cmd) { case ATTR_SET: op_str = "set"; break; case ATTR_GET: op_str = "get"; break; case ATTR_LIST: op_str = "list"; break; case ATTR_DEL: op_str = "delete"; break; default: log_error("internal error reading reply result!"); return -1; } switch (reply_code) { case RLT_ASYNC: log_info("%s command sent, result will be returned " "asynchronously.", op_str); rv = 0; break; case RLT_SYNC_SUCC: case RLT_SUCCESS: if (cmd == ATTR_SET) log_info("%s succeeded!", op_str); rv = 0; break; case RLT_SYNC_FAIL: log_info("%s failed!", op_str); rv = -1; break; case RLT_INVALID_ARG: log_error("ticket \"%s\" does not exist", cl.attr_msg.attr.tkt_id); rv = 1; break; case RLT_NO_SUCH_ATTR: log_error("attribute \"%s\" not set", cl.attr_msg.attr.name); rv = 1; break; case RLT_AUTH: log_error("authentication error"); rv = -1; break; default: log_error("got an error code: %x", rv); rv = -1; } return rv; } /* read the server's reply * need to first get the header which contains the length of the * reply * return codes: * -2: header not received * -1: header received, but message too short * >=0: success */ static int read_server_reply( struct booth_transport const *tpt, struct booth_site *site, char *msg) { struct boothc_header *header; int rv; int len; header = (struct boothc_header *)msg; rv = tpt->recv(site, header, sizeof(*header)); if (rv < 0) { return -2; } len = ntohl(header->length); rv = tpt->recv(site, msg+sizeof(*header), len-sizeof(*header)); if (rv < 0) { return -1; } return rv; } -int do_attr_command(cmd_request_t cmd) +int do_attr_command(struct booth_config *conf, cmd_request_t cmd) { struct booth_site *site = NULL; struct boothc_header *header; struct booth_transport const *tpt = NULL; int len, rv = -1; char *msg = NULL; if (!*cl.site) site = local; else { - if (!find_site_by_name(cl.site, &site, 1)) { + if (!find_site_by_name(conf, cl.site, &site, 1)) { log_error("Site \"%s\" not configured.", cl.site); goto out_close; } } if (site->type == ARBITRATOR) { if (site == local) { log_error("We're just an arbitrator, no attributes here."); } else { log_error("%s is just an arbitrator, no attributes there.", cl.site); } goto out_close; } tpt = booth_transport + TCP; init_header(&cl.attr_msg.header, cmd, 0, cl.options, 0, 0, sizeof(cl.attr_msg)); rv = tpt->open(site); if (rv < 0) goto out_close; rv = tpt->send(site, &cl.attr_msg, sendmsglen(&cl.attr_msg)); if (rv < 0) goto out_close; msg = malloc(MAX_MSG_LEN); if (!msg) { log_error("out of memory"); rv = -1; goto out_close; } rv = read_server_reply(tpt, site, msg); header = (struct boothc_header *)msg; if (rv < 0) { if (rv == -1) (void)test_attr_reply(ntohl(header->result), cmd); goto out_close; } len = ntohl(header->length); if (check_boothc_header(header, len) < 0) { log_error("message from %s receive error", site_string(site)); rv = -1; goto out_close; } if (check_auth(site, msg, len)) { log_error("%s failed to authenticate", site_string(site)); rv = -1; goto out_close; } rv = test_attr_reply(ntohl(header->result), cmd); out_close: if (tpt && site) tpt->close(site); if (msg) free(msg); return rv; } /* * the server side */ /* need to invert gboolean, our success is 0 */ #define gbool2rlt(i) (i ? RLT_SUCCESS : RLT_SYNC_FAIL) static void free_geo_attr(gpointer data) { struct geo_attr *a = (struct geo_attr *)data; if (!a) return; g_free(a->val); g_free(a); } int store_geo_attr(struct ticket_config *tk, const char *name, const char *val, int notime) { struct geo_attr *a; GDestroyNotify free_geo_attr_notify = free_geo_attr; if (!tk) return -1; /* * allocate new, if attr doesn't already exist * copy the attribute value * send status */ if (!tk->attr) tk->attr = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, free_geo_attr_notify); if (!tk->attr) { log_error("out of memory"); return -1; } if (strnlen(name, BOOTH_NAME_LEN) == BOOTH_NAME_LEN) tk_log_warn("name of the attribute too long (%d+ bytes), skipped", BOOTH_NAME_LEN); else if (strnlen(val, BOOTH_ATTRVAL_LEN) == BOOTH_ATTRVAL_LEN) tk_log_warn("value of the attribute too long (%d+ bytes), skipped", BOOTH_ATTRVAL_LEN); else { a = (struct geo_attr *)calloc(1, sizeof(struct geo_attr)); if (!a) { log_error("out of memory"); return -1; } a->val = g_strdup(val); if (!notime) get_time(&a->update_ts); g_hash_table_insert(tk->attr, g_strdup(name), a); } return 0; } static cmd_result_t attr_set(struct ticket_config *tk, struct boothc_attr_msg *msg) { int rc; rc = store_geo_attr(tk, msg->attr.name, msg->attr.val, 0); if (rc) { return RLT_SYNC_FAIL; } (void)pcmk_handler.set_attr(tk, msg->attr.name, msg->attr.val); return RLT_SUCCESS; } static cmd_result_t attr_del(struct ticket_config *tk, struct boothc_attr_msg *msg) { gboolean rv; gpointer orig_key, value; /* * lookup attr * deallocate, if found * send status */ if (!tk->attr) return RLT_NO_SUCH_ATTR; rv = g_hash_table_lookup_extended(tk->attr, msg->attr.name, &orig_key, &value); if (!rv) return RLT_NO_SUCH_ATTR; rv = g_hash_table_remove(tk->attr, msg->attr.name); (void)pcmk_handler.del_attr(tk, msg->attr.name); return gbool2rlt(rv); } static void append_attr(gpointer key, gpointer value, gpointer user_data) { char *attr_name = (char *)key; struct geo_attr *a = (struct geo_attr *)value; GString *data = (GString *)user_data; char time_str[64]; time_t ts; if (is_time_set(&a->update_ts)) { ts = wall_ts(&a->update_ts); strftime(time_str, sizeof(time_str), "%F %T", localtime(&ts)); } else { time_str[0] = '\0'; } g_string_append_printf(data, "%s %s %s\n", attr_name, a->val, time_str); } static cmd_result_t attr_get(struct ticket_config *tk, int fd, struct boothc_attr_msg *msg) { cmd_result_t rv = RLT_SUCCESS; struct boothc_hdr_msg hdr; struct geo_attr *a; GString *attr_val; /* * lookup attr * send value */ if (!tk->attr) return RLT_NO_SUCH_ATTR; a = (struct geo_attr *)g_hash_table_lookup(tk->attr, msg->attr.name); if (!a) return RLT_NO_SUCH_ATTR; attr_val = g_string_new(NULL); if (!attr_val) { log_error("out of memory"); return RLT_SYNC_FAIL; } g_string_printf(attr_val, "%s\n", a->val); init_header(&hdr.header, ATTR_GET, 0, 0, RLT_SUCCESS, 0, sizeof(hdr) + attr_val->len); if (send_header_plus(fd, &hdr, attr_val->str, attr_val->len)) rv = RLT_SYNC_FAIL; if (attr_val) g_string_free(attr_val, TRUE); return rv; } static cmd_result_t attr_list(struct ticket_config *tk, int fd, struct boothc_attr_msg *msg) { GString *data; cmd_result_t rv; struct boothc_hdr_msg hdr; /* * list all attributes for the ticket * send the list */ data = g_string_sized_new(512); if (!data) { log_error("out of memory"); return RLT_SYNC_FAIL; } if (tk->attr) { g_hash_table_foreach(tk->attr, append_attr, data); } init_header(&hdr.header, ATTR_LIST, 0, 0, RLT_SUCCESS, 0, sizeof(hdr) + data->len); rv = send_header_plus(fd, &hdr, data->str, data->len); if (data) g_string_free(data, TRUE); return rv; } int process_attr_request(struct client *req_client, void *buf) { cmd_result_t rv = RLT_SYNC_FAIL; struct ticket_config *tk; int cmd; struct boothc_attr_msg *msg; struct boothc_hdr_msg hdr; msg = (struct boothc_attr_msg *)buf; cmd = ntohl(msg->header.cmd); if (!check_ticket(msg->attr.tkt_id, &tk)) { log_warn("client referenced unknown ticket %s", msg->attr.tkt_id); rv = RLT_INVALID_ARG; goto reply_now; } switch (cmd) { case ATTR_LIST: rv = attr_list(tk, req_client->fd, msg); if (rv) goto reply_now; return 1; case ATTR_GET: rv = attr_get(tk, req_client->fd, msg); if (rv) goto reply_now; return 1; case ATTR_SET: rv = attr_set(tk, msg); break; case ATTR_DEL: rv = attr_del(tk, msg); break; } reply_now: init_header(&hdr.header, CL_RESULT, 0, 0, rv, 0, sizeof(hdr)); send_header_plus(req_client->fd, &hdr, NULL, 0); return 1; } /* read attr message from another site */ /* this is a NOOP and it should never be invoked * only clients retrieve/manage attributes and they connect * directly to the target site */ int attr_recv(void *buf, struct booth_site *source) { struct boothc_attr_msg *msg; struct ticket_config *tk; msg = (struct boothc_attr_msg *)buf; log_warn("unexpected attribute message from %s", site_string(source)); if (!check_ticket(msg->attr.tkt_id, &tk)) { log_warn("got invalid ticket name %s from %s", msg->attr.tkt_id, site_string(source)); source->invalid_cnt++; return -1; } return 0; } diff --git a/src/attr.h b/src/attr.h index 1c680bd..547d19a 100644 --- a/src/attr.h +++ b/src/attr.h @@ -1,39 +1,50 @@ /* * Copyright (C) 2015 Dejan Muhamedagic * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _ATTR_H #define _ATTR_H #define ATTR_PROG "geostore" #include "b_config.h" #include "log.h" #include #include #include "booth.h" #include "timer.h" #include void print_geostore_usage(void); int test_attr_reply(cmd_result_t reply_code, cmd_request_t cmd); -int do_attr_command(cmd_request_t cmd); + +/** + * @internal + * Carry out a geo-atribute related command + * + * @param[in,out] conf config object to refer to + * @param[in] cmd what to perform + * + * @return 0 or negative value (-1 or -errno) on error + */ +int do_attr_command(struct booth_config *conf, cmd_request_t cmd); + int process_attr_request(struct client *req_client, void *buf); int attr_recv(void *buf, struct booth_site *source); int store_geo_attr(struct ticket_config *tk, const char *name, const char *val, int notime); #endif /* _ATTR_H */ diff --git a/src/booth.h b/src/booth.h index 0cd43c0..799cdf9 100644 --- a/src/booth.h +++ b/src/booth.h @@ -1,386 +1,390 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _BOOTH_H #define _BOOTH_H #include #include #include #include #include #include #include #include "timer.h" #define BOOTH_RUN_DIR "/var/run/booth/" #define BOOTH_LOG_DIR "/var/log" #define BOOTH_LOGFILE_NAME "booth.log" #define BOOTH_DEFAULT_CONF_DIR "/etc/booth/" #define BOOTH_DEFAULT_CONF_NAME "booth" #define BOOTH_DEFAULT_CONF_EXT ".conf" #define BOOTH_DEFAULT_CONF \ BOOTH_DEFAULT_CONF_DIR BOOTH_DEFAULT_CONF_NAME BOOTH_DEFAULT_CONF_EXT #define DAEMON_NAME "boothd" #define BOOTH_PATH_LEN PATH_MAX #define BOOTH_MAX_KEY_LEN 64 #define BOOTH_MIN_KEY_LEN 8 /* hash size is 160 bits (sha1), but add a bit more space in case * stronger hashes are required */ #define BOOTH_MAC_SIZE 24 /* tolerate packets which are not older than 10 minutes */ #define BOOTH_DEFAULT_MAX_TIME_SKEW 600 #define BOOTH_DEFAULT_PORT 9929 #define BOOTHC_MAGIC 0x5F1BA08C #define BOOTHC_VERSION 0x00010003 /** Timeout value for poll(). * Determines frequency of periodic jobs, eg. when send-retries are done. * See process_tickets(). */ #define POLL_TIMEOUT 100 /** @{ */ /** The on-network data structures and constants. */ #define BOOTH_NAME_LEN 64 #define BOOTH_ATTRVAL_LEN 128 #define CHAR2CONST(a,b,c,d) ((a << 24) | (b << 16) | (c << 8) | d) /* Says that the ticket shouldn't be active anywhere. * NONE wouldn't be specific enough. */ #define NO_ONE ((uint32_t)-1) /* Says that another one should recover. */ #define TICKET_LOST CHAR2CONST('L', 'O', 'S', 'T') +struct booth_config; + +typedef void (*workfn_t)(struct booth_config *conf, int ci); + typedef char boothc_site[BOOTH_NAME_LEN]; typedef char boothc_ticket[BOOTH_NAME_LEN]; typedef char boothc_attr[BOOTH_NAME_LEN]; typedef char boothc_attr_value[BOOTH_ATTRVAL_LEN]; /* message option bits */ enum { BOOTH_OPT_AUTH = 1, /* authentication */ BOOTH_OPT_ATTR = 4, /* attr message type, otherwise ticket */ }; struct boothc_header { /** Various options, message type, authentication */ uint32_t opts; /** Generation info (used for authentication) * This is something that would need to be monotone * incremental. CLOCK_MONOTONIC should fit the purpose. On * failover, however, it may happen that the new host has a * clock which is significantly behind the clock of old host. * We'll need to relax a bit for the nodes which are starting * (just accept all OP_STATUS). */ uint32_t secs; /* seconds */ uint32_t usecs; /* microseconds */ /** BOOTHC_MAGIC */ uint32_t magic; /** BOOTHC_VERSION */ uint32_t version; /** Packet source; site_id. See add_site(). */ uint32_t from; /** Length including header */ uint32_t length; /** The command respectively protocol state. See cmd_request_t. */ uint32_t cmd; /** The matching request (what do we reply to). See cmd_request_t. */ uint32_t request; /** Command options. */ uint32_t options; /** The reason for this RPC. */ uint32_t reason; /** Result of operation. 0 == OK */ uint32_t result; char data[0]; } __attribute__((packed)); struct ticket_msg { /** Ticket name. */ boothc_ticket id; /** Current leader. May be NO_ONE. See add_site(). * For a OP_REQ_VOTE this is */ uint32_t leader; /** Current term. */ uint32_t term; uint32_t term_valid_for; /* Perhaps we need to send a status along, too - like * starting, running, stopping, error, ...? */ } __attribute__((packed)); struct attr_msg { /** Ticket name. */ boothc_ticket tkt_id; /** Attribute name. */ boothc_attr name; /** The value. */ boothc_attr_value val; } __attribute__((packed)); /* GEO attributes * attributes should be regularly updated. */ struct geo_attr { /** Update timestamp. */ timetype update_ts; /** The value. */ char *val; /** Who set it (currently unused) struct booth_site *origin; */ }; struct hmac { /** hash id, currently set to constant BOOTH_HASH */ uint32_t hid; /** the calculated hash, BOOTH_MAC_SIZE is big enough to * accommodate the hash of type hid */ unsigned char hash[BOOTH_MAC_SIZE]; } __attribute__((packed)); struct boothc_hdr_msg { struct boothc_header header; struct hmac hmac; } __attribute__((packed)); struct boothc_ticket_msg { struct boothc_header header; struct ticket_msg ticket; struct hmac hmac; } __attribute__((packed)); struct boothc_attr_msg { struct boothc_header header; struct attr_msg attr; struct hmac hmac; } __attribute__((packed)); typedef enum { /* 0x43 = "C"ommands */ CMD_LIST = CHAR2CONST('C', 'L', 's', 't'), CMD_GRANT = CHAR2CONST('C', 'G', 'n', 't'), CMD_REVOKE = CHAR2CONST('C', 'R', 'v', 'k'), CMD_PEERS = CHAR2CONST('P', 'e', 'e', 'r'), /* Replies */ CL_RESULT = CHAR2CONST('R', 's', 'l', 't'), CL_LIST = CHAR2CONST('R', 'L', 's', 't'), CL_GRANT = CHAR2CONST('R', 'G', 'n', 't'), CL_REVOKE = CHAR2CONST('R', 'R', 'v', 'k'), /* get status from another server */ OP_STATUS = CHAR2CONST('S', 't', 'a', 't'), OP_MY_INDEX = CHAR2CONST('M', 'I', 'd', 'x'), /* reply to status */ /* Raft */ OP_REQ_VOTE = CHAR2CONST('R', 'V', 'o', 't'), /* start election */ OP_VOTE_FOR = CHAR2CONST('V', 't', 'F', 'r'), /* reply to REQ_VOTE */ OP_HEARTBEAT= CHAR2CONST('H', 'r', 't', 'B'), /* Heartbeat */ OP_ACK = CHAR2CONST('A', 'c', 'k', '.'), /* Ack for heartbeats and revokes */ OP_UPDATE = CHAR2CONST('U', 'p', 'd', 'E'), /* Update ticket */ OP_REVOKE = CHAR2CONST('R', 'e', 'v', 'k'), /* Revoke ticket */ OP_REJECTED = CHAR2CONST('R', 'J', 'C', '!'), /* Attributes */ ATTR_SET = CHAR2CONST('A', 'S', 'e', 't'), ATTR_GET = CHAR2CONST('A', 'G', 'e', 't'), ATTR_DEL = CHAR2CONST('A', 'D', 'e', 'l'), ATTR_LIST = CHAR2CONST('A', 'L', 's', 't'), } cmd_request_t; typedef enum { /* for compatibility with other functions */ RLT_SUCCESS = 0, RLT_ASYNC = CHAR2CONST('A', 's', 'y', 'n'), RLT_MORE = CHAR2CONST('M', 'o', 'r', 'e'), RLT_SYNC_SUCC = CHAR2CONST('S', 'c', 'c', 's'), RLT_SYNC_FAIL = CHAR2CONST('F', 'a', 'i', 'l'), RLT_INVALID_ARG = CHAR2CONST('I', 'A', 'r', 'g'), RLT_NO_SUCH_ATTR = CHAR2CONST('N', 'A', 't', 'r'), RLT_CIB_PENDING = CHAR2CONST('P', 'e', 'n', 'd'), RLT_EXT_FAILED = CHAR2CONST('X', 'P', 'r', 'g'), RLT_ATTR_PREREQ = CHAR2CONST('A', 'P', 'r', 'q'), RLT_TICKET_IDLE = CHAR2CONST('T', 'i', 'd', 'l'), RLT_OVERGRANT = CHAR2CONST('O', 'v', 'e', 'r'), RLT_PROBABLY_SUCCESS = CHAR2CONST('S', 'u', 'c', '?'), RLT_BUSY = CHAR2CONST('B', 'u', 's', 'y'), RLT_AUTH = CHAR2CONST('A', 'u', 't', 'h'), RLT_TERM_OUTDATED = CHAR2CONST('T', 'O', 'd', 't'), RLT_TERM_STILL_VALID = CHAR2CONST('T', 'V', 'l', 'd'), RLT_YOU_OUTDATED = CHAR2CONST('O', 'u', 't', 'd'), RLT_REDIRECT = CHAR2CONST('R', 'e', 'd', 'r'), } cmd_result_t; typedef enum { /* for compatibility with other functions */ OR_JUST_SO = 0, OR_AGAIN = CHAR2CONST('A', 'a', 'a', 'a'), OR_TKT_LOST = CHAR2CONST('T', 'L', 's', 't'), OR_REACQUIRE = CHAR2CONST('R', 'a', 'c', 'q'), OR_ADMIN = CHAR2CONST('A', 'd', 'm', 'n'), OR_LOCAL_FAIL = CHAR2CONST('L', 'o', 'c', 'F'), OR_STEPDOWN = CHAR2CONST('S', 'p', 'd', 'n'), OR_SPLIT = CHAR2CONST('S', 'p', 'l', 't'), } cmd_reason_t; /* bitwise command options */ typedef enum { OPT_IMMEDIATE = 1, /* immediate grant */ OPT_WAIT = 2, /* wait for the elections' outcome */ OPT_WAIT_COMMIT = 4, /* wait for the ticket commit to CIB */ } cmd_options_t; /** @} */ /** @{ */ struct booth_site { /** Calculated ID. See add_site(). */ int site_id; int type; int local; /** Roles, like ACCEPTOR, PROPOSER, or LEARNER. Not really used ATM. */ int role; boothc_site addr_string; int tcp_fd; int udp_fd; /* 0-based, used for indexing into per-ticket weights. * -1 for no_leader. */ int index; uint64_t bitmask; unsigned short family; union { struct sockaddr_in sa4; struct sockaddr_in6 sa6; }; int saddrlen; int addrlen; /** statistics */ time_t last_recv; unsigned int sent_cnt; unsigned int sent_err_cnt; unsigned int resend_cnt; unsigned int recv_cnt; unsigned int recv_err_cnt; unsigned int sec_cnt; unsigned int invalid_cnt; /** last timestamp seen from this site */ uint32_t last_secs; uint32_t last_usecs; }; extern struct booth_site *local; extern struct booth_site *const no_leader; /** @} */ struct booth_transport; struct client { int fd; const struct booth_transport *transport; struct boothc_ticket_msg *msg; int offset; /* bytes read so far into msg */ - void (*workfn)(int); + workfn_t workfn; void (*deadfn)(int); }; extern struct client *clients; extern struct pollfd *pollfds; int client_add(int fd, const struct booth_transport *tpt, - void (*workfn)(int ci), void (*deadfn)(int ci)); + workfn_t workfn, void (*deadfn)(int ci)); int find_client_by_fd(int fd); void safe_copy(char *dest, char *value, size_t buflen, const char *description); int update_authkey(void); void list_peers(int fd); struct command_line { int type; /* ACT_ */ int op; /* OP_ */ int options; /* OPT_ */ char configfile[BOOTH_PATH_LEN]; char lockfile[BOOTH_PATH_LEN]; char site[BOOTH_NAME_LEN]; struct boothc_ticket_msg msg; struct boothc_attr_msg attr_msg; }; extern struct command_line cl; /* http://gcc.gnu.org/onlinedocs/gcc/Typeof.html */ #define min(a__,b__) \ ({ typeof (a__) _a = (a__); \ typeof (b__) _b = (b__); \ _a < _b ? _a : _b; }) #define max(a__,b__) \ ({ typeof (a__) _a = (a__); \ typeof (b__) _b = (b__); \ _a > _b ? _a : _b; }) #endif /* _BOOTH_H */ diff --git a/src/config.c b/src/config.c index 0dcffdc..4eafc35 100644 --- a/src/config.c +++ b/src/config.c @@ -1,1073 +1,1079 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "b_config.h" #include #include #include #include #include #include #include #include #include #include #include #include "booth.h" #include "config.h" #include "raft.h" #include "ticket.h" #include "log.h" static int ticket_size = 0; static int ticket_realloc(struct booth_config *conf) { const int added = 5; int had, want; void *p; assert(conf != NULL); had = conf->ticket_allocated; want = had + added; p = realloc(conf->ticket, sizeof(struct ticket_config) * want); if (!p) { log_error("can't alloc more tickets"); return -ENOMEM; } conf->ticket = p; memset(conf->ticket + had, 0, sizeof(struct ticket_config) * added); conf->ticket_allocated = want; return 0; } static void hostname_to_ip(char * hostname) { struct addrinfo hints; struct addrinfo *result, *rp; int res; int addr_found = 0; const char *ntop_res; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; res = getaddrinfo(hostname, NULL, &hints, &result); if (res != 0) { log_error("can't find IP for the host \"%s\"", hostname); return; } /* Return the first found AF_INET or AF_INET6 address */ for (rp = result; rp && !addr_found; rp = rp->ai_next) { if (rp->ai_family != AF_INET && rp->ai_family != AF_INET6) { continue ; } switch (rp->ai_family) { case AF_INET: ntop_res = inet_ntop(rp->ai_family, &((struct sockaddr_in *)(rp->ai_addr))->sin_addr, hostname, BOOTH_NAME_LEN - 1); break; case AF_INET6: ntop_res = inet_ntop(rp->ai_family, &((struct sockaddr_in6 *)(rp->ai_addr))->sin6_addr, hostname, BOOTH_NAME_LEN - 1); break; } if (ntop_res) { /* buffer overflow will not happen (IPv6 notation < 63 chars), but suppress the warnings */ hostname[BOOTH_NAME_LEN - 1] = '\0'; addr_found = 1; } } if (!addr_found) { log_error("no IP addresses found for the host \"%s\"", hostname); } freeaddrinfo(result); } static int add_site(struct booth_config *conf, char *addr_string, int type) { int rv; struct booth_site *site; uLong nid; uint32_t mask; int i; assert(conf != NULL); rv = 1; if (conf->site_count == MAX_NODES) { log_error("too many nodes"); goto out; } if (strnlen(addr_string, sizeof(conf->site[0].addr_string)) >= sizeof(conf->site[0].addr_string)) { log_error("site address \"%s\" too long", addr_string); goto out; } site = conf->site + conf->site_count; site->family = AF_INET; site->type = type; /* buffer overflow will not hapen (we've already checked that addr_string will fit incl. terminating '\0' above), but suppress the warnings with copying everything but the boundary byte, which is valid as-is, since this last byte will be safely pre-zeroed from the struct booth_config initialization */ strncpy(site->addr_string, addr_string, sizeof(site->addr_string) - 1); if (!(inet_pton(AF_INET, site->addr_string, &site->sa4.sin_addr) > 0) && !(inet_pton(AF_INET6, site->addr_string, &site->sa6.sin6_addr) > 0)) { /* Not a valid address, so let us try to convert it into an IP address */ hostname_to_ip(site->addr_string); } site->index = conf->site_count; site->bitmask = 1 << conf->site_count; /* Catch site overflow */ assert(site->bitmask); conf->all_bits |= site->bitmask; if (type == SITE) { conf->sites_bits |= site->bitmask; } site->tcp_fd = -1; conf->site_count++; rv = 0; memset(&site->sa6, 0, sizeof(site->sa6)); nid = crc32(0L, NULL, 0); /* Using the ASCII representation in site->addr_string (both sizeof() * and strlen()) gives quite a lot of collisions; a brute-force run * from 0.0.0.0 to 24.0.0.0 gives ~4% collisions, and this tends to * increase even more. * Whether there'll be a collision in real-life, with 3 or 5 nodes, is * another question ... but for now get the ID from the binary * representation - that had *no* collisions up to 32.0.0.0. * Note that POSIX mandates inet_pton to arange the address pointed * to by "dst" in network byte order, assuring little/big-endianess * mutual compatibility. */ if (inet_pton(AF_INET, site->addr_string, &site->sa4.sin_addr) > 0) { site->family = AF_INET; site->sa4.sin_family = site->family; site->sa4.sin_port = htons(conf->port); site->saddrlen = sizeof(site->sa4); site->addrlen = sizeof(site->sa4.sin_addr); site->site_id = crc32(nid, (void*)&site->sa4.sin_addr, site->addrlen); } else if (inet_pton(AF_INET6, site->addr_string, &site->sa6.sin6_addr) > 0) { site->family = AF_INET6; site->sa6.sin6_family = site->family; site->sa6.sin6_flowinfo = 0; site->sa6.sin6_port = htons(conf->port); site->saddrlen = sizeof(site->sa6); site->addrlen = sizeof(site->sa6.sin6_addr); site->site_id = crc32(nid, (void*)&site->sa6.sin6_addr, site->addrlen); } else { log_error("Address string \"%s\" is bad", site->addr_string); rv = EINVAL; } /* Make sure we will never collide with NO_ONE, * or be negative (to get "get_local_id() < 0" working). */ mask = 1 << (sizeof(site->site_id)*8 -1); assert(NO_ONE & mask); site->site_id &= ~mask; /* Test for collisions with other sites */ for (i = 0; i < site->index; i++) { if (conf->site[i].site_id == site->site_id) { log_error("Got a site-ID collision. Please file a bug on https://github.com/ClusterLabs/booth/issues/new, attaching the configuration file."); exit(1); } } out: return rv; } inline static char *skip_while_in(const char *cp, int (*fn)(int), const char *allowed) { /* strchr() returns a pointer to the terminator if *cp == 0. */ while (*cp && (fn(*cp) || strchr(allowed, *cp))) cp++; /* discard "const" qualifier */ return (char*)cp; } inline static char *skip_while(char *cp, int (*fn)(int)) { while (fn(*cp)) cp++; return cp; } inline static char *skip_until(char *cp, char expected) { while (*cp && *cp != expected) cp++; return cp; } static inline int is_end_of_line(char *cp) { char c = *cp; return c == '\n' || c == 0 || c == '#'; } static int add_ticket(struct booth_config *conf, const char *name, struct ticket_config **tkp, const struct ticket_config *def) { int rv; struct ticket_config *tk; assert(conf != NULL); if (conf->ticket_count == conf->ticket_allocated) { rv = ticket_realloc(conf); if (rv < 0) { return rv; } } tk = conf->ticket + conf->ticket_count; conf->ticket_count++; if (!check_max_len_valid(name, sizeof(tk->name))) { log_error("ticket name \"%s\" too long.", name); return -EINVAL; } if (find_ticket_by_name(name, NULL)) { log_error("ticket name \"%s\" used again.", name); return -EINVAL; } if (* skip_while_in(name, isalnum, "-/")) { log_error("ticket name \"%s\" invalid; only alphanumeric names.", name); return -EINVAL; } strcpy(tk->name, name); tk->timeout = def->timeout; tk->term_duration = def->term_duration; tk->retries = def->retries; memcpy(tk->weight, def->weight, sizeof(tk->weight)); tk->mode = def->mode; if (tkp) *tkp = tk; return 0; } static int postproc_ticket(struct ticket_config *tk) { if (!tk) return 1; if (!tk->renewal_freq) { tk->renewal_freq = tk->term_duration/2; } if (tk->timeout*(tk->retries+1) >= tk->renewal_freq) { log_error("%s: total amount of time to " "retry sending packets cannot exceed " "renewal frequency " "(%d*(%d+1) >= %d)", tk->name, tk->timeout, tk->retries, tk->renewal_freq); return 0; } return 1; } /* returns number of weights, or -1 on bad input. */ static int parse_weights(const char *input, int weights[MAX_NODES]) { int i, v; char *cp; for(i=0; i= MAX_ARGS) { log_error("too many arguments for the acquire-handler"); free(tk_test.path); return -1; } tk_test.argv[i++] = p; } while (p); return 0; } struct toktab grant_type[] = { { "auto", GRANT_AUTO}, { "manual", GRANT_MANUAL}, { NULL, 0}, }; struct toktab attr_op[] = { {"eq", ATTR_OP_EQ}, {"ne", ATTR_OP_NE}, {NULL, 0}, }; static int lookup_tokval(char *key, struct toktab *tab) { struct toktab *tp; for (tp = tab; tp->str; tp++) { if (!strcmp(tp->str, key)) return tp->val; } return 0; } /* attribute prerequisite */ static int parse_attr_prereq(char *val, struct ticket_config *tk) { struct attr_prereq *ap = NULL; char *p; ap = (struct attr_prereq *)calloc(1, sizeof(struct attr_prereq)); if (!ap) { log_error("out of memory"); return -1; } p = strtok(val, " \t"); if (!p) { log_error("not enough arguments to attr-prereq"); goto err_out; } ap->grant_type = lookup_tokval(p, grant_type); if (!ap->grant_type) { log_error("%s is not a grant type", p); goto err_out; } p = strtok(NULL, " \t"); if (!p) { log_error("not enough arguments to attr-prereq"); goto err_out; } if (!(ap->attr_name = strdup(p))) { log_error("out of memory"); goto err_out; } p = strtok(NULL, " \t"); if (!p) { log_error("not enough arguments to attr-prereq"); goto err_out; } ap->op = lookup_tokval(p, attr_op); if (!ap->op) { log_error("%s is not an attribute operation", p); goto err_out; } p = strtok(NULL, " \t"); if (!p) { log_error("not enough arguments to attr-prereq"); goto err_out; } if (!(ap->attr_val = strdup(p))) { log_error("out of memory"); goto err_out; } tk->attr_prereqs = g_list_append(tk->attr_prereqs, ap); if (!tk->attr_prereqs) { log_error("out of memory"); goto err_out; } return 0; err_out: if (ap) { if (ap->attr_val) free(ap->attr_val); if (ap->attr_name) free(ap->attr_name); free(ap); } return -1; } extern int poll_timeout; int read_config(struct booth_config **conf, const char *path, int type) { char line[1024]; char error_str_buf[1024]; FILE *fp; char *s, *key, *val, *end_of_key; const char *error; char *cp, *cp2; int i; int lineno = 0; int got_transport = 0; int min_timeout = 0; struct ticket_config defaults = { { 0 } }; struct ticket_config *current_tk = NULL; assert(conf != NULL); free(*conf); fp = fopen(path, "r"); if (!fp) { log_error("failed to open %s: %s", path, strerror(errno)); *conf = NULL; return -1; } *conf = malloc(sizeof(struct booth_config) + TICKET_ALLOC * sizeof(struct ticket_config)); if (*conf == NULL) { fclose(fp); log_error("failed to alloc memory for booth config"); return -ENOMEM; } memset(*conf, 0, sizeof(struct booth_config) + TICKET_ALLOC * sizeof(struct ticket_config)); ticket_size = TICKET_ALLOC; (*conf)->proto = UDP; (*conf)->port = BOOTH_DEFAULT_PORT; (*conf)->maxtimeskew = BOOTH_DEFAULT_MAX_TIME_SKEW; (*conf)->authkey[0] = '\0'; /* Provide safe defaults. -1 is reserved, though. */ (*conf)->uid = -2; (*conf)->gid = -2; strcpy((*conf)->site_user, "hacluster"); strcpy((*conf)->site_group, "haclient"); strcpy((*conf)->arb_user, "nobody"); strcpy((*conf)->arb_group, "nobody"); parse_weights("", defaults.weight); defaults.clu_test.path = NULL; defaults.clu_test.pid = 0; defaults.clu_test.status = 0; defaults.clu_test.progstate = EXTPROG_IDLE; defaults.term_duration = DEFAULT_TICKET_EXPIRY; defaults.timeout = DEFAULT_TICKET_TIMEOUT; defaults.retries = DEFAULT_RETRIES; defaults.acquire_after = 0; defaults.mode = TICKET_MODE_AUTO; error = ""; log_debug("reading config file %s", path); while (fgets(line, sizeof(line), fp)) { lineno++; s = skip_while(line, isspace); if (is_end_of_line(s) || *s == '#') continue; key = s; /* Key */ end_of_key = skip_while_in(key, isalnum, "-_"); if (end_of_key == key) { error = "No key"; goto err; } if (!*end_of_key) goto exp_equal; /* whitespace, and something else but nothing more? */ s = skip_while(end_of_key, isspace); if (*s != '=') { exp_equal: error = "Expected '=' after key"; goto err; } s++; /* It's my buffer, and I terminate if I want to. */ /* But not earlier than that, because we had to check for = */ *end_of_key = 0; /* Value tokenizing */ s = skip_while(s, isspace); switch (*s) { case '"': case '\'': val = s+1; s = skip_until(val, *s); /* Terminate value */ if (!*s) { error = "Unterminated quoted string"; goto err; } /* Remove and skip quote */ *s = 0; s++; if (*(s = skip_while(s, isspace)) && *s != '#') { error = "Surplus data after value"; goto err; } *s = 0; break; case 0: no_value: error = "No value"; goto err; break; default: val = s; /* Rest of line. */ i = strlen(s); /* i > 0 because of "case 0" above. */ while (i > 0 && isspace(s[i-1])) i--; s += i; *s = 0; } if (val == s) goto no_value; if (strlen(key) > BOOTH_NAME_LEN || strlen(val) > BOOTH_NAME_LEN) { error = "key/value too long"; goto err; } if (strcmp(key, "transport") == 0) { if (got_transport) { error = "config file has multiple transport lines"; goto err; } if (strcasecmp(val, "UDP") == 0) { (*conf)->proto = UDP; } else if (strcasecmp(val, "SCTP") == 0) { (*conf)->proto = SCTP; } else { (void)snprintf(error_str_buf, sizeof(error_str_buf), "invalid transport protocol \"%s\"", val); error = error_str_buf; goto err; } got_transport = 1; continue; } if (strcmp(key, "port") == 0) { (*conf)->port = atoi(val); continue; } if (strcmp(key, "name") == 0) { safe_copy((*conf)->name, val, BOOTH_NAME_LEN, "name"); continue; } #if HAVE_LIBGNUTLS || HAVE_LIBGCRYPT || HAVE_LIBMHASH if (strcmp(key, "authfile") == 0) { safe_copy((*conf)->authfile, val, BOOTH_PATH_LEN, "authfile"); continue; } if (strcmp(key, "maxtimeskew") == 0) { (*conf)->maxtimeskew = atoi(val); continue; } #endif if (strcmp(key, "site") == 0) { if (add_site(*conf, val, SITE)) { goto err; } continue; } if (strcmp(key, "arbitrator") == 0) { if (add_site(*conf, val, ARBITRATOR)) { goto err; } continue; } if (strcmp(key, "site-user") == 0) { safe_copy((*conf)->site_user, optarg, BOOTH_NAME_LEN, "site-user"); continue; } if (strcmp(key, "site-group") == 0) { safe_copy((*conf)->site_group, optarg, BOOTH_NAME_LEN, "site-group"); continue; } if (strcmp(key, "arbitrator-user") == 0) { safe_copy((*conf)->arb_user, optarg, BOOTH_NAME_LEN, "arbitrator-user"); continue; } if (strcmp(key, "arbitrator-group") == 0) { safe_copy((*conf)->arb_group, optarg, BOOTH_NAME_LEN, "arbitrator-group"); continue; } if (strcmp(key, "debug") == 0) { if (type != CLIENT && type != GEOSTORE) debug_level = max(debug_level, atoi(val)); continue; } if (strcmp(key, "ticket") == 0) { if (current_tk && strcmp(current_tk->name, "__defaults__")) { if (!postproc_ticket(current_tk)) { goto err; } } if (!strcmp(val, "__defaults__")) { current_tk = &defaults; } else if (add_ticket(*conf, val, ¤t_tk, &defaults)) { goto err; } continue; } /* current_tk must be allocated at this point, otherwise * we don't know to which ticket the key refers */ if (!current_tk) { (void)snprintf(error_str_buf, sizeof(error_str_buf), "Unexpected keyword \"%s\"", key); error = error_str_buf; goto err; } if (strcmp(key, "expire") == 0) { current_tk->term_duration = read_time(val); if (current_tk->term_duration <= 0) { error = "Expected time >0 for expire"; goto err; } continue; } if (strcmp(key, "timeout") == 0) { current_tk->timeout = read_time(val); if (current_tk->timeout <= 0) { error = "Expected time >0 for timeout"; goto err; } if (!min_timeout) { min_timeout = current_tk->timeout; } else { min_timeout = min(min_timeout, current_tk->timeout); } continue; } if (strcmp(key, "retries") == 0) { current_tk->retries = strtol(val, &s, 0); if (*s || s == val || current_tk->retries<3 || current_tk->retries > 100) { error = "Expected plain integer value in the range [3, 100] for retries"; goto err; } continue; } if (strcmp(key, "renewal-freq") == 0) { current_tk->renewal_freq = read_time(val); if (current_tk->renewal_freq <= 0) { error = "Expected time >0 for renewal-freq"; goto err; } continue; } if (strcmp(key, "acquire-after") == 0) { current_tk->acquire_after = read_time(val); if (current_tk->acquire_after < 0) { error = "Expected time >=0 for acquire-after"; goto err; } continue; } if (strcmp(key, "before-acquire-handler") == 0) { if (parse_extprog(val, current_tk)) { goto err; } continue; } if (strcmp(key, "attr-prereq") == 0) { if (parse_attr_prereq(val, current_tk)) { goto err; } continue; } if (strcmp(key, "mode") == 0) { current_tk->mode = retrieve_ticket_mode(val); continue; } if (strcmp(key, "weights") == 0) { if (parse_weights(val, current_tk->weight) < 0) goto err; continue; } (void)snprintf(error_str_buf, sizeof(error_str_buf), "Unknown keyword \"%s\"", key); error = error_str_buf; goto err; } fclose(fp); if (((*conf)->site_count % 2) == 0) { log_warn("Odd number of nodes is strongly recommended!"); } /* Default: make config name match config filename. */ if (!(*conf)->name[0]) { cp = strrchr(path, '/'); cp = cp ? cp+1 : (char *)path; cp2 = strrchr(cp, '.'); if (!cp2) cp2 = cp + strlen(cp); if (cp2-cp >= BOOTH_NAME_LEN) { log_error("booth config file name too long"); goto out; } strncpy((*conf)->name, cp, cp2-cp); *((*conf)->name+(cp2-cp)) = '\0'; } if (!postproc_ticket(current_tk)) { goto out; } poll_timeout = min(POLL_TIMEOUT, min_timeout/10); if (!poll_timeout) poll_timeout = POLL_TIMEOUT; return 0; err: fclose(fp); out: log_error("%s in config file line %d", error, lineno); free(*conf); *conf = NULL; return -1; } int check_config(struct booth_config *conf, int type) { struct passwd *pw; struct group *gr; char *cp, *input; if (conf == NULL) { return -1; } input = (type == ARBITRATOR) ? conf->arb_user : conf->site_user; if (!*input) goto u_inval; if (isdigit(input[0])) { conf->uid = strtol(input, &cp, 0); if (*cp != 0) { u_inval: log_error("User \"%s\" cannot be resolved into a UID.", input); return ENOENT; } } else { pw = getpwnam(input); if (!pw) goto u_inval; conf->uid = pw->pw_uid; } input = (type == ARBITRATOR) ? conf->arb_group : conf->site_group; if (!*input) { goto g_inval; } if (isdigit(input[0])) { conf->gid = strtol(input, &cp, 0); if (*cp != 0) { g_inval: log_error("Group \"%s\" cannot be resolved into a UID.", input); return ENOENT; } } else { gr = getgrnam(input); if (!gr) { goto g_inval; } conf->gid = gr->gr_gid; } return 0; } -static int get_other_site(struct booth_site **node) +static int get_other_site(struct booth_config *conf, + struct booth_site **node) { struct booth_site *n; int i; *node = NULL; - if (!booth_conf) + if (conf == NULL) { return 0; + } - FOREACH_NODE(i, n) { + FOREACH_NODE(conf, i, n) { if (n != local && n->type == SITE) { if (!*node) { *node = n; } else { return 0; } } } return !*node ? 0 : 1; } -int find_site_by_name(char *site, struct booth_site **node, int any_type) +int find_site_by_name(struct booth_config *conf, const char *site, + struct booth_site **node, int any_type) { struct booth_site *n; int i; - if (!booth_conf) + if (conf == NULL) { return 0; + } - if (!strcmp(site, OTHER_SITE)) - return get_other_site(node); + if (!strcmp(site, OTHER_SITE)) { + return get_other_site(conf, node); + } - FOREACH_NODE(i, n) { + FOREACH_NODE(conf, i, n) { if ((n->type == SITE || any_type) && strncmp(n->addr_string, site, sizeof(n->addr_string)) == 0) { *node = n; return 1; } } return 0; } -int find_site_by_id(uint32_t site_id, struct booth_site **node) +int find_site_by_id(struct booth_config *conf, + uint32_t site_id, struct booth_site **node) { struct booth_site *n; int i; if (site_id == NO_ONE) { *node = no_leader; return 1; } - if (!booth_conf) + if (conf == NULL) { return 0; + } - FOREACH_NODE(i, n) { + FOREACH_NODE(conf, i, n) { if (n->site_id == site_id) { *node = n; return 1; } } return 0; } - const char *type_to_string(int type) { switch (type) { case ARBITRATOR: return "arbitrator"; case SITE: return "site"; case CLIENT: return "client"; case GEOSTORE: return "attr"; } return "??invalid-type??"; } diff --git a/src/config.h b/src/config.h index ad7aed2..fbe90d1 100644 --- a/src/config.h +++ b/src/config.h @@ -1,363 +1,399 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _CONFIG_H #define _CONFIG_H #include #include #include "booth.h" #include "timer.h" #include "raft.h" + +/* Forward declaration of the booth config structure that will be defined later. + * This is necessary here because transport.h references booth_config, but this + * file also references transport_layer_t. We need some way to break the + * circular dependency. + * + * This also means that config.h must always be included before transport.h in + * any source files. + */ +struct booth_config; + #include "transport.h" /** @{ */ /** Definitions for in-RAM data. */ #define MAX_NODES 16 #define MAX_ARGS 16 #define TICKET_ALLOC 16 #define OTHER_SITE "other" typedef enum { EXTPROG_IDLE, EXTPROG_RUNNING, EXTPROG_EXITED, EXTPROG_IGNORE, } extprog_state_e; #define tk_test tk->clu_test typedef enum { ATTR_OP_EQ = 1, ATTR_OP_NE, } attr_op_e; typedef enum { GRANT_AUTO = 1, GRANT_MANUAL, } grant_type_e; typedef enum { TICKET_MODE_AUTO = 1, TICKET_MODE_MANUAL, } ticket_mode_e; struct toktab { const char *str; int val; }; struct attr_prereq { grant_type_e grant_type; /* grant type */ attr_op_e op; /* attribute operation */ char *attr_name; char *attr_val; }; struct ticket_config { /** \name Configuration items. * @{ */ /** Name of ticket. */ boothc_ticket name; /** How long a term lasts if not refreshed (in ms) */ int term_duration; /** Network related timeouts (in ms) */ int timeout; /** Retries before giving up. */ int retries; /** If >0, time to wait for a site to get fenced. * The ticket may be acquired after that timespan by * another site. */ int acquire_after; /* How often to renew the ticket (in ms) */ int renewal_freq; /* Program to ask whether it makes sense to * acquire the ticket */ struct clu_test { char *path; int is_dir; char *argv[MAX_ARGS]; pid_t pid; int status; /* child exit status */ extprog_state_e progstate; /* program running/idle/waited on */ } clu_test; /** Node weights. */ int weight[MAX_NODES]; /* Mode operation of the ticket. * Set to MANUAL to make sure that the ticket will be manipulated * only by manual commands of the administrator. In such a case * automatic elections will be disabled. * Manual tickets do not have to be renewed every some time. * The leader will continue to send heartbeat messages to other sites. */ ticket_mode_e mode; /** @} */ /** \name Runtime values. * @{ */ /** Current state. */ server_state_e state; /** Next state. Used at startup. */ server_state_e next_state; /** When something has to be done */ timetype next_cron; /** Current leader. This is effectively the log[] in Raft. */ struct booth_site *leader; /** Leader that got lost. */ struct booth_site *lost_leader; /** Is the ticket granted? */ int is_granted; /** Which site considered itself a leader. * For manual tickets it is possible, that * more than one site will act as a leader. * This array is used for tracking that situation * and notifying the user about the issue. * * Possible values for every site: * 0: the site does not claim to be the leader * 1: the site considers itself a leader and * is sending or used to send heartbeat messages * * The site will be marked as '1' until this site * receives revoke confirmation. * * If more than one site has '1', the geo cluster is * considered to have multiple leadership and proper * warning are generated. */ int sites_where_granted[MAX_NODES]; /** Timestamp of leadership expiration */ timetype term_expires; /** End of election period */ timetype election_end; struct booth_site *voted_for; /** Who the various sites vote for. * NO_OWNER = no vote yet. */ struct booth_site *votes_for[MAX_NODES]; /* bitmap */ uint64_t votes_received; /** Last voting round that was seen. */ uint32_t current_term; /** Do ticket updates whenever we get enough heartbeats. * But do that only once. * This is reset to 0 whenever we broadcast heartbeat and set * to 1 once enough acks are received. * Increased to 2 when the ticket is commited to the CIB (see * delay_commit). */ uint32_t ticket_updated; /** Outcome of whatever ticket request was processed. * Can also be an intermediate stage. */ uint32_t outcome; /** @} */ /** */ uint32_t last_applied; uint32_t next_index[MAX_NODES]; uint32_t match_index[MAX_NODES]; /* Why did we start the elections? */ cmd_reason_t election_reason; /* if it is potentially dangerous to grant the ticket * immediately, then this is set to some point in time, * usually (now + term_duration + acquire_after) */ timetype delay_commit; /* the last request RPC we sent */ uint32_t last_request; /* if we expect some acks, then set this to the id of * the RPC which others will send us; it is cleared once all * replies were received */ uint32_t acks_expected; /* bitmask of servers which sent acks */ uint64_t acks_received; /* timestamp of the request */ timetype req_sent_at; /* we need to wait for MY_INDEX from other servers, * hold the ticket processing for a while until they reply */ int start_postpone; /** Last renewal time */ timetype last_renewal; /* Do we need to update the copy in the CIB? * Normally, the ticket is written only when it changes via * the UPDATE RPC (for followers) and on expiration update * (for leaders) */ int update_cib; /* Is this ticket in election? */ int in_election; /* don't log warnings unnecessarily */ int expect_more_rejects; /** \name Needed while proposals are being done. * @{ */ /* Need to keep the previous valid ticket in case we moved to * start new elections and another server asks for the ticket * status. It would be wrong to send our candidate ticket. */ struct ticket_config *last_valid_tk; /** Attributes, user defined */ GHashTable *attr; /** Attribute prerequisites */ GList *attr_prereqs; /** Whom to vote for the next time. * Needed to push a ticket to someone else. */ #if 0 /** Bitmap of sites that acknowledge that state. */ uint64_t proposal_acknowledges; /** When an incompletely acknowledged proposal gets done. * If all peers agree, that happens sooner. * See switch_state_to(). */ struct timeval proposal_switch; /** Timestamp of proposal expiration. */ time_t proposal_expires; #endif /** Number of send retries left. * Used on the new owner. * Starts at 0, counts up. */ int retry_number; /** @} */ }; struct booth_config { char name[BOOTH_NAME_LEN]; /** File containing the authentication file. */ char authfile[BOOTH_PATH_LEN]; struct stat authstat; char authkey[BOOTH_MAX_KEY_LEN]; int authkey_len; /** Maximum time skew between peers allowed */ int maxtimeskew; transport_layer_t proto; uint16_t port; /** Stores the OR of sites bitmasks. */ uint64_t sites_bits; /** Stores the OR of all members' bitmasks. */ uint64_t all_bits; char site_user[BOOTH_NAME_LEN]; char site_group[BOOTH_NAME_LEN]; char arb_user[BOOTH_NAME_LEN]; char arb_group[BOOTH_NAME_LEN]; uid_t uid; gid_t gid; int site_count; struct booth_site site[MAX_NODES]; int ticket_count; int ticket_allocated; struct ticket_config *ticket; }; extern struct booth_config *booth_conf; #define is_auth_req() (booth_conf->authkey[0] != '\0') /** * @internal * Parse booth configuration file and store as structured data * * @param[in,out] conf config object to free-alloc cycle & fill accordingly * @param[in] path where the configuration file is expected * @param[in] type role currently being acted as * * @return 0 or negative value (-1 or -errno) on error */ int read_config(struct booth_config **conf, const char *path, int type); /** * @internal * Check booth configuration * * Checks include: * * - Verifying that the login user and group exist, and converting them to * numeric values * * @param[in,out] conf_ptr config object to check * @param[in] type role currently being acted as * * @return 0 or negative value (-1 or -errno) on error */ int check_config(struct booth_config *conf, int type); -int find_site_by_name(char *site, struct booth_site **node, int any_type); -int find_site_by_id(uint32_t site_id, struct booth_site **node); +/** + * @internal + * Find site in booth configuration by resolved host name + * + * @param[in,out] conf config object to refer to + * @param[in] site name to match against previously resolved host names + * @param[out] node relevant tracked data when found + * @param[in] any_type whether or not to consider also non-site members + * + * @return 0 if nothing found, or 1 when found (node assigned accordingly) + */ +int find_site_by_name(struct booth_config *conf, const char *site, + struct booth_site **node, int any_type); + + +/** + * @internal + * Find site in booth configuration by a hash (id) + * + * @param[in,out] conf config object to refer to + * @param[in] site_id hash (id) to match against previously resolved ones + * @param[out] node relevant tracked data when found + * + * @return 0 if nothing found, or 1 when found (node assigned accordingly) + */ +int find_site_by_id(struct booth_config *conf, uint32_t site_id, + struct booth_site **node); const char *type_to_string(int type); #endif /* _CONFIG_H */ diff --git a/src/handler.c b/src/handler.c index 9d74f0f..727b89c 100644 --- a/src/handler.c +++ b/src/handler.c @@ -1,283 +1,283 @@ /* * Copyright (C) 2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include #include #include "ticket.h" #include "config.h" #include "inline-fn.h" #include "log.h" #include "pacemaker.h" #include "booth.h" #include "handler.h" static int set_booth_env(struct ticket_config *tk) { int rv; char expires[16]; sprintf(expires, "%" PRId64, (int64_t)wall_ts(&tk->term_expires)); rv = setenv("BOOTH_TICKET", tk->name, 1) || setenv("BOOTH_LOCAL", local->addr_string, 1) || setenv("BOOTH_CONF_NAME", booth_conf->name, 1) || setenv("BOOTH_CONF_PATH", cl.configfile, 1) || setenv("BOOTH_TICKET_EXPIRES", expires, 1); if (rv) { log_error("Cannot set environment: %s", strerror(errno)); } return rv; } static void closefiles(void) { int fd; /* close all descriptors except stdin/out/err */ for (fd = getdtablesize() - 1; fd > STDERR_FILENO; fd--) { close(fd); } } static void run_ext_prog(struct ticket_config *tk, char *prog) { if (set_booth_env(tk)) { _exit(1); } closefiles(); /* don't leak open files */ tk_log_debug("running handler %s", prog); execv(prog, tk_test.argv); tk_log_error("%s: execv failed (%s)", prog, strerror(errno)); _exit(1); } static int prog_filter(const struct dirent *dp) { return (*dp->d_name != '.'); } static pid_t curr_pid; static int ignore_status; static int test_exit_status(struct ticket_config *tk, char *prog, int status, int log_msg) { int rv = -1; if (WIFEXITED(status)) { rv = WEXITSTATUS(status); } else if (WIFSIGNALED(status)) { rv = 128 + WTERMSIG(status); } if (rv) { if (log_msg) { tk_log_warn("handler \"%s\" failed: %s", prog, interpret_rv(status)); tk_log_warn("we are not allowed to acquire ticket"); } } else { tk_log_debug("handler \"%s\" exited with success", prog); } return rv; } static void reset_test_state(struct ticket_config *tk) { tk_test.pid = 0; set_progstate(tk, EXTPROG_IDLE); } int tk_test_exit_status(struct ticket_config *tk) { int rv; rv = test_exit_status(tk, tk_test.path, tk_test.status, !tk_test.is_dir); reset_test_state(tk); return rv; } void wait_child(int sig) { int i, status; struct ticket_config *tk; /* use waitpid(2) and not wait(2) in order not to interfere * with popen(2)/pclose(2) and system(2) used in pacemaker.c */ - FOREACH_TICKET(i, tk) { + _FOREACH_TICKET(i, tk) { if (tk_test.path && tk_test.pid > 0 && (tk_test.progstate == EXTPROG_RUNNING || tk_test.progstate == EXTPROG_IGNORE) && waitpid(tk_test.pid, &status, WNOHANG) == tk_test.pid) { if (tk_test.progstate == EXTPROG_IGNORE) { /* not interested in the outcome */ reset_test_state(tk); } else { tk_test.status = status; set_progstate(tk, EXTPROG_EXITED); } } } } /* the parent may want to have us stop processing scripts, say * when the ticket gets revoked */ static void ignore_rest(int sig) { signal(SIGTERM, SIG_IGN); ignore_status = 1; if (curr_pid > 0) { (void)kill(curr_pid, SIGTERM); } } void ext_prog_timeout(struct ticket_config *tk) { tk_log_warn("handler timed out"); } int is_ext_prog_running(struct ticket_config *tk) { if (!tk_test.path) return 0; return (tk_test.pid > 0 && tk_test.progstate == EXTPROG_RUNNING); } void ignore_ext_test(struct ticket_config *tk) { if (is_ext_prog_running(tk)) { (void)kill(tk_test.pid, SIGTERM); set_progstate(tk, EXTPROG_IGNORE); } else if (tk_test.progstate == EXTPROG_EXITED) { /* external prog exited, but the status not yet examined; * we're not interested in checking the status anymore */ reset_test_state(tk); } } static void process_ext_dir(struct ticket_config *tk) { char prog[FILENAME_MAX+1]; int rv, n_progs, i, status; struct dirent **proglist, *dp; signal(SIGTERM, (__sighandler_t)ignore_rest); signal(SIGCHLD, SIG_DFL); signal(SIGUSR1, SIG_DFL); signal(SIGINT, SIG_DFL); tk_log_debug("running programs in directory %s", tk_test.path); n_progs = scandir(tk_test.path, &proglist, prog_filter, alphasort); if (n_progs == -1) { tk_log_error("%s: scandir failed (%s)", tk_test.path, strerror(errno)); _exit(1); } for (i = 0; i < n_progs; i++) { if (ignore_status) break; dp = proglist[i]; if (strlen(dp->d_name) + strlen(tk_test.path) + 1 > FILENAME_MAX) { tk_log_error("%s: name exceeds max length (%s)", tk_test.path, dp->d_name); _exit(1); } strcpy(prog, tk_test.path); strcat(prog, "/"); strcat(prog, dp->d_name); switch(curr_pid=fork()) { case -1: log_error("fork: %s", strerror(errno)); _exit(1); case 0: /* child */ run_ext_prog(tk, prog); break; /* run_ext_prog effectively noreturn */ default: /* parent */ while (waitpid(curr_pid, &status, 0) != curr_pid) ; curr_pid = 0; if (!ignore_status) { rv = test_exit_status(tk, prog, status, 1); if (rv) _exit(rv); } else { /* * To make ignore_rest function signal safe log_info * must be removed from signal function. Information * about signal delivery is important so put it here. */ log_info("external programs handler caught TERM, ignoring " "status of external test programs"); } } } _exit(0); } /* run some external program * return codes: * RUNCMD_ERR: executing program failed (or some other failure) * RUNCMD_MORE: program forked, results later */ int run_handler(struct ticket_config *tk) { int rv = 0; pid_t pid; struct stat stbuf; if (!tk_test.path) return 0; if (stat(tk_test.path, &stbuf)) { tk_log_error("%s: stat failed (%s)", tk_test.path, strerror(errno)); return RUNCMD_ERR; } tk_test.is_dir = (stbuf.st_mode & S_IFDIR); switch(pid=fork()) { case -1: log_error("fork: %s", strerror(errno)); return RUNCMD_ERR; case 0: /* child */ if (tk_test.is_dir) { process_ext_dir(tk); } else { run_ext_prog(tk, tk_test.path); } default: /* parent */ tk_test.pid = pid; set_progstate(tk, EXTPROG_RUNNING); rv = RUNCMD_MORE; /* program runs */ } return rv; } diff --git a/src/main.c b/src/main.c index 3ad0290..c6f6bb6 100644 --- a/src/main.c +++ b/src/main.c @@ -1,1698 +1,1699 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "b_config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_LIBGNUTLS #include #endif #if HAVE_LIBGCRYPT #include #endif #ifndef NAMETAG_LIBSYSTEMD #include #else #include "alt/nametag_libsystemd.h" #endif #ifdef COREDUMP_NURSING #include #include #endif #include "log.h" #include "booth.h" #include "config.h" #include "transport.h" #include "inline-fn.h" #include "pacemaker.h" #include "ticket.h" #include "request.h" #include "attr.h" #include "handler.h" #define RELEASE_STR VERSION #define CLIENT_NALLOC 32 static int daemonize = 1; int enable_stderr = 0; timetype start_time; /** Structure for "clients". * Filehandles with incoming data get registered here (and in pollfds), * along with their callbacks. * Because these can be reallocated with every new fd, addressing * happens _only_ by their numeric index. */ struct client *clients = NULL; struct pollfd *pollfds = NULL; static int client_maxi; static int client_size = 0; static const struct booth_site _no_leader = { .addr_string = "none", .site_id = NO_ONE, .index = -1, }; struct booth_site *const no_leader = (struct booth_site*) &_no_leader; typedef enum { BOOTHD_STARTED=0, BOOTHD_STARTING } BOOTH_DAEMON_STATE; int poll_timeout; struct booth_config *booth_conf; struct command_line cl; /* * Global signal handlers variables */ static int sig_exit_handler_called = 0; static int sig_exit_handler_sig = 0; static int sig_usr1_handler_called = 0; static int sig_chld_handler_called = 0; static void client_alloc(void) { int i; if (!(clients = realloc( clients, (client_size + CLIENT_NALLOC) * sizeof(*clients)) ) || !(pollfds = realloc( pollfds, (client_size + CLIENT_NALLOC) * sizeof(*pollfds)) )) { log_error("can't alloc for client array"); exit(1); } for (i = client_size; i < client_size + CLIENT_NALLOC; i++) { clients[i].workfn = NULL; clients[i].deadfn = NULL; clients[i].fd = -1; pollfds[i].fd = -1; pollfds[i].revents = 0; } client_size += CLIENT_NALLOC; } static void client_dead(int ci) { struct client *c = clients + ci; if (c->fd != -1) { log_debug("removing client %d", c->fd); close(c->fd); } c->fd = -1; c->workfn = NULL; if (c->msg) { free(c->msg); c->msg = NULL; c->offset = 0; } pollfds[ci].fd = -1; } int client_add(int fd, const struct booth_transport *tpt, - void (*workfn)(int ci), - void (*deadfn)(int ci)) + workfn_t workfn, void (*deadfn)(int ci)) { int i; struct client *c; if (client_size - 1 <= client_maxi ) { client_alloc(); } for (i = 0; i < client_size; i++) { c = clients + i; if (c->fd != -1) continue; c->workfn = workfn; if (deadfn) c->deadfn = deadfn; else c->deadfn = client_dead; c->transport = tpt; c->fd = fd; c->msg = NULL; c->offset = 0; pollfds[i].fd = fd; pollfds[i].events = POLLIN; if (i > client_maxi) client_maxi = i; return i; } assert(!"no client"); } int find_client_by_fd(int fd) { int i; if (fd < 0) return -1; for (i = 0; i <= client_maxi; i++) { if (clients[i].fd == fd) return i; } return -1; } static int format_peers(char **pdata, unsigned int *len) { struct booth_site *s; char *data, *cp; char time_str[64]; int i, alloc; *pdata = NULL; *len = 0; alloc = booth_conf->site_count * (BOOTH_NAME_LEN + 256); data = malloc(alloc); if (!data) return -ENOMEM; cp = data; - FOREACH_NODE(i, s) { + _FOREACH_NODE(i, s) { if (s == local) continue; strftime(time_str, sizeof(time_str), "%F %T", localtime(&s->last_recv)); cp += snprintf(cp, alloc - (cp - data), "%-12s %s, last recv: %s\n", type_to_string(s->type), s->addr_string, time_str); cp += snprintf(cp, alloc - (cp - data), "\tSent pkts:%u error:%u resends:%u\n", s->sent_cnt, s->sent_err_cnt, s->resend_cnt); cp += snprintf(cp, alloc - (cp - data), "\tRecv pkts:%u error:%u authfail:%u invalid:%u\n\n", s->recv_cnt, s->recv_err_cnt, s->sec_cnt, s->invalid_cnt); if (alloc - (cp - data) <= 0) { free(data); return -ENOMEM; } } *pdata = data; *len = cp - data; return 0; } void list_peers(int fd) { char *data; unsigned int olen; struct boothc_hdr_msg hdr; if (format_peers(&data, &olen) < 0) goto out; init_header(&hdr.header, CL_LIST, 0, 0, RLT_SUCCESS, 0, sizeof(hdr) + olen); (void)send_header_plus(fd, &hdr, data, olen); out: if (data) free(data); } /* trim trailing spaces if the key is ascii */ static void trim_key() { char *p; int i; for (i=0, p=booth_conf->authkey; i < booth_conf->authkey_len; i++, p++) if (!isascii(*p)) return; p = booth_conf->authkey; while (booth_conf->authkey_len > 0 && isspace(*p)) { p++; booth_conf->authkey_len--; } memmove(booth_conf->authkey, p, booth_conf->authkey_len); p = booth_conf->authkey + booth_conf->authkey_len - 1; while (booth_conf->authkey_len > 0 && isspace(*p)) { booth_conf->authkey_len--; p--; } } static int read_authkey() { int fd; booth_conf->authkey[0] = '\0'; fd = open(booth_conf->authfile, O_RDONLY); if (fd < 0) { log_error("cannot open %s: %s", booth_conf->authfile, strerror(errno)); return -1; } if (fstat(fd, &booth_conf->authstat) < 0) { log_error("cannot stat authentication file %s (%d): %s", booth_conf->authfile, fd, strerror(errno)); close(fd); return -1; } if (booth_conf->authstat.st_mode & (S_IRGRP | S_IROTH)) { log_error("%s: file shall not be readable for anyone but the owner", booth_conf->authfile); close(fd); return -1; } booth_conf->authkey_len = read(fd, booth_conf->authkey, BOOTH_MAX_KEY_LEN); close(fd); trim_key(); log_debug("read key of size %d in authfile %s", booth_conf->authkey_len, booth_conf->authfile); /* make sure that the key is of minimum length */ return (booth_conf->authkey_len >= BOOTH_MIN_KEY_LEN) ? 0 : -1; } int update_authkey() { struct stat statbuf; if (stat(booth_conf->authfile, &statbuf) < 0) { log_error("cannot stat authentication file %s: %s", booth_conf->authfile, strerror(errno)); return -1; } if (statbuf.st_mtime > booth_conf->authstat.st_mtime) { return read_authkey(); } return 0; } static int setup_config(struct booth_config **conf, int type) { int rv; assert(conf != NULL); rv = read_config(conf, cl.configfile, type); if (rv < 0) { goto out; } if (booth_conf->authfile[0] != '\0') { rv = read_authkey(); if (rv < 0) goto out; #if HAVE_LIBGCRYPT if (!gcry_check_version(NULL)) { log_error("gcry_check_version"); rv = -ENOENT; goto out; } gcry_control(GCRYCTL_DISABLE_SECMEM, 0); gcry_control(GCRYCTL_INITIALIZATION_FINISHED, 0); #endif #if HAVE_LIBGNUTLS if (gnutls_global_init() != 0) { log_error("Cannot initialize GnuTLS"); rv = -EINVAL; goto out; }; #endif } /* Set "local" pointer, ignoring errors. */ if (cl.type == DAEMON && cl.site[0]) { - if (!find_site_by_name(cl.site, &local, 1)) { + if (!find_site_by_name(booth_conf, cl.site, &local, 1)) { log_error("Cannot find \"%s\" in the configuration.", cl.site); return -EINVAL; } local->local = 1; - } else - find_myself(NULL, type == CLIENT || type == GEOSTORE); - + } else { + find_myself(booth_conf, NULL, type == CLIENT || type == GEOSTORE); + } rv = check_config(booth_conf, type); if (rv < 0) goto out; /* Per default the PID file name is derived from the * configuration name. */ if (!cl.lockfile[0]) { snprintf(cl.lockfile, sizeof(cl.lockfile) - 1, "%s/%s.pid", BOOTH_RUN_DIR, (*conf)->name); } out: return rv; } static int setup_transport(void) { int rv; rv = transport()->init(message_recv); if (rv < 0) { log_error("failed to init booth_transport %s", transport()->name); goto out; } rv = booth_transport[TCP].init(NULL); if (rv < 0) { log_error("failed to init booth_transport[TCP]"); goto out; } out: return rv; } static int write_daemon_state(int fd, int state) { char buffer[1024]; int rv, size; size = sizeof(buffer) - 1; rv = snprintf(buffer, size, "booth_pid=%d " "booth_state=%s " "booth_type=%s " "booth_cfg_name='%s' " "booth_id=%d " "booth_addr_string='%s' " "booth_port=%d\n", getpid(), ( state == BOOTHD_STARTED ? "started" : state == BOOTHD_STARTING ? "starting" : "invalid"), type_to_string(local->type), booth_conf->name, local->site_id, local->addr_string, booth_conf->port); if (rv < 0 || rv == size) { log_error("Buffer filled up in write_daemon_state()."); return -1; } size = rv; rv = ftruncate(fd, 0); if (rv < 0) { log_error("lockfile %s truncate error %d: %s", cl.lockfile, errno, strerror(errno)); return rv; } rv = lseek(fd, 0, SEEK_SET); if (rv < 0) { log_error("lseek set fd(%d) offset to 0 error, return(%d), message(%s)", fd, rv, strerror(errno)); rv = -1; return rv; } rv = write(fd, buffer, size); if (rv != size) { log_error("write to fd(%d, %d) returned %d, errno %d, message(%s)", fd, size, rv, errno, strerror(errno)); return -1; } return 0; } static int process_signals(void) { if (sig_exit_handler_called) { log_info("caught signal %d", sig_exit_handler_sig); return 1; } if (sig_usr1_handler_called) { sig_usr1_handler_called = 0; tickets_log_info(); } if (sig_chld_handler_called) { sig_chld_handler_called = 0; wait_child(SIGCHLD); } return 0; } static int loop(int fd) { - void (*workfn) (int ci); + workfn_t workfn; void (*deadfn) (int ci); int rv, i; rv = setup_transport(); if (rv < 0) goto fail; - rv = setup_ticket(); - if (rv < 0) + rv = setup_ticket(booth_conf); + if (rv < 0) { goto fail; + } rv = write_daemon_state(fd, BOOTHD_STARTED); if (rv != 0) { log_error("write daemon state %d to lockfile error %s: %s", BOOTHD_STARTED, cl.lockfile, strerror(errno)); goto fail; } log_info("BOOTH %s daemon started, node id is 0x%08X (%d).", type_to_string(local->type), local->site_id, local->site_id); while (1) { rv = poll(pollfds, client_maxi + 1, poll_timeout); if (rv == -1 && errno == EINTR) continue; if (rv < 0) { log_error("poll failed: %s (%d)", strerror(errno), errno); goto fail; } for (i = 0; i <= client_maxi; i++) { if (clients[i].fd < 0) continue; if (pollfds[i].revents & POLLIN) { workfn = clients[i].workfn; - if (workfn) - workfn(i); + if (workfn) { + workfn(booth_conf, i); + } } if (pollfds[i].revents & (POLLERR | POLLHUP | POLLNVAL)) { deadfn = clients[i].deadfn; if (deadfn) deadfn(i); } } process_tickets(); if (process_signals() != 0) { return 0; } } return 0; fail: return -1; } static int test_reply(cmd_result_t reply_code, cmd_request_t cmd) { int rv = 0; const char *op_str = NULL; if (cmd == CMD_GRANT) op_str = "grant"; else if (cmd == CMD_REVOKE) op_str = "revoke"; else if (cmd == CMD_LIST) op_str = "list"; else if (cmd == CMD_PEERS) op_str = "peers"; else { log_error("internal error reading reply result!"); return -1; } switch (reply_code) { case RLT_OVERGRANT: log_info("You're granting a granted ticket. " "If you wanted to migrate a ticket, " "use revoke first, then use grant."); rv = -1; break; case RLT_TICKET_IDLE: log_info("ticket is not owned"); rv = 0; break; case RLT_ASYNC: log_info("%s command sent, result will be returned " "asynchronously. Please use \"booth list\" to " "see the outcome.", op_str); rv = 0; break; case RLT_CIB_PENDING: log_info("%s succeeded (CIB commit pending)", op_str); /* wait for the CIB commit? */ rv = (cl.options & OPT_WAIT_COMMIT) ? 3 : 0; break; case RLT_MORE: rv = 2; break; case RLT_SYNC_SUCC: case RLT_SUCCESS: if (cmd != CMD_LIST && cmd != CMD_PEERS) log_info("%s succeeded!", op_str); rv = 0; break; case RLT_SYNC_FAIL: log_info("%s failed!", op_str); rv = -1; break; case RLT_INVALID_ARG: log_error("ticket \"%s\" does not exist", cl.msg.ticket.id); rv = -1; break; case RLT_AUTH: log_error("authentication error"); rv = -1; break; case RLT_EXT_FAILED: log_error("before-acquire-handler for ticket \"%s\" failed, grant denied", cl.msg.ticket.id); rv = -1; break; case RLT_ATTR_PREREQ: log_error("attr-prereq for ticket \"%s\" failed, grant denied", cl.msg.ticket.id); rv = -1; break; case RLT_REDIRECT: /* talk to another site */ rv = 1; break; default: log_error("got an error code: %x", rv); rv = -1; } return rv; } static int query_get_string_answer(cmd_request_t cmd) { struct booth_site *site; struct boothc_hdr_msg reply; struct boothc_header *header; char *data; int data_len; int rv; struct booth_transport const *tpt; int (*test_reply_f) (cmd_result_t reply_code, cmd_request_t cmd); size_t msg_size; void *request; if (cl.type == GEOSTORE) { test_reply_f = test_attr_reply; msg_size = sizeof(cl.attr_msg); request = &cl.attr_msg; } else { test_reply_f = test_reply; msg_size = sizeof(cl.msg); request = &cl.msg; } header = (struct boothc_header *)request; data = NULL; init_header(header, cmd, 0, cl.options, 0, 0, msg_size); if (!*cl.site) site = local; - else if (!find_site_by_name(cl.site, &site, 1)) { + else if (!find_site_by_name(booth_conf, cl.site, &site, 1)) { log_error("cannot find site \"%s\"", cl.site); rv = ENOENT; goto out; } tpt = booth_transport + TCP; rv = tpt->open(site); if (rv < 0) goto out_close; rv = tpt->send(site, request, msg_size); if (rv < 0) goto out_close; rv = tpt->recv_auth(site, &reply, sizeof(reply)); if (rv < 0) goto out_close; data_len = ntohl(reply.header.length) - rv; /* no attribute, or no ticket found */ if (!data_len) { goto out_test_reply; } data = malloc(data_len+1); if (!data) { rv = -ENOMEM; goto out_close; } rv = tpt->recv(site, data, data_len); if (rv < 0) goto out_close; *(data + data_len) = '\0'; (void)fputs(data, stdout); fflush(stdout); out_test_reply: rv = test_reply_f(ntohl(reply.header.result), cmd); out_close: tpt->close(site); out: if (data) free(data); return rv; } static int do_command(cmd_request_t cmd) { struct booth_site *site; struct boothc_ticket_msg reply; struct booth_transport const *tpt; uint32_t leader_id; int rv; int reply_cnt = 0, msg_logged = 0; const char *op_str = ""; if (cmd == CMD_GRANT) op_str = "grant"; else if (cmd == CMD_REVOKE) op_str = "revoke"; rv = -1; site = NULL; /* Always use TCP for client - at least for now. */ tpt = booth_transport + TCP; if (!*cl.site) site = local; else { - if (!find_site_by_name(cl.site, &site, 1)) { + if (!find_site_by_name(booth_conf, cl.site, &site, 1)) { log_error("Site \"%s\" not configured.", cl.site); goto out_close; } } if (site->type == ARBITRATOR) { if (site == local) { log_error("We're just an arbitrator, cannot grant/revoke tickets here."); } else { log_error("%s is just an arbitrator, cannot grant/revoke tickets there.", cl.site); } goto out_close; } assert(site->type == SITE); /* We don't check for existence of ticket, so that asking can be * done without local configuration, too. * Although, that means that the UDP port has to be specified, too. */ if (!cl.msg.ticket.id[0]) { /* If the loaded configuration has only a single ticket defined, use that. */ if (booth_conf->ticket_count == 1) { strncpy(cl.msg.ticket.id, booth_conf->ticket[0].name, sizeof(cl.msg.ticket.id)); } else { log_error("No ticket given."); goto out_close; } } redirect: init_header(&cl.msg.header, cmd, 0, cl.options, 0, 0, sizeof(cl.msg)); rv = tpt->open(site); if (rv < 0) goto out_close; rv = tpt->send(site, &cl.msg, sendmsglen(&cl.msg)); if (rv < 0) goto out_close; read_more: rv = tpt->recv_auth(site, &reply, sizeof(reply)); if (rv < 0) { /* print any errors depending on the code sent by the * server */ (void)test_reply(ntohl(reply.header.result), cmd); goto out_close; } rv = test_reply(ntohl(reply.header.result), cmd); if (rv == 1) { tpt->close(site); leader_id = ntohl(reply.ticket.leader); - if (!find_site_by_id(leader_id, &site)) { + if (!find_site_by_id(booth_conf, leader_id, &site)) { log_error("Message with unknown redirect site %x received", leader_id); rv = -1; goto out_close; } goto redirect; } else if (rv == 2 || rv == 3) { /* the server has more to say */ /* don't wait too long */ if (reply_cnt > 1 && !(cl.options & OPT_WAIT)) { rv = 0; log_info("Giving up on waiting for the definite result. " "Please use \"booth list\" later to " "see the outcome."); goto out_close; } if (reply_cnt == 0) { log_info("%s request sent, " "waiting for the result ...", op_str); msg_logged++; } else if (rv == 3 && msg_logged < 2) { log_info("waiting for the CIB commit ..."); msg_logged++; } reply_cnt++; goto read_more; } out_close: if (site) tpt->close(site); return rv; } static int _lockfile(int mode, int *fdp, pid_t *locked_by) { struct flock lock; int fd, rv; /* After reboot the directory may not yet exist. * Try to create it, but ignore errors. */ if (strncmp(cl.lockfile, BOOTH_RUN_DIR, strlen(BOOTH_RUN_DIR)) == 0) (void)mkdir(BOOTH_RUN_DIR, 0775); if (locked_by) *locked_by = 0; *fdp = -1; fd = open(cl.lockfile, mode, 0664); if (fd < 0) return errno; *fdp = fd; lock.l_type = F_WRLCK; lock.l_start = 0; lock.l_whence = SEEK_SET; lock.l_len = 0; lock.l_pid = 0; if (fcntl(fd, F_SETLK, &lock) == 0) return 0; rv = errno; if (locked_by) if (fcntl(fd, F_GETLK, &lock) == 0) *locked_by = lock.l_pid; return rv; } static inline int is_root(void) { return geteuid() == 0; } static int create_lockfile(void) { int rv, fd; fd = -1; rv = _lockfile(O_CREAT | O_WRONLY, &fd, NULL); if (fd == -1) { log_error("lockfile %s open error %d: %s", cl.lockfile, rv, strerror(rv)); return -1; } if (rv < 0) { log_error("lockfile %s setlk error %d: %s", cl.lockfile, rv, strerror(rv)); goto fail; } rv = write_daemon_state(fd, BOOTHD_STARTING); if (rv != 0) { log_error("write daemon state %d to lockfile error %s: %s", BOOTHD_STARTING, cl.lockfile, strerror(errno)); goto fail; } if (is_root()) { if (fchown(fd, booth_conf->uid, booth_conf->gid) < 0) log_error("fchown() on lockfile said %d: %s", errno, strerror(errno)); } return fd; fail: close(fd); return -1; } static void unlink_lockfile(int fd) { unlink(cl.lockfile); close(fd); } static void print_usage(void) { printf( "Usage:\n" " booth list [options]\n" " booth {grant|revoke} [options] \n" " booth status [options]\n" "\n" " list: List all tickets\n" " grant: Grant ticket to site\n" " revoke: Revoke ticket\n" "\n" "Options:\n" " -c FILE Specify config file [default " BOOTH_DEFAULT_CONF "]\n" " Can be a path or just a name without \".conf\" suffix\n" " -s Connect/grant to a different site\n" " -F Try to grant the ticket immediately\n" " even if not all sites are reachable\n" " For manual tickets:\n" " grant a manual ticket even if it has been already granted\n" " -w Wait forever for the outcome of the request\n" " -C Wait until the ticket is committed to the CIB (grant only)\n" " -h Print this help\n" "\n" "Examples:\n" "\n" " # booth list (list tickets)\n" " # booth grant ticket-A (grant ticket here)\n" " # booth grant -s 10.121.8.183 ticket-A (grant ticket to site 10.121.8.183)\n" " # booth revoke ticket-A (revoke ticket)\n" "\n" "See the booth(8) man page for more details.\n" ); } #define OPTION_STRING "c:Dl:t:s:FhSwC" #define ATTR_OPTION_STRING "c:Dt:s:h" void safe_copy(char *dest, char *value, size_t buflen, const char *description) { int content_len = buflen - 1; if (strlen(value) >= content_len) { fprintf(stderr, "'%s' exceeds maximum %s length of %d\n", value, description, content_len); exit(EXIT_FAILURE); } strncpy(dest, value, content_len); dest[content_len] = 0; } static int host_convert(char *hostname, char *ip_str, size_t ip_size) { struct addrinfo *result = NULL, hints = {0}; int re = -1; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET; hints.ai_socktype = SOCK_DGRAM; re = getaddrinfo(hostname, NULL, &hints, &result); if (re == 0) { struct in_addr addr = ((struct sockaddr_in *)result->ai_addr)->sin_addr; const char *re_ntop = inet_ntop(AF_INET, &addr, ip_str, ip_size); if (re_ntop == NULL) { re = -1; } } freeaddrinfo(result); return re; } #define cparg(dest, descr) do { \ if (optind >= argc) \ goto missingarg; \ safe_copy(dest, argv[optind], sizeof(dest), descr); \ optind++; \ } while(0) static int read_arguments(int argc, char **argv) { int optchar; char *arg1 = argv[1]; char *op = NULL; char *cp; const char *opt_string = OPTION_STRING; char site_arg[INET_ADDRSTRLEN] = {0}; int left; cl.type = 0; if ((cp = strstr(argv[0], ATTR_PROG)) && !strcmp(cp, ATTR_PROG)) { cl.type = GEOSTORE; op = argv[1]; optind = 2; opt_string = ATTR_OPTION_STRING; } else if (argc > 1 && (strcmp(arg1, "arbitrator") == 0 || strcmp(arg1, "site") == 0 || strcmp(arg1, "start") == 0 || strcmp(arg1, "daemon") == 0)) { cl.type = DAEMON; optind = 2; } else if (argc > 1 && (strcmp(arg1, "status") == 0)) { cl.type = STATUS; optind = 2; } else if (argc > 1 && (strcmp(arg1, "client") == 0)) { cl.type = CLIENT; if (argc < 3) { print_usage(); exit(EXIT_FAILURE); } op = argv[2]; optind = 3; } if (!cl.type) { cl.type = CLIENT; op = argv[1]; optind = 2; } if (argc < 2 || !strcmp(arg1, "help") || !strcmp(arg1, "--help") || !strcmp(arg1, "-h")) { if (cl.type == GEOSTORE) print_geostore_usage(); else print_usage(); exit(EXIT_SUCCESS); } if (!strcmp(arg1, "version") || !strcmp(arg1, "--version") || !strcmp(arg1, "-V")) { printf("%s %s\n", argv[0], RELEASE_STR); exit(EXIT_SUCCESS); } if (cl.type == CLIENT) { if (!strcmp(op, "list")) cl.op = CMD_LIST; else if (!strcmp(op, "grant")) cl.op = CMD_GRANT; else if (!strcmp(op, "revoke")) cl.op = CMD_REVOKE; else if (!strcmp(op, "peers")) cl.op = CMD_PEERS; else { fprintf(stderr, "client operation \"%s\" is unknown\n", op); exit(EXIT_FAILURE); } } else if (cl.type == GEOSTORE) { if (!strcmp(op, "list")) cl.op = ATTR_LIST; else if (!strcmp(op, "set")) cl.op = ATTR_SET; else if (!strcmp(op, "get")) cl.op = ATTR_GET; else if (!strcmp(op, "delete")) cl.op = ATTR_DEL; else { fprintf(stderr, "attribute operation \"%s\" is unknown\n", op); exit(EXIT_FAILURE); } } while (optind < argc) { optchar = getopt(argc, argv, opt_string); switch (optchar) { case 'c': if (strchr(optarg, '/')) { safe_copy(cl.configfile, optarg, sizeof(cl.configfile), "config file"); } else { /* If no "/" in there, use with default directory. */ strcpy(cl.configfile, BOOTH_DEFAULT_CONF_DIR); cp = cl.configfile + strlen(BOOTH_DEFAULT_CONF_DIR); assert(cp > cl.configfile); assert(*(cp-1) == '/'); /* Write at the \0, ie. after the "/" */ safe_copy(cp, optarg, (sizeof(cl.configfile) - (cp - cl.configfile) - strlen(BOOTH_DEFAULT_CONF_EXT)), "config name"); /* If no extension, append ".conf". * Space is available, see -strlen() above. */ if (!strchr(cp, '.')) strcat(cp, BOOTH_DEFAULT_CONF_EXT); } break; case 'D': debug_level++; break; case 'S': daemonize = 0; enable_stderr = 1; break; case 'l': safe_copy(cl.lockfile, optarg, sizeof(cl.lockfile), "lock file"); break; case 't': if (cl.op == CMD_GRANT || cl.op == CMD_REVOKE) { safe_copy(cl.msg.ticket.id, optarg, sizeof(cl.msg.ticket.id), "ticket name"); } else if (cl.type == GEOSTORE) { safe_copy(cl.attr_msg.attr.tkt_id, optarg, sizeof(cl.attr_msg.attr.tkt_id), "ticket name"); } else { print_usage(); exit(EXIT_FAILURE); } break; case 's': /* For testing and debugging: allow "-s site" also for * daemon start, so that the address that should be used * can be set manually. * This makes it easier to start multiple processes * on one machine. */ if (cl.type == CLIENT || cl.type == GEOSTORE || (cl.type == DAEMON && debug_level)) { if (strcmp(optarg, OTHER_SITE) && host_convert(optarg, site_arg, INET_ADDRSTRLEN) == 0) { safe_copy(cl.site, site_arg, sizeof(cl.site), "site name"); } else { safe_copy(cl.site, optarg, sizeof(cl.site), "site name"); } } else { log_error("\"-s\" not allowed in daemon mode."); exit(EXIT_FAILURE); } break; case 'F': if (cl.type != CLIENT || cl.op != CMD_GRANT) { log_error("use \"-F\" only for client grant"); exit(EXIT_FAILURE); } cl.options |= OPT_IMMEDIATE; break; case 'w': if (cl.type != CLIENT || (cl.op != CMD_GRANT && cl.op != CMD_REVOKE)) { log_error("use \"-w\" only for grant and revoke"); exit(EXIT_FAILURE); } cl.options |= OPT_WAIT; break; case 'C': if (cl.type != CLIENT || cl.op != CMD_GRANT) { log_error("use \"-C\" only for grant"); exit(EXIT_FAILURE); } cl.options |= OPT_WAIT | OPT_WAIT_COMMIT; break; case 'h': if (cl.type == GEOSTORE) print_geostore_usage(); else print_usage(); exit(EXIT_SUCCESS); break; case ':': case '?': fprintf(stderr, "Please use '-h' for usage.\n"); exit(EXIT_FAILURE); break; case -1: /* No more parameters on cmdline, only arguments. */ goto extra_args; default: goto unknown; }; } return 0; extra_args: if (cl.type == CLIENT && !cl.msg.ticket.id[0]) { cparg(cl.msg.ticket.id, "ticket name"); } else if (cl.type == GEOSTORE) { if (cl.op != ATTR_LIST) { cparg(cl.attr_msg.attr.name, "attribute name"); } if (cl.op == ATTR_SET) { cparg(cl.attr_msg.attr.val, "attribute value"); } } if (optind == argc) return 0; left = argc - optind; fprintf(stderr, "Superfluous argument%s: %s%s\n", left == 1 ? "" : "s", argv[optind], left == 1 ? "" : "..."); exit(EXIT_FAILURE); unknown: fprintf(stderr, "unknown option: %s\n", argv[optind]); exit(EXIT_FAILURE); missingarg: fprintf(stderr, "not enough arguments\n"); exit(EXIT_FAILURE); } static void set_scheduler(void) { struct sched_param sched_param; struct rlimit rlimit; int rv; rlimit.rlim_cur = RLIM_INFINITY; rlimit.rlim_max = RLIM_INFINITY; rv = setrlimit(RLIMIT_MEMLOCK, &rlimit); if (rv < 0) { log_error("setrlimit failed"); } else { rv = mlockall(MCL_CURRENT | MCL_FUTURE); if (rv < 0) { log_error("mlockall failed"); } } rv = sched_get_priority_max(SCHED_RR); if (rv != -1) { sched_param.sched_priority = rv; rv = sched_setscheduler(0, SCHED_RR, &sched_param); if (rv == -1) log_error("could not set SCHED_RR priority %d: %s (%d)", sched_param.sched_priority, strerror(errno), errno); } else { log_error("could not get maximum scheduler priority err %d", errno); } } static int set_procfs_val(const char *path, const char *val) { int rc = -1; FILE *fp = fopen(path, "w"); if (fp) { if (fprintf(fp, "%s", val) > 0) rc = 0; fclose(fp); } return rc; } static int do_status(struct booth_config **conf, int type) { pid_t pid; int rv, status_lock_fd, ret; const char *reason = NULL; char lockfile_data[1024], *cp; assert(conf != NULL); ret = PCMK_OCF_NOT_RUNNING; rv = setup_config(conf, type); if (rv) { reason = "Error reading configuration."; ret = PCMK_OCF_UNKNOWN_ERROR; goto quit; } if (!local) { reason = "No Service IP active here."; goto quit; } rv = _lockfile(O_RDWR, &status_lock_fd, &pid); if (status_lock_fd == -1) { reason = "No PID file."; goto quit; } if (rv == 0) { close(status_lock_fd); reason = "PID file not locked."; goto quit; } if (pid) { fprintf(stdout, "booth_lockpid=%d ", pid); fflush(stdout); } rv = read(status_lock_fd, lockfile_data, sizeof(lockfile_data) - 1); if (rv < 4) { close(status_lock_fd); reason = "Cannot read lockfile data."; ret = PCMK_LSB_UNKNOWN_ERROR; goto quit; } lockfile_data[rv] = 0; close(status_lock_fd); /* Make sure it's only a single line */ cp = strchr(lockfile_data, '\r'); if (cp) *cp = 0; cp = strchr(lockfile_data, '\n'); if (cp) *cp = 0; rv = setup_tcp_listener(1); if (rv == 0) { reason = "TCP port not in use."; goto quit; } fprintf(stdout, "booth_lockfile='%s' %s\n", cl.lockfile, lockfile_data); if (!daemonize) fprintf(stderr, "Booth at %s port %d seems to be running.\n", local->addr_string, (*conf)->port); return 0; quit: log_debug("not running: %s", reason); /* Ie. "DEBUG" */ if (!daemonize) fprintf(stderr, "not running: %s\n", reason); return ret; } static int limit_this_process(void) { int rv; if (!is_root()) return 0; if (setregid(booth_conf->gid, booth_conf->gid) < 0) { rv = errno; log_error("setregid() didn't work: %s", strerror(rv)); return rv; } if (setreuid(booth_conf->uid, booth_conf->uid) < 0) { rv = errno; log_error("setreuid() didn't work: %s", strerror(rv)); return rv; } return 0; } static int lock_fd = -1; static void server_exit(void) { int rv; if (lock_fd >= 0) { /* We might not be able to delete it, but at least * make it empty. */ rv = ftruncate(lock_fd, 0); (void)rv; unlink_lockfile(lock_fd); } log_info("exiting"); } static void sig_exit_handler(int sig) { sig_exit_handler_sig = sig; sig_exit_handler_called = 1; } static void sig_usr1_handler(int sig) { sig_usr1_handler_called = 1; } static void sig_chld_handler(int sig) { sig_chld_handler_called = 1; } static int do_server(struct booth_config **conf, int type) { int rv = -1; static char log_ent[128] = DAEMON_NAME "-"; assert(conf != NULL); rv = setup_config(conf, type); if (rv < 0) { return rv; } if (!local) { log_error("Cannot find myself in the configuration."); exit(EXIT_FAILURE); } if (daemonize) { if (daemon(0, 0) < 0) { perror("daemon error"); exit(EXIT_FAILURE); } } /* * Register signal and exit handler */ signal(SIGUSR1, (__sighandler_t)sig_usr1_handler); signal(SIGTERM, (__sighandler_t)sig_exit_handler); signal(SIGINT, (__sighandler_t)sig_exit_handler); /* we'll handle errors there and then */ signal(SIGPIPE, SIG_IGN); atexit(server_exit); /* The lockfile must be written to _after_ the call to daemon(), so * that the lockfile contains the pid of the daemon, not the parent. */ lock_fd = create_lockfile(); if (lock_fd < 0) return lock_fd; strcat(log_ent, type_to_string(local->type)); cl_log_set_entity(log_ent); cl_log_enable_stderr(enable_stderr ? TRUE : FALSE); cl_log_set_facility(HA_LOG_FACILITY); cl_inherit_logging_environment(0); log_info("BOOTH %s %s daemon is starting", type_to_string(local->type), RELEASE_STR); set_scheduler(); /* we don't want to be killed by the OOM-killer */ if (set_procfs_val("/proc/self/oom_score_adj", "-999")) (void)set_procfs_val("/proc/self/oom_adj", "-16"); set_proc_title("%s %s %s for [%s]:%d", DAEMON_NAME, cl.configfile, type_to_string(local->type), local->addr_string, (*conf)->port); rv = limit_this_process(); if (rv) return rv; #ifdef COREDUMP_NURSING if (cl_enable_coredumps(TRUE) < 0){ log_error("enabling core dump failed"); } cl_cdtocoredir(); prctl(PR_SET_DUMPABLE, (unsigned long)TRUE, 0UL, 0UL, 0UL); #else if (chdir(BOOTH_CORE_DIR) < 0) { log_error("cannot change working directory to %s", BOOTH_CORE_DIR); } #endif signal(SIGCHLD, (__sighandler_t)sig_chld_handler); rv = loop(lock_fd); return rv; } static int do_client(struct booth_config **conf) { int rv; rv = setup_config(conf, CLIENT); if (rv < 0) { log_error("cannot read config"); goto out; } switch (cl.op) { case CMD_LIST: case CMD_PEERS: rv = query_get_string_answer(cl.op); break; case CMD_GRANT: case CMD_REVOKE: rv = do_command(cl.op); break; } out: return rv; } static int do_attr(struct booth_config **conf) { int rv = -1; assert(conf != NULL); rv = setup_config(conf, GEOSTORE); if (rv < 0) { log_error("cannot read config"); goto out; } /* We don't check for existence of ticket, so that asking can be * done without local configuration, too. * Although, that means that the UDP port has to be specified, too. */ if (!cl.attr_msg.attr.tkt_id[0]) { /* If the loaded configuration has only a single ticket defined, use that. */ if ((*conf)->ticket_count == 1) { strncpy(cl.attr_msg.attr.tkt_id, (*conf)->ticket[0].name, sizeof(cl.attr_msg.attr.tkt_id)); } else { rv = 1; log_error("No ticket given."); goto out; } } switch (cl.op) { case ATTR_LIST: case ATTR_GET: rv = query_get_string_answer(cl.op); break; case ATTR_SET: case ATTR_DEL: - rv = do_attr_command(cl.op); + rv = do_attr_command(booth_conf, cl.op); break; } out: return rv; } int main(int argc, char *argv[], char *envp[]) { int rv; const char *cp; #ifdef LOGGING_LIBQB enum qb_log_target_slot i; #endif init_set_proc_title(argc, argv, envp); get_time(&start_time); memset(&cl, 0, sizeof(cl)); strncpy(cl.configfile, BOOTH_DEFAULT_CONF, BOOTH_PATH_LEN - 1); cl.lockfile[0] = 0; debug_level = 0; cp = ((cp = strstr(argv[0], ATTR_PROG)) && !strcmp(cp, ATTR_PROG) ? ATTR_PROG : "booth"); #ifndef LOGGING_LIBQB cl_log_set_entity(cp); #else qb_log_init(cp, LOG_USER, LOG_DEBUG); /* prio driven by debug_level */ for (i = QB_LOG_TARGET_START; i < QB_LOG_TARGET_MAX; i++) { if (i == QB_LOG_SYSLOG || i == QB_LOG_BLACKBOX) continue; qb_log_format_set(i, "%t %H %N: [%P]: %p: %b"); } (void) qb_log_filter_ctl(QB_LOG_STDERR, QB_LOG_FILTER_ADD, QB_LOG_FILTER_FILE, "*", LOG_DEBUG); #endif cl_log_enable_stderr(TRUE); cl_log_set_facility(0); rv = read_arguments(argc, argv); if (rv < 0) goto out; switch (cl.type) { case STATUS: rv = do_status(&booth_conf, cl.type); break; case ARBITRATOR: case DAEMON: case SITE: rv = do_server(&booth_conf, cl.type); break; case CLIENT: rv = do_client(&booth_conf); break; case GEOSTORE: rv = do_attr(&booth_conf); break; } out: #if HAVE_LIBGNUTLS gnutls_global_deinit(); #endif #ifdef LOGGING_LIBQB qb_log_fini(); #endif /* Normalize values. 0x100 would be seen as "OK" by waitpid(). */ return (rv >= 0 && rv < 0x70) ? rv : 1; } diff --git a/src/manual.c b/src/manual.c index ee9e858..5fc5eeb 100644 --- a/src/manual.c +++ b/src/manual.c @@ -1,108 +1,108 @@ /* * Copyright (C) 2017 Chris Kowalczyk * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "manual.h" +#include "config.h" #include "transport.h" #include "ticket.h" -#include "config.h" #include "log.h" #include "request.h" /* For manual tickets, manual_selection function is an equivalent * of new_election function used for assigning automatic tickets. * The workflow here is much simplier, as no voting is performed, * and the current node doesn't have to wait for any responses * from other sites. */ int manual_selection(struct ticket_config *tk, struct booth_site *preference, int update_term, cmd_reason_t reason) { if (local->type != SITE) return 0; tk_log_debug("starting manual selection (caused by %s %s)", state_to_string(reason), reason == OR_AGAIN ? state_to_string(tk->election_reason) : "" ); // Manual selection is done without any delay, the leader is assigned set_leader(tk, local); set_state(tk, ST_LEADER); // Manual tickets never expire, we don't specify expiration time // Make sure that election_end field is empty time_reset(&tk->election_end); // Make sure that delay commit is empty, as manual tickets don't // wait for any kind of confirmation from other nodes time_reset(&tk->delay_commit); save_committed_tkt(tk); // Inform others about the new leader ticket_broadcast(tk, OP_HEARTBEAT, OP_ACK, RLT_SUCCESS, 0); tk->ticket_updated = 0; return 0; } /* This function is called for manual tickets that were * revoked from another site, which this site doesn't * consider as a leader. */ int process_REVOKE_for_manual_ticket ( struct ticket_config *tk, struct booth_site *sender, struct boothc_ticket_msg *msg) { int rv; // For manual tickets, we may end up having two leaders. // If one of them is revoked, it will send information // to all members of the GEO cluster. // We may find ourselves here if this particular site // has not been following the leader which had been revoked // (and which had sent this message). // We send the ACK, to satisfy the requestor. rv = send_msg(OP_ACK, tk, sender, msg); // Mark this ticket as not granted to the sender anymore. mark_ticket_as_revoked(tk, sender); if (tk->state == ST_LEADER) { tk_log_warn("%s wants to revoke ticket, " "but this site is itself a leader", site_string(sender)); // Because another leader is presumably stepping down, // let's notify other sites that now we are the only leader. ticket_broadcast(tk, OP_HEARTBEAT, OP_ACK, RLT_SUCCESS, 0); } else { tk_log_warn("%s wants to revoke ticket, " "but this site is not following it", site_string(sender)); } return rv; } diff --git a/src/pacemaker.c b/src/pacemaker.c index 084dd4c..9febb08 100644 --- a/src/pacemaker.c +++ b/src/pacemaker.c @@ -1,432 +1,435 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include "ticket.h" #include "log.h" #include "attr.h" #include "pacemaker.h" #include "inline-fn.h" #define COMMAND_MAX 2048 const char * interpret_rv(int rv) { static char text[64]; if (rv == 0) return "0"; if (WIFSIGNALED(rv)) sprintf(text, "got signal %d", WTERMSIG(rv)); else sprintf(text, "exit code %d", WEXITSTATUS(rv)); return text; } static int pcmk_write_ticket_atomic(struct ticket_config *tk, int grant) { char cmd[COMMAND_MAX]; int rv; /* The long format (--attr-value=) for attribute value is used instead of "-v", * so that NO_ONE (which is -1) isn't seen as another option. */ rv = snprintf(cmd, COMMAND_MAX, "crm_ticket -t '%s' " "%s --force " "-S owner --attr-value=%" PRIi32 " " "-S expires --attr-value=%" PRIi64 " " "-S term --attr-value=%" PRIi64 " " "-S booth-cfg-name --attr-value=%s", tk->name, (grant > 0 ? "-g" : grant < 0 ? "-r" : ""), (int32_t)get_node_id(tk->leader), (int64_t)wall_ts(&tk->term_expires), (int64_t)tk->current_term, booth_conf->name); if (rv < 0 || rv >= COMMAND_MAX) { log_error("pcmk_write_ticket_atomic: cannot format crm_ticket cmdline (probably too long)"); return -1; } rv = system(cmd); log_debug("command: '%s' was executed", cmd); if (rv != 0) log_error("\"%s\" failed, %s", cmd, interpret_rv(rv)); return rv; } static int pcmk_grant_ticket(struct ticket_config *tk) { return pcmk_write_ticket_atomic(tk, +1); } static int pcmk_revoke_ticket(struct ticket_config *tk) { return pcmk_write_ticket_atomic(tk, -1); } static int _run_crm_ticket(char *cmd) { int i, rv; /* If there are errors, there's not much we can do but retry ... */ for (i=0; i<3 && (rv = system(cmd)); i++) ; log_debug("'%s' gave result %s", cmd, interpret_rv(rv)); return rv; } static int pcmk_set_attr(struct ticket_config *tk, const char *attr, const char *val) { char cmd[COMMAND_MAX]; int rv; rv = snprintf(cmd, COMMAND_MAX, "crm_ticket -t '%s' -S '%s' --attr-value='%s'", tk->name, attr, val); if (rv < 0 || rv >= COMMAND_MAX) { log_error("pcmk_set_attr: cannot format crm_ticket cmdline (probably too long)"); return -1; } return _run_crm_ticket(cmd); } static int pcmk_del_attr(struct ticket_config *tk, const char *attr) { char cmd[COMMAND_MAX]; int rv; rv = snprintf(cmd, COMMAND_MAX, "crm_ticket -t '%s' -D '%s'", tk->name, attr); if (rv < 0 || rv >= COMMAND_MAX) { log_error("pcmk_del_attr: cannot format crm_ticket cmdline (probably too long)"); return -1; } return _run_crm_ticket(cmd); } -typedef int (*attr_f)(struct ticket_config *tk, const char *name, - const char *val); +typedef int (*attr_f)(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val); struct attr_tab { const char *name; attr_f handling_f; }; -static int save_expires(struct ticket_config *tk, const char *name, - const char *val) +static int save_expires(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val) { secs2tv(unwall_ts(atol(val)), &tk->term_expires); return 0; } -static int save_term(struct ticket_config *tk, const char *name, - const char *val) +static int save_term(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val) { tk->current_term = atol(val); return 0; } static int parse_boolean(const char *val) { long v; if (!strncmp(val, "false", 5)) { v = 0; } else if (!strncmp(val, "true", 4)) { v = 1; } else { v = atol(val); } return v; } -static int save_granted(struct ticket_config *tk, const char *name, - const char *val) +static int save_granted(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val) { tk->is_granted = parse_boolean(val); return 0; } -static int save_owner(struct ticket_config *tk, const char *name, - const char *val) +static int save_owner(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val) { /* No check, node could have been deconfigured. */ tk->leader = NULL; - return !find_site_by_id(atol(val), &tk->leader); + return !find_site_by_id(conf, atol(val), &tk->leader); } -static int ignore_attr(struct ticket_config *tk, const char *name, - const char *val) +static int ignore_attr(struct booth_config *conf, struct ticket_config *tk, + const char *name, const char *val) { return 0; } static int save_attr(struct ticket_config *tk, const char *name, const char *val) { /* tell store_geo_attr not to store time, we don't have that * information available */ return store_geo_attr(tk, name, val, 1); } struct attr_tab attr_handlers[] = { { "expires", save_expires}, { "term", save_term}, { "granted", save_granted}, { "owner", save_owner}, { "id", ignore_attr}, { "last-granted", ignore_attr}, { "booth-cfg-name", ignore_attr}, { NULL, 0}, }; /* get_attr is currently not used and has not been tested */ static int pcmk_get_attr(struct ticket_config *tk, const char *attr, const char **vp) { char cmd[COMMAND_MAX]; char line[BOOTH_ATTRVAL_LEN+1]; int rv = 0, pipe_rv; int res; FILE *p; *vp = NULL; res = snprintf(cmd, COMMAND_MAX, "crm_ticket -t '%s' -G '%s' --quiet", tk->name, attr); if (res < 0 || res >= COMMAND_MAX) { log_error("pcmk_get_attr: cannot format crm_ticket cmdline (probably too long)"); return -1; } p = popen(cmd, "r"); if (p == NULL) { pipe_rv = errno; log_error("popen error %d (%s) for \"%s\"", pipe_rv, strerror(pipe_rv), cmd); return (pipe_rv != 0 ? pipe_rv : EINVAL); } if (fgets(line, BOOTH_ATTRVAL_LEN, p) == NULL) { rv = ENODATA; goto out; } *vp = g_strdup(line); out: pipe_rv = pclose(p); if (!pipe_rv) { log_debug("command \"%s\"", cmd); } else if (WEXITSTATUS(pipe_rv) == 6) { log_info("command \"%s\", ticket not found", cmd); } else { log_error("command \"%s\" %s", cmd, interpret_rv(pipe_rv)); } return rv | pipe_rv; } -static int save_attributes(struct ticket_config *tk, xmlDocPtr doc) +static int save_attributes(struct booth_config *conf, struct ticket_config *tk, + xmlDocPtr doc) { int rv = 0, rc; xmlNodePtr n; xmlAttrPtr attr; xmlChar *v; struct attr_tab *atp; n = xmlDocGetRootElement(doc); if (n == NULL) { tk_log_error("crm_ticket xml output empty"); return -EINVAL; } if (xmlStrcmp(n->name, (const xmlChar *)"ticket_state")) { tk_log_error("crm_ticket xml root element not ticket_state"); return -EINVAL; } for (attr = n->properties; attr; attr = attr->next) { v = xmlGetProp(n, attr->name); for (atp = attr_handlers; atp->name; atp++) { if (!strcmp(atp->name, (const char *) attr->name)) { - rc = atp->handling_f(tk, (const char *) attr->name, + rc = atp->handling_f(conf, tk, + (const char *) attr->name, (const char *) v); break; } } if (!atp->name) { rc = save_attr(tk, (const char *) attr->name, (const char *) v); } if (rc) { tk_log_error("error storing attribute %s", attr->name); rv |= rc; } xmlFree(v); } return rv; } #define CHUNK_SIZE 256 -static int parse_ticket_state(struct ticket_config *tk, FILE *p) +static int parse_ticket_state(struct booth_config *conf, struct ticket_config *tk, + FILE *p) { int rv = 0; GString *input = NULL; char line[CHUNK_SIZE]; xmlDocPtr doc = NULL; int opts = XML_PARSE_COMPACT | XML_PARSE_NONET; /* skip first two lines of output */ if (fgets(line, CHUNK_SIZE-1, p) == NULL || fgets(line, CHUNK_SIZE-1, p) == NULL) { tk_log_error("crm_ticket xml output empty"); rv = ENODATA; goto out; } input = g_string_sized_new(CHUNK_SIZE); if (!input) { log_error("out of memory"); rv = -1; goto out; } while (fgets(line, CHUNK_SIZE-1, p) != NULL) { if (!g_string_append(input, line)) { log_error("out of memory"); rv = -1; goto out; } } doc = xmlReadDoc((const xmlChar *) input->str, NULL, NULL, opts); if (doc == NULL) { const xmlError *errptr = xmlGetLastError(); if (errptr) { tk_log_error("crm_ticket xml parse failed (domain=%d, level=%d, code=%d): %s", errptr->domain, errptr->level, errptr->code, errptr->message); } else { tk_log_error("crm_ticket xml parse failed"); } rv = -EINVAL; goto out; } - rv = save_attributes(tk, doc); + rv = save_attributes(conf, tk, doc); out: if (doc) xmlFreeDoc(doc); if (input) g_string_free(input, TRUE); return rv; } -static int pcmk_load_ticket(struct ticket_config *tk) +static int pcmk_load_ticket(struct booth_config *conf, struct ticket_config *tk) { char cmd[COMMAND_MAX]; int rv = 0, pipe_rv; int res; FILE *p; res = snprintf(cmd, COMMAND_MAX, "crm_ticket -t '%s' -q", tk->name); if (res < 0 || res >= COMMAND_MAX) { log_error("pcmk_load_ticket: cannot format crm_ticket cmdline (probably too long)"); return -1; } p = popen(cmd, "r"); if (p == NULL) { pipe_rv = errno; log_error("popen error %d (%s) for \"%s\"", pipe_rv, strerror(pipe_rv), cmd); return (pipe_rv != 0 ? pipe_rv : EINVAL); } - rv = parse_ticket_state(tk, p); + rv = parse_ticket_state(conf, tk, p); if (!tk->leader) { /* Hmm, no site found for the ticket we have in the * CIB!? * Assume that the ticket belonged to us if it was * granted here! */ log_warn("%s: no site matches; site got reconfigured?", tk->name); if (tk->is_granted) { log_warn("%s: granted here, assume it belonged to us", tk->name); set_leader(tk, local); } } pipe_rv = pclose(p); if (!pipe_rv) { log_debug("command \"%s\"", cmd); } else if (WEXITSTATUS(pipe_rv) == 6) { log_info("command \"%s\", ticket not found", cmd); } else { log_error("command \"%s\" %s", cmd, interpret_rv(pipe_rv)); } return rv | pipe_rv; } struct ticket_handler pcmk_handler = { .grant_ticket = pcmk_grant_ticket, .revoke_ticket = pcmk_revoke_ticket, .load_ticket = pcmk_load_ticket, .set_attr = pcmk_set_attr, .get_attr = pcmk_get_attr, .del_attr = pcmk_del_attr, }; diff --git a/src/pacemaker.h b/src/pacemaker.h index 3a81724..412fe6f 100644 --- a/src/pacemaker.h +++ b/src/pacemaker.h @@ -1,39 +1,39 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _PACEMAKER_H #define _PACEMAKER_H #include #include "config.h" struct ticket_handler { int (*grant_ticket) (struct ticket_config *tk); int (*revoke_ticket) (struct ticket_config *tk); - int (*load_ticket) (struct ticket_config *tk); + int (*load_ticket) (struct booth_config *conf, struct ticket_config *tk); int (*set_attr) (struct ticket_config *tk, const char *a, const char *v); int (*get_attr) (struct ticket_config *tk, const char *a, const char **vp); int (*del_attr) (struct ticket_config *tk, const char *a); }; extern struct ticket_handler pcmk_handler; const char * interpret_rv(int rv); #endif /* _PACEMAKER_H */ diff --git a/src/raft.c b/src/raft.c index dbe773c..ec0cf99 100644 --- a/src/raft.c +++ b/src/raft.c @@ -1,1011 +1,1011 @@ /* * Copyright (C) 2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include "booth.h" #include "timer.h" +#include "config.h" #include "transport.h" #include "inline-fn.h" -#include "config.h" #include "raft.h" #include "ticket.h" #include "request.h" #include "log.h" #include "manual.h" inline static void clear_election(struct ticket_config *tk) { int i; struct booth_site *site; tk_log_debug("clear election"); tk->votes_received = 0; - FOREACH_NODE(i, site) { + _FOREACH_NODE(i, site) { tk->votes_for[site->index] = NULL; } } inline static void record_vote(struct ticket_config *tk, struct booth_site *who, struct booth_site *vote) { tk_log_debug("site %s votes for %s", site_string(who), site_string(vote)); if (!tk->votes_for[who->index]) { tk->votes_for[who->index] = vote; tk->votes_received |= who->bitmask; } else { if (tk->votes_for[who->index] != vote) tk_log_warn("%s voted previously " "for %s and now wants to vote for %s (ignored)", site_string(who), site_string(tk->votes_for[who->index]), site_string(vote)); } } static void update_term_from_msg(struct ticket_config *tk, struct boothc_ticket_msg *msg) { uint32_t i; i = ntohl(msg->ticket.term); /* if we failed to start the election, then accept the term * from the leader * */ if (tk->state == ST_CANDIDATE) { tk->current_term = i; } else { tk->current_term = max(i, tk->current_term); } } static void set_ticket_expiry(struct ticket_config *tk, int duration) { set_future_time(&tk->term_expires, duration); } static void update_ticket_from_msg(struct ticket_config *tk, struct booth_site *sender, struct boothc_ticket_msg *msg) { int duration; tk_log_info("updating from %s (%d/%d)", site_string(sender), ntohl(msg->ticket.term), msg_term_time(msg)); duration = min(tk->term_duration, msg_term_time(msg)); set_ticket_expiry(tk, duration); update_term_from_msg(tk, msg); } static void copy_ticket_from_msg(struct ticket_config *tk, struct boothc_ticket_msg *msg) { set_ticket_expiry(tk, msg_term_time(msg)); tk->current_term = ntohl(msg->ticket.term); } static void become_follower(struct ticket_config *tk, struct boothc_ticket_msg *msg) { copy_ticket_from_msg(tk, msg); set_state(tk, ST_FOLLOWER); time_reset(&tk->delay_commit); tk->in_election = 0; /* if we're following and the ticket was granted here * then commit to CIB right away (we're probably restarting) */ if (tk->is_granted) { disown_ticket(tk); ticket_write(tk); } } static void won_elections(struct ticket_config *tk) { set_leader(tk, local); set_state(tk, ST_LEADER); set_ticket_expiry(tk, tk->term_duration); time_reset(&tk->election_end); tk->voted_for = NULL; if (is_time_set(&tk->delay_commit) && all_sites_replied(tk)) { time_reset(&tk->delay_commit); tk_log_debug("reset delay commit as all sites replied"); } save_committed_tkt(tk); ticket_broadcast(tk, OP_HEARTBEAT, OP_ACK, RLT_SUCCESS, 0); tk->ticket_updated = 0; } /* if more than one member got the same (and maximum within that * election) number of votes, then that is a tie */ static int is_tie(struct ticket_config *tk) { int i; struct booth_site *v; int count[MAX_NODES] = { 0, }; int max_votes = 0, max_cnt = 0; for (i = 0; i < booth_conf->site_count; i++) { v = tk->votes_for[i]; if (!v) continue; count[v->index]++; max_votes = max(max_votes, count[v->index]); } for (i = 0; i < booth_conf->site_count; i++) { if (count[i] == max_votes) max_cnt++; } return max_cnt > 1; } static struct booth_site *majority_votes(struct ticket_config *tk) { int i, n; struct booth_site *v; int count[MAX_NODES] = { 0, }; for (i = 0; i < booth_conf->site_count; i++) { v = tk->votes_for[i]; if (!v || v == no_leader) continue; n = v->index; count[n]++; tk_log_debug("Majority: %d %s wants %d %s => %d", i, site_string(&booth_conf->site[i]), n, site_string(v), count[n]); if (count[n]*2 <= booth_conf->site_count) continue; tk_log_debug("Majority reached: %d of %d for %s", count[n], booth_conf->site_count, site_string(v)); return v; } return NULL; } void elections_end(struct ticket_config *tk) { struct booth_site *new_leader; if (is_past(&tk->election_end)) { /* This is previous election timed out */ tk_log_info("elections finished"); } tk->in_election = 0; new_leader = majority_votes(tk); if (new_leader == local) { won_elections(tk); tk_log_info("granted successfully here"); } else if (new_leader) { tk_log_info("ticket granted at %s", site_string(new_leader)); } else { tk_log_info("nobody won elections, new elections"); tk->outcome = RLT_MORE; foreach_tkt_req(tk, notify_client); if (!new_election(tk, NULL, is_tie(tk) ? 2 : 0, OR_AGAIN)) { ticket_activate_timeout(tk); } } } static int newer_term(struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg, int in_election) { uint32_t term; /* it may happen that we hear about our newer term */ if (leader == local) return 0; term = ntohl(msg->ticket.term); /* ยง5.1 */ if (term > tk->current_term) { set_state(tk, ST_FOLLOWER); if (!in_election) { set_leader(tk, leader); tk_log_info("from %s: higher term %d vs. %d, following %s", site_string(sender), term, tk->current_term, ticket_leader_string(tk)); } else { tk_log_debug("from %s: higher term %d vs. %d (election)", site_string(sender), term, tk->current_term); } tk->current_term = term; return 1; } return 0; } static int msg_term_invalid(struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg) { uint32_t term; term = ntohl(msg->ticket.term); /* ยง5.1 */ if (is_term_invalid(tk, term)) { tk_log_info("got invalid term from %s " "(%d), ignoring", site_string(sender), term); return 1; } return 0; } static int term_too_low(struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg) { uint32_t term; term = ntohl(msg->ticket.term); /* ยง5.1 */ if (term < tk->current_term) { tk_log_info("sending reject to %s, its term too low " "(%d vs. %d)", site_string(sender), term, tk->current_term ); send_reject(sender, tk, RLT_TERM_OUTDATED, msg); return 1; } return 0; } /* For follower. */ static int answer_HEARTBEAT ( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { uint32_t term; term = ntohl(msg->ticket.term); tk_log_debug("heartbeat from leader: %s, have %s; term %d vs %d", site_string(leader), ticket_leader_string(tk), term, tk->current_term); if (term < tk->current_term) { if (sender == tk->leader) { tk_log_info("trusting leader %s with a lower term (%d vs %d)", site_string(leader), term, tk->current_term); } else if (is_owned(tk)) { tk_log_warn("different leader %s with a lower term " "(%d vs %d), sending reject", site_string(leader), term, tk->current_term); return send_reject(sender, tk, RLT_TERM_OUTDATED, msg); } } /* got heartbeat, no rejects expected anymore */ tk->expect_more_rejects = 0; /* Needed? */ newer_term(tk, sender, leader, msg, 0); become_follower(tk, msg); /* Racy??? */ assert(sender == leader || !leader); set_leader(tk, leader); /* Ack the heartbeat (we comply). */ return send_msg(OP_ACK, tk, sender, msg); } static int process_UPDATE ( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { if (is_owned(tk) && sender != tk->leader) { tk_log_warn("different leader %s wants to update " "our ticket, sending reject", site_string(leader)); mark_ticket_as_granted(tk, sender); return send_reject(sender, tk, RLT_TERM_OUTDATED, msg); } tk_log_debug("leader %s wants to update our ticket", site_string(leader)); become_follower(tk, msg); set_leader(tk, leader); ticket_write(tk); /* run ticket_cron if the ticket expires */ set_ticket_wakeup(tk); return send_msg(OP_ACK, tk, sender, msg); } static int process_REVOKE ( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { int rv; if (tk->state == ST_INIT && tk->leader == no_leader) { /* assume that our ack got lost */ rv = send_msg(OP_ACK, tk, sender, msg); } else if (tk->leader != sender) { if (!is_manual(tk)) { tk_log_error("%s wants to revoke ticket, " "but it is not granted there (ignoring)", site_string(sender)); return -1; } else { rv = process_REVOKE_for_manual_ticket(tk, sender, msg); // Ticket data stored in this site is not modified. This means // that this site will still follow another leader (the one which // has not been revoked) or be a leader itself. } } else if (tk->state != ST_FOLLOWER) { tk_log_error("unexpected ticket revoke from %s " "(in state %s) (ignoring)", site_string(sender), state_to_string(tk->state)); return -1; } else { tk_log_info("%s revokes ticket", site_string(tk->leader)); save_committed_tkt(tk); reset_ticket_and_set_no_leader(tk); ticket_write(tk); rv = send_msg(OP_ACK, tk, sender, msg); } return rv; } /* For leader. */ static int process_ACK( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { uint32_t term; int req; term = ntohl(msg->ticket.term); if (newer_term(tk, sender, leader, msg, 0)) { /* unexpected higher term */ tk_log_warn("got higher term from %s (%d vs. %d)", site_string(sender), term, tk->current_term); return 0; } /* Don't send a reject. */ if (term < tk->current_term) { /* Doesn't know what he's talking about - perhaps * doesn't receive our packets? */ tk_log_warn("unexpected term " "from %s (%d vs. %d) (ignoring)", site_string(sender), term, tk->current_term); return 0; } /* if the ticket is to be revoked, further processing is not * interesting (and dangerous) */ if (tk->next_state == ST_INIT || tk->state == ST_INIT) return 0; req = ntohl(msg->header.request); if ((req == OP_UPDATE || req == OP_HEARTBEAT) && term == tk->current_term && leader == tk->leader) { if (majority_of_bits(tk, tk->acks_received)) { /* OK, at least half of the nodes are reachable; * Update the ticket and send update messages out */ return leader_update_ticket(tk); } } return 0; } static int process_VOTE_FOR( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { if (leader == no_leader) { /* leader wants to step down? */ if (sender == tk->leader && (tk->state == ST_FOLLOWER || tk->state == ST_CANDIDATE)) { tk_log_info("%s wants to give the ticket away (ticket release)", site_string(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_STEPDOWN); } } else { tk_log_info("%s votes for none, ignoring (duplicate ticket release?)", site_string(sender)); } return 0; } if (tk->state != ST_CANDIDATE) { /* lost candidate status, somebody rejected our proposal */ tk_log_info("candidate status lost, ignoring VtFr from %s", site_string(sender)); return 0; } if (term_too_low(tk, sender, leader, msg)) return 0; if (newer_term(tk, sender, leader, msg, 0)) { clear_election(tk); } record_vote(tk, sender, leader); /* only if all voted can we take the ticket now, otherwise * wait for timeout in ticket_cron */ if (!tk->acks_expected) { /* ยง5.2 */ elections_end(tk); } return 0; } static int process_REJECTED( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { uint32_t rv; rv = ntohl(msg->header.result); if (tk->state == ST_CANDIDATE && leader == local) { /* the sender has us as the leader (!) * the elections will time out, then we can try again */ tk_log_warn("ticket was granted to us " "(and we didn't know)"); tk->expect_more_rejects = 1; return 0; } if (tk->state == ST_CANDIDATE && rv == RLT_TERM_OUTDATED) { tk_log_warn("ticket outdated (term %d), granted to %s", ntohl(msg->ticket.term), site_string(leader) ); set_leader(tk, leader); tk->expect_more_rejects = 1; become_follower(tk, msg); return 0; } if (tk->state == ST_CANDIDATE && rv == RLT_TERM_STILL_VALID) { if (tk->lost_leader == leader) { if (tk->election_reason == OR_TKT_LOST) { tk_log_warn("%s still has the ticket valid, " "we'll backup a bit", site_string(sender)); } else { tk_log_warn("%s unexpectedly rejects elections", site_string(sender)); } } else { tk_log_warn("ticket was granted to %s " "(and we didn't know)", site_string(leader)); } set_leader(tk, leader); become_follower(tk, msg); tk->expect_more_rejects = 1; return 0; } if (tk->state == ST_CANDIDATE && rv == RLT_YOU_OUTDATED) { set_leader(tk, leader); tk->expect_more_rejects = 1; if (leader && leader != no_leader) { tk_log_warn("our ticket is outdated, granted to %s", site_string(leader)); become_follower(tk, msg); } else { tk_log_warn("our ticket is outdated and revoked"); update_ticket_from_msg(tk, sender, msg); set_state(tk, ST_INIT); } return 0; } if (!tk->expect_more_rejects) { tk_log_warn("from %s: in state %s, got %s (unexpected reject)", site_string(sender), state_to_string(tk->state), state_to_string(rv)); } return 0; } static int ticket_seems_ok(struct ticket_config *tk) { int left; left = term_time_left(tk); if (!left) return 0; /* quite sure */ if (tk->state == ST_CANDIDATE) return 0; /* in state of flux */ if (tk->state == ST_LEADER) return 1; /* quite sure */ if (tk->state == ST_FOLLOWER && left >= tk->term_duration/3) return 1; /* almost quite sure */ return 0; } static int test_reason( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { int reason; reason = ntohl(msg->header.reason); if (reason == OR_TKT_LOST) { if (tk->state == ST_INIT && tk->leader == no_leader) { tk_log_warn("%s claims that the ticket is lost, " "but it's in %s state (reject sent)", site_string(sender), state_to_string(tk->state) ); return RLT_YOU_OUTDATED; } if (ticket_seems_ok(tk)) { tk_log_warn("%s claims that the ticket is lost, " "but it is ok here (reject sent)", site_string(sender)); return RLT_TERM_STILL_VALID; } } return 0; } /* ยง5.2 */ static int answer_REQ_VOTE( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { int valid; struct boothc_ticket_msg omsg; cmd_result_t inappr_reason; int reason; inappr_reason = test_reason(tk, sender, leader, msg); if (inappr_reason) return send_reject(sender, tk, inappr_reason, msg); valid = term_time_left(tk); reason = ntohl(msg->header.reason); /* valid tickets are not allowed only if the sender thinks * the ticket got lost */ if (sender != tk->leader && valid && reason != OR_STEPDOWN) { tk_log_warn("election from %s with reason %s rejected " "(we have %s as ticket owner), ticket still valid for %ds", site_string(sender), state_to_string(reason), site_string(tk->leader), valid); return send_reject(sender, tk, RLT_TERM_STILL_VALID, msg); } if (term_too_low(tk, sender, leader, msg)) return 0; /* set this, so that we know not to send status for the * ticket */ tk->in_election = 1; /* reset ticket's leader on not valid tickets */ if (!valid) set_leader(tk, NULL); /* if it's a newer term or ... */ if (newer_term(tk, sender, leader, msg, 1)) { clear_election(tk); goto vote_for_sender; } /* ... we didn't vote yet, then vote for the sender */ /* ยง5.2, ยง5.4 */ if (!tk->voted_for) { vote_for_sender: tk->voted_for = sender; record_vote(tk, sender, leader); } init_ticket_msg(&omsg, OP_VOTE_FOR, OP_REQ_VOTE, RLT_SUCCESS, 0, tk); omsg.ticket.leader = htonl(get_node_id(tk->voted_for)); return booth_udp_send_auth(sender, &omsg, sendmsglen(&omsg)); } #define is_reason(r, tk) \ (reason == (r) || (reason == OR_AGAIN && (tk)->election_reason == (r))) int new_election(struct ticket_config *tk, struct booth_site *preference, int update_term, cmd_reason_t reason) { struct booth_site *new_leader; if (local->type != SITE) return 0; if ((is_reason(OR_TKT_LOST, tk) || is_reason(OR_STEPDOWN, tk)) && check_attr_prereq(tk, GRANT_AUTO)) { tk_log_info("attribute prerequisite not met, " "not starting elections"); return 0; } /* elections were already started, but not yet finished/timed out */ if (is_time_set(&tk->election_end) && !is_past(&tk->election_end)) return 1; if (ANYDEBUG) { int tdiff; if (is_time_set(&tk->election_end)) { tdiff = -time_left(&tk->election_end); tk_log_debug("starting elections, previous finished since " intfmt(tdiff)); } else { tk_log_debug("starting elections"); } tk_log_debug("elections caused by %s %s", state_to_string(reason), reason == OR_AGAIN ? state_to_string(tk->election_reason) : "" ); } /* ยง5.2 */ /* If there was _no_ answer, don't keep incrementing the term number * indefinitely. If there was no peer, there'll probably be no one * listening now either. However, we don't know if we were * invoked due to a timeout (caller does). */ /* increment the term only if either the current term was * valid or if there was a tie (in that case update_term > 1) */ if ((update_term > 1) || (update_term && tk->last_valid_tk && tk->last_valid_tk->current_term >= tk->current_term)) { /* save the previous term, we may need to send out the * MY_INDEX message */ if (tk->state != ST_CANDIDATE) { save_committed_tkt(tk); } tk->current_term++; } set_future_time(&tk->election_end, tk->timeout); tk->in_election = 1; tk_log_info("starting new election (term=%d)", tk->current_term); clear_election(tk); new_leader = preference ? preference : local; record_vote(tk, local, new_leader); tk->voted_for = new_leader; set_state(tk, ST_CANDIDATE); /* some callers may want just to repeat on timeout */ if (reason == OR_AGAIN) { reason = tk->election_reason; } else { tk->election_reason = reason; } ticket_broadcast(tk, OP_REQ_VOTE, OP_VOTE_FOR, RLT_SUCCESS, reason); add_random_delay(tk); return 0; } /* we were a leader and somebody says that they have a more up * to date ticket * there was probably connectivity loss * tricky */ static int leader_handle_newer_ticket( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { update_term_from_msg(tk, msg); if (leader != no_leader && leader && leader != local) { /* eek, two leaders, split brain */ /* normally shouldn't happen; run election */ tk_log_error("from %s: ticket granted to %s! (revoking locally)", site_string(sender), site_string(leader) ); } else if (term_time_left(tk)) { /* eek, two leaders, split brain */ /* normally shouldn't happen; run election */ tk_log_error("from %s: ticket granted to %s! (revoking locally)", site_string(sender), site_string(leader) ); } set_next_state(tk, ST_LEADER); return 0; } /* reply to STATUS */ static int process_MY_INDEX ( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { int i; int expired; expired = !msg_term_time(msg); /* test against the last valid(!) ticket we have */ i = my_last_term(tk) - ntohl(msg->ticket.term); if (i > 0) { /* let them know about our newer ticket */ send_msg(OP_MY_INDEX, tk, sender, msg); if (tk->state == ST_LEADER) { tk_log_info("sending ticket update to %s", site_string(sender)); return send_msg(OP_UPDATE, tk, sender, msg); } } /* we have a newer or equal ticket and theirs is expired, * nothing more to do here */ if (i >= 0 && expired) { return 0; } if (tk->state == ST_LEADER) { /* we're the leader, thread carefully */ if (expired) { /* if their ticket is expired, * nothing more to do */ return 0; } if (i < 0) { /* they have a newer ticket, trouble if we're already leader * for it */ tk_log_warn("from %s: more up to date ticket at %s", site_string(sender), site_string(leader) ); return leader_handle_newer_ticket(tk, sender, leader, msg); } else { /* we have the ticket and we don't care */ return 0; } } else if (tk->state == ST_CANDIDATE) { if (leader == local) { /* a belated MY_INDEX, we're already trying to get the * ticket */ return 0; } } /* their ticket is either newer or not expired, don't * ignore it */ update_ticket_from_msg(tk, sender, msg); set_leader(tk, leader); update_ticket_state(tk, sender); save_committed_tkt(tk); set_ticket_wakeup(tk); return 0; } int raft_answer( struct ticket_config *tk, struct booth_site *sender, struct booth_site *leader, struct boothc_ticket_msg *msg ) { int cmd, req; int rv; rv = 0; cmd = ntohl(msg->header.cmd); req = ntohl(msg->header.request); if (req) tk_log_debug("got %s (req %s) from %s", state_to_string(cmd), state_to_string(req), site_string(sender)); else tk_log_debug("got %s from %s", state_to_string(cmd), site_string(sender)); /* don't process tickets with invalid term */ if (cmd != OP_STATUS && msg_term_invalid(tk, sender, leader, msg)) return 0; switch (cmd) { case OP_REQ_VOTE: rv = answer_REQ_VOTE(tk, sender, leader, msg); break; case OP_VOTE_FOR: rv = process_VOTE_FOR(tk, sender, leader, msg); break; case OP_ACK: if (tk->leader == local && tk->state == ST_LEADER) rv = process_ACK(tk, sender, leader, msg); break; case OP_HEARTBEAT: if ((tk->leader != local || !term_time_left(tk)) && (tk->state == ST_INIT || tk->state == ST_FOLLOWER || tk->state == ST_CANDIDATE)) rv = answer_HEARTBEAT(tk, sender, leader, msg); else { tk_log_warn("unexpected message %s, from %s", state_to_string(cmd), site_string(sender)); mark_ticket_as_granted(tk, sender); if (ticket_seems_ok(tk)) send_reject(sender, tk, RLT_TERM_STILL_VALID, msg); rv = -EINVAL; } break; case OP_UPDATE: if (((tk->leader != local && tk->leader == leader) || !is_owned(tk)) && (tk->state == ST_INIT || tk->state == ST_FOLLOWER || tk->state == ST_CANDIDATE)) { rv = process_UPDATE(tk, sender, leader, msg); } else { tk_log_warn("unexpected message %s, from %s", state_to_string(cmd), site_string(sender)); if (ticket_seems_ok(tk)) send_reject(sender, tk, RLT_TERM_STILL_VALID, msg); rv = -EINVAL; } break; case OP_REJECTED: rv = process_REJECTED(tk, sender, leader, msg); break; case OP_REVOKE: rv = process_REVOKE(tk, sender, leader, msg); break; case OP_MY_INDEX: rv = process_MY_INDEX(tk, sender, leader, msg); break; case OP_STATUS: if (!tk->in_election) rv = send_msg(OP_MY_INDEX, tk, sender, msg); break; default: tk_log_error("unknown message %s, from %s", state_to_string(cmd), site_string(sender)); rv = -EINVAL; } return rv; } diff --git a/src/ticket.c b/src/ticket.c index 1e2b50a..353f080 100644 --- a/src/ticket.c +++ b/src/ticket.c @@ -1,1424 +1,1424 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "b_config.h" #include #include #include #include #include #include #include #include #ifndef RANGE2RANDOM_GLIB #include #else #include "alt/range2random_glib.h" #endif #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" #include "manual.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; iname, ticket, sizeof(tk->name))) { if (found) *found = tk; 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); } /* 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) { if (tk->state != ST_LEADER) { tk_log_info("ticket state not yet consistent, " "delaying ticket grant to CIB"); return 1; } pcmk_handler.grant_ticket(tk); } else { pcmk_handler.revoke_ticket(tk); } tk->update_cib = 0; return 0; } void save_committed_tkt(struct ticket_config *tk) { if (!tk->last_valid_tk) { tk->last_valid_tk = malloc(sizeof(struct ticket_config)); if (!tk->last_valid_tk) { log_error("out of memory"); return; } } memcpy(tk->last_valid_tk, tk, sizeof(struct ticket_config)); } static void ext_prog_failed(struct ticket_config *tk, int start_election) { if (!is_manual(tk)) { /* 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); } } } else { /* There is not much we can do now because * the manual ticket cannot be relocated. * Just warn the user. */ if (tk->leader == local) { save_committed_tkt(tk); reset_ticket(tk); ticket_write(tk); log_error("external test failed on the specified machine, cannot acquire a manual ticket"); } } } #define attr_found(geo_ap, ap) \ ((geo_ap) && !strcmp((geo_ap)->val, (ap)->attr_val)) int check_attr_prereq(struct ticket_config *tk, grant_type_e grant_type) { GList *el; struct attr_prereq *ap; struct geo_attr *geo_ap; for (el = g_list_first(tk->attr_prereqs); el; el = g_list_next(el)) { ap = (struct attr_prereq *)el->data; if (ap->grant_type != grant_type) continue; geo_ap = (struct geo_attr *)g_hash_table_lookup(tk->attr, ap->attr_name); switch(ap->op) { case ATTR_OP_EQ: if (!attr_found(geo_ap, ap)) goto fail; break; case ATTR_OP_NE: if (attr_found(geo_ap, ap)) goto fail; break; default: break; } } return 0; fail: tk_log_warn("'%s' attr-prereq failed", ap->attr_name); return 1; } /* 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_test.path) return 0; switch(tk_test.progstate) { case EXTPROG_IDLE: rv = run_handler(tk); if (rv == RUNCMD_ERR) { tk_log_warn("couldn't run external test, not allowed to acquire ticket"); ext_prog_failed(tk, start_election); } break; case EXTPROG_RUNNING: /* should never get here, but just in case */ rv = RUNCMD_MORE; break; case EXTPROG_EXITED: rv = tk_test_exit_status(tk); if (rv) { ext_prog_failed(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; if (reason == OR_ADMIN && check_attr_prereq(tk, GRANT_MANUAL)) return RLT_ATTR_PREREQ; switch(do_ext_prog(tk, 0)) { case 0: /* everything fine */ break; case RUNCMD_MORE: /* need to wait for the outcome before starting elections */ return 0; default: return RLT_EXT_FAILED; } if (is_manual(tk)) { rv = manual_selection(tk, local, 1, reason); } else { 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)) { if (is_manual(tk) && (options & OPT_IMMEDIATE)) { /* -F flag has been used while granting a manual ticket. * The ticket will be granted and may end up being granted * on multiple sites */ tk_log_warn("manual ticket forced to be granted! be aware that " "you may end up having two sites holding the same manual " "ticket! revoke the ticket from the unnecessary site!"); } else { 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 start_revoke_ticket(struct ticket_config *tk) { tk_log_info("revoking ticket"); save_committed_tkt(tk); reset_ticket_and_set_no_leader(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; struct booth_site *site; char timeout_str[64]; char pending_str[64]; char *data, *cp; int i, site_index; size_t alloc; time_t ts; int multiple_grant_warning_length = 0; *pdata = NULL; *len = 0; alloc = booth_conf->ticket_count * (BOOTH_NAME_LEN * 2 + 128 + 16); - FOREACH_TICKET(i, tk) { + _FOREACH_TICKET(i, tk) { multiple_grant_warning_length = number_sites_marked_as_granted(tk); if (multiple_grant_warning_length > 1) { // 164: 55 + 45 + 2*number_of_multiple_sites + some margin alloc += 164 + BOOTH_NAME_LEN * (1+multiple_grant_warning_length); } } data = malloc(alloc); if (!data) return -ENOMEM; cp = data; - FOREACH_TICKET(i, tk) { + _FOREACH_TICKET(i, tk) { if ((!is_manual(tk)) && is_time_set(&tk->term_expires)) { /* Manual tickets doesn't have term_expires defined */ 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", timeout_str, pending_str); } if (is_manual(tk)) { cp += snprintf(cp, alloc - (cp - data), " [manual mode]"); } cp += snprintf(cp, alloc - (cp - data), "\n"); if (alloc - (cp - data) <= 0) { free(data); return -ENOMEM; } } - FOREACH_TICKET(i, tk) { + _FOREACH_TICKET(i, tk) { multiple_grant_warning_length = number_sites_marked_as_granted(tk); if (multiple_grant_warning_length > 1) { cp += snprintf(cp, alloc - (cp - data), "\nWARNING: The ticket %s is granted to multiple sites: ", // ~55 characters tk->name); - FOREACH_NODE(site_index, site) { + _FOREACH_NODE(site_index, site) { if (tk->sites_where_granted[site_index] > 0) { cp += snprintf(cp, alloc - (cp - data), "%s", site_string(site)); if (--multiple_grant_warning_length > 0) { cp += snprintf(cp, alloc - (cp - data), ", "); } } } cp += snprintf(cp, alloc - (cp - data), ". Revoke the ticket from the faulty sites.\n"); // ~45 characters } } *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) { ignore_ext_test(tk); disown_ticket(tk); no_resends(tk); set_state(tk, ST_INIT); set_next_state(tk, 0); tk->voted_for = NULL; } void reset_ticket_and_set_no_leader(struct ticket_config *tk) { mark_ticket_as_revoked_from_leader(tk); reset_ticket(tk); tk->leader = no_leader; tk_log_debug("ticket leader set to no_leader"); } static void log_reacquire_reason(struct ticket_config *tk) { int valid; const char *where_granted = NULL; char buff[75]; 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), tk->leader == sender ? "they" : 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) +int setup_ticket(struct booth_config *conf) { struct ticket_config *tk; int i; - FOREACH_TICKET(i, tk) { + FOREACH_TICKET(conf, i, tk) { reset_ticket(tk); if (local->type == SITE) { - if (!pcmk_handler.load_ticket(tk)) { + if (!pcmk_handler.load_ticket(conf, 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) { char *data; int rv; unsigned int olen; struct boothc_hdr_msg hdr; rv = list_ticket(&data, &olen); if (rv < 0) goto out; init_header(&hdr.header, CL_LIST, 0, 0, RLT_SUCCESS, 0, sizeof(hdr) + olen); rv = send_header_plus(fd, &hdr, data, olen); out: if (data) free(data); return rv; } int process_client_request(struct client *req_client, void *buf) { int rv, rc = 1; struct ticket_config *tk; int cmd; struct boothc_ticket_msg omsg; struct boothc_ticket_msg *msg; msg = (struct boothc_ticket_msg *)buf; 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; } /* Perform the initial check before granting * an already granted non-manual ticket */ if ((!is_manual(tk) && (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) { tk_log_info("not granted here, redirect to %s", 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; /* for manual tickets, we don't set time expiration */ if (!is_manual(tk)) { 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; - FOREACH_NODE(i, n) { + _FOREACH_NODE(i, n) { 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 { - FOREACH_NODE(i, n) { + _FOREACH_NODE(i, n) { if (!(tk->acks_received & n->bitmask)) { n->resend_cnt++; 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_info("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 VtFr request to step down (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) { int rv; switch(tk->next_state) { case ST_LEADER: if (has_extprog_exited(tk)) { if (tk->state != ST_LEADER) { rv = acquire_ticket(tk, OR_ADMIN); if (rv != 0) { /* external program failed */ tk->outcome = rv; foreach_tkt_req(tk, notify_client); } } } else { 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) { int reason = OR_TKT_LOST; if (tk->leader != local) { tk_log_warn("lost at %s", site_string(tk->leader)); } else { if (is_ext_prog_running(tk)) { ext_prog_timeout(tk); reason = OR_LOCAL_FAIL; } else { tk_log_warn("lost majority (revoking locally)"); reason = tk->election_reason ? tk->election_reason : OR_REACQUIRE; } } tk->lost_leader = tk->leader; save_committed_tkt(tk); mark_ticket_as_revoked_from_leader(tk); reset_ticket(tk); set_state(tk, ST_FOLLOWER); if (local->type == SITE) { ticket_write(tk); schedule_election(tk, reason); } } static void next_action(struct ticket_config *tk) { int rv; switch(tk->state) { case ST_INIT: /* init state, handle resends for ticket revoke */ /* and rebroadcast if stepping down */ /* try to acquire ticket on grant */ if (has_extprog_exited(tk)) { rv = acquire_ticket(tk, OR_ADMIN); if (rv != 0) { /* external program failed */ tk->outcome = rv; foreach_tkt_req(tk, notify_client); } } else { if (tk->acks_expected) { handle_resends(tk); } } break; case ST_FOLLOWER: if (!is_manual(tk)) { /* 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); } } } else { /* for manual tickets, also try to acquire ticket on grant * in the Follower state (because we may end up having * two Leaders) */ if (has_extprog_exited(tk)) { rv = acquire_ticket(tk, OR_ADMIN); if (rv != 0) { /* external program failed */ tk->outcome = rv; foreach_tkt_req(tk, notify_client); } } else { /* Otherwise, just send ACKs if needed */ if (tk->acks_expected) { handle_resends(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? * For automatic tickets, losing the ticket must happen * in _every_ state. */ if ((!is_manual(tk)) && 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) { + _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) { + _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); } } /* read ticket message */ -int ticket_recv(void *buf, struct booth_site *source) +int ticket_recv(struct booth_config *conf, void *buf, struct booth_site *source) { struct boothc_ticket_msg *msg; struct ticket_config *tk; struct booth_site *leader; uint32_t leader_u; msg = (struct boothc_ticket_msg *)buf; if (!check_ticket(msg->ticket.id, &tk)) { log_warn("got invalid ticket name %s from %s", msg->ticket.id, site_string(source)); source->invalid_cnt++; return -EINVAL; } leader_u = ntohl(msg->ticket.leader); - if (!find_site_by_id(leader_u, &leader)) { + if (!find_site_by_id(conf, leader_u, &leader)) { tk_log_error("message with unknown leader %u received", leader_u); source->invalid_cnt++; 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; ยง5.2 */ /* 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; set_future_time(&near_future, 10); if (!is_manual(tk)) { /* At least every hour, perhaps sooner (default) */ tk_log_debug("ticket will be woken up after up to one hour"); ticket_next_cron_in(tk, 3600*TIME_RES); 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)) { 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); } } } else { /* At least six minutes, to make sure that multi-leader situations * will be solved promptly. */ tk_log_debug("manual ticket will be woken up after up to six minutes"); ticket_next_cron_in(tk, 60*TIME_RES); /* For manual tickets, no earlier timeout could be set in a similar * way as it is done in a switch above for automatic tickets. * The reason is that term's timeout is INF and no Raft-based elections * are performed. */ } 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); } int is_manual(struct ticket_config *tk) { return (tk->mode == TICKET_MODE_MANUAL) ? 1 : 0; } int number_sites_marked_as_granted(struct ticket_config *tk) { int i, result = 0; struct booth_site *ignored __attribute__((unused)); - FOREACH_NODE(i, ignored) { + _FOREACH_NODE(i, ignored) { result += tk->sites_where_granted[i]; } return result; } /* 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 *tk, struct booth_site *dest, struct boothc_ticket_msg *in_msg ) { int req = 0; struct ticket_config *valid_tk = tk; struct boothc_ticket_msg msg; /* if we want to send the last valid ticket, then if we're in * the ST_CANDIDATE state, the last valid ticket is in * tk->last_valid_tk */ if (cmd == OP_MY_INDEX) { if (tk->state == ST_CANDIDATE && tk->last_valid_tk) { valid_tk = 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, valid_tk); return booth_udp_send_auth(dest, &msg, sendmsglen(&msg)); } diff --git a/src/ticket.h b/src/ticket.h index 805bcef..f28ac6e 100644 --- a/src/ticket.h +++ b/src/ticket.h @@ -1,168 +1,200 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _TICKET_H #define _TICKET_H #include #include #include #include "timer.h" #include "config.h" #include "log.h" extern int TIME_RES; #define DEFAULT_TICKET_EXPIRY (600*TIME_RES) #define DEFAULT_TICKET_TIMEOUT (5*TIME_RES) #define DEFAULT_RETRIES 10 -#define FOREACH_TICKET(i_, t_) \ +#define FOREACH_TICKET(b_, i_, t_) \ + for (i_ = 0; \ + (t_ = (b_)->ticket + i_, i_ < (b_)->ticket_count); \ + i_++) + +#define FOREACH_NODE(b_, i_, n_) \ + for (i_ = 0; \ + (n_ = (b_)->site + i_, i_ < (b_)->site_count); \ + i_++) + + +#define _FOREACH_TICKET(i_, t_) \ for (i_ = 0; \ (t_ = booth_conf->ticket + i_, i_ < booth_conf->ticket_count); \ i_++) -#define FOREACH_NODE(i_, n_) \ +#define _FOREACH_NODE(i_, n_) \ for (i_ = 0; \ (n_ = booth_conf->site + i_, i_ < booth_conf->site_count); \ i_++) #define set_leader(tk, who) do { \ if (who == NULL) { \ mark_ticket_as_revoked_from_leader(tk); \ } \ \ tk->leader = who; \ tk_log_debug("ticket leader set to %s", ticket_leader_string(tk)); \ \ if (tk->leader) { \ mark_ticket_as_granted(tk, tk->leader); \ } \ } while(0) #define mark_ticket_as_granted(tk, who) do { \ if (is_manual(tk) && (who->index > -1)) { \ tk->sites_where_granted[who->index] = 1; \ tk_log_debug("manual ticket marked as granted to %s", ticket_leader_string(tk)); \ } \ } while(0) #define mark_ticket_as_revoked(tk, who) do { \ if (is_manual(tk) && who && (who->index > -1)) { \ tk->sites_where_granted[who->index] = 0; \ tk_log_debug("manual ticket marked as revoked from %s", site_string(who)); \ } \ } while(0) #define mark_ticket_as_revoked_from_leader(tk) do { \ if (tk->leader) { \ mark_ticket_as_revoked(tk, tk->leader); \ } \ } while(0) #define set_state(tk, newst) do { \ tk_log_debug("state transition: %s -> %s", \ state_to_string(tk->state), state_to_string(newst)); \ tk->state = newst; \ } while(0) #define set_next_state(tk, newst) do { \ if (!(newst)) tk_log_debug("next state reset"); \ else tk_log_debug("next state set to %s", state_to_string(newst)); \ tk->next_state = newst; \ } while(0) #define is_term_invalid(tk, term) \ ((tk)->last_valid_tk && (tk)->last_valid_tk->current_term > (term)) void save_committed_tkt(struct ticket_config *tk); void disown_ticket(struct ticket_config *tk); int disown_if_expired(struct ticket_config *tk); int check_ticket(char *ticket, struct ticket_config **tc); int grant_ticket(struct ticket_config *ticket); int revoke_ticket(struct ticket_config *ticket); int list_ticket(char **pdata, unsigned int *len); -int ticket_recv(void *buf, struct booth_site *source); +/** + * @internal + * Second stage of incoming datagram handling (after authentication) + * + * @param[in,out] conf config object to refer to + * @param[in] buf raw message to act upon + * @param[in] source member originating this message + * + * @return 0 on success or negative value (-1 or -errno) on error + */ +int ticket_recv(struct booth_config *conf, void *buf, struct booth_site *source); + void reset_ticket(struct ticket_config *tk); void reset_ticket_and_set_no_leader(struct ticket_config *tk); void update_ticket_state(struct ticket_config *tk, struct booth_site *sender); -int setup_ticket(void); + +/** + * @internal + * Broadcast the initial state query + * + * @param[in,out] conf config object to use as a starting point + * + * @return 0 (for the time being) + */ +int setup_ticket(struct booth_config *conf); + int check_max_len_valid(const char *s, int max); int do_grant_ticket(struct ticket_config *ticket, int options); int do_revoke_ticket(struct ticket_config *tk); int find_ticket_by_name(const char *ticket, struct ticket_config **found); void set_ticket_wakeup(struct ticket_config *tk); int postpone_ticket_processing(struct ticket_config *tk); int acquire_ticket(struct ticket_config *tk, cmd_reason_t reason); int ticket_answer_list(int fd); int process_client_request(struct client *req_client, void *buf); int ticket_write(struct ticket_config *tk); void process_tickets(void); void tickets_log_info(void); char *state_to_string(uint32_t state_ho); int send_reject(struct booth_site *dest, struct ticket_config *tk, cmd_result_t code, struct boothc_ticket_msg *in_msg); int send_msg (int cmd, struct ticket_config *tk, struct booth_site *dest, struct boothc_ticket_msg *in_msg); int notify_client(struct ticket_config *tk, int client_fd, struct boothc_ticket_msg *msg); int ticket_broadcast(struct ticket_config *tk, cmd_request_t cmd, cmd_request_t expected_reply, cmd_result_t res, cmd_reason_t reason); int leader_update_ticket(struct ticket_config *tk); void add_random_delay(struct ticket_config *tk); void schedule_election(struct ticket_config *tk, cmd_reason_t reason); int is_manual(struct ticket_config *tk); int number_sites_marked_as_granted(struct ticket_config *tk); int check_attr_prereq(struct ticket_config *tk, grant_type_e grant_type); static inline void ticket_next_cron_at(struct ticket_config *tk, timetype *when) { copy_time(when, &tk->next_cron); } static inline void ticket_next_cron_in(struct ticket_config *tk, int interval) { timetype tv; set_future_time(&tv, interval); ticket_next_cron_at(tk, &tv); } static inline void ticket_activate_timeout(struct ticket_config *tk) { /* TODO: increase timeout when no answers */ tk_log_debug("activate ticket timeout in %d", tk->timeout); ticket_next_cron_in(tk, tk->timeout); } #endif /* _TICKET_H */ diff --git a/src/transport.c b/src/transport.c index afd6512..791029c 100644 --- a/src/transport.c +++ b/src/transport.c @@ -1,1147 +1,1150 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013-2014 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "b_config.h" #include #include #include #include #include #include #include /* getnameinfo */ #include #include #include #include #include #include #include #include /* getnameinfo */ #include "attr.h" #include "auth.h" #include "booth.h" #include "config.h" #include "inline-fn.h" #include "log.h" #include "ticket.h" #include "transport.h" #define BOOTH_IPADDR_LEN (sizeof(struct in6_addr)) #define NETLINK_BUFSIZE 16384 #define SOCKET_BUFFER_SIZE 160000 #define FRAME_SIZE_MAX 10000 struct booth_site *local = NULL; /* function to be called when handling booth-group-internal messages; * it's expected to return 0 to indicate success, negative integer * to indicate silent (or possibly already complained about) error, * or positive integer to indicate sender's ID that will then be * emitted in the error log message together with the real source * address if this is available */ -static int (*deliver_fn) (void *msg, int msglen); +static int (*deliver_fn) (struct booth_config *conf, void *msg, int msglen); static void parse_rtattr(struct rtattr *tb[], int max, struct rtattr *rta, int len) { while (RTA_OK(rta, len)) { if (rta->rta_type <= max) tb[rta->rta_type] = rta; rta = RTA_NEXT(rta,len); } } enum match_type { NO_MATCH = 0, FUZZY_MATCH, EXACT_MATCH, }; -static int find_address(unsigned char ipaddr[BOOTH_IPADDR_LEN], - int family, int prefixlen, - int fuzzy_allowed, - struct booth_site **me, - int *address_bits_matched) +static int find_address(struct booth_config *conf, + unsigned char ipaddr[BOOTH_IPADDR_LEN], + int family, int prefixlen, + int fuzzy_allowed, + struct booth_site **me, + int *address_bits_matched) { int i; struct booth_site *node; int bytes, bits_left, mask; unsigned char node_bits, ip_bits; uint8_t *n_a; int matched; enum match_type did_match = NO_MATCH; + assert(conf != NULL); bytes = prefixlen / 8; bits_left = prefixlen % 8; /* One bit left to check means ignore 7 lowest bits. */ mask = ~( (1 << (8 - bits_left)) -1); - FOREACH_NODE(i, node) { + FOREACH_NODE(conf, i, node) { if (family != node->family) continue; n_a = node_to_addr_pointer(node); for(matched = 0; matched < node->addrlen; matched++) if (ipaddr[matched] != n_a[matched]) break; if (matched == node->addrlen) { *address_bits_matched = matched * 8; *me = node; did_match = EXACT_MATCH; break; } if (!fuzzy_allowed) continue; /* Check prefix, whole bytes */ if (matched < bytes) continue; if (matched * 8 < *address_bits_matched) continue; node_bits = n_a[bytes]; ip_bits = ipaddr[bytes]; if (((node_bits ^ ip_bits) & mask) == 0) { /* _At_least_ prefixlen bits matched. */ if (did_match < EXACT_MATCH) { *address_bits_matched = prefixlen; *me = node; did_match = FUZZY_MATCH; } } } return did_match; } -int _find_myself(int family, struct booth_site **mep, int fuzzy_allowed); -int _find_myself(int family, struct booth_site **mep, int fuzzy_allowed) +static int _find_myself(struct booth_config *conf, int family, + struct booth_site **mep, int fuzzy_allowed) { int fd; struct sockaddr_nl nladdr; struct booth_site *me; unsigned char ipaddr[BOOTH_IPADDR_LEN]; static char rcvbuf[NETLINK_BUFSIZE]; struct { struct nlmsghdr nlh; struct rtgenmsg g; } req; int address_bits_matched; if (local) goto found; me = NULL; address_bits_matched = 0; if (mep) *mep = NULL; fd = socket(AF_NETLINK, SOCK_RAW, NETLINK_ROUTE); if (fd < 0) { log_error("failed to create netlink socket"); return 0; } (void)setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &rcvbuf, sizeof(rcvbuf)); memset(&nladdr, 0, sizeof(nladdr)); nladdr.nl_family = AF_NETLINK; memset(&req, 0, sizeof(req)); req.nlh.nlmsg_len = sizeof(req); req.nlh.nlmsg_type = RTM_GETADDR; req.nlh.nlmsg_flags = NLM_F_ROOT|NLM_F_MATCH|NLM_F_REQUEST; req.nlh.nlmsg_pid = 0; req.nlh.nlmsg_seq = 1; req.g.rtgen_family = family; if (sendto(fd, (void *)&req, sizeof(req), 0, (struct sockaddr*)&nladdr, sizeof(nladdr)) < 0) { close(fd); log_error("failed to send data to netlink socket"); return 0; } while (1) { int status; struct nlmsghdr *h; struct iovec iov = { rcvbuf, sizeof(rcvbuf) }; struct msghdr msg = { (void *)&nladdr, sizeof(nladdr), &iov, 1, NULL, 0, 0 }; status = recvmsg(fd, &msg, 0); if (!status) { close(fd); log_error("failed to recvmsg from netlink socket"); return 0; } for (h = (struct nlmsghdr *)rcvbuf; NLMSG_OK(h, status); h = NLMSG_NEXT(h, status)) { if (h->nlmsg_type == NLMSG_DONE) goto out; if (h->nlmsg_type == NLMSG_ERROR) { close(fd); log_error("netlink socket recvmsg error"); return 0; } if (h->nlmsg_type == RTM_NEWADDR) { struct ifaddrmsg *ifa = NLMSG_DATA(h); struct rtattr *tb[IFA_MAX+1]; int len = h->nlmsg_len - NLMSG_LENGTH(sizeof(*ifa)); memset(tb, 0, sizeof(tb)); parse_rtattr(tb, IFA_MAX, IFA_RTA(ifa), len); memset(ipaddr, 0, BOOTH_IPADDR_LEN); /* prefer IFA_LOCAL if it exists, for p-t-p * interfaces, otherwise use IFA_ADDRESS */ if (tb[IFA_LOCAL]) { memcpy(ipaddr, RTA_DATA(tb[IFA_LOCAL]), BOOTH_IPADDR_LEN); } else if (tb[IFA_ADDRESS]) { memcpy(ipaddr, RTA_DATA(tb[IFA_ADDRESS]), BOOTH_IPADDR_LEN); } else { log_error("failed to copy netlink addr"); close(fd); return 0; } /* Try to find the exact address or the address with subnet matching. * The function find_address will be called for each address received * from NLMSG_DATA above. * The exact match will be preferred. If no exact match is found, * the function find_address will try to return another, most similar * address (with the longest possible number of same bytes). */ if (ifa->ifa_prefixlen > address_bits_matched) { - find_address(ipaddr, - ifa->ifa_family, ifa->ifa_prefixlen, - fuzzy_allowed, &me, &address_bits_matched); + find_address(conf, ipaddr, + ifa->ifa_family, ifa->ifa_prefixlen, + fuzzy_allowed, &me, &address_bits_matched); if (me) { log_debug("found myself at %s (%d bits matched)", site_string(me), address_bits_matched); } } /* If the previous NLMSG_DATA calls have already allowed us * to find an address with address_bits_matched matching bits, * then no other better non-exact address can be found. * But we can still try to find an exact match, so let us * call the function find_address with disabled searching of * similar addresses (fuzzy_allowed == 0) */ else if (ifa->ifa_prefixlen == address_bits_matched) { - find_address(ipaddr, - ifa->ifa_family, ifa->ifa_prefixlen, - 0 /* fuzzy_allowed */, &me, &address_bits_matched); + find_address(conf, ipaddr, + ifa->ifa_family, ifa->ifa_prefixlen, + 0 /* fuzzy_allowed */, &me, &address_bits_matched); if (me) { log_debug("found myself at %s (exact match)", site_string(me)); } } } } } out: close(fd); if (!me) return 0; me->local = 1; local = me; found: if (mep) *mep = local; return 1; } -int find_myself(struct booth_site **mep, int fuzzy_allowed) +int find_myself(struct booth_config *conf, struct booth_site **mep, + int fuzzy_allowed) { - return _find_myself(AF_INET6, mep, fuzzy_allowed) || - _find_myself(AF_INET, mep, fuzzy_allowed); + return _find_myself(conf, AF_INET6, mep, fuzzy_allowed) || + _find_myself(conf, AF_INET, mep, fuzzy_allowed); } /** Checks the header fields for validity. * cf. init_header(). * For @len_incl_data < 0 the length is not checked. * Return <0 if error, else bytes read. */ int check_boothc_header(struct boothc_header *h, int len_incl_data) { int l; if (h->magic != htonl(BOOTHC_MAGIC)) { log_error("magic error %x", ntohl(h->magic)); return -EINVAL; } if (h->version != htonl(BOOTHC_VERSION)) { log_error("version error %x", ntohl(h->version)); return -EINVAL; } l = ntohl(h->length); if (l < sizeof(*h)) { log_error("length %d out of range", l); return -EINVAL; } if (len_incl_data < 0) return 0; if (l != len_incl_data) { log_error("length error - got %d, wanted %d", len_incl_data, l); return -EINVAL; } return len_incl_data; } static int do_read(int fd, void *buf, size_t count) { int rv, off = 0; while (off < count) { rv = read(fd, (char *)buf + off, count - off); if (rv == 0) return -1; if (rv == -1 && errno == EINTR) continue; if (rv == -1 && errno == EWOULDBLOCK) break; if (rv == -1) return -1; off += rv; } return off; } static int do_write(int fd, void *buf, size_t count) { int rv, off = 0; retry: rv = send(fd, (char *)buf + off, count, MSG_NOSIGNAL); if (rv == -1 && errno == EINTR) goto retry; /* If we cannot write _any_ data, we'd be in an (potential) loop. */ if (rv <= 0) { log_error("send failed: %s (%d)", strerror(errno), errno); return rv; } if (rv != count) { count -= rv; off += rv; goto retry; } return 0; } /* Only used for client requests (tcp) */ int read_client(struct client *req_cl) { char *msg; struct boothc_header *header; int rv, fd; int len = MAX_MSG_LEN; if (!req_cl->msg) { msg = malloc(MAX_MSG_LEN); if (!msg) { log_error("out of memory for client messages"); return -1; } memset(msg, 0, MAX_MSG_LEN); req_cl->msg = (void *)msg; } else { msg = (char *)req_cl->msg; } header = (struct boothc_header *)msg; /* update len if we read enough */ if (req_cl->offset >= sizeof(*header)) { len = min(ntohl(header->length), MAX_MSG_LEN); } fd = req_cl->fd; rv = do_read(fd, msg+req_cl->offset, len-req_cl->offset); if (rv < 0) { if (errno == ECONNRESET) log_debug("client connection reset for fd %d", fd); return -1; } req_cl->offset += rv; /* update len if we read enough */ if (req_cl->offset >= sizeof(*header)) { len = min(ntohl(header->length), MAX_MSG_LEN); } if (req_cl->offset < len) { /* client promised to send more */ return 1; } if (check_boothc_header(header, len) < 0) { return -1; } return 0; } /* Only used for client requests (tcp) */ -static void process_connection(int ci) +static void process_connection(struct booth_config *conf, int ci) { struct client *req_cl; void *msg = NULL; struct boothc_header *header; struct boothc_hdr_msg err_reply; cmd_result_t errc; void (*deadfn) (int ci); req_cl = clients + ci; switch (read_client(req_cl)) { case -1: /* error */ goto kill; case 1: /* more to read */ return; case 0: /* we can process the request now */ msg = req_cl->msg; } header = (struct boothc_header *)msg; if (check_auth(NULL, msg, ntohl(header->length))) { errc = RLT_AUTH; goto send_err; } /* For CMD_GRANT and CMD_REVOKE: * Don't close connection immediately, but send * result a second later? */ switch (ntohl(header->cmd)) { case CMD_LIST: ticket_answer_list(req_cl->fd); goto kill; case CMD_PEERS: list_peers(req_cl->fd); goto kill; case CMD_GRANT: case CMD_REVOKE: if (process_client_request(req_cl, msg) == 1) goto kill; /* request processed definitely, close connection */ else return; case ATTR_LIST: case ATTR_GET: case ATTR_SET: case ATTR_DEL: if (process_attr_request(req_cl, msg) == 1) goto kill; /* request processed definitely, close connection */ else return; default: log_error("connection %d cmd %x unknown", ci, ntohl(header->cmd)); errc = RLT_INVALID_ARG; goto send_err; } assert(0); return; send_err: init_header(&err_reply.header, CL_RESULT, 0, 0, errc, 0, sizeof(err_reply)); send_client_msg(req_cl->fd, &err_reply); kill: deadfn = req_cl->deadfn; if(deadfn) { deadfn(ci); } return; } -static void process_tcp_listener(int ci) +static void process_tcp_listener(struct booth_config *conf, int ci) { int fd, i, flags, one = 1; socklen_t addrlen = sizeof(struct sockaddr); struct sockaddr addr; fd = accept(clients[ci].fd, &addr, &addrlen); if (fd < 0) { log_error("process_tcp_listener: accept error %d %d", fd, errno); return; } (void)setsockopt(fd, IPPROTO_TCP, TCP_NODELAY, (char *)&one, sizeof(one)); flags = fcntl(fd, F_GETFL, 0); if (fcntl(fd, F_SETFL, flags | O_NONBLOCK) == -1) { log_error("process_tcp_listener: fcntl O_NONBLOCK error %d %d", fd, errno); (void)close(fd); return; } i = client_add(fd, clients[ci].transport, process_connection, NULL); log_debug("client connection %d fd %d", i, fd); } int setup_tcp_listener(int test_only) { int s, rv; int one = 1; s = socket(local->family, SOCK_STREAM, 0); if (s == -1) { log_error("failed to create tcp socket %s", strerror(errno)); return s; } rv = setsockopt(s, SOL_SOCKET, SO_REUSEADDR, (char *)&one, sizeof(one)); if (rv == -1) { close(s); log_error("failed to set the SO_REUSEADDR option"); return rv; } rv = bind(s, &local->sa6, local->saddrlen); if (test_only) { rv = (rv == -1) ? errno : 0; close(s); return rv; } if (rv == -1) { close(s); log_error("failed to bind socket %s", strerror(errno)); return rv; } rv = listen(s, 5); if (rv == -1) { close(s); log_error("failed to listen on socket %s", strerror(errno)); return rv; } return s; } static int booth_tcp_init(void * unused __attribute__((unused))) { int rv; if (get_local_id() < 0) return -1; rv = setup_tcp_listener(0); if (rv < 0) return rv; client_add(rv, booth_transport + TCP, process_tcp_listener, NULL); return 0; } static int connect_nonb(int sockfd, const struct sockaddr *saptr, socklen_t salen, int sec) { int flags, n, error; socklen_t len; fd_set rset, wset; struct timeval tval; flags = fcntl(sockfd, F_GETFL, 0); if (fcntl(sockfd, F_SETFL, flags | O_NONBLOCK) == -1) { log_error("fcntl: Can't set sockfd to nonblocking mode"); return -1; } error = 0; if ( (n = connect(sockfd, saptr, salen)) < 0) if (errno != EINPROGRESS) return -1; if (n == 0) goto done; /* connect completed immediately */ FD_ZERO(&rset); FD_SET(sockfd, &rset); wset = rset; tval.tv_sec = sec; tval.tv_usec = 0; if (select(sockfd + 1, &rset, &wset, NULL, sec ? &tval : NULL) == 0) { /* leave outside function to close */ /* timeout */ /* close(sockfd); */ errno = ETIMEDOUT; return -1; } if (FD_ISSET(sockfd, &rset) || FD_ISSET(sockfd, &wset)) { len = sizeof(error); if (getsockopt(sockfd, SOL_SOCKET, SO_ERROR, &error, &len) < 0) return -1; /* Solaris pending error */ } else { log_error("select error: sockfd not set"); return -1; } done: /* restore file status flags */ if (fcntl(sockfd, F_SETFL, flags) == -1) { log_error("fcntl: Can't restore sockfd flags"); return -1; } if (error) { /* leave outside function to close */ /* close(sockfd); */ errno = error; return -1; } return 0; } int booth_tcp_open(struct booth_site *to) { int s, rv; if (to->tcp_fd >= STDERR_FILENO) goto found; s = socket(to->family, SOCK_STREAM, 0); if (s == -1) { log_error("cannot create socket of family %d", to->family); return -1; } rv = connect_nonb(s, (struct sockaddr *)&to->sa6, to->saddrlen, 10); if (rv == -1) { if( errno == ETIMEDOUT) log_error("connect to %s got a timeout", site_string(to)); else log_error("connect to %s got an error: %s", site_string(to), strerror(errno)); goto error; } to->tcp_fd = s; found: return 1; error: if (s >= 0) close(s); return -1; } int booth_tcp_send(struct booth_site *to, void *buf, int len) { int rv; rv = add_hmac(buf, len); if (!rv) rv = do_write(to->tcp_fd, buf, len); return rv; } static int booth_tcp_recv(struct booth_site *from, void *buf, int len) { int got; /* Needs timeouts! */ got = do_read(from->tcp_fd, buf, len); if (got < 0) { log_error("read failed (%d): %s", errno, strerror(errno)); return got; } return got; } static int booth_tcp_recv_auth(struct booth_site *from, void *buf, int len) { int got, total; int payload_len; /* Needs timeouts! */ payload_len = len - sizeof(struct hmac); got = booth_tcp_recv(from, buf, payload_len); if (got < 0) { return got; } total = got; if (is_auth_req()) { got = booth_tcp_recv(from, (unsigned char *)buf+payload_len, sizeof(struct hmac)); if (got != sizeof(struct hmac) || check_auth(from, buf, len)) { return -1; } total += got; } return total; } static int booth_tcp_close(struct booth_site *to) { if (to) { if (to->tcp_fd > STDERR_FILENO) close(to->tcp_fd); to->tcp_fd = -1; } return 0; } static int booth_tcp_exit(void) { return 0; } static int setup_udp_server(void) { int rv, fd; int one = 1; unsigned int recvbuf_size; fd = socket(local->family, SOCK_DGRAM, 0); if (fd == -1) { log_error("failed to create UDP socket %s", strerror(errno)); goto ex; } rv = fcntl(fd, F_SETFL, O_NONBLOCK); if (rv == -1) { log_error("failed to set non-blocking operation " "on UDP socket: %s", strerror(errno)); goto ex; } rv = setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, (char *)&one, sizeof(one)); if (rv == -1) { log_error("failed to set the SO_REUSEADDR option"); goto ex; } rv = bind(fd, (struct sockaddr *)&local->sa6, local->saddrlen); if (rv == -1) { log_error("failed to bind UDP socket to [%s]:%d: %s", site_string(local), booth_conf->port, strerror(errno)); goto ex; } recvbuf_size = SOCKET_BUFFER_SIZE; rv = setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &recvbuf_size, sizeof(recvbuf_size)); if (rv == -1) { log_error("failed to set recvbuf size"); goto ex; } local->udp_fd = fd; return 0; ex: if (fd >= 0) close(fd); return -1; } /* Receive/process callback for UDP */ -static void process_recv(int ci) +static void process_recv(struct booth_config *conf, int ci) { struct sockaddr_storage sa; int rv; socklen_t sa_len; /* beware, the buffer needs to be large enough to accept * a packet */ char buffer[MAX_MSG_LEN]; /* Used for unit tests */ struct boothc_ticket_msg *msg; sa_len = sizeof(sa); msg = (void*)buffer; rv = recvfrom(clients[ci].fd, buffer, sizeof(buffer), MSG_NOSIGNAL | MSG_DONTWAIT, (struct sockaddr *)&sa, &sa_len); if (rv == -1) return; - rv = deliver_fn((void*)msg, rv); + rv = deliver_fn(conf, (void*) msg, rv); if (rv > 0) { if (getnameinfo((struct sockaddr *)&sa, sa_len, buffer, sizeof(buffer), NULL, 0, NI_NUMERICHOST) == 0) log_error("unknown sender: %08x (real: %s)", rv, buffer); else log_error("unknown sender: %08x", rv); } } static int booth_udp_init(void *f) { int rv; rv = setup_udp_server(); if (rv < 0) return rv; deliver_fn = f; client_add(local->udp_fd, booth_transport + UDP, process_recv, NULL); return 0; } int booth_udp_send(struct booth_site *to, void *buf, int len) { int rv; to->sent_cnt++; rv = sendto(local->udp_fd, buf, len, MSG_NOSIGNAL, (struct sockaddr *)&to->sa6, to->saddrlen); if (rv == len) { rv = 0; } else if (rv < 0) { to->sent_err_cnt++; log_error("Cannot send to %s: %d %s", site_string(to), errno, strerror(errno)); } else { rv = -1; to->sent_err_cnt++; log_error("Packet sent to %s got truncated", site_string(to)); } return rv; } int booth_udp_send_auth(struct booth_site *to, void *buf, int len) { int rv; rv = add_hmac(buf, len); if (rv < 0) return rv; return booth_udp_send(to, buf, len); } static int booth_udp_broadcast_auth(void *buf, int len) { int i, rv, rvs; struct booth_site *site; if (!booth_conf || !booth_conf->site_count) return -1; rv = add_hmac(buf, len); if (rv < 0) return rv; rvs = 0; - FOREACH_NODE(i, site) { + _FOREACH_NODE(i, site) { if (site != local) { rv = booth_udp_send(site, buf, len); if (!rvs) rvs = rv; } } return rvs; } static int booth_udp_exit(void) { return 0; } /* SCTP transport layer has not been developed yet */ static int booth_sctp_init(void *f __attribute__((unused))) { return 0; } static int booth_sctp_send(struct booth_site * to __attribute__((unused)), void *buf __attribute__((unused)), int len __attribute__((unused))) { return 0; } static int booth_sctp_broadcast(void *buf __attribute__((unused)), int len __attribute__((unused))) { return 0; } static int return_0_booth_site(struct booth_site *v __attribute((unused))) { return 0; } static int return_0(void) { return 0; } const struct booth_transport booth_transport[TRANSPORT_ENTRIES] = { [TCP] = { .name = "TCP", .init = booth_tcp_init, .open = booth_tcp_open, .send = booth_tcp_send, .recv = booth_tcp_recv, .recv_auth = booth_tcp_recv_auth, .close = booth_tcp_close, .exit = booth_tcp_exit }, [UDP] = { .name = "UDP", .init = booth_udp_init, .open = return_0_booth_site, .send = booth_udp_send, .send_auth = booth_udp_send_auth, .close = return_0_booth_site, .broadcast_auth = booth_udp_broadcast_auth, .exit = booth_udp_exit }, [SCTP] = { .name = "SCTP", .init = booth_sctp_init, .open = return_0_booth_site, .send = booth_sctp_send, .broadcast = booth_sctp_broadcast, .exit = return_0, } }; /* data + (datalen-sizeof(struct hmac)) points to struct hmac * i.e. struct hmac is always tacked on the payload */ int add_hmac(void *data, int len) { int rv = 0; #if HAVE_LIBGNUTLS || HAVE_LIBGCRYPT || HAVE_LIBMHASH int payload_len; struct hmac *hp; if (!is_auth_req()) return 0; payload_len = len - sizeof(struct hmac); hp = (struct hmac *)((unsigned char *)data + payload_len); hp->hid = htonl(BOOTH_HASH); memset(hp->hash, 0, BOOTH_MAC_SIZE); rv = calc_hmac(data, payload_len, BOOTH_HASH, hp->hash, booth_conf->authkey, booth_conf->authkey_len); if (rv < 0) { log_error("internal error: cannot calculate mac"); } #endif return rv; } #if HAVE_LIBGNUTLS || HAVE_LIBGCRYPT || HAVE_LIBMHASH /* TODO: we need some client identification for logging */ #define peer_string(p) (p ? site_string(p) : "client") /* verify the validity of timestamp from the header * the timestamp needs to be either greater than the one already * recorded for the site or, and this is checked for clients, * not to be older than booth_conf->maxtimeskew * update the timestamp for the site, if this packet is from a * site */ static int verify_ts(struct booth_site *from, void *buf, int len) { struct boothc_header *h; struct timeval tv, curr_tv, now; if (len < sizeof(*h)) { log_error("%s: packet too short", peer_string(from)); return -1; } h = (struct boothc_header *)buf; tv.tv_sec = ntohl(h->secs); tv.tv_usec = ntohl(h->usecs); if (from) { curr_tv.tv_sec = from->last_secs; curr_tv.tv_usec = from->last_usecs; if (timercmp(&tv, &curr_tv, >)) goto accept; log_warn("%s: packet timestamp older than previous one", site_string(from)); } gettimeofday(&now, NULL); now.tv_sec -= booth_conf->maxtimeskew; if (timercmp(&tv, &now, >)) goto accept; log_error("%s: packet timestamp older than %d seconds", peer_string(from), booth_conf->maxtimeskew); return -1; accept: if (from) { from->last_secs = tv.tv_sec; from->last_usecs = tv.tv_usec; } return 0; } #endif int check_auth(struct booth_site *from, void *buf, int len) { int rv = 0; #if HAVE_LIBGNUTLS || HAVE_LIBGCRYPT || HAVE_LIBMHASH int payload_len; struct hmac *hp; if (!is_auth_req()) return 0; payload_len = len - sizeof(struct hmac); if (payload_len < 0) { log_error("%s: failed to authenticate, packet too short (size:%d)", peer_string(from), len); return -1; } hp = (struct hmac *)((unsigned char *)buf + payload_len); rv = verify_hmac(buf, payload_len, ntohl(hp->hid), hp->hash, booth_conf->authkey, booth_conf->authkey_len); if (!rv) { rv = verify_ts(from, buf, len); } if (rv != 0) { log_error("%s: failed to authenticate", peer_string(from)); } #endif return rv; } int send_data(int fd, void *data, int datalen) { int rv = 0; rv = add_hmac(data, datalen); if (!rv) rv = do_write(fd, data, datalen); return rv; } int send_header_plus(int fd, struct boothc_hdr_msg *msg, void *data, int len) { int rv; rv = send_data(fd, msg, sendmsglen(msg)-len); if (rv >= 0 && len) rv = do_write(fd, data, len); return rv; } /* UDP message receiver (see also deliver_fn declaration's comment) */ -int message_recv(void *msg, int msglen) +int message_recv(struct booth_config *conf, void *msg, int msglen) { uint32_t from; struct boothc_header *header; struct booth_site *source; header = (struct boothc_header *)msg; from = ntohl(header->from); - if (!find_site_by_id(from, &source)) { + if (!find_site_by_id(conf, from, &source)) { /* caller knows the actual source address, pass the (assuredly) positive number and let it report */ from = from ? from : ~from; /* avoid 0 (success) */ return from & (~0U >> 1); /* avoid negative (error code} */ } time(&source->last_recv); source->recv_cnt++; if (check_boothc_header(header, msglen) < 0) { log_error("message from %s receive error", site_string(source)); source->recv_err_cnt++; return -1; } if (check_auth(source, msg, msglen)) { log_error("%s failed to authenticate", site_string(source)); source->sec_cnt++; return -1; } if (ntohl(header->opts) & BOOTH_OPT_ATTR) { /* not used, clients send/retrieve attributes directly * from sites */ return attr_recv(msg, source); } else { - return ticket_recv(msg, source); + return ticket_recv(conf, msg, source); } } diff --git a/src/transport.h b/src/transport.h index 41e488b..4f4d497 100644 --- a/src/transport.h +++ b/src/transport.h @@ -1,90 +1,112 @@ /* * Copyright (C) 2011 Jiaju Zhang * Copyright (C) 2013 Philipp Marek * * 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 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 program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef _TRANSPORT_H #define _TRANSPORT_H #include "b_config.h" #include "booth.h" typedef enum { TCP = 1, UDP, SCTP, TRANSPORT_ENTRIES, } transport_layer_t; typedef enum { ARBITRATOR = 0x50, SITE, CLIENT, DAEMON, STATUS, GEOSTORE, } action_t; /* when allocating space for messages */ #define MAX_MSG_LEN 1024 struct booth_transport { const char *name; int (*init) (void *); int (*open) (struct booth_site *); int (*send) (struct booth_site *, void *, int); int (*send_auth) (struct booth_site *, void *, int); int (*recv) (struct booth_site *, void *, int); int (*recv_auth) (struct booth_site *, void *, int); int (*broadcast) (void *, int); int (*broadcast_auth) (void *, int); int (*close) (struct booth_site *); int (*exit) (void); }; extern const struct booth_transport booth_transport[TRANSPORT_ENTRIES]; -int find_myself(struct booth_site **me, int fuzzy_allowed); + +/** + * @internal + * Attempts to pick identity of self from config-tracked enumeration of sites + * + * @param[in,out] conf config object to refer to + * @param[out] mep when self-discovery successful, site pointer is stored here + * @param[in] fuzzy_allowed whether it's OK to approximate the match + * + * @return 0 on success or negative value (-1 or -errno) on error + */ +int find_myself(struct booth_config *conf, struct booth_site **me, + int fuzzy_allowed); int read_client(struct client *req_cl); int check_boothc_header(struct boothc_header *data, int len_incl_data); int setup_tcp_listener(int test_only); int booth_udp_send(struct booth_site *to, void *buf, int len); int booth_udp_send_auth(struct booth_site *to, void *buf, int len); int booth_tcp_open(struct booth_site *to); int booth_tcp_send(struct booth_site *to, void *buf, int len); -int message_recv(void *msg, int msglen); +/** + * @internal + * First stage of incoming datagram handling (authentication) + * + * @param[in,out] conf config object to refer to + * @param[in] msg raw message to act upon + * @param[in] msglen length of #msg + * + * @return 0 on success or negative value (-1 or -errno) on error + */ +int message_recv(struct booth_config *conf, void *msg, int msglen); inline static void * node_to_addr_pointer(struct booth_site *node) { switch (node->family) { case AF_INET: return &node->sa4.sin_addr; case AF_INET6: return &node->sa6.sin6_addr; } return NULL; } int send_data(int fd, void *data, int datalen); int send_header_plus(int fd, struct boothc_hdr_msg *hdr, void *data, int len); #define send_client_msg(fd, msg) send_data(fd, msg, sendmsglen(msg)) int add_hmac(void *data, int len); int check_auth(struct booth_site *from, void *buf, int len); #endif /* _TRANSPORT_H */