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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include "MonMap.h"
#include <algorithm>
#include <sstream>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#ifdef WITH_SEASTAR
#include <seastar/core/fstream.hh>
#include <seastar/core/reactor.hh>
#include <seastar/net/dns.hh>
#include "crimson/common/config_proxy.h"
#endif
#include "common/Formatter.h"
#include "include/ceph_features.h"
#include "include/addr_parsing.h"
#include "common/ceph_argparse.h"
#include "common/dns_resolve.h"
#include "common/errno.h"
#include "common/dout.h"
#include "common/Clock.h"
#include "mon/health_check.h"
using std::list;
using std::map;
using std::ostream;
using std::ostringstream;
using std::set;
using std::string;
using std::vector;
using ceph::DNSResolver;
using ceph::Formatter;
#ifdef WITH_SEASTAR
namespace {
seastar::logger& logger()
{
return crimson::get_logger(ceph_subsys_monc);
}
}
#endif
void mon_info_t::encode(ceph::buffer::list& bl, uint64_t features) const
{
uint8_t v = 5;
uint8_t min_v = 1;
if (!crush_loc.empty()) {
// we added crush_loc in version 5, but need to let old clients decode it
// so just leave the min_v at version 1. Monitors are protected
// from misunderstandings about location because setting it is blocked
// on FEATURE_PINGING
min_v = 1;
}
if (!HAVE_FEATURE(features, SERVER_NAUTILUS)) {
v = 2;
}
ENCODE_START(v, min_v, bl);
encode(name, bl);
if (v < 3) {
ceph_assert(min_v == 1);
auto a = public_addrs.legacy_addr();
if (a != entity_addr_t()) {
encode(a, bl, features);
} else {
// note: we don't have a legacy addr here, so lie so that it looks
// like one, just so that old clients get a valid-looking map.
// they won't be able to talk to the v2 mons, but that's better
// than nothing.
encode(public_addrs.as_legacy_addr(), bl, features);
}
} else {
encode(public_addrs, bl, features);
}
encode(priority, bl);
encode(weight, bl);
encode(crush_loc, bl);
ENCODE_FINISH(bl);
}
void mon_info_t::decode(ceph::buffer::list::const_iterator& p)
{
DECODE_START(5, p);
decode(name, p);
decode(public_addrs, p);
if (struct_v >= 2) {
decode(priority, p);
}
if (struct_v >= 4) {
decode(weight, p);
}
if (struct_v >= 5) {
decode(crush_loc, p);
}
DECODE_FINISH(p);
}
void mon_info_t::print(ostream& out) const
{
out << "mon." << name
<< " addrs " << public_addrs
<< " priority " << priority
<< " weight " << weight
<< " crush location " << crush_loc;
}
namespace {
struct rank_cmp {
bool operator()(const mon_info_t &a, const mon_info_t &b) const {
if (a.public_addrs.legacy_or_front_addr() == b.public_addrs.legacy_or_front_addr())
return a.name < b.name;
return a.public_addrs.legacy_or_front_addr() < b.public_addrs.legacy_or_front_addr();
}
};
}
void MonMap::calc_legacy_ranks()
{
ranks.resize(mon_info.size());
// Used to order entries according to public_addr, because that's
// how the ranks are expected to be ordered by. We may expand this
// later on, according to some other criteria, by specifying a
// different comparator.
//
// Please note that we use a 'set' here instead of resorting to
// std::sort() because we need more info than that's available in
// the vector. The vector will thus be ordered by, e.g., public_addr
// while only containing the names of each individual monitor.
// The only way of achieving this with std::sort() would be to first
// insert every mon_info_t entry into a vector 'foo', std::sort() 'foo'
// with custom comparison functions, and then copy each invidual entry
// to a new vector. Unless there's a simpler way, we don't think the
// added complexity makes up for the additional memory usage of a 'set'.
set<mon_info_t, rank_cmp> tmp;
for (auto p = mon_info.begin(); p != mon_info.end(); ++p) {
mon_info_t &m = p->second;
tmp.insert(m);
}
// map the set to the actual ranks etc
unsigned i = 0;
for (auto p = tmp.begin(); p != tmp.end(); ++p, ++i) {
ranks[i] = p->name;
}
}
void MonMap::encode(ceph::buffer::list& blist, uint64_t con_features) const
{
if ((con_features & CEPH_FEATURE_MONNAMES) == 0) {
using ceph::encode;
__u16 v = 1;
encode(v, blist);
ceph::encode_raw(fsid, blist);
encode(epoch, blist);
vector<entity_inst_t> mon_inst(ranks.size());
for (unsigned n = 0; n < ranks.size(); n++) {
mon_inst[n].name = entity_name_t::MON(n);
mon_inst[n].addr = get_addrs(n).legacy_addr();
}
encode(mon_inst, blist, con_features);
encode(last_changed, blist);
encode(created, blist);
return;
}
map<string,entity_addr_t> legacy_mon_addr;
if (!HAVE_FEATURE(con_features, MONENC) ||
!HAVE_FEATURE(con_features, SERVER_NAUTILUS)) {
for (auto& [name, info] : mon_info) {
legacy_mon_addr[name] = info.public_addrs.legacy_addr();
}
}
if (!HAVE_FEATURE(con_features, MONENC)) {
/* we keep the mon_addr map when encoding to ensure compatibility
* with clients and other monitors that do not yet support the 'mons'
* map. This map keeps its original behavior, containing a mapping of
* monitor id (i.e., 'foo' in 'mon.foo') to the monitor's public
* address -- which is obtained from the public address of each entry
* in the 'mons' map.
*/
using ceph::encode;
__u16 v = 2;
encode(v, blist);
ceph::encode_raw(fsid, blist);
encode(epoch, blist);
encode(legacy_mon_addr, blist, con_features);
encode(last_changed, blist);
encode(created, blist);
return;
}
if (!HAVE_FEATURE(con_features, SERVER_NAUTILUS)) {
ENCODE_START(5, 3, blist);
ceph::encode_raw(fsid, blist);
encode(epoch, blist);
encode(legacy_mon_addr, blist, con_features);
encode(last_changed, blist);
encode(created, blist);
encode(persistent_features, blist);
encode(optional_features, blist);
encode(mon_info, blist, con_features);
ENCODE_FINISH(blist);
return;
}
ENCODE_START(9, 6, blist);
ceph::encode_raw(fsid, blist);
encode(epoch, blist);
encode(last_changed, blist);
encode(created, blist);
encode(persistent_features, blist);
encode(optional_features, blist);
encode(mon_info, blist, con_features);
encode(ranks, blist);
encode(min_mon_release, blist);
encode(removed_ranks, blist);
uint8_t t = strategy;
encode(t, blist);
encode(disallowed_leaders, blist);
encode(stretch_mode_enabled, blist);
encode(tiebreaker_mon, blist);
encode(stretch_marked_down_mons, blist);
ENCODE_FINISH(blist);
}
void MonMap::decode(ceph::buffer::list::const_iterator& p)
{
map<string,entity_addr_t> mon_addr;
DECODE_START_LEGACY_COMPAT_LEN_16(9, 3, 3, p);
ceph::decode_raw(fsid, p);
decode(epoch, p);
if (struct_v == 1) {
vector<entity_inst_t> mon_inst;
decode(mon_inst, p);
for (unsigned i = 0; i < mon_inst.size(); i++) {
char n[2];
n[0] = '0' + i;
n[1] = 0;
string name = n;
mon_addr[name] = mon_inst[i].addr;
}
} else if (struct_v < 6) {
decode(mon_addr, p);
}
decode(last_changed, p);
decode(created, p);
if (struct_v >= 4) {
decode(persistent_features, p);
decode(optional_features, p);
}
if (struct_v < 5) {
// generate mon_info from legacy mon_addr
for (auto& [name, addr] : mon_addr) {
mon_info_t &m = mon_info[name];
m.name = name;
m.public_addrs = entity_addrvec_t(addr);
}
} else {
decode(mon_info, p);
}
if (struct_v < 6) {
calc_legacy_ranks();
} else {
decode(ranks, p);
}
if (struct_v >= 7) {
decode(min_mon_release, p);
} else {
min_mon_release = infer_ceph_release_from_mon_features(persistent_features);
}
if (struct_v >= 8) {
decode(removed_ranks, p);
uint8_t t;
decode(t, p);
strategy = static_cast<election_strategy>(t);
decode(disallowed_leaders, p);
}
if (struct_v >= 9) {
decode(stretch_mode_enabled, p);
decode(tiebreaker_mon, p);
decode(stretch_marked_down_mons, p);
} else {
stretch_mode_enabled = false;
tiebreaker_mon = "";
stretch_marked_down_mons.clear();
}
calc_addr_mons();
DECODE_FINISH(p);
}
void MonMap::generate_test_instances(list<MonMap*>& o)
{
o.push_back(new MonMap);
o.push_back(new MonMap);
o.back()->epoch = 1;
o.back()->last_changed = utime_t(123, 456);
o.back()->created = utime_t(789, 101112);
o.back()->add("one", entity_addrvec_t());
MonMap *m = new MonMap;
{
m->epoch = 1;
m->last_changed = utime_t(123, 456);
entity_addrvec_t empty_addr_one = entity_addrvec_t(entity_addr_t());
empty_addr_one.v[0].set_nonce(1);
m->add("empty_addr_one", empty_addr_one);
entity_addrvec_t empty_addr_two = entity_addrvec_t(entity_addr_t());
empty_addr_two.v[0].set_nonce(2);
m->add("empty_addr_two", empty_addr_two);
const char *local_pub_addr_s = "127.0.1.2";
const char *end_p = local_pub_addr_s + strlen(local_pub_addr_s);
entity_addrvec_t local_pub_addr;
local_pub_addr.parse(local_pub_addr_s, &end_p);
m->add(mon_info_t("filled_pub_addr", entity_addrvec_t(local_pub_addr), 1, 1));
m->add("empty_addr_zero", entity_addrvec_t());
}
o.push_back(m);
}
// read from/write to a file
int MonMap::write(const char *fn)
{
// encode
ceph::buffer::list bl;
encode(bl, CEPH_FEATURES_ALL);
return bl.write_file(fn);
}
int MonMap::read(const char *fn)
{
// read
ceph::buffer::list bl;
std::string error;
int r = bl.read_file(fn, &error);
if (r < 0)
return r;
decode(bl);
return 0;
}
void MonMap::print_summary(ostream& out) const
{
out << "e" << epoch << ": "
<< mon_info.size() << " mons at {";
// the map that we used to print, as it was, no longer
// maps strings to the monitor's public address, but to
// mon_info_t instead. As such, print the map in a way
// that keeps the expected format.
bool has_printed = false;
for (auto p = mon_info.begin(); p != mon_info.end(); ++p) {
if (has_printed)
out << ",";
out << p->first << "=" << p->second.public_addrs;
has_printed = true;
}
out << "}" << " removed_ranks: {" << removed_ranks << "}";
out << " disallowed_leaders: {" << disallowed_leaders << "}";
}
void MonMap::print(ostream& out) const
{
out << "epoch " << epoch << "\n";
out << "fsid " << fsid << "\n";
out << "last_changed " << last_changed << "\n";
out << "created " << created << "\n";
out << "min_mon_release " << to_integer<unsigned>(min_mon_release)
<< " (" << min_mon_release << ")\n";
out << "election_strategy: " << strategy << "\n";
if (stretch_mode_enabled) {
out << "stretch_mode_enabled " << stretch_mode_enabled << "\n";
out << "tiebreaker_mon " << tiebreaker_mon << "\n";
}
if (stretch_mode_enabled ||
!disallowed_leaders.empty()) {
out << "disallowed_leaders " << disallowed_leaders << "\n";
}
unsigned i = 0;
for (auto p = ranks.begin(); p != ranks.end(); ++p) {
const auto &mi = mon_info.find(*p);
ceph_assert(mi != mon_info.end());
out << i++ << ": " << mi->second.public_addrs << " mon." << *p;
if (!mi->second.crush_loc.empty()) {
out << "; crush_location " << mi->second.crush_loc;
}
out << "\n";
}
}
void MonMap::dump(Formatter *f) const
{
f->dump_unsigned("epoch", epoch);
f->dump_stream("fsid") << fsid;
last_changed.gmtime(f->dump_stream("modified"));
created.gmtime(f->dump_stream("created"));
f->dump_unsigned("min_mon_release", to_integer<unsigned>(min_mon_release));
f->dump_string("min_mon_release_name", to_string(min_mon_release));
f->dump_int ("election_strategy", strategy);
f->dump_stream("disallowed_leaders: ") << disallowed_leaders;
f->dump_bool("stretch_mode", stretch_mode_enabled);
f->dump_string("tiebreaker_mon", tiebreaker_mon);
f->dump_stream("removed_ranks: ") << removed_ranks;
f->open_object_section("features");
persistent_features.dump(f, "persistent");
optional_features.dump(f, "optional");
f->close_section();
f->open_array_section("mons");
int i = 0;
for (auto p = ranks.begin(); p != ranks.end(); ++p, ++i) {
f->open_object_section("mon");
f->dump_int("rank", i);
f->dump_string("name", *p);
f->dump_object("public_addrs", get_addrs(*p));
// compat: make these look like pre-nautilus entity_addr_t
f->dump_stream("addr") << get_addrs(*p).get_legacy_str();
f->dump_stream("public_addr") << get_addrs(*p).get_legacy_str();
f->dump_unsigned("priority", get_priority(*p));
f->dump_unsigned("weight", get_weight(*p));
const auto &mi = mon_info.find(*p);
// we don't need to assert this validity as all the get_* functions did
f->dump_stream("crush_location") << mi->second.crush_loc;
f->close_section();
}
f->close_section();
}
void MonMap::dump_summary(Formatter *f) const
{
f->dump_unsigned("epoch", epoch);
f->dump_string("min_mon_release_name", to_string(min_mon_release));
f->dump_unsigned("num_mons", ranks.size());
}
// an ambiguous mon addr may be legacy or may be msgr2--we aren' sure.
// when that happens we need to try them both (unless we can
// reasonably infer from the port number which it is).
void MonMap::_add_ambiguous_addr(const string& name,
entity_addr_t addr,
int priority,
int weight,
bool for_mkfs)
{
if (addr.get_type() != entity_addr_t::TYPE_ANY) {
// a v1: or v2: prefix was specified
if (addr.get_port() == 0) {
// use default port
if (addr.get_type() == entity_addr_t::TYPE_LEGACY) {
addr.set_port(CEPH_MON_PORT_LEGACY);
} else if (addr.get_type() == entity_addr_t::TYPE_MSGR2) {
addr.set_port(CEPH_MON_PORT_IANA);
} else {
// wth
return;
}
if (!contains(addr)) {
add(name, entity_addrvec_t(addr), priority, weight);
}
} else {
if (!contains(addr)) {
add(name, entity_addrvec_t(addr), priority, weight);
}
}
} else {
// no v1: or v2: prefix specified
if (addr.get_port() == CEPH_MON_PORT_LEGACY) {
// legacy port implies legacy addr
addr.set_type(entity_addr_t::TYPE_LEGACY);
if (!contains(addr)) {
if (!for_mkfs) {
add(name + "-legacy", entity_addrvec_t(addr), priority, weight);
} else {
add(name, entity_addrvec_t(addr), priority, weight);
}
}
} else if (addr.get_port() == CEPH_MON_PORT_IANA) {
// iana port implies msgr2 addr
addr.set_type(entity_addr_t::TYPE_MSGR2);
if (!contains(addr)) {
add(name, entity_addrvec_t(addr), priority, weight);
}
} else if (addr.get_port() == 0) {
// no port; include both msgr2 and legacy ports
if (!for_mkfs) {
addr.set_type(entity_addr_t::TYPE_MSGR2);
addr.set_port(CEPH_MON_PORT_IANA);
if (!contains(addr)) {
add(name, entity_addrvec_t(addr), priority, weight);
}
addr.set_type(entity_addr_t::TYPE_LEGACY);
addr.set_port(CEPH_MON_PORT_LEGACY);
if (!contains(addr)) {
add(name + "-legacy", entity_addrvec_t(addr), priority, weight);
}
} else {
entity_addrvec_t av;
addr.set_type(entity_addr_t::TYPE_MSGR2);
addr.set_port(CEPH_MON_PORT_IANA);
av.v.push_back(addr);
addr.set_type(entity_addr_t::TYPE_LEGACY);
addr.set_port(CEPH_MON_PORT_LEGACY);
av.v.push_back(addr);
if (!contains(av)) {
add(name, av, priority, weight);
}
}
} else {
addr.set_type(entity_addr_t::TYPE_MSGR2);
if (!contains(addr)) {
add(name, entity_addrvec_t(addr), priority, weight);
}
if (!for_mkfs) {
// try legacy on same port too
addr.set_type(entity_addr_t::TYPE_LEGACY);
if (!contains(addr)) {
add(name + "-legacy", entity_addrvec_t(addr), priority, weight);
}
}
}
}
}
void MonMap::init_with_addrs(const std::vector<entity_addrvec_t>& addrs,
bool for_mkfs,
std::string_view prefix)
{
char id = 'a';
for (auto& addr : addrs) {
string name{prefix};
name += id++;
if (addr.v.size() == 1) {
_add_ambiguous_addr(name, addr.front(), 0, 0, for_mkfs);
} else {
// they specified an addrvec, so let's assume they also specified
// the addr *type* and *port*. (we could possibly improve this?)
add(name, addr, 0);
}
}
}
int MonMap::init_with_ips(const std::string& ips,
bool for_mkfs,
std::string_view prefix)
{
vector<entity_addrvec_t> addrs;
if (!parse_ip_port_vec(
ips.c_str(), addrs,
entity_addr_t::TYPE_ANY)) {
return -EINVAL;
}
if (addrs.empty())
return -ENOENT;
init_with_addrs(addrs, for_mkfs, prefix);
return 0;
}
int MonMap::init_with_hosts(const std::string& hostlist,
bool for_mkfs,
std::string_view prefix)
{
// maybe they passed us a DNS-resolvable name
char *hosts = resolve_addrs(hostlist.c_str());
if (!hosts)
return -EINVAL;
vector<entity_addrvec_t> addrs;
bool success = parse_ip_port_vec(
hosts, addrs,
entity_addr_t::TYPE_ANY);
free(hosts);
if (!success)
return -EINVAL;
if (addrs.empty())
return -ENOENT;
init_with_addrs(addrs, for_mkfs, prefix);
calc_legacy_ranks();
return 0;
}
void MonMap::set_initial_members(CephContext *cct,
list<std::string>& initial_members,
string my_name,
const entity_addrvec_t& my_addrs,
set<entity_addrvec_t> *removed)
{
// remove non-initial members
unsigned i = 0;
while (i < size()) {
string n = get_name(i);
if (std::find(initial_members.begin(), initial_members.end(), n)
!= initial_members.end()) {
lgeneric_dout(cct, 1) << " keeping " << n << " " << get_addrs(i) << dendl;
i++;
continue;
}
lgeneric_dout(cct, 1) << " removing " << get_name(i) << " " << get_addrs(i)
<< dendl;
if (removed) {
removed->insert(get_addrs(i));
}
remove(n);
ceph_assert(!contains(n));
}
// add missing initial members
for (auto& p : initial_members) {
if (!contains(p)) {
if (p == my_name) {
lgeneric_dout(cct, 1) << " adding self " << p << " " << my_addrs
<< dendl;
add(p, my_addrs);
} else {
entity_addr_t a;
a.set_type(entity_addr_t::TYPE_LEGACY);
a.set_family(AF_INET);
for (int n=1; ; n++) {
a.set_nonce(n);
if (!contains(a))
break;
}
lgeneric_dout(cct, 1) << " adding " << p << " " << a << dendl;
add(p, entity_addrvec_t(a));
}
ceph_assert(contains(p));
}
}
calc_legacy_ranks();
}
int MonMap::init_with_config_file(const ConfigProxy& conf,
std::ostream& errout)
{
std::vector<std::string> sections;
int ret = conf.get_all_sections(sections);
if (ret) {
errout << "Unable to find any monitors in the configuration "
<< "file, because there was an error listing the sections. error "
<< ret << std::endl;
return -ENOENT;
}
std::vector<std::string> mon_names;
for (const auto& section : sections) {
if (section.substr(0, 4) == "mon." && section.size() > 4) {
mon_names.push_back(section.substr(4));
}
}
// Find an address for each monitor in the config file.
for (const auto& mon_name : mon_names) {
std::vector<std::string> sections;
std::string m_name("mon");
m_name += ".";
m_name += mon_name;
sections.push_back(m_name);
sections.push_back("mon");
sections.push_back("global");
std::string val;
int res = conf.get_val_from_conf_file(sections, "mon addr", val, true);
if (res) {
errout << "failed to get an address for mon." << mon_name
<< ": error " << res << std::endl;
continue;
}
// the 'mon addr' field is a legacy field, so assume anything
// there on a weird port is a v1 address, and do not handle
// addrvecs.
entity_addr_t addr;
if (!addr.parse(val, entity_addr_t::TYPE_LEGACY)) {
errout << "unable to parse address for mon." << mon_name
<< ": addr='" << val << "'" << std::endl;
continue;
}
if (addr.get_port() == 0) {
addr.set_port(CEPH_MON_PORT_LEGACY);
}
uint16_t priority = 0;
if (!conf.get_val_from_conf_file(sections, "mon priority", val, false)) {
try {
priority = std::stoul(val);
} catch (std::logic_error&) {
errout << "unable to parse priority for mon." << mon_name
<< ": priority='" << val << "'" << std::endl;
continue;
}
}
uint16_t weight = 0;
if (!conf.get_val_from_conf_file(sections, "mon weight", val, false)) {
try {
weight = std::stoul(val);
} catch (std::logic_error&) {
errout << "unable to parse weight for mon." << mon_name
<< ": weight='" << val << "'"
<< std::endl;
continue;
}
}
// make sure this mon isn't already in the map
if (contains(addr))
remove(get_name(addr));
if (contains(mon_name))
remove(mon_name);
_add_ambiguous_addr(mon_name, addr, priority, weight, false);
}
return 0;
}
void MonMap::check_health(health_check_map_t *checks) const
{
if (stretch_mode_enabled) {
list<string> detail;
for (auto& p : mon_info) {
if (p.second.crush_loc.empty()) {
ostringstream ss;
ss << "mon " << p.first << " has no location set while in stretch mode";
detail.push_back(ss.str());
}
}
if (!detail.empty()) {
ostringstream ss;
ss << detail.size() << " monitor(s) have no location set while in stretch mode"
<< "; this may cause issues with failover, OSD connections, netsplit handling, etc";
auto& d = checks->add("MON_LOCATION_NOT_SET", HEALTH_WARN,
ss.str(), detail.size());
d.detail.swap(detail);
}
}
}
#ifdef WITH_SEASTAR
seastar::future<> MonMap::read_monmap(const std::string& monmap)
{
using namespace seastar;
return open_file_dma(monmap, open_flags::ro).then([this] (file f) {
return f.size().then([this, f = std::move(f)](size_t s) {
return do_with(make_file_input_stream(f), [this, s](input_stream<char>& in) {
return in.read_exactly(s).then([this](temporary_buffer<char> buf) {
ceph::buffer::list bl;
bl.push_back(ceph::buffer::ptr_node::create(
ceph::buffer::create(std::move(buf))));
decode(bl);
});
});
});
});
}
seastar::future<> MonMap::init_with_dns_srv(bool for_mkfs, const std::string& name)
{
logger().debug("{}: for_mkfs={}, name={}", __func__, for_mkfs, name);
string domain;
string service = name;
// check if domain is also provided and extract it from srv_name
size_t idx = name.find("_");
if (idx != name.npos) {
domain = name.substr(idx + 1);
service = name.substr(0, idx);
}
return seastar::net::dns::get_srv_records(
seastar::net::dns_resolver::srv_proto::tcp,
service, domain).then([this](seastar::net::dns_resolver::srv_records records) {
return seastar::parallel_for_each(records, [this](auto record) {
return seastar::net::dns::resolve_name(record.target).then(
[record,this](seastar::net::inet_address a) {
// the resolved address does not contain ceph specific info like nonce
// nonce or msgr proto (legacy, msgr2), so set entity_addr_t manually
entity_addr_t addr;
addr.set_type(entity_addr_t::TYPE_ANY);
addr.set_family(int(a.in_family()));
addr.set_port(record.port);
switch (a.in_family()) {
case seastar::net::inet_address::family::INET:
addr.in4_addr().sin_addr = a;
break;
case seastar::net::inet_address::family::INET6:
addr.in6_addr().sin6_addr = a;
break;
}
_add_ambiguous_addr(record.target,
addr,
record.priority,
record.weight,
false);
}).handle_exception_type([t=record.target](const std::system_error& e) {
logger().debug("{}: unable to resolve name for {}: {}",
"init_with_dns_srv", t, e);
});
});
}).handle_exception_type([name](const std::system_error& e) {
logger().debug("{}: unable to get monitor info from DNS SRV with {}: {}",
"init_with_dns_srv", name, e);
// ignore DNS failures
return seastar::make_ready_future<>();
});
}
bool MonMap::maybe_init_with_mon_host(const std::string& mon_host,
const bool for_mkfs)
{
if (!mon_host.empty()) {
if (auto ret = init_with_ips(mon_host, for_mkfs, "noname-"); ret == 0) {
return true;
}
// TODO: resolve_addrs() is a blocking call
if (auto ret = init_with_hosts(mon_host, for_mkfs, "noname-"); ret == 0) {
return true;
} else {
throw std::runtime_error(cpp_strerror(ret));
}
}
return false;
}
seastar::future<> MonMap::build_monmap(const crimson::common::ConfigProxy& conf,
bool for_mkfs)
{
logger().debug("{}: for_mkfs={}", __func__, for_mkfs);
// -m foo?
if (maybe_init_with_mon_host(conf.get_val<std::string>("mon_host"), for_mkfs)) {
return seastar::make_ready_future<>();
}
// What monitors are in the config file?
ostringstream errout;
if (auto ret = init_with_config_file(conf, errout); ret < 0) {
throw std::runtime_error(errout.str());
}
if (size() > 0) {
return seastar::make_ready_future<>();
}
// no info found from conf options lets try use DNS SRV records
const string srv_name = conf.get_val<std::string>("mon_dns_srv_name");
return init_with_dns_srv(for_mkfs, srv_name).then([this] {
if (size() == 0) {
throw std::runtime_error("no monitors specified to connect to.");
}
});
}
seastar::future<> MonMap::build_initial(const crimson::common::ConfigProxy& conf, bool for_mkfs)
{
// mon_host_override?
if (maybe_init_with_mon_host(conf.get_val<std::string>("mon_host_override"),
for_mkfs)) {
return seastar::make_ready_future<>();
}
// file?
if (const auto monmap = conf.get_val<std::string>("monmap");
!monmap.empty()) {
return read_monmap(monmap);
} else {
// fsid from conf?
if (const auto new_fsid = conf.get_val<uuid_d>("fsid");
!new_fsid.is_zero()) {
fsid = new_fsid;
}
return build_monmap(conf, for_mkfs).then([this] {
created = ceph_clock_now();
last_changed = created;
calc_legacy_ranks();
});
}
}
#else // WITH_SEASTAR
int MonMap::init_with_monmap(const std::string& monmap, std::ostream& errout)
{
int r;
try {
r = read(monmap.c_str());
} catch (ceph::buffer::error&) {
r = -EINVAL;
}
if (r >= 0)
return 0;
errout << "unable to read/decode monmap from " << monmap
<< ": " << cpp_strerror(-r) << std::endl;
return r;
}
int MonMap::init_with_dns_srv(CephContext* cct,
std::string srv_name,
bool for_mkfs,
std::ostream& errout)
{
lgeneric_dout(cct, 1) << __func__ << " srv_name: " << srv_name << dendl;
string domain;
// check if domain is also provided and extract it from srv_name
size_t idx = srv_name.find("_");
if (idx != string::npos) {
domain = srv_name.substr(idx + 1);
srv_name = srv_name.substr(0, idx);
}
map<string, DNSResolver::Record> records;
if (DNSResolver::get_instance()->resolve_srv_hosts(cct, srv_name,
DNSResolver::SRV_Protocol::TCP, domain, &records) != 0) {
errout << "unable to get monitor info from DNS SRV with service name: "
<< "ceph-mon" << std::endl;
return -1;
} else {
for (auto& record : records) {
record.second.addr.set_type(entity_addr_t::TYPE_ANY);
_add_ambiguous_addr(record.first,
record.second.addr,
record.second.priority,
record.second.weight,
false);
}
return 0;
}
}
int MonMap::build_initial(CephContext *cct, bool for_mkfs, ostream& errout)
{
lgeneric_dout(cct, 1) << __func__ << " for_mkfs: " << for_mkfs << dendl;
const auto& conf = cct->_conf;
// mon_host_override?
auto mon_host_override = conf.get_val<std::string>("mon_host_override");
if (!mon_host_override.empty()) {
lgeneric_dout(cct, 1) << "Using mon_host_override " << mon_host_override << dendl;
auto ret = init_with_ips(mon_host_override, for_mkfs, "noname-");
if (ret == -EINVAL) {
ret = init_with_hosts(mon_host_override, for_mkfs, "noname-");
}
if (ret < 0) {
errout << "unable to parse addrs in '" << mon_host_override << "'"
<< std::endl;
}
return ret;
}
// cct?
auto addrs = cct->get_mon_addrs();
if (addrs != nullptr && (addrs->size() > 0)) {
init_with_addrs(*addrs, for_mkfs, "noname-");
return 0;
}
// file?
if (const auto monmap = conf.get_val<std::string>("monmap");
!monmap.empty()) {
return init_with_monmap(monmap, errout);
}
// fsid from conf?
if (const auto new_fsid = conf.get_val<uuid_d>("fsid");
!new_fsid.is_zero()) {
fsid = new_fsid;
}
// -m foo?
if (const auto mon_host = conf.get_val<std::string>("mon_host");
!mon_host.empty()) {
auto ret = init_with_ips(mon_host, for_mkfs, "noname-");
if (ret == -EINVAL) {
ret = init_with_hosts(mon_host, for_mkfs, "noname-");
}
if (ret < 0) {
errout << "unable to parse addrs in '" << mon_host << "'"
<< std::endl;
return ret;
}
}
if (size() == 0) {
// What monitors are in the config file?
if (auto ret = init_with_config_file(conf, errout); ret < 0) {
return ret;
}
}
if (size() == 0) {
// no info found from conf options lets try use DNS SRV records
string srv_name = conf.get_val<std::string>("mon_dns_srv_name");
if (auto ret = init_with_dns_srv(cct, srv_name, for_mkfs, errout); ret < 0) {
return -ENOENT;
}
}
if (size() == 0) {
errout << "no monitors specified to connect to." << std::endl;
return -ENOENT;
}
strategy = static_cast<election_strategy>(conf.get_val<uint64_t>("mon_election_default_strategy"));
created = ceph_clock_now();
last_changed = created;
calc_legacy_ranks();
return 0;
}
#endif // WITH_SEASTAR
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