// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2004-2006 Sage Weil * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #include #include #include #include #include #include using namespace std; #include "osd/OSD.h" #include "os/ObjectStore.h" #include "mon/MonClient.h" #include "include/ceph_features.h" #include "common/config.h" #include "mon/MonMap.h" #include "msg/Messenger.h" #include "common/Timer.h" #include "common/TracepointProvider.h" #include "common/ceph_argparse.h" #include "global/global_init.h" #include "global/signal_handler.h" #include "include/color.h" #include "common/errno.h" #include "common/pick_address.h" #include "perfglue/heap_profiler.h" #include "include/assert.h" #define dout_context g_ceph_context #define dout_subsys ceph_subsys_osd namespace { TracepointProvider::Traits osd_tracepoint_traits("libosd_tp.so", "osd_tracing"); TracepointProvider::Traits os_tracepoint_traits("libos_tp.so", "osd_objectstore_tracing"); #ifdef WITH_OSD_INSTRUMENT_FUNCTIONS TracepointProvider::Traits cyg_profile_traits("libcyg_profile_tp.so", "osd_function_tracing"); #endif } // anonymous namespace OSD *osd = NULL; void handle_osd_signal(int signum) { if (osd) osd->handle_signal(signum); } static void usage() { cout << "usage: ceph-osd -i [flags]\n" << " --osd-data PATH data directory\n" << " --osd-journal PATH\n" << " journal file or block device\n" << " --mkfs create a [new] data directory\n" << " --mkkey generate a new secret key. This is normally used in combination with --mkfs\n" << " --convert-filestore\n" << " run any pending upgrade operations\n" << " --flush-journal flush all data out of journal\n" << " --mkjournal initialize a new journal\n" << " --check-wants-journal\n" << " check whether a journal is desired\n" << " --check-allows-journal\n" << " check whether a journal is allowed\n" << " --check-needs-journal\n" << " check whether a journal is required\n" << " --debug_osd set debug level (e.g. 10)\n" << " --get-device-fsid PATH\n" << " get OSD fsid for the given block device\n" << std::endl; generic_server_usage(); } #ifdef BUILDING_FOR_EMBEDDED void cephd_preload_embedded_plugins(); void cephd_preload_rados_classes(OSD *osd); extern "C" int cephd_osd(int argc, const char **argv) #else int main(int argc, const char **argv) #endif { vector args; argv_to_vec(argc, argv, args); env_to_vec(args); vector def_args; // We want to enable leveldb's log, while allowing users to override this // option, therefore we will pass it as a default argument to global_init(). def_args.push_back("--leveldb-log="); auto cct = global_init(&def_args, args, CEPH_ENTITY_TYPE_OSD, CODE_ENVIRONMENT_DAEMON, 0, "osd_data"); ceph_heap_profiler_init(); // osd specific args bool mkfs = false; bool mkjournal = false; bool check_wants_journal = false; bool check_allows_journal = false; bool check_needs_journal = false; bool mkkey = false; bool flushjournal = false; bool dump_journal = false; bool convertfilestore = false; bool get_osd_fsid = false; bool get_cluster_fsid = false; bool get_journal_fsid = false; bool get_device_fsid = false; string device_path; std::string dump_pg_log; std::string val; for (std::vector::iterator i = args.begin(); i != args.end(); ) { if (ceph_argparse_double_dash(args, i)) { break; } else if (ceph_argparse_flag(args, i, "-h", "--help", (char*)NULL)) { usage(); } else if (ceph_argparse_flag(args, i, "--mkfs", (char*)NULL)) { mkfs = true; } else if (ceph_argparse_flag(args, i, "--mkjournal", (char*)NULL)) { mkjournal = true; } else if (ceph_argparse_flag(args, i, "--check-allows-journal", (char*)NULL)) { check_allows_journal = true; } else if (ceph_argparse_flag(args, i, "--check-wants-journal", (char*)NULL)) { check_wants_journal = true; } else if (ceph_argparse_flag(args, i, "--check-needs-journal", (char*)NULL)) { check_needs_journal = true; } else if (ceph_argparse_flag(args, i, "--mkkey", (char*)NULL)) { mkkey = true; } else if (ceph_argparse_flag(args, i, "--flush-journal", (char*)NULL)) { flushjournal = true; } else if (ceph_argparse_flag(args, i, "--convert-filestore", (char*)NULL)) { convertfilestore = true; } else if (ceph_argparse_witharg(args, i, &val, "--dump-pg-log", (char*)NULL)) { dump_pg_log = val; } else if (ceph_argparse_flag(args, i, "--dump-journal", (char*)NULL)) { dump_journal = true; } else if (ceph_argparse_flag(args, i, "--get-cluster-fsid", (char*)NULL)) { get_cluster_fsid = true; } else if (ceph_argparse_flag(args, i, "--get-osd-fsid", "--get-osd-uuid", (char*)NULL)) { get_osd_fsid = true; } else if (ceph_argparse_flag(args, i, "--get-journal-fsid", "--get-journal-uuid", (char*)NULL)) { get_journal_fsid = true; } else if (ceph_argparse_witharg(args, i, &device_path, "--get-device-fsid", (char*)NULL)) { get_device_fsid = true; } else { ++i; } } if (!args.empty()) { derr << "unrecognized arg " << args[0] << dendl; usage(); } if (get_journal_fsid) { device_path = g_conf->osd_journal; get_device_fsid = true; } if (get_device_fsid) { uuid_d uuid; int r = ObjectStore::probe_block_device_fsid(g_ceph_context, device_path, &uuid); if (r < 0) { cerr << "failed to get device fsid for " << device_path << ": " << cpp_strerror(r) << std::endl; exit(1); } cout << uuid << std::endl; return 0; } if (!dump_pg_log.empty()) { common_init_finish(g_ceph_context); bufferlist bl; std::string error; int r = bl.read_file(dump_pg_log.c_str(), &error); if (r >= 0) { pg_log_entry_t e; bufferlist::iterator p = bl.begin(); while (!p.end()) { uint64_t pos = p.get_off(); try { ::decode(e, p); } catch (const buffer::error &e) { derr << "failed to decode LogEntry at offset " << pos << dendl; return 1; } derr << pos << ":\t" << e << dendl; } } else { derr << "unable to open " << dump_pg_log << ": " << error << dendl; } return 0; } // whoami char *end; const char *id = g_conf->name.get_id().c_str(); int whoami = strtol(id, &end, 10); if (*end || end == id || whoami < 0) { derr << "must specify '-i #' where # is the osd number" << dendl; usage(); } if (g_conf->osd_data.empty()) { derr << "must specify '--osd-data=foo' data path" << dendl; usage(); } // the store string store_type = g_conf->osd_objectstore; { char fn[PATH_MAX]; snprintf(fn, sizeof(fn), "%s/type", g_conf->osd_data.c_str()); int fd = ::open(fn, O_RDONLY); if (fd >= 0) { bufferlist bl; bl.read_fd(fd, 64); if (bl.length()) { store_type = string(bl.c_str(), bl.length() - 1); // drop \n g_conf->set_val("osd_objectstore", store_type); dout(5) << "object store type is " << store_type << dendl; } ::close(fd); } } ObjectStore *store = ObjectStore::create(g_ceph_context, store_type, g_conf->osd_data, g_conf->osd_journal, g_conf->osd_os_flags); if (!store) { derr << "unable to create object store" << dendl; return -ENODEV; } #ifdef BUILDING_FOR_EMBEDDED cephd_preload_embedded_plugins(); #endif if (mkkey) { common_init_finish(g_ceph_context); KeyRing *keyring = KeyRing::create_empty(); if (!keyring) { derr << "Unable to get a Ceph keyring." << dendl; return 1; } EntityName ename(g_conf->name); EntityAuth eauth; int ret = keyring->load(g_ceph_context, g_conf->keyring); if (ret == 0 && keyring->get_auth(ename, eauth)) { derr << "already have key in keyring " << g_conf->keyring << dendl; } else { eauth.key.create(g_ceph_context, CEPH_CRYPTO_AES); keyring->add(ename, eauth); bufferlist bl; keyring->encode_plaintext(bl); int r = bl.write_file(g_conf->keyring.c_str(), 0600); if (r) derr << TEXT_RED << " ** ERROR: writing new keyring to " << g_conf->keyring << ": " << cpp_strerror(r) << TEXT_NORMAL << dendl; else derr << "created new key in keyring " << g_conf->keyring << dendl; } } if (mkfs) { common_init_finish(g_ceph_context); MonClient mc(g_ceph_context); if (mc.build_initial_monmap() < 0) return -1; if (mc.get_monmap_privately() < 0) return -1; if (mc.monmap.fsid.is_zero()) { derr << "must specify cluster fsid" << dendl; return -EINVAL; } int err = OSD::mkfs(g_ceph_context, store, g_conf->osd_data, mc.monmap.fsid, whoami); if (err < 0) { derr << TEXT_RED << " ** ERROR: error creating empty object store in " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; exit(1); } derr << "created object store " << g_conf->osd_data << " for osd." << whoami << " fsid " << mc.monmap.fsid << dendl; } if (mkfs || mkkey) exit(0); if (mkjournal) { common_init_finish(g_ceph_context); int err = store->mkjournal(); if (err < 0) { derr << TEXT_RED << " ** ERROR: error creating fresh journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; exit(1); } derr << "created new journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << dendl; exit(0); } if (check_wants_journal) { if (store->wants_journal()) { cout << "wants journal: yes" << std::endl; exit(0); } else { cout << "wants journal: no" << std::endl; exit(1); } } if (check_allows_journal) { if (store->allows_journal()) { cout << "allows journal: yes" << std::endl; exit(0); } else { cout << "allows journal: no" << std::endl; exit(1); } } if (check_needs_journal) { if (store->needs_journal()) { cout << "needs journal: yes" << std::endl; exit(0); } else { cout << "needs journal: no" << std::endl; exit(1); } } if (flushjournal) { common_init_finish(g_ceph_context); int err = store->mount(); if (err < 0) { derr << TEXT_RED << " ** ERROR: error flushing journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; goto flushjournal_out; } store->umount(); derr << "flushed journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << dendl; flushjournal_out: delete store; exit(err < 0 ? 1 : 0); } if (dump_journal) { common_init_finish(g_ceph_context); int err = store->dump_journal(cout); if (err < 0) { derr << TEXT_RED << " ** ERROR: error dumping journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; exit(1); } derr << "dumped journal " << g_conf->osd_journal << " for object store " << g_conf->osd_data << dendl; exit(0); } if (convertfilestore) { int err = store->mount(); if (err < 0) { derr << TEXT_RED << " ** ERROR: error mounting store " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; exit(1); } err = store->upgrade(); store->umount(); if (err < 0) { derr << TEXT_RED << " ** ERROR: error converting store " << g_conf->osd_data << ": " << cpp_strerror(-err) << TEXT_NORMAL << dendl; exit(1); } exit(0); } string magic; uuid_d cluster_fsid, osd_fsid; int w; int r = OSD::peek_meta(store, magic, cluster_fsid, osd_fsid, w); if (r < 0) { derr << TEXT_RED << " ** ERROR: unable to open OSD superblock on " << g_conf->osd_data << ": " << cpp_strerror(-r) << TEXT_NORMAL << dendl; if (r == -ENOTSUP) { derr << TEXT_RED << " ** please verify that underlying storage " << "supports xattrs" << TEXT_NORMAL << dendl; } exit(1); } if (w != whoami) { derr << "OSD id " << w << " != my id " << whoami << dendl; exit(1); } if (strcmp(magic.c_str(), CEPH_OSD_ONDISK_MAGIC)) { derr << "OSD magic " << magic << " != my " << CEPH_OSD_ONDISK_MAGIC << dendl; exit(1); } if (get_cluster_fsid) { cout << cluster_fsid << std::endl; exit(0); } if (get_osd_fsid) { cout << osd_fsid << std::endl; exit(0); } pick_addresses(g_ceph_context, CEPH_PICK_ADDRESS_PUBLIC |CEPH_PICK_ADDRESS_CLUSTER); if (g_conf->public_addr.is_blank_ip() && !g_conf->cluster_addr.is_blank_ip()) { derr << TEXT_YELLOW << " ** WARNING: specified cluster addr but not public addr; we recommend **\n" << " ** you specify neither or both. **" << TEXT_NORMAL << dendl; } std::string public_msgr_type = g_conf->ms_public_type.empty() ? g_conf->get_val("ms_type") : g_conf->ms_public_type; std::string cluster_msgr_type = g_conf->ms_cluster_type.empty() ? g_conf->get_val("ms_type") : g_conf->ms_cluster_type; Messenger *ms_public = Messenger::create(g_ceph_context, public_msgr_type, entity_name_t::OSD(whoami), "client", getpid(), Messenger::HAS_HEAVY_TRAFFIC | Messenger::HAS_MANY_CONNECTIONS); Messenger *ms_cluster = Messenger::create(g_ceph_context, cluster_msgr_type, entity_name_t::OSD(whoami), "cluster", getpid(), Messenger::HAS_HEAVY_TRAFFIC | Messenger::HAS_MANY_CONNECTIONS); Messenger *ms_hb_back_client = Messenger::create(g_ceph_context, cluster_msgr_type, entity_name_t::OSD(whoami), "hb_back_client", getpid(), Messenger::HEARTBEAT); Messenger *ms_hb_front_client = Messenger::create(g_ceph_context, public_msgr_type, entity_name_t::OSD(whoami), "hb_front_client", getpid(), Messenger::HEARTBEAT); Messenger *ms_hb_back_server = Messenger::create(g_ceph_context, cluster_msgr_type, entity_name_t::OSD(whoami), "hb_back_server", getpid(), Messenger::HEARTBEAT); Messenger *ms_hb_front_server = Messenger::create(g_ceph_context, public_msgr_type, entity_name_t::OSD(whoami), "hb_front_server", getpid(), Messenger::HEARTBEAT); Messenger *ms_objecter = Messenger::create(g_ceph_context, public_msgr_type, entity_name_t::OSD(whoami), "ms_objecter", getpid(), 0); if (!ms_public || !ms_cluster || !ms_hb_front_client || !ms_hb_back_client || !ms_hb_back_server || !ms_hb_front_server || !ms_objecter) exit(1); ms_cluster->set_cluster_protocol(CEPH_OSD_PROTOCOL); ms_hb_front_client->set_cluster_protocol(CEPH_OSD_PROTOCOL); ms_hb_back_client->set_cluster_protocol(CEPH_OSD_PROTOCOL); ms_hb_back_server->set_cluster_protocol(CEPH_OSD_PROTOCOL); ms_hb_front_server->set_cluster_protocol(CEPH_OSD_PROTOCOL); cout << "starting osd." << whoami << " at " << ms_public->get_myaddr() << " osd_data " << g_conf->osd_data << " " << ((g_conf->osd_journal.empty()) ? "(no journal)" : g_conf->osd_journal) << std::endl; boost::scoped_ptr client_byte_throttler( new Throttle(g_ceph_context, "osd_client_bytes", g_conf->osd_client_message_size_cap)); // All feature bits 0 - 34 should be present from dumpling v0.67 forward uint64_t osd_required = CEPH_FEATURE_UID | CEPH_FEATURE_PGID64 | CEPH_FEATURE_OSDENC; ms_public->set_default_policy(Messenger::Policy::stateless_server(0)); ms_public->set_policy_throttlers(entity_name_t::TYPE_CLIENT, client_byte_throttler.get(), nullptr); ms_public->set_policy(entity_name_t::TYPE_MON, Messenger::Policy::lossy_client(CEPH_FEATURE_UID | CEPH_FEATURE_PGID64 | CEPH_FEATURE_OSDENC)); ms_public->set_policy(entity_name_t::TYPE_MGR, Messenger::Policy::lossy_client(CEPH_FEATURE_UID | CEPH_FEATURE_PGID64 | CEPH_FEATURE_OSDENC)); //try to poison pill any OSD connections on the wrong address ms_public->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::stateless_server(0)); ms_cluster->set_default_policy(Messenger::Policy::stateless_server(0)); ms_cluster->set_policy(entity_name_t::TYPE_MON, Messenger::Policy::lossy_client(0)); ms_cluster->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::lossless_peer(osd_required)); ms_cluster->set_policy(entity_name_t::TYPE_CLIENT, Messenger::Policy::stateless_server(0)); ms_hb_front_client->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::lossy_client(0)); ms_hb_back_client->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::lossy_client(0)); ms_hb_back_server->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::stateless_server(0)); ms_hb_front_server->set_policy(entity_name_t::TYPE_OSD, Messenger::Policy::stateless_server(0)); ms_objecter->set_default_policy(Messenger::Policy::lossy_client(CEPH_FEATURE_OSDREPLYMUX)); r = ms_public->bind(g_conf->public_addr); if (r < 0) exit(1); r = ms_cluster->bind(g_conf->cluster_addr); if (r < 0) exit(1); if (g_conf->osd_heartbeat_use_min_delay_socket) { ms_hb_front_client->set_socket_priority(SOCKET_PRIORITY_MIN_DELAY); ms_hb_back_client->set_socket_priority(SOCKET_PRIORITY_MIN_DELAY); ms_hb_back_server->set_socket_priority(SOCKET_PRIORITY_MIN_DELAY); ms_hb_front_server->set_socket_priority(SOCKET_PRIORITY_MIN_DELAY); } // hb back should bind to same ip as cluster_addr (if specified) entity_addr_t hb_back_addr = g_conf->osd_heartbeat_addr; if (hb_back_addr.is_blank_ip()) { hb_back_addr = g_conf->cluster_addr; if (hb_back_addr.is_ip()) hb_back_addr.set_port(0); } r = ms_hb_back_server->bind(hb_back_addr); if (r < 0) exit(1); r = ms_hb_back_client->client_bind(hb_back_addr); if (r < 0) exit(1); // hb front should bind to same ip as public_addr entity_addr_t hb_front_addr = g_conf->public_addr; if (hb_front_addr.is_ip()) hb_front_addr.set_port(0); r = ms_hb_front_server->bind(hb_front_addr); if (r < 0) exit(1); r = ms_hb_front_client->client_bind(hb_front_addr); if (r < 0) exit(1); // Set up crypto, daemonize, etc. global_init_daemonize(g_ceph_context); common_init_finish(g_ceph_context); TracepointProvider::initialize(g_ceph_context); TracepointProvider::initialize(g_ceph_context); #ifdef WITH_OSD_INSTRUMENT_FUNCTIONS TracepointProvider::initialize(g_ceph_context); #endif MonClient mc(g_ceph_context); if (mc.build_initial_monmap() < 0) return -1; global_init_chdir(g_ceph_context); #ifndef BUILDING_FOR_EMBEDDED if (global_init_preload_erasure_code(g_ceph_context) < 0) return -1; #endif srand(time(NULL) + getpid()); osd = new OSD(g_ceph_context, store, whoami, ms_cluster, ms_public, ms_hb_front_client, ms_hb_back_client, ms_hb_front_server, ms_hb_back_server, ms_objecter, &mc, g_conf->osd_data, g_conf->osd_journal); int err = osd->pre_init(); if (err < 0) { derr << TEXT_RED << " ** ERROR: osd pre_init failed: " << cpp_strerror(-err) << TEXT_NORMAL << dendl; return 1; } ms_public->start(); ms_hb_front_client->start(); ms_hb_back_client->start(); ms_hb_front_server->start(); ms_hb_back_server->start(); ms_cluster->start(); ms_objecter->start(); // start osd err = osd->init(); if (err < 0) { derr << TEXT_RED << " ** ERROR: osd init failed: " << cpp_strerror(-err) << TEXT_NORMAL << dendl; return 1; } #ifdef BUILDING_FOR_EMBEDDED cephd_preload_rados_classes(osd); #endif // install signal handlers init_async_signal_handler(); register_async_signal_handler(SIGHUP, sighup_handler); register_async_signal_handler_oneshot(SIGINT, handle_osd_signal); register_async_signal_handler_oneshot(SIGTERM, handle_osd_signal); osd->final_init(); if (g_conf->inject_early_sigterm) kill(getpid(), SIGTERM); ms_public->wait(); ms_hb_front_client->wait(); ms_hb_back_client->wait(); ms_hb_front_server->wait(); ms_hb_back_server->wait(); ms_cluster->wait(); ms_objecter->wait(); unregister_async_signal_handler(SIGHUP, sighup_handler); unregister_async_signal_handler(SIGINT, handle_osd_signal); unregister_async_signal_handler(SIGTERM, handle_osd_signal); shutdown_async_signal_handler(); // done delete osd; delete ms_public; delete ms_hb_front_client; delete ms_hb_back_client; delete ms_hb_front_server; delete ms_hb_back_server; delete ms_cluster; delete ms_objecter; client_byte_throttler.reset(); // cd on exit, so that gmon.out (if any) goes into a separate directory for each node. char s[20]; snprintf(s, sizeof(s), "gmon/%d", getpid()); if ((mkdir(s, 0755) == 0) && (chdir(s) == 0)) { dout(0) << "ceph-osd: gmon.out should be in " << s << dendl; } return 0; }