diff options
Diffstat (limited to '')
-rw-r--r-- | src/rgw/rgw_amqp.cc | 1051 |
1 files changed, 1051 insertions, 0 deletions
diff --git a/src/rgw/rgw_amqp.cc b/src/rgw/rgw_amqp.cc new file mode 100644 index 000000000..3014edd1d --- /dev/null +++ b/src/rgw/rgw_amqp.cc @@ -0,0 +1,1051 @@ +// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- +// vim: ts=8 sw=2 smarttab ft=cpp + +#include "rgw_amqp.h" +#include <amqp.h> +#include <amqp_ssl_socket.h> +#include <amqp_tcp_socket.h> +#include <amqp_framing.h> +#include "include/ceph_assert.h" +#include <sstream> +#include <cstring> +#include <unordered_map> +#include <string> +#include <vector> +#include <thread> +#include <atomic> +#include <mutex> +#include <boost/lockfree/queue.hpp> +#include <boost/functional/hash.hpp> +#include "common/dout.h" +#include <openssl/ssl.h> + +#define dout_subsys ceph_subsys_rgw + +// TODO investigation, not necessarily issues: +// (1) in case of single threaded writer context use spsc_queue +// (2) support multiple channels +// (3) check performance of emptying queue to local list, and go over the list and publish +// (4) use std::shared_mutex (c++17) or equivalent for the connections lock + +namespace rgw::amqp { + +// RGW AMQP status codes for publishing +static const int RGW_AMQP_STATUS_BROKER_NACK = -0x1001; +static const int RGW_AMQP_STATUS_CONNECTION_CLOSED = -0x1002; +static const int RGW_AMQP_STATUS_QUEUE_FULL = -0x1003; +static const int RGW_AMQP_STATUS_MAX_INFLIGHT = -0x1004; +static const int RGW_AMQP_STATUS_MANAGER_STOPPED = -0x1005; +// RGW AMQP status code for connection opening +static const int RGW_AMQP_STATUS_CONN_ALLOC_FAILED = -0x2001; +static const int RGW_AMQP_STATUS_SOCKET_ALLOC_FAILED = -0x2002; +static const int RGW_AMQP_STATUS_SOCKET_OPEN_FAILED = -0x2003; +static const int RGW_AMQP_STATUS_LOGIN_FAILED = -0x2004; +static const int RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED = -0x2005; +static const int RGW_AMQP_STATUS_VERIFY_EXCHANGE_FAILED = -0x2006; +static const int RGW_AMQP_STATUS_Q_DECLARE_FAILED = -0x2007; +static const int RGW_AMQP_STATUS_CONFIRM_DECLARE_FAILED = -0x2008; +static const int RGW_AMQP_STATUS_CONSUME_DECLARE_FAILED = -0x2009; +static const int RGW_AMQP_STATUS_SOCKET_CACERT_FAILED = -0x2010; + +static const int RGW_AMQP_RESPONSE_SOCKET_ERROR = -0x3008; +static const int RGW_AMQP_NO_REPLY_CODE = 0x0; + +// the amqp_connection_info struct does not hold any memory and just points to the URL string +// so, strings are copied into connection_id_t +connection_id_t::connection_id_t(const amqp_connection_info& info, const std::string& _exchange) + : host(info.host), port(info.port), vhost(info.vhost), exchange(_exchange), ssl(info.ssl) {} + +// equality operator and hasher functor are needed +// so that connection_id_t could be used as key in unordered_map +bool operator==(const connection_id_t& lhs, const connection_id_t& rhs) { + return lhs.host == rhs.host && lhs.port == rhs.port && + lhs.vhost == rhs.vhost && lhs.exchange == rhs.exchange; +} + +struct connection_id_hasher { + std::size_t operator()(const connection_id_t& k) const { + std::size_t h = 0; + boost::hash_combine(h, k.host); + boost::hash_combine(h, k.port); + boost::hash_combine(h, k.vhost); + boost::hash_combine(h, k.exchange); + return h; + } +}; + +std::string to_string(const connection_id_t& id) { + return fmt::format("{}://{}:{}{}?exchange={}", + id.ssl ? "amqps" : "amqp", + id.host, id.port, id.vhost, id.exchange); +} + +// automatically cleans amqp state when gets out of scope +class ConnectionCleaner { + private: + amqp_connection_state_t state; + public: + ConnectionCleaner(amqp_connection_state_t _state) : state(_state) {} + ~ConnectionCleaner() { + if (state) { + amqp_destroy_connection(state); + } + } + // call reset() if cleanup is not needed anymore + void reset() { + state = nullptr; + } +}; + +// struct for holding the callback and its tag in the callback list +struct reply_callback_with_tag_t { + uint64_t tag; + reply_callback_t cb; + + reply_callback_with_tag_t(uint64_t _tag, reply_callback_t _cb) : tag(_tag), cb(_cb) {} + + bool operator==(uint64_t rhs) { + return tag == rhs; + } +}; + +typedef std::vector<reply_callback_with_tag_t> CallbackList; + +// struct for holding the connection state object as well as the exchange +struct connection_t { + CephContext* cct = nullptr; + amqp_connection_state_t state = nullptr; + amqp_bytes_t reply_to_queue = amqp_empty_bytes; + uint64_t delivery_tag = 1; + int status = AMQP_STATUS_OK; + int reply_type = AMQP_RESPONSE_NORMAL; + int reply_code = RGW_AMQP_NO_REPLY_CODE; + CallbackList callbacks; + ceph::coarse_real_clock::time_point next_reconnect = ceph::coarse_real_clock::now(); + bool mandatory = false; + const bool use_ssl = false; + std::string user; + std::string password; + bool verify_ssl = true; + boost::optional<std::string> ca_location; + utime_t timestamp = ceph_clock_now(); + + connection_t(CephContext* _cct, const amqp_connection_info& info, bool _verify_ssl, boost::optional<const std::string&> _ca_location) : + cct(_cct), use_ssl(info.ssl), user(info.user), password(info.password), verify_ssl(_verify_ssl), ca_location(_ca_location) {} + + // cleanup of all internal connection resource + // the object can still remain, and internal connection + // resources created again on successful reconnection + void destroy(int s) { + status = s; + ConnectionCleaner clean_state(state); + state = nullptr; + amqp_bytes_free(reply_to_queue); + reply_to_queue = amqp_empty_bytes; + // fire all remaining callbacks + std::for_each(callbacks.begin(), callbacks.end(), [this](auto& cb_tag) { + cb_tag.cb(status); + ldout(cct, 20) << "AMQP destroy: invoking callback with tag=" << cb_tag.tag << dendl; + }); + callbacks.clear(); + delivery_tag = 1; + } + + bool is_ok() const { + return (state != nullptr); + } + + // dtor also destroys the internals + ~connection_t() { + destroy(RGW_AMQP_STATUS_CONNECTION_CLOSED); + } +}; + +// convert connection info to string +std::string to_string(const amqp_connection_info& info) { + std::stringstream ss; + ss << "connection info:" << + "\nHost: " << info.host << + "\nPort: " << info.port << + "\nUser: " << info.user << + "\nPassword: " << info.password << + "\nvhost: " << info.vhost << + "\nSSL support: " << info.ssl << std::endl; + return ss.str(); +} + +// convert reply to error code +int reply_to_code(const amqp_rpc_reply_t& reply) { + switch (reply.reply_type) { + case AMQP_RESPONSE_NONE: + case AMQP_RESPONSE_NORMAL: + return RGW_AMQP_NO_REPLY_CODE; + case AMQP_RESPONSE_LIBRARY_EXCEPTION: + return reply.library_error; + case AMQP_RESPONSE_SERVER_EXCEPTION: + if (reply.reply.decoded) { + const amqp_connection_close_t* m = (amqp_connection_close_t*)reply.reply.decoded; + return m->reply_code; + } + return reply.reply.id; + } + return RGW_AMQP_NO_REPLY_CODE; +} + +// convert reply to string +std::string to_string(const amqp_rpc_reply_t& reply) { + std::stringstream ss; + switch (reply.reply_type) { + case AMQP_RESPONSE_NORMAL: + return ""; + case AMQP_RESPONSE_NONE: + return "missing RPC reply type"; + case AMQP_RESPONSE_LIBRARY_EXCEPTION: + return amqp_error_string2(reply.library_error); + case AMQP_RESPONSE_SERVER_EXCEPTION: + { + switch (reply.reply.id) { + case AMQP_CONNECTION_CLOSE_METHOD: + ss << "server connection error: "; + break; + case AMQP_CHANNEL_CLOSE_METHOD: + ss << "server channel error: "; + break; + default: + ss << "server unknown error: "; + break; + } + if (reply.reply.decoded) { + amqp_connection_close_t* m = (amqp_connection_close_t*)reply.reply.decoded; + ss << m->reply_code << " text: " << std::string((char*)m->reply_text.bytes, m->reply_text.len); + } + return ss.str(); + } + default: + ss << "unknown error, method id: " << reply.reply.id; + return ss.str(); + } +} + +// convert status enum to string +std::string to_string(amqp_status_enum s) { + switch (s) { + case AMQP_STATUS_OK: + return "AMQP_STATUS_OK"; + case AMQP_STATUS_NO_MEMORY: + return "AMQP_STATUS_NO_MEMORY"; + case AMQP_STATUS_BAD_AMQP_DATA: + return "AMQP_STATUS_BAD_AMQP_DATA"; + case AMQP_STATUS_UNKNOWN_CLASS: + return "AMQP_STATUS_UNKNOWN_CLASS"; + case AMQP_STATUS_UNKNOWN_METHOD: + return "AMQP_STATUS_UNKNOWN_METHOD"; + case AMQP_STATUS_HOSTNAME_RESOLUTION_FAILED: + return "AMQP_STATUS_HOSTNAME_RESOLUTION_FAILED"; + case AMQP_STATUS_INCOMPATIBLE_AMQP_VERSION: + return "AMQP_STATUS_INCOMPATIBLE_AMQP_VERSION"; + case AMQP_STATUS_CONNECTION_CLOSED: + return "AMQP_STATUS_CONNECTION_CLOSED"; + case AMQP_STATUS_BAD_URL: + return "AMQP_STATUS_BAD_URL"; + case AMQP_STATUS_SOCKET_ERROR: + return "AMQP_STATUS_SOCKET_ERROR"; + case AMQP_STATUS_INVALID_PARAMETER: + return "AMQP_STATUS_INVALID_PARAMETER"; + case AMQP_STATUS_TABLE_TOO_BIG: + return "AMQP_STATUS_TABLE_TOO_BIG"; + case AMQP_STATUS_WRONG_METHOD: + return "AMQP_STATUS_WRONG_METHOD"; + case AMQP_STATUS_TIMEOUT: + return "AMQP_STATUS_TIMEOUT"; + case AMQP_STATUS_TIMER_FAILURE: + return "AMQP_STATUS_TIMER_FAILURE"; + case AMQP_STATUS_HEARTBEAT_TIMEOUT: + return "AMQP_STATUS_HEARTBEAT_TIMEOUT"; + case AMQP_STATUS_UNEXPECTED_STATE: + return "AMQP_STATUS_UNEXPECTED_STATE"; + case AMQP_STATUS_SOCKET_CLOSED: + return "AMQP_STATUS_SOCKET_CLOSED"; + case AMQP_STATUS_SOCKET_INUSE: + return "AMQP_STATUS_SOCKET_INUSE"; + case AMQP_STATUS_BROKER_UNSUPPORTED_SASL_METHOD: + return "AMQP_STATUS_BROKER_UNSUPPORTED_SASL_METHOD"; +#if AMQP_VERSION >= AMQP_VERSION_CODE(0, 8, 0, 0) + case AMQP_STATUS_UNSUPPORTED: + return "AMQP_STATUS_UNSUPPORTED"; +#endif + case _AMQP_STATUS_NEXT_VALUE: + return "AMQP_STATUS_INTERNAL"; + case AMQP_STATUS_TCP_ERROR: + return "AMQP_STATUS_TCP_ERROR"; + case AMQP_STATUS_TCP_SOCKETLIB_INIT_ERROR: + return "AMQP_STATUS_TCP_SOCKETLIB_INIT_ERROR"; + case _AMQP_STATUS_TCP_NEXT_VALUE: + return "AMQP_STATUS_INTERNAL"; + case AMQP_STATUS_SSL_ERROR: + return "AMQP_STATUS_SSL_ERROR"; + case AMQP_STATUS_SSL_HOSTNAME_VERIFY_FAILED: + return "AMQP_STATUS_SSL_HOSTNAME_VERIFY_FAILED"; + case AMQP_STATUS_SSL_PEER_VERIFY_FAILED: + return "AMQP_STATUS_SSL_PEER_VERIFY_FAILED"; + case AMQP_STATUS_SSL_CONNECTION_FAILED: + return "AMQP_STATUS_SSL_CONNECTION_FAILED"; + case _AMQP_STATUS_SSL_NEXT_VALUE: + return "AMQP_STATUS_INTERNAL"; +#if AMQP_VERSION >= AMQP_VERSION_CODE(0, 11, 0, 0) + case AMQP_STATUS_SSL_SET_ENGINE_FAILED: + return "AMQP_STATUS_SSL_SET_ENGINE_FAILED"; +#endif + default: + return "AMQP_STATUS_UNKNOWN"; + } +} + +// TODO: add status_to_string on the connection object to prinf full status + +// convert int status to string - including RGW specific values +std::string status_to_string(int s) { + switch (s) { + case RGW_AMQP_STATUS_BROKER_NACK: + return "RGW_AMQP_STATUS_BROKER_NACK"; + case RGW_AMQP_STATUS_CONNECTION_CLOSED: + return "RGW_AMQP_STATUS_CONNECTION_CLOSED"; + case RGW_AMQP_STATUS_QUEUE_FULL: + return "RGW_AMQP_STATUS_QUEUE_FULL"; + case RGW_AMQP_STATUS_MAX_INFLIGHT: + return "RGW_AMQP_STATUS_MAX_INFLIGHT"; + case RGW_AMQP_STATUS_MANAGER_STOPPED: + return "RGW_AMQP_STATUS_MANAGER_STOPPED"; + case RGW_AMQP_STATUS_CONN_ALLOC_FAILED: + return "RGW_AMQP_STATUS_CONN_ALLOC_FAILED"; + case RGW_AMQP_STATUS_SOCKET_ALLOC_FAILED: + return "RGW_AMQP_STATUS_SOCKET_ALLOC_FAILED"; + case RGW_AMQP_STATUS_SOCKET_OPEN_FAILED: + return "RGW_AMQP_STATUS_SOCKET_OPEN_FAILED"; + case RGW_AMQP_STATUS_LOGIN_FAILED: + return "RGW_AMQP_STATUS_LOGIN_FAILED"; + case RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED: + return "RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED"; + case RGW_AMQP_STATUS_VERIFY_EXCHANGE_FAILED: + return "RGW_AMQP_STATUS_VERIFY_EXCHANGE_FAILED"; + case RGW_AMQP_STATUS_Q_DECLARE_FAILED: + return "RGW_AMQP_STATUS_Q_DECLARE_FAILED"; + case RGW_AMQP_STATUS_CONFIRM_DECLARE_FAILED: + return "RGW_AMQP_STATUS_CONFIRM_DECLARE_FAILED"; + case RGW_AMQP_STATUS_CONSUME_DECLARE_FAILED: + return "RGW_AMQP_STATUS_CONSUME_DECLARE_FAILED"; + case RGW_AMQP_STATUS_SOCKET_CACERT_FAILED: + return "RGW_AMQP_STATUS_SOCKET_CACERT_FAILED"; + } + return to_string((amqp_status_enum)s); +} + +// check the result from calls and return if error (=null) +#define RETURN_ON_ERROR(C, S, OK) \ + if (!OK) { \ + C->status = S; \ + return false; \ + } + +// in case of RPC calls, getting the RPC reply and return if an error is detected +#define RETURN_ON_REPLY_ERROR(C, ST, S) { \ + const auto reply = amqp_get_rpc_reply(ST); \ + if (reply.reply_type != AMQP_RESPONSE_NORMAL) { \ + C->status = S; \ + C->reply_type = reply.reply_type; \ + C->reply_code = reply_to_code(reply); \ + return false; \ + } \ + } + +static const amqp_channel_t CHANNEL_ID = 1; +static const amqp_channel_t CONFIRMING_CHANNEL_ID = 2; + +// utility function to create a connection, when the connection object already exists +bool new_state(connection_t* conn, const connection_id_t& conn_id) { + // state must be null at this point + ceph_assert(!conn->state); + // reset all status codes + conn->status = AMQP_STATUS_OK; + conn->reply_type = AMQP_RESPONSE_NORMAL; + conn->reply_code = RGW_AMQP_NO_REPLY_CODE; + + auto state = amqp_new_connection(); + if (!state) { + conn->status = RGW_AMQP_STATUS_CONN_ALLOC_FAILED; + return false; + } + // make sure that the connection state is cleaned up in case of error + ConnectionCleaner state_guard(state); + + // create and open socket + amqp_socket_t *socket = nullptr; + if (conn->use_ssl) { + socket = amqp_ssl_socket_new(state); +#if AMQP_VERSION >= AMQP_VERSION_CODE(0, 10, 0, 1) + SSL_CTX* ssl_ctx = reinterpret_cast<SSL_CTX*>(amqp_ssl_socket_get_context(socket)); +#else + // taken from https://github.com/alanxz/rabbitmq-c/pull/560 + struct hack { + const struct amqp_socket_class_t *klass; + SSL_CTX *ctx; + }; + + struct hack *h = reinterpret_cast<struct hack*>(socket); + SSL_CTX* ssl_ctx = h->ctx; +#endif + // ensure system CA certificates get loaded + SSL_CTX_set_default_verify_paths(ssl_ctx); + } + else { + socket = amqp_tcp_socket_new(state); + } + + if (!socket) { + conn->status = RGW_AMQP_STATUS_SOCKET_ALLOC_FAILED; + return false; + } + if (conn->use_ssl) { + if (!conn->verify_ssl) { + amqp_ssl_socket_set_verify_peer(socket, 0); + amqp_ssl_socket_set_verify_hostname(socket, 0); + } + if (conn->ca_location.has_value()) { + const auto s = amqp_ssl_socket_set_cacert(socket, conn->ca_location.get().c_str()); + if (s != AMQP_STATUS_OK) { + conn->status = RGW_AMQP_STATUS_SOCKET_CACERT_FAILED; + conn->reply_code = s; + return false; + } + } + } + const auto s = amqp_socket_open(socket, conn_id.host.c_str(), conn_id.port); + if (s < 0) { + conn->status = RGW_AMQP_STATUS_SOCKET_OPEN_FAILED; + conn->reply_type = RGW_AMQP_RESPONSE_SOCKET_ERROR; + conn->reply_code = s; + return false; + } + + // login to broker + const auto reply = amqp_login(state, + conn_id.vhost.c_str(), + AMQP_DEFAULT_MAX_CHANNELS, + AMQP_DEFAULT_FRAME_SIZE, + 0, // no heartbeat TODO: add conf + AMQP_SASL_METHOD_PLAIN, // TODO: add other types of security + conn->user.c_str(), + conn->password.c_str()); + if (reply.reply_type != AMQP_RESPONSE_NORMAL) { + conn->status = RGW_AMQP_STATUS_LOGIN_FAILED; + conn->reply_type = reply.reply_type; + conn->reply_code = reply_to_code(reply); + return false; + } + + // open channels + { + const auto ok = amqp_channel_open(state, CHANNEL_ID); + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED, ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED); + } + { + const auto ok = amqp_channel_open(state, CONFIRMING_CHANNEL_ID); + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED, ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_CHANNEL_OPEN_FAILED); + } + { + const auto ok = amqp_confirm_select(state, CONFIRMING_CHANNEL_ID); + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_CONFIRM_DECLARE_FAILED, ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_CONFIRM_DECLARE_FAILED); + } + + // verify that the topic exchange is there + // TODO: make this step optional + { + const auto ok = amqp_exchange_declare(state, + CHANNEL_ID, + amqp_cstring_bytes(conn_id.exchange.c_str()), + amqp_cstring_bytes("topic"), + 1, // passive - exchange must already exist on broker + 1, // durable + 0, // dont auto-delete + 0, // not internal + amqp_empty_table); + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_VERIFY_EXCHANGE_FAILED, ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_VERIFY_EXCHANGE_FAILED); + } + { + // create queue for confirmations + const auto queue_ok = amqp_queue_declare(state, + CHANNEL_ID, // use the regular channel for this call + amqp_empty_bytes, // let broker allocate queue name + 0, // not passive - create the queue + 0, // not durable + 1, // exclusive + 1, // auto-delete + amqp_empty_table // not args TODO add args from conf: TTL, max length etc. + ); + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_Q_DECLARE_FAILED, queue_ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_Q_DECLARE_FAILED); + + // define consumption for connection + const auto consume_ok = amqp_basic_consume(state, + CONFIRMING_CHANNEL_ID, + queue_ok->queue, + amqp_empty_bytes, // broker will generate consumer tag + 1, // messages sent from client are never routed back + 1, // client does not ack thr acks + 1, // exclusive access to queue + amqp_empty_table // no parameters + ); + + RETURN_ON_ERROR(conn, RGW_AMQP_STATUS_CONSUME_DECLARE_FAILED, consume_ok); + RETURN_ON_REPLY_ERROR(conn, state, RGW_AMQP_STATUS_CONSUME_DECLARE_FAILED); + // broker generated consumer_tag could be used to cancel sending of n/acks from broker - not needed + + state_guard.reset(); + conn->state = state; + conn->reply_to_queue = amqp_bytes_malloc_dup(queue_ok->queue); + } + return true; +} + +/// struct used for holding messages in the message queue +struct message_wrapper_t { + connection_id_t conn_id; + std::string topic; + std::string message; + reply_callback_t cb; + + message_wrapper_t(const connection_id_t& _conn_id, + const std::string& _topic, + const std::string& _message, + reply_callback_t _cb) : conn_id(_conn_id), topic(_topic), message(_message), cb(_cb) {} +}; + +using connection_t_ptr = std::unique_ptr<connection_t>; + +typedef std::unordered_map<connection_id_t, connection_t_ptr, connection_id_hasher> ConnectionList; +typedef boost::lockfree::queue<message_wrapper_t*, boost::lockfree::fixed_sized<true>> MessageQueue; + +// macros used inside a loop where an iterator is either incremented or erased +#define INCREMENT_AND_CONTINUE(IT) \ + ++IT; \ + continue; + +#define ERASE_AND_CONTINUE(IT,CONTAINER) \ + IT=CONTAINER.erase(IT); \ + --connection_count; \ + continue; + +class Manager { +public: + const size_t max_connections; + const size_t max_inflight; + const size_t max_queue; + const size_t max_idle_time; +private: + std::atomic<size_t> connection_count; + std::atomic<bool> stopped; + struct timeval read_timeout; + ConnectionList connections; + MessageQueue messages; + std::atomic<size_t> queued; + std::atomic<size_t> dequeued; + CephContext* const cct; + mutable std::mutex connections_lock; + const ceph::coarse_real_clock::duration idle_time; + const ceph::coarse_real_clock::duration reconnect_time; + std::thread runner; + + void publish_internal(message_wrapper_t* message) { + const std::unique_ptr<message_wrapper_t> msg_owner(message); + const auto& conn_id = message->conn_id; + auto conn_it = connections.find(conn_id); + if (conn_it == connections.end()) { + ldout(cct, 1) << "AMQP publish: connection '" << to_string(conn_id) << "' not found" << dendl; + if (message->cb) { + message->cb(RGW_AMQP_STATUS_CONNECTION_CLOSED); + } + return; + } + + auto& conn = conn_it->second; + + conn->timestamp = ceph_clock_now(); + + if (!conn->is_ok()) { + // connection had an issue while message was in the queue + ldout(cct, 1) << "AMQP publish: connection '" << to_string(conn_id) << "' is closed" << dendl; + if (message->cb) { + message->cb(RGW_AMQP_STATUS_CONNECTION_CLOSED); + } + return; + } + + if (message->cb == nullptr) { + const auto rc = amqp_basic_publish(conn->state, + CHANNEL_ID, + amqp_cstring_bytes(conn_id.exchange.c_str()), + amqp_cstring_bytes(message->topic.c_str()), + 0, // does not have to be routable + 0, // not immediate + nullptr, // no properties needed + amqp_cstring_bytes(message->message.c_str())); + if (rc == AMQP_STATUS_OK) { + ldout(cct, 20) << "AMQP publish (no callback): OK" << dendl; + return; + } + ldout(cct, 1) << "AMQP publish (no callback): failed with error " << status_to_string(rc) << dendl; + // an error occurred, close connection + // it will be retied by the main loop + conn->destroy(rc); + return; + } + + amqp_basic_properties_t props; + props._flags = + AMQP_BASIC_DELIVERY_MODE_FLAG | + AMQP_BASIC_REPLY_TO_FLAG; + props.delivery_mode = 2; // persistent delivery TODO take from conf + props.reply_to = conn->reply_to_queue; + + const auto rc = amqp_basic_publish(conn->state, + CONFIRMING_CHANNEL_ID, + amqp_cstring_bytes(conn_id.exchange.c_str()), + amqp_cstring_bytes(message->topic.c_str()), + conn->mandatory, + 0, // not immediate + &props, + amqp_cstring_bytes(message->message.c_str())); + + if (rc == AMQP_STATUS_OK) { + auto const q_len = conn->callbacks.size(); + if (q_len < max_inflight) { + ldout(cct, 20) << "AMQP publish (with callback, tag=" << conn->delivery_tag << "): OK. Queue has: " << q_len << " callbacks" << dendl; + conn->callbacks.emplace_back(conn->delivery_tag++, message->cb); + } else { + // immediately invoke callback with error + ldout(cct, 1) << "AMQP publish (with callback): failed with error: callback queue full" << dendl; + message->cb(RGW_AMQP_STATUS_MAX_INFLIGHT); + } + } else { + // an error occurred, close connection + // it will be retied by the main loop + ldout(cct, 1) << "AMQP publish (with callback): failed with error: " << status_to_string(rc) << dendl; + conn->destroy(rc); + // immediately invoke callback with error + message->cb(rc); + } + } + + // the managers thread: + // (1) empty the queue of messages to be published + // (2) loop over all connections and read acks + // (3) manages deleted connections + // (4) TODO reconnect on connection errors + // (5) TODO cleanup timedout callbacks + void run() noexcept { + amqp_frame_t frame; + while (!stopped) { + + // publish all messages in the queue + const auto count = messages.consume_all(std::bind(&Manager::publish_internal, this, std::placeholders::_1)); + dequeued += count; + ConnectionList::iterator conn_it; + ConnectionList::const_iterator end_it; + { + // thread safe access to the connection list + // once the iterators are fetched they are guaranteed to remain valid + std::lock_guard lock(connections_lock); + conn_it = connections.begin(); + end_it = connections.end(); + } + auto incoming_message = false; + // loop over all connections to read acks + for (;conn_it != end_it;) { + + const auto& conn_id = conn_it->first; + auto& conn = conn_it->second; + + if(conn->timestamp.sec() + max_idle_time < ceph_clock_now()) { + ldout(cct, 20) << "AMQP run: Time for deleting a connection due to idle behaviour: " << ceph_clock_now() << dendl; + ERASE_AND_CONTINUE(conn_it, connections); + } + + // try to reconnect the connection if it has an error + if (!conn->is_ok()) { + const auto now = ceph::coarse_real_clock::now(); + if (now >= conn->next_reconnect) { + // pointers are used temporarily inside the amqp_connection_info object + // as read-only values, hence the assignment, and const_cast are safe here + ldout(cct, 20) << "AMQP run: retry connection" << dendl; + if (!new_state(conn.get(), conn_id)) { + ldout(cct, 10) << "AMQP run: connection '" << to_string(conn_id) << "' retry failed. error: " << + status_to_string(conn->status) << " (" << conn->reply_code << ")" << dendl; + // TODO: add error counter for failed retries + // TODO: add exponential backoff for retries + conn->next_reconnect = now + reconnect_time; + } else { + ldout(cct, 10) << "AMQP run: connection '" << to_string(conn_id) << "' retry successfull" << dendl; + } + } + INCREMENT_AND_CONTINUE(conn_it); + } + + const auto rc = amqp_simple_wait_frame_noblock(conn->state, &frame, &read_timeout); + + if (rc == AMQP_STATUS_TIMEOUT) { + // TODO mark connection as idle + INCREMENT_AND_CONTINUE(conn_it); + } + + // this is just to prevent spinning idle, does not indicate that a message + // was successfully processed or not + incoming_message = true; + + // check if error occurred that require reopening the connection + if (rc != AMQP_STATUS_OK) { + // an error occurred, close connection + // it will be retied by the main loop + ldout(cct, 1) << "AMQP run: connection read error: " << status_to_string(rc) << dendl; + conn->destroy(rc); + INCREMENT_AND_CONTINUE(conn_it); + } + + if (frame.frame_type != AMQP_FRAME_METHOD) { + ldout(cct, 10) << "AMQP run: ignoring non n/ack messages. frame type: " + << unsigned(frame.frame_type) << dendl; + // handler is for publish confirmation only - handle only method frames + INCREMENT_AND_CONTINUE(conn_it); + } + + uint64_t tag; + bool multiple; + int result; + + switch (frame.payload.method.id) { + case AMQP_BASIC_ACK_METHOD: + { + result = AMQP_STATUS_OK; + const auto ack = (amqp_basic_ack_t*)frame.payload.method.decoded; + ceph_assert(ack); + tag = ack->delivery_tag; + multiple = ack->multiple; + break; + } + case AMQP_BASIC_NACK_METHOD: + { + result = RGW_AMQP_STATUS_BROKER_NACK; + const auto nack = (amqp_basic_nack_t*)frame.payload.method.decoded; + ceph_assert(nack); + tag = nack->delivery_tag; + multiple = nack->multiple; + break; + } + case AMQP_BASIC_REJECT_METHOD: + { + result = RGW_AMQP_STATUS_BROKER_NACK; + const auto reject = (amqp_basic_reject_t*)frame.payload.method.decoded; + tag = reject->delivery_tag; + multiple = false; + break; + } + case AMQP_CONNECTION_CLOSE_METHOD: + // TODO on channel close, no need to reopen the connection + case AMQP_CHANNEL_CLOSE_METHOD: + { + // other side closed the connection, no need to continue + ldout(cct, 10) << "AMQP run: connection was closed by broker" << dendl; + conn->destroy(rc); + INCREMENT_AND_CONTINUE(conn_it); + } + case AMQP_BASIC_RETURN_METHOD: + // message was not delivered, returned to sender + ldout(cct, 10) << "AMQP run: message was not routable" << dendl; + INCREMENT_AND_CONTINUE(conn_it); + break; + default: + // unexpected method + ldout(cct, 10) << "AMQP run: unexpected message" << dendl; + INCREMENT_AND_CONTINUE(conn_it); + } + + const auto tag_it = std::find(conn->callbacks.begin(), conn->callbacks.end(), tag); + if (tag_it != conn->callbacks.end()) { + if (multiple) { + // n/ack all up to (and including) the tag + ldout(cct, 20) << "AMQP run: multiple n/acks received with tag=" << tag << " and result=" << result << dendl; + auto it = conn->callbacks.begin(); + while (it->tag <= tag && it != conn->callbacks.end()) { + ldout(cct, 20) << "AMQP run: invoking callback with tag=" << it->tag << dendl; + it->cb(result); + it = conn->callbacks.erase(it); + } + } else { + // n/ack a specific tag + ldout(cct, 20) << "AMQP run: n/ack received, invoking callback with tag=" << tag << " and result=" << result << dendl; + tag_it->cb(result); + conn->callbacks.erase(tag_it); + } + } else { + ldout(cct, 10) << "AMQP run: unsolicited n/ack received with tag=" << tag << dendl; + } + // just increment the iterator + ++conn_it; + } + // if no messages were received or published, sleep for 100ms + if (count == 0 && !incoming_message) { + std::this_thread::sleep_for(idle_time); + } + } + } + + // used in the dtor for message cleanup + static void delete_message(const message_wrapper_t* message) { + delete message; + } + +public: + Manager(size_t _max_connections, + size_t _max_inflight, + size_t _max_queue, + long _usec_timeout, + unsigned reconnect_time_ms, + unsigned idle_time_ms, + CephContext* _cct) : + max_connections(_max_connections), + max_inflight(_max_inflight), + max_queue(_max_queue), + max_idle_time(30), + connection_count(0), + stopped(false), + read_timeout{0, _usec_timeout}, + connections(_max_connections), + messages(max_queue), + queued(0), + dequeued(0), + cct(_cct), + idle_time(std::chrono::milliseconds(idle_time_ms)), + reconnect_time(std::chrono::milliseconds(reconnect_time_ms)), + runner(&Manager::run, this) { + // The hashmap has "max connections" as the initial number of buckets, + // and allows for 10 collisions per bucket before rehash. + // This is to prevent rehashing so that iterators are not invalidated + // when a new connection is added. + connections.max_load_factor(10.0); + // give the runner thread a name for easier debugging + const auto rc = ceph_pthread_setname(runner.native_handle(), "amqp_manager"); + ceph_assert(rc==0); + } + + // non copyable + Manager(const Manager&) = delete; + const Manager& operator=(const Manager&) = delete; + + // stop the main thread + void stop() { + stopped = true; + } + + // connect to a broker, or reuse an existing connection if already connected + bool connect(connection_id_t& id, const std::string& url, const std::string& exchange, bool mandatory_delivery, bool verify_ssl, + boost::optional<const std::string&> ca_location) { + if (stopped) { + ldout(cct, 1) << "AMQP connect: manager is stopped" << dendl; + return false; + } + + amqp_connection_info info; + // cache the URL so that parsing could happen in-place + std::vector<char> url_cache(url.c_str(), url.c_str()+url.size()+1); + const auto retcode = amqp_parse_url(url_cache.data(), &info); + if (AMQP_STATUS_OK != retcode) { + ldout(cct, 1) << "AMQP connect: URL parsing failed. error: " << retcode << dendl; + return false; + } + connection_id_t tmp_id(info, exchange); + + std::lock_guard lock(connections_lock); + const auto it = connections.find(tmp_id); + if (it != connections.end()) { + // connection found - return even if non-ok + ldout(cct, 20) << "AMQP connect: connection found" << dendl; + id = it->first; + return true; + } + + // connection not found, creating a new one + if (connection_count >= max_connections) { + ldout(cct, 1) << "AMQP connect: max connections exceeded" << dendl; + return false; + } + // if error occurred during creation the creation will be retried in the main thread + ++connection_count; + auto conn = connections.emplace(tmp_id, std::make_unique<connection_t>(cct, info, verify_ssl, ca_location)).first->second.get(); + ldout(cct, 10) << "AMQP connect: new connection is created. Total connections: " << connection_count << dendl; + if (!new_state(conn, tmp_id)) { + ldout(cct, 1) << "AMQP connect: new connection '" << to_string(tmp_id) << "' is created. but state creation failed (will retry). error: " << + status_to_string(conn->status) << " (" << conn->reply_code << ")" << dendl; + } + id = std::move(tmp_id); + return true; + } + + // TODO publish with confirm is needed in "none" case as well, cb should be invoked publish is ok (no ack) + int publish(const connection_id_t& conn_id, + const std::string& topic, + const std::string& message) { + if (stopped) { + ldout(cct, 1) << "AMQP publish: manager is not running" << dendl; + return RGW_AMQP_STATUS_MANAGER_STOPPED; + } + auto wrapper = std::make_unique<message_wrapper_t>(conn_id, topic, message, nullptr); + if (messages.push(wrapper.get())) { + std::ignore = wrapper.release(); + ++queued; + return AMQP_STATUS_OK; + } + ldout(cct, 1) << "AMQP publish: queue is full" << dendl; + return RGW_AMQP_STATUS_QUEUE_FULL; + } + + int publish_with_confirm(const connection_id_t& conn_id, + const std::string& topic, + const std::string& message, + reply_callback_t cb) { + if (stopped) { + ldout(cct, 1) << "AMQP publish_with_confirm: manager is not running" << dendl; + return RGW_AMQP_STATUS_MANAGER_STOPPED; + } + auto wrapper = std::make_unique<message_wrapper_t>(conn_id, topic, message, cb); + if (messages.push(wrapper.get())) { + std::ignore = wrapper.release(); + ++queued; + return AMQP_STATUS_OK; + } + ldout(cct, 1) << "AMQP publish_with_confirm: queue is full" << dendl; + return RGW_AMQP_STATUS_QUEUE_FULL; + } + + // dtor wait for thread to stop + // then connection are cleaned-up + ~Manager() { + stopped = true; + runner.join(); + messages.consume_all(delete_message); + } + + // get the number of connections + size_t get_connection_count() const { + return connection_count; + } + + // get the number of in-flight messages + size_t get_inflight() const { + size_t sum = 0; + std::lock_guard lock(connections_lock); + std::for_each(connections.begin(), connections.end(), [&sum](auto& conn_pair) { + // concurrent access to the callback vector is safe without locking + sum += conn_pair.second->callbacks.size(); + }); + return sum; + } + + // running counter of the queued messages + size_t get_queued() const { + return queued; + } + + // running counter of the dequeued messages + size_t get_dequeued() const { + return dequeued; + } +}; + +// singleton manager +// note that the manager itself is not a singleton, and multiple instances may co-exist +// TODO make the pointer atomic in allocation and deallocation to avoid race conditions +static Manager* s_manager = nullptr; + +static const size_t MAX_CONNECTIONS_DEFAULT = 256; +static const size_t MAX_INFLIGHT_DEFAULT = 8192; +static const size_t MAX_QUEUE_DEFAULT = 8192; +static const long READ_TIMEOUT_USEC = 100; +static const unsigned IDLE_TIME_MS = 100; +static const unsigned RECONNECT_TIME_MS = 100; + +bool init(CephContext* cct) { + if (s_manager) { + return false; + } + // TODO: take conf from CephContext + s_manager = new Manager(MAX_CONNECTIONS_DEFAULT, MAX_INFLIGHT_DEFAULT, MAX_QUEUE_DEFAULT, + READ_TIMEOUT_USEC, IDLE_TIME_MS, RECONNECT_TIME_MS, cct); + return true; +} + +void shutdown() { + delete s_manager; + s_manager = nullptr; +} + +bool connect(connection_id_t& conn_id, const std::string& url, const std::string& exchange, bool mandatory_delivery, bool verify_ssl, + boost::optional<const std::string&> ca_location) { + if (!s_manager) return false; + return s_manager->connect(conn_id, url, exchange, mandatory_delivery, verify_ssl, ca_location); +} + +int publish(const connection_id_t& conn_id, + const std::string& topic, + const std::string& message) { + if (!s_manager) return RGW_AMQP_STATUS_MANAGER_STOPPED; + return s_manager->publish(conn_id, topic, message); +} + +int publish_with_confirm(const connection_id_t& conn_id, + const std::string& topic, + const std::string& message, + reply_callback_t cb) { + if (!s_manager) return RGW_AMQP_STATUS_MANAGER_STOPPED; + return s_manager->publish_with_confirm(conn_id, topic, message, cb); +} + +size_t get_connection_count() { + if (!s_manager) return 0; + return s_manager->get_connection_count(); +} + +size_t get_inflight() { + if (!s_manager) return 0; + return s_manager->get_inflight(); +} + +size_t get_queued() { + if (!s_manager) return 0; + return s_manager->get_queued(); +} + +size_t get_dequeued() { + if (!s_manager) return 0; + return s_manager->get_dequeued(); +} + +size_t get_max_connections() { + if (!s_manager) return MAX_CONNECTIONS_DEFAULT; + return s_manager->max_connections; +} + +size_t get_max_inflight() { + if (!s_manager) return MAX_INFLIGHT_DEFAULT; + return s_manager->max_inflight; +} + +size_t get_max_queue() { + if (!s_manager) return MAX_QUEUE_DEFAULT; + return s_manager->max_queue; +} + +} // namespace amqp + |