/* * nghttp2 - HTTP/2 C Library * * Copyright (c) 2012 Tatsuhiro Tsujikawa * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef SHRPX_CONNECTION_HANDLER_H #define SHRPX_CONNECTION_HANDLER_H #include "shrpx.h" #include #ifdef HAVE_SYS_SOCKET_H # include #endif // HAVE_SYS_SOCKET_H #include #include #include #include #ifndef NOTHREADS # include #endif // NOTHREADS #ifdef HAVE_LIBBPF # include #endif // HAVE_LIBBPF #include #include #ifdef HAVE_NEVERBLEED # include #endif // HAVE_NEVERBLEED #include "shrpx_downstream_connection_pool.h" #include "shrpx_config.h" #include "shrpx_exec.h" namespace shrpx { class Http2Session; class ConnectBlocker; class AcceptHandler; class Worker; struct WorkerStat; struct TicketKeys; class MemcachedDispatcher; struct UpstreamAddr; namespace tls { class CertLookupTree; } // namespace tls struct OCSPUpdateContext { // ocsp response buffer std::vector resp; // Process running fetch-ocsp-response script Process proc; // index to ConnectionHandler::all_ssl_ctx_, which points to next // SSL_CTX to update ocsp response cache. size_t next; ev_child chldev; ev_io rev; // errno encountered while processing response int error; }; // SerialEvent is an event sent from Worker thread. enum class SerialEventType { NONE, REPLACE_DOWNSTREAM, }; struct SerialEvent { // ctor for event uses DownstreamConfig SerialEvent(SerialEventType type, const std::shared_ptr &downstreamconf) : type(type), downstreamconf(downstreamconf) {} SerialEventType type; std::shared_ptr downstreamconf; }; #ifdef ENABLE_HTTP3 # ifdef HAVE_LIBBPF struct BPFRef { int reuseport_array; int cid_prefix_map; }; # endif // HAVE_LIBBPF // QUIC IPC message type. enum class QUICIPCType { NONE, // Send forwarded QUIC UDP datagram and its metadata. DGRAM_FORWARD, }; // WorkerProcesses which are in graceful shutdown period. struct QUICLingeringWorkerProcess { QUICLingeringWorkerProcess( std::vector> cid_prefixes, int quic_ipc_fd) : cid_prefixes{std::move(cid_prefixes)}, quic_ipc_fd{quic_ipc_fd} {} std::vector> cid_prefixes; // Socket to send QUIC IPC message to this worker process. int quic_ipc_fd; }; #endif // ENABLE_HTTP3 class ConnectionHandler { public: ConnectionHandler(struct ev_loop *loop, std::mt19937 &gen); ~ConnectionHandler(); int handle_connection(int fd, sockaddr *addr, int addrlen, const UpstreamAddr *faddr); // Creates Worker object for single threaded configuration. int create_single_worker(); // Creates |num| Worker objects for multi threaded configuration. // The |num| must be strictly more than 1. int create_worker_thread(size_t num); void set_ticket_keys_to_worker(const std::shared_ptr &ticket_keys); void worker_reopen_log_files(); void set_ticket_keys(std::shared_ptr ticket_keys); const std::shared_ptr &get_ticket_keys() const; struct ev_loop *get_loop() const; Worker *get_single_worker() const; void add_acceptor(std::unique_ptr h); void delete_acceptor(); void enable_acceptor(); void disable_acceptor(); void sleep_acceptor(ev_tstamp t); void accept_pending_connection(); void graceful_shutdown_worker(); void set_graceful_shutdown(bool f); bool get_graceful_shutdown() const; void join_worker(); // Cancels ocsp update process void cancel_ocsp_update(); // Starts ocsp update for certficate |cert_file|. int start_ocsp_update(const char *cert_file); // Reads incoming data from ocsp update process void read_ocsp_chunk(); // Handles the completion of one ocsp update void handle_ocsp_complete(); // Resets ocsp_; void reset_ocsp(); // Proceeds to the next certificate's ocsp update. If all // certificates' ocsp update has been done, schedule next ocsp // update. void proceed_next_cert_ocsp(); void set_tls_ticket_key_memcached_dispatcher( std::unique_ptr dispatcher); MemcachedDispatcher *get_tls_ticket_key_memcached_dispatcher() const; void on_tls_ticket_key_network_error(ev_timer *w); void on_tls_ticket_key_not_found(ev_timer *w); void on_tls_ticket_key_get_success(const std::shared_ptr &ticket_keys, ev_timer *w); void schedule_next_tls_ticket_key_memcached_get(ev_timer *w); SSL_CTX *create_tls_ticket_key_memcached_ssl_ctx(); // Returns the SSL_CTX at all_ssl_ctx_[idx]. This does not perform // array bound checking. SSL_CTX *get_ssl_ctx(size_t idx) const; const std::vector &get_indexed_ssl_ctx(size_t idx) const; #ifdef ENABLE_HTTP3 const std::vector &get_quic_indexed_ssl_ctx(size_t idx) const; int forward_quic_packet(const UpstreamAddr *faddr, const Address &remote_addr, const Address &local_addr, const uint8_t *cid_prefix, const uint8_t *data, size_t datalen); void set_quic_keying_materials(std::shared_ptr qkms); const std::shared_ptr &get_quic_keying_materials() const; void set_cid_prefixes( const std::vector> &cid_prefixes); void set_quic_lingering_worker_processes( const std::vector &quic_lwps); // Return matching QUICLingeringWorkerProcess which has a CID prefix // such that |dcid| starts with it. If no such // QUICLingeringWorkerProcess, it returns nullptr. QUICLingeringWorkerProcess * match_quic_lingering_worker_process_cid_prefix(const uint8_t *dcid, size_t dcidlen); int forward_quic_packet_to_lingering_worker_process( QUICLingeringWorkerProcess *quic_lwp, const Address &remote_addr, const Address &local_addr, const uint8_t *data, size_t datalen); void set_quic_ipc_fd(int fd); int quic_ipc_read(); # ifdef HAVE_LIBBPF std::vector &get_quic_bpf_refs(); # endif // HAVE_LIBBPF #endif // ENABLE_HTTP3 #ifdef HAVE_NEVERBLEED void set_neverbleed(neverbleed_t *nb); #endif // HAVE_NEVERBLEED // Send SerialEvent SerialEventType::REPLACE_DOWNSTREAM to this // object. void send_replace_downstream( const std::shared_ptr &downstreamconf); // Internal function to send |ev| to this object. void send_serial_event(SerialEvent ev); // Handles SerialEvents received. void handle_serial_event(); // Sends WorkerEvent to make them replace downstream. void worker_replace_downstream(std::shared_ptr downstreamconf); void set_enable_acceptor_on_ocsp_completion(bool f); private: // Stores all SSL_CTX objects. std::vector all_ssl_ctx_; // Stores all SSL_CTX objects in a way that its index is stored in // cert_tree. The SSL_CTXs stored in the same index share the same // hostname, but could have different signature algorithm. The // selection among them are performed by hostname presented by SNI, // and signature algorithm presented by client. std::vector> indexed_ssl_ctx_; #ifdef ENABLE_HTTP3 std::vector> cid_prefixes_; std::vector> lingering_cid_prefixes_; int quic_ipc_fd_; std::vector quic_lingering_worker_processes_; # ifdef HAVE_LIBBPF std::vector quic_bpf_refs_; # endif // HAVE_LIBBPF std::shared_ptr quic_keying_materials_; std::vector quic_all_ssl_ctx_; std::vector> quic_indexed_ssl_ctx_; #endif // ENABLE_HTTP3 OCSPUpdateContext ocsp_; std::mt19937 &gen_; // ev_loop for each worker std::vector worker_loops_; // Worker instances when multi threaded mode (-nN, N >= 2) is used. // If at least one frontend enables API request, we allocate 1 // additional worker dedicated to API request . std::vector> workers_; // mutex for serial event resive buffer handling std::mutex serial_event_mu_; // SerialEvent receive buffer std::vector serial_events_; // Worker instance used when single threaded mode (-n1) is used. // Otherwise, nullptr and workers_ has instances of Worker instead. std::unique_ptr single_worker_; std::unique_ptr cert_tree_; #ifdef ENABLE_HTTP3 std::unique_ptr quic_cert_tree_; #endif // ENABLE_HTTP3 std::unique_ptr tls_ticket_key_memcached_dispatcher_; // Current TLS session ticket keys. Note that TLS connection does // not refer to this field directly. They use TicketKeys object in // Worker object. std::shared_ptr ticket_keys_; struct ev_loop *loop_; std::vector> acceptors_; #ifdef HAVE_NEVERBLEED neverbleed_t *nb_; #endif // HAVE_NEVERBLEED ev_timer disable_acceptor_timer_; ev_timer ocsp_timer_; ev_async thread_join_asyncev_; ev_async serial_event_asyncev_; #ifndef NOTHREADS std::future thread_join_fut_; #endif // NOTHREADS size_t tls_ticket_key_memcached_get_retry_count_; size_t tls_ticket_key_memcached_fail_count_; unsigned int worker_round_robin_cnt_; bool graceful_shutdown_; // true if acceptors should be enabled after the initial ocsp update // has finished. bool enable_acceptor_on_ocsp_completion_; }; } // namespace shrpx #endif // SHRPX_CONNECTION_HANDLER_H