/* * nsd.h -- nsd(8) definitions and prototypes * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #ifndef _NSD_H_ #define _NSD_H_ #include #include "dns.h" #include "edns.h" struct netio_handler; struct nsd_options; struct udb_base; struct daemon_remote; /* The NSD runtime states and NSD ipc command values */ #define NSD_RUN 0 #define NSD_RELOAD 1 #define NSD_SHUTDOWN 2 #define NSD_STATS 3 #define NSD_REAP_CHILDREN 4 #define NSD_QUIT 5 /* * PASS_TO_XFRD is followed by the u16(len in network order) and * then network packet contents. packet is a notify(acl checked), or * xfr reply from a master(acl checked). * followed by u32(acl number that matched from notify/xfr acl). */ #define NSD_PASS_TO_XFRD 6 /* * RELOAD_REQ is sent when parent receives a SIGHUP and tells * xfrd that it wants to initiate a reload (and thus task swap). */ #define NSD_RELOAD_REQ 7 /* * RELOAD_DONE is sent at the end of a reload pass. * xfrd then knows that reload phase is over. */ #define NSD_RELOAD_DONE 8 /* * QUIT_SYNC is sent to signify a synchronisation of ipc * channel content during reload */ #define NSD_QUIT_SYNC 9 /* * QUIT_WITH_STATS is sent during a reload when BIND8_STATS is defined, * from parent to children. The stats are transferred too from child to * parent with this commandvalue, when the child is exiting. */ #define NSD_QUIT_WITH_STATS 10 /* * QUIT_CHILD is sent at exit, to make sure the child has exited so that * port53 is free when all of nsd's processes have exited at shutdown time */ #define NSD_QUIT_CHILD 11 #define NSD_SERVER_MAIN 0x0U #define NSD_SERVER_UDP 0x1U #define NSD_SERVER_TCP 0x2U #define NSD_SERVER_BOTH (NSD_SERVER_UDP | NSD_SERVER_TCP) #ifdef INET6 #define DEFAULT_AI_FAMILY AF_UNSPEC #else #define DEFAULT_AI_FAMILY AF_INET #endif #ifdef BIND8_STATS /* Counter for statistics */ typedef unsigned long stc_t; #define LASTELEM(arr) (sizeof(arr) / sizeof(arr[0]) - 1) #define STATUP(nsd, stc) nsd->st.stc++ /* #define STATUP2(nsd, stc, i) ((i) <= (LASTELEM(nsd->st.stc) - 1)) ? nsd->st.stc[(i)]++ : \ nsd->st.stc[LASTELEM(nsd->st.stc)]++ */ #define STATUP2(nsd, stc, i) nsd->st.stc[(i) <= (LASTELEM(nsd->st.stc) - 1) ? i : LASTELEM(nsd->st.stc)]++ #else /* BIND8_STATS */ #define STATUP(nsd, stc) /* Nothing */ #define STATUP2(nsd, stc, i) /* Nothing */ #endif /* BIND8_STATS */ struct nsd_socket { struct addrinfo * addr; int s; }; struct nsd_child { /* The type of child process (UDP or TCP handler). */ int kind; /* The child's process id. */ pid_t pid; /* * Socket used by the parent process to send commands and * receive responses to/from this child process. */ int child_fd; /* * Socket used by the child process to receive commands and * send responses from/to the parent process. */ int parent_fd; /* * IPC info, buffered for nonblocking writes to the child */ uint8_t need_to_send_STATS, need_to_send_QUIT; uint8_t need_to_exit, has_exited; /* * The handler for handling the commands from the child. */ struct netio_handler* handler; #ifdef BIND8_STATS stc_t query_count; #endif }; /* NSD configuration and run-time variables */ typedef struct nsd nsd_type; struct nsd { /* * Global region that is not deallocated until NSD shuts down. */ region_type *region; /* Run-time variables */ pid_t pid; volatile sig_atomic_t mode; volatile sig_atomic_t signal_hint_reload_hup; volatile sig_atomic_t signal_hint_reload; volatile sig_atomic_t signal_hint_child; volatile sig_atomic_t signal_hint_quit; volatile sig_atomic_t signal_hint_shutdown; volatile sig_atomic_t signal_hint_stats; volatile sig_atomic_t signal_hint_statsusr; volatile sig_atomic_t quit_sync_done; unsigned server_kind; struct namedb *db; int debug; size_t child_count; struct nsd_child *children; int restart_children; int reload_failed; /* NULL if this is the parent process. */ struct nsd_child *this_child; /* mmaps with data exchange from xfrd and reload */ struct udb_base* task[2]; int mytask; /* the base used by this process */ struct netio_handler* xfrd_listener; struct daemon_remote* rc; /* Configuration */ const char *dbfile; const char *pidfile; const char *log_filename; const char *username; uid_t uid; gid_t gid; const char *chrootdir; const char *version; const char *identity; uint16_t nsid_len; unsigned char *nsid; uint8_t file_rotation_ok; /* number of interfaces, ifs < MAX_INTERFACES */ size_t ifs; uint8_t grab_ip6_optional; /* TCP specific configuration */ struct nsd_socket tcp[MAX_INTERFACES]; /* UDP specific configuration */ struct nsd_socket udp[MAX_INTERFACES]; edns_data_type edns_ipv4; #if defined(INET6) edns_data_type edns_ipv6; #endif int maximum_tcp_count; int current_tcp_count; int tcp_query_count; int tcp_timeout; size_t ipv4_edns_size; size_t ipv6_edns_size; #ifdef BIND8_STATS struct nsdst { time_t boot; int period; /* Produce statistics dump every st_period seconds */ stc_t qtype[257]; /* Counters per qtype */ stc_t qclass[4]; /* Class IN or Class CH or other */ stc_t qudp, qudp6; /* Number of queries udp and udp6 */ stc_t ctcp, ctcp6; /* Number of tcp and tcp6 connections */ stc_t rcode[17], opcode[6]; /* Rcodes & opcodes */ /* Dropped, truncated, queries for nonconfigured zone, tx errors */ stc_t dropped, truncated, wrongzone, txerr, rxerr; stc_t edns, ednserr, raxfr, nona; uint64_t db_disk, db_mem; } st; #endif /* BIND8_STATS */ struct nsd_options* options; }; extern struct nsd nsd; /* nsd.c */ pid_t readpid(const char *file); int writepid(struct nsd *nsd); void unlinkpid(const char* file); void sig_handler(int sig); void bind8_stats(struct nsd *nsd); /* server.c */ int server_init(struct nsd *nsd); int server_prepare(struct nsd *nsd); void server_main(struct nsd *nsd); void server_child(struct nsd *nsd); void server_shutdown(struct nsd *nsd); void server_close_all_sockets(struct nsd_socket sockets[], size_t n); struct event_base* nsd_child_event_base(void); /* extra domain numbers for temporary domains */ #define EXTRA_DOMAIN_NUMBERS 1024 #define SLOW_ACCEPT_TIMEOUT 2 /* in seconds */ /* allocate and init xfrd variables */ void server_prepare_xfrd(struct nsd *nsd); /* start xfrdaemon (again) */ void server_start_xfrd(struct nsd *nsd, int del_db, int reload_active); /* send SOA serial numbers to xfrd */ void server_send_soa_xfrd(struct nsd *nsd, int shortsoa); ssize_t block_read(struct nsd* nsd, int s, void* p, ssize_t sz, int timeout); #endif /* _NSD_H_ */