/* $NetBSD: dhcpd.h,v 1.2.6.1 2024/02/29 11:39:19 martin Exp $ */ /* dhcpd.h Definitions for dhcpd... */ /* * Copyright (C) 2004-2022 Internet Systems Consortium, Inc. ("ISC") * Copyright (c) 1996-2003 by Internet Software Consortium * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Internet Systems Consortium, Inc. * PO Box 360 * Newmarket, NH 03857 USA * * https://www.isc.org/ * */ /*! \file includes/dhcpd.h */ #include "config.h" #ifndef __CYGWIN32__ #include #include #include #include #include #include #include #else #define fd_set cygwin_fd_set #include #endif #include #include #include #include #include #include #include #include #include #include #include #undef FDDI #include #include #if HAVE_NET_IF_DL_H # include #endif #include #include "cdefs.h" #include "osdep.h" #include "arpa/nameser.h" #include "ns_name.h" struct hash_table; typedef struct hash_table group_hash_t; typedef struct hash_table universe_hash_t; typedef struct hash_table option_name_hash_t; typedef struct hash_table option_code_hash_t; typedef struct hash_table dns_zone_hash_t; typedef struct hash_table lease_ip_hash_t; typedef struct hash_table lease_id_hash_t; typedef struct hash_table host_hash_t; typedef struct hash_table class_hash_t; typedef time_t TIME; #ifndef EOL #define EOL '\n' #endif #include #include #include "dhcp.h" #include "dhcp6.h" #include "statement.h" #include "tree.h" #include "inet.h" #include "dhctoken.h" #include #if defined(LDAP_CONFIGURATION) # include # include /* for uname() */ #endif #if !defined (BYTE_NAME_HASH_SIZE) # define BYTE_NAME_HASH_SIZE 401 /* Default would be ridiculous. */ #endif #if !defined (BYTE_CODE_HASH_SIZE) # define BYTE_CODE_HASH_SIZE 254 /* Default would be ridiculous. */ #endif /* Although it is highly improbable that a 16-bit option space might * actually use 2^16 actual defined options, it is the worst case * scenario we must prepare for. Having 4 options per bucket in this * case is pretty reasonable. */ #if !defined (WORD_NAME_HASH_SIZE) # define WORD_NAME_HASH_SIZE 20479 #endif #if !defined (WORD_CODE_HASH_SIZE) # define WORD_CODE_HASH_SIZE 16384 #endif /* Not only is it improbable that the 32-bit spaces might actually use 2^32 * defined options, it is infeasible. It would be best for this kind of * space to be dynamically sized. Instead we size it at the word hash's * level. */ #if !defined (QUAD_NAME_HASH_SIZE) # define QUAD_NAME_HASH_SIZE WORD_NAME_HASH_SIZE #endif #if !defined (QUAD_CODE_HASH_SIZE) # define QUAD_CODE_HASH_SIZE WORD_CODE_HASH_SIZE #endif #if !defined (DNS_HASH_SIZE) # define DNS_HASH_SIZE 0 /* Default. */ #endif /* Default size to use for name/code hashes on user-defined option spaces. */ #if !defined (DEFAULT_SPACE_HASH_SIZE) # define DEFAULT_SPACE_HASH_SIZE 11 #endif #if !defined (NWIP_HASH_SIZE) # define NWIP_HASH_SIZE 17 /* A really small table. */ #endif #if !defined (FQDN_HASH_SIZE) # define FQDN_HASH_SIZE 13 /* A ridiculously small table. */ #endif /* I really doubt a given installation is going to have more than a few * hundred vendors involved. */ #if !defined (VIVCO_HASH_SIZE) # define VIVCO_HASH_SIZE 127 #endif #if !defined (VIVSO_HASH_SIZE) # define VIVSO_HASH_SIZE VIVCO_HASH_SIZE #endif #if !defined (VSIO_HASH_SIZE) # define VSIO_HASH_SIZE VIVCO_HASH_SIZE #endif #if !defined (VIV_ISC_HASH_SIZE) # define VIV_ISC_HASH_SIZE 3 /* An incredulously small table. */ #endif #if !defined (UNIVERSE_HASH_SIZE) # define UNIVERSE_HASH_SIZE 13 /* A really small table. */ #endif #if !defined (GROUP_HASH_SIZE) # define GROUP_HASH_SIZE 0 /* Default. */ #endif /* At least one person has indicated they use ~20k host records. */ #if !defined (HOST_HASH_SIZE) # define HOST_HASH_SIZE 22501 #endif /* We have user reports of use of ISC DHCP numbering leases in the 200k's. * * We also have reports of folks using 10.0/8 as a dynamic range. The * following is something of a compromise between the two. At the ~2-3 * hundred thousand leases, there's ~2-3 leases to search in each bucket. */ #if !defined (LEASE_HASH_SIZE) # define LEASE_HASH_SIZE 100003 #endif /* It is not known what the worst case subclass hash size is. We estimate * high, I think. */ #if !defined (SCLASS_HASH_SIZE) # define SCLASS_HASH_SIZE 12007 #endif #if !defined (AGENT_HASH_SIZE) # define AGENT_HASH_SIZE 11 /* A really small table. */ #endif /* The server hash size is used for both names and codes. There aren't * many (roughly 50 at the moment), so we use a smaller table. If we * use a 1:1 table size, then we get name collisions due to poor name * hashing. So we use double the space we need, which drastically * reduces collisions. */ #if !defined (SERVER_HASH_SIZE) # define SERVER_HASH_SIZE (2*(sizeof(server_options) / sizeof(struct option))) #endif /* How many options are likely to appear in a single packet? */ #if !defined (OPTION_HASH_SIZE) # define OPTION_HASH_SIZE 17 # define OPTION_HASH_PTWO 32 /* Next power of two above option hash. */ # define OPTION_HASH_EXP 5 /* The exponent for that power of two. */ #endif #define compute_option_hash(x) \ (((x) & (OPTION_HASH_PTWO - 1)) + \ (((x) >> OPTION_HASH_EXP) & \ (OPTION_HASH_PTWO - 1))) % OPTION_HASH_SIZE; /* Lease queue information. We have two ways of storing leases. * The original is a linear linked list which is slower but uses * less memory while the other adds a binary array on top of that * list to make insertions faster. We define several macros * based on which is in use to allow the code to be cleaner by * avoiding #ifdefs. * * POOL_DESTROYP is used for cleanup */ #if !defined (BINARY_LEASES) #define LEASE_STRUCT struct lease * #define LEASE_STRUCT_PTR struct lease ** #define LEASE_GET_FIRST(LQ) LQ #define LEASE_GET_FIRSTP(LQ) *(LQ) #define LEASE_GET_NEXT(LQ, LEASE) LEASE->next #define LEASE_GET_NEXTP(LQ, LEASE) LEASE->next #define LEASE_INSERTP(LQ, LEASE) lease_insert(LQ, LEASE) #define LEASE_REMOVEP(LQ, LEASE) lease_remove(LQ, LEASE) #define LEASE_NOT_EMPTY(LQ) LQ #define LEASE_NOT_EMPTYP(LQ) *LQ #define POOL_DESTROYP(LQ) lease_remove_all(LQ) #else #define LEASE_STRUCT struct leasechain #define LEASE_STRUCT_PTR struct leasechain * #define LEASE_GET_FIRST(LQ) lc_get_first_lease(&LQ) #define LEASE_GET_FIRSTP(LQ) lc_get_first_lease(LQ) #define LEASE_GET_NEXT(LQ, LEASE) lc_get_next(&LQ, LEASE) #define LEASE_GET_NEXTP(LQ, LEASE) lc_get_next(LQ, LEASE) #define LEASE_INSERTP(LQ, LEASE) lc_add_sorted_lease(LQ, LEASE) #define LEASE_REMOVEP(LQ, LEASE) lc_unlink_lease(LQ, LEASE) #define LEASE_NOT_EMPTY(LQ) lc_not_empty(&LQ) #define LEASE_NOT_EMPTYP(LQ) lc_not_empty(LQ) #define POOL_DESTROYP(LQ) lc_delete_all(LQ) #endif enum dhcp_shutdown_state { shutdown_listeners, shutdown_omapi_connections, shutdown_drop_omapi_connections, shutdown_dhcp, shutdown_done }; /* Client FQDN option, failover FQDN option, etc. */ typedef struct { u_int8_t codes [2]; unsigned length; u_int8_t *data; } ddns_fqdn_t; #include "failover.h" /* A parsing context. */ struct parse { int lexline; int lexchar; char *token_line; char *prev_line; char *cur_line; const char *tlname; int eol_token; /* * In order to give nice output when we have a parsing error * in our file, we keep track of where we are in the line so * that we can show the user. * * We need to keep track of two lines, because we can look * ahead, via the "peek" function, to the next line sometimes. * * The "line1" and "line2" variables act as buffers for this * information. The "lpos" variable tells us where we are in the * line. * * When we "put back" a character from the parsing context, we * do not want to have the character appear twice in the error * output. So, we set a flag, the "ugflag", which the * get_char() function uses to check for this condition. */ char line1 [81]; char line2 [81]; int lpos; int line; int tlpos; int tline; enum dhcp_token token; int ugflag; char *tval; int tlen; char tokbuf [1500]; int warnings_occurred; int file; char *inbuf; size_t bufix, buflen; size_t bufsiz; struct parse *saved_state; #if defined(LDAP_CONFIGURATION) /* * LDAP configuration uses a call-back to iteratively read config * off of the LDAP repository. * XXX: The token stream can not be rewound reliably, so this must * be addressed for DHCPv6 support. */ int (*read_function)(struct parse *); #endif }; /* Variable-length array of data. */ struct string_list { struct string_list *next; char string [1]; }; /* A name server, from /etc/resolv.conf. */ struct name_server { struct name_server *next; struct sockaddr_in addr; TIME rcdate; }; /* A domain search list element. */ struct domain_search_list { struct domain_search_list *next; char *domain; TIME rcdate; }; /* Option tag structures are used to build chains of option tags, for when we're sure we're not going to have enough of them to justify maintaining an array. */ struct option_tag { struct option_tag *next; u_int8_t data [1]; }; /* An agent option structure. We need a special structure for the Relay Agent Information option because if more than one appears in a message, we have to keep them separate. */ struct agent_options { struct agent_options *next; int length; struct option_tag *first; }; struct option_cache { int refcnt; struct option_cache *next; struct expression *expression; struct option *option; struct data_string data; #define OPTION_HAD_NULLS 0x00000001 u_int32_t flags; }; struct option_state { int refcnt; int universe_count; int site_universe; int site_code_min; void *universes [1]; }; /* A dhcp packet and the pointers to its option values. */ struct packet { struct dhcp_packet *raw; int refcnt; unsigned packet_length; int packet_type; unsigned char dhcpv6_msg_type; /* DHCPv6 message type */ /* DHCPv6 transaction ID */ unsigned char dhcpv6_transaction_id[3]; /* DHCPv6 relay information */ unsigned char dhcpv6_hop_count; struct in6_addr dhcpv6_link_address; struct in6_addr dhcpv6_peer_address; /* DHCPv6 packet containing this one, or NULL if none */ struct packet *dhcpv6_container_packet; /* DHCPv4-over-DHCPv6 flags */ unsigned char dhcp4o6_flags[3]; /* DHCPv4-over-DHCPv6 response, or NULL */ struct data_string *dhcp4o6_response; int options_valid; int client_port; struct iaddr client_addr; struct interface_info *interface; /* Interface on which packet was received. */ struct hardware *haddr; /* Physical link address of local sender (maybe gateway). */ /* Information for relay agent options (see draft-ietf-dhc-agent-options-xx.txt). */ u_int8_t *circuit_id; /* Circuit ID of client connection. */ int circuit_id_len; u_int8_t *remote_id; /* Remote ID of client. */ int remote_id_len; int got_requested_address; /* True if client sent the dhcp-requested-address option. */ struct shared_network *shared_network; struct option_state *options; #if !defined (PACKET_MAX_CLASSES) # define PACKET_MAX_CLASSES 5 #endif int class_count; struct class *classes [PACKET_MAX_CLASSES]; int known; int authenticated; /* If we stash agent options onto the packet option state, to pretend * options we got in a previous exchange were still there, we need * to signal this in a reliable way. */ isc_boolean_t agent_options_stashed; /* * ISC_TRUE if packet received unicast (as opposed to multicast). * Only used in DHCPv6. */ isc_boolean_t unicast; /* Propagates server value SV_ECHO_CLIENT_ID so it is available * in cons_options() */ int sv_echo_client_id; /* Relay port check */ isc_boolean_t relay_source_port; }; /* * A network interface's MAC address. * 20 bytes for the hardware address * and 1 byte for the type tag */ #define HARDWARE_ADDR_LEN 20 struct hardware { u_int8_t hlen; u_int8_t hbuf[HARDWARE_ADDR_LEN + 1]; }; #if defined(LDAP_CONFIGURATION) # define LDAP_BUFFER_SIZE 8192 # define LDAP_METHOD_STATIC 0 # define LDAP_METHOD_DYNAMIC 1 #if defined (LDAP_USE_SSL) # define LDAP_SSL_OFF 0 # define LDAP_SSL_ON 1 # define LDAP_SSL_TLS 2 # define LDAP_SSL_LDAPS 3 #endif /* This is a tree of the current configuration we are building from LDAP */ struct ldap_config_stack { LDAPMessage * res; /* Pointer returned from ldap_search */ LDAPMessage * ldent; /* Current item in LDAP that we're processing. in res */ int close_brace; /* Put a closing } after we're through with this item */ int processed; /* We set this flag if this base item has been processed. After this base item is processed, we can start processing the children */ struct ldap_config_stack *children; struct ldap_config_stack *next; }; #endif typedef enum { server_startup = 0, server_running = 1, server_shutdown = 2, server_hibernate = 3, server_awaken = 4 } control_object_state_t; typedef struct { OMAPI_OBJECT_PREAMBLE; control_object_state_t state; } dhcp_control_object_t; /* Lease states: */ #define FTS_FREE 1 #define FTS_ACTIVE 2 #define FTS_EXPIRED 3 #define FTS_RELEASED 4 #define FTS_ABANDONED 5 #define FTS_RESET 6 #define FTS_BACKUP 7 typedef u_int8_t binding_state_t; /* FTS_LAST is the highest value that is valid for a lease binding state. */ #define FTS_LAST FTS_BACKUP /* * A block for the on statements so we can share the structure * between v4 and v6 */ struct on_star { struct executable_statement *on_expiry; struct executable_statement *on_commit; struct executable_statement *on_release; }; /* A dhcp lease declaration structure. */ struct lease { OMAPI_OBJECT_PREAMBLE; struct lease *next; #if defined (BINARY_LEASES) struct lease *prev; struct leasechain *lc; #endif struct lease *n_uid, *n_hw; struct iaddr ip_addr; TIME starts, ends, sort_time; #if defined (BINARY_LEASES) long int sort_tiebreaker; #endif char *client_hostname; struct binding_scope *scope; struct host_decl *host; struct subnet *subnet; struct pool *pool; struct class *billing_class; struct option_chain_head *agent_options; /* insert the structure directly */ struct on_star on_star; unsigned char *uid; unsigned short uid_len; unsigned short uid_max; unsigned char uid_buf [7]; struct hardware hardware_addr; u_int8_t flags; # define STATIC_LEASE 1 # define BOOTP_LEASE 2 # define RESERVED_LEASE 4 # define MS_NULL_TERMINATION 8 # define ON_UPDATE_QUEUE 16 # define ON_ACK_QUEUE 32 # define ON_QUEUE (ON_UPDATE_QUEUE | ON_ACK_QUEUE) # define UNICAST_BROADCAST_HACK 64 # define ON_DEFERRED_QUEUE 128 /* Persistent flags are to be preserved on a given lease structure. */ # define PERSISTENT_FLAGS (ON_ACK_QUEUE | ON_UPDATE_QUEUE) /* Ephemeral flags are to be preserved on a given lease (copied etc). */ # define EPHEMERAL_FLAGS (MS_NULL_TERMINATION | \ UNICAST_BROADCAST_HACK | \ RESERVED_LEASE | \ BOOTP_LEASE) /* * The lease's binding state is its current state. The next binding * state is the next state this lease will move into by expiration, * or timers in general. The desired binding state is used on lease * updates; the caller is attempting to move the lease to the desired * binding state (and this may either succeed or fail, so the binding * state must be preserved). * * The 'rewind' binding state is used in failover processing. It * is used for an optimization when out of communications; it allows * the server to "rewind" a lease to the previous state acknowledged * by the peer, and progress forward from that point. */ binding_state_t binding_state; binding_state_t next_binding_state; binding_state_t desired_binding_state; binding_state_t rewind_binding_state; struct lease_state *state; /* * 'tsfp' is more of an 'effective' tsfp. It may be calculated from * stos+mclt for example if it's an expired lease and the server is * in partner-down state. 'atsfp' is zeroed whenever a lease is * updated - and only set when the peer acknowledges it. This * ensures every state change is transmitted. */ TIME tstp; /* Time sent to partner. */ TIME tsfp; /* Time sent from partner. */ TIME atsfp; /* Actual time sent from partner. */ TIME cltt; /* Client last transaction time. */ u_int32_t last_xid; /* XID we sent in this lease's BNDUPD */ struct lease *next_pending; /* * A pointer to the state of the ddns update for this lease. * It should be set while the update is in progress and cleared * when the update finishes. It can be used to cancel the * update if we want to do a different update. */ struct dhcp_ddns_cb *ddns_cb; /* Set when a lease has been disqualified for cache-threshold reuse */ unsigned short cannot_reuse; }; struct lease_state { struct lease_state *next; struct interface_info *ip; struct packet *packet; /* The incoming packet. */ TIME offered_expiry; struct option_state *options; struct data_string parameter_request_list; int max_message_size; unsigned char expiry[4], renewal[4], rebind[4]; struct data_string filename, server_name; int got_requested_address; int got_server_identifier; struct shared_network *shared_network; /* Shared network of interface on which request arrived. */ u_int32_t xid; u_int16_t secs; u_int16_t bootp_flags; struct in_addr ciaddr; struct in_addr siaddr; struct in_addr giaddr; u_int8_t hops; u_int8_t offer; struct iaddr from; }; #define ROOT_GROUP 0 #define HOST_DECL 1 #define SHARED_NET_DECL 2 #define SUBNET_DECL 3 #define CLASS_DECL 4 #define GROUP_DECL 5 #define POOL_DECL 6 /* Possible modes in which discover_interfaces can run. */ #define DISCOVER_RUNNING 0 #define DISCOVER_SERVER 1 #define DISCOVER_UNCONFIGURED 2 #define DISCOVER_RELAY 3 #define DISCOVER_SERVER46 4 #define DISCOVER_REQUESTED 5 /* DDNS_UPDATE_STYLE enumerations. */ #define DDNS_UPDATE_STYLE_NONE 0 #define DDNS_UPDATE_STYLE_AD_HOC 1 #define DDNS_UPDATE_STYLE_INTERIM 2 #define DDNS_UPDATE_STYLE_STANDARD 3 /* Server option names. */ #define SV_DEFAULT_LEASE_TIME 1 #define SV_MAX_LEASE_TIME 2 #define SV_MIN_LEASE_TIME 3 #define SV_BOOTP_LEASE_CUTOFF 4 #define SV_BOOTP_LEASE_LENGTH 5 #define SV_BOOT_UNKNOWN_CLIENTS 6 #define SV_DYNAMIC_BOOTP 7 #define SV_ALLOW_BOOTP 8 #define SV_ALLOW_BOOTING 9 #define SV_ONE_LEASE_PER_CLIENT 10 #define SV_GET_LEASE_HOSTNAMES 11 #define SV_USE_HOST_DECL_NAMES 12 #define SV_USE_LEASE_ADDR_FOR_DEFAULT_ROUTE 13 #define SV_MIN_SECS 14 #define SV_FILENAME 15 #define SV_SERVER_NAME 16 #define SV_NEXT_SERVER 17 #define SV_AUTHORITATIVE 18 #define SV_VENDOR_OPTION_SPACE 19 #define SV_ALWAYS_REPLY_RFC1048 20 #define SV_SITE_OPTION_SPACE 21 #define SV_ALWAYS_BROADCAST 22 #define SV_DDNS_DOMAIN_NAME 23 #define SV_DDNS_HOST_NAME 24 #define SV_DDNS_REV_DOMAIN_NAME 25 #define SV_LEASE_FILE_NAME 26 #define SV_PID_FILE_NAME 27 #define SV_DUPLICATES 28 #define SV_DECLINES 29 #define SV_DDNS_UPDATES 30 #define SV_OMAPI_PORT 31 #define SV_LOCAL_PORT 32 #define SV_LIMITED_BROADCAST_ADDRESS 33 #define SV_REMOTE_PORT 34 #define SV_LOCAL_ADDRESS 35 #define SV_OMAPI_KEY 36 #define SV_STASH_AGENT_OPTIONS 37 #define SV_DDNS_TTL 38 #define SV_DDNS_UPDATE_STYLE 39 #define SV_CLIENT_UPDATES 40 #define SV_UPDATE_OPTIMIZATION 41 #define SV_PING_CHECKS 42 #define SV_UPDATE_STATIC_LEASES 43 #define SV_LOG_FACILITY 44 #define SV_DO_FORWARD_UPDATES 45 #define SV_PING_TIMEOUT 46 #define SV_RESERVE_INFINITE 47 #define SV_DDNS_CONFLICT_DETECT 48 #define SV_LEASEQUERY 49 #define SV_ADAPTIVE_LEASE_TIME_THRESHOLD 50 #define SV_DO_REVERSE_UPDATES 51 #define SV_FQDN_REPLY 52 #define SV_PREFER_LIFETIME 53 #define SV_DHCPV6_LEASE_FILE_NAME 54 #define SV_DHCPV6_PID_FILE_NAME 55 #define SV_LIMIT_ADDRS_PER_IA 56 #define SV_LIMIT_PREFS_PER_IA 57 #define SV_DELAYED_ACK 58 #define SV_MAX_ACK_DELAY 59 #if defined(LDAP_CONFIGURATION) # define SV_LDAP_SERVER 60 # define SV_LDAP_PORT 61 # define SV_LDAP_USERNAME 62 # define SV_LDAP_PASSWORD 63 # define SV_LDAP_BASE_DN 64 # define SV_LDAP_METHOD 65 # define SV_LDAP_DEBUG_FILE 66 # define SV_LDAP_DHCP_SERVER_CN 67 # define SV_LDAP_REFERRALS 68 #if defined (LDAP_USE_SSL) # define SV_LDAP_SSL 69 # define SV_LDAP_TLS_REQCERT 70 # define SV_LDAP_TLS_CA_FILE 71 # define SV_LDAP_TLS_CA_DIR 72 # define SV_LDAP_TLS_CERT 73 # define SV_LDAP_TLS_KEY 74 # define SV_LDAP_TLS_CRLCHECK 75 # define SV_LDAP_TLS_CIPHERS 76 # define SV_LDAP_TLS_RANDFILE 77 #endif # define SV_LDAP_INIT_RETRY 178 #if defined (LDAP_USE_GSSAPI) # define SV_LDAP_GSSAPI_KEYTAB 179 # define SV_LDAP_GSSAPI_PRINCIPAL 180 #endif #endif #define SV_CACHE_THRESHOLD 78 #define SV_DONT_USE_FSYNC 79 #define SV_DDNS_LOCAL_ADDRESS4 80 #define SV_DDNS_LOCAL_ADDRESS6 81 #define SV_IGNORE_CLIENT_UIDS 82 #define SV_LOG_THRESHOLD_LOW 83 #define SV_LOG_THRESHOLD_HIGH 84 #define SV_ECHO_CLIENT_ID 85 #define SV_SERVER_ID_CHECK 86 #define SV_PREFIX_LEN_MODE 87 #define SV_DHCPV6_SET_TEE_TIMES 88 #define SV_ABANDON_LEASE_TIME 89 #ifdef EUI_64 #define SV_USE_EUI_64 90 #define SV_PERSIST_EUI_64_LEASES 91 #endif #if defined (FAILOVER_PROTOCOL) #define SV_CHECK_SECS_BYTE_ORDER 92 #endif #define SV_DDNS_DUAL_STACK_MIXED_MODE 93 #define SV_DDNS_GUARD_ID_MUST_MATCH 94 #define SV_DDNS_OTHER_GUARD_IS_DYNAMIC 95 #define SV_RELEASE_ON_ROAM 96 #define SV_LOCAL_ADDRESS6 97 #define SV_BIND_LOCAL_ADDRESS6 98 #define SV_PING_CLTT_SECS 99 #define SV_PING_TIMEOUT_MS 100 #if !defined (DEFAULT_PING_TIMEOUT) # define DEFAULT_PING_TIMEOUT 1 #endif #if !defined (DEFAULT_PING_TIMEOUT_MS) # define DEFAULT_PING_TIMEOUT_MS 0 #endif #if !defined (DEFAULT_PING_CLTT_SECS) # define DEFAULT_PING_CLTT_SECS 60 /* in seconds */ #endif #if !defined (DEFAULT_DELAYED_ACK) # define DEFAULT_DELAYED_ACK 0 /* default 0 disables delayed acking */ #endif #if !defined (DEFAULT_ACK_DELAY_SECS) # define DEFAULT_ACK_DELAY_SECS 0 #endif #if !defined (DEFAULT_ACK_DELAY_USECS) # define DEFAULT_ACK_DELAY_USECS 250000 /* 1/4 of a second */ #endif #if !defined (DEFAULT_MIN_ACK_DELAY_USECS) # define DEFAULT_MIN_ACK_DELAY_USECS 10000 /* 1/100 second */ #endif #if !defined (DEFAULT_CACHE_THRESHOLD) # define DEFAULT_CACHE_THRESHOLD 25 #endif #if !defined (DEFAULT_DEFAULT_LEASE_TIME) # define DEFAULT_DEFAULT_LEASE_TIME 43200 #endif #if !defined (DEFAULT_MIN_LEASE_TIME) # define DEFAULT_MIN_LEASE_TIME 300 #endif #if !defined (DEFAULT_MAX_LEASE_TIME) # define DEFAULT_MAX_LEASE_TIME 86400 #endif #if !defined (DEFAULT_DDNS_TTL) # define DEFAULT_DDNS_TTL 3600 #endif #if !defined (MAX_DEFAULT_DDNS_TTL) # define MAX_DEFAULT_DDNS_TTL 3600 #endif #if !defined (MIN_LEASE_WRITE) # define MIN_LEASE_WRITE 15 #endif #if !defined (DEFAULT_ABANDON_LEASE_TIME) # define DEFAULT_ABANDON_LEASE_TIME 86400 #endif #if !defined (MIN_V6ONLY_WAIT) # define MIN_V6ONLY_WAIT 300 #endif #define PLM_IGNORE 0 #define PLM_PREFER 1 #define PLM_EXACT 2 #define PLM_MINIMUM 3 #define PLM_MAXIMUM 4 /* Client option names */ #define CL_TIMEOUT 1 #define CL_SELECT_INTERVAL 2 #define CL_REBOOT_TIMEOUT 3 #define CL_RETRY_INTERVAL 4 #define CL_BACKOFF_CUTOFF 5 #define CL_INITIAL_INTERVAL 6 #define CL_BOOTP_POLICY 7 #define CL_SCRIPT_NAME 8 #define CL_REQUESTED_OPTIONS 9 #define CL_REQUESTED_LEASE_TIME 10 #define CL_SEND_OPTIONS 11 #define CL_MEDIA 12 #define CL_REJECT_LIST 13 #ifndef CL_DEFAULT_TIMEOUT # define CL_DEFAULT_TIMEOUT 60 #endif #ifndef CL_DEFAULT_SELECT_INTERVAL # define CL_DEFAULT_SELECT_INTERVAL 0 #endif #ifndef CL_DEFAULT_REBOOT_TIMEOUT # define CL_DEFAULT_REBOOT_TIMEOUT 10 #endif #ifndef CL_DEFAULT_RETRY_INTERVAL # define CL_DEFAULT_RETRY_INTERVAL 300 #endif #ifndef CL_DEFAULT_BACKOFF_CUTOFF # define CL_DEFAULT_BACKOFF_CUTOFF 120 #endif #ifndef CL_DEFAULT_INITIAL_INTERVAL # define CL_DEFAULT_INITIAL_INTERVAL 10 #endif #ifndef CL_DEFAULT_BOOTP_POLICY # define CL_DEFAULT_BOOTP_POLICY P_ACCEPT #endif #ifndef CL_DEFAULT_REQUESTED_OPTIONS # define CL_DEFAULT_REQUESTED_OPTIONS \ { DHO_SUBNET_MASK, \ DHO_BROADCAST_ADDRESS, \ DHO_TIME_OFFSET, \ DHO_ROUTERS, \ DHO_DOMAIN_NAME, \ DHO_DOMAIN_NAME_SERVERS, \ DHO_HOST_NAME } #endif struct group_object { OMAPI_OBJECT_PREAMBLE; struct group_object *n_dynamic; struct group *group; char *name; int flags; #define GROUP_OBJECT_DELETED 1 #define GROUP_OBJECT_DYNAMIC 2 #define GROUP_OBJECT_STATIC 4 }; /* Group of declarations that share common parameters. */ struct group { struct group *next; int refcnt; struct group_object *object; struct subnet *subnet; struct shared_network *shared_network; int authoritative; struct executable_statement *statements; }; /* A dhcp host declaration structure. */ struct host_decl { OMAPI_OBJECT_PREAMBLE; struct host_decl *n_ipaddr; struct host_decl *n_dynamic; char *name; struct hardware interface; struct data_string client_identifier; struct option *host_id_option; struct data_string host_id; /* XXXSK: fixed_addr should be an array of iaddr values, not an option_cache, but it's referenced in a lot of places, so we'll leave it for now. */ struct option_cache *fixed_addr; struct iaddrcidrnetlist *fixed_prefix; struct group *group; struct group_object *named_group; struct data_string auth_key_id; int flags; #define HOST_DECL_DELETED 1 #define HOST_DECL_DYNAMIC 2 #define HOST_DECL_STATIC 4 /* For v6 the host-identifer option can specify which relay to use when trying to look up an option. We store the value here. */ int relays; }; struct permit { struct permit *next; enum { permit_unknown_clients, permit_known_clients, permit_authenticated_clients, permit_unauthenticated_clients, permit_all_clients, permit_dynamic_bootp_clients, permit_class, permit_after } type; struct class *class; TIME after; /* date after which this clause applies */ }; #if defined (BINARY_LEASES) struct leasechain { struct lease **list; /* lease list */ size_t total; /* max number of elements in this list, * including free pointers at the end if any */ size_t nelem; /* the number of elements, also the next index to use */ size_t growth; /* the growth factor to use when increase an array * this is set after parsing the pools and before * creatin an array. */ }; #endif struct pool { OMAPI_OBJECT_PREAMBLE; struct pool *next; struct group *group; struct shared_network *shared_network; struct permit *permit_list; struct permit *prohibit_list; LEASE_STRUCT active; LEASE_STRUCT expired; LEASE_STRUCT free; LEASE_STRUCT backup; LEASE_STRUCT abandoned; LEASE_STRUCT reserved; TIME next_event_time; int lease_count; int free_leases; int backup_leases; int index; TIME valid_from; /* deny pool use before this date */ TIME valid_until; /* deny pool use after this date */ #if defined (FAILOVER_PROTOCOL) dhcp_failover_state_t *failover_peer; #endif int logged; /* already logged a message */ int low_threshold; /* low threshold to restart logging */ }; struct shared_network { OMAPI_OBJECT_PREAMBLE; struct shared_network *next; char *name; #define SHARED_IMPLICIT 1 /* This network was synthesized. */ int flags; struct subnet *subnets; struct interface_info *interface; struct pool *pools; struct ipv6_pond *ipv6_pond; struct group *group; #if defined (FAILOVER_PROTOCOL) dhcp_failover_state_t *failover_peer; #endif }; struct subnet { OMAPI_OBJECT_PREAMBLE; struct subnet *next_subnet; struct subnet *next_sibling; struct shared_network *shared_network; struct interface_info *interface; struct iaddr interface_address; struct iaddr net; struct iaddr netmask; int prefix_len; /* XXX: currently for IPv6 only */ struct group *group; }; struct collection { struct collection *next; const char *name; struct class *classes; }; /* Used as an argument to parse_clasS_decl() */ #define CLASS_TYPE_VENDOR 0 #define CLASS_TYPE_USER 1 #define CLASS_TYPE_CLASS 2 #define CLASS_TYPE_SUBCLASS 3 /* XXX classes must be reference-counted. */ struct class { OMAPI_OBJECT_PREAMBLE; struct class *nic; /* Next in collection. */ struct class *superclass; /* Set for spawned classes only. */ char *name; /* Not set for spawned classes. */ /* A class may be configured to permit a limited number of leases. */ int lease_limit; int leases_consumed; struct lease **billed_leases; /* If nonzero, class has not been saved since it was last modified. */ int dirty; /* Hash table containing subclasses. */ class_hash_t *hash; struct data_string hash_string; /* Expression used to match class. */ struct expression *expr; /* Expression used to compute subclass identifiers for spawning and to do subclass matching. */ struct expression *submatch; int spawning; struct group *group; /* Statements to execute if class matches. */ struct executable_statement *statements; #define CLASS_DECL_DELETED 1 #define CLASS_DECL_DYNAMIC 2 #define CLASS_DECL_STATIC 4 #define CLASS_DECL_SUBCLASS 8 int flags; }; /* DHCP client lease structure... */ struct client_lease { struct client_lease *next; /* Next lease in list. */ TIME expiry, renewal, rebind; /* Lease timeouts. */ struct iaddr address; /* Address being leased. */ char *server_name; /* Name of boot server. */ char *filename; /* Name of file we're supposed to boot. */ struct string_list *medium; /* Network medium. */ struct auth_key *key; /* Key used in basic DHCP authentication. */ unsigned int is_static : 1; /* If set, lease is from config file. */ unsigned int is_bootp: 1; /* If set, lease was acquired with BOOTP. */ struct option_state *options; /* Options supplied with lease. */ struct iaddr next_srv_addr; /* Address of the next server to use */ }; /* DHCPv6 lease structures */ struct dhc6_addr { struct dhc6_addr *next; struct iaddr address; u_int8_t plen; /* Address state flags. */ #define DHC6_ADDR_DEPREFFED 0x01 #define DHC6_ADDR_EXPIRED 0x02 #define DHC6_ADDR_DECLINED 0x04 u_int8_t flags; TIME starts; u_int32_t preferred_life; u_int32_t max_life; struct option_state *options; }; struct dhc6_ia { struct dhc6_ia *next; unsigned char iaid[4]; u_int16_t ia_type; TIME starts; u_int32_t renew; u_int32_t rebind; struct dhc6_addr *addrs; struct option_state *options; }; struct dhc6_lease { struct dhc6_lease *next; struct data_string server_id; isc_boolean_t released; int score; u_int8_t pref; unsigned char dhcpv6_transaction_id[3]; struct dhc6_ia *bindings; struct option_state *options; }; /* Possible states in which the client can be. */ enum dhcp_state { S_REBOOTING = 1, S_INIT = 2, S_SELECTING = 3, S_REQUESTING = 4, S_BOUND = 5, S_RENEWING = 6, S_REBINDING = 7, S_DECLINING = 8, S_STOPPED = 9, S_V6ONLY = 10 }; /* Possible pending client operations. */ enum dhcp_pending { P_NONE = 0, P_REBOOT = 1, P_RELEASE = 2 }; /* Authentication and BOOTP policy possibilities (not all values work for each). */ enum policy { P_IGNORE, P_ACCEPT, P_PREFER, P_REQUIRE, P_DONT }; /* Configuration information from the config file... */ struct client_config { /* * When a message has been received, run these statements * over it. */ struct group *on_receipt; /* * When a message is sent, run these statements. */ struct group *on_transmission; struct option **required_options; /* Options that MUST be present. */ struct option **requested_options; /* Options to request (ORO/PRL). */ TIME timeout; /* Start to panic if we don't get a lease in this time period when SELECTING. */ TIME initial_delay; /* Set initial delay before first transmission. */ TIME initial_interval; /* All exponential backoff intervals start here. */ TIME retry_interval; /* If the protocol failed to produce an address before the timeout, try the protocol again after this many seconds. */ TIME select_interval; /* Wait this many seconds from the first DHCPDISCOVER before picking an offered lease. */ TIME reboot_timeout; /* When in INIT-REBOOT, wait this long before giving up and going to INIT. */ TIME backoff_cutoff; /* When doing exponential backoff, never back off to an interval longer than this amount. */ u_int32_t requested_lease; /* Requested lease time, if user doesn't configure one. */ struct string_list *media; /* Possible network media values. */ char *script_name; /* Name of config script. */ char *vendor_space_name; /* Name of config script. */ enum policy bootp_policy; /* Ignore, accept or prefer BOOTP responses. */ enum policy auth_policy; /* Require authentication, prefer authentication, or don't try to authenticate. */ struct string_list *medium; /* Current network medium. */ struct iaddrmatchlist *reject_list; /* Servers to reject. */ int omapi_port; /* port on which to accept OMAPI connections, or -1 for no listener. */ int do_forward_update; /* If nonzero, and if we have the information we need, update the A record for the address we get. */ int lease_id_format; /* format for IDs in lease file, TOKEN_OCTAL or TOKEN_HEX */ }; /* Per-interface state used in the dhcp client... */ /* XXX: consider union {}'ing this for v4/v6. */ struct client_state { struct client_state *next; struct interface_info *interface; char *name; /* Common values. */ struct client_config *config; /* Client configuration. */ struct string_list *env; /* Client script environment. */ int envc; /* Number of entries in environment. */ struct option_state *sent_options; /* Options we sent. */ enum dhcp_state state; /* Current state for this interface. */ TIME last_write; /* Last time this state was written. */ enum dhcp_pending pending; /* Current pending operation. */ /* DHCPv4 values. */ struct client_lease *active; /* Currently active lease. */ struct client_lease *new; /* New lease. */ struct client_lease *offered_leases; /* Leases offered to us. */ struct client_lease *leases; /* Leases we currently hold. */ struct client_lease *alias; /* Alias lease. */ struct iaddr destination; /* Where to send packet. */ u_int32_t xid; /* Transaction ID. */ u_int16_t secs; /* secs value from DHCPDISCOVER. */ TIME first_sending; /* When was first copy sent? */ TIME interval; /* What's the current resend interval? */ struct string_list *medium; /* Last media type tried. */ struct dhcp_packet packet; /* Outgoing DHCP packet. */ unsigned packet_length; /* Actual length of generated packet. */ struct iaddr requested_address; /* Address we would like to get. */ /* DHCPv6 values. */ unsigned char dhcpv6_transaction_id[3]; u_int8_t refresh_type; struct dhc6_lease *active_lease; struct dhc6_lease *old_lease; struct dhc6_lease *advertised_leases; struct dhc6_lease *selected_lease; struct dhc6_lease *held_leases; struct timeval start_time; u_int16_t elapsed; int txcount; /* See RFC3315 section 14. */ TIME RT; /* In hundredths of seconds. */ TIME IRT; /* In hundredths of seconds. */ TIME MRC; /* Count. */ TIME MRT; /* In hundredths of seconds. */ TIME MRD; /* In seconds, relative. */ TIME next_MRD; /* In seconds, absolute. */ /* Rather than a state, we use a function that shifts around * depending what stage of life the v6 state machine is in. * This is where incoming packets are dispatched to (sometimes * a no-op). */ void (*v6_handler)(struct packet *, struct client_state *); /* * A pointer to the state of the ddns update for this lease. * It should be set while the update is in progress and cleared * when the update finishes. It can be used to cancel the * update if we want to do a different update. */ struct dhcp_ddns_cb *ddns_cb; }; struct envadd_state { struct client_state *client; const char *prefix; }; struct dns_update_state { struct client_state *client; struct iaddr address; int dns_update_timeout; }; /* Information about each network interface. */ struct interface_info { OMAPI_OBJECT_PREAMBLE; struct interface_info *next; /* Next interface in list... */ struct shared_network *shared_network; /* Networks connected to this interface. */ struct hardware hw_address; /* Its physical address. */ struct in_addr *addresses; /* Addresses associated with this * interface. */ int address_count; /* Number of addresses stored. */ int address_max; /* Size of addresses buffer. */ struct in6_addr *v6addresses; /* IPv6 addresses associated with this interface. */ int v6address_count; /* Number of IPv6 addresses associated with this interface. */ int v6address_max; /* Maximum number of IPv6 addresses we can store in current buffer. */ u_int8_t *circuit_id; /* Circuit ID associated with this interface. */ unsigned circuit_id_len; /* Length of Circuit ID, if there is one. */ u_int8_t *remote_id; /* Remote ID associated with this interface (if any). */ unsigned remote_id_len; /* Length of Remote ID. */ char name [IFNAMSIZ]; /* Its name... */ int index; /* Its if_nametoindex(). */ int rfdesc; /* Its read file descriptor. */ int wfdesc; /* Its write file descriptor, if different. */ unsigned char *rbuf; /* Read buffer, if required. */ unsigned int rbuf_max; /* Size of read buffer. */ size_t rbuf_offset; /* Current offset into buffer. */ size_t rbuf_len; /* Length of data in buffer. */ struct ifreq *ifp; /* Pointer to ifreq struct. */ int configured; /* If set to 1, interface has at least * one valid IP address. */ u_int32_t flags; /* Control flags... */ #define INTERFACE_REQUESTED 1 #define INTERFACE_AUTOMATIC 2 #define INTERFACE_RUNNING 4 #define INTERFACE_DOWNSTREAM 8 #define INTERFACE_UPSTREAM 16 #define INTERFACE_STREAMS (INTERFACE_DOWNSTREAM | INTERFACE_UPSTREAM) /* Only used by DHCP client code. */ struct client_state *client; # if defined(USE_DLPI_SEND) || defined(USE_DLPI_RECEIVE) || \ defined(USE_DLPI_HWADDR) int dlpi_sap_length; struct hardware dlpi_broadcast_addr; # endif /* DLPI_SEND || DLPI_RECEIVE */ struct hardware anycast_mac_addr; }; struct hardware_link { struct hardware_link *next; char name [IFNAMSIZ]; struct hardware address; }; struct leasequeue { struct leasequeue *prev; struct leasequeue *next; struct lease *lease; }; typedef void (*tvref_t)(void *, void *, const char *, int); typedef void (*tvunref_t)(void *, const char *, int); struct timeout { struct timeout *next; struct timeval when; void (*func) (void *); void *what; tvref_t ref; tvunref_t unref; isc_timer_t *isc_timeout; }; struct eventqueue { struct eventqueue *next; void (*handler)(void *); }; struct protocol { struct protocol *next; int fd; void (*handler) (struct protocol *); void *local; }; struct dns_query; /* forward */ struct dns_wakeup { struct dns_wakeup *next; /* Next wakeup in chain. */ void (*func) (struct dns_query *); }; struct dns_question { u_int16_t type; /* Type of query. */ u_int16_t class; /* Class of query. */ unsigned char data [1]; /* Query data. */ }; struct dns_answer { u_int16_t type; /* Type of answer. */ u_int16_t class; /* Class of answer. */ int count; /* Number of answers. */ unsigned char *answers[1]; /* Pointers to answers. */ }; struct dns_query { struct dns_query *next; /* Next query in hash bucket. */ u_int32_t hash; /* Hash bucket index. */ TIME expiry; /* Query expiry time (zero if not yet answered. */ u_int16_t id; /* Query ID (also hash table index) */ caddr_t waiters; /* Pointer to list of things waiting on this query. */ struct dns_question *question; /* Question, internal format. */ struct dns_answer *answer; /* Answer, internal format. */ unsigned char *query; /* Query formatted for DNS server. */ unsigned len; /* Length of entire query. */ int sent; /* The query has been sent. */ struct dns_wakeup *wakeups; /* Wakeups to call if this query is answered. */ struct name_server *next_server; /* Next server to try. */ int backoff; /* Current backoff, in seconds. */ }; #define DNS_ZONE_ACTIVE 0 #define DNS_ZONE_INACTIVE 1 struct dns_zone { int refcnt; TIME timeout; char *name; struct option_cache *primary; struct option_cache *secondary; struct option_cache *primary6; struct option_cache *secondary6; struct auth_key *key; u_int16_t flags; }; struct icmp_state { OMAPI_OBJECT_PREAMBLE; int socket; void (*icmp_handler) (struct iaddr, u_int8_t *, int); }; #include "ctrace.h" /* Bitmask of dhcp option codes. */ typedef unsigned char option_mask [16]; /* DHCP Option mask manipulation macros... */ #define OPTION_ZERO(mask) (memset (mask, 0, 16)) #define OPTION_SET(mask, bit) (mask [bit >> 8] |= (1 << (bit & 7))) #define OPTION_CLR(mask, bit) (mask [bit >> 8] &= ~(1 << (bit & 7))) #define OPTION_ISSET(mask, bit) (mask [bit >> 8] & (1 << (bit & 7))) #define OPTION_ISCLR(mask, bit) (!OPTION_ISSET (mask, bit)) /* An option occupies its length plus two header bytes (code and length) for every 255 bytes that must be stored. */ #define OPTION_SPACE(x) ((x) + 2 * ((x) / 255 + 1)) /* Default path to dhcpd config file. */ #ifdef DEBUG #undef _PATH_DHCPD_CONF #define _PATH_DHCPD_CONF "dhcpd.conf" #undef _PATH_DHCPD_DB #define _PATH_DHCPD_DB "dhcpd.leases" #undef _PATH_DHCPD6_DB #define _PATH_DHCPD6_DB "dhcpd6.leases" #undef _PATH_DHCPD_PID #define _PATH_DHCPD_PID "dhcpd.pid" #undef _PATH_DHCPD6_PID #define _PATH_DHCPD6_PID "dhcpd6.pid" #else /* !DEBUG */ #ifndef _PATH_DHCPD_CONF #define _PATH_DHCPD_CONF "/etc/dhcpd.conf" #endif /* DEBUG */ #ifndef _PATH_DHCPD_DB #define _PATH_DHCPD_DB LOCALSTATEDIR"/db/dhcpd.leases" #endif #ifndef _PATH_DHCPD6_DB #define _PATH_DHCPD6_DB LOCALSTATEDIR"/db/dhcpd6.leases" #endif #ifndef _PATH_DHCPD_PID #define _PATH_DHCPD_PID LOCALSTATEDIR"/run/dhcpd.pid" #endif #ifndef _PATH_DHCPD6_PID #define _PATH_DHCPD6_PID LOCALSTATEDIR"/run/dhcpd6.pid" #endif #endif /* DEBUG */ #ifndef _PATH_DHCLIENT_CONF #define _PATH_DHCLIENT_CONF "/etc/dhclient.conf" #endif #ifndef _PATH_DHCLIENT_SCRIPT #define _PATH_DHCLIENT_SCRIPT "/sbin/dhclient-script" #endif #ifndef _PATH_DHCLIENT_PID #define _PATH_DHCLIENT_PID LOCALSTATEDIR"/run/dhclient.pid" #endif #ifndef _PATH_DHCLIENT6_PID #define _PATH_DHCLIENT6_PID LOCALSTATEDIR"/run/dhclient6.pid" #endif #ifndef _PATH_DHCLIENT_DB #define _PATH_DHCLIENT_DB LOCALSTATEDIR"/db/dhclient.leases" #endif #ifndef _PATH_DHCLIENT6_DB #define _PATH_DHCLIENT6_DB LOCALSTATEDIR"/db/dhclient6.leases" #endif #ifndef _PATH_RESOLV_CONF #define _PATH_RESOLV_CONF "/etc/resolv.conf" #endif #ifndef _PATH_DHCRELAY_PID #define _PATH_DHCRELAY_PID LOCALSTATEDIR"/run/dhcrelay.pid" #endif #ifndef _PATH_DHCRELAY6_PID #define _PATH_DHCRELAY6_PID LOCALSTATEDIR"/run/dhcrelay6.pid" #endif #ifndef DHCPD_LOG_FACILITY #define DHCPD_LOG_FACILITY LOG_DAEMON #endif #define INFINITE_TIME 0xffffffff #define MAX_TIME 0x7fffffff #define MIN_TIME 0 #ifdef USE_LOG_PID /* include the pid in the syslog messages */ #define DHCP_LOG_OPTIONS LOG_NDELAY | LOG_PID #else #define DHCP_LOG_OPTIONS LOG_NDELAY #endif /* these are referenced */ typedef struct hash_table ia_hash_t; typedef struct hash_table iasubopt_hash_t; /* IAADDR/IAPREFIX lease */ struct iasubopt { int refcnt; /* reference count */ struct in6_addr addr; /* IPv6 address/prefix */ u_int8_t plen; /* iaprefix prefix length */ binding_state_t state; /* state */ struct binding_scope *scope; /* "set var = value;" */ time_t hard_lifetime_end_time; /* time address expires */ time_t soft_lifetime_end_time; /* time ephemeral expires */ u_int32_t prefer; /* cached preferred lifetime */ u_int32_t valid; /* cached valid lifetime */ struct ia_xx *ia; /* IA for this lease */ struct ipv6_pool *ipv6_pool; /* pool for this lease */ /* * For now, just pick an arbitrary time to keep old hard leases * around (value in seconds). */ #define EXPIRED_IPV6_CLEANUP_TIME (60*60) /* index into heaps, or -1 (internal use only) */ int active_index; int inactive_index; /* * A pointer to the state of the ddns update for this lease. * It should be set while the update is in progress and cleared * when the update finishes. It can be used to cancel the * update if we want to do a different update. */ struct dhcp_ddns_cb *ddns_cb; /* space for the on * executable statements */ struct on_star on_star; int static_lease; }; struct ia_xx { int refcnt; /* reference count */ struct data_string iaid_duid; /* from the client */ u_int16_t ia_type; /* IA_XX */ int num_iasubopt; /* number of IAADDR/PREFIX */ int max_iasubopt; /* space available for IAADDR/PREFIX */ time_t cltt; /* client last transaction time */ struct iasubopt **iasubopt; /* pointers to the IAADDR/IAPREFIXs */ }; extern ia_hash_t *ia_na_active; extern ia_hash_t *ia_ta_active; extern ia_hash_t *ia_pd_active; /*! * * \brief ipv6_pool structure * * This structure is part of a range of addresses or prefixes. * A range6 or prefix6 statement will map to one or more of these * with each pool being a simple block of the form xxxx/yyy and * all the pools adding up to comprise the entire range. When * choosing an address or prefix the code will walk through the * pools until it finds one that is available. * * The naming for this structure is unfortunate as there is also * a v4 pool structure and the two are not equivalent. The v4 * pool matches the ipv6_pond structure. I considered changing the * name of this structure but concluded that doing so would be worse * than leaving it as is. Changing it adds some risk and makes for * larger differences between the 4.1 & 4.2 code and the 4.3 code. * */ struct ipv6_pool { int refcnt; /* reference count */ u_int16_t pool_type; /* IA_xx */ struct in6_addr start_addr; /* first IPv6 address */ int bits; /* number of bits, CIDR style */ int units; /* allocation unit in bits */ iasubopt_hash_t *leases; /* non-free leases */ isc_uint64_t num_active; /* count of active leases */ isc_uint64_t num_abandoned; /* count of abandoned leases */ isc_heap_t *active_timeouts; /* timeouts for active leases */ int num_inactive; /* count of inactive leases */ isc_heap_t *inactive_timeouts; /* timeouts for expired or released leases */ struct shared_network *shared_network; /* shared_network for this pool */ struct subnet *subnet; /* subnet for this pool */ struct ipv6_pond *ipv6_pond; /* pond for this pool */ }; /*! * * \brief ipv6_pond structure * * This structure is the ipv6 version of the v4 pool structure. * It contains the address and prefix information via the pointers * to the ipv6_pools and the allowability of this pool for a given * client via the permit lists and the valid TIMEs. * */ struct ipv6_pond { int refcnt; struct ipv6_pond *next; struct group *group; struct shared_network *shared_network; /* backpointer to the enclosing shared network */ struct permit *permit_list; /* allow clients from this list */ struct permit *prohibit_list; /* deny clients from this list */ TIME valid_from; /* deny pool use before this date */ TIME valid_until; /* deny pool use after this date */ struct ipv6_pool **ipv6_pools; /* NULL-terminated array */ int last_ipv6_pool; /* offset of last IPv6 pool used to issue a lease */ isc_uint64_t num_total; /* Total number of elements in the pond */ isc_uint64_t num_active; /* Number of elements in the pond in use */ isc_uint64_t num_abandoned; /* count of abandoned leases */ int logged; /* already logged a message */ isc_uint64_t low_threshold; /* low threshold to restart logging */ int jumbo_range; #ifdef EUI_64 int use_eui_64; /* use EUI-64 address assignment when true */ #endif }; /* * Max addresses in a pond that can be supported by log threshold * Currently based on max value supported by isc_uint64_t. */ #define POND_TRACK_MAX ISC_UINT64_MAX /* Flags for dhcp_ddns_cb_t */ #define DDNS_UPDATE_ADDR 0x0001 #define DDNS_UPDATE_PTR 0x0002 #define DDNS_INCLUDE_RRSET 0x0004 #define DDNS_CONFLICT_DETECTION 0x0008 #define DDNS_CLIENT_DID_UPDATE 0x0010 #define DDNS_EXECUTE_NEXT 0x0020 #define DDNS_ABORT 0x0040 #define DDNS_STATIC_LEASE 0x0080 #define DDNS_ACTIVE_LEASE 0x0100 #define DDNS_DUAL_STACK_MIXED_MODE 0x0200 #define DDNS_GUARD_ID_MUST_MATCH 0x0400 #define DDNS_OTHER_GUARD_IS_DYNAMIC 0x0800 #define CONFLICT_BITS (DDNS_CONFLICT_DETECTION|\ DDNS_DUAL_STACK_MIXED_MODE|\ DDNS_GUARD_ID_MUST_MATCH|\ DDNS_OTHER_GUARD_IS_DYNAMIC) /* States for dhcp_ddns_cb_t */ #define DDNS_STATE_CLEANUP 0 /* startup or the previous step failed, cleanup */ #define DDNS_STATE_ADD_FW_NXDOMAIN 1 #define DDNS_STATE_ADD_FW_YXDHCID 2 #define DDNS_STATE_ADD_PTR 3 #define DDNS_STATE_DSMM_FW_ADD3 4 #define DDNS_STATE_REM_FW_YXDHCID 17 #define DDNS_STATE_REM_FW_NXRR 18 #define DDNS_STATE_REM_PTR 19 #define DDNS_STATE_REM_FW_DSMM_OTHER 20 /* * Flags for the dns print function */ #define DDNS_PRINT_INBOUND 1 #define DDNS_PRINT_OUTBOUND 0 struct dhcp_ddns_cb; typedef void (*ddns_action_t)(struct dhcp_ddns_cb *ddns_cb, isc_result_t result); typedef struct dhcp_ddns_cb { struct data_string fwd_name; struct data_string rev_name; struct data_string dhcid; struct iaddr address; int address_type; unsigned long ttl; unsigned char zone_name[DHCP_MAXDNS_WIRE]; isc_sockaddrlist_t zone_server_list; isc_sockaddr_t zone_addrs[DHCP_MAXNS]; int zone_addr_count; struct dns_zone *zone; u_int16_t flags; TIME timeout; int state; ddns_action_t cur_func; struct dhcp_ddns_cb * next_op; /* Lease or client state that triggered the ddns operation */ void *lease; struct binding_scope **scope; void *transaction; void *dataspace; dns_rdataclass_t dhcid_class; dns_rdataclass_t other_dhcid_class; char *lease_tag; struct ia_xx *fixed6_ia; } dhcp_ddns_cb_t; extern struct ipv6_pool **pools; /* External definitions... */ HASH_FUNCTIONS_DECL (group, const char *, struct group_object, group_hash_t) HASH_FUNCTIONS_DECL (universe, const char *, struct universe, universe_hash_t) HASH_FUNCTIONS_DECL (option_name, const char *, struct option, option_name_hash_t) HASH_FUNCTIONS_DECL (option_code, const unsigned *, struct option, option_code_hash_t) HASH_FUNCTIONS_DECL (dns_zone, const char *, struct dns_zone, dns_zone_hash_t) HASH_FUNCTIONS_DECL(lease_ip, const unsigned char *, struct lease, lease_ip_hash_t) HASH_FUNCTIONS_DECL(lease_id, const unsigned char *, struct lease, lease_id_hash_t) HASH_FUNCTIONS_DECL (host, const unsigned char *, struct host_decl, host_hash_t) HASH_FUNCTIONS_DECL (class, const char *, struct class, class_hash_t) /* options.c */ extern struct option *vendor_cfg_option; int parse_options (struct packet *); int parse_option_buffer (struct option_state *, const unsigned char *, unsigned, struct universe *); struct universe *find_option_universe (struct option *, const char *); int parse_encapsulated_suboptions (struct option_state *, struct option *, const unsigned char *, unsigned, struct universe *, const char *); int cons_options (struct packet *, struct dhcp_packet *, struct lease *, struct client_state *, int, struct option_state *, struct option_state *, struct binding_scope **, int, int, int, struct data_string *, const char *); int fqdn_universe_decode (struct option_state *, const unsigned char *, unsigned, struct universe *); struct option_cache * lookup_fqdn6_option(struct universe *universe, struct option_state *options, unsigned code); void save_fqdn6_option(struct universe *universe, struct option_state *options, struct option_cache *oc, isc_boolean_t appendp); void delete_fqdn6_option(struct universe *universe, struct option_state *options, int code); void fqdn6_option_space_foreach(struct packet *packet, struct lease *lease, struct client_state *client_state, struct option_state *in_options, struct option_state *cfg_options, struct binding_scope **scope, struct universe *u, void *stuff, void (*func)(struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *)); int fqdn6_option_space_encapsulate(struct data_string *result, struct packet *packet, struct lease *lease, struct client_state *client_state, struct option_state *in_options, struct option_state *cfg_options, struct binding_scope **scope, struct universe *universe); int fqdn6_universe_decode(struct option_state *options, const unsigned char *buffer, unsigned length, struct universe *u); int append_option(struct data_string *dst, struct universe *universe, struct option *option, struct data_string *src); int store_options(int *ocount, unsigned char *buffer, unsigned buflen, unsigned index, struct packet *packet, struct lease *lease, struct client_state *client_state, struct option_state *in_options, struct option_state *cfg_options, struct binding_scope **scope, unsigned *priority_list, int priority_len, unsigned first_cutoff, int second_cutoff, int terminate, const char *vuname); int store_options6(char *, int, struct option_state *, struct packet *, const int *, struct data_string *); int format_has_text(const char *); int format_min_length(const char *, struct option_cache *); const char *pretty_print_option (struct option *, const unsigned char *, unsigned, int, int); int pretty_escape(char **, char *, const unsigned char **, const unsigned char *); int get_option (struct data_string *, struct universe *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct option_state *, struct binding_scope **, unsigned, const char *, int); int get_option_int (int *, struct universe *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct option_state *, struct binding_scope **, unsigned, const char *, int); void set_option (struct universe *, struct option_state *, struct option_cache *, enum statement_op); struct option_cache *lookup_option (struct universe *, struct option_state *, unsigned); struct option_cache *lookup_hashed_option (struct universe *, struct option_state *, unsigned); struct option_cache *next_hashed_option(struct universe *, struct option_state *, struct option_cache *); int save_option_buffer (struct universe *, struct option_state *, struct buffer *, unsigned char *, unsigned, unsigned, int); int append_option_buffer(struct universe *, struct option_state *, struct buffer *, unsigned char *, unsigned, unsigned, int); void build_server_oro(struct data_string *, struct option_state *, const char *, int); void save_option(struct universe *, struct option_state *, struct option_cache *); void also_save_option(struct universe *, struct option_state *, struct option_cache *); void save_hashed_option(struct universe *, struct option_state *, struct option_cache *, isc_boolean_t appendp); void delete_option (struct universe *, struct option_state *, int); void delete_hashed_option (struct universe *, struct option_state *, int); int option_cache_dereference (struct option_cache **, const char *, int); int hashed_option_state_dereference (struct universe *, struct option_state *, const char *, int); int store_option (struct data_string *, struct universe *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct option_cache *); int option_space_encapsulate (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct data_string *); int hashed_option_space_encapsulate (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *); int nwip_option_space_encapsulate (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *); int fqdn_option_space_encapsulate (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *); void suboption_foreach (struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *, void (*) (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *), struct option_cache *, const char *); void option_space_foreach (struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *, void (*) (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *)); void hashed_option_space_foreach (struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *, void (*) (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *)); int linked_option_get (struct data_string *, struct universe *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct option_state *, struct binding_scope **, unsigned); int linked_option_state_dereference (struct universe *, struct option_state *, const char *, int); void save_linked_option(struct universe *, struct option_state *, struct option_cache *, isc_boolean_t appendp); void linked_option_space_foreach (struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *, void (*) (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *)); int linked_option_space_encapsulate (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *); void delete_linked_option (struct universe *, struct option_state *, int); struct option_cache *lookup_linked_option (struct universe *, struct option_state *, unsigned); void do_packet (struct interface_info *, struct dhcp_packet *, unsigned, unsigned int, struct iaddr, struct hardware *); void do_packet6(struct interface_info *, const char *, int, int, const struct iaddr *, isc_boolean_t); int packet6_len_okay(const char *, int); int validate_packet(struct packet *); int add_option(struct option_state *options, unsigned int option_num, void *data, unsigned int data_len); void parse_vendor_option(struct packet *packet, struct lease *lease, struct client_state *client_state, struct option_state *in_options, struct option_state *out_options, struct binding_scope **scope); /* dhcp4o6.c */ #if defined(DHCP4o6) extern int dhcp4o6_fd; extern omapi_object_t *dhcp4o6_object; extern omapi_object_type_t *dhcp4o6_type; extern void dhcp4o6_setup(u_int16_t); /* dependency */ extern isc_result_t dhcpv4o6_handler(omapi_object_t *); #endif /* dhcpd.c */ extern struct timeval cur_tv; #define cur_time cur_tv.tv_sec extern int ddns_update_style; #if defined (NSUPDATE) extern u_int16_t ddns_conflict_mask; #endif extern int dont_use_fsync; extern int server_id_check; #ifdef EUI_64 extern int persist_eui64; #endif #ifdef DHCPv6 extern int prefix_length_mode; extern int do_release_on_roam; #endif extern int authoring_byte_order; extern int lease_id_format; extern u_int32_t abandon_lease_time; extern const char *path_dhcpd_conf; extern const char *path_dhcpd_db; extern const char *path_dhcpd_pid; extern int dhcp_max_agent_option_packet_length; extern struct eventqueue *rw_queue_empty; #if defined (PARANOIA) extern uid_t set_uid; extern gid_t set_gid; #endif int main(int, char **); void postconf_initialization(int); void postdb_startup(void); void cleanup (void); void lease_pinged (struct iaddr, u_int8_t *, int); void lease_ping_timeout (void *); int dhcpd_interface_setup_hook (struct interface_info *ip, struct iaddr *ia); extern enum dhcp_shutdown_state shutdown_state; isc_result_t dhcp_io_shutdown (omapi_object_t *, void *); isc_result_t dhcp_set_control_state (control_object_state_t oldstate, control_object_state_t newstate); #if defined (DEBUG_MEMORY_LEAKAGE_ON_EXIT) void relinquish_ackqueue(void); #endif /* conflex.c */ isc_result_t new_parse (struct parse **, int, char *, unsigned, const char *, int); isc_result_t end_parse (struct parse **); isc_result_t save_parse_state(struct parse *cfile); isc_result_t restore_parse_state(struct parse *cfile); enum dhcp_token next_token (const char **, unsigned *, struct parse *); enum dhcp_token peek_token (const char **, unsigned *, struct parse *); enum dhcp_token next_raw_token(const char **rval, unsigned *rlen, struct parse *cfile); enum dhcp_token peek_raw_token(const char **rval, unsigned *rlen, struct parse *cfile); /* * Use skip_token when we are skipping a token we have previously * used peek_token on as we know what the result will be in this case. */ #define skip_token(a,b,c) ((void) next_token((a),(b),(c))) /* confpars.c */ void parse_trace_setup (void); isc_result_t readconf (void); isc_result_t read_conf_file (const char *, struct group *, int, int); #if defined (TRACING) void trace_conf_input (trace_type_t *, unsigned, char *); void trace_conf_stop (trace_type_t *ttype); #endif isc_result_t conf_file_subparse (struct parse *, struct group *, int); isc_result_t lease_file_subparse (struct parse *); int parse_statement (struct parse *, struct group *, int, struct host_decl *, int); #if defined (FAILOVER_PROTOCOL) void parse_failover_peer (struct parse *, struct group *, int); void parse_failover_state_declaration (struct parse *, dhcp_failover_state_t *); void parse_failover_state (struct parse *, enum failover_state *, TIME *); #endif int permit_list_match (struct permit *, struct permit *); void parse_pool_statement (struct parse *, struct group *, int); int parse_lbrace (struct parse *); void parse_host_declaration (struct parse *, struct group *); int parse_class_declaration (struct class **, struct parse *, struct group *, int); void parse_shared_net_declaration (struct parse *, struct group *); void parse_subnet_declaration (struct parse *, struct shared_network *); void parse_subnet6_declaration (struct parse *, struct shared_network *); void parse_group_declaration (struct parse *, struct group *); int parse_fixed_addr_param (struct option_cache **, struct parse *, enum dhcp_token); int parse_lease_declaration (struct lease **, struct parse *); int parse_ip6_addr(struct parse *, struct iaddr *); int parse_ip6_addr_expr(struct expression **, struct parse *); int parse_ip6_prefix(struct parse *, struct iaddr *, u_int8_t *); void parse_address_range (struct parse *, struct group *, int, struct pool *, struct lease **); void parse_address_range6(struct parse *cfile, struct group *group, struct ipv6_pond *); void parse_prefix6(struct parse *cfile, struct group *group, struct ipv6_pond *); void parse_fixed_prefix6(struct parse *cfile, struct host_decl *host_decl); void parse_ia_na_declaration(struct parse *); void parse_ia_ta_declaration(struct parse *); void parse_ia_pd_declaration(struct parse *); void parse_server_duid(struct parse *cfile); void parse_server_duid_conf(struct parse *cfile); void parse_pool6_statement (struct parse *, struct group *, int); uint32_t parse_byte_order_uint32(const void *source); /* ddns.c */ int ddns_updates(struct packet *, struct lease *, struct lease *, struct iasubopt *, struct iasubopt *, struct option_state *); isc_result_t ddns_removals(struct lease *, struct iasubopt *, struct dhcp_ddns_cb *, isc_boolean_t); u_int16_t get_conflict_mask(struct option_state *input_options); #if defined (TRACING) void trace_ddns_init(void); #endif /* parse.c */ void add_enumeration (struct enumeration *); struct enumeration *find_enumeration (const char *, int); struct enumeration_value *find_enumeration_value (const char *, int, unsigned *, const char *); void skip_to_semi (struct parse *); void skip_to_rbrace (struct parse *, int); int parse_semi (struct parse *); int parse_string (struct parse *, char **, unsigned *); char *parse_host_name (struct parse *); int parse_ip_addr_or_hostname (struct expression **, struct parse *, int); void parse_hardware_param (struct parse *, struct hardware *); void parse_lease_time (struct parse *, TIME *); unsigned char *parse_numeric_aggregate (struct parse *, unsigned char *, unsigned *, int, int, unsigned); void convert_num (struct parse *, unsigned char *, const char *, int, unsigned); TIME parse_date (struct parse *); TIME parse_date_core(struct parse *); isc_result_t parse_option_name (struct parse *, int, int *, struct option **); void parse_option_space_decl (struct parse *); int parse_option_code_definition (struct parse *, struct option *); int parse_base64 (struct data_string *, struct parse *); int parse_cshl (struct data_string *, struct parse *); int parse_executable_statement (struct executable_statement **, struct parse *, int *, enum expression_context); int parse_executable_statements (struct executable_statement **, struct parse *, int *, enum expression_context); int parse_zone (struct dns_zone *, struct parse *); int parse_key (struct parse *); int parse_on_statement (struct executable_statement **, struct parse *, int *); int parse_switch_statement (struct executable_statement **, struct parse *, int *); int parse_case_statement (struct executable_statement **, struct parse *, int *, enum expression_context); int parse_if_statement (struct executable_statement **, struct parse *, int *); int parse_boolean_expression (struct expression **, struct parse *, int *); int parse_boolean (struct parse *); int parse_data_expression (struct expression **, struct parse *, int *); int parse_numeric_expression (struct expression **, struct parse *, int *); int parse_dns_expression (struct expression **, struct parse *, int *); int parse_non_binary (struct expression **, struct parse *, int *, enum expression_context); int parse_expression (struct expression **, struct parse *, int *, enum expression_context, struct expression **, enum expr_op); int parse_option_data(struct expression **expr, struct parse *cfile, int lookups, struct option *option); int parse_option_statement (struct executable_statement **, struct parse *, int, struct option *, enum statement_op); int parse_option_token (struct expression **, struct parse *, const char **, struct expression *, int, int); int parse_allow_deny (struct option_cache **, struct parse *, int); int parse_auth_key (struct data_string *, struct parse *); int parse_warn (struct parse *, const char *, ...) __sysloglike(2, 3); struct expression *parse_domain_list(struct parse *cfile, int); struct expression *parse_domain_name(struct parse *cfile); /* tree.c */ extern struct binding_scope *global_scope; pair cons (caddr_t, pair); int make_const_option_cache (struct option_cache **, struct buffer **, u_int8_t *, unsigned, struct option *, const char *, int); int make_host_lookup (struct expression **, const char *); int enter_dns_host (struct dns_host_entry **, const char *); int make_const_data (struct expression **, const unsigned char *, unsigned, int, int, const char *, int); int make_const_int (struct expression **, unsigned long); int make_concat (struct expression **, struct expression *, struct expression *); int make_encapsulation (struct expression **, struct data_string *); int make_substring (struct expression **, struct expression *, struct expression *, struct expression *); int make_limit (struct expression **, struct expression *, int); int make_let (struct executable_statement **, const char *); int option_cache (struct option_cache **, struct data_string *, struct expression *, struct option *, const char *, int); int evaluate_expression (struct binding_value **, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *, const char *, int); int binding_value_dereference (struct binding_value **, const char *, int); int evaluate_boolean_expression (int *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *); int evaluate_data_expression (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *, const char *, int); int evaluate_numeric_expression (unsigned long *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *); int evaluate_option_cache (struct data_string *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct option_cache *, const char *, int); int evaluate_boolean_option_cache (int *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct option_cache *, const char *, int); int evaluate_boolean_expression_result (int *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *); void expression_dereference (struct expression **, const char *, int); int is_dns_expression (struct expression *); int is_boolean_expression (struct expression *); int is_data_expression (struct expression *); int is_numeric_expression (struct expression *); int is_compound_expression (struct expression *); int op_precedence (enum expr_op, enum expr_op); enum expression_context expression_context (struct expression *); enum expression_context op_context (enum expr_op); int write_expression (FILE *, struct expression *, int, int, int); struct binding *find_binding (struct binding_scope *, const char *); int free_bindings (struct binding_scope *, const char *, int); int binding_scope_dereference (struct binding_scope **, const char *, int); int fundef_dereference (struct fundef **, const char *, int); int data_subexpression_length (int *, struct expression *); int expr_valid_for_context (struct expression *, enum expression_context); struct binding *create_binding (struct binding_scope **, const char *); int bind_ds_value (struct binding_scope **, const char *, struct data_string *); int find_bound_string (struct data_string *, struct binding_scope *, const char *); int unset (struct binding_scope *, const char *); int data_string_sprintfa(struct data_string *ds, const char *fmt, ...); int concat_dclists (struct data_string *, struct data_string *, struct data_string *); /* dhcp.c */ extern int outstanding_pings; extern int max_outstanding_acks; extern int max_ack_delay_secs; extern int max_ack_delay_usecs; void dhcp (struct packet *); void dhcpdiscover (struct packet *, int); void dhcprequest (struct packet *, int, struct lease *); void dhcprelease (struct packet *, int); void dhcpdecline (struct packet *, int); void dhcpinform (struct packet *, int); void nak_lease (struct packet *, struct iaddr *cip, struct group*); void ack_lease (struct packet *, struct lease *, unsigned int, TIME, char *, int, struct host_decl *); void echo_client_id(struct packet*, struct lease*, struct option_state*, struct option_state*); void dhcp_reply (struct lease *); int find_lease (struct lease **, struct packet *, struct shared_network *, int *, int *, struct lease *, const char *, int); int mockup_lease (struct lease **, struct packet *, struct shared_network *, struct host_decl *); void static_lease_dereference (struct lease *, const char *, int); int allocate_lease (struct lease **, struct packet *, struct pool *, int *); int permitted (struct packet *, struct permit *); int locate_network (struct packet *); int parse_agent_information_option (struct packet *, int, u_int8_t *); unsigned cons_agent_information_options (struct option_state *, struct dhcp_packet *, unsigned, unsigned); void get_server_source_address(struct in_addr *from, struct option_state *options, struct option_state *out_options, struct packet *packet); void eval_network_statements(struct option_state **options, struct packet *packet, struct group *network_group); u_int16_t dhcp_check_relayport(struct packet *packet); /* dhcpleasequery.c */ void dhcpleasequery (struct packet *, int); void dhcpv6_leasequery (struct data_string *, struct packet *); /* dhcpv6.c */ isc_boolean_t server_duid_isset(void); void copy_server_duid(struct data_string *ds, const char *file, int line); void set_server_duid(struct data_string *new_duid); isc_result_t set_server_duid_from_option(void); void set_server_duid_type(int type); isc_result_t generate_new_server_duid(void); isc_result_t get_client_id(struct packet *, struct data_string *); void dhcpv6(struct packet *); /* bootp.c */ void bootp(struct packet *); void use_host_decl_name(struct packet *, struct lease* , struct option_state *); /* memory.c */ extern int (*group_write_hook) (struct group_object *); extern struct group *root_group; extern group_hash_t *group_name_hash; isc_result_t delete_group (struct group_object *, int); isc_result_t supersede_group (struct group_object *, int); int clone_group (struct group **, struct group *, const char *, int); int write_group (struct group_object *); /* salloc.c */ void relinquish_lease_hunks (void); struct lease *new_leases (unsigned, const char *, int); #if defined (DEBUG_MEMORY_LEAKAGE) || \ defined (DEBUG_MEMORY_LEAKAGE_ON_EXIT) void relinquish_free_lease_states (void); #endif OMAPI_OBJECT_ALLOC_DECL (lease, struct lease, dhcp_type_lease) OMAPI_OBJECT_ALLOC_DECL (class, struct class, dhcp_type_class) OMAPI_OBJECT_ALLOC_DECL (subclass, struct class, dhcp_type_subclass) OMAPI_OBJECT_ALLOC_DECL (pool, struct pool, dhcp_type_pool) OMAPI_OBJECT_ALLOC_DECL (host, struct host_decl, dhcp_type_host) /* alloc.c */ OMAPI_OBJECT_ALLOC_DECL (subnet, struct subnet, dhcp_type_subnet) OMAPI_OBJECT_ALLOC_DECL (shared_network, struct shared_network, dhcp_type_shared_network) OMAPI_OBJECT_ALLOC_DECL (group_object, struct group_object, dhcp_type_group) OMAPI_OBJECT_ALLOC_DECL (dhcp_control, dhcp_control_object_t, dhcp_type_control) #if defined (DEBUG_MEMORY_LEAKAGE) || \ defined (DEBUG_MEMORY_LEAKAGE_ON_EXIT) void relinquish_free_pairs (void); void relinquish_free_expressions (void); void relinquish_free_binding_values (void); void relinquish_free_option_caches (void); void relinquish_free_packets (void); #endif int option_chain_head_allocate (struct option_chain_head **, const char *, int); int option_chain_head_reference (struct option_chain_head **, struct option_chain_head *, const char *, int); int option_chain_head_dereference (struct option_chain_head **, const char *, int); int group_allocate (struct group **, const char *, int); int group_reference (struct group **, struct group *, const char *, int); int group_dereference (struct group **, const char *, int); struct dhcp_packet *new_dhcp_packet (const char *, int); struct protocol *new_protocol (const char *, int); struct lease_state *new_lease_state (const char *, int); struct domain_search_list *new_domain_search_list (const char *, int); struct name_server *new_name_server (const char *, int); void free_name_server (struct name_server *, const char *, int); struct option *new_option (const char *, const char *, int); int option_reference(struct option **dest, struct option *src, const char * file, int line); int option_dereference(struct option **dest, const char *file, int line); struct universe *new_universe (const char *, int); void free_universe (struct universe *, const char *, int); void free_domain_search_list (struct domain_search_list *, const char *, int); void free_lease_state (struct lease_state *, const char *, int); void free_protocol (struct protocol *, const char *, int); void free_dhcp_packet (struct dhcp_packet *, const char *, int); struct client_lease *new_client_lease (const char *, int); void free_client_lease (struct client_lease *, const char *, int); struct permit *new_permit (const char *, int); void free_permit (struct permit *, const char *, int); pair new_pair (const char *, int); void free_pair (pair, const char *, int); int expression_allocate (struct expression **, const char *, int); int expression_reference (struct expression **, struct expression *, const char *, int); void free_expression (struct expression *, const char *, int); int binding_value_allocate (struct binding_value **, const char *, int); int binding_value_reference (struct binding_value **, struct binding_value *, const char *, int); void free_binding_value (struct binding_value *, const char *, int); int fundef_allocate (struct fundef **, const char *, int); int fundef_reference (struct fundef **, struct fundef *, const char *, int); int option_cache_allocate (struct option_cache **, const char *, int); int option_cache_reference (struct option_cache **, struct option_cache *, const char *, int); int buffer_allocate (struct buffer **, unsigned, const char *, int); int buffer_reference (struct buffer **, struct buffer *, const char *, int); int buffer_dereference (struct buffer **, const char *, int); int dns_host_entry_allocate (struct dns_host_entry **, const char *, const char *, int); int dns_host_entry_reference (struct dns_host_entry **, struct dns_host_entry *, const char *, int); int dns_host_entry_dereference (struct dns_host_entry **, const char *, int); int option_state_allocate (struct option_state **, const char *, int); int option_state_reference (struct option_state **, struct option_state *, const char *, int); int option_state_dereference (struct option_state **, const char *, int); int data_string_new(struct data_string *, const char *, unsigned int, const char *, int); void data_string_copy(struct data_string *, const struct data_string *, const char *, int); void data_string_forget (struct data_string *, const char *, int); void data_string_truncate (struct data_string *, int); int data_string_terminate (struct data_string *, const char *, int); int executable_statement_allocate (struct executable_statement **, const char *, int); int executable_statement_reference (struct executable_statement **, struct executable_statement *, const char *, int); int packet_allocate (struct packet **, const char *, int); int packet_reference (struct packet **, struct packet *, const char *, int); int packet_dereference (struct packet **, const char *, int); int binding_scope_allocate (struct binding_scope **, const char *, int); int binding_scope_reference (struct binding_scope **, struct binding_scope *, const char *, int); int dns_zone_allocate (struct dns_zone **, const char *, int); int dns_zone_reference (struct dns_zone **, struct dns_zone *, const char *, int); /* print.c */ #define DEFAULT_TIME_FORMAT 0 #define LOCAL_TIME_FORMAT 1 extern int db_time_format; char *quotify_string (const char *, const char *, int); char *quotify_buf (const unsigned char *, unsigned, const char, const char *, int); char *print_base64 (const unsigned char *, unsigned, const char *, int); char *print_hw_addr (const int, const int, const unsigned char *); void print_lease (struct lease *); void dump_raw (const unsigned char *, unsigned); void dump_packet_option (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *); void dump_packet (struct packet *); void hash_dump (struct hash_table *); char *print_hex (unsigned, const u_int8_t *, unsigned, unsigned); void print_hex_only (unsigned, const u_int8_t *, unsigned, char *); void print_hex_or_string (unsigned, const u_int8_t *, unsigned, char *); #define print_hex_1(len, data, limit) print_hex(len, data, limit, 0) #define print_hex_2(len, data, limit) print_hex(len, data, limit, 1) #define print_hex_3(len, data, limit) print_hex(len, data, limit, 2) char *print_dotted_quads (unsigned, const u_int8_t *); char *print_dec_1 (unsigned long); char *print_dec_2 (unsigned long); void print_expression (const char *, struct expression *); int token_print_indent_concat (FILE *, int, int, const char *, const char *, ...); int token_indent_data_string (FILE *, int, int, const char *, const char *, struct data_string *); int token_print_indent (FILE *, int, int, const char *, const char *, const char *); void indent_spaces (FILE *, int); #if defined (NSUPDATE) void print_dns_status (int, struct dhcp_ddns_cb *, isc_result_t); #endif const char *print_time(TIME); void get_hw_addr(const char *name, struct hardware *hw); char *buf_to_hex (const unsigned char *s, unsigned len, const char *file, int line); char *format_lease_id(const unsigned char *s, unsigned len, int format, const char *file, int line); char *absolute_path(const char *orgpath); /* socket.c */ #if defined (USE_SOCKET_SEND) || defined (USE_SOCKET_RECEIVE) \ || defined (USE_SOCKET_FALLBACK) int if_register_socket(struct interface_info *, int, int *, struct in6_addr *); void set_multicast_hop_limit(struct interface_info* info, int hop_limit); #endif #if defined (USE_SOCKET_FALLBACK) && !defined (USE_SOCKET_SEND) void if_reinitialize_fallback (struct interface_info *); void if_register_fallback (struct interface_info *); ssize_t send_fallback (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); ssize_t send_fallback6(struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in6_addr *, struct sockaddr_in6 *, struct hardware *); #endif #ifdef USE_SOCKET_SEND void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); #endif ssize_t send_packet6(struct interface_info *, const unsigned char *, size_t, struct sockaddr_in6 *); #ifdef USE_SOCKET_RECEIVE void if_reinitialize_receive (struct interface_info *); void if_register_receive (struct interface_info *); void if_deregister_receive (struct interface_info *); ssize_t receive_packet (struct interface_info *, unsigned char *, size_t, struct sockaddr_in *, struct hardware *); #endif #if defined (USE_SOCKET_FALLBACK) isc_result_t fallback_discard (omapi_object_t *); #endif #if defined (USE_SOCKET_SEND) int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif void if_register6(struct interface_info *info, int do_multicast); void if_register_linklocal6(struct interface_info *info); ssize_t receive_packet6(struct interface_info *interface, unsigned char *buf, size_t len, struct sockaddr_in6 *from, struct in6_addr *to_addr, unsigned int *if_index); void if_deregister6(struct interface_info *info); /* bpf.c */ #if defined (USE_BPF_SEND) || defined (USE_BPF_RECEIVE) int if_register_bpf (struct interface_info *); #endif #ifdef USE_BPF_SEND void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); #endif #ifdef USE_BPF_RECEIVE void if_reinitialize_receive (struct interface_info *); void if_register_receive (struct interface_info *); void if_deregister_receive (struct interface_info *); ssize_t receive_packet (struct interface_info *, unsigned char *, size_t, struct sockaddr_in *, struct hardware *); #endif #if defined (USE_BPF_SEND) int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif /* lpf.c */ #if defined (USE_LPF_SEND) || defined (USE_LPF_RECEIVE) int if_register_lpf (struct interface_info *); #endif #ifdef USE_LPF_SEND void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); #endif #ifdef USE_LPF_RECEIVE void if_reinitialize_receive (struct interface_info *); void if_register_receive (struct interface_info *); void if_deregister_receive (struct interface_info *); ssize_t receive_packet (struct interface_info *, unsigned char *, size_t, struct sockaddr_in *, struct hardware *); #endif #if defined (USE_LPF_SEND) int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif /* nit.c */ #if defined (USE_NIT_SEND) || defined (USE_NIT_RECEIVE) int if_register_nit (struct interface_info *); #endif #ifdef USE_NIT_SEND void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); #endif #ifdef USE_NIT_RECEIVE void if_reinitialize_receive (struct interface_info *); void if_register_receive (struct interface_info *); void if_deregister_receive (struct interface_info *); ssize_t receive_packet (struct interface_info *, unsigned char *, size_t, struct sockaddr_in *, struct hardware *); #endif #if defined (USE_NIT_SEND) int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif /* dlpi.c */ #if defined (USE_DLPI_SEND) || defined (USE_DLPI_RECEIVE) int if_register_dlpi (struct interface_info *); #endif #ifdef USE_DLPI_SEND int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif #ifdef USE_DLPI_RECEIVE void if_reinitialize_receive (struct interface_info *); void if_register_receive (struct interface_info *); void if_deregister_receive (struct interface_info *); ssize_t receive_packet (struct interface_info *, unsigned char *, size_t, struct sockaddr_in *, struct hardware *); #endif /* raw.c */ #ifdef USE_RAW_SEND void if_reinitialize_send (struct interface_info *); void if_register_send (struct interface_info *); void if_deregister_send (struct interface_info *); ssize_t send_packet (struct interface_info *, struct packet *, struct dhcp_packet *, size_t, struct in_addr, struct sockaddr_in *, struct hardware *); int can_unicast_without_arp (struct interface_info *); int can_receive_unicast_unconfigured (struct interface_info *); int supports_multiple_interfaces (struct interface_info *); void maybe_setup_fallback (void); #endif /* discover.c */ extern struct interface_info *interfaces, *dummy_interfaces, *fallback_interface; extern struct protocol *protocols; extern int quiet_interface_discovery; isc_result_t interface_setup (void); void interface_trace_setup (void); extern struct in_addr limited_broadcast; extern int local_family; extern struct in_addr local_address; extern struct in6_addr local_address6; extern int bind_local_address6; extern u_int16_t local_port; extern u_int16_t remote_port; extern u_int16_t relay_port; extern int dhcpv4_over_dhcpv6; extern int (*dhcp_interface_setup_hook) (struct interface_info *, struct iaddr *); extern int (*dhcp_interface_discovery_hook) (struct interface_info *); extern isc_result_t (*dhcp_interface_startup_hook) (struct interface_info *); extern void (*bootp_packet_handler) (struct interface_info *, struct dhcp_packet *, unsigned, unsigned int, struct iaddr, struct hardware *); extern void (*dhcpv6_packet_handler)(struct interface_info *, const char *, int, int, const struct iaddr *, isc_boolean_t); extern struct timeout *timeouts; extern omapi_object_type_t *dhcp_type_interface; #if defined (TRACING) extern trace_type_t *interface_trace; extern trace_type_t *inpacket_trace; extern trace_type_t *outpacket_trace; #endif extern struct interface_info **interface_vector; extern int interface_count; extern int interface_max; isc_result_t interface_initialize(omapi_object_t *, const char *, int); void discover_interfaces(int); int setup_fallback (struct interface_info **, const char *, int); int if_readsocket (omapi_object_t *); void reinitialize_interfaces (void); /* dispatch.c */ void set_time(TIME); struct timeval *process_outstanding_timeouts (struct timeval *); void dispatch (void); isc_result_t got_one(omapi_object_t *); isc_result_t got_one_v6(omapi_object_t *); isc_result_t interface_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t interface_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t interface_destroy (omapi_object_t *, const char *, int); isc_result_t interface_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t interface_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); void add_timeout (struct timeval *, void (*) (void *), void *, tvref_t, tvunref_t); void cancel_timeout (void (*) (void *), void *); void cancel_all_timeouts (void); void relinquish_timeouts (void); OMAPI_OBJECT_ALLOC_DECL (interface, struct interface_info, dhcp_type_interface) /* tables.c */ extern char *default_option_format; extern struct universe dhcp_universe; extern struct universe dhcpv6_universe; extern struct universe nwip_universe; extern struct universe fqdn_universe; extern struct universe vsio_universe; extern int dhcp_option_default_priority_list []; extern int dhcp_option_default_priority_list_count; extern const char *hardware_types [256]; extern int universe_count, universe_max; extern struct universe **universes; extern universe_hash_t *universe_hash; void initialize_common_option_spaces (void); extern struct universe *config_universe; /* stables.c */ #if defined (FAILOVER_PROTOCOL) extern failover_option_t null_failover_option; extern failover_option_t skip_failover_option; extern struct failover_option_info ft_options []; extern u_int32_t fto_allowed []; extern int ft_sizes []; extern const char *dhcp_flink_state_names []; #endif extern const char *binding_state_names []; extern struct universe agent_universe; extern struct universe server_universe; extern struct enumeration ddns_styles; extern struct enumeration syslog_enum; void initialize_server_option_spaces (void); extern struct enumeration prefix_length_modes; /* inet.c */ struct iaddr subnet_number (struct iaddr, struct iaddr); struct iaddr ip_addr (struct iaddr, struct iaddr, u_int32_t); struct iaddr broadcast_addr (struct iaddr, struct iaddr); u_int32_t host_addr (struct iaddr, struct iaddr); int addr_eq (struct iaddr, struct iaddr); int addr_match(struct iaddr *, struct iaddrmatch *); int addr_cmp(const struct iaddr *a1, const struct iaddr *a2); int addr_or(struct iaddr *result, const struct iaddr *a1, const struct iaddr *a2); int addr_and(struct iaddr *result, const struct iaddr *a1, const struct iaddr *a2); isc_boolean_t is_cidr_mask_valid(const struct iaddr *addr, int bits); isc_result_t range2cidr(struct iaddrcidrnetlist **result, const struct iaddr *lo, const struct iaddr *hi); isc_result_t free_iaddrcidrnetlist(struct iaddrcidrnetlist **result); const char *piaddr (struct iaddr); char *piaddrmask(struct iaddr *, struct iaddr *); char *piaddrcidr(const struct iaddr *, unsigned int); u_int16_t validate_port(char *); u_int16_t validate_port_pair(char *); #if defined(DHCPv6) const char *pin6_addr (const struct in6_addr*); #endif /* dhclient.c */ extern int nowait; extern int wanted_ia_na; extern int wanted_ia_ta; extern int wanted_ia_pd; extern int require_all_ias; extern const char *path_dhclient_conf; extern const char *path_dhclient_db; extern const char *path_dhclient_pid; extern char *path_dhclient_script; extern int interfaces_requested; extern struct data_string default_duid; extern int duid_type; extern const char *path_dhclient_duid; extern struct client_config top_level_config; void dhcpoffer (struct packet *); void dhcpack (struct packet *); void dhcpnak (struct packet *); void send_discover (void *); void send_request (void *); void send_release (void *); void send_decline (void *); void state_reboot (void *); void state_init (void *); void state_selecting (void *); void state_requesting (void *); void state_bound (void *); void state_stop (void *); void state_panic (void *); uint32_t check_v6only (struct packet *, struct client_state *); void start_v6only (struct client_state *, uint32_t); void finish_v6only (void *); void bind_lease (struct client_state *); void make_client_options (struct client_state *, struct client_lease *, u_int8_t *, struct option_cache *, struct iaddr *, struct option **, struct option_state **); void make_discover (struct client_state *, struct client_lease *); void make_request (struct client_state *, struct client_lease *); void make_decline (struct client_state *, struct client_lease *); void make_release (struct client_state *, struct client_lease *); void destroy_client_lease (struct client_lease *); void rewrite_client_leases (void); void write_lease_option (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *); int write_client_lease (struct client_state *, struct client_lease *, int, int); isc_result_t write_client6_lease(struct client_state *client, struct dhc6_lease *lease, int rewrite, int sync); int dhcp_option_ev_name (char *, size_t, struct option *); void script_init (struct client_state *, const char *, struct string_list *); void client_option_envadd (struct option_cache *, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct universe *, void *); void script_write_params (struct client_state *, const char *, struct client_lease *); void script_write_requested (struct client_state *); int script_go (struct client_state *); void client_envadd (struct client_state *, const char *, const char *, const char *, ...) __attribute__((__format__(__printf__,4,5))); struct client_lease *packet_to_lease (struct packet *, struct client_state *); void finish (char); void detach (void); void write_client_pid_file (void); void client_location_changed (void); void do_release (struct client_state *); int dhclient_interface_shutdown_hook (struct interface_info *); int dhclient_interface_discovery_hook (struct interface_info *); isc_result_t dhclient_interface_startup_hook (struct interface_info *); void dhclient_schedule_updates(struct client_state *client, struct iaddr *addr, int offset); void client_dns_update_timeout (void *cp); isc_result_t client_dns_update(struct client_state *client, dhcp_ddns_cb_t *ddns_cb); void client_dns_remove(struct client_state *client, struct iaddr *addr); void dhcpv4_client_assignments(void); void dhcpv6_client_assignments(void); void form_duid(struct data_string *duid, const char *file, int line); void dhcp4o6_start(void); /* dhc6.c */ void dhc6_lease_destroy(struct dhc6_lease **src, const char *file, int line); void start_init6(struct client_state *client); void start_info_request6(struct client_state *client); void start_confirm6(struct client_state *client); void start_release6(struct client_state *client); void start_selecting6(struct client_state *client); void unconfigure6(struct client_state *client, const char *reason); /* db.c */ int write_lease (struct lease *); int write_host (struct host_decl *); int write_server_duid(void); #if defined (FAILOVER_PROTOCOL) int write_failover_state (dhcp_failover_state_t *); #endif int db_printable (const unsigned char *); int db_printable_len (const unsigned char *, unsigned); isc_result_t write_named_billing_class(const void *, unsigned, void *); void write_billing_classes (void); int write_billing_class (struct class *); void commit_leases_timeout (void *); int commit_leases (void); int commit_leases_timed (void); void db_startup (int); int new_lease_file (int test_mode); int group_writer (struct group_object *); int write_ia(const struct ia_xx *); /* packet.c */ u_int32_t checksum (unsigned char *, unsigned, u_int32_t); u_int32_t wrapsum (u_int32_t); void assemble_hw_header (struct interface_info *, unsigned char *, unsigned *, struct hardware *); void assemble_udp_ip_header (struct interface_info *, unsigned char *, unsigned *, u_int32_t, u_int32_t, u_int32_t, unsigned char *, unsigned); ssize_t decode_hw_header (struct interface_info *, unsigned char *, unsigned, struct hardware *); ssize_t decode_udp_ip_header (struct interface_info *, unsigned char *, unsigned, struct sockaddr_in *, unsigned, unsigned *, int); /* ethernet.c */ void assemble_ethernet_header (struct interface_info *, unsigned char *, unsigned *, struct hardware *); ssize_t decode_ethernet_header (struct interface_info *, unsigned char *, unsigned, struct hardware *); /* tr.c */ void assemble_tr_header (struct interface_info *, unsigned char *, unsigned *, struct hardware *); ssize_t decode_tr_header (struct interface_info *, unsigned char *, unsigned, struct hardware *); /* dhxpxlt.c */ void convert_statement (struct parse *); void convert_host_statement (struct parse *, jrefproto); void convert_host_name (struct parse *, jrefproto); void convert_class_statement (struct parse *, jrefproto, int); void convert_class_decl (struct parse *, jrefproto); void convert_lease_time (struct parse *, jrefproto, char *); void convert_shared_net_statement (struct parse *, jrefproto); void convert_subnet_statement (struct parse *, jrefproto); void convert_subnet_decl (struct parse *, jrefproto); void convert_host_decl (struct parse *, jrefproto); void convert_hardware_decl (struct parse *, jrefproto); void convert_hardware_addr (struct parse *, jrefproto); void convert_filename_decl (struct parse *, jrefproto); void convert_servername_decl (struct parse *, jrefproto); void convert_ip_addr_or_hostname (struct parse *, jrefproto, int); void convert_fixed_addr_decl (struct parse *, jrefproto); void convert_option_decl (struct parse *, jrefproto); void convert_lease_statement (struct parse *, jrefproto); void convert_address_range (struct parse *, jrefproto); void convert_date (struct parse *, jrefproto, char *); void convert_numeric_aggregate (struct parse *, jrefproto, int, int, int, int); void indent (int); /* route.c */ void add_route_direct (struct interface_info *, struct in_addr); void add_route_net (struct interface_info *, struct in_addr, struct in_addr); void add_route_default_gateway (struct interface_info *, struct in_addr); void remove_routes (struct in_addr); void remove_if_route (struct interface_info *, struct in_addr); void remove_all_if_routes (struct interface_info *); void set_netmask (struct interface_info *, struct in_addr); void set_broadcast_addr (struct interface_info *, struct in_addr); void set_ip_address (struct interface_info *, struct in_addr); /* clparse.c */ isc_result_t read_client_conf (void); int read_client_conf_file (const char *, struct interface_info *, struct client_config *); void read_client_leases (void); void read_client_duid (void); void parse_client_statement (struct parse *, struct interface_info *, struct client_config *); int parse_X (struct parse *, u_int8_t *, unsigned); int parse_option_list (struct parse *, struct option ***); void parse_interface_declaration (struct parse *, struct client_config *, char *); int interface_or_dummy (struct interface_info **, const char *); void make_client_state (struct client_state **); void make_client_config (struct client_state *, struct client_config *); void parse_client_lease_statement (struct parse *, int); void parse_client_lease_declaration (struct parse *, struct client_lease *, struct interface_info **, struct client_state **); int parse_option_decl (struct option_cache **, struct parse *); void parse_string_list (struct parse *, struct string_list **, int); int parse_ip_addr (struct parse *, struct iaddr *); int parse_ip_addr_with_subnet(struct parse *, struct iaddrmatch *); void parse_reject_statement (struct parse *, struct client_config *); /* icmp.c */ OMAPI_OBJECT_ALLOC_DECL (icmp_state, struct icmp_state, dhcp_type_icmp) extern struct icmp_state *icmp_state; void icmp_startup (int, void (*) (struct iaddr, u_int8_t *, int)); int icmp_readsocket (omapi_object_t *); int icmp_echorequest (struct iaddr *); isc_result_t icmp_echoreply (omapi_object_t *); /* dns.c */ isc_result_t enter_dns_zone (struct dns_zone *); isc_result_t dns_zone_lookup (struct dns_zone **, const char *); int dns_zone_dereference (struct dns_zone **, const char *, int); #if defined (NSUPDATE) #define FIND_FORWARD 0 #define FIND_REVERSE 1 isc_result_t find_cached_zone (dhcp_ddns_cb_t *, int); void forget_zone (struct dns_zone **); void repudiate_zone (struct dns_zone **); int get_dhcid (dhcp_ddns_cb_t *, int, const u_int8_t *, unsigned); void dhcid_tolease (struct data_string *, struct data_string *); isc_result_t dhcid_fromlease (struct data_string *, struct data_string *); isc_result_t ddns_update_fwd(struct data_string *, struct iaddr, struct data_string *, unsigned long, unsigned, unsigned); isc_result_t ddns_remove_fwd(struct data_string *, struct iaddr, struct data_string *); char *ddns_state_name(int state); #endif /* NSUPDATE */ dhcp_ddns_cb_t *ddns_cb_alloc(const char *file, int line); void ddns_cb_free (dhcp_ddns_cb_t *ddns_cb, const char *file, int line); void ddns_cb_forget_zone (dhcp_ddns_cb_t *ddns_cb); isc_result_t ddns_modify_fwd(dhcp_ddns_cb_t *ddns_cb, const char *file, int line); isc_result_t ddns_modify_ptr(dhcp_ddns_cb_t *ddns_cb, const char *file, int line); void ddns_cancel(dhcp_ddns_cb_t *ddns_cb, const char *file, int line); /* resolv.c */ extern char path_resolv_conf []; extern struct name_server *name_servers; extern struct domain_search_list *domains; void read_resolv_conf (TIME); struct name_server *first_name_server (void); /* inet_addr.c */ #ifdef NEED_INET_ATON int inet_aton (const char *, struct in_addr *); #endif /* class.c */ extern int have_billing_classes; extern struct class unknown_class; extern struct class known_class; extern struct collection default_collection; extern struct collection *collections; extern struct executable_statement *default_classification_rules; void classification_setup (void); void classify_client (struct packet *); int check_collection (struct packet *, struct lease *, struct collection *); void classify (struct packet *, struct class *); isc_result_t unlink_class (struct class **class); isc_result_t find_class (struct class **, const char *, const char *, int); void unbill_class (struct lease *); int bill_class (struct lease *, struct class *); /* execute.c */ int execute_statements (struct binding_value **result, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct executable_statement *, struct on_star *); void execute_statements_in_scope (struct binding_value **result, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct group *, struct group *, struct on_star *); int executable_statement_dereference (struct executable_statement **, const char *, int); void write_statements (FILE *, struct executable_statement *, int); int find_matching_case (struct executable_statement **, struct packet *, struct lease *, struct client_state *, struct option_state *, struct option_state *, struct binding_scope **, struct expression *, struct executable_statement *); int executable_statement_foreach (struct executable_statement *, int (*) (struct executable_statement *, void *, int), void *, int); /* comapi.c */ extern omapi_object_type_t *dhcp_type_group; extern omapi_object_type_t *dhcp_type_shared_network; extern omapi_object_type_t *dhcp_type_subnet; extern omapi_object_type_t *dhcp_type_control; extern dhcp_control_object_t *dhcp_control_object; void dhcp_common_objects_setup (void); isc_result_t dhcp_group_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_group_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_group_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_group_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_group_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_group_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_group_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_group_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_control_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_control_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_control_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_control_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_control_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_control_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_control_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_control_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subnet_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_subnet_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_subnet_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_subnet_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_subnet_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subnet_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subnet_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_subnet_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_shared_network_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_shared_network_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_shared_network_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_shared_network_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_shared_network_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_shared_network_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_shared_network_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_shared_network_remove (omapi_object_t *, omapi_object_t *); /* omapi.c */ extern int (*dhcp_interface_shutdown_hook) (struct interface_info *); extern omapi_object_type_t *dhcp_type_lease; extern omapi_object_type_t *dhcp_type_pool; extern omapi_object_type_t *dhcp_type_class; extern omapi_object_type_t *dhcp_type_subclass; #if defined (FAILOVER_PROTOCOL) extern omapi_object_type_t *dhcp_type_failover_state; extern omapi_object_type_t *dhcp_type_failover_link; extern omapi_object_type_t *dhcp_type_failover_listener; #endif void dhcp_db_objects_setup (void); isc_result_t dhcp_lease_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_lease_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_lease_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_lease_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_lease_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_lease_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_lease_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_lease_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_host_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_host_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_host_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_host_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_host_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_host_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_host_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_host_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_pool_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_pool_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_pool_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_pool_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_pool_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_pool_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_pool_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_pool_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_class_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_class_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_class_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_class_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_class_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_class_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_class_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_class_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subclass_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_subclass_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_subclass_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_subclass_signal_handler (omapi_object_t *, const char *, va_list); isc_result_t dhcp_subclass_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subclass_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_subclass_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_subclass_remove (omapi_object_t *, omapi_object_t *); isc_result_t dhcp_interface_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_interface_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_interface_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_interface_signal_handler (omapi_object_t *, const char *, va_list ap); isc_result_t dhcp_interface_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_interface_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_interface_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_interface_remove (omapi_object_t *, omapi_object_t *); void interface_stash (struct interface_info *); void interface_snorf (struct interface_info *, int); isc_result_t binding_scope_set_value (struct binding_scope *, int, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t binding_scope_get_value (omapi_value_t **, struct binding_scope *, omapi_data_string_t *); isc_result_t binding_scope_stuff_values (omapi_object_t *, struct binding_scope *); void register_eventhandler(struct eventqueue **, void (*handler)(void *)); void unregister_eventhandler(struct eventqueue **, void (*handler)(void *)); void trigger_event(struct eventqueue **); /* mdb.c */ extern struct subnet *subnets; extern struct shared_network *shared_networks; extern host_hash_t *host_hw_addr_hash; extern host_hash_t *host_uid_hash; extern host_hash_t *host_name_hash; extern lease_id_hash_t *lease_uid_hash; extern lease_ip_hash_t *lease_ip_addr_hash; extern lease_id_hash_t *lease_hw_addr_hash; extern omapi_object_type_t *dhcp_type_host; extern int numclasseswritten; isc_result_t enter_class (struct class *, int, int); isc_result_t delete_class (struct class *, int); isc_result_t enter_host (struct host_decl *, int, int); isc_result_t delete_host (struct host_decl *, int); void change_host_uid(struct host_decl *host, const char *data, int len); int find_hosts_by_haddr (struct host_decl **, int, const unsigned char *, unsigned, const char *, int); int find_hosts_by_uid (struct host_decl **, const unsigned char *, unsigned, const char *, int); int find_hosts_by_option(struct host_decl **, struct packet *, struct option_state *, const char *, int); int find_host_for_network (struct subnet **, struct host_decl **, struct iaddr *, struct shared_network *); void new_address_range (struct parse *, struct iaddr, struct iaddr, struct subnet *, struct pool *, struct lease **); isc_result_t dhcp_lease_free (omapi_object_t *, const char *, int); isc_result_t dhcp_lease_get (omapi_object_t **, const char *, int); int find_grouped_subnet (struct subnet **, struct shared_network *, struct iaddr, const char *, int); int find_subnet(struct subnet **, struct iaddr, const char *, int); void enter_shared_network (struct shared_network *); void new_shared_network_interface (struct parse *, struct shared_network *, const char *); int subnet_inner_than(const struct subnet *, const struct subnet *, int); void enter_subnet (struct subnet *); void enter_lease (struct lease *); int supersede_lease (struct lease *, struct lease *, int, int, int, int); void make_binding_state_transition (struct lease *); int lease_copy (struct lease **, struct lease *, const char *, int); void release_lease (struct lease *, struct packet *); void abandon_lease (struct lease *, const char *); #if 0 /* this appears to be unused and I plan to remove it SAR */ void dissociate_lease (struct lease *); #endif void pool_timer (void *); int find_lease_by_uid (struct lease **, const unsigned char *, unsigned, const char *, int); int find_lease_by_hw_addr (struct lease **, const unsigned char *, unsigned, const char *, int); int find_lease_by_ip_addr (struct lease **, struct iaddr, const char *, int); void uid_hash_add (struct lease *); void uid_hash_delete (struct lease *); void hw_hash_add (struct lease *); void hw_hash_delete (struct lease *); int write_leases (void); int write_leases6(void); #if !defined(BINARY_LEASES) void lease_insert(struct lease **, struct lease *); void lease_remove(struct lease **, struct lease *); void lease_remove_all(struct lease **); #endif int lease_enqueue (struct lease *); isc_result_t lease_instantiate(const void *, unsigned, void *); void expire_all_pools (void); void dump_subnets (void); #if defined (DEBUG_MEMORY_LEAKAGE) || \ defined (DEBUG_MEMORY_LEAKAGE_ON_EXIT) void free_everything (void); #endif /* failover.c */ #if defined (FAILOVER_PROTOCOL) extern dhcp_failover_state_t *failover_states; void dhcp_failover_sanity_check (void); void dhcp_failover_startup (void); int dhcp_failover_write_all_states (void); isc_result_t enter_failover_peer (dhcp_failover_state_t *); isc_result_t find_failover_peer (dhcp_failover_state_t **, const char *, const char *, int); isc_result_t dhcp_failover_link_initiate (omapi_object_t *); isc_result_t dhcp_failover_link_signal (omapi_object_t *, const char *, va_list); isc_result_t dhcp_failover_link_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_failover_link_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_failover_link_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_failover_link_stuff_values (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_failover_listen (omapi_object_t *); isc_result_t dhcp_failover_listener_signal (omapi_object_t *, const char *, va_list); isc_result_t dhcp_failover_listener_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); isc_result_t dhcp_failover_listener_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_failover_listener_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_failover_listener_stuff (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_failover_register (omapi_object_t *); isc_result_t dhcp_failover_state_signal (omapi_object_t *, const char *, va_list); isc_result_t dhcp_failover_state_transition (dhcp_failover_state_t *, const char *); isc_result_t dhcp_failover_set_service_state (dhcp_failover_state_t *state); void dhcp_failover_rescind_updates (dhcp_failover_state_t *); isc_result_t dhcp_failover_set_state (dhcp_failover_state_t *, enum failover_state); isc_result_t dhcp_failover_peer_state_changed (dhcp_failover_state_t *, failover_message_t *); void dhcp_failover_pool_rebalance (void *); void dhcp_failover_pool_check (struct pool *); int dhcp_failover_state_pool_check (dhcp_failover_state_t *); void dhcp_failover_timeout (void *); void dhcp_failover_send_contact (void *); isc_result_t dhcp_failover_send_state (dhcp_failover_state_t *); isc_result_t dhcp_failover_send_updates (dhcp_failover_state_t *); int dhcp_failover_queue_update (struct lease *, int); int dhcp_failover_send_acks (dhcp_failover_state_t *); void dhcp_failover_toack_queue_timeout (void *); int dhcp_failover_queue_ack (dhcp_failover_state_t *, failover_message_t *msg); void dhcp_failover_ack_queue_remove (dhcp_failover_state_t *, struct lease *); isc_result_t dhcp_failover_state_set_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_typed_data_t *); void dhcp_failover_keepalive (void *); void dhcp_failover_reconnect (void *); void dhcp_failover_startup_timeout (void *); void dhcp_failover_link_startup_timeout (void *); void dhcp_failover_listener_restart (void *); void dhcp_failover_auto_partner_down(void *vs); isc_result_t dhcp_failover_state_get_value (omapi_object_t *, omapi_object_t *, omapi_data_string_t *, omapi_value_t **); isc_result_t dhcp_failover_state_destroy (omapi_object_t *, const char *, int); isc_result_t dhcp_failover_state_stuff (omapi_object_t *, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_failover_state_lookup (omapi_object_t **, omapi_object_t *, omapi_object_t *); isc_result_t dhcp_failover_state_create (omapi_object_t **, omapi_object_t *); isc_result_t dhcp_failover_state_remove (omapi_object_t *, omapi_object_t *); int dhcp_failover_state_match (dhcp_failover_state_t *, u_int8_t *, unsigned); int dhcp_failover_state_match_by_name(dhcp_failover_state_t *, failover_option_t *); const char *dhcp_failover_reject_reason_print (int); const char *dhcp_failover_state_name_print (enum failover_state); const char *dhcp_failover_message_name (unsigned); const char *dhcp_failover_option_name (unsigned); failover_option_t *dhcp_failover_option_printf (unsigned, char *, unsigned *, unsigned, const char *, ...) __attribute__((__format__(__printf__,5,6))); failover_option_t *dhcp_failover_make_option (unsigned, char *, unsigned *, unsigned, ...); isc_result_t dhcp_failover_put_message (dhcp_failover_link_t *, omapi_object_t *, int, u_int32_t, ...); isc_result_t dhcp_failover_send_connect (omapi_object_t *); isc_result_t dhcp_failover_send_connectack (omapi_object_t *, dhcp_failover_state_t *, int, const char *); isc_result_t dhcp_failover_send_disconnect (omapi_object_t *, int, const char *); isc_result_t dhcp_failover_send_bind_update (dhcp_failover_state_t *, struct lease *); isc_result_t dhcp_failover_send_bind_ack (dhcp_failover_state_t *, failover_message_t *, int, const char *); isc_result_t dhcp_failover_send_poolreq (dhcp_failover_state_t *); isc_result_t dhcp_failover_send_poolresp (dhcp_failover_state_t *, int); isc_result_t dhcp_failover_send_update_request (dhcp_failover_state_t *); isc_result_t dhcp_failover_send_update_request_all (dhcp_failover_state_t *); isc_result_t dhcp_failover_send_update_done (dhcp_failover_state_t *); isc_result_t dhcp_failover_process_bind_update (dhcp_failover_state_t *, failover_message_t *); isc_result_t dhcp_failover_process_bind_ack (dhcp_failover_state_t *, failover_message_t *); isc_result_t dhcp_failover_generate_update_queue (dhcp_failover_state_t *, int); isc_result_t dhcp_failover_process_update_request (dhcp_failover_state_t *, failover_message_t *); isc_result_t dhcp_failover_process_update_request_all (dhcp_failover_state_t *, failover_message_t *); isc_result_t dhcp_failover_process_update_done (dhcp_failover_state_t *, failover_message_t *); void ia_remove_all_lease(struct ia_xx *ia, const char *file, int line); void dhcp_failover_recover_done (void *); void failover_print (char *, unsigned *, unsigned, const char *); void update_partner (struct lease *); int load_balance_mine (struct packet *, dhcp_failover_state_t *); int peer_wants_lease (struct lease *); binding_state_t normal_binding_state_transition_check (struct lease *, dhcp_failover_state_t *, binding_state_t, u_int32_t); binding_state_t conflict_binding_state_transition_check (struct lease *, dhcp_failover_state_t *, binding_state_t, u_int32_t); int lease_mine_to_reallocate (struct lease *); OMAPI_OBJECT_ALLOC_DECL (dhcp_failover_state, dhcp_failover_state_t, dhcp_type_failover_state) OMAPI_OBJECT_ALLOC_DECL (dhcp_failover_listener, dhcp_failover_listener_t, dhcp_type_failover_listener) OMAPI_OBJECT_ALLOC_DECL (dhcp_failover_link, dhcp_failover_link_t, dhcp_type_failover_link) #endif /* FAILOVER_PROTOCOL */ const char *binding_state_print (enum failover_state); /* ldap.c */ #if defined(LDAP_CONFIGURATION) extern struct enumeration ldap_methods; #if defined (LDAP_USE_SSL) extern struct enumeration ldap_ssl_usage_enum; extern struct enumeration ldap_tls_reqcert_enum; extern struct enumeration ldap_tls_crlcheck_enum; #endif isc_result_t ldap_read_config (void); int find_haddr_in_ldap (struct host_decl **, int, unsigned, const unsigned char *, const char *, int); int find_subclass_in_ldap (struct class *, struct class **, struct data_string *); int find_client_in_ldap (struct host_decl **, struct packet*, struct option_state *, const char *, int); #endif /* mdb6.c */ HASH_FUNCTIONS_DECL(ia, unsigned char *, struct ia_xx, ia_hash_t) HASH_FUNCTIONS_DECL(iasubopt, struct in6_addr *, struct iasubopt, iasubopt_hash_t) isc_result_t iasubopt_allocate(struct iasubopt **iasubopt, const char *file, int line); isc_result_t iasubopt_reference(struct iasubopt **iasubopt, struct iasubopt *src, const char *file, int line); isc_result_t iasubopt_dereference(struct iasubopt **iasubopt, const char *file, int line); isc_result_t ia_make_key(struct data_string *key, u_int32_t iaid, const char *duid, unsigned int duid_len, const char *file, int line); isc_result_t ia_allocate(struct ia_xx **ia, u_int32_t iaid, const char *duid, unsigned int duid_len, const char *file, int line); isc_result_t ia_reference(struct ia_xx **ia, struct ia_xx *src, const char *file, int line); isc_result_t ia_dereference(struct ia_xx **ia, const char *file, int line); isc_result_t ia_add_iasubopt(struct ia_xx *ia, struct iasubopt *iasubopt, const char *file, int line); void ia_remove_iasubopt(struct ia_xx *ia, struct iasubopt *iasubopt, const char *file, int line); isc_boolean_t ia_equal(const struct ia_xx *a, const struct ia_xx *b); isc_result_t ipv6_pool_allocate(struct ipv6_pool **pool, u_int16_t type, const struct in6_addr *start_addr, int bits, int units, const char *file, int line); isc_result_t ipv6_pool_reference(struct ipv6_pool **pool, struct ipv6_pool *src, const char *file, int line); isc_result_t ipv6_pool_dereference(struct ipv6_pool **pool, const char *file, int line); isc_result_t create_lease6(struct ipv6_pool *pool, struct iasubopt **addr, unsigned int *attempts, const struct data_string *uid, time_t soft_lifetime_end_time); #ifdef EUI_64 int valid_eui_64_duid(const struct data_string* uid, int duid_beg); int valid_for_eui_64_pool(struct ipv6_pool*, struct data_string* uid, int duid_beg, struct in6_addr* ia_addr); isc_result_t create_lease6_eui_64(struct ipv6_pool *pool, struct iasubopt **addr, const struct data_string *iaid_uid, time_t soft_lifetime_end_time); #endif isc_result_t add_lease6(struct ipv6_pool *pool, struct iasubopt *lease, time_t valid_lifetime_end_time); isc_result_t renew_lease6(struct ipv6_pool *pool, struct iasubopt *lease); isc_result_t expire_lease6(struct iasubopt **leasep, struct ipv6_pool *pool, time_t now); isc_result_t release_lease6(struct ipv6_pool *pool, struct iasubopt *lease); isc_result_t decline_lease6(struct ipv6_pool *pool, struct iasubopt *lease); isc_boolean_t lease6_exists(const struct ipv6_pool *pool, const struct in6_addr *addr); isc_boolean_t lease6_usable(struct iasubopt *lease); isc_result_t cleanup_lease6(ia_hash_t *ia_table, struct ipv6_pool *pool, struct iasubopt *lease, struct ia_xx *ia); isc_result_t mark_lease_unavailble(struct ipv6_pool *pool, const struct in6_addr *addr); isc_result_t create_prefix6(struct ipv6_pool *pool, struct iasubopt **pref, unsigned int *attempts, const struct data_string *uid, time_t soft_lifetime_end_time); isc_boolean_t prefix6_exists(const struct ipv6_pool *pool, const struct in6_addr *pref, u_int8_t plen); isc_result_t add_ipv6_pool(struct ipv6_pool *pool); isc_result_t find_ipv6_pool(struct ipv6_pool **pool, u_int16_t type, const struct in6_addr *addr); isc_boolean_t ipv6_in_pool(const struct in6_addr *addr, const struct ipv6_pool *pool); isc_result_t ipv6_pond_allocate(struct ipv6_pond **pond, const char *file, int line); isc_result_t ipv6_pond_reference(struct ipv6_pond **pond, struct ipv6_pond *src, const char *file, int line); isc_result_t ipv6_pond_dereference(struct ipv6_pond **pond, const char *file, int line); isc_result_t renew_leases(struct ia_xx *ia); isc_result_t release_leases(struct ia_xx *ia); isc_result_t decline_leases(struct ia_xx *ia); void schedule_lease_timeout(struct ipv6_pool *pool); void schedule_all_ipv6_lease_timeouts(void); void mark_hosts_unavailable(void); void mark_phosts_unavailable(void); void mark_interfaces_unavailable(void); void report_jumbo_ranges(void); #if defined(DHCPv6) int find_hosts6(struct host_decl** host, struct packet* packet, const struct data_string* client_id, char* file, int line); #endif #if defined (BINARY_LEASES) /* leasechain.c */ int lc_not_empty(struct leasechain *lc); void lc_add_sorted_lease(struct leasechain *lc, struct lease *lp); void lc_unlink_lease(struct leasechain *lc, struct lease *lp); struct lease *lc_get_first_lease(struct leasechain *lc); struct lease *lc_get_next(struct leasechain *lc, struct lease *lp); void lc_init_growth(struct leasechain *lc, size_t growth); void lc_delete_all(struct leasechain *lc); #endif /* BINARY_LEASES */ #define MAX_ADDRESS_STRING_LEN \ (sizeof("ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255")) typedef struct libdhcp_callbacks { uint16_t *local_port; uint16_t *remote_port; void (*classify) (struct packet *, struct class *); int (*check_collection) (struct packet *, struct lease *, struct collection *); void (*dhcp) (struct packet *); #ifdef DHCPv6 void (*dhcpv6) (struct packet *); #endif /* DHCPv6 */ void (*bootp) (struct packet *); isc_result_t (*find_class) (struct class **, const char *, const char *, int); int (*parse_allow_deny) (struct option_cache **, struct parse *, int); isc_result_t (*dhcp_set_control_state) (control_object_state_t, control_object_state_t); } libdhcp_callbacks_t; extern libdhcp_callbacks_t libdhcp_callbacks; void libdhcp_callbacks_register(libdhcp_callbacks_t *); /* Find the percentage of count. We need to try two different * ways to avoid rounding mistakes. */ #define FIND_PERCENT(count, percent) \ ((count) > (INT_MAX / 100) ? \ ((count) / 100) * (percent) : ((count) * (percent)) / 100) #define FIND_POND6_PERCENT(count, percent) \ ((count) > (POND_TRACK_MAX / 100) ? \ ((count) / 100) * (percent) : ((count) * (percent)) / 100)