wownero/external/unbound/iterator/iterator.h
Erik de Castro Lopo a85b5759f3 Upgrade unbound library
These files were pulled from the 1.6.3 release tarball.

This new version builds against OpenSSL version 1.1 which will be
the default in the new Debian Stable which is due to be released
RealSoonNow (tm).
2017-06-17 23:04:00 +10:00

449 lines
14 KiB
C

/*
* iterator/iterator.h - iterative resolver DNS query response module
*
* Copyright (c) 2007, NLnet Labs. All rights reserved.
*
* This software is open source.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of the NLNET LABS nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/**
* \file
*
* This file contains a module that performs recusive iterative DNS query
* processing.
*/
#ifndef ITERATOR_ITERATOR_H
#define ITERATOR_ITERATOR_H
#include "services/outbound_list.h"
#include "util/data/msgreply.h"
#include "util/module.h"
struct delegpt;
struct iter_hints;
struct iter_forwards;
struct iter_donotq;
struct iter_prep_list;
struct iter_priv;
struct rbtree_type;
/** max number of targets spawned for a query and its subqueries */
#define MAX_TARGET_COUNT 64
/** max number of query restarts. Determines max number of CNAME chain. */
#define MAX_RESTART_COUNT 8
/** max number of referrals. Makes sure resolver does not run away */
#define MAX_REFERRAL_COUNT 130
/** max number of queries-sent-out. Make sure large NS set does not loop */
#define MAX_SENT_COUNT 32
/** max number of queries for which to perform dnsseclameness detection,
* (rrsigs misssing detection) after that, just pick up that response */
#define DNSSEC_LAME_DETECT_COUNT 4
/**
* max number of QNAME minimisation iterations. Limits number of queries for
* QNAMEs with a lot of labels.
*/
#define MAX_MINIMISE_COUNT 10
/* max number of time-outs for minimised query. Prevents resolving failures
* when the QNAME minimisation QTYPE is blocked. */
#define MAX_MINIMISE_TIMEOUT_COUNT 3
/**
* number of labels from QNAME that are always send individually when using
* QNAME minimisation, even when the number of labels of the QNAME is bigger
* tham MAX_MINIMISE_COUNT */
#define MINIMISE_ONE_LAB 4
#define MINIMISE_MULTIPLE_LABS (MAX_MINIMISE_COUNT - MINIMISE_ONE_LAB)
/** at what query-sent-count to stop target fetch policy */
#define TARGET_FETCH_STOP 3
/** how nice is a server without further information, in msec
* Equals rtt initial timeout value.
*/
#define UNKNOWN_SERVER_NICENESS 376
/** maximum timeout before a host is deemed unsuitable, in msec.
* After host_ttl this will be timed out and the host will be tried again.
* Equals RTT_MAX_TIMEOUT
*/
#define USEFUL_SERVER_TOP_TIMEOUT 120000
/** number of retries on outgoing queries */
#define OUTBOUND_MSG_RETRY 5
/** RTT band, within this amount from the best, servers are chosen randomly.
* Chosen so that the UNKNOWN_SERVER_NICENESS falls within the band of a
* fast server, this causes server exploration as a side benefit. msec. */
#define RTT_BAND 400
/** Start value for blacklisting a host, 2*USEFUL_SERVER_TOP_TIMEOUT in sec */
#define INFRA_BACKOFF_INITIAL 240
/**
* Global state for the iterator.
*/
struct iter_env {
/** A flag to indicate whether or not we have an IPv6 route */
int supports_ipv6;
/** A flag to indicate whether or not we have an IPv4 route */
int supports_ipv4;
/** A set of inetaddrs that should never be queried. */
struct iter_donotq* donotq;
/** private address space and private domains */
struct iter_priv* priv;
/** whitelist for capsforid names */
struct rbtree_type* caps_white;
/** The maximum dependency depth that this resolver will pursue. */
int max_dependency_depth;
/**
* The target fetch policy for each dependency level. This is
* described as a simple number (per dependency level):
* negative numbers (usually just -1) mean fetch-all,
* 0 means only fetch on demand, and
* positive numbers mean to fetch at most that many targets.
* array of max_dependency_depth+1 size.
*/
int* target_fetch_policy;
/** ip6.arpa dname in wireformat, used for qname-minimisation */
uint8_t* ip6arpa_dname;
};
/**
* QNAME minimisation state
*/
enum minimisation_state {
/**
* (Re)start minimisation. Outgoing QNAME should be set to dp->name.
* State entered on new query or after following refferal or CNAME.
*/
INIT_MINIMISE_STATE = 0,
/**
* QNAME minimisataion ongoing. Increase QNAME on every iteration.
*/
MINIMISE_STATE,
/**
* Don't increment QNAME this iteration
*/
SKIP_MINIMISE_STATE,
/**
* Send out full QNAME + original QTYPE
*/
DONOT_MINIMISE_STATE,
};
/**
* State of the iterator for a query.
*/
enum iter_state {
/**
* Externally generated queries start at this state. Query restarts are
* reset to this state.
*/
INIT_REQUEST_STATE = 0,
/**
* Root priming events reactivate here, most other events pass
* through this naturally as the 2nd part of the INIT_REQUEST_STATE.
*/
INIT_REQUEST_2_STATE,
/**
* Stub priming events reactivate here, most other events pass
* through this naturally as the 3rd part of the INIT_REQUEST_STATE.
*/
INIT_REQUEST_3_STATE,
/**
* Each time a delegation point changes for a given query or a
* query times out and/or wakes up, this state is (re)visited.
* This state is reponsible for iterating through a list of
* nameserver targets.
*/
QUERYTARGETS_STATE,
/**
* Responses to queries start at this state. This state handles
* the decision tree associated with handling responses.
*/
QUERY_RESP_STATE,
/** Responses to priming queries finish at this state. */
PRIME_RESP_STATE,
/** Collecting query class information, for qclass=ANY, when
* it spawns off queries for every class, it returns here. */
COLLECT_CLASS_STATE,
/** Find NS record to resolve DS record from, walking to the right
* NS spot until we find it */
DSNS_FIND_STATE,
/** Responses that are to be returned upstream end at this state.
* As well as responses to target queries. */
FINISHED_STATE
};
/**
* Per query state for the iterator module.
*/
struct iter_qstate {
/**
* State of the iterator module.
* This is the state that event is in or should sent to -- all
* requests should start with the INIT_REQUEST_STATE. All
* responses should start with QUERY_RESP_STATE. Subsequent
* processing of the event will change this state.
*/
enum iter_state state;
/**
* Final state for the iterator module.
* This is the state that responses should be routed to once the
* response is final. For externally initiated queries, this
* will be FINISHED_STATE, locally initiated queries will have
* different final states.
*/
enum iter_state final_state;
/**
* The depth of this query, this means the depth of recursion.
* This address is needed for another query, which is an address
* needed for another query, etc. Original client query has depth 0.
*/
int depth;
/**
* The response
*/
struct dns_msg* response;
/**
* This is a list of RRsets that must be prepended to the
* ANSWER section of a response before being sent upstream.
*/
struct iter_prep_list* an_prepend_list;
/** Last element of the prepend list */
struct iter_prep_list* an_prepend_last;
/**
* This is the list of RRsets that must be prepended to the
* AUTHORITY section of the response before being sent upstream.
*/
struct iter_prep_list* ns_prepend_list;
/** Last element of the authority prepend list */
struct iter_prep_list* ns_prepend_last;
/** query name used for chasing the results. Initially the same as
* the state qinfo, but after CNAMEs this will be different.
* The query info used to elicit the results needed. */
struct query_info qchase;
/** query flags to use when chasing the answer (i.e. RD flag) */
uint16_t chase_flags;
/** true if we set RD bit because of last resort recursion lame query*/
int chase_to_rd;
/**
* This is the current delegation point for an in-progress query. This
* object retains state as to which delegation targets need to be
* (sub)queried for vs which ones have already been visited.
*/
struct delegpt* dp;
/** state for 0x20 fallback when capsfail happens, 0 not a fallback */
int caps_fallback;
/** state for capsfail: current server number to try */
size_t caps_server;
/** state for capsfail: stored query for comparisons. Can be NULL if
* no response had been seen prior to starting the fallback. */
struct reply_info* caps_reply;
struct dns_msg* caps_response;
/** Current delegation message - returned for non-RD queries */
struct dns_msg* deleg_msg;
/** number of outstanding target sub queries */
int num_target_queries;
/** outstanding direct queries */
int num_current_queries;
/** the number of times this query has been restarted. */
int query_restart_count;
/** the number of times this query as followed a referral. */
int referral_count;
/** number of queries fired off */
int sent_count;
/** number of target queries spawned in [1], for this query and its
* subqueries, the malloced-array is shared, [0] refcount. */
int* target_count;
/** if true, already tested for ratelimiting and passed the test */
int ratelimit_ok;
/**
* The query must store NS records from referrals as parentside RRs
* Enabled once it hits resolution problems, to throttle retries.
* If enabled it is the pointer to the old delegation point with
* the old retry counts for bad-nameserver-addresses.
*/
struct delegpt* store_parent_NS;
/**
* The query is for parent-side glue(A or AAAA) for a nameserver.
* If the item is seen as glue in a referral, and pside_glue is NULL,
* then it is stored in pside_glue for later.
* If it was never seen, at the end, then a negative caching element
* must be created.
* The (data or negative) RR cache element then throttles retries.
*/
int query_for_pside_glue;
/** the parent-side-glue element (NULL if none, its first match) */
struct ub_packed_rrset_key* pside_glue;
/** If nonNULL we are walking upwards from DS query to find NS */
uint8_t* dsns_point;
/** length of the dname in dsns_point */
size_t dsns_point_len;
/**
* expected dnssec information for this iteration step.
* If dnssec rrsigs are expected and not given, the server is marked
* lame (dnssec-lame).
*/
int dnssec_expected;
/**
* We are expecting dnssec information, but we also know the server
* is DNSSEC lame. The response need not be marked dnssec-lame again.
*/
int dnssec_lame_query;
/**
* This is flag that, if true, means that this event is
* waiting for a stub priming query.
*/
int wait_priming_stub;
/**
* This is a flag that, if true, means that this query is
* for (re)fetching glue from a zone. Since the address should
* have been glue, query again to the servers that should have
* been returning it as glue.
* The delegation point must be set to the one that should *not*
* be used when creating the state. A higher one will be attempted.
*/
int refetch_glue;
/** list of pending queries to authoritative servers. */
struct outbound_list outlist;
/** QNAME minimisation state, RFC7816 */
enum minimisation_state minimisation_state;
/**
* The query info that is sent upstream. Will be a subset of qchase
* when qname minimisation is enabled.
*/
struct query_info qinfo_out;
/**
* Count number of QNAME minisation iterations. Used to limit number of
* outgoing queries when QNAME minimisation is enabled.
*/
int minimise_count;
/**
* Count number of time-outs. Used to prevent resolving failures when
* the QNAME minimisation QTYPE is blocked. */
int minimise_timeout_count;
};
/**
* List of prepend items
*/
struct iter_prep_list {
/** next in list */
struct iter_prep_list* next;
/** rrset */
struct ub_packed_rrset_key* rrset;
};
/**
* Get the iterator function block.
* @return: function block with function pointers to iterator methods.
*/
struct module_func_block* iter_get_funcblock(void);
/**
* Get iterator state as a string
* @param state: to convert
* @return constant string that is printable.
*/
const char* iter_state_to_string(enum iter_state state);
/**
* See if iterator state is a response state
* @param s: to inspect
* @return true if response state.
*/
int iter_state_is_responsestate(enum iter_state s);
/** iterator init */
int iter_init(struct module_env* env, int id);
/** iterator deinit */
void iter_deinit(struct module_env* env, int id);
/** iterator operate on a query */
void iter_operate(struct module_qstate* qstate, enum module_ev event, int id,
struct outbound_entry* outbound);
/**
* Return priming query results to interestes super querystates.
*
* Sets the delegation point and delegation message (not nonRD queries).
* This is a callback from walk_supers.
*
* @param qstate: query state that finished.
* @param id: module id.
* @param super: the qstate to inform.
*/
void iter_inform_super(struct module_qstate* qstate, int id,
struct module_qstate* super);
/** iterator cleanup query state */
void iter_clear(struct module_qstate* qstate, int id);
/** iterator alloc size routine */
size_t iter_get_mem(struct module_env* env, int id);
#endif /* ITERATOR_ITERATOR_H */