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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).
779 lines
28 KiB
C
779 lines
28 KiB
C
/*
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* util/module.h - DNS handling module interface
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*
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* Copyright (c) 2007, NLnet Labs. All rights reserved.
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*
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* This software is open source.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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*
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* Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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*
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* Neither the name of the NLNET LABS nor the names of its contributors may
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* be used to endorse or promote products derived from this software without
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* specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
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* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/**
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* \file
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*
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* This file contains the interface for DNS handling modules.
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*
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* The module interface uses the DNS modules as state machines. The
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* state machines are activated in sequence to operate on queries. Once
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* they are done, the reply is passed back. In the usual setup the mesh
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* is the caller of the state machines and once things are done sends replies
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* and invokes result callbacks.
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*
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* The module provides a number of functions, listed in the module_func_block.
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* The module is inited and destroyed and memory usage queries, for the
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* module as a whole, for entire-module state (such as a cache). And per-query
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* functions are called, operate to move the state machine and cleanup of
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* the per-query state.
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*
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* Most per-query state should simply be allocated in the query region.
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* This is destroyed at the end of the query.
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*
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* The module environment contains services and information and caches
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* shared by the modules and the rest of the system. It also contains
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* function pointers for module-specific tasks (like sending queries).
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*
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* *** Example module calls for a normal query
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*
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* In this example, the query does not need recursion, all the other data
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* can be found in the cache. This makes the example shorter.
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*
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* At the start of the program the iterator module is initialised.
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* The iterator module sets up its global state, such as donotquery lists
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* and private address trees.
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*
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* A query comes in, and a mesh entry is created for it. The mesh
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* starts the resolution process. The validator module is the first
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* in the list of modules, and it is started on this new query. The
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* operate() function is called. The validator decides it needs not do
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* anything yet until there is a result and returns wait_module, that
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* causes the next module in the list to be started.
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*
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* The next module is the iterator. It is started on the passed query and
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* decides to perform a lookup. For this simple example, the delegation
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* point information is available, and all the iterator wants to do is
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* send a UDP query. The iterator uses env.send_query() to send the
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* query. Then the iterator suspends (returns from the operate call).
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*
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* When the UDP reply comes back (and on errors and timeouts), the
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* operate function is called for the query, on the iterator module,
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* with the event that there is a reply. The iterator decides that this
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* is enough, the work is done. It returns the value finished from the
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* operate call, which causes the previous module to be started.
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*
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* The previous module, the validator module, is started with the event
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* that the iterator module is done. The validator decides to validate
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* the query. Once it is done (which could take recursive lookups, but
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* in this example no recursive lookups are needed), it returns from the
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* operate function with finished.
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*
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* There is no previous module from the validator module, and the mesh
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* takes this to mean that the query is finally done. The mesh invokes
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* callbacks and sends packets to queriers.
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*
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* If other modules had been waiting (recursively) on the answer to this
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* query, then the mesh will tell them about it. It calls the inform_super
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* routine on all the waiting modules, and once that is done it calls all of
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* them with the operate() call. During inform_super the query that is done
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* still exists and information can be copied from it (but the module should
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* not really re-entry codepoints and services). During the operate call
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* the modules can use stored state to continue operation with the results.
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* (network buffers are used to contain the answer packet during the
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* inform_super phase, but after that the network buffers will be cleared
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* of their contents so that other tasks can be performed).
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*
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* *** Example module calls for recursion
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*
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* A module is called in operate, and it decides that it wants to perform
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* recursion. That is, it wants the full state-machine-list to operate on
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* a different query. It calls env.attach_sub() to create a new query state.
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* The routine returns the newly created state, and potentially the module
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* can edit the module-states for the newly created query (i.e. pass along
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* some information, like delegation points). The module then suspends,
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* returns from the operate routine.
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*
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* The mesh meanwhile will have the newly created query (or queries) on
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* a waiting list, and will call operate() on this query (or queries).
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* It starts again at the start of the module list for them. The query
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* (or queries) continue to operate their state machines, until they are
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* done. When they are done the mesh calls inform_super on the module that
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* wanted the recursion. After that the mesh calls operate() on the module
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* that wanted to do the recursion, and during this phase the module could,
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* for example, decide to create more recursions.
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*
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* If the module decides it no longer wants the recursive information
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* it can call detach_subs. Those queries will still run to completion,
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* potentially filling the cache with information. Inform_super is not
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* called any more.
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*
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* The iterator module will fetch items from the cache, so a recursion
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* attempt may complete very quickly if the item is in cache. The calling
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* module has to wait for completion or eventual timeout. A recursive query
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* that times out returns a servfail rcode (servfail is also returned for
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* other errors during the lookup).
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*
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* Results are passed in the qstate, the rcode member is used to pass
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* errors without requiring memory allocation, so that the code can continue
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* in out-of-memory conditions. If the rcode member is 0 (NOERROR) then
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* the dns_msg entry contains a filled out message. This message may
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* also contain an rcode that is nonzero, but in this case additional
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* information (query, additional) can be passed along.
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*
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* The rcode and dns_msg are used to pass the result from the the rightmost
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* module towards the leftmost modules and then towards the user.
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*
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* If you want to avoid recursion-cycles where queries need other queries
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* that need the first one, use detect_cycle() to see if that will happen.
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*
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*/
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#ifndef UTIL_MODULE_H
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#define UTIL_MODULE_H
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#include "util/storage/lruhash.h"
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#include "util/data/msgreply.h"
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#include "util/data/msgparse.h"
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struct sldns_buffer;
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struct alloc_cache;
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struct rrset_cache;
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struct key_cache;
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struct config_file;
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struct slabhash;
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struct query_info;
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struct edns_data;
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struct regional;
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struct worker;
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struct module_qstate;
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struct ub_randstate;
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struct mesh_area;
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struct mesh_state;
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struct val_anchors;
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struct val_neg_cache;
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struct iter_forwards;
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struct iter_hints;
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struct respip_set;
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struct respip_client_info;
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struct respip_addr_info;
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/** Maximum number of modules in operation */
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#define MAX_MODULE 16
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/** Maximum number of known edns options */
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#define MAX_KNOWN_EDNS_OPTS 256
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enum inplace_cb_list_type {
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/* Inplace callbacks for when a resolved reply is ready to be sent to the
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* front.*/
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inplace_cb_reply = 0,
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/* Inplace callbacks for when a reply is given from the cache. */
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inplace_cb_reply_cache,
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/* Inplace callbacks for when a reply is given with local data
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* (or Chaos reply). */
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inplace_cb_reply_local,
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/* Inplace callbacks for when the reply is servfail. */
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inplace_cb_reply_servfail,
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/* Inplace callbacks for when a query is ready to be sent to the back.*/
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inplace_cb_query,
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/* Inplace callback for when a reply is received from the back. */
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inplace_cb_query_response,
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/* Inplace callback for when EDNS is parsed on a reply received from the
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* back. */
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inplace_cb_edns_back_parsed,
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/* Total number of types. Used for array initialization.
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* Should always be last. */
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inplace_cb_types_total
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};
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/** Known edns option. Can be populated during modules' init. */
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struct edns_known_option {
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/** type of this edns option */
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uint16_t opt_code;
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/** whether the option needs to bypass the cache stage */
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int bypass_cache_stage;
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/** whether the option needs mesh aggregation */
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int no_aggregation;
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};
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/**
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* Inplace callback list of registered routines to be called.
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*/
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struct inplace_cb {
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/** next in list */
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struct inplace_cb* next;
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/** Inplace callback routine */
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void* cb;
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void* cb_arg;
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/** module id */
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int id;
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};
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/**
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* Inplace callback function called before replying.
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* Called as func(edns, qstate, opt_list_out, qinfo, reply_info, rcode,
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* region, python_callback)
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* Where:
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* qinfo: the query info.
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* qstate: the module state. NULL when calling before the query reaches the
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* mesh states.
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* rep: reply_info. Could be NULL.
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* rcode: the return code.
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* edns: the edns_data of the reply. When qstate is NULL, it is also used as
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* the edns input.
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* opt_list_out: the edns options list for the reply.
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* region: region to store data.
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* python_callback: only used for registering a python callback function.
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*/
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typedef int inplace_cb_reply_func_type(struct query_info* qinfo,
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struct module_qstate* qstate, struct reply_info* rep, int rcode,
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struct edns_data* edns, struct edns_option** opt_list_out,
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struct regional* region, int id, void* callback);
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/**
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* Inplace callback function called before sending the query to a nameserver.
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* Called as func(qinfo, flags, qstate, addr, addrlen, zone, zonelen, region,
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* python_callback)
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* Where:
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* qinfo: query info.
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* flags: flags of the query.
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* qstate: query state.
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* addr: to which server to send the query.
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* addrlen: length of addr.
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* zone: name of the zone of the delegation point. wireformat dname.
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* This is the delegation point name for which the server is deemed
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* authoritative.
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* zonelen: length of zone.
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* region: region to store data.
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* python_callback: only used for registering a python callback function.
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*/
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typedef int inplace_cb_query_func_type(struct query_info* qinfo, uint16_t flags,
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struct module_qstate* qstate, struct sockaddr_storage* addr,
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socklen_t addrlen, uint8_t* zone, size_t zonelen, struct regional* region,
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int id, void* callback);
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/**
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* Inplace callback function called after parsing edns on query reply.
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* Called as func(qstate, cb_args)
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* Where:
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* qstate: the query state
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* id: module id
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* cb_args: argument passed when registering callback.
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*/
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typedef int inplace_cb_edns_back_parsed_func_type(struct module_qstate* qstate,
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int id, void* cb_args);
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/**
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* Inplace callback function called after parsing query response.
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* Called as func(qstate, id, cb_args)
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* Where:
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* qstate: the query state
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* response: query response
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* id: module id
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* cb_args: argument passed when registering callback.
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*/
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typedef int inplace_cb_query_response_func_type(struct module_qstate* qstate,
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struct dns_msg* response, int id, void* cb_args);
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/**
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* Module environment.
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* Services and data provided to the module.
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*/
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struct module_env {
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/* --- data --- */
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/** config file with config options */
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struct config_file* cfg;
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/** shared message cache */
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struct slabhash* msg_cache;
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/** shared rrset cache */
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struct rrset_cache* rrset_cache;
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/** shared infrastructure cache (edns, lameness) */
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struct infra_cache* infra_cache;
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/** shared key cache */
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struct key_cache* key_cache;
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/* --- services --- */
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/**
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* Send serviced DNS query to server. UDP/TCP and EDNS is handled.
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* operate() should return with wait_reply. Later on a callback
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* will cause operate() to be called with event timeout or reply.
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* The time until a timeout is calculated from roundtrip timing,
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* several UDP retries are attempted.
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* @param qinfo: query info.
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* @param flags: host order flags word, with opcode and CD bit.
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* @param dnssec: if set, EDNS record will have bits set.
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* If EDNS_DO bit is set, DO bit is set in EDNS records.
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* If BIT_CD is set, CD bit is set in queries with EDNS records.
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* @param want_dnssec: if set, the validator wants DNSSEC. Without
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* EDNS, the answer is likely to be useless for this domain.
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* @param nocaps: do not use caps_for_id, use the qname as given.
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* (ignored if caps_for_id is disabled).
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* @param addr: where to.
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* @param addrlen: length of addr.
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* @param zone: delegation point name.
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* @param zonelen: length of zone name.
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* @param ssl_upstream: use SSL for upstream queries.
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* @param q: wich query state to reactivate upon return.
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* @return: false on failure (memory or socket related). no query was
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* sent. Or returns an outbound entry with qsent and qstate set.
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* This outbound_entry will be used on later module invocations
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* that involve this query (timeout, error or reply).
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*/
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struct outbound_entry* (*send_query)(struct query_info* qinfo,
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uint16_t flags, int dnssec, int want_dnssec, int nocaps,
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struct sockaddr_storage* addr, socklen_t addrlen,
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uint8_t* zone, size_t zonelen, int ssl_upstream,
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struct module_qstate* q);
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/**
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* Detach-subqueries.
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* Remove all sub-query references from this query state.
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* Keeps super-references of those sub-queries correct.
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* Updates stat items in mesh_area structure.
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* @param qstate: used to find mesh state.
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*/
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void (*detach_subs)(struct module_qstate* qstate);
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/**
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* Attach subquery.
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* Creates it if it does not exist already.
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* Keeps sub and super references correct.
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* Updates stat items in mesh_area structure.
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* Pass if it is priming query or not.
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* return:
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* o if error (malloc) happened.
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* o need to initialise the new state (module init; it is a new state).
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* so that the next run of the query with this module is successful.
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* o no init needed, attachment successful.
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*
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* @param qstate: the state to find mesh state, and that wants to
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* receive the results from the new subquery.
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* @param qinfo: what to query for (copied).
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* @param qflags: what flags to use (RD, CD flag or not).
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* @param prime: if it is a (stub) priming query.
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* @param valrec: validation lookup recursion, does not need validation
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* @param newq: If the new subquery needs initialisation, it is
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* returned, otherwise NULL is returned.
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* @return: false on error, true if success (and init may be needed).
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*/
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int (*attach_sub)(struct module_qstate* qstate,
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struct query_info* qinfo, uint16_t qflags, int prime,
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int valrec, struct module_qstate** newq);
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/**
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* Kill newly attached sub. If attach_sub returns newq for
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* initialisation, but that fails, then this routine will cleanup and
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* delete the fresly created sub.
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* @param newq: the new subquery that is no longer needed.
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* It is removed.
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*/
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void (*kill_sub)(struct module_qstate* newq);
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/**
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* Detect if adding a dependency for qstate on name,type,class will
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* create a dependency cycle.
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* @param qstate: given mesh querystate.
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* @param qinfo: query info for dependency.
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* @param flags: query flags of dependency, RD/CD flags.
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* @param prime: if dependency is a priming query or not.
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* @param valrec: validation lookup recursion, does not need validation
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* @return true if the name,type,class exists and the given
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* qstate mesh exists as a dependency of that name. Thus
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* if qstate becomes dependent on name,type,class then a
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* cycle is created.
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*/
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int (*detect_cycle)(struct module_qstate* qstate,
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struct query_info* qinfo, uint16_t flags, int prime,
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int valrec);
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/** region for temporary usage. May be cleared after operate() call. */
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struct regional* scratch;
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/** buffer for temporary usage. May be cleared after operate() call. */
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struct sldns_buffer* scratch_buffer;
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/** internal data for daemon - worker thread. */
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struct worker* worker;
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/** mesh area with query state dependencies */
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struct mesh_area* mesh;
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/** allocation service */
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struct alloc_cache* alloc;
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/** random table to generate random numbers */
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struct ub_randstate* rnd;
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/** time in seconds, converted to integer */
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time_t* now;
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/** time in microseconds. Relatively recent. */
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struct timeval* now_tv;
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/** is validation required for messages, controls client-facing
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* validation status (AD bits) and servfails */
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int need_to_validate;
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/** trusted key storage; these are the configured keys, if not NULL,
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* otherwise configured by validator. These are the trust anchors,
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* and are not primed and ready for validation, but on the bright
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* side, they are read only memory, thus no locks and fast. */
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struct val_anchors* anchors;
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/** negative cache, configured by the validator. if not NULL,
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* contains NSEC record lookup trees. */
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struct val_neg_cache* neg_cache;
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/** the 5011-probe timer (if any) */
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struct comm_timer* probe_timer;
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/** Mapping of forwarding zones to targets.
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* iterator forwarder information. per-thread, created by worker */
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struct iter_forwards* fwds;
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/**
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* iterator forwarder information. per-thread, created by worker.
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* The hints -- these aren't stored in the cache because they don't
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* expire. The hints are always used to "prime" the cache. Note
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* that both root hints and stub zone "hints" are stored in this
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* data structure.
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*/
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struct iter_hints* hints;
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/** module specific data. indexed by module id. */
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void* modinfo[MAX_MODULE];
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/* Shared linked list of inplace callback functions */
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struct inplace_cb* inplace_cb_lists[inplace_cb_types_total];
|
|
|
|
/**
|
|
* Shared array of known edns options (size MAX_KNOWN_EDNS_OPTS).
|
|
* Filled by edns literate modules during init.
|
|
*/
|
|
struct edns_known_option* edns_known_options;
|
|
/* Number of known edns options */
|
|
size_t edns_known_options_num;
|
|
|
|
/* Make every mesh state unique, do not aggregate mesh states. */
|
|
int unique_mesh;
|
|
};
|
|
|
|
/**
|
|
* External visible states of the module state machine
|
|
* Modules may also have an internal state.
|
|
* Modules are supposed to run to completion or until blocked.
|
|
*/
|
|
enum module_ext_state {
|
|
/** initial state - new query */
|
|
module_state_initial = 0,
|
|
/** waiting for reply to outgoing network query */
|
|
module_wait_reply,
|
|
/** module is waiting for another module */
|
|
module_wait_module,
|
|
/** module is waiting for another module; that other is restarted */
|
|
module_restart_next,
|
|
/** module is waiting for sub-query */
|
|
module_wait_subquery,
|
|
/** module could not finish the query */
|
|
module_error,
|
|
/** module is finished with query */
|
|
module_finished
|
|
};
|
|
|
|
/**
|
|
* Events that happen to modules, that start or wakeup modules.
|
|
*/
|
|
enum module_ev {
|
|
/** new query */
|
|
module_event_new = 0,
|
|
/** query passed by other module */
|
|
module_event_pass,
|
|
/** reply inbound from server */
|
|
module_event_reply,
|
|
/** no reply, timeout or other error */
|
|
module_event_noreply,
|
|
/** reply is there, but capitalisation check failed */
|
|
module_event_capsfail,
|
|
/** next module is done, and its reply is awaiting you */
|
|
module_event_moddone,
|
|
/** error */
|
|
module_event_error
|
|
};
|
|
|
|
/**
|
|
* Linked list of sockaddrs
|
|
* May be allocated such that only 'len' bytes of addr exist for the structure.
|
|
*/
|
|
struct sock_list {
|
|
/** next in list */
|
|
struct sock_list* next;
|
|
/** length of addr */
|
|
socklen_t len;
|
|
/** sockaddr */
|
|
struct sockaddr_storage addr;
|
|
};
|
|
|
|
struct respip_action_info;
|
|
|
|
/**
|
|
* Module state, per query.
|
|
*/
|
|
struct module_qstate {
|
|
/** which query is being answered: name, type, class */
|
|
struct query_info qinfo;
|
|
/** flags uint16 from query */
|
|
uint16_t query_flags;
|
|
/** if this is a (stub or root) priming query (with hints) */
|
|
int is_priming;
|
|
/** if this is a validation recursion query that does not get
|
|
* validation itself */
|
|
int is_valrec;
|
|
|
|
/** comm_reply contains server replies */
|
|
struct comm_reply* reply;
|
|
/** the reply message, with message for client and calling module */
|
|
struct dns_msg* return_msg;
|
|
/** the rcode, in case of error, instead of a reply message */
|
|
int return_rcode;
|
|
/** origin of the reply (can be NULL from cache, list for cnames) */
|
|
struct sock_list* reply_origin;
|
|
/** IP blacklist for queries */
|
|
struct sock_list* blacklist;
|
|
/** region for this query. Cleared when query process finishes. */
|
|
struct regional* region;
|
|
/** failure reason information if val-log-level is high */
|
|
struct config_strlist* errinf;
|
|
|
|
/** which module is executing */
|
|
int curmod;
|
|
/** module states */
|
|
enum module_ext_state ext_state[MAX_MODULE];
|
|
/** module specific data for query. indexed by module id. */
|
|
void* minfo[MAX_MODULE];
|
|
/** environment for this query */
|
|
struct module_env* env;
|
|
/** mesh related information for this query */
|
|
struct mesh_state* mesh_info;
|
|
/** how many seconds before expiry is this prefetched (0 if not) */
|
|
time_t prefetch_leeway;
|
|
|
|
/** incoming edns options from the front end */
|
|
struct edns_option* edns_opts_front_in;
|
|
/** outgoing edns options to the back end */
|
|
struct edns_option* edns_opts_back_out;
|
|
/** incoming edns options from the back end */
|
|
struct edns_option* edns_opts_back_in;
|
|
/** outgoing edns options to the front end */
|
|
struct edns_option* edns_opts_front_out;
|
|
/** whether modules should answer from the cache */
|
|
int no_cache_lookup;
|
|
/** whether modules should store answer in the cache */
|
|
int no_cache_store;
|
|
|
|
/**
|
|
* Attributes of clients that share the qstate that may affect IP-based
|
|
* actions.
|
|
*/
|
|
struct respip_client_info* client_info;
|
|
|
|
/** Extended result of response-ip action processing, mainly
|
|
* for logging purposes. */
|
|
struct respip_action_info* respip_action_info;
|
|
|
|
/** whether the reply should be dropped */
|
|
int is_drop;
|
|
};
|
|
|
|
/**
|
|
* Module functionality block
|
|
*/
|
|
struct module_func_block {
|
|
/** text string name of module */
|
|
const char* name;
|
|
|
|
/**
|
|
* init the module. Called once for the global state.
|
|
* This is the place to apply settings from the config file.
|
|
* @param env: module environment.
|
|
* @param id: module id number.
|
|
* return: 0 on error
|
|
*/
|
|
int (*init)(struct module_env* env, int id);
|
|
|
|
/**
|
|
* de-init, delete, the module. Called once for the global state.
|
|
* @param env: module environment.
|
|
* @param id: module id number.
|
|
*/
|
|
void (*deinit)(struct module_env* env, int id);
|
|
|
|
/**
|
|
* accept a new query, or work further on existing query.
|
|
* Changes the qstate->ext_state to be correct on exit.
|
|
* @param ev: event that causes the module state machine to
|
|
* (re-)activate.
|
|
* @param qstate: the query state.
|
|
* Note that this method is not allowed to change the
|
|
* query state 'identity', that is query info, qflags,
|
|
* and priming status.
|
|
* Attach a subquery to get results to a different query.
|
|
* @param id: module id number that operate() is called on.
|
|
* @param outbound: if not NULL this event is due to the reply/timeout
|
|
* or error on this outbound query.
|
|
* @return: if at exit the ext_state is:
|
|
* o wait_module: next module is started. (with pass event).
|
|
* o error or finished: previous module is resumed.
|
|
* o otherwise it waits until that event happens (assumes
|
|
* the service routine to make subrequest or send message
|
|
* have been called.
|
|
*/
|
|
void (*operate)(struct module_qstate* qstate, enum module_ev event,
|
|
int id, struct outbound_entry* outbound);
|
|
|
|
/**
|
|
* inform super querystate about the results from this subquerystate.
|
|
* Is called when the querystate is finished. The method invoked is
|
|
* the one from the current module active in the super querystate.
|
|
* @param qstate: the query state that is finished.
|
|
* Examine return_rcode and return_reply in the qstate.
|
|
* @param id: module id for this module.
|
|
* This coincides with the current module for the super qstate.
|
|
* @param super: the super querystate that needs to be informed.
|
|
*/
|
|
void (*inform_super)(struct module_qstate* qstate, int id,
|
|
struct module_qstate* super);
|
|
|
|
/**
|
|
* clear module specific data
|
|
*/
|
|
void (*clear)(struct module_qstate* qstate, int id);
|
|
|
|
/**
|
|
* How much memory is the module specific data using.
|
|
* @param env: module environment.
|
|
* @param id: the module id.
|
|
* @return the number of bytes that are alloced.
|
|
*/
|
|
size_t (*get_mem)(struct module_env* env, int id);
|
|
};
|
|
|
|
/**
|
|
* Debug utility: module external qstate to string
|
|
* @param s: the state value.
|
|
* @return descriptive string.
|
|
*/
|
|
const char* strextstate(enum module_ext_state s);
|
|
|
|
/**
|
|
* Debug utility: module event to string
|
|
* @param e: the module event value.
|
|
* @return descriptive string.
|
|
*/
|
|
const char* strmodulevent(enum module_ev e);
|
|
|
|
/**
|
|
* Initialize the edns known options by allocating the required space.
|
|
* @param env: the module environment.
|
|
* @return false on failure (no memory).
|
|
*/
|
|
int edns_known_options_init(struct module_env* env);
|
|
|
|
/**
|
|
* Free the allocated space for the known edns options.
|
|
* @param env: the module environment.
|
|
*/
|
|
void edns_known_options_delete(struct module_env* env);
|
|
|
|
/**
|
|
* Register a known edns option. Overwrite the flags if it is already
|
|
* registered. Used before creating workers to register known edns options.
|
|
* @param opt_code: the edns option code.
|
|
* @param bypass_cache_stage: whether the option interacts with the cache.
|
|
* @param no_aggregation: whether the option implies more specific
|
|
* aggregation.
|
|
* @param env: the module environment.
|
|
* @return true on success, false on failure (registering more options than
|
|
* allowed or trying to register after the environment is copied to the
|
|
* threads.)
|
|
*/
|
|
int edns_register_option(uint16_t opt_code, int bypass_cache_stage,
|
|
int no_aggregation, struct module_env* env);
|
|
|
|
/**
|
|
* Register an inplace callback function.
|
|
* @param cb: pointer to the callback function.
|
|
* @param type: inplace callback type.
|
|
* @param cbarg: argument for the callback function, or NULL.
|
|
* @param env: the module environment.
|
|
* @param id: module id.
|
|
* @return true on success, false on failure (out of memory or trying to
|
|
* register after the environment is copied to the threads.)
|
|
*/
|
|
int
|
|
inplace_cb_register(void* cb, enum inplace_cb_list_type type, void* cbarg,
|
|
struct module_env* env, int id);
|
|
|
|
/**
|
|
* Delete callback for specified type and module id.
|
|
* @param env: the module environment.
|
|
* @param type: inplace callback type.
|
|
* @param id: module id.
|
|
*/
|
|
void
|
|
inplace_cb_delete(struct module_env* env, enum inplace_cb_list_type type,
|
|
int id);
|
|
|
|
/**
|
|
* Delete all the inplace callback linked lists.
|
|
* @param env: the module environment.
|
|
*/
|
|
void inplace_cb_lists_delete(struct module_env* env);
|
|
|
|
/**
|
|
* Check if an edns option is known.
|
|
* @param opt_code: the edns option code.
|
|
* @param env: the module environment.
|
|
* @return pointer to registered option if the edns option is known,
|
|
* NULL otherwise.
|
|
*/
|
|
struct edns_known_option* edns_option_is_known(uint16_t opt_code,
|
|
struct module_env* env);
|
|
|
|
/**
|
|
* Check if an edns option needs to bypass the reply from cache stage.
|
|
* @param list: the edns options.
|
|
* @param env: the module environment.
|
|
* @return true if an edns option needs to bypass the cache stage,
|
|
* false otherwise.
|
|
*/
|
|
int edns_bypass_cache_stage(struct edns_option* list,
|
|
struct module_env* env);
|
|
|
|
/**
|
|
* Check if an unique mesh state is required. Might be triggered by EDNS option
|
|
* or set for the complete env.
|
|
* @param list: the edns options.
|
|
* @param env: the module environment.
|
|
* @return true if an edns option needs a unique mesh state,
|
|
* false otherwise.
|
|
*/
|
|
int unique_mesh_state(struct edns_option* list, struct module_env* env);
|
|
|
|
/**
|
|
* Log the known edns options.
|
|
* @param level: the desired verbosity level.
|
|
* @param env: the module environment.
|
|
*/
|
|
void log_edns_known_options(enum verbosity_value level,
|
|
struct module_env* env);
|
|
|
|
#endif /* UTIL_MODULE_H */
|