/* This file is part of GNUnet. Copyright (C) 2009, 2010 GNUnet e.V. GNUnet is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNUnet is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with this program. If not, see . SPDX-License-Identifier: AGPL3.0-or-later */ /** * @file fs/gnunet-service-fs.h * @brief shared data structures of gnunet-service-fs.c * @author Christian Grothoff */ #ifndef GNUNET_SERVICE_FS_H #define GNUNET_SERVICE_FS_H #include "gnunet_util_lib.h" #include "gnunet_statistics_service.h" #include "gnunet_transport_service.h" #include "gnunet_core_service.h" #include "gnunet_block_lib.h" #include "gnunet_ats_service.h" #include "fs.h" /** * By which amount do we decrement the TTL for simple forwarding / * indirection of the query; in milli-seconds. Set somewhat in * accordance to your network latency (above the time it'll take you * to send a packet and get a reply). */ #define TTL_DECREMENT 5000 /** * At what frequency should our datastore load decrease * automatically (since if we don't use it, clearly the * load must be going down). */ #define DATASTORE_LOAD_AUTODECLINE GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_MILLISECONDS, 250) /** * Only the (mandatory) query is included. */ #define GET_MESSAGE_BIT_QUERY_ONLY 0 /** * The peer identity of a peer waiting for the * reply is included (used if the response * should be transmitted to someone other than * the sender of the GET). */ #define GET_MESSAGE_BIT_RETURN_TO 1 /** * The peer identity of a peer that had claimed to have the content * previously is included (can be used if responder-anonymity is not * desired; note that the precursor presumably lacked a direct * connection to the specified peer; still, the receiver is in no way * required to limit forwarding only to the specified peer, it should * only prefer it somewhat if possible). */ #define GET_MESSAGE_BIT_TRANSMIT_TO 4 GNUNET_NETWORK_STRUCT_BEGIN /** * Message sent between peers asking for FS-content. */ struct GetMessage { /** * Message type will be #GNUNET_MESSAGE_TYPE_FS_GET. */ struct GNUNET_MessageHeader header; /** * Type of the query (block type). */ uint32_t type GNUNET_PACKED; /** * How important is this request (network byte order) */ uint32_t priority GNUNET_PACKED; /** * Relative time to live in MILLISECONDS (network byte order) */ int32_t ttl GNUNET_PACKED; /** * The content hash should be mutated using this value * before checking against the bloomfilter (used to * get many different filters for the same hash codes). * The number should be in big-endian format when used * for mingling. */ uint32_t filter_mutator GNUNET_PACKED; /** * Which of the optional hash codes are present at the end of the * message? See GET_MESSAGE_BIT_xx constants. For each bit that is * set, an additional `struct GNUNET_HashCode` with the respective content * (in order of the bits) will be appended to the end of the GET * message. */ uint32_t hash_bitmap GNUNET_PACKED; /** * Hashcodes of the file(s) we're looking for. * Details depend on the query type. */ struct GNUNET_HashCode query; /* this is followed by PeerIdentities as specified in the "hash_bitmap"; * after that, an optional bloomfilter (with bits set for replies * that should be suppressed) can be present */ }; /** * Message send by a peer that wants to be excluded * from migration for a while. */ struct MigrationStopMessage { /** * Message type will be * GNUNET_MESSAGE_TYPE_FS_MIGRATION_STOP. */ struct GNUNET_MessageHeader header; /** * Always zero. */ uint32_t reserved GNUNET_PACKED; /** * How long should the block last? */ struct GNUNET_TIME_RelativeNBO duration; }; GNUNET_NETWORK_STRUCT_END /** * A connected peer. */ struct GSF_ConnectedPeer; /** * An active request. */ struct GSF_PendingRequest; /** * A local client. */ struct GSF_LocalClient; /** * Information kept per plan per request ('pe' module). */ struct GSF_RequestPlan; /** * Bijection between request plans and pending requests. */ struct GSF_PendingRequestPlanBijection; /** * Our connection to the datastore. */ extern struct GNUNET_DATASTORE_Handle *GSF_dsh; /** * Our configuration. */ extern const struct GNUNET_CONFIGURATION_Handle *GSF_cfg; /** * Handle for reporting statistics. */ extern struct GNUNET_STATISTICS_Handle *GSF_stats; /** * Pointer to handle to the core service (points to NULL until we've * connected to it). */ extern struct GNUNET_CORE_Handle *GSF_core; /** * Handle for DHT operations. */ extern struct GNUNET_DHT_Handle *GSF_dht; /** * How long do requests typically stay in the routing table? */ extern struct GNUNET_LOAD_Value *GSF_rt_entry_lifetime; /** * Running average of the observed latency to other peers (round trip). */ extern struct GNUNET_TIME_Relative GSF_avg_latency; /** * Handle to ATS service. */ extern struct GNUNET_ATS_PerformanceHandle *GSF_ats; /** * Identity of this peer. */ extern struct GNUNET_PeerIdentity GSF_my_id; /** * Typical priorities we're seeing from other peers right now. Since * most priorities will be zero, this value is the weighted average of * non-zero priorities seen "recently". In order to ensure that new * values do not dramatically change the ratio, values are first * "capped" to a reasonable range (+N of the current value) and then * averaged into the existing value by a ratio of 1:N. Hence * receiving the largest possible priority can still only raise our * "current_priorities" by at most 1. */ extern double GSF_current_priorities; /** * How many query messages have we received 'recently' that * have not yet been claimed as cover traffic? */ extern unsigned int GSF_cover_query_count; /** * How many content messages have we received 'recently' that * have not yet been claimed as cover traffic? */ extern unsigned int GSF_cover_content_count; /** * Our block context. */ extern struct GNUNET_BLOCK_Context *GSF_block_ctx; /** * Are we introducing randomized delays for better anonymity? */ extern int GSF_enable_randomized_delays; /** * Size of the datastore queue we assume for common requests. */ extern unsigned int GSF_datastore_queue_size; /** * Function to be called after we're done processing * replies from the local lookup. If the result status * code indicates that there may be more replies, plan * forwarding the request. * * @param cls closure (NULL) * @param pr the pending request we were processing * @param result final datastore lookup result */ void GSF_consider_forwarding (void *cls, struct GSF_PendingRequest *pr, enum GNUNET_BLOCK_EvaluationResult result); /** * Test if the DATABASE (GET) load on this peer is too high * to even consider processing the query at * all. * * @return #GNUNET_YES if the load is too high to do anything (load high) * #GNUNET_NO to process normally (load normal) * #GNUNET_SYSERR to process for free (load low) */ int GSF_test_get_load_too_high_ (uint32_t priority); /** * We've just now completed a datastore request. Update our * datastore load calculations. * * @param start time when the datastore request was issued */ void GSF_update_datastore_delay_ (struct GNUNET_TIME_Absolute start); #endif /* end of gnunet-service-fs.h */