/* This file is part of GNUnet. Copyright (C) 2011-2014 Christian Grothoff (and other contributing authors) GNUnet is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GNUnet; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /** * @file ats/gnunet-service-ats_addresses.h * @brief ats service address management * @author Matthias Wachs * @author Christian Grothoff */ #ifndef GNUNET_SERVICE_ATS_ADDRESSES_H #define GNUNET_SERVICE_ATS_ADDRESSES_H #include "gnunet_util_lib.h" #include "gnunet_ats_service.h" #include "gnunet-service-ats.h" /** * NOTE: Do not change this documentation. This documentation is based on * gnunet.org:/vcs/fsnsg/ats-paper.git/tech-doku/ats-tech-guide.tex * use build_txt.sh to generate plaintext output * * 1 ATS addresses : ATS address management * * This ATS addresses ("addresses") component manages the addresses known to * ATS service and suggests addresses to transport service when it is * interested in address suggestion for a peer. ATS addresses also * instantiates the bandwidth assignment mechanism (solver), notifies it * about changes to addresses and forwards changes to bandwidth assignments * to transport, depending if transport is interested in this change. * * 1.1 Input data * * 1.1.1 Addresses * * Addresses are added by specifying peer ID, plugin, address, address length * and session, if available. ATS information can be specified if available. * * 1.1.2 Networks * * ATS specifies a fix set of networks an address can belong to. For each * network an inbound and outbound quota will be specified. The available * networks and addtional helper varaibles are defined in * gnunet_ats_service.h. At the moment 5 networks are defined: * * GNUNET_ATS_NET_UNSPECIFIED * * GNUNET_ATS_NET_LOOPBACK * * GNUNET_ATS_NET_LAN * * GNUNET_ATS_NET_WAN * * GNUNET_ATS_NET_WLAN * * The total number of networks defined is stored in * GNUNET_ATS_NetworkTypeCount GNUNET_ATS_NetworkType can be used array * initializer for an int array, while GNUNET_ATS_NetworkType is an * initializer for a char array containing a string description of all * networks * * 1.1.3 Quotas * * An inbound and outbound quota for each of the networks mentioned in 1.1.2 * is loaded from ats configuration during initialization. This quota defines * to total amount of inbound and outbound traffic allowed for a specific * network. The configuration values used are in section ats: * * "NETWORK"_QUOTA_IN = * * "NETWORK"_QUOTA_IN = * * You can specify quotas by setting the to a: * * unrestricted: unlimited * * number of bytes: e.g. 10240 * * fancy value: e.g. 64 Kib * * unlimited is defined as GNUNET_ATS_MaxBandwidthString and equivalent to * the value GNUNET_ATS_MaxBandwidth Important predefined values for quotas * are: * * GNUNET_ATS_DefaultBandwidth: 65536 * * GNUNET_ATS_MaxBandwidth: UINT32_MAX * * GNUNET_CONSTANTS_DEFAULT_BW_IN_OUT: 1024 * * Details of loading quotas and default values will be described on * * 1.1.4 Preference values * * 1.2 Data structures used * * Addresse uses struct ATS_Address for each address. The structs are stored * in a linked list and provides a pointer void *solver_information for the * solver to store address specific information. It provides the int values * active which is set to GNUNET_YES if the address is select for transport * use and used, representing that transport service is actively using this * address. Address information are stored in peer, addr, addr_len, plugin. * * 1.3 Initialization * * During initialization a hashmap to store addresses is created. The quotas * for all networks defined for ATS are loaded from configuration. For each * network first the logic will check if the string * GNUNET_ATS_MaxBandwidthString is configured, if not it will try to convert * the configured value as a fancy size and if this fails it will try to use * it as a value_number. If no configuration value is found it will assign * GNUNET_ATS_DefaultBandwidth. The most important step is to load the * configured solver using configuration "[ats]:MODE". Current solvers are * MODE_PROPORTIONAL, MODE_MLP. Interaction is done using a solver API * * 1.4 Solver API * * Solver functions: * * s_init: init the solver with required information * * s_add: add a new address * * s_update: update ATS values or session for an address * * s_get: get prefered address for a peer * * s_del: delete an address * * s_pref: change preference value for a peer * * s_done: shutdown solver * * Callbacks: addresses provides a bandwidth_changed_cb callback to the * solver which is called when bandwidth assigned to peer has changed * * 1.5 Shutdown * * During shutdown all addresses are freed and the solver told to shutdown * * 1.6 Addresses and sessions * * Addresses consist of the address itself and a numerical session. When a * new address without a session is added it has no session, so it gets * session 0 assigned. When an address with a session is added and an address * object with session 0 is found, this object is updated with the session * otherwise a new address object with this session assigned is created. * * 1.6.1 Terminology * * Addresses a1,a2 with session s1, s2 are "exact" if: * (a1 == a2)&&(s1 == s2) * Addresses a1,a2 with session s1, s2 are "equivalent" if: * (a1 == a2)&&((s1 == s2)||(s1 == 0)||(s2 == 0) * * 1.7 Address management * * Transport service notifies ATS about changes to the addresses known to * him. * * 1.7.1 Adding an address * * When transport learns a new address it tells ATS and ATS is telling * addresses about it using GAS_address_add. If not known to addresses it * creates a new address object and calls solver's s_add. ATS information are * deserialized and solver is notified about the session and ATS information * using s_update. * * 1.7.2 Updating an address * * Addresses does an lookup up for the existing address with the given * session. If disassembles included ATS information and notifies the solver * using s_update about the update. * * 1.7.3 Deleting an address * * Addresses does an lookup for the exact address and session and if removes * this address. If session != 0 the session is set to 0 and the address is * kept. If session == 0, the addresses is removed. * * 1.7.4 Requesting an address suggestion * * The address client issues a request address message to be notified about * address suggestions for a specific peer. Addresses asks the solver with * s_get. If no address is available, it will not send a response, otherwise * it will respond with the choosen address. * * 1.7.5 Address suggestions * * Addresses will notify the client automatically on any bandwidth_changed_cb * by the solver if a address suggestion request is pending. If no address is * available it will not respond at all If the client is not interested * anymore, it has to cancel the address suggestion request. * * 1.7.6 Suggestions blocks and reset * * After suggesting an address it is blocked for ATS_BLOCKING_DELTA sec. to * prevent the client from being thrashed. If the client requires immediately * it can reset this block using GAS_addresses_handle_backoff_reset. * * 1.7.7 Address lifecycle * * * (add address) * * (updated address) * * (delete address) * * 1.8 Bandwidth assignment * * The addresses are used to perform resource allocation operations. ATS * addresses takes care of instantiating the solver configured and notifies * the respective solver about address changes and receives changes to the * bandwidth assignment from the solver. The current bandwidth assignment is * sent to transport. The specific solvers will be described in the specific * section. * * 1.9 Changing peer preferences * * The bandwidth assigned to a peer can be influenced by setting a preference * for a peer. The prefernce will be given to to the solver with s_pref which * has to take care of the preference value */ /* * How long will address suggestions blocked after a suggestion */ #define ATS_BLOCKING_DELTA GNUNET_TIME_relative_multiply(GNUNET_TIME_UNIT_MILLISECONDS, 100) /** * Information provided by ATS normalization */ struct GAS_NormalizationInfo { /** * Next index to use in averaging queue */ unsigned int avg_queue_index; /** * Averaging queue */ uint64_t atsi_abs[GAS_normalization_queue_length]; /** * Averaged ATSI values from queue */ uint64_t avg; /** * Normalized values from queue to a range of values [1.0...2.0] */ double norm; }; /** * Address with additional information */ struct ATS_Address { /** * Peer ID this address is for. */ struct GNUNET_PeerIdentity peer; /** * Address (in plugin-specific binary format). */ const void *addr; /** * Plugin name */ char *plugin; /** * Solver-specific information for this address */ void *solver_information; /** * ATS performance information for this address */ struct GNUNET_ATS_Properties properties; /** * Time when address had last activity (update, in uses) */ struct GNUNET_TIME_Absolute t_last_activity; /** * Time when address was added */ struct GNUNET_TIME_Absolute t_added; /** * Address length, number of bytes in @e addr. */ size_t addr_len; /** * Session ID, can never be 0. */ uint32_t session_id; /** * Field to store local flags. * FIXME: `enum GNUNET_HELLO_AddressInfo`? */ uint32_t local_address_info; /** * ATS performance information for this address, size of the @e atsi array. */ uint32_t atsi_count; /** * Inbound bandwidth assigned by solver */ uint32_t assigned_bw_in; /** * Outbound bandwidth assigned by solver */ uint32_t assigned_bw_out; /** * Inbound bandwidth assigned by solver in NBO */ uint32_t last_notified_bw_in; /** * Outbound bandwidth assigned by solver in NBO */ uint32_t last_notified_bw_out; /** * Is this the active address for this peer? */ int active; /** * Normalized delay information for this address. */ struct GAS_NormalizationInfo norm_delay; /** * Normalized distance information for this address. */ struct GAS_NormalizationInfo norm_distance; /** * Normalized utilization inbound for this address. */ struct GAS_NormalizationInfo norm_utilization_in; /** * Normalized utilization outbound for this address. */ struct GAS_NormalizationInfo norm_utilization_out; }; /** * A multipeermap mapping peer identities to `struct ATS_Address`. */ extern struct GNUNET_CONTAINER_MultiPeerMap *GSA_addresses; /** * Initialize address subsystem. The addresses subsystem manages the addresses * known and current performance information. * * @param server handle to our server */ void GAS_addresses_init (struct GNUNET_SERVER_Handle *server); /** * Shutdown address subsystem. */ void GAS_addresses_done (void); /** * Add a new address for a peer. * * @param peer peer * @param plugin_name transport plugin name * @param plugin_addr plugin address * @param plugin_addr_len length of the @a plugin_addr * @param local_address_info the local address for the address * @param session_id session id, can never be 0. * @param prop performance information for this address */ void GAS_addresses_add (const struct GNUNET_PeerIdentity *peer, const char *plugin_name, const void *plugin_addr, size_t plugin_addr_len, uint32_t local_address_info, uint32_t session_id, const struct GNUNET_ATS_Properties *prop); /** * Update an address with new performance information for a peer. * * @param peer peer * @param session_id session id, can never be 0 * @param prop performance information for this address */ void GAS_addresses_update (const struct GNUNET_PeerIdentity *peer, uint32_t session_id, const struct GNUNET_ATS_Properties *prop); /** * Remove an address for a peer. * * @param peer peer * @param session_id session id, can never be 0 */ void GAS_addresses_destroy (const struct GNUNET_PeerIdentity *peer, uint32_t session_id); /** * Remove all addresses. */ void GAS_addresses_destroy_all (void); /** * Iterator for #GAS_addresses_get_peer_info() * * @param cls closure * @param id the peer id * @param plugin_name plugin name * @param plugin_addr address * @param plugin_addr_len length of @a plugin_addr * @param address_active is address actively used * @param atsi ats performance information * @param bandwidth_out current outbound bandwidth assigned to address * @param bandwidth_in current inbound bandwidth assigned to address */ typedef void (*GNUNET_ATS_PeerInfo_Iterator) (void *cls, const struct GNUNET_PeerIdentity *id, const char *plugin_name, const void *plugin_addr, size_t plugin_addr_len, const int address_active, const struct GNUNET_ATS_Properties *prop, struct GNUNET_BANDWIDTH_Value32NBO bandwidth_out, struct GNUNET_BANDWIDTH_Value32NBO bandwidth_in); /** * Return information all peers currently known to ATS * * @param peer the respective peer * @param pi_it the iterator to call for every peer * @param pi_it_cls the closure for @a pi_it */ void GAS_addresses_get_peer_info (const struct GNUNET_PeerIdentity *peer, GNUNET_ATS_PeerInfo_Iterator pi_it, void *pi_it_cls); /** * Handle 'address list request' messages from clients. * * @param cls unused, NULL * @param client client that sent the request * @param message the request message */ void GAS_handle_request_address_list (void *cls, struct GNUNET_SERVER_Client *client, const struct GNUNET_MessageHeader *message); #endif /* end of gnunet-service-ats_addresses.h */