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|
/*
This file is part of GNUnet.
(C) 2010,2011 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 include/gnunet_ats_service.h
* @brief automatic transport selection and outbound bandwidth determination
* @author Christian Grothoff
* @author Matthias Wachs
*/
#ifndef GNUNET_ATS_SERVICE_H
#define GNUNET_ATS_SERVICE_H
#include "gnunet_constants.h"
#include "gnunet_util_lib.h"
#include "gnunet_hello_lib.h"
enum GNUNET_ATS_Network_Type
{
GNUNET_ATS_NET_UNSPECIFIED = 0,
GNUNET_ATS_NET_LOOPBACK = 1,
GNUNET_ATS_NET_LAN = 2,
GNUNET_ATS_NET_WAN = 3,
GNUNET_ATS_NET_WLAN = 4,
};
/**
* Enum defining all known property types for ATS Enum values are used
* in the GNUNET_ATS_Information struct as
* (key,value)-pairs.
*
* Cost are always stored in uint32_t, so all units used to define costs
* have to be normalized to fit in uint32_t [0 .. 4.294.967.295]
*/
enum GNUNET_ATS_Property
{
/**
* End of the array.
* @deprecated
*/
GNUNET_ATS_ARRAY_TERMINATOR = 0,
/**
* Actual traffic on this connection from the other peer to this peer.
*
* Unit: [bytes/second]
*/
GNUNET_ATS_UTILIZATION_UP,
/**
* Actual traffic on this connection from this peer to the other peer.
*
* Unit: [bytes/second]
*/
GNUNET_ATS_UTILIZATION_DOWN,
/**
* Is this address located in WAN, LAN or a loopback address
* Value is element of GNUNET_ATS_Network_Type
*/
GNUNET_ATS_NETWORK_TYPE,
/**
* Delay
* Time between when the time packet is sent and the packet arrives
*
* Unit: [ms]
*
* Examples:
*
* LAN : 1
* WLAN : 2
* Dialup: 500
*/
GNUNET_ATS_QUALITY_NET_DELAY,
/**
* Distance on network layer (required for distance-vector routing).
*
* Unit: [DV-hops]
*/
GNUNET_ATS_QUALITY_NET_DISTANCE,
/**
* Network overhead on WAN (Wide-Area Network)
*
* How many bytes are sent on the WAN when 1 kilobyte (1024 bytes)
* of application data is transmitted?
* A factor used with connect cost, bandwidth cost and energy cost
* to describe the overhead produced by the transport protocol
*
* Unit: [bytes/kb]
*
* Interpretation: less is better
*
* Examples:
*
* TCP/IPv4 over Ethernet: 1024 + 38 + 20 + 20 = 1102 [bytes/kb]
* TCP/IPv6 over Ethernet: 1024 + 38 + 20 + 40 = 1122 [bytes/kb]
* UDP/IPv4 over Ethernet: 1024 + 38 + 20 + 8 = 1090 [bytes/kb]
* UDP/IPv6 over Ethernet: 1024 + 38 + 40 + 8 = 1110 [bytes/kb]
*/
GNUNET_ATS_COST_WAN,
/**
* Network overhead on LAN (Local-Area Network)
*
* How many bytes are sent on the LAN when 1 kilobyte (1024 bytes)
* of application data is transmitted?
* A factor used with connect cost, bandwidth cost and energy cost
* to describe the overhead produced by the transport protocol
*
* Unit: [bytes/kb]
*
* Interpretation: less is better
*
* Examples:
*
* TCP/IPv4 over Ethernet: 1024 + 38 + 20 + 20 = 1102 [bytes/kb]
* TCP/IPv6 over Ethernet: 1024 + 38 + 20 + 40 = 1122 [bytes/kb]
* UDP/IPv4 over Ethernet: 1024 + 38 + 20 + 8 = 1090 [bytes/kb]
* UDP/IPv6 over Ethernet: 1024 + 38 + 40 + 8 = 1110 [bytes/kb]
*/
GNUNET_ATS_COST_LAN,
/**
* Network overhead on WLAN (Wireless Local Area Network)
*
* How many bytes are sent on the LAN when 1 kilobyte (1024 bytes)
* of application data is transmitted?
* A factor used with connect cost, bandwidth cost and energy cost
* to describe the overhead produced by the transport protocol
*
* Unit: [bytes/kb]
*
* Interpretation: less is better
*
* Examples:
*
* TCP/IPv4 over Ethernet: 1024 + 38 + 20 + 20 = 1102 [bytes/kb]
* TCP/IPv6 over Ethernet: 1024 + 38 + 20 + 40 = 1122 [bytes/kb]
* UDP/IPv4 over Ethernet: 1024 + 38 + 20 + 8 = 1090 [bytes/kb]
* UDP/IPv6 over Ethernet: 1024 + 38 + 40 + 8 = 1110 [bytes/kb]
*/
GNUNET_ATS_COST_WLAN
/* Cost related values */
/* =================== */
/**
* Volume based cost in financial units to transmit data
*
* Note: This value is not bound to a specific currency or unit and only
* used locally.
* "cent" just refers the smallest amount of money in the respective
* currency.
*
* Unit: [cent/MB]
*
* Interpretation: less is better
*
* Examples:
* LAN: 0 [cent/MB]
* 2G : 10 [cent/MB]
*/
// GNUNET_ATS_COST_FINANCIAL_PER_VOLUME = 1,
/**
* Time based cost in financial units to transmit data
*
* Note: This value is not bound to a specific currency or unit and only
* used locally.
* "cent" just refers the smallest amount of money in the respective
* currency.
*
* Unit: [cent/h]
*
* Interpretation: less is better
*
* Examples:
* LAN : 0 [cent/h]
* Dialup: 10 [cent/h]
*/
// GNUNET_ATS_COST_FINANCIAL_PER_TIME = 2,
/**
* Computational costs
*
* Effort of preparing data to be sent with this transport
* Includes encoding, encryption and conversion of data
* Partial values can be summed up: c_sum = c_enc + c_enc + c_conv
* Resulting values depend on local system properties, e.g. CPU
*
* Unit: [ms/GB]
*
* Interpretation: less is better
*
* Examples:
*
* HTTPS with AES CBC-256: 7,382
* HTTPS with AES CBC-128: 5,279
* HTTPS with RC4-1024: 2,652
*/
// GNUNET_ATS_COST_COMPUTATIONAL = 3,
/**
* Energy consumption
*
* Energy consumption using this transport when sending with a certain
* power at a certain bitrate. This is only an approximation based on:
* Energy consumption E = P / D
*
* with:
* Power P in Watt (J/s)
* Datarate D in MBit/s
*
* Conversion between power P and dBm used by WLAN in radiotap's dBm TX power:
*
* Lp(dbm) = 10 log10 (P/ 1mW)
*
* => P = 1 mW * 10^(Lp(dbm)/10)
*
* Unit: [mJ/MB]
*
* Interpretation: less is better
*
* Examples:
*
* LAN: 0
* WLAN: 89 (600 mW @ 802.11g /w 54 MBit/s)
* Bluetooth: 267 (100 mW @ BT2.0 EDR /w 3 MBit/s)
*/
// GNUNET_ATS_COST_ENERGY_CONSUMPTION = 4,
/**
* Connect cost
* How many bytes are transmitted to initiate a new connection using
* this transport?
*
* Unit: [bytes]
*
* Interpretation: less is better
*
* Examples:
*
* UDP (No connection) :
* 0 bytes
* TCP (TCP 3-Way handshake):
* 220 bytes Ethernet, 172 bytes TCP/IP, 122 bytes TCP
* HTTP (TCP + Header) :
* 477 bytes Ethernet, 429 bytes TCP/IP, 374 bytes TCP, 278 bytes HTTP
* HTTPS HTTP+TLS Handshake:
* 2129 bytes Ethernet, 1975 bytes TCP/IP, 1755 bytes TCP, 1403 bytes HTTPS
*
* */
// GNUNET_ATS_COST_CONNECT = 5,
/**
* Bandwidth cost
*
* How many bandwidth is available to consume?
* Used to calculate which impact sending data with this transport has
*
* Unit: [kB/s]
*
* Interpretation: more is better
*
* Examples:
* LAN: 12,800 (100 MBit/s)
* WLAN: 6,912 (54 MBit/s)
* Dial-up: 8 (64 Kbit/s)
*
*/
// GNUNET_ATS_COST_BANDWITH_AVAILABLE = 6,
/**
* Network overhead
*
* How many bytes are sent over the wire when 1 kilobyte (1024 bytes)
* of application data is transmitted?
* A factor used with connect cost, bandwidth cost and energy cost
* to describe the overhead produced by the transport protocol
*
* Unit: [bytes/kb]
*
* Interpretation: less is better
*
* Examples:
*
* TCP/IPv4 over Ethernet: 1024 + 38 + 20 + 20 = 1102 [bytes/kb]
* TCP/IPv6 over Ethernet: 1024 + 38 + 20 + 40 = 1122 [bytes/kb]
* UDP/IPv4 over Ethernet: 1024 + 38 + 20 + 8 = 1090 [bytes/kb]
* UDP/IPv6 over Ethernet: 1024 + 38 + 40 + 8 = 1110 [bytes/kb]
*/
// GNUNET_ATS_COST_NETWORK_OVERHEAD = 7,
/* Quality related values */
/* ====================== */
/* Physical layer quality properties */
/**
* Signal strength on physical layer
*
* Unit: [dBm]
*/
// GNUNET_ATS_QUALITY_PHY_SIGNAL_STRENGTH = 1025,
/**
* Collision rate on physical layer
*
* Unit: [B/s]
*/
// GNUNET_ATS_QUALITY_PHY_COLLISION_RATE = 1026,
/**
* Error rate on physical layer
*
* Unit: [B/s]
*/
// GNUNET_ATS_QUALITY_PHY_ERROR_RATE = 1027,
/**
* Jitter
* Time variations of the delay
* 1st derivative of a delay function
*
* Unit: [ms]
*/
// GNUNET_ATS_QUALITY_NET_JITTER = 1029,
/**
* Error rate on network layer
*
* Unit: [B/s]
*
* Examples:
*
* LAN : 0
* WLAN : 400
* Bluetooth : 100
* Note: This numbers are just assumptions as an example, not
* measured or somehow determined
*/
// GNUNET_ATS_QUALITY_NET_ERRORRATE = 1030,
/**
* Drop rate on network layer
* Bytes actively dismissed by a network component during transmission
* Reasons for dropped data can be full queues, congestion, quota violations...
*
* Unit: [B/s]
*
* Examples:
*
* LAN : 0
* WLAN : 400
* Bluetooth : 100
* Note: This numbers are just assumptions as an example, not
* measured or somehow determined
*/
// GNUNET_ATS_QUALITY_NET_DROPRATE = 1031,
/**
* Loss rate on network layer
* Bytes lost during transmission
* Reasons can be collisions, ...
*
* Unit: [B/s]
*
* Examples:
*
* LAN : 0
* WLAN : 40
* Bluetooth : 10
* Note: This numbers are just assumptions as an example, not measured
* or somehow determined
*/
// GNUNET_ATS_QUALITY_NET_LOSSRATE = 1032,
/**
* Throughput on network layer
*
* Unit: [kB/s]
*
* Examples:
*
* LAN : 3400
* WLAN : 1200
* Dialup: 4
*
*/
// GNUNET_ATS_QUALITY_NET_THROUGHPUT = 1033,
/* Availability related values */
/* =========================== */
/**
* Is a peer reachable?
*/
// GNUNET_ATS_AVAILABILITY_REACHABLE = 2048,
/**
* Is there a connection established to a peer using this transport
*/
// GNUNET_ATS_AVAILABILITY_CONNECTED = 2049
};
/**
* Number of ATS quality properties
*/
#define GNUNET_ATS_QualityPropertiesCount 2
/**
* ATS quality properties as array initializer
*/
#define GNUNET_ATS_QualityProperties {GNUNET_ATS_QUALITY_NET_DELAY, GNUNET_ATS_QUALITY_NET_DISTANCE}
/**
* Number of ATS quality properties
*/
#define GNUNET_ATS_NetworkTypeCount 5
/**
* ATS quality properties as array initializer
*/
#define GNUNET_ATS_NetworkType {GNUNET_ATS_NET_UNSPECIFIED, GNUNET_ATS_NET_LOOPBACK, GNUNET_ATS_NET_LAN, GNUNET_ATS_NET_WAN, GNUNET_ATS_NET_WLAN}
GNUNET_NETWORK_STRUCT_BEGIN
/**
* struct used to communicate the transport's properties like cost and
* quality of service as well as high-level constraints on resource
* consumption.
*
* +---+
* +-----------+ Constraints | | Plugin properties +---------+
* | Highlevel |------------> |ATS| <------------------|Transport|
* | Component | ATS struct | | ATS struct | Plugin |
* +-----------+ | | +---------+
* +---+
*
* This structure will be used by transport plugins to communicate
* costs to ATS or by higher level components to tell ATS their
* constraints. Always a pair of (GNUNET_ATS_Property,
* uint32_t value). Value is always uint32_t, so all units used to
* define costs have to be normalized to fit uint32_t.
*/
struct GNUNET_ATS_Information
{
/**
* ATS property type, in network byte order.
*/
uint32_t type GNUNET_PACKED;
/**
* ATS property value, in network byte order.
*/
uint32_t value GNUNET_PACKED;
};
GNUNET_NETWORK_STRUCT_END
/* ******************************** Scheduling API ***************************** */
/**
* Handle to the ATS subsystem for bandwidth/transport scheduling information.
*/
struct GNUNET_ATS_SchedulingHandle;
/**
* Opaque session handle, defined by plugins. Contents not known to ATS.
*/
struct Session;
/**
* Signature of a function called by ATS with the current bandwidth
* and address preferences as determined by ATS.
*
* @param cls closure
* @param address suggested address (including peer identity of the peer)
* @param session session to use
* @param bandwidth_out assigned outbound bandwidth for the connection
* @param bandwidth_in assigned inbound bandwidth for the connection
* @param ats performance data for the address (as far as known)
* @param ats_count number of performance records in 'ats'
*/
typedef void (*GNUNET_ATS_AddressSuggestionCallback) (void *cls,
const struct
GNUNET_HELLO_Address *
address,
struct Session * session,
struct
GNUNET_BANDWIDTH_Value32NBO
bandwidth_out,
struct
GNUNET_BANDWIDTH_Value32NBO
bandwidth_in,
const struct
GNUNET_ATS_Information *
ats, uint32_t ats_count);
/**
* Initialize the ATS subsystem.
*
* @param cfg configuration to use
* @param suggest_cb notification to call whenever the suggestation changed
* @param suggest_cb_cls closure for 'suggest_cb'
* @return ats context
*/
struct GNUNET_ATS_SchedulingHandle *
GNUNET_ATS_scheduling_init (const struct GNUNET_CONFIGURATION_Handle *cfg,
GNUNET_ATS_AddressSuggestionCallback suggest_cb,
void *suggest_cb_cls);
/**
* Client is done with ATS scheduling, release resources.
*
* @param sh handle to release
*/
void
GNUNET_ATS_scheduling_done (struct GNUNET_ATS_SchedulingHandle *sh);
/**
* We would like to reset the address suggestion block time for this
* peer
*
* @param sh handle
* @param peer identity of the peer we want to reset
*/
void
GNUNET_ATS_reset_backoff (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_PeerIdentity *peer);
/**
* We would like to establish a new connection with a peer. ATS
* should suggest a good address to begin with.
*
* @param sh handle
* @param peer identity of the peer we need an address for
*/
void
GNUNET_ATS_suggest_address (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_PeerIdentity *peer);
/**
* We want to cancel ATS suggesting addresses for a peer.
*
* @param sh handle
* @param peer identity of the peer
*/
void
GNUNET_ATS_suggest_address_cancel (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_PeerIdentity *peer);
/**
* Returns where the address is located: LAN or WAN or ...
* @param sh the GNUNET_ATS_SchedulingHandle handle
* @param addr address
* @param addrlen address length
* @return location as GNUNET_ATS_Information
*/
struct GNUNET_ATS_Information
GNUNET_ATS_address_get_type (struct GNUNET_ATS_SchedulingHandle *sh,
const struct sockaddr * addr,
socklen_t addrlen);
/**
* We have updated performance statistics for a given address. Note
* that this function can be called for addresses that are currently
* in use as well as addresses that are valid but not actively in use.
* Furthermore, the peer may not even be connected to us right now (in
* which case the call may be ignored or the information may be stored
* for later use). Update bandwidth assignments.
*
* @param sh handle
* @param address updated address
* @param session session handle (if available)
* @param ats performance data for the address
* @param ats_count number of performance records in 'ats'
*/
void
GNUNET_ATS_address_update (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_HELLO_Address *address,
struct Session *session,
const struct GNUNET_ATS_Information *ats,
uint32_t ats_count);
/**
* An address is now in use or not used any more.
*
* @param sh handle
* @param address the address
* @param session session handle
* @param in_use GNUNET_YES if this address is now used, GNUNET_NO
* if address is not used any more
*/
void
GNUNET_ATS_address_in_use (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_HELLO_Address *address,
struct Session *session, int in_use);
/**
* A session got destroyed, stop including it as a valid address.
*
* @param sh handle
* @param address the address
* @param session session handle that is no longer valid (if available)
*/
void
GNUNET_ATS_address_destroyed (struct GNUNET_ATS_SchedulingHandle *sh,
const struct GNUNET_HELLO_Address *address,
struct Session *session);
/* ******************************** Performance API ***************************** */
/**
* ATS Handle to obtain and/or modify performance information.
*/
struct GNUNET_ATS_PerformanceHandle;
/**
* Signature of a function that is called with QoS information about a peer.
*
* @param cls closure
* @param address the address
* @param bandwidth_out assigned outbound bandwidth for the connection
* @param bandwidth_in assigned inbound bandwidth for the connection
* @param ats performance data for the address (as far as known)
* @param ats_count number of performance records in 'ats'
*/
typedef void (*GNUNET_ATS_PeerInformationCallback) (void *cls,
const struct
GNUNET_HELLO_Address *
address,
struct
GNUNET_BANDWIDTH_Value32NBO
bandwidth_out,
struct
GNUNET_BANDWIDTH_Value32NBO
bandwidth_in,
const struct
GNUNET_ATS_Information *
ats, uint32_t ats_count);
/**
* Get handle to access performance API of the ATS subsystem.
*
* @param cfg configuration to use
* @param infocb function to call on performance changes, can be NULL
* @param infocb_cls closure for infocb
* @return ats performance context
*/
struct GNUNET_ATS_PerformanceHandle *
GNUNET_ATS_performance_init (const struct GNUNET_CONFIGURATION_Handle *cfg,
GNUNET_ATS_PeerInformationCallback infocb,
void *infocb_cls);
/**
* Client is done using the ATS performance subsystem, release resources.
*
* @param ph handle
*/
void
GNUNET_ATS_performance_done (struct GNUNET_ATS_PerformanceHandle *ph);
/**
* Function called with reservation result.
*
* @param cls closure
* @param peer identifies the peer
* @param amount set to the amount that was actually reserved or unreserved;
* either the full requested amount or zero (no partial reservations)
* @param res_delay if the reservation could not be satisfied (amount was 0), how
* long should the client wait until re-trying?
*/
typedef void (*GNUNET_ATS_ReservationCallback) (void *cls,
const struct GNUNET_PeerIdentity
* peer, int32_t amount,
struct GNUNET_TIME_Relative
res_delay);
/**
* Context that can be used to cancel a peer information request.
*/
struct GNUNET_ATS_ReservationContext;
/**
* Reserve inbound bandwidth from the given peer. ATS will look at
* the current amount of traffic we receive from the peer and ensure
* that the peer could add 'amount' of data to its stream.
*
* @param ph performance handle
* @param peer identifies the peer
* @param amount reserve N bytes for receiving, negative
* amounts can be used to undo a (recent) reservation;
* @param rcb function to call with the resulting reservation information
* @param rcb_cls closure for info
* @return NULL on error
* @deprecated will be replaced soon
*/
struct GNUNET_ATS_ReservationContext *
GNUNET_ATS_reserve_bandwidth (struct GNUNET_ATS_PerformanceHandle *ph,
const struct GNUNET_PeerIdentity *peer,
int32_t amount,
GNUNET_ATS_ReservationCallback rcb,
void *rcb_cls);
/**
* Cancel request for reserving bandwidth.
*
* @param rc context returned by the original GNUNET_ATS_reserve_bandwidth call
*/
void
GNUNET_ATS_reserve_bandwidth_cancel (struct GNUNET_ATS_ReservationContext *rc);
/**
* Enum defining all known preference categories.
*/
enum GNUNET_ATS_PreferenceKind
{
/**
* End of preference list.
*/
GNUNET_ATS_PREFERENCE_END = 0,
/**
* Change the peer's bandwidth value (value per byte of bandwidth in
* the goal function) to the given amount. The argument is followed
* by a double value giving the desired value (can be negative).
* Preference changes are forgotten if peers disconnect.
*/
GNUNET_ATS_PREFERENCE_BANDWIDTH,
/**
* Change the peer's latency value to the given amount. The
* argument is followed by a double value giving the desired value
* (can be negative). The absolute score in the goal function is
* the inverse of the latency in ms (minimum: 1 ms) multiplied by
* the latency preferences.
*/
GNUNET_ATS_PREFERENCE_LATENCY
};
/**
* Change preferences for the given peer. Preference changes are forgotten if peers
* disconnect.
*
* @param ph performance handle
* @param peer identifies the peer
* @param ... 0-terminated specification of the desired changes
*/
void
GNUNET_ATS_change_preference (struct GNUNET_ATS_PerformanceHandle *ph,
const struct GNUNET_PeerIdentity *peer, ...);
#endif
/* end of file gnunet-service-transport_ats.h */
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