NAME
rssadapt
,
ieee80211_rssadapt_choose
,
ieee80211_rssadapt_input
,
ieee80211_rssadapt_lower_rate
,
ieee80211_rssadapt_raise_rate
,
ieee80211_rssadapt_updatestats
—
rate adaptation based on received
signal strength
SYNOPSIS
#include
<net80211/ieee80211_var.h>
#include
<net80211/ieee80211_rssadapt.h>
void
ieee80211_rssadapt_input
(struct
ieee80211com *ic, st
construct ieee80211_node *ni,
struct ieee80211_rssadapt
*ra, int rssi);
void
ieee80211_rssadapt_lower_rate
(struct
ieee80211com *ic, const
struct ieee80211_node *ni,
struct ieee80211_rssadapt
*ra, const struct
ieee80211_rssdesc *id);
void
ieee80211_rssadapt_raise_rate
(struct
ieee80211com *ic, struct
ieee80211_rssadapt *ra,
const struct ieee80211_rssdesc
*id);
void
ieee80211_rssadapt_updatestats
(struct
ieee80211_rssadapt *ra);
int
ieee80211_rssadapt_choose
(struct
ieee80211_rssadapt *ra,
const struct ieee80211_rateset
*rs, const struct
ieee80211_frame *wh,
u_int len,
int fixed_rate,
const char *dvname,
int do_not_adapt);
DESCRIPTION
The rssadapt
module provides rapid
adaptation of transmission data rate to 802.11 device drivers based on
received-signal strength (RSS). A driver needs only to provide
rssadapt
with indications of RSS and failure/success
of transmissions for each 802.11 client or peer. For each transmit packet,
rssadapt
chooses the transmission data rate that
offers the best expected throughput, given the packet's length and
destination.
rssadapt
models an 802.11 channel very
simply (see also the BUGS section). It
assumes that the packet-error rate (PER) is determined by the
signal-to-noise ratio (S/N) at the receiver, the transmission data rate, and
the packet length. The S/N determines the choice of data rate that yields
the lowest PER for all packets of a certain length.
FUNCTIONS
ieee80211_rssadapt_choose
(ra, rs, wh, len, fixed_rate, dvname, do_not_adapt)-
Choose the transmission data rate for a packet.
- ra
- Ordinarily, the
rssadapt
state object belonging to the node which is the packet destination. However, if the destination is a broadcast/multicast address, then ra belongs to the BSS node, ic->ic_bss. - rs
- A list of eligible data rates for the node; for example, the rates negotiated when the node associated with the network.
- len
- The packet length in bytes, including the 802.11 header and frame check sequence (FCS).
- fixed_rate
- If the operator has set the data rate using, for example,
ifconfig wi0 media ds1
, then fixed_rate tells the index of that rate in rs.rssadapt
obeys a fixed data rate whenever the 802.11 standard allows it: sometimes the standard requires multicast/broadcast packets to be transmitted at a so-called “basic rate”. - dvname
- The device driver uses dvname to indicate the
name of the interface for the purpose of diagnostic and debug
messages. The driver sets dvname to
NULL
when no messages are desired. - do_not_adapt
- If do_not_adapt is non-zero, then
ieee80211_rssadapt_choose
() will choose the highest rate in rs that suits the destination, regardless of the RSS.
ieee80211_rssadapt_choose
() is an index into rs, indicating its choice of transmit data rate. ieee80211_rssadapt_input
(ic, ni, ra, rssi)- The RSS serves as a rough estimate of the S/N at each node. A driver
provides RSS updates using
ieee80211_rssadapt_input
(), whose arguments are:- ic
- The wireless interface's 802.11 state object.
- ni
- The 802.11 node whose RSS the driver is updating.
- ra
- The node's
rssadapt
state object. - rssi
- The node's received signal strength indication. The range of rssi is from 0 to 255.
ieee80211_rssadapt_lower_rate
(ic, ni, ra, id)ieee80211_rssadapt_raise_rate
(ic, ra, id)- Drivers call
ieee80211_rssadapt_raise_rate
() andieee80211_rssadapt_lower_rate
() to indicate transmit successes and failures, respectively.- ic
- The 802.11 state object.
- ni
- The neighbor to whom the driver transmitted.
- ra
- The neighbor's
rssadapt
state object. - id
- Displays statistics on the transmission attempt.
ieee80211_rssadapt_updatestats
(ra)- An 802.11 node is eligible for its RSS thresholds to decay every 1/10 to
10 seconds. It is eligible more often (every 1/10 second) at high packet
rates, and less often (every 10 seconds) at low packet rates. A driver
assists
rssadapt
in tracking the exponential-average packet rate by callingieee80211_rssadapt_updatestats
() every 1/10th second for each node's ieee80211_rssadapt object.- ra
- The neighbor's
rssadapt
state object.
ALGORITHM
rssadapt
monitors the RSS from neighboring
802.11 nodes, recording the exponential average RSS in each neighbor's
ieee80211_rssadapt structure.
rssadapt
uses transmit success/failure feedback from
the device driver to fill a table of RSS thresholds. The table is indexed by
packet size, L, and a data rate,
R, to find out the minimum exponential-average RSS
that a node must show before rssadapt
will indicate
that a packet L bytes long can be transmitted R bits
per second with optimal expected throughput.
When the driver indicates a unicast packet is transmitted
unsuccessfully (that is, the NIC received no ACK for the packet),
rssadapt
will move the corresponding RSS threshold
toward the exponential average RSSI at the time of transmission. Thus
several consecutive transmit failures for the same
⟨L, R⟩ tuple will
ensure that the RSS threshold rises high enough that rate
R is abandoned for packets L
bytes long. When the driver indicates a successful transmission, the RSS
threshold corresponding to the same packet length, but the next higher data
rate, is lowered slightly. The RSS threshold is said to
“decay”. This ensures that occasionally
rssadapt
indicates the driver should try the next
higher data rate, just in case conditions at the receiver have changed (for
example, noise levels have fallen) and a higher data rate can be supported
at the same RSS level.
The rate of decay is controlled. In an interval of 1/10th second to 10 seconds, only one RSS threshold per neighbor may decay. The interval is connected to the exponential-average rate that packets are being transmitted. At high packet rates, the interval is shortest. It is longest at low packet rates. The rationale for this is that RSS thresholds should not decay rapidly if there is no information from packet transmissions to counteract their decay.
DATA STRUCTURES
An ieee80211_rssdesc describes a transmission attempt.
struct ieee80211_rssdesc { u_int id_len; u_int id_rateidx; struct ieee80211_node *id_node; u_int8_t id_rssi; };
id_len is the length, in bytes, of the transmitted packet. id_node points to the neighbor's ieee8021_node, and id_rssi is the exponential-average RSS at the time the packet was transmitted. id_rateidx is an index into the destination neighbor's rate-set, id_node->ni_rates, indicating the transmit data rate for the packet.
ieee80211_rssadapt contains the
rate-adaptation state for a neighboring 802.11 node. Ordinarily a driver
will “subclass” ieee80211_node. The
ieee80211_rssadapt structure will be a subclass
member. In this way, every node's rssadapt
condition
is independently tracked and stored in its node object.
struct ieee80211_rssadapt { u_int16_t ra_avg_rssi; u_int32_t ra_nfail; u_int32_t ra_nok; u_int32_t ra_pktrate; u_int16_t ra_rate_thresh[IEEE80211_RSSADAPT_BKTS] [IEEE80211_RATE_SIZE]; struct timeval ra_last_raise; struct timeval ra_raise_interval; };
ra_avg_rssi is the exponential-average RSS, shifted left 8 bits. ra_nfail indicates the number of transmit failures in the current update interval; ra_nok the number of transmit successes in the current update interval. ra_pktrate indicates the exponential average number of transmit failure/success indications over past update intervals. This approximates the rate of packet-transmission. ra_rate_thresh contains RSS thresholds that are indexed by ⟨packet length, data rate⟩ tuples. When this node's exponential-average RSS exceeds ra_rate_thresh[i][j], then packets at most 128 x 8^i bytes long are eligible to be transmitted at the rate indexed by j.
ra_last_raise
and ra_raise_interval are used to control the rate
that RSS thresholds “decay”.
ra_last_raise indicates when
ieee80211_rssadapt_raise_rate
()
was last called and ra_raise_interval indicates the
minimum period between consecutive calls to
ieee80211_rssadapt_raise_rate
(). If
ieee80211_rssadapt_raise_rate
() is called more than
once in any period, the second and subsequent calls are ignored.
CODE REFERENCES
This section describes places within the
OpenBSD source tree where actual code implementing
or using rssadapt
can be found. All pathnames are
relative to /usr/src.
The code for rssadapt
is in the file
sys/net80211/ieee80211_rssadapt.c.
ath(4) contains a reference implementation. See sys/dev/ic/ath.c.
SEE ALSO
Javier del Prado Pavon and Sunghyun Choi, Link Adaptation Strategy for IEEE 802.11 WLAN via Received Signal Strength Measurement, ICC'03, pp. 1108-1113, Anchorage, Alaska, May 2003.
HISTORY
rssadapt
first appeared in
NetBSD and was ported to
OpenBSD by Todd C. Miller
<[email protected]>
AUTHORS
David Young <[email protected]>
BUGS
To cope with interference from microwave ovens, frequency-hopping
radios, and other sources of RF pulse-trains and bursts,
rssadapt
should adapt the fragmentation threshold as
well as the data rate.
For improved throughput, rssadapt
should
indicate to drivers when they should use the 802.11b short-preamble.
The constants in
ieee80211_rssadapt_updatestats
() should be
configurable.