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diff --git a/qemu/roms/ipxe/src/net/80211/rc80211.c b/qemu/roms/ipxe/src/net/80211/rc80211.c
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-/*
- * Simple 802.11 rate-control algorithm for iPXE.
- *
- * Copyright (c) 2009 Joshua Oreman <oremanj@rwcr.net>.
- *
- * This program 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 2 of the
- * License, or any later version.
- *
- * This program 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 this program; if not, write to the Free Software
- * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
- * 02110-1301, USA.
- */
-
-FILE_LICENCE ( GPL2_OR_LATER );
-
-#include <stdlib.h>
-#include <ipxe/net80211.h>
-
-/**
- * @file
- *
- * Simple 802.11 rate-control algorithm
- */
-
-/** @page rc80211 Rate control philosophy
- *
- * We want to maximize our transmission speed, to the extent that we
- * can do that without dropping undue numbers of packets. We also
- * don't want to take up very much code space, so our algorithm has to
- * be pretty simple
- *
- * When we receive a packet, we know what rate it was transmitted at,
- * and whether it had to be retransmitted to get to us.
- *
- * When we send a packet, we hear back how many times it had to be
- * retried to get through, and whether it got through at all.
- *
- * Indications of TX success are more reliable than RX success, but RX
- * information helps us know where to start.
- *
- * To handle all of this, we keep for each rate and each direction (TX
- * and RX separately) some state information for the most recent
- * packets on that rate and the number of packets for which we have
- * information. The state is a 32-bit unsigned integer in which two
- * bits represent a packet: 11 if it went through well, 10 if it went
- * through with one retry, 01 if it went through with more than one
- * retry, or 00 if it didn't go through at all. We define the
- * "goodness" for a particular (rate, direction) combination as the
- * sum of all the 2-bit fields, times 33, divided by the number of
- * 2-bit fields containing valid information (16 except when we're
- * starting out). The number produced is between 0 and 99; we use -1
- * for rates with less than 4 RX packets or 1 TX, as an indicator that
- * we do not have enough information to rely on them.
- *
- * In deciding which rates are best, we find the weighted average of
- * TX and RX goodness, where the weighting is by number of packets
- * with data and TX packets are worth 4 times as much as RX packets.
- * The weighted average is called "net goodness" and is also a number
- * between 0 and 99. If 3 consecutive packets fail transmission
- * outright, we automatically ratchet down the rate; otherwise, we
- * switch to the best rate whenever the current rate's goodness falls
- * below some threshold, and try increasing our rate when the goodness
- * is very high.
- *
- * This system is optimized for iPXE's style of usage. Because normal
- * operation always involves receiving something, we'll make our way
- * to the best rate pretty quickly. We tend to follow the lead of the
- * sending AP in choosing rates, but we won't use rates for long that
- * don't work well for us in transmission. We assume iPXE won't be
- * running for long enough that rate patterns will change much, so we
- * don't have to keep time counters or the like. And if this doesn't
- * work well in practice there are many ways it could be tweaked.
- *
- * To avoid staying at 1Mbps for a long time, we don't track any
- * transmitted packets until we've set our rate based on received
- * packets.
- */
-
-/** Two-bit packet status indicator for a packet with no retries */
-#define RC_PKT_OK 0x3
-
-/** Two-bit packet status indicator for a packet with one retry */
-#define RC_PKT_RETRIED_ONCE 0x2
-
-/** Two-bit packet status indicator for a TX packet with multiple retries
- *
- * It is not possible to tell whether an RX packet had one or multiple
- * retries; we rely instead on the fact that failed RX packets won't
- * get to us at all, so if we receive a lot of RX packets on a certain
- * rate it must be pretty good.
- */
-#define RC_PKT_RETRIED_MULTI 0x1
-
-/** Two-bit packet status indicator for a TX packet that was never ACKed
- *
- * It is not possible to tell whether an RX packet was setn if it
- * didn't get through to us, but if we don't see one we won't increase
- * the goodness for its rate. This asymmetry is part of why TX packets
- * are weighted much more heavily than RX.
- */
-#define RC_PKT_FAILED 0x0
-
-/** Number of times to weight TX packets more heavily than RX packets */
-#define RC_TX_FACTOR 4
-
-/** Number of consecutive failed TX packets that cause an automatic rate drop */
-#define RC_TX_EMERG_FAIL 3
-
-/** Minimum net goodness below which we will search for a better rate */
-#define RC_GOODNESS_MIN 85
-
-/** Maximum net goodness above which we will try to increase our rate */
-#define RC_GOODNESS_MAX 95
-
-/** Minimum (num RX + @c RC_TX_FACTOR * num TX) to use a certain rate */
-#define RC_UNCERTAINTY_THRESH 4
-
-/** TX direction */
-#define TX 0
-
-/** RX direction */
-#define RX 1
-
-/** A rate control context */
-struct rc80211_ctx
-{
- /** Goodness state for each rate, TX and RX */
- u32 goodness[2][NET80211_MAX_RATES];
-
- /** Number of packets recorded for each rate */
- u8 count[2][NET80211_MAX_RATES];
-
- /** Indication of whether we've set the device rate yet */
- int started;
-
- /** Counter of all packets sent and received */
- int packets;
-};
-
-/**
- * Initialize rate-control algorithm
- *
- * @v dev 802.11 device
- * @ret ctx Rate-control context, to be stored in @c dev->rctl
- */
-struct rc80211_ctx * rc80211_init ( struct net80211_device *dev __unused )
-{
- struct rc80211_ctx *ret = zalloc ( sizeof ( *ret ) );
- return ret;
-}
-
-/**
- * Calculate net goodness for a certain rate
- *
- * @v ctx Rate-control context
- * @v rate_idx Index of rate to calculate net goodness for
- */
-static int rc80211_calc_net_goodness ( struct rc80211_ctx *ctx,
- int rate_idx )
-{
- int sum[2], num[2], dir, pkt;
-
- for ( dir = 0; dir < 2; dir++ ) {
- u32 good = ctx->goodness[dir][rate_idx];
-
- num[dir] = ctx->count[dir][rate_idx];
- sum[dir] = 0;
-
- for ( pkt = 0; pkt < num[dir]; pkt++ )
- sum[dir] += ( good >> ( 2 * pkt ) ) & 0x3;
- }
-
- if ( ( num[TX] * RC_TX_FACTOR + num[RX] ) < RC_UNCERTAINTY_THRESH )
- return -1;
-
- return ( 33 * ( sum[TX] * RC_TX_FACTOR + sum[RX] ) /
- ( num[TX] * RC_TX_FACTOR + num[RX] ) );
-}
-
-/**
- * Determine the best rate to switch to and return it
- *
- * @v dev 802.11 device
- * @ret rate_idx Index of the best rate to switch to
- */
-static int rc80211_pick_best ( struct net80211_device *dev )
-{
- struct rc80211_ctx *ctx = dev->rctl;
- int best_net_good = 0, best_rate = -1, i;
-
- for ( i = 0; i < dev->nr_rates; i++ ) {
- int net_good = rc80211_calc_net_goodness ( ctx, i );
-
- if ( net_good > best_net_good ||
- ( best_net_good > RC_GOODNESS_MIN &&
- net_good > RC_GOODNESS_MIN ) ) {
- best_net_good = net_good;
- best_rate = i;
- }
- }
-
- if ( best_rate >= 0 ) {
- int old_good = rc80211_calc_net_goodness ( ctx, dev->rate );
- if ( old_good != best_net_good )
- DBGC ( ctx, "802.11 RC %p switching from goodness "
- "%d to %d\n", ctx, old_good, best_net_good );
-
- ctx->started = 1;
- return best_rate;
- }
-
- return dev->rate;
-}
-
-/**
- * Set 802.11 device rate
- *
- * @v dev 802.11 device
- * @v rate_idx Index of rate to switch to
- *
- * This is a thin wrapper around net80211_set_rate_idx to insert a
- * debugging message where appropriate.
- */
-static inline void rc80211_set_rate ( struct net80211_device *dev,
- int rate_idx )
-{
- DBGC ( dev->rctl, "802.11 RC %p changing rate %d->%d Mbps\n", dev->rctl,
- dev->rates[dev->rate] / 10, dev->rates[rate_idx] / 10 );
-
- net80211_set_rate_idx ( dev, rate_idx );
-}
-
-/**
- * Check rate-control state and change rate if necessary
- *
- * @v dev 802.11 device
- */
-static void rc80211_maybe_set_new ( struct net80211_device *dev )
-{
- struct rc80211_ctx *ctx = dev->rctl;
- int net_good;
-
- net_good = rc80211_calc_net_goodness ( ctx, dev->rate );
-
- if ( ! ctx->started ) {
- rc80211_set_rate ( dev, rc80211_pick_best ( dev ) );
- return;
- }
-
- if ( net_good < 0 ) /* insufficient data */
- return;
-
- if ( net_good > RC_GOODNESS_MAX && dev->rate + 1 < dev->nr_rates ) {
- int higher = rc80211_calc_net_goodness ( ctx, dev->rate + 1 );
- if ( higher > net_good || higher < 0 )
- rc80211_set_rate ( dev, dev->rate + 1 );
- else
- rc80211_set_rate ( dev, rc80211_pick_best ( dev ) );
- }
-
- if ( net_good < RC_GOODNESS_MIN ) {
- rc80211_set_rate ( dev, rc80211_pick_best ( dev ) );
- }
-}
-
-/**
- * Update rate-control state
- *
- * @v dev 802.11 device
- * @v direction One of the direction constants TX or RX
- * @v rate_idx Index of rate at which packet was sent or received
- * @v retries Number of times packet was retried before success
- * @v failed If nonzero, the packet failed to get through
- */
-static void rc80211_update ( struct net80211_device *dev, int direction,
- int rate_idx, int retries, int failed )
-{
- struct rc80211_ctx *ctx = dev->rctl;
- u32 goodness = ctx->goodness[direction][rate_idx];
-
- if ( ctx->count[direction][rate_idx] < 16 )
- ctx->count[direction][rate_idx]++;
-
- goodness <<= 2;
- if ( failed )
- goodness |= RC_PKT_FAILED;
- else if ( retries > 1 )
- goodness |= RC_PKT_RETRIED_MULTI;
- else if ( retries )
- goodness |= RC_PKT_RETRIED_ONCE;
- else
- goodness |= RC_PKT_OK;
-
- ctx->goodness[direction][rate_idx] = goodness;
-
- ctx->packets++;
-
- rc80211_maybe_set_new ( dev );
-}
-
-/**
- * Update rate-control state for transmitted packet
- *
- * @v dev 802.11 device
- * @v retries Number of times packet was transmitted before success
- * @v rc Return status code for transmission
- */
-void rc80211_update_tx ( struct net80211_device *dev, int retries, int rc )
-{
- struct rc80211_ctx *ctx = dev->rctl;
-
- if ( ! ctx->started )
- return;
-
- rc80211_update ( dev, TX, dev->rate, retries, rc );
-
- /* Check if the last RC_TX_EMERG_FAIL packets have all failed */
- if ( ! ( ctx->goodness[TX][dev->rate] &
- ( ( 1 << ( 2 * RC_TX_EMERG_FAIL ) ) - 1 ) ) ) {
- if ( dev->rate == 0 )
- DBGC ( dev->rctl, "802.11 RC %p saw %d consecutive "
- "failed TX, but cannot lower rate any further\n",
- dev->rctl, RC_TX_EMERG_FAIL );
- else {
- DBGC ( dev->rctl, "802.11 RC %p lowering rate (%d->%d "
- "Mbps) due to %d consecutive TX failures\n",
- dev->rctl, dev->rates[dev->rate] / 10,
- dev->rates[dev->rate - 1] / 10,
- RC_TX_EMERG_FAIL );
-
- rc80211_set_rate ( dev, dev->rate - 1 );
- }
- }
-}
-
-/**
- * Update rate-control state for received packet
- *
- * @v dev 802.11 device
- * @v retry Whether the received packet had been retransmitted
- * @v rate Rate at which packet was received, in 100 kbps units
- */
-void rc80211_update_rx ( struct net80211_device *dev, int retry, u16 rate )
-{
- int ridx;
-
- for ( ridx = 0; ridx < dev->nr_rates && dev->rates[ridx] != rate;
- ridx++ )
- ;
- if ( ridx >= dev->nr_rates )
- return; /* couldn't find the rate */
-
- rc80211_update ( dev, RX, ridx, retry, 0 );
-}
-
-/**
- * Free rate-control context
- *
- * @v ctx Rate-control context
- */
-void rc80211_free ( struct rc80211_ctx *ctx )
-{
- free ( ctx );
-}