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/*
* Copyright 2007, Mattias Nissler <mattias.nissler@gmx.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#ifndef RC80211_PID_H
#define RC80211_PID_H
/* Sampling period for measuring percentage of failed frames. */
#define RC_PID_INTERVAL (HZ / 8)
/* Exponential averaging smoothness (used for I part of PID controller) */
#define RC_PID_SMOOTHING_SHIFT 3
#define RC_PID_SMOOTHING (1 << RC_PID_SMOOTHING_SHIFT)
/* Sharpening factor (used for D part of PID controller) */
#define RC_PID_SHARPENING_FACTOR 0
#define RC_PID_SHARPENING_DURATION 0
/* Fixed point arithmetic shifting amount. */
#define RC_PID_ARITH_SHIFT 8
/* Fixed point arithmetic factor. */
#define RC_PID_ARITH_FACTOR (1 << RC_PID_ARITH_SHIFT)
/* Proportional PID component coefficient. */
#define RC_PID_COEFF_P 15
/* Integral PID component coefficient. */
#define RC_PID_COEFF_I 9
/* Derivative PID component coefficient. */
#define RC_PID_COEFF_D 15
/* Target failed frames rate for the PID controller. NB: This effectively gives
* maximum failed frames percentage we're willing to accept. If the wireless
* link quality is good, the controller will fail to adjust failed frames
* percentage to the target. This is intentional.
*/
#define RC_PID_TARGET_PF (11 << RC_PID_ARITH_SHIFT)
/* Rate behaviour normalization quantity over time. */
#define RC_PID_NORM_OFFSET 3
/* Push high rates right after loading. */
#define RC_PID_FAST_START 0
/* Arithmetic right shift for positive and negative values for ISO C. */
#define RC_PID_DO_ARITH_RIGHT_SHIFT(x, y) \
(x) < 0 ? -((-(x)) >> (y)) : (x) >> (y)
enum rc_pid_event_type {
RC_PID_EVENT_TYPE_TX_STATUS,
RC_PID_EVENT_TYPE_RATE_CHANGE,
RC_PID_EVENT_TYPE_TX_RATE,
RC_PID_EVENT_TYPE_PF_SAMPLE,
};
union rc_pid_event_data {
/* RC_PID_EVENT_TX_STATUS */
struct {
struct ieee80211_tx_status tx_status;
};
/* RC_PID_EVENT_TYPE_RATE_CHANGE */
/* RC_PID_EVENT_TYPE_TX_RATE */
struct {
int index;
int rate;
};
/* RC_PID_EVENT_TYPE_PF_SAMPLE */
struct {
s32 pf_sample;
s32 prop_err;
s32 int_err;
s32 der_err;
};
};
struct rc_pid_event {
/* The time when the event occured */
unsigned long timestamp;
/* Event ID number */
unsigned int id;
/* Type of event */
enum rc_pid_event_type type;
/* type specific data */
union rc_pid_event_data data;
};
/* Size of the event ring buffer. */
#define RC_PID_EVENT_RING_SIZE 32
struct rc_pid_event_buffer {
/* Counter that generates event IDs */
unsigned int ev_count;
/* Ring buffer of events */
struct rc_pid_event ring[RC_PID_EVENT_RING_SIZE];
/* Index to the entry in events_buf to be reused */
unsigned int next_entry;
/* Lock that guards against concurrent access to this buffer struct */
spinlock_t lock;
/* Wait queue for poll/select and blocking I/O */
wait_queue_head_t waitqueue;
};
struct rc_pid_events_file_info {
/* The event buffer we read */
struct rc_pid_event_buffer *events;
/* The entry we have should read next */
unsigned int next_entry;
};
void rate_control_pid_event_tx_status(struct rc_pid_event_buffer *buf,
struct ieee80211_tx_status *stat);
void rate_control_pid_event_rate_change(struct rc_pid_event_buffer *buf,
int index, int rate);
void rate_control_pid_event_tx_rate(struct rc_pid_event_buffer *buf,
int index, int rate);
void rate_control_pid_event_pf_sample(struct rc_pid_event_buffer *buf,
s32 pf_sample, s32 prop_err,
s32 int_err, s32 der_err);
void rate_control_pid_add_sta_debugfs(void *priv, void *priv_sta,
struct dentry *dir);
void rate_control_pid_remove_sta_debugfs(void *priv, void *priv_sta);
struct rc_pid_sta_info {
unsigned long last_change;
unsigned long last_sample;
u32 tx_num_failed;
u32 tx_num_xmit;
/* Average failed frames percentage error (i.e. actual vs. target
* percentage), scaled by RC_PID_SMOOTHING. This value is computed
* using using an exponential weighted average technique:
*
* (RC_PID_SMOOTHING - 1) * err_avg_old + err
* err_avg = ------------------------------------------
* RC_PID_SMOOTHING
*
* where err_avg is the new approximation, err_avg_old the previous one
* and err is the error w.r.t. to the current failed frames percentage
* sample. Note that the bigger RC_PID_SMOOTHING the more weight is
* given to the previous estimate, resulting in smoother behavior (i.e.
* corresponding to a longer integration window).
*
* For computation, we actually don't use the above formula, but this
* one:
*
* err_avg_scaled = err_avg_old_scaled - err_avg_old + err
*
* where:
* err_avg_scaled = err * RC_PID_SMOOTHING
* err_avg_old_scaled = err_avg_old * RC_PID_SMOOTHING
*
* This avoids floating point numbers and the per_failed_old value can
* easily be obtained by shifting per_failed_old_scaled right by
* RC_PID_SMOOTHING_SHIFT.
*/
s32 err_avg_sc;
/* Last framed failes percentage sample. */
u32 last_pf;
/* Sharpening needed. */
u8 sharp_cnt;
#ifdef CONFIG_MAC80211_DEBUGFS
/* Event buffer */
struct rc_pid_event_buffer events;
/* Events debugfs file entry */
struct dentry *events_entry;
#endif
};
/* Algorithm parameters. We keep them on a per-algorithm approach, so they can
* be tuned individually for each interface.
*/
struct rc_pid_rateinfo {
/* Map sorted rates to rates in ieee80211_hw_mode. */
int index;
/* Map rates in ieee80211_hw_mode to sorted rates. */
int rev_index;
/* Did we do any measurement on this rate? */
bool valid;
/* Comparison with the lowest rate. */
int diff;
};
struct rc_pid_info {
/* The failed frames percentage target. */
unsigned int target;
/* Rate at which failed frames percentage is sampled in 0.001s. */
unsigned int sampling_period;
/* P, I and D coefficients. */
int coeff_p;
int coeff_i;
int coeff_d;
/* Exponential averaging shift. */
unsigned int smoothing_shift;
/* Sharpening shift and duration. */
unsigned int sharpen_shift;
unsigned int sharpen_duration;
/* Normalization offset. */
unsigned int norm_offset;
/* Fast starst parameter. */
unsigned int fast_start;
/* Rates information. */
struct rc_pid_rateinfo *rinfo;
/* Index of the last used rate. */
int oldrate;
};
#endif /* RC80211_PID_H */
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