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Release 4.7 drivers/net/wireless/ath/dfs_pattern_detector.c

/*
 * Copyright (c) 2012 Neratec Solutions AG
 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

#include <linux/slab.h>
#include <linux/export.h>

#include "dfs_pattern_detector.h"
#include "dfs_pri_detector.h"
#include "ath.h"

/**
 * struct radar_types - contains array of patterns defined for one DFS domain
 * @domain: DFS regulatory domain
 * @num_radar_types: number of radar types to follow
 * @radar_types: radar types array
 */

struct radar_types {
	
enum nl80211_dfs_regions region;
	
u32 num_radar_types;
	
const struct radar_detector_specs *radar_types;
};

/* percentage on ppb threshold to trigger detection */

#define MIN_PPB_THRESH	50

#define PPB_THRESH_RATE(PPB, RATE) ((PPB * RATE + 100 - RATE) / 100)

#define PPB_THRESH(PPB) PPB_THRESH_RATE(PPB, MIN_PPB_THRESH)

#define PRF2PRI(PRF) ((1000000 + PRF / 2) / PRF)
/* percentage of pulse width tolerance */

#define WIDTH_TOLERANCE 5

#define WIDTH_LOWER(X) ((X*(100-WIDTH_TOLERANCE)+50)/100)

#define WIDTH_UPPER(X) ((X*(100+WIDTH_TOLERANCE)+50)/100)


#define ETSI_PATTERN(ID, WMIN, WMAX, PMIN, PMAX, PRF, PPB, CHIRP)	\
{                                                               \
        ID, WIDTH_LOWER(WMIN), WIDTH_UPPER(WMAX),               \
        (PRF2PRI(PMAX) - PRI_TOLERANCE),                        \
        (PRF2PRI(PMIN) * PRF + PRI_TOLERANCE), PRF, PPB * PRF,  \
        PPB_THRESH(PPB), PRI_TOLERANCE, CHIRP                   \
}

/* radar types as defined by ETSI EN-301-893 v1.5.1 */

static const struct radar_detector_specs etsi_radar_ref_types_v15[] = {
	ETSI_PATTERN(0,  0,  1,  700,  700, 1, 18, false),
	ETSI_PATTERN(1,  0,  5,  200, 1000, 1, 10, false),
	ETSI_PATTERN(2,  0, 15,  200, 1600, 1, 15, false),
	ETSI_PATTERN(3,  0, 15, 2300, 4000, 1, 25, false),
	ETSI_PATTERN(4, 20, 30, 2000, 4000, 1, 20, false),
	ETSI_PATTERN(5,  0,  2,  300,  400, 3, 10, false),
	ETSI_PATTERN(6,  0,  2,  400, 1200, 3, 15, false),
};


static const struct radar_types etsi_radar_types_v15 = {
	.region			= NL80211_DFS_ETSI,
	.num_radar_types	= ARRAY_SIZE(etsi_radar_ref_types_v15),
	.radar_types		= etsi_radar_ref_types_v15,
};


#define FCC_PATTERN(ID, WMIN, WMAX, PMIN, PMAX, PRF, PPB, CHIRP)	\
{                                                               \
        ID, WIDTH_LOWER(WMIN), WIDTH_UPPER(WMAX),               \
        PMIN - PRI_TOLERANCE,                                   \
        PMAX * PRF + PRI_TOLERANCE, PRF, PPB * PRF,             \
        PPB_THRESH(PPB), PRI_TOLERANCE, CHIRP                   \
}

/* radar types released on August 14, 2014
 * type 1 PRI values randomly selected within the range of 518 and 3066.
 * divide it to 3 groups is good enough for both of radar detection and
 * avoiding false detection based on practical test results
 * collected for more than a year.
 */

static const struct radar_detector_specs fcc_radar_ref_types[] = {
	FCC_PATTERN(0, 0, 1, 1428, 1428, 1, 18, false),
	FCC_PATTERN(101, 0, 1, 518, 938, 1, 57, false),
	FCC_PATTERN(102, 0, 1, 938, 2000, 1, 27, false),
	FCC_PATTERN(103, 0, 1, 2000, 3066, 1, 18, false),
	FCC_PATTERN(2, 0, 5, 150, 230, 1, 23, false),
	FCC_PATTERN(3, 6, 10, 200, 500, 1, 16, false),
	FCC_PATTERN(4, 11, 20, 200, 500, 1, 12, false),
	FCC_PATTERN(5, 50, 100, 1000, 2000, 1, 1, true),
	FCC_PATTERN(6, 0, 1, 333, 333, 1, 9, false),
};


static const struct radar_types fcc_radar_types = {
	.region			= NL80211_DFS_FCC,
	.num_radar_types	= ARRAY_SIZE(fcc_radar_ref_types),
	.radar_types		= fcc_radar_ref_types,
};


#define JP_PATTERN(ID, WMIN, WMAX, PMIN, PMAX, PRF, PPB, RATE, CHIRP)	\
{                                                               \
        ID, WIDTH_LOWER(WMIN), WIDTH_UPPER(WMAX),               \
        PMIN - PRI_TOLERANCE,                                   \
        PMAX * PRF + PRI_TOLERANCE, PRF, PPB * PRF,             \
        PPB_THRESH_RATE(PPB, RATE), PRI_TOLERANCE, CHIRP        \
}

static const struct radar_detector_specs jp_radar_ref_types[] = {
	JP_PATTERN(0, 0, 1, 1428, 1428, 1, 18, 29, false),
	JP_PATTERN(1, 2, 3, 3846, 3846, 1, 18, 29, false),
	JP_PATTERN(2, 0, 1, 1388, 1388, 1, 18, 50, false),
	JP_PATTERN(3, 1, 2, 4000, 4000, 1, 18, 50, false),
	JP_PATTERN(4, 0, 5, 150, 230, 1, 23, 50, false),
	JP_PATTERN(5, 6, 10, 200, 500, 1, 16, 50, false),
	JP_PATTERN(6, 11, 20, 200, 500, 1, 12, 50, false),
	JP_PATTERN(7, 50, 100, 1000, 2000, 1, 3, 50, false),
	JP_PATTERN(5, 0, 1, 333, 333, 1, 9, 50, false),
};


static const struct radar_types jp_radar_types = {
	.region			= NL80211_DFS_JP,
	.num_radar_types	= ARRAY_SIZE(jp_radar_ref_types),
	.radar_types		= jp_radar_ref_types,
};


static const struct radar_types *dfs_domains[] = {
	&etsi_radar_types_v15,
	&fcc_radar_types,
	&jp_radar_types,
};

/**
 * get_dfs_domain_radar_types() - get radar types for a given DFS domain
 * @param domain DFS domain
 * @return radar_types ptr on success, NULL if DFS domain is not supported
 */

static const struct radar_types * get_dfs_domain_radar_types(enum nl80211_dfs_regions region) { u32 i; for (i = 0; i < ARRAY_SIZE(dfs_domains); i++) { if (dfs_domains[i]->region == region) return dfs_domains[i]; } return NULL; }

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/** * struct channel_detector - detector elements for a DFS channel * @head: list_head * @freq: frequency for this channel detector in MHz * @detectors: array of dynamically created detector elements for this freq * * Channel detectors are required to provide multi-channel DFS detection, e.g. * to support off-channel scanning. A pattern detector has a list of channels * radar pulses have been reported for in the past. */ struct channel_detector { struct list_head head; u16 freq; struct pri_detector **detectors; }; /* channel_detector_reset() - reset detector lines for a given channel */
static void channel_detector_reset(struct dfs_pattern_detector *dpd, struct channel_detector *cd) { u32 i; if (cd == NULL) return; for (i = 0; i < dpd->num_radar_types; i++) cd->detectors[i]->reset(cd->detectors[i], dpd->last_pulse_ts); }

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/* channel_detector_exit() - destructor */
static void channel_detector_exit(struct dfs_pattern_detector *dpd, struct channel_detector *cd) { u32 i; if (cd == NULL) return; list_del(&cd->head); for (i = 0; i < dpd->num_radar_types; i++) { struct pri_detector *de = cd->detectors[i]; if (de != NULL) de->exit(de); } kfree(cd->detectors); kfree(cd); }

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static struct channel_detector * channel_detector_create(struct dfs_pattern_detector *dpd, u16 freq) { u32 sz, i; struct channel_detector *cd; cd = kmalloc(sizeof(*cd), GFP_ATOMIC); if (cd == NULL) goto fail; INIT_LIST_HEAD(&cd->head); cd->freq = freq; sz = sizeof(cd->detectors) * dpd->num_radar_types; cd->detectors = kzalloc(sz, GFP_ATOMIC); if (cd->detectors == NULL) goto fail; for (i = 0; i < dpd->num_radar_types; i++) { const struct radar_detector_specs *rs = &dpd->radar_spec[i]; struct pri_detector *de = pri_detector_init(rs); if (de == NULL) goto fail; cd->detectors[i] = de; } list_add(&cd->head, &dpd->channel_detectors); return cd; fail: ath_dbg(dpd->common, DFS, "failed to allocate channel_detector for freq=%d\n", freq); channel_detector_exit(dpd, cd); return NULL; }

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/** * channel_detector_get() - get channel detector for given frequency * @param dpd instance pointer * @param freq frequency in MHz * @return pointer to channel detector on success, NULL otherwise * * Return existing channel detector for the given frequency or return a * newly create one. */
static struct channel_detector * channel_detector_get(struct dfs_pattern_detector *dpd, u16 freq) { struct channel_detector *cd; list_for_each_entry(cd, &dpd->channel_detectors, head) { if (cd->freq == freq) return cd; } return channel_detector_create(dpd, freq); }

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/* * DFS Pattern Detector */ /* dpd_reset(): reset all channel detectors */
static void dpd_reset(struct dfs_pattern_detector *dpd) { struct channel_detector *cd; if (!list_empty(&dpd->channel_detectors)) list_for_each_entry(cd, &dpd->channel_detectors, head) channel_detector_reset(dpd, cd); }

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static void dpd_exit(struct dfs_pattern_detector *dpd) { struct channel_detector *cd, *cd0; if (!list_empty(&dpd->channel_detectors)) list_for_each_entry_safe(cd, cd0, &dpd->channel_detectors, head) channel_detector_exit(dpd, cd); kfree(dpd); }

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static bool dpd_add_pulse(struct dfs_pattern_detector *dpd, struct pulse_event *event) { u32 i; struct channel_detector *cd; /* * pulses received for a non-supported or un-initialized * domain are treated as detected radars for fail-safety */ if (dpd->region == NL80211_DFS_UNSET) return true; cd = channel_detector_get(dpd, event->freq); if (cd == NULL) return false; /* reset detector on time stamp wraparound, caused by TSF reset */ if (event->ts < dpd->last_pulse_ts) dpd_reset(dpd); dpd->last_pulse_ts = event->ts; /* do type individual pattern matching */ for (i = 0; i < dpd->num_radar_types; i++) { struct pri_detector *pd = cd->detectors[i]; struct pri_sequence *ps = pd->add_pulse(pd, event); if (ps != NULL) { ath_dbg(dpd->common, DFS, "DFS: radar found on freq=%d: id=%d, pri=%d, " "count=%d, count_false=%d\n", event->freq, pd->rs->type_id, ps->pri, ps->count, ps->count_falses); pd->reset(pd, dpd->last_pulse_ts); return true; } } return false; }

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static struct ath_dfs_pool_stats dpd_get_stats(struct dfs_pattern_detector *dpd) { return global_dfs_pool_stats; }

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static bool dpd_set_domain(struct dfs_pattern_detector *dpd, enum nl80211_dfs_regions region) { const struct radar_types *rt; struct channel_detector *cd, *cd0; if (dpd->region == region) return true; dpd->region = NL80211_DFS_UNSET; rt = get_dfs_domain_radar_types(region); if (rt == NULL) return false; /* delete all channel detectors for previous DFS domain */ if (!list_empty(&dpd->channel_detectors)) list_for_each_entry_safe(cd, cd0, &dpd->channel_detectors, head) channel_detector_exit(dpd, cd); dpd->radar_spec = rt->radar_types; dpd->num_radar_types = rt->num_radar_types; dpd->region = region; return true; }

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static struct dfs_pattern_detector default_dpd = { .exit = dpd_exit, .set_dfs_domain = dpd_set_domain, .add_pulse = dpd_add_pulse, .get_stats = dpd_get_stats, .region = NL80211_DFS_UNSET, };
struct dfs_pattern_detector * dfs_pattern_detector_init(struct ath_common *common, enum nl80211_dfs_regions region) { struct dfs_pattern_detector *dpd; if (!config_enabled(CONFIG_CFG80211_CERTIFICATION_ONUS)) return NULL; dpd = kmalloc(sizeof(*dpd), GFP_KERNEL); if (dpd == NULL) return NULL; *dpd = default_dpd; INIT_LIST_HEAD(&dpd->channel_detectors); dpd->common = common; if (dpd->set_dfs_domain(dpd, region)) return dpd; ath_dbg(common, DFS,"Could not set DFS domain to %d", region); kfree(dpd); return NULL; }

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EXPORT_SYMBOL(dfs_pattern_detector_init);

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