Add support for bee equalization algorithm used by kr training: 3-Taps Bit Edge Equalization (BEE) algorithm Signed-off-by: Florinel Iordache <florinel.iordache@xxxxxxx> --- drivers/net/phy/backplane/Kconfig | 11 + drivers/net/phy/backplane/Makefile | 1 + drivers/net/phy/backplane/eq_bee.c | 1076 ++++++++++++++++++++++++++++++++++++ 3 files changed, 1088 insertions(+) create mode 100644 drivers/net/phy/backplane/eq_bee.c diff --git a/drivers/net/phy/backplane/Kconfig b/drivers/net/phy/backplane/Kconfig index 3e20a78..ee5cf1c 100644 --- a/drivers/net/phy/backplane/Kconfig +++ b/drivers/net/phy/backplane/Kconfig @@ -19,6 +19,17 @@ config ETH_BACKPLANE_FIXED No Equalization algorithm is used to adapt the initial coefficients initially set by the user. +config ETH_BACKPLANE_BEE + tristate "3-Taps Bit Edge Equalization (BEE) algorithm" + depends on ETH_BACKPLANE + help + This module provides a driver for BEE algorithm: 3-Taps + Bit Edge Equalization. This algorithm is using a method + based on 3-taps coefficients for mitigating intersymbol + interference (ISI) in high-speed backplane applications. + The initial values for algorithm coefficient values are + user configurable and used as a starting point of the algorithm. + config ETH_BACKPLANE_QORIQ tristate "QorIQ Ethernet Backplane driver" depends on ETH_BACKPLANE diff --git a/drivers/net/phy/backplane/Makefile b/drivers/net/phy/backplane/Makefile index d8f95ac..242e938 100644 --- a/drivers/net/phy/backplane/Makefile +++ b/drivers/net/phy/backplane/Makefile @@ -5,6 +5,7 @@ obj-$(CONFIG_ETH_BACKPLANE) += eth_backplane.o obj-$(CONFIG_ETH_BACKPLANE_FIXED) += eq_fixed.o +obj-$(CONFIG_ETH_BACKPLANE_BEE) += eq_bee.o obj-$(CONFIG_ETH_BACKPLANE_QORIQ) += eth_backplane_qoriq.o eth_backplane-objs := backplane.o link_training.o diff --git a/drivers/net/phy/backplane/eq_bee.c b/drivers/net/phy/backplane/eq_bee.c new file mode 100644 index 0000000..99f8e64 --- /dev/null +++ b/drivers/net/phy/backplane/eq_bee.c @@ -0,0 +1,1076 @@ +// SPDX-License-Identifier: (GPL-2.0+ OR BSD-3-Clause) +/* 3-Taps Bit Edge Equalization (BEE) algorithm + * + * Copyright 2019-2020 NXP + */ + +#include <linux/kernel.h> +#include <linux/module.h> + +#include "equalization.h" + +#define ALGORITHM_NAME "backplane_bee_3tap" +#define ALGORITHM_DESCR "3-Taps Bit Edge Equalization" +#define ALGORITHM_VERSION "1.5.5" + +/* BEE algorithm timeouts */ +#define TIMEOUT_LONG 3 +#define TIMEOUT_M1 3 + +/* Size of equalization snapshots data collection */ +#define EQ_SNAPSHOTS_SIZE 10 + +/* Rx link quality conditions: + * The following macros are used to determine the Rx link quality + * which is used to decide if/when to proceed with BinLong/BinM1 modules. + * The code that considers Rx in good quality is always in place: + * Rx link is in 'good quality' if: + * Bin1, Bin2 and Bin3 are toggling + * + * These macros are used to enable less quality link conditions. + * If Rx link quality is considered good enough then proceed to BinLong/BinM1 + */ + +/* Rx is 'less quality' if: + * Bin1 is toggling + * AND + * Bin2 is Early, GainMF stuck at max_eq_gain and Bin3 is Late + * OR + * Bin2 is Late, GainMF stuck at min_eq_gain and Bin3 is Early + */ +#define ENABLE_LESS_QUALITY_CONDITION + +/* Rx is 'even less quality' if: + * Bin1 is Early AND GainHF stuck at max_eq_gain and Bin2 is Late AND + * GainMF stuck at min_eq_gain + * OR + * Bin1 is Late AND GainHF stuck at min_eq_gain AND + * Bin2 is Early, GainMF stuck at max_eq_gain + */ +#define ENABLE_EVEN_LESS_QUALITY_CONDITION + +/* Rx is 'seemingly quality' if: + * Bin1 is always Late for all snapshots AND + * GainHF is stuck at min_eq_gain + * AND + * Bin2 and Bin3 are both Toggling + */ +#define ENABLE_SEEMINGLY_QUALITY_CONDITION + +enum bin_state { + BIN_INVALID, + BIN_EARLY, + BIN_TOGGLE, + BIN_LATE +}; + +struct eq_data_priv { + /* Equalization Algorithm setup data */ + struct equalizer_driver eqdrv; + + /* Bin state */ + enum bin_state bin_m1_state; + enum bin_state bin_long_state; + enum bin_state prev_bin_m1_state; + enum bin_state prev_bin_long_state; + + /* Bin training status */ + bool bin_m1_stop; + bool bin_long_stop; + int m1_min_max_cnt; + int long_min_max_cnt; + + /* Algorithm controlled value */ + u32 ld_update; + + /* Bit edge statistics: Bin snapshots */ + s16 bin1_snapshot[EQ_SNAPSHOTS_SIZE]; + s16 bin2_snapshot[EQ_SNAPSHOTS_SIZE]; + s16 bin3_snapshot[EQ_SNAPSHOTS_SIZE]; + s16 bin_long_snapshot[EQ_SNAPSHOTS_SIZE]; + s16 bin_m1_snapshot[EQ_SNAPSHOTS_SIZE]; + s16 bin_offset_snapshot[EQ_SNAPSHOTS_SIZE]; + + /* Gain snapshots */ + u8 gain_hf_snapshot[EQ_SNAPSHOTS_SIZE]; + u8 gain_mf_snapshot[EQ_SNAPSHOTS_SIZE]; + + /* Offset status snapshot */ + u8 osestat_snapshot[EQ_SNAPSHOTS_SIZE]; +}; + +static enum bin_state get_bin_snapshots_state(struct eq_data_priv *priv, + enum eqc_type type) +{ + s16 bin_snp_av_thr_low, bin_snp_av_thr_high; + s16 snapshot_average, snapshot_sum = 0; + struct eqc_range *bin_range; + s16 *bin_snapshot; + int i; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return BIN_INVALID; + } + + switch (type) { + case EQC_BIN_1: + bin_snapshot = priv->bin1_snapshot; + break; + case EQC_BIN_2: + bin_snapshot = priv->bin2_snapshot; + break; + case EQC_BIN_3: + bin_snapshot = priv->bin3_snapshot; + break; + case EQC_BIN_LONG: + bin_snapshot = priv->bin_long_snapshot; + break; + case EQC_BIN_OFFSET: + bin_snapshot = priv->bin_offset_snapshot; + break; + case EQC_BIN_M1: + bin_snapshot = priv->bin_m1_snapshot; + break; + default: + /* invalid bin type */ + return BIN_INVALID; + } + if (!bin_snapshot) + return BIN_INVALID; + + bin_range = priv->eqdrv.equalizer->ops.get_counter_range(type); + if (!bin_range) + return BIN_INVALID; + + bin_snp_av_thr_low = bin_range->mid_low; + bin_snp_av_thr_high = bin_range->mid_high; + + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) + snapshot_sum += bin_snapshot[i]; + + snapshot_average = (s16)(snapshot_sum / EQ_SNAPSHOTS_SIZE); + + if (snapshot_average >= -256 && snapshot_average < bin_snp_av_thr_low) + return BIN_EARLY; + else if (snapshot_average >= bin_snp_av_thr_low && + snapshot_average < bin_snp_av_thr_high) + return BIN_TOGGLE; + else if (snapshot_average >= bin_snp_av_thr_high && + snapshot_average <= 255) + return BIN_LATE; + + return BIN_INVALID; +} + +static u32 process_bin_m1_toggle(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum req_type prev_req_cm1; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + prev_req_cm1 = lt_decode_coef_update(priv->ld_update, C_M1); + + /* Toggle path */ + if (priv->prev_bin_m1_state == priv->bin_m1_state) { + /* Hold C- */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + update = lt_encode_startup_request(REQ_HOLD); + /* If previous step moved C- repeat C- move */ + if (prev_req_cm1 == REQ_INC || + prev_req_cm1 == REQ_DEC) + update = lt_encode_request(update, prev_req_cm1, C_M1); + } + + return update; +} + +static u32 process_bin_m1_prev_toggle(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum req_type prev_req_cm1; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + prev_req_cm1 = lt_decode_coef_update(priv->ld_update, C_M1); + + update = lt_encode_startup_request(REQ_HOLD); + /* If previous step moved C- go back on C- */ + if (prev_req_cm1 == REQ_INC) + update = lt_encode_request(update, REQ_DEC, C_M1); + if (prev_req_cm1 == REQ_DEC) + update = lt_encode_request(update, REQ_INC, C_M1); + + return update; +} + +static u32 process_bin_m1_early(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum coef_status lpst_cm1; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + /* Get LP coefficient status to determine + * if coefficient is in range or reached the limit thresholds + * IF the coefficient is at MIN/MAX and still want to INC/DEC + * THEN do we are done with this module + */ + lpst_cm1 = lt_get_lp_coef_status(priv->eqdrv.lane, C_M1); + + /* Early path */ + if (lpst_cm1 == COEF_MAX) { + /* Hold C- */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + /* request Increment C- */ + update = lt_encode_request(update, REQ_INC, C_M1); + } + + return update; +} + +static u32 process_bin_m1_late(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum coef_status lpst_cm1; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + /* Get LP coefficient status to determine + * if coefficient is in range or reached the limit thresholds + * IF the coefficient is at MIN/MAX and still want to INC/DEC + * THEN do we are done with this module + */ + lpst_cm1 = lt_get_lp_coef_status(priv->eqdrv.lane, C_M1); + + /* Late path */ + if (lpst_cm1 == COEF_MIN) { + /* Hold C- */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + /* request Decrement C- */ + update = lt_encode_request(update, REQ_DEC, C_M1); + } + + return update; +} + +static u32 process_bin_m1_antipodal(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + if (priv->bin_m1_state == BIN_LATE) { + /* request Decrement C- */ + update = lt_encode_request(update, REQ_DEC, C_M1); + } else { + /* Hold C- */ + update = lt_encode_startup_request(REQ_HOLD); + } + + return update; +} + +/* process_bin_m1 + * + * Bin_M1: + * contains the scoring of initial edges on pulses that are 1UI long + * following non-single bits + * used to adjust LP coefficient: C_M1 + */ +static void process_bin_m1(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return; + } + + if (priv->bin_m1_state == BIN_INVALID) { + bpdev_err(priv->eqdrv.phydev, "Invalid Bin_M1 state\n"); + return; + } + + if (priv->bin_m1_state == BIN_TOGGLE) { + update = process_bin_m1_toggle(priv); + } else { + if (priv->prev_bin_m1_state == BIN_TOGGLE) { + update = process_bin_m1_prev_toggle(priv); + } else { + if (priv->prev_bin_m1_state == priv->bin_m1_state) { + if (priv->bin_m1_state == BIN_LATE) + update = process_bin_m1_late(priv); + else + update = process_bin_m1_early(priv); + } else { + update = process_bin_m1_antipodal(priv); + } + } + } + + /* Store current algorithm decision + * as previous algorithm ld_update for next step + */ + priv->ld_update = update; +} + +static u32 process_bin_long_toggle(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum req_type prev_req_cp1, prev_req_cz0; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + prev_req_cp1 = lt_decode_coef_update(priv->ld_update, C_P1); + prev_req_cz0 = lt_decode_coef_update(priv->ld_update, C_Z0); + + /* Toggle path */ + if (priv->prev_bin_long_state == priv->bin_long_state) { + /* Hold C+ and C0 */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + update = lt_encode_startup_request(REQ_HOLD); + /* If previous step moved C+/C0 repeat C+/C0 move */ + if (prev_req_cp1 == REQ_INC || + prev_req_cp1 == REQ_DEC || + prev_req_cz0 == REQ_INC || + prev_req_cz0 == REQ_DEC) { + update = lt_encode_request(update, prev_req_cp1, C_P1); + update = lt_encode_request(update, prev_req_cz0, C_Z0); + } + } + + return update; +} + +static u32 process_bin_long_prev_toggle(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum req_type prev_req_cp1, prev_req_cz0; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + prev_req_cp1 = lt_decode_coef_update(priv->ld_update, C_P1); + prev_req_cz0 = lt_decode_coef_update(priv->ld_update, C_Z0); + + /* If previous step moved C+/C0 then go back on C+/C0 */ + if (prev_req_cp1 == REQ_INC) + update = lt_encode_request(update, REQ_DEC, C_P1); + if (prev_req_cp1 == REQ_DEC) + update = lt_encode_request(update, REQ_INC, C_P1); + if (prev_req_cz0 == REQ_INC) + update = lt_encode_request(update, REQ_DEC, C_Z0); + if (prev_req_cz0 == REQ_DEC) + update = lt_encode_request(update, REQ_INC, C_Z0); + + return update; +} + +static u32 process_bin_long_early(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum coef_status lpst_cp1, lpst_cz0; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + /* Get LP coefficient status to determine + * if coefficient is in range or reached the limit thresholds + * IF the coefficient is at MIN/MAX and still want to INC/DEC + * THEN do we are done with this module + */ + lpst_cp1 = lt_get_lp_coef_status(priv->eqdrv.lane, C_P1); + lpst_cz0 = lt_get_lp_coef_status(priv->eqdrv.lane, C_Z0); + + /* Early path (make edge later) */ + if (lpst_cp1 == COEF_MAX) { + if (lpst_cz0 == COEF_MAX) { + /* Hold C+, C0 */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + /* request Increment C0 and + * Decrement C+ + */ + update = lt_encode_request(update, REQ_INC, C_Z0); + update = lt_encode_request(update, REQ_DEC, C_P1); + } + } else { + /* request Increment C+ */ + update = lt_encode_request(update, REQ_INC, C_P1); + } + + return update; +} + +static u32 process_bin_long_late(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum coef_status lpst_cp1, lpst_cz0; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + /* Get LP coefficient status to determine + * if coefficient is in range or reached the limit thresholds + * IF the coefficient is at MIN/MAX and still want to INC/DEC + * THEN do we are done with this module + */ + lpst_cp1 = lt_get_lp_coef_status(priv->eqdrv.lane, C_P1); + lpst_cz0 = lt_get_lp_coef_status(priv->eqdrv.lane, C_Z0); + + /* Late path (make edge earlier) */ + if (lpst_cp1 == COEF_MIN) { + if (lpst_cz0 == COEF_MIN) { + /* Hold C0 */ + update = lt_encode_startup_request(REQ_HOLD); + } else { + /* request Decrement C0 */ + update = lt_encode_request(update, REQ_DEC, C_Z0); + } + } else { + /* request Decrement C+ */ + update = lt_encode_request(update, REQ_DEC, C_P1); + } + + return update; +} + +static u32 process_bin_long_antipodal(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + enum req_type prev_req_cp1; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return update; + } + + prev_req_cp1 = lt_decode_coef_update(priv->ld_update, C_P1); + + /* Request move on C+ and C0 */ + /* If previous step moved C+ then go back on C+ */ + if (prev_req_cp1 == REQ_INC) + update = lt_encode_request(update, REQ_DEC, C_P1); + if (prev_req_cp1 == REQ_DEC) + update = lt_encode_request(update, REQ_INC, C_P1); + + if (priv->bin_long_state == BIN_LATE) { + /* request Decrement C0 */ + update = lt_encode_request(update, REQ_DEC, C_Z0); + } else { + /* request Increment C0 */ + update = lt_encode_request(update, REQ_INC, C_Z0); + } + + return update; +} + +/* process_bin_long + * + * Bin_Long: + * contains the scoring of final edges on pulses longer than 7UI long + * used to adjust LP coefficients: C_P1 and C_Z0 + */ +static void process_bin_long(struct eq_data_priv *priv) +{ + u32 update = lt_encode_startup_request(REQ_HOLD); + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return; + } + + if (priv->bin_long_state == BIN_INVALID) { + bpdev_err(priv->eqdrv.phydev, "Invalid Bin_Long state\n"); + return; + } + + if (priv->bin_long_state == BIN_TOGGLE) { + update = process_bin_long_toggle(priv); + } else { + if (priv->prev_bin_long_state == BIN_TOGGLE) { + update = process_bin_long_prev_toggle(priv); + } else { + if (priv->prev_bin_long_state == priv->bin_long_state) { + if (priv->bin_long_state == BIN_LATE) + update = process_bin_long_late(priv); + else + update = process_bin_long_early(priv); + } else { + update = process_bin_long_antipodal(priv); + } + } + } + + /* Store current algorithm decision + * as previous algorithm ld_update for next step + */ + priv->ld_update = update; +} + +/* Callbacks: + * required by generic equalization_algorithm + */ +static void process_bad_state(struct eq_data_priv *priv) +{ + bool lp_at_init, lp_at_preset; + u32 req; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return; + } + + lp_at_init = lt_is_lp_at_startup(priv->eqdrv.lane, REQ_INIT); + lp_at_preset = lt_is_lp_at_startup(priv->eqdrv.lane, REQ_PRESET); + + if (lp_at_init) { + /* Try Request Preset */ + req = lt_encode_startup_request(REQ_PRESET); + lt_lp_update(priv->eqdrv.lane, req); + } else if (lp_at_preset) { + /* LT ERROR + * set lt_error flag to prevent reaching + * training state = TRAINED + * and resume training in case of LT error + */ + lt_set_error(priv->eqdrv.lane, true); + bpdev_err(priv->eqdrv.phydev, + "LT Error: CDR_LOCK is zero on Preset\n"); + } else { + /* Move LP back to previous C-, C0, C+ and HOLD */ + lt_move_lp_back(priv->eqdrv.lane); + } +} + +static bool collect_bin_counters(struct eq_data_priv *priv, + enum eqc_type type) +{ + const struct equalizer_ops *eqops; + s16 *bin_snapshot = NULL; + int snp_size; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return false; + } + + /* collect Bin snapshots */ + switch (type) { + case EQC_BIN_1: + bin_snapshot = priv->bin1_snapshot; + break; + case EQC_BIN_2: + bin_snapshot = priv->bin2_snapshot; + break; + case EQC_BIN_3: + bin_snapshot = priv->bin3_snapshot; + break; + case EQC_BIN_LONG: + bin_snapshot = priv->bin_long_snapshot; + break; + case EQC_BIN_OFFSET: + bin_snapshot = priv->bin_offset_snapshot; + break; + case EQC_BIN_M1: + bin_snapshot = priv->bin_m1_snapshot; + break; + default: + /* invalid bin type */ + return false; + } + if (!bin_snapshot) + return false; + + eqops = &priv->eqdrv.equalizer->ops; + if (!eqops) { + bpdev_err(priv->eqdrv.phydev, + "No operations for equalizer %s %s\n", + priv->eqdrv.equalizer->name, + priv->eqdrv.equalizer->version); + return false; + } + snp_size = eqops->collect_counters(priv->eqdrv.reg_base, type, + bin_snapshot, EQ_SNAPSHOTS_SIZE); + /* Check if snapshots collection failed */ + if (snp_size < EQ_SNAPSHOTS_SIZE) { + bpdev_err(priv->eqdrv.phydev, + "Counters collection failed for equalizer %s %s\n", + priv->eqdrv.equalizer->name, + priv->eqdrv.equalizer->version); + return false; + } + + /* if CDR_LOCK = 0: Statistics are invalid */ + if (!backplane_is_cdr_lock(priv->eqdrv.lane, true)) { + process_bad_state(priv); + return false; + } + + return true; +} + +static bool collect_bit_edge_statistics(struct eq_data_priv *priv) +{ + enum eqc_type st_types[] = { EQC_GAIN_HF, EQC_GAIN_MF, EQC_EQOFFSET }; + s16 status_counters[ARRAY_SIZE(st_types)][EQ_SNAPSHOTS_SIZE]; + const struct equalizer_ops *eqops; + int i, snp_size; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return false; + } + + /* collect Bin snapshots */ + if (!collect_bin_counters(priv, EQC_BIN_1)) + return false; + if (!collect_bin_counters(priv, EQC_BIN_2)) + return false; + if (!collect_bin_counters(priv, EQC_BIN_3)) + return false; + if (!collect_bin_counters(priv, EQC_BIN_LONG)) + return false; + if (!collect_bin_counters(priv, EQC_BIN_OFFSET)) + return false; + if (!collect_bin_counters(priv, EQC_BIN_M1)) + return false; + + /* collect Gains */ + eqops = &priv->eqdrv.equalizer->ops; + if (!eqops) { + bpdev_err(priv->eqdrv.phydev, + "No operations for equalizer %s %s\n", + priv->eqdrv.equalizer->name, + priv->eqdrv.equalizer->version); + return false; + } + snp_size = eqops->collect_multiple_counters(priv->eqdrv.reg_base, + st_types, + ARRAY_SIZE(st_types), + (s16 *)status_counters, + EQ_SNAPSHOTS_SIZE); + /* Check if snapshots collection failed */ + if (snp_size < EQ_SNAPSHOTS_SIZE) { + bpdev_err(priv->eqdrv.phydev, + "Counters collection failed for equalizer %s %s\n", + priv->eqdrv.equalizer->name, + priv->eqdrv.equalizer->version); + return false; + } + + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + priv->gain_hf_snapshot[i] = (u8)status_counters[0][i]; + priv->gain_mf_snapshot[i] = (u8)status_counters[1][i]; + priv->osestat_snapshot[i] = (u8)status_counters[2][i]; + } + + return true; +} + +static void generate_3taps_request(struct eq_data_priv *priv) +{ + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return; + } + + /* Store current state as previous state */ + priv->prev_bin_m1_state = priv->bin_m1_state; + priv->prev_bin_long_state = priv->bin_long_state; + + priv->bin_m1_state = get_bin_snapshots_state(priv, EQC_BIN_M1); + if (priv->bin_m1_state == BIN_INVALID) { + /* invalid state: should never happen */ + return; + } + + priv->bin_long_state = get_bin_snapshots_state(priv, EQC_BIN_LONG); + if (priv->bin_long_state == BIN_INVALID) { + /* invalid state: should never happen */ + return; + } + + /* Move to BinLong/BinM1 modules: + * Bin Modules order: BinLong before BinM1 + * We try to finish BinLong before we do BinM1 + */ + + /* Process BinLong module + * decide and ask for movement of C+/C0 + */ + if (!priv->bin_long_stop) { + process_bin_long(priv); + lt_lp_update(priv->eqdrv.lane, priv->ld_update); + if (lt_is_update_of_type(priv->ld_update, REQ_HOLD)) { + /* Sent All Hold request */ + priv->long_min_max_cnt++; + if (priv->long_min_max_cnt >= TIMEOUT_LONG) + priv->bin_long_stop = true; + } else { + /* Sent C Inc/Dec request */ + priv->long_min_max_cnt = 0; + } + return; + } + + /* Process BinM1 module + * decide and ask for movement of C- + */ + if (!priv->bin_m1_stop) { + process_bin_m1(priv); + lt_lp_update(priv->eqdrv.lane, priv->ld_update); + if (lt_is_update_of_type(priv->ld_update, REQ_HOLD)) { + /* Sent All Hold request */ + priv->m1_min_max_cnt++; + if (priv->m1_min_max_cnt >= TIMEOUT_M1) + priv->bin_m1_stop = true; + } else { + /* Sent C Inc/Dec request */ + priv->m1_min_max_cnt = 0; + } + return; + } +} + +static bool is_rx_ok(struct eq_data_priv *priv) +{ + struct eqc_range *gain_range, *osestat_range; + u8 osestat_mid_low, osestat_mid_high; + enum bin_state bin1_snapshot_state; + enum bin_state bin2_snapshot_state; + enum bin_state bin3_snapshot_state; + const struct equalizer_ops *eqops; + bool rx_quality_1, rx_quality_2; + bool is_ok, rx_good_quality; + u8 min_eq_gain, max_eq_gain; + u8 min_snp, max_snp; + s16 snapshot; + int i; + + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return false; + } + + /* Checking Bins/Gains after LP has updated its TX */ + eqops = &priv->eqdrv.equalizer->ops; + if (!eqops) + return false; + gain_range = eqops->get_counter_range(EQC_GAIN_HF); + if (!gain_range) + return false; + osestat_range = eqops->get_counter_range(EQC_EQOFFSET); + if (!osestat_range) + return false; + + min_eq_gain = (u8)gain_range->min; + max_eq_gain = (u8)gain_range->max; + osestat_mid_low = (u8)osestat_range->mid_low; + osestat_mid_high = (u8)osestat_range->mid_high; + + /* CDR_LOCK must be 1 */ + if (!backplane_is_cdr_lock(priv->eqdrv.lane, true)) + return false; + + /* Offset Bin must NOT be 10 of the same value */ + rx_good_quality = false; + snapshot = priv->bin_offset_snapshot[0]; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (snapshot != priv->bin_offset_snapshot[i]) { + rx_good_quality = true; + break; + } + } + if (!rx_good_quality) + return false; + + /* Offset status must dither (+/-2) around MidRange value + * What we want to see is that the Offset has settled to a value + * somewhere between: mid-range low and mid-range high and that + * the series of snapshot values are +/-2 of the settled value. + */ + rx_good_quality = true; + min_snp = priv->osestat_snapshot[0]; + max_snp = priv->osestat_snapshot[0]; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->osestat_snapshot[i] < osestat_mid_low || + priv->osestat_snapshot[i] > osestat_mid_high) { + rx_good_quality = false; + break; + } + if (priv->osestat_snapshot[i] < min_snp) + min_snp = priv->osestat_snapshot[i]; + if (priv->osestat_snapshot[i] > max_snp) + max_snp = priv->osestat_snapshot[i]; + } + if (max_snp - min_snp > 4) + rx_good_quality = false; + if (!rx_good_quality) + return false; + + /* The Rx is in good quality if: + * Bin1, Bin2, and Bin3 are toggling + * Proceed to BinLong/BinM1 modules + */ + bin1_snapshot_state = get_bin_snapshots_state(priv, EQC_BIN_1); + bin2_snapshot_state = get_bin_snapshots_state(priv, EQC_BIN_2); + bin3_snapshot_state = get_bin_snapshots_state(priv, EQC_BIN_3); + + rx_good_quality = (bin1_snapshot_state == BIN_TOGGLE && + bin2_snapshot_state == BIN_TOGGLE && + bin3_snapshot_state == BIN_TOGGLE); + + /* If Rx is in good quality then proceed to BinLong/BinM1 */ + if (rx_good_quality) + return true; + +#ifdef ENABLE_LESS_QUALITY_CONDITION + rx_quality_1 = false; + rx_quality_2 = false; + if (bin1_snapshot_state == BIN_TOGGLE) { + if (bin2_snapshot_state == BIN_EARLY && + bin3_snapshot_state == BIN_LATE) { + /* check if GainMF is stuck at max_eq_gain */ + rx_quality_1 = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_mf_snapshot[i] != max_eq_gain) { + rx_quality_1 = false; + break; + } + } + } + if (bin2_snapshot_state == BIN_LATE && + bin3_snapshot_state == BIN_EARLY) { + /* check if GainMF is stuck at min_eq_gain */ + rx_quality_2 = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_mf_snapshot[i] != min_eq_gain) { + rx_quality_2 = false; + break; + } + } + } + } + + /* If Rx is less quality then proceed to BinLong/BinM1 */ + if (rx_quality_1 || rx_quality_2) + return true; +#endif + +#ifdef ENABLE_EVEN_LESS_QUALITY_CONDITION + rx_quality_1 = false; + rx_quality_2 = false; + if (bin1_snapshot_state == BIN_EARLY && + bin2_snapshot_state == BIN_LATE) { + /* check if GainHF is stuck at max_eq_gain */ + is_ok = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_hf_snapshot[i] != max_eq_gain) { + is_ok = false; + break; + } + } + if (is_ok) { + /* check if GainMF is stuck at min_eq_gain */ + is_ok = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_mf_snapshot[i] != min_eq_gain) { + is_ok = false; + break; + } + } + if (is_ok) + rx_quality_1 = true; + } + } + if (bin1_snapshot_state == BIN_LATE && + bin2_snapshot_state == BIN_EARLY) { + /* check if GainHF is stuck at min_eq_gain */ + is_ok = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_hf_snapshot[i] != min_eq_gain) { + is_ok = false; + break; + } + } + if (is_ok) { + /* check if GainMF is stuck at max_eq_gain */ + is_ok = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_mf_snapshot[i] != max_eq_gain) { + is_ok = false; + break; + } + } + if (is_ok) + rx_quality_2 = true; + } + } + + /* If Rx is in good quality then proceed to BinLong/BinM1 */ + if (rx_quality_1 || rx_quality_2) + return true; +#endif + +#ifdef ENABLE_SEEMINGLY_QUALITY_CONDITION + rx_quality_1 = false; + if (bin1_snapshot_state == BIN_LATE && + bin2_snapshot_state == BIN_TOGGLE && + bin3_snapshot_state == BIN_TOGGLE) { + /* check if GainHF is stuck at min_eq_gain */ + rx_quality_1 = true; + for (i = 0; i < EQ_SNAPSHOTS_SIZE; i++) { + if (priv->gain_hf_snapshot[i] != min_eq_gain) { + rx_quality_1 = false; + break; + } + } + } + + if (rx_quality_1) + return true; +#endif + + return false; +} + +static bool is_eq_done(struct eq_data_priv *priv) +{ + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return false; + } + + return (priv->bin_m1_stop && priv->bin_long_stop); +} + +/* BEE 3 TAP Algorithm API */ + +/* Create BEE 3-TAP Equalization Algorithm */ +static struct eq_data_priv *create(struct equalizer_driver eqdrv) +{ + struct eq_data_priv *bee_data; + + bee_data = devm_kzalloc(&eqdrv.phydev->mdio.dev, + sizeof(*bee_data), GFP_KERNEL); + if (!bee_data) + return NULL; + + /* initialize algorithm setup data */ + bee_data->eqdrv = eqdrv; + + /* initialize specific BEE algorithm data */ + bee_data->bin_m1_state = BIN_INVALID; + bee_data->bin_long_state = BIN_INVALID; + bee_data->prev_bin_m1_state = BIN_INVALID; + bee_data->prev_bin_long_state = BIN_INVALID; + bee_data->m1_min_max_cnt = 0; + bee_data->long_min_max_cnt = 0; + bee_data->bin_m1_stop = false; + bee_data->bin_long_stop = false; + bee_data->ld_update = 0; + + return bee_data; +} + +static void destroy(struct eq_data_priv *priv) +{ + if (!priv) { + pr_err("%s: NULL private data\n", ALGORITHM_NAME); + return; + } + + kfree(priv); +} + +static const struct equalization_algorithm eq_alg = { + .name = ALGORITHM_NAME, + .descr = ALGORITHM_DESCR, + .version = ALGORITHM_VERSION, + .use_local_tx_training = true, + .use_remote_tx_training = true, + .ops = { + .create = create, + .destroy = destroy, + .is_rx_ok = is_rx_ok, + .is_eq_done = is_eq_done, + .collect_statistics = collect_bit_edge_statistics, + .generate_request = generate_3taps_request, + .process_bad_state = process_bad_state, + .dump_algorithm_context = NULL, + } +}; + +static const char * const alg_keys[] = { + "bee", + "BEE", +}; + +static int __init bee_init(void) +{ + int i, err; + + pr_info("%s: %s algorithm version %s\n", + ALGORITHM_NAME, ALGORITHM_DESCR, ALGORITHM_VERSION); + + /* register BEE algorithm: */ + for (i = 0; i < ARRAY_SIZE(alg_keys); i++) { + err = backplane_eq_register(alg_keys[i], &eq_alg); + if (err) { + pr_err("%s: '%s' equalization algorithm registration failed\n", + ALGORITHM_NAME, alg_keys[i]); + } + } + + return 0; +} + +static void __exit bee_exit(void) +{ + int i; + + /* unregister BEE algorithm: */ + for (i = 0; i < ARRAY_SIZE(alg_keys); i++) + backplane_eq_unregister(alg_keys[i]); + + pr_info("%s: %s algorithm version %s unloaded\n", + ALGORITHM_NAME, ALGORITHM_DESCR, ALGORITHM_VERSION); +} + +module_init(bee_init); +module_exit(bee_exit); + +MODULE_DESCRIPTION("Bit Edge Equalization Algorithm"); +MODULE_AUTHOR("Florinel Iordache <florinel.iordache@xxxxxxx>"); +MODULE_LICENSE("Dual BSD/GPL"); -- 1.9.1