Separate the comparison/updating of the measured delay values with the values currently programmed into a separate function to simplify the code. Signed-off-by: Diogo Ivo <diogo.ivo@xxxxxxxxxxxxxxxxxx> --- drivers/memory/tegra/tegra210-emc-cc-r21021.c | 84 +++++++++---------- 1 file changed, 38 insertions(+), 46 deletions(-) diff --git a/drivers/memory/tegra/tegra210-emc-cc-r21021.c b/drivers/memory/tegra/tegra210-emc-cc-r21021.c index 566e5c65c854..ec2f84758d55 100644 --- a/drivers/memory/tegra/tegra210-emc-cc-r21021.c +++ b/drivers/memory/tegra/tegra210-emc-cc-r21021.c @@ -113,19 +113,35 @@ enum { #define __MOVAVG(timing, dev) \ ((timing)->ptfv_list[dev]) +static bool tegra210_emc_compare_update_delay(struct tegra210_emc_timing *timing, + u32 measured, u32 idx) +{ + u32 *curr = &timing->current_dram_clktree[idx]; + u32 rate_mhz = timing->rate / 1000; + u32 tmdel; + + tmdel = abs(*curr - measured); + + if (tmdel * 128 * rate_mhz / 1000000 > timing->tree_margin) { + *curr = measured; + return true; + } + + return false; +} + static u32 update_clock_tree_delay(struct tegra210_emc *emc, int type) { bool periodic_training_update = type == PERIODIC_TRAINING_UPDATE; struct tegra210_emc_timing *last = emc->last; struct tegra210_emc_timing *next = emc->next; u32 last_timing_rate_mhz = last->rate / 1000; - u32 next_timing_rate_mhz = next->rate / 1000; bool dvfs_update = type == DVFS_UPDATE; - s32 tdel = 0, tmdel = 0, adel = 0; bool dvfs_pt1 = type == DVFS_PT1; u32 temp[2][2], value, udelay; unsigned long cval = 0; unsigned int c, d, idx; + bool over = false; if (dvfs_pt1 || periodic_training_update) { udelay = tegra210_emc_actual_osc_clocks(last->run_clocks); @@ -174,17 +190,9 @@ static u32 update_clock_tree_delay(struct tegra210_emc *emc, int type) else if (periodic_training_update) __WEIGHTED_UPDATE_PTFV(idx, cval); - if (dvfs_update || periodic_training_update) { - tdel = next->current_dram_clktree[idx] - - __MOVAVG_AC(next, idx); - tmdel = (tdel < 0) ? -1 * tdel : tdel; - adel = tmdel; - - if (tmdel * 128 * next_timing_rate_mhz / 1000000 > - next->tree_margin) - next->current_dram_clktree[idx] = - __MOVAVG_AC(next, idx); - } + if (dvfs_update || periodic_training_update) + over |= tegra210_emc_compare_update_delay(next, + __MOVAVG_AC(next, idx), idx); /* C[c]D[d]U[1] */ idx++; @@ -202,35 +210,26 @@ static u32 update_clock_tree_delay(struct tegra210_emc *emc, int type) else if (periodic_training_update) __WEIGHTED_UPDATE_PTFV(idx, cval); - if (dvfs_update || periodic_training_update) { - tdel = next->current_dram_clktree[idx] - - __MOVAVG_AC(next, idx); - tmdel = (tdel < 0) ? -1 * tdel : tdel; - - if (tmdel > adel) - adel = tmdel; - - if (tmdel * 128 * next_timing_rate_mhz / 1000000 > - next->tree_margin) - next->current_dram_clktree[idx] = - __MOVAVG_AC(next, idx); - } + if (dvfs_update || periodic_training_update) + over |= tegra210_emc_compare_update_delay(next, + __MOVAVG_AC(next, idx), idx); } } - return adel; + return over; } -static u32 periodic_compensation_handler(struct tegra210_emc *emc, u32 type, - struct tegra210_emc_timing *last, - struct tegra210_emc_timing *next) +static bool periodic_compensation_handler(struct tegra210_emc *emc, u32 type, + struct tegra210_emc_timing *last, + struct tegra210_emc_timing *next) { #define __COPY_EMA(nt, lt, dev) \ ({ __MOVAVG(nt, dev) = __MOVAVG(lt, dev) * \ (nt)->ptfv_list[PTFV_DVFS_SAMPLES_INDEX]; }) - u32 i, adel = 0, samples = next->ptfv_list[PTFV_DVFS_SAMPLES_INDEX]; + u32 i, samples = next->ptfv_list[PTFV_DVFS_SAMPLES_INDEX]; u32 idx; + bool over = false; if (!next->periodic_training) return 0; @@ -253,23 +252,23 @@ static u32 periodic_compensation_handler(struct tegra210_emc *emc, u32 type, for (i = 0; i < samples; i++) { /* Generate next sample of data. */ - adel = update_clock_tree_delay(emc, DVFS_PT1); + update_clock_tree_delay(emc, DVFS_PT1); } } /* Do the division part of the moving average */ - adel = update_clock_tree_delay(emc, DVFS_UPDATE); + over = update_clock_tree_delay(emc, DVFS_UPDATE); } if (type == PERIODIC_TRAINING_SEQUENCE) - adel = update_clock_tree_delay(emc, PERIODIC_TRAINING_UPDATE); + over = update_clock_tree_delay(emc, PERIODIC_TRAINING_UPDATE); - return adel; + return over; } static u32 tegra210_emc_r21021_periodic_compensation(struct tegra210_emc *emc) { - u32 emc_cfg, emc_cfg_o, emc_cfg_update, del, value; + u32 emc_cfg, emc_cfg_o, emc_cfg_update, value; static const u32 list[] = { EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1, @@ -327,15 +326,12 @@ static u32 tegra210_emc_r21021_periodic_compensation(struct tegra210_emc *emc) * 4. Check delta wrt previous values (save value if margin * exceeds what is set in table). */ - del = periodic_compensation_handler(emc, - PERIODIC_TRAINING_SEQUENCE, - last, last); - + if (periodic_compensation_handler(emc, PERIODIC_TRAINING_SEQUENCE, + last, last)) { /* * 5. Apply compensation w.r.t. trained values (if clock tree * has drifted more than the set margin). */ - if (last->tree_margin < ((del * 128 * (last->rate / 1000)) / 1000000)) { for (i = 0; i < items; i++) { value = tegra210_emc_compensate(last, list[i]); emc_dbg(emc, EMA_WRITES, "0x%08x <= 0x%08x\n", @@ -516,11 +512,7 @@ static void tegra210_emc_r21021_set_clock(struct tegra210_emc *emc, u32 clksrc) EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_MASK, 0); - value = periodic_compensation_handler(emc, DVFS_SEQUENCE, fake, - next); - value = (value * 128 * next->rate / 1000) / 1000000; - - if (next->periodic_training && value > next->tree_margin) + if (periodic_compensation_handler(emc, DVFS_SEQUENCE, fake, next)) compensate_trimmer_applicable = true; } -- 2.44.0