static int devfreq_watermark_target_freq(struct devfreq *df,
unsigned long *freq)
{
struct wmark_gov_info *wmarkinfo = df->data;
struct devfreq_dev_status dev_stat;
int err;
err = df->profile->get_dev_status(df->dev.parent, &dev_stat);
if (err < 0)
return err;
switch (wmarkinfo->event) {
case HIGH_WATERMARK_EVENT:
*freq = freqlist_up(wmarkinfo, dev_stat.current_frequency);
/* always enable low watermark */
df->profile->set_low_wmark(df->dev.parent,
wmarkinfo->p_low_wmark);
/* disable high watermark if no change */
if (*freq == wmarkinfo->last_request)
df->profile->set_high_wmark(df->dev.parent, 1000);
break;
case LOW_WATERMARK_EVENT:
*freq = freqlist_down(wmarkinfo, dev_stat.current_frequency);
/* always enable high watermark */
df->profile->set_high_wmark(df->dev.parent,
wmarkinfo->p_high_wmark);
/* disable low watermark if no change */
if (*freq == wmarkinfo->last_request)
df->profile->set_low_wmark(df->dev.parent, 0);
break;
default:
break;
}
/* Mark that you handled event */
wmarkinfo->event = NO_WATERMARK_EVENT;
wmarkinfo->last_request = *freq;
return 0;
}
static void update_watermarks(struct devfreq *df,
unsigned long current_frequency,
unsigned long ideal_frequency)
{
struct wmark_gov_info *wmarkinfo = df->data;
unsigned long long relation = 0, next_freq = 0;
unsigned long long current_frequency_khz = current_frequency / 1000;
if (ideal_frequency == wmarkinfo->freqlist[0]) {
/* disable the low watermark if we are at lowest clock */
df->profile->set_low_wmark(df->dev.parent, 0);
} else {
/* calculate the low threshold; what is the load value
* at which we would go into lower frequency given the
* that we are running at the new frequency? */
next_freq = freqlist_down(wmarkinfo, ideal_frequency);
relation = ((next_freq / current_frequency_khz) *
wmarkinfo->p_load_target) / 1000;
df->profile->set_low_wmark(df->dev.parent, relation);
}
if (ideal_frequency ==
wmarkinfo->freqlist[wmarkinfo->freq_count - 1]) {
/* disable the high watermark if we are at highest clock */
df->profile->set_high_wmark(df->dev.parent, 1000);
} else {
/* calculate the high threshold; what is the load value
* at which we would go into highest frequency given the
* that we are running at the new frequency? */
next_freq = freqlist_up(wmarkinfo, ideal_frequency);
relation = ((next_freq / current_frequency_khz) *
wmarkinfo->p_load_target) / 1000;
relation = min((unsigned long long)wmarkinfo->p_load_max,
relation);
df->profile->set_high_wmark(df->dev.parent, relation);
}
}
void nvhost_scale3d_set_throughput_hint(int hint)
{
struct podgov_info_rec *podgov = local_podgov;
struct devfreq *df;
long idle;
long curr, target;
int avg_idle, avg_hint, scale_score;
unsigned int smooth;
if (!podgov)
return;
df = podgov->power_manager;
if (!df)
return;
mutex_lock(&podgov->power_manager->lock);
podgov->block--;
if (!podgov->enable ||
!podgov->p_use_throughput_hint ||
podgov->block > 0) {
mutex_unlock(&podgov->power_manager->lock);
return;
}
trace_podgov_hint(podgov->idle_estimate, hint);
podgov->last_throughput_hint = ktime_get();
curr = podgov->power_manager->previous_freq;
idle = podgov->idle_estimate;
smooth = podgov->p_smooth;
/* compute averages usings exponential-moving-average */
avg_idle = ((smooth*podgov->idle_avg + idle)/(smooth+1));
podgov->idle_avg = avg_idle;
avg_hint = ((smooth*podgov->hint_avg + hint)/(smooth+1));
podgov->hint_avg = avg_hint;
/* set the target using avg_hint and avg_idle */
if (avg_hint < podgov->p_hint_lo_limit) {
target = freqlist_up(podgov, curr, 1);
} else if (avg_hint > podgov->p_hint_hi_limit) {
target = freqlist_down(podgov, curr, 1);
} else {
scale_score = avg_idle + avg_hint;
if (scale_score > podgov->p_scaledown_limit)
target = freqlist_down(podgov, curr, 1);
else if (scale_score < podgov->p_scaleup_limit)
target = freqlist_up(podgov, curr, 1);
else
target = curr;
}
/* clamp and apply target */
scaling_limit(df, &target);
if (target != curr) {
podgov->block = podgov->p_smooth;
trace_podgov_do_scale(df->previous_freq, target);
podgov->adjustment_frequency = target;
podgov->adjustment_type = ADJUSTMENT_LOCAL;
update_devfreq(df);
}
trace_podgov_print_target(idle, avg_idle, curr / 1000000, target, hint,
avg_hint);
mutex_unlock(&podgov->power_manager->lock);
}
static int nvhost_scale3d_set_throughput_hint(struct notifier_block *nb,
unsigned long action, void *data)
{
struct podgov_info_rec *podgov =
container_of(nb, struct podgov_info_rec,
throughput_hint_notifier);
struct devfreq *df;
struct platform_device *pdev;
int hint = tegra_throughput_get_hint();
long idle;
long curr, target;
int avg_idle, avg_hint, scale_score;
unsigned int smooth;
if (!podgov)
return NOTIFY_DONE;
df = podgov->power_manager;
if (!df)
return NOTIFY_DONE;
pdev = to_platform_device(df->dev.parent);
/* make sure the device is alive before doing any scaling */
nvhost_module_busy_noresume(pdev);
if (!pm_runtime_active(&pdev->dev)) {
nvhost_module_idle(pdev);
return 0;
}
mutex_lock(&podgov->power_manager->lock);
podgov->block--;
if (!podgov->enable ||
!podgov->p_use_throughput_hint ||
podgov->block > 0)
goto exit_unlock;
trace_podgov_hint(podgov->idle, hint);
podgov->last_throughput_hint = ktime_get();
curr = podgov->power_manager->previous_freq;
idle = podgov->idle;
avg_idle = podgov->idle_avg;
smooth = podgov->p_smooth;
/* compute averages usings exponential-moving-average */
avg_hint = ((smooth*podgov->hint_avg + hint)/(smooth+1));
podgov->hint_avg = avg_hint;
/* set the target using avg_hint and avg_idle */
target = curr;
if (avg_hint < podgov->p_hint_lo_limit) {
target = freqlist_up(podgov, curr, 1);
} else {
scale_score = avg_idle + avg_hint;
if (scale_score > podgov->p_scaledown_limit)
target = freqlist_down(podgov, curr, 1);
else if (scale_score < podgov->p_scaleup_limit
&& hint < podgov->p_hint_hi_limit)
target = freqlist_up(podgov, curr, 1);
}
/* clamp and apply target */
scaling_limit(df, &target);
if (target != curr) {
podgov->block = podgov->p_smooth;
trace_podgov_do_scale(df->previous_freq, target);
podgov->adjustment_frequency = target;
podgov->adjustment_type = ADJUSTMENT_LOCAL;
update_devfreq(df);
}
trace_podgov_print_target(idle, avg_idle, curr / 1000000, target, hint,
avg_hint);
exit_unlock:
mutex_unlock(&podgov->power_manager->lock);
nvhost_module_idle(pdev);
return NOTIFY_OK;
}
