static void restore_power_modes()
{
if(control_sleep_modes == 0)
return;
dbgmsg("Restoring power modes\n");
if(saved_sapc_idle_en_c0 != -1)
set_power_mode(0, "standalone_power_collapse", "idle_enabled", saved_sapc_idle_en_c0 );
if(saved_sapc_idle_en_c1 != -1)
set_power_mode(1, "standalone_power_collapse", "idle_enabled", saved_sapc_idle_en_c1 );
if(saved_pc_idle_en_c0 != -1)
set_power_mode(0, "power_collapse", "idle_enabled", saved_pc_idle_en_c0);
if(saved_pc_idle_en_c1 != -1)
set_power_mode(1, "power_collapse", "idle_enabled", saved_pc_idle_en_c1);
}
void mgm::Display::clear_connected_unused_outputs()
{
current_display_configuration.for_each_output([&](DisplayConfigurationOutput const& conf_output)
{
/*
* An output may be unused either because it's explicitly not used
* (DisplayConfigurationOutput::used) or because its power mode is
* not mir_power_mode_on.
*/
if (conf_output.connected &&
(!conf_output.used || (conf_output.power_mode != mir_power_mode_on)))
{
uint32_t const connector_id = current_display_configuration.get_kms_connector_id(conf_output.id);
auto kms_output = output_container.get_kms_output_for(connector_id);
kms_output->clear_crtc();
kms_output->set_power_mode(conf_output.power_mode);
}
});
}
static int act_on_decision(unsigned int status)
{
int ret = 0;
if (status == core1_status) {
msg("No action required to change core status(%d).", status);
return 0;
}
pthread_mutex_lock(&hotplug_mutex);
if (decision_engine_stalled()) {
msg("MP decision to set core status to %d ignored\n", status);
pthread_mutex_unlock(&hotplug_mutex);
return -ENODEV;
}
if (thermal_condition) {
msg("MP decision in thermal condition, "
"request to set core status to %d ignored\n", status);
pthread_mutex_unlock(&hotplug_mutex);
return -ENODEV;
}
switch (status) {
case CORE_UP:
if(control_sleep_modes==1) {
int err=0;
// 1) Remember the individual core independent power collapse setting for both cores
save_power_modes();
// 2) Disable individual core independent power collapse
dbgmsg("Setting power modes before CORE_UP\n");
err += set_power_mode(0, "standalone_power_collapse", "idle_enabled", 0);
err += set_power_mode(1, "standalone_power_collapse", "idle_enabled", 0);
err += set_power_mode(0, "power_collapse", "idle_enabled", 0);
err += set_power_mode(1, "power_collapse", "idle_enabled", 0);
if(err) {
dbgmsg("Error setting a sleep mode - %d\n", err);
}
//print_power_modes();
}
// 3) Power up the 2nd core
core1_status = CORE_UP;
ret = cpu_up(1, 1);
break;
case CORE_DOWN:
// 1) Power down the 2nd core
core1_status = CORE_DOWN;
ret = cpu_up(1, 0);
// 2) Restore the original individual core independent power collapse setting for both cores
if(control_sleep_modes==1) {
dbgmsg("Restoring power modes after CORE_DOWN\n");
restore_power_modes();
//print_power_modes();
}
break;
default:
break;
}
if (ret) {
msg("Error(%d) changing core status to %s\n", ret,
status ? "online" : "offline");
}
pthread_mutex_unlock(&hotplug_mutex);
return ret;
}
void mgm::Display::configure(mg::DisplayConfiguration const& conf)
{
if (!conf.valid())
{
BOOST_THROW_EXCEPTION(
std::logic_error("Invalid or inconsistent display configuration"));
}
{
std::lock_guard<std::mutex> lg{configuration_mutex};
auto const& kms_conf = dynamic_cast<RealKMSDisplayConfiguration const&>(conf);
// Treat the current_display_configuration as incompatible with itself,
// before it's fully constructed, to force proper initialization.
bool const comp{(&conf != ¤t_display_configuration) &&
compatible(kms_conf, current_display_configuration)};
std::vector<std::unique_ptr<DisplayBuffer>> display_buffers_new;
if (!comp)
{
/*
* Notice for a little while here we will have duplicate
* DisplayBuffers attached to each output, and the display_buffers_new
* will take over the outputs before the old display_buffers are
* destroyed. So to avoid page flipping confusion in-between, make
* sure we wait for all pending page flips to finish before the
* display_buffers_new are created and take control of the outputs.
*/
for (auto& db : display_buffers)
db->wait_for_page_flip();
/* Reset the state of all outputs */
kms_conf.for_each_output([&](DisplayConfigurationOutput const& conf_output)
{
uint32_t const connector_id = current_display_configuration.get_kms_connector_id(conf_output.id);
auto kms_output = output_container.get_kms_output_for(connector_id);
kms_output->clear_cursor();
kms_output->reset();
});
}
/* Set up used outputs */
OverlappingOutputGrouping grouping{conf};
auto group_idx = 0;
grouping.for_each_group([&](OverlappingOutputGroup const& group)
{
auto bounding_rect = group.bounding_rectangle();
std::vector<std::shared_ptr<KMSOutput>> kms_outputs;
MirOrientation orientation = mir_orientation_normal;
group.for_each_output([&](DisplayConfigurationOutput const& conf_output)
{
uint32_t const connector_id = kms_conf.get_kms_connector_id(conf_output.id);
auto kms_output = output_container.get_kms_output_for(connector_id);
auto const mode_index = kms_conf.get_kms_mode_index(conf_output.id,
conf_output.current_mode_index);
kms_output->configure(conf_output.top_left - bounding_rect.top_left, mode_index);
if (!comp)
{
kms_output->set_power_mode(conf_output.power_mode);
kms_outputs.push_back(kms_output);
}
/*
* Presently OverlappingOutputGroup guarantees all grouped
* outputs have the same orientation.
*/
orientation = conf_output.orientation;
});
if (comp)
{
display_buffers[group_idx++]->set_orientation(orientation, bounding_rect);
}
else
{
uint32_t width = bounding_rect.size.width.as_uint32_t();
uint32_t height = bounding_rect.size.height.as_uint32_t();
if (orientation == mir_orientation_left ||
orientation == mir_orientation_right)
{
std::swap(width, height);
}
auto surface = gbm->create_scanout_surface(width, height);
std::unique_ptr<DisplayBuffer> db{
new DisplayBuffer{bypass_option,
drm,
gbm,
listener,
kms_outputs,
std::move(surface),
bounding_rect,
orientation,
*gl_config,
shared_egl.context()}};
display_buffers_new.push_back(std::move(db));
}
});
if (!comp)
display_buffers = std::move(display_buffers_new);
/* Store applied configuration */
current_display_configuration = kms_conf;
if (!comp)
/* Clear connected but unused outputs */
clear_connected_unused_outputs();
}
if (auto c = cursor.lock()) c->resume();
}
