static int hdmi_process_command(struct hdmi *hdmi)
{
int change, state = hdmi->state;
change = hdmi->command;
if (change != HDMI_CONFIG_NONE) {
hdmi->command = HDMI_CONFIG_NONE;
switch (change) {
case HDMI_CONFIG_ENABLE:
/* disable HDMI */
mutex_lock(&hdmi->enable_mutex);
if (!hdmi->enable || hdmi->suspend) {
if (hdmi->hotplug != HDMI_HPD_REMOVED) {
hdmi->hotplug = HDMI_HPD_REMOVED;
hdmi->control_output(hdmi, HDMI_DISABLE);
hdmi_sys_remove(hdmi);
}
hdmi->state = HDMI_SLEEP;
hdmi->remove(hdmi);
state = HDMI_SLEEP;
}
mutex_unlock(&hdmi->enable_mutex);
if (hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
break;
case HDMI_CONFIG_COLOR:
if (state > CONFIG_VIDEO)
state = CONFIG_VIDEO;
break;
case HDMI_CONFIG_HDCP:
break;
case HDMI_CONFIG_DISPLAY:
break;
case HDMI_CONFIG_AUDIO:
if (state > CONFIG_AUDIO)
state = CONFIG_AUDIO;
break;
case HDMI_CONFIG_VIDEO:
default:
if (state > SYSTEM_CONFIG) {
state = SYSTEM_CONFIG;
hdmi->control_output(hdmi, HDMI_DISABLE);
msleep(2000);
} else {
if (hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
}
break;
}
} else if (state == HDMI_SLEEP) {
state = WAIT_HOTPLUG;
}
return state;
}
static int hdmi_process_command(void)
{
int change, state = hdmi->state;
change = hdmi->command;
if(change != HDMI_CONFIG_NONE)
{
hdmi->command = HDMI_CONFIG_NONE;
switch(change)
{
case HDMI_CONFIG_ENABLE:
/* disable HDMI */
mutex_lock(&hdmi->enable_mutex);
if(!hdmi->enable || hdmi->suspend)
{
if(hdmi->hotplug == HDMI_HPD_ACTIVED)
hdmi_sys_remove();
hdmi->state = HDMI_SLEEP;
hdmi->hotplug = HDMI_HPD_REMOVED;
rk30_hdmi_removed();
state = HDMI_SLEEP;
}
mutex_unlock(&hdmi->enable_mutex);
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
break;
case HDMI_CONFIG_COLOR:
if(state > CONFIG_VIDEO)
state = CONFIG_VIDEO;
break;
case HDMI_CONFIG_HDCP:
break;
case HDMI_CONFIG_DISPLAY:
break;
case HDMI_CONFIG_AUDIO:
if(state > CONFIG_AUDIO)
state = CONFIG_AUDIO;
break;
case HDMI_CONFIG_VIDEO:
default:
if(state > SYSTEM_CONFIG)
state = SYSTEM_CONFIG;
else
{
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
}
break;
}
}
else if(state == HDMI_SLEEP)
state = WAIT_HOTPLUG;
return state;
}
void hdmi_work(struct work_struct *work)
{
int hotplug, state_last;
int rc = HDMI_ERROR_SUCESS, trytimes = 0;
struct hdmi_video_para video;
struct delayed_work *delay_work =
container_of(work, struct delayed_work, work);
struct hdmi *hdmi = container_of(delay_work, struct hdmi, delay_work);
mutex_lock(&work_mutex);
/* Process hdmi command */
hdmi->state = hdmi_process_command(hdmi);
if (!hdmi->enable || hdmi->suspend) {
mutex_unlock(&work_mutex);
return;
}
hotplug = hdmi->detect_hotplug(hdmi);
hdmi_dbg(hdmi->dev, "[%s] hotplug %02x curvalue %d\n", __func__,
hotplug, hdmi->hotplug);
if (hotplug != hdmi->hotplug) {
if (hotplug == HDMI_HPD_ACTIVED) {
if (hdmi->insert)
hdmi->insert(hdmi);
hdmi->state = READ_PARSE_EDID;
} else if (hdmi->hotplug == HDMI_HPD_ACTIVED) {
hdmi->hotplug = hotplug;
hdmi_sys_remove(hdmi);
if (hotplug == HDMI_HPD_REMOVED) {
hdmi_sys_sleep(hdmi);
} else {
hdmi->state = WAIT_HOTPLUG;
hdmi->remove(hdmi);
}
if (hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
mutex_unlock(&work_mutex);
return;
} else if (hotplug == HDMI_HPD_REMOVED) {
hdmi->state = HDMI_SLEEP;
hdmi->remove(hdmi);
}
hdmi->hotplug = hotplug;
} else if (hotplug == HDMI_HPD_REMOVED) {
hdmi_sys_sleep(hdmi);
} else if (hotplug == HDMI_HPD_ACTIVED) {
if (hdmi->uboot_logo) {
if (hdmi->insert)
hdmi->insert(hdmi);
hdmi->state = READ_PARSE_EDID;
}
}
do {
hdmi_sys_show_state(hdmi);
state_last = hdmi->state;
switch (hdmi->state) {
case READ_PARSE_EDID:
rc = hdmi_sys_parse_edid(hdmi);
if (rc == HDMI_ERROR_SUCESS) {
if (hdmi->cec_set_device_pa)
hdmi->cec_set_device_pa(hdmi->edid.cecaddress);
if (hdmi->cec_enumerate)
hdmi->cec_enumerate();
hdmi->state = SYSTEM_CONFIG;
kobject_uevent_env(&hdmi->ddev->dev->kobj,
KOBJ_ADD, envp);
hdmi_dbg(hdmi->dev,
"[%s] base_audio_support =%d,sink_hdmi = %d\n",
__func__,
hdmi->edid.base_audio_support,
hdmi->edid.sink_hdmi);
#ifdef CONFIG_SWITCH
if ((hdmi->edid.base_audio_support == 1 &&
hdmi->edid.sink_hdmi == 1) ||
(rk_fb_get_display_policy() ==
DISPLAY_POLICY_BOX))
switch_set_state(&(hdmi->switch_hdmi),
1);
#endif
rockchip_set_system_status(SYS_STATUS_HDMI);
}
break;
case SYSTEM_CONFIG:
if ((hdmi->remove) && !hdmi->uboot_logo)
hdmi->remove(hdmi);
if (hdmi->autoconfig)
hdmi->vic = hdmi_find_best_mode(hdmi, 0);
else
hdmi->vic =
hdmi_find_best_mode(hdmi, hdmi->vic);
rc = hdmi_switch_fb(hdmi, hdmi->vic);
if (rc == HDMI_ERROR_SUCESS)
hdmi->state = CONFIG_VIDEO;
if (hdmi->uboot_logo) {
hdmi->state = CONFIG_AUDIO;
}
break;
case CONFIG_VIDEO:
hdmi->display = HDMI_DISABLE;
hdmi_init_video_para(hdmi, &video);
rc = hdmi->config_video(hdmi, &video);
if (rc == HDMI_ERROR_SUCESS) {
if (hdmi->edid.sink_hdmi)
hdmi->state = CONFIG_AUDIO;
else
hdmi->state = PLAY_BACK;
}
break;
case CONFIG_AUDIO:
rc = hdmi->config_audio(hdmi, &(hdmi->audio));
if (rc == HDMI_ERROR_SUCESS)
hdmi->state = PLAY_BACK;
break;
case PLAY_BACK:
if (hdmi->display != HDMI_ENABLE) {
hdmi->control_output(hdmi, HDMI_ENABLE);
hdmi->display = HDMI_ENABLE;
if (hdmi->hdcp_cb)
hdmi->hdcp_cb();
}
if (hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
break;
default:
break;
}
if (rc != HDMI_ERROR_SUCESS) {
trytimes++;
msleep(20);
}
if (hdmi->state != state_last)
trytimes = 0;
} while ((hdmi->state != state_last ||
(rc != HDMI_ERROR_SUCESS)) &&
trytimes < HDMI_MAX_TRY_TIMES);
hdmi_dbg(hdmi->dev, "[%s] done\n", __func__);
mutex_unlock(&work_mutex);
}
void hdmi_work(struct work_struct *work)
{
int hotplug, state_last;
int rc = HDMI_ERROR_SUCESS, trytimes = 0;
struct rk30_hdmi_video_para video;
mutex_lock(&work_mutex);
/* Process hdmi command */
hdmi->state = hdmi_process_command();
if(!hdmi->enable || hdmi->suspend) {
mutex_unlock(&work_mutex);
return;
}
hotplug = rk30_hdmi_detect_hotplug();
hdmi_dbg(hdmi->dev, "[%s] hotplug %02x curvalue %d\n", __FUNCTION__, hotplug, hdmi->hotplug);
if(hotplug != hdmi->hotplug)
{
if(hotplug == HDMI_HPD_ACTIVED){
hdmi->state = READ_PARSE_EDID;
}
else if(hdmi->hotplug == HDMI_HPD_ACTIVED) {
hdmi_sys_remove();
hdmi->hotplug = hotplug;
if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
else {
hdmi->state = WAIT_HOTPLUG;
rk30_hdmi_removed();
}
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
mutex_unlock(&work_mutex);
return;
}
else if(hotplug == HDMI_HPD_REMOVED) {
hdmi->state = HDMI_SLEEP;
rk30_hdmi_removed();
}
hdmi->hotplug = hotplug;
}
else if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
do {
hdmi_sys_show_state(hdmi->state);
state_last = hdmi->state;
switch(hdmi->state)
{
case READ_PARSE_EDID:
rc = hdmi_sys_parse_edid(hdmi);
if(rc == HDMI_ERROR_SUCESS)
{
hdmi->state = SYSTEM_CONFIG;
hdmi_sys_send_uevent(KOBJ_ADD);
#ifdef CONFIG_SWITCH
switch_set_state(&(hdmi->switch_hdmi), 1);
#endif
#ifdef CONFIG_HDMI_RK30_CTL_CODEC
codec_set_spk(0);
#endif
}
break;
case SYSTEM_CONFIG:
if(hdmi->autoconfig)
hdmi->vic = hdmi_find_best_mode(hdmi, 0);
else
hdmi->vic = hdmi_find_best_mode(hdmi, hdmi->vic);
rc = hdmi_switch_fb(hdmi, hdmi->vic);
if(rc == HDMI_ERROR_SUCESS)
hdmi->state = CONFIG_VIDEO;
break;
case CONFIG_VIDEO:
hdmi->display = HDMI_DISABLE;
video.vic = hdmi->vic;
video.input_mode = VIDEO_INPUT_RGB_YCBCR_444;
video.input_color = VIDEO_INPUT_COLOR_RGB;//VIDEO_INPUT_COLOR_YCBCR
video.output_mode = hdmi->edid.sink_hdmi;
if(hdmi->edid.ycbcr444)
video.output_color = VIDEO_OUTPUT_YCBCR444;
else if(hdmi->edid.ycbcr422)
video.output_color = VIDEO_OUTPUT_YCBCR422;
else
video.output_color = VIDEO_OUTPUT_RGB444;
// For DVI, output RGB
if(hdmi->edid.sink_hdmi == 0)
video.output_color = VIDEO_OUTPUT_RGB444;
rc = rk30_hdmi_config_video(&video);
if(rc == HDMI_ERROR_SUCESS)
{
if(hdmi->edid.sink_hdmi)
hdmi->state = CONFIG_AUDIO;
else
hdmi->state = PLAY_BACK;
}
break;
case CONFIG_AUDIO:
rc = rk30_hdmi_config_audio(&(hdmi->audio));
if(rc == HDMI_ERROR_SUCESS)
hdmi->state = PLAY_BACK;
break;
case PLAY_BACK:
if(hdmi->display != HDMI_ENABLE) {
rk30_hdmi_control_output(HDMI_ENABLE);
hdmi->display = HDMI_ENABLE;
if(hdmi->hdcp_cb) {
hdmi->hdcp_cb();
}
}
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
break;
default:
break;
}
if(rc != HDMI_ERROR_SUCESS)
{
trytimes++;
msleep(10);
}
if(hdmi->state != state_last)
trytimes = 0;
}while((hdmi->state != state_last || (rc != HDMI_ERROR_SUCESS) ) && trytimes < HDMI_MAX_TRY_TIMES);
hdmi_dbg(hdmi->dev, "[%s] done\n", __FUNCTION__);
mutex_unlock(&work_mutex);
}
void hdmi_work(struct work_struct *work)
{
int hotplug, state_last;
int rc = HDMI_ERROR_SUCESS, trytimes = 0;
struct hdmi_video_para video;
mutex_lock(&work_mutex);
/* Process hdmi command */
hdmi->state = hdmi_process_command();
if(!hdmi->enable || hdmi->suspend) {
mutex_unlock(&work_mutex);
return;
}
hotplug = hdmi->detect_hotplug();
hdmi_dbg(hdmi->dev, "[%s] hotplug %02x curvalue %d\n", __FUNCTION__, hotplug, hdmi->hotplug);
#ifndef AUTO_VIDEO_MODE_HANDLING
/*
Omegamoon: HDMI 'black screen/No signal' fix
Use sysfs to change this behaviour as follows:
Enable autoconfig:
echo "1">/sys/devices/virtual/display/display0.HDMI/autoconfig
Disable autoconfig (default):
echo "0">/sys/devices/virtual/display/display0.HDMI/autoconfig
*/
if(hdmi->autoconfig == HDMI_ENABLE) {
// This is the original HDMI handling
if(hotplug != hdmi->hotplug)
{
if(hotplug == HDMI_HPD_ACTIVED){
if(hdmi->insert)
hdmi->insert();
hdmi->state = READ_PARSE_EDID;
}
else if(hdmi->hotplug == HDMI_HPD_ACTIVED) {
hdmi_sys_remove();
hdmi->hotplug = hotplug;
if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
else {
hdmi->state = WAIT_HOTPLUG;
hdmi->remove();
}
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
mutex_unlock(&work_mutex);
return;
}
else if(hotplug == HDMI_HPD_REMOVED) {
hdmi->state = HDMI_SLEEP;
hdmi->remove();
}
hdmi->hotplug = hotplug;
}
else if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
} else {
/*
If autoconfig is disabled, the Hotplug feature is also disabled.
EDID is no longer read from the display, and a fixed resolution is set.
*/
if(hotplug != hdmi->hotplug) {
hdmi->state = SYSTEM_CONFIG;
hdmi->hotplug = HDMI_HPD_ACTIVED;
#ifdef FORCE_HDMI_VIDEO_MODE
// Omegamoon: Fixed HDMI output
dev_printk(KERN_INFO, hdmi->dev, "Omegamoon: Force HDMI output\n");
hdmi->edid.sink_hdmi = OUTPUT_HDMI;
#endif
#ifdef FORCE_DVI_VIDEO_MODE
// Omegamoon: Fixed DVI output
dev_printk(KERN_INFO, hdmi->dev, "Omegamoon: Force DVI output\n");
hdmi->edid.sink_hdmi = OUTPUT_DVI;
#endif
// Omegamoon: Apart from this fixed output, see rk30_hdmi.h for default resolution
}
}
// <<< Omegamoon: HDMI Fix
#else // AUTO_VIDEO_MODE_HANDLING
if(hotplug != hdmi->hotplug)
{
if(hotplug == HDMI_HPD_ACTIVED){
if(hdmi->insert)
hdmi->insert();
hdmi->state = READ_PARSE_EDID;
}
else if(hdmi->hotplug == HDMI_HPD_ACTIVED) {
hdmi_sys_remove();
hdmi->hotplug = hotplug;
if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
else {
hdmi->state = WAIT_HOTPLUG;
hdmi->remove();
}
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
mutex_unlock(&work_mutex);
return;
}
else if(hotplug == HDMI_HPD_REMOVED) {
hdmi->state = HDMI_SLEEP;
hdmi->remove();
}
hdmi->hotplug = hotplug;
}
else if(hotplug == HDMI_HPD_REMOVED)
hdmi_sys_sleep();
#endif
do {
hdmi_sys_show_state(hdmi->state);
state_last = hdmi->state;
switch(hdmi->state)
{
case READ_PARSE_EDID:
rc = hdmi_sys_parse_edid(hdmi);
if(rc == HDMI_ERROR_SUCESS)
{
hdmi->state = SYSTEM_CONFIG;
kobject_uevent_env(&hdmi->dev->kobj, KOBJ_ADD, envp);
hdmi_dbg(hdmi->dev,"[%s],base_audio_support =%d,sink_hdmi = %d\n",hdmi->edid.base_audio_support,hdmi->edid.sink_hdmi );
#ifdef CONFIG_SWITCH
if(hdmi->edid.base_audio_support == 1 && hdmi->edid.sink_hdmi == 1)
switch_set_state(&(hdmi->switch_hdmi), 1);
#endif
#ifdef CONFIG_RK_HDMI_CTL_CODEC
#ifdef CONFIG_MACH_RK_FAC
#if defined(CONFIG_SND_RK29_SOC_ES8323)
es8323_codec_set_spk(0);
#endif
#if defined (CONFIG_SND_RK29_SOC_RT5616)
rt5616_codec_set_spk(0);
#endif
#if defined (CONFIG_SND_RK_SOC_RK616)
rk616_codec_set_spk(0);
#endif
#else
codec_set_spk(0);
#endif
#endif
}
break;
case SYSTEM_CONFIG:
#ifdef CONFIG_HDMI_RK616
hdmi->remove();
#endif
if(hdmi->autoconfig) {
hdmi->vic = hdmi_find_best_mode(hdmi, 0);
} else {
// Omegamoon: autoconfig is disabled, so set a fixed resolution
hdmi->vic = HDMI_VIDEO_DEFAULT_MODE;
dev_printk(KERN_INFO, hdmi->dev, "Omegamoon: Forced resolution to %s\n", hdmi_vic_to_videomode(hdmi->vic)->name);
}
rc = hdmi_switch_fb(hdmi, hdmi->vic);
if(rc == HDMI_ERROR_SUCESS)
hdmi->state = CONFIG_VIDEO;
break;
case CONFIG_VIDEO:
hdmi->display = HDMI_DISABLE;
video.vic = hdmi->vic;
video.input_mode = VIDEO_INPUT_RGB_YCBCR_444;
video.input_color = VIDEO_INPUT_COLOR_RGB;//VIDEO_INPUT_COLOR_YCBCR
video.output_mode = hdmi->edid.sink_hdmi;
if(hdmi->edid.ycbcr444)
video.output_color = VIDEO_OUTPUT_YCBCR444;
else if(hdmi->edid.ycbcr422)
video.output_color = VIDEO_OUTPUT_YCBCR422;
else
video.output_color = VIDEO_OUTPUT_RGB444;
// For DVI, output RGB
if(hdmi->edid.sink_hdmi == 0)
video.output_color = VIDEO_OUTPUT_RGB444;
rc = hdmi->config_video(&video);
if(rc == HDMI_ERROR_SUCESS)
{
if(hdmi->edid.sink_hdmi)
hdmi->state = CONFIG_AUDIO;
else
hdmi->state = PLAY_BACK;
}
break;
case CONFIG_AUDIO:
rc = hdmi->config_audio(&(hdmi->audio));
if(rc == HDMI_ERROR_SUCESS)
hdmi->state = PLAY_BACK;
break;
case PLAY_BACK:
if(hdmi->display != HDMI_ENABLE) {
hdmi->control_output(HDMI_ENABLE);
hdmi->display = HDMI_ENABLE;
if(hdmi->hdcp_cb) {
hdmi->hdcp_cb();
}
}
if(hdmi->wait == 1) {
complete(&hdmi->complete);
hdmi->wait = 0;
}
break;
default:
break;
}
if(rc != HDMI_ERROR_SUCESS)
{
trytimes++;
msleep(10);
}
if(hdmi->state != state_last)
trytimes = 0;
}while((hdmi->state != state_last || (rc != HDMI_ERROR_SUCESS) ) && trytimes < HDMI_MAX_TRY_TIMES);
hdmi_dbg(hdmi->dev, "[%s] done\n", __FUNCTION__);
mutex_unlock(&work_mutex);
}
