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android_kernel_samsung_sm86…/msm/dp/dp_display.c

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// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2021-2023, Qualcomm Innovation Center, Inc. All rights reserved.
* Copyright (c) 2017-2021, The Linux Foundation. All rights reserved.
*/
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/uaccess.h>
#include <linux/debugfs.h>
#include <linux/component.h>
#include <linux/of_irq.h>
#include <linux/delay.h>
#include <linux/usb/phy.h>
#include <linux/jiffies.h>
#include <linux/pm_qos.h>
#include <linux/ipc_logging.h>
#include "sde_connector.h"
#include "msm_drv.h"
#include "dp_hpd.h"
#include "dp_parser.h"
#include "dp_power.h"
#include "dp_catalog.h"
#include "dp_aux.h"
#include "dp_link.h"
#include "dp_panel.h"
#include "dp_ctrl.h"
#include "dp_audio.h"
#include "dp_display.h"
#include "sde_hdcp.h"
#include "dp_debug.h"
#include "dp_pll.h"
#include "sde_dbg.h"
#define DRM_DP_IPC_NUM_PAGES 10
#define DP_MST_DEBUG(fmt, ...) DP_DEBUG(fmt, ##__VA_ARGS__)
#define dp_display_state_show(x) { \
DP_ERR("%s: state (0x%x): %s\n", x, dp->state, \
dp_display_state_name(dp->state)); \
SDE_EVT32_EXTERNAL(dp->state); }
#define dp_display_state_warn(x) { \
DP_WARN("%s: state (0x%x): %s\n", x, dp->state, \
dp_display_state_name(dp->state)); \
SDE_EVT32_EXTERNAL(dp->state); }
#define dp_display_state_log(x) { \
DP_DEBUG("%s: state (0x%x): %s\n", x, dp->state, \
dp_display_state_name(dp->state)); \
SDE_EVT32_EXTERNAL(dp->state); }
#define dp_display_state_is(x) (dp->state & (x))
#define dp_display_state_add(x) { \
(dp->state |= (x)); \
dp_display_state_log("add "#x); }
#define dp_display_state_remove(x) { \
(dp->state &= ~(x)); \
dp_display_state_log("remove "#x); }
#define MAX_TMDS_CLOCK_HDMI_1_4 340000
enum dp_display_states {
DP_STATE_DISCONNECTED = 0,
DP_STATE_CONFIGURED = BIT(0),
DP_STATE_INITIALIZED = BIT(1),
DP_STATE_READY = BIT(2),
DP_STATE_CONNECTED = BIT(3),
DP_STATE_CONNECT_NOTIFIED = BIT(4),
DP_STATE_DISCONNECT_NOTIFIED = BIT(5),
DP_STATE_ENABLED = BIT(6),
DP_STATE_SUSPENDED = BIT(7),
DP_STATE_ABORTED = BIT(8),
DP_STATE_HDCP_ABORTED = BIT(9),
DP_STATE_SRC_PWRDN = BIT(10),
DP_STATE_TUI_ACTIVE = BIT(11),
};
static char *dp_display_state_name(enum dp_display_states state)
{
static char buf[SZ_1K];
u32 len = 0;
memset(buf, 0, SZ_1K);
if (state & DP_STATE_CONFIGURED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"CONFIGURED");
if (state & DP_STATE_INITIALIZED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"INITIALIZED");
if (state & DP_STATE_READY)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"READY");
if (state & DP_STATE_CONNECTED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"CONNECTED");
if (state & DP_STATE_CONNECT_NOTIFIED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"CONNECT_NOTIFIED");
if (state & DP_STATE_DISCONNECT_NOTIFIED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"DISCONNECT_NOTIFIED");
if (state & DP_STATE_ENABLED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"ENABLED");
if (state & DP_STATE_SUSPENDED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"SUSPENDED");
if (state & DP_STATE_ABORTED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"ABORTED");
if (state & DP_STATE_HDCP_ABORTED)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"HDCP_ABORTED");
if (state & DP_STATE_SRC_PWRDN)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"SRC_PWRDN");
if (state & DP_STATE_TUI_ACTIVE)
len += scnprintf(buf + len, sizeof(buf) - len, "|%s|",
"TUI_ACTIVE");
if (!strlen(buf))
return "DISCONNECTED";
return buf;
}
static struct dp_display *g_dp_display;
#define HPD_STRING_SIZE 30
struct dp_hdcp_dev {
void *fd;
struct sde_hdcp_ops *ops;
enum sde_hdcp_version ver;
};
struct dp_hdcp {
void *data;
struct sde_hdcp_ops *ops;
u32 source_cap;
struct dp_hdcp_dev dev[HDCP_VERSION_MAX];
};
struct dp_mst {
bool mst_active;
bool drm_registered;
struct dp_mst_drm_cbs cbs;
};
struct dp_display_private {
char *name;
int irq;
enum drm_connector_status cached_connector_status;
enum dp_display_states state;
struct platform_device *pdev;
struct device_node *aux_switch_node;
bool aux_switch_ready;
struct dp_aux_bridge *aux_bridge;
struct dentry *root;
struct completion notification_comp;
struct completion attention_comp;
struct dp_hpd *hpd;
struct dp_parser *parser;
struct dp_power *power;
struct dp_catalog *catalog;
struct dp_aux *aux;
struct dp_link *link;
struct dp_panel *panel;
struct dp_ctrl *ctrl;
struct dp_debug *debug;
struct dp_pll *pll;
struct dp_panel *active_panels[DP_STREAM_MAX];
struct dp_hdcp hdcp;
struct dp_hpd_cb hpd_cb;
struct dp_display_mode mode;
struct dp_display dp_display;
struct msm_drm_private *priv;
struct workqueue_struct *wq;
struct delayed_work hdcp_cb_work;
struct work_struct connect_work;
struct work_struct attention_work;
struct mutex session_lock;
struct mutex accounting_lock;
bool hdcp_delayed_off;
bool no_aux_switch;
u32 active_stream_cnt;
struct dp_mst mst;
u32 tot_dsc_blks_in_use;
u32 tot_lm_blks_in_use;
bool process_hpd_connect;
struct dev_pm_qos_request pm_qos_req[NR_CPUS];
bool pm_qos_requested;
struct notifier_block usb_nb;
};
static const struct of_device_id dp_dt_match[] = {
{.compatible = "qcom,dp-display"},
{}
};
static inline bool dp_display_is_hdcp_enabled(struct dp_display_private *dp)
{
return dp->link->hdcp_status.hdcp_version && dp->hdcp.ops;
}
static irqreturn_t dp_display_irq(int irq, void *dev_id)
{
struct dp_display_private *dp = dev_id;
if (!dp) {
DP_ERR("invalid data\n");
return IRQ_NONE;
}
/* DP HPD isr */
if (dp->hpd->type == DP_HPD_LPHW)
dp->hpd->isr(dp->hpd);
/* DP controller isr */
dp->ctrl->isr(dp->ctrl);
/* DP aux isr */
dp->aux->isr(dp->aux);
/* HDCP isr */
if (dp_display_is_hdcp_enabled(dp) && dp->hdcp.ops->isr) {
if (dp->hdcp.ops->isr(dp->hdcp.data))
DP_ERR("dp_hdcp_isr failed\n");
}
return IRQ_HANDLED;
}
static bool dp_display_is_ds_bridge(struct dp_panel *panel)
{
return (panel->dpcd[DP_DOWNSTREAMPORT_PRESENT] &
DP_DWN_STRM_PORT_PRESENT);
}
static bool dp_display_is_sink_count_zero(struct dp_display_private *dp)
{
return dp_display_is_ds_bridge(dp->panel) &&
(dp->link->sink_count.count == 0);
}
static bool dp_display_is_ready(struct dp_display_private *dp)
{
return dp->hpd->hpd_high && dp_display_state_is(DP_STATE_CONNECTED) &&
!dp_display_is_sink_count_zero(dp) &&
dp->hpd->alt_mode_cfg_done;
}
static void dp_audio_enable(struct dp_display_private *dp, bool enable)
{
struct dp_panel *dp_panel;
int idx;
for (idx = DP_STREAM_0; idx < DP_STREAM_MAX; idx++) {
if (!dp->active_panels[idx])
continue;
dp_panel = dp->active_panels[idx];
if (dp_panel->audio_supported) {
if (enable) {
dp_panel->audio->bw_code =
dp->link->link_params.bw_code;
dp_panel->audio->lane_count =
dp->link->link_params.lane_count;
dp_panel->audio->on(dp_panel->audio);
} else {
dp_panel->audio->off(dp_panel->audio, false);
}
}
}
}
static void dp_display_qos_request(struct dp_display_private *dp, bool add_vote)
{
struct device *cpu_dev;
int cpu = 0;
struct cpumask *cpu_mask;
u32 latency = dp->parser->qos_cpu_latency;
unsigned long mask = dp->parser->qos_cpu_mask;
if (!dp->parser->qos_cpu_mask || (dp->pm_qos_requested == add_vote))
return;
cpu_mask = to_cpumask(&mask);
for_each_cpu(cpu, cpu_mask) {
cpu_dev = get_cpu_device(cpu);
if (!cpu_dev) {
SDE_DEBUG("%s: failed to get cpu%d device\n", __func__, cpu);
continue;
}
if (add_vote)
dev_pm_qos_add_request(cpu_dev, &dp->pm_qos_req[cpu],
DEV_PM_QOS_RESUME_LATENCY, latency);
else
dev_pm_qos_remove_request(&dp->pm_qos_req[cpu]);
}
SDE_EVT32_EXTERNAL(add_vote, mask, latency);
dp->pm_qos_requested = add_vote;
}
static void dp_display_update_hdcp_status(struct dp_display_private *dp,
bool reset)
{
if (reset) {
dp->link->hdcp_status.hdcp_state = HDCP_STATE_INACTIVE;
dp->link->hdcp_status.hdcp_version = HDCP_VERSION_NONE;
}
memset(dp->debug->hdcp_status, 0, sizeof(dp->debug->hdcp_status));
snprintf(dp->debug->hdcp_status, sizeof(dp->debug->hdcp_status),
"%s: %s\ncaps: %d\n",
sde_hdcp_version(dp->link->hdcp_status.hdcp_version),
sde_hdcp_state_name(dp->link->hdcp_status.hdcp_state),
dp->hdcp.source_cap);
}
static void dp_display_update_hdcp_info(struct dp_display_private *dp)
{
void *fd = NULL;
struct dp_hdcp_dev *dev = NULL;
struct sde_hdcp_ops *ops = NULL;
int i = HDCP_VERSION_2P2;
dp_display_update_hdcp_status(dp, true);
dp->hdcp.data = NULL;
dp->hdcp.ops = NULL;
if (dp->debug->hdcp_disabled || dp->debug->sim_mode)
return;
while (i) {
dev = &dp->hdcp.dev[i];
ops = dev->ops;
fd = dev->fd;
i >>= 1;
if (!(dp->hdcp.source_cap & dev->ver))
continue;
if (ops->sink_support(fd)) {
dp->hdcp.data = fd;
dp->hdcp.ops = ops;
dp->link->hdcp_status.hdcp_version = dev->ver;
break;
}
}
DP_DEBUG("HDCP version supported: %s\n",
sde_hdcp_version(dp->link->hdcp_status.hdcp_version));
}
static void dp_display_check_source_hdcp_caps(struct dp_display_private *dp)
{
int i;
struct dp_hdcp_dev *hdcp_dev = dp->hdcp.dev;
if (dp->debug->hdcp_disabled) {
DP_DEBUG("hdcp disabled\n");
return;
}
for (i = 0; i < HDCP_VERSION_MAX; i++) {
struct dp_hdcp_dev *dev = &hdcp_dev[i];
struct sde_hdcp_ops *ops = dev->ops;
void *fd = dev->fd;
if (!fd || !ops)
continue;
if (ops->set_mode && ops->set_mode(fd, dp->mst.mst_active))
continue;
if (!(dp->hdcp.source_cap & dev->ver) &&
ops->feature_supported &&
ops->feature_supported(fd))
dp->hdcp.source_cap |= dev->ver;
}
dp_display_update_hdcp_status(dp, false);
}
static void dp_display_hdcp_register_streams(struct dp_display_private *dp)
{
int rc;
size_t i;
struct sde_hdcp_ops *ops = dp->hdcp.ops;
void *data = dp->hdcp.data;
if (dp_display_is_ready(dp) && dp->mst.mst_active && ops &&
ops->register_streams){
struct stream_info streams[DP_STREAM_MAX];
int index = 0;
DP_DEBUG("Registering all active panel streams with HDCP\n");
for (i = DP_STREAM_0; i < DP_STREAM_MAX; i++) {
if (!dp->active_panels[i])
continue;
streams[index].stream_id = i;
streams[index].virtual_channel =
dp->active_panels[i]->vcpi;
index++;
}
if (index > 0) {
rc = ops->register_streams(data, index, streams);
if (rc)
DP_ERR("failed to register streams. rc = %d\n",
rc);
}
}
}
static void dp_display_hdcp_deregister_stream(struct dp_display_private *dp,
enum dp_stream_id stream_id)
{
if (dp->hdcp.ops->deregister_streams && dp->active_panels[stream_id]) {
struct stream_info stream = {stream_id,
dp->active_panels[stream_id]->vcpi};
DP_DEBUG("Deregistering stream within HDCP library\n");
dp->hdcp.ops->deregister_streams(dp->hdcp.data, 1, &stream);
}
}
static void dp_display_hdcp_process_delayed_off(struct dp_display_private *dp)
{
if (dp->hdcp_delayed_off) {
if (dp->hdcp.ops && dp->hdcp.ops->off)
dp->hdcp.ops->off(dp->hdcp.data);
dp_display_update_hdcp_status(dp, true);
dp->hdcp_delayed_off = false;
}
}
static int dp_display_hdcp_process_sink_sync(struct dp_display_private *dp)
{
u8 sink_status = 0;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
if (dp->debug->hdcp_wait_sink_sync) {
drm_dp_dpcd_readb(dp->aux->drm_aux, DP_SINK_STATUS,
&sink_status);
sink_status &= (DP_RECEIVE_PORT_0_STATUS |
DP_RECEIVE_PORT_1_STATUS);
if (sink_status < 1) {
DP_DEBUG("Sink not synchronized. Queuing again then exiting\n");
queue_delayed_work(dp->wq, &dp->hdcp_cb_work, HZ);
return -EAGAIN;
}
/*
* Some sinks need more time to stabilize after synchronization
* and before it can handle an HDCP authentication request.
* Adding the delay for better interoperability.
*/
msleep(6000);
}
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT);
return 0;
}
static int dp_display_hdcp_start(struct dp_display_private *dp)
{
if (dp->link->hdcp_status.hdcp_state != HDCP_STATE_INACTIVE)
return -EINVAL;
dp_display_check_source_hdcp_caps(dp);
dp_display_update_hdcp_info(dp);
if (dp_display_is_hdcp_enabled(dp)) {
if (dp->hdcp.ops && dp->hdcp.ops->on &&
dp->hdcp.ops->on(dp->hdcp.data)) {
dp_display_update_hdcp_status(dp, true);
return 0;
}
} else {
dp_display_update_hdcp_status(dp, true);
return 0;
}
return -EINVAL;
}
static void dp_display_hdcp_print_auth_state(struct dp_display_private *dp)
{
u32 hdcp_auth_state;
int rc;
rc = dp->catalog->ctrl.read_hdcp_status(&dp->catalog->ctrl);
if (rc >= 0) {
hdcp_auth_state = (rc >> 20) & 0x3;
DP_DEBUG("hdcp auth state %d\n", hdcp_auth_state);
}
}
static void dp_display_hdcp_process_state(struct dp_display_private *dp)
{
struct dp_link_hdcp_status *status;
struct sde_hdcp_ops *ops;
void *data;
int rc = 0;
status = &dp->link->hdcp_status;
ops = dp->hdcp.ops;
data = dp->hdcp.data;
if (status->hdcp_state != HDCP_STATE_AUTHENTICATED &&
dp->debug->force_encryption && ops && ops->force_encryption)
ops->force_encryption(data, dp->debug->force_encryption);
if (status->hdcp_state == HDCP_STATE_AUTHENTICATED)
dp_display_qos_request(dp, false);
else
dp_display_qos_request(dp, true);
switch (status->hdcp_state) {
case HDCP_STATE_INACTIVE:
dp_display_hdcp_register_streams(dp);
if (dp->hdcp.ops && dp->hdcp.ops->authenticate)
rc = dp->hdcp.ops->authenticate(data);
if (!rc)
status->hdcp_state = HDCP_STATE_AUTHENTICATING;
break;
case HDCP_STATE_AUTH_FAIL:
if (dp_display_is_ready(dp) &&
dp_display_state_is(DP_STATE_ENABLED)) {
if (ops && ops->on && ops->on(data)) {
dp_display_update_hdcp_status(dp, true);
return;
}
dp_display_hdcp_register_streams(dp);
if (ops && ops->reauthenticate) {
rc = ops->reauthenticate(data);
if (rc)
DP_ERR("failed rc=%d\n", rc);
}
status->hdcp_state = HDCP_STATE_AUTHENTICATING;
} else {
DP_DEBUG("not reauthenticating, cable disconnected\n");
}
break;
default:
dp_display_hdcp_register_streams(dp);
break;
}
}
static void dp_display_abort_hdcp(struct dp_display_private *dp,
bool abort)
{
u8 i = HDCP_VERSION_2P2;
struct dp_hdcp_dev *dev = NULL;
while (i) {
dev = &dp->hdcp.dev[i];
i >>= 1;
if (!(dp->hdcp.source_cap & dev->ver))
continue;
dev->ops->abort(dev->fd, abort);
}
}
static void dp_display_hdcp_cb_work(struct work_struct *work)
{
struct dp_display_private *dp;
struct delayed_work *dw = to_delayed_work(work);
struct dp_link_hdcp_status *status;
int rc = 0;
dp = container_of(dw, struct dp_display_private, hdcp_cb_work);
if (!dp_display_state_is(DP_STATE_ENABLED | DP_STATE_CONNECTED) ||
dp_display_state_is(DP_STATE_ABORTED | DP_STATE_HDCP_ABORTED))
return;
if (dp_display_state_is(DP_STATE_SUSPENDED)) {
DP_DEBUG("System suspending. Delay HDCP operations\n");
queue_delayed_work(dp->wq, &dp->hdcp_cb_work, HZ);
return;
}
dp_display_hdcp_process_delayed_off(dp);
rc = dp_display_hdcp_process_sink_sync(dp);
if (rc)
return;
rc = dp_display_hdcp_start(dp);
if (!rc)
return;
dp_display_hdcp_print_auth_state(dp);
status = &dp->link->hdcp_status;
DP_DEBUG("%s: %s\n", sde_hdcp_version(status->hdcp_version),
sde_hdcp_state_name(status->hdcp_state));
dp_display_update_hdcp_status(dp, false);
dp_display_hdcp_process_state(dp);
}
static void dp_display_notify_hdcp_status_cb(void *ptr,
enum sde_hdcp_state state)
{
struct dp_display_private *dp = ptr;
if (!dp) {
DP_ERR("invalid input\n");
return;
}
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY,
dp->link->hdcp_status.hdcp_state);
dp->link->hdcp_status.hdcp_state = state;
queue_delayed_work(dp->wq, &dp->hdcp_cb_work, HZ/4);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT,
dp->link->hdcp_status.hdcp_state);
}
static void dp_display_deinitialize_hdcp(struct dp_display_private *dp)
{
if (!dp) {
DP_ERR("invalid input\n");
return;
}
sde_hdcp_1x_deinit(dp->hdcp.dev[HDCP_VERSION_1X].fd);
sde_dp_hdcp2p2_deinit(dp->hdcp.dev[HDCP_VERSION_2P2].fd);
}
static int dp_display_initialize_hdcp(struct dp_display_private *dp)
{
struct sde_hdcp_init_data hdcp_init_data;
struct dp_parser *parser;
void *fd;
int rc = 0;
if (!dp) {
DP_ERR("invalid input\n");
return -EINVAL;
}
parser = dp->parser;
hdcp_init_data.client_id = HDCP_CLIENT_DP;
hdcp_init_data.drm_aux = dp->aux->drm_aux;
hdcp_init_data.cb_data = (void *)dp;
hdcp_init_data.workq = dp->wq;
hdcp_init_data.sec_access = true;
hdcp_init_data.notify_status = dp_display_notify_hdcp_status_cb;
hdcp_init_data.dp_ahb = &parser->get_io(parser, "dp_ahb")->io;
hdcp_init_data.dp_aux = &parser->get_io(parser, "dp_aux")->io;
hdcp_init_data.dp_link = &parser->get_io(parser, "dp_link")->io;
hdcp_init_data.dp_p0 = &parser->get_io(parser, "dp_p0")->io;
hdcp_init_data.hdcp_io = &parser->get_io(parser,
"hdcp_physical")->io;
hdcp_init_data.revision = &dp->panel->link_info.revision;
hdcp_init_data.msm_hdcp_dev = dp->parser->msm_hdcp_dev;
fd = sde_hdcp_1x_init(&hdcp_init_data);
if (IS_ERR_OR_NULL(fd)) {
DP_DEBUG("Error initializing HDCP 1.x\n");
return -EINVAL;
}
dp->hdcp.dev[HDCP_VERSION_1X].fd = fd;
dp->hdcp.dev[HDCP_VERSION_1X].ops = sde_hdcp_1x_get(fd);
dp->hdcp.dev[HDCP_VERSION_1X].ver = HDCP_VERSION_1X;
DP_INFO("HDCP 1.3 initialized\n");
fd = sde_dp_hdcp2p2_init(&hdcp_init_data);
if (IS_ERR_OR_NULL(fd)) {
DP_DEBUG("Error initializing HDCP 2.x\n");
rc = -EINVAL;
goto error;
}
dp->hdcp.dev[HDCP_VERSION_2P2].fd = fd;
dp->hdcp.dev[HDCP_VERSION_2P2].ops = sde_dp_hdcp2p2_get(fd);
dp->hdcp.dev[HDCP_VERSION_2P2].ver = HDCP_VERSION_2P2;
DP_INFO("HDCP 2.2 initialized\n");
return 0;
error:
sde_hdcp_1x_deinit(dp->hdcp.dev[HDCP_VERSION_1X].fd);
return rc;
}
static void dp_display_pause_audio(struct dp_display_private *dp, bool pause)
{
struct dp_panel *dp_panel;
int idx;
for (idx = DP_STREAM_0; idx < DP_STREAM_MAX; idx++) {
if (!dp->active_panels[idx])
continue;
dp_panel = dp->active_panels[idx];
if (dp_panel->audio_supported)
dp_panel->audio->tui_active = pause;
}
}
static int dp_display_pre_hw_release(void *data)
{
struct dp_display_private *dp;
struct dp_display *dp_display = data;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
if (!dp_display)
return -EINVAL;
dp = container_of(dp_display, struct dp_display_private, dp_display);
mutex_lock(&dp->session_lock);
dp_display_state_add(DP_STATE_TUI_ACTIVE);
cancel_work_sync(&dp->connect_work);
cancel_work_sync(&dp->attention_work);
flush_workqueue(dp->wq);
dp_display_pause_audio(dp, true);
disable_irq(dp->irq);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT);
return 0;
}
static int dp_display_post_hw_acquire(void *data)
{
struct dp_display_private *dp;
struct dp_display *dp_display = data;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
if (!dp_display)
return -EINVAL;
dp = container_of(dp_display, struct dp_display_private, dp_display);
mutex_lock(&dp->session_lock);
dp_display_state_remove(DP_STATE_TUI_ACTIVE);
dp_display_pause_audio(dp, false);
enable_irq(dp->irq);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT);
return 0;
}
static int dp_display_bind(struct device *dev, struct device *master,
void *data)
{
int rc = 0;
struct dp_display_private *dp;
struct drm_device *drm;
struct platform_device *pdev = to_platform_device(dev);
struct msm_vm_ops vm_event_ops = {
.vm_pre_hw_release = dp_display_pre_hw_release,
.vm_post_hw_acquire = dp_display_post_hw_acquire,
};
if (!dev || !pdev || !master) {
DP_ERR("invalid param(s), dev %pK, pdev %pK, master %pK\n",
dev, pdev, master);
rc = -EINVAL;
goto end;
}
drm = dev_get_drvdata(master);
dp = platform_get_drvdata(pdev);
if (!drm || !dp) {
DP_ERR("invalid param(s), drm %pK, dp %pK\n",
drm, dp);
rc = -EINVAL;
goto end;
}
dp->dp_display.drm_dev = drm;
dp->priv = drm->dev_private;
msm_register_vm_event(master, dev, &vm_event_ops,
(void *)&dp->dp_display);
end:
return rc;
}
static void dp_display_unbind(struct device *dev, struct device *master,
void *data)
{
struct dp_display_private *dp;
struct platform_device *pdev = to_platform_device(dev);
if (!dev || !pdev) {
DP_ERR("invalid param(s)\n");
return;
}
dp = platform_get_drvdata(pdev);
if (!dp) {
DP_ERR("Invalid params\n");
return;
}
if (dp->power)
(void)dp->power->power_client_deinit(dp->power);
if (dp->aux)
(void)dp->aux->drm_aux_deregister(dp->aux);
dp_display_deinitialize_hdcp(dp);
}
static const struct component_ops dp_display_comp_ops = {
.bind = dp_display_bind,
.unbind = dp_display_unbind,
};
static bool dp_display_send_hpd_event(struct dp_display_private *dp)
{
struct drm_device *dev = NULL;
struct drm_connector *connector;
char name[HPD_STRING_SIZE], status[HPD_STRING_SIZE],
bpp[HPD_STRING_SIZE], pattern[HPD_STRING_SIZE];
char *envp[5];
struct dp_display *display;
int rc = 0;
connector = dp->dp_display.base_connector;
display = &dp->dp_display;
if (!connector) {
DP_ERR("connector not set\n");
return false;
}
connector->status = display->is_sst_connected ? connector_status_connected :
connector_status_disconnected;
if (dp->cached_connector_status == connector->status) {
DP_DEBUG("connector status (%d) unchanged, skipping uevent\n",
dp->cached_connector_status);
return false;
}
dp->cached_connector_status = connector->status;
dev = connector->dev;
if (dp->debug->skip_uevent) {
DP_INFO("skipping uevent\n");
return false;
}
snprintf(name, HPD_STRING_SIZE, "name=%s", connector->name);
snprintf(status, HPD_STRING_SIZE, "status=%s",
drm_get_connector_status_name(connector->status));
snprintf(bpp, HPD_STRING_SIZE, "bpp=%d",
dp_link_bit_depth_to_bpp(
dp->link->test_video.test_bit_depth));
snprintf(pattern, HPD_STRING_SIZE, "pattern=%d",
dp->link->test_video.test_video_pattern);
DP_INFO("[%s]:[%s] [%s] [%s]\n", name, status, bpp, pattern);
envp[0] = name;
envp[1] = status;
envp[2] = bpp;
envp[3] = pattern;
envp[4] = NULL;
rc = kobject_uevent_env(&dev->primary->kdev->kobj, KOBJ_CHANGE, envp);
DP_INFO("uevent %s: %d\n", rc ? "failure" : "success", rc);
return true;
}
static int dp_display_send_hpd_notification(struct dp_display_private *dp, bool skip_wait)
{
int ret = 0;
bool hpd = !!dp_display_state_is(DP_STATE_CONNECTED);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state, hpd);
/*
* Send the notification only if there is any change. This check is
* necessary since it is possible that the connect_work may or may not
* skip sending the notification in order to respond to a pending
* attention message. Attention work thread will always attempt to
* send the notification after successfully handling the attention
* message. This check here will avoid any unintended duplicate
* notifications.
*/
if (dp_display_state_is(DP_STATE_CONNECT_NOTIFIED) && hpd) {
DP_DEBUG("connection notified already, skip notification\n");
goto skip_wait;
} else if (dp_display_state_is(DP_STATE_DISCONNECT_NOTIFIED) && !hpd) {
DP_DEBUG("disonnect notified already, skip notification\n");
goto skip_wait;
}
dp->aux->state |= DP_STATE_NOTIFICATION_SENT;
reinit_completion(&dp->notification_comp);
if (!dp->mst.mst_active) {
dp->dp_display.is_sst_connected = hpd;
if (!dp_display_send_hpd_event(dp))
goto skip_wait;
} else {
dp->dp_display.is_sst_connected = false;
if (!dp->mst.cbs.hpd)
goto skip_wait;
dp->mst.cbs.hpd(&dp->dp_display, hpd);
}
if (hpd) {
dp_display_state_add(DP_STATE_CONNECT_NOTIFIED);
dp_display_state_remove(DP_STATE_DISCONNECT_NOTIFIED);
} else {
dp_display_state_add(DP_STATE_DISCONNECT_NOTIFIED);
dp_display_state_remove(DP_STATE_CONNECT_NOTIFIED);
}
/*
* Skip the wait if TUI is active considering that the user mode will
* not act on the notification until after the TUI session is over.
*/
if (dp_display_state_is(DP_STATE_TUI_ACTIVE)) {
dp_display_state_log("[TUI is active, skipping wait]");
goto skip_wait;
}
if (skip_wait || (hpd && dp->mst.mst_active))
goto skip_wait;
if (!dp->mst.mst_active &&
(!!dp_display_state_is(DP_STATE_ENABLED) == hpd))
goto skip_wait;
// wait 2 seconds
if (wait_for_completion_timeout(&dp->notification_comp, HZ * 2))
goto skip_wait;
//resend notification
if (dp->mst.mst_active)
dp->mst.cbs.hpd(&dp->dp_display, hpd);
else
dp_display_send_hpd_event(dp);
// wait another 3 seconds
if (!wait_for_completion_timeout(&dp->notification_comp, HZ * 3)) {
DP_WARN("%s timeout\n", hpd ? "connect" : "disconnect");
ret = -EINVAL;
}
skip_wait:
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, hpd, ret);
return ret;
}
static void dp_display_update_mst_state(struct dp_display_private *dp,
bool state)
{
dp->mst.mst_active = state;
dp->panel->mst_state = state;
}
static void dp_display_mst_init(struct dp_display_private *dp)
{
bool is_mst_receiver;
const unsigned long clear_mstm_ctrl_timeout_us = 100000;
u8 old_mstm_ctrl;
int ret;
if (!dp->parser->has_mst || !dp->mst.drm_registered) {
DP_MST_DEBUG("mst not enabled. has_mst:%d, registered:%d\n",
dp->parser->has_mst, dp->mst.drm_registered);
return;
}
is_mst_receiver = dp->panel->read_mst_cap(dp->panel);
if (!is_mst_receiver) {
DP_MST_DEBUG("sink doesn't support mst\n");
return;
}
/* clear sink mst state */
drm_dp_dpcd_readb(dp->aux->drm_aux, DP_MSTM_CTRL, &old_mstm_ctrl);
drm_dp_dpcd_writeb(dp->aux->drm_aux, DP_MSTM_CTRL, 0);
/* add extra delay if MST state is not cleared */
if (old_mstm_ctrl) {
DP_MST_DEBUG("MSTM_CTRL is not cleared, wait %luus\n",
clear_mstm_ctrl_timeout_us);
usleep_range(clear_mstm_ctrl_timeout_us,
clear_mstm_ctrl_timeout_us + 1000);
}
ret = drm_dp_dpcd_writeb(dp->aux->drm_aux, DP_MSTM_CTRL,
DP_MST_EN | DP_UP_REQ_EN | DP_UPSTREAM_IS_SRC);
if (ret < 0) {
DP_ERR("sink mst enablement failed\n");
return;
}
dp_display_update_mst_state(dp, true);
}
static void dp_display_set_mst_mgr_state(struct dp_display_private *dp,
bool state)
{
if (!dp->mst.mst_active)
return;
if (dp->mst.cbs.set_mgr_state)
dp->mst.cbs.set_mgr_state(&dp->dp_display, state);
DP_MST_DEBUG("mst_mgr_state: %d\n", state);
}
static int dp_display_host_init(struct dp_display_private *dp)
{
bool flip = false;
bool reset;
int rc = 0;
if (dp_display_state_is(DP_STATE_INITIALIZED)) {
dp_display_state_log("[already initialized]");
return rc;
}
if (dp->hpd->orientation == ORIENTATION_CC2)
flip = true;
reset = dp->debug->sim_mode ? false : !dp->hpd->multi_func;
rc = dp->power->init(dp->power, flip);
if (rc) {
DP_WARN("Power init failed.\n");
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_CASE1, dp->state);
return rc;
}
dp->hpd->host_init(dp->hpd, &dp->catalog->hpd);
rc = dp->ctrl->init(dp->ctrl, flip, reset);
if (rc) {
DP_WARN("Ctrl init Failed.\n");
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_CASE2, dp->state);
goto error_ctrl;
}
enable_irq(dp->irq);
dp_display_abort_hdcp(dp, false);
dp_display_state_add(DP_STATE_INITIALIZED);
/* log this as it results from user action of cable connection */
DP_INFO("[OK]\n");
return rc;
error_ctrl:
dp->hpd->host_deinit(dp->hpd, &dp->catalog->hpd);
dp->power->deinit(dp->power);
return rc;
}
static int dp_display_host_ready(struct dp_display_private *dp)
{
int rc = 0;
if (!dp_display_state_is(DP_STATE_INITIALIZED)) {
rc = dp_display_host_init(dp);
if (rc) {
dp_display_state_show("[not initialized]");
return rc;
}
}
if (dp_display_state_is(DP_STATE_READY)) {
dp_display_state_log("[already ready]");
return rc;
}
/*
* Reset the aborted state for AUX and CTRL modules. This will
* allow these modules to execute normally in response to the
* cable connection event.
*
* One corner case still exists. While the execution flow ensures
* that cable disconnection flushes all pending work items on the DP
* workqueue, and waits for the user module to clean up the DP
* connection session, it is possible that the system delays can
* lead to timeouts in the connect path. As a result, the actual
* connection callback from user modules can come in late and can
* race against a subsequent connection event here which would have
* reset the aborted flags. There is no clear solution for this since
* the connect/disconnect notifications do not currently have any
* sessions IDs.
*/
dp->aux->abort(dp->aux, false);
dp->ctrl->abort(dp->ctrl, false);
dp->aux->init(dp->aux, dp->parser->aux_cfg);
dp->panel->init(dp->panel);
dp_display_state_add(DP_STATE_READY);
/* log this as it results from user action of cable connection */
DP_INFO("[OK]\n");
return rc;
}
static void dp_display_host_unready(struct dp_display_private *dp)
{
if (!dp_display_state_is(DP_STATE_INITIALIZED)) {
dp_display_state_warn("[not initialized]");
return;
}
if (!dp_display_state_is(DP_STATE_READY)) {
dp_display_state_show("[not ready]");
return;
}
dp_display_state_remove(DP_STATE_READY);
dp->aux->deinit(dp->aux);
/* log this as it results from user action of cable disconnection */
DP_INFO("[OK]\n");
}
static void dp_display_host_deinit(struct dp_display_private *dp)
{
if (dp->active_stream_cnt) {
SDE_EVT32_EXTERNAL(dp->state, dp->active_stream_cnt);
DP_DEBUG("active stream present\n");
return;
}
if (!dp_display_state_is(DP_STATE_INITIALIZED)) {
dp_display_state_show("[not initialized]");
return;
}
dp_display_abort_hdcp(dp, true);
dp->ctrl->deinit(dp->ctrl);
dp->hpd->host_deinit(dp->hpd, &dp->catalog->hpd);
dp->power->deinit(dp->power);
disable_irq(dp->irq);
dp->aux->state = 0;
dp_display_state_remove(DP_STATE_INITIALIZED);
/* log this as it results from user action of cable dis-connection */
DP_INFO("[OK]\n");
}
static int dp_display_process_hpd_high(struct dp_display_private *dp)
{
int rc = -EINVAL;
unsigned long wait_timeout_ms = 0;
unsigned long t;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
if (dp_display_state_is(DP_STATE_CONNECTED)) {
DP_DEBUG("dp already connected, skipping hpd high\n");
mutex_unlock(&dp->session_lock);
return -EISCONN;
}
dp_display_state_add(DP_STATE_CONNECTED);
dp->dp_display.max_pclk_khz = min(dp->parser->max_pclk_khz,
dp->debug->max_pclk_khz);
if (!dp->debug->sim_mode && !dp->no_aux_switch && !dp->parser->gpio_aux_switch
&& dp->aux_switch_node && dp->aux->switch_configure) {
rc = dp->aux->switch_configure(dp->aux, true, dp->hpd->orientation);
if (rc)
goto err_state;
}
/*
* If dp video session is not restored from a previous session teardown
* by userspace, ensure the host_init is executed, in such a scenario,
* so that all the required DP resources are enabled.
*
* Below is one of the sequences of events which describe the above
* scenario:
* a. Source initiated power down resulting in host_deinit.
* b. Sink issues hpd low attention without physical cable disconnect.
* c. Source initiated power up sequence returns early because hpd is
* not high.
* d. Sink issues a hpd high attention event.
*/
if (dp_display_state_is(DP_STATE_SRC_PWRDN) &&
dp_display_state_is(DP_STATE_CONFIGURED)) {
rc = dp_display_host_init(dp);
if (rc) {
DP_WARN("Host init Failed");
if (!dp_display_state_is(DP_STATE_SUSPENDED)) {
/*
* If not suspended no point of going forward if
* resource is not enabled.
*/
dp_display_state_remove(DP_STATE_CONNECTED);
}
goto err_unlock;
}
/*
* If device is suspended and host_init fails, there is
* one more chance for host init to happen in prepare which
* is why DP_STATE_SRC_PWRDN is removed only at success.
*/
dp_display_state_remove(DP_STATE_SRC_PWRDN);
}
rc = dp_display_host_ready(dp);
if (rc) {
dp_display_state_show("[ready failed]");
goto err_state;
}
dp->link->psm_config(dp->link, &dp->panel->link_info, false);
dp->debug->psm_enabled = false;
if (!dp->dp_display.base_connector)
goto err_unready;
rc = dp->panel->read_sink_caps(dp->panel,
dp->dp_display.base_connector, dp->hpd->multi_func);
/*
* ETIMEDOUT --> cable may have been removed
* ENOTCONN --> no downstream device connected
*/
if (rc == -ETIMEDOUT || rc == -ENOTCONN)
goto err_unready;
dp->link->process_request(dp->link);
dp->panel->handle_sink_request(dp->panel);
dp_display_mst_init(dp);
rc = dp->ctrl->on(dp->ctrl, dp->mst.mst_active,
dp->panel->fec_en, dp->panel->dsc_en, false);
if (rc)
goto err_mst;
dp->process_hpd_connect = false;
dp_display_set_mst_mgr_state(dp, true);
mutex_unlock(&dp->session_lock);
/*
* Delay the HPD connect notification to see if sink generates any
* IRQ HPDs immediately after the HPD high.
*/
reinit_completion(&dp->attention_comp);
wait_timeout_ms = min_t(unsigned long,
dp->debug->connect_notification_delay_ms,
(unsigned long) MAX_CONNECT_NOTIFICATION_DELAY_MS);
t = wait_for_completion_timeout(&dp->attention_comp,
msecs_to_jiffies(wait_timeout_ms));
DP_DEBUG("wait_timeout=%lu ms, time_waited=%u ms\n", wait_timeout_ms,
jiffies_to_msecs(t));
/*
* If an IRQ HPD is pending, then do not send a connect notification.
* Once this work returns, the IRQ HPD would be processed and any
* required actions (such as link maintenance) would be done which
* will subsequently send the HPD notification. To keep things simple,
* do this only for SST use-cases. MST use cases require additional
* care in order to handle the side-band communications as well.
*
* One of the main motivations for this is DP LL 1.4 CTS use case
* where it is possible that we could get a test request right after
* a connection, and the strict timing requriements of the test can
* only be met if we do not wait for the e2e connection to be set up.
*/
if (!dp->mst.mst_active &&
(work_busy(&dp->attention_work) == WORK_BUSY_PENDING)) {
SDE_EVT32_EXTERNAL(dp->state, 99, jiffies_to_msecs(t));
DP_DEBUG("Attention pending, skip HPD notification\n");
goto end;
}
if (!rc && !dp_display_state_is(DP_STATE_ABORTED))
dp_display_send_hpd_notification(dp, false);
goto end;
err_mst:
dp_display_update_mst_state(dp, false);
err_unready:
dp_display_host_unready(dp);
err_state:
dp_display_state_remove(DP_STATE_CONNECTED);
err_unlock:
mutex_unlock(&dp->session_lock);
end:
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state,
wait_timeout_ms, rc);
return rc;
}
static void dp_display_process_mst_hpd_low(struct dp_display_private *dp, bool skip_wait)
{
int rc = 0;
if (dp->mst.mst_active) {
DP_MST_DEBUG("mst_hpd_low work\n");
/*
* HPD unplug callflow:
* 1. send hpd unplug on base connector so usermode can disable
* all external displays.
* 2. unset mst state in the topology mgr so the branch device
* can be cleaned up.
*/
if ((dp_display_state_is(DP_STATE_CONNECT_NOTIFIED) ||
dp_display_state_is(DP_STATE_ENABLED)))
rc = dp_display_send_hpd_notification(dp, skip_wait);
dp_display_set_mst_mgr_state(dp, false);
dp_display_update_mst_state(dp, false);
}
DP_MST_DEBUG("mst_hpd_low. mst_active:%d\n", dp->mst.mst_active);
}
static int dp_display_process_hpd_low(struct dp_display_private *dp, bool skip_wait)
{
int rc = 0;
dp_display_state_remove(DP_STATE_CONNECTED);
dp->process_hpd_connect = false;
dp_audio_enable(dp, false);
if (dp->mst.mst_active) {
dp_display_process_mst_hpd_low(dp, skip_wait);
} else {
if ((dp_display_state_is(DP_STATE_CONNECT_NOTIFIED) ||
dp_display_state_is(DP_STATE_ENABLED)))
rc = dp_display_send_hpd_notification(dp, skip_wait);
}
mutex_lock(&dp->session_lock);
if (!dp->active_stream_cnt)
dp->ctrl->off(dp->ctrl);
mutex_unlock(&dp->session_lock);
dp->panel->video_test = false;
return rc;
}
static int dp_display_aux_switch_callback(struct notifier_block *self,
unsigned long event, void *data)
{
return 0;
}
static int dp_display_init_aux_switch(struct dp_display_private *dp)
{
int rc = 0;
struct notifier_block nb;
const u32 max_retries = 50;
u32 retry;
if (dp->aux_switch_ready)
return rc;
if (!dp->aux->switch_register_notifier)
return rc;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
nb.notifier_call = dp_display_aux_switch_callback;
nb.priority = 0;
/*
* Iteratively wait for reg notifier which confirms that fsa driver is probed.
* Bootup DP with cable connected usecase can hit this scenario.
*/
for (retry = 0; retry < max_retries; retry++) {
rc = dp->aux->switch_register_notifier(&nb, dp->aux_switch_node);
if (rc == 0) {
DP_DEBUG("registered notifier successfully\n");
dp->aux_switch_ready = true;
break;
} else {
DP_DEBUG("failed to register notifier retry=%d rc=%d\n", retry, rc);
msleep(100);
}
}
if (retry == max_retries) {
DP_WARN("Failed to register fsa notifier\n");
dp->aux_switch_ready = false;
return rc;
}
if (dp->aux->switch_unregister_notifier)
dp->aux->switch_unregister_notifier(&nb, dp->aux_switch_node);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, rc);
return rc;
}
static int dp_display_usbpd_configure_cb(struct device *dev)
{
int rc = 0;
struct dp_display_private *dp;
if (!dev) {
DP_ERR("invalid dev\n");
return -EINVAL;
}
dp = dev_get_drvdata(dev);
if (!dp) {
DP_ERR("no driver data found\n");
return -ENODEV;
}
if (!dp->debug->sim_mode && !dp->no_aux_switch
&& !dp->parser->gpio_aux_switch && dp->aux_switch_node && dp->aux->switch_configure) {
rc = dp_display_init_aux_switch(dp);
if (rc)
return rc;
rc = dp->aux->switch_configure(dp->aux, true, dp->hpd->orientation);
if (rc)
return rc;
}
mutex_lock(&dp->session_lock);
if (dp_display_state_is(DP_STATE_TUI_ACTIVE)) {
dp_display_state_log("[TUI is active]");
mutex_unlock(&dp->session_lock);
return 0;
}
dp_display_state_remove(DP_STATE_ABORTED);
dp_display_state_add(DP_STATE_CONFIGURED);
rc = dp_display_host_init(dp);
if (rc) {
DP_ERR("Host init Failed");
mutex_unlock(&dp->session_lock);
return rc;
}
/* check for hpd high */
if (dp->hpd->hpd_high)
queue_work(dp->wq, &dp->connect_work);
else
dp->process_hpd_connect = true;
mutex_unlock(&dp->session_lock);
return 0;
}
static void dp_display_clear_reservation(struct dp_display *dp, struct dp_panel *panel)
{
struct dp_display_private *dp_display;
if (!dp || !panel) {
DP_ERR("invalid params\n");
return;
}
dp_display = container_of(dp, struct dp_display_private, dp_display);
mutex_lock(&dp_display->accounting_lock);
dp_display->tot_lm_blks_in_use -= panel->max_lm;
panel->max_lm = 0;
mutex_unlock(&dp_display->accounting_lock);
}
static void dp_display_clear_dsc_resources(struct dp_display_private *dp,
struct dp_panel *panel)
{
dp->tot_dsc_blks_in_use -= panel->dsc_blks_in_use;
panel->dsc_blks_in_use = 0;
}
static int dp_display_get_mst_pbn_div(struct dp_display *dp_display)
{
struct dp_display_private *dp;
u32 link_rate, lane_count;
if (!dp_display) {
DP_ERR("invalid params\n");
return 0;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
link_rate = drm_dp_bw_code_to_link_rate(dp->link->link_params.bw_code);
lane_count = dp->link->link_params.lane_count;
return link_rate * lane_count / 54000;
}
static int dp_display_stream_pre_disable(struct dp_display_private *dp,
struct dp_panel *dp_panel)
{
if (!dp->active_stream_cnt) {
DP_WARN("streams already disabled cnt=%d\n",
dp->active_stream_cnt);
return 0;
}
dp->ctrl->stream_pre_off(dp->ctrl, dp_panel);
return 0;
}
static void dp_display_stream_disable(struct dp_display_private *dp,
struct dp_panel *dp_panel)
{
if (!dp->active_stream_cnt) {
DP_WARN("streams already disabled cnt=%d\n",
dp->active_stream_cnt);
return;
}
if (dp_panel->stream_id == DP_STREAM_MAX ||
!dp->active_panels[dp_panel->stream_id]) {
DP_ERR("panel is already disabled\n");
return;
}
dp_display_clear_dsc_resources(dp, dp_panel);
DP_DEBUG("stream_id=%d, active_stream_cnt=%d, tot_dsc_blks_in_use=%d\n",
dp_panel->stream_id, dp->active_stream_cnt,
dp->tot_dsc_blks_in_use);
dp->ctrl->stream_off(dp->ctrl, dp_panel);
dp->active_panels[dp_panel->stream_id] = NULL;
dp->active_stream_cnt--;
}
static void dp_display_clean(struct dp_display_private *dp, bool skip_wait)
{
int idx;
struct dp_panel *dp_panel;
struct dp_link_hdcp_status *status = &dp->link->hdcp_status;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
if (dp_display_state_is(DP_STATE_TUI_ACTIVE)) {
DP_WARN("TUI is active\n");
return;
}
if (dp_display_is_hdcp_enabled(dp) &&
status->hdcp_state != HDCP_STATE_INACTIVE) {
cancel_delayed_work_sync(&dp->hdcp_cb_work);
if (dp->hdcp.ops->off)
dp->hdcp.ops->off(dp->hdcp.data);
dp_display_update_hdcp_status(dp, true);
}
for (idx = DP_STREAM_0; idx < DP_STREAM_MAX; idx++) {
if (!dp->active_panels[idx])
continue;
dp_panel = dp->active_panels[idx];
if (dp_panel->audio_supported)
dp_panel->audio->off(dp_panel->audio, skip_wait);
if (!skip_wait)
dp_display_stream_pre_disable(dp, dp_panel);
dp_display_stream_disable(dp, dp_panel);
dp_display_clear_reservation(&dp->dp_display, dp_panel);
dp_panel->deinit(dp_panel, 0);
}
dp_display_state_remove(DP_STATE_ENABLED | DP_STATE_CONNECTED);
dp->ctrl->off(dp->ctrl);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
}
static int dp_display_handle_disconnect(struct dp_display_private *dp, bool skip_wait)
{
int rc;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
rc = dp_display_process_hpd_low(dp, skip_wait);
if (rc) {
/* cancel any pending request */
dp->ctrl->abort(dp->ctrl, true);
dp->aux->abort(dp->aux, true);
}
mutex_lock(&dp->session_lock);
if (dp_display_state_is(DP_STATE_ENABLED))
dp_display_clean(dp, skip_wait);
dp_display_host_unready(dp);
dp->tot_lm_blks_in_use = 0;
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return rc;
}
static void dp_display_disconnect_sync(struct dp_display_private *dp)
{
int disconnect_delay_ms;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
/* cancel any pending request */
dp_display_state_add(DP_STATE_ABORTED);
dp->ctrl->abort(dp->ctrl, true);
dp->aux->abort(dp->aux, true);
/* wait for idle state */
cancel_work_sync(&dp->connect_work);
cancel_work_sync(&dp->attention_work);
flush_workqueue(dp->wq);
/*
* Delay the teardown of the mainlink for better interop experience.
* It is possible that certain sinks can issue an HPD high immediately
* following an HPD low as soon as they detect the mainlink being
* turned off. This can sometimes result in the HPD low pulse getting
* lost with certain cable. This issue is commonly seen when running
* DP LL CTS test 4.2.1.3.
*/
disconnect_delay_ms = min_t(u32, dp->debug->disconnect_delay_ms,
(u32) MAX_DISCONNECT_DELAY_MS);
DP_DEBUG("disconnect delay = %d ms\n", disconnect_delay_ms);
msleep(disconnect_delay_ms);
dp_display_handle_disconnect(dp, false);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state,
disconnect_delay_ms);
}
static int dp_display_usbpd_disconnect_cb(struct device *dev)
{
int rc = 0;
struct dp_display_private *dp;
if (!dev) {
DP_ERR("invalid dev\n");
rc = -EINVAL;
goto end;
}
dp = dev_get_drvdata(dev);
if (!dp) {
DP_ERR("no driver data found\n");
rc = -ENODEV;
goto end;
}
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state,
dp->debug->psm_enabled);
/* skip if a disconnect is already in progress */
if (dp_display_state_is(DP_STATE_ABORTED) &&
dp_display_state_is(DP_STATE_READY)) {
DP_DEBUG("disconnect already in progress\n");
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_CASE1, dp->state);
return 0;
}
if (dp->debug->psm_enabled && dp_display_state_is(DP_STATE_READY))
dp->link->psm_config(dp->link, &dp->panel->link_info, true);
dp->ctrl->abort(dp->ctrl, true);
dp->aux->abort(dp->aux, true);
if (!dp->debug->sim_mode && !dp->no_aux_switch
&& !dp->parser->gpio_aux_switch && dp->aux->switch_configure)
dp->aux->switch_configure(dp->aux, false, ORIENTATION_NONE);
dp_display_disconnect_sync(dp);
mutex_lock(&dp->session_lock);
dp_display_host_deinit(dp);
dp_display_state_remove(DP_STATE_CONFIGURED);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
end:
return rc;
}
static int dp_display_stream_enable(struct dp_display_private *dp,
struct dp_panel *dp_panel)
{
int rc = 0;
rc = dp->ctrl->stream_on(dp->ctrl, dp_panel);
if (dp->debug->tpg_pattern)
dp_panel->tpg_config(dp_panel, dp->debug->tpg_pattern);
if (!rc) {
dp->active_panels[dp_panel->stream_id] = dp_panel;
dp->active_stream_cnt++;
}
DP_DEBUG("dp active_stream_cnt:%d, tot_dsc_blks_in_use=%d\n",
dp->active_stream_cnt, dp->tot_dsc_blks_in_use);
return rc;
}
static void dp_display_mst_attention(struct dp_display_private *dp)
{
if (dp->mst.mst_active && dp->mst.cbs.hpd_irq)
dp->mst.cbs.hpd_irq(&dp->dp_display);
DP_MST_DEBUG("mst_attention_work. mst_active:%d\n", dp->mst.mst_active);
}
static void dp_display_attention_work(struct work_struct *work)
{
struct dp_display_private *dp = container_of(work,
struct dp_display_private, attention_work);
int rc = 0;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
SDE_EVT32_EXTERNAL(dp->state);
if (dp_display_state_is(DP_STATE_ABORTED)) {
DP_INFO("Hpd off, not handling any attention\n");
mutex_unlock(&dp->session_lock);
goto exit;
}
if (!dp_display_state_is(DP_STATE_READY)) {
mutex_unlock(&dp->session_lock);
goto mst_attention;
}
if (dp->link->process_request(dp->link)) {
mutex_unlock(&dp->session_lock);
goto cp_irq;
}
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(dp->state, dp->link->sink_request);
if (dp->link->sink_request & DS_PORT_STATUS_CHANGED) {
SDE_EVT32_EXTERNAL(dp->state, DS_PORT_STATUS_CHANGED);
if (!dp->mst.mst_active) {
if (dp_display_is_sink_count_zero(dp)) {
dp_display_handle_disconnect(dp, false);
} else {
/*
* connect work should take care of sending
* the HPD notification.
*/
queue_work(dp->wq, &dp->connect_work);
}
}
goto mst_attention;
}
if (dp->link->sink_request & DP_TEST_LINK_VIDEO_PATTERN) {
SDE_EVT32_EXTERNAL(dp->state, DP_TEST_LINK_VIDEO_PATTERN);
dp_display_handle_disconnect(dp, false);
dp->panel->video_test = true;
/*
* connect work should take care of sending
* the HPD notification.
*/
queue_work(dp->wq, &dp->connect_work);
goto mst_attention;
}
if (dp->link->sink_request & (DP_TEST_LINK_PHY_TEST_PATTERN |
DP_TEST_LINK_TRAINING | DP_LINK_STATUS_UPDATED)) {
mutex_lock(&dp->session_lock);
dp_audio_enable(dp, false);
if (dp->link->sink_request & DP_TEST_LINK_PHY_TEST_PATTERN) {
SDE_EVT32_EXTERNAL(dp->state,
DP_TEST_LINK_PHY_TEST_PATTERN);
dp->ctrl->process_phy_test_request(dp->ctrl);
}
if (dp->link->sink_request & DP_TEST_LINK_TRAINING) {
SDE_EVT32_EXTERNAL(dp->state, DP_TEST_LINK_TRAINING);
dp->link->send_test_response(dp->link);
rc = dp->ctrl->link_maintenance(dp->ctrl);
}
if (dp->link->sink_request & DP_LINK_STATUS_UPDATED) {
SDE_EVT32_EXTERNAL(dp->state, DP_LINK_STATUS_UPDATED);
rc = dp->ctrl->link_maintenance(dp->ctrl);
}
if (!rc)
dp_audio_enable(dp, true);
mutex_unlock(&dp->session_lock);
if (rc)
goto exit;
if (dp->link->sink_request & (DP_TEST_LINK_PHY_TEST_PATTERN |
DP_TEST_LINK_TRAINING))
goto mst_attention;
}
cp_irq:
if (dp_display_is_hdcp_enabled(dp) && dp->hdcp.ops->cp_irq)
dp->hdcp.ops->cp_irq(dp->hdcp.data);
if (!dp->mst.mst_active) {
/*
* It is possible that the connect_work skipped sending
* the HPD notification if the attention message was
* already pending. Send the notification here to
* account for that. This is not needed if this
* attention work was handling a test request
*/
dp_display_send_hpd_notification(dp, false);
}
mst_attention:
dp_display_mst_attention(dp);
exit:
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
}
static int dp_display_usbpd_attention_cb(struct device *dev)
{
struct dp_display_private *dp;
if (!dev) {
DP_ERR("invalid dev\n");
return -EINVAL;
}
dp = dev_get_drvdata(dev);
if (!dp) {
DP_ERR("no driver data found\n");
return -ENODEV;
}
DP_DEBUG("hpd_irq:%d, hpd_high:%d, power_on:%d, is_connected:%d\n",
dp->hpd->hpd_irq, dp->hpd->hpd_high,
!!dp_display_state_is(DP_STATE_ENABLED),
!!dp_display_state_is(DP_STATE_CONNECTED));
SDE_EVT32_EXTERNAL(dp->state, dp->hpd->hpd_irq, dp->hpd->hpd_high,
!!dp_display_state_is(DP_STATE_ENABLED),
!!dp_display_state_is(DP_STATE_CONNECTED));
if (!dp->hpd->hpd_high) {
dp_display_disconnect_sync(dp);
return 0;
}
/*
* Ignore all the attention messages except HPD LOW when TUI is
* active, so user mode can be notified of the disconnect event. This
* allows user mode to tear down the control path after the TUI
* session is over. Ideally this should never happen, but on the off
* chance that there is a race condition in which there is a IRQ HPD
* during tear down of DP at TUI start then this check might help avoid
* a potential issue accessing registers in attention processing.
*/
if (dp_display_state_is(DP_STATE_TUI_ACTIVE)) {
DP_WARN("TUI is active\n");
return 0;
}
if (dp->hpd->hpd_irq && dp_display_state_is(DP_STATE_READY)) {
queue_work(dp->wq, &dp->attention_work);
complete_all(&dp->attention_comp);
} else if (dp->process_hpd_connect ||
!dp_display_state_is(DP_STATE_CONNECTED)) {
dp_display_state_remove(DP_STATE_ABORTED);
queue_work(dp->wq, &dp->connect_work);
} else {
DP_DEBUG("ignored\n");
}
return 0;
}
static void dp_display_connect_work(struct work_struct *work)
{
int rc = 0;
struct dp_display_private *dp = container_of(work,
struct dp_display_private, connect_work);
if (dp_display_state_is(DP_STATE_TUI_ACTIVE)) {
dp_display_state_log("[TUI is active]");
return;
}
if (dp_display_state_is(DP_STATE_ABORTED)) {
DP_WARN("HPD off requested\n");
return;
}
if (!dp->hpd->hpd_high) {
DP_WARN("Sink disconnected\n");
return;
}
rc = dp_display_process_hpd_high(dp);
if (!rc && dp->panel->video_test)
dp->link->send_test_response(dp->link);
}
static int dp_display_usb_notifier(struct notifier_block *nb,
unsigned long action, void *data)
{
struct dp_display_private *dp = container_of(nb,
struct dp_display_private, usb_nb);
SDE_EVT32_EXTERNAL(dp->state, dp->debug->sim_mode, action);
if (!action && dp->debug->sim_mode) {
DP_WARN("usb disconnected during simulation\n");
dp_display_state_add(DP_STATE_ABORTED);
dp->ctrl->abort(dp->ctrl, true);
dp->aux->abort(dp->aux, true);
dp_display_handle_disconnect(dp, false);
dp->debug->abort(dp->debug);
}
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, NOTIFY_DONE);
return NOTIFY_DONE;
}
static void dp_display_register_usb_notifier(struct dp_display_private *dp)
{
int rc = 0;
const char *phandle = "usb-phy";
struct usb_phy *usbphy;
usbphy = devm_usb_get_phy_by_phandle(&dp->pdev->dev, phandle, 0);
if (IS_ERR_OR_NULL(usbphy)) {
DP_DEBUG("unable to get usbphy\n");
return;
}
dp->usb_nb.notifier_call = dp_display_usb_notifier;
dp->usb_nb.priority = 2;
rc = usb_register_notifier(usbphy, &dp->usb_nb);
if (rc)
DP_DEBUG("failed to register for usb event: %d\n", rc);
}
int dp_display_mmrm_callback(struct mmrm_client_notifier_data *notifier_data)
{
struct dss_clk_mmrm_cb *mmrm_cb_data = (struct dss_clk_mmrm_cb *)notifier_data->pvt_data;
struct dp_display *dp_display = (struct dp_display *)mmrm_cb_data->phandle;
struct dp_display_private *dp =
container_of(dp_display, struct dp_display_private, dp_display);
int ret = 0;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state, notifier_data->cb_type);
if (notifier_data->cb_type == MMRM_CLIENT_RESOURCE_VALUE_CHANGE
&& dp_display_state_is(DP_STATE_ENABLED)
&& !dp_display_state_is(DP_STATE_ABORTED)) {
ret = dp_display_handle_disconnect(dp, false);
if (ret)
DP_ERR("mmrm callback error reducing clk, ret:%d\n", ret);
}
DP_DEBUG("mmrm callback handled, state: 0x%x rc:%d\n", dp->state, ret);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, notifier_data->cb_type);
return ret;
}
static void dp_display_deinit_sub_modules(struct dp_display_private *dp)
{
dp_debug_put(dp->debug);
dp_hpd_put(dp->hpd);
if (dp->panel)
dp_audio_put(dp->panel->audio);
dp_ctrl_put(dp->ctrl);
dp_panel_put(dp->panel);
dp_link_put(dp->link);
dp_power_put(dp->power);
dp_pll_put(dp->pll);
dp_aux_put(dp->aux);
dp_catalog_put(dp->catalog);
dp_parser_put(dp->parser);
mutex_destroy(&dp->session_lock);
}
static int dp_init_sub_modules(struct dp_display_private *dp)
{
int rc = 0;
u32 dp_core_revision = 0;
bool hdcp_disabled;
const char *phandle = "qcom,dp-aux-switch";
struct device *dev = &dp->pdev->dev;
struct dp_hpd_cb *cb = &dp->hpd_cb;
struct dp_ctrl_in ctrl_in = {
.dev = dev,
};
struct dp_panel_in panel_in = {
.dev = dev,
};
struct dp_debug_in debug_in = {
.dev = dev,
};
struct dp_pll_in pll_in = {
.pdev = dp->pdev,
};
mutex_init(&dp->session_lock);
mutex_init(&dp->accounting_lock);
dp->parser = dp_parser_get(dp->pdev);
if (IS_ERR(dp->parser)) {
rc = PTR_ERR(dp->parser);
DP_ERR("failed to initialize parser, rc = %d\n", rc);
dp->parser = NULL;
goto error;
}
rc = dp->parser->parse(dp->parser);
if (rc) {
DP_ERR("device tree parsing failed\n");
goto error_catalog;
}
g_dp_display->is_mst_supported = dp->parser->has_mst;
g_dp_display->dsc_cont_pps = dp->parser->dsc_continuous_pps;
dp->catalog = dp_catalog_get(dev, dp->parser);
if (IS_ERR(dp->catalog)) {
rc = PTR_ERR(dp->catalog);
DP_ERR("failed to initialize catalog, rc = %d\n", rc);
dp->catalog = NULL;
goto error_catalog;
}
dp_core_revision = dp_catalog_get_dp_core_version(dp->catalog);
dp->aux_switch_node = of_parse_phandle(dp->pdev->dev.of_node, phandle, 0);
if (!dp->aux_switch_node) {
DP_DEBUG("cannot parse %s handle\n", phandle);
dp->no_aux_switch = true;
}
dp->aux = dp_aux_get(dev, &dp->catalog->aux, dp->parser,
dp->aux_switch_node, dp->aux_bridge, g_dp_display->dp_aux_ipc_log);
if (IS_ERR(dp->aux)) {
rc = PTR_ERR(dp->aux);
DP_ERR("failed to initialize aux, rc = %d\n", rc);
dp->aux = NULL;
goto error_aux;
}
rc = dp->aux->drm_aux_register(dp->aux, dp->dp_display.drm_dev);
if (rc) {
DP_ERR("DRM DP AUX register failed\n");
goto error_pll;
}
pll_in.aux = dp->aux;
pll_in.parser = dp->parser;
pll_in.dp_core_revision = dp_core_revision;
dp->pll = dp_pll_get(&pll_in);
if (IS_ERR(dp->pll)) {
rc = PTR_ERR(dp->pll);
DP_ERR("failed to initialize pll, rc = %d\n", rc);
dp->pll = NULL;
goto error_pll;
}
dp->power = dp_power_get(dp->parser, dp->pll);
if (IS_ERR(dp->power)) {
rc = PTR_ERR(dp->power);
DP_ERR("failed to initialize power, rc = %d\n", rc);
dp->power = NULL;
goto error_power;
}
rc = dp->power->power_client_init(dp->power, &dp->priv->phandle,
dp->dp_display.drm_dev);
if (rc) {
DP_ERR("Power client create failed\n");
goto error_link;
}
rc = dp->power->power_mmrm_init(dp->power, &dp->priv->phandle,
(void *)&dp->dp_display, dp_display_mmrm_callback);
if (rc) {
DP_ERR("failed to initialize mmrm, rc = %d\n", rc);
goto error_link;
}
dp->link = dp_link_get(dev, dp->aux, dp_core_revision);
if (IS_ERR(dp->link)) {
rc = PTR_ERR(dp->link);
DP_ERR("failed to initialize link, rc = %d\n", rc);
dp->link = NULL;
goto error_link;
}
panel_in.aux = dp->aux;
panel_in.catalog = &dp->catalog->panel;
panel_in.link = dp->link;
panel_in.connector = dp->dp_display.base_connector;
panel_in.base_panel = NULL;
panel_in.parser = dp->parser;
dp->panel = dp_panel_get(&panel_in);
if (IS_ERR(dp->panel)) {
rc = PTR_ERR(dp->panel);
DP_ERR("failed to initialize panel, rc = %d\n", rc);
dp->panel = NULL;
goto error_panel;
}
ctrl_in.link = dp->link;
ctrl_in.panel = dp->panel;
ctrl_in.aux = dp->aux;
ctrl_in.power = dp->power;
ctrl_in.catalog = &dp->catalog->ctrl;
ctrl_in.parser = dp->parser;
ctrl_in.pll = dp->pll;
dp->ctrl = dp_ctrl_get(&ctrl_in);
if (IS_ERR(dp->ctrl)) {
rc = PTR_ERR(dp->ctrl);
DP_ERR("failed to initialize ctrl, rc = %d\n", rc);
dp->ctrl = NULL;
goto error_ctrl;
}
dp->panel->audio = dp_audio_get(dp->pdev, dp->panel,
&dp->catalog->audio);
if (IS_ERR(dp->panel->audio)) {
rc = PTR_ERR(dp->panel->audio);
DP_ERR("failed to initialize audio, rc = %d\n", rc);
dp->panel->audio = NULL;
goto error_audio;
}
memset(&dp->mst, 0, sizeof(dp->mst));
dp->active_stream_cnt = 0;
cb->configure = dp_display_usbpd_configure_cb;
cb->disconnect = dp_display_usbpd_disconnect_cb;
cb->attention = dp_display_usbpd_attention_cb;
dp->hpd = dp_hpd_get(dev, dp->parser, &dp->catalog->hpd,
dp->aux_bridge, cb);
if (IS_ERR(dp->hpd)) {
rc = PTR_ERR(dp->hpd);
DP_ERR("failed to initialize hpd, rc = %d\n", rc);
dp->hpd = NULL;
goto error_hpd;
}
hdcp_disabled = !!dp_display_initialize_hdcp(dp);
debug_in.panel = dp->panel;
debug_in.hpd = dp->hpd;
debug_in.link = dp->link;
debug_in.aux = dp->aux;
debug_in.connector = &dp->dp_display.base_connector;
debug_in.catalog = dp->catalog;
debug_in.parser = dp->parser;
debug_in.ctrl = dp->ctrl;
debug_in.pll = dp->pll;
debug_in.display = &dp->dp_display;
dp->debug = dp_debug_get(&debug_in);
if (IS_ERR(dp->debug)) {
rc = PTR_ERR(dp->debug);
DP_ERR("failed to initialize debug, rc = %d\n", rc);
dp->debug = NULL;
goto error_debug;
}
dp->cached_connector_status = connector_status_disconnected;
dp->tot_dsc_blks_in_use = 0;
dp->tot_lm_blks_in_use = 0;
dp->debug->hdcp_disabled = hdcp_disabled;
dp_display_update_hdcp_status(dp, true);
dp_display_register_usb_notifier(dp);
if (dp->hpd->register_hpd) {
rc = dp->hpd->register_hpd(dp->hpd);
if (rc) {
DP_ERR("failed register hpd\n");
goto error_hpd_reg;
}
}
return rc;
error_hpd_reg:
dp_debug_put(dp->debug);
error_debug:
dp_hpd_put(dp->hpd);
error_hpd:
dp_audio_put(dp->panel->audio);
error_audio:
dp_ctrl_put(dp->ctrl);
error_ctrl:
dp_panel_put(dp->panel);
error_panel:
dp_link_put(dp->link);
error_link:
dp_power_put(dp->power);
error_power:
dp_pll_put(dp->pll);
error_pll:
dp_aux_put(dp->aux);
error_aux:
dp_catalog_put(dp->catalog);
error_catalog:
dp_parser_put(dp->parser);
error:
mutex_destroy(&dp->session_lock);
return rc;
}
static int dp_display_post_init(struct dp_display *dp_display)
{
int rc = 0;
struct dp_display_private *dp;
if (!dp_display) {
DP_ERR("invalid input\n");
rc = -EINVAL;
goto end;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
if (IS_ERR_OR_NULL(dp)) {
DP_ERR("invalid params\n");
rc = -EINVAL;
goto end;
}
rc = dp_init_sub_modules(dp);
if (rc)
goto end;
dp_display->post_init = NULL;
end:
DP_DEBUG("%s\n", rc ? "failed" : "success");
return rc;
}
static int dp_display_set_mode(struct dp_display *dp_display, void *panel,
struct dp_display_mode *mode)
{
const u32 num_components = 3, default_bpp = 24;
struct dp_display_private *dp;
struct dp_panel *dp_panel;
bool dsc_en = (mode->capabilities & DP_PANEL_CAPS_DSC) ? true : false;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp_panel = panel;
if (!dp_panel->connector) {
DP_ERR("invalid connector input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state,
mode->timing.h_active, mode->timing.v_active,
mode->timing.refresh_rate);
mutex_lock(&dp->session_lock);
mode->timing.bpp =
dp_panel->connector->display_info.bpc * num_components;
if (!mode->timing.bpp)
mode->timing.bpp = default_bpp;
mode->timing.bpp = dp->panel->get_mode_bpp(dp->panel,
mode->timing.bpp, mode->timing.pixel_clk_khz, dsc_en);
if (dp->mst.mst_active)
dp->mst.cbs.set_mst_mode_params(&dp->dp_display, mode);
dp_panel->pinfo = mode->timing;
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_display_prepare(struct dp_display *dp_display, void *panel)
{
struct dp_display_private *dp;
struct dp_panel *dp_panel;
int rc = 0;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp_panel = panel;
if (!dp_panel->connector) {
DP_ERR("invalid connector input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
/*
* If DP video session is restored by the userspace after display
* disconnect notification from dongle i.e. typeC cable connected to
* source but disconnected at the display side, the DP controller is
* not restored to the desired configured state. So, ensure host_init
* is executed in such a scenario so that all the DP controller
* resources are enabled for the next connection event.
*/
if (dp_display_state_is(DP_STATE_SRC_PWRDN) &&
dp_display_state_is(DP_STATE_CONFIGURED)) {
rc = dp_display_host_init(dp);
if (rc) {
/*
* Skip all the events that are similar to abort case, just that
* the stream clks should be enabled so that no commit failure can
* be seen.
*/
DP_ERR("Host init failed.\n");
goto end;
}
/*
* Remove DP_STATE_SRC_PWRDN flag on successful host_init to
* prevent cases such as below.
* 1. MST stream 1 failed to do host init then stream 2 can retry again.
* 2. Resume path fails, now sink sends hpd_high=0 and hpd_high=1.
*/
dp_display_state_remove(DP_STATE_SRC_PWRDN);
}
/*
* If the physical connection to the sink is already lost by the time
* we try to set up the connection, we can just skip all the steps
* here safely.
*/
if (dp_display_state_is(DP_STATE_ABORTED)) {
dp_display_state_log("[aborted]");
goto end;
}
/*
* If DP_STATE_ENABLED, there is nothing left to do.
* This would happen during MST flow. So, log this.
*/
if (dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_warn("[already enabled]");
goto end;
}
if (!dp_display_is_ready(dp)) {
dp_display_state_show("[not ready]");
goto end;
}
/* For supporting DP_PANEL_SRC_INITIATED_POWER_DOWN case */
rc = dp_display_host_ready(dp);
if (rc) {
dp_display_state_show("[ready failed]");
goto end;
}
if (dp->debug->psm_enabled) {
dp->link->psm_config(dp->link, &dp->panel->link_info, false);
dp->debug->psm_enabled = false;
}
/*
* Execute the dp controller power on in shallow mode here.
* In normal cases, controller should have been powered on
* by now. In some cases like suspend/resume or framework
* reboot, we end up here without a powered on controller.
* Cable may have been removed in suspended state. In that
* case, link training is bound to fail on system resume.
* So, we execute in shallow mode here to do only minimal
* and required things.
*/
rc = dp->ctrl->on(dp->ctrl, dp->mst.mst_active, dp_panel->fec_en,
dp_panel->dsc_en, true);
if (rc)
goto end;
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, rc);
return rc;
}
static int dp_display_set_stream_info(struct dp_display *dp_display,
void *panel, u32 strm_id, u32 start_slot,
u32 num_slots, u32 pbn, int vcpi)
{
int rc = 0;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
const int max_slots = 64;
if (!dp_display) {
DP_ERR("invalid input\n");
return -EINVAL;
}
if (strm_id >= DP_STREAM_MAX) {
DP_ERR("invalid stream id:%d\n", strm_id);
return -EINVAL;
}
if (start_slot + num_slots > max_slots) {
DP_ERR("invalid channel info received. start:%d, slots:%d\n",
start_slot, num_slots);
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state, strm_id,
start_slot, num_slots);
mutex_lock(&dp->session_lock);
dp->ctrl->set_mst_channel_info(dp->ctrl, strm_id,
start_slot, num_slots);
if (panel) {
dp_panel = panel;
dp_panel->set_stream_info(dp_panel, strm_id, start_slot,
num_slots, pbn, vcpi);
}
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, rc);
return rc;
}
static int dp_display_enable(struct dp_display *dp_display, void *panel)
{
int rc = 0;
struct dp_display_private *dp;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
/*
* If DP_STATE_READY is not set, we should not do any HW
* programming.
*/
if (!dp_display_state_is(DP_STATE_READY)) {
dp_display_state_show("[host not ready]");
goto end;
}
/*
* It is possible that by the time we get call back to establish
* the DP pipeline e2e, the physical DP connection to the sink is
* already lost. In such cases, the DP_STATE_ABORTED would be set.
* However, it is necessary to NOT abort the display setup here so as
* to ensure that the rest of the system is in a stable state prior to
* handling the disconnect notification.
*/
if (dp_display_state_is(DP_STATE_ABORTED))
dp_display_state_log("[aborted, but continue on]");
rc = dp_display_stream_enable(dp, panel);
if (rc)
goto end;
dp_display_state_add(DP_STATE_ENABLED);
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, rc);
return rc;
}
static void dp_display_stream_post_enable(struct dp_display_private *dp,
struct dp_panel *dp_panel)
{
dp_panel->spd_config(dp_panel);
dp_panel->setup_hdr(dp_panel, NULL, false, 0, true);
}
static int dp_display_post_enable(struct dp_display *dp_display, void *panel)
{
struct dp_display_private *dp;
struct dp_panel *dp_panel;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
dp_panel = panel;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
/*
* If DP_STATE_READY is not set, we should not do any HW
* programming.
*/
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
goto end;
}
/*
* If the physical connection to the sink is already lost by the time
* we try to set up the connection, we can just skip all the steps
* here safely.
*/
if (dp_display_state_is(DP_STATE_ABORTED)) {
dp_display_state_log("[aborted]");
goto end;
}
if (!dp_display_is_ready(dp) || !dp_display_state_is(DP_STATE_READY)) {
dp_display_state_show("[not ready]");
goto end;
}
dp_display_stream_post_enable(dp, dp_panel);
cancel_delayed_work_sync(&dp->hdcp_cb_work);
queue_delayed_work(dp->wq, &dp->hdcp_cb_work, HZ);
if (dp_panel->audio_supported) {
dp_panel->audio->bw_code = dp->link->link_params.bw_code;
dp_panel->audio->lane_count = dp->link->link_params.lane_count;
dp_panel->audio->on(dp_panel->audio);
}
dp->aux->state &= ~DP_STATE_CTRL_POWERED_OFF;
dp->aux->state |= DP_STATE_CTRL_POWERED_ON;
complete_all(&dp->notification_comp);
DP_DEBUG("display post enable complete. state: 0x%x\n", dp->state);
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static void dp_display_clear_colorspaces(struct dp_display *dp_display)
{
struct drm_connector *connector;
struct sde_connector *sde_conn;
connector = dp_display->base_connector;
sde_conn = to_sde_connector(connector);
sde_conn->color_enc_fmt = 0;
}
static int dp_display_pre_disable(struct dp_display *dp_display, void *panel)
{
struct dp_display_private *dp;
struct dp_panel *dp_panel = panel;
struct dp_link_hdcp_status *status;
int rc = 0;
size_t i;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
status = &dp->link->hdcp_status;
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
goto end;
}
dp_display_state_add(DP_STATE_HDCP_ABORTED);
cancel_delayed_work_sync(&dp->hdcp_cb_work);
if (dp_display_is_hdcp_enabled(dp) &&
status->hdcp_state != HDCP_STATE_INACTIVE) {
bool off = true;
if (dp_display_state_is(DP_STATE_SUSPENDED)) {
DP_DEBUG("Can't perform HDCP cleanup while suspended. Defer\n");
dp->hdcp_delayed_off = true;
goto clean;
}
flush_delayed_work(&dp->hdcp_cb_work);
if (dp->mst.mst_active) {
dp_display_hdcp_deregister_stream(dp,
dp_panel->stream_id);
for (i = DP_STREAM_0; i < DP_STREAM_MAX; i++) {
if (i != dp_panel->stream_id &&
dp->active_panels[i]) {
DP_DEBUG("Streams are still active. Skip disabling HDCP\n");
off = false;
}
}
}
if (off) {
if (dp->hdcp.ops->off)
dp->hdcp.ops->off(dp->hdcp.data);
dp_display_update_hdcp_status(dp, true);
}
}
dp_display_clear_colorspaces(dp_display);
clean:
if (dp_panel->audio_supported)
dp_panel->audio->off(dp_panel->audio, false);
rc = dp_display_stream_pre_disable(dp, dp_panel);
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_display_disable(struct dp_display *dp_display, void *panel)
{
int i;
struct dp_display_private *dp = NULL;
struct dp_panel *dp_panel = NULL;
struct dp_link_hdcp_status *status;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
dp_panel = panel;
status = &dp->link->hdcp_status;
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
goto end;
}
if (!dp_display_state_is(DP_STATE_READY)) {
dp_display_state_show("[not ready]");
goto end;
}
dp_display_stream_disable(dp, dp_panel);
dp_display_state_remove(DP_STATE_HDCP_ABORTED);
for (i = DP_STREAM_0; i < DP_STREAM_MAX; i++) {
if (dp->active_panels[i]) {
if (status->hdcp_state != HDCP_STATE_AUTHENTICATED)
queue_delayed_work(dp->wq, &dp->hdcp_cb_work,
HZ/4);
break;
}
}
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_request_irq(struct dp_display *dp_display)
{
int rc = 0;
struct dp_display_private *dp;
if (!dp_display) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
dp->irq = irq_of_parse_and_map(dp->pdev->dev.of_node, 0);
if (dp->irq < 0) {
rc = dp->irq;
DP_ERR("failed to get irq: %d\n", rc);
return rc;
}
rc = devm_request_irq(&dp->pdev->dev, dp->irq, dp_display_irq,
IRQF_TRIGGER_HIGH, "dp_display_isr", dp);
if (rc < 0) {
DP_ERR("failed to request IRQ%u: %d\n",
dp->irq, rc);
return rc;
}
disable_irq(dp->irq);
return 0;
}
static struct dp_debug *dp_get_debug(struct dp_display *dp_display)
{
struct dp_display_private *dp;
if (!dp_display) {
DP_ERR("invalid input\n");
return ERR_PTR(-EINVAL);
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
return dp->debug;
}
static int dp_display_unprepare(struct dp_display *dp_display, void *panel)
{
struct dp_display_private *dp;
struct dp_panel *dp_panel = panel;
u32 flags = 0;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
/*
* Check if the power off sequence was triggered
* by a source initialated action like framework
* reboot or suspend-resume but not from normal
* hot plug. If connector is in MST mode, skip
* powering down host as aux needs to be kept
* alive to handle hot-plug sideband message.
*/
if (dp_display_is_ready(dp) &&
(dp_display_state_is(DP_STATE_SUSPENDED) ||
!dp->mst.mst_active))
flags |= DP_PANEL_SRC_INITIATED_POWER_DOWN;
if (dp->active_stream_cnt)
goto end;
if (flags & DP_PANEL_SRC_INITIATED_POWER_DOWN) {
dp->link->psm_config(dp->link, &dp->panel->link_info, true);
dp->debug->psm_enabled = true;
dp->ctrl->off(dp->ctrl);
dp_display_host_unready(dp);
dp_display_host_deinit(dp);
dp_display_state_add(DP_STATE_SRC_PWRDN);
}
dp_display_state_remove(DP_STATE_ENABLED);
dp->aux->state &= ~DP_STATE_CTRL_POWERED_ON;
dp->aux->state |= DP_STATE_CTRL_POWERED_OFF;
complete_all(&dp->notification_comp);
/* log this as it results from user action of cable dis-connection */
DP_INFO("[OK]\n");
end:
mutex_lock(&dp->accounting_lock);
dp->tot_lm_blks_in_use -= dp_panel->max_lm;
dp_panel->max_lm = 0;
mutex_unlock(&dp->accounting_lock);
dp_panel->deinit(dp_panel, flags);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_display_validate_link_clock(struct dp_display_private *dp,
struct drm_display_mode *mode, struct dp_display_mode dp_mode)
{
u32 mode_rate_khz = 0, supported_rate_khz = 0, mode_bpp = 0;
u32 mode_bpc = 0, tmds_clock = 0;
bool dsc_en;
int rate;
struct msm_compression_info *c_info = &dp_mode.timing.comp_info;
dsc_en = c_info->enabled;
if (dsc_en) {
mode_bpp = DSC_BPP(c_info->dsc_info.config);
mode_bpc = c_info->dsc_info.config.bits_per_component;
} else {
mode_bpp = dp_mode.timing.bpp;
mode_bpc = mode_bpp / 3;
}
mode_rate_khz = mode->clock * mode_bpp;
rate = drm_dp_bw_code_to_link_rate(dp->link->link_params.bw_code);
tmds_clock = mode->clock * mode_bpc / 8;
/*
* For a HBR 2 dongle, limit TMDS clock to ensure a max resolution
* of 4k@30fps for each MST port
*/
if (dp->mst.mst_active && rate <= 540000 && tmds_clock > MAX_TMDS_CLOCK_HDMI_1_4) {
DP_DEBUG("Limit mode clock: %d kHz\n", mode->clock);
return -EPERM;
}
supported_rate_khz = dp->link->link_params.lane_count * rate * 8;
if (mode_rate_khz > supported_rate_khz) {
DP_DEBUG("mode_rate: %d kHz, supported_rate: %d kHz\n",
mode_rate_khz, supported_rate_khz);
return -EPERM;
}
return 0;
}
static int dp_display_validate_pixel_clock(struct dp_display_mode dp_mode,
u32 max_pclk_khz)
{
u32 pclk_khz = dp_mode.timing.widebus_en ?
(dp_mode.timing.pixel_clk_khz >> 1) :
dp_mode.timing.pixel_clk_khz;
if (pclk_khz > max_pclk_khz) {
DP_DEBUG("clk: %d kHz, max: %d kHz\n", pclk_khz, max_pclk_khz);
return -EPERM;
}
return 0;
}
static int dp_display_validate_topology(struct dp_display_private *dp,
struct dp_panel *dp_panel, struct drm_display_mode *mode,
struct dp_display_mode *dp_mode,
const struct msm_resource_caps_info *avail_res)
{
int rc;
struct msm_drm_private *priv = dp->priv;
const u32 dual = 2, quad = 4;
u32 num_lm = 0, num_dsc = 0, num_3dmux = 0;
bool dsc_capable = dp_mode->capabilities & DP_PANEL_CAPS_DSC;
u32 fps = dp_mode->timing.refresh_rate;
int avail_lm = 0;
mutex_lock(&dp->accounting_lock);
rc = msm_get_mixer_count(priv, mode, avail_res, &num_lm);
if (rc) {
DP_ERR("error getting mixer count. rc:%d\n", rc);
goto end;
}
/* Merge using DSC, if enabled */
if (dp_panel->dsc_en && dsc_capable) {
rc = msm_get_dsc_count(priv, mode->hdisplay, &num_dsc);
if (rc) {
DP_ERR("error getting dsc count. rc:%d\n", rc);
goto end;
}
num_dsc = max(num_lm, num_dsc);
if ((num_dsc > avail_res->num_lm) || (num_dsc > avail_res->num_dsc)) {
DP_DEBUG("mode %sx%d: not enough resources for dsc %d dsc_a:%d lm_a:%d\n",
mode->name, fps, num_dsc, avail_res->num_dsc,
avail_res->num_lm);
/* Clear DSC caps and retry */
dp_mode->capabilities &= ~DP_PANEL_CAPS_DSC;
rc = -EAGAIN;
goto end;
} else {
/* Only DSCMERGE is supported on DP */
num_lm = num_dsc;
}
}
if (!num_dsc && (num_lm == 2) && avail_res->num_3dmux) {
num_3dmux = 1;
}
avail_lm = avail_res->num_lm + avail_res->num_lm_in_use - dp->tot_lm_blks_in_use
+ dp_panel->max_lm;
if (num_lm > avail_lm) {
DP_DEBUG("mode %sx%d is invalid, not enough lm req:%d avail:%d\n",
mode->name, fps, num_lm, avail_lm);
rc = -EPERM;
goto end;
} else if (!num_dsc && (num_lm == dual && !num_3dmux)) {
DP_DEBUG("mode %sx%d is invalid, not enough 3dmux %d %d\n",
mode->name, fps, num_3dmux, avail_res->num_3dmux);
rc = -EPERM;
goto end;
} else if (num_lm == quad && num_dsc != quad) {
DP_DEBUG("mode %sx%d is invalid, unsupported DP topology lm:%d dsc:%d\n",
mode->name, fps, num_lm, num_dsc);
rc = -EPERM;
goto end;
}
DP_DEBUG_V("mode %sx%d is valid, supported DP topology lm:%d dsc:%d 3dmux:%d\n",
mode->name, fps, num_lm, num_dsc, num_3dmux);
dp_mode->lm_count = num_lm;
rc = 0;
end:
mutex_unlock(&dp->accounting_lock);
return rc;
}
static enum drm_mode_status dp_display_validate_mode(
struct dp_display *dp_display,
void *panel, struct drm_display_mode *mode,
const struct msm_resource_caps_info *avail_res)
{
struct dp_display_private *dp;
struct dp_panel *dp_panel;
struct dp_debug *debug;
enum drm_mode_status mode_status = MODE_BAD;
struct dp_display_mode dp_mode;
int rc = 0;
if (!dp_display || !mode || !panel ||
!avail_res || !avail_res->max_mixer_width) {
DP_ERR("invalid params\n");
return mode_status;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
mutex_lock(&dp->session_lock);
dp_panel = panel;
if (!dp_panel->connector) {
DP_ERR("invalid connector\n");
goto end;
}
debug = dp->debug;
if (!debug)
goto end;
dp_display->convert_to_dp_mode(dp_display, panel, mode, &dp_mode);
rc = dp_display_validate_topology(dp, dp_panel, mode, &dp_mode, avail_res);
if (rc == -EAGAIN) {
dp_panel->convert_to_dp_mode(dp_panel, mode, &dp_mode);
rc = dp_display_validate_topology(dp, dp_panel, mode, &dp_mode, avail_res);
}
if (rc)
goto end;
rc = dp_display_validate_link_clock(dp, mode, dp_mode);
if (rc)
goto end;
rc = dp_display_validate_pixel_clock(dp_mode, dp_display->max_pclk_khz);
if (rc)
goto end;
mode_status = MODE_OK;
if (!avail_res->num_lm_in_use) {
mutex_lock(&dp->accounting_lock);
dp->tot_lm_blks_in_use -= dp_panel->max_lm;
dp_panel->max_lm = max(dp_panel->max_lm, dp_mode.lm_count);
dp->tot_lm_blks_in_use += dp_panel->max_lm;
mutex_unlock(&dp->accounting_lock);
}
end:
mutex_unlock(&dp->session_lock);
DP_DEBUG_V("[%s] mode is %s\n", mode->name,
(mode_status == MODE_OK) ? "valid" : "invalid");
return mode_status;
}
static int dp_display_get_available_dp_resources(struct dp_display *dp_display,
const struct msm_resource_caps_info *avail_res,
struct msm_resource_caps_info *max_dp_avail_res)
{
if (!dp_display || !avail_res || !max_dp_avail_res) {
DP_ERR("invalid arguments\n");
return -EINVAL;
}
memcpy(max_dp_avail_res, avail_res,
sizeof(struct msm_resource_caps_info));
max_dp_avail_res->num_lm = min(avail_res->num_lm,
dp_display->max_mixer_count);
max_dp_avail_res->num_dsc = min(avail_res->num_dsc,
dp_display->max_dsc_count);
DP_DEBUG_V("max_lm:%d, avail_lm:%d, dp_avail_lm:%d\n",
dp_display->max_mixer_count, avail_res->num_lm,
max_dp_avail_res->num_lm);
DP_DEBUG_V("max_dsc:%d, avail_dsc:%d, dp_avail_dsc:%d\n",
dp_display->max_dsc_count, avail_res->num_dsc,
max_dp_avail_res->num_dsc);
return 0;
}
static int dp_display_get_modes(struct dp_display *dp, void *panel,
struct dp_display_mode *dp_mode)
{
struct dp_display_private *dp_display;
struct dp_panel *dp_panel;
int ret = 0;
if (!dp || !panel) {
DP_ERR("invalid params\n");
return 0;
}
dp_panel = panel;
if (!dp_panel->connector) {
DP_ERR("invalid connector\n");
return 0;
}
dp_display = container_of(dp, struct dp_display_private, dp_display);
ret = dp_panel->get_modes(dp_panel, dp_panel->connector, dp_mode);
if (dp_mode->timing.pixel_clk_khz)
dp->max_pclk_khz = dp_mode->timing.pixel_clk_khz;
return ret;
}
static void dp_display_convert_to_dp_mode(struct dp_display *dp_display,
void *panel,
const struct drm_display_mode *drm_mode,
struct dp_display_mode *dp_mode)
{
int rc;
struct dp_display_private *dp;
struct dp_panel *dp_panel;
u32 free_dsc_blks = 0, required_dsc_blks = 0, curr_dsc = 0, new_dsc = 0;
if (!dp_display || !drm_mode || !dp_mode || !panel) {
DP_ERR("invalid input\n");
return;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
dp_panel = panel;
memset(dp_mode, 0, sizeof(*dp_mode));
if (dp_panel->dsc_en) {
free_dsc_blks = dp_display->max_dsc_count -
dp->tot_dsc_blks_in_use +
dp_panel->dsc_blks_in_use;
DP_DEBUG_V("Before: in_use:%d, max:%d, free:%d\n",
dp->tot_dsc_blks_in_use,
dp_display->max_dsc_count, free_dsc_blks);
rc = msm_get_dsc_count(dp->priv, drm_mode->hdisplay,
&required_dsc_blks);
if (rc) {
DP_ERR("error getting dsc count. rc:%d\n", rc);
return;
}
curr_dsc = dp_panel->dsc_blks_in_use;
dp->tot_dsc_blks_in_use -= dp_panel->dsc_blks_in_use;
dp_panel->dsc_blks_in_use = 0;
if (free_dsc_blks >= required_dsc_blks) {
dp_mode->capabilities |= DP_PANEL_CAPS_DSC;
new_dsc = max(curr_dsc, required_dsc_blks);
dp_panel->dsc_blks_in_use = new_dsc;
dp->tot_dsc_blks_in_use += new_dsc;
}
DP_DEBUG_V("After: in_use:%d, max:%d, free:%d, req:%d, caps:0x%x\n",
dp->tot_dsc_blks_in_use,
dp_display->max_dsc_count,
free_dsc_blks, required_dsc_blks,
dp_mode->capabilities);
}
dp_panel->convert_to_dp_mode(dp_panel, drm_mode, dp_mode);
}
static int dp_display_config_hdr(struct dp_display *dp_display, void *panel,
struct drm_msm_ext_hdr_metadata *hdr, bool dhdr_update)
{
struct dp_panel *dp_panel;
struct sde_connector *sde_conn;
struct dp_display_private *dp;
u64 core_clk_rate;
bool flush_hdr;
if (!dp_display || !panel) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp_panel = panel;
dp = container_of(dp_display, struct dp_display_private, dp_display);
sde_conn = to_sde_connector(dp_panel->connector);
core_clk_rate = dp->power->clk_get_rate(dp->power, "core_clk");
if (!core_clk_rate) {
DP_ERR("invalid rate for core_clk\n");
return -EINVAL;
}
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
return 0;
}
/*
* In rare cases where HDR metadata is updated independently
* flush the HDR metadata immediately instead of relying on
* the colorspace
*/
flush_hdr = !sde_conn->colorspace_updated;
if (flush_hdr)
DP_DEBUG("flushing the HDR metadata\n");
else
DP_DEBUG("piggy-backing with colorspace\n");
return dp_panel->setup_hdr(dp_panel, hdr, dhdr_update,
core_clk_rate, flush_hdr);
}
static int dp_display_setup_colospace(struct dp_display *dp_display,
void *panel,
u32 colorspace)
{
struct dp_panel *dp_panel;
struct dp_display_private *dp;
if (!dp_display || !panel) {
pr_err("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
return 0;
}
dp_panel = panel;
return dp_panel->set_colorspace(dp_panel, colorspace);
}
static int dp_display_create_workqueue(struct dp_display_private *dp)
{
dp->wq = create_singlethread_workqueue("drm_dp");
if (IS_ERR_OR_NULL(dp->wq)) {
DP_ERR("Error creating wq\n");
return -EPERM;
}
INIT_DELAYED_WORK(&dp->hdcp_cb_work, dp_display_hdcp_cb_work);
INIT_WORK(&dp->connect_work, dp_display_connect_work);
INIT_WORK(&dp->attention_work, dp_display_attention_work);
return 0;
}
static int dp_display_bridge_internal_hpd(void *dev, bool hpd, bool hpd_irq)
{
struct dp_display_private *dp = dev;
struct drm_device *drm_dev = dp->dp_display.drm_dev;
if (!drm_dev || !drm_dev->mode_config.poll_enabled)
return -EBUSY;
if (hpd_irq)
dp_display_mst_attention(dp);
else
dp->hpd->simulate_connect(dp->hpd, hpd);
return 0;
}
static int dp_display_init_aux_bridge(struct dp_display_private *dp)
{
int rc = 0;
const char *phandle = "qcom,dp-aux-bridge";
struct device_node *bridge_node;
if (!dp->pdev->dev.of_node) {
pr_err("cannot find dev.of_node\n");
rc = -ENODEV;
goto end;
}
bridge_node = of_parse_phandle(dp->pdev->dev.of_node,
phandle, 0);
if (!bridge_node)
goto end;
dp->aux_bridge = of_dp_aux_find_bridge(bridge_node);
if (!dp->aux_bridge) {
pr_err("failed to find dp aux bridge\n");
rc = -EPROBE_DEFER;
goto end;
}
if (dp->aux_bridge->register_hpd &&
!(dp->aux_bridge->flag & DP_AUX_BRIDGE_HPD))
dp->aux_bridge->register_hpd(dp->aux_bridge,
dp_display_bridge_internal_hpd, dp);
end:
return rc;
}
static int dp_display_mst_install(struct dp_display *dp_display,
struct dp_mst_drm_install_info *mst_install_info)
{
struct dp_display_private *dp;
if (!dp_display || !mst_install_info) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
if (!mst_install_info->cbs->hpd || !mst_install_info->cbs->hpd_irq) {
DP_ERR("invalid mst cbs\n");
return -EINVAL;
}
dp_display->dp_mst_prv_info = mst_install_info->dp_mst_prv_info;
if (!dp->parser->has_mst) {
DP_DEBUG("mst not enabled\n");
return -EPERM;
}
memcpy(&dp->mst.cbs, mst_install_info->cbs, sizeof(dp->mst.cbs));
dp->mst.drm_registered = true;
DP_MST_DEBUG("dp mst drm installed\n");
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_display_mst_uninstall(struct dp_display *dp_display)
{
struct dp_display_private *dp;
if (!dp_display) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
return -EPERM;
}
dp = container_of(dp_display, struct dp_display_private,
dp_display);
memset(&dp->mst.cbs, 0, sizeof(dp->mst.cbs));
dp->mst.drm_registered = false;
DP_MST_DEBUG("dp mst drm uninstalled\n");
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static int dp_display_mst_connector_install(struct dp_display *dp_display,
struct drm_connector *connector)
{
int rc = 0;
struct dp_panel_in panel_in;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
if (!dp_display || !connector) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
rc = -EPERM;
goto end;
}
panel_in.dev = &dp->pdev->dev;
panel_in.aux = dp->aux;
panel_in.catalog = &dp->catalog->panel;
panel_in.link = dp->link;
panel_in.connector = connector;
panel_in.base_panel = dp->panel;
panel_in.parser = dp->parser;
dp_panel = dp_panel_get(&panel_in);
if (IS_ERR(dp_panel)) {
rc = PTR_ERR(dp_panel);
DP_ERR("failed to initialize panel, rc = %d\n", rc);
goto end;
}
dp_panel->audio = dp_audio_get(dp->pdev, dp_panel, &dp->catalog->audio);
if (IS_ERR(dp_panel->audio)) {
rc = PTR_ERR(dp_panel->audio);
DP_ERR("[mst] failed to initialize audio, rc = %d\n", rc);
dp_panel->audio = NULL;
goto end;
}
DP_MST_DEBUG("dp mst connector installed. conn:%d\n",
connector->base.id);
end:
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state, rc);
return rc;
}
static int dp_display_mst_connector_uninstall(struct dp_display *dp_display,
struct drm_connector *connector)
{
int rc = 0;
struct sde_connector *sde_conn;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
struct dp_audio *audio = NULL;
if (!dp_display || !connector) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY, dp->state);
mutex_lock(&dp->session_lock);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
mutex_unlock(&dp->session_lock);
return -EPERM;
}
sde_conn = to_sde_connector(connector);
if (!sde_conn->drv_panel) {
DP_ERR("invalid panel for connector:%d\n", connector->base.id);
mutex_unlock(&dp->session_lock);
return -EINVAL;
}
dp_panel = sde_conn->drv_panel;
/* Make a copy of audio structure to call into dp_audio_put later */
audio = dp_panel->audio;
dp_panel_put(dp_panel);
DP_MST_DEBUG("dp mst connector uninstalled. conn:%d\n",
connector->base.id);
mutex_unlock(&dp->session_lock);
dp_audio_put(audio);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return rc;
}
static int dp_display_mst_connector_update_edid(struct dp_display *dp_display,
struct drm_connector *connector,
struct edid *edid)
{
int rc = 0;
struct sde_connector *sde_conn;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
if (!dp_display || !connector || !edid) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
return -EPERM;
}
sde_conn = to_sde_connector(connector);
if (!sde_conn->drv_panel) {
DP_ERR("invalid panel for connector:%d\n", connector->base.id);
return -EINVAL;
}
dp_panel = sde_conn->drv_panel;
rc = dp_panel->update_edid(dp_panel, edid);
DP_MST_DEBUG("dp mst connector:%d edid updated. mode_cnt:%d\n",
connector->base.id, rc);
return rc;
}
static int dp_display_update_pps(struct dp_display *dp_display,
struct drm_connector *connector, char *pps_cmd)
{
struct sde_connector *sde_conn;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
dp = container_of(dp_display, struct dp_display_private, dp_display);
sde_conn = to_sde_connector(connector);
if (!sde_conn->drv_panel) {
DP_ERR("invalid panel for connector:%d\n", connector->base.id);
return -EINVAL;
}
if (!dp_display_state_is(DP_STATE_ENABLED)) {
dp_display_state_show("[not enabled]");
return 0;
}
dp_panel = sde_conn->drv_panel;
dp_panel->update_pps(dp_panel, pps_cmd);
return 0;
}
static int dp_display_mst_connector_update_link_info(
struct dp_display *dp_display,
struct drm_connector *connector)
{
int rc = 0;
struct sde_connector *sde_conn;
struct dp_panel *dp_panel;
struct dp_display_private *dp;
if (!dp_display || !connector) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
return -EPERM;
}
sde_conn = to_sde_connector(connector);
if (!sde_conn->drv_panel) {
DP_ERR("invalid panel for connector:%d\n", connector->base.id);
return -EINVAL;
}
dp_panel = sde_conn->drv_panel;
memcpy(dp_panel->dpcd, dp->panel->dpcd,
DP_RECEIVER_CAP_SIZE + 1);
memcpy(dp_panel->dsc_dpcd, dp->panel->dsc_dpcd,
DP_RECEIVER_DSC_CAP_SIZE + 1);
memcpy(&dp_panel->link_info, &dp->panel->link_info,
sizeof(dp_panel->link_info));
DP_MST_DEBUG("dp mst connector:%d link info updated\n",
connector->base.id);
return rc;
}
static int dp_display_mst_get_fixed_topology_port(
struct dp_display *dp_display,
u32 strm_id, u32 *port_num)
{
struct dp_display_private *dp;
u32 port;
if (!dp_display) {
DP_ERR("invalid input\n");
return -EINVAL;
}
if (strm_id >= DP_STREAM_MAX) {
DP_ERR("invalid stream id:%d\n", strm_id);
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
port = dp->parser->mst_fixed_port[strm_id];
if (!port || port > 255)
return -ENOENT;
if (port_num)
*port_num = port;
return 0;
}
static int dp_display_get_mst_caps(struct dp_display *dp_display,
struct dp_mst_caps *mst_caps)
{
int rc = 0;
struct dp_display_private *dp;
if (!dp_display || !mst_caps) {
DP_ERR("invalid input\n");
return -EINVAL;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
mst_caps->has_mst = dp->parser->has_mst;
mst_caps->max_streams_supported = (mst_caps->has_mst) ? 2 : 0;
mst_caps->max_dpcd_transaction_bytes = (mst_caps->has_mst) ? 16 : 0;
mst_caps->drm_aux = dp->aux->drm_aux;
return rc;
}
static void dp_display_wakeup_phy_layer(struct dp_display *dp_display,
bool wakeup)
{
struct dp_display_private *dp;
struct dp_hpd *hpd;
if (!dp_display) {
DP_ERR("invalid input\n");
return;
}
dp = container_of(dp_display, struct dp_display_private, dp_display);
if (!dp->mst.drm_registered) {
DP_DEBUG("drm mst not registered\n");
return;
}
hpd = dp->hpd;
if (hpd && hpd->wakeup_phy)
hpd->wakeup_phy(hpd, wakeup);
}
static int dp_display_probe(struct platform_device *pdev)
{
int rc = 0;
struct dp_display_private *dp;
if (!pdev || !pdev->dev.of_node) {
DP_ERR("pdev not found\n");
rc = -ENODEV;
goto bail;
}
dp = devm_kzalloc(&pdev->dev, sizeof(*dp), GFP_KERNEL);
if (!dp) {
rc = -ENOMEM;
goto bail;
}
init_completion(&dp->notification_comp);
init_completion(&dp->attention_comp);
dp->pdev = pdev;
dp->name = "drm_dp";
memset(&dp->mst, 0, sizeof(dp->mst));
rc = dp_display_init_aux_bridge(dp);
if (rc)
goto error;
rc = dp_display_create_workqueue(dp);
if (rc) {
DP_ERR("Failed to create workqueue\n");
goto error;
}
platform_set_drvdata(pdev, dp);
g_dp_display = &dp->dp_display;
g_dp_display->dp_ipc_log = ipc_log_context_create(DRM_DP_IPC_NUM_PAGES, "drm_dp", 0);
if (!g_dp_display->dp_ipc_log)
DP_WARN("Error in creating ipc_log_context for drm_dp\n");
g_dp_display->dp_aux_ipc_log = ipc_log_context_create(DRM_DP_IPC_NUM_PAGES, "drm_dp_aux",
0);
if (!g_dp_display->dp_aux_ipc_log)
DP_WARN("Error in creating ipc_log_context for drm_dp_aux\n");
g_dp_display->enable = dp_display_enable;
g_dp_display->post_enable = dp_display_post_enable;
g_dp_display->pre_disable = dp_display_pre_disable;
g_dp_display->disable = dp_display_disable;
g_dp_display->set_mode = dp_display_set_mode;
g_dp_display->validate_mode = dp_display_validate_mode;
g_dp_display->get_modes = dp_display_get_modes;
g_dp_display->prepare = dp_display_prepare;
g_dp_display->unprepare = dp_display_unprepare;
g_dp_display->request_irq = dp_request_irq;
g_dp_display->get_debug = dp_get_debug;
g_dp_display->post_open = NULL;
g_dp_display->post_init = dp_display_post_init;
g_dp_display->config_hdr = dp_display_config_hdr;
g_dp_display->mst_install = dp_display_mst_install;
g_dp_display->mst_uninstall = dp_display_mst_uninstall;
g_dp_display->mst_connector_install = dp_display_mst_connector_install;
g_dp_display->mst_connector_uninstall =
dp_display_mst_connector_uninstall;
g_dp_display->mst_connector_update_edid =
dp_display_mst_connector_update_edid;
g_dp_display->mst_connector_update_link_info =
dp_display_mst_connector_update_link_info;
g_dp_display->get_mst_caps = dp_display_get_mst_caps;
g_dp_display->set_stream_info = dp_display_set_stream_info;
g_dp_display->update_pps = dp_display_update_pps;
g_dp_display->convert_to_dp_mode = dp_display_convert_to_dp_mode;
g_dp_display->mst_get_fixed_topology_port =
dp_display_mst_get_fixed_topology_port;
g_dp_display->wakeup_phy_layer =
dp_display_wakeup_phy_layer;
g_dp_display->set_colorspace = dp_display_setup_colospace;
g_dp_display->get_available_dp_resources =
dp_display_get_available_dp_resources;
g_dp_display->clear_reservation = dp_display_clear_reservation;
g_dp_display->get_mst_pbn_div = dp_display_get_mst_pbn_div;
rc = component_add(&pdev->dev, &dp_display_comp_ops);
if (rc) {
DP_ERR("component add failed, rc=%d\n", rc);
goto error;
}
return 0;
error:
devm_kfree(&pdev->dev, dp);
bail:
return rc;
}
int dp_display_get_displays(void **displays, int count)
{
if (!displays) {
DP_ERR("invalid data\n");
return -EINVAL;
}
if (count != 1) {
DP_ERR("invalid number of displays\n");
return -EINVAL;
}
displays[0] = g_dp_display;
return count;
}
int dp_display_get_num_of_displays(void)
{
if (!g_dp_display)
return 0;
return 1;
}
int dp_display_get_num_of_streams(void)
{
return DP_STREAM_MAX;
}
static void dp_display_set_mst_state(void *dp_display,
enum dp_drv_state mst_state)
{
struct dp_display_private *dp;
if (!g_dp_display) {
DP_DEBUG("dp display not initialized\n");
return;
}
dp = container_of(g_dp_display, struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(mst_state, dp->mst.mst_active);
if (dp->mst.mst_active && dp->mst.cbs.set_drv_state)
dp->mst.cbs.set_drv_state(g_dp_display, mst_state);
}
static int dp_display_remove(struct platform_device *pdev)
{
struct dp_display_private *dp;
if (!pdev)
return -EINVAL;
dp = platform_get_drvdata(pdev);
dp_display_deinit_sub_modules(dp);
if (dp->wq)
destroy_workqueue(dp->wq);
platform_set_drvdata(pdev, NULL);
devm_kfree(&pdev->dev, dp);
if (g_dp_display->dp_ipc_log) {
ipc_log_context_destroy(g_dp_display->dp_ipc_log);
g_dp_display->dp_ipc_log = NULL;
}
if (g_dp_display->dp_aux_ipc_log) {
ipc_log_context_destroy(g_dp_display->dp_aux_ipc_log);
g_dp_display->dp_aux_ipc_log = NULL;
}
return 0;
}
static int dp_pm_prepare(struct device *dev)
{
struct dp_display_private *dp = container_of(g_dp_display,
struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
mutex_lock(&dp->session_lock);
dp_display_set_mst_state(g_dp_display, PM_SUSPEND);
/*
* There are a few instances where the DP is hotplugged when the device
* is in PM suspend state. After hotplug, it is observed the device
* enters and exits the PM suspend multiple times while aux transactions
* are taking place. This may sometimes cause an unclocked register
* access error. So, abort aux transactions when such a situation
* arises i.e. when DP is connected but display not enabled yet.
*/
if (dp_display_state_is(DP_STATE_CONNECTED) &&
!dp_display_state_is(DP_STATE_ENABLED)) {
dp->aux->abort(dp->aux, true);
dp->ctrl->abort(dp->ctrl, true);
}
dp_display_state_add(DP_STATE_SUSPENDED);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
return 0;
}
static void dp_pm_complete(struct device *dev)
{
struct dp_display_private *dp = container_of(g_dp_display,
struct dp_display_private, dp_display);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_ENTRY);
mutex_lock(&dp->session_lock);
dp_display_set_mst_state(g_dp_display, PM_DEFAULT);
/*
* There are multiple PM suspend entry and exits observed before
* the connect uevent is issued to userspace. The aux transactions are
* aborted during PM suspend entry in dp_pm_prepare to prevent unclocked
* register access. On PM suspend exit, there will be no host_init call
* to reset the abort flags for ctrl and aux incase DP is connected
* but display not enabled. So, resetting abort flags for aux and ctrl.
*/
if (dp_display_state_is(DP_STATE_CONNECTED) &&
!dp_display_state_is(DP_STATE_ENABLED)) {
dp->aux->abort(dp->aux, false);
dp->ctrl->abort(dp->ctrl, false);
}
dp_display_state_remove(DP_STATE_SUSPENDED);
mutex_unlock(&dp->session_lock);
SDE_EVT32_EXTERNAL(SDE_EVTLOG_FUNC_EXIT, dp->state);
}
void *get_ipc_log_context(void)
{
if (g_dp_display && g_dp_display->dp_ipc_log)
return g_dp_display->dp_ipc_log;
return NULL;
}
static const struct dev_pm_ops dp_pm_ops = {
.prepare = dp_pm_prepare,
.complete = dp_pm_complete,
};
static struct platform_driver dp_display_driver = {
.probe = dp_display_probe,
.remove = dp_display_remove,
.driver = {
.name = "msm-dp-display",
.of_match_table = dp_dt_match,
.suppress_bind_attrs = true,
.pm = &dp_pm_ops,
},
};
void __init dp_display_register(void)
{
platform_driver_register(&dp_display_driver);
}
void __exit dp_display_unregister(void)
{
platform_driver_unregister(&dp_display_driver);
}
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