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+# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
+%YAML 1.2
+---
+$id: http://devicetree.org/schemas/display/panel/panel-edp.yaml#
+$schema: http://devicetree.org/meta-schemas/core.yaml#
+
+title: Probeable (via DP AUX / EDID) eDP Panels with simple poweron sequences
+
+maintainers:
+  - Douglas Anderson <dianders@chromium.org>
+
+description: |
+  This binding file can be used to indicate that an eDP panel is connected
+  to a Embedded DisplayPort AUX bus (see display/dp-aux-bus.yaml) without
+  actually specifying exactly what panel is connected. This is useful for
+  the case that more than one different panel could be connected to the
+  board, either for second-sourcing purposes or to support multiple SKUs
+  with different LCDs that hook up to a common board.
+
+  As per above, a requirement for using this binding is that the panel is
+  represented under the DP AUX bus. This means that we can use any
+  information provided by the DP AUX bus (including the EDID) to identify
+  the panel. We can use this to identify display size, resolution, and
+  timings among other things.
+
+  One piece of information about eDP panels that is typically _not_
+  provided anywhere on the DP AUX bus is the power sequencing timings.
+  This is the reason why, historically, we've always had to explicitly
+  list eDP panels. We solve that here with two tricks. The "worst case"
+  power on timings for any panels expected to be connected to a board are
+  specified in these bindings. Once we've powered on, it's expected that
+  the operating system will lookup the panel in a table (based on EDID
+  information) to figure out other power sequencing timings.
+
+  eDP panels in general can have somewhat arbitrary power sequencing
+  requirements. However, even though it's arbitrary in general, the
+  vast majority of panel datasheets have a power sequence diagram that
+  looks the exactly the same as every other panel. Each panel datasheet
+  cares about different timings in this diagram but the fact that the
+  diagram is so similar means we can come up with a single driver to
+  handle it.
+
+  These diagrams all look roughly like this, sometimes labeled with
+  slightly different numbers / lines but all pretty much the same
+  sequence. This is because much of this diagram comes straight from
+  the eDP Standard.
+
+                __________________________________________________
+  Vdd       ___/:                                                :\____       /
+          _/    :                                                :     \_____/
+           :<T1>:<T2>:                                 :<--T10-->:<T11>:<T12>:
+                :    +-----------------------+---------+---------+
+  eDP     -----------+ Black video           | Src vid | Blk vid +
+  Display       :    +-----------------------+---------+---------+
+                :     _______________________:_________:_________:
+  HPD           :<T3>|                       :         :         |
+          ___________|                       :         :         |_____________
+                     :                       :         :         :
+  Sink               +-----------------------:---------:---------+
+  AUX CH  -----------+ AUX Ch operational    :         :         +-------------
+                     +-----------------------:---------:---------+
+                     :                       :         :         :
+                     :<T4>:             :<T7>:         :         :
+  Src main                +------+------+--------------+---------+
+  lnk data----------------+LnkTrn| Idle |Valid vid data| Idle/off+-------------
+                          +------+------+--------------+---------+
+                          : <T5> :<-T6->:<-T8->:       :
+                                               :__:<T9>:
+  LED_EN                                       |  |
+          _____________________________________|  |____________________________
+                                               :  :
+                                     __________:__:_
+  PWM                               |          :  : |
+          __________________________|          :  : |__________________________
+                                    :          :  : :
+                       _____________:__________:__:_:______
+  Bklight         ____/:            :          :  : :     :\____
+  power   _______/     :<---T13---->:          :  : :<T16>:     \______________
+  (Vbl)          :<T17>:<---------T14--------->:  :<-T15->:<T18>:
+
+  The above looks fairly complex but, as per above, each panel only cares
+  about a subset of those timings.
+
+allOf:
+  - $ref: panel-common.yaml#
+
+properties:
+  compatible:
+    const: edp-panel
+
+  hpd-reliable-delay-ms:
+    description:
+      A fixed amount of time that must be waited after powering on the
+      panel's power-supply before the HPD signal is a reliable way to know
+      when the AUX channel is ready. This is useful for panels that glitch
+      the HPD at the start of power-on. This value is not needed if HPD is
+      always reliable for all panels that might be connected.
+
+  hpd-absent-delay-ms:
+    description:
+      The panel specifies that HPD will be asserted this many milliseconds
+      from power on (timing T3 in the diagram above). If we have no way to
+      measure HPD then a fixed delay of this many milliseconds can be used.
+      This can also be used as a timeout when waiting for HPD. Does not
+      include the hpd-reliable-delay, so if hpd-reliable-delay was 80 ms
+      and hpd-absent-delay was 200 ms then we'd do a fixed 80 ms delay and
+      then we know HPD would assert in the next 120 ms. This value is not
+      needed if HPD hooked up, either through a GPIO in the panel node or
+      hooked up directly to the eDP controller.
+
+  backlight: true
+  enable-gpios: true
+  port: true
+  power-supply: true
+  no-hpd: true
+  hpd-gpios: true
+
+additionalProperties: false
+
+required:
+  - compatible
+  - power-supply
+
+examples:
+  - |
+    #include <dt-bindings/clock/qcom,rpmh.h>
+    #include <dt-bindings/gpio/gpio.h>
+    #include <dt-bindings/interrupt-controller/irq.h>
+
+    i2c {
+      #address-cells = <1>;
+      #size-cells = <0>;
+
+      bridge@2d {
+        compatible = "ti,sn65dsi86";
+        reg = <0x2d>;
+
+        interrupt-parent = <&tlmm>;
+        interrupts = <10 IRQ_TYPE_LEVEL_HIGH>;
+
+        enable-gpios = <&tlmm 102 GPIO_ACTIVE_HIGH>;
+
+        vpll-supply = <&src_pp1800_s4a>;
+        vccio-supply = <&src_pp1800_s4a>;
+        vcca-supply = <&src_pp1200_l2a>;
+        vcc-supply = <&src_pp1200_l2a>;
+
+        clocks = <&rpmhcc RPMH_LN_BB_CLK2>;
+        clock-names = "refclk";
+
+        no-hpd;
+
+        ports {
+          #address-cells = <1>;
+          #size-cells = <0>;
+
+          port@0 {
+            reg = <0>;
+            endpoint {
+              remote-endpoint = <&dsi0_out>;
+            };
+          };
+
+          port@1 {
+            reg = <1>;
+            sn65dsi86_out: endpoint {
+              remote-endpoint = <&panel_in_edp>;
+            };
+          };
+        };
+
+        aux-bus {
+          panel {
+            compatible = "edp-panel";
+            power-supply = <&pp3300_dx_edp>;
+            backlight = <&backlight>;
+            hpd-gpios = <&sn65dsi86_bridge 2 GPIO_ACTIVE_HIGH>;
+            hpd-reliable-delay-ms = <15>;
+
+            port {
+              panel_in_edp: endpoint {
+                remote-endpoint = <&sn65dsi86_out>;
+              };
+            };
+          };
+        };
+      };
+    };