2017-03-30 22:12:43 +02:00
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libgfxinit - Native Graphics Initialization
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===========================================
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Introduction and Current State in coreboot
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------------------------------------------
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*libgfxinit* is a library of full-featured graphics initialization
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(aka. modesetting) drivers. It's implemented in SPARK (a subset of
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Ada with formal verification features). While not restricted to in
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2019-10-12 18:31:56 +02:00
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any way, it currently only supports Intel's integrated graphics
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controllers (GMA).
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Currently, it supports the Intel Core i3/i5/i7 processor line, HDMI
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and DP on the Apollo Lake processors and everything but SDVO on G45
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and GM45 chipsets. At the time of writing, G45, GM45, everything
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from Arrandale to Coffee Lake, and Apollo Lake are verified to work
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within *coreboot*.
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2017-03-30 22:12:43 +02:00
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GMA: Framebuffer Configuration
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------------------------------
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*coreboot* supports two different framebuffer setups. The default
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enables the legacy VGA plane in textmode. Due to legacy hardware
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constraints, only the first found display is enabled in this mode.
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(cf. `src/drivers/intel/gma/text_fb/gma.adb`).
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The second option sets up a high-resolution framebuffer with the
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native resolution of the display if only one is detected, or the
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smallest of all resolutions (per dimension) if multiple displays
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are detected. This option is selected by
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`CONFIG_FRAMEBUFFER_KEEP_VESA_MODE`.
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(cf. `src/drivers/intel/gma/hires_fb/gma.adb`).
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In any case, a smaller framebuffer is up-scaled to each display's
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native resolution while keeping aspect ratio.
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GMA: Hook-up in Chipset Initialization
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--------------------------------------
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Both configurations described above implement a procedure
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`GMA.gfxinit()`:
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2017-07-16 16:40:41 +02:00
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procedure gfxinit (lightup_ok : out int);
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2017-03-30 22:12:43 +02:00
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This procedure is exported as the C function `gma_gfxinit()` as
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follows:
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2017-07-16 16:40:41 +02:00
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void gma_gfxinit(int *lightup_ok);
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2017-03-30 22:12:43 +02:00
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* `lightup_ok`: returns whether the initialization succeeded `1` or
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failed `0`. Currently, only the case that no display
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2019-04-02 21:52:22 +02:00
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could be found counts as failure. A failure at a
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later stage (e.g. failure to train a DP) is not
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propagated.
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2017-03-30 22:12:43 +02:00
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GMA: Per Board Configuration
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----------------------------
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2019-06-06 12:46:49 +02:00
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In order to set up the display panel, see the
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[display panel-specific documentation](/gfx/display-panel.md).
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2017-03-30 22:12:43 +02:00
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There are a few Kconfig symbols to consider. To indicate that a
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board can initialize graphics through *libgfxinit*:
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select MAINBOARD_HAS_LIBGFXINIT
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Internal ports share some hardware blocks (e.g. backlight, panel
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2020-02-15 17:56:01 +01:00
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power sequencer). Therefore, each system with an integrated panel
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should set `GFX_GMA_PANEL_1_PORT` to the respective port, e.g.:
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2017-03-30 22:12:43 +02:00
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2020-02-15 17:56:01 +01:00
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config GFX_GMA_PANEL_1_PORT
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default "DP3"
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For the most common cases, LVDS and eDP, exists a shorthand, one
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can select either:
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select GFX_GMA_PANEL_1_ON_EDP # the default, or
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select GFX_GMA_PANEL_1_ON_LVDS
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Some newer chips feature a second block of panel control logic.
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For this, `GFX_GMA_PANEL_2_PORT` can be set.
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2017-03-30 22:12:43 +02:00
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Boards with a DVI-I connector share the DDC (I2C) pins for both
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analog and digital displays. In this case, *libgfxinit* needs to
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know through which interface the EDID can be queried:
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select GFX_GMA_ANALOG_I2C_HDMI_B # or
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select GFX_GMA_ANALOG_I2C_HDMI_C # or
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select GFX_GMA_ANALOG_I2C_HDMI_D
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2020-05-15 00:45:29 +02:00
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*libgfxinit* needs to know which ports are implemented on a board
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and should be probed for displays. There are two mechanisms to
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constrain the list of ports to probe, 1. port presence straps on
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the mainboard, and 2. a list of ports provided by *coreboot* (see
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below).
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Presence straps are configured via the state of certains pins of
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the chipset at reset time. They are documented in the chipset's
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datasheets. By default, *libgfxinit* honors these straps for
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safety. However, some boards don't implement the straps correctly.
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If ports are not strapped as implemented by error, one can select
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an option to ignore the straps:
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select GFX_GMA_IGNORE_PRESENCE_STRAPS
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In the opposite case, that ports are strapped as implemented,
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but are actually unconnected, one has to make sure that the
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list of ports in *coreboot* omits them.
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The mapping between the physical ports and these entries depends on
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the hardware implementation and can be recovered by testing or
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studying the output of `intelvbttool` or `intel_vbt_decode`.
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2018-07-30 17:56:28 +02:00
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Each board has to implement the package `GMA.Mainboard` with a list:
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2017-03-30 22:12:43 +02:00
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ports : HW.GFX.GMA.Display_Probing.Port_List;
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or a function returning such a list:
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function ports return HW.GFX.GMA.Display_Probing.Port_List;
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You can select from the following Ports:
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type Port_Type is
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(Disabled, -- optionally terminates the list
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2020-02-15 17:56:01 +01:00
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LVDS,
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eDP,
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2017-03-30 22:12:43 +02:00
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DP1,
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DP2,
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DP3,
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HDMI1, -- also DVI-D, or HDMI over DP++
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HDMI2,
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HDMI3,
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Analog); -- legacy VGA port, or analog part of DVI-I
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Each `DPx` and `HDMIx` pair share pins. If they are exposed as DP
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ports, they are usually DP++ (aka. dual-mode DP) ports that can
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also output HDMI signals through passive adapters. In this case,
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both DPx and HDMIx should be listed.
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A good example is the mainboard Kontron/KTQM77, it features two
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DP++ ports (DP2/HDMI2, DP3/HDMI3), one DVI-I port (HDMI1/Analog),
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2020-02-15 17:56:01 +01:00
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eDP and LVDS. It defines `ports` as follows:
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2017-03-30 22:12:43 +02:00
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ports : constant Port_List :=
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(DP2,
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DP3,
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HDMI1,
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HDMI2,
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HDMI3,
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Analog,
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2020-02-15 17:56:01 +01:00
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LVDS,
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eDP,
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2017-03-30 22:12:43 +02:00
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others => Disabled);
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The `GMA.gfxinit()` procedure probes for display EDIDs in the
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given order until all available pipes are taken. That's 1 pipe
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in VGA textmode, 2 pipes in high-resolution mode until Sandy
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Bridge, 3 pipes from Ivy Bridge on.
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