coreboot-libre-fam15h-rdimm/3rdparty/libgfxinit/common/hw-gfx-gma-config.ads.template

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2024-03-04 11:14:53 +01:00
--
-- Copyright (C) 2015-2019 secunet Security Networks AG
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 2 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
pragma Restrictions (No_Elaboration_Code);
private package HW.GFX.GMA.Config is
Gen : constant Generation := <<GEN>>;
CPU_First : constant CPU_Type :=
(case Gen is
when G45 => G45,
when Ironlake => Ironlake,
when Haswell => Haswell,
when Broxton => Broxton,
when Skylake => Skylake);
CPU_Last : constant CPU_Type :=
(case Gen is
when G45 => GM45,
when Ironlake => Ivybridge,
when Haswell => Broadwell,
when Broxton => Broxton,
when Skylake => Kabylake);
CPU_Var_Last : constant CPU_Variant :=
(case Gen is
when Haswell | Skylake => ULX,
when others => Normal);
subtype Gen_CPU_Type is CPU_Type range CPU_First .. CPU_Last;
subtype Gen_CPU_Variant is CPU_Variant range Normal .. CPU_Var_Last;
CPU : constant Gen_CPU_Type := <<CPU>>;
CPU_Var : constant Gen_CPU_Variant := <<CPU_VARIANT>>;
Internal_Display : constant Internal_Type := <<INTERNAL_PORT>>;
Analog_I2C_Port : constant PCH_Port := <<ANALOG_I2C_PORT>>;
EDP_Low_Voltage_Swing : constant Boolean := False;
DDI_HDMI_Buffer_Translation : constant Integer := -1;
Default_MMIO_Base : constant := <<DEFAULT_MMIO_BASE>>;
LVDS_Dual_Threshold : constant := 95_000_000;
----------------------------------------------------------------------------
-- On older generations dot clocks are limited to 90% of
-- the CDClk rate. To ease proofs, we limit CDClk's range.
CDClk_Min : constant Frequency_Type :=
(case Gen is
when G45 .. Ironlake => Frequency_Type'First * 100 / 90 + 1,
when others => Frequency_Type'First);
subtype CDClk_Range is Frequency_Type range CDClk_Min .. Frequency_Type'Last;
----------------------------------------------------------------------------
type Valid_Port_Array is array (Port_Type) of Boolean;
type Variable_Config is record
Valid_Port : Valid_Port_Array;
CDClk : CDClk_Range;
Max_CDClk : CDClk_Range;
Raw_Clock : Frequency_Type;
Dyn_CPU : Gen_CPU_Type;
Dyn_CPU_Var : Gen_CPU_Variant;
end record;
Initial_Settings : constant Variable_Config :=
(Valid_Port => (others => False),
CDClk => CDClk_Range'First,
Max_CDClk => CDClk_Range'First,
Raw_Clock => Frequency_Type'First,
Dyn_CPU => Gen_CPU_Type'First,
Dyn_CPU_Var => Gen_CPU_Variant'First);
Variable : Variable_Config with Part_Of => GMA.State;
Valid_Port : Valid_Port_Array renames Variable.Valid_Port;
CDClk : CDClk_Range renames Variable.CDClk;
Max_CDClk : CDClk_Range renames Variable.Max_CDClk;
Raw_Clock : Frequency_Type renames Variable.Raw_Clock;
CPU : Gen_CPU_Type renames Variable.Dyn_CPU;
CPU_Var : Gen_CPU_Variant renames Variable.Dyn_CPU_Var;
----------------------------------------------------------------------------
-- To support both static configurations, that are compiled for a
-- fixed CPU, and dynamic configurations, where the CPU and its
-- variant are detected at runtime, all derived config values are
-- tagged based on their dependencies.
--
-- Booleans that only depend on the generation should be tagged
-- <genbool>. Those that may depend on the CPU are tagged with the
-- generations where that is the case. For instance `CPU_Ivybridge`
-- can be decided purely based on the generation unless the gene-
-- ration is Ironlake, thus, it is tagged <ilkbool>.
--
-- For non-boolean constants, per generation tags <...var> are
-- used (e.g. <ilkvar>).
--
-- To ease parsing, all multiline expressions of tagged config
-- values start after a line break.
Gen_G45 : <genbool> := Gen = G45;
Gen_Ironlake : <genbool> := Gen = Ironlake;
Gen_Haswell : <genbool> := Gen = Haswell;
Gen_Broxton : <genbool> := Gen = Broxton;
Gen_Skylake : <genbool> := Gen = Skylake;
Up_To_Ironlake : <genbool> := Gen <= Ironlake;
Ironlake_On : <genbool> := Gen >= Ironlake;
Haswell_On : <genbool> := Gen >= Haswell;
Broxton_On : <genbool> := Gen >= Broxton;
Skylake_On : <genbool> := Gen >= Skylake;
GMCH_GM45 : <g45bool> := Gen_G45 and then CPU = GM45;
CPU_Ironlake : <ilkbool> := Gen_Ironlake and then CPU = Ironlake;
CPU_Sandybridge : <ilkbool> := Gen_Ironlake and then CPU = Sandybridge;
CPU_Ivybridge : <ilkbool> := Gen_Ironlake and then CPU = Ivybridge;
CPU_Haswell : <hswbool> := Gen_Haswell and then CPU = Haswell;
CPU_Broadwell : <hswbool> := Gen_Haswell and then CPU = Broadwell;
CPU_Skylake : <sklbool> := Gen_Skylake and then CPU = Skylake;
CPU_Kabylake : <sklbool> := Gen_Skylake and then CPU = Kabylake;
Sandybridge_On : <ilkbool> :=
((Gen_Ironlake and then CPU >= Sandybridge) or Haswell_On);
Ivybridge_On : <ilkbool> :=
((Gen_Ironlake and then CPU >= Ivybridge) or Haswell_On);
Broadwell_On : <hswbool> :=
((Gen_Haswell and then CPU >= Broadwell) or Broxton_On);
----------------------------------------------------------------------------
Have_HDMI_Buf_Override : constant Boolean := DDI_HDMI_Buffer_Translation >= 0;
Default_MMIO_Base_Set : constant Boolean := Default_MMIO_Base /= 0;
Has_Internal_Display : constant Boolean := Internal_Display /= None;
Internal_Is_LVDS : constant Boolean := Internal_Display = LVDS;
Internal_Is_EDP : constant Boolean := Internal_Display = DP;
Have_DVI_I : constant Boolean := Analog_I2C_Port /= PCH_DAC;
Has_Presence_Straps : <genbool> := not Gen_Broxton;
Is_ULT : <hswsklbool> :=
((Gen_Haswell or Gen_Skylake) and then CPU_Var = ULT);
Is_ULX : <hswsklbool> :=
((Gen_Haswell or Gen_Skylake) and then CPU_Var = ULX);
Is_LP : <hswsklbool> := Is_ULT or Is_ULX;
---------- CPU pipe: ---------
Has_Tertiary_Pipe : <ilkbool> := Ivybridge_On;
Disable_Trickle_Feed : <genbool> := not Gen_Haswell;
Pipe_Enabled_Workaround : <hswbool> := CPU_Broadwell;
Has_EDP_Transcoder : <genbool> := Haswell_On;
Use_PDW_For_EDP_Scaling : <hswbool> := CPU_Haswell;
Has_Pipe_DDI_Func : <genbool> := Haswell_On;
Has_Trans_Clk_Sel : <genbool> := Haswell_On;
Has_Pipe_MSA_Misc : <genbool> := Haswell_On;
Has_Pipeconf_Misc : <hswbool> := Broadwell_On;
Has_Pipeconf_BPC : <hswbool> := not CPU_Haswell;
Has_Plane_Control : <genbool> := Broxton_On;
Has_DSP_Linoff : <genbool> := Up_To_Ironlake;
Has_PF_Pipe_Select : <ilkhswbool> := CPU_Ivybridge or CPU_Haswell;
Has_Ivybridge_Cursors : <ilkbool> := Ivybridge_On;
VGA_Plane_Workaround : <ilkbool> := CPU_Ivybridge;
Has_GMCH_DP_Transcoder : <genbool> := Gen_G45;
Has_GMCH_VGACNTRL : <genbool> := Gen_G45;
Has_GMCH_PFIT_CONTROL : <genbool> := Gen_G45;
--------- Panel power: -------
Has_PP_Write_Protection : <genbool> := Up_To_Ironlake;
Has_PP_Port_Select : <genbool> := Up_To_Ironlake;
Use_PP_VDD_Override : <genbool> := Up_To_Ironlake;
Has_PCH_Panel_Power : <genbool> := Ironlake_On;
----------- PCH/FDI: ---------
Has_PCH : <genbool> := not Gen_Broxton and not Gen_G45;
Has_PCH_DAC : <hswbool> :=
(Gen_Ironlake or (Gen_Haswell and then not Is_LP));
Has_PCH_Aux_Channels : <genbool> := Gen_Ironlake or Gen_Haswell;
VGA_Has_Sync_Disable : <genbool> := Up_To_Ironlake;
Has_Trans_Timing_Ovrrde : <ilkbool> := Sandybridge_On;
Has_DPLL_SEL : <genbool> := Gen_Ironlake;
Has_FDI_BPC : <genbool> := Gen_Ironlake;
Has_FDI_Composite_Sel : <ilkbool> := CPU_Ivybridge;
Has_New_FDI_Sink : <ilkbool> := Sandybridge_On;
Has_New_FDI_Source : <ilkbool> := Ivybridge_On;
Has_Trans_DP_Ctl : <ilkbool> := CPU_Sandybridge or CPU_Ivybridge;
Has_FDI_C : <ilkbool> := CPU_Ivybridge;
Has_FDI_RX_Power_Down : <genbool> := Gen_Haswell;
---------- Clocks: -----------
Has_GMCH_RawClk : <genbool> := Gen_G45;
Has_GMCH_Mobile_VCO : <g45bool> := GMCH_GM45;
Has_Broadwell_CDClk : <hswbool> := CPU_Broadwell;
Can_Switch_CDClk : <hswbool> := Broadwell_On;
----------- DDI: -------------
End_EDP_Training_Late : <genbool> := Gen_Haswell;
Has_Per_DDI_Clock_Sel : <genbool> := Gen_Haswell;
Has_HOTPLUG_CTL : <genbool> := Gen_Haswell;
Has_SHOTPLUG_CTL_A : <hswbool> :=
((Gen_Haswell and then Is_LP) or Skylake_On);
Has_DDI_PHYs : <genbool> := Gen_Broxton;
Has_DDI_D : <hswsklbool> :=
((Gen_Haswell or Gen_Skylake) and then not Is_LP);
-- might be disabled by x4 eDP:
Has_DDI_E : <hswsklbool> := Has_DDI_D;
Has_DDI_Buffer_Trans : <genbool> := Haswell_On and not Has_DDI_PHYs;
Has_Low_Voltage_Swing : <genbool> := Broxton_On;
Has_Iboost_Config : <genbool> := Skylake_On;
Use_KBL_DDI_Buf_Trans : <sklbool> := CPU_Kabylake;
Need_DP_Aux_Mutex : <genbool> := False; -- Skylake & (PSR | GTC)
----- DP: --------------------
DP_Max_2_7_GHz : <hswbool> :=
(not Haswell_On or else (CPU_Haswell and Is_ULX));
----------- GMBUS: -----------
Ungate_GMBUS_Unit_Level : <genbool> := Skylake_On;
GMBUS_Alternative_Pins : <genbool> := Gen_Broxton;
Has_PCH_GMBUS : <genbool> := Ironlake_On;
----------- Power: -----------
Has_IPS : <hswbool> :=
(Gen_Haswell and then
((CPU_Haswell and Is_LP) or CPU_Broadwell));
Has_IPS_CTL_Mailbox : <hswbool> := CPU_Broadwell;
Has_Per_Pipe_SRD : <hswbool> := Broadwell_On;
----------- GTT: -------------
Has_64bit_GTT : <hswbool> := Broadwell_On;
----------------------------------------------------------------------------
Max_Pipe : <ilkvar> Pipe_Index :=
(if Has_Tertiary_Pipe then Tertiary else Secondary);
Last_Digital_Port : <hswsklvar> Digital_Port :=
(if Has_DDI_E then DIGI_E else DIGI_C);
----------------------------------------------------------------------------
type FDI_Per_Port is array (Port_Type) of Boolean;
Is_FDI_Port : <hswvar> FDI_Per_Port :=
(Disabled => False,
Internal => Gen_Ironlake and Internal_Is_LVDS,
DP1 .. HDMI3 => Gen_Ironlake,
Analog => Has_PCH_DAC);
type FDI_Lanes_Per_Port is array (GPU_Port) of DP_Lane_Count;
FDI_Lane_Count : constant FDI_Lanes_Per_Port :=
(DIGI_D => DP_Lane_Count_2,
others => (if Gen_Ironlake then DP_Lane_Count_4 else DP_Lane_Count_2));
FDI_Training : <ilkvar> FDI_Training_Type :=
(if CPU_Ironlake then Simple_Training
elsif CPU_Sandybridge then Full_Training
else Auto_Training);
----------------------------------------------------------------------------
DDI_Buffer_Iboost : <hswsklvar> Natural :=
(if Is_ULX or (CPU_Kabylake and Is_ULT) then 3 else 1);
Default_DDI_HDMI_Buffer_Translation : <hswvar> DDI_HDMI_Buf_Trans_Range :=
(if CPU_Haswell then 6
elsif CPU_Broadwell then 7
elsif Broxton_On then 8
else 0);
----------------------------------------------------------------------------
Default_CDClk_Freq : <ilkhswvar> CDClk_Range :=
(if Gen_G45 then 320_000_000 -- unused
elsif CPU_Ironlake then 450_000_000
elsif CPU_Sandybridge or CPU_Ivybridge then 400_000_000
elsif Gen_Haswell and then Is_ULX then 337_500_000
elsif Gen_Haswell then 450_000_000
elsif Gen_Broxton then 288_000_000
elsif Gen_Skylake then 337_500_000
else CDClk_Range'First);
Default_RawClk_Freq : <hswvar> Frequency_Type :=
(if Gen_G45 then 100_000_000 -- unused, depends on FSB
elsif Gen_Ironlake then 125_000_000
elsif Gen_Haswell then (if Is_LP then 24_000_000 else 125_000_000)
elsif Gen_Broxton then Frequency_Type'First -- none needed
elsif Gen_Skylake then 24_000_000
else Frequency_Type'First);
----------------------------------------------------------------------------
-- Maximum source width with enabled scaler. This only accounts
-- for simple 1:1 pipe:scaler mappings.
type Width_Per_Pipe is array (Pipe_Index) of Width_Type;
Maximum_Scalable_Width : <hswvar> Width_Per_Pipe :=
(if Gen_G45 then -- TODO: Is this true?
(Primary => 4096,
Secondary => 2048,
Tertiary => Pos32'First)
elsif Gen_Ironlake or CPU_Haswell then
(Primary => 4096,
Secondary => 2048,
Tertiary => 2048)
else
(Primary => 4096,
Secondary => 4096,
Tertiary => 4096));
-- Maximum X position of hardware cursors
Maximum_Cursor_X : constant :=
(case Gen is
when G45 .. Ironlake => 4095,
when Haswell .. Skylake => 8191);
Maximum_Cursor_Y : constant := 4095;
----------------------------------------------------------------------------
-- FIXME: Unknown for Broxton, Linux' i915 contains a fixme too :-D
HDMI_Max_Clock_24bpp : constant Frequency_Type :=
(case Gen is
when Generation'First .. G45 => 165_000_000,
when Ironlake => 225_000_000,
when Haswell .. Generation'Last => 300_000_000);
----------------------------------------------------------------------------
GTT_PTE_Size : <hswvar> Natural := (if Has_64bit_GTT then 8 else 4);
Fence_Base : <ilkvar> Natural :=
(if not Sandybridge_On then 16#0000_3000# else 16#0010_0000#);
Fence_Count : <ilkvar> Natural :=
(if not Ivybridge_On then 16 else 32);
----------------------------------------------------------------------------
use type HW.Word16;
-- GMA PCI IDs:
--
-- Rather catch too much here than too little, it's
-- mostly used to distinguish generations. Best public
-- reference for these IDs is Linux' i915.
--
-- Since Sandybridge, bits 4 and 5 encode the compu-
-- tational capabilities and can mostly be ignored.
-- From Haswell on, we have to distinguish between
-- Normal, ULT (U CPU lines) and ULX (Y CPU lines).
function Is_Haswell_Y (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffef#) = 16#0a0e#);
function Is_Haswell_U (Device_Id : Word16) return Boolean is
(((Device_Id and 16#ffc3#) = 16#0a02# or
(Device_Id and 16#ffcf#) = 16#0a0b#) and
not Is_Haswell_Y (Device_Id));
function Is_Haswell (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffc3#) = 16#0402# or
(Device_Id and 16#ffcf#) = 16#040b# or
(Device_Id and 16#ffc3#) = 16#0c02# or
(Device_Id and 16#ffcf#) = 16#0c0b# or
(Device_Id and 16#ffc3#) = 16#0d02# or
(Device_Id and 16#ffcf#) = 16#0d0b#);
function Is_Broadwell_Y (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffcf#) = 16#160e#);
function Is_Broadwell_U (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffcf#) = 16#1606# or
(Device_Id and 16#ffcf#) = 16#160b#);
function Is_Broadwell (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffc7#) = 16#1602# or
(Device_Id and 16#ffcf#) = 16#160d#);
function Is_Skylake_Y (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffcf#) = 16#190e#);
function Is_Skylake_U (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffc9#) = 16#1901# or
(Device_Id and 16#ffcf#) = 16#1906#);
function Is_Skylake (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffc7#) = 16#1902# or
(Device_Id and 16#ffcf#) = 16#190b# or
(Device_Id and 16#ffcf#) = 16#190d#);
function Is_Kaby_Lake_Y (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffcf#) = 16#5905# or
(Device_Id and 16#ffcf#) = 16#590e#);
function Is_Kaby_Lake_Y_AML (Device_Id : Word16) return Boolean is
(Device_Id = 16#591c# or Device_Id = 16#87c0#);
function Is_Kaby_Lake_U (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffcd#) = 16#5901# or
(Device_Id and 16#ffce#) = 16#5906#);
function Is_Kaby_Lake (Device_Id : Word16) return Boolean is
((Device_Id and 16#ffc7#) = 16#5902# or
(Device_Id and 16#ffcf#) = 16#5908# or
(Device_Id and 16#ffcf#) = 16#590b# or
(Device_Id and 16#ffcf#) = 16#590d#);
function Is_Coffee_Lake_Y_AML (Device_Id : Word16) return Boolean is
(Device_Id = 16#87ca#);
-- Including Whiskey Lake:
function Is_Coffee_Lake_U (Device_Id : Word16) return Boolean is
((Device_Id and 16#fff0#) = 16#3ea0#);
function Is_Coffee_Lake (Device_Id : Word16) return Boolean is
((Device_Id and 16#fff0#) = 16#3e90#);
function Is_GPU (Device_Id : Word16; CPU : CPU_Type; CPU_Var : CPU_Variant)
return Boolean is
(case CPU is
when G45 => (Device_Id and 16#ff02#) = 16#2e02#,
when GM45 => (Device_Id and 16#fffe#) = 16#2a42#,
when Ironlake => (Device_Id and 16#fff3#) = 16#0042#,
when Sandybridge => (Device_Id and 16#ffc2#) = 16#0102#,
when Ivybridge => (Device_Id and 16#ffc3#) = 16#0142#,
when Haswell => (case CPU_Var is
when Normal => Is_Haswell (Device_Id),
when ULT => Is_Haswell_U (Device_Id),
when ULX => Is_Haswell_Y (Device_Id)),
when Broadwell => (case CPU_Var is
when Normal => Is_Broadwell (Device_Id),
when ULT => Is_Broadwell_U (Device_Id),
when ULX => Is_Broadwell_Y (Device_Id)),
when Broxton => (Device_Id and 16#fffe#) = 16#5a84#,
when Skylake => (case CPU_Var is
when Normal => Is_Skylake (Device_Id),
when ULT => Is_Skylake_U (Device_Id),
when ULX => Is_Skylake_Y (Device_Id)),
when Kabylake => (case CPU_Var is
when Normal =>
Is_Kaby_Lake (Device_Id) or
Is_Coffee_Lake (Device_Id),
when ULT =>
Is_Kaby_Lake_U (Device_Id) or
Is_Coffee_Lake_U (Device_Id),
when ULX =>
Is_Kaby_Lake_Y (Device_Id) or
Is_Kaby_Lake_Y_AML (Device_Id) or
Is_Coffee_Lake_Y_AML (Device_Id)));
function Compatible_GPU (Device_Id : Word16) return Boolean is
(Is_GPU (Device_Id, CPU, CPU_Var));
pragma Warnings (GNATprove, Off, "subprogram ""Detect_CPU"" has no effect",
Reason => "only effective in dynamic cpu config");
procedure Detect_CPU (Device : Word16)<cpunull>;
end HW.GFX.GMA.Config;