gma: Add Intel i945 (Gen3) graphics init support
Add i945G (desktop) and i945GM (mobile) generation support, modeled
after the existing G45 generation code with hardware-specific
adaptations based on the Linux i915 DRM driver and coreboot.
Key hardware differences from G45 (Gen4):
- GTT on separate PCI BAR3 (not within BAR0)
- Simple 32-bit GTT PTEs (addr[31:12] | valid[0])
- No DSPSURF register (uses DSPADDR/DSPLINOFF instead)
- Gen3 fence registers: 32-bit at split 0x2000/0x3000 addresses
- Different PLL limits (VCO 1400-2800 MHz, 96 MHz refclk)
- SDVO multiplier in DPLL register bits[7:4]
- LVDS restricted to Pipe B (pre-i965 requirement)
- CDClk: fixed 400 MHz (desktop) or GCFGC-based (mobile)
- No HDMI/DP, only VGA, LVDS, and SDVO outputs
- PCI IDs: 0x2772 (I945G), 0x27a2/0x27ae (I945GM)
TESTED with thinkpad x60: LVDS & VGA works with a linear framebuffer.
Change-Id: Ib67b3d0ee5e06df427869dce4db926ba57a80fd8
Signed-off-by: Arthur Heymans <arthur@aheymans.xyz>
Reviewed-on: https://review.sourcearcade.org/c/libgfxinit/+/476
Reviewed-by: Nico Huber <nico.h@gmx.de>
Reviewed-by: Angel Pons <th3fanbus@gmail.com>
Tested-by: Nico Huber <nico.h@gmx.de>
diff --git a/common/Makefile.inc b/common/Makefile.inc
index 906e1cd..47ef35b 100644
--- a/common/Makefile.inc
+++ b/common/Makefile.inc
@@ -62,14 +62,15 @@
CONFIG_GFX_GMA_ANALOG_I2C_PORT := $(call strip_quotes,$(CONFIG_GFX_GMA_ANALOG_I2C_PORT))
CONFIG_GFX_GMA_IGNORE_PRESENCE_STRAPS := $(if $(filter y,$(CONFIG_GFX_GMA_IGNORE_PRESENCE_STRAPS)),True,False)
-_GEN_TLA_SUBSTITUTIONS := g45 ilk hsw skl tgl
+_GEN_TLA_SUBSTITUTIONS := i945 g45 ilk hsw skl tgl
_GEN_NONCONST := $(strip \
+ $(if $(filter I945,$(CONFIG_GFX_GMA_GENERATION)),i945, \
$(if $(filter G45,$(CONFIG_GFX_GMA_GENERATION)),g45, \
$(if $(filter Ironlake,$(CONFIG_GFX_GMA_GENERATION)),ilk, \
$(if $(filter Haswell,$(CONFIG_GFX_GMA_GENERATION)),hsw, \
$(if $(filter Skylake,$(CONFIG_GFX_GMA_GENERATION)),skl, \
- $(if $(filter Tigerlake,$(CONFIG_GFX_GMA_GENERATION)),tgl))))))
+ $(if $(filter Tigerlake,$(CONFIG_GFX_GMA_GENERATION)),tgl)))))))
# GNATprove (GPL 2017) doesn't realize when a boolean expression
# that depends both on static values and variables can be evalu-
# ated at compile time (e.g. `False and then Variable` is always
@@ -121,7 +122,9 @@
gfxinit-gen-y += $(hw-gfx-gma-config-ads)
gfxinit-$(CONFIG_GFX_GMA_DYN_CPU) += dyncpu/hw-gfx-gma-config.adb
-ifneq ($(filter G45,$(CONFIG_GFX_GMA_GENERATION)),)
+ifneq ($(filter I945,$(CONFIG_GFX_GMA_GENERATION)),)
+subdirs-y += i945
+else ifneq ($(filter G45,$(CONFIG_GFX_GMA_GENERATION)),)
subdirs-y += g45
else ifneq ($(filter Ironlake,$(CONFIG_GFX_GMA_GENERATION)),)
subdirs-y += ironlake
diff --git a/common/hw-gfx-gma-config.ads.template b/common/hw-gfx-gma-config.ads.template
index dd6c2f8..2c859c5 100644
--- a/common/hw-gfx-gma-config.ads.template
+++ b/common/hw-gfx-gma-config.ads.template
@@ -18,6 +18,7 @@
CPU_First : constant CPU_Type :=
(case Gen is
+ when I945 => I945G,
when G45 => G45,
when Ironlake => Ironlake,
when Haswell => Haswell,
@@ -26,6 +27,7 @@
when Tigerlake => Tigerlake);
CPU_Last : constant CPU_Type :=
(case Gen is
+ when I945 => I945GM,
when G45 => GM45,
when Ironlake => Ivybridge,
when Haswell => Broadwell,
@@ -45,6 +47,7 @@
PCH_First : constant PCH_Type :=
(case Gen is
+ when I945 => No_PCH,
when G45 => No_PCH,
when Ironlake => Ibex_Peak,
when Haswell => Lynx_Point,
@@ -53,6 +56,7 @@
when Tigerlake => Tiger_Point);
PCH_Last : constant PCH_Type :=
(case Gen is
+ when I945 => No_PCH,
when G45 => No_PCH,
when Ironlake => Cougar_Point,
when Haswell => Lynx_Point,
@@ -85,8 +89,8 @@
-- 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);
+ when I945 .. Ironlake => Frequency_Type'First * 100 / 90 + 1,
+ when others => Frequency_Type'First);
subtype CDClk_Range is Frequency_Type range CDClk_Min .. Frequency_Type'Last;
----------------------------------------------------------------------------
@@ -137,6 +141,7 @@
-- To ease parsing, all multiline expressions of tagged config
-- values start after a line break.
+ Gen_I945 : <genbool> := Gen = I945;
Gen_G45 : <genbool> := Gen = G45;
Gen_Ironlake : <genbool> := Gen = Ironlake;
Gen_Haswell : <genbool> := Gen = Haswell;
@@ -144,13 +149,16 @@
Gen_Skylake : <genbool> := Gen = Skylake;
Gen_Tigerlake : <genbool> := Gen = Tigerlake;
+ Up_To_G45 : <genbool> := Gen <= G45;
Up_To_Ironlake : <genbool> := Gen <= Ironlake;
+ G45_On : <genbool> := Gen >= G45;
Ironlake_On : <genbool> := Gen >= Ironlake;
Haswell_On : <genbool> := Gen >= Haswell;
Broxton_On : <genbool> := Gen >= Broxton;
Skylake_On : <genbool> := Gen >= Skylake;
Tigerlake_On : <genbool> := Gen >= Tigerlake;
+ GMCH_I945GM : <i945bool> := Gen_I945 and then CPU = I945GM;
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;
@@ -185,7 +193,7 @@
Have_DVI_I : constant Boolean := Analog_I2C_Port /= PCH_DAC;
- Has_Presence_Straps : <genbool> := not Gen_Broxton;
+ Has_Presence_Straps : <genbool> := not Gen_Broxton and not Gen_I945;
Is_ULT : <hswskltglbool> :=
((Gen_Haswell or Gen_Skylake or Gen_Tigerlake) and then CPU_Var = ULT);
Is_ULX : <hswskltglbool> :=
@@ -194,7 +202,7 @@
---------- CPU pipe: ---------
Has_Tertiary_Pipe : <ilkbool> := Ivybridge_On;
- Disable_Trickle_Feed : <genbool> := not Gen_Haswell;
+ Disable_Trickle_Feed : <genbool> := not Gen_Haswell and not Gen_I945;
Pipe_Enabled_Workaround : <hswbool> := CPU_Broadwell;
Has_EDP_Transcoder : <genbool> := Haswell_On and not Tigerlake_On;
Use_PDW_For_EDP_Scaling : <hswbool> := CPU_Haswell;
@@ -205,12 +213,13 @@
Has_Pipeconf_BPC : <hswbool> := not CPU_Haswell;
Has_Plane_Control : <genbool> := Broxton_On;
Has_DSP_Linoff : <genbool> := Up_To_Ironlake;
+ Has_DSPSURF : <genbool> := G45_On;
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;
+ Has_GMCH_VGACNTRL : <genbool> := Up_To_G45;
+ Has_GMCH_PFIT_CONTROL : <genbool> := Up_To_G45;
----------- Transcoder -------
Need_Early_Transcoder_Setup : <genbool> := Tigerlake_On;
@@ -246,8 +255,19 @@
Has_FDI_RX_Power_Down : <genbool> := Gen_Haswell;
---------- Clocks: -----------
- Has_GMCH_RawClk : <genbool> := Gen_G45;
+ Has_GMCH_RawClk : <genbool> := Up_To_G45;
Has_GMCH_Mobile_VCO : <g45bool> := GMCH_GM45;
+
+ ---------- I945-specific: ----
+ Has_I945_GTT_BAR : <genbool> := Gen_I945;
+ Has_I945_Simple_GTT_PTE : <genbool> := Gen_I945;
+ Has_Gen3_Fences : <genbool> := Gen_I945;
+ -- Pre-i965: LVDS encoder can only source from Pipe B (Secondary)
+ LVDS_Needs_Pipe_B : <genbool> := Gen_I945;
+ -- Pre-Gen5: DSPCNTR has a pipe select field (bits 25:24)
+ Has_DSPCNTR_Pipe_Select : <genbool> := Up_To_G45;
+ -- Gen3: Plane A feeds Pipe B, Plane B feeds Pipe A (for FBC + LVDS)
+ Planes_Pipes_Swapped : <genbool> := Gen_I945;
Has_Broadwell_CDClk : <hswbool> := CPU_Broadwell;
Can_Switch_CDClk : <hswbool> := Broadwell_On;
Has_Fractional_RawClk : <genbool> := Cannon_Point_On;
@@ -283,6 +303,7 @@
Ungate_GMBUS_Unit_Level : <genbool> := Skylake_On and not Tigerlake_On;
GMBUS_Alternative_Pins : <genbool> := Gen_Broxton or Cannon_Point_On;
Has_PCH_GMBUS : <genbool> := Ironlake_On;
+ Has_GMCH_GMBUS : <genbool> := Up_To_G45;
----------- Power: -----------
Has_IPS : <hswbool> :=
@@ -344,8 +365,9 @@
----------------------------------------------------------------------------
- Default_CDClk_Freq : <ilkhswvar> CDClk_Range :=
- (if Gen_G45 then 320_000_000 -- unused
+ Default_CDClk_Freq : <i945ilkhswvar> CDClk_Range :=
+ (if Gen_I945 then 200_000_000 -- unused, depends on GCFGC
+ elsif 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
@@ -356,7 +378,8 @@
else CDClk_Range'First);
Default_RawClk_Freq : <hswvar> Frequency_Type :=
- (if Gen_G45 then 100_000_000 -- unused, depends on FSB
+ (if Gen_I945 then 100_000_000 -- unused, depends on FSB
+ elsif 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
@@ -372,7 +395,7 @@
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?
+ (if Gen_I945 or Gen_G45 then
(Primary => 4096,
Secondary => 2048,
Tertiary => Pos32'First)
@@ -388,7 +411,7 @@
-- Maximum X position of hardware cursors
Maximum_Cursor_X : constant :=
(case Gen is
- when G45 .. Ironlake => 4095,
+ when I945 .. Ironlake => 4095,
when Haswell .. Tigerlake => 8191);
Maximum_Cursor_Y : constant := 4095;
@@ -398,7 +421,7 @@
-- 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 Generation'First .. G45 => 165_000_000, -- i945: no HDMI, moot
when Ironlake => 225_000_000,
when Haswell .. Skylake => 300_000_000,
when Tigerlake .. Generation'Last => 600_000_000);
@@ -412,8 +435,10 @@
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_Base : <i945ilkvar> Natural :=
+ (if Gen_I945 then 16#0000_2000#
+ elsif not Sandybridge_On then 16#0000_3000#
+ else 16#0010_0000#);
Fence_Count : <ilkvar> Natural :=
(if not Ivybridge_On then 16 else 32);
@@ -560,6 +585,8 @@
function Is_GPU (Device_Id : Word16; CPU : CPU_Type; CPU_Var : CPU_Variant)
return Boolean is
(case CPU is
+ when I945G => Device_Id = 16#2772#,
+ when I945GM => Device_Id = 16#27a2# or Device_Id = 16#27ae#,
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#,
diff --git a/common/hw-gfx-gma-config_helpers.adb b/common/hw-gfx-gma-config_helpers.adb
index 868d514..3b55968 100644
--- a/common/hw-gfx-gma-config_helpers.adb
+++ b/common/hw-gfx-gma-config_helpers.adb
@@ -29,15 +29,22 @@
begin
return
(case Config.Gen is
+ when I945 => -- LVDS, VGA, SDVO B/C on GMCH
+ (case Port is
+ when LVDS => LVDS,
+ when HDMI1 | DP1 => DIGI_B, -- SDVO B
+ when HDMI2 | DP2 => DIGI_C, -- SDVO C
+ when Analog => VGA,
+ when others => DIGI_A), -- n/a, actually
when G45 => -- everything on GMCH
- (case Port is
- when LVDS => LVDS,
- when eDP => DIGI_A, -- n/a, actually
- when HDMI1 | DP1 => DIGI_B,
- when HDMI2 | DP2 => DIGI_C,
- when HDMI3 | DP3 => DIGI_D,
- when Analog => VGA,
- when others => DIGI_A), -- n/a, actually
+ (case Port is
+ when LVDS => LVDS,
+ when eDP => DIGI_A, -- n/a, actually
+ when HDMI1 | DP1 => DIGI_B,
+ when HDMI2 | DP2 => DIGI_C,
+ when HDMI3 | DP3 => DIGI_D,
+ when Analog => VGA,
+ when others => DIGI_A), -- n/a, actually
when Ironlake => -- everything but eDP through FDI/PCH
(if Port = eDP then
DIGI_A
diff --git a/common/hw-gfx-gma-display_probing.adb b/common/hw-gfx-gma-display_probing.adb
index 67f8ddf..b313ded 100644
--- a/common/hw-gfx-gma-display_probing.adb
+++ b/common/hw-gfx-gma-display_probing.adb
@@ -209,6 +209,19 @@
exit when not Success;
end loop;
+ -- On pre-i965 hardware, LVDS must use Pipe B (Secondary).
+ -- If the scan assigned LVDS to Primary, swap with Secondary.
+ if Config.LVDS_Needs_Pipe_B and
+ Configs (Primary).Port = LVDS
+ then
+ declare
+ Tmp : constant Pipe_Config := Configs (Secondary);
+ begin
+ Configs (Secondary) := Configs (Primary);
+ Configs (Primary) := Tmp;
+ end;
+ end if;
+
-- Restore power settings
if not Keep_Power then
Power_And_Clocks.Power_Set_To (Cur_Configs);
diff --git a/common/hw-gfx-gma-pipe_setup.adb b/common/hw-gfx-gma-pipe_setup.adb
index 82f5222..03aaf12 100644
--- a/common/hw-gfx-gma-pipe_setup.adb
+++ b/common/hw-gfx-gma-pipe_setup.adb
@@ -27,6 +27,8 @@
DSPCNTR_ENABLE : constant := 1 * 2 ** 31;
DSPCNTR_GAMMA_CORRECTION : constant := 1 * 2 ** 30;
DSPCNTR_FORMAT_MASK : constant := 15 * 2 ** 26;
+ DSPCNTR_PIPE_SEL_MASK : constant := 3 * 2 ** 24;
+ DSPCNTR_PIPE_B_SELECT : constant := 1 * 2 ** 24;
DSPCNTR_DISABLE_TRICKLE_FEED : constant := 1 * 2 ** 14;
DSPCNTR_TILED_SURFACE_LINEAR : constant := 0 * 2 ** 10;
DSPCNTR_TILED_SURFACE_X_TILED : constant := 1 * 2 ** 10;
@@ -36,10 +38,14 @@
X_Tiled => DSPCNTR_TILED_SURFACE_X_TILED,
Y_Tiled => 0); -- unsupported
+ function DSPCNTR_PIPE_SEL (Pipe : Pipe_Index) return Word32 is
+ (if Pipe = Secondary then DSPCNTR_PIPE_B_SELECT else 0);
+
DSPCNTR_MASK : constant Word32 :=
DSPCNTR_ENABLE or
DSPCNTR_GAMMA_CORRECTION or
DSPCNTR_FORMAT_MASK or
+ DSPCNTR_PIPE_SEL_MASK or
DSPCNTR_DISABLE_TRICKLE_FEED or
DSPCNTR_TILED_SURFACE_X_TILED;
@@ -212,7 +218,7 @@
is
-- FIXME: setup correct format, based on framebuffer RGB format
Format : constant Word32 := 6 * 2 ** 26;
- PRI : Word32 := DSPCNTR_ENABLE or Format;
+ PRI : Word32 := Format;
begin
pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
@@ -245,11 +251,19 @@
Registers.Write (Controller.PLANE_SURF, FB.Offset and 16#ffff_f000#);
end;
else
+ if Config.Has_DSPCNTR_Pipe_Select then
+ PRI := PRI or DSPCNTR_PIPE_SEL (Controller.Pipe);
+ end if;
if Config.Disable_Trickle_Feed then
PRI := PRI or DSPCNTR_DISABLE_TRICKLE_FEED;
end if;
- -- for now, just disable gamma LUT (can't do anything
- -- useful without colorimetry information from display)
+
+ -- Write DSPCNTR *without* the enable bit first. On pre-SKL
+ -- hardware the control register self-arms when the plane
+ -- transitions from disabled to enabled, latching whatever
+ -- stride/size/offset values happen to be in the registers at
+ -- that moment. Programming format, pipe-select, and trickle-
+ -- feed now avoids a glitch with stale geometry values.
Registers.Unset_And_Set_Mask
(Register => Controller.DSPCNTR,
Mask_Unset => DSPCNTR_MASK,
@@ -257,6 +271,16 @@
Registers.Write
(Controller.DSPSTRIDE, Word32 (Pixel_To_Bytes (FB.Stride, FB)));
+
+ -- Gen3 (i945): program DSPSIZE and DSPPOS before the surface
+ -- address write that arms the double-buffered plane registers.
+ if Config.Gen_I945 then
+ Registers.Write
+ (Controller.DSPSIZE,
+ Encode (Rotated_Width (FB), Rotated_Height (FB)));
+ Registers.Write (Controller.DSPPOS, 16#0000_0000#);
+ end if;
+
if Config.Has_DSP_Linoff and then FB.Tiling = Linear then
pragma Assert_And_Cut (True);
declare
@@ -265,19 +289,33 @@
begin
Registers.Write
(Register => Controller.DSPLINOFF,
- Value => Word32 (Pixel_To_Bytes (Linear_Offset, FB)));
+ Value => (if Config.Has_DSPSURF
+ then Word32 (Pixel_To_Bytes (Linear_Offset, FB))
+ else (FB.Offset and 16#ffff_f000#) or
+ Word32 (Pixel_To_Bytes (Linear_Offset, FB))));
Registers.Write (Controller.DSPTILEOFF, 0);
end;
else
if Config.Has_DSP_Linoff then
- Registers.Write (Controller.DSPLINOFF, 0);
+ Registers.Write (Controller.DSPLINOFF,
+ (if Config.Has_DSPSURF then 0
+ else FB.Offset and 16#ffff_f000#));
end if;
Registers.Write
(Register => Controller.DSPTILEOFF,
Value => Shift_Left (Word32 (FB.Start_Y), 16) or
Word32 (FB.Start_X));
end if;
- Registers.Write (Controller.DSPSURF, FB.Offset and 16#ffff_f000#);
+ if Config.Has_DSPSURF then
+ Registers.Write (Controller.DSPSURF, FB.Offset and 16#ffff_f000#);
+ end if;
+
+ -- Now enable the plane. All geometry registers are in place,
+ -- so the self-arm latches correct values.
+ Registers.Write
+ (Register => Controller.DSPCNTR,
+ Value => DSPCNTR_ENABLE or PRI or
+ DSPCNTR_TILED_SURFACE (FB.Tiling));
end if;
end Setup_Hires_Plane;
@@ -579,11 +617,17 @@
is
Used_For_Secondary : Boolean;
begin
- Registers.Is_Set_Mask
- (Register => Registers.GMCH_PFIT_CONTROL,
- Mask => GMCH_PFIT_CONTROL_SELECT_PIPE_B,
- Result => Used_For_Secondary);
- Pipe := (if Used_For_Secondary then Secondary else Primary);
+ if Config.Gen_I945 then
+ -- Gen3: panel fitter is hardwired to Pipe B (Secondary).
+ -- The PFIT_PIPE field (bits 30:29) does not exist on Gen3.
+ Pipe := Secondary;
+ else
+ Registers.Is_Set_Mask
+ (Register => Registers.GMCH_PFIT_CONTROL,
+ Mask => GMCH_PFIT_CONTROL_SELECT_PIPE_B,
+ Result => Used_For_Secondary);
+ Pipe := (if Used_For_Secondary then Secondary else Primary);
+ end if;
end;
procedure Panel_Fitter_Off (Controller : Controller_Type)
@@ -604,7 +648,10 @@
elsif Config.Has_GMCH_PFIT_CONTROL then
Gmch_Panel_Fitter_Pipe (Pipe_Using_PF);
if Pipe_Using_PF = Controller.Pipe then
- Registers.Unset_Mask (Registers.GMCH_PFIT_CONTROL, PF_CTRL_ENABLE);
+ -- Write 0 to clear all bits (enable, scaling mode, auto-scale,
+ -- interpolation). Just clearing the enable bit can leave stale
+ -- Gen3 auto-scale bits that confuse the hardware.
+ Registers.Write (Registers.GMCH_PFIT_CONTROL, 16#0000_0000#);
end if;
else
Registers.Unset_Mask (Controller.PF_CTRL, PF_CTRL_ENABLE);
@@ -758,7 +805,7 @@
Legacy_VGA_Off;
- for Pipe in Pipe_Index loop
+ for Pipe in Pipe_Index range Pipe_Index'First .. Config.Max_Pipe loop
Planes_Off (Controllers (Pipe), Cursors (Pipe));
Transcoder.Off (Pipe);
Panel_Fitter_Off (Controllers (Pipe));
diff --git a/common/hw-gfx-gma-pipe_setup.ads b/common/hw-gfx-gma-pipe_setup.ads
index 7270cb2..f047a64 100644
--- a/common/hw-gfx-gma-pipe_setup.ads
+++ b/common/hw-gfx-gma-pipe_setup.ads
@@ -82,6 +82,8 @@
DSPSTRIDE : Registers.Registers_Index;
DSPSURF : Registers.Registers_Index;
DSPTILEOFF : Registers.Registers_Index;
+ DSPSIZE : Registers.Registers_Index;
+ DSPPOS : Registers.Registers_Index;
SPCNTR : Registers.Registers_Index;
-- Skylake registers (partially aliased)
PLANE_CTL : Registers.Registers_Index;
@@ -104,6 +106,11 @@
type Controller_Array is array (Pipe_Index) of Controller_Type;
+ -- On Gen3 (i945), FBC only works with Plane A, but LVDS and the
+ -- panel fitter are hooked to Pipe B. Hence we want Plane A feeding
+ -- Pipe B, which means swapping the plane register assignments:
+ -- Primary (Pipe A) gets Plane B, Secondary (Pipe B) gets Plane A.
+
Controllers : constant Controller_Array :=
(Primary => Controller_Type'
(Pipe => Primary,
@@ -112,11 +119,27 @@
PF_CTRL => Registers.PFA_CTL_1,
PF_WIN_POS => Registers.PFA_WIN_POS,
PF_WIN_SZ => Registers.PFA_WIN_SZ,
- DSPCNTR => Registers.DSPACNTR,
- DSPLINOFF => Registers.DSPALINOFF,
- DSPSTRIDE => Registers.DSPASTRIDE,
- DSPSURF => Registers.DSPASURF,
- DSPTILEOFF => Registers.DSPATILEOFF,
+ DSPCNTR =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPBCNTR else Registers.DSPACNTR),
+ DSPLINOFF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPBLINOFF else Registers.DSPALINOFF),
+ DSPSTRIDE =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPBSTRIDE else Registers.DSPASTRIDE),
+ DSPSURF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPBSURF else Registers.DSPASURF),
+ DSPTILEOFF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPBTILEOFF else Registers.DSPATILEOFF),
+ DSPSIZE =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.PLANE_SIZE_1_B else Registers.PLANE_SIZE_1_A),
+ DSPPOS =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.PLANE_POS_1_B else Registers.PLANE_POS_1_A),
SPCNTR => Registers.SPACNTR,
PLANE_CTL => Registers.DSPACNTR,
PLANE_OFFSET => Registers.DSPATILEOFF,
@@ -157,11 +180,27 @@
PF_CTRL => Registers.PFB_CTL_1,
PF_WIN_POS => Registers.PFB_WIN_POS,
PF_WIN_SZ => Registers.PFB_WIN_SZ,
- DSPCNTR => Registers.DSPBCNTR,
- DSPLINOFF => Registers.DSPBLINOFF,
- DSPSTRIDE => Registers.DSPBSTRIDE,
- DSPSURF => Registers.DSPBSURF,
- DSPTILEOFF => Registers.DSPBTILEOFF,
+ DSPCNTR =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPACNTR else Registers.DSPBCNTR),
+ DSPLINOFF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPALINOFF else Registers.DSPBLINOFF),
+ DSPSTRIDE =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPASTRIDE else Registers.DSPBSTRIDE),
+ DSPSURF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPASURF else Registers.DSPBSURF),
+ DSPTILEOFF =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.DSPATILEOFF else Registers.DSPBTILEOFF),
+ DSPSIZE =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.PLANE_SIZE_1_A else Registers.PLANE_SIZE_1_B),
+ DSPPOS =>
+ (if Config.Planes_Pipes_Swapped
+ then Registers.PLANE_POS_1_A else Registers.PLANE_POS_1_B),
SPCNTR => Registers.SPBCNTR,
PLANE_CTL => Registers.DSPBCNTR,
PLANE_OFFSET => Registers.DSPBTILEOFF,
@@ -207,6 +246,8 @@
DSPSTRIDE => Registers.DSPCSTRIDE,
DSPSURF => Registers.DSPCSURF,
DSPTILEOFF => Registers.DSPCTILEOFF,
+ DSPSIZE => Registers.PLANE_SIZE_1_C,
+ DSPPOS => Registers.PLANE_POS_1_C,
SPCNTR => Registers.SPCCNTR,
PLANE_CTL => Registers.DSPCCNTR,
PLANE_OFFSET => Registers.DSPCTILEOFF,
diff --git a/common/hw-gfx-gma-registers.adb b/common/hw-gfx-gma-registers.adb
index 3f0d7ae..eb12b0d 100644
--- a/common/hw-gfx-gma-registers.adb
+++ b/common/hw-gfx-gma-registers.adb
@@ -75,20 +75,57 @@
FENCE_PAGE_SHIFT : constant := 12;
FENCE_PAGE_MASK : constant := 16#ffff_f000#;
- FENCE_TILE_WALK_YMAJOR : constant := 1 * 2 ** 1;
FENCE_VALID : constant := 1 * 2 ** 0;
+ -- Gen4+ (i965/G45+): 64-bit fence pairs at Fence_Base + i*8
+ FENCE_TILE_WALK_YMAJOR : constant := 1 * 2 ** 1;
+
function Fence_Lower_Idx (Fence : Fence_Range) return Registers_Range is
(Registers_Range (Config.Fence_Base / Register_Width + 2 * Fence));
function Fence_Upper_Idx (Fence : Fence_Range) return Registers_Range is
(Fence_Lower_Idx (Fence) + 1);
+ -- Gen3 (i915/i945): 32-bit fences, split layout:
+ -- Fences 0-7: 0x2000 + i*4
+ -- Fences 8-15: 0x3000 + (i-8)*4
+ -- FENCE_REG(i) = 0x2000 + (((i) & 8) << 9) + ((i) & 7) * 4
+ GEN3_FENCE_TILING_Y_SHIFT : constant := 12;
+ GEN3_FENCE_SIZE_SHIFT : constant := 8;
+ GEN3_FENCE_PITCH_SHIFT : constant := 4;
+
+ function Gen3_Fence_Idx (Fence : Fence_Range) return Registers_Range is
+ (Registers_Range
+ ((16#2000# + (Fence / 8) * 16#1000# + (Fence mod 8) * 4) /
+ Register_Width));
+
+ -- Compute floor(log2(n)) for n >= 1 (fence size/pitch encoding).
+ function Floor_Log2 (N : Word32) return Natural
+ with
+ Pre => N >= 1
+ is
+ Result : Natural := 0;
+ Val : Word32 := N;
+ begin
+ for I in 0 .. 31 loop
+ exit when Val <= 1;
+ Val := Shift_Right (Val, 1);
+ Result := I + 1;
+ end loop;
+ return Result;
+ end Floor_Log2;
+
procedure Clear_Fences
is
begin
- for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
- Regs.Write (Fence_Lower_Idx (Fence), 0);
- end loop;
+ if Config.Has_Gen3_Fences then
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Write (Gen3_Fence_Idx (Fence), 0);
+ end loop;
+ else
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Write (Fence_Lower_Idx (Fence), 0);
+ end loop;
+ end if;
end Clear_Fences;
procedure Add_Fence
@@ -111,42 +148,106 @@
pragma Debug (Debug.Put_Line (" tiles per row."));
Success := False;
- for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
- Regs.Read (Reg32, Fence_Lower_Idx (Fence));
- if (Reg32 and FENCE_VALID) = 0 then
- Regs.Write
- (Index => Fence_Lower_Idx (Fence),
- Value => Shift_Left (Word32 (First_Page), FENCE_PAGE_SHIFT) or
- (if Y_Tiles then FENCE_TILE_WALK_YMAJOR else 0) or
- FENCE_VALID);
- Regs.Write
- (Index => Fence_Upper_Idx (Fence),
- Value => Shift_Left (Word32 (Last_Page), FENCE_PAGE_SHIFT) or
- Word32 (Pitch) * (if Y_Tiles then 1 else 4) - 1);
- Success := True;
- exit;
- end if;
- end loop;
+
+ if Config.Has_Gen3_Fences then
+ -- Gen3 i945: single 32-bit fence register per fence
+ -- Format: start[31:20] | tiling_y[12] | size_bits[11:8] |
+ -- pitch_log2[7:4] | valid[0]
+ -- stride: Y-tiled /128, X-tiled /512 (i945 has 128-byte Y tiling)
+ -- size_bits: log2(size_in_pages / 256) = log2(size_in_MB)
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Read (Reg32, Gen3_Fence_Idx (Fence));
+ if (Reg32 and FENCE_VALID) = 0 then
+ declare
+ Start_Addr : constant Word32 :=
+ Shift_Left (Word32 (First_Page), FENCE_PAGE_SHIFT);
+ Size_Pages : constant Word32 :=
+ Word32 (Last_Page - First_Page + 1);
+ -- Size in MB (pages / 256, since page = 4KB, 256*4KB = 1MB)
+ Size_MB : constant Word32 := Size_Pages / 256;
+ -- Pitch in tiles (X: 512B tiles, Y: 128B tiles for i945)
+ Stride : constant Word32 :=
+ Word32 (Pitch) / (if Y_Tiles then 128 else 512);
+ Size_Bits : constant Word32 :=
+ (if Size_MB >= 1
+ then Word32 (Floor_Log2 (Size_MB))
+ else 0);
+ begin
+ Regs.Write
+ (Index => Gen3_Fence_Idx (Fence),
+ Value => Start_Addr or
+ (if Y_Tiles
+ then Shift_Left (1, GEN3_FENCE_TILING_Y_SHIFT)
+ else 0) or
+ Shift_Left (Size_Bits, GEN3_FENCE_SIZE_SHIFT) or
+ Shift_Left
+ ((if Stride >= 1
+ then Word32 (Floor_Log2 (Stride))
+ else 0),
+ GEN3_FENCE_PITCH_SHIFT) or
+ FENCE_VALID);
+ end;
+ Success := True;
+ exit;
+ end if;
+ end loop;
+ else
+ -- Gen4+ (i965/G45+): 64-bit fence register pairs
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Read (Reg32, Fence_Lower_Idx (Fence));
+ if (Reg32 and FENCE_VALID) = 0 then
+ Regs.Write
+ (Index => Fence_Lower_Idx (Fence),
+ Value => Shift_Left (Word32 (First_Page), FENCE_PAGE_SHIFT) or
+ (if Y_Tiles then FENCE_TILE_WALK_YMAJOR else 0) or
+ FENCE_VALID);
+ Regs.Write
+ (Index => Fence_Upper_Idx (Fence),
+ Value => Shift_Left (Word32 (Last_Page), FENCE_PAGE_SHIFT) or
+ Word32 (Pitch) * (if Y_Tiles then 1 else 4) - 1);
+ Success := True;
+ exit;
+ end if;
+ end loop;
+ end if;
end Add_Fence;
procedure Remove_Fence (First_Page, Last_Page : GTT_Range)
is
Page_Lower : constant Word32 :=
Shift_Left (Word32 (First_Page), FENCE_PAGE_SHIFT);
- Page_Upper : constant Word32 :=
- Shift_Left (Word32 (Last_Page), FENCE_PAGE_SHIFT);
- Fence_Upper, Fence_Lower : Word32;
+ Reg32 : Word32;
begin
- for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
- Regs.Read (Fence_Lower, Fence_Lower_Idx (Fence));
- Regs.Read (Fence_Upper, Fence_Upper_Idx (Fence));
- if (Fence_Lower and FENCE_PAGE_MASK) = Page_Lower and
- (Fence_Upper and FENCE_PAGE_MASK) = Page_Upper
- then
- Regs.Write (Fence_Lower_Idx (Fence), 0);
- exit;
- end if;
- end loop;
+ if Config.Has_Gen3_Fences then
+ -- Gen3: match start address in single 32-bit register
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Read (Reg32, Gen3_Fence_Idx (Fence));
+ if (Reg32 and FENCE_VALID) /= 0 and
+ (Reg32 and 16#fff0_0000#) = (Page_Lower and 16#fff0_0000#)
+ then
+ Regs.Write (Gen3_Fence_Idx (Fence), 0);
+ exit;
+ end if;
+ end loop;
+ else
+ -- Gen4+: match start in lower, end in upper register
+ declare
+ Page_Upper : constant Word32 :=
+ Shift_Left (Word32 (Last_Page), FENCE_PAGE_SHIFT);
+ Fence_Upper, Fence_Lower : Word32;
+ begin
+ for Fence in Fence_Range range 0 .. Config.Fence_Count - 1 loop
+ Regs.Read (Fence_Lower, Fence_Lower_Idx (Fence));
+ Regs.Read (Fence_Upper, Fence_Upper_Idx (Fence));
+ if (Fence_Lower and FENCE_PAGE_MASK) = Page_Lower and
+ (Fence_Upper and FENCE_PAGE_MASK) = Page_Upper
+ then
+ Regs.Write (Fence_Lower_Idx (Fence), 0);
+ exit;
+ end if;
+ end loop;
+ end;
+ end if;
end Remove_Fence;
----------------------------------------------------------------------------
@@ -157,7 +258,13 @@
Valid : Boolean)
is
begin
- if not Config.Has_64bit_GTT then
+ if Config.Has_I945_Simple_GTT_PTE then
+ -- i945: simple 32-bit PTE, no high address bits
+ GTT_32.Write
+ (Index => GTT_Page,
+ Value => GTT_PTE_32 (Device_Address and 16#ffff_f000#) or
+ Boolean'Pos (Valid));
+ elsif not Config.Has_64bit_GTT then
GTT_32.Write
(Index => GTT_Page,
Value => GTT_PTE_32 (Device_Address and 16#ffff_f000#) or
@@ -178,7 +285,15 @@
GTT_Page : in GTT_Range)
is
begin
- if not Config.Has_64bit_GTT then
+ if Config.Has_I945_Simple_GTT_PTE then
+ declare
+ PTE : GTT_PTE_32;
+ begin
+ GTT_32.Read (PTE, GTT_Page);
+ Valid := (PTE and GTT_PTE_Valid) /= 0;
+ Device_Address := GTT_Address_Type (PTE and 16#ffff_f000#);
+ end;
+ elsif not Config.Has_64bit_GTT then
declare
PTE : GTT_PTE_32;
begin
diff --git a/common/hw-gfx-gma-registers.ads b/common/hw-gfx-gma-registers.ads
index 498cb53..404dda3 100644
--- a/common/hw-gfx-gma-registers.ads
+++ b/common/hw-gfx-gma-registers.ads
@@ -2395,7 +2395,9 @@
Last_Page : in GTT_Range;
Tiling : in XY_Tiling;
Pitch : in Natural;
- Success : out Boolean);
+ Success : out Boolean)
+ with
+ Pre => Last_Page >= First_Page;
procedure Remove_Fence (First_Page, Last_Page : GTT_Range);
diff --git a/common/hw-gfx-gma.adb b/common/hw-gfx-gma.adb
index c3073d3..92c6f5e 100644
--- a/common/hw-gfx-gma.adb
+++ b/common/hw-gfx-gma.adb
@@ -496,7 +496,9 @@
use type HW.Word64;
function MMIO_GTT_Offset return Natural is
- (if Config.Has_64bit_GTT
+ (if Config.Has_I945_GTT_BAR
+ then 0 -- i945: GTT is on separate BAR3, not within BAR0
+ elsif Config.Has_64bit_GTT
then Registers.MMIO_GTT_64_Offset
else Registers.MMIO_GTT_32_Offset);
PCI_MMIO_Base, PCI_GTT_Base : Word64;
@@ -507,7 +509,14 @@
is
Audio_VID_DID : Word32;
begin
+ if Config.Gen_I945 then
+ -- i945 has no integrated audio DID to verify
+ Success := True;
+ return;
+ end if;
case Config.Gen is
+ when I945 =>
+ Audio_VID_DID := 0; -- unreachable due to early return
when G45 =>
Registers.Read (Registers.G4X_AUD_VID_DID, Audio_VID_DID);
when Ironlake =>
@@ -568,14 +577,20 @@
if Success then
Check_Platform_PCI (Success);
if Success then
- Dev.Map (PCI_MMIO_Base, PCI.Res0, Length => MMIO_GTT_Offset);
- Dev.Map (PCI_GTT_Base, PCI.Res0, Offset => MMIO_GTT_Offset);
+ if Config.Has_I945_GTT_BAR then
+ -- i945: MMIO is on BAR0, GTT is on separate BAR3
+ Dev.Map (PCI_MMIO_Base, PCI.Res0);
+ Dev.Map (PCI_GTT_Base, PCI.Res3);
+ else
+ Dev.Map (PCI_MMIO_Base, PCI.Res0, Length => MMIO_GTT_Offset);
+ Dev.Map (PCI_GTT_Base, PCI.Res0, Offset => MMIO_GTT_Offset);
+ end if;
if PCI_MMIO_Base /= 0 and PCI_GTT_Base /= 0 then
Registers.Set_Register_Base (PCI_MMIO_Base, PCI_GTT_Base);
PCI_Usable := True;
else
pragma Debug (Debug.Put_Line
- ("ERROR: Couldn't map resoure0."));
+ ("ERROR: Couldn't map resource0."));
Success := Config.Default_MMIO_Base_Set;
end if;
end if;
@@ -828,11 +843,17 @@
Pre => Is_Initialized
is
GGC_Reg : constant PCI.Index :=
- (if Config.Gen_G45 or Config.CPU_Ironlake then 16#52# else 16#50#);
+ (if Config.Gen_I945 or Config.Gen_G45 or Config.CPU_Ironlake
+ then 16#52# else 16#50#);
GGC : Word16;
begin
Dev.Read16 (GGC, GGC_Reg);
- if Config.Gen_G45 or Config.CPU_Ironlake then
+ if Config.Gen_I945 then
+ -- i945 GTT is on a separate BAR3; GGC GGMS encoding differs
+ -- from Gen4+. Match the Linux driver and use the BAR size.
+ Dev.Resource_Size (GTT_Size, PCI.Res3);
+ Stolen_Size := Stolen_Size_Gen4 (GGC);
+ elsif Config.Gen_G45 or Config.CPU_Ironlake then
GTT_Size := GTT_Size_Gen4 (GGC);
Stolen_Size := Stolen_Size_Gen4 (GGC);
elsif Config.CPU_Sandybridge or Config.CPU_Ivybridge or Config.CPU_Haswell
@@ -848,6 +869,46 @@
end if;
end Decode_Stolen;
+ procedure GTT_Entry_Count (Count : out Natural)
+ is
+ GTT_Size : Natural;
+
+ procedure Fake_Config_State_Access
+ with
+ Global => (Input => Config.Variable),
+ Annotate => (GNATprove, Intentional, "unused global",
+ "Used to have a common contract across platforms.");
+ procedure Fake_Config_State_Access is null;
+ begin
+ Fake_Config_State_Access;
+
+ if Config.Has_I945_GTT_BAR then
+ -- i945 GTT is on a separate BAR3; its size is the BAR size.
+ Dev.Resource_Size (GTT_Size, PCI.Res3);
+ else
+ -- Gen4+: GTT size is encoded in the GGC register.
+ declare
+ GGC_Reg : constant PCI.Index :=
+ (if Config.Gen_G45 or Config.CPU_Ironlake
+ then 16#52# else 16#50#);
+ GGC : Word16;
+ begin
+ Dev.Read16 (GGC, GGC_Reg);
+ if Config.Gen_G45 or Config.CPU_Ironlake then
+ GTT_Size := GTT_Size_Gen4 (GGC);
+ elsif Config.CPU_Sandybridge or
+ Config.CPU_Ivybridge or
+ Config.CPU_Haswell
+ then
+ GTT_Size := GTT_Size_Gen6 (GGC);
+ else
+ GTT_Size := GTT_Size_Gen8 (GGC);
+ end if;
+ end;
+ end if;
+ Count := Natural'Min (GTT_Size / Config.GTT_PTE_Size, GTT_Range'Last + 1);
+ end GTT_Entry_Count;
+
-- Additional runtime validation that FB fits stolen memory and aperture.
procedure Validate_FB (FB : Framebuffer_Type; Valid : out Boolean)
with
diff --git a/common/hw-gfx-gma.ads b/common/hw-gfx-gma.ads
index 43e88e1..c05f4f1 100644
--- a/common/hw-gfx-gma.ads
+++ b/common/hw-gfx-gma.ads
@@ -35,10 +35,12 @@
subtype GTT_Range is Natural range 0 .. 16#8_0000# - 1;
GTT_Rotation_Offset : constant GTT_Range := GTT_Range'Last / 2 + 1;
- type Generation is (G45, Ironlake, Haswell, Broxton, Skylake, Tigerlake);
+ type Generation is (I945, G45, Ironlake, Haswell, Broxton, Skylake, Tigerlake);
type CPU_Type is
- (G45,
+ (I945G,
+ I945GM,
+ G45,
GM45,
Ironlake,
Sandybridge,
@@ -227,6 +229,13 @@
In_Out => Device_State, Proof_In => Init_State),
Pre => Is_Initialized;
+ procedure GTT_Entry_Count (Count : out Natural)
+ with
+ Global =>
+ (Input => State,
+ In_Out => Device_State, Proof_In => Init_State),
+ Pre => Is_Initialized and HW.Config.Dynamic_MMIO;
+
procedure Setup_Default_FB
(FB : in Framebuffer_Type;
Clear : in Boolean := True;
diff --git a/common/i945/Makefile.inc b/common/i945/Makefile.inc
new file mode 100644
index 0000000..3c7d022
--- /dev/null
+++ b/common/i945/Makefile.inc
@@ -0,0 +1,11 @@
+gfxinit-y += hw-gfx-gma-connectors.adb
+gfxinit-y += hw-gfx-gma-gmch-lvds.adb
+gfxinit-y += hw-gfx-gma-gmch-lvds.ads
+gfxinit-y += hw-gfx-gma-gmch-vga.adb
+gfxinit-y += hw-gfx-gma-gmch-vga.ads
+gfxinit-y += hw-gfx-gma-plls.adb
+gfxinit-y += hw-gfx-gma-plls.ads
+gfxinit-y += hw-gfx-gma-port_detect.adb
+gfxinit-y += hw-gfx-gma-gmch.ads
+gfxinit-y += hw-gfx-gma-power_and_clocks.ads
+gfxinit-y += hw-gfx-gma-power_and_clocks.adb
diff --git a/common/i945/hw-gfx-gma-connectors.adb b/common/i945/hw-gfx-gma-connectors.adb
new file mode 100644
index 0000000..e774227
--- /dev/null
+++ b/common/i945/hw-gfx-gma-connectors.adb
@@ -0,0 +1,104 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Panel;
+with HW.GFX.GMA.GMCH.VGA;
+with HW.GFX.GMA.GMCH.LVDS;
+
+with HW.Debug;
+with GNAT.Source_Info;
+
+package body HW.GFX.GMA.Connectors
+is
+
+ procedure Post_Reset_Off is null;
+ procedure Initialize is null;
+
+ ----------------------------------------------------------------------------
+
+ procedure Pre_On
+ (Pipe : in Pipe_Index;
+ Port_Cfg : in Port_Config;
+ PLL_Hint : in Word32;
+ Success : out Boolean)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+ Success := True;
+ end Pre_On;
+
+ procedure Post_On
+ (Pipe : in Pipe_Index;
+ Port_Cfg : in Port_Config;
+ PLL_Hint : in Word32;
+ Success : out Boolean)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+ Success := True;
+ if Port_Cfg.Port = LVDS then
+ GMCH.LVDS.On (Port_Cfg, Pipe);
+ elsif Port_Cfg.Port = VGA then
+ GMCH.VGA.On (Pipe, Port_Cfg.Mode);
+ end if;
+
+ Panel.On (Port_Cfg.Panel, Wait => False);
+ Panel.Backlight_On (Port_Cfg.Panel);
+ end Post_On;
+
+ ----------------------------------------------------------------------------
+
+ procedure Pre_Off (Port_Cfg : Port_Config)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ Panel.Backlight_Off (Port_Cfg.Panel);
+ Panel.Off (Port_Cfg.Panel);
+ end Pre_Off;
+
+ procedure Post_Off (Port_Cfg : Port_Config)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+ if Port_Cfg.Port = LVDS then
+ GMCH.LVDS.Off;
+ elsif Port_Cfg.Port = VGA then
+ GMCH.VGA.Off;
+ end if;
+ end Post_Off;
+
+ ----------------------------------------------------------------------------
+
+ procedure Pre_All_Off
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ for P in Valid_Panels loop
+ Panel.Backlight_Off (P);
+ Panel.Off (P);
+ end loop;
+ end Pre_All_Off;
+
+ procedure Post_All_Off
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+ GMCH.LVDS.Off;
+ GMCH.VGA.Off;
+ end Post_All_Off;
+
+end HW.GFX.GMA.Connectors;
diff --git a/common/i945/hw-gfx-gma-gmch-lvds.adb b/common/i945/hw-gfx-gma-gmch-lvds.adb
new file mode 100644
index 0000000..4d57041
--- /dev/null
+++ b/common/i945/hw-gfx-gma-gmch-lvds.adb
@@ -0,0 +1,86 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Registers;
+
+with HW.Debug;
+with GNAT.Source_Info;
+
+package body HW.GFX.GMA.GMCH.LVDS is
+
+ LVDS_ENABLE : constant := 1 * 2 ** 31;
+ LVDS_DITHER_EN : constant := 1 * 2 ** 25;
+ LVDS_VSYNC_POLARITY_INVERT : constant := 1 * 2 ** 21;
+ LVDS_HSYNC_POLARITY_INVERT : constant := 1 * 2 ** 20;
+ LVDS_CLK_A_DATA_A0A2_POWER_MASK : constant := 3 * 2 ** 8;
+ LVDS_CLK_A_DATA_A0A2_POWER_DOWN : constant := 0 * 2 ** 8;
+ LVDS_CLK_A_DATA_A0A2_POWER_UP : constant := 3 * 2 ** 8;
+ LVDS_CLK_B_POWER_MASK : constant := 3 * 2 ** 4;
+ LVDS_CLK_B_POWER_DOWN : constant := 0 * 2 ** 4;
+ LVDS_CLK_B_POWER_UP : constant := 3 * 2 ** 4;
+ LVDS_DATA_B0B2_POWER_MASK : constant := 3 * 2 ** 2;
+ LVDS_DATA_B0B2_POWER_DOWN : constant := 0 * 2 ** 2;
+ LVDS_DATA_B0B2_POWER_UP : constant := 3 * 2 ** 2;
+
+ ----------------------------------------------------------------------------
+
+ procedure On (Port_Cfg : in Port_Config;
+ Pipe : in Pipe_Index)
+ is
+ -- Pre-i965: LVDS encoder can only source from Pipe B (Secondary).
+ LVDS_Pipe : constant Pipe_Index :=
+ (if Config.LVDS_Needs_Pipe_B then Secondary else Pipe);
+
+ Sync_Polarity : constant Word32 :=
+ (if Port_Cfg.Mode.H_Sync_Active_High then 0
+ else LVDS_HSYNC_POLARITY_INVERT) or
+ (if Port_Cfg.Mode.V_Sync_Active_High then 0
+ else LVDS_VSYNC_POLARITY_INVERT);
+
+ Two_Channel : constant Word32 :=
+ (if Port_Cfg.Mode.Dotclock >= Config.LVDS_Dual_Threshold then
+ LVDS_CLK_B_POWER_UP or LVDS_DATA_B0B2_POWER_UP else 0);
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+ pragma Debug (Port_Cfg.Mode.BPC /= 6, Debug.Put_Line
+ ("WARNING: Only 18bpp LVDS mode implemented."));
+ pragma Debug (Config.LVDS_Needs_Pipe_B and Pipe /= Secondary,
+ Debug.Put_Line ("WARNING: Forcing LVDS to Pipe B (pre-i965 requirement)."));
+
+ Registers.Write
+ (Register => Registers.GMCH_LVDS,
+ Value => LVDS_ENABLE or
+ GMCH_PORT_PIPE_SELECT (LVDS_Pipe) or
+ Sync_Polarity or
+ LVDS_CLK_A_DATA_A0A2_POWER_UP or
+ Two_Channel or
+ LVDS_DITHER_EN);
+ end On;
+
+ ----------------------------------------------------------------------------
+
+ procedure Off
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ Registers.Write
+ (Register => Registers.GMCH_LVDS,
+ Value => LVDS_CLK_A_DATA_A0A2_POWER_DOWN or
+ LVDS_CLK_B_POWER_DOWN or
+ LVDS_DATA_B0B2_POWER_DOWN);
+ end Off;
+
+end HW.GFX.GMA.GMCH.LVDS;
diff --git a/common/i945/hw-gfx-gma-gmch-lvds.ads b/common/i945/hw-gfx-gma-gmch-lvds.ads
new file mode 100644
index 0000000..04c6719
--- /dev/null
+++ b/common/i945/hw-gfx-gma-gmch-lvds.ads
@@ -0,0 +1,23 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+package HW.GFX.GMA.GMCH.LVDS
+is
+
+ procedure On (Port_Cfg : in Port_Config;
+ Pipe : in Pipe_Index);
+
+ procedure Off;
+
+end HW.GFX.GMA.GMCH.LVDS;
diff --git a/common/i945/hw-gfx-gma-gmch-vga.adb b/common/i945/hw-gfx-gma-gmch-vga.adb
new file mode 100644
index 0000000..1a43b64
--- /dev/null
+++ b/common/i945/hw-gfx-gma-gmch-vga.adb
@@ -0,0 +1,80 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Registers;
+
+with HW.Debug;
+with GNAT.Source_Info;
+
+use type HW.Word64;
+
+package body HW.GFX.GMA.GMCH.VGA is
+
+ ADPA_DAC_ENABLE : constant := 1 * 2 ** 31;
+ ADPA_USE_VGA_HVPOLARITY : constant := 1 * 2 ** 15;
+ ADPA_VSYNC_DISABLE : constant := 1 * 2 ** 11;
+ ADPA_HSYNC_DISABLE : constant := 1 * 2 ** 10;
+ ADPA_VSYNC_ACTIVE_HIGH : constant := 1 * 2 ** 4;
+ ADPA_HSYNC_ACTIVE_HIGH : constant := 1 * 2 ** 3;
+
+ ADPA_MASK : constant Word32 :=
+ GMCH_PORT_PIPE_SELECT_MASK or
+ ADPA_DAC_ENABLE or
+ ADPA_VSYNC_DISABLE or
+ ADPA_HSYNC_DISABLE or
+ ADPA_VSYNC_ACTIVE_HIGH or
+ ADPA_HSYNC_ACTIVE_HIGH or
+ ADPA_USE_VGA_HVPOLARITY;
+
+ ----------------------------------------------------------------------------
+
+ procedure On
+ (Pipe : Pipe_Index;
+ Mode : in Mode_Type)
+ is
+ Polarity : Word32 := 0;
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ if Mode.H_Sync_Active_High then
+ Polarity := Polarity or ADPA_HSYNC_ACTIVE_HIGH;
+ end if;
+ if Mode.V_Sync_Active_High then
+ Polarity := Polarity or ADPA_VSYNC_ACTIVE_HIGH;
+ end if;
+
+ Registers.Unset_And_Set_Mask
+ (Register => Registers.GMCH_ADPA,
+ Mask_Unset => ADPA_MASK,
+ Mask_Set => ADPA_DAC_ENABLE or
+ GMCH_PORT_PIPE_SELECT (Pipe) or
+ Polarity);
+ end On;
+
+ ----------------------------------------------------------------------------
+
+ procedure Off
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ Registers.Unset_And_Set_Mask
+ (Register => Registers.GMCH_ADPA,
+ Mask_Unset => ADPA_DAC_ENABLE,
+ Mask_Set => ADPA_HSYNC_DISABLE or
+ ADPA_VSYNC_DISABLE);
+ end Off;
+
+end HW.GFX.GMA.GMCH.VGA;
diff --git a/common/i945/hw-gfx-gma-gmch-vga.ads b/common/i945/hw-gfx-gma-gmch-vga.ads
new file mode 100644
index 0000000..e7b6e7c
--- /dev/null
+++ b/common/i945/hw-gfx-gma-gmch-vga.ads
@@ -0,0 +1,22 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+package HW.GFX.GMA.GMCH.VGA is
+
+ procedure On
+ (Pipe : in Pipe_Index;
+ Mode : in Mode_Type);
+ procedure Off;
+
+end HW.GFX.GMA.GMCH.VGA;
diff --git a/common/i945/hw-gfx-gma-gmch.ads b/common/i945/hw-gfx-gma-gmch.ads
new file mode 100644
index 0000000..740913e
--- /dev/null
+++ b/common/i945/hw-gfx-gma-gmch.ads
@@ -0,0 +1,27 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+
+private package HW.GFX.GMA.GMCH is
+
+ GMCH_PORT_PIPE_SELECT_SHIFT : constant := 30;
+ GMCH_PORT_PIPE_SELECT_MASK : constant := 1 * 2 ** 30;
+ type GMCH_PORT_PIPE_SELECT_Array is array (Pipe_Index) of Word32;
+ GMCH_PORT_PIPE_SELECT : constant GMCH_PORT_PIPE_SELECT_Array :=
+ (Primary => 0 * 2 ** GMCH_PORT_PIPE_SELECT_SHIFT,
+ Secondary => 1 * 2 ** GMCH_PORT_PIPE_SELECT_SHIFT,
+ Tertiary => 0);
+
+end HW.GFX.GMA.GMCH;
diff --git a/common/i945/hw-gfx-gma-plls.adb b/common/i945/hw-gfx-gma-plls.adb
new file mode 100644
index 0000000..96ba6af
--- /dev/null
+++ b/common/i945/hw-gfx-gma-plls.adb
@@ -0,0 +1,562 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.Time;
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Registers;
+
+with HW.Debug;
+with GNAT.Source_Info;
+
+package body HW.GFX.GMA.PLLs
+with
+ Refined_State => (State => PLLs)
+is
+
+ Debug_Clocks : constant Boolean := False;
+
+ type Count_Range is new Natural range 0 .. 2;
+
+ type PLL_State is record
+ Use_Count : Count_Range;
+ Mode : Mode_Type;
+ end record;
+
+ type PLL_State_Array is array (DPLLs) of PLL_State;
+
+ PLLs : PLL_State_Array;
+
+ ----------------------------------------------------------------------------
+
+ -- i945 PLL limits use "actual" divider values (register_value + 2).
+ -- Linux kernel i9xx limits (register values):
+ -- N: 1..6, M1: 8..18, M2: 3..7
+ -- Actual values (register + 2):
+ -- N: 3..8, M1: 10..20, M2: 5..9
+ -- M = 5 * M1 + M2, range 70..120
+ -- VCO = ref_clk * M / N, range 1400..2800 MHz
+ -- Reference clock: 96 MHz
+
+ subtype N_Range is Int64 range 3 .. 8;
+ subtype M_Range is Int64 range 70 .. 120;
+ subtype M1_Range is Int64 range 10 .. 20;
+ subtype M2_Range is Int64 range 5 .. 9;
+ subtype P_Range is Int64 range 5 .. 98;
+ subtype P1_Range is Int64 range 1 .. 8;
+ subtype P2_Range is Int64 range 5 .. 14;
+ subtype VCO_Range is Int64 range 1400000000 .. 2800000000;
+ subtype Clock_Range is HW.GFX.Frequency_Type;
+
+ type Clock_Type is
+ record
+ N : N_Range;
+ M1 : M1_Range;
+ M2 : M2_Range;
+ P1 : P1_Range;
+ P2 : P2_Range;
+ M : M_Range;
+ P : P_Range;
+ VCO : VCO_Range;
+ Reference_Clock : Clock_Range;
+ Dotclock : Clock_Range;
+ end record;
+
+ Invalid_Clock : constant Clock_Type := Clock_Type'
+ (N => N_Range'Last,
+ M1 => M1_Range'Last,
+ M2 => M2_Range'Last,
+ P1 => P1_Range'Last,
+ P2 => P2_Range'Last,
+ Reference_Clock => Clock_Range'Last,
+ M => M_Range'Last,
+ P => P_Range'Last,
+ VCO => VCO_Range'Last,
+ Dotclock => Clock_Range'Last);
+
+ type Limits_Type is
+ record
+ N_Lower : N_Range;
+ N_Upper : N_Range;
+ M_Lower : M_Range;
+ M_Upper : M_Range;
+ M1_Lower : M1_Range;
+ M1_Upper : M1_Range;
+ M2_Lower : M2_Range;
+ M2_Upper : M2_Range;
+ P_Lower : P_Range;
+ P_Upper : P_Range;
+ P1_Lower : P1_Range;
+ P1_Upper : P1_Range;
+ P2_Fast : P2_Range;
+ P2_Slow : P2_Range;
+ P2_Threshold : Clock_Range;
+ VCO_Lower : VCO_Range;
+ VCO_Upper : VCO_Range;
+ end record;
+
+ -- i9xx LVDS limits (from Linux intel_limits_i9xx_lvds)
+ LVDS_Limits : constant Limits_Type := Limits_Type'
+ (N_Lower => 3, N_Upper => 8,
+ M_Lower => 70, M_Upper => 120,
+ M1_Lower => 10, M1_Upper => 20,
+ M2_Lower => 5, M2_Upper => 9,
+ P_Lower => 7, P_Upper => 98,
+ P1_Lower => 1, P1_Upper => 8,
+ P2_Fast => 7, P2_Slow => 14,
+ P2_Threshold => 112_000_000,
+ VCO_Lower => 1_400_000_000, VCO_Upper => 2_800_000_000);
+
+ -- i9xx SDVO/DAC limits (from Linux intel_limits_i9xx_sdvo)
+ SDVO_DAC_Limits : constant Limits_Type := Limits_Type'
+ (N_Lower => 3, N_Upper => 8,
+ M_Lower => 70, M_Upper => 120,
+ M1_Lower => 10, M1_Upper => 20,
+ M2_Lower => 5, M2_Upper => 9,
+ P_Lower => 5, P_Upper => 80,
+ P1_Lower => 1, P1_Upper => 8,
+ -- use P2_Slow if Dotclock <= P2_Threshold, P2_Fast otherwise
+ P2_Fast => 5, P2_Slow => 10,
+ P2_Threshold => 200_000_000,
+ VCO_Lower => 1_400_000_000, VCO_Upper => 2_800_000_000);
+
+ ----------------------------------------------------------------------------
+
+ type Regs is array (DPLLs) of Registers.Registers_Index;
+
+ DPLL : constant Regs := Regs'(Registers.GMCH_DPLL_A, Registers.GMCH_DPLL_B);
+ DPLL_VCO_ENABLE : constant := 1 * 2 ** 31;
+ DPLL_VGA_MODE_DIS : constant := 1 * 2 ** 28;
+ DPLL_P2_10_OR_14 : constant := 0 * 2 ** 24;
+ DPLL_P2_5_OR_7 : constant := 1 * 2 ** 24;
+ DPLL_P1_DIVIDER_SHIFT : constant := 16;
+ DPLL_SDVOCLK : constant := 2 * 2 ** 13;
+
+ -- i945 does not use DPLL_PULSE_PHASE (bits 12:9, Gen4+ only)
+ -- i945 uses DVO_2X_MODE (bit 30) for SDVO outputs (same bit as
+ -- DPLL_SDVO_HIGH_SPEED on Gen4+)
+ DPLL_DVO_2X_MODE : constant := 1 * 2 ** 30;
+ DPLL_MODE_LVDS : constant := 2 * 2 ** 26;
+ DPLL_MODE_DAC : constant := 1 * 2 ** 26;
+ DPLL_DREFCLK : constant := 0 * 2 ** 13;
+ DPLL_SSC : constant := 3 * 2 ** 13;
+
+ MODE_DPLL_DAC : constant Word32 := Word32'
+ (DPLL_MODE_DAC or DPLL_DREFCLK);
+
+ MODE_DPLL_SDVO : constant Word32 := Word32'
+ (DPLL_MODE_DAC or DPLL_DREFCLK or DPLL_DVO_2X_MODE);
+
+ MODE_DPLL_LVDS : constant Word32 := Word32'
+ (DPLL_MODE_LVDS or DPLL_SSC);
+
+ type DPLL_Mode_Array is array (Display_Type) of Word32;
+
+ DPLL_Mode : constant DPLL_Mode_Array := DPLL_Mode_Array'
+ (LVDS => MODE_DPLL_LVDS,
+ VGA => MODE_DPLL_DAC,
+ HDMI => MODE_DPLL_SDVO, -- SDVO outputs use HDMI display type
+ Others => MODE_DPLL_SDVO);
+
+ FP0 : constant Regs := Regs'(Registers.GMCH_FPA0, Registers.GMCH_FPB0);
+ FP1 : constant Regs := Regs'(Registers.GMCH_FPA1, Registers.GMCH_FPB1);
+ FP_N_SHIFT : constant := 16;
+ FP_M1_SHIFT : constant := 8;
+ FP_M2_SHIFT : constant := 0;
+
+ ----------------------------------------------------------------------------
+
+ procedure Verify_Parameters
+ (N : in N_Range;
+ M1 : in M1_Range;
+ M2 : in M2_Range;
+ P1 : in P1_Range;
+ P2 : in P2_Range;
+ Reference_Clock : in Clock_Range;
+ Current_Limits : in Limits_Type;
+ Result : out Clock_Type;
+ Valid : out Boolean)
+ with
+ Global => null,
+ Pre => True,
+ Post => True
+ is
+ M : Int64;
+ P : Int64;
+ VCO : Int64;
+ Dotclock : Int64;
+ begin
+ pragma Debug (Debug_Clocks, Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ M := 5 * M1 + M2;
+ P := P1 * P2;
+ VCO := (Int64 (Reference_Clock) * M) / N;
+ Dotclock := VCO / P;
+
+ pragma Debug (Debug_Clocks and not (Current_Limits.P1_Lower <= P1 and P1 <= Current_Limits.P1_Upper ), Debug.Put_Line ("P1 out of range."));
+ pragma Debug (Debug_Clocks and (Current_Limits.P2_Fast /= P2 and P2 /= Current_Limits.P2_Slow ), Debug.Put_Line ("P2 out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.P_Lower <= P and P <= Current_Limits.P_Upper ), Debug.Put_Line ("P out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.M1_Lower <= M1 and M1 <= Current_Limits.M1_Upper ), Debug.Put_Line ("M1 out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.M2_Lower <= M2 and M2 <= Current_Limits.M2_Upper ), Debug.Put_Line ("M2 out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.N_Lower <= N and N <= Current_Limits.N_Upper ), Debug.Put_Line ("N out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.M_Lower <= M and M <= Current_Limits.M_Upper ), Debug.Put_Line ("M out of range."));
+ pragma Debug (Debug_Clocks and not (Current_Limits.VCO_Lower <= VCO and VCO <= Current_Limits.VCO_Upper), Debug.Put_Line ("VCO out of range."));
+
+ pragma Debug (Debug_Clocks and not (Int64 (Clock_Range'First) <= Dotclock), Debug.Put_Line ("Dotclock too low."));
+ pragma Debug (Debug_Clocks and not (Int64 (Clock_Range'First) <= Dotclock), Debug.Put_Int64 (Dotclock));
+ pragma Debug (Debug_Clocks and not (Int64 (Clock_Range'First) <= Dotclock), Debug.New_Line);
+
+ pragma Debug (Debug_Clocks and not (Dotclock <= Int64 (Clock_Range'Last)), Debug.Put_Line ("Dotclock too high."));
+ pragma Debug (Debug_Clocks and not (Dotclock <= Int64 (Clock_Range'Last)), Debug.Put_Int64 (Dotclock));
+ pragma Debug (Debug_Clocks and not (Dotclock <= Int64 (Clock_Range'Last)), Debug.New_Line);
+
+ Valid :=
+ Current_Limits.P1_Lower <= P1 and P1 <= Current_Limits.P1_Upper and
+ (Current_Limits.P2_Fast = P2 or P2 = Current_Limits.P2_Slow) and
+ Current_Limits.P_Lower <= P and P <= Current_Limits.P_Upper and
+ Current_Limits.M1_Lower <= M1 and M1 <= Current_Limits.M1_Upper and
+ Current_Limits.M2_Lower <= M2 and M2 <= Current_Limits.M2_Upper and
+ Current_Limits.N_Lower <= N and N <= Current_Limits.N_Upper and
+ Current_Limits.M_Lower <= M and M <= Current_Limits.M_Upper and
+ Current_Limits.VCO_Lower <= VCO and VCO <= Current_Limits.VCO_Upper and
+ Int64 (Clock_Range'First) <= Dotclock and
+ Dotclock <= Int64 (Clock_Range'Last);
+
+ if Valid
+ then
+ Result := Clock_Type'
+ (N => N,
+ M1 => M1,
+ M2 => M2,
+ P1 => P1,
+ P2 => P2,
+ Reference_Clock => Reference_Clock,
+ M => M,
+ P => P,
+ VCO => VCO,
+ Dotclock => Clock_Range (Dotclock));
+ else
+ Result := Invalid_Clock;
+ end if;
+
+ end Verify_Parameters;
+
+ procedure Calculate_Clock_Parameters
+ (Display : in Display_Type;
+ Target_Dotclock : in Clock_Range;
+ Reference_Clock : in Clock_Range;
+ Best_Clock : out Clock_Type;
+ Valid : out Boolean)
+ with
+ Global => null,
+ Pre => True,
+ Post => True
+ is
+ Limits : constant Limits_Type :=
+ (case Display is
+ when LVDS => LVDS_Limits,
+ when others => SDVO_DAC_Limits);
+
+ P2 : P2_Range;
+ Best_Delta : Int64 := Int64'Last;
+ Current_Delta : Int64;
+ Current_Clock : Clock_Type;
+ Registers_Valid : Boolean;
+ begin
+ pragma Debug (Debug_Clocks, Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ Valid := False;
+ Best_Clock := Invalid_Clock;
+
+ if Target_Dotclock <= Limits.P2_Threshold then
+ P2 := Limits.P2_Slow;
+ else
+ P2 := Limits.P2_Fast;
+ end if;
+
+ for N in N_Range range Limits.N_Lower .. Limits.N_Upper
+ loop
+ -- reverse loops as hardware prefers higher values
+ for M1 in reverse M1_Range range Limits.M1_Lower .. Limits.M1_Upper
+ loop
+ pragma Loop_Invariant (True);
+ for M2 in reverse M2_Range range Limits.M2_Lower .. Int64'Min (Limits.M2_Upper, M1)
+ loop
+ pragma Loop_Invariant (True);
+ for P1 in reverse P1_Range range Limits.P1_Lower .. Limits.P1_Upper
+ loop
+ Verify_Parameters
+ (N => N,
+ M1 => M1,
+ M2 => M2,
+ P1 => P1,
+ P2 => P2,
+ Reference_Clock => Reference_Clock,
+ Current_Limits => Limits,
+ Result => Current_Clock,
+ Valid => Registers_Valid);
+
+ if Registers_Valid
+ then
+ if Current_Clock.Dotclock > Target_Dotclock
+ then
+ Current_Delta := Current_Clock.Dotclock - Target_Dotclock;
+ else
+ Current_Delta := Target_Dotclock - Current_Clock.Dotclock;
+ end if;
+
+ if Current_Delta < Best_Delta
+ then
+ Best_Delta := Current_Delta;
+ Best_Clock := Current_Clock;
+ Valid := True;
+ end if;
+
+ pragma Debug (Debug_Clocks, Debug.Put ("Current/Target/Best_Delta: "));
+ pragma Debug (Debug_Clocks, Debug.Put_Int64 (Current_Clock.Dotclock));
+ pragma Debug (Debug_Clocks, Debug.Put ("/"));
+ pragma Debug (Debug_Clocks, Debug.Put_Int64 (Target_Dotclock));
+ pragma Debug (Debug_Clocks, Debug.Put ("/"));
+ pragma Debug (Debug_Clocks, Debug.Put_Int64 (Best_Delta));
+ pragma Debug (Debug_Clocks, Debug.Put_Line ("."));
+
+ end if;
+ end loop;
+ end loop;
+ end loop;
+ end loop;
+
+ pragma Debug (Valid, Debug.Put_Line ("Valid clock found."));
+ pragma Debug (Valid, Debug.Put ("Best/Target/Delta: "));
+ pragma Debug (Valid, Debug.Put_Int64 (Best_Clock.Dotclock));
+ pragma Debug (Valid, Debug.Put ("/"));
+ pragma Debug (Valid, Debug.Put_Int64 (Target_Dotclock));
+ pragma Debug (Valid, Debug.Put ("/"));
+ pragma Debug (Valid, Debug.Put_Int64 (Best_Delta));
+ pragma Debug (Valid, Debug.Put_Line ("."));
+ pragma Debug (not Valid, Debug.Put_Line ("No valid clock found."));
+
+ end Calculate_Clock_Parameters;
+
+ procedure Program_DPLL
+ (PLL : DPLLs;
+ Display : Display_Type;
+ Clk : Clock_Type)
+ with
+ Global => (In_Out => Registers.Register_State),
+ Pre => True,
+ Post => True
+ is
+ FP, Encoded_P1, Encoded_P2 : Word32;
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ -- FP register: N, M1, M2 encoded as (actual_value - 2)
+ FP :=
+ Shift_Left (Word32 (Clk.N - 2), FP_N_SHIFT) or
+ Shift_Left (Word32 (Clk.M1 - 2), FP_M1_SHIFT) or
+ Shift_Left (Word32 (Clk.M2 - 2), FP_M2_SHIFT);
+
+ Registers.Write (FP0 (PLL), FP);
+ Registers.Write (FP1 (PLL), FP);
+
+ -- P1 encoding: bitmask (1 << (P1-1)) shifted into position
+ Encoded_P1 := Shift_Left (1, Natural (Clk.P1) - 1);
+
+ if Clk.P2 = 5 or Clk.P2 = 7
+ then
+ Encoded_P2 := DPLL_P2_5_OR_7;
+ else
+ Encoded_P2 := DPLL_P2_10_OR_14;
+ end if;
+
+ -- i945 DPLL register: no HIGH_SPEED bit, no PULSE_PHASE bits
+ Registers.Write
+ (Register => DPLL (PLL),
+ Value => DPLL_Mode (Display) or
+ DPLL_VGA_MODE_DIS or
+ Encoded_P2 or
+ Shift_Left (Encoded_P1, DPLL_P1_DIVIDER_SHIFT));
+ end Program_DPLL;
+
+ procedure On
+ (PLL : in T;
+ Port_Cfg : in Port_Config;
+ Success : out Boolean)
+ is
+ Target_Clock : constant Frequency_Type := Port_Cfg.Mode.Dotclock;
+ Clk : Clock_Type;
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ Success := PLL in DPLLs;
+ Clk := Invalid_Clock;
+
+ if Success then
+ if Target_Clock <= 400_000_000 then
+ Calculate_Clock_Parameters
+ (Display => Port_Cfg.Display,
+ Target_Dotclock => Target_Clock,
+ Reference_Clock => 96_000_000,
+ Best_Clock => Clk,
+ Valid => Success);
+ else
+ Success := False;
+ pragma Debug (Debug.Put ("WARNING: Targeted clock too high: "));
+ pragma Debug (Debug.Put_Int64 (Target_Clock));
+ pragma Debug (Debug.Put (" > "));
+ pragma Debug (Debug.Put_Int32 (400_000_000));
+ pragma Debug (Debug.New_Line);
+ pragma Debug (Debug.New_Line);
+ end if;
+ end if;
+
+ if Success then
+ Program_DPLL (PLL, Port_Cfg.Display, Clk);
+
+ Registers.Set_Mask (DPLL (PLL), DPLL_VCO_ENABLE);
+ Registers.Posting_Read (DPLL (PLL));
+ Time.U_Delay (150);
+ end if;
+ end On;
+
+ procedure Off (PLL : T)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ if PLL in DPLLs then
+ Registers.Unset_Mask (DPLL (PLL), DPLL_VCO_ENABLE);
+ end if;
+ end Off;
+
+ ----------------------------------------------------------------------------
+
+ procedure Initialize
+ is
+ begin
+ PLLs :=
+ (DPLLs =>
+ (Use_Count => 0,
+ Mode => Invalid_Mode));
+ end Initialize;
+
+ procedure Alloc_Configurable
+ (Port_Cfg : in Port_Config;
+ PLL : out T;
+ Success : out Boolean)
+ with
+ Pre => True
+ is
+ function Config_Matches (PE : PLL_State) return Boolean
+ is
+ begin
+ return PE.Mode = Port_Cfg.Mode;
+ end Config_Matches;
+ begin
+ -- try to find shareable PLL
+ for P in DPLLs loop
+ Success := PLLs (P).Use_Count /= 0 and
+ PLLs (P).Use_Count /= Count_Range'Last and
+ Config_Matches (PLLs (P));
+ if Success then
+ PLL := P;
+ PLLs (PLL).Use_Count := PLLs (PLL).Use_Count + 1;
+ return;
+ end if;
+ end loop;
+
+ -- try to find free PLL
+ for P in DPLLs loop
+ if PLLs (P).Use_Count = 0 then
+ PLL := P;
+ On (PLL, Port_Cfg, Success);
+ if Success then
+ PLLs (PLL) :=
+ (Use_Count => 1,
+ Mode => Port_Cfg.Mode);
+ end if;
+ return;
+ end if;
+ end loop;
+
+ PLL := Invalid;
+ end Alloc_Configurable;
+
+ procedure Alloc
+ (Port_Cfg : in Port_Config;
+ PLL : out T;
+ Success : out Boolean)
+ is
+ -- On i945, DPLL-to-pipe mapping is fixed:
+ -- LVDS -> Pipe B -> DPLL_B, all others -> Pipe A -> DPLL_A
+ Target : constant DPLLs :=
+ (if Port_Cfg.Display = LVDS then DPLL_B else DPLL_A);
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ PLL := Target;
+
+ if PLLs (Target).Use_Count /= 0 and
+ PLLs (Target).Use_Count /= Count_Range'Last and
+ PLLs (Target).Mode = Port_Cfg.Mode
+ then
+ -- Share existing PLL with matching mode
+ PLLs (Target).Use_Count := PLLs (Target).Use_Count + 1;
+ Success := True;
+ elsif PLLs (Target).Use_Count = 0 then
+ -- Program the PLL
+ On (Target, Port_Cfg, Success);
+ if Success then
+ PLLs (Target) :=
+ (Use_Count => 1,
+ Mode => Port_Cfg.Mode);
+ end if;
+ else
+ PLL := Invalid;
+ Success := False;
+ end if;
+ end Alloc;
+
+ procedure Free (PLL : T)
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ if PLL in DPLLs then
+ if PLLs (PLL).Use_Count /= 0 then
+ PLLs (PLL).Use_Count := PLLs (PLL).Use_Count - 1;
+ if PLLs (PLL).Use_Count = 0 then
+ Off (PLL);
+ end if;
+ end if;
+ end if;
+ end Free;
+
+ procedure All_Off
+ is
+ begin
+ pragma Debug (Debug.Put_Line (GNAT.Source_Info.Enclosing_Entity));
+
+ for PLL in DPLLs loop
+ Off (PLL);
+ end loop;
+ end All_Off;
+
+ function Register_Value (PLL : T) return Word32
+ is
+ begin
+ return (if PLL = DPLL_B then 1 else 0);
+ end Register_Value;
+
+end HW.GFX.GMA.PLLs;
diff --git a/common/i945/hw-gfx-gma-plls.ads b/common/i945/hw-gfx-gma-plls.ads
new file mode 100644
index 0000000..f99a29f
--- /dev/null
+++ b/common/i945/hw-gfx-gma-plls.ads
@@ -0,0 +1,40 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+private package HW.GFX.GMA.PLLs
+with
+ Abstract_State => (State with Part_Of => GMA.State)
+is
+
+ -- XXX: Types should be private (but that triggers a bug in SPARK GPL 2016)
+ type T is (Invalid_PLL, DPLL_A, DPLL_B);
+ subtype DPLLs is T range DPLL_A .. DPLL_B;
+ Invalid : constant T := Invalid_PLL;
+
+ procedure Initialize
+ with
+ Global => (Output => State);
+
+ procedure Alloc
+ (Port_Cfg : in Port_Config;
+ PLL : out T;
+ Success : out Boolean);
+
+ procedure Free (PLL : T);
+
+ procedure All_Off;
+
+ function Register_Value (PLL : T) return Word32;
+
+end HW.GFX.GMA.PLLs;
diff --git a/common/i945/hw-gfx-gma-port_detect.adb b/common/i945/hw-gfx-gma-port_detect.adb
new file mode 100644
index 0000000..af82c17
--- /dev/null
+++ b/common/i945/hw-gfx-gma-port_detect.adb
@@ -0,0 +1,68 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Registers;
+
+package body HW.GFX.GMA.Port_Detect
+is
+
+ CRT_HOTPLUG_INT_EN : constant := 1 * 2 ** 9;
+ CRT_HOTPLUG_ACTIVATION_PERIOD_64 : constant := 1 * 2 ** 8;
+
+ HOTPLUG_INT_STATUS : constant array (Active_Port_Type) of Word32 :=
+ (Analog => 1 * 2 ** 11,
+ others => 0);
+
+ procedure Initialize
+ is
+ begin
+ -- i945: VGA (ADPA) is always present
+ Config.Valid_Port (Analog) := True;
+
+ -- LVDS is only present on mobile (i945GM)
+ Config.Valid_Port (LVDS) := Config.GMCH_I945GM;
+
+ -- Enable CRT hotplug detection
+ Registers.Write
+ (Register => Registers.PORT_HOTPLUG_EN,
+ Value => CRT_HOTPLUG_INT_EN or CRT_HOTPLUG_ACTIVATION_PERIOD_64);
+ end Initialize;
+
+ procedure Hotplug_Detect (Port : in Active_Port_Type; Detected : out Boolean)
+ is
+ Ctl32 : Word32;
+ begin
+ Registers.Read (Register => Registers.PORT_HOTPLUG_STAT,
+ Value => Ctl32);
+ Detected := (Ctl32 and HOTPLUG_INT_STATUS (Port)) /= 0;
+
+ if Detected then
+ Registers.Set_Mask
+ (Register => Registers.PORT_HOTPLUG_STAT,
+ Mask => HOTPLUG_INT_STATUS (Port));
+ end if;
+ end Hotplug_Detect;
+
+ procedure Clear_Hotplug_Detect (Port : Active_Port_Type)
+ is
+ Ignored_HPD : Boolean;
+ begin
+ pragma Warnings (GNATprove, Off, "unused assignment to ""Ignored_HPD""",
+ Reason => "We want to clear pending events only");
+ Port_Detect.Hotplug_Detect (Port, Ignored_HPD);
+ pragma Warnings (GNATprove, On, "unused assignment to ""Ignored_HPD""");
+ end Clear_Hotplug_Detect;
+
+end HW.GFX.GMA.Port_Detect;
diff --git a/common/i945/hw-gfx-gma-power_and_clocks.adb b/common/i945/hw-gfx-gma-power_and_clocks.adb
new file mode 100644
index 0000000..e18d1e3
--- /dev/null
+++ b/common/i945/hw-gfx-gma-power_and_clocks.adb
@@ -0,0 +1,131 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config;
+with HW.GFX.GMA.Registers;
+
+package body HW.GFX.GMA.Power_And_Clocks is
+
+ CLKCFG_FSB_MASK : constant := 7 * 2 ** 0;
+ -- hrawclk = FSB / 4. The CLKCFG FSB bits encode different FSB speeds
+ -- depending on whether the platform is mobile or desktop (ALT encoding):
+ -- mobile: 0=FSB400, 1=FSB533, 2=FSB800, 3=FSB667, 6=FSB1067, 7=FSB1333
+ -- desktop: 0=FSB1067, 1=FSB533, 2=FSB800, 3=FSB667, 4=FSB1333,
+ -- 5=FSB400, 6=FSB1600
+ HRAWCLK_100 : constant Frequency_Type := 100_000_000; -- FSB 400
+ HRAWCLK_133 : constant Frequency_Type := 133_333_333; -- FSB 533
+ HRAWCLK_167 : constant Frequency_Type := 166_666_666; -- FSB 667
+ HRAWCLK_200 : constant Frequency_Type := 200_000_000; -- FSB 800
+ HRAWCLK_267 : constant Frequency_Type := 266_666_667; -- FSB 1067
+ HRAWCLK_333 : constant Frequency_Type := 333_333_333; -- FSB 1333
+ HRAWCLK_400 : constant Frequency_Type := 400_000_000; -- FSB 1600 (desktop)
+
+ -- i945 CDClk values (from Linux kernel intel_cdclk.c):
+ --
+ -- i945G (desktop): fixed 400 MHz CDClk
+ --
+ -- i945GM (mobile): read from GCFGC PCI register (0xF0)
+ -- GC_LOW_FREQUENCY_ENABLE (bit 7) => 133 MHz
+ -- GC_DISPLAY_CLOCK_190_200_MHZ (0 << 4) => 200 MHz (default)
+ -- GC_DISPLAY_CLOCK_333_320_MHZ (4 << 4) => 320 MHz
+
+ procedure Get_CDClk (CDClk : out Config.CDClk_Range)
+ is
+ use type HW.Word16;
+
+ GC_LOW_FREQUENCY_ENABLE : constant Word16 := 1 * 2 ** 7;
+ GC_DISPLAY_CLOCK_MASK : constant Word16 := 7 * 2 ** 4;
+ GC_DISPLAY_CLOCK_320_MHZ : constant Word16 := 4 * 2 ** 4;
+
+ GCFGC : Word16;
+ Tmp_Clk : Frequency_Type := 200_000_000;
+ begin
+ if Config.GMCH_I945GM then
+ if PCI_Usable then
+ PCI_Read16 (GCFGC, 16#f0#);
+ if (GCFGC and GC_LOW_FREQUENCY_ENABLE) /= 0 then
+ Tmp_Clk := 133_333_333;
+ elsif (GCFGC and GC_DISPLAY_CLOCK_MASK) = GC_DISPLAY_CLOCK_320_MHZ then
+ Tmp_Clk := 320_000_000;
+ else
+ Tmp_Clk := 200_000_000;
+ end if;
+ end if;
+ else
+ -- i945G desktop: fixed 400 MHz
+ Tmp_Clk := 400_000_000;
+ end if;
+
+ if Tmp_Clk in Config.CDClk_Range then
+ CDClk := Tmp_Clk;
+ else
+ CDClk := 200_000_000;
+ end if;
+ end Get_CDClk;
+
+ -- hrawclk = FSB / 4. The CLKCFG FSB encoding differs between
+ -- mobile (i945GM) and desktop (i945G), see CLKCFG_FSB_MASK comment above.
+ procedure Get_Raw_Clock (Raw_Clock : out Frequency_Type)
+ is
+ CLK_CFG : Word32;
+ type Freq_Sel is new Natural range 0 .. 7;
+ begin
+ Registers.Read
+ (Register => Registers.GMCH_CLKCFG,
+ Value => CLK_CFG);
+ if Config.GMCH_I945GM then
+ Raw_Clock := (case Freq_Sel (CLK_CFG and CLKCFG_FSB_MASK) is
+ when 0 => HRAWCLK_100, -- FSB 400
+ when 1 => HRAWCLK_133, -- FSB 533
+ when 2 => HRAWCLK_200, -- FSB 800
+ when 3 => HRAWCLK_167, -- FSB 667
+ when 6 => HRAWCLK_267, -- FSB 1067
+ when 7 => HRAWCLK_333, -- FSB 1333
+ when others => HRAWCLK_133);
+ else
+ Raw_Clock := (case Freq_Sel (CLK_CFG and CLKCFG_FSB_MASK) is
+ when 0 => HRAWCLK_267, -- FSB 1067
+ when 1 => HRAWCLK_133, -- FSB 533
+ when 2 => HRAWCLK_200, -- FSB 800
+ when 3 => HRAWCLK_167, -- FSB 667
+ when 4 => HRAWCLK_333, -- FSB 1333
+ when 5 => HRAWCLK_100, -- FSB 400
+ when 6 => HRAWCLK_400, -- FSB 1600
+ when others => HRAWCLK_133);
+ end if;
+ end Get_Raw_Clock;
+
+ procedure Initialize
+ is
+ CDClk : Config.CDClk_Range;
+ Raw_Clk : Frequency_Type;
+ begin
+ Get_CDClk (CDClk);
+ Config.CDClk := CDClk;
+ Config.Max_CDClk := CDClk;
+
+ Get_Raw_Clock (Raw_Clk);
+ Config.Raw_Clock := Raw_Clk;
+ end Initialize;
+
+ procedure Limit_Dotclocks
+ (Configs : in out Pipe_Configs;
+ CDClk_Switch : out Boolean)
+ is
+ begin
+ Config_Helpers.Limit_Dotclocks (Configs, Config.CDClk * 90 / 100);
+ CDClk_Switch := False;
+ end Limit_Dotclocks;
+
+end HW.GFX.GMA.Power_And_Clocks;
diff --git a/common/i945/hw-gfx-gma-power_and_clocks.ads b/common/i945/hw-gfx-gma-power_and_clocks.ads
new file mode 100644
index 0000000..cad2898
--- /dev/null
+++ b/common/i945/hw-gfx-gma-power_and_clocks.ads
@@ -0,0 +1,42 @@
+--
+-- Copyright (C) 2026 Arthur Heymans <arthur@aheymans.xyz>
+--
+-- 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.
+--
+
+with HW.GFX.GMA.Config_Helpers;
+
+private package HW.GFX.GMA.Power_And_Clocks is
+
+ procedure Initialize;
+
+ procedure Limit_Dotclocks
+ (Configs : in out Pipe_Configs;
+ CDClk_Switch : out Boolean)
+ with
+ Post =>
+ not CDClk_Switch and
+ Config_Helpers.Stable_FB (Configs'Old, Configs);
+ procedure Update_CDClk (Configs : in out Pipe_Configs) is null;
+ procedure Enable_CDClk is null;
+
+ procedure Pre_All_Off is null;
+
+ procedure Post_All_Off is null;
+
+ procedure Power_Set_To (Configs : Pipe_Configs) is null;
+
+ procedure Power_Up (Old_Configs, New_Configs : Pipe_Configs) is null;
+
+ procedure Power_Down (Old_Configs, Tmp_Configs, New_Configs : Pipe_Configs)
+ is null;
+
+end HW.GFX.GMA.Power_And_Clocks;
diff --git a/configs/i945 b/configs/i945
new file mode 100644
index 0000000..ecaa32a
--- /dev/null
+++ b/configs/i945
@@ -0,0 +1,5 @@
+CONFIG_GFX_GMA_DYN_CPU = y
+CONFIG_GFX_GMA_GENERATION = I945
+CONFIG_GFX_GMA_PANEL_1_PORT = LVDS
+CONFIG_GFX_GMA_ANALOG_I2C_PORT = PCH_DAC
+CONFIG_GFX_GMA_DEFAULT_MMIO = 16\#e000_0000\#
diff --git a/gfxtest/hw-gfx-gma-gfx_test.adb b/gfxtest/hw-gfx-gma-gfx_test.adb
index 6a10657..716f994 100644
--- a/gfxtest/hw-gfx-gma-gfx_test.adb
+++ b/gfxtest/hw-gfx-gma-gfx_test.adb
@@ -33,11 +33,17 @@
Valid : Boolean;
end record;
GTT_Backup : array (GTT_Range) of GTT_Entry;
+ GTT_Backup_Count : Natural;
procedure Backup_GTT
is
begin
- for Idx in GTT_Range loop
+ GMA.GTT_Entry_Count (GTT_Backup_Count);
+ if GTT_Backup_Count = 0 then
+ Debug.Put_Line ("WARNING: GTT size is 0, skipping GTT backup.");
+ return;
+ end if;
+ for Idx in GTT_Range range 0 .. GTT_Backup_Count - 1 loop
Read_GTT (GTT_Backup (Idx).Addr, GTT_Backup (Idx).Valid, Idx);
end loop;
end Backup_GTT;
@@ -45,7 +51,10 @@
procedure Restore_GTT
is
begin
- for Idx in GTT_Range loop
+ if GTT_Backup_Count = 0 then
+ return;
+ end if;
+ for Idx in GTT_Range range 0 .. GTT_Backup_Count - 1 loop
Write_GTT (Idx, GTT_Backup (Idx).Addr, GTT_Backup (Idx).Valid);
end loop;
end Restore_GTT;