mxsfb: DATA_FORMAT_24_BIT flag outputs invalid colours
Juergen Beisert
jbe at pengutronix.de
Fri May 24 09:33:19 EDT 2013
Hi Hector,
Juergen Beisert wrote:
> Hector Palacios wrote:
> > On 05/24/2013 12:28 PM, Juergen Beisert wrote:
> > > Hector Palacios wrote:
> > >> On 05/23/2013 03:31 PM, Juergen Beisert wrote:
> > >>> maxime.ripard at free-electrons.com wrote:
> > >>>> On Thu, May 23, 2013 at 01:55:28PM +0200, Hector Palacios wrote:
> > >>>>> I'm using an i.MX28 based board with lcd connected with 18bits data
> > >>>>> bus. My platform uses 32 bits per pixel:
> > >>>>>
> > >>>>> mxsfb_pdata.default_bpp = 32;
> > >>>>> mxsfb_pdata.ld_intf_width = STMLCDIF_18BIT;
> > >>>>>
> > >>>>> With these settings the mxsfb.c driver sets flag DATA_FORMAT_24_BIT
> > >>>>> at HW_LCDIF_CTRL register in function mxsfb_set_par():
> > >>>>>
> > >>>>> case 32:
> > >>>>> dev_dbg(&host->pdev->dev, "Setting up RGB888/666 mode\n");
> > >>>>> ctrl |= CTRL_SET_WORD_LENGTH(3);
> > >>>>> switch (host->ld_intf_width) {
> > >>>>> case STMLCDIF_8BIT:
> > >>>>> dev_dbg(&host->pdev->dev,
> > >>>>> "Unsupported LCD bus width mapping\n");
> > >>>>> return -EINVAL;
> > >>>>> case STMLCDIF_16BIT:
> > >>>>> case STMLCDIF_18BIT:
> > >>>>> /* 24 bit to 18 bit mapping */
> > >>>>> ctrl |= CTRL_DF24; /* ignore the upper 2 bits in
> > >>>>> * each colour component
> > >>>>> */
> > >>>>> break;
> > >>>>> case STMLCDIF_24BIT:
> > >>>>> /* real 24 bit */
> > >>>>> break;
> > >>>>> }
> > >>>>>
> > >>>>> According to the manual, this flag does:
> > >>>>> 0x0: ALL_24_BITS_VALID: Data input to the block is in 24 bpp
> > >>>>> format, such that all RGB 888 data is contained in 24 bits.
> > >>>>> 0x1: DROP_UPPER_2_BITS_PER_BYTE — Data input to the block is
> > >>>>> actually RGB 18 bpp, but there is 1 colour per byte, hence the
> > >>>>> upper 2 bits in each byte do not contain any useful data, and
> > >>>>> should be dropped.
> > >>>>>
> > >>>>> The setting of this flag is producing bad colours with true colour
> > >>>>> images (i.e. the Linux penguin is displayed ok, but QT applications
> > >>>>> or images displayed with fbv are not).
> > >>>>> I believe the setting of this flag is not correct (after all, if my
> > >>>>> bpp is 32, then all 24bit colours are useful and dropping the upper
> > >>>>> 2 bits is a bad idea).
> > >>>>> If I don't set it, then true colour images are displayed correctly.
> > >>>>> The only problem is that the Linux penguin is displayed much darker
> > >>>>> than usual (correct colours, but darker). Perhaps the 224 colour
> > >>>>> format of this image justifies it?
> > >>>>>
> > >>>>> I noticed the cfa10049 platform also uses the same configuration
> > >>>>> (18 bits data bus and 32bpp) and was wondering if true colour
> > >>>>> images are correctly displayed in this platform with this flag set
> > >>>>> (for example with fbv application [1]).
> > >>>>
> > >>>> I had the exact same problem, and suggested the exact same solution
> > >>>> a few weeks back.
> > >>>>
> > >>>> https://patchwork.kernel.org/patch/2470441/
> > >>>>
> > >>>> The conclusion of that discussion what that the userspace
> > >>>> applications were not honouring the bitfield correctly set by the
> > >>>> mxsfb driver, and as such, it was not a bug in the driver.
> > >>>>
> > >>>> While this is correct, I wonder, now that since we had that same
> > >>>> problem in a very short amount of time, if we couldn't set this
> > >>>> behaviour dependant of some (dt? kernel argument?) property so that
> > >>>> one could customise it anyway he want.
> > >>>>
> > >>>> Maxime
> > >>>
> > >>> i.MX2[3|8] LCD1 LCD2 LCD3
> > >>> 24bit 18bit 18bit
> > >>> --------------------------------------------
> > >>> LCD_D0 B0 B0 --
> > >>> LCD_D1 B1 B1 --
> > >>> LCD_D2 B2 B2 B0
> > >>> LCD_D3 B3 B3 B1
> > >>> LCD_D4 B4 B4 B2
> > >>> LCD_D5 B5 B5 B3
> > >>> LCD_D6 B6 G0 B4
> > >>> LCD_D7 B7 G1 B5
> > >>>
> > >>> LCD_D8 G0 G2 --
> > >>> LCD_D9 G1 G3 --
> > >>> LCD_D10 G2 G4 G0
> > >>> LCD_D11 G3 G5 G1
> > >>> LCD_D12 G4 R0 G2
> > >>> LCD_D13 G5 R1 G3
> > >>> LCD_D14 G6 R2 G4
> > >>> LCD_D15 G7 R3 G5
> > >>>
> > >>> LCD_D16 R0 R4 --
> > >>> LCD_D17 R1 R5 --
> > >>> LCD_D18 R2 R0
> > >>> LCD_D19 R3 R1
> > >>> LCD_D20 R4 R2
> > >>> LCD_D21 R5 R3
> > >>> LCD_D22 R6 R4
> > >>> LCD_D23 R7 R5
> > >>>
> > >>> Is your display connected like LCD2 or LCD3? LCD3 must still handled
> > >>> like a 24 bit display shown in LCD1, while only the LCD2-case is the
> > >>> "24 bit to 18 bit mapping" case.
> > >>>
> > >>> At least my current tests with an i.MX23 and a connection like LCD2
> > >>> are working here with a Qt application. Qt honours the pixel bitfield
> > >>> description. And I'm using the "bits-per-pixel = <32>" and "bus-width
> > >>> = <18>" entries in the device tree.
> > >>
> > >> I have a 24bit LCD display but my connection to it is done at 18bits
> > >> data width. Represented below as LCD4.
> > >> NOTE: In my LCD4 column, notation Rx/Gx/Bx represent the color bit in
> > >> memory as well as the display data line.
> > >> Since we use 32bpp each channel has 8 bits (R7..R0, etc.).
> > >> I understand that you have an 18bit display and that your notation in
> > >> LCD2 column represents the display data lines, not the color bit
> > >> indexes in memory.
> > >>
> > >> i.MX2[3|8] LCD1 LCD2 LCD3 LCD4
> > >> 24bit 18bit 18bit 24bit connected at 18bit
> > >> -------------------------------------------------------
> > >> LCD_D0 B0 B0 -- B2
> > >> LCD_D1 B1 B1 -- B3
> > >> LCD_D2 B2 B2 B0 B4
> > >> LCD_D3 B3 B3 B1 B5
> > >> LCD_D4 B4 B4 B2 B6
> > >> LCD_D5 B5 B5 B3 B7
> > >> LCD_D6 B6 G0 B4 G2
> > >> LCD_D7 B7 G1 B5 G3
> > >>
> > >> LCD_D8 G0 G2 -- G4
> > >> LCD_D9 G1 G3 -- G5
> > >> LCD_D10 G2 G4 G0 G6
> > >> LCD_D11 G3 G5 G1 G7
> > >> LCD_D12 G4 R0 G2 R2
> > >> LCD_D13 G5 R1 G3 R3
> > >> LCD_D14 G6 R2 G4 R4
> > >> LCD_D15 G7 R3 G5 R5
> > >>
> > >> LCD_D16 R0 R4 -- R6
> > >> LCD_D17 R1 R5 -- R7
> > >> LCD_D18 R2 R0
> > >> LCD_D19 R3 R1
> > >> LCD_D20 R4 R2
> > >> LCD_D21 R5 R3
> > >> LCD_D22 R6 R4
> > >> LCD_D23 R7 R5
> > >>
> > >> For 32bpp (RGB888) and 18bit data bus I would expect the LCD
> > >> controller to take the six *most significant* bits [7..2] from each
> > >> color byte out to the LCD data bus (LCD_D17..D0) in the order depicted
> > >> in my LCD4 column.
> > >>
> > >> I'm not sure what the DATA_FORMAT_24_BIT flag is doing, but dropping
> > >> the two most significant bits of color in memory doesn't seem to be a
> > >> good idea unless (maybe) color is in 18bpp. Previous kernels did not
> > >> even touch this flag.
> > >>
> > >> Does the following patch make sense?
> > >>
> > >> diff --git a/drivers/video/mxsfb.c b/drivers/video/mxsfb.c
> > >> index b1c1a80..bb0a4e1 100644
> > >> --- a/drivers/video/mxsfb.c
> > >> +++ b/drivers/video/mxsfb.c
> > >> @@ -298,9 +298,6 @@ static int mxsfb_check_var(struct
> > >> fb_var_screeninfo *var, break;
> > >> case STMLCDIF_16BIT:
> > >> case STMLCDIF_18BIT:
> > >> - /* 24 bit to 18 bit mapping */
> > >> - rgb = def_rgb666;
> > >> - break;
> > >> case STMLCDIF_24BIT:
> > >> /* real 24 bit */
> > >> rgb = def_rgb888;
> > >> @@ -424,11 +421,6 @@ static int mxsfb_set_par(struct fb_info *fb_info)
> > >> return -EINVAL;
> > >> case STMLCDIF_16BIT:
> > >> case STMLCDIF_18BIT:
> > >> - /* 24 bit to 18 bit mapping */
> > >> - ctrl |= CTRL_DF24; /* ignore the upper 2 bits
> > >> in - * each colour
> > >> component - */
> > >> - break;
> > >> case STMLCDIF_24BIT:
> > >> /* real 24 bit */
> > >> break;
> > >>
> > >> The setting of def_rgb666 for a 32bpp color depth does not make sense
> > >> to me because the color in memory is really rgb888.
> > >>
> > >> With this patch, my true color images are displayed ok and so does the
> > >> penguin logo. I don't know however how other displays connections at
> > >> 18bit will do.
> > >
> > > Your 24 bit display is connected like a regular 18 bit display. So they
> > > should work in the same way with the same settings. You *must* always
> > > skip two data bits from the memory RGB888 to form a RGB666 value.
> > >
> > > I just did some measurement here with my i.MX23 based hardware.
> > >
> > > I'm using 32 bits per pixel and the 18 bit display interface
> > > (LCD_D[0..17]).
> > >
> > > And surprise, surprise: the i.MX23 *always* maps the 24 bit input data
> > > to the 18 bit interface. And what does the DATA_FORMAT_24_BIT aka.
> > > CTRL_DF24 do??? Just simple: it seems its meaning changes with the
> > > interface width. The documentation says:
> > >
> > > 0 = all 24 bits are valid
> > > 1 = drop upper 2 bits per byte
> > >
> > > This text seems valid for a real 24 bit display (but I cannot test it).
> > > From my measurement its meaning changes when used with an 18 bit
> > > display to:
> > >
> > > 0 = drop lower 2 bits per byte
> > > 1 = drop upper 2 bits per byte
> > >
> > > When this bit is 0:
> > >
> > > red green blue
> > > 10000001|00001111|10001111 (memory layout)
> > >
> > > 100000..|000011..|100011.. (at the display)
> > >
> > > When this bit is 1:
> > >
> > > red green blue
> > > 10000001|00001111|10001111 (memory layout)
> > >
> > > ..000001|..001111|..001111 (at the display)
> >
> > And how can the setting of this flag be useful?
>
> Maybe with this measurement knowledge is isn't useful any more. When I
> wrote this code I just used the datasheet.
>
> > In the example above, you had a red component of 0x81 (half way through
> > the scale), which is converted to a 0x01 (almost black) at the display.
> > Isn't this wrong?
> >
> > This only looks right to me if you set a 18bpp but even in that case
> > masking the upper bits isn't really needed at all.
>
> These bits should only show what is happen to the data. In both cases you
> must define a corresponding fb_bitfield description. Which means the
> currently existing def_rgb666 description is valid only when the
> DATA_FORMAT_24_BIT aka. CTRL_DF24 register bit is set.
>
> And for the DATA_FORMAT_24_BIT aka. CTRL_DF24 register be cleared you *can*
> use the def_rgb888 or define a different def_rgb666_shift like this one:
>
> static const struct fb_bitfield def_rgb666_shift[] = {
> [RED] = {
> .offset = 18,
> .length = 6,
> },
> [GREEN] = {
> .offset = 10,
> .length = 6,
> },
> [BLUE] = {
> .offset = 2,
> .length = 6,
> },
> [TRANSP] = { /* no support for transparency */
> .length = 0,
> }
> };
>
> I'm not sure if it is of interest for a userland application to know if a
> display can handle 256 k or 16 M colours physically.
> With the def_rgb888 in use *all* displays look like 16 M colour LCDs. With
> the def_rgb666 in use an 18 bit display really looks like an 18 bit
> display.
Someone told me, Qt5 cannot handle this special RGB666 mode (even not the
def_rgb666_shift memory layout mentioned above). My test are based on Qt4.
Qt5 needs a regular RGB888 mode, which should silently be converted
internally to RGB666 in the hardware.
So, your patch to always use the RGB888 memory layout seems to be the right
way to go.
Regards,
Juergen
--
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