Hello Liu,
Thanks for the feedback!
On 22/11/2024 at 14:01:49 +08, Liu Ying victor.liu@nxp.com wrote:
Hi Miquel,
On 11/22/2024, Miquel Raynal wrote:
Recent changes in the clock tree have set CLK_SET_RATE_PARENT to the two LCDIF pixel clocks. The idea is, instead of using assigned-clock properties to set upstream PLL rates to high frequencies and hoping that a single divisor (namely media_disp[12]_pix) will be close enough in most cases, we should tell the clock core to use the PLL to properly derive an accurate pixel clock rate in the first place. Here is the situation.
[Before ff06ea04e4cf ("clk: imx: clk-imx8mp: Allow media_disp pixel clock reconfigure parent rate")]
Before setting CLK_SET_RATE_PARENT to the media_disp[12]_pix clocks, the sequence of events was:
- PLL is assigned to a high rate,
- media_disp[12]_pix is set to approximately freq A by using a single divisor,
- media_ldb is set to approximately freq 7*A by using another single divisor.
=> The display was working, but the pixel clock was inaccurate.
[After ff06ea04e4cf ("clk: imx: clk-imx8mp: Allow media_disp pixel clock reconfigure parent rate")]
After setting CLK_SET_RATE_PARENT to the media_disp[12]_pix clocks, the sequence of events became:
- media_disp[12]_pix is set to freq A by using a divisor of 1 and setting video_pll1 to freq A.
- media_ldb is trying to compute its divisor to set freq 7*A, but the upstream PLL is to low, it does not recompute it, so it ends up setting a divisor of 1 and being at freq A instead of 7*A.
=> The display is sadly no longer working
[After applying PATCH "clk: imx: clk-imx8mp: Allow LDB serializer clock reconfigure parent rate"]
This is a commit from Marek, which is, I believe going in the right direction, so I am including it. Just with this change, the situation is slightly different, but the result is the same:
- media_disp[12]_pix is set to freq A by using a divisor of 1 and setting video_pll1 to freq A.
- media_ldb is set to 7*A by using a divisor of 1 and setting video_pll1 to freq 7*A. /!\ This as the side effect of changing media_disp[12]_pix from freq A to freq 7*A.
Although I'm not of a fan of setting CLK_SET_RATE_PARENT flag to the LDB clock and pixel clocks,
I haven't commented much on this. For me, inaccurate pixel clocks mostly work fine (if not too inaccurate), but it is true that having very powerful PLL like the PLL1443, it is a pity not to use them at their highest capabilities. However, I consider "not breaking users" more important than having "perfect clock rates".
This series has one unique goal: accepting more accurate frequencies *and* not breaking users in the most simplest cases.
would it work if the pixel clock rate is set after the LDB clock rate is set in fsl_ldb_atomic_enable()?
The situation would be: - media_ldb is set to 7*A by using a divisor of 1 and setting video_pll1 to freq 7*A. - media_disp[12]_pix is set to freq A by using a divisor of 7.
So yes, and the explanation of why is there: https://elixir.bootlin.com/linux/v6.11.8/source/drivers/clk/clk-divider.c#L3...
The pixel clock can be got from LDB's remote input LCDIF DT node by calling of_clk_get_by_name() in fsl_ldb_probe() like the below patch does. Similar to setting pixel clock rate, I think a chance is that pixel clock enablement can be moved from LCDIF driver to fsl_ldb_atomic_enable() to avoid on-the-fly division ratio change.
TBH, this sounds like a hack and is no longer required with this series.
You are just trying to circumvent the fact that until now, applying a rate in an upper clock would unconfigure the downstream rates, and I think this is our first real problem.
https://patchwork.kernel.org/project/linux-clk/patch/20241114065759.3341908-...
Actually, one sibling patch of the above patch reverts ff06ea04e4cf because I thought "fixed PLL rate" is the only solution, though I'm discussing any alternative solution of "dynamically changeable PLL rate" with Marek in the thread of the sibling patch.
I don't think we want fixed PLL rates. Especially if you start using external (hot-pluggable) displays with different needs: it just does not fly. There is one situation that cannot yet be handled and needs manual reparenting: using 3 displays with a non-divisible pixel frequency.
FYI we managed this specific "advanced" case with assigned-clock-parents using an audio PLL as hinted by Marek. It mostly works, event though the PLL1416 are less precise and offer less accurate pixel clocks.
BTW, as you know the LDB clock rate is 3.5x faster than the pixel clock rate in dual-link LVDS use cases, the lowest PLL rate needs to be explicitly set to 7x faster than the pixel clock rate *before* LDB clock rate is set. This way, the pixel clock would be derived from the PLL with integer division ratio = 7, not the unsupported 3.5.
pixel LDB PLL A 3.5*A 7*A --> OK A 3.5*A 3.5*A --> not OK
This series was mostly solving the simpler case, with one display, but I agree we should probably also consider the dual case.
The situation here is that you require the LDB to be aware of some clocks constraints, like the fact that the downstream pixel clocks only feature simple dividors which cannot achieve a 3.5 rate. That is all.
It is clearly the LDB driver duty to make this feasible. I cannot test the dual case so I didn't brought any solution to it in this series, but I already had a solution in mind. Please find a patch below, it is very simple, and should, in conjunction with this series, fix the dual case as well.
FYI here is the final clock tree with this trick "manually" enabled. You can see video_pll1 is now twice media_ldb, and media ldb is still 7 times media_disp[12]_pix (video_pll1 is assigned in DT to 1039500000, so it has effectively been reconfigured).
video_pll1 1 1 0 1006600000 video_pll1_bypass 1 1 0 1006600000 video_pll1_out 2 2 0 1006600000 media_ldb 1 1 0 503300000 media_ldb_root_clk 1 1 0 503300000 media_disp2_pix 1 1 0 71900000 media_disp2_pix_root_clk 1 1 0 71900000 media_disp1_pix 0 0 0 71900000 media_disp1_pix_root_clk 0 0 0 71900000
---8<--- Author: Miquel Raynal miquel.raynal@bootlin.com
drm: bridge: ldb: Make sure the upper PLL is compatible with dual output
The i.MX8 display pipeline has a number of clock constraints, among which: - The bridge clock must be 7 times faster than the pixel clock in single mode - The bridge clock must be 3.5 times faster than the pixel clocks in dual mode While a ratio of 7 is easy to build with simple divisors, 3.5 is not achievable. In order to make sure we keep these clock ratios correct is to configure the upper clock (usually video_pll1, but that does not matter really) to twice it's usual value. This way, the bridge clock is configured to divide the upstream rate by 2, and the pixel clocks are configured to divide the upstream rate by 7, achieving a final 3.5 ratio between the two.
Signed-off-by: Miquel Raynal miquel.raynal@bootlin.com
diff --git a/drivers/gpu/drm/bridge/fsl-ldb.c b/drivers/gpu/drm/bridge/fsl-ldb.c index 81ff4e5f52fa..069c960ee56b 100644 --- a/drivers/gpu/drm/bridge/fsl-ldb.c +++ b/drivers/gpu/drm/bridge/fsl-ldb.c @@ -177,6 +177,17 @@ static void fsl_ldb_atomic_enable(struct drm_bridge *bridge, mode = &crtc_state->adjusted_mode;
requested_link_freq = fsl_ldb_link_frequency(fsl_ldb, mode->clock); + /* + * Dual cases require a 3.5 rate division on the pixel clocks, which + * cannot be achieved with regular single divisors. Instead, double the + * parent PLL rate in the first place. In order to do that, we first + * require twice the target clock rate, which will program the upper + * PLL. Then, we ask for the actual targeted rate, which can be achieved + * by dividing by 2 the already configured upper PLL rate, without + * making further changes to it. + */ + if (fsl_ldb_is_dual(fsl_ldb)) + clk_set_rate(fsl_ldb->clk, requested_link_freq * 2); clk_set_rate(fsl_ldb->clk, requested_link_freq);
configured_link_freq = clk_get_rate(fsl_ldb->clk);