On Wed, 19 Oct 2022, Imre Deak imre.deak@intel.com wrote:
On Wed, Oct 19, 2022 at 03:30:58PM +0300, Jani Nikula wrote:
On Wed, 19 Oct 2022, Ville Syrjälä ville.syrjala@linux.intel.com wrote:
On Wed, Oct 19, 2022 at 12:19:49PM +0300, Ville Syrjälä wrote:
On Wed, Oct 19, 2022 at 12:00:02PM +0300, Jani Nikula wrote:
On Tue, 18 Oct 2022, Imre Deak imre.deak@intel.com wrote:
Accessing the TypeC DKL PHY registers during modeset-commit, -verification, DP link-retraining and AUX power well toggling is racy due to these code paths being concurrent and the PHY register bank selection register (HIP_INDEX_REG) being shared between PHY instances (aka TC ports) and the bank selection being not atomic wrt. the actual PHY register access.
Add the required locking around each PHY register bank selection-> register access sequence.
I honestly think the abstraction here is at a too low level.
Too many places are doing DKL PHY register access to begin with. IMO the solution should be to abstract DKL PHY better, not to provide low level DKL PHY register accessors.
Indeed, this level of granularity leads to a lot of unnecessary lock/unlock that could have a longer span otherwise, and the interface does not lend itself for that.
It's no worse than uncore.lock. No one cares about that in these codepaths either.
Also requires separate bank selection for every write, nearly doubling the MMIO writes.
Drop in the ocean. This is all slow modeset stuff anyway.
IMO separate reg accessors is the correct way to handle indexed registers unless you have some very specific performance concerns to deal with.
Fair enough.
Now, whether those accessors need to be visible everywere is another matter. It should certainly be possible to suck all dkl phy stuff into one file and keep the accessors static. But currently eveything is grouped by function (PLLs in one file, vswing stuff in another, etc.). We'd have to flip that around so that all the sub functions of of each IP block is in the same file. Is that a better apporach? Not sure.
I'm often interested in the precedent a change makes. What's the direction we want to go to?
So here, we're saying the DKL PHY registers are special, and need to be accessed via dedicated register accessors. To enforce this, we create strong typing for DKL PHY registers. We go out of our way to make it safe to access DKL PHY registers anywhere in the driver.
Do we want to add more and more register types in the future? And duplicate the accessors for each? Oops, looks like we're already on our way [1].
Making the DKL PHY accesses type safe was just a bonus, the main reason for adding the dkl_phy_reg struct (in a later refactoring patch) is that defining those registers only makes sense to me specifying all the attributes (both MMIO and the bank index) of the register at one place. That's instead of the current way of having to pass these separately to each accessor functions. For instance to be able to call
read(DKL_PLL_DIV0(tc_port))
instead of having to remember the index of each (non lane-instanced) register and call
read(DKL_PLL_DIV0(tc_port), 2)
It also makes more sense to me that the register itself is parametric if that's needed (lane-instanced registers), for instance
read(DKL_TX_DPCNTL0(tc_port, 0))
instead of this being a separate parameter of each accessor function:
read(DKL_TX_DPCNTL0(tc_port), 0)
This is actually a very good point.
An alternative to this that I've been pondering separately, before these patches, is expanding i915_reg_t to encode things like "display register", "mcr register", etc.
So you'd still have only one i915_reg_t type, and only one set of accessors, but they could be smarter behind the scenes. But I don't like teaching intel uncore about stuff like dkl either. And the main point would be avoiding all the duplication that C type safety requires.
But it's a moot point anyway because we also need something to backport to stable, and I acknowledge your approach makes a lot of sense for that too.
My argument is that maybe access to such a hardware block should instead be limited to a module (.c file) that abstracts the details. Abstract hardware blocks and function, not registers. How many files need big changes to add a new PHY?
I think the accessors could be added to a new intel_tc_phy.c file instead? (That would still allow further refactoring of both the MG and DKL functionality as a follow-up to this change for -stable.)
So, why intel_tc_anything? Why not just intel_dkl_phy.[ch], intel_dkl_phy_regs.h? Even if initially limited to the register accessors, you could easily move things like tgl_dkl_phy_set_signal_levels() there, just like intel_snps_phy_set_signal_levels() is in intel_snps_phy.c. And you could have intel_mg_phy.c for MG stuff.
I guess intel_tc_phy_regs.h would mostly be split to intel_dkl_phy_regs.h and intel_mg_phy_regs.h.
BR, Jani.
BR, Jani.
[1] https://lore.kernel.org/r/20221014230239.1023689-13-matthew.d.roper@intel.co...
-- Jani Nikula, Intel Open Source Graphics Center