On Mon, 2017-04-24 at 19:56 +0300, Andy Shevchenko wrote: > On Mon, 2017-04-24 at 15:55 +0000, Eugeniy Paltsev wrote: > > Hi, > > On Fri, 2017-04-21 at 18:13 +0300, Andy Shevchenko wrote: > > > On Fri, 2017-04-21 at 14:29 +0000, Eugeniy Paltsev wrote: > > > > On Tue, 2017-04-18 at 15:31 +0300, Andy Shevchenko wrote: > > > > > On Fri, 2017-04-07 at 17:04 +0300, Eugeniy Paltsev wrote: > > > > > > This patch adds support for the DW AXI DMAC controller. > > > > > > +static inline void > > > > > > +axi_dma_iowrite32(struct axi_dma_chip *chip, u32 reg, u32 > > > > > > val) > > > > > > +{ > > > > > > + iowrite32(val, chip->regs + reg); > > > > > > > > > > Are you going to use IO ports for this IP? I don't think so. > > > > > Wouldn't be better to call readl()/writel() instead? > > > > > > > > As I understand, it's better to use ioread/iowrite as more > > > > universal > > > > IO > > > > access way. Am I wrong? > > > > > > As I said above the ioreadX/iowriteX makes only sense when your > > > IP > > > would be accessed via IO region or MMIO. I'm pretty sure IO is > > > not > > > the case at all for this IP. > > > > MMIO? This IP works exactly via memory-mapped I/O. > > Yes, and why do you need to check this on each IO read/write? > Please, switch to plain readX()/writeX() instead. Ok, I'll switch to readX()/writeX(). > > > > > > + val = axi_chan_ioread32(chan, > > > > > > CH_INTSTATUS_ENA); > > > > > > + val &= ~irq_mask; > > > > > > + axi_chan_iowrite32(chan, CH_INTSTATUS_ENA, > > > > > > val); > > > > > > + } > > > > > > + > > > > > > + return min_t(size_t, __ffs(sdl), max_width); > > > > > > +} > > > > > > +static void axi_desc_put(struct axi_dma_desc *desc) > > > > > > +{ > > > > > > + struct axi_dma_chan *chan = desc->chan; > > > > > > + struct dw_axi_dma *dw = chan->chip->dw; > > > > > > + struct axi_dma_desc *child, *_next; > > > > > > + unsigned int descs_put = 0; > > > > > > + list_for_each_entry_safe(child, _next, &desc- > > > > > > > xfer_list, > > > > > > > > > > > > xfer_list) { > > > > > > > > > > xfer_list looks redundant. > > > > > Can you elaborate why virtual channel management is not > > > > > working > > > > > for > > > > > you? > > > > > > > > Each virtual descriptor encapsulates several hardware > > > > descriptors, > > > > which belong to same transfer. > > > > This list (xfer_list) is used only for allocating/freeing these > > > > descriptors and it doesn't affect on virtual dma work logic. > > > > I can see this approach in several drivers with VirtDMA (but > > > > they > > > > mostly use array instead of list) > > > > > > You described how most of the DMA drivers are implemented, though > > > they > > > are using just sg_list directly. I would recommend to do the same > > > and > > > get rid of this list. > > > > This IP can be (ans is) configured with small block size. > > (note, that I am not saying about runtime HW configuration) > > > > And there is opportunity what we can't use sg_list directly and > > need > > to > > split sg_list to a smaller chunks. > > That's what I have referred quite ago. The driver should provide an > interface to tell potential caller what maximum block (number of > items > with given bus width) it supports. > > We have struct dma_parms in struct device, but what we actually need > is > to support similar on per channel basis in DMAengine framework. > > So, instead of working around this I recommend either to implement it > properly or rely on the fact that in the future someone eventually > does that for you. > > Each driver which has this re-splitting mechanism should be cleaned > up and refactored. I still can't see any pros of this implementation. There is no performance profit: we anyway need to re-splitt sg_list (but now in dma-user driver instead of dma driver) If we want to use same descriptors several times we just can use DMA_CTRL_REUSE option - the descriptors will be created one time and re-splitting will be сompleted only one time. But there are cons of this implementation: we need to implement re-splitting mechanism in each place we use dma instead of one dma driver. So there are more places for bugs and etc... > > > > > Btw, are you planning to use priority at all? For now on I > > > > > didn't > > > > > see > > > > > a single driver (from the set I have checked, like 4-5 of > > > > > them) > > > > > that > > > > > uses priority anyhow. It makes driver more complex for > > > > > nothing. > > > > > > > > Only for dma slave operations. > > > > > > So, in other words you *have* an actual two or more users that > > > *need* > > > prioritization? > > > > As I remember there was an idea to give higher priority to audio > > dma > > chanels. > > I don't see cyclic transfers support in the driver. So, I would > suggest > just drop entire prioritization for now. When it would be actual user > one may start thinking of it. > Just a rule of common sense: do not implement something which will > have no user or solve non-existing problem. Ok, I'll drop prioritization untill I implement cyclic transfers. > > > > > As I said earlier dw_dmac is *bad* example of the (virtual > > > > > channel > > > > > based) DMA driver. > > > > > > > > > > I guess you may just fail the descriptor and don't pretend it > > > > > has > > > > > been processed successfully. > > > > > > > > What do you mean by saying "fail the descriptor"? > > > > After I get error I cancel current transfer and free all > > > > descriptors > > > > from it (by calling vchan_cookie_complete). > > > > I can't store error status in descriptor structure because it > > > > will > > > > be > > > > freed by vchan_cookie_complete. > > > > I can't store error status in channel structure because it will > > > > be > > > > overwritten by next transfer. > > > > > > Better not to pretend that it has been processed successfully. > > > Don't > > > call callback on it and set its status to DMA_ERROR (that's why > > > descriptors in many drivers have dma_status field). When user > > > asks for > > > status (using cookie) the saved value would be returned until > > > descriptor > > > is active. > > > > > > Do you have some other workflow in mind? > > > > Hmm... > > Do you mean I should left error descriptors in desc_issued list > > or I should create another list (like desc_error) in my driver and > > move > > error descriptors to desc_error list? > > > > And when exactly should I free error descriptors? > See below. > > > I checked hsu/hsu.c dma driver implementation: > > vdma descriptor is deleted from desc_issued list when transfer > > starts. When descriptor marked as error descriptor > > vchan_cookie_complete isn't called for this descriptor. And this > > descriptor isn't placed in any list. So error descriptors *never* > > will be freed. > > I don't actually like this approach. > > Descriptor is active until terminate_all() is called or new > descriptor > is supplied. So, the caller has a quite time to check on it. > > So, what's wrong on it by your opinion? Hmm, this looks OK. (In my example (hsu/hsu.c driver) error descriptors are not freed even after terminate_all is called) > Of course, if you want to keep by some reason (should be stated what > the reason in comment) erred descriptors, you can do that. So, I'll create desc_error list and store failed descriptors in this list until terminate_all() is called. Is it OK implementation? > > > > > > +static const struct dev_pm_ops dw_axi_dma_pm_ops = { > > > > > > + SET_RUNTIME_PM_OPS(axi_dma_runtime_suspend, > > > > > > axi_dma_runtime_resume, NULL) > > > > > > +}; > > > > > > > > > > Have you tried to build with CONFIG_PM disabled? > > > > > > > > Yes. > > > > > > > > > I'm pretty sure you need __maybe_unused applied to your PM > > > > > ops. > > > > > > > > I call axi_dma_runtime_suspend / axi_dma_runtime_resume even I > > > > dont't > > > > use PM. > > > > (I call them in probe / remove function.) > > > > > > Hmm... I didn't check your ->probe() and ->remove(). Do you mean > > > you > > > call them explicitly by those names? > > > > > > If so, please don't do that. Use pm_runtime_*() instead. And... > > > > > > > So I don't need to declare them with __maybe_unused. > > > > > > ...in that case it's possible you have them defined but not used. > > > > > > > From my ->probe() function: > > > > pm_runtime_get_noresume(chip->dev); > > ret = axi_dma_runtime_resume(chip->dev); > > > > Firstly I only incrememt counter. > > Secondly explicitly call my resume function. > > > > I call them explicitly because I need driver to work also without > > Runtime PM. So I can't just call pm_runtime_get here instead of > > pm_runtime_get_noresume + axi_dma_runtime_resume. > > > > Of course I can copy *all* code from axi_dma_runtime_resume > > to ->probe() function, but I don't really like this idea. > > It looks like you need more time to investigate how runtime PM works > from driver point of view, but you shouldn't call your PM callbacks > directly without a really good reason (weird silicon bugs, > architectural impediments). I don't think that is the case here. > There is a simple reason: I had to do same actions in probe/remove as in runtime_resume/runtime_suspend. (like enabling clock, enabling dma) If my driver is build with RUNTIME_PM this actions will be automatically handled by runtime pm (clock and dma will be enabled before using and disabled after using). Otherwise, if my driver is build without RUNTIME_PM clock and dma will be enabled only one time - when ->probe() is called. So I use runtime_resume callback directly for this purpose (because if my driver is build without RUNTIME_PM this callback wiil not be called at all) > > > > > > + bool is_paused; > > > > > > > > > > I still didn't get (already forgot) why you can't use > > > > > dma_status > > > > > instead for the active descriptor? > > > > > > > > As I said before, I checked several driver, which have status > > > > variable > > > > in their channel structure - it is used *only* for > > > > determinating > > > > is > > > > channel paused or not. So there is no much sense in replacing > > > > "is_paused" to "status" and I left "is_paused" variable > > > > untouched. > > > > > > Not only (see above), the errored descriptor keeps that status. > > > > > > > (I described above why we can't use status in channel structure > > > > for > > > > error handling) > > > > > > Ah, I'm talking about descriptor. > > > > Again - PAUSED is per-channel flag. So, even if we have status > > field > > in > > each descriptor, it is simpler to use one per-channel flag instead > > of > > plenty per-descriptor flags. > > When we pausing/resuming dma channel it is simpler to set only one > > flag > > instead of writing DMA_PAUSED to *each* descriptor status field. > > What do you mean by "each"? I don't recall the driver which can > handle > more than one *active* descriptor per channel. Do you? > > In that case status of active descriptor == status of channel. That > trick (I also already referred to earlier) is used in some drivers. Ok, I'll recheck others implementation. > > > I mean, who are the users of them? If it's only one module, there > > > is > > > no need to put them in header. > > > > Yes, only one module. > > Should I move all this definitions to axi_dma_platform.c file and > > rid > > of both axi_dma_platform_reg.h and axi_dma_platform.h headers? > Depends on your design. > > If it would be just one C module it might make sense to use driver.c > and driver.h or just driver.c. > I see several drivers in current linux-next that are using latter and > some that are using former, and number of plain driver.c variant is > bigger. Ok. -- Eugeniy Paltsev��.n��������+%������w��{.n����z�{��ܨ}���Ơz�j:+v�����w����ޙ��&�)ߡ�a����z�ޗ���ݢj��w�f