On Wednesday 31 July 2013 10:19 AM, Joel Fernandes wrote: > Hi Sekhar, > > On 07/30/2013 02:05 AM, Sekhar Nori wrote: >> On Monday 29 July 2013 06:59 PM, Joel Fernandes wrote: >>> In an effort to move to using Scatter gather lists of any size with >>> EDMA as discussed at [1] instead of placing limitations on the driver, >>> we work through the limitations of the EDMAC hardware to find missed >>> events and issue them. >>> >>> The sequence of events that require this are: >>> >>> For the scenario where MAX slots for an EDMA channel is 3: >>> >>> SG1 -> SG2 -> SG3 -> SG4 -> SG5 -> SG6 -> Null >>> >>> The above SG list will have to be DMA'd in 2 sets: >>> >>> (1) SG1 -> SG2 -> SG3 -> Null >>> (2) SG4 -> SG5 -> SG6 -> Null >>> >>> After (1) is succesfully transferred, the events from the MMC controller >>> donot stop coming and are missed by the time we have setup the transfer >>> for (2). So here, we catch the events missed as an error condition and >>> issue them manually. >> >> Are you sure there wont be any effect of these missed events on the >> peripheral side. For example, wont McASP get into an underrun condition >> when it encounters a null PaRAM set? Even UART has to transmit to a > > But it will not encounter null PaRAM set because McASP uses contiguous > buffers for transfer which are not scattered across physical memory. > This can be accomplished with an SG of size 1. For such SGs, this patch > series leaves it linked Dummy and does not link to Null set. Null set is > only used for SG lists that are > MAX_NR_SG in size such as those > created for example by MMC and Crypto. > >> particular baud so I guess it cannot wait like the way MMC/SD can. > > Existing driver have to wait anyway if they hit MAX SG limit today. If > they don't want to wait, they would have allocated a contiguous block of > memory and DMA that in one stretch so they don't lose any events, and in > such cases we are not linking to Null. As long as DMA driver can advertize its MAX SG limit, peripherals can always work around that by limiting the number of sync events they generate so as to not having any of the events getting missed. With this series, I am worried that EDMA drivers is advertizing that it can handle any length SG list while not taking care of missing any events while doing so. This will break the assumptions that driver writers make. > >> Also, wont this lead to under-utilization of the peripheral bandwith? >> Meaning, MMC/SD is ready with data but cannot transfer because the DMA >> is waiting to be set-up. > > But it is waiting anyway even today. Currently based on MAX segs, MMC > driver/subsystem will make SG list of size max_segs. Between these > sessions of creating such smaller SG-lists, if for some reason the MMC > controller is sending events, these will be lost anyway. But if MMC/SD driver knows how many events it should generate if it knows the MAX SG limit. So there should not be any missed events in current code. And I am not claiming that your solution is making matters worse. But its not making it much better as well. > > What will happen now with this patch series is we are simply accepting a > bigger list than this, and handling all the max_segs stuff within the > EDMA driver itself without outside world knowing. This is actually more > efficient as for long transfers, we are not going back and forth much > between the client and EDMA driver. Agreed, I am not debating that we need to handle SG lists of any length. The hardware is capable of handling them, and no reason kernel should not. > >> Did you consider a ping-pong scheme with say three PaRAM sets per >> channel? That way you can keep a continuous transfer going on from the >> peripheral over the complete SG list. > > Do you mean ping-pong scheme as used in the davinci-pcm driver today? No. AFAIR, thats a ping-pong between internal RAM and DDR for earlier audio ports which did not come with FIFO. > This can be used only for buffers that are contiguous in memory, not > those that are scattered across memory. I was hinting at using the linking facility of EDMA to achieve this. Each PaRAM set has full 32-bit source and destination pointers so I see no reason why non-contiguous case cannot be handled. Lets say you need to transfer SG[0..6] on channel C. Now, PaRAM sets are typically 4 times the number of channels. In this case we use one DMA PaRAM set and two Link PaRAM sets per channel. P0 is the DMA PaRAM set and P1 and P2 are the Link sets. Initial setup: SG0 -> SG1 -> SG2 -> SG3 -> SG4 -> SG5 -> SG6 -> NULL ^ ^ ^ | | | P0 -> P1 -> P2 -> NULL P[0..2].TCINTEN = 1, so get an interrupt after each SG element completion. On each completion interrupt, hardware automatically copies the linked PaRAM set into the DMA PaRAM set so after SG0 is transferred out, the state of hardware is: SG1 -> SG2 -> SG3 -> SG3 -> SG6 -> NULL ^ ^ | | P0,1 P2 -> NULL | ^ | | --------- SG1 transfer has already started by the time the TC interrupt is handled. As you can see P1 is now redundant and ready to be recycled. So in the interrupt handler, software recycles P1. Thus: SG1 -> SG2 -> SG3 -> SG4 -> SG5 -> SG6 -> NULL ^ ^ ^ | | | P0 -> P2 -> P1 -> NULL Now, on next interrupt, P2 gets copied and thus can get recycled. Hardware state: SG2 -> SG3 -> SG4 -> SG5 -> SG6 -> NULL ^ ^ | | P0,2 P1 -> NULL | ^ | | --------- As part of TC completion interrupt handling: SG2 -> SG3 -> SG4 -> SG5 -> SG6 -> NULL ^ ^ ^ | | | P0 -> P1 -> P2 -> NULL This goes on until the SG list in exhausted. If you use more PaRAM sets, interrupt handler gets more time to recycle the PaRAM set. At no point we touch P0 as it is always under active transfer. Thus the peripheral is always kept busy. Do you see any reason why such a mechanism cannot be implemented? Thanks, Sekhar -- To unsubscribe from this list: send the line "unsubscribe linux-omap" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html