Re: [PATCH v9 0/5] Re-introduce TX FIFO resize for larger EP bursting

From: Wesley Cheng
Date: Thu Jun 17 2021 - 04:30:36 EST




On 6/17/2021 12:47 AM, Ferry Toth wrote:
> Hi
>
> Op 17-06-2021 om 06:25 schreef Wesley Cheng:
>> On 6/15/2021 12:53 PM, Ferry Toth wrote:
>>> Hi
>>>
>>> Op 15-06-2021 om 06:22 schreef Wesley Cheng:
>>>> On 6/14/2021 12:30 PM, Ferry Toth wrote:
>>>>> Op 14-06-2021 om 20:58 schreef Wesley Cheng:
>>>>>> On 6/12/2021 2:27 PM, Ferry Toth wrote:
>>>>>>> Hi
>>>>>>>
>>>>>>> Op 11-06-2021 om 15:21 schreef Andy Shevchenko:
>>>>>>>> On Fri, Jun 11, 2021 at 4:14 PM Heikki Krogerus
>>>>>>>> <heikki.krogerus@xxxxxxxxxxxxxxx> wrote:
>>>>>>>>> On Fri, Jun 11, 2021 at 04:00:38PM +0300, Felipe Balbi wrote:
>>>>>>>>>> Hi,
>>>>>>>>>>
>>>>>>>>>> Wesley Cheng <wcheng@xxxxxxxxxxxxxx> writes:
>>>>>>>>>>>>>>>>> to be honest, I don't think these should go in (apart from
>>>>>>>>>>>>>>>>> the build
>>>>>>>>>>>>>>>>> failure) because it's likely to break instantiations of the
>>>>>>>>>>>>>>>>> core with
>>>>>>>>>>>>>>>>> differing FIFO sizes. Some instantiations even have some
>>>>>>>>>>>>>>>>> endpoints with
>>>>>>>>>>>>>>>>> dedicated functionality that requires the default FIFO size
>>>>>>>>>>>>>>>>> configured
>>>>>>>>>>>>>>>>> during coreConsultant instantiation. I know of at OMAP5 and
>>>>>>>>>>>>>>>>> some Intel
>>>>>>>>>>>>>>>>> implementations which have dedicated endpoints for processor
>>>>>>>>>>>>>>>>> tracing.
>>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>>> With OMAP5, these endpoints are configured at the top of the
>>>>>>>>>>>>>>>>> available
>>>>>>>>>>>>>>>>> endpoints, which means that if a gadget driver gets loaded
>>>>>>>>>>>>>>>>> and takes
>>>>>>>>>>>>>>>>> over most of the FIFO space because of this resizing,
>>>>>>>>>>>>>>>>> processor tracing
>>>>>>>>>>>>>>>>> will have a hard time running. That being said, processor
>>>>>>>>>>>>>>>>> tracing isn't
>>>>>>>>>>>>>>>>> supported in upstream at this moment.
>>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>> I agree that the application of this logic may differ between
>>>>>>>>>>>>>>> vendors,
>>>>>>>>>>>>>>> hence why I wanted to keep this controllable by the DT
>>>>>>>>>>>>>>> property, so that
>>>>>>>>>>>>>>> for those which do not support this use case can leave it
>>>>>>>>>>>>>>> disabled.  The
>>>>>>>>>>>>>>> logic is there to ensure that for a given USB configuration,
>>>>>>>>>>>>>>> for each EP
>>>>>>>>>>>>>>> it would have at least 1 TX FIFO.  For USB configurations
>>>>>>>>>>>>>>> which
>>>>>>>>>>>>>>> don't
>>>>>>>>>>>>>>> utilize all available IN EPs, it would allow re-allocation of
>>>>>>>>>>>>>>> internal
>>>>>>>>>>>>>>> memory to EPs which will actually be in use.
>>>>>>>>>>>>>> The feature ends up being all-or-nothing, then :-) It sounds
>>>>>>>>>>>>>> like we can
>>>>>>>>>>>>>> be a little nicer in this regard.
>>>>>>>>>>>>>>
>>>>>>>>>>>>> Don't get me wrong, I think once those features become available
>>>>>>>>>>>>> upstream, we can improve the logic.  From what I remember when
>>>>>>>>>>>>> looking
>>>>>>>>>>>> sure, I support that. But I want to make sure the first cut isn't
>>>>>>>>>>>> likely
>>>>>>>>>>>> to break things left and right :)
>>>>>>>>>>>>
>>>>>>>>>>>> Hence, let's at least get more testing.
>>>>>>>>>>>>
>>>>>>>>>>> Sure, I'd hope that the other users of DWC3 will also see some
>>>>>>>>>>> pretty
>>>>>>>>>>> big improvements on the TX path with this.
>>>>>>>>>> fingers crossed
>>>>>>>>>>
>>>>>>>>>>>>> at Andy Shevchenko's Github, the Intel tracer downstream changes
>>>>>>>>>>>>> were
>>>>>>>>>>>>> just to remove physical EP1 and 2 from the DWC3 endpoint list.
>>>>>>>>>>>>> If that
>>>>>>>>>>>> right, that's the reason why we introduced the endpoint feature
>>>>>>>>>>>> flags. The end goal was that the UDC would be able to have custom
>>>>>>>>>>>> feature flags paired with ->validate_endpoint() or whatever
>>>>>>>>>>>> before
>>>>>>>>>>>> allowing it to be enabled. Then the UDC driver could tell UDC
>>>>>>>>>>>> core to
>>>>>>>>>>>> skip that endpoint on that particular platform without
>>>>>>>>>>>> interefering with
>>>>>>>>>>>> everything else.
>>>>>>>>>>>>
>>>>>>>>>>>> Of course, we still need to figure out a way to abstract the
>>>>>>>>>>>> different
>>>>>>>>>>>> dwc3 instantiations.
>>>>>>>>>>>>
>>>>>>>>>>>>> was the change which ended up upstream for the Intel tracer
>>>>>>>>>>>>> then we
>>>>>>>>>>>>> could improve the logic to avoid re-sizing those particular EPs.
>>>>>>>>>>>> The problem then, just as I mentioned in the previous paragraph,
>>>>>>>>>>>> will be
>>>>>>>>>>>> coming up with a solution that's elegant and works for all
>>>>>>>>>>>> different
>>>>>>>>>>>> instantiations of dwc3 (or musb, cdns3, etc).
>>>>>>>>>>>>
>>>>>>>>>>> Well, at least for the TX FIFO resizing logic, we'd only be
>>>>>>>>>>> needing to
>>>>>>>>>>> focus on the DWC3 implementation.
>>>>>>>>>>>
>>>>>>>>>>> You bring up another good topic that I'll eventually needing to be
>>>>>>>>>>> taking a look at, which is a nice way we can handle vendor
>>>>>>>>>>> specific
>>>>>>>>>>> endpoints and how they can co-exist with other "normal"
>>>>>>>>>>> endpoints.  We
>>>>>>>>>>> have a few special HW eps as well, which we try to maintain
>>>>>>>>>>> separately
>>>>>>>>>>> in our DWC3 vendor driver, but it isn't the most convenient, or
>>>>>>>>>>> most
>>>>>>>>>>> pretty method :).
>>>>>>>>>> Awesome, as mentioned, the endpoint feature flags were added
>>>>>>>>>> exactly to
>>>>>>>>>> allow for these vendor-specific features :-)
>>>>>>>>>>
>>>>>>>>>> I'm more than happy to help testing now that I finally got our
>>>>>>>>>> SM8150
>>>>>>>>>> Surface Duo device tree accepted by Bjorn ;-)
>>>>>>>>>>
>>>>>>>>>>>>> However, I'm not sure how the changes would look like in the
>>>>>>>>>>>>> end,
>>>>>>>>>>>>> so I
>>>>>>>>>>>>> would like to wait later down the line to include that :).
>>>>>>>>>>>> Fair enough, I agree. Can we get some more testing of $subject,
>>>>>>>>>>>> though?
>>>>>>>>>>>> Did you test $subject with upstream too? Which gadget drivers
>>>>>>>>>>>> did you
>>>>>>>>>>>> use? How did you test
>>>>>>>>>>>>
>>>>>>>>>>> The results that I included in the cover page was tested with the
>>>>>>>>>>> pure
>>>>>>>>>>> upstream kernel on our device.  Below was using the ConfigFS
>>>>>>>>>>> gadget
>>>>>>>>>>> w/ a
>>>>>>>>>>> mass storage only composition.
>>>>>>>>>>>
>>>>>>>>>>> Test Parameters:
>>>>>>>>>>>     - Platform: Qualcomm SM8150
>>>>>>>>>>>     - bMaxBurst = 6
>>>>>>>>>>>     - USB req size = 256kB
>>>>>>>>>>>     - Num of USB reqs = 16
>>>>>>>>>> do you mind testing with the regular request size (16KiB) and 250
>>>>>>>>>> requests? I think we can even do 15 bursts in that case.
>>>>>>>>>>
>>>>>>>>>>>     - USB Speed = Super-Speed
>>>>>>>>>>>     - Function Driver: Mass Storage (w/ ramdisk)
>>>>>>>>>>>     - Test Application: CrystalDiskMark
>>>>>>>>>>>
>>>>>>>>>>> Results:
>>>>>>>>>>>
>>>>>>>>>>> TXFIFO Depth = 3 max packets
>>>>>>>>>>>
>>>>>>>>>>> Test Case | Data Size | AVG tput (in MB/s)
>>>>>>>>>>> -------------------------------------------
>>>>>>>>>>> Sequential|1 GB x     |
>>>>>>>>>>> Read      |9 loops    | 193.60
>>>>>>>>>>>              |           | 195.86
>>>>>>>>>>>              |           | 184.77
>>>>>>>>>>>              |           | 193.60
>>>>>>>>>>> -------------------------------------------
>>>>>>>>>>>
>>>>>>>>>>> TXFIFO Depth = 6 max packets
>>>>>>>>>>>
>>>>>>>>>>> Test Case | Data Size | AVG tput (in MB/s)
>>>>>>>>>>> -------------------------------------------
>>>>>>>>>>> Sequential|1 GB x     |
>>>>>>>>>>> Read      |9 loops    | 287.35
>>>>>>>>>>>            |           | 304.94
>>>>>>>>>>>              |           | 289.64
>>>>>>>>>>>              |           | 293.61
>>>>>>>>>> I remember getting close to 400MiB/sec with Intel platforms without
>>>>>>>>>> resizing FIFOs and I'm sure the FIFO size was set to 2x1024,
>>>>>>>>>> though my
>>>>>>>>>> memory could be failing.
>>>>>>>>>>
>>>>>>>>>> Then again, I never ran with CrystalDiskMark, I was using my own
>>>>>>>>>> tool
>>>>>>>>>> (it's somewhere in github. If you care, I can look up the URL).
>>>>>>>>>>
>>>>>>>>>>> We also have internal numbers which have shown similar
>>>>>>>>>>> improvements as
>>>>>>>>>>> well.  Those are over networking/tethering interfaces, so testing
>>>>>>>>>>> IPERF
>>>>>>>>>>> loopback over TCP/UDP.
>>>>>>>>>> loopback iperf? That would skip the wire, no?
>>>>>>>>>>
>>>>>>>>>>>>> size of 2 and TX threshold of 1, this would really be not
>>>>>>>>>>>>> beneficial to
>>>>>>>>>>>>> us, because we can only change the TX threshold to 2 at max,
>>>>>>>>>>>>> and at
>>>>>>>>>>>>> least in my observations, once we have to go out to system
>>>>>>>>>>>>> memory to
>>>>>>>>>>>>> fetch the next data packet, that latency takes enough time
>>>>>>>>>>>>> for the
>>>>>>>>>>>>> controller to end the current burst.
>>>>>>>>>>>> What I noticed with g_mass_storage is that we can amortize the
>>>>>>>>>>>> cost of
>>>>>>>>>>>> fetching data from memory, with a deeper request queue.
>>>>>>>>>>>> Whenever I
>>>>>>>>>>>> test(ed) g_mass_storage, I was doing so with 250 requests. And
>>>>>>>>>>>> that was
>>>>>>>>>>>> enough to give me very good performance. Never had to poke at TX
>>>>>>>>>>>> FIFO
>>>>>>>>>>>> resizing. Did you try something like this too?
>>>>>>>>>>>>
>>>>>>>>>>>> I feel that allocating more requests is a far simpler and more
>>>>>>>>>>>> generic
>>>>>>>>>>>> method that changing FIFO sizes :)
>>>>>>>>>>>>
>>>>>>>>>>> I wish I had a USB bus trace handy to show you, which would
>>>>>>>>>>> make it
>>>>>>>>>>> very
>>>>>>>>>>> clear how the USB bus is currently utilized with TXFIFO size 2 vs
>>>>>>>>>>> 6.  So
>>>>>>>>>>> by increasing the number of USB requests, that will help if there
>>>>>>>>>>> was a
>>>>>>>>>>> bottleneck at the SW level where the application/function driver
>>>>>>>>>>> utilizing the DWC3 was submitting data much faster than the HW was
>>>>>>>>>>> processing them.
>>>>>>>>>>>
>>>>>>>>>>> So yes, this method of increasing the # of USB reqs will
>>>>>>>>>>> definitely
>>>>>>>>>>> help
>>>>>>>>>>> with situations such as HSUSB or in SSUSB when EP bursting isn't
>>>>>>>>>>> used.
>>>>>>>>>>> The TXFIFO resize comes into play for SSUSB, which utilizes
>>>>>>>>>>> endpoint
>>>>>>>>>>> bursting.
>>>>>>>>>> Hmm, that's not what I remember. Perhaps the TRB cache size plays a
>>>>>>>>>> role
>>>>>>>>>> here too. I have clear memories of testing this very scenario of
>>>>>>>>>> bursting (using g_mass_storage at the time) because I was curious
>>>>>>>>>> about
>>>>>>>>>> it. Back then, my tests showed no difference in behavior.
>>>>>>>>>>
>>>>>>>>>> It could be nice if Heikki could test Intel parts with and without
>>>>>>>>>> your
>>>>>>>>>> changes on g_mass_storage with 250 requests.
>>>>>>>>> Andy, you have a system at hand that has the DWC3 block enabled,
>>>>>>>>> right? Can you help out here?
>>>>>>>> I'm not sure if i will have time soon, I Cc'ed to Ferry who has a few
>>>>>>>> more test cases (I have only one or two) and maybe can help. But I'll
>>>>>>>> keep this in mind.
>>>>>>> I just tested on 5.13.0-rc4 on Intel Edison (x86_64). All 5 patches
>>>>>>> apply. Switching between host/gadget works, no connections
>>>>>>> dropping, no
>>>>>>> errors in dmesg.
>>>>>>>
>>>>>>> In host mode I connect a smsc9504 eth+4p hub. In gadget mode I have
>>>>>>> composite device created from configfs with gser / eem /
>>>>>>> mass_storage /
>>>>>>> uac2.
>>>>>>>
>>>>>>> Tested with iperf3 performance in host (93.6Mbits/sec) and gadget
>>>>>>> (207Mbits/sec) mode. Compared to v5.10.41 without patches host
>>>>>>> (93.4Mbits/sec) and gadget (198Mbits/sec).
>>>>>>>
>>>>>>> Gadget seems to be a little faster with the patches, but that might
>>>>>>> also
>>>>>>> be caused  by something else, on v5.10.41 I see the bitrate bouncing
>>>>>>> between 207 and 199.
>>>>>>>
>>>>>>> I saw a mention to test iperf3 to self (loopback). 3.09 Gbits/sec.
>>>>>>> With
>>>>>>> v5.10.41 3.07Gbits/sec. Not bad for a 500MHz device.
>>>>>>>
>>>>>>> With gnome-disks I did a read access benchmark 35.4MB/s, with v5.10.41
>>>>>>> 34.7MB/s. This might be limited by Edison's internal eMMC speed (when
>>>>>>> booting U-Boot reads the kernel with 21.4 MiB/s).
>>>>>>>
>>>>>> Hi Ferry,
>>>>>>
>>>>>> Thanks for the testing.  Just to double check, did you also enable the
>>>>>> property, which enabled the TXFIFO resize feature on the platform?  For
>>>>>> example, for the QCOM SM8150 platform, we're adding the following to
>>>>>> our
>>>>>> device tree node:
>>>>>>
>>>>>> tx-fifo-resize
>>>>>>
>>>>>> If not, then your results at least confirms that w/o the property
>>>>>> present, the changes won't break anything :).  Thanks again for the
>>>>>> initial testing!
>>> I applied the patch now to 5.13.0-rc5 + the following:
>>>
>> Hi Ferry,
>>
>> Quick question...there was a compile error with the V9 patch series, as
>> it was using the dwc3_mwidth() incorrectly. I will update this with the
>> proper use of the mdwidth, but which patch version did you use?

Hi Ferry,

> The V9 set gets applied to 5.13.0-rc5 by Yocto, if it doesn't apply it
> stops the build. I didn't notice any compile errors, they stop the whole
> build process too. But warnings are ignored. I'll check the logs to be sure.

Ah, ok. I think the incorrect usage of the API will result as a warning
as seen in Greg's compile log:

drivers/usb/dwc3/gadget.c: In function ‘dwc3_gadget_calc_tx_fifo_size’:
drivers/usb/dwc3/gadget.c:653:45: warning: passing argument 1 of
‘dwc3_mdwidth’ makes pointer from integer without a cast [-Wint-conversion]
653 | mdwidth = dwc3_mdwidth(dwc->hwparams.hwparams0);

This is probably why the page fault occurs, as we're not passing in the
DWC3 struct. I will send out a V10 shortly after testing it on my device.

Thanks
Wesley Cheng

>> Thanks
>> Wesley Cheng
>>
>>> --- a/drivers/usb/dwc3/dwc3-pci.c
>>> +++ b/drivers/usb/dwc3/dwc3-pci.c
>>> @@ -124,6 +124,7 @@ static const struct property_entry
>>> dwc3_pci_mrfld_properties[] = {
>>>      PROPERTY_ENTRY_BOOL("snps,dis_u3_susphy_quirk"),
>>>      PROPERTY_ENTRY_BOOL("snps,dis_u2_susphy_quirk"),
>>>      PROPERTY_ENTRY_BOOL("snps,usb2-gadget-lpm-disable"),
>>> +    PROPERTY_ENTRY_BOOL("tx-fifo-resize"),
>>>      PROPERTY_ENTRY_BOOL("linux,sysdev_is_parent"),
>>>      {}
>>>  };
>>>
>>>  and when switching to gadget mode unfortunately received the following
>>> oops:
>>>
>>> BUG: unable to handle page fault for address: 00000000202043f2
>>> #PF: supervisor read access in kernel mode
>>> #PF: error_code(0x0000) - not-present page
>>> PGD 0 P4D 0
>>> Oops: 0000 [#1] SMP PTI
>>> CPU: 0 PID: 617 Comm: conf-gadget.sh Not tainted
>>> 5.13.0-rc5-edison-acpi-standard #1
>>> Hardware name: Intel Corporation Merrifield/BODEGA BAY, BIOS 542
>>> 2015.01.21:18.19.48
>>> RIP: 0010:dwc3_gadget_check_config+0x33/0x80
>>> Code: 59 04 00 00 04 74 61 48 c1 ee 10 48 89 f7 f3 48 0f b8 c7 48 89 c7
>>> 39 81 60 04 00 00 7d 4a 89 81 60 04 00 00 8b 81 08 04 00 00 <81> b8 e8
>>> 03 00 00 32 33 00 00 0f b6 b0 09 04 00 00 75 0d 8b 80 20
>>> RSP: 0018:ffffb5550038fda0 EFLAGS: 00010297
>>> RAX: 000000002020400a RBX: ffffa04502627348 RCX: ffffa04507354028
>>> RDX: 0000000000000000 RSI: 000000000000003c RDI: 0000000000000004
>>> RBP: ffffa04508ac0550 R08: ffffa04503a75b2c R09: 0000000000000000
>>> R10: 0000000000000216 R11: 000000000002eba0 R12: ffffa04508ac0550
>>> R13: dead000000000100 R14: ffffa04508ac0600 R15: ffffa04508ac0520
>>> FS:  00007f7471e2f740(0000) GS:ffffa0453e200000(0000)
>>> knlGS:0000000000000000
>>> CS:  0010 DS: 0000 ES: 0000 CR0: 0000000080050033
>>> CR2: 00000000202043f2 CR3: 0000000003f38000 CR4: 00000000001006f0
>>> Call Trace:
>>>  configfs_composite_bind+0x2f4/0x430 [libcomposite]
>>>  udc_bind_to_driver+0x64/0x180
>>>  usb_gadget_probe_driver+0x114/0x150
>>>  gadget_dev_desc_UDC_store+0xbc/0x130 [libcomposite]
>>>  configfs_write_file+0xcd/0x140
>>>  vfs_write+0xbb/0x250
>>>  ksys_write+0x5a/0xd0
>>>  do_syscall_64+0x40/0x80
>>>  entry_SYSCALL_64_after_hwframe+0x44/0xae
>>> RIP: 0033:0x7f7471f1ff53
>>> Code: 8b 15 21 cf 0c 00 f7 d8 64 89 02 48 c7 c0 ff ff ff ff eb b7 0f 1f
>>> 00 64 8b 04 25 18 00 00 00 85 c0 75 14 b8 01 00 00 00 0f 05 <48> 3d 00
>>> f0 ff ff 77 55 c3 0f 1f 40 00 48 83 ec 28 48 89 54 24 18
>>> RSP: 002b:00007fffa3dcd328 EFLAGS: 00000246 ORIG_RAX: 0000000000000001
>>> RAX: ffffffffffffffda RBX: 000000000000000c RCX: 00007f7471f1ff53
>>> RDX: 000000000000000c RSI: 00005614d615a770 RDI: 0000000000000001
>>> RBP: 00005614d615a770 R08: 000000000000000a R09: 00007f7471fb20c0
>>> R10: 0000000000000000 R11: 0000000000000246 R12: 000000000000000c
>>> R13: 00007f7471fee520 R14: 000000000000000c R15: 00007f7471fee720
>>> Modules linked in: usb_f_uac2 u_audio usb_f_mass_storage usb_f_eem
>>> u_ether usb_f_serial u_serial libcomposite rfcomm iptable_nat bnep
>>> snd_sof_nocodec spi_pxa2xx_platform dw_dmac smsc snd_sof_pci_intel_tng
>>> snd_sof_pci snd_sof_acpi_intel_byt snd_sof_intel_ipc snd_sof_acpi
>>> smsc95xx snd_sof pwm_lpss_pci pwm_lpss snd_sof_xtensa_dsp
>>> snd_intel_dspcfg snd_soc_acpi_intel_match snd_soc_acpi dw_dmac_pci
>>> intel_mrfld_pwrbtn intel_mrfld_adc dw_dmac_core spi_pxa2xx_pci brcmfmac
>>> brcmutil leds_gpio hci_uart btbcm ti_ads7950
>>> industrialio_triggered_buffer kfifo_buf ledtrig_timer ledtrig_heartbeat
>>> mmc_block extcon_intel_mrfld sdhci_pci cqhci sdhci led_class
>>> intel_soc_pmic_mrfld mmc_core btrfs libcrc32c xor zstd_compress
>>> zlib_deflate raid6_pq
>>> CR2: 00000000202043f2
>>> ---[ end trace 5c11fe50dca92ad4 ]---
>>>
>>>>> No I didn't. Afaik we don't have a devicetree property to set.
>>>>>
>>>>> But I'd be happy to test that as well. But where to set the property?
>>>>>
>>>>> dwc3_pci_mrfld_properties[] in dwc3-pci?
>>>>>
>>>> Hi Ferry,
>>>>
>>>> Not too sure which DWC3 driver is used for the Intel platform, but I
>>>> believe that should be the one. (if that's what is normally used)  We'd
>>>> just need to add an entry w/ the below:
>>>>
>>>> PROPERTY_ENTRY_BOOL("tx-fifo-resize")
>>>>
>>>> Thanks
>>>> Wesley Cheng
>>>>
>>>>>> Thanks
>>>>>> Wesley Cheng
>>>>>>
>>>>>>>>>>> Now with endpoint bursting, if the function notifies the host that
>>>>>>>>>>> bursting is supported, when the host sends the ACK for the Data
>>>>>>>>>>> Packet,
>>>>>>>>>>> it should have a NumP value equal to the bMaxBurst reported in
>>>>>>>>>>> the EP
>>>>>>>>>> Yes and no. Looking back at the history, we used to configure NUMP
>>>>>>>>>> based
>>>>>>>>>> on bMaxBurst, but it was changed later in commit
>>>>>>>>>> 4e99472bc10bda9906526d725ff6d5f27b4ddca1 by yours truly because
>>>>>>>>>> of a
>>>>>>>>>> problem reported by John Youn.
>>>>>>>>>>
>>>>>>>>>> And now we've come full circle. Because even if I believe more
>>>>>>>>>> requests
>>>>>>>>>> are enough for bursting, NUMP is limited by the RxFIFO size. This
>>>>>>>>>> ends
>>>>>>>>>> up supporting your claim that we need RxFIFO resizing if we want to
>>>>>>>>>> squeeze more throughput out of the controller.
>>>>>>>>>>
>>>>>>>>>> However, note that this is about RxFIFO size, not TxFIFO size. In
>>>>>>>>>> fact,
>>>>>>>>>> looking at Table 8-13 of USB 3.1 r1.0, we read the following about
>>>>>>>>>> NumP
>>>>>>>>>> (emphasis is mine):
>>>>>>>>>>
>>>>>>>>>>          "Number of Packets (NumP). This field is used to
>>>>>>>>>> indicate the
>>>>>>>>>>          number of Data Packet buffers that the **receiver** can
>>>>>>>>>>          accept. The value in this field shall be less than or
>>>>>>>>>> equal to
>>>>>>>>>>          the maximum burst size supported by the endpoint as
>>>>>>>>>> determined
>>>>>>>>>>          by the value in the bMaxBurst field in the Endpoint
>>>>>>>>>> Companion
>>>>>>>>>>          Descriptor (refer to Section 9.6.7)."
>>>>>>>>>>
>>>>>>>>>> So, NumP is for the receiver, not the transmitter. Could you
>>>>>>>>>> clarify
>>>>>>>>>> what you mean here?
>>>>>>>>>>
>>>>>>>>>> /me keeps reading
>>>>>>>>>>
>>>>>>>>>> Hmm, table 8-15 tries to clarify:
>>>>>>>>>>
>>>>>>>>>>          "Number of Packets (NumP).
>>>>>>>>>>
>>>>>>>>>>          For an OUT endpoint, refer to Table 8-13 for the
>>>>>>>>>> description of
>>>>>>>>>>          this field.
>>>>>>>>>>
>>>>>>>>>>          For an IN endpoint this field is set by the endpoint to
>>>>>>>>>> the
>>>>>>>>>>          number of packets it can transmit when the host resumes
>>>>>>>>>>          transactions to it. This field shall not have a value
>>>>>>>>>> greater
>>>>>>>>>>          than the maximum burst size supported by the endpoint as
>>>>>>>>>>          indicated by the value in the bMaxBurst field in the
>>>>>>>>>> Endpoint
>>>>>>>>>>          Companion Descriptor. Note that the value reported in this
>>>>>>>>>> field
>>>>>>>>>>          may be treated by the host as informative only."
>>>>>>>>>>
>>>>>>>>>> However, if I remember correctly (please verify dwc3 databook),
>>>>>>>>>> NUMP in
>>>>>>>>>> DCFG was only for receive buffers. Thin, John, how does dwc3
>>>>>>>>>> compute
>>>>>>>>>> NumP for TX/IN endpoints? Is that computed as a function of
>>>>>>>>>> DCFG.NUMP or
>>>>>>>>>> TxFIFO size?
>>>>>>>>>>
>>>>>>>>>>> desc.  If we have a TXFIFO size of 2, then normally what I have
>>>>>>>>>>> seen is
>>>>>>>>>>> that after 2 data packets, the device issues a NRDY.  So then we'd
>>>>>>>>>>> need
>>>>>>>>>>> to send an ERDY once data is available within the FIFO, and the
>>>>>>>>>>> same
>>>>>>>>>>> sequence happens until the USB request is complete.  With this
>>>>>>>>>>> constant
>>>>>>>>>>> NRDY/ERDY handshake going on, you actually see that the bus is
>>>>>>>>>>> under
>>>>>>>>>>> utilized.  When we increase an EP's FIFO size, then you'll see
>>>>>>>>>>> constant
>>>>>>>>>>> bursts for a request, until the request is done, or if the host
>>>>>>>>>>> runs out
>>>>>>>>>>> of RXFIFO. (ie no interruption [on the USB protocol level] during
>>>>>>>>>>> USB
>>>>>>>>>>> request data transfer)
>>>>>>>>>> Unfortunately I don't have access to a USB sniffer anymore :-(
>>>>>>>>>>
>>>>>>>>>>>>>>>> Good points.
>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>> Wesley, what kind of testing have you done on this on
>>>>>>>>>>>>>>>> different devices?
>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>> As mentioned above, these changes are currently present on end
>>>>>>>>>>>>>>> user
>>>>>>>>>>>>>>> devices for the past few years, so its been through a lot of
>>>>>>>>>>>>>>> testing :).
>>>>>>>>>>>>>> all with the same gadget driver. Also, who uses USB on android
>>>>>>>>>>>>>> devices
>>>>>>>>>>>>>> these days? Most of the data transfer goes via WiFi or
>>>>>>>>>>>>>> Bluetooth, anyway
>>>>>>>>>>>>>> :-)
>>>>>>>>>>>>>>
>>>>>>>>>>>>>> I guess only developers are using USB during development to
>>>>>>>>>>>>>> flash dev
>>>>>>>>>>>>>> images heh.
>>>>>>>>>>>>>>
>>>>>>>>>>>>> I used to be a customer facing engineer, so honestly I did see
>>>>>>>>>>>>> some
>>>>>>>>>>>>> really interesting and crazy designs.  Again, we do have
>>>>>>>>>>>>> non-Android
>>>>>>>>>>>>> products that use the same code, and it has been working in
>>>>>>>>>>>>> there
>>>>>>>>>>>>> for a
>>>>>>>>>>>>> few years as well.  The TXFIFO sizing really has helped with
>>>>>>>>>>>>> multimedia
>>>>>>>>>>>>> use cases, which use isoc endpoints, since esp. in those lower
>>>>>>>>>>>>> end CPU
>>>>>>>>>>>>> chips where latencies across the system are much larger, and a
>>>>>>>>>>>>> missed
>>>>>>>>>>>>> ISOC interval leads to a pop in your ear.
>>>>>>>>>>>> This is good background information. Thanks for bringing this
>>>>>>>>>>>> up. Admitedly, we still have ISOC issues with dwc3. I'm
>>>>>>>>>>>> interested in
>>>>>>>>>>>> knowing if a deeper request queue would also help here.
>>>>>>>>>>>>
>>>>>>>>>>>> Remember dwc3 can accomodate 255 requests + link for each
>>>>>>>>>>>> endpoint. If
>>>>>>>>>>>> our gadget driver uses a low number of requests, we're never
>>>>>>>>>>>> really
>>>>>>>>>>>> using the TRB ring in our benefit.
>>>>>>>>>>>>
>>>>>>>>>>> We're actually using both a deeper USB request queue + TX fifo
>>>>>>>>>>> resizing. :).
>>>>>>>>>> okay, great. Let's see what John and/or Thinh respond WRT dwc3 TX
>>>>>>>>>> Burst
>>>>>>>>>> behavior.
>>>>>>>>> -- 
>>>>>>>>> heikki

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