Hello, again! After fixing the issue in my previous thread using this patch[1], I decided to do some stress-testing of the controller to make sure it could handle my intended workloads and that there were no further DMA address issues that would need to be fixed. Unfortunately, it looks like there's still more work to be done: when I try to do long bulk reads from multiple devices simultaneously, eventually the host controller sends a DMA write to address zero, which then triggers EEH in my POWER9 system, causing the controller card to get hotplug-reset, which of course kills the disk-reading processes. For more details on the EEH errors, you can see my kernel's EEH message log[2]. The results of the various tests I performed are listed below. Test results (all failures are due to DMA writes to address zero, all hubs are USB 3.0/3.1 Gen1 only, and all disks are accessed via the usb-storage driver): - Reading simultaneously from two or more disks behind a hub connected to one port on the host controller: - FAIL after 20-50 GB of data transferred for each device. - Reading simultaneously from two disks, each connected directly to one port on the host controller: - FAIL after about 800 GB of data transferred for each device. - Reading from one disk behind a hub connected to one port on the host controller: - OK for at least 2.7 TB of data transferred (I didn't test the whole 8 TB disk). - Writing simultaneously to two FL2000 dongles (using osmo-fl2k's "fl2k_test"), each connected directly to one port on the host controller: - OK, was able to write several dozen terabytes to each device over the course of a little over 21 hours. Seeing how simultaneous writes to multiple devices and reads from single devices both seem to work fine, I assume that means this is being caused by some race condition in the host controller firmware when it responds to multiple read requests. I also assume we're not going to be able to convince ASMedia to both fix the bug in their firmware and release the details on how to flash it from Linux, so I guess we'll just have to figure out how to make the driver talk to the controller in a way that avoids triggering the bad DMA write. As before, I decided to try a little kernel hacking of my own before sending this email, and tried separately enabling the XHCI_BROKEN_STREAMS and XHCI_ASMEDIA_MODIFY_FLOWCONTROL quirks in an attempt to fix this. As you might expect since you're reading this message, neither of those quirks fixed the issue, nor did they even make the transfers last any longer before failing. So now I've reached the limits of my understanding, and I need some help devising a fix. If anyone has any comments to that effect, or any questions about my hardware configuration, testing methodology, etc., please don't hesitate to air them. Also, if anyone needs me to perform additional tests, or collect more log information, I'd be happy to do that as well. Thanks in advance for your help, Forest [1]: https://patchwork.kernel.org/patch/11669989/ [2]: https://paste.debian.net/hidden/2a442aa6