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There are bugs on vhci with usb 3.0 storage device. In USB, each SG list entry buffer should be divisible by the bulk max packet size. But with native SG support, this problem doesn't matter because the SG buffer is treated as contiguous buffer. But without native SG support, USB storage driver breaks SG list into several URBs and the error occurs because of a buffer size of URB that cannot be divided by the bulk max packet size. The error situation is as follows. When USB Storage driver requests 31.5 KB data and has SG list which has 3584 bytes buffer followed by 7 4096 bytes buffer for some reason. USB Storage driver splits this SG list into several URBs because VHCI doesn't support SG and sends them separately. So the first URB buffer size is 3584 bytes. When receiving data from device, USB 3.0 device sends data packet of 1024 bytes size because the max packet size of BULK pipe is 1024 bytes. So device sends 4096 bytes. But the first URB buffer has only 3584 bytes buffer size. So host controller terminates the transfer even though there is more data to receive. So, vhci needs to support SG transfer to prevent this error. In this patch, vhci supports SG regardless of whether the server's host controller supports SG or not, because stub driver splits SG list into several URBs if the server's host controller doesn't support SG. To support SG, vhci sets URB_DMA_MAP_SG flag in urb->transfer_flags if URB has SG list and this flag will tell stub driver to use SG list. After receiving urb from stub driver, vhci clear URB_DMA_MAP_SG flag to avoid unnecessary DMA unmapping in HCD. vhci sends each SG list entry to stub driver. Then, stub driver sees the total length of the buffer and allocates SG table and pages according to the total buffer length calling sgl_alloc(). After stub driver receives completed URB, it again sends each SG list entry to vhci. If the server's host controller doesn't support SG, stub driver breaks a single SG request into several URBs and submits them to the server's host controller. When all the split URBs are completed, stub driver reassembles the URBs into a single return command and sends it to vhci. Moreover, in the situation where vhci supports SG, but stub driver does not, or vice versa, usbip works normally. Because there is no protocol modification, there is no problem in communication between server and client even if the one has a kernel without SG support. In the case of vhci supports SG and stub driver doesn't, because vhci sends only the total length of the buffer to stub driver as it did before the patch applied, stub driver only needs to allocate the required length of buffers using only kmalloc() regardless of whether vhci supports SG or not. But stub driver has to allocate buffer with kmalloc() as much as the total length of SG buffer which is quite huge when vhci sends SG request, so it has overhead in buffer allocation in this situation. If stub driver needs to send data buffer to vhci because of IN pipe, stub driver also sends only total length of buffer as metadata and then sends real data as vhci does. Then vhci receive data from stub driver and store it to the corresponding buffer of SG list entry. And for the case of stub driver supports SG and vhci doesn't, since the USB storage driver checks that vhci doesn't support SG and sends the request to stub driver by splitting the SG list into multiple URBs, stub driver allocates a buffer for each URB with kmalloc() as it did before this patch. * Test environment Test uses two difference machines and two different kernel version to make mismatch situation between the client and the server where vhci supports SG, but stub driver does not, or vice versa. All tests are conducted in both full SG support that both vhci and stub support SG and half SG support that is the mismatch situation. Test kernel version is 5.3-rc6 with commit "usb: add a HCD_DMA flag instead of guestimating DMA capabilities" to avoid unnecessary DMA mapping and unmapping. - Test kernel version - 5.3-rc6 with SG support - 5.1.20-200.fc29.x86_64 without SG support * SG support test - Test devices - Super-speed storage device - SanDisk Ultra USB 3.0 - High-speed storage device - SMI corporation USB 2.0 flash drive - Test description Test read and write operation of mass storage device that uses the BULK transfer. In test, the client reads and writes files whose size is over 1G and it works normally. * Regression test - Test devices - Super-speed device - Logitech Brio webcam - High-speed device - Logitech C920 HD Pro webcam - Full-speed device - Logitech bluetooth mouse - Britz BR-Orion speaker - Low-speed device - Logitech wired mouse - Test description Moving and click test for mouse. To test the webcam, use gnome-cheese. To test the speaker, play music and video on the client. All works normally. * VUDC compatibility test VUDC also works well with this patch. Tests are done with two USB gadget created by CONFIGFS USB gadget. Both use the BULK pipe. 1. Serial gadget 2. Mass storage gadget - Serial gadget test Serial gadget on the host sends and receives data using cat command on the /dev/ttyGS<N>. The client uses minicom to communicate with the serial gadget. - Mass storage gadget test After connecting the gadget with vhci, use "dd" to test read and write operation on the client side. Read - dd if=/dev/sd<N> iflag=direct of=/dev/null bs=1G count=1 Write - dd if=<my file path> iflag=direct of=/dev/sd<N> bs=1G count=1 Signed-off-by: Suwan Kim <suwan.kim027@gmail.com> Acked-by: Shuah khan <skhan@linuxfoundation.org> Link: https://lore.kernel.org/r/20190828032741.12234-1-suwan.kim027@gmail.com Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
106 lines
2.4 KiB
C
106 lines
2.4 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2003-2008 Takahiro Hirofuchi
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*/
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#ifndef __USBIP_STUB_H
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#define __USBIP_STUB_H
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#include <linux/list.h>
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#include <linux/slab.h>
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#include <linux/spinlock.h>
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#include <linux/types.h>
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#include <linux/usb.h>
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#include <linux/wait.h>
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#define STUB_BUSID_OTHER 0
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#define STUB_BUSID_REMOV 1
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#define STUB_BUSID_ADDED 2
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#define STUB_BUSID_ALLOC 3
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struct stub_device {
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struct usb_device *udev;
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struct usbip_device ud;
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__u32 devid;
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/*
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* stub_priv preserves private data of each urb.
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* It is allocated as stub_priv_cache and assigned to urb->context.
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*
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* stub_priv is always linked to any one of 3 lists;
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* priv_init: linked to this until the comletion of a urb.
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* priv_tx : linked to this after the completion of a urb.
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* priv_free: linked to this after the sending of the result.
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*
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* Any of these list operations should be locked by priv_lock.
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*/
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spinlock_t priv_lock;
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struct list_head priv_init;
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struct list_head priv_tx;
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struct list_head priv_free;
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/* see comments for unlinking in stub_rx.c */
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struct list_head unlink_tx;
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struct list_head unlink_free;
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wait_queue_head_t tx_waitq;
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};
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/* private data into urb->priv */
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struct stub_priv {
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unsigned long seqnum;
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struct list_head list;
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struct stub_device *sdev;
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struct urb **urbs;
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struct scatterlist *sgl;
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int num_urbs;
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int completed_urbs;
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int urb_status;
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int unlinking;
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};
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struct stub_unlink {
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unsigned long seqnum;
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struct list_head list;
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__u32 status;
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};
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/* same as SYSFS_BUS_ID_SIZE */
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#define BUSID_SIZE 32
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struct bus_id_priv {
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char name[BUSID_SIZE];
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char status;
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int interf_count;
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struct stub_device *sdev;
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struct usb_device *udev;
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char shutdown_busid;
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spinlock_t busid_lock;
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};
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/* stub_priv is allocated from stub_priv_cache */
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extern struct kmem_cache *stub_priv_cache;
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/* stub_dev.c */
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extern struct usb_device_driver stub_driver;
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/* stub_main.c */
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struct bus_id_priv *get_busid_priv(const char *busid);
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void put_busid_priv(struct bus_id_priv *bid);
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int del_match_busid(char *busid);
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void stub_free_priv_and_urb(struct stub_priv *priv);
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void stub_device_cleanup_urbs(struct stub_device *sdev);
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/* stub_rx.c */
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int stub_rx_loop(void *data);
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/* stub_tx.c */
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void stub_enqueue_ret_unlink(struct stub_device *sdev, __u32 seqnum,
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__u32 status);
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void stub_complete(struct urb *urb);
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int stub_tx_loop(void *data);
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#endif /* __USBIP_STUB_H */
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