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Linux/Documentation/driver-api/usb/usb.rst

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Differences between /Documentation/driver-api/usb/usb.rst (Version linux-6.12-rc7) and /Documentation/driver-api/usb/usb.rst (Version policy-sample)

   .. _usb-hostside-api:                             
                                                     
   ===========================                       
   The Linux-USB Host Side API                       
   ===========================                       
                                                     
   Introduction to USB on Linux                      
   ============================                      
                                                     
  A Universal Serial Bus (USB) is used to connec    
  workstation, to a number of peripheral devices    
  structure, with the host as the root (the syst    
  interior nodes, and peripherals as leaves (and    
  support several such trees of USB devices, usu    
  a few USB 3.0 (5 GBit/s) or USB 3.1 (10 GBit/s    
  USB 2.0 (480 MBit/s) busses just in case.         
                                                    
  That master/slave asymmetry was designed-in fo    
  being ease of use. It is not physically possib    
  downstream or it does not matter with a type C    
  peripheral). Also, the host software doesn't n    
  distributed auto-configuration since the pre-d    
  manages all that.                                 
                                                    
  Kernel developers added USB support to Linux e    
  series and have been developing it further sin    
  for each new generation of USB, various host c    
  new drivers for peripherals have been added an    
  measurement and improved power management intr    
                                                    
  Linux can run inside USB devices as well as on    
  the devices. But USB device drivers running in    
  don't do the same things as the ones running i    
  been given a different name: *gadget drivers*.    
  cover gadget drivers.                             
                                                    
  USB Host-Side API Model                           
  =======================                           
                                                    
  Host-side drivers for USB devices talk to the     
  two. One is intended for *general-purpose* dri    
  driver frameworks), and the other is for drive    
  core*. Such core drivers include the *hub* dri    
  of USB devices) and several different kinds of    
  drivers*, which control individual busses.        
                                                    
  The device model seen by USB drivers is relati    
                                                    
  -  USB supports four kinds of data transfers (    
     and isochronous). Two of them (control and     
     it's available, while the other two (interr    
     scheduled to provide guaranteed bandwidth.     
                                                    
  -  The device description model includes one o    
     per device, only one of which is active at     
     to be capable of operating at lower than th    
     speeds and may provide a BOS descriptor sho    
     remain fully operational at.                   
                                                    
  -  From USB 3.0 on configurations have one or     
     provide a common functionality and are grou    
     of power management.                           
                                                    
  -  Configurations or functions have one or mor    
     "alternate settings". Interfaces may be sta    
     specifications, or may be specific to a ven    
                                                    
     USB device drivers actually bind to interfa    
     them as "interface drivers", though you may    
     where the distinction is important. *Most U    
     with only one function, one configuration,     
     setting.*                                      
                                                    
  -  Interfaces have one or more "endpoints", ea    
     type and direction of data transfer such as    
     in". The entire configuration may have up t    
     each direction, allocated as needed among a    
                                                    
  -  Data transfer on USB is packetized; each en    
     packet size. Drivers must often be aware of    
     flagging the end of bulk transfers using "s    
     length) packets.                               
                                                    
  -  The Linux USB API supports synchronous call    
     messages. It also supports asynchronous cal    
     transfer, using request structures called "    
     Blocks).                                       
                                                    
  Accordingly, the USB Core API exposed to devic    
  lot of territory. You'll probably need to cons    
  specification, available online from www.usb.o    
  class or device specifications.                   
                                                    
  The only host-side drivers that actually touch    
  registers, handling IRQs, and so on) are the H    
  provide the same functionality through the sam    
  becoming more true, but there are still differ    
  that crop up especially with fault handling on    
  Different controllers don't                       
 necessarily report the same aspects of failure    
 faults (including software-induced ones like u    
 fully consistent. Device driver authors should    
 disconnect testing (while the device is active    
 controller driver, to make sure drivers don't     
 well as to make sure they aren't relying on so    
                                                   
 .. _usb_chapter9:                                 
                                                   
 USB-Standard Types                                
 ==================                                
                                                   
 In ``include/uapi/linux/usb/ch9.h`` you will f    
 in chapter 9 of the USB specification. These d    
 USB, and in APIs including this host side API,    
 devices and debugfs interfaces. That file is i    
 ``include/linux/usb/ch9.h``, which also contai    
 utility routines for manipulating these data t    
 are in ``drivers/usb/common/common.c``.           
                                                   
 .. kernel-doc:: drivers/usb/common/common.c       
    :export:                                       
                                                   
 In addition, some functions useful for creatin    
 defined in ``drivers/usb/common/debug.c``.        
                                                   
 .. _usb_header:                                   
                                                   
 Host-Side Data Types and Macros                   
 ===============================                   
                                                   
 The host side API exposes several layers to dr    
 more necessary than others. These support life    
 drivers and devices, and support passing buffe    
 HCD that performs the I/O for the device drive    
                                                   
 .. kernel-doc:: include/linux/usb.h               
    :internal:                                     
                                                   
 USB Core APIs                                     
 =============                                     
                                                   
 There are two basic I/O models in the USB API.    
 asynchronous: drivers submit requests in the f    
 URB's completion callback handles the next ste    
 support that model, although there are special    
 (which always have setup and status stages, bu    
 stage) and isochronous URBs (which allow large    
 per-packet fault reports). Built on top of tha    
 support, where a driver calls a routine that a    
 submits them, and waits until they complete. T    
 wrappers for single-buffer control and bulk tr    
 to use in some driver disconnect scenarios), a    
 streaming i/o (bulk or interrupt).                
                                                   
 USB drivers need to provide buffers that can b    
 they don't necessarily need to provide the DMA    
 are APIs to use used when allocating DMA buffe    
 of bounce buffers on some systems. In some cas    
 rely on 64bit DMA to eliminate another kind of    
                                                   
 .. kernel-doc:: drivers/usb/core/urb.c            
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/message.c        
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/file.c           
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/driver.c         
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/usb.c            
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/hub.c            
    :export:                                       
                                                   
 Host Controller APIs                              
 ====================                              
                                                   
 These APIs are only for use by host controller    
 implement standard register interfaces such as    
 was one of the first interfaces, designed by I    
 it doesn't do much in hardware. OHCI was desig    
 hardware do more work (bigger transfers, track    
 on). EHCI was designed with USB 2.0; its desig    
 resemble OHCI (hardware does much more work) a    
 of ISO support, TD list processing). XHCI was     
 continues to shift support for functionality i    
                                                   
 There are host controllers other than the "big    
 based controllers (and a few non-PCI based one    
 interfaces. Not all host controllers use DMA;     
 also a simulator and a virtual host controller    
                                                   
 The same basic APIs are available to drivers f    
 For historical reasons they are in two layers:    
 usb_bus <usb_bus>` is a rather thin layer that    
 in the 2.2 kernels, while :c:type:`struct usb_    
 is a more featureful layer                        
 that lets HCDs share common code, to shrink dr    
 significantly reduce hcd-specific behaviors.      
                                                   
 .. kernel-doc:: drivers/usb/core/hcd.c            
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/hcd-pci.c        
    :export:                                       
                                                   
 .. kernel-doc:: drivers/usb/core/buffer.c         
    :internal:                                     
                                                   
 The USB character device nodes                    
 ==============================                    
                                                   
 This chapter presents the Linux character devi    
 to avoid writing new kernel code for your USB     
 drivers are usually packaged as applications o    
 character devices through some programming lib    
 Such libraries include:                           
                                                   
  - `libusb <http://libusb.sourceforge.net>`__     
  - `jUSB <http://jUSB.sourceforge.net>`__ for     
                                                   
 Some old information about it can be seen at t    
 section of the USB Guide. The latest copy of t    
 at http://www.linux-usb.org/                      
                                                   
 .. note::                                         
                                                   
   - They were used to be implemented via *usbf    
     the sysfs debug interface.                    
                                                   
    - This particular documentation is incomple    
      to the asynchronous mode. As of kernel 2.    
      (new) documentation need to be cross-revi    
                                                   
 What files are in "devtmpfs"?                     
 -----------------------------                     
                                                   
 Conventionally mounted at ``/dev/bus/usb/``, u    
                                                   
 -  ``/dev/bus/usb/BBB/DDD`` ... magic files ex    
    configuration descriptors, and supporting a    
    making device requests, including I/O to de    
    by programs.)                                  
                                                   
 Each bus is given a number (``BBB``) based on     
 each bus, each device is given a similar numbe    
 paths are not "stable" identifiers; expect the    
 always leave the devices plugged in to the sam    
 think of saving these in application configura    
 identifiers are available, for user mode appli    
 them. HID and networking devices expose these     
 example you can be sure that you told the righ    
 second server. Pleast note that it doesn't (ye    
                                                   
 /dev/bus/usb/BBB/DDD                              
 --------------------                              
                                                   
 Use these files in one of these basic ways:       
                                                   
 - *They can be read,* producing first the devi    
   then the descriptors for the current configu    
   for details about those binary data formats.    
   multibyte values from little endian format t    
   order, although a few of the fields in the d    
   the BCD-encoded fields, and the vendor and p    
   byteswapped for you. Note that configuration    
   descriptors for interfaces, altsettings, end    
   class descriptors.                              
                                                   
 - *Perform USB operations* using *ioctl()* req    
   requests (synchronously or asynchronously) o    
   requests need the ``CAP_SYS_RAWIO`` capabili    
   access permissions. Only one ioctl request c    
   device files at a time. This means that if y    
   an endpoint from one thread, you won't be ab    
   endpoint from another thread until the read     
   *half duplex* protocols, but otherwise you'd    
   requests.                                       
                                                   
 Each connected USB device has one file.  The `    
 number.  The ``DDD`` indicates the device addr    
 of these numbers are assigned sequentially, an    
 you can't rely on them for stable access to de    
 it's relatively common for devices to re-enume    
 still connected (perhaps someone jostled their    
 or USB cable), so a device might be ``002/027`    
 it and ``002/048`` sometime later.                
                                                   
 These files can be read as binary data.  The b    
 of first the device descriptor, then the descr    
 configuration of the device.  Multi-byte field    
 are converted to host endianness by the kernel    
 descriptors are in bus endian format! The conf    
 are wTotalLength bytes apart. If a device retu    
 descriptor data than indicated by wTotalLength    
 the file for the missing bytes.  This informat    
 in text form by the ``/sys/kernel/debug/usb/de    
                                                   
 These files may also be used to write user-lev    
 devices.  You would open the ``/dev/bus/usb/BB    
 read its descriptors to make sure it's the dev    
 bind to an interface (or perhaps several) usin    
 would issue more ioctls to the device to commu    
 control, bulk, or other kinds of USB transfers    
 listed in the ``<linux/usbdevice_fs.h>`` file,    
 source code (``linux/drivers/usb/core/devio.c`    
 for how to access devices through those files.    
                                                   
 Note that since by default these ``BBB/DDD`` f    
 root, only root can write such user mode drive    
 grant read/write permissions to other users by    
 usbfs mount options such as ``devmode=0666`` m    
                                                   
                                                   
 Life Cycle of User Mode Drivers                   
 -------------------------------                   
                                                   
 Such a driver first needs to find a device fil    
 how to handle. Maybe it was told about it beca    
 event handling agent chose that driver to hand    
 maybe it's an application that scans all the `    
 and ignores most devices. In either case, it s    
 all the descriptors from the device file, and     
 knows how to handle. It might just reject ever    
 vendor and product ID, or need a more complex     
                                                   
 Never assume there will only be one such devic    
 If your code can't handle more than one device    
 detect when there's more than one, and have yo    
 device to use.                                    
                                                   
 Once your user mode driver knows what device t    
 it in either of two styles. The simple style i    
 requests; some devices don't need more complex    
 (An example might be software using vendor-spe    
 some initialization or configuration tasks, wi    
 rest.)                                            
                                                   
 More likely, you need a more complex style dri    
 endpoints, reading or writing data and claimin    
 interface. *Bulk* transfers are easiest to use    
 *interrupt* transfers work with low speed devi    
 *isochronous* transfers offer service guarante    
 is reserved. Such "periodic" transfers are awk    
 unless you're using the asynchronous calls. Ho    
 can also be used in a synchronous "one shot" s    
                                                   
 Your user-mode driver should never need to wor    
 request state when the device is disconnected,    
 its open file descriptors as soon as it starts    
                                                   
 The ioctl() Requests                              
 --------------------                              
                                                   
 To use these ioctls, you need to include the f    
 userspace program::                               
                                                   
     #include <linux/usb.h>                        
     #include <linux/usbdevice_fs.h>               
     #include <asm/byteorder.h>                    
                                                   
 The standard USB device model requests, from "    
 specification, are automatically included from    
 header.                                           
                                                   
 Unless noted otherwise, the ioctl requests des    
 the modification time on the usbfs file to whi    
 (unless they fail). A return of zero indicates    
 standard USB error code is returned (These are    
 :ref:`usb-error-codes`).                          
                                                   
 Each of these files multiplexes access to seve    
 endpoint. Each device has one control endpoint    
 supports a limited RPC style RPC access. Devic    
 hub_wq (in the kernel) setting a device-wide *    
 affects things like power consumption and basi    
 endpoints are part of USB *interfaces*, which     
 affecting things like which endpoints are avai    
 have a single configuration and interface, so     
 ignore configurations and altsettings.            
                                                   
 Management/Status Requests                        
 ~~~~~~~~~~~~~~~~~~~~~~~~~~                        
                                                   
 A number of usbfs requests don't deal very dir    
 They mostly relate to device management and st    
 synchronous requests.                             
                                                   
 USBDEVFS_CLAIMINTERFACE                           
     This is used to force usbfs to claim a spe    
     not previously been claimed by usbfs or an    
     ioctl parameter is an integer holding the     
     (bInterfaceNumber from descriptor).           
                                                   
     Note that if your driver doesn't claim an     
     use one of its endpoints, and no other dri    
     the interface is automatically claimed by     
                                                   
     This claim will be released by a RELEASEIN    
     closing the file descriptor. File modifica    
     by this request.                              
                                                   
 USBDEVFS_CONNECTINFO                              
     Says whether the device is lowspeed. The i    
     structure like this::                         
                                                   
         struct usbdevfs_connectinfo {             
                 unsigned int   devnum;            
                 unsigned char  slow;              
         };                                        
                                                   
     File modification time is not updated by t    
                                                   
     *You can't tell whether a "not slow" devic    
     speed (480 MBit/sec) or just full speed (1    
     know the devnum value already, it's the DD    
     name.                                         
                                                   
 USBDEVFS_GET_SPEED                                
     Returns the speed of the device. The speed    
     numerical value in accordance with enum us    
                                                   
     File modification time is not updated by t    
                                                   
 USBDEVFS_GETDRIVER                                
     Returns the name of the kernel driver boun    
     string). Parameter is a pointer to this st    
     modified::                                    
                                                   
         struct usbdevfs_getdriver {               
                 unsigned int  interface;          
                 char          driver[USBDEVFS_    
         };                                        
                                                   
     File modification time is not updated by t    
                                                   
 USBDEVFS_IOCTL                                    
     Passes a request from userspace through to    
     an ioctl entry in the *struct usb_driver*     
                                                   
         struct usbdevfs_ioctl {                   
                 int     ifno;                     
                 int     ioctl_code;               
                 void    *data;                    
         };                                        
                                                   
         /* user mode call looks like this.        
          * 'request' becomes the driver->ioctl    
          * the size of 'param' is encoded in '    
          * is copied to or from the driver->io    
          */                                       
         static int                                
         usbdev_ioctl (int fd, int ifno, unsign    
         {                                         
                 struct usbdevfs_ioctl   wrappe    
                                                   
                 wrapper.ifno = ifno;              
                 wrapper.ioctl_code = request;     
                 wrapper.data = param;             
                                                   
                 return ioctl (fd, USBDEVFS_IOC    
         }                                         
                                                   
     File modification time is not updated by t    
                                                   
     This request lets kernel drivers talk to u    
     filesystem operations even when they don't    
     block special device. It's also been used     
     devices what device special file should be    
     ioctls are used to disconnect and reconnec    
     user mode code can completely manage bindi    
     devices.                                      
                                                   
 USBDEVFS_RELEASEINTERFACE                         
     This is used to release the claim usbfs ma    
     implicitly or because of a USBDEVFS_CLAIMI    
     file descriptor is closed. The ioctl param    
     the number of the interface (bInterfaceNum    
     modification time is not updated by this r    
                                                   
     .. warning::                                  
                                                   
         *No security check is made to ensure t    
         the claim is the one which is releasin    
         mode driver may interfere other ones.*    
                                                   
 USBDEVFS_RESETEP                                  
     Resets the data toggle value for an endpoi    
     DATA0. The ioctl parameter is an integer e    
     as identified in the endpoint descriptor),    
     if the device's endpoint sends data to the    
                                                   
     .. Warning::                                  
                                                   
         *Avoid using this request. It should p    
         it typically means the device and driv    
         synchronization. If you really lost sy    
         need to completely handshake with the     
         like CLEAR_HALT or SET_INTERFACE.         
                                                   
 USBDEVFS_DROP_PRIVILEGES                          
     This is used to relinquish the ability to     
     which are considered to be privileged on a    
     This includes claiming arbitrary interface    
     which there are currently claimed interfac    
     issuing USBDEVFS_IOCTL calls. The ioctl pa    
     of interfaces the user is allowed to claim    
     You may issue this ioctl more than one tim    
                                                   
 Synchronous I/O Support                           
 ~~~~~~~~~~~~~~~~~~~~~~~                           
                                                   
 Synchronous requests involve the kernel blocki    
 request completes, either by finishing success    
 error. In most cases this is the simplest way     
 noted above it does prevent performing I/O to     
 a time.                                           
                                                   
 USBDEVFS_BULK                                     
     Issues a bulk read or write request to the    
     parameter is a pointer to this structure::    
                                                   
         struct usbdevfs_bulktransfer {            
                 unsigned int  ep;                 
                 unsigned int  len;                
                 unsigned int  timeout; /* in m    
                 void          *data;              
         };                                        
                                                   
     The ``ep`` value identifies a bulk endpoin    
     identified in an endpoint descriptor), mas    
     referring to an endpoint which sends data     
     device. The length of the data buffer is i    
     kernels support requests up to about 128KB    
     length is returned, and how short reads ar    
                                                   
 USBDEVFS_CLEAR_HALT                               
     Clears endpoint halt (stall) and resets th    
     only meaningful for bulk or interrupt endp    
     is an integer endpoint number (1 to 15, as    
     descriptor), masked with USB_DIR_IN when r    
     which sends data to the host from the devi    
                                                   
     Use this on bulk or interrupt endpoints wh    
     returning ``-EPIPE`` status to a data tran    
     the control request directly, since that c    
     record of the data toggle.                    
                                                   
 USBDEVFS_CONTROL                                  
     Issues a control request to the device. Th    
     to a structure like this::                    
                                                   
         struct usbdevfs_ctrltransfer {            
                 __u8   bRequestType;              
                 __u8   bRequest;                  
                 __u16  wValue;                    
                 __u16  wIndex;                    
                 __u16  wLength;                   
                 __u32  timeout;  /* in millise    
                 void   *data;                     
         };                                        
                                                   
     The first eight bytes of this structure ar    
     SETUP packet to be sent to the device; see    
     for details. The bRequestType value is com    
     ``USB_TYPE_*`` value, a ``USB_DIR_*`` valu    
     value (from ``linux/usb.h``). If wLength i    
     the length of the data buffer, which is ei    
     (USB_DIR_OUT) or read from the device (USB    
                                                   
     At this writing, you can't transfer more t    
     from a device; usbfs has a limit, and some    
     have a limit. (That's not usually a proble    
     to say it's not OK to get a short read bac    
                                                   
 USBDEVFS_RESET                                    
     Does a USB level device reset. The ioctl p    
     the reset, this rebinds all device interfa    
     time is not updated by this request.          
                                                   
 .. warning::                                      
                                                   
         *Avoid using this call* until some usb    
         it does not fully synchronize device,     
         just usbfs) state.                        
                                                   
 USBDEVFS_SETINTERFACE                             
     Sets the alternate setting for an interfac    
     a pointer to a structure like this::          
                                                   
         struct usbdevfs_setinterface {            
                 unsigned int  interface;          
                 unsigned int  altsetting;         
         };                                        
                                                   
     File modification time is not updated by t    
                                                   
     Those struct members are from some interfa    
     the current configuration. The interface n    
     bInterfaceNumber value, and the altsetting    
     bAlternateSetting value. (This resets each    
     interface.)                                   
                                                   
 USBDEVFS_SETCONFIGURATION                         
     Issues the :c:func:`usb_set_configuration(    
     device. The parameter is an integer holdin    
     configuration (bConfigurationValue from de    
     modification time is not updated by this r    
                                                   
 .. warning::                                      
                                                   
         *Avoid using this call* until some usb    
         it does not fully synchronize device,     
         just usbfs) state.                        
                                                   
 Asynchronous I/O Support                          
 ~~~~~~~~~~~~~~~~~~~~~~~~                          
                                                   
 As mentioned above, there are situations where    
 initiate concurrent operations from user mode     
 important for periodic transfers (interrupt an    
 be used for other kinds of USB requests too. I    
 asynchronous requests described here are essen    
 submitting one request and having the kernel b    
 the blocking is separate.                         
                                                   
 These requests are packaged into a structure t    
 by kernel device drivers. (No POSIX Async I/O     
 identifies the endpoint type (``USBDEVFS_URB_T    
 (number, masked with USB_DIR_IN as appropriate    
 and a user "context" value serving to uniquely    
 (It's usually a pointer to per-request data.)     
 (not as many as supported for kernel drivers).    
                                                   
 Each request can specify a realtime signal num    
 SIGRTMAX, inclusive) to request a signal be se    
 completes.                                        
                                                   
 When usbfs returns these urbs, the status valu    
 buffer may have been modified. Except for isoc    
 actual_length is updated to say how many bytes    
 USBDEVFS_URB_DISABLE_SPD flag is set ("short p    
 fewer bytes were read than were requested then    
                                                   
     struct usbdevfs_iso_packet_desc {             
             unsigned int                     l    
             unsigned int                     a    
             unsigned int                     s    
     };                                            
                                                   
     struct usbdevfs_urb {                         
             unsigned char                    t    
             unsigned char                    e    
             int                              s    
             unsigned int                     f    
             void                             *    
             int                              b    
             int                              a    
             int                              s    
             int                              n    
             int                              e    
             unsigned int                     s    
             void                             *    
             struct usbdevfs_iso_packet_desc  i    
     };                                            
                                                   
 For these asynchronous requests, the file modi    
 when the request was initiated. This contrasts    
 synchronous requests, where it reflects when r    
                                                   
 USBDEVFS_DISCARDURB                               
     *TBS* File modification time is not update    
                                                   
 USBDEVFS_DISCSIGNAL                               
     *TBS* File modification time is not update    
                                                   
 USBDEVFS_REAPURB                                  
     *TBS* File modification time is not update    
                                                   
 USBDEVFS_REAPURBNDELAY                            
     *TBS* File modification time is not update    
                                                   
 USBDEVFS_SUBMITURB                                
     *TBS*                                         
                                                   
 The USB devices                                   
 ===============                                   
                                                   
 The USB devices are now exported via debugfs:     
                                                   
 -  ``/sys/kernel/debug/usb/devices`` ... a tex    
    devices on known to the kernel, and their c    
    You can also poll() this to learn about new    
                                                   
 /sys/kernel/debug/usb/devices                     
 -----------------------------                     
                                                   
 This file is handy for status viewing tools in    
 the text format and ignore most of it. More de    
 (including class and vendor status) is availab    
 files. For information about the current forma    
                                                   
 This file, in combination with the poll() syst    
 to detect when devices are added or removed::     
                                                   
     int fd;                                       
     struct pollfd pfd;                            
                                                   
     fd = open("/sys/kernel/debug/usb/devices",    
     pfd = { fd, POLLIN, 0 };                      
     for (;;) {                                    
         /* The first time through, this call w    
         poll(&pfd, 1, -1);                        
                                                   
         /* To see what's changed, compare the     
            contents or scan the filesystem.  (    
     }                                             
                                                   
 Note that this behavior is intended to be used    
 debug purposes. It would be more appropriate t    
 udev or HAL to initialize a device or start a     
 for instance.                                     
                                                   
 In this file, each device's output has multipl    
                                                   
 I made it ASCII instead of binary on purpose,     
 can obtain some useful data from it without th    
 auxiliary program.  However, with an auxiliary    
 in the first 4 columns of each ``T:`` line (to    
 Lev, Prnt, Port, Cnt) can be used to build a U    
                                                   
 Each line is tagged with a one-character ID fo    
                                                   
         T = Topology (etc.)                       
         B = Bandwidth (applies only to USB hos    
         virtualized as root hubs)                 
         D = Device descriptor info.               
         P = Product ID info. (from Device desc    
         together on one line)                     
         S = String descriptors.                   
         C = Configuration descriptor info. (*     
         I = Interface descriptor info.            
         E = Endpoint descriptor info.             
                                                   
 /sys/kernel/debug/usb/devices output format       
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~       
                                                   
 Legend::                                          
   d = decimal number (may have leading spaces     
   x = hexadecimal number (may have leading spa    
   s = string                                      
                                                   
                                                   
                                                   
 Topology info                                     
 ^^^^^^^^^^^^^                                     
                                                   
 ::                                                
                                                   
         T:  Bus=dd Lev=dd Prnt=dd Port=dd Cnt=    
         |   |      |      |       |       |       
         |   |      |      |       |       |       
         |   |      |      |       |       |       
         |   |      |      |       |       |__C    
         |   |      |      |       |__Connector    
         |   |      |      |__Parent DeviceNumb    
         |   |      |__Level in topology for th    
         |   |__Bus number                         
         |__Topology info tag                      
                                                   
 Speed may be:                                     
                                                   
         ======= ==============================    
         1.5     Mbit/s for low speed USB          
         12      Mbit/s for full speed USB         
         480     Mbit/s for high speed USB (add    
         5000    Mbit/s for SuperSpeed USB (add    
         ======= ==============================    
                                                   
 For reasons lost in the mists of time, the Por    
 too low by 1.  For example, a device plugged i    
 show up with ``Port=03``.                         
                                                   
 Bandwidth info                                    
 ^^^^^^^^^^^^^^                                    
                                                   
 ::                                                
                                                   
         B:  Alloc=ddd/ddd us (xx%), #Int=ddd,     
         |   |                       |             
         |   |                       |__Number     
         |   |__Total Bandwidth allocated to th    
         |__Bandwidth info tag                     
                                                   
 Bandwidth allocation is an approximation of ho    
 (millisecond) is in use.  It reflects only per    
 are the only transfers that reserve bandwidth.    
 transfers use all other bandwidth, including r    
 is not used for transfers (such as for short p    
                                                   
 The percentage is how much of the "reserved" b    
 those transfers.  For a low or full speed bus     
 90% of the bus bandwidth is reserved.  For a h    
 "USB 2.0") 80% is reserved.                       
                                                   
                                                   
 Device descriptor info & Product ID info          
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^          
                                                   
 ::                                                
                                                   
         D:  Ver=x.xx Cls=xx(s) Sub=xx Prot=xx     
         P:  Vendor=xxxx ProdID=xxxx Rev=xx.xx     
                                                   
 where::                                           
                                                   
         D:  Ver=x.xx Cls=xx(sssss) Sub=xx Prot    
         |   |        |             |      |       
         |   |        |             |      |       
         |   |        |             |      |__D    
         |   |        |             |__DeviceSu    
         |   |        |__DeviceClass               
         |   |__Device USB version                 
         |__Device info tag #1                     
                                                   
 where::                                           
                                                   
         P:  Vendor=xxxx ProdID=xxxx Rev=xx.xx     
         |   |           |           |__Product    
         |   |           |__Product ID code        
         |   |__Vendor ID code                     
         |__Device info tag #2                     
                                                   
                                                   
 String descriptor info                            
 ^^^^^^^^^^^^^^^^^^^^^^                            
 ::                                                
                                                   
         S:  Manufacturer=ssss                     
         |   |__Manufacturer of this device as     
         |      For USB host controller drivers    
         |      be omitted, or (for newer drive    
         |      version and the driver which pr    
         |__String info tag                        
                                                   
         S:  Product=ssss                          
         |   |__Product description of this dev    
         |      For older USB host controller d    
         |      indicates the driver; for newer    
         |      description that often comes fr    
         |__String info tag                        
                                                   
         S:  SerialNumber=ssss                     
         |   |__Serial Number of this device as    
         |      For USB host controller drivers    
         |      some unique ID, normally a bus     
         |      can't be shared with any other     
         |__String info tag                        
                                                   
                                                   
                                                   
 Configuration descriptor info                     
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^                     
 ::                                                
                                                   
         C:* #Ifs=dd Cfg#=dd Atr=xx MPwr=dddmA     
         | | |       |       |      |__MaxPower    
         | | |       |       |__Attributes         
         | | |       |__ConfiguratioNumber         
         | | |__NumberOfInterfaces                 
         | |__ "*" indicates the active configu    
         |__Config info tag                        
                                                   
 USB devices may have multiple configurations,     
 rather differently.  For example, a bus-powere    
 might be much less capable than one that is se    
 one device configuration can be active at a ti    
 have only one configuration.                      
                                                   
 Each configuration consists of one or more int    
 interface serves a distinct "function", which     
 to a different USB device driver.  One common     
 speaker with an audio interface for playback,     
 for use with software volume control.             
                                                   
 Interface descriptor info (can be multiple per    
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^    
 ::                                                
                                                   
         I:* If#=dd Alt=dd #EPs=dd Cls=xx(sssss    
         | | |      |      |       |               
         | | |      |      |       |               
         | | |      |      |       |               
         | | |      |      |       |               
         | | |      |      |       |__Interface    
         | | |      |      |__NumberOfEndpoints    
         | | |      |__AlternateSettingNumber      
         | | |__InterfaceNumber                    
         | |__ "*" indicates the active altsett    
         |__Interface info tag                     
                                                   
 A given interface may have one or more "altern    
 For example, default settings may not use more    
 amount of periodic bandwidth.  To use signific    
 of bus bandwidth, drivers must select a non-de    
                                                   
 Only one setting for an interface may be activ    
 only one driver may bind to an interface at a     
 have only one alternate setting per interface.    
                                                   
                                                   
 Endpoint descriptor info (can be multiple per     
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^    
                                                   
 ::                                                
                                                   
         E:  Ad=xx(s) Atr=xx(ssss) MxPS=dddd Iv    
         |   |        |            |         |_    
         |   |        |            |__EndpointM    
         |   |        |__Attributes(EndpointTyp    
         |   |__EndpointAddress(I=In,O=Out)        
         |__Endpoint info tag                      
                                                   
 The interval is nonzero for all periodic (inte    
 endpoints.  For high speed endpoints the trans    
 measured in microseconds rather than milliseco    
                                                   
 For high speed periodic endpoints, the ``Endpo    
 the per-microframe data transfer size.  For "h    
 endpoints, that can reflect two or three packe    
 3KBytes every 125 usec) per endpoint.             
                                                   
 With the Linux-USB stack, periodic bandwidth r    
 transfer intervals and sizes provided by URBs,    
 than those found in endpoint descriptor.          
                                                   
 Usage examples                                    
 ~~~~~~~~~~~~~~                                    
                                                   
 If a user or script is interested only in Topo    
 example, use something like ``grep ^T: /sys/ke    
 for only the Topology lines.  A command like      
 ``grep -i ^[tdp]: /sys/kernel/debug/usb/device    
 only the lines that begin with the characters     
 where the valid characters are TDPCIE.  With a    
 script, it can display any selected lines (for    
 and P lines) and change their output format.      
 Perl script is the beginning of this idea.  It    
 selected lines [selected from TBDPSCIE] or "Al    
 ``/sys/kernel/debug/usb/devices``.)               
                                                   
 The Topology lines can be used to generate a g    
 of the USB devices on a system's root hub.  (S    
 on how to do this.)                               
                                                   
 The Interface lines can be used to determine w    
 being used for each device, and which altsetti    
                                                   
 The Configuration lines could be used to list     
 (in milliamps) that a system's USB devices are    
 For example, ``grep ^C: /sys/kernel/debug/usb/    
                                                   
                                                   
 Here's an example, from a system which has a U    
 an external hub connected to the root hub, and    
 a serial converter connected to the external h    
                                                   
 ::                                                
                                                   
         T:  Bus=00 Lev=00 Prnt=00 Port=00 Cnt=    
         B:  Alloc= 28/900 us ( 3%), #Int=  2,     
         D:  Ver= 1.00 Cls=09(hub  ) Sub=00 Pro    
         P:  Vendor=0000 ProdID=0000 Rev= 0.00     
         S:  Product=USB UHCI Root Hub             
         S:  SerialNumber=dce0                     
         C:* #Ifs= 1 Cfg#= 1 Atr=40 MxPwr=  0mA    
         I:  If#= 0 Alt= 0 #EPs= 1 Cls=09(hub      
         E:  Ad=81(I) Atr=03(Int.) MxPS=   8 Iv    
                                                   
         T:  Bus=00 Lev=01 Prnt=01 Port=00 Cnt=    
         D:  Ver= 1.00 Cls=09(hub  ) Sub=00 Pro    
         P:  Vendor=0451 ProdID=1446 Rev= 1.00     
         C:* #Ifs= 1 Cfg#= 1 Atr=e0 MxPwr=100mA    
         I:  If#= 0 Alt= 0 #EPs= 1 Cls=09(hub      
         E:  Ad=81(I) Atr=03(Int.) MxPS=   1 Iv    
                                                   
         T:  Bus=00 Lev=02 Prnt=02 Port=00 Cnt=    
         D:  Ver= 1.00 Cls=00(>ifc ) Sub=00 Pro    
         P:  Vendor=04b4 ProdID=0001 Rev= 0.00     
         C:* #Ifs= 1 Cfg#= 1 Atr=80 MxPwr=100mA    
         I:  If#= 0 Alt= 0 #EPs= 1 Cls=03(HID      
         E:  Ad=81(I) Atr=03(Int.) MxPS=   3 Iv    
                                                   
         T:  Bus=00 Lev=02 Prnt=02 Port=02 Cnt=    
         D:  Ver= 1.00 Cls=00(>ifc ) Sub=00 Pro    
         P:  Vendor=0565 ProdID=0001 Rev= 1.08    
         S:  Manufacturer=Peracom Networks, In    
         S:  Product=Peracom USB to Serial Con    
         C:* #Ifs= 1 Cfg#= 1 Atr=a0 MxPwr=100m    
         I:  If#= 0 Alt= 0 #EPs= 3 Cls=00(>ifc    
         E:  Ad=81(I) Atr=02(Bulk) MxPS=  64 I    
         E:  Ad=01(O) Atr=02(Bulk) MxPS=  16 I    
         E:  Ad=82(I) Atr=03(Int.) MxPS=   8 I    
                                                  
                                                  
 Selecting only the ``T:`` and ``I:`` lines fr    
 ``procusb ti``), we have                         
                                                  
 ::                                               
                                                  
         T:  Bus=00 Lev=00 Prnt=00 Port=00 Cnt    
         T:  Bus=00 Lev=01 Prnt=01 Port=00 Cnt    
         I:  If#= 0 Alt= 0 #EPs= 1 Cls=09(hub     
         T:  Bus=00 Lev=02 Prnt=02 Port=00 Cnt    
         I:  If#= 0 Alt= 0 #EPs= 1 Cls=03(HID     
         T:  Bus=00 Lev=02 Prnt=02 Port=02 Cnt    
         I:  If#= 0 Alt= 0 #EPs= 3 Cls=00(>ifc    
                                                  
                                                  
 Physically this looks like (or could be conve    
                                                  
                       +------------------+       
                       |  PC/root_hub (12)|       
                       +------------------+       
     Level 0           |  CN.0   |  CN.1  |       
                       +------------------+       
                           /                      
                          /                       
             +-----------------------+            
   Level 1   | Dev#2: 4-port hub (12)|            
             +-----------------------+            
             |CN.0 |CN.1 |CN.2 |CN.3 |            
             +-----------------------+            
                 \           \________________    
                  \_____                          
                        \                         
                +--------------------+      +-    
   Level 2      | Dev# 3: mouse (1.5)|      |     
                +--------------------+      +-    
                                                  
                                                  
                                                  
 Or, in a more tree-like structure (ports [Con    
 connections could be omitted)::                  
                                                  
         PC:  Dev# 1, root hub, 2 ports, 12 Mb    
         |_ CN.0:  Dev# 2, hub, 4 ports, 12 Mb    
              |_ CN.0:  Dev #3, mouse, 1.5 Mbp    
              |_ CN.1:                            
              |_ CN.2:  Dev #4, serial, 12 Mbp    
              |_ CN.3:                            
         |_ CN.1:                                 
                                                      

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