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Linux/Documentation/usb/functionfs.rst

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Diff markup

Differences between /Documentation/usb/functionfs.rst (Version linux-6.12-rc7) and /Documentation/usb/functionfs.rst (Version linux-5.13.19)


  1 ====================                                1 ====================
  2 How FunctionFS works                                2 How FunctionFS works
  3 ====================                                3 ====================
  4                                                     4 
  5 Overview                                       << 
  6 ========                                       << 
  7                                                << 
  8 From kernel point of view it is just a composi      5 From kernel point of view it is just a composite function with some
  9 unique behaviour.  It may be added to an USB c      6 unique behaviour.  It may be added to an USB configuration only after
 10 the user space driver has registered by writin      7 the user space driver has registered by writing descriptors and
 11 strings (the user space program has to provide      8 strings (the user space program has to provide the same information
 12 that kernel level composite functions provide       9 that kernel level composite functions provide when they are added to
 13 the configuration).                                10 the configuration).
 14                                                    11 
 15 This in particular means that the composite in     12 This in particular means that the composite initialisation functions
 16 may not be in init section (ie. may not use th     13 may not be in init section (ie. may not use the __init tag).
 17                                                    14 
 18 From user space point of view it is a file sys     15 From user space point of view it is a file system which when
 19 mounted provides an "ep0" file.  User space dr     16 mounted provides an "ep0" file.  User space driver need to
 20 write descriptors and strings to that file.  I     17 write descriptors and strings to that file.  It does not need
 21 to worry about endpoints, interfaces or string     18 to worry about endpoints, interfaces or strings numbers but
 22 simply provide descriptors such as if the func     19 simply provide descriptors such as if the function was the
 23 only one (endpoints and strings numbers starti     20 only one (endpoints and strings numbers starting from one and
 24 interface numbers starting from zero).  The Fu     21 interface numbers starting from zero).  The FunctionFS changes
 25 them as needed also handling situation when nu     22 them as needed also handling situation when numbers differ in
 26 different configurations.                          23 different configurations.
 27                                                    24 
 28 For more information about FunctionFS descript << 
 29                                                << 
 30 When descriptors and strings are written "ep#"     25 When descriptors and strings are written "ep#" files appear
 31 (one for each declared endpoint) which handle      26 (one for each declared endpoint) which handle communication on
 32 a single endpoint.  Again, FunctionFS takes ca     27 a single endpoint.  Again, FunctionFS takes care of the real
 33 numbers and changing of the configuration (whi     28 numbers and changing of the configuration (which means that
 34 "ep1" file may be really mapped to (say) endpo     29 "ep1" file may be really mapped to (say) endpoint 3 (and when
 35 configuration changes to (say) endpoint 2)).       30 configuration changes to (say) endpoint 2)).  "ep0" is used
 36 for receiving events and handling setup reques     31 for receiving events and handling setup requests.
 37                                                    32 
 38 When all files are closed the function disable     33 When all files are closed the function disables itself.
 39                                                    34 
 40 What I also want to mention is that the Functi     35 What I also want to mention is that the FunctionFS is designed in such
 41 a way that it is possible to mount it several      36 a way that it is possible to mount it several times so in the end
 42 a gadget could use several FunctionFS function     37 a gadget could use several FunctionFS functions. The idea is that
 43 each FunctionFS instance is identified by the      38 each FunctionFS instance is identified by the device name used
 44 when mounting.                                     39 when mounting.
 45                                                    40 
 46 One can imagine a gadget that has an Ethernet,     41 One can imagine a gadget that has an Ethernet, MTP and HID interfaces
 47 where the last two are implemented via Functio     42 where the last two are implemented via FunctionFS.  On user space
 48 level it would look like this::                    43 level it would look like this::
 49                                                    44 
 50   $ insmod g_ffs.ko idVendor=<ID> iSerialNumbe     45   $ insmod g_ffs.ko idVendor=<ID> iSerialNumber=<string> functions=mtp,hid
 51   $ mkdir /dev/ffs-mtp && mount -t functionfs      46   $ mkdir /dev/ffs-mtp && mount -t functionfs mtp /dev/ffs-mtp
 52   $ ( cd /dev/ffs-mtp && mtp-daemon ) &            47   $ ( cd /dev/ffs-mtp && mtp-daemon ) &
 53   $ mkdir /dev/ffs-hid && mount -t functionfs      48   $ mkdir /dev/ffs-hid && mount -t functionfs hid /dev/ffs-hid
 54   $ ( cd /dev/ffs-hid && hid-daemon ) &            49   $ ( cd /dev/ffs-hid && hid-daemon ) &
 55                                                    50 
 56 On kernel level the gadget checks ffs_data->de     51 On kernel level the gadget checks ffs_data->dev_name to identify
 57 whether its FunctionFS is designed for MTP ("m !!  52 whether it's FunctionFS designed for MTP ("mtp") or HID ("hid").
 58                                                    53 
 59 If no "functions" module parameters is supplie     54 If no "functions" module parameters is supplied, the driver accepts
 60 just one function with any name.                   55 just one function with any name.
 61                                                    56 
 62 When "functions" module parameter is supplied,     57 When "functions" module parameter is supplied, only functions
 63 with listed names are accepted. In particular,     58 with listed names are accepted. In particular, if the "functions"
 64 parameter's value is just a one-element list,      59 parameter's value is just a one-element list, then the behaviour
 65 is similar to when there is no "functions" at      60 is similar to when there is no "functions" at all; however,
 66 only a function with the specified name is acc     61 only a function with the specified name is accepted.
 67                                                    62 
 68 The gadget is registered only after all the de     63 The gadget is registered only after all the declared function
 69 filesystems have been mounted and USB descript     64 filesystems have been mounted and USB descriptors of all functions
 70 have been written to their ep0's.                  65 have been written to their ep0's.
 71                                                    66 
 72 Conversely, the gadget is unregistered after t     67 Conversely, the gadget is unregistered after the first USB function
 73 closes its endpoints.                              68 closes its endpoints.
 74                                                << 
 75 DMABUF interface                               << 
 76 ================                               << 
 77                                                << 
 78 FunctionFS additionally supports a DMABUF base << 
 79 userspace can attach DMABUF objects (externall << 
 80 and subsequently use them for data transfers.  << 
 81                                                << 
 82 A userspace application can then use this inte << 
 83 objects between several interfaces, allowing i << 
 84 zero-copy fashion, for instance between IIO an << 
 85                                                << 
 86 As part of this interface, three new IOCTLs ha << 
 87 IOCTLs have to be performed on a data endpoint << 
 88                                                << 
 89   ``FUNCTIONFS_DMABUF_ATTACH(int)``            << 
 90     Attach the DMABUF object, identified by it << 
 91     data endpoint. Returns zero on success, an << 
 92     on error.                                  << 
 93                                                << 
 94   ``FUNCTIONFS_DMABUF_DETACH(int)``            << 
 95     Detach the given DMABUF object, identified << 
 96     from the data endpoint. Returns zero on su << 
 97     errno value on error. Note that closing th << 
 98     descriptor will automatically detach all a << 
 99                                                << 
100   ``FUNCTIONFS_DMABUF_TRANSFER(struct usb_ffs_ << 
101     Enqueue the previously attached DMABUF to  << 
102     The argument is a structure that packs the << 
103     the size in bytes to transfer (which shoul << 
104     the size of the DMABUF), and a 'flags' fie << 
105     for now. Returns zero on success, and a ne << 
106     error.                                     << 
                                                      

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