1.. SPDX-License-Identifier: GPL-2.0 2 3======================================= 4Configuring PCI Endpoint Using CONFIGFS 5======================================= 6 7:Author: Kishon Vijay Abraham I <kishon@ti.com> 8 9The PCI Endpoint Core exposes configfs entry (pci_ep) to configure the 10PCI endpoint function and to bind the endpoint function 11with the endpoint controller. (For introducing other mechanisms to 12configure the PCI Endpoint Function refer to [1]). 13 14Mounting configfs 15================= 16 17The PCI Endpoint Core layer creates pci_ep directory in the mounted configfs 18directory. configfs can be mounted using the following command:: 19 20 mount -t configfs none /sys/kernel/config 21 22Directory Structure 23=================== 24 25The pci_ep configfs has two directories at its root: controllers and 26functions. Every EPC device present in the system will have an entry in 27the *controllers* directory and every EPF driver present in the system 28will have an entry in the *functions* directory. 29:: 30 31 /sys/kernel/config/pci_ep/ 32 .. controllers/ 33 .. functions/ 34 35Creating EPF Device 36=================== 37 38Every registered EPF driver will be listed in controllers directory. The 39entries corresponding to EPF driver will be created by the EPF core. 40:: 41 42 /sys/kernel/config/pci_ep/functions/ 43 .. <EPF Driver1>/ 44 ... <EPF Device 11>/ 45 ... <EPF Device 21>/ 46 .. <EPF Driver2>/ 47 ... <EPF Device 12>/ 48 ... <EPF Device 22>/ 49 50In order to create a <EPF device> of the type probed by <EPF Driver>, the 51user has to create a directory inside <EPF DriverN>. 52 53Every <EPF device> directory consists of the following entries that can be 54used to configure the standard configuration header of the endpoint function. 55(These entries are created by the framework when any new <EPF Device> is 56created) 57:: 58 59 .. <EPF Driver1>/ 60 ... <EPF Device 11>/ 61 ... vendorid 62 ... deviceid 63 ... revid 64 ... progif_code 65 ... subclass_code 66 ... baseclass_code 67 ... cache_line_size 68 ... subsys_vendor_id 69 ... subsys_id 70 ... interrupt_pin 71 ... primary/ 72 ... <Symlink EPC Device1>/ 73 ... secondary/ 74 ... <Symlink EPC Device2>/ 75 76If an EPF device has to be associated with 2 EPCs (like in the case of 77Non-transparent bridge), symlink of endpoint controller connected to primary 78interface should be added in 'primary' directory and symlink of endpoint 79controller connected to secondary interface should be added in 'secondary' 80directory. 81 82EPC Device 83========== 84 85Every registered EPC device will be listed in controllers directory. The 86entries corresponding to EPC device will be created by the EPC core. 87:: 88 89 /sys/kernel/config/pci_ep/controllers/ 90 .. <EPC Device1>/ 91 ... <Symlink EPF Device11>/ 92 ... <Symlink EPF Device12>/ 93 ... start 94 .. <EPC Device2>/ 95 ... <Symlink EPF Device21>/ 96 ... <Symlink EPF Device22>/ 97 ... start 98 99The <EPC Device> directory will have a list of symbolic links to 100<EPF Device>. These symbolic links should be created by the user to 101represent the functions present in the endpoint device. 102 103The <EPC Device> directory will also have a *start* field. Once 104"1" is written to this field, the endpoint device will be ready to 105establish the link with the host. This is usually done after 106all the EPF devices are created and linked with the EPC device. 107:: 108 109 | controllers/ 110 | <Directory: EPC name>/ 111 | <Symbolic Link: Function> 112 | start 113 | functions/ 114 | <Directory: EPF driver>/ 115 | <Directory: EPF device>/ 116 | vendorid 117 | deviceid 118 | revid 119 | progif_code 120 | subclass_code 121 | baseclass_code 122 | cache_line_size 123 | subsys_vendor_id 124 | subsys_id 125 | interrupt_pin 126 | function 127 128[1] :doc:`pci-endpoint` 129