1 .. SPDX-License-Identifier: BSD-3-Clause 1 .. SPDX-License-Identifier: BSD-3-Clause 2 2 3 ============================================== 3 ====================================================== 4 Netlink specification support for raw Netlink 4 Netlink specification support for raw Netlink families 5 ============================================== 5 ====================================================== 6 6 7 This document describes the additional propert 7 This document describes the additional properties required by raw Netlink 8 families such as ``NETLINK_ROUTE`` which use t 8 families such as ``NETLINK_ROUTE`` which use the ``netlink-raw`` protocol 9 specification. 9 specification. 10 10 11 Specification 11 Specification 12 ============= 12 ============= 13 13 14 The netlink-raw schema extends the :doc:`genet 14 The netlink-raw schema extends the :doc:`genetlink-legacy <genetlink-legacy>` 15 schema with properties that are needed to spec 15 schema with properties that are needed to specify the protocol numbers and 16 multicast IDs used by raw netlink families. Se 16 multicast IDs used by raw netlink families. See :ref:`classic_netlink` for more 17 information. The raw netlink families also mak 17 information. The raw netlink families also make use of type-specific 18 sub-messages. 18 sub-messages. 19 19 20 Globals 20 Globals 21 ------- 21 ------- 22 22 23 protonum 23 protonum 24 ~~~~~~~~ 24 ~~~~~~~~ 25 25 26 The ``protonum`` property is used to specify t 26 The ``protonum`` property is used to specify the protocol number to use when 27 opening a netlink socket. 27 opening a netlink socket. 28 28 29 .. code-block:: yaml 29 .. code-block:: yaml 30 30 31 # SPDX-License-Identifier: ((GPL-2.0 WITH Li 31 # SPDX-License-Identifier: ((GPL-2.0 WITH Linux-syscall-note) OR BSD-3-Clause) 32 32 33 name: rt-addr 33 name: rt-addr 34 protocol: netlink-raw 34 protocol: netlink-raw 35 protonum: 0 # part of the NETLIN 35 protonum: 0 # part of the NETLINK_ROUTE protocol 36 36 37 37 38 Multicast group properties 38 Multicast group properties 39 -------------------------- 39 -------------------------- 40 40 41 value 41 value 42 ~~~~~ 42 ~~~~~ 43 43 44 The ``value`` property is used to specify the 44 The ``value`` property is used to specify the group ID to use for multicast 45 group registration. 45 group registration. 46 46 47 .. code-block:: yaml 47 .. code-block:: yaml 48 48 49 mcast-groups: 49 mcast-groups: 50 list: 50 list: 51 - 51 - 52 name: rtnlgrp-ipv4-ifaddr 52 name: rtnlgrp-ipv4-ifaddr 53 value: 5 53 value: 5 54 - 54 - 55 name: rtnlgrp-ipv6-ifaddr 55 name: rtnlgrp-ipv6-ifaddr 56 value: 9 56 value: 9 57 - 57 - 58 name: rtnlgrp-mctp-ifaddr 58 name: rtnlgrp-mctp-ifaddr 59 value: 34 59 value: 34 60 60 61 Sub-messages 61 Sub-messages 62 ------------ 62 ------------ 63 63 64 Several raw netlink families such as 64 Several raw netlink families such as 65 :doc:`rt_link<../../networking/netlink_spec/rt 65 :doc:`rt_link<../../networking/netlink_spec/rt_link>` and 66 :doc:`tc<../../networking/netlink_spec/tc>` us 66 :doc:`tc<../../networking/netlink_spec/tc>` use attribute nesting as an 67 abstraction to carry module specific informati 67 abstraction to carry module specific information. 68 68 69 Conceptually it looks as follows:: 69 Conceptually it looks as follows:: 70 70 71 [OUTER NEST OR MESSAGE LEVEL] 71 [OUTER NEST OR MESSAGE LEVEL] 72 [GENERIC ATTR 1] 72 [GENERIC ATTR 1] 73 [GENERIC ATTR 2] 73 [GENERIC ATTR 2] 74 [GENERIC ATTR 3] 74 [GENERIC ATTR 3] 75 [GENERIC ATTR - wrapper] 75 [GENERIC ATTR - wrapper] 76 [MODULE SPECIFIC ATTR 1] 76 [MODULE SPECIFIC ATTR 1] 77 [MODULE SPECIFIC ATTR 2] 77 [MODULE SPECIFIC ATTR 2] 78 78 79 The ``GENERIC ATTRs`` at the outer level are d 79 The ``GENERIC ATTRs`` at the outer level are defined in the core (or rt_link or 80 core TC), while specific drivers, TC classifie 80 core TC), while specific drivers, TC classifiers, qdiscs etc. can carry their 81 own information wrapped in the ``GENERIC ATTR 81 own information wrapped in the ``GENERIC ATTR - wrapper``. Even though the 82 example above shows attributes nesting inside 82 example above shows attributes nesting inside the wrapper, the modules generally 83 have full freedom to define the format of the 83 have full freedom to define the format of the nest. In practice the payload of 84 the wrapper attr has very similar characterist 84 the wrapper attr has very similar characteristics to a netlink message. It may 85 contain a fixed header / structure, netlink at 85 contain a fixed header / structure, netlink attributes, or both. Because of 86 those shared characteristics we refer to the p 86 those shared characteristics we refer to the payload of the wrapper attribute as 87 a sub-message. 87 a sub-message. 88 88 89 A sub-message attribute uses the value of anot 89 A sub-message attribute uses the value of another attribute as a selector key to 90 choose the right sub-message format. For examp 90 choose the right sub-message format. For example if the following attribute has 91 already been decoded: 91 already been decoded: 92 92 93 .. code-block:: json 93 .. code-block:: json 94 94 95 { "kind": "gre" } 95 { "kind": "gre" } 96 96 97 and we encounter the following attribute spec: 97 and we encounter the following attribute spec: 98 98 99 .. code-block:: yaml 99 .. code-block:: yaml 100 100 101 - 101 - 102 name: data 102 name: data 103 type: sub-message 103 type: sub-message 104 sub-message: linkinfo-data-msg 104 sub-message: linkinfo-data-msg 105 selector: kind 105 selector: kind 106 106 107 Then we look for a sub-message definition call 107 Then we look for a sub-message definition called ``linkinfo-data-msg`` and use 108 the value of the ``kind`` attribute i.e. ``gre 108 the value of the ``kind`` attribute i.e. ``gre`` as the key to choose the 109 correct format for the sub-message: 109 correct format for the sub-message: 110 110 111 .. code-block:: yaml 111 .. code-block:: yaml 112 112 113 sub-messages: 113 sub-messages: 114 name: linkinfo-data-msg 114 name: linkinfo-data-msg 115 formats: 115 formats: 116 - 116 - 117 value: bridge 117 value: bridge 118 attribute-set: linkinfo-bridge-attrs 118 attribute-set: linkinfo-bridge-attrs 119 - 119 - 120 value: gre 120 value: gre 121 attribute-set: linkinfo-gre-attrs 121 attribute-set: linkinfo-gre-attrs 122 - 122 - 123 value: geneve 123 value: geneve 124 attribute-set: linkinfo-geneve-attrs 124 attribute-set: linkinfo-geneve-attrs 125 125 126 This would decode the attribute value as a sub 126 This would decode the attribute value as a sub-message with the attribute-set 127 called ``linkinfo-gre-attrs`` as the attribute 127 called ``linkinfo-gre-attrs`` as the attribute space. 128 128 129 A sub-message can have an optional ``fixed-hea 129 A sub-message can have an optional ``fixed-header`` followed by zero or more 130 attributes from an ``attribute-set``. For exam 130 attributes from an ``attribute-set``. For example the following 131 ``tc-options-msg`` sub-message defines message 131 ``tc-options-msg`` sub-message defines message formats that use a mixture of 132 ``fixed-header``, ``attribute-set`` or both to 132 ``fixed-header``, ``attribute-set`` or both together: 133 133 134 .. code-block:: yaml 134 .. code-block:: yaml 135 135 136 sub-messages: 136 sub-messages: 137 - 137 - 138 name: tc-options-msg 138 name: tc-options-msg 139 formats: 139 formats: 140 - 140 - 141 value: bfifo 141 value: bfifo 142 fixed-header: tc-fifo-qopt 142 fixed-header: tc-fifo-qopt 143 - 143 - 144 value: cake 144 value: cake 145 attribute-set: tc-cake-attrs 145 attribute-set: tc-cake-attrs 146 - 146 - 147 value: netem 147 value: netem 148 fixed-header: tc-netem-qopt 148 fixed-header: tc-netem-qopt 149 attribute-set: tc-netem-attrs 149 attribute-set: tc-netem-attrs 150 150 151 Note that a selector attribute must appear in 151 Note that a selector attribute must appear in a netlink message before any 152 sub-message attributes that depend on it. 152 sub-message attributes that depend on it. 153 << 154 If an attribute such as ``kind`` is defined at << 155 sub-message selector will be resolved using th << 156 For example, if the same attribute name is def << 157 alongside a sub-message selector and also in a << 158 the selector will be resolved using the value << 159 value is not present in the message at the sam << 160 then this is an error. << 161 << 162 Nested struct definitions << 163 ------------------------- << 164 << 165 Many raw netlink families such as :doc:`tc<../ << 166 make use of nested struct definitions. The ``n << 167 possible to embed a struct within a struct def << 168 property. For example, the following struct de << 169 ``tc-ratespec`` struct definition for both the << 170 members of ``struct tc-tbf-qopt``. << 171 << 172 .. code-block:: yaml << 173 << 174 - << 175 name: tc-tbf-qopt << 176 type: struct << 177 members: << 178 - << 179 name: rate << 180 type: binary << 181 struct: tc-ratespec << 182 - << 183 name: peakrate << 184 type: binary << 185 struct: tc-ratespec << 186 - << 187 name: limit << 188 type: u32 << 189 - << 190 name: buffer << 191 type: u32 << 192 - << 193 name: mtu << 194 type: u32 <<
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