xref: /openbmc/linux/include/net/nsh.h (revision ae213c44)
1 #ifndef __NET_NSH_H
2 #define __NET_NSH_H 1
3 
4 #include <linux/skbuff.h>
5 
6 /*
7  * Network Service Header:
8  *  0                   1                   2                   3
9  *  0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
10  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
11  * |Ver|O|U|    TTL    |   Length  |U|U|U|U|MD Type| Next Protocol |
12  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
13  * |          Service Path Identifier (SPI)        | Service Index |
14  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
15  * |                                                               |
16  * ~               Mandatory/Optional Context Headers              ~
17  * |                                                               |
18  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
19  *
20  * Version: The version field is used to ensure backward compatibility
21  * going forward with future NSH specification updates.  It MUST be set
22  * to 0x0 by the sender, in this first revision of NSH.  Given the
23  * widespread implementation of existing hardware that uses the first
24  * nibble after an MPLS label stack for ECMP decision processing, this
25  * document reserves version 01b and this value MUST NOT be used in
26  * future versions of the protocol.  Please see [RFC7325] for further
27  * discussion of MPLS-related forwarding requirements.
28  *
29  * O bit: Setting this bit indicates an Operations, Administration, and
30  * Maintenance (OAM) packet.  The actual format and processing of SFC
31  * OAM packets is outside the scope of this specification (see for
32  * example [I-D.ietf-sfc-oam-framework] for one approach).
33  *
34  * The O bit MUST be set for OAM packets and MUST NOT be set for non-OAM
35  * packets.  The O bit MUST NOT be modified along the SFP.
36  *
37  * SF/SFF/SFC Proxy/Classifier implementations that do not support SFC
38  * OAM procedures SHOULD discard packets with O bit set, but MAY support
39  * a configurable parameter to enable forwarding received SFC OAM
40  * packets unmodified to the next element in the chain.  Forwarding OAM
41  * packets unmodified by SFC elements that do not support SFC OAM
42  * procedures may be acceptable for a subset of OAM functions, but can
43  * result in unexpected outcomes for others, thus it is recommended to
44  * analyze the impact of forwarding an OAM packet for all OAM functions
45  * prior to enabling this behavior.  The configurable parameter MUST be
46  * disabled by default.
47  *
48  * TTL: Indicates the maximum SFF hops for an SFP.  This field is used
49  * for service plane loop detection.  The initial TTL value SHOULD be
50  * configurable via the control plane; the configured initial value can
51  * be specific to one or more SFPs.  If no initial value is explicitly
52  * provided, the default initial TTL value of 63 MUST be used.  Each SFF
53  * involved in forwarding an NSH packet MUST decrement the TTL value by
54  * 1 prior to NSH forwarding lookup.  Decrementing by 1 from an incoming
55  * value of 0 shall result in a TTL value of 63.  The packet MUST NOT be
56  * forwarded if TTL is, after decrement, 0.
57  *
58  * All other flag fields, marked U, are unassigned and available for
59  * future use, see Section 11.2.1.  Unassigned bits MUST be set to zero
60  * upon origination, and MUST be ignored and preserved unmodified by
61  * other NSH supporting elements.  Elements which do not understand the
62  * meaning of any of these bits MUST NOT modify their actions based on
63  * those unknown bits.
64  *
65  * Length: The total length, in 4-byte words, of NSH including the Base
66  * Header, the Service Path Header, the Fixed Length Context Header or
67  * Variable Length Context Header(s).  The length MUST be 0x6 for MD
68  * Type equal to 0x1, and MUST be 0x2 or greater for MD Type equal to
69  * 0x2.  The length of the NSH header MUST be an integer multiple of 4
70  * bytes, thus variable length metadata is always padded out to a
71  * multiple of 4 bytes.
72  *
73  * MD Type: Indicates the format of NSH beyond the mandatory Base Header
74  * and the Service Path Header.  MD Type defines the format of the
75  * metadata being carried.
76  *
77  * 0x0 - This is a reserved value.  Implementations SHOULD silently
78  * discard packets with MD Type 0x0.
79  *
80  * 0x1 - This indicates that the format of the header includes a fixed
81  * length Context Header (see Figure 4 below).
82  *
83  * 0x2 - This does not mandate any headers beyond the Base Header and
84  * Service Path Header, but may contain optional variable length Context
85  * Header(s).  The semantics of the variable length Context Header(s)
86  * are not defined in this document.  The format of the optional
87  * variable length Context Headers is provided in Section 2.5.1.
88  *
89  * 0xF - This value is reserved for experimentation and testing, as per
90  * [RFC3692].  Implementations not explicitly configured to be part of
91  * an experiment SHOULD silently discard packets with MD Type 0xF.
92  *
93  * Next Protocol: indicates the protocol type of the encapsulated data.
94  * NSH does not alter the inner payload, and the semantics on the inner
95  * protocol remain unchanged due to NSH service function chaining.
96  * Please see the IANA Considerations section below, Section 11.2.5.
97  *
98  * This document defines the following Next Protocol values:
99  *
100  * 0x1: IPv4
101  * 0x2: IPv6
102  * 0x3: Ethernet
103  * 0x4: NSH
104  * 0x5: MPLS
105  * 0xFE: Experiment 1
106  * 0xFF: Experiment 2
107  *
108  * Packets with Next Protocol values not supported SHOULD be silently
109  * dropped by default, although an implementation MAY provide a
110  * configuration parameter to forward them.  Additionally, an
111  * implementation not explicitly configured for a specific experiment
112  * [RFC3692] SHOULD silently drop packets with Next Protocol values 0xFE
113  * and 0xFF.
114  *
115  * Service Path Identifier (SPI): Identifies a service path.
116  * Participating nodes MUST use this identifier for Service Function
117  * Path selection.  The initial classifier MUST set the appropriate SPI
118  * for a given classification result.
119  *
120  * Service Index (SI): Provides location within the SFP.  The initial
121  * classifier for a given SFP SHOULD set the SI to 255, however the
122  * control plane MAY configure the initial value of SI as appropriate
123  * (i.e., taking into account the length of the service function path).
124  * The Service Index MUST be decremented by a value of 1 by Service
125  * Functions or by SFC Proxy nodes after performing required services
126  * and the new decremented SI value MUST be used in the egress packet's
127  * NSH.  The initial Classifier MUST send the packet to the first SFF in
128  * the identified SFP for forwarding along an SFP.  If re-classification
129  * occurs, and that re-classification results in a new SPI, the
130  * (re)classifier is, in effect, the initial classifier for the
131  * resultant SPI.
132  *
133  * The SI is used in conjunction the with Service Path Identifier for
134  * Service Function Path Selection and for determining the next SFF/SF
135  * in the path.  The SI is also valuable when troubleshooting or
136  * reporting service paths.  Additionally, while the TTL field is the
137  * main mechanism for service plane loop detection, the SI can also be
138  * used for detecting service plane loops.
139  *
140  * When the Base Header specifies MD Type = 0x1, a Fixed Length Context
141  * Header (16-bytes) MUST be present immediately following the Service
142  * Path Header. The value of a Fixed Length Context
143  * Header that carries no metadata MUST be set to zero.
144  *
145  * When the base header specifies MD Type = 0x2, zero or more Variable
146  * Length Context Headers MAY be added, immediately following the
147  * Service Path Header (see Figure 5).  Therefore, Length = 0x2,
148  * indicates that only the Base Header followed by the Service Path
149  * Header are present.  The optional Variable Length Context Headers
150  * MUST be of an integer number of 4-bytes.  The base header Length
151  * field MUST be used to determine the offset to locate the original
152  * packet or frame for SFC nodes that require access to that
153  * information.
154  *
155  * The format of the optional variable length Context Headers
156  *
157  *  0                   1                   2                   3
158  *  0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
159  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
160  * |          Metadata Class       |      Type     |U|    Length   |
161  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
162  * |                      Variable Metadata                        |
163  * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
164  *
165  * Metadata Class (MD Class): Defines the scope of the 'Type' field to
166  * provide a hierarchical namespace.  The IANA Considerations
167  * Section 11.2.4 defines how the MD Class values can be allocated to
168  * standards bodies, vendors, and others.
169  *
170  * Type: Indicates the explicit type of metadata being carried.  The
171  * definition of the Type is the responsibility of the MD Class owner.
172  *
173  * Unassigned bit: One unassigned bit is available for future use. This
174  * bit MUST NOT be set, and MUST be ignored on receipt.
175  *
176  * Length: Indicates the length of the variable metadata, in bytes.  In
177  * case the metadata length is not an integer number of 4-byte words,
178  * the sender MUST add pad bytes immediately following the last metadata
179  * byte to extend the metadata to an integer number of 4-byte words.
180  * The receiver MUST round up the length field to the nearest 4-byte
181  * word boundary, to locate and process the next field in the packet.
182  * The receiver MUST access only those bytes in the metadata indicated
183  * by the length field (i.e., actual number of bytes) and MUST ignore
184  * the remaining bytes up to the nearest 4-byte word boundary.  The
185  * Length may be 0 or greater.
186  *
187  * A value of 0 denotes a Context Header without a Variable Metadata
188  * field.
189  *
190  * [0] https://datatracker.ietf.org/doc/draft-ietf-sfc-nsh/
191  */
192 
193 /**
194  * struct nsh_md1_ctx - Keeps track of NSH context data
195  * @nshc<1-4>: NSH Contexts.
196  */
197 struct nsh_md1_ctx {
198 	__be32 context[4];
199 };
200 
201 struct nsh_md2_tlv {
202 	__be16 md_class;
203 	u8 type;
204 	u8 length;
205 	u8 md_value[];
206 };
207 
208 struct nshhdr {
209 	__be16 ver_flags_ttl_len;
210 	u8 mdtype;
211 	u8 np;
212 	__be32 path_hdr;
213 	union {
214 	    struct nsh_md1_ctx md1;
215 	    struct nsh_md2_tlv md2;
216 	};
217 };
218 
219 /* Masking NSH header fields. */
220 #define NSH_VER_MASK       0xc000
221 #define NSH_VER_SHIFT      14
222 #define NSH_FLAGS_MASK     0x3000
223 #define NSH_FLAGS_SHIFT    12
224 #define NSH_TTL_MASK       0x0fc0
225 #define NSH_TTL_SHIFT      6
226 #define NSH_LEN_MASK       0x003f
227 #define NSH_LEN_SHIFT      0
228 
229 #define NSH_MDTYPE_MASK    0x0f
230 #define NSH_MDTYPE_SHIFT   0
231 
232 #define NSH_SPI_MASK       0xffffff00
233 #define NSH_SPI_SHIFT      8
234 #define NSH_SI_MASK        0x000000ff
235 #define NSH_SI_SHIFT       0
236 
237 /* MD Type Registry. */
238 #define NSH_M_TYPE1     0x01
239 #define NSH_M_TYPE2     0x02
240 #define NSH_M_EXP1      0xFE
241 #define NSH_M_EXP2      0xFF
242 
243 /* NSH Base Header Length */
244 #define NSH_BASE_HDR_LEN  8
245 
246 /* NSH MD Type 1 header Length. */
247 #define NSH_M_TYPE1_LEN   24
248 
249 /* NSH header maximum Length. */
250 #define NSH_HDR_MAX_LEN 256
251 
252 /* NSH context headers maximum Length. */
253 #define NSH_CTX_HDRS_MAX_LEN 248
254 
255 static inline struct nshhdr *nsh_hdr(struct sk_buff *skb)
256 {
257 	return (struct nshhdr *)skb_network_header(skb);
258 }
259 
260 static inline u16 nsh_hdr_len(const struct nshhdr *nsh)
261 {
262 	return ((ntohs(nsh->ver_flags_ttl_len) & NSH_LEN_MASK)
263 		>> NSH_LEN_SHIFT) << 2;
264 }
265 
266 static inline u8 nsh_get_ver(const struct nshhdr *nsh)
267 {
268 	return (ntohs(nsh->ver_flags_ttl_len) & NSH_VER_MASK)
269 		>> NSH_VER_SHIFT;
270 }
271 
272 static inline u8 nsh_get_flags(const struct nshhdr *nsh)
273 {
274 	return (ntohs(nsh->ver_flags_ttl_len) & NSH_FLAGS_MASK)
275 		>> NSH_FLAGS_SHIFT;
276 }
277 
278 static inline u8 nsh_get_ttl(const struct nshhdr *nsh)
279 {
280 	return (ntohs(nsh->ver_flags_ttl_len) & NSH_TTL_MASK)
281 		>> NSH_TTL_SHIFT;
282 }
283 
284 static inline void __nsh_set_xflag(struct nshhdr *nsh, u16 xflag, u16 xmask)
285 {
286 	nsh->ver_flags_ttl_len
287 		= (nsh->ver_flags_ttl_len & ~htons(xmask)) | htons(xflag);
288 }
289 
290 static inline void nsh_set_flags_and_ttl(struct nshhdr *nsh, u8 flags, u8 ttl)
291 {
292 	__nsh_set_xflag(nsh, ((flags << NSH_FLAGS_SHIFT) & NSH_FLAGS_MASK) |
293 			     ((ttl << NSH_TTL_SHIFT) & NSH_TTL_MASK),
294 			NSH_FLAGS_MASK | NSH_TTL_MASK);
295 }
296 
297 static inline void nsh_set_flags_ttl_len(struct nshhdr *nsh, u8 flags,
298 					 u8 ttl, u8 len)
299 {
300 	len = len >> 2;
301 	__nsh_set_xflag(nsh, ((flags << NSH_FLAGS_SHIFT) & NSH_FLAGS_MASK) |
302 			     ((ttl << NSH_TTL_SHIFT) & NSH_TTL_MASK) |
303 			     ((len << NSH_LEN_SHIFT) & NSH_LEN_MASK),
304 			NSH_FLAGS_MASK | NSH_TTL_MASK | NSH_LEN_MASK);
305 }
306 
307 int nsh_push(struct sk_buff *skb, const struct nshhdr *pushed_nh);
308 int nsh_pop(struct sk_buff *skb);
309 
310 #endif /* __NET_NSH_H */
311