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Linux/Documentation/bpf/btf.rst

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Differences between /Documentation/bpf/btf.rst (Version linux-6.12-rc7) and /Documentation/bpf/btf.rst (Version linux-6.11.7)


  1 =====================                               1 =====================
  2 BPF Type Format (BTF)                               2 BPF Type Format (BTF)
  3 =====================                               3 =====================
  4                                                     4 
  5 1. Introduction                                     5 1. Introduction
  6 ===============                                     6 ===============
  7                                                     7 
  8 BTF (BPF Type Format) is the metadata format w      8 BTF (BPF Type Format) is the metadata format which encodes the debug info
  9 related to BPF program/map. The name BTF was u      9 related to BPF program/map. The name BTF was used initially to describe data
 10 types. The BTF was later extended to include f     10 types. The BTF was later extended to include function info for defined
 11 subroutines, and line info for source/line inf     11 subroutines, and line info for source/line information.
 12                                                    12 
 13 The debug info is used for map pretty print, f     13 The debug info is used for map pretty print, function signature, etc. The
 14 function signature enables better bpf program/     14 function signature enables better bpf program/function kernel symbol. The line
 15 info helps generate source annotated translate     15 info helps generate source annotated translated byte code, jited code and
 16 verifier log.                                      16 verifier log.
 17                                                    17 
 18 The BTF specification contains two parts,          18 The BTF specification contains two parts,
 19   * BTF kernel API                                 19   * BTF kernel API
 20   * BTF ELF file format                            20   * BTF ELF file format
 21                                                    21 
 22 The kernel API is the contract between user sp     22 The kernel API is the contract between user space and kernel. The kernel
 23 verifies the BTF info before using it. The ELF     23 verifies the BTF info before using it. The ELF file format is a user space
 24 contract between ELF file and libbpf loader.       24 contract between ELF file and libbpf loader.
 25                                                    25 
 26 The type and string sections are part of the B     26 The type and string sections are part of the BTF kernel API, describing the
 27 debug info (mostly types related) referenced b     27 debug info (mostly types related) referenced by the bpf program. These two
 28 sections are discussed in details in :ref:`BTF     28 sections are discussed in details in :ref:`BTF_Type_String`.
 29                                                    29 
 30 .. _BTF_Type_String:                               30 .. _BTF_Type_String:
 31                                                    31 
 32 2. BTF Type and String Encoding                    32 2. BTF Type and String Encoding
 33 ===============================                    33 ===============================
 34                                                    34 
 35 The file ``include/uapi/linux/btf.h`` provides     35 The file ``include/uapi/linux/btf.h`` provides high-level definition of how
 36 types/strings are encoded.                         36 types/strings are encoded.
 37                                                    37 
 38 The beginning of data blob must be::               38 The beginning of data blob must be::
 39                                                    39 
 40     struct btf_header {                            40     struct btf_header {
 41         __u16   magic;                             41         __u16   magic;
 42         __u8    version;                           42         __u8    version;
 43         __u8    flags;                             43         __u8    flags;
 44         __u32   hdr_len;                           44         __u32   hdr_len;
 45                                                    45 
 46         /* All offsets are in bytes relative t     46         /* All offsets are in bytes relative to the end of this header */
 47         __u32   type_off;       /* offset of t     47         __u32   type_off;       /* offset of type section       */
 48         __u32   type_len;       /* length of t     48         __u32   type_len;       /* length of type section       */
 49         __u32   str_off;        /* offset of s     49         __u32   str_off;        /* offset of string section     */
 50         __u32   str_len;        /* length of s     50         __u32   str_len;        /* length of string section     */
 51     };                                             51     };
 52                                                    52 
 53 The magic is ``0xeB9F``, which has different e     53 The magic is ``0xeB9F``, which has different encoding for big and little
 54 endian systems, and can be used to test whethe     54 endian systems, and can be used to test whether BTF is generated for big- or
 55 little-endian target. The ``btf_header`` is de     55 little-endian target. The ``btf_header`` is designed to be extensible with
 56 ``hdr_len`` equal to ``sizeof(struct btf_heade     56 ``hdr_len`` equal to ``sizeof(struct btf_header)`` when a data blob is
 57 generated.                                         57 generated.
 58                                                    58 
 59 2.1 String Encoding                                59 2.1 String Encoding
 60 -------------------                                60 -------------------
 61                                                    61 
 62 The first string in the string section must be     62 The first string in the string section must be a null string. The rest of
 63 string table is a concatenation of other null-     63 string table is a concatenation of other null-terminated strings.
 64                                                    64 
 65 2.2 Type Encoding                                  65 2.2 Type Encoding
 66 -----------------                                  66 -----------------
 67                                                    67 
 68 The type id ``0`` is reserved for ``void`` typ     68 The type id ``0`` is reserved for ``void`` type. The type section is parsed
 69 sequentially and type id is assigned to each r     69 sequentially and type id is assigned to each recognized type starting from id
 70 ``1``. Currently, the following types are supp     70 ``1``. Currently, the following types are supported::
 71                                                    71 
 72     #define BTF_KIND_INT            1       /*     72     #define BTF_KIND_INT            1       /* Integer      */
 73     #define BTF_KIND_PTR            2       /*     73     #define BTF_KIND_PTR            2       /* Pointer      */
 74     #define BTF_KIND_ARRAY          3       /*     74     #define BTF_KIND_ARRAY          3       /* Array        */
 75     #define BTF_KIND_STRUCT         4       /*     75     #define BTF_KIND_STRUCT         4       /* Struct       */
 76     #define BTF_KIND_UNION          5       /*     76     #define BTF_KIND_UNION          5       /* Union        */
 77     #define BTF_KIND_ENUM           6       /*     77     #define BTF_KIND_ENUM           6       /* Enumeration up to 32-bit values */
 78     #define BTF_KIND_FWD            7       /*     78     #define BTF_KIND_FWD            7       /* Forward      */
 79     #define BTF_KIND_TYPEDEF        8       /*     79     #define BTF_KIND_TYPEDEF        8       /* Typedef      */
 80     #define BTF_KIND_VOLATILE       9       /*     80     #define BTF_KIND_VOLATILE       9       /* Volatile     */
 81     #define BTF_KIND_CONST          10      /*     81     #define BTF_KIND_CONST          10      /* Const        */
 82     #define BTF_KIND_RESTRICT       11      /*     82     #define BTF_KIND_RESTRICT       11      /* Restrict     */
 83     #define BTF_KIND_FUNC           12      /*     83     #define BTF_KIND_FUNC           12      /* Function     */
 84     #define BTF_KIND_FUNC_PROTO     13      /*     84     #define BTF_KIND_FUNC_PROTO     13      /* Function Proto       */
 85     #define BTF_KIND_VAR            14      /*     85     #define BTF_KIND_VAR            14      /* Variable     */
 86     #define BTF_KIND_DATASEC        15      /*     86     #define BTF_KIND_DATASEC        15      /* Section      */
 87     #define BTF_KIND_FLOAT          16      /*     87     #define BTF_KIND_FLOAT          16      /* Floating point       */
 88     #define BTF_KIND_DECL_TAG       17      /*     88     #define BTF_KIND_DECL_TAG       17      /* Decl Tag     */
 89     #define BTF_KIND_TYPE_TAG       18      /*     89     #define BTF_KIND_TYPE_TAG       18      /* Type Tag     */
 90     #define BTF_KIND_ENUM64         19      /*     90     #define BTF_KIND_ENUM64         19      /* Enumeration up to 64-bit values */
 91                                                    91 
 92 Note that the type section encodes debug info,     92 Note that the type section encodes debug info, not just pure types.
 93 ``BTF_KIND_FUNC`` is not a type, and it repres     93 ``BTF_KIND_FUNC`` is not a type, and it represents a defined subprogram.
 94                                                    94 
 95 Each type contains the following common data::     95 Each type contains the following common data::
 96                                                    96 
 97     struct btf_type {                              97     struct btf_type {
 98         __u32 name_off;                            98         __u32 name_off;
 99         /* "info" bits arrangement                 99         /* "info" bits arrangement
100          * bits  0-15: vlen (e.g. # of struct'    100          * bits  0-15: vlen (e.g. # of struct's members)
101          * bits 16-23: unused                     101          * bits 16-23: unused
102          * bits 24-28: kind (e.g. int, ptr, ar    102          * bits 24-28: kind (e.g. int, ptr, array...etc)
103          * bits 29-30: unused                     103          * bits 29-30: unused
104          * bit     31: kind_flag, currently us    104          * bit     31: kind_flag, currently used by
105          *             struct, union, fwd, enu    105          *             struct, union, fwd, enum and enum64.
106          */                                       106          */
107         __u32 info;                               107         __u32 info;
108         /* "size" is used by INT, ENUM, STRUCT    108         /* "size" is used by INT, ENUM, STRUCT, UNION and ENUM64.
109          * "size" tells the size of the type i    109          * "size" tells the size of the type it is describing.
110          *                                        110          *
111          * "type" is used by PTR, TYPEDEF, VOL    111          * "type" is used by PTR, TYPEDEF, VOLATILE, CONST, RESTRICT,
112          * FUNC, FUNC_PROTO, DECL_TAG and TYPE    112          * FUNC, FUNC_PROTO, DECL_TAG and TYPE_TAG.
113          * "type" is a type_id referring to an    113          * "type" is a type_id referring to another type.
114          */                                       114          */
115         union {                                   115         union {
116                 __u32 size;                       116                 __u32 size;
117                 __u32 type;                       117                 __u32 type;
118         };                                        118         };
119     };                                            119     };
120                                                   120 
121 For certain kinds, the common data are followe    121 For certain kinds, the common data are followed by kind-specific data. The
122 ``name_off`` in ``struct btf_type`` specifies     122 ``name_off`` in ``struct btf_type`` specifies the offset in the string table.
123 The following sections detail encoding of each    123 The following sections detail encoding of each kind.
124                                                   124 
125 2.2.1 BTF_KIND_INT                                125 2.2.1 BTF_KIND_INT
126 ~~~~~~~~~~~~~~~~~~                                126 ~~~~~~~~~~~~~~~~~~
127                                                   127 
128 ``struct btf_type`` encoding requirement:         128 ``struct btf_type`` encoding requirement:
129  * ``name_off``: any valid offset                 129  * ``name_off``: any valid offset
130  * ``info.kind_flag``: 0                          130  * ``info.kind_flag``: 0
131  * ``info.kind``: BTF_KIND_INT                    131  * ``info.kind``: BTF_KIND_INT
132  * ``info.vlen``: 0                               132  * ``info.vlen``: 0
133  * ``size``: the size of the int type in bytes    133  * ``size``: the size of the int type in bytes.
134                                                   134 
135 ``btf_type`` is followed by a ``u32`` with the    135 ``btf_type`` is followed by a ``u32`` with the following bits arrangement::
136                                                   136 
137   #define BTF_INT_ENCODING(VAL)   (((VAL) & 0x    137   #define BTF_INT_ENCODING(VAL)   (((VAL) & 0x0f000000) >> 24)
138   #define BTF_INT_OFFSET(VAL)     (((VAL) & 0x    138   #define BTF_INT_OFFSET(VAL)     (((VAL) & 0x00ff0000) >> 16)
139   #define BTF_INT_BITS(VAL)       ((VAL)  & 0x    139   #define BTF_INT_BITS(VAL)       ((VAL)  & 0x000000ff)
140                                                   140 
141 The ``BTF_INT_ENCODING`` has the following att    141 The ``BTF_INT_ENCODING`` has the following attributes::
142                                                   142 
143   #define BTF_INT_SIGNED  (1 << 0)                143   #define BTF_INT_SIGNED  (1 << 0)
144   #define BTF_INT_CHAR    (1 << 1)                144   #define BTF_INT_CHAR    (1 << 1)
145   #define BTF_INT_BOOL    (1 << 2)                145   #define BTF_INT_BOOL    (1 << 2)
146                                                   146 
147 The ``BTF_INT_ENCODING()`` provides extra info    147 The ``BTF_INT_ENCODING()`` provides extra information: signedness, char, or
148 bool, for the int type. The char and bool enco    148 bool, for the int type. The char and bool encoding are mostly useful for
149 pretty print. At most one encoding can be spec    149 pretty print. At most one encoding can be specified for the int type.
150                                                   150 
151 The ``BTF_INT_BITS()`` specifies the number of    151 The ``BTF_INT_BITS()`` specifies the number of actual bits held by this int
152 type. For example, a 4-bit bitfield encodes ``    152 type. For example, a 4-bit bitfield encodes ``BTF_INT_BITS()`` equals to 4.
153 The ``btf_type.size * 8`` must be equal to or     153 The ``btf_type.size * 8`` must be equal to or greater than ``BTF_INT_BITS()``
154 for the type. The maximum value of ``BTF_INT_B    154 for the type. The maximum value of ``BTF_INT_BITS()`` is 128.
155                                                   155 
156 The ``BTF_INT_OFFSET()`` specifies the startin    156 The ``BTF_INT_OFFSET()`` specifies the starting bit offset to calculate values
157 for this int. For example, a bitfield struct m    157 for this int. For example, a bitfield struct member has:
158                                                   158 
159  * btf member bit offset 100 from the start of    159  * btf member bit offset 100 from the start of the structure,
160  * btf member pointing to an int type,            160  * btf member pointing to an int type,
161  * the int type has ``BTF_INT_OFFSET() = 2`` a    161  * the int type has ``BTF_INT_OFFSET() = 2`` and ``BTF_INT_BITS() = 4``
162                                                   162 
163 Then in the struct memory layout, this member     163 Then in the struct memory layout, this member will occupy ``4`` bits starting
164 from bits ``100 + 2 = 102``.                      164 from bits ``100 + 2 = 102``.
165                                                   165 
166 Alternatively, the bitfield struct member can     166 Alternatively, the bitfield struct member can be the following to access the
167 same bits as the above:                           167 same bits as the above:
168                                                   168 
169  * btf member bit offset 102,                     169  * btf member bit offset 102,
170  * btf member pointing to an int type,            170  * btf member pointing to an int type,
171  * the int type has ``BTF_INT_OFFSET() = 0`` a    171  * the int type has ``BTF_INT_OFFSET() = 0`` and ``BTF_INT_BITS() = 4``
172                                                   172 
173 The original intention of ``BTF_INT_OFFSET()``    173 The original intention of ``BTF_INT_OFFSET()`` is to provide flexibility of
174 bitfield encoding. Currently, both llvm and pa    174 bitfield encoding. Currently, both llvm and pahole generate
175 ``BTF_INT_OFFSET() = 0`` for all int types.       175 ``BTF_INT_OFFSET() = 0`` for all int types.
176                                                   176 
177 2.2.2 BTF_KIND_PTR                                177 2.2.2 BTF_KIND_PTR
178 ~~~~~~~~~~~~~~~~~~                                178 ~~~~~~~~~~~~~~~~~~
179                                                   179 
180 ``struct btf_type`` encoding requirement:         180 ``struct btf_type`` encoding requirement:
181   * ``name_off``: 0                               181   * ``name_off``: 0
182   * ``info.kind_flag``: 0                         182   * ``info.kind_flag``: 0
183   * ``info.kind``: BTF_KIND_PTR                   183   * ``info.kind``: BTF_KIND_PTR
184   * ``info.vlen``: 0                              184   * ``info.vlen``: 0
185   * ``type``: the pointee type of the pointer     185   * ``type``: the pointee type of the pointer
186                                                   186 
187 No additional type data follow ``btf_type``.      187 No additional type data follow ``btf_type``.
188                                                   188 
189 2.2.3 BTF_KIND_ARRAY                              189 2.2.3 BTF_KIND_ARRAY
190 ~~~~~~~~~~~~~~~~~~~~                              190 ~~~~~~~~~~~~~~~~~~~~
191                                                   191 
192 ``struct btf_type`` encoding requirement:         192 ``struct btf_type`` encoding requirement:
193   * ``name_off``: 0                               193   * ``name_off``: 0
194   * ``info.kind_flag``: 0                         194   * ``info.kind_flag``: 0
195   * ``info.kind``: BTF_KIND_ARRAY                 195   * ``info.kind``: BTF_KIND_ARRAY
196   * ``info.vlen``: 0                              196   * ``info.vlen``: 0
197   * ``size/type``: 0, not used                    197   * ``size/type``: 0, not used
198                                                   198 
199 ``btf_type`` is followed by one ``struct btf_a    199 ``btf_type`` is followed by one ``struct btf_array``::
200                                                   200 
201     struct btf_array {                            201     struct btf_array {
202         __u32   type;                             202         __u32   type;
203         __u32   index_type;                       203         __u32   index_type;
204         __u32   nelems;                           204         __u32   nelems;
205     };                                            205     };
206                                                   206 
207 The ``struct btf_array`` encoding:                207 The ``struct btf_array`` encoding:
208   * ``type``: the element type                    208   * ``type``: the element type
209   * ``index_type``: the index type                209   * ``index_type``: the index type
210   * ``nelems``: the number of elements for thi    210   * ``nelems``: the number of elements for this array (``0`` is also allowed).
211                                                   211 
212 The ``index_type`` can be any regular int type    212 The ``index_type`` can be any regular int type (``u8``, ``u16``, ``u32``,
213 ``u64``, ``unsigned __int128``). The original     213 ``u64``, ``unsigned __int128``). The original design of including
214 ``index_type`` follows DWARF, which has an ``i    214 ``index_type`` follows DWARF, which has an ``index_type`` for its array type.
215 Currently in BTF, beyond type verification, th    215 Currently in BTF, beyond type verification, the ``index_type`` is not used.
216                                                   216 
217 The ``struct btf_array`` allows chaining throu    217 The ``struct btf_array`` allows chaining through element type to represent
218 multidimensional arrays. For example, for ``in    218 multidimensional arrays. For example, for ``int a[5][6]``, the following type
219 information illustrates the chaining:             219 information illustrates the chaining:
220                                                   220 
221   * [1]: int                                      221   * [1]: int
222   * [2]: array, ``btf_array.type = [1]``, ``bt    222   * [2]: array, ``btf_array.type = [1]``, ``btf_array.nelems = 6``
223   * [3]: array, ``btf_array.type = [2]``, ``bt    223   * [3]: array, ``btf_array.type = [2]``, ``btf_array.nelems = 5``
224                                                   224 
225 Currently, both pahole and llvm collapse multi    225 Currently, both pahole and llvm collapse multidimensional array into
226 one-dimensional array, e.g., for ``a[5][6]``,     226 one-dimensional array, e.g., for ``a[5][6]``, the ``btf_array.nelems`` is
227 equal to ``30``. This is because the original     227 equal to ``30``. This is because the original use case is map pretty print
228 where the whole array is dumped out so one-dim    228 where the whole array is dumped out so one-dimensional array is enough. As
229 more BTF usage is explored, pahole and llvm ca    229 more BTF usage is explored, pahole and llvm can be changed to generate proper
230 chained representation for multidimensional ar    230 chained representation for multidimensional arrays.
231                                                   231 
232 2.2.4 BTF_KIND_STRUCT                             232 2.2.4 BTF_KIND_STRUCT
233 ~~~~~~~~~~~~~~~~~~~~~                             233 ~~~~~~~~~~~~~~~~~~~~~
234 2.2.5 BTF_KIND_UNION                              234 2.2.5 BTF_KIND_UNION
235 ~~~~~~~~~~~~~~~~~~~~                              235 ~~~~~~~~~~~~~~~~~~~~
236                                                   236 
237 ``struct btf_type`` encoding requirement:         237 ``struct btf_type`` encoding requirement:
238   * ``name_off``: 0 or offset to a valid C ide    238   * ``name_off``: 0 or offset to a valid C identifier
239   * ``info.kind_flag``: 0 or 1                    239   * ``info.kind_flag``: 0 or 1
240   * ``info.kind``: BTF_KIND_STRUCT or BTF_KIND    240   * ``info.kind``: BTF_KIND_STRUCT or BTF_KIND_UNION
241   * ``info.vlen``: the number of struct/union     241   * ``info.vlen``: the number of struct/union members
242   * ``info.size``: the size of the struct/unio    242   * ``info.size``: the size of the struct/union in bytes
243                                                   243 
244 ``btf_type`` is followed by ``info.vlen`` numb    244 ``btf_type`` is followed by ``info.vlen`` number of ``struct btf_member``.::
245                                                   245 
246     struct btf_member {                           246     struct btf_member {
247         __u32   name_off;                         247         __u32   name_off;
248         __u32   type;                             248         __u32   type;
249         __u32   offset;                           249         __u32   offset;
250     };                                            250     };
251                                                   251 
252 ``struct btf_member`` encoding:                   252 ``struct btf_member`` encoding:
253   * ``name_off``: offset to a valid C identifi    253   * ``name_off``: offset to a valid C identifier
254   * ``type``: the member type                     254   * ``type``: the member type
255   * ``offset``: <see below>                       255   * ``offset``: <see below>
256                                                   256 
257 If the type info ``kind_flag`` is not set, the    257 If the type info ``kind_flag`` is not set, the offset contains only bit offset
258 of the member. Note that the base type of the     258 of the member. Note that the base type of the bitfield can only be int or enum
259 type. If the bitfield size is 32, the base typ    259 type. If the bitfield size is 32, the base type can be either int or enum
260 type. If the bitfield size is not 32, the base    260 type. If the bitfield size is not 32, the base type must be int, and int type
261 ``BTF_INT_BITS()`` encodes the bitfield size.     261 ``BTF_INT_BITS()`` encodes the bitfield size.
262                                                   262 
263 If the ``kind_flag`` is set, the ``btf_member.    263 If the ``kind_flag`` is set, the ``btf_member.offset`` contains both member
264 bitfield size and bit offset. The bitfield siz    264 bitfield size and bit offset. The bitfield size and bit offset are calculated
265 as below.::                                       265 as below.::
266                                                   266 
267   #define BTF_MEMBER_BITFIELD_SIZE(val)   ((va    267   #define BTF_MEMBER_BITFIELD_SIZE(val)   ((val) >> 24)
268   #define BTF_MEMBER_BIT_OFFSET(val)      ((va    268   #define BTF_MEMBER_BIT_OFFSET(val)      ((val) & 0xffffff)
269                                                   269 
270 In this case, if the base type is an int type,    270 In this case, if the base type is an int type, it must be a regular int type:
271                                                   271 
272   * ``BTF_INT_OFFSET()`` must be 0.               272   * ``BTF_INT_OFFSET()`` must be 0.
273   * ``BTF_INT_BITS()`` must be equal to ``{1,2    273   * ``BTF_INT_BITS()`` must be equal to ``{1,2,4,8,16} * 8``.
274                                                   274 
275 Commit 9d5f9f701b18 introduced ``kind_flag`` a    275 Commit 9d5f9f701b18 introduced ``kind_flag`` and explains why both modes
276 exist.                                            276 exist.
277                                                   277 
278 2.2.6 BTF_KIND_ENUM                               278 2.2.6 BTF_KIND_ENUM
279 ~~~~~~~~~~~~~~~~~~~                               279 ~~~~~~~~~~~~~~~~~~~
280                                                   280 
281 ``struct btf_type`` encoding requirement:         281 ``struct btf_type`` encoding requirement:
282   * ``name_off``: 0 or offset to a valid C ide    282   * ``name_off``: 0 or offset to a valid C identifier
283   * ``info.kind_flag``: 0 for unsigned, 1 for     283   * ``info.kind_flag``: 0 for unsigned, 1 for signed
284   * ``info.kind``: BTF_KIND_ENUM                  284   * ``info.kind``: BTF_KIND_ENUM
285   * ``info.vlen``: number of enum values          285   * ``info.vlen``: number of enum values
286   * ``size``: 1/2/4/8                             286   * ``size``: 1/2/4/8
287                                                   287 
288 ``btf_type`` is followed by ``info.vlen`` numb    288 ``btf_type`` is followed by ``info.vlen`` number of ``struct btf_enum``.::
289                                                   289 
290     struct btf_enum {                             290     struct btf_enum {
291         __u32   name_off;                         291         __u32   name_off;
292         __s32   val;                              292         __s32   val;
293     };                                            293     };
294                                                   294 
295 The ``btf_enum`` encoding:                        295 The ``btf_enum`` encoding:
296   * ``name_off``: offset to a valid C identifi    296   * ``name_off``: offset to a valid C identifier
297   * ``val``: any value                            297   * ``val``: any value
298                                                   298 
299 If the original enum value is signed and the s    299 If the original enum value is signed and the size is less than 4,
300 that value will be sign extended into 4 bytes.    300 that value will be sign extended into 4 bytes. If the size is 8,
301 the value will be truncated into 4 bytes.         301 the value will be truncated into 4 bytes.
302                                                   302 
303 2.2.7 BTF_KIND_FWD                                303 2.2.7 BTF_KIND_FWD
304 ~~~~~~~~~~~~~~~~~~                                304 ~~~~~~~~~~~~~~~~~~
305                                                   305 
306 ``struct btf_type`` encoding requirement:         306 ``struct btf_type`` encoding requirement:
307   * ``name_off``: offset to a valid C identifi    307   * ``name_off``: offset to a valid C identifier
308   * ``info.kind_flag``: 0 for struct, 1 for un    308   * ``info.kind_flag``: 0 for struct, 1 for union
309   * ``info.kind``: BTF_KIND_FWD                   309   * ``info.kind``: BTF_KIND_FWD
310   * ``info.vlen``: 0                              310   * ``info.vlen``: 0
311   * ``type``: 0                                   311   * ``type``: 0
312                                                   312 
313 No additional type data follow ``btf_type``.      313 No additional type data follow ``btf_type``.
314                                                   314 
315 2.2.8 BTF_KIND_TYPEDEF                            315 2.2.8 BTF_KIND_TYPEDEF
316 ~~~~~~~~~~~~~~~~~~~~~~                            316 ~~~~~~~~~~~~~~~~~~~~~~
317                                                   317 
318 ``struct btf_type`` encoding requirement:         318 ``struct btf_type`` encoding requirement:
319   * ``name_off``: offset to a valid C identifi    319   * ``name_off``: offset to a valid C identifier
320   * ``info.kind_flag``: 0                         320   * ``info.kind_flag``: 0
321   * ``info.kind``: BTF_KIND_TYPEDEF               321   * ``info.kind``: BTF_KIND_TYPEDEF
322   * ``info.vlen``: 0                              322   * ``info.vlen``: 0
323   * ``type``: the type which can be referred b    323   * ``type``: the type which can be referred by name at ``name_off``
324                                                   324 
325 No additional type data follow ``btf_type``.      325 No additional type data follow ``btf_type``.
326                                                   326 
327 2.2.9 BTF_KIND_VOLATILE                           327 2.2.9 BTF_KIND_VOLATILE
328 ~~~~~~~~~~~~~~~~~~~~~~~                           328 ~~~~~~~~~~~~~~~~~~~~~~~
329                                                   329 
330 ``struct btf_type`` encoding requirement:         330 ``struct btf_type`` encoding requirement:
331   * ``name_off``: 0                               331   * ``name_off``: 0
332   * ``info.kind_flag``: 0                         332   * ``info.kind_flag``: 0
333   * ``info.kind``: BTF_KIND_VOLATILE              333   * ``info.kind``: BTF_KIND_VOLATILE
334   * ``info.vlen``: 0                              334   * ``info.vlen``: 0
335   * ``type``: the type with ``volatile`` quali    335   * ``type``: the type with ``volatile`` qualifier
336                                                   336 
337 No additional type data follow ``btf_type``.      337 No additional type data follow ``btf_type``.
338                                                   338 
339 2.2.10 BTF_KIND_CONST                             339 2.2.10 BTF_KIND_CONST
340 ~~~~~~~~~~~~~~~~~~~~~                             340 ~~~~~~~~~~~~~~~~~~~~~
341                                                   341 
342 ``struct btf_type`` encoding requirement:         342 ``struct btf_type`` encoding requirement:
343   * ``name_off``: 0                               343   * ``name_off``: 0
344   * ``info.kind_flag``: 0                         344   * ``info.kind_flag``: 0
345   * ``info.kind``: BTF_KIND_CONST                 345   * ``info.kind``: BTF_KIND_CONST
346   * ``info.vlen``: 0                              346   * ``info.vlen``: 0
347   * ``type``: the type with ``const`` qualifie    347   * ``type``: the type with ``const`` qualifier
348                                                   348 
349 No additional type data follow ``btf_type``.      349 No additional type data follow ``btf_type``.
350                                                   350 
351 2.2.11 BTF_KIND_RESTRICT                          351 2.2.11 BTF_KIND_RESTRICT
352 ~~~~~~~~~~~~~~~~~~~~~~~~                          352 ~~~~~~~~~~~~~~~~~~~~~~~~
353                                                   353 
354 ``struct btf_type`` encoding requirement:         354 ``struct btf_type`` encoding requirement:
355   * ``name_off``: 0                               355   * ``name_off``: 0
356   * ``info.kind_flag``: 0                         356   * ``info.kind_flag``: 0
357   * ``info.kind``: BTF_KIND_RESTRICT              357   * ``info.kind``: BTF_KIND_RESTRICT
358   * ``info.vlen``: 0                              358   * ``info.vlen``: 0
359   * ``type``: the type with ``restrict`` quali    359   * ``type``: the type with ``restrict`` qualifier
360                                                   360 
361 No additional type data follow ``btf_type``.      361 No additional type data follow ``btf_type``.
362                                                   362 
363 2.2.12 BTF_KIND_FUNC                              363 2.2.12 BTF_KIND_FUNC
364 ~~~~~~~~~~~~~~~~~~~~                              364 ~~~~~~~~~~~~~~~~~~~~
365                                                   365 
366 ``struct btf_type`` encoding requirement:         366 ``struct btf_type`` encoding requirement:
367   * ``name_off``: offset to a valid C identifi    367   * ``name_off``: offset to a valid C identifier
368   * ``info.kind_flag``: 0                         368   * ``info.kind_flag``: 0
369   * ``info.kind``: BTF_KIND_FUNC                  369   * ``info.kind``: BTF_KIND_FUNC
370   * ``info.vlen``: linkage information (BTF_FU    370   * ``info.vlen``: linkage information (BTF_FUNC_STATIC, BTF_FUNC_GLOBAL
371                    or BTF_FUNC_EXTERN - see :r !! 371                    or BTF_FUNC_EXTERN)
372   * ``type``: a BTF_KIND_FUNC_PROTO type          372   * ``type``: a BTF_KIND_FUNC_PROTO type
373                                                   373 
374 No additional type data follow ``btf_type``.      374 No additional type data follow ``btf_type``.
375                                                   375 
376 A BTF_KIND_FUNC defines not a type, but a subp    376 A BTF_KIND_FUNC defines not a type, but a subprogram (function) whose
377 signature is defined by ``type``. The subprogr    377 signature is defined by ``type``. The subprogram is thus an instance of that
378 type. The BTF_KIND_FUNC may in turn be referen    378 type. The BTF_KIND_FUNC may in turn be referenced by a func_info in the
379 :ref:`BTF_Ext_Section` (ELF) or in the argumen    379 :ref:`BTF_Ext_Section` (ELF) or in the arguments to :ref:`BPF_Prog_Load`
380 (ABI).                                            380 (ABI).
381                                                   381 
382 Currently, only linkage values of BTF_FUNC_STA    382 Currently, only linkage values of BTF_FUNC_STATIC and BTF_FUNC_GLOBAL are
383 supported in the kernel.                          383 supported in the kernel.
384                                                   384 
385 2.2.13 BTF_KIND_FUNC_PROTO                        385 2.2.13 BTF_KIND_FUNC_PROTO
386 ~~~~~~~~~~~~~~~~~~~~~~~~~~                        386 ~~~~~~~~~~~~~~~~~~~~~~~~~~
387                                                   387 
388 ``struct btf_type`` encoding requirement:         388 ``struct btf_type`` encoding requirement:
389   * ``name_off``: 0                               389   * ``name_off``: 0
390   * ``info.kind_flag``: 0                         390   * ``info.kind_flag``: 0
391   * ``info.kind``: BTF_KIND_FUNC_PROTO            391   * ``info.kind``: BTF_KIND_FUNC_PROTO
392   * ``info.vlen``: # of parameters                392   * ``info.vlen``: # of parameters
393   * ``type``: the return type                     393   * ``type``: the return type
394                                                   394 
395 ``btf_type`` is followed by ``info.vlen`` numb    395 ``btf_type`` is followed by ``info.vlen`` number of ``struct btf_param``.::
396                                                   396 
397     struct btf_param {                            397     struct btf_param {
398         __u32   name_off;                         398         __u32   name_off;
399         __u32   type;                             399         __u32   type;
400     };                                            400     };
401                                                   401 
402 If a BTF_KIND_FUNC_PROTO type is referred by a    402 If a BTF_KIND_FUNC_PROTO type is referred by a BTF_KIND_FUNC type, then
403 ``btf_param.name_off`` must point to a valid C    403 ``btf_param.name_off`` must point to a valid C identifier except for the
404 possible last argument representing the variab    404 possible last argument representing the variable argument. The btf_param.type
405 refers to parameter type.                         405 refers to parameter type.
406                                                   406 
407 If the function has variable arguments, the la    407 If the function has variable arguments, the last parameter is encoded with
408 ``name_off = 0`` and ``type = 0``.                408 ``name_off = 0`` and ``type = 0``.
409                                                   409 
410 2.2.14 BTF_KIND_VAR                               410 2.2.14 BTF_KIND_VAR
411 ~~~~~~~~~~~~~~~~~~~                               411 ~~~~~~~~~~~~~~~~~~~
412                                                   412 
413 ``struct btf_type`` encoding requirement:         413 ``struct btf_type`` encoding requirement:
414   * ``name_off``: offset to a valid C identifi    414   * ``name_off``: offset to a valid C identifier
415   * ``info.kind_flag``: 0                         415   * ``info.kind_flag``: 0
416   * ``info.kind``: BTF_KIND_VAR                   416   * ``info.kind``: BTF_KIND_VAR
417   * ``info.vlen``: 0                              417   * ``info.vlen``: 0
418   * ``type``: the type of the variable            418   * ``type``: the type of the variable
419                                                   419 
420 ``btf_type`` is followed by a single ``struct     420 ``btf_type`` is followed by a single ``struct btf_variable`` with the
421 following data::                                  421 following data::
422                                                   422 
423     struct btf_var {                              423     struct btf_var {
424         __u32   linkage;                          424         __u32   linkage;
425     };                                            425     };
426                                                   426 
427 ``btf_var.linkage`` may take the values: BTF_V !! 427 ``struct btf_var`` encoding:
428 see :ref:`BTF_Var_Linkage_Constants`.          !! 428   * ``linkage``: currently only static variable 0, or globally allocated
                                                   >> 429                  variable in ELF sections 1
429                                                   430 
430 Not all type of global variables are supported    431 Not all type of global variables are supported by LLVM at this point.
431 The following is currently available:             432 The following is currently available:
432                                                   433 
433   * static variables with or without section a    434   * static variables with or without section attributes
434   * global variables with section attributes      435   * global variables with section attributes
435                                                   436 
436 The latter is for future extraction of map key    437 The latter is for future extraction of map key/value type id's from a
437 map definition.                                   438 map definition.
438                                                   439 
439 2.2.15 BTF_KIND_DATASEC                           440 2.2.15 BTF_KIND_DATASEC
440 ~~~~~~~~~~~~~~~~~~~~~~~                           441 ~~~~~~~~~~~~~~~~~~~~~~~
441                                                   442 
442 ``struct btf_type`` encoding requirement:         443 ``struct btf_type`` encoding requirement:
443   * ``name_off``: offset to a valid name assoc    444   * ``name_off``: offset to a valid name associated with a variable or
444                   one of .data/.bss/.rodata       445                   one of .data/.bss/.rodata
445   * ``info.kind_flag``: 0                         446   * ``info.kind_flag``: 0
446   * ``info.kind``: BTF_KIND_DATASEC               447   * ``info.kind``: BTF_KIND_DATASEC
447   * ``info.vlen``: # of variables                 448   * ``info.vlen``: # of variables
448   * ``size``: total section size in bytes (0 a    449   * ``size``: total section size in bytes (0 at compilation time, patched
449               to actual size by BPF loaders su    450               to actual size by BPF loaders such as libbpf)
450                                                   451 
451 ``btf_type`` is followed by ``info.vlen`` numb    452 ``btf_type`` is followed by ``info.vlen`` number of ``struct btf_var_secinfo``.::
452                                                   453 
453     struct btf_var_secinfo {                      454     struct btf_var_secinfo {
454         __u32   type;                             455         __u32   type;
455         __u32   offset;                           456         __u32   offset;
456         __u32   size;                             457         __u32   size;
457     };                                            458     };
458                                                   459 
459 ``struct btf_var_secinfo`` encoding:              460 ``struct btf_var_secinfo`` encoding:
460   * ``type``: the type of the BTF_KIND_VAR var    461   * ``type``: the type of the BTF_KIND_VAR variable
461   * ``offset``: the in-section offset of the v    462   * ``offset``: the in-section offset of the variable
462   * ``size``: the size of the variable in byte    463   * ``size``: the size of the variable in bytes
463                                                   464 
464 2.2.16 BTF_KIND_FLOAT                             465 2.2.16 BTF_KIND_FLOAT
465 ~~~~~~~~~~~~~~~~~~~~~                             466 ~~~~~~~~~~~~~~~~~~~~~
466                                                   467 
467 ``struct btf_type`` encoding requirement:         468 ``struct btf_type`` encoding requirement:
468  * ``name_off``: any valid offset                 469  * ``name_off``: any valid offset
469  * ``info.kind_flag``: 0                          470  * ``info.kind_flag``: 0
470  * ``info.kind``: BTF_KIND_FLOAT                  471  * ``info.kind``: BTF_KIND_FLOAT
471  * ``info.vlen``: 0                               472  * ``info.vlen``: 0
472  * ``size``: the size of the float type in byt    473  * ``size``: the size of the float type in bytes: 2, 4, 8, 12 or 16.
473                                                   474 
474 No additional type data follow ``btf_type``.      475 No additional type data follow ``btf_type``.
475                                                   476 
476 2.2.17 BTF_KIND_DECL_TAG                          477 2.2.17 BTF_KIND_DECL_TAG
477 ~~~~~~~~~~~~~~~~~~~~~~~~                          478 ~~~~~~~~~~~~~~~~~~~~~~~~
478                                                   479 
479 ``struct btf_type`` encoding requirement:         480 ``struct btf_type`` encoding requirement:
480  * ``name_off``: offset to a non-empty string     481  * ``name_off``: offset to a non-empty string
481  * ``info.kind_flag``: 0                          482  * ``info.kind_flag``: 0
482  * ``info.kind``: BTF_KIND_DECL_TAG               483  * ``info.kind``: BTF_KIND_DECL_TAG
483  * ``info.vlen``: 0                               484  * ``info.vlen``: 0
484  * ``type``: ``struct``, ``union``, ``func``,     485  * ``type``: ``struct``, ``union``, ``func``, ``var`` or ``typedef``
485                                                   486 
486 ``btf_type`` is followed by ``struct btf_decl_    487 ``btf_type`` is followed by ``struct btf_decl_tag``.::
487                                                   488 
488     struct btf_decl_tag {                         489     struct btf_decl_tag {
489         __u32   component_idx;                    490         __u32   component_idx;
490     };                                            491     };
491                                                   492 
492 The ``name_off`` encodes btf_decl_tag attribut    493 The ``name_off`` encodes btf_decl_tag attribute string.
493 The ``type`` should be ``struct``, ``union``,     494 The ``type`` should be ``struct``, ``union``, ``func``, ``var`` or ``typedef``.
494 For ``var`` or ``typedef`` type, ``btf_decl_ta    495 For ``var`` or ``typedef`` type, ``btf_decl_tag.component_idx`` must be ``-1``.
495 For the other three types, if the btf_decl_tag    496 For the other three types, if the btf_decl_tag attribute is
496 applied to the ``struct``, ``union`` or ``func    497 applied to the ``struct``, ``union`` or ``func`` itself,
497 ``btf_decl_tag.component_idx`` must be ``-1``.    498 ``btf_decl_tag.component_idx`` must be ``-1``. Otherwise,
498 the attribute is applied to a ``struct``/``uni    499 the attribute is applied to a ``struct``/``union`` member or
499 a ``func`` argument, and ``btf_decl_tag.compon    500 a ``func`` argument, and ``btf_decl_tag.component_idx`` should be a
500 valid index (starting from 0) pointing to a me    501 valid index (starting from 0) pointing to a member or an argument.
501                                                   502 
502 2.2.18 BTF_KIND_TYPE_TAG                          503 2.2.18 BTF_KIND_TYPE_TAG
503 ~~~~~~~~~~~~~~~~~~~~~~~~                          504 ~~~~~~~~~~~~~~~~~~~~~~~~
504                                                   505 
505 ``struct btf_type`` encoding requirement:         506 ``struct btf_type`` encoding requirement:
506  * ``name_off``: offset to a non-empty string     507  * ``name_off``: offset to a non-empty string
507  * ``info.kind_flag``: 0                          508  * ``info.kind_flag``: 0
508  * ``info.kind``: BTF_KIND_TYPE_TAG               509  * ``info.kind``: BTF_KIND_TYPE_TAG
509  * ``info.vlen``: 0                               510  * ``info.vlen``: 0
510  * ``type``: the type with ``btf_type_tag`` at    511  * ``type``: the type with ``btf_type_tag`` attribute
511                                                   512 
512 Currently, ``BTF_KIND_TYPE_TAG`` is only emitt    513 Currently, ``BTF_KIND_TYPE_TAG`` is only emitted for pointer types.
513 It has the following btf type chain:              514 It has the following btf type chain:
514 ::                                                515 ::
515                                                   516 
516   ptr -> [type_tag]*                              517   ptr -> [type_tag]*
517       -> [const | volatile | restrict | typede    518       -> [const | volatile | restrict | typedef]*
518       -> base_type                                519       -> base_type
519                                                   520 
520 Basically, a pointer type points to zero or mo    521 Basically, a pointer type points to zero or more
521 type_tag, then zero or more const/volatile/res    522 type_tag, then zero or more const/volatile/restrict/typedef
522 and finally the base type. The base type is on    523 and finally the base type. The base type is one of
523 int, ptr, array, struct, union, enum, func_pro    524 int, ptr, array, struct, union, enum, func_proto and float types.
524                                                   525 
525 2.2.19 BTF_KIND_ENUM64                            526 2.2.19 BTF_KIND_ENUM64
526 ~~~~~~~~~~~~~~~~~~~~~~                            527 ~~~~~~~~~~~~~~~~~~~~~~
527                                                   528 
528 ``struct btf_type`` encoding requirement:         529 ``struct btf_type`` encoding requirement:
529   * ``name_off``: 0 or offset to a valid C ide    530   * ``name_off``: 0 or offset to a valid C identifier
530   * ``info.kind_flag``: 0 for unsigned, 1 for     531   * ``info.kind_flag``: 0 for unsigned, 1 for signed
531   * ``info.kind``: BTF_KIND_ENUM64                532   * ``info.kind``: BTF_KIND_ENUM64
532   * ``info.vlen``: number of enum values          533   * ``info.vlen``: number of enum values
533   * ``size``: 1/2/4/8                             534   * ``size``: 1/2/4/8
534                                                   535 
535 ``btf_type`` is followed by ``info.vlen`` numb    536 ``btf_type`` is followed by ``info.vlen`` number of ``struct btf_enum64``.::
536                                                   537 
537     struct btf_enum64 {                           538     struct btf_enum64 {
538         __u32   name_off;                         539         __u32   name_off;
539         __u32   val_lo32;                         540         __u32   val_lo32;
540         __u32   val_hi32;                         541         __u32   val_hi32;
541     };                                            542     };
542                                                   543 
543 The ``btf_enum64`` encoding:                      544 The ``btf_enum64`` encoding:
544   * ``name_off``: offset to a valid C identifi    545   * ``name_off``: offset to a valid C identifier
545   * ``val_lo32``: lower 32-bit value for a 64-    546   * ``val_lo32``: lower 32-bit value for a 64-bit value
546   * ``val_hi32``: high 32-bit value for a 64-b    547   * ``val_hi32``: high 32-bit value for a 64-bit value
547                                                   548 
548 If the original enum value is signed and the s    549 If the original enum value is signed and the size is less than 8,
549 that value will be sign extended into 8 bytes.    550 that value will be sign extended into 8 bytes.
550                                                << 
551 2.3 Constant Values                            << 
552 -------------------                            << 
553                                                << 
554 .. _BTF_Function_Linkage_Constants:            << 
555                                                << 
556 2.3.1 Function Linkage Constant Values         << 
557 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~         << 
558 .. table:: Function Linkage Values and Meaning << 
559                                                << 
560   ===================  =====  ===========      << 
561   kind                 value  description      << 
562   ===================  =====  ===========      << 
563   ``BTF_FUNC_STATIC``  0x0    definition of su << 
564   ``BTF_FUNC_GLOBAL``  0x1    definition of su << 
565   ``BTF_FUNC_EXTERN``  0x2    declaration of a << 
566   ===================  =====  ===========      << 
567                                                << 
568                                                << 
569 .. _BTF_Var_Linkage_Constants:                 << 
570                                                << 
571 2.3.2 Variable Linkage Constant Values         << 
572 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~         << 
573 .. table:: Variable Linkage Values and Meaning << 
574                                                << 
575   ============================  =====  ======= << 
576   kind                          value  descrip << 
577   ============================  =====  ======= << 
578   ``BTF_VAR_STATIC``            0x0    definit << 
579   ``BTF_VAR_GLOBAL_ALLOCATED``  0x1    definit << 
580   ``BTF_VAR_GLOBAL_EXTERN``     0x2    declara << 
581   ============================  =====  ======= << 
582                                                   551 
583 3. BTF Kernel API                                 552 3. BTF Kernel API
584 =================                                 553 =================
585                                                   554 
586 The following bpf syscall command involves BTF    555 The following bpf syscall command involves BTF:
587    * BPF_BTF_LOAD: load a blob of BTF data int    556    * BPF_BTF_LOAD: load a blob of BTF data into kernel
588    * BPF_MAP_CREATE: map creation with btf key    557    * BPF_MAP_CREATE: map creation with btf key and value type info.
589    * BPF_PROG_LOAD: prog load with btf functio    558    * BPF_PROG_LOAD: prog load with btf function and line info.
590    * BPF_BTF_GET_FD_BY_ID: get a btf fd           559    * BPF_BTF_GET_FD_BY_ID: get a btf fd
591    * BPF_OBJ_GET_INFO_BY_FD: btf, func_info, l    560    * BPF_OBJ_GET_INFO_BY_FD: btf, func_info, line_info
592      and other btf related info are returned.     561      and other btf related info are returned.
593                                                   562 
594 The workflow typically looks like:                563 The workflow typically looks like:
595 ::                                                564 ::
596                                                   565 
597   Application:                                    566   Application:
598       BPF_BTF_LOAD                                567       BPF_BTF_LOAD
599           |                                       568           |
600           v                                       569           v
601       BPF_MAP_CREATE and BPF_PROG_LOAD            570       BPF_MAP_CREATE and BPF_PROG_LOAD
602           |                                       571           |
603           V                                       572           V
604       ......                                      573       ......
605                                                   574 
606   Introspection tool:                             575   Introspection tool:
607       ......                                      576       ......
608       BPF_{PROG,MAP}_GET_NEXT_ID (get prog/map    577       BPF_{PROG,MAP}_GET_NEXT_ID (get prog/map id's)
609           |                                       578           |
610           V                                       579           V
611       BPF_{PROG,MAP}_GET_FD_BY_ID (get a prog/    580       BPF_{PROG,MAP}_GET_FD_BY_ID (get a prog/map fd)
612           |                                       581           |
613           V                                       582           V
614       BPF_OBJ_GET_INFO_BY_FD (get bpf_prog_inf    583       BPF_OBJ_GET_INFO_BY_FD (get bpf_prog_info/bpf_map_info with btf_id)
615           |                                       584           |                                     |
616           V                                       585           V                                     |
617       BPF_BTF_GET_FD_BY_ID (get btf_fd)           586       BPF_BTF_GET_FD_BY_ID (get btf_fd)         |
618           |                                       587           |                                     |
619           V                                       588           V                                     |
620       BPF_OBJ_GET_INFO_BY_FD (get btf)            589       BPF_OBJ_GET_INFO_BY_FD (get btf)          |
621           |                                       590           |                                     |
622           V                                       591           V                                     V
623       pretty print types, dump func signatures    592       pretty print types, dump func signatures and line info, etc.
624                                                   593 
625                                                   594 
626 3.1 BPF_BTF_LOAD                                  595 3.1 BPF_BTF_LOAD
627 ----------------                                  596 ----------------
628                                                   597 
629 Load a blob of BTF data into kernel. A blob of    598 Load a blob of BTF data into kernel. A blob of data, described in
630 :ref:`BTF_Type_String`, can be directly loaded    599 :ref:`BTF_Type_String`, can be directly loaded into the kernel. A ``btf_fd``
631 is returned to a userspace.                       600 is returned to a userspace.
632                                                   601 
633 3.2 BPF_MAP_CREATE                                602 3.2 BPF_MAP_CREATE
634 ------------------                                603 ------------------
635                                                   604 
636 A map can be created with ``btf_fd`` and speci    605 A map can be created with ``btf_fd`` and specified key/value type id.::
637                                                   606 
638     __u32   btf_fd;         /* fd pointing to     607     __u32   btf_fd;         /* fd pointing to a BTF type data */
639     __u32   btf_key_type_id;        /* BTF typ    608     __u32   btf_key_type_id;        /* BTF type_id of the key */
640     __u32   btf_value_type_id;      /* BTF typ    609     __u32   btf_value_type_id;      /* BTF type_id of the value */
641                                                   610 
642 In libbpf, the map can be defined with extra a    611 In libbpf, the map can be defined with extra annotation like below:
643 ::                                                612 ::
644                                                   613 
645     struct {                                      614     struct {
646         __uint(type, BPF_MAP_TYPE_ARRAY);         615         __uint(type, BPF_MAP_TYPE_ARRAY);
647         __type(key, int);                         616         __type(key, int);
648         __type(value, struct ipv_counts);         617         __type(value, struct ipv_counts);
649         __uint(max_entries, 4);                   618         __uint(max_entries, 4);
650     } btf_map SEC(".maps");                       619     } btf_map SEC(".maps");
651                                                   620 
652 During ELF parsing, libbpf is able to extract     621 During ELF parsing, libbpf is able to extract key/value type_id's and assign
653 them to BPF_MAP_CREATE attributes automaticall    622 them to BPF_MAP_CREATE attributes automatically.
654                                                   623 
655 .. _BPF_Prog_Load:                                624 .. _BPF_Prog_Load:
656                                                   625 
657 3.3 BPF_PROG_LOAD                                 626 3.3 BPF_PROG_LOAD
658 -----------------                                 627 -----------------
659                                                   628 
660 During prog_load, func_info and line_info can     629 During prog_load, func_info and line_info can be passed to kernel with proper
661 values for the following attributes:              630 values for the following attributes:
662 ::                                                631 ::
663                                                   632 
664     __u32           insn_cnt;                     633     __u32           insn_cnt;
665     __aligned_u64   insns;                        634     __aligned_u64   insns;
666     ......                                        635     ......
667     __u32           prog_btf_fd;    /* fd poin    636     __u32           prog_btf_fd;    /* fd pointing to BTF type data */
668     __u32           func_info_rec_size;     /*    637     __u32           func_info_rec_size;     /* userspace bpf_func_info size */
669     __aligned_u64   func_info;      /* func in    638     __aligned_u64   func_info;      /* func info */
670     __u32           func_info_cnt;  /* number     639     __u32           func_info_cnt;  /* number of bpf_func_info records */
671     __u32           line_info_rec_size;     /*    640     __u32           line_info_rec_size;     /* userspace bpf_line_info size */
672     __aligned_u64   line_info;      /* line in    641     __aligned_u64   line_info;      /* line info */
673     __u32           line_info_cnt;  /* number     642     __u32           line_info_cnt;  /* number of bpf_line_info records */
674                                                   643 
675 The func_info and line_info are an array of be    644 The func_info and line_info are an array of below, respectively.::
676                                                   645 
677     struct bpf_func_info {                        646     struct bpf_func_info {
678         __u32   insn_off; /* [0, insn_cnt - 1]    647         __u32   insn_off; /* [0, insn_cnt - 1] */
679         __u32   type_id;  /* pointing to a BTF    648         __u32   type_id;  /* pointing to a BTF_KIND_FUNC type */
680     };                                            649     };
681     struct bpf_line_info {                        650     struct bpf_line_info {
682         __u32   insn_off; /* [0, insn_cnt - 1]    651         __u32   insn_off; /* [0, insn_cnt - 1] */
683         __u32   file_name_off; /* offset to st    652         __u32   file_name_off; /* offset to string table for the filename */
684         __u32   line_off; /* offset to string     653         __u32   line_off; /* offset to string table for the source line */
685         __u32   line_col; /* line number and c    654         __u32   line_col; /* line number and column number */
686     };                                            655     };
687                                                   656 
688 func_info_rec_size is the size of each func_in    657 func_info_rec_size is the size of each func_info record, and
689 line_info_rec_size is the size of each line_in    658 line_info_rec_size is the size of each line_info record. Passing the record
690 size to kernel make it possible to extend the     659 size to kernel make it possible to extend the record itself in the future.
691                                                   660 
692 Below are requirements for func_info:             661 Below are requirements for func_info:
693   * func_info[0].insn_off must be 0.              662   * func_info[0].insn_off must be 0.
694   * the func_info insn_off is in strictly incr    663   * the func_info insn_off is in strictly increasing order and matches
695     bpf func boundaries.                          664     bpf func boundaries.
696                                                   665 
697 Below are requirements for line_info:             666 Below are requirements for line_info:
698   * the first insn in each func must have a li    667   * the first insn in each func must have a line_info record pointing to it.
699   * the line_info insn_off is in strictly incr    668   * the line_info insn_off is in strictly increasing order.
700                                                   669 
701 For line_info, the line number and column numb    670 For line_info, the line number and column number are defined as below:
702 ::                                                671 ::
703                                                   672 
704     #define BPF_LINE_INFO_LINE_NUM(line_col)      673     #define BPF_LINE_INFO_LINE_NUM(line_col)        ((line_col) >> 10)
705     #define BPF_LINE_INFO_LINE_COL(line_col)      674     #define BPF_LINE_INFO_LINE_COL(line_col)        ((line_col) & 0x3ff)
706                                                   675 
707 3.4 BPF_{PROG,MAP}_GET_NEXT_ID                    676 3.4 BPF_{PROG,MAP}_GET_NEXT_ID
708 ------------------------------                    677 ------------------------------
709                                                   678 
710 In kernel, every loaded program, map or btf ha    679 In kernel, every loaded program, map or btf has a unique id. The id won't
711 change during the lifetime of a program, map,     680 change during the lifetime of a program, map, or btf.
712                                                   681 
713 The bpf syscall command BPF_{PROG,MAP}_GET_NEX    682 The bpf syscall command BPF_{PROG,MAP}_GET_NEXT_ID returns all id's, one for
714 each command, to user space, for bpf program o    683 each command, to user space, for bpf program or maps, respectively, so an
715 inspection tool can inspect all programs and m    684 inspection tool can inspect all programs and maps.
716                                                   685 
717 3.5 BPF_{PROG,MAP}_GET_FD_BY_ID                   686 3.5 BPF_{PROG,MAP}_GET_FD_BY_ID
718 -------------------------------                   687 -------------------------------
719                                                   688 
720 An introspection tool cannot use id to get det    689 An introspection tool cannot use id to get details about program or maps.
721 A file descriptor needs to be obtained first f    690 A file descriptor needs to be obtained first for reference-counting purpose.
722                                                   691 
723 3.6 BPF_OBJ_GET_INFO_BY_FD                        692 3.6 BPF_OBJ_GET_INFO_BY_FD
724 --------------------------                        693 --------------------------
725                                                   694 
726 Once a program/map fd is acquired, an introspe    695 Once a program/map fd is acquired, an introspection tool can get the detailed
727 information from kernel about this fd, some of    696 information from kernel about this fd, some of which are BTF-related. For
728 example, ``bpf_map_info`` returns ``btf_id`` a    697 example, ``bpf_map_info`` returns ``btf_id`` and key/value type ids.
729 ``bpf_prog_info`` returns ``btf_id``, func_inf    698 ``bpf_prog_info`` returns ``btf_id``, func_info, and line info for translated
730 bpf byte codes, and jited_line_info.              699 bpf byte codes, and jited_line_info.
731                                                   700 
732 3.7 BPF_BTF_GET_FD_BY_ID                          701 3.7 BPF_BTF_GET_FD_BY_ID
733 ------------------------                          702 ------------------------
734                                                   703 
735 With ``btf_id`` obtained in ``bpf_map_info`` a    704 With ``btf_id`` obtained in ``bpf_map_info`` and ``bpf_prog_info``, bpf
736 syscall command BPF_BTF_GET_FD_BY_ID can retri    705 syscall command BPF_BTF_GET_FD_BY_ID can retrieve a btf fd. Then, with
737 command BPF_OBJ_GET_INFO_BY_FD, the btf blob,     706 command BPF_OBJ_GET_INFO_BY_FD, the btf blob, originally loaded into the
738 kernel with BPF_BTF_LOAD, can be retrieved.       707 kernel with BPF_BTF_LOAD, can be retrieved.
739                                                   708 
740 With the btf blob, ``bpf_map_info``, and ``bpf    709 With the btf blob, ``bpf_map_info``, and ``bpf_prog_info``, an introspection
741 tool has full btf knowledge and is able to pre    710 tool has full btf knowledge and is able to pretty print map key/values, dump
742 func signatures and line info, along with byte    711 func signatures and line info, along with byte/jit codes.
743                                                   712 
744 4. ELF File Format Interface                      713 4. ELF File Format Interface
745 ============================                      714 ============================
746                                                   715 
747 4.1 .BTF section                                  716 4.1 .BTF section
748 ----------------                                  717 ----------------
749                                                   718 
750 The .BTF section contains type and string data    719 The .BTF section contains type and string data. The format of this section is
751 same as the one describe in :ref:`BTF_Type_Str    720 same as the one describe in :ref:`BTF_Type_String`.
752                                                   721 
753 .. _BTF_Ext_Section:                              722 .. _BTF_Ext_Section:
754                                                   723 
755 4.2 .BTF.ext section                              724 4.2 .BTF.ext section
756 --------------------                              725 --------------------
757                                                   726 
758 The .BTF.ext section encodes func_info, line_i    727 The .BTF.ext section encodes func_info, line_info and CO-RE relocations
759 which needs loader manipulation before loading    728 which needs loader manipulation before loading into the kernel.
760                                                   729 
761 The specification for .BTF.ext section is defi    730 The specification for .BTF.ext section is defined at ``tools/lib/bpf/btf.h``
762 and ``tools/lib/bpf/btf.c``.                      731 and ``tools/lib/bpf/btf.c``.
763                                                   732 
764 The current header of .BTF.ext section::          733 The current header of .BTF.ext section::
765                                                   734 
766     struct btf_ext_header {                       735     struct btf_ext_header {
767         __u16   magic;                            736         __u16   magic;
768         __u8    version;                          737         __u8    version;
769         __u8    flags;                            738         __u8    flags;
770         __u32   hdr_len;                          739         __u32   hdr_len;
771                                                   740 
772         /* All offsets are in bytes relative t    741         /* All offsets are in bytes relative to the end of this header */
773         __u32   func_info_off;                    742         __u32   func_info_off;
774         __u32   func_info_len;                    743         __u32   func_info_len;
775         __u32   line_info_off;                    744         __u32   line_info_off;
776         __u32   line_info_len;                    745         __u32   line_info_len;
777                                                   746 
778         /* optional part of .BTF.ext header */    747         /* optional part of .BTF.ext header */
779         __u32   core_relo_off;                    748         __u32   core_relo_off;
780         __u32   core_relo_len;                    749         __u32   core_relo_len;
781     };                                            750     };
782                                                   751 
783 It is very similar to .BTF section. Instead of    752 It is very similar to .BTF section. Instead of type/string section, it
784 contains func_info, line_info and core_relo su    753 contains func_info, line_info and core_relo sub-sections.
785 See :ref:`BPF_Prog_Load` for details about fun    754 See :ref:`BPF_Prog_Load` for details about func_info and line_info
786 record format.                                    755 record format.
787                                                   756 
788 The func_info is organized as below.::            757 The func_info is organized as below.::
789                                                   758 
790      func_info_rec_size              /* __u32     759      func_info_rec_size              /* __u32 value */
791      btf_ext_info_sec for section #1 /* func_i    760      btf_ext_info_sec for section #1 /* func_info for section #1 */
792      btf_ext_info_sec for section #2 /* func_i    761      btf_ext_info_sec for section #2 /* func_info for section #2 */
793      ...                                          762      ...
794                                                   763 
795 ``func_info_rec_size`` specifies the size of `    764 ``func_info_rec_size`` specifies the size of ``bpf_func_info`` structure when
796 .BTF.ext is generated. ``btf_ext_info_sec``, d    765 .BTF.ext is generated. ``btf_ext_info_sec``, defined below, is a collection of
797 func_info for each specific ELF section.::        766 func_info for each specific ELF section.::
798                                                   767 
799      struct btf_ext_info_sec {                    768      struct btf_ext_info_sec {
800         __u32   sec_name_off; /* offset to sec    769         __u32   sec_name_off; /* offset to section name */
801         __u32   num_info;                         770         __u32   num_info;
802         /* Followed by num_info * record_size     771         /* Followed by num_info * record_size number of bytes */
803         __u8    data[0];                          772         __u8    data[0];
804      };                                           773      };
805                                                   774 
806 Here, num_info must be greater than 0.            775 Here, num_info must be greater than 0.
807                                                   776 
808 The line_info is organized as below.::            777 The line_info is organized as below.::
809                                                   778 
810      line_info_rec_size              /* __u32     779      line_info_rec_size              /* __u32 value */
811      btf_ext_info_sec for section #1 /* line_i    780      btf_ext_info_sec for section #1 /* line_info for section #1 */
812      btf_ext_info_sec for section #2 /* line_i    781      btf_ext_info_sec for section #2 /* line_info for section #2 */
813      ...                                          782      ...
814                                                   783 
815 ``line_info_rec_size`` specifies the size of `    784 ``line_info_rec_size`` specifies the size of ``bpf_line_info`` structure when
816 .BTF.ext is generated.                            785 .BTF.ext is generated.
817                                                   786 
818 The interpretation of ``bpf_func_info->insn_of    787 The interpretation of ``bpf_func_info->insn_off`` and
819 ``bpf_line_info->insn_off`` is different betwe    788 ``bpf_line_info->insn_off`` is different between kernel API and ELF API. For
820 kernel API, the ``insn_off`` is the instructio    789 kernel API, the ``insn_off`` is the instruction offset in the unit of ``struct
821 bpf_insn``. For ELF API, the ``insn_off`` is t    790 bpf_insn``. For ELF API, the ``insn_off`` is the byte offset from the
822 beginning of section (``btf_ext_info_sec->sec_    791 beginning of section (``btf_ext_info_sec->sec_name_off``).
823                                                   792 
824 The core_relo is organized as below.::            793 The core_relo is organized as below.::
825                                                   794 
826      core_relo_rec_size              /* __u32     795      core_relo_rec_size              /* __u32 value */
827      btf_ext_info_sec for section #1 /* core_r    796      btf_ext_info_sec for section #1 /* core_relo for section #1 */
828      btf_ext_info_sec for section #2 /* core_r    797      btf_ext_info_sec for section #2 /* core_relo for section #2 */
829                                                   798 
830 ``core_relo_rec_size`` specifies the size of `    799 ``core_relo_rec_size`` specifies the size of ``bpf_core_relo``
831 structure when .BTF.ext is generated. All ``bp    800 structure when .BTF.ext is generated. All ``bpf_core_relo`` structures
832 within a single ``btf_ext_info_sec`` describe     801 within a single ``btf_ext_info_sec`` describe relocations applied to
833 section named by ``btf_ext_info_sec->sec_name_    802 section named by ``btf_ext_info_sec->sec_name_off``.
834                                                   803 
835 See :ref:`Documentation/bpf/llvm_reloc.rst <bt    804 See :ref:`Documentation/bpf/llvm_reloc.rst <btf-co-re-relocations>`
836 for more information on CO-RE relocations.        805 for more information on CO-RE relocations.
837                                                   806 
838 4.2 .BTF_ids section                              807 4.2 .BTF_ids section
839 --------------------                              808 --------------------
840                                                   809 
841 The .BTF_ids section encodes BTF ID values tha    810 The .BTF_ids section encodes BTF ID values that are used within the kernel.
842                                                   811 
843 This section is created during the kernel comp    812 This section is created during the kernel compilation with the help of
844 macros defined in ``include/linux/btf_ids.h``     813 macros defined in ``include/linux/btf_ids.h`` header file. Kernel code can
845 use them to create lists and sets (sorted list    814 use them to create lists and sets (sorted lists) of BTF ID values.
846                                                   815 
847 The ``BTF_ID_LIST`` and ``BTF_ID`` macros defi    816 The ``BTF_ID_LIST`` and ``BTF_ID`` macros define unsorted list of BTF ID values,
848 with following syntax::                           817 with following syntax::
849                                                   818 
850   BTF_ID_LIST(list)                               819   BTF_ID_LIST(list)
851   BTF_ID(type1, name1)                            820   BTF_ID(type1, name1)
852   BTF_ID(type2, name2)                            821   BTF_ID(type2, name2)
853                                                   822 
854 resulting in following layout in .BTF_ids sect    823 resulting in following layout in .BTF_ids section::
855                                                   824 
856   __BTF_ID__type1__name1__1:                      825   __BTF_ID__type1__name1__1:
857   .zero 4                                         826   .zero 4
858   __BTF_ID__type2__name2__2:                      827   __BTF_ID__type2__name2__2:
859   .zero 4                                         828   .zero 4
860                                                   829 
861 The ``u32 list[];`` variable is defined to acc    830 The ``u32 list[];`` variable is defined to access the list.
862                                                   831 
863 The ``BTF_ID_UNUSED`` macro defines 4 zero byt    832 The ``BTF_ID_UNUSED`` macro defines 4 zero bytes. It's used when we
864 want to define unused entry in BTF_ID_LIST, li    833 want to define unused entry in BTF_ID_LIST, like::
865                                                   834 
866       BTF_ID_LIST(bpf_skb_output_btf_ids)         835       BTF_ID_LIST(bpf_skb_output_btf_ids)
867       BTF_ID(struct, sk_buff)                     836       BTF_ID(struct, sk_buff)
868       BTF_ID_UNUSED                               837       BTF_ID_UNUSED
869       BTF_ID(struct, task_struct)                 838       BTF_ID(struct, task_struct)
870                                                   839 
871 The ``BTF_SET_START/END`` macros pair defines     840 The ``BTF_SET_START/END`` macros pair defines sorted list of BTF ID values
872 and their count, with following syntax::          841 and their count, with following syntax::
873                                                   842 
874   BTF_SET_START(set)                              843   BTF_SET_START(set)
875   BTF_ID(type1, name1)                            844   BTF_ID(type1, name1)
876   BTF_ID(type2, name2)                            845   BTF_ID(type2, name2)
877   BTF_SET_END(set)                                846   BTF_SET_END(set)
878                                                   847 
879 resulting in following layout in .BTF_ids sect    848 resulting in following layout in .BTF_ids section::
880                                                   849 
881   __BTF_ID__set__set:                             850   __BTF_ID__set__set:
882   .zero 4                                         851   .zero 4
883   __BTF_ID__type1__name1__3:                      852   __BTF_ID__type1__name1__3:
884   .zero 4                                         853   .zero 4
885   __BTF_ID__type2__name2__4:                      854   __BTF_ID__type2__name2__4:
886   .zero 4                                         855   .zero 4
887                                                   856 
888 The ``struct btf_id_set set;`` variable is def    857 The ``struct btf_id_set set;`` variable is defined to access the list.
889                                                   858 
890 The ``typeX`` name can be one of following::      859 The ``typeX`` name can be one of following::
891                                                   860 
892    struct, union, typedef, func                   861    struct, union, typedef, func
893                                                   862 
894 and is used as a filter when resolving the BTF    863 and is used as a filter when resolving the BTF ID value.
895                                                   864 
896 All the BTF ID lists and sets are compiled in     865 All the BTF ID lists and sets are compiled in the .BTF_ids section and
897 resolved during the linking phase of kernel bu    866 resolved during the linking phase of kernel build by ``resolve_btfids`` tool.
898                                                   867 
899 5. Using BTF                                      868 5. Using BTF
900 ============                                      869 ============
901                                                   870 
902 5.1 bpftool map pretty print                      871 5.1 bpftool map pretty print
903 ----------------------------                      872 ----------------------------
904                                                   873 
905 With BTF, the map key/value can be printed bas    874 With BTF, the map key/value can be printed based on fields rather than simply
906 raw bytes. This is especially valuable for lar    875 raw bytes. This is especially valuable for large structure or if your data
907 structure has bitfields. For example, for the     876 structure has bitfields. For example, for the following map,::
908                                                   877 
909       enum A { A1, A2, A3, A4, A5 };              878       enum A { A1, A2, A3, A4, A5 };
910       typedef enum A ___A;                        879       typedef enum A ___A;
911       struct tmp_t {                              880       struct tmp_t {
912            char a1:4;                             881            char a1:4;
913            int  a2:4;                             882            int  a2:4;
914            int  :4;                               883            int  :4;
915            __u32 a3:4;                            884            __u32 a3:4;
916            int b;                                 885            int b;
917            ___A b1:4;                             886            ___A b1:4;
918            enum A b2:4;                           887            enum A b2:4;
919       };                                          888       };
920       struct {                                    889       struct {
921            __uint(type, BPF_MAP_TYPE_ARRAY);      890            __uint(type, BPF_MAP_TYPE_ARRAY);
922            __type(key, int);                      891            __type(key, int);
923            __type(value, struct tmp_t);           892            __type(value, struct tmp_t);
924            __uint(max_entries, 1);                893            __uint(max_entries, 1);
925       } tmpmap SEC(".maps");                      894       } tmpmap SEC(".maps");
926                                                   895 
927 bpftool is able to pretty print like below:       896 bpftool is able to pretty print like below:
928 ::                                                897 ::
929                                                   898 
930       [{                                          899       [{
931             "key": 0,                             900             "key": 0,
932             "value": {                            901             "value": {
933                 "a1": 0x2,                        902                 "a1": 0x2,
934                 "a2": 0x4,                        903                 "a2": 0x4,
935                 "a3": 0x6,                        904                 "a3": 0x6,
936                 "b": 7,                           905                 "b": 7,
937                 "b1": 0x8,                        906                 "b1": 0x8,
938                 "b2": 0xa                         907                 "b2": 0xa
939             }                                     908             }
940         }                                         909         }
941       ]                                           910       ]
942                                                   911 
943 5.2 bpftool prog dump                             912 5.2 bpftool prog dump
944 ---------------------                             913 ---------------------
945                                                   914 
946 The following is an example showing how func_i    915 The following is an example showing how func_info and line_info can help prog
947 dump with better kernel symbol names, function    916 dump with better kernel symbol names, function prototypes and line
948 information.::                                    917 information.::
949                                                   918 
950     $ bpftool prog dump jited pinned /sys/fs/b    919     $ bpftool prog dump jited pinned /sys/fs/bpf/test_btf_haskv
951     [...]                                         920     [...]
952     int test_long_fname_2(struct dummy_tracepo    921     int test_long_fname_2(struct dummy_tracepoint_args * arg):
953     bpf_prog_44a040bf25481309_test_long_fname_    922     bpf_prog_44a040bf25481309_test_long_fname_2:
954     ; static int test_long_fname_2(struct dumm    923     ; static int test_long_fname_2(struct dummy_tracepoint_args *arg)
955        0:   push   %rbp                           924        0:   push   %rbp
956        1:   mov    %rsp,%rbp                      925        1:   mov    %rsp,%rbp
957        4:   sub    $0x30,%rsp                     926        4:   sub    $0x30,%rsp
958        b:   sub    $0x28,%rbp                     927        b:   sub    $0x28,%rbp
959        f:   mov    %rbx,0x0(%rbp)                 928        f:   mov    %rbx,0x0(%rbp)
960       13:   mov    %r13,0x8(%rbp)                 929       13:   mov    %r13,0x8(%rbp)
961       17:   mov    %r14,0x10(%rbp)                930       17:   mov    %r14,0x10(%rbp)
962       1b:   mov    %r15,0x18(%rbp)                931       1b:   mov    %r15,0x18(%rbp)
963       1f:   xor    %eax,%eax                      932       1f:   xor    %eax,%eax
964       21:   mov    %rax,0x20(%rbp)                933       21:   mov    %rax,0x20(%rbp)
965       25:   xor    %esi,%esi                      934       25:   xor    %esi,%esi
966     ; int key = 0;                                935     ; int key = 0;
967       27:   mov    %esi,-0x4(%rbp)                936       27:   mov    %esi,-0x4(%rbp)
968     ; if (!arg->sock)                             937     ; if (!arg->sock)
969       2a:   mov    0x8(%rdi),%rdi                 938       2a:   mov    0x8(%rdi),%rdi
970     ; if (!arg->sock)                             939     ; if (!arg->sock)
971       2e:   cmp    $0x0,%rdi                      940       2e:   cmp    $0x0,%rdi
972       32:   je     0x0000000000000070             941       32:   je     0x0000000000000070
973       34:   mov    %rbp,%rsi                      942       34:   mov    %rbp,%rsi
974     ; counts = bpf_map_lookup_elem(&btf_map, &    943     ; counts = bpf_map_lookup_elem(&btf_map, &key);
975     [...]                                         944     [...]
976                                                   945 
977 5.3 Verifier Log                                  946 5.3 Verifier Log
978 ----------------                                  947 ----------------
979                                                   948 
980 The following is an example of how line_info c    949 The following is an example of how line_info can help debugging verification
981 failure.::                                        950 failure.::
982                                                   951 
983        /* The code at tools/testing/selftests/    952        /* The code at tools/testing/selftests/bpf/test_xdp_noinline.c
984         * is modified as below.                   953         * is modified as below.
985         */                                        954         */
986        data = (void *)(long)xdp->data;            955        data = (void *)(long)xdp->data;
987        data_end = (void *)(long)xdp->data_end;    956        data_end = (void *)(long)xdp->data_end;
988        /*                                         957        /*
989        if (data + 4 > data_end)                   958        if (data + 4 > data_end)
990                return XDP_DROP;                   959                return XDP_DROP;
991        */                                         960        */
992        *(u32 *)data = dst->dst;                   961        *(u32 *)data = dst->dst;
993                                                   962 
994     $ bpftool prog load ./test_xdp_noinline.o     963     $ bpftool prog load ./test_xdp_noinline.o /sys/fs/bpf/test_xdp_noinline type xdp
995         ; data = (void *)(long)xdp->data;         964         ; data = (void *)(long)xdp->data;
996         224: (79) r2 = *(u64 *)(r10 -112)         965         224: (79) r2 = *(u64 *)(r10 -112)
997         225: (61) r2 = *(u32 *)(r2 +0)            966         225: (61) r2 = *(u32 *)(r2 +0)
998         ; *(u32 *)data = dst->dst;                967         ; *(u32 *)data = dst->dst;
999         226: (63) *(u32 *)(r2 +0) = r1            968         226: (63) *(u32 *)(r2 +0) = r1
1000         invalid access to packet, off=0 size=    969         invalid access to packet, off=0 size=4, R2(id=0,off=0,r=0)
1001         R2 offset is outside of the packet       970         R2 offset is outside of the packet
1002                                                  971 
1003 6. BTF Generation                                972 6. BTF Generation
1004 =================                                973 =================
1005                                                  974 
1006 You need latest pahole                           975 You need latest pahole
1007                                                  976 
1008   https://git.kernel.org/pub/scm/devel/pahole    977   https://git.kernel.org/pub/scm/devel/pahole/pahole.git/
1009                                                  978 
1010 or llvm (8.0 or later). The pahole acts as a     979 or llvm (8.0 or later). The pahole acts as a dwarf2btf converter. It doesn't
1011 support .BTF.ext and btf BTF_KIND_FUNC type y    980 support .BTF.ext and btf BTF_KIND_FUNC type yet. For example,::
1012                                                  981 
1013       -bash-4.4$ cat t.c                         982       -bash-4.4$ cat t.c
1014       struct t {                                 983       struct t {
1015         int a:2;                                 984         int a:2;
1016         int b:3;                                 985         int b:3;
1017         int c:2;                                 986         int c:2;
1018       } g;                                       987       } g;
1019       -bash-4.4$ gcc -c -O2 -g t.c               988       -bash-4.4$ gcc -c -O2 -g t.c
1020       -bash-4.4$ pahole -JV t.o                  989       -bash-4.4$ pahole -JV t.o
1021       File t.o:                                  990       File t.o:
1022       [1] STRUCT t kind_flag=1 size=4 vlen=3     991       [1] STRUCT t kind_flag=1 size=4 vlen=3
1023               a type_id=2 bitfield_size=2 bit    992               a type_id=2 bitfield_size=2 bits_offset=0
1024               b type_id=2 bitfield_size=3 bit    993               b type_id=2 bitfield_size=3 bits_offset=2
1025               c type_id=2 bitfield_size=2 bit    994               c type_id=2 bitfield_size=2 bits_offset=5
1026       [2] INT int size=4 bit_offset=0 nr_bits    995       [2] INT int size=4 bit_offset=0 nr_bits=32 encoding=SIGNED
1027                                                  996 
1028 The llvm is able to generate .BTF and .BTF.ex    997 The llvm is able to generate .BTF and .BTF.ext directly with -g for bpf target
1029 only. The assembly code (-S) is able to show     998 only. The assembly code (-S) is able to show the BTF encoding in assembly
1030 format.::                                        999 format.::
1031                                                  1000 
1032     -bash-4.4$ cat t2.c                          1001     -bash-4.4$ cat t2.c
1033     typedef int __int32;                         1002     typedef int __int32;
1034     struct t2 {                                  1003     struct t2 {
1035       int a2;                                    1004       int a2;
1036       int (*f2)(char q1, __int32 q2, ...);       1005       int (*f2)(char q1, __int32 q2, ...);
1037       int (*f3)();                               1006       int (*f3)();
1038     } g2;                                        1007     } g2;
1039     int main() { return 0; }                     1008     int main() { return 0; }
1040     int test() { return 0; }                     1009     int test() { return 0; }
1041     -bash-4.4$ clang -c -g -O2 --target=bpf t    1010     -bash-4.4$ clang -c -g -O2 --target=bpf t2.c
1042     -bash-4.4$ readelf -S t2.o                   1011     -bash-4.4$ readelf -S t2.o
1043       ......                                     1012       ......
1044       [ 8] .BTF              PROGBITS            1013       [ 8] .BTF              PROGBITS         0000000000000000  00000247
1045            000000000000016e  0000000000000000    1014            000000000000016e  0000000000000000           0     0     1
1046       [ 9] .BTF.ext          PROGBITS            1015       [ 9] .BTF.ext          PROGBITS         0000000000000000  000003b5
1047            0000000000000060  0000000000000000    1016            0000000000000060  0000000000000000           0     0     1
1048       [10] .rel.BTF.ext      REL                 1017       [10] .rel.BTF.ext      REL              0000000000000000  000007e0
1049            0000000000000040  0000000000000010    1018            0000000000000040  0000000000000010          16     9     8
1050       ......                                     1019       ......
1051     -bash-4.4$ clang -S -g -O2 --target=bpf t    1020     -bash-4.4$ clang -S -g -O2 --target=bpf t2.c
1052     -bash-4.4$ cat t2.s                          1021     -bash-4.4$ cat t2.s
1053       ......                                     1022       ......
1054             .section        .BTF,"",@progbits    1023             .section        .BTF,"",@progbits
1055             .short  60319                   #    1024             .short  60319                   # 0xeb9f
1056             .byte   1                            1025             .byte   1
1057             .byte   0                            1026             .byte   0
1058             .long   24                           1027             .long   24
1059             .long   0                            1028             .long   0
1060             .long   220                          1029             .long   220
1061             .long   220                          1030             .long   220
1062             .long   122                          1031             .long   122
1063             .long   0                       #    1032             .long   0                       # BTF_KIND_FUNC_PROTO(id = 1)
1064             .long   218103808               #    1033             .long   218103808               # 0xd000000
1065             .long   2                            1034             .long   2
1066             .long   83                      #    1035             .long   83                      # BTF_KIND_INT(id = 2)
1067             .long   16777216                #    1036             .long   16777216                # 0x1000000
1068             .long   4                            1037             .long   4
1069             .long   16777248                #    1038             .long   16777248                # 0x1000020
1070       ......                                     1039       ......
1071             .byte   0                       #    1040             .byte   0                       # string offset=0
1072             .ascii  ".text"                 #    1041             .ascii  ".text"                 # string offset=1
1073             .byte   0                            1042             .byte   0
1074             .ascii  "/home/yhs/tmp-pahole/t2.    1043             .ascii  "/home/yhs/tmp-pahole/t2.c" # string offset=7
1075             .byte   0                            1044             .byte   0
1076             .ascii  "int main() { return 0; }    1045             .ascii  "int main() { return 0; }" # string offset=33
1077             .byte   0                            1046             .byte   0
1078             .ascii  "int test() { return 0; }    1047             .ascii  "int test() { return 0; }" # string offset=58
1079             .byte   0                            1048             .byte   0
1080             .ascii  "int"                   #    1049             .ascii  "int"                   # string offset=83
1081       ......                                     1050       ......
1082             .section        .BTF.ext,"",@prog    1051             .section        .BTF.ext,"",@progbits
1083             .short  60319                   #    1052             .short  60319                   # 0xeb9f
1084             .byte   1                            1053             .byte   1
1085             .byte   0                            1054             .byte   0
1086             .long   24                           1055             .long   24
1087             .long   0                            1056             .long   0
1088             .long   28                           1057             .long   28
1089             .long   28                           1058             .long   28
1090             .long   44                           1059             .long   44
1091             .long   8                       #    1060             .long   8                       # FuncInfo
1092             .long   1                       #    1061             .long   1                       # FuncInfo section string offset=1
1093             .long   2                            1062             .long   2
1094             .long   .Lfunc_begin0                1063             .long   .Lfunc_begin0
1095             .long   3                            1064             .long   3
1096             .long   .Lfunc_begin1                1065             .long   .Lfunc_begin1
1097             .long   5                            1066             .long   5
1098             .long   16                      #    1067             .long   16                      # LineInfo
1099             .long   1                       #    1068             .long   1                       # LineInfo section string offset=1
1100             .long   2                            1069             .long   2
1101             .long   .Ltmp0                       1070             .long   .Ltmp0
1102             .long   7                            1071             .long   7
1103             .long   33                           1072             .long   33
1104             .long   7182                    #    1073             .long   7182                    # Line 7 Col 14
1105             .long   .Ltmp3                       1074             .long   .Ltmp3
1106             .long   7                            1075             .long   7
1107             .long   58                           1076             .long   58
1108             .long   8206                    #    1077             .long   8206                    # Line 8 Col 14
1109                                                  1078 
1110 7. Testing                                       1079 7. Testing
1111 ==========                                       1080 ==========
1112                                                  1081 
1113 The kernel BPF selftest `tools/testing/selfte    1082 The kernel BPF selftest `tools/testing/selftests/bpf/prog_tests/btf.c`_
1114 provides an extensive set of BTF-related test    1083 provides an extensive set of BTF-related tests.
1115                                                  1084 
1116 .. Links                                         1085 .. Links
1117 .. _tools/testing/selftests/bpf/prog_tests/bt    1086 .. _tools/testing/selftests/bpf/prog_tests/btf.c:
1118    https://git.kernel.org/pub/scm/linux/kerne    1087    https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git/tree/tools/testing/selftests/bpf/prog_tests/btf.c
                                                      

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