2021-05-20 20:15:52 +02:00
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/* CTF format description.
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2022-01-03 10:42:10 +01:00
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Copyright (C) 2021-2022 Free Software Foundation, Inc.
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2021-05-20 20:15:52 +02:00
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This file is part of libctf.
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libctf is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; see the file COPYING. If not see
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<http://www.gnu.org/licenses/>. */
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#ifndef _CTF_H
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#define _CTF_H
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#include <sys/types.h>
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#include <limits.h>
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#include <stdint.h>
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#ifdef __cplusplus
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extern "C"
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{
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#endif
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/* CTF - Compact ANSI-C Type Format
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This file format can be used to compactly represent the information needed
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by a debugger to interpret the ANSI-C types used by a given program.
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Traditionally, this kind of information is generated by the compiler when
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invoked with the -g flag and is stored in "stabs" strings or in the more
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modern DWARF format. CTF provides a representation of only the information
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that is relevant to debugging a complex, optimized C program such as the
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operating system kernel in a form that is significantly more compact than
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the equivalent stabs or DWARF representation. The format is data-model
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independent, so consumers do not need different code depending on whether
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they are 32-bit or 64-bit programs; libctf automatically compensates for
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endianness variations. CTF assumes that a standard ELF symbol table is
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available for use in the debugger, and uses the structure and data of the
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symbol table to avoid storing redundant information. The CTF data may be
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compressed on disk or in memory, indicated by a bit in the header. CTF may
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be interpreted in a raw disk file, or it may be stored in an ELF section,
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typically named .ctf. Data structures are aligned so that a raw CTF file or
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CTF ELF section may be manipulated using mmap(2).
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The CTF file or section itself has the following structure:
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+--------+--------+---------+----------+--------+----------+...
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| file | type | data | function | object | function |...
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| header | labels | objects | info | index | index |...
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+--------+--------+---------+----------+--------+----------+...
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...+----------+-------+--------+
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...| variable | data | string |
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...| info | types | table |
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+----------+-------+--------+
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The file header stores a magic number and version information, encoding
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flags, and the byte offset of each of the sections relative to the end of the
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header itself. If the CTF data has been uniquified against another set of
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CTF data, a reference to that data also appears in the the header. This
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reference is the name of the label corresponding to the types uniquified
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against.
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Following the header is a list of labels, used to group the types included in
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the data types section. Each label is accompanied by a type ID i. A given
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label refers to the group of types whose IDs are in the range [0, i].
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Data object and function records (collectively, "symtypetabs") are stored in
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the same order as they appear in the corresponding symbol table, except that
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symbols marked SHN_UNDEF are not stored and symbols that have no type data
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are padded out with zeroes. For each entry in these tables, the type ID (a
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small integer) is recorded. (Functions get CTF_K_FUNCTION types, just like
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data objects that are function pointers.)
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For situations in which the order of the symbols in the symtab is not known,
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or most symbols have no type in this dict and most entries would be
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zero-pads, a pair of optional indexes follow the data object and function
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info sections: each of these is an array of strtab indexes, mapped 1:1 to the
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corresponding data object / function info section, giving each entry in those
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sections a name so that the linker can correlate them with final symtab
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entries and reorder them accordingly (dropping the indexes in the process).
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Variable records (as distinct from data objects) provide a modicum of support
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for non-ELF systems, mapping a variable name to a CTF type ID. The variable
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names are sorted into ASCIIbetical order, permitting binary searching. We do
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not define how the consumer maps these variable names to addresses or
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anything else, or indeed what these names represent: they might be names
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looked up at runtime via dlsym() or names extracted at runtime by a debugger
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or anything else the consumer likes. Variable records with identically-
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named entries in the data object section are removed.
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The data types section is a list of variable size records that represent each
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type, in order by their ID. The types themselves form a directed graph,
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where each node may contain one or more outgoing edges to other type nodes,
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denoted by their ID. Most type nodes are standalone or point backwards to
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earlier nodes, but this is not required: nodes can point to later nodes,
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particularly structure and union members.
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Strings are recorded as a string table ID (0 or 1) and a byte offset into the
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string table. String table 0 is the internal CTF string table. String table
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1 is the external string table, which is the string table associated with the
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ELF dynamic symbol table for this object. CTF does not record any strings
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that are already in the symbol table, and the CTF string table does not
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contain any duplicated strings.
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If the CTF data has been merged with another parent CTF object, some outgoing
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edges may refer to type nodes that exist in another CTF object. The debugger
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and libctf library are responsible for connecting the appropriate objects
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together so that the full set of types can be explored and manipulated.
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This connection is done purely using the ctf_import() function. The
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ctf_archive machinery (and thus ctf_open et al) automatically imports archive
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members named ".ctf" into child dicts if available in the same archive, to
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match the relationship set up by the linker, but callers can call ctf_import
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themselves as well if need be, if they know a different relationship is in
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force. */
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#define CTF_MAX_TYPE 0xfffffffe /* Max type identifier value. */
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#define CTF_MAX_PTYPE 0x7fffffff /* Max parent type identifier value. */
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#define CTF_MAX_NAME 0x7fffffff /* Max offset into a string table. */
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#define CTF_MAX_VLEN 0xffffff /* Max struct, union, enum members or args. */
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/* See ctf_type_t */
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#define CTF_MAX_SIZE 0xfffffffe /* Max size of a v2 type in bytes. */
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#define CTF_LSIZE_SENT 0xffffffff /* Sentinel for v2 ctt_size. */
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/* Start of actual data structure definitions.
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Every field in these structures must have corresponding code in the
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endianness-swapping machinery in libctf/ctf-open.c. */
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typedef struct ctf_preamble
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{
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unsigned short ctp_magic; /* Magic number (CTF_MAGIC). */
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unsigned char ctp_version; /* Data format version number (CTF_VERSION). */
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unsigned char ctp_flags; /* Flags (see below). */
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} ctf_preamble_t;
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typedef struct ctf_header
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{
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ctf_preamble_t cth_preamble;
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uint32_t cth_parlabel; /* Ref to name of parent lbl uniq'd against. */
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uint32_t cth_parname; /* Ref to basename of parent. */
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uint32_t cth_cuname; /* Ref to CU name (may be 0). */
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uint32_t cth_lbloff; /* Offset of label section. */
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uint32_t cth_objtoff; /* Offset of object section. */
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uint32_t cth_funcoff; /* Offset of function section. */
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uint32_t cth_objtidxoff; /* Offset of object index section. */
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uint32_t cth_funcidxoff; /* Offset of function index section. */
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uint32_t cth_varoff; /* Offset of variable section. */
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uint32_t cth_typeoff; /* Offset of type section. */
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uint32_t cth_stroff; /* Offset of string section. */
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uint32_t cth_strlen; /* Length of string section in bytes. */
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} ctf_header_t;
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#define cth_magic cth_preamble.ctp_magic
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#define cth_version cth_preamble.ctp_version
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#define cth_flags cth_preamble.ctp_flags
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#define CTF_MAGIC 0xdff2 /* Magic number identifying header. */
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/* Data format version number. */
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/* v1 upgraded to a later version is not quite the same as the native form,
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because the boundary between parent and child types is different but not
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recorded anywhere, and you can write it out again via ctf_compress_write(),
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so we must track whether the thing was originally v1 or not. If we were
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writing the header from scratch, we would add a *pair* of version number
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fields to allow for this, but this will do for now. (A flag will not do,
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because we need to encode both the version we came from and the version we
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went to, not just "we were upgraded".) */
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# define CTF_VERSION_1 1
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# define CTF_VERSION_1_UPGRADED_3 2
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# define CTF_VERSION_2 3
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/* Note: some flags may be valid only in particular format versions. */
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#define CTF_VERSION_3 4
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#define CTF_VERSION CTF_VERSION_3 /* Current version. */
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#define CTF_F_COMPRESS 0x1 /* Data buffer is compressed by libctf. */
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#define CTF_F_NEWFUNCINFO 0x2 /* New v3 func info section format. */
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typedef struct ctf_lblent
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{
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uint32_t ctl_label; /* Ref to name of label. */
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uint32_t ctl_type; /* Last type associated with this label. */
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} ctf_lblent_t;
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typedef struct ctf_varent
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{
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uint32_t ctv_name; /* Reference to name in string table. */
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uint32_t ctv_type; /* Index of type of this variable. */
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} ctf_varent_t;
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/* In format v2, type sizes, measured in bytes, come in two flavours. Nearly
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all of them fit into a (UINT_MAX - 1), and thus can be stored in the ctt_size
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member of a ctf_stype_t. The maximum value for these sizes is CTF_MAX_SIZE.
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Types larger than this must be stored in the ctf_lsize member of a
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ctf_type_t. Use of this member is indicated by the presence of
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CTF_LSIZE_SENT in ctt_size. */
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typedef struct ctf_stype
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{
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uint32_t ctt_name; /* Reference to name in string table. */
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uint32_t ctt_info; /* Encoded kind, variant length (see below). */
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#ifndef __GNUC__
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union
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{
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uint32_t _size; /* Size of entire type in bytes. */
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uint32_t _type; /* Reference to another type. */
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} _u;
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#else
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__extension__
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union
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{
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uint32_t ctt_size; /* Size of entire type in bytes. */
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uint32_t ctt_type; /* Reference to another type. */
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};
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#endif
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} ctf_stype_t;
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typedef struct ctf_type
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{
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uint32_t ctt_name; /* Reference to name in string table. */
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uint32_t ctt_info; /* Encoded kind, variant length (see below). */
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#ifndef __GNUC__
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union
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{
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uint32_t _size; /* Always CTF_LSIZE_SENT. */
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uint32_t _type; /* Do not use. */
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} _u;
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#else
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__extension__
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union
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{
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uint32_t ctt_size; /* Always CTF_LSIZE_SENT. */
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uint32_t ctt_type; /* Do not use. */
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};
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#endif
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uint32_t ctt_lsizehi; /* High 32 bits of type size in bytes. */
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uint32_t ctt_lsizelo; /* Low 32 bits of type size in bytes. */
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} ctf_type_t;
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#ifndef __GNUC__
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#define ctt_size _u._size /* For fundamental types that have a size. */
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#define ctt_type _u._type /* For types that reference another type. */
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#endif
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/* The following macros and inline functions compose and decompose values for
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ctt_info and ctt_name, as well as other structures that contain name
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references. Use outside libdtrace-ctf itself is explicitly for access to CTF
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files directly: types returned from the library will always appear to be
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CTF_V2.
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v1: (transparently upgraded to v2 at open time: may be compiled out of the
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library)
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------------------------
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ctt_info: | kind | isroot | vlen |
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------------------------
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15 11 10 9 0
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v2:
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------------------------
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ctt_info: | kind | isroot | vlen |
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------------------------
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31 26 25 24 0
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CTF_V1 and V2 _INFO_VLEN have the same interface:
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kind = CTF_*_INFO_KIND(c.ctt_info); <-- CTF_K_* value (see below)
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vlen = CTF_*_INFO_VLEN(fp, c.ctt_info); <-- length of variable data list
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stid = CTF_NAME_STID(c.ctt_name); <-- string table id number (0 or 1)
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offset = CTF_NAME_OFFSET(c.ctt_name); <-- string table byte offset
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c.ctt_info = CTF_TYPE_INFO(kind, vlen);
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c.ctt_name = CTF_TYPE_NAME(stid, offset); */
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#define CTF_V1_INFO_KIND(info) (((info) & 0xf800) >> 11)
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#define CTF_V1_INFO_ISROOT(info) (((info) & 0x0400) >> 10)
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#define CTF_V1_INFO_VLEN(info) (((info) & CTF_MAX_VLEN_V1))
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#define CTF_V2_INFO_KIND(info) (((info) & 0xfc000000) >> 26)
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#define CTF_V2_INFO_ISROOT(info) (((info) & 0x2000000) >> 25)
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#define CTF_V2_INFO_VLEN(info) (((info) & CTF_MAX_VLEN))
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#define CTF_NAME_STID(name) ((name) >> 31)
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#define CTF_NAME_OFFSET(name) ((name) & CTF_MAX_NAME)
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#define CTF_SET_STID(name, stid) ((name) | ((unsigned int) stid) << 31)
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/* V2 only. */
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#define CTF_TYPE_INFO(kind, isroot, vlen) \
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(((kind) << 26) | (((isroot) ? 1 : 0) << 25) | ((vlen) & CTF_MAX_VLEN))
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#define CTF_TYPE_NAME(stid, offset) \
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(((stid) << 31) | ((offset) & CTF_MAX_NAME))
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/* The next set of macros are for public consumption only. Not used internally,
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since the relevant type boundary is dependent upon the version of the file at
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*opening* time, not the version after transparent upgrade. Use
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ctf_type_isparent() / ctf_type_ischild() for that. */
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#define CTF_V2_TYPE_ISPARENT(fp, id) ((id) <= CTF_MAX_PTYPE)
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#define CTF_V2_TYPE_ISCHILD(fp, id) ((id) > CTF_MAX_PTYPE)
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#define CTF_V2_TYPE_TO_INDEX(id) ((id) & CTF_MAX_PTYPE)
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#define CTF_V2_INDEX_TO_TYPE(id, child) ((child) ? ((id) | (CTF_MAX_PTYPE+1)) : (id))
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#define CTF_V1_TYPE_ISPARENT(fp, id) ((id) <= CTF_MAX_PTYPE_V1)
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#define CTF_V1_TYPE_ISCHILD(fp, id) ((id) > CTF_MAX_PTYPE_V1)
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#define CTF_V1_TYPE_TO_INDEX(id) ((id) & CTF_MAX_PTYPE_V1)
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#define CTF_V1_INDEX_TO_TYPE(id, child) ((child) ? ((id) | (CTF_MAX_PTYPE_V1+1)) : (id))
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/* Valid for both V1 and V2. */
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#define CTF_TYPE_LSIZE(cttp) \
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(((uint64_t)(cttp)->ctt_lsizehi) << 32 | (cttp)->ctt_lsizelo)
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#define CTF_SIZE_TO_LSIZE_HI(size) ((uint32_t)((uint64_t)(size) >> 32))
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#define CTF_SIZE_TO_LSIZE_LO(size) ((uint32_t)(size))
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#define CTF_STRTAB_0 0 /* String table id 0 (in-CTF). */
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#define CTF_STRTAB_1 1 /* String table id 1 (ELF strtab). */
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/* Values for CTF_TYPE_KIND(). If the kind has an associated data list,
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CTF_INFO_VLEN() will extract the number of elements in the list, and
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the type of each element is shown in the comments below. */
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#define CTF_K_UNKNOWN 0 /* Unknown type (used for padding and
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unrepresentable types). */
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#define CTF_K_INTEGER 1 /* Variant data is CTF_INT_DATA (see below). */
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#define CTF_K_FLOAT 2 /* Variant data is CTF_FP_DATA (see below). */
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#define CTF_K_POINTER 3 /* ctt_type is referenced type. */
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#define CTF_K_ARRAY 4 /* Variant data is single ctf_array_t. */
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#define CTF_K_FUNCTION 5 /* ctt_type is return type, variant data is
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list of argument types (unsigned short's for v1,
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uint32_t's for v2). */
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#define CTF_K_STRUCT 6 /* Variant data is list of ctf_member_t's. */
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#define CTF_K_UNION 7 /* Variant data is list of ctf_member_t's. */
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#define CTF_K_ENUM 8 /* Variant data is list of ctf_enum_t's. */
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#define CTF_K_FORWARD 9 /* No additional data; ctt_name is tag. */
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#define CTF_K_TYPEDEF 10 /* ctt_type is referenced type. */
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#define CTF_K_VOLATILE 11 /* ctt_type is base type. */
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#define CTF_K_CONST 12 /* ctt_type is base type. */
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#define CTF_K_RESTRICT 13 /* ctt_type is base type. */
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#define CTF_K_SLICE 14 /* Variant data is a ctf_slice_t. */
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#define CTF_K_MAX 63 /* Maximum possible (V2) CTF_K_* value. */
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/* Values for ctt_type when kind is CTF_K_INTEGER. The flags, offset in bits,
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and size in bits are encoded as a single word using the following macros.
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(However, you can also encode the offset and bitness in a slice.) */
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#define CTF_INT_ENCODING(data) (((data) & 0xff000000) >> 24)
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#define CTF_INT_OFFSET(data) (((data) & 0x00ff0000) >> 16)
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#define CTF_INT_BITS(data) (((data) & 0x0000ffff))
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#define CTF_INT_DATA(encoding, offset, bits) \
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(((encoding) << 24) | ((offset) << 16) | (bits))
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#define CTF_INT_SIGNED 0x01 /* Integer is signed (otherwise unsigned). */
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#define CTF_INT_CHAR 0x02 /* Character display format. */
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#define CTF_INT_BOOL 0x04 /* Boolean display format. */
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#define CTF_INT_VARARGS 0x08 /* Varargs display format. */
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/* Use CTF_CHAR to produce a char that agrees with the system's native
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char signedness. */
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#if CHAR_MIN == 0
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# define CTF_CHAR (CTF_INT_CHAR)
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#else
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# define CTF_CHAR (CTF_INT_CHAR | CTF_INT_SIGNED)
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#endif
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/* Values for ctt_type when kind is CTF_K_FLOAT. The encoding, offset in bits,
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and size in bits are encoded as a single word using the following macros.
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(However, you can also encode the offset and bitness in a slice.) */
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#define CTF_FP_ENCODING(data) (((data) & 0xff000000) >> 24)
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#define CTF_FP_OFFSET(data) (((data) & 0x00ff0000) >> 16)
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#define CTF_FP_BITS(data) (((data) & 0x0000ffff))
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#define CTF_FP_DATA(encoding, offset, bits) \
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(((encoding) << 24) | ((offset) << 16) | (bits))
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/* Variant data when kind is CTF_K_FLOAT is an encoding in the top eight bits. */
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#define CTF_FP_ENCODING(data) (((data) & 0xff000000) >> 24)
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#define CTF_FP_SINGLE 1 /* IEEE 32-bit float encoding. */
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#define CTF_FP_DOUBLE 2 /* IEEE 64-bit float encoding. */
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#define CTF_FP_CPLX 3 /* Complex encoding. */
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#define CTF_FP_DCPLX 4 /* Double complex encoding. */
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#define CTF_FP_LDCPLX 5 /* Long double complex encoding. */
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#define CTF_FP_LDOUBLE 6 /* Long double encoding. */
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#define CTF_FP_INTRVL 7 /* Interval (2x32-bit) encoding. */
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#define CTF_FP_DINTRVL 8 /* Double interval (2x64-bit) encoding. */
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#define CTF_FP_LDINTRVL 9 /* Long double interval (2x128-bit) encoding. */
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#define CTF_FP_IMAGRY 10 /* Imaginary (32-bit) encoding. */
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#define CTF_FP_DIMAGRY 11 /* Long imaginary (64-bit) encoding. */
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#define CTF_FP_LDIMAGRY 12 /* Long double imaginary (128-bit) encoding. */
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#define CTF_FP_MAX 12 /* Maximum possible CTF_FP_* value */
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/* A slice increases the offset and reduces the bitness of the referenced
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ctt_type, which must be a type which has an encoding (fp, int, or enum). We
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also store the referenced type in here, because it is easier to keep the
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ctt_size correct for the slice than to shuffle the size into here and keep
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the ctt_type where it is for other types.
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In a future version, where we loosen requirements on alignment in the CTF
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file, the cts_offset and cts_bits will be chars: but for now they must be
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shorts or everything after a slice will become unaligned. */
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typedef struct ctf_slice
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{
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uint32_t cts_type;
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unsigned short cts_offset;
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unsigned short cts_bits;
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} ctf_slice_t;
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typedef struct ctf_array
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{
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uint32_t cta_contents; /* Reference to type of array contents. */
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uint32_t cta_index; /* Reference to type of array index. */
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uint32_t cta_nelems; /* Number of elements. */
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} ctf_array_t;
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/* Most structure members have bit offsets that can be expressed using a short.
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Some don't. ctf_member_t is used for structs which cannot contain any of
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these large offsets, whereas ctf_lmember_t is used in the latter case. If
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any member of a given struct has an offset that cannot be expressed using a
|
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|
|
uint32_t, all members will be stored as type ctf_lmember_t. This is expected
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|
to be very rare (but nonetheless possible). */
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#define CTF_LSTRUCT_THRESH 536870912
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typedef struct ctf_member_v2
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{
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uint32_t ctm_name; /* Reference to name in string table. */
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|
uint32_t ctm_offset; /* Offset of this member in bits. */
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|
uint32_t ctm_type; /* Reference to type of member. */
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|
} ctf_member_t;
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|
|
typedef struct ctf_lmember_v2
|
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|
|
{
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|
uint32_t ctlm_name; /* Reference to name in string table. */
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|
uint32_t ctlm_offsethi; /* High 32 bits of member offset in bits. */
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|
|
uint32_t ctlm_type; /* Reference to type of member. */
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|
|
uint32_t ctlm_offsetlo; /* Low 32 bits of member offset in bits. */
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|
|
} ctf_lmember_t;
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|
|
#define CTF_LMEM_OFFSET(ctlmp) \
|
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|
|
(((uint64_t)(ctlmp)->ctlm_offsethi) << 32 | (ctlmp)->ctlm_offsetlo)
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|
|
#define CTF_OFFSET_TO_LMEMHI(offset) ((uint32_t)((uint64_t)(offset) >> 32))
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|
#define CTF_OFFSET_TO_LMEMLO(offset) ((uint32_t)(offset))
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|
|
typedef struct ctf_enum
|
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|
|
{
|
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|
|
uint32_t cte_name; /* Reference to name in string table. */
|
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|
|
int32_t cte_value; /* Value associated with this name. */
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|
|
} ctf_enum_t;
|
|
|
|
|
|
|
|
/* The ctf_archive is a collection of ctf_dict_t's stored together. The format
|
|
|
|
is suitable for mmap()ing: this control structure merely describes the
|
|
|
|
mmap()ed archive (and overlaps the first few bytes of it), hence the
|
|
|
|
greater care taken with integral types. All CTF files in an archive
|
|
|
|
must have the same data model. (This is not validated.)
|
|
|
|
|
|
|
|
All integers in this structure are stored in little-endian byte order.
|
|
|
|
|
|
|
|
The code relies on the fact that everything in this header is a uint64_t
|
|
|
|
and thus the header needs no padding (in particular, that no padding is
|
|
|
|
needed between ctfa_ctfs and the unnamed ctfa_archive_modent array
|
|
|
|
that follows it).
|
|
|
|
|
|
|
|
This is *not* the same as the data structure returned by the ctf_arc_*()
|
|
|
|
functions: this is the low-level on-disk representation. */
|
|
|
|
|
|
|
|
#define CTFA_MAGIC 0x8b47f2a4d7623eeb /* Random. */
|
|
|
|
struct ctf_archive
|
|
|
|
{
|
|
|
|
/* Magic number. (In loaded files, overwritten with the file size
|
|
|
|
so ctf_arc_close() knows how much to munmap()). */
|
|
|
|
uint64_t ctfa_magic;
|
|
|
|
|
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|
|
/* CTF data model. */
|
|
|
|
uint64_t ctfa_model;
|
|
|
|
|
|
|
|
/* Number of CTF dicts in the archive. */
|
|
|
|
uint64_t ctfa_ndicts;
|
|
|
|
|
|
|
|
/* Offset of the name table. */
|
|
|
|
uint64_t ctfa_names;
|
|
|
|
|
|
|
|
/* Offset of the CTF table. Each element starts with a size (a uint64_t
|
|
|
|
in network byte order) then a ctf_dict_t of that size. */
|
|
|
|
uint64_t ctfa_ctfs;
|
|
|
|
};
|
|
|
|
|
|
|
|
/* An array of ctfa_nnamed of this structure lies at
|
|
|
|
ctf_archive[ctf_archive->ctfa_modents] and gives the ctfa_ctfs or
|
|
|
|
ctfa_names-relative offsets of each name or ctf_dict_t. */
|
|
|
|
|
|
|
|
typedef struct ctf_archive_modent
|
|
|
|
{
|
|
|
|
uint64_t name_offset;
|
|
|
|
uint64_t ctf_offset;
|
|
|
|
} ctf_archive_modent_t;
|
|
|
|
|
|
|
|
#ifdef __cplusplus
|
|
|
|
}
|
|
|
|
#endif
|
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|
|
|
|
#endif /* _CTF_H */
|