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The existing ctf_lookup_by_symbol and ctf_arc_lookup_symbol functions suffice to look up the types of symbols if the caller already has a symbol number. But the caller often doesn't have one of those and only knows the name of the symbol: also, in object files, the caller might not have a useful symbol number in any sense (and neither does libctf: the 'symbol number' we use in that case literally starts at 0 for the lexicographically first-sorted symbol in the symtypetab and counts those symbols, so it corresponds to nothing useful). This means that even though object files have a symtypetab (generated by the compiler or by ld -r), the only way we can look up anything in it is to iterate over all symbols in turn with ctf_symbol_next until we find the one we want. This is unhelpful and pointlessly inefficient. So add a pair of functions to look up symbols by name in a dict and in a whole archive: ctf_lookup_by_symbol_name and ctf_arc_lookup_symbol_name. These are identical to the existing functions except that they take symbol names rather than symbol numbers. To avoid insane repetition, we do some refactoring in the process, so that both ctf_lookup_by_symbol and ctf_arc_lookup_symbol turn into thin wrappers around internal functions that do both lookup by symbol index and lookup by name. This massively reduces code duplication because even the existing lookup-by-index stuff wants to use a name sometimes (when looking up in indexed sections), and the new lookup-by-name stuff has to turn it into an index sometimes (when looking up in non-indexed sections): doing it this way lets us share most of that. The actual name->index lookup is done by ctf_lookup_symbol_idx. We do not anticipate this lookup to be as heavily used as ld.so symbol lookup by many orders of magnitude, so using the ELF symbol hashes would probably take more time to read them than is saved by using the hashes, and it adds a lot of complexity. Instead, do a linear search for the symbol name, caching all the name -> index mappings as we go, so that future searches are likely to hit in the cache. To avoid having to repeat this search over and over in a CTF archive when ctf_arc_lookup_symbol_name is used, have cached archive lookups (the sort done by ctf_arc_lookup_symbol* and the ctf_archive_next iterator) pick out the first dict they cache in a given archive and store it in a new ctf_archive field, ctfi_crossdict_cache. This can be used to store cross-dictionary cached state that depends on things like the ELF symbol table rather than the contents of any one dict. ctf_lookup_symbol_idx then caches its name->index mappings in the dictionary named in the crossdict cache, if any, so that ctf_lookup_symbol_idx in other dicts in the same archive benefit from the previous linear search, and the symtab only needs to be scanned at most once. (Note that if you call ctf_lookup_by_symbol_name in one specific dict, and then follow it with a ctf_arc_lookup_symbol_name, the former will not use the crossdict cache because it's only populated by the dict opens in ctf_arc_lookup_symbol_name. This is harmless except for a small one-off waste of memory and time: it's only a cache, after all. We can fix this later by using the archive caching machinery more aggressively.) In ctf-archive, we do similar things, turning ctf_arc_lookup_symbol into a wrapper around a new function that does both index -> ID and name -> ID lookups across all dicts in an archive. We add a new ctfi_symnamedicts cache that maps symbol names to the ctf_dict_t * that it was found in (so that linear searches for symbols don't need to be repeated): but we also *remove* a cache, the ctfi_syms cache that was memoizing the actual ctf_id_t returned from every call to ctf_arc_lookup_symbol. This is pointless: all it saves is one call to ctf_lookup_by_symbol, and that's basically an array lookup and nothing more so isn't worth caching. (Equally, given that symbol -> index mappings are cached by ctf_lookup_by_symbol_name, those calls are nearly free after the first call, so there's no point caching the ctf_id_t in that case either.) We fix up one test that was doing manual symbol lookup to use ctf_arc_lookup_symbol instead, and enhance it to check that the caching layer is not totally broken: we also add a new test to do lookups in a .o file, and another to do lookups in an archive with conflicted types and make sure that sort of multi-dict lookup is actually working. include/ChangeLog 2021-02-17 Nick Alcock <nick.alcock@oracle.com> * ctf-api.h (ctf_arc_lookup_symbol_name): New. (ctf_lookup_by_symbol_name): Likewise. libctf/ChangeLog 2021-02-17 Nick Alcock <nick.alcock@oracle.com> * ctf-impl.h (ctf_dict_t) <ctf_symhash>: New. <ctf_symhash_latest>: Likewise. (struct ctf_archive_internal) <ctfi_crossdict_cache>: New. <ctfi_symnamedicts>: New. <ctfi_syms>: Remove. (ctf_lookup_symbol_name): Remove. * ctf-lookup.c (ctf_lookup_symbol_name): Propagate errors from parent properly. Make static. (ctf_lookup_symbol_idx): New, linear search for the symbol name, cached in the crossdict cache's ctf_symhash (if available), or this dict's (otherwise). (ctf_try_lookup_indexed): Allow the symname to be passed in. (ctf_lookup_by_symbol): Turn into a wrapper around... (ctf_lookup_by_sym_or_name): ... this, supporting name lookup too, using ctf_lookup_symbol_idx in non-writable dicts. Special-case name lookup in dynamic dicts without reported symbols, which have no symtab or dynsymidx but where name lookup should still work. (ctf_lookup_by_symbol_name): New, another wrapper. * ctf-archive.c (enosym): Note that this is present in ctfi_symnamedicts too. (ctf_arc_close): Adjust for removal of ctfi_syms. Free the ctfi_symnamedicts. (ctf_arc_flush_caches): Likewise. (ctf_dict_open_cached): Memoize the first cached dict in the crossdict cache. (ctf_arc_lookup_symbol): Turn into a wrapper around... (ctf_arc_lookup_sym_or_name): ... this. No longer cache ctf_id_t lookups: just call ctf_lookup_by_symbol as needed (but still cache the dicts those lookups succeed in). Add lookup-by-name support, with dicts of successful lookups cached in ctfi_symnamedicts. Refactor the caching code a bit. (ctf_arc_lookup_symbol_name): New, another wrapper. * ctf-open.c (ctf_dict_close): Free the ctf_symhash. * libctf.ver (LIBCTF_1.2): New version. Add ctf_lookup_by_symbol_name, ctf_arc_lookup_symbol_name. * testsuite/libctf-lookup/enum-symbol.c (main): Use ctf_arc_lookup_symbol rather than looking up the name ourselves. Fish it out repeatedly, to make sure that symbol caching isn't broken. (symidx_64): Remove. (symidx_32): Remove. * testsuite/libctf-lookup/enum-symbol-obj.lk: Test symbol lookup in an unlinked object file (indexed symtypetab sections only). * testsuite/libctf-writable/symtypetab-nonlinker-writeout.c (try_maybe_reporting): Check symbol types via ctf_lookup_by_symbol_name as well as ctf_symbol_next. * testsuite/libctf-lookup/conflicting-type-syms.*: New test of lookups in a multi-dict archive.
806 lines
33 KiB
C
806 lines
33 KiB
C
/* Implementation header.
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Copyright (C) 2019-2021 Free Software Foundation, Inc.
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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_IMPL_H
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#define _CTF_IMPL_H
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#include "config.h"
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#include <errno.h>
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#include <sys/param.h>
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#include "ctf-decls.h"
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#include <ctf-api.h>
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#include "ctf-sha1.h"
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#include <sys/types.h>
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#include <stdlib.h>
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#include <stdarg.h>
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#include <stdio.h>
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#include <stdint.h>
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#include <limits.h>
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#include <ctype.h>
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#include <elf.h>
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#include <bfd.h>
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#include "hashtab.h"
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#include "ctf-intl.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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/* Tuning. */
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/* The proportion of symtypetab entries which must be pads before we consider it
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worthwhile to emit a symtypetab section as an index. Indexes cost time to
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look up, but save space all told. Do not set to 1, since this will cause
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indexes to be eschewed completely, even in child dicts, at considerable space
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cost. */
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#define CTF_INDEX_PAD_THRESHOLD .75
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/* Compiler attributes. */
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#if defined (__GNUC__)
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/* GCC. We assume that all compilers claiming to be GCC support sufficiently
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many GCC attributes that the code below works. If some non-GCC compilers
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masquerading as GCC in fact do not implement these attributes, version checks
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may be required. */
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/* We use the _libctf_*_ pattern to avoid clashes with any future attribute
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macros glibc may introduce, which have names of the pattern
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__attribute_blah__. */
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#define _libctf_printflike_(string_index,first_to_check) \
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__attribute__ ((__format__ (__printf__, (string_index), (first_to_check))))
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#define _libctf_unlikely_(x) __builtin_expect ((x), 0)
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#define _libctf_unused_ __attribute__ ((__unused__))
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#define _libctf_malloc_ __attribute__((__malloc__))
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#define _libctf_nonnull_(params) __attribute__((__nonnull__ params))
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#else
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#define _libctf_printflike_(string_index,first_to_check)
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#define _libctf_unlikely_(x) (x)
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#define _libctf_unused_
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#define _libctf_malloc_
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#define _libctf_nonnull_(params)
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#define __extension__
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#endif
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#if defined (ENABLE_LIBCTF_HASH_DEBUGGING) && !defined (NDEBUG)
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#include <assert.h>
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#define ctf_assert(fp, expr) (assert (expr), 1)
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#else
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#define ctf_assert(fp, expr) \
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_libctf_unlikely_ (ctf_assert_internal (fp, __FILE__, __LINE__, \
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#expr, !!(expr)))
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#endif
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/* libctf in-memory state. */
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typedef struct ctf_fixed_hash ctf_hash_t; /* Private to ctf-hash.c. */
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typedef struct ctf_dynhash ctf_dynhash_t; /* Private to ctf-hash.c. */
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typedef struct ctf_dynset ctf_dynset_t; /* Private to ctf-hash.c. */
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typedef struct ctf_strs
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{
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const char *cts_strs; /* Base address of string table. */
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size_t cts_len; /* Size of string table in bytes. */
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} ctf_strs_t;
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typedef struct ctf_strs_writable
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{
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char *cts_strs; /* Base address of string table. */
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size_t cts_len; /* Size of string table in bytes. */
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} ctf_strs_writable_t;
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typedef struct ctf_dmodel
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{
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const char *ctd_name; /* Data model name. */
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int ctd_code; /* Data model code. */
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size_t ctd_pointer; /* Size of void * in bytes. */
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size_t ctd_char; /* Size of char in bytes. */
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size_t ctd_short; /* Size of short in bytes. */
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size_t ctd_int; /* Size of int in bytes. */
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size_t ctd_long; /* Size of long in bytes. */
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} ctf_dmodel_t;
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typedef struct ctf_names
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{
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ctf_hash_t *ctn_readonly; /* Hash table when readonly. */
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ctf_dynhash_t *ctn_writable; /* Hash table when writable. */
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} ctf_names_t;
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typedef struct ctf_lookup
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{
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const char *ctl_prefix; /* String prefix for this lookup. */
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size_t ctl_len; /* Length of prefix string in bytes. */
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ctf_names_t *ctl_hash; /* Pointer to hash table for lookup. */
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} ctf_lookup_t;
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typedef struct ctf_dictops
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{
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uint32_t (*ctfo_get_kind) (uint32_t);
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uint32_t (*ctfo_get_root) (uint32_t);
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uint32_t (*ctfo_get_vlen) (uint32_t);
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ssize_t (*ctfo_get_ctt_size) (const ctf_dict_t *, const ctf_type_t *,
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ssize_t *, ssize_t *);
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ssize_t (*ctfo_get_vbytes) (ctf_dict_t *, unsigned short, ssize_t, size_t);
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} ctf_dictops_t;
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typedef struct ctf_list
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{
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struct ctf_list *l_prev; /* Previous pointer or tail pointer. */
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struct ctf_list *l_next; /* Next pointer or head pointer. */
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} ctf_list_t;
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typedef enum
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{
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CTF_PREC_BASE,
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CTF_PREC_POINTER,
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CTF_PREC_ARRAY,
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CTF_PREC_FUNCTION,
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CTF_PREC_MAX
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} ctf_decl_prec_t;
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typedef struct ctf_decl_node
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{
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ctf_list_t cd_list; /* Linked list pointers. */
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ctf_id_t cd_type; /* Type identifier. */
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uint32_t cd_kind; /* Type kind. */
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uint32_t cd_n; /* Type dimension if array. */
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} ctf_decl_node_t;
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typedef struct ctf_decl
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{
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ctf_list_t cd_nodes[CTF_PREC_MAX]; /* Declaration node stacks. */
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int cd_order[CTF_PREC_MAX]; /* Storage order of decls. */
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ctf_decl_prec_t cd_qualp; /* Qualifier precision. */
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ctf_decl_prec_t cd_ordp; /* Ordered precision. */
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char *cd_buf; /* Buffer for output. */
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int cd_err; /* Saved error value. */
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int cd_enomem; /* Nonzero if OOM during printing. */
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} ctf_decl_t;
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typedef struct ctf_dmdef
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{
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ctf_list_t dmd_list; /* List forward/back pointers. */
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char *dmd_name; /* Name of this member. */
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ctf_id_t dmd_type; /* Type of this member (for sou). */
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unsigned long dmd_offset; /* Offset of this member in bits (for sou). */
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int dmd_value; /* Value of this member (for enum). */
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} ctf_dmdef_t;
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typedef struct ctf_dtdef
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{
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ctf_list_t dtd_list; /* List forward/back pointers. */
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ctf_id_t dtd_type; /* Type identifier for this definition. */
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ctf_type_t dtd_data; /* Type node, including name. */
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union
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{
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ctf_list_t dtu_members; /* struct, union, or enum */
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ctf_arinfo_t dtu_arr; /* array */
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ctf_encoding_t dtu_enc; /* integer or float */
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uint32_t *dtu_argv; /* function */
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ctf_slice_t dtu_slice; /* slice */
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} dtd_u;
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} ctf_dtdef_t;
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typedef struct ctf_dvdef
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{
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ctf_list_t dvd_list; /* List forward/back pointers. */
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char *dvd_name; /* Name associated with variable. */
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ctf_id_t dvd_type; /* Type of variable. */
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unsigned long dvd_snapshots; /* Snapshot count when inserted. */
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} ctf_dvdef_t;
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typedef struct ctf_err_warning
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{
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ctf_list_t cew_list; /* List forward/back pointers. */
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int cew_is_warning; /* 1 if warning, 0 if error. */
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char *cew_text; /* Error/warning text. */
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} ctf_err_warning_t;
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/* Atoms associate strings with a list of the CTF items that reference that
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string, so that ctf_update() can instantiate all the strings using the
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ctf_str_atoms and then reassociate them with the real string later.
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Strings can be interned into ctf_str_atom without having refs associated
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with them, for values that are returned to callers, etc. Items are only
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removed from this table on ctf_close(), but on every ctf_update(), all the
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csa_refs in all entries are purged. */
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typedef struct ctf_str_atom
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{
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const char *csa_str; /* Backpointer to string (hash key). */
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ctf_list_t csa_refs; /* This string's refs. */
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uint32_t csa_offset; /* Strtab offset, if any. */
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uint32_t csa_external_offset; /* External strtab offset, if any. */
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unsigned long csa_snapshot_id; /* Snapshot ID at time of creation. */
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} ctf_str_atom_t;
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/* The refs of a single string in the atoms table. */
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typedef struct ctf_str_atom_ref
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{
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ctf_list_t caf_list; /* List forward/back pointers. */
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uint32_t *caf_ref; /* A single ref to this string. */
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} ctf_str_atom_ref_t;
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/* A single linker-provided symbol, during symbol addition, possibly before we
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have been given external strtab refs. */
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typedef struct ctf_in_flight_dynsym
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{
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ctf_list_t cid_list; /* List forward/back pointers. */
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ctf_link_sym_t cid_sym; /* The linker-known symbol. */
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} ctf_in_flight_dynsym_t;
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/* The structure used as the key in a ctf_link_type_mapping. The value is a
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type index, not a type ID. */
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typedef struct ctf_link_type_key
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{
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ctf_dict_t *cltk_fp;
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ctf_id_t cltk_idx;
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} ctf_link_type_key_t;
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/* The structure used as the key in a cd_id_to_dict_t on 32-bit platforms. */
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typedef struct ctf_type_id_key
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{
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int ctii_input_num;
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ctf_id_t ctii_type;
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} ctf_type_id_key_t;
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/* Deduplicator state.
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The dedup state below uses three terms consistently. A "hash" is a
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ctf_dynhash_t; a "hash value" is the hash value of a type as returned by
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ctf_dedup_hash_type; a "global type ID" or "global ID" is a packed-together
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reference to a single ctf_dict_t (by array index in an array of inputs) and
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ctf_id_t, i.e. a single instance of some hash value in some input.
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The deduplication algorithm takes a bunch of inputs and yields a single
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shared "output" and possibly many outputs corresponding to individual inputs
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that still contain types after sharing of unconflicted types. Almost all
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deduplicator state is stored in the struct ctf_dedup in the output, though a
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(very) few things are stored in inputs for simplicity's sake, usually if they
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are linking together things within the scope of a single TU.
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Flushed at the end of every ctf_dedup run. */
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typedef struct ctf_dedup
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{
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/* The CTF linker flags in force for this dedup run. */
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int cd_link_flags;
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/* On 32-bit platforms only, a hash of global type IDs, in the form of
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a ctf_link_type_id_key_t. */
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ctf_dynhash_t *cd_id_to_dict_t;
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/* Atoms tables of decorated names: maps undecorated name to decorated name.
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(The actual allocations are in the CTF dict for the former and the real
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atoms table for the latter). Uses the same namespaces as ctf_lookups,
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below, but has no need for null-termination. */
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ctf_dynhash_t *cd_decorated_names[4];
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/* Map type names to a hash from type hash value -> number of times each value
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has appeared. */
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ctf_dynhash_t *cd_name_counts;
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/* Map global type IDs to type hash values. Used to determine if types are
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already hashed without having to recompute their hash values again, and to
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link types together at later stages. Forwards that are peeked through to
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structs and unions are not represented in here, so lookups that might be
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such a type (in practice, all lookups) must go via cd_replaced_types first
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to take this into account. Discarded before each rehashing. */
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ctf_dynhash_t *cd_type_hashes;
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/* Maps from the names of structs/unions/enums to a a single GID which is the
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only appearance of that type in any input: if it appears in more than one
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input, a value which is a GID with an input_num of -1 appears. Used in
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share-duplicated link mode link modes to determine whether structs/unions
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can be cited from multiple TUs. Only populated in that link mode. */
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ctf_dynhash_t *cd_struct_origin;
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/* Maps type hash values to a set of hash values of the types that cite them:
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i.e., pointing backwards up the type graph. Used for recursive conflict
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marking. Citations from tagged structures, unions, and forwards do not
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appear in this graph. */
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ctf_dynhash_t *cd_citers;
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/* Maps type hash values to input global type IDs. The value is a set (a
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hash) of global type IDs. Discarded before each rehashing. The result of
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the ctf_dedup function. */
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ctf_dynhash_t *cd_output_mapping;
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/* A map giving the GID of the first appearance of each type for each type
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hash value. */
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ctf_dynhash_t *cd_output_first_gid;
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/* Used to ensure that we never try to map a single type ID to more than one
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hash. */
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ctf_dynhash_t *cd_output_mapping_guard;
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/* Maps the global type IDs of structures in input TUs whose members still
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need emission to the global type ID of the already-emitted target type
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(which has no members yet) in the appropriate target. Uniquely, the latter
|
|
ID represents a *target* ID (i.e. the cd_output_mapping of some specified
|
|
input): we encode the shared (parent) dict with an ID of -1. */
|
|
ctf_dynhash_t *cd_emission_struct_members;
|
|
|
|
/* A set (a hash) of hash values of conflicting types. */
|
|
ctf_dynset_t *cd_conflicting_types;
|
|
|
|
/* Maps type hashes to ctf_id_t's in this dictionary. Populated only at
|
|
emission time, in the dictionary where emission is taking place. */
|
|
ctf_dynhash_t *cd_output_emission_hashes;
|
|
|
|
/* Maps the decorated names of conflicted cross-TU forwards that were forcibly
|
|
emitted in this TU to their emitted ctf_id_ts. Populated only at emission
|
|
time, in the dictionary where emission is taking place. */
|
|
ctf_dynhash_t *cd_output_emission_conflicted_forwards;
|
|
|
|
/* Points to the output counterpart of this input dictionary, at emission
|
|
time. */
|
|
ctf_dict_t *cd_output;
|
|
} ctf_dedup_t;
|
|
|
|
/* The ctf_dict is the structure used to represent a CTF dictionary to library
|
|
clients, who see it only as an opaque pointer. Modifications can therefore
|
|
be made freely to this structure without regard to client versioning. The
|
|
ctf_dict_t typedef appears in <ctf-api.h> and declares a forward tag.
|
|
(A ctf_file_t typedef also appears there, for historical reasons.)
|
|
|
|
NOTE: ctf_serialize() requires that everything inside of ctf_dict either be
|
|
an immediate value, a pointer to dynamically allocated data *outside* of the
|
|
ctf_dict itself, or a pointer to statically allocated data. If you add a
|
|
pointer to ctf_dict that points to something within the ctf_dict itself, you
|
|
must make corresponding changes to ctf_serialize(). */
|
|
|
|
struct ctf_dict
|
|
{
|
|
const ctf_dictops_t *ctf_dictops; /* Version-specific dict operations. */
|
|
struct ctf_header *ctf_header; /* The header from this CTF dict. */
|
|
unsigned char ctf_openflags; /* Flags the dict had when opened. */
|
|
ctf_sect_t ctf_data; /* CTF data from object file. */
|
|
ctf_sect_t ctf_symtab; /* Symbol table from object file. */
|
|
ctf_sect_t ctf_strtab; /* String table from object file. */
|
|
int ctf_symsect_little_endian; /* Endianness of the ctf_symtab. */
|
|
ctf_dynhash_t *ctf_symhash; /* (partial) hash, symsect name -> idx. */
|
|
size_t ctf_symhash_latest; /* Amount of symsect scanned so far. */
|
|
ctf_dynhash_t *ctf_prov_strtab; /* Maps provisional-strtab offsets
|
|
to names. */
|
|
ctf_dynhash_t *ctf_syn_ext_strtab; /* Maps ext-strtab offsets to names. */
|
|
void *ctf_data_mmapped; /* CTF data we mmapped, to free later. */
|
|
size_t ctf_data_mmapped_len; /* Length of CTF data we mmapped. */
|
|
ctf_names_t ctf_structs; /* Hash table of struct types. */
|
|
ctf_names_t ctf_unions; /* Hash table of union types. */
|
|
ctf_names_t ctf_enums; /* Hash table of enum types. */
|
|
ctf_names_t ctf_names; /* Hash table of remaining type names. */
|
|
ctf_lookup_t ctf_lookups[5]; /* Pointers to nametabs for name lookup. */
|
|
ctf_strs_t ctf_str[2]; /* Array of string table base and bounds. */
|
|
ctf_dynhash_t *ctf_str_atoms; /* Hash table of ctf_str_atoms_t. */
|
|
uint64_t ctf_str_num_refs; /* Number of refs to cts_str_atoms. */
|
|
uint32_t ctf_str_prov_offset; /* Latest provisional offset assigned so far. */
|
|
unsigned char *ctf_base; /* CTF file pointer. */
|
|
unsigned char *ctf_dynbase; /* Freeable CTF file pointer. */
|
|
unsigned char *ctf_buf; /* Uncompressed CTF data buffer. */
|
|
size_t ctf_size; /* Size of CTF header + uncompressed data. */
|
|
uint32_t *ctf_sxlate; /* Translation table for unindexed symtypetab
|
|
entries. */
|
|
unsigned long ctf_nsyms; /* Number of entries in symtab xlate table. */
|
|
uint32_t *ctf_txlate; /* Translation table for type IDs. */
|
|
uint32_t *ctf_ptrtab; /* Translation table for pointer-to lookups. */
|
|
size_t ctf_ptrtab_len; /* Num types storable in ptrtab currently. */
|
|
uint32_t *ctf_pptrtab; /* Parent types pointed to by child dicts. */
|
|
size_t ctf_pptrtab_len; /* Num types storable in pptrtab currently. */
|
|
uint32_t ctf_pptrtab_typemax; /* Max child type when pptrtab last updated. */
|
|
uint32_t *ctf_funcidx_names; /* Name of each function symbol in symtypetab
|
|
(if indexed). */
|
|
uint32_t *ctf_objtidx_names; /* Likewise, for object symbols. */
|
|
size_t ctf_nfuncidx; /* Number of funcidx entries. */
|
|
uint32_t *ctf_funcidx_sxlate; /* Offsets into funcinfo for a given funcidx. */
|
|
uint32_t *ctf_objtidx_sxlate; /* Likewise, for ctf_objtidx. */
|
|
size_t ctf_nobjtidx; /* Number of objtidx entries. */
|
|
ctf_dynhash_t *ctf_objthash; /* name -> type ID. */
|
|
ctf_dynhash_t *ctf_funchash; /* name -> CTF_K_FUNCTION type ID. */
|
|
|
|
/* The next three are linker-derived state found in ctf_link targets only. */
|
|
|
|
ctf_dynhash_t *ctf_dynsyms; /* Symbol info from ctf_link_shuffle_syms. */
|
|
ctf_link_sym_t **ctf_dynsymidx; /* Indexes ctf_dynsyms by symidx. */
|
|
uint32_t ctf_dynsymmax; /* Maximum ctf_dynsym index. */
|
|
ctf_list_t ctf_in_flight_dynsyms; /* Dynsyms during accumulation. */
|
|
struct ctf_varent *ctf_vars; /* Sorted variable->type mapping. */
|
|
unsigned long ctf_nvars; /* Number of variables in ctf_vars. */
|
|
unsigned long ctf_typemax; /* Maximum valid type ID number. */
|
|
const ctf_dmodel_t *ctf_dmodel; /* Data model pointer (see above). */
|
|
const char *ctf_cuname; /* Compilation unit name (if any). */
|
|
char *ctf_dyncuname; /* Dynamically allocated name of CU. */
|
|
struct ctf_dict *ctf_parent; /* Parent CTF dict (if any). */
|
|
int ctf_parent_unreffed; /* Parent set by ctf_import_unref? */
|
|
const char *ctf_parlabel; /* Label in parent dict (if any). */
|
|
const char *ctf_parname; /* Basename of parent (if any). */
|
|
char *ctf_dynparname; /* Dynamically allocated name of parent. */
|
|
uint32_t ctf_parmax; /* Highest type ID of a parent type. */
|
|
uint32_t ctf_refcnt; /* Reference count (for parent links). */
|
|
uint32_t ctf_flags; /* Libctf flags (see below). */
|
|
int ctf_errno; /* Error code for most recent error. */
|
|
int ctf_version; /* CTF data version. */
|
|
ctf_dynhash_t *ctf_dthash; /* Hash of dynamic type definitions. */
|
|
ctf_list_t ctf_dtdefs; /* List of dynamic type definitions. */
|
|
ctf_dynhash_t *ctf_dvhash; /* Hash of dynamic variable mappings. */
|
|
ctf_list_t ctf_dvdefs; /* List of dynamic variable definitions. */
|
|
unsigned long ctf_dtoldid; /* Oldest id that has been committed. */
|
|
unsigned long ctf_snapshots; /* ctf_snapshot() plus ctf_update() count. */
|
|
unsigned long ctf_snapshot_lu; /* ctf_snapshot() call count at last update. */
|
|
ctf_archive_t *ctf_archive; /* Archive this ctf_dict_t came from. */
|
|
ctf_list_t ctf_errs_warnings; /* CTF errors and warnings. */
|
|
ctf_dynhash_t *ctf_link_inputs; /* Inputs to this link. */
|
|
ctf_dynhash_t *ctf_link_outputs; /* Additional outputs from this link. */
|
|
|
|
/* Map input types to output types: populated in each output dict.
|
|
Key is a ctf_link_type_key_t: value is a type ID. Used by
|
|
nondeduplicating links and ad-hoc ctf_add_type calls only. */
|
|
ctf_dynhash_t *ctf_link_type_mapping;
|
|
|
|
/* Map input CU names to output CTF dict names: populated in the top-level
|
|
output dict.
|
|
|
|
Key and value are dynamically-allocated strings. */
|
|
ctf_dynhash_t *ctf_link_in_cu_mapping;
|
|
|
|
/* Map output CTF dict names to input CU names: populated in the top-level
|
|
output dict. A hash of string to hash (set) of strings. Key and
|
|
individual value members are shared with ctf_link_in_cu_mapping. */
|
|
ctf_dynhash_t *ctf_link_out_cu_mapping;
|
|
|
|
/* CTF linker flags. Set on the parent output dict (the one passed to
|
|
ctf_link). Only respected when LCTF_LINKING set in ctf_flags. */
|
|
int ctf_link_flags;
|
|
|
|
/* Allow the caller to change the name of link archive members. */
|
|
ctf_link_memb_name_changer_f *ctf_link_memb_name_changer;
|
|
void *ctf_link_memb_name_changer_arg; /* Argument for it. */
|
|
|
|
/* Allow the caller to filter out variables they don't care about. */
|
|
ctf_link_variable_filter_f *ctf_link_variable_filter;
|
|
void *ctf_link_variable_filter_arg; /* Argument for it. */
|
|
|
|
ctf_dynhash_t *ctf_add_processing; /* Types ctf_add_type is working on now. */
|
|
|
|
/* Atoms table for dedup string storage. All strings in the ctf_dedup_t are
|
|
stored here. Only the _alloc copy is allocated or freed: the
|
|
ctf_dedup_atoms may be pointed to some other CTF dict, to share its atoms.
|
|
We keep the atoms table outside the ctf_dedup so that atoms can be
|
|
preserved across multiple similar links, such as when doing cu-mapped
|
|
links. */
|
|
ctf_dynset_t *ctf_dedup_atoms;
|
|
ctf_dynset_t *ctf_dedup_atoms_alloc;
|
|
|
|
ctf_dedup_t ctf_dedup; /* Deduplicator state. */
|
|
|
|
char *ctf_tmp_typeslice; /* Storage for slicing up type names. */
|
|
size_t ctf_tmp_typeslicelen; /* Size of the typeslice. */
|
|
void *ctf_specific; /* Data for ctf_get/setspecific(). */
|
|
};
|
|
|
|
/* An abstraction over both a ctf_dict_t and a ctf_archive_t. */
|
|
|
|
struct ctf_archive_internal
|
|
{
|
|
int ctfi_is_archive;
|
|
int ctfi_unmap_on_close;
|
|
ctf_dict_t *ctfi_dict;
|
|
struct ctf_archive *ctfi_archive;
|
|
ctf_dynhash_t *ctfi_dicts; /* Dicts we have opened and cached. */
|
|
ctf_dict_t *ctfi_crossdict_cache; /* Cross-dict caching. */
|
|
ctf_dict_t **ctfi_symdicts; /* Array of index -> ctf_dict_t *. */
|
|
ctf_dynhash_t *ctfi_symnamedicts; /* Hash of name -> ctf_dict_t *. */
|
|
ctf_sect_t ctfi_symsect;
|
|
int ctfi_symsect_little_endian; /* -1 for unknown / do not set. */
|
|
ctf_sect_t ctfi_strsect;
|
|
int ctfi_free_symsect;
|
|
int ctfi_free_strsect;
|
|
void *ctfi_data;
|
|
bfd *ctfi_abfd; /* Optional source of section data. */
|
|
void (*ctfi_bfd_close) (struct ctf_archive_internal *);
|
|
};
|
|
|
|
/* Iterator state for the *_next() functions. */
|
|
|
|
/* A single hash key/value pair. */
|
|
typedef struct ctf_next_hkv
|
|
{
|
|
void *hkv_key;
|
|
void *hkv_value;
|
|
} ctf_next_hkv_t;
|
|
|
|
struct ctf_next
|
|
{
|
|
void (*ctn_iter_fun) (void);
|
|
ctf_id_t ctn_type;
|
|
ssize_t ctn_size;
|
|
ssize_t ctn_increment;
|
|
uint32_t ctn_n;
|
|
|
|
/* Some iterators contain other iterators, in addition to their other
|
|
state. */
|
|
ctf_next_t *ctn_next;
|
|
|
|
/* We can save space on this side of things by noting that a dictionary is
|
|
either dynamic or not, as a whole, and a given iterator can only iterate
|
|
over one kind of thing at once: so we can overlap the DTD and non-DTD
|
|
members, and the structure, variable and enum members, etc. */
|
|
union
|
|
{
|
|
const ctf_member_t *ctn_mp;
|
|
const ctf_lmember_t *ctn_lmp;
|
|
const ctf_dmdef_t *ctn_dmd;
|
|
const ctf_enum_t *ctn_en;
|
|
const ctf_dvdef_t *ctn_dvd;
|
|
ctf_next_hkv_t *ctn_sorted_hkv;
|
|
void **ctn_hash_slot;
|
|
} u;
|
|
|
|
/* This union is of various sorts of dict we can iterate over:
|
|
currently dictionaries and archives, dynhashes, and dynsets. */
|
|
union
|
|
{
|
|
const ctf_dict_t *ctn_fp;
|
|
const ctf_archive_t *ctn_arc;
|
|
const ctf_dynhash_t *ctn_h;
|
|
const ctf_dynset_t *ctn_s;
|
|
} cu;
|
|
};
|
|
|
|
/* Return x rounded up to an alignment boundary.
|
|
eg, P2ROUNDUP(0x1234, 0x100) == 0x1300 (0x13*align)
|
|
eg, P2ROUNDUP(0x5600, 0x100) == 0x5600 (0x56*align) */
|
|
#define P2ROUNDUP(x, align) (-(-(x) & -(align)))
|
|
|
|
/* * If an offs is not aligned already then round it up and align it. */
|
|
#define LCTF_ALIGN_OFFS(offs, align) ((offs + (align - 1)) & ~(align - 1))
|
|
|
|
#define LCTF_TYPE_ISPARENT(fp, id) ((id) <= fp->ctf_parmax)
|
|
#define LCTF_TYPE_ISCHILD(fp, id) ((id) > fp->ctf_parmax)
|
|
#define LCTF_TYPE_TO_INDEX(fp, id) ((id) & (fp->ctf_parmax))
|
|
#define LCTF_INDEX_TO_TYPE(fp, id, child) (child ? ((id) | (fp->ctf_parmax+1)) : \
|
|
(id))
|
|
|
|
#define LCTF_INDEX_TO_TYPEPTR(fp, i) \
|
|
((fp->ctf_flags & LCTF_RDWR) ? \
|
|
&(ctf_dtd_lookup (fp, LCTF_INDEX_TO_TYPE \
|
|
(fp, i, fp->ctf_flags & LCTF_CHILD))->dtd_data) : \
|
|
(ctf_type_t *)((uintptr_t)(fp)->ctf_buf + (fp)->ctf_txlate[(i)]))
|
|
|
|
#define LCTF_INFO_KIND(fp, info) ((fp)->ctf_dictops->ctfo_get_kind(info))
|
|
#define LCTF_INFO_ISROOT(fp, info) ((fp)->ctf_dictops->ctfo_get_root(info))
|
|
#define LCTF_INFO_VLEN(fp, info) ((fp)->ctf_dictops->ctfo_get_vlen(info))
|
|
#define LCTF_VBYTES(fp, kind, size, vlen) \
|
|
((fp)->ctf_dictops->ctfo_get_vbytes(fp, kind, size, vlen))
|
|
|
|
#define LCTF_CHILD 0x0001 /* CTF dict is a child. */
|
|
#define LCTF_RDWR 0x0002 /* CTF dict is writable. */
|
|
#define LCTF_DIRTY 0x0004 /* CTF dict has been modified. */
|
|
#define LCTF_LINKING 0x0008 /* CTF link is underway: respect ctf_link_flags. */
|
|
|
|
extern ctf_names_t *ctf_name_table (ctf_dict_t *, int);
|
|
extern const ctf_type_t *ctf_lookup_by_id (ctf_dict_t **, ctf_id_t);
|
|
extern ctf_id_t ctf_lookup_by_rawname (ctf_dict_t *, int, const char *);
|
|
extern ctf_id_t ctf_lookup_by_rawhash (ctf_dict_t *, ctf_names_t *, const char *);
|
|
extern void ctf_set_ctl_hashes (ctf_dict_t *);
|
|
|
|
extern int ctf_symtab_skippable (ctf_link_sym_t *sym);
|
|
extern int ctf_add_funcobjt_sym (ctf_dict_t *, int is_function,
|
|
const char *, ctf_id_t);
|
|
|
|
extern ctf_dict_t *ctf_get_dict (ctf_dict_t *fp, ctf_id_t type);
|
|
|
|
typedef unsigned int (*ctf_hash_fun) (const void *ptr);
|
|
extern unsigned int ctf_hash_integer (const void *ptr);
|
|
extern unsigned int ctf_hash_string (const void *ptr);
|
|
extern unsigned int ctf_hash_type_key (const void *ptr);
|
|
extern unsigned int ctf_hash_type_id_key (const void *ptr);
|
|
|
|
typedef int (*ctf_hash_eq_fun) (const void *, const void *);
|
|
extern int ctf_hash_eq_integer (const void *, const void *);
|
|
extern int ctf_hash_eq_string (const void *, const void *);
|
|
extern int ctf_hash_eq_type_key (const void *, const void *);
|
|
extern int ctf_hash_eq_type_id_key (const void *, const void *);
|
|
|
|
extern int ctf_dynset_eq_string (const void *, const void *);
|
|
|
|
typedef void (*ctf_hash_free_fun) (void *);
|
|
|
|
typedef void (*ctf_hash_iter_f) (void *key, void *value, void *arg);
|
|
typedef int (*ctf_hash_iter_remove_f) (void *key, void *value, void *arg);
|
|
typedef int (*ctf_hash_iter_find_f) (void *key, void *value, void *arg);
|
|
typedef int (*ctf_hash_sort_f) (const ctf_next_hkv_t *, const ctf_next_hkv_t *,
|
|
void *arg);
|
|
|
|
extern ctf_hash_t *ctf_hash_create (unsigned long, ctf_hash_fun, ctf_hash_eq_fun);
|
|
extern int ctf_hash_insert_type (ctf_hash_t *, ctf_dict_t *, uint32_t, uint32_t);
|
|
extern int ctf_hash_define_type (ctf_hash_t *, ctf_dict_t *, uint32_t, uint32_t);
|
|
extern ctf_id_t ctf_hash_lookup_type (ctf_hash_t *, ctf_dict_t *, const char *);
|
|
extern uint32_t ctf_hash_size (const ctf_hash_t *);
|
|
extern void ctf_hash_destroy (ctf_hash_t *);
|
|
|
|
extern ctf_dynhash_t *ctf_dynhash_create (ctf_hash_fun, ctf_hash_eq_fun,
|
|
ctf_hash_free_fun, ctf_hash_free_fun);
|
|
extern int ctf_dynhash_insert (ctf_dynhash_t *, void *, void *);
|
|
extern void ctf_dynhash_remove (ctf_dynhash_t *, const void *);
|
|
extern size_t ctf_dynhash_elements (ctf_dynhash_t *);
|
|
extern void ctf_dynhash_empty (ctf_dynhash_t *);
|
|
extern void *ctf_dynhash_lookup (ctf_dynhash_t *, const void *);
|
|
extern int ctf_dynhash_lookup_kv (ctf_dynhash_t *, const void *key,
|
|
const void **orig_key, void **value);
|
|
extern void ctf_dynhash_destroy (ctf_dynhash_t *);
|
|
extern void ctf_dynhash_iter (ctf_dynhash_t *, ctf_hash_iter_f, void *);
|
|
extern void ctf_dynhash_iter_remove (ctf_dynhash_t *, ctf_hash_iter_remove_f,
|
|
void *);
|
|
extern void *ctf_dynhash_iter_find (ctf_dynhash_t *, ctf_hash_iter_find_f,
|
|
void *);
|
|
extern int ctf_dynhash_sort_by_name (const ctf_next_hkv_t *,
|
|
const ctf_next_hkv_t *,
|
|
void * _libctf_unused_);
|
|
extern int ctf_dynhash_next (ctf_dynhash_t *, ctf_next_t **,
|
|
void **key, void **value);
|
|
extern int ctf_dynhash_next_sorted (ctf_dynhash_t *, ctf_next_t **,
|
|
void **key, void **value, ctf_hash_sort_f,
|
|
void *);
|
|
|
|
extern ctf_dynset_t *ctf_dynset_create (htab_hash, htab_eq, ctf_hash_free_fun);
|
|
extern int ctf_dynset_insert (ctf_dynset_t *, void *);
|
|
extern void ctf_dynset_remove (ctf_dynset_t *, const void *);
|
|
extern void ctf_dynset_destroy (ctf_dynset_t *);
|
|
extern void *ctf_dynset_lookup (ctf_dynset_t *, const void *);
|
|
extern int ctf_dynset_exists (ctf_dynset_t *, const void *key,
|
|
const void **orig_key);
|
|
extern int ctf_dynset_next (ctf_dynset_t *, ctf_next_t **, void **key);
|
|
extern void *ctf_dynset_lookup_any (ctf_dynset_t *);
|
|
|
|
extern void ctf_sha1_init (ctf_sha1_t *);
|
|
extern void ctf_sha1_add (ctf_sha1_t *, const void *, size_t);
|
|
extern char *ctf_sha1_fini (ctf_sha1_t *, char *);
|
|
|
|
#define ctf_list_prev(elem) ((void *)(((ctf_list_t *)(elem))->l_prev))
|
|
#define ctf_list_next(elem) ((void *)(((ctf_list_t *)(elem))->l_next))
|
|
|
|
extern void ctf_list_append (ctf_list_t *, void *);
|
|
extern void ctf_list_prepend (ctf_list_t *, void *);
|
|
extern void ctf_list_delete (ctf_list_t *, void *);
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extern void ctf_list_splice (ctf_list_t *, ctf_list_t *);
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extern int ctf_list_empty_p (ctf_list_t *lp);
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extern int ctf_dtd_insert (ctf_dict_t *, ctf_dtdef_t *, int flag, int kind);
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extern void ctf_dtd_delete (ctf_dict_t *, ctf_dtdef_t *);
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extern ctf_dtdef_t *ctf_dtd_lookup (const ctf_dict_t *, ctf_id_t);
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extern ctf_dtdef_t *ctf_dynamic_type (const ctf_dict_t *, ctf_id_t);
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extern int ctf_dvd_insert (ctf_dict_t *, ctf_dvdef_t *);
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extern void ctf_dvd_delete (ctf_dict_t *, ctf_dvdef_t *);
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extern ctf_dvdef_t *ctf_dvd_lookup (const ctf_dict_t *, const char *);
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extern ctf_id_t ctf_add_encoded (ctf_dict_t *, uint32_t, const char *,
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const ctf_encoding_t *, uint32_t kind);
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extern ctf_id_t ctf_add_reftype (ctf_dict_t *, uint32_t, ctf_id_t,
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uint32_t kind);
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extern void ctf_add_type_mapping (ctf_dict_t *src_fp, ctf_id_t src_type,
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ctf_dict_t *dst_fp, ctf_id_t dst_type);
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extern ctf_id_t ctf_type_mapping (ctf_dict_t *src_fp, ctf_id_t src_type,
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ctf_dict_t **dst_fp);
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extern int ctf_dedup_atoms_init (ctf_dict_t *);
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extern int ctf_dedup (ctf_dict_t *, ctf_dict_t **, uint32_t ninputs,
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uint32_t *parents, int cu_mapped);
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extern void ctf_dedup_fini (ctf_dict_t *, ctf_dict_t **, uint32_t);
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extern ctf_dict_t **ctf_dedup_emit (ctf_dict_t *, ctf_dict_t **,
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uint32_t ninputs, uint32_t *parents,
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uint32_t *noutputs, int cu_mapped);
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extern void ctf_decl_init (ctf_decl_t *);
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extern void ctf_decl_fini (ctf_decl_t *);
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extern void ctf_decl_push (ctf_decl_t *, ctf_dict_t *, ctf_id_t);
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_libctf_printflike_ (2, 3)
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extern void ctf_decl_sprintf (ctf_decl_t *, const char *, ...);
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extern char *ctf_decl_buf (ctf_decl_t *cd);
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extern const char *ctf_strptr (ctf_dict_t *, uint32_t);
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extern const char *ctf_strraw (ctf_dict_t *, uint32_t);
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extern const char *ctf_strraw_explicit (ctf_dict_t *, uint32_t,
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ctf_strs_t *);
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extern int ctf_str_create_atoms (ctf_dict_t *);
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extern void ctf_str_free_atoms (ctf_dict_t *);
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extern uint32_t ctf_str_add (ctf_dict_t *, const char *);
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extern uint32_t ctf_str_add_ref (ctf_dict_t *, const char *, uint32_t *ref);
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extern int ctf_str_add_external (ctf_dict_t *, const char *, uint32_t offset);
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extern void ctf_str_remove_ref (ctf_dict_t *, const char *, uint32_t *ref);
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extern void ctf_str_rollback (ctf_dict_t *, ctf_snapshot_id_t);
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extern void ctf_str_purge_refs (ctf_dict_t *);
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extern ctf_strs_writable_t ctf_str_write_strtab (ctf_dict_t *);
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extern struct ctf_archive_internal *
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ctf_new_archive_internal (int is_archive, int unmap_on_close,
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struct ctf_archive *, ctf_dict_t *,
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const ctf_sect_t *symsect,
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const ctf_sect_t *strsect, int *errp);
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extern struct ctf_archive *ctf_arc_open_internal (const char *, int *);
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extern void ctf_arc_close_internal (struct ctf_archive *);
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extern const ctf_preamble_t *ctf_arc_bufpreamble (const ctf_sect_t *);
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extern void *ctf_set_open_errno (int *, int);
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extern unsigned long ctf_set_errno (ctf_dict_t *, int);
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extern ctf_dict_t *ctf_simple_open_internal (const char *, size_t, const char *,
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size_t, size_t,
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const char *, size_t,
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ctf_dynhash_t *, int, int *);
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extern ctf_dict_t *ctf_bufopen_internal (const ctf_sect_t *, const ctf_sect_t *,
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const ctf_sect_t *, ctf_dynhash_t *,
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int, int *);
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extern int ctf_import_unref (ctf_dict_t *fp, ctf_dict_t *pfp);
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extern int ctf_serialize (ctf_dict_t *);
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_libctf_malloc_
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extern void *ctf_mmap (size_t length, size_t offset, int fd);
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extern void ctf_munmap (void *, size_t);
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extern ssize_t ctf_pread (int fd, void *buf, ssize_t count, off_t offset);
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extern void *ctf_realloc (ctf_dict_t *, void *, size_t);
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extern char *ctf_str_append (char *, const char *);
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extern char *ctf_str_append_noerr (char *, const char *);
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extern ctf_id_t ctf_type_resolve_unsliced (ctf_dict_t *, ctf_id_t);
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extern int ctf_type_kind_unsliced (ctf_dict_t *, ctf_id_t);
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_libctf_printflike_ (1, 2)
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extern void ctf_dprintf (const char *, ...);
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extern void libctf_init_debug (void);
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_libctf_printflike_ (4, 5)
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extern void ctf_err_warn (ctf_dict_t *, int is_warning, int err,
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const char *, ...);
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extern void ctf_err_warn_to_open (ctf_dict_t *);
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extern void ctf_assert_fail_internal (ctf_dict_t *, const char *,
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size_t, const char *);
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extern const char *ctf_link_input_name (ctf_dict_t *);
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extern ctf_link_sym_t *ctf_elf32_to_link_sym (ctf_dict_t *fp, ctf_link_sym_t *dst,
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const Elf32_Sym *src, uint32_t symidx);
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extern ctf_link_sym_t *ctf_elf64_to_link_sym (ctf_dict_t *fp, ctf_link_sym_t *dst,
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const Elf64_Sym *src, uint32_t symidx);
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/* Variables, all underscore-prepended. */
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extern const char _CTF_SECTION[]; /* name of CTF ELF section */
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extern const char _CTF_NULLSTR[]; /* empty string */
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extern int _libctf_version; /* library client version */
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extern int _libctf_debug; /* debugging messages enabled */
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#include "ctf-inlines.h"
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#ifdef __cplusplus
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}
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#endif
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#endif /* _CTF_IMPL_H */
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