1*f3e7f55eSRobert Mustacchi /*
2*f3e7f55eSRobert Mustacchi * CDDL HEADER START
3*f3e7f55eSRobert Mustacchi *
4*f3e7f55eSRobert Mustacchi * The contents of this file are subject to the terms of the
5*f3e7f55eSRobert Mustacchi * Common Development and Distribution License (the "License").
6*f3e7f55eSRobert Mustacchi * You may not use this file except in compliance with the License.
7*f3e7f55eSRobert Mustacchi *
8*f3e7f55eSRobert Mustacchi * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9*f3e7f55eSRobert Mustacchi * or http://www.opensolaris.org/os/licensing.
10*f3e7f55eSRobert Mustacchi * See the License for the specific language governing permissions
11*f3e7f55eSRobert Mustacchi * and limitations under the License.
12*f3e7f55eSRobert Mustacchi *
13*f3e7f55eSRobert Mustacchi * When distributing Covered Code, include this CDDL HEADER in each
14*f3e7f55eSRobert Mustacchi * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15*f3e7f55eSRobert Mustacchi * If applicable, add the following below this CDDL HEADER, with the
16*f3e7f55eSRobert Mustacchi * fields enclosed by brackets "[]" replaced with your own identifying
17*f3e7f55eSRobert Mustacchi * information: Portions Copyright [yyyy] [name of copyright owner]
18*f3e7f55eSRobert Mustacchi *
19*f3e7f55eSRobert Mustacchi * CDDL HEADER END
20*f3e7f55eSRobert Mustacchi */
21*f3e7f55eSRobert Mustacchi /*
22*f3e7f55eSRobert Mustacchi * Copyright 2007 Sun Microsystems, Inc. All rights reserved.
23*f3e7f55eSRobert Mustacchi * Use is subject to license terms.
24*f3e7f55eSRobert Mustacchi */
25*f3e7f55eSRobert Mustacchi /*
26*f3e7f55eSRobert Mustacchi * Copyright 2012 Jason King. All rights reserved.
27*f3e7f55eSRobert Mustacchi * Use is subject to license terms.
28*f3e7f55eSRobert Mustacchi */
29*f3e7f55eSRobert Mustacchi
30*f3e7f55eSRobert Mustacchi /*
31*f3e7f55eSRobert Mustacchi * Copyright 2018 Joyent, Inc.
32*f3e7f55eSRobert Mustacchi */
33*f3e7f55eSRobert Mustacchi
34*f3e7f55eSRobert Mustacchi /*
35*f3e7f55eSRobert Mustacchi * CTF DWARF conversion theory.
36*f3e7f55eSRobert Mustacchi *
37*f3e7f55eSRobert Mustacchi * DWARF data contains a series of compilation units. Each compilation unit
38*f3e7f55eSRobert Mustacchi * generally refers to an object file or what once was, in the case of linked
39*f3e7f55eSRobert Mustacchi * binaries and shared objects. Each compilation unit has a series of what DWARF
40*f3e7f55eSRobert Mustacchi * calls a DIE (Debugging Information Entry). The set of entries that we care
41*f3e7f55eSRobert Mustacchi * about have type information stored in a series of attributes. Each DIE also
42*f3e7f55eSRobert Mustacchi * has a tag that identifies the kind of attributes that it has.
43*f3e7f55eSRobert Mustacchi *
44*f3e7f55eSRobert Mustacchi * A given DIE may itself have children. For example, a DIE that represents a
45*f3e7f55eSRobert Mustacchi * structure has children which represent members. Whenever we encounter a DIE
46*f3e7f55eSRobert Mustacchi * that has children or other values or types associated with it, we recursively
47*f3e7f55eSRobert Mustacchi * process those children first so that way we can then refer to the generated
48*f3e7f55eSRobert Mustacchi * CTF type id while processing its parent. This reduces the amount of unknowns
49*f3e7f55eSRobert Mustacchi * and fixups that we need. It also ensures that we don't accidentally add types
50*f3e7f55eSRobert Mustacchi * that an overzealous compiler might add to the DWARF data but aren't used by
51*f3e7f55eSRobert Mustacchi * anything in the system.
52*f3e7f55eSRobert Mustacchi *
53*f3e7f55eSRobert Mustacchi * Once we do a conversion, we store a mapping in an AVL tree that goes from the
54*f3e7f55eSRobert Mustacchi * DWARF's die offset, which is relative to the given compilation unit, to a
55*f3e7f55eSRobert Mustacchi * ctf_id_t.
56*f3e7f55eSRobert Mustacchi *
57*f3e7f55eSRobert Mustacchi * Unfortunately, some compilers actually will emit duplicate entries for a
58*f3e7f55eSRobert Mustacchi * given type that look similar, but aren't quite. To that end, we go through
59*f3e7f55eSRobert Mustacchi * and do a variant on a merge once we're done processing a single compilation
60*f3e7f55eSRobert Mustacchi * unit which deduplicates all of the types that are in the unit.
61*f3e7f55eSRobert Mustacchi *
62*f3e7f55eSRobert Mustacchi * Finally, if we encounter an object that has multiple compilation units, then
63*f3e7f55eSRobert Mustacchi * we'll convert all of the compilation units separately and then do a merge, so
64*f3e7f55eSRobert Mustacchi * that way we can result in one single ctf_file_t that represents everything
65*f3e7f55eSRobert Mustacchi * for the object.
66*f3e7f55eSRobert Mustacchi *
67*f3e7f55eSRobert Mustacchi * Conversion Steps
68*f3e7f55eSRobert Mustacchi * ----------------
69*f3e7f55eSRobert Mustacchi *
70*f3e7f55eSRobert Mustacchi * Because a given object we've been given to convert may have multiple
71*f3e7f55eSRobert Mustacchi * compilation units, we break the work into two halves. The first half
72*f3e7f55eSRobert Mustacchi * processes each compilation unit (potentially in parallel) and then the second
73*f3e7f55eSRobert Mustacchi * half optionally merges all of the dies in the first half. First, we'll cover
74*f3e7f55eSRobert Mustacchi * what's involved in converting a single ctf_cu_t's dwarf to CTF. This covers
75*f3e7f55eSRobert Mustacchi * the work done in ctf_dwarf_convert_one().
76*f3e7f55eSRobert Mustacchi *
77*f3e7f55eSRobert Mustacchi * An individual ctf_cu_t, which represents a compilation unit, is converted to
78*f3e7f55eSRobert Mustacchi * CTF in a series of multiple passes.
79*f3e7f55eSRobert Mustacchi *
80*f3e7f55eSRobert Mustacchi * Pass 1: During the first pass we walk all of the top-level dies and if we
81*f3e7f55eSRobert Mustacchi * find a function, variable, struct, union, enum or typedef, we recursively
82*f3e7f55eSRobert Mustacchi * transform all of its types. We don't recurse or process everything, because
83*f3e7f55eSRobert Mustacchi * we don't want to add some of the types that compilers may add which are
84*f3e7f55eSRobert Mustacchi * effectively unused.
85*f3e7f55eSRobert Mustacchi *
86*f3e7f55eSRobert Mustacchi * During pass 1, if we encounter any structures or unions we mark them for
87*f3e7f55eSRobert Mustacchi * fixing up later. This is necessary because we may not be able to determine
88*f3e7f55eSRobert Mustacchi * the full size of a structure at the beginning of time. This will happen if
89*f3e7f55eSRobert Mustacchi * the DWARF attribute DW_AT_byte_size is not present for a member. Because of
90*f3e7f55eSRobert Mustacchi * this possibility we defer adding members to structures or even converting
91*f3e7f55eSRobert Mustacchi * them during pass 1 and save that for pass 2. Adding all of the base
92*f3e7f55eSRobert Mustacchi * structures without any of their members helps deal with any circular
93*f3e7f55eSRobert Mustacchi * dependencies that we might encounter.
94*f3e7f55eSRobert Mustacchi *
95*f3e7f55eSRobert Mustacchi * Pass 2: This pass is used to do the first half of fixing up structures and
96*f3e7f55eSRobert Mustacchi * unions. Rather than walk the entire type space again, we actually walk the
97*f3e7f55eSRobert Mustacchi * list of structures and unions that we marked for later fixing up. Here, we
98*f3e7f55eSRobert Mustacchi * iterate over every structure and add members to the underlying ctf_file_t,
99*f3e7f55eSRobert Mustacchi * but not to the structs themselves. One might wonder why we don't, and the
100*f3e7f55eSRobert Mustacchi * main reason is that libctf requires a ctf_update() be done before adding the
101*f3e7f55eSRobert Mustacchi * members to structures or unions.
102*f3e7f55eSRobert Mustacchi *
103*f3e7f55eSRobert Mustacchi * Pass 3: This pass is used to do the second half of fixing up structures and
104*f3e7f55eSRobert Mustacchi * unions. During this part we always go through and add members to structures
105*f3e7f55eSRobert Mustacchi * and unions that we added to the container in the previous pass. In addition,
106*f3e7f55eSRobert Mustacchi * we set the structure and union's actual size, which may have additional
107*f3e7f55eSRobert Mustacchi * padding added by the compiler, it isn't simply the last offset. DWARF always
108*f3e7f55eSRobert Mustacchi * guarantees an attribute exists for this. Importantly no ctf_id_t's change
109*f3e7f55eSRobert Mustacchi * during pass 2.
110*f3e7f55eSRobert Mustacchi *
111*f3e7f55eSRobert Mustacchi * Pass 4: The next phase is to add CTF entries for all of the symbols and
112*f3e7f55eSRobert Mustacchi * variables that are present in this die. During pass 1 we added entries to a
113*f3e7f55eSRobert Mustacchi * map for each variable and function. During this pass, we iterate over the
114*f3e7f55eSRobert Mustacchi * symbol table and when we encounter a symbol that we have in our lists of
115*f3e7f55eSRobert Mustacchi * translated information which matches, we then add it to the ctf_file_t.
116*f3e7f55eSRobert Mustacchi *
117*f3e7f55eSRobert Mustacchi * Pass 5: Here we go and look for any weak symbols and functions and see if
118*f3e7f55eSRobert Mustacchi * they match anything that we recognize. If so, then we add type information
119*f3e7f55eSRobert Mustacchi * for them at this point based on the matching type.
120*f3e7f55eSRobert Mustacchi *
121*f3e7f55eSRobert Mustacchi * Pass 6: This pass is actually a variant on a merge. The traditional merge
122*f3e7f55eSRobert Mustacchi * process expects there to be no duplicate types. As such, at the end of
123*f3e7f55eSRobert Mustacchi * conversion, we do a dedup on all of the types in the system. The
124*f3e7f55eSRobert Mustacchi * deduplication process is described in lib/libctf/common/ctf_merge.c.
125*f3e7f55eSRobert Mustacchi *
126*f3e7f55eSRobert Mustacchi * Once pass 6 is done, we've finished processing the individual compilation
127*f3e7f55eSRobert Mustacchi * unit.
128*f3e7f55eSRobert Mustacchi *
129*f3e7f55eSRobert Mustacchi * The following steps reflect the general process of doing a conversion.
130*f3e7f55eSRobert Mustacchi *
131*f3e7f55eSRobert Mustacchi * 1) Walk the dwarf section and determine the number of compilation units
132*f3e7f55eSRobert Mustacchi * 2) Create a ctf_cu_t for each compilation unit
133*f3e7f55eSRobert Mustacchi * 3) Add all ctf_cu_t's to a workq
134*f3e7f55eSRobert Mustacchi * 4) Have the workq process each die with ctf_dwarf_convert_one. This itself
135*f3e7f55eSRobert Mustacchi * is comprised of several steps, which were already enumerated.
136*f3e7f55eSRobert Mustacchi * 5) If we have multiple cu's, we do a ctf merge of all the dies. The mechanics
137*f3e7f55eSRobert Mustacchi * of the merge are discussed in lib/libctf/common/ctf_merge.c.
138*f3e7f55eSRobert Mustacchi * 6) Free everything up and return a ctf_file_t to the user. If we only had a
139*f3e7f55eSRobert Mustacchi * single compilation unit, then we give that to the user. Otherwise, we
140*f3e7f55eSRobert Mustacchi * return the merged ctf_file_t.
141*f3e7f55eSRobert Mustacchi *
142*f3e7f55eSRobert Mustacchi * Threading
143*f3e7f55eSRobert Mustacchi * ---------
144*f3e7f55eSRobert Mustacchi *
145*f3e7f55eSRobert Mustacchi * The process has been designed to be amenable to threading. Each compilation
146*f3e7f55eSRobert Mustacchi * unit has its own type stream, therefore the logical place to divide and
147*f3e7f55eSRobert Mustacchi * conquer is at the compilation unit. Each ctf_cu_t has been built to be able
148*f3e7f55eSRobert Mustacchi * to be processed independently of the others. It has its own libdwarf handle,
149*f3e7f55eSRobert Mustacchi * as a given libdwarf handle may only be used by a single thread at a time.
150*f3e7f55eSRobert Mustacchi * This allows the various ctf_cu_t's to be processed in parallel by different
151*f3e7f55eSRobert Mustacchi * threads.
152*f3e7f55eSRobert Mustacchi *
153*f3e7f55eSRobert Mustacchi * All of the ctf_cu_t's are loaded into a workq which allows for a number of
154*f3e7f55eSRobert Mustacchi * threads to be specified and used as a thread pool to process all of the
155*f3e7f55eSRobert Mustacchi * queued work. We set the number of threads to use in the workq equal to the
156*f3e7f55eSRobert Mustacchi * number of threads that the user has specified.
157*f3e7f55eSRobert Mustacchi *
158*f3e7f55eSRobert Mustacchi * After all of the compilation units have been drained, we use the same number
159*f3e7f55eSRobert Mustacchi * of threads when performing a merge of multiple compilation units, if they
160*f3e7f55eSRobert Mustacchi * exist.
161*f3e7f55eSRobert Mustacchi *
162*f3e7f55eSRobert Mustacchi * While all of these different parts do support and allow for multiple threads,
163*f3e7f55eSRobert Mustacchi * it's important that when only a single thread is specified, that it be the
164*f3e7f55eSRobert Mustacchi * calling thread. This allows the conversion routines to be used in a context
165*f3e7f55eSRobert Mustacchi * that doesn't allow additional threads, such as rtld.
166*f3e7f55eSRobert Mustacchi *
167*f3e7f55eSRobert Mustacchi * Common DWARF Mechanics and Notes
168*f3e7f55eSRobert Mustacchi * --------------------------------
169*f3e7f55eSRobert Mustacchi *
170*f3e7f55eSRobert Mustacchi * At this time, we really only support DWARFv2, though support for DWARFv4 is
171*f3e7f55eSRobert Mustacchi * mostly there. There is no intent to support DWARFv3.
172*f3e7f55eSRobert Mustacchi *
173*f3e7f55eSRobert Mustacchi * Generally types for something are stored in the DW_AT_type attribute. For
174*f3e7f55eSRobert Mustacchi * example, a function's return type will be stored in the local DW_AT_type
175*f3e7f55eSRobert Mustacchi * attribute while the arguments will be in child DIEs. There are also various
176*f3e7f55eSRobert Mustacchi * times when we don't have any DW_AT_type. In that case, the lack of a type
177*f3e7f55eSRobert Mustacchi * implies, at least for C, that its C type is void. Because DWARF doesn't emit
178*f3e7f55eSRobert Mustacchi * one, we have a synthetic void type that we create and manipulate instead and
179*f3e7f55eSRobert Mustacchi * pass it off to consumers on an as-needed basis. If nothing has a void type,
180*f3e7f55eSRobert Mustacchi * it will not be emitted.
181*f3e7f55eSRobert Mustacchi *
182*f3e7f55eSRobert Mustacchi * Architecture Specific Parts
183*f3e7f55eSRobert Mustacchi * ---------------------------
184*f3e7f55eSRobert Mustacchi *
185*f3e7f55eSRobert Mustacchi * The CTF tooling encodes various information about the various architectures
186*f3e7f55eSRobert Mustacchi * in the system. Importantly, the tool assumes that every architecture has a
187*f3e7f55eSRobert Mustacchi * data model where long and pointer are the same size. This is currently the
188*f3e7f55eSRobert Mustacchi * case, as the two data models illumos supports are ILP32 and LP64.
189*f3e7f55eSRobert Mustacchi *
190*f3e7f55eSRobert Mustacchi * In addition, we encode the mapping of various floating point sizes to various
191*f3e7f55eSRobert Mustacchi * types for each architecture. If a new architecture is being added, it should
192*f3e7f55eSRobert Mustacchi * be added to the list. The general design of the ctf conversion tools is to be
193*f3e7f55eSRobert Mustacchi * architecture independent. eg. any of the tools here should be able to convert
194*f3e7f55eSRobert Mustacchi * any architecture's DWARF into ctf; however, this has not been rigorously
195*f3e7f55eSRobert Mustacchi * tested and more importantly, the ctf routines don't currently write out the
196*f3e7f55eSRobert Mustacchi * data in an endian-aware form, they only use that of the currently running
197*f3e7f55eSRobert Mustacchi * library.
198*f3e7f55eSRobert Mustacchi */
199*f3e7f55eSRobert Mustacchi
200*f3e7f55eSRobert Mustacchi #include <libctf_impl.h>
201*f3e7f55eSRobert Mustacchi #include <sys/avl.h>
202*f3e7f55eSRobert Mustacchi #include <sys/debug.h>
203*f3e7f55eSRobert Mustacchi #include <gelf.h>
204*f3e7f55eSRobert Mustacchi #include <libdwarf.h>
205*f3e7f55eSRobert Mustacchi #include <dwarf.h>
206*f3e7f55eSRobert Mustacchi #include <libgen.h>
207*f3e7f55eSRobert Mustacchi #include <workq.h>
208*f3e7f55eSRobert Mustacchi #include <errno.h>
209*f3e7f55eSRobert Mustacchi
210*f3e7f55eSRobert Mustacchi #define DWARF_VERSION_TWO 2
211*f3e7f55eSRobert Mustacchi #define DWARF_VARARGS_NAME "..."
212*f3e7f55eSRobert Mustacchi
213*f3e7f55eSRobert Mustacchi /*
214*f3e7f55eSRobert Mustacchi * Dwarf may refer recursively to other types that we've already processed. To
215*f3e7f55eSRobert Mustacchi * see if we've already converted them, we look them up in an AVL tree that's
216*f3e7f55eSRobert Mustacchi * sorted by the DWARF id.
217*f3e7f55eSRobert Mustacchi */
218*f3e7f55eSRobert Mustacchi typedef struct ctf_dwmap {
219*f3e7f55eSRobert Mustacchi avl_node_t cdm_avl;
220*f3e7f55eSRobert Mustacchi Dwarf_Off cdm_off;
221*f3e7f55eSRobert Mustacchi Dwarf_Die cdm_die;
222*f3e7f55eSRobert Mustacchi ctf_id_t cdm_id;
223*f3e7f55eSRobert Mustacchi boolean_t cdm_fix;
224*f3e7f55eSRobert Mustacchi } ctf_dwmap_t;
225*f3e7f55eSRobert Mustacchi
226*f3e7f55eSRobert Mustacchi typedef struct ctf_dwvar {
227*f3e7f55eSRobert Mustacchi ctf_list_t cdv_list;
228*f3e7f55eSRobert Mustacchi char *cdv_name;
229*f3e7f55eSRobert Mustacchi ctf_id_t cdv_type;
230*f3e7f55eSRobert Mustacchi boolean_t cdv_global;
231*f3e7f55eSRobert Mustacchi } ctf_dwvar_t;
232*f3e7f55eSRobert Mustacchi
233*f3e7f55eSRobert Mustacchi typedef struct ctf_dwfunc {
234*f3e7f55eSRobert Mustacchi ctf_list_t cdf_list;
235*f3e7f55eSRobert Mustacchi char *cdf_name;
236*f3e7f55eSRobert Mustacchi ctf_funcinfo_t cdf_fip;
237*f3e7f55eSRobert Mustacchi ctf_id_t *cdf_argv;
238*f3e7f55eSRobert Mustacchi boolean_t cdf_global;
239*f3e7f55eSRobert Mustacchi } ctf_dwfunc_t;
240*f3e7f55eSRobert Mustacchi
241*f3e7f55eSRobert Mustacchi typedef struct ctf_dwbitf {
242*f3e7f55eSRobert Mustacchi ctf_list_t cdb_list;
243*f3e7f55eSRobert Mustacchi ctf_id_t cdb_base;
244*f3e7f55eSRobert Mustacchi uint_t cdb_nbits;
245*f3e7f55eSRobert Mustacchi ctf_id_t cdb_id;
246*f3e7f55eSRobert Mustacchi } ctf_dwbitf_t;
247*f3e7f55eSRobert Mustacchi
248*f3e7f55eSRobert Mustacchi /*
249*f3e7f55eSRobert Mustacchi * The ctf_cu_t represents a single top-level DWARF die unit. While generally,
250*f3e7f55eSRobert Mustacchi * the typical object file has only a single die, if we're asked to convert
251*f3e7f55eSRobert Mustacchi * something that's been linked from multiple sources, multiple dies will exist.
252*f3e7f55eSRobert Mustacchi */
253*f3e7f55eSRobert Mustacchi typedef struct ctf_die {
254*f3e7f55eSRobert Mustacchi Elf *cu_elf; /* shared libelf handle */
255*f3e7f55eSRobert Mustacchi char *cu_name; /* basename of the DIE */
256*f3e7f55eSRobert Mustacchi ctf_merge_t *cu_cmh; /* merge handle */
257*f3e7f55eSRobert Mustacchi ctf_list_t cu_vars; /* List of variables */
258*f3e7f55eSRobert Mustacchi ctf_list_t cu_funcs; /* List of functions */
259*f3e7f55eSRobert Mustacchi ctf_list_t cu_bitfields; /* Bit field members */
260*f3e7f55eSRobert Mustacchi Dwarf_Debug cu_dwarf; /* libdwarf handle */
261*f3e7f55eSRobert Mustacchi Dwarf_Die cu_cu; /* libdwarf compilation unit */
262*f3e7f55eSRobert Mustacchi Dwarf_Off cu_cuoff; /* cu's offset */
263*f3e7f55eSRobert Mustacchi Dwarf_Off cu_maxoff; /* maximum offset */
264*f3e7f55eSRobert Mustacchi ctf_file_t *cu_ctfp; /* output CTF file */
265*f3e7f55eSRobert Mustacchi avl_tree_t cu_map; /* map die offsets to CTF types */
266*f3e7f55eSRobert Mustacchi char *cu_errbuf; /* error message buffer */
267*f3e7f55eSRobert Mustacchi size_t cu_errlen; /* error message buffer length */
268*f3e7f55eSRobert Mustacchi size_t cu_ptrsz; /* object's pointer size */
269*f3e7f55eSRobert Mustacchi boolean_t cu_bigend; /* is it big endian */
270*f3e7f55eSRobert Mustacchi boolean_t cu_doweaks; /* should we convert weak symbols? */
271*f3e7f55eSRobert Mustacchi uint_t cu_mach; /* machine type */
272*f3e7f55eSRobert Mustacchi ctf_id_t cu_voidtid; /* void pointer */
273*f3e7f55eSRobert Mustacchi ctf_id_t cu_longtid; /* id for a 'long' */
274*f3e7f55eSRobert Mustacchi } ctf_cu_t;
275*f3e7f55eSRobert Mustacchi
276*f3e7f55eSRobert Mustacchi static int ctf_dwarf_offset(ctf_cu_t *, Dwarf_Die, Dwarf_Off *);
277*f3e7f55eSRobert Mustacchi static int ctf_dwarf_convert_die(ctf_cu_t *, Dwarf_Die);
278*f3e7f55eSRobert Mustacchi static int ctf_dwarf_convert_type(ctf_cu_t *, Dwarf_Die, ctf_id_t *, int);
279*f3e7f55eSRobert Mustacchi
280*f3e7f55eSRobert Mustacchi static int ctf_dwarf_function_count(ctf_cu_t *, Dwarf_Die, ctf_funcinfo_t *,
281*f3e7f55eSRobert Mustacchi boolean_t);
282*f3e7f55eSRobert Mustacchi static int ctf_dwarf_convert_fargs(ctf_cu_t *, Dwarf_Die, ctf_funcinfo_t *,
283*f3e7f55eSRobert Mustacchi ctf_id_t *);
284*f3e7f55eSRobert Mustacchi
285*f3e7f55eSRobert Mustacchi typedef int (ctf_dwarf_symtab_f)(ctf_cu_t *, const GElf_Sym *, ulong_t,
286*f3e7f55eSRobert Mustacchi const char *, const char *, void *);
287*f3e7f55eSRobert Mustacchi
288*f3e7f55eSRobert Mustacchi /*
289*f3e7f55eSRobert Mustacchi * This is a generic way to set a CTF Conversion backend error depending on what
290*f3e7f55eSRobert Mustacchi * we were doing. Unless it was one of a specific set of errors that don't
291*f3e7f55eSRobert Mustacchi * indicate a programming / translation bug, eg. ENOMEM, then we transform it
292*f3e7f55eSRobert Mustacchi * into a CTF backend error and fill in the error buffer.
293*f3e7f55eSRobert Mustacchi */
294*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_error(ctf_cu_t * cup,ctf_file_t * cfp,int err,const char * fmt,...)295*f3e7f55eSRobert Mustacchi ctf_dwarf_error(ctf_cu_t *cup, ctf_file_t *cfp, int err, const char *fmt, ...)
296*f3e7f55eSRobert Mustacchi {
297*f3e7f55eSRobert Mustacchi va_list ap;
298*f3e7f55eSRobert Mustacchi int ret;
299*f3e7f55eSRobert Mustacchi size_t off = 0;
300*f3e7f55eSRobert Mustacchi ssize_t rem = cup->cu_errlen;
301*f3e7f55eSRobert Mustacchi if (cfp != NULL)
302*f3e7f55eSRobert Mustacchi err = ctf_errno(cfp);
303*f3e7f55eSRobert Mustacchi
304*f3e7f55eSRobert Mustacchi if (err == ENOMEM)
305*f3e7f55eSRobert Mustacchi return (err);
306*f3e7f55eSRobert Mustacchi
307*f3e7f55eSRobert Mustacchi ret = snprintf(cup->cu_errbuf, rem, "die %s: ", cup->cu_name);
308*f3e7f55eSRobert Mustacchi if (ret < 0)
309*f3e7f55eSRobert Mustacchi goto err;
310*f3e7f55eSRobert Mustacchi off += ret;
311*f3e7f55eSRobert Mustacchi rem = MAX(rem - ret, 0);
312*f3e7f55eSRobert Mustacchi
313*f3e7f55eSRobert Mustacchi va_start(ap, fmt);
314*f3e7f55eSRobert Mustacchi ret = vsnprintf(cup->cu_errbuf + off, rem, fmt, ap);
315*f3e7f55eSRobert Mustacchi va_end(ap);
316*f3e7f55eSRobert Mustacchi if (ret < 0)
317*f3e7f55eSRobert Mustacchi goto err;
318*f3e7f55eSRobert Mustacchi
319*f3e7f55eSRobert Mustacchi off += ret;
320*f3e7f55eSRobert Mustacchi rem = MAX(rem - ret, 0);
321*f3e7f55eSRobert Mustacchi if (fmt[strlen(fmt) - 1] != '\n') {
322*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf + off, rem,
323*f3e7f55eSRobert Mustacchi ": %s\n", ctf_errmsg(err));
324*f3e7f55eSRobert Mustacchi }
325*f3e7f55eSRobert Mustacchi va_end(ap);
326*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
327*f3e7f55eSRobert Mustacchi
328*f3e7f55eSRobert Mustacchi err:
329*f3e7f55eSRobert Mustacchi cup->cu_errbuf[0] = '\0';
330*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
331*f3e7f55eSRobert Mustacchi }
332*f3e7f55eSRobert Mustacchi
333*f3e7f55eSRobert Mustacchi /*
334*f3e7f55eSRobert Mustacchi * DWARF often opts to put no explicit type to describe a void type. eg. if we
335*f3e7f55eSRobert Mustacchi * have a reference type whose DW_AT_type member doesn't exist, then we should
336*f3e7f55eSRobert Mustacchi * instead assume it points to void. Because this isn't represented, we
337*f3e7f55eSRobert Mustacchi * instead cause it to come into existence.
338*f3e7f55eSRobert Mustacchi */
339*f3e7f55eSRobert Mustacchi static ctf_id_t
ctf_dwarf_void(ctf_cu_t * cup)340*f3e7f55eSRobert Mustacchi ctf_dwarf_void(ctf_cu_t *cup)
341*f3e7f55eSRobert Mustacchi {
342*f3e7f55eSRobert Mustacchi if (cup->cu_voidtid == CTF_ERR) {
343*f3e7f55eSRobert Mustacchi ctf_encoding_t enc = { CTF_INT_SIGNED, 0, 0 };
344*f3e7f55eSRobert Mustacchi cup->cu_voidtid = ctf_add_integer(cup->cu_ctfp, CTF_ADD_ROOT,
345*f3e7f55eSRobert Mustacchi "void", &enc);
346*f3e7f55eSRobert Mustacchi if (cup->cu_voidtid == CTF_ERR) {
347*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
348*f3e7f55eSRobert Mustacchi "failed to create void type: %s\n",
349*f3e7f55eSRobert Mustacchi ctf_errmsg(ctf_errno(cup->cu_ctfp)));
350*f3e7f55eSRobert Mustacchi }
351*f3e7f55eSRobert Mustacchi }
352*f3e7f55eSRobert Mustacchi
353*f3e7f55eSRobert Mustacchi return (cup->cu_voidtid);
354*f3e7f55eSRobert Mustacchi }
355*f3e7f55eSRobert Mustacchi
356*f3e7f55eSRobert Mustacchi /*
357*f3e7f55eSRobert Mustacchi * There are many different forms that an array index may take. However, we just
358*f3e7f55eSRobert Mustacchi * always force it to be of a type long no matter what. Therefore we use this to
359*f3e7f55eSRobert Mustacchi * have a single instance of long across everything.
360*f3e7f55eSRobert Mustacchi */
361*f3e7f55eSRobert Mustacchi static ctf_id_t
ctf_dwarf_long(ctf_cu_t * cup)362*f3e7f55eSRobert Mustacchi ctf_dwarf_long(ctf_cu_t *cup)
363*f3e7f55eSRobert Mustacchi {
364*f3e7f55eSRobert Mustacchi if (cup->cu_longtid == CTF_ERR) {
365*f3e7f55eSRobert Mustacchi ctf_encoding_t enc;
366*f3e7f55eSRobert Mustacchi
367*f3e7f55eSRobert Mustacchi enc.cte_format = CTF_INT_SIGNED;
368*f3e7f55eSRobert Mustacchi enc.cte_offset = 0;
369*f3e7f55eSRobert Mustacchi /* All illumos systems are LP */
370*f3e7f55eSRobert Mustacchi enc.cte_bits = cup->cu_ptrsz * 8;
371*f3e7f55eSRobert Mustacchi cup->cu_longtid = ctf_add_integer(cup->cu_ctfp, CTF_ADD_NONROOT,
372*f3e7f55eSRobert Mustacchi "long", &enc);
373*f3e7f55eSRobert Mustacchi if (cup->cu_longtid == CTF_ERR) {
374*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
375*f3e7f55eSRobert Mustacchi "failed to create long type: %s\n",
376*f3e7f55eSRobert Mustacchi ctf_errmsg(ctf_errno(cup->cu_ctfp)));
377*f3e7f55eSRobert Mustacchi }
378*f3e7f55eSRobert Mustacchi
379*f3e7f55eSRobert Mustacchi }
380*f3e7f55eSRobert Mustacchi
381*f3e7f55eSRobert Mustacchi return (cup->cu_longtid);
382*f3e7f55eSRobert Mustacchi }
383*f3e7f55eSRobert Mustacchi
384*f3e7f55eSRobert Mustacchi static int
ctf_dwmap_comp(const void * a,const void * b)385*f3e7f55eSRobert Mustacchi ctf_dwmap_comp(const void *a, const void *b)
386*f3e7f55eSRobert Mustacchi {
387*f3e7f55eSRobert Mustacchi const ctf_dwmap_t *ca = a;
388*f3e7f55eSRobert Mustacchi const ctf_dwmap_t *cb = b;
389*f3e7f55eSRobert Mustacchi
390*f3e7f55eSRobert Mustacchi if (ca->cdm_off > cb->cdm_off)
391*f3e7f55eSRobert Mustacchi return (1);
392*f3e7f55eSRobert Mustacchi if (ca->cdm_off < cb->cdm_off)
393*f3e7f55eSRobert Mustacchi return (-1);
394*f3e7f55eSRobert Mustacchi return (0);
395*f3e7f55eSRobert Mustacchi }
396*f3e7f55eSRobert Mustacchi
397*f3e7f55eSRobert Mustacchi static int
ctf_dwmap_add(ctf_cu_t * cup,ctf_id_t id,Dwarf_Die die,boolean_t fix)398*f3e7f55eSRobert Mustacchi ctf_dwmap_add(ctf_cu_t *cup, ctf_id_t id, Dwarf_Die die, boolean_t fix)
399*f3e7f55eSRobert Mustacchi {
400*f3e7f55eSRobert Mustacchi int ret;
401*f3e7f55eSRobert Mustacchi avl_index_t index;
402*f3e7f55eSRobert Mustacchi ctf_dwmap_t *dwmap;
403*f3e7f55eSRobert Mustacchi Dwarf_Off off;
404*f3e7f55eSRobert Mustacchi
405*f3e7f55eSRobert Mustacchi VERIFY(id > 0 && id < CTF_MAX_TYPE);
406*f3e7f55eSRobert Mustacchi
407*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_offset(cup, die, &off)) != 0)
408*f3e7f55eSRobert Mustacchi return (ret);
409*f3e7f55eSRobert Mustacchi
410*f3e7f55eSRobert Mustacchi if ((dwmap = ctf_alloc(sizeof (ctf_dwmap_t))) == NULL)
411*f3e7f55eSRobert Mustacchi return (ENOMEM);
412*f3e7f55eSRobert Mustacchi
413*f3e7f55eSRobert Mustacchi dwmap->cdm_die = die;
414*f3e7f55eSRobert Mustacchi dwmap->cdm_off = off;
415*f3e7f55eSRobert Mustacchi dwmap->cdm_id = id;
416*f3e7f55eSRobert Mustacchi dwmap->cdm_fix = fix;
417*f3e7f55eSRobert Mustacchi
418*f3e7f55eSRobert Mustacchi ctf_dprintf("dwmap: %p %" DW_PR_DUx "->%d\n", dwmap, off, id);
419*f3e7f55eSRobert Mustacchi VERIFY(avl_find(&cup->cu_map, dwmap, &index) == NULL);
420*f3e7f55eSRobert Mustacchi avl_insert(&cup->cu_map, dwmap, index);
421*f3e7f55eSRobert Mustacchi return (0);
422*f3e7f55eSRobert Mustacchi }
423*f3e7f55eSRobert Mustacchi
424*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_attribute(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Attribute * attrp)425*f3e7f55eSRobert Mustacchi ctf_dwarf_attribute(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name,
426*f3e7f55eSRobert Mustacchi Dwarf_Attribute *attrp)
427*f3e7f55eSRobert Mustacchi {
428*f3e7f55eSRobert Mustacchi int ret;
429*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
430*f3e7f55eSRobert Mustacchi
431*f3e7f55eSRobert Mustacchi if ((ret = dwarf_attr(die, name, attrp, &derr)) == DW_DLV_OK)
432*f3e7f55eSRobert Mustacchi return (0);
433*f3e7f55eSRobert Mustacchi if (ret == DW_DLV_NO_ENTRY) {
434*f3e7f55eSRobert Mustacchi *attrp = NULL;
435*f3e7f55eSRobert Mustacchi return (ENOENT);
436*f3e7f55eSRobert Mustacchi }
437*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
438*f3e7f55eSRobert Mustacchi "failed to get attribute for type: %s\n",
439*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
440*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
441*f3e7f55eSRobert Mustacchi }
442*f3e7f55eSRobert Mustacchi
443*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_ref(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Off * refp)444*f3e7f55eSRobert Mustacchi ctf_dwarf_ref(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name, Dwarf_Off *refp)
445*f3e7f55eSRobert Mustacchi {
446*f3e7f55eSRobert Mustacchi int ret;
447*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
448*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
449*f3e7f55eSRobert Mustacchi
450*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, name, &attr)) != 0)
451*f3e7f55eSRobert Mustacchi return (ret);
452*f3e7f55eSRobert Mustacchi
453*f3e7f55eSRobert Mustacchi if (dwarf_formref(attr, refp, &derr) == DW_DLV_OK) {
454*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
455*f3e7f55eSRobert Mustacchi return (0);
456*f3e7f55eSRobert Mustacchi }
457*f3e7f55eSRobert Mustacchi
458*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
459*f3e7f55eSRobert Mustacchi "failed to get unsigned attribute for type: %s\n",
460*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
461*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
462*f3e7f55eSRobert Mustacchi }
463*f3e7f55eSRobert Mustacchi
464*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_refdie(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Die * diep)465*f3e7f55eSRobert Mustacchi ctf_dwarf_refdie(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name,
466*f3e7f55eSRobert Mustacchi Dwarf_Die *diep)
467*f3e7f55eSRobert Mustacchi {
468*f3e7f55eSRobert Mustacchi int ret;
469*f3e7f55eSRobert Mustacchi Dwarf_Off off;
470*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
471*f3e7f55eSRobert Mustacchi
472*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_ref(cup, die, name, &off)) != 0)
473*f3e7f55eSRobert Mustacchi return (ret);
474*f3e7f55eSRobert Mustacchi
475*f3e7f55eSRobert Mustacchi off += cup->cu_cuoff;
476*f3e7f55eSRobert Mustacchi if ((ret = dwarf_offdie(cup->cu_dwarf, off, diep, &derr)) !=
477*f3e7f55eSRobert Mustacchi DW_DLV_OK) {
478*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
479*f3e7f55eSRobert Mustacchi "failed to get die from offset %" DW_PR_DUu ": %s\n",
480*f3e7f55eSRobert Mustacchi off, dwarf_errmsg(derr));
481*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
482*f3e7f55eSRobert Mustacchi }
483*f3e7f55eSRobert Mustacchi
484*f3e7f55eSRobert Mustacchi return (0);
485*f3e7f55eSRobert Mustacchi }
486*f3e7f55eSRobert Mustacchi
487*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_signed(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Signed * valp)488*f3e7f55eSRobert Mustacchi ctf_dwarf_signed(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name,
489*f3e7f55eSRobert Mustacchi Dwarf_Signed *valp)
490*f3e7f55eSRobert Mustacchi {
491*f3e7f55eSRobert Mustacchi int ret;
492*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
493*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
494*f3e7f55eSRobert Mustacchi
495*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, name, &attr)) != 0)
496*f3e7f55eSRobert Mustacchi return (ret);
497*f3e7f55eSRobert Mustacchi
498*f3e7f55eSRobert Mustacchi if (dwarf_formsdata(attr, valp, &derr) == DW_DLV_OK) {
499*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
500*f3e7f55eSRobert Mustacchi return (0);
501*f3e7f55eSRobert Mustacchi }
502*f3e7f55eSRobert Mustacchi
503*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
504*f3e7f55eSRobert Mustacchi "failed to get unsigned attribute for type: %s\n",
505*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
506*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
507*f3e7f55eSRobert Mustacchi }
508*f3e7f55eSRobert Mustacchi
509*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_unsigned(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Unsigned * valp)510*f3e7f55eSRobert Mustacchi ctf_dwarf_unsigned(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name,
511*f3e7f55eSRobert Mustacchi Dwarf_Unsigned *valp)
512*f3e7f55eSRobert Mustacchi {
513*f3e7f55eSRobert Mustacchi int ret;
514*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
515*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
516*f3e7f55eSRobert Mustacchi
517*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, name, &attr)) != 0)
518*f3e7f55eSRobert Mustacchi return (ret);
519*f3e7f55eSRobert Mustacchi
520*f3e7f55eSRobert Mustacchi if (dwarf_formudata(attr, valp, &derr) == DW_DLV_OK) {
521*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
522*f3e7f55eSRobert Mustacchi return (0);
523*f3e7f55eSRobert Mustacchi }
524*f3e7f55eSRobert Mustacchi
525*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
526*f3e7f55eSRobert Mustacchi "failed to get unsigned attribute for type: %s\n",
527*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
528*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
529*f3e7f55eSRobert Mustacchi }
530*f3e7f55eSRobert Mustacchi
531*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_boolean(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,Dwarf_Bool * val)532*f3e7f55eSRobert Mustacchi ctf_dwarf_boolean(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name,
533*f3e7f55eSRobert Mustacchi Dwarf_Bool *val)
534*f3e7f55eSRobert Mustacchi {
535*f3e7f55eSRobert Mustacchi int ret;
536*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
537*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
538*f3e7f55eSRobert Mustacchi
539*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, name, &attr)) != 0)
540*f3e7f55eSRobert Mustacchi return (ret);
541*f3e7f55eSRobert Mustacchi
542*f3e7f55eSRobert Mustacchi if (dwarf_formflag(attr, val, &derr) == DW_DLV_OK) {
543*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
544*f3e7f55eSRobert Mustacchi return (0);
545*f3e7f55eSRobert Mustacchi }
546*f3e7f55eSRobert Mustacchi
547*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
548*f3e7f55eSRobert Mustacchi "failed to get boolean attribute for type: %s\n",
549*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
550*f3e7f55eSRobert Mustacchi
551*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
552*f3e7f55eSRobert Mustacchi }
553*f3e7f55eSRobert Mustacchi
554*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_string(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half name,char ** strp)555*f3e7f55eSRobert Mustacchi ctf_dwarf_string(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half name, char **strp)
556*f3e7f55eSRobert Mustacchi {
557*f3e7f55eSRobert Mustacchi int ret;
558*f3e7f55eSRobert Mustacchi char *s;
559*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
560*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
561*f3e7f55eSRobert Mustacchi
562*f3e7f55eSRobert Mustacchi *strp = NULL;
563*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, name, &attr)) != 0)
564*f3e7f55eSRobert Mustacchi return (ret);
565*f3e7f55eSRobert Mustacchi
566*f3e7f55eSRobert Mustacchi if (dwarf_formstring(attr, &s, &derr) == DW_DLV_OK) {
567*f3e7f55eSRobert Mustacchi if ((*strp = ctf_strdup(s)) == NULL)
568*f3e7f55eSRobert Mustacchi ret = ENOMEM;
569*f3e7f55eSRobert Mustacchi else
570*f3e7f55eSRobert Mustacchi ret = 0;
571*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
572*f3e7f55eSRobert Mustacchi return (ret);
573*f3e7f55eSRobert Mustacchi }
574*f3e7f55eSRobert Mustacchi
575*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
576*f3e7f55eSRobert Mustacchi "failed to get string attribute for type: %s\n",
577*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
578*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
579*f3e7f55eSRobert Mustacchi }
580*f3e7f55eSRobert Mustacchi
581*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_member_location(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Unsigned * valp)582*f3e7f55eSRobert Mustacchi ctf_dwarf_member_location(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Unsigned *valp)
583*f3e7f55eSRobert Mustacchi {
584*f3e7f55eSRobert Mustacchi int ret;
585*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
586*f3e7f55eSRobert Mustacchi Dwarf_Attribute attr;
587*f3e7f55eSRobert Mustacchi Dwarf_Locdesc *loc;
588*f3e7f55eSRobert Mustacchi Dwarf_Signed locnum;
589*f3e7f55eSRobert Mustacchi
590*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_attribute(cup, die, DW_AT_data_member_location,
591*f3e7f55eSRobert Mustacchi &attr)) != 0)
592*f3e7f55eSRobert Mustacchi return (ret);
593*f3e7f55eSRobert Mustacchi
594*f3e7f55eSRobert Mustacchi if (dwarf_loclist(attr, &loc, &locnum, &derr) != DW_DLV_OK) {
595*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
596*f3e7f55eSRobert Mustacchi "failed to obtain location list for member offset: %s",
597*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
598*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
599*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
600*f3e7f55eSRobert Mustacchi }
601*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, attr, DW_DLA_ATTR);
602*f3e7f55eSRobert Mustacchi
603*f3e7f55eSRobert Mustacchi if (locnum != 1 || loc->ld_s->lr_atom != DW_OP_plus_uconst) {
604*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
605*f3e7f55eSRobert Mustacchi "failed to parse location structure for member");
606*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, loc->ld_s, DW_DLA_LOC_BLOCK);
607*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, loc, DW_DLA_LOCDESC);
608*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
609*f3e7f55eSRobert Mustacchi }
610*f3e7f55eSRobert Mustacchi
611*f3e7f55eSRobert Mustacchi *valp = loc->ld_s->lr_number;
612*f3e7f55eSRobert Mustacchi
613*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, loc->ld_s, DW_DLA_LOC_BLOCK);
614*f3e7f55eSRobert Mustacchi dwarf_dealloc(cup->cu_dwarf, loc, DW_DLA_LOCDESC);
615*f3e7f55eSRobert Mustacchi return (0);
616*f3e7f55eSRobert Mustacchi }
617*f3e7f55eSRobert Mustacchi
618*f3e7f55eSRobert Mustacchi
619*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_offset(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Off * offsetp)620*f3e7f55eSRobert Mustacchi ctf_dwarf_offset(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Off *offsetp)
621*f3e7f55eSRobert Mustacchi {
622*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
623*f3e7f55eSRobert Mustacchi
624*f3e7f55eSRobert Mustacchi if (dwarf_dieoffset(die, offsetp, &derr) == DW_DLV_OK)
625*f3e7f55eSRobert Mustacchi return (0);
626*f3e7f55eSRobert Mustacchi
627*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
628*f3e7f55eSRobert Mustacchi "failed to get die offset: %s\n",
629*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
630*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
631*f3e7f55eSRobert Mustacchi }
632*f3e7f55eSRobert Mustacchi
633*f3e7f55eSRobert Mustacchi /* simpler variant for debugging output */
634*f3e7f55eSRobert Mustacchi static Dwarf_Off
ctf_die_offset(Dwarf_Die die)635*f3e7f55eSRobert Mustacchi ctf_die_offset(Dwarf_Die die)
636*f3e7f55eSRobert Mustacchi {
637*f3e7f55eSRobert Mustacchi Dwarf_Off off = -1;
638*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
639*f3e7f55eSRobert Mustacchi
640*f3e7f55eSRobert Mustacchi (void) dwarf_dieoffset(die, &off, &derr);
641*f3e7f55eSRobert Mustacchi return (off);
642*f3e7f55eSRobert Mustacchi }
643*f3e7f55eSRobert Mustacchi
644*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_tag(ctf_cu_t * cup,Dwarf_Die die,Dwarf_Half * tagp)645*f3e7f55eSRobert Mustacchi ctf_dwarf_tag(ctf_cu_t *cup, Dwarf_Die die, Dwarf_Half *tagp)
646*f3e7f55eSRobert Mustacchi {
647*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
648*f3e7f55eSRobert Mustacchi
649*f3e7f55eSRobert Mustacchi if (dwarf_tag(die, tagp, &derr) == DW_DLV_OK)
650*f3e7f55eSRobert Mustacchi return (0);
651*f3e7f55eSRobert Mustacchi
652*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
653*f3e7f55eSRobert Mustacchi "failed to get tag type: %s\n",
654*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
655*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
656*f3e7f55eSRobert Mustacchi }
657*f3e7f55eSRobert Mustacchi
658*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_sib(ctf_cu_t * cup,Dwarf_Die base,Dwarf_Die * sibp)659*f3e7f55eSRobert Mustacchi ctf_dwarf_sib(ctf_cu_t *cup, Dwarf_Die base, Dwarf_Die *sibp)
660*f3e7f55eSRobert Mustacchi {
661*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
662*f3e7f55eSRobert Mustacchi int ret;
663*f3e7f55eSRobert Mustacchi
664*f3e7f55eSRobert Mustacchi *sibp = NULL;
665*f3e7f55eSRobert Mustacchi ret = dwarf_siblingof(cup->cu_dwarf, base, sibp, &derr);
666*f3e7f55eSRobert Mustacchi if (ret == DW_DLV_OK || ret == DW_DLV_NO_ENTRY)
667*f3e7f55eSRobert Mustacchi return (0);
668*f3e7f55eSRobert Mustacchi
669*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
670*f3e7f55eSRobert Mustacchi "failed to sibling from die: %s\n",
671*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
672*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
673*f3e7f55eSRobert Mustacchi }
674*f3e7f55eSRobert Mustacchi
675*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_child(ctf_cu_t * cup,Dwarf_Die base,Dwarf_Die * childp)676*f3e7f55eSRobert Mustacchi ctf_dwarf_child(ctf_cu_t *cup, Dwarf_Die base, Dwarf_Die *childp)
677*f3e7f55eSRobert Mustacchi {
678*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
679*f3e7f55eSRobert Mustacchi int ret;
680*f3e7f55eSRobert Mustacchi
681*f3e7f55eSRobert Mustacchi *childp = NULL;
682*f3e7f55eSRobert Mustacchi ret = dwarf_child(base, childp, &derr);
683*f3e7f55eSRobert Mustacchi if (ret == DW_DLV_OK || ret == DW_DLV_NO_ENTRY)
684*f3e7f55eSRobert Mustacchi return (0);
685*f3e7f55eSRobert Mustacchi
686*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
687*f3e7f55eSRobert Mustacchi "failed to child from die: %s\n",
688*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
689*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
690*f3e7f55eSRobert Mustacchi }
691*f3e7f55eSRobert Mustacchi
692*f3e7f55eSRobert Mustacchi /*
693*f3e7f55eSRobert Mustacchi * Compilers disagree on what to do to determine if something has global
694*f3e7f55eSRobert Mustacchi * visiblity. Traditionally gcc has used DW_AT_external to indicate this while
695*f3e7f55eSRobert Mustacchi * Studio has used DW_AT_visibility. We check DW_AT_visibility first and then
696*f3e7f55eSRobert Mustacchi * fall back to DW_AT_external. Lack of DW_AT_external implies that it is not.
697*f3e7f55eSRobert Mustacchi */
698*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_isglobal(ctf_cu_t * cup,Dwarf_Die die,boolean_t * igp)699*f3e7f55eSRobert Mustacchi ctf_dwarf_isglobal(ctf_cu_t *cup, Dwarf_Die die, boolean_t *igp)
700*f3e7f55eSRobert Mustacchi {
701*f3e7f55eSRobert Mustacchi int ret;
702*f3e7f55eSRobert Mustacchi Dwarf_Signed vis;
703*f3e7f55eSRobert Mustacchi Dwarf_Bool ext;
704*f3e7f55eSRobert Mustacchi
705*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_signed(cup, die, DW_AT_visibility, &vis)) == 0) {
706*f3e7f55eSRobert Mustacchi *igp = vis == DW_VIS_exported;
707*f3e7f55eSRobert Mustacchi return (0);
708*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
709*f3e7f55eSRobert Mustacchi return (ret);
710*f3e7f55eSRobert Mustacchi }
711*f3e7f55eSRobert Mustacchi
712*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_boolean(cup, die, DW_AT_external, &ext)) != 0) {
713*f3e7f55eSRobert Mustacchi if (ret == ENOENT) {
714*f3e7f55eSRobert Mustacchi *igp = B_FALSE;
715*f3e7f55eSRobert Mustacchi return (0);
716*f3e7f55eSRobert Mustacchi }
717*f3e7f55eSRobert Mustacchi return (ret);
718*f3e7f55eSRobert Mustacchi }
719*f3e7f55eSRobert Mustacchi *igp = ext != 0 ? B_TRUE : B_FALSE;
720*f3e7f55eSRobert Mustacchi return (0);
721*f3e7f55eSRobert Mustacchi }
722*f3e7f55eSRobert Mustacchi
723*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_die_elfenc(Elf * elf,ctf_cu_t * cup,char * errbuf,size_t errlen)724*f3e7f55eSRobert Mustacchi ctf_dwarf_die_elfenc(Elf *elf, ctf_cu_t *cup, char *errbuf, size_t errlen)
725*f3e7f55eSRobert Mustacchi {
726*f3e7f55eSRobert Mustacchi GElf_Ehdr ehdr;
727*f3e7f55eSRobert Mustacchi
728*f3e7f55eSRobert Mustacchi if (gelf_getehdr(elf, &ehdr) == NULL) {
729*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
730*f3e7f55eSRobert Mustacchi "failed to get ELF header: %s\n",
731*f3e7f55eSRobert Mustacchi elf_errmsg(elf_errno()));
732*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
733*f3e7f55eSRobert Mustacchi }
734*f3e7f55eSRobert Mustacchi
735*f3e7f55eSRobert Mustacchi cup->cu_mach = ehdr.e_machine;
736*f3e7f55eSRobert Mustacchi
737*f3e7f55eSRobert Mustacchi if (ehdr.e_ident[EI_CLASS] == ELFCLASS32) {
738*f3e7f55eSRobert Mustacchi cup->cu_ptrsz = 4;
739*f3e7f55eSRobert Mustacchi VERIFY(ctf_setmodel(cup->cu_ctfp, CTF_MODEL_ILP32) == 0);
740*f3e7f55eSRobert Mustacchi } else if (ehdr.e_ident[EI_CLASS] == ELFCLASS64) {
741*f3e7f55eSRobert Mustacchi cup->cu_ptrsz = 8;
742*f3e7f55eSRobert Mustacchi VERIFY(ctf_setmodel(cup->cu_ctfp, CTF_MODEL_LP64) == 0);
743*f3e7f55eSRobert Mustacchi } else {
744*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
745*f3e7f55eSRobert Mustacchi "unknown ELF class %d", ehdr.e_ident[EI_CLASS]);
746*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
747*f3e7f55eSRobert Mustacchi }
748*f3e7f55eSRobert Mustacchi
749*f3e7f55eSRobert Mustacchi if (ehdr.e_ident[EI_DATA] == ELFDATA2LSB) {
750*f3e7f55eSRobert Mustacchi cup->cu_bigend = B_FALSE;
751*f3e7f55eSRobert Mustacchi } else if (ehdr.e_ident[EI_DATA] == ELFDATA2MSB) {
752*f3e7f55eSRobert Mustacchi cup->cu_bigend = B_TRUE;
753*f3e7f55eSRobert Mustacchi } else {
754*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
755*f3e7f55eSRobert Mustacchi "unknown ELF data encoding: %hhu", ehdr.e_ident[EI_DATA]);
756*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
757*f3e7f55eSRobert Mustacchi }
758*f3e7f55eSRobert Mustacchi
759*f3e7f55eSRobert Mustacchi return (0);
760*f3e7f55eSRobert Mustacchi }
761*f3e7f55eSRobert Mustacchi
762*f3e7f55eSRobert Mustacchi typedef struct ctf_dwarf_fpent {
763*f3e7f55eSRobert Mustacchi size_t cdfe_size;
764*f3e7f55eSRobert Mustacchi uint_t cdfe_enc[3];
765*f3e7f55eSRobert Mustacchi } ctf_dwarf_fpent_t;
766*f3e7f55eSRobert Mustacchi
767*f3e7f55eSRobert Mustacchi typedef struct ctf_dwarf_fpmap {
768*f3e7f55eSRobert Mustacchi uint_t cdf_mach;
769*f3e7f55eSRobert Mustacchi ctf_dwarf_fpent_t cdf_ents[4];
770*f3e7f55eSRobert Mustacchi } ctf_dwarf_fpmap_t;
771*f3e7f55eSRobert Mustacchi
772*f3e7f55eSRobert Mustacchi static const ctf_dwarf_fpmap_t ctf_dwarf_fpmaps[] = {
773*f3e7f55eSRobert Mustacchi { EM_SPARC, {
774*f3e7f55eSRobert Mustacchi { 4, { CTF_FP_SINGLE, CTF_FP_CPLX, CTF_FP_IMAGRY } },
775*f3e7f55eSRobert Mustacchi { 8, { CTF_FP_DOUBLE, CTF_FP_DCPLX, CTF_FP_DIMAGRY } },
776*f3e7f55eSRobert Mustacchi { 16, { CTF_FP_LDOUBLE, CTF_FP_LDCPLX, CTF_FP_LDIMAGRY } },
777*f3e7f55eSRobert Mustacchi { 0, { 0 } }
778*f3e7f55eSRobert Mustacchi } },
779*f3e7f55eSRobert Mustacchi { EM_SPARC32PLUS, {
780*f3e7f55eSRobert Mustacchi { 4, { CTF_FP_SINGLE, CTF_FP_CPLX, CTF_FP_IMAGRY } },
781*f3e7f55eSRobert Mustacchi { 8, { CTF_FP_DOUBLE, CTF_FP_DCPLX, CTF_FP_DIMAGRY } },
782*f3e7f55eSRobert Mustacchi { 16, { CTF_FP_LDOUBLE, CTF_FP_LDCPLX, CTF_FP_LDIMAGRY } },
783*f3e7f55eSRobert Mustacchi { 0, { 0 } }
784*f3e7f55eSRobert Mustacchi } },
785*f3e7f55eSRobert Mustacchi { EM_SPARCV9, {
786*f3e7f55eSRobert Mustacchi { 4, { CTF_FP_SINGLE, CTF_FP_CPLX, CTF_FP_IMAGRY } },
787*f3e7f55eSRobert Mustacchi { 8, { CTF_FP_DOUBLE, CTF_FP_DCPLX, CTF_FP_DIMAGRY } },
788*f3e7f55eSRobert Mustacchi { 16, { CTF_FP_LDOUBLE, CTF_FP_LDCPLX, CTF_FP_LDIMAGRY } },
789*f3e7f55eSRobert Mustacchi { 0, { 0 } }
790*f3e7f55eSRobert Mustacchi } },
791*f3e7f55eSRobert Mustacchi { EM_386, {
792*f3e7f55eSRobert Mustacchi { 4, { CTF_FP_SINGLE, CTF_FP_CPLX, CTF_FP_IMAGRY } },
793*f3e7f55eSRobert Mustacchi { 8, { CTF_FP_DOUBLE, CTF_FP_DCPLX, CTF_FP_DIMAGRY } },
794*f3e7f55eSRobert Mustacchi { 12, { CTF_FP_LDOUBLE, CTF_FP_LDCPLX, CTF_FP_LDIMAGRY } },
795*f3e7f55eSRobert Mustacchi { 0, { 0 } }
796*f3e7f55eSRobert Mustacchi } },
797*f3e7f55eSRobert Mustacchi { EM_X86_64, {
798*f3e7f55eSRobert Mustacchi { 4, { CTF_FP_SINGLE, CTF_FP_CPLX, CTF_FP_IMAGRY } },
799*f3e7f55eSRobert Mustacchi { 8, { CTF_FP_DOUBLE, CTF_FP_DCPLX, CTF_FP_DIMAGRY } },
800*f3e7f55eSRobert Mustacchi { 16, { CTF_FP_LDOUBLE, CTF_FP_LDCPLX, CTF_FP_LDIMAGRY } },
801*f3e7f55eSRobert Mustacchi { 0, { 0 } }
802*f3e7f55eSRobert Mustacchi } },
803*f3e7f55eSRobert Mustacchi { EM_NONE }
804*f3e7f55eSRobert Mustacchi };
805*f3e7f55eSRobert Mustacchi
806*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_float_base(ctf_cu_t * cup,Dwarf_Signed type,ctf_encoding_t * enc)807*f3e7f55eSRobert Mustacchi ctf_dwarf_float_base(ctf_cu_t *cup, Dwarf_Signed type, ctf_encoding_t *enc)
808*f3e7f55eSRobert Mustacchi {
809*f3e7f55eSRobert Mustacchi const ctf_dwarf_fpmap_t *map = &ctf_dwarf_fpmaps[0];
810*f3e7f55eSRobert Mustacchi const ctf_dwarf_fpent_t *ent;
811*f3e7f55eSRobert Mustacchi uint_t col = 0, mult = 1;
812*f3e7f55eSRobert Mustacchi
813*f3e7f55eSRobert Mustacchi for (map = &ctf_dwarf_fpmaps[0]; map->cdf_mach != EM_NONE; map++) {
814*f3e7f55eSRobert Mustacchi if (map->cdf_mach == cup->cu_mach)
815*f3e7f55eSRobert Mustacchi break;
816*f3e7f55eSRobert Mustacchi }
817*f3e7f55eSRobert Mustacchi
818*f3e7f55eSRobert Mustacchi if (map->cdf_mach == EM_NONE) {
819*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
820*f3e7f55eSRobert Mustacchi "Unsupported machine type: %d\n", cup->cu_mach);
821*f3e7f55eSRobert Mustacchi return (ENOTSUP);
822*f3e7f55eSRobert Mustacchi }
823*f3e7f55eSRobert Mustacchi
824*f3e7f55eSRobert Mustacchi if (type == DW_ATE_complex_float) {
825*f3e7f55eSRobert Mustacchi mult = 2;
826*f3e7f55eSRobert Mustacchi col = 1;
827*f3e7f55eSRobert Mustacchi } else if (type == DW_ATE_imaginary_float ||
828*f3e7f55eSRobert Mustacchi type == DW_ATE_SUN_imaginary_float) {
829*f3e7f55eSRobert Mustacchi col = 2;
830*f3e7f55eSRobert Mustacchi }
831*f3e7f55eSRobert Mustacchi
832*f3e7f55eSRobert Mustacchi ent = &map->cdf_ents[0];
833*f3e7f55eSRobert Mustacchi for (ent = &map->cdf_ents[0]; ent->cdfe_size != 0; ent++) {
834*f3e7f55eSRobert Mustacchi if (ent->cdfe_size * mult * 8 == enc->cte_bits) {
835*f3e7f55eSRobert Mustacchi enc->cte_format = ent->cdfe_enc[col];
836*f3e7f55eSRobert Mustacchi return (0);
837*f3e7f55eSRobert Mustacchi }
838*f3e7f55eSRobert Mustacchi }
839*f3e7f55eSRobert Mustacchi
840*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
841*f3e7f55eSRobert Mustacchi "failed to find valid fp mapping for encoding %d, size %d bits\n",
842*f3e7f55eSRobert Mustacchi type, enc->cte_bits);
843*f3e7f55eSRobert Mustacchi return (EINVAL);
844*f3e7f55eSRobert Mustacchi }
845*f3e7f55eSRobert Mustacchi
846*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_dwarf_base(ctf_cu_t * cup,Dwarf_Die die,int * kindp,ctf_encoding_t * enc)847*f3e7f55eSRobert Mustacchi ctf_dwarf_dwarf_base(ctf_cu_t *cup, Dwarf_Die die, int *kindp,
848*f3e7f55eSRobert Mustacchi ctf_encoding_t *enc)
849*f3e7f55eSRobert Mustacchi {
850*f3e7f55eSRobert Mustacchi int ret;
851*f3e7f55eSRobert Mustacchi Dwarf_Signed type;
852*f3e7f55eSRobert Mustacchi
853*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_signed(cup, die, DW_AT_encoding, &type)) != 0)
854*f3e7f55eSRobert Mustacchi return (ret);
855*f3e7f55eSRobert Mustacchi
856*f3e7f55eSRobert Mustacchi switch (type) {
857*f3e7f55eSRobert Mustacchi case DW_ATE_unsigned:
858*f3e7f55eSRobert Mustacchi case DW_ATE_address:
859*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
860*f3e7f55eSRobert Mustacchi enc->cte_format = 0;
861*f3e7f55eSRobert Mustacchi break;
862*f3e7f55eSRobert Mustacchi case DW_ATE_unsigned_char:
863*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
864*f3e7f55eSRobert Mustacchi enc->cte_format = CTF_INT_CHAR;
865*f3e7f55eSRobert Mustacchi break;
866*f3e7f55eSRobert Mustacchi case DW_ATE_signed:
867*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
868*f3e7f55eSRobert Mustacchi enc->cte_format = CTF_INT_SIGNED;
869*f3e7f55eSRobert Mustacchi break;
870*f3e7f55eSRobert Mustacchi case DW_ATE_signed_char:
871*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
872*f3e7f55eSRobert Mustacchi enc->cte_format = CTF_INT_SIGNED | CTF_INT_CHAR;
873*f3e7f55eSRobert Mustacchi break;
874*f3e7f55eSRobert Mustacchi case DW_ATE_boolean:
875*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
876*f3e7f55eSRobert Mustacchi enc->cte_format = CTF_INT_SIGNED | CTF_INT_BOOL;
877*f3e7f55eSRobert Mustacchi break;
878*f3e7f55eSRobert Mustacchi case DW_ATE_float:
879*f3e7f55eSRobert Mustacchi case DW_ATE_complex_float:
880*f3e7f55eSRobert Mustacchi case DW_ATE_imaginary_float:
881*f3e7f55eSRobert Mustacchi case DW_ATE_SUN_imaginary_float:
882*f3e7f55eSRobert Mustacchi case DW_ATE_SUN_interval_float:
883*f3e7f55eSRobert Mustacchi *kindp = CTF_K_FLOAT;
884*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_float_base(cup, type, enc)) != 0)
885*f3e7f55eSRobert Mustacchi return (ret);
886*f3e7f55eSRobert Mustacchi break;
887*f3e7f55eSRobert Mustacchi default:
888*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
889*f3e7f55eSRobert Mustacchi "encountered unkown DWARF encoding: %d", type);
890*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
891*f3e7f55eSRobert Mustacchi }
892*f3e7f55eSRobert Mustacchi
893*f3e7f55eSRobert Mustacchi return (0);
894*f3e7f55eSRobert Mustacchi }
895*f3e7f55eSRobert Mustacchi
896*f3e7f55eSRobert Mustacchi /*
897*f3e7f55eSRobert Mustacchi * Different compilers (at least GCC and Studio) use different names for types.
898*f3e7f55eSRobert Mustacchi * This parses the types and attempts to unify them. If this fails, we just fall
899*f3e7f55eSRobert Mustacchi * back to using the DWARF itself.
900*f3e7f55eSRobert Mustacchi */
901*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_parse_base(const char * name,int * kindp,ctf_encoding_t * enc,char ** newnamep)902*f3e7f55eSRobert Mustacchi ctf_dwarf_parse_base(const char *name, int *kindp, ctf_encoding_t *enc,
903*f3e7f55eSRobert Mustacchi char **newnamep)
904*f3e7f55eSRobert Mustacchi {
905*f3e7f55eSRobert Mustacchi char buf[256];
906*f3e7f55eSRobert Mustacchi char *base, *c, *last;
907*f3e7f55eSRobert Mustacchi int nlong = 0, nshort = 0, nchar = 0, nint = 0;
908*f3e7f55eSRobert Mustacchi int sign = 1;
909*f3e7f55eSRobert Mustacchi
910*f3e7f55eSRobert Mustacchi if (strlen(name) + 1 > sizeof (buf))
911*f3e7f55eSRobert Mustacchi return (EINVAL);
912*f3e7f55eSRobert Mustacchi
913*f3e7f55eSRobert Mustacchi (void) strlcpy(buf, name, sizeof (buf));
914*f3e7f55eSRobert Mustacchi for (c = strtok_r(buf, " ", &last); c != NULL;
915*f3e7f55eSRobert Mustacchi c = strtok_r(NULL, " ", &last)) {
916*f3e7f55eSRobert Mustacchi if (strcmp(c, "signed") == 0) {
917*f3e7f55eSRobert Mustacchi sign = 1;
918*f3e7f55eSRobert Mustacchi } else if (strcmp(c, "unsigned") == 0) {
919*f3e7f55eSRobert Mustacchi sign = 0;
920*f3e7f55eSRobert Mustacchi } else if (strcmp(c, "long") == 0) {
921*f3e7f55eSRobert Mustacchi nlong++;
922*f3e7f55eSRobert Mustacchi } else if (strcmp(c, "char") == 0) {
923*f3e7f55eSRobert Mustacchi nchar++;
924*f3e7f55eSRobert Mustacchi } else if (strcmp(c, "short") == 0) {
925*f3e7f55eSRobert Mustacchi nshort++;
926*f3e7f55eSRobert Mustacchi } else if (strcmp(c, "int") == 0) {
927*f3e7f55eSRobert Mustacchi nint++;
928*f3e7f55eSRobert Mustacchi } else {
929*f3e7f55eSRobert Mustacchi /*
930*f3e7f55eSRobert Mustacchi * If we don't recognize any of the tokens, we'll tell
931*f3e7f55eSRobert Mustacchi * the caller to fall back to the dwarf-provided
932*f3e7f55eSRobert Mustacchi * encoding information.
933*f3e7f55eSRobert Mustacchi */
934*f3e7f55eSRobert Mustacchi return (EINVAL);
935*f3e7f55eSRobert Mustacchi }
936*f3e7f55eSRobert Mustacchi }
937*f3e7f55eSRobert Mustacchi
938*f3e7f55eSRobert Mustacchi if (nchar > 1 || nshort > 1 || nint > 1 || nlong > 2)
939*f3e7f55eSRobert Mustacchi return (EINVAL);
940*f3e7f55eSRobert Mustacchi
941*f3e7f55eSRobert Mustacchi if (nchar > 0) {
942*f3e7f55eSRobert Mustacchi if (nlong > 0 || nshort > 0 || nint > 0)
943*f3e7f55eSRobert Mustacchi return (EINVAL);
944*f3e7f55eSRobert Mustacchi base = "char";
945*f3e7f55eSRobert Mustacchi } else if (nshort > 0) {
946*f3e7f55eSRobert Mustacchi if (nlong > 0)
947*f3e7f55eSRobert Mustacchi return (EINVAL);
948*f3e7f55eSRobert Mustacchi base = "short";
949*f3e7f55eSRobert Mustacchi } else if (nlong > 0) {
950*f3e7f55eSRobert Mustacchi base = "long";
951*f3e7f55eSRobert Mustacchi } else {
952*f3e7f55eSRobert Mustacchi base = "int";
953*f3e7f55eSRobert Mustacchi }
954*f3e7f55eSRobert Mustacchi
955*f3e7f55eSRobert Mustacchi if (nchar > 0)
956*f3e7f55eSRobert Mustacchi enc->cte_format = CTF_INT_CHAR;
957*f3e7f55eSRobert Mustacchi else
958*f3e7f55eSRobert Mustacchi enc->cte_format = 0;
959*f3e7f55eSRobert Mustacchi
960*f3e7f55eSRobert Mustacchi if (sign > 0)
961*f3e7f55eSRobert Mustacchi enc->cte_format |= CTF_INT_SIGNED;
962*f3e7f55eSRobert Mustacchi
963*f3e7f55eSRobert Mustacchi (void) snprintf(buf, sizeof (buf), "%s%s%s",
964*f3e7f55eSRobert Mustacchi (sign ? "" : "unsigned "),
965*f3e7f55eSRobert Mustacchi (nlong > 1 ? "long " : ""),
966*f3e7f55eSRobert Mustacchi base);
967*f3e7f55eSRobert Mustacchi
968*f3e7f55eSRobert Mustacchi *newnamep = ctf_strdup(buf);
969*f3e7f55eSRobert Mustacchi if (*newnamep == NULL)
970*f3e7f55eSRobert Mustacchi return (ENOMEM);
971*f3e7f55eSRobert Mustacchi *kindp = CTF_K_INTEGER;
972*f3e7f55eSRobert Mustacchi return (0);
973*f3e7f55eSRobert Mustacchi }
974*f3e7f55eSRobert Mustacchi
975*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_base(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int isroot,Dwarf_Off off)976*f3e7f55eSRobert Mustacchi ctf_dwarf_create_base(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp, int isroot,
977*f3e7f55eSRobert Mustacchi Dwarf_Off off)
978*f3e7f55eSRobert Mustacchi {
979*f3e7f55eSRobert Mustacchi int ret;
980*f3e7f55eSRobert Mustacchi char *name, *nname;
981*f3e7f55eSRobert Mustacchi Dwarf_Unsigned sz;
982*f3e7f55eSRobert Mustacchi int kind;
983*f3e7f55eSRobert Mustacchi ctf_encoding_t enc;
984*f3e7f55eSRobert Mustacchi ctf_id_t id;
985*f3e7f55eSRobert Mustacchi
986*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0)
987*f3e7f55eSRobert Mustacchi return (ret);
988*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_byte_size, &sz)) != 0) {
989*f3e7f55eSRobert Mustacchi goto out;
990*f3e7f55eSRobert Mustacchi }
991*f3e7f55eSRobert Mustacchi ctf_dprintf("Creating base type %s from off %llu, size: %d\n", name,
992*f3e7f55eSRobert Mustacchi off, sz);
993*f3e7f55eSRobert Mustacchi
994*f3e7f55eSRobert Mustacchi bzero(&enc, sizeof (ctf_encoding_t));
995*f3e7f55eSRobert Mustacchi enc.cte_bits = sz * 8;
996*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_parse_base(name, &kind, &enc, &nname)) == 0) {
997*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
998*f3e7f55eSRobert Mustacchi name = nname;
999*f3e7f55eSRobert Mustacchi } else {
1000*f3e7f55eSRobert Mustacchi if (ret != EINVAL)
1001*f3e7f55eSRobert Mustacchi return (ret);
1002*f3e7f55eSRobert Mustacchi ctf_dprintf("falling back to dwarf for base type %s\n", name);
1003*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_dwarf_base(cup, die, &kind, &enc)) != 0)
1004*f3e7f55eSRobert Mustacchi return (ret);
1005*f3e7f55eSRobert Mustacchi }
1006*f3e7f55eSRobert Mustacchi
1007*f3e7f55eSRobert Mustacchi id = ctf_add_encoded(cup->cu_ctfp, isroot, name, &enc, kind);
1008*f3e7f55eSRobert Mustacchi if (id == CTF_ERR) {
1009*f3e7f55eSRobert Mustacchi ret = ctf_errno(cup->cu_ctfp);
1010*f3e7f55eSRobert Mustacchi } else {
1011*f3e7f55eSRobert Mustacchi *idp = id;
1012*f3e7f55eSRobert Mustacchi ret = ctf_dwmap_add(cup, id, die, B_FALSE);
1013*f3e7f55eSRobert Mustacchi }
1014*f3e7f55eSRobert Mustacchi out:
1015*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1016*f3e7f55eSRobert Mustacchi return (ret);
1017*f3e7f55eSRobert Mustacchi }
1018*f3e7f55eSRobert Mustacchi
1019*f3e7f55eSRobert Mustacchi /*
1020*f3e7f55eSRobert Mustacchi * Getting a member's offset is a surprisingly intricate dance. It works as
1021*f3e7f55eSRobert Mustacchi * follows:
1022*f3e7f55eSRobert Mustacchi *
1023*f3e7f55eSRobert Mustacchi * 1) If we're in DWARFv4, then we either have a DW_AT_data_bit_offset or we
1024*f3e7f55eSRobert Mustacchi * have a DW_AT_data_member_location. We won't have both. Thus we check first
1025*f3e7f55eSRobert Mustacchi * for DW_AT_data_bit_offset, and if it exists, we're set.
1026*f3e7f55eSRobert Mustacchi *
1027*f3e7f55eSRobert Mustacchi * Next, if we have a bitfield and we don't have a DW_AT_data_bit_offset, then
1028*f3e7f55eSRobert Mustacchi * we have to grab the data location and use the following dance:
1029*f3e7f55eSRobert Mustacchi *
1030*f3e7f55eSRobert Mustacchi * 2) Gather the set of DW_AT_byte_size, DW_AT_bit_offset, and DW_AT_bit_size.
1031*f3e7f55eSRobert Mustacchi * Of course, the DW_AT_byte_size may be omitted, even though it isn't always.
1032*f3e7f55eSRobert Mustacchi * When it's been omitted, we then have to say that the size is that of the
1033*f3e7f55eSRobert Mustacchi * underlying type, which forces that to be after a ctf_update(). Here, we have
1034*f3e7f55eSRobert Mustacchi * to do different things based on whether or not we're using big endian or
1035*f3e7f55eSRobert Mustacchi * little endian to obtain the proper offset.
1036*f3e7f55eSRobert Mustacchi */
1037*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_member_offset(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t mid,ulong_t * offp)1038*f3e7f55eSRobert Mustacchi ctf_dwarf_member_offset(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t mid,
1039*f3e7f55eSRobert Mustacchi ulong_t *offp)
1040*f3e7f55eSRobert Mustacchi {
1041*f3e7f55eSRobert Mustacchi int ret;
1042*f3e7f55eSRobert Mustacchi Dwarf_Unsigned loc, bitsz, bytesz;
1043*f3e7f55eSRobert Mustacchi Dwarf_Signed bitoff;
1044*f3e7f55eSRobert Mustacchi size_t off;
1045*f3e7f55eSRobert Mustacchi ssize_t tsz;
1046*f3e7f55eSRobert Mustacchi
1047*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_data_bit_offset,
1048*f3e7f55eSRobert Mustacchi &loc)) == 0) {
1049*f3e7f55eSRobert Mustacchi *offp = loc;
1050*f3e7f55eSRobert Mustacchi return (0);
1051*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
1052*f3e7f55eSRobert Mustacchi return (ret);
1053*f3e7f55eSRobert Mustacchi }
1054*f3e7f55eSRobert Mustacchi
1055*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_member_location(cup, die, &loc)) != 0)
1056*f3e7f55eSRobert Mustacchi return (ret);
1057*f3e7f55eSRobert Mustacchi off = loc * 8;
1058*f3e7f55eSRobert Mustacchi
1059*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_signed(cup, die, DW_AT_bit_offset,
1060*f3e7f55eSRobert Mustacchi &bitoff)) != 0) {
1061*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1062*f3e7f55eSRobert Mustacchi return (ret);
1063*f3e7f55eSRobert Mustacchi *offp = off;
1064*f3e7f55eSRobert Mustacchi return (0);
1065*f3e7f55eSRobert Mustacchi }
1066*f3e7f55eSRobert Mustacchi
1067*f3e7f55eSRobert Mustacchi /* At this point we have to have DW_AT_bit_size */
1068*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_bit_size, &bitsz)) != 0)
1069*f3e7f55eSRobert Mustacchi return (ret);
1070*f3e7f55eSRobert Mustacchi
1071*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_byte_size,
1072*f3e7f55eSRobert Mustacchi &bytesz)) != 0) {
1073*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1074*f3e7f55eSRobert Mustacchi return (ret);
1075*f3e7f55eSRobert Mustacchi if ((tsz = ctf_type_size(cup->cu_ctfp, mid)) == CTF_ERR) {
1076*f3e7f55eSRobert Mustacchi int e = ctf_errno(cup->cu_ctfp);
1077*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1078*f3e7f55eSRobert Mustacchi "failed to get type size: %s", ctf_errmsg(e));
1079*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1080*f3e7f55eSRobert Mustacchi }
1081*f3e7f55eSRobert Mustacchi } else {
1082*f3e7f55eSRobert Mustacchi tsz = bytesz;
1083*f3e7f55eSRobert Mustacchi }
1084*f3e7f55eSRobert Mustacchi tsz *= 8;
1085*f3e7f55eSRobert Mustacchi if (cup->cu_bigend == B_TRUE) {
1086*f3e7f55eSRobert Mustacchi *offp = off + bitoff;
1087*f3e7f55eSRobert Mustacchi } else {
1088*f3e7f55eSRobert Mustacchi *offp = off + tsz - bitoff - bitsz;
1089*f3e7f55eSRobert Mustacchi }
1090*f3e7f55eSRobert Mustacchi
1091*f3e7f55eSRobert Mustacchi return (0);
1092*f3e7f55eSRobert Mustacchi }
1093*f3e7f55eSRobert Mustacchi
1094*f3e7f55eSRobert Mustacchi /*
1095*f3e7f55eSRobert Mustacchi * We need to determine if the member in question is a bitfield. If it is, then
1096*f3e7f55eSRobert Mustacchi * we need to go through and create a new type that's based on the actual base
1097*f3e7f55eSRobert Mustacchi * type, but has a different size. We also rename the type as a result to help
1098*f3e7f55eSRobert Mustacchi * deal with future collisions.
1099*f3e7f55eSRobert Mustacchi *
1100*f3e7f55eSRobert Mustacchi * Here we need to look and see if we have a DW_AT_bit_size value. If we have a
1101*f3e7f55eSRobert Mustacchi * bit size member and it does not equal the byte size member, then we need to
1102*f3e7f55eSRobert Mustacchi * create a bitfield type based on this.
1103*f3e7f55eSRobert Mustacchi *
1104*f3e7f55eSRobert Mustacchi * Note: When we support DWARFv4, there may be a chance that we need to also
1105*f3e7f55eSRobert Mustacchi * search for the DW_AT_byte_size if we don't have a DW_AT_bit_size member.
1106*f3e7f55eSRobert Mustacchi */
1107*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_member_bitfield(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp)1108*f3e7f55eSRobert Mustacchi ctf_dwarf_member_bitfield(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp)
1109*f3e7f55eSRobert Mustacchi {
1110*f3e7f55eSRobert Mustacchi int ret;
1111*f3e7f55eSRobert Mustacchi Dwarf_Unsigned bitsz;
1112*f3e7f55eSRobert Mustacchi ctf_encoding_t e;
1113*f3e7f55eSRobert Mustacchi ctf_dwbitf_t *cdb;
1114*f3e7f55eSRobert Mustacchi ctf_dtdef_t *dtd;
1115*f3e7f55eSRobert Mustacchi ctf_id_t base = *idp;
1116*f3e7f55eSRobert Mustacchi int kind;
1117*f3e7f55eSRobert Mustacchi
1118*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_bit_size, &bitsz)) != 0) {
1119*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1120*f3e7f55eSRobert Mustacchi return (0);
1121*f3e7f55eSRobert Mustacchi return (ret);
1122*f3e7f55eSRobert Mustacchi }
1123*f3e7f55eSRobert Mustacchi
1124*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to deal with bitfields on %d:%d\n", base, bitsz);
1125*f3e7f55eSRobert Mustacchi /*
1126*f3e7f55eSRobert Mustacchi * Given that we now have a bitsize, time to go do something about it.
1127*f3e7f55eSRobert Mustacchi * We're going to create a new type based on the current one, but first
1128*f3e7f55eSRobert Mustacchi * we need to find the base type. This means we need to traverse any
1129*f3e7f55eSRobert Mustacchi * typedef's, consts, and volatiles until we get to what should be
1130*f3e7f55eSRobert Mustacchi * something of type integer or enumeration.
1131*f3e7f55eSRobert Mustacchi */
1132*f3e7f55eSRobert Mustacchi VERIFY(bitsz < UINT32_MAX);
1133*f3e7f55eSRobert Mustacchi dtd = ctf_dtd_lookup(cup->cu_ctfp, base);
1134*f3e7f55eSRobert Mustacchi VERIFY(dtd != NULL);
1135*f3e7f55eSRobert Mustacchi kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1136*f3e7f55eSRobert Mustacchi while (kind == CTF_K_TYPEDEF || kind == CTF_K_CONST ||
1137*f3e7f55eSRobert Mustacchi kind == CTF_K_VOLATILE) {
1138*f3e7f55eSRobert Mustacchi dtd = ctf_dtd_lookup(cup->cu_ctfp, dtd->dtd_data.ctt_type);
1139*f3e7f55eSRobert Mustacchi VERIFY(dtd != NULL);
1140*f3e7f55eSRobert Mustacchi kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1141*f3e7f55eSRobert Mustacchi }
1142*f3e7f55eSRobert Mustacchi ctf_dprintf("got kind %d\n", kind);
1143*f3e7f55eSRobert Mustacchi VERIFY(kind == CTF_K_INTEGER || kind == CTF_K_ENUM);
1144*f3e7f55eSRobert Mustacchi
1145*f3e7f55eSRobert Mustacchi /*
1146*f3e7f55eSRobert Mustacchi * As surprising as it may be, it is strictly possible to create a
1147*f3e7f55eSRobert Mustacchi * bitfield that is based on an enum. Of course, the C standard leaves
1148*f3e7f55eSRobert Mustacchi * enums sizing as an ABI concern more or less. To that effect, today on
1149*f3e7f55eSRobert Mustacchi * all illumos platforms the size of an enum is generally that of an
1150*f3e7f55eSRobert Mustacchi * int as our supported data models and ABIs all agree on that. So what
1151*f3e7f55eSRobert Mustacchi * we'll do is fake up a CTF encoding here to use. In this case, we'll
1152*f3e7f55eSRobert Mustacchi * treat it as an unsigned value of whatever size the underlying enum
1153*f3e7f55eSRobert Mustacchi * currently has (which is in the ctt_size member of its dynamic type
1154*f3e7f55eSRobert Mustacchi * data).
1155*f3e7f55eSRobert Mustacchi */
1156*f3e7f55eSRobert Mustacchi if (kind == CTF_K_INTEGER) {
1157*f3e7f55eSRobert Mustacchi e = dtd->dtd_u.dtu_enc;
1158*f3e7f55eSRobert Mustacchi } else {
1159*f3e7f55eSRobert Mustacchi bzero(&e, sizeof (ctf_encoding_t));
1160*f3e7f55eSRobert Mustacchi e.cte_bits = dtd->dtd_data.ctt_size * NBBY;
1161*f3e7f55eSRobert Mustacchi }
1162*f3e7f55eSRobert Mustacchi
1163*f3e7f55eSRobert Mustacchi for (cdb = ctf_list_next(&cup->cu_bitfields); cdb != NULL;
1164*f3e7f55eSRobert Mustacchi cdb = ctf_list_next(cdb)) {
1165*f3e7f55eSRobert Mustacchi if (cdb->cdb_base == base && cdb->cdb_nbits == bitsz)
1166*f3e7f55eSRobert Mustacchi break;
1167*f3e7f55eSRobert Mustacchi }
1168*f3e7f55eSRobert Mustacchi
1169*f3e7f55eSRobert Mustacchi /*
1170*f3e7f55eSRobert Mustacchi * Create a new type if none exists. We name all types in a way that is
1171*f3e7f55eSRobert Mustacchi * guaranteed not to conflict with the corresponding C type. We do this
1172*f3e7f55eSRobert Mustacchi * by using the ':' operator.
1173*f3e7f55eSRobert Mustacchi */
1174*f3e7f55eSRobert Mustacchi if (cdb == NULL) {
1175*f3e7f55eSRobert Mustacchi size_t namesz;
1176*f3e7f55eSRobert Mustacchi char *name;
1177*f3e7f55eSRobert Mustacchi
1178*f3e7f55eSRobert Mustacchi e.cte_bits = bitsz;
1179*f3e7f55eSRobert Mustacchi namesz = snprintf(NULL, 0, "%s:%d", dtd->dtd_name,
1180*f3e7f55eSRobert Mustacchi (uint32_t)bitsz);
1181*f3e7f55eSRobert Mustacchi name = ctf_alloc(namesz + 1);
1182*f3e7f55eSRobert Mustacchi if (name == NULL)
1183*f3e7f55eSRobert Mustacchi return (ENOMEM);
1184*f3e7f55eSRobert Mustacchi cdb = ctf_alloc(sizeof (ctf_dwbitf_t));
1185*f3e7f55eSRobert Mustacchi if (cdb == NULL) {
1186*f3e7f55eSRobert Mustacchi ctf_free(name, namesz + 1);
1187*f3e7f55eSRobert Mustacchi return (ENOMEM);
1188*f3e7f55eSRobert Mustacchi }
1189*f3e7f55eSRobert Mustacchi (void) snprintf(name, namesz + 1, "%s:%d", dtd->dtd_name,
1190*f3e7f55eSRobert Mustacchi (uint32_t)bitsz);
1191*f3e7f55eSRobert Mustacchi
1192*f3e7f55eSRobert Mustacchi cdb->cdb_base = base;
1193*f3e7f55eSRobert Mustacchi cdb->cdb_nbits = bitsz;
1194*f3e7f55eSRobert Mustacchi cdb->cdb_id = ctf_add_integer(cup->cu_ctfp, CTF_ADD_NONROOT,
1195*f3e7f55eSRobert Mustacchi name, &e);
1196*f3e7f55eSRobert Mustacchi if (cdb->cdb_id == CTF_ERR) {
1197*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1198*f3e7f55eSRobert Mustacchi "failed to get add bitfield type %s: %s", name,
1199*f3e7f55eSRobert Mustacchi ctf_errmsg(ctf_errno(cup->cu_ctfp)));
1200*f3e7f55eSRobert Mustacchi ctf_free(name, namesz + 1);
1201*f3e7f55eSRobert Mustacchi ctf_free(cdb, sizeof (ctf_dwbitf_t));
1202*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1203*f3e7f55eSRobert Mustacchi }
1204*f3e7f55eSRobert Mustacchi ctf_free(name, namesz + 1);
1205*f3e7f55eSRobert Mustacchi ctf_list_append(&cup->cu_bitfields, cdb);
1206*f3e7f55eSRobert Mustacchi }
1207*f3e7f55eSRobert Mustacchi
1208*f3e7f55eSRobert Mustacchi *idp = cdb->cdb_id;
1209*f3e7f55eSRobert Mustacchi
1210*f3e7f55eSRobert Mustacchi return (0);
1211*f3e7f55eSRobert Mustacchi }
1212*f3e7f55eSRobert Mustacchi
1213*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_fixup_sou(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t base,boolean_t add)1214*f3e7f55eSRobert Mustacchi ctf_dwarf_fixup_sou(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t base, boolean_t add)
1215*f3e7f55eSRobert Mustacchi {
1216*f3e7f55eSRobert Mustacchi int ret, kind;
1217*f3e7f55eSRobert Mustacchi Dwarf_Die child, memb;
1218*f3e7f55eSRobert Mustacchi Dwarf_Unsigned size;
1219*f3e7f55eSRobert Mustacchi ulong_t nsz;
1220*f3e7f55eSRobert Mustacchi
1221*f3e7f55eSRobert Mustacchi kind = ctf_type_kind(cup->cu_ctfp, base);
1222*f3e7f55eSRobert Mustacchi VERIFY(kind != CTF_ERR);
1223*f3e7f55eSRobert Mustacchi VERIFY(kind == CTF_K_STRUCT || kind == CTF_K_UNION);
1224*f3e7f55eSRobert Mustacchi
1225*f3e7f55eSRobert Mustacchi /*
1226*f3e7f55eSRobert Mustacchi * Members are in children. However, gcc also allows empty ones.
1227*f3e7f55eSRobert Mustacchi */
1228*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0)
1229*f3e7f55eSRobert Mustacchi return (ret);
1230*f3e7f55eSRobert Mustacchi if (child == NULL)
1231*f3e7f55eSRobert Mustacchi return (0);
1232*f3e7f55eSRobert Mustacchi
1233*f3e7f55eSRobert Mustacchi memb = child;
1234*f3e7f55eSRobert Mustacchi while (memb != NULL) {
1235*f3e7f55eSRobert Mustacchi Dwarf_Die sib, tdie;
1236*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
1237*f3e7f55eSRobert Mustacchi ctf_id_t mid;
1238*f3e7f55eSRobert Mustacchi char *mname;
1239*f3e7f55eSRobert Mustacchi ulong_t memboff = 0;
1240*f3e7f55eSRobert Mustacchi
1241*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, memb, &tag)) != 0)
1242*f3e7f55eSRobert Mustacchi return (ret);
1243*f3e7f55eSRobert Mustacchi
1244*f3e7f55eSRobert Mustacchi if (tag != DW_TAG_member)
1245*f3e7f55eSRobert Mustacchi continue;
1246*f3e7f55eSRobert Mustacchi
1247*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, memb, DW_AT_type, &tdie)) != 0)
1248*f3e7f55eSRobert Mustacchi return (ret);
1249*f3e7f55eSRobert Mustacchi
1250*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie, &mid,
1251*f3e7f55eSRobert Mustacchi CTF_ADD_NONROOT)) != 0)
1252*f3e7f55eSRobert Mustacchi return (ret);
1253*f3e7f55eSRobert Mustacchi ctf_dprintf("Got back type id: %d\n", mid);
1254*f3e7f55eSRobert Mustacchi
1255*f3e7f55eSRobert Mustacchi /*
1256*f3e7f55eSRobert Mustacchi * If we're not adding a member, just go ahead and return.
1257*f3e7f55eSRobert Mustacchi */
1258*f3e7f55eSRobert Mustacchi if (add == B_FALSE) {
1259*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_member_bitfield(cup, memb,
1260*f3e7f55eSRobert Mustacchi &mid)) != 0)
1261*f3e7f55eSRobert Mustacchi return (ret);
1262*f3e7f55eSRobert Mustacchi goto next;
1263*f3e7f55eSRobert Mustacchi }
1264*f3e7f55eSRobert Mustacchi
1265*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, memb, DW_AT_name,
1266*f3e7f55eSRobert Mustacchi &mname)) != 0 && ret != ENOENT)
1267*f3e7f55eSRobert Mustacchi return (ret);
1268*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1269*f3e7f55eSRobert Mustacchi mname = NULL;
1270*f3e7f55eSRobert Mustacchi
1271*f3e7f55eSRobert Mustacchi if (kind == CTF_K_UNION) {
1272*f3e7f55eSRobert Mustacchi memboff = 0;
1273*f3e7f55eSRobert Mustacchi } else if ((ret = ctf_dwarf_member_offset(cup, memb, mid,
1274*f3e7f55eSRobert Mustacchi &memboff)) != 0) {
1275*f3e7f55eSRobert Mustacchi if (mname != NULL)
1276*f3e7f55eSRobert Mustacchi ctf_free(mname, strlen(mname) + 1);
1277*f3e7f55eSRobert Mustacchi return (ret);
1278*f3e7f55eSRobert Mustacchi }
1279*f3e7f55eSRobert Mustacchi
1280*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_member_bitfield(cup, memb, &mid)) != 0)
1281*f3e7f55eSRobert Mustacchi return (ret);
1282*f3e7f55eSRobert Mustacchi
1283*f3e7f55eSRobert Mustacchi ret = ctf_add_member(cup->cu_ctfp, base, mname, mid, memboff);
1284*f3e7f55eSRobert Mustacchi if (ret == CTF_ERR) {
1285*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1286*f3e7f55eSRobert Mustacchi "failed to add member %s: %s",
1287*f3e7f55eSRobert Mustacchi mname, ctf_errmsg(ctf_errno(cup->cu_ctfp)));
1288*f3e7f55eSRobert Mustacchi if (mname != NULL)
1289*f3e7f55eSRobert Mustacchi ctf_free(mname, strlen(mname) + 1);
1290*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1291*f3e7f55eSRobert Mustacchi }
1292*f3e7f55eSRobert Mustacchi
1293*f3e7f55eSRobert Mustacchi if (mname != NULL)
1294*f3e7f55eSRobert Mustacchi ctf_free(mname, strlen(mname) + 1);
1295*f3e7f55eSRobert Mustacchi
1296*f3e7f55eSRobert Mustacchi next:
1297*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, memb, &sib)) != 0)
1298*f3e7f55eSRobert Mustacchi return (ret);
1299*f3e7f55eSRobert Mustacchi memb = sib;
1300*f3e7f55eSRobert Mustacchi }
1301*f3e7f55eSRobert Mustacchi
1302*f3e7f55eSRobert Mustacchi /*
1303*f3e7f55eSRobert Mustacchi * If we're not adding members, then we don't know the final size of the
1304*f3e7f55eSRobert Mustacchi * structure, so end here.
1305*f3e7f55eSRobert Mustacchi */
1306*f3e7f55eSRobert Mustacchi if (add == B_FALSE)
1307*f3e7f55eSRobert Mustacchi return (0);
1308*f3e7f55eSRobert Mustacchi
1309*f3e7f55eSRobert Mustacchi /* Finally set the size of the structure to the actual byte size */
1310*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, die, DW_AT_byte_size, &size)) != 0)
1311*f3e7f55eSRobert Mustacchi return (ret);
1312*f3e7f55eSRobert Mustacchi nsz = size;
1313*f3e7f55eSRobert Mustacchi if ((ctf_set_size(cup->cu_ctfp, base, nsz)) == CTF_ERR) {
1314*f3e7f55eSRobert Mustacchi int e = ctf_errno(cup->cu_ctfp);
1315*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1316*f3e7f55eSRobert Mustacchi "failed to set type size for %d to 0x%x: %s", base,
1317*f3e7f55eSRobert Mustacchi (uint32_t)size, ctf_errmsg(e));
1318*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1319*f3e7f55eSRobert Mustacchi }
1320*f3e7f55eSRobert Mustacchi
1321*f3e7f55eSRobert Mustacchi return (0);
1322*f3e7f55eSRobert Mustacchi }
1323*f3e7f55eSRobert Mustacchi
1324*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_sou(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int kind,int isroot)1325*f3e7f55eSRobert Mustacchi ctf_dwarf_create_sou(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp,
1326*f3e7f55eSRobert Mustacchi int kind, int isroot)
1327*f3e7f55eSRobert Mustacchi {
1328*f3e7f55eSRobert Mustacchi int ret;
1329*f3e7f55eSRobert Mustacchi char *name;
1330*f3e7f55eSRobert Mustacchi ctf_id_t base;
1331*f3e7f55eSRobert Mustacchi Dwarf_Die child;
1332*f3e7f55eSRobert Mustacchi Dwarf_Bool decl;
1333*f3e7f55eSRobert Mustacchi
1334*f3e7f55eSRobert Mustacchi /*
1335*f3e7f55eSRobert Mustacchi * Deal with the terribly annoying case of anonymous structs and unions.
1336*f3e7f55eSRobert Mustacchi * If they don't have a name, set the name to the empty string.
1337*f3e7f55eSRobert Mustacchi */
1338*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0 &&
1339*f3e7f55eSRobert Mustacchi ret != ENOENT)
1340*f3e7f55eSRobert Mustacchi return (ret);
1341*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1342*f3e7f55eSRobert Mustacchi name = NULL;
1343*f3e7f55eSRobert Mustacchi
1344*f3e7f55eSRobert Mustacchi /*
1345*f3e7f55eSRobert Mustacchi * We need to check if we just have a declaration here. If we do, then
1346*f3e7f55eSRobert Mustacchi * instead of creating an actual structure or union, we're just going to
1347*f3e7f55eSRobert Mustacchi * go ahead and create a forward. During a dedup or merge, the forward
1348*f3e7f55eSRobert Mustacchi * will be replaced with the real thing.
1349*f3e7f55eSRobert Mustacchi */
1350*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_boolean(cup, die, DW_AT_declaration,
1351*f3e7f55eSRobert Mustacchi &decl)) != 0) {
1352*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1353*f3e7f55eSRobert Mustacchi return (ret);
1354*f3e7f55eSRobert Mustacchi decl = 0;
1355*f3e7f55eSRobert Mustacchi }
1356*f3e7f55eSRobert Mustacchi
1357*f3e7f55eSRobert Mustacchi if (decl != 0) {
1358*f3e7f55eSRobert Mustacchi base = ctf_add_forward(cup->cu_ctfp, isroot, name, kind);
1359*f3e7f55eSRobert Mustacchi } else if (kind == CTF_K_STRUCT) {
1360*f3e7f55eSRobert Mustacchi base = ctf_add_struct(cup->cu_ctfp, isroot, name);
1361*f3e7f55eSRobert Mustacchi } else {
1362*f3e7f55eSRobert Mustacchi base = ctf_add_union(cup->cu_ctfp, isroot, name);
1363*f3e7f55eSRobert Mustacchi }
1364*f3e7f55eSRobert Mustacchi ctf_dprintf("added sou %s (%d) (%d)\n", name, kind, base);
1365*f3e7f55eSRobert Mustacchi if (name != NULL)
1366*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1367*f3e7f55eSRobert Mustacchi if (base == CTF_ERR)
1368*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1369*f3e7f55eSRobert Mustacchi *idp = base;
1370*f3e7f55eSRobert Mustacchi
1371*f3e7f55eSRobert Mustacchi /*
1372*f3e7f55eSRobert Mustacchi * If it's just a declaration, we're not going to mark it for fix up or
1373*f3e7f55eSRobert Mustacchi * do anything else.
1374*f3e7f55eSRobert Mustacchi */
1375*f3e7f55eSRobert Mustacchi if (decl == B_TRUE)
1376*f3e7f55eSRobert Mustacchi return (ctf_dwmap_add(cup, base, die, B_FALSE));
1377*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwmap_add(cup, base, die, B_TRUE)) != 0)
1378*f3e7f55eSRobert Mustacchi return (ret);
1379*f3e7f55eSRobert Mustacchi
1380*f3e7f55eSRobert Mustacchi /*
1381*f3e7f55eSRobert Mustacchi * Members are in children. However, gcc also allows empty ones.
1382*f3e7f55eSRobert Mustacchi */
1383*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0)
1384*f3e7f55eSRobert Mustacchi return (ret);
1385*f3e7f55eSRobert Mustacchi if (child == NULL)
1386*f3e7f55eSRobert Mustacchi return (0);
1387*f3e7f55eSRobert Mustacchi
1388*f3e7f55eSRobert Mustacchi return (0);
1389*f3e7f55eSRobert Mustacchi }
1390*f3e7f55eSRobert Mustacchi
1391*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_array_range(ctf_cu_t * cup,Dwarf_Die range,ctf_id_t * idp,ctf_id_t base,int isroot)1392*f3e7f55eSRobert Mustacchi ctf_dwarf_create_array_range(ctf_cu_t *cup, Dwarf_Die range, ctf_id_t *idp,
1393*f3e7f55eSRobert Mustacchi ctf_id_t base, int isroot)
1394*f3e7f55eSRobert Mustacchi {
1395*f3e7f55eSRobert Mustacchi int ret;
1396*f3e7f55eSRobert Mustacchi Dwarf_Die sib;
1397*f3e7f55eSRobert Mustacchi Dwarf_Unsigned val;
1398*f3e7f55eSRobert Mustacchi Dwarf_Signed sval;
1399*f3e7f55eSRobert Mustacchi ctf_arinfo_t ar;
1400*f3e7f55eSRobert Mustacchi
1401*f3e7f55eSRobert Mustacchi ctf_dprintf("creating array range\n");
1402*f3e7f55eSRobert Mustacchi
1403*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, range, &sib)) != 0)
1404*f3e7f55eSRobert Mustacchi return (ret);
1405*f3e7f55eSRobert Mustacchi if (sib != NULL) {
1406*f3e7f55eSRobert Mustacchi ctf_id_t id;
1407*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_create_array_range(cup, sib, &id,
1408*f3e7f55eSRobert Mustacchi base, CTF_ADD_NONROOT)) != 0)
1409*f3e7f55eSRobert Mustacchi return (ret);
1410*f3e7f55eSRobert Mustacchi ar.ctr_contents = id;
1411*f3e7f55eSRobert Mustacchi } else {
1412*f3e7f55eSRobert Mustacchi ar.ctr_contents = base;
1413*f3e7f55eSRobert Mustacchi }
1414*f3e7f55eSRobert Mustacchi
1415*f3e7f55eSRobert Mustacchi if ((ar.ctr_index = ctf_dwarf_long(cup)) == CTF_ERR)
1416*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1417*f3e7f55eSRobert Mustacchi
1418*f3e7f55eSRobert Mustacchi /*
1419*f3e7f55eSRobert Mustacchi * Array bounds can be signed or unsigned, but there are several kinds
1420*f3e7f55eSRobert Mustacchi * of signless forms (data1, data2, etc) that take their sign from the
1421*f3e7f55eSRobert Mustacchi * routine that is trying to interpret them. That is, data1 can be
1422*f3e7f55eSRobert Mustacchi * either signed or unsigned, depending on whether you use the signed or
1423*f3e7f55eSRobert Mustacchi * unsigned accessor function. GCC will use the signless forms to store
1424*f3e7f55eSRobert Mustacchi * unsigned values which have their high bit set, so we need to try to
1425*f3e7f55eSRobert Mustacchi * read them first as unsigned to get positive values. We could also
1426*f3e7f55eSRobert Mustacchi * try signed first, falling back to unsigned if we got a negative
1427*f3e7f55eSRobert Mustacchi * value.
1428*f3e7f55eSRobert Mustacchi */
1429*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, range, DW_AT_upper_bound,
1430*f3e7f55eSRobert Mustacchi &val)) == 0) {
1431*f3e7f55eSRobert Mustacchi ar.ctr_nelems = val + 1;
1432*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
1433*f3e7f55eSRobert Mustacchi return (ret);
1434*f3e7f55eSRobert Mustacchi } else if ((ret = ctf_dwarf_signed(cup, range, DW_AT_upper_bound,
1435*f3e7f55eSRobert Mustacchi &sval)) == 0) {
1436*f3e7f55eSRobert Mustacchi ar.ctr_nelems = sval + 1;
1437*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
1438*f3e7f55eSRobert Mustacchi return (ret);
1439*f3e7f55eSRobert Mustacchi } else {
1440*f3e7f55eSRobert Mustacchi ar.ctr_nelems = 0;
1441*f3e7f55eSRobert Mustacchi }
1442*f3e7f55eSRobert Mustacchi
1443*f3e7f55eSRobert Mustacchi if ((*idp = ctf_add_array(cup->cu_ctfp, isroot, &ar)) == CTF_ERR)
1444*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1445*f3e7f55eSRobert Mustacchi
1446*f3e7f55eSRobert Mustacchi return (0);
1447*f3e7f55eSRobert Mustacchi }
1448*f3e7f55eSRobert Mustacchi
1449*f3e7f55eSRobert Mustacchi /*
1450*f3e7f55eSRobert Mustacchi * Try and create an array type. First, the kind of the array is specified in
1451*f3e7f55eSRobert Mustacchi * the DW_AT_type entry. Next, the number of entries is stored in a more
1452*f3e7f55eSRobert Mustacchi * complicated form, we should have a child that has the DW_TAG_subrange type.
1453*f3e7f55eSRobert Mustacchi */
1454*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_array(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int isroot)1455*f3e7f55eSRobert Mustacchi ctf_dwarf_create_array(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp, int isroot)
1456*f3e7f55eSRobert Mustacchi {
1457*f3e7f55eSRobert Mustacchi int ret;
1458*f3e7f55eSRobert Mustacchi Dwarf_Die tdie, rdie;
1459*f3e7f55eSRobert Mustacchi ctf_id_t tid;
1460*f3e7f55eSRobert Mustacchi Dwarf_Half rtag;
1461*f3e7f55eSRobert Mustacchi
1462*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_type, &tdie)) != 0)
1463*f3e7f55eSRobert Mustacchi return (ret);
1464*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie, &tid,
1465*f3e7f55eSRobert Mustacchi CTF_ADD_NONROOT)) != 0)
1466*f3e7f55eSRobert Mustacchi return (ret);
1467*f3e7f55eSRobert Mustacchi
1468*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &rdie)) != 0)
1469*f3e7f55eSRobert Mustacchi return (ret);
1470*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, rdie, &rtag)) != 0)
1471*f3e7f55eSRobert Mustacchi return (ret);
1472*f3e7f55eSRobert Mustacchi if (rtag != DW_TAG_subrange_type) {
1473*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1474*f3e7f55eSRobert Mustacchi "encountered array without DW_TAG_subrange_type child\n");
1475*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1476*f3e7f55eSRobert Mustacchi }
1477*f3e7f55eSRobert Mustacchi
1478*f3e7f55eSRobert Mustacchi /*
1479*f3e7f55eSRobert Mustacchi * The compiler may opt to describe a multi-dimensional array as one
1480*f3e7f55eSRobert Mustacchi * giant array or it may opt to instead encode it as a series of
1481*f3e7f55eSRobert Mustacchi * subranges. If it's the latter, then for each subrange we introduce a
1482*f3e7f55eSRobert Mustacchi * type. We can always use the base type.
1483*f3e7f55eSRobert Mustacchi */
1484*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_create_array_range(cup, rdie, idp, tid,
1485*f3e7f55eSRobert Mustacchi isroot)) != 0)
1486*f3e7f55eSRobert Mustacchi return (ret);
1487*f3e7f55eSRobert Mustacchi ctf_dprintf("Got back id %d\n", *idp);
1488*f3e7f55eSRobert Mustacchi return (ctf_dwmap_add(cup, *idp, die, B_FALSE));
1489*f3e7f55eSRobert Mustacchi }
1490*f3e7f55eSRobert Mustacchi
1491*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_reference(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int kind,int isroot)1492*f3e7f55eSRobert Mustacchi ctf_dwarf_create_reference(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp,
1493*f3e7f55eSRobert Mustacchi int kind, int isroot)
1494*f3e7f55eSRobert Mustacchi {
1495*f3e7f55eSRobert Mustacchi int ret;
1496*f3e7f55eSRobert Mustacchi ctf_id_t id;
1497*f3e7f55eSRobert Mustacchi Dwarf_Die tdie;
1498*f3e7f55eSRobert Mustacchi char *name;
1499*f3e7f55eSRobert Mustacchi size_t namelen;
1500*f3e7f55eSRobert Mustacchi
1501*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0 &&
1502*f3e7f55eSRobert Mustacchi ret != ENOENT)
1503*f3e7f55eSRobert Mustacchi return (ret);
1504*f3e7f55eSRobert Mustacchi if (ret == ENOENT) {
1505*f3e7f55eSRobert Mustacchi name = NULL;
1506*f3e7f55eSRobert Mustacchi namelen = 0;
1507*f3e7f55eSRobert Mustacchi } else {
1508*f3e7f55eSRobert Mustacchi namelen = strlen(name);
1509*f3e7f55eSRobert Mustacchi }
1510*f3e7f55eSRobert Mustacchi
1511*f3e7f55eSRobert Mustacchi ctf_dprintf("reference kind %d %s\n", kind, name != NULL ? name : "<>");
1512*f3e7f55eSRobert Mustacchi
1513*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_type, &tdie)) != 0) {
1514*f3e7f55eSRobert Mustacchi if (ret != ENOENT) {
1515*f3e7f55eSRobert Mustacchi ctf_free(name, namelen);
1516*f3e7f55eSRobert Mustacchi return (ret);
1517*f3e7f55eSRobert Mustacchi }
1518*f3e7f55eSRobert Mustacchi if ((id = ctf_dwarf_void(cup)) == CTF_ERR) {
1519*f3e7f55eSRobert Mustacchi ctf_free(name, namelen);
1520*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1521*f3e7f55eSRobert Mustacchi }
1522*f3e7f55eSRobert Mustacchi } else {
1523*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie, &id,
1524*f3e7f55eSRobert Mustacchi CTF_ADD_NONROOT)) != 0) {
1525*f3e7f55eSRobert Mustacchi ctf_free(name, namelen);
1526*f3e7f55eSRobert Mustacchi return (ret);
1527*f3e7f55eSRobert Mustacchi }
1528*f3e7f55eSRobert Mustacchi }
1529*f3e7f55eSRobert Mustacchi
1530*f3e7f55eSRobert Mustacchi if ((*idp = ctf_add_reftype(cup->cu_ctfp, isroot, name, id, kind)) ==
1531*f3e7f55eSRobert Mustacchi CTF_ERR) {
1532*f3e7f55eSRobert Mustacchi ctf_free(name, namelen);
1533*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1534*f3e7f55eSRobert Mustacchi }
1535*f3e7f55eSRobert Mustacchi
1536*f3e7f55eSRobert Mustacchi ctf_free(name, namelen);
1537*f3e7f55eSRobert Mustacchi return (ctf_dwmap_add(cup, *idp, die, B_FALSE));
1538*f3e7f55eSRobert Mustacchi }
1539*f3e7f55eSRobert Mustacchi
1540*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_enum(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int isroot)1541*f3e7f55eSRobert Mustacchi ctf_dwarf_create_enum(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp, int isroot)
1542*f3e7f55eSRobert Mustacchi {
1543*f3e7f55eSRobert Mustacchi int ret;
1544*f3e7f55eSRobert Mustacchi ctf_id_t id;
1545*f3e7f55eSRobert Mustacchi Dwarf_Die child;
1546*f3e7f55eSRobert Mustacchi char *name;
1547*f3e7f55eSRobert Mustacchi
1548*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0 &&
1549*f3e7f55eSRobert Mustacchi ret != ENOENT)
1550*f3e7f55eSRobert Mustacchi return (ret);
1551*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1552*f3e7f55eSRobert Mustacchi name = NULL;
1553*f3e7f55eSRobert Mustacchi id = ctf_add_enum(cup->cu_ctfp, isroot, name);
1554*f3e7f55eSRobert Mustacchi ctf_dprintf("added enum %s (%d)\n", name, id);
1555*f3e7f55eSRobert Mustacchi if (name != NULL)
1556*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1557*f3e7f55eSRobert Mustacchi if (id == CTF_ERR)
1558*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1559*f3e7f55eSRobert Mustacchi *idp = id;
1560*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwmap_add(cup, id, die, B_FALSE)) != 0)
1561*f3e7f55eSRobert Mustacchi return (ret);
1562*f3e7f55eSRobert Mustacchi
1563*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0) {
1564*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1565*f3e7f55eSRobert Mustacchi ret = 0;
1566*f3e7f55eSRobert Mustacchi return (ret);
1567*f3e7f55eSRobert Mustacchi }
1568*f3e7f55eSRobert Mustacchi
1569*f3e7f55eSRobert Mustacchi while (child != NULL) {
1570*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
1571*f3e7f55eSRobert Mustacchi Dwarf_Signed sval;
1572*f3e7f55eSRobert Mustacchi Dwarf_Unsigned uval;
1573*f3e7f55eSRobert Mustacchi Dwarf_Die arg = child;
1574*f3e7f55eSRobert Mustacchi int eval;
1575*f3e7f55eSRobert Mustacchi
1576*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, arg, &child)) != 0)
1577*f3e7f55eSRobert Mustacchi return (ret);
1578*f3e7f55eSRobert Mustacchi
1579*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, arg, &tag)) != 0)
1580*f3e7f55eSRobert Mustacchi return (ret);
1581*f3e7f55eSRobert Mustacchi
1582*f3e7f55eSRobert Mustacchi if (tag != DW_TAG_enumerator) {
1583*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, arg, NULL,
1584*f3e7f55eSRobert Mustacchi CTF_ADD_NONROOT)) != 0)
1585*f3e7f55eSRobert Mustacchi return (ret);
1586*f3e7f55eSRobert Mustacchi continue;
1587*f3e7f55eSRobert Mustacchi }
1588*f3e7f55eSRobert Mustacchi
1589*f3e7f55eSRobert Mustacchi /*
1590*f3e7f55eSRobert Mustacchi * DWARF v4 section 5.7 tells us we'll always have names.
1591*f3e7f55eSRobert Mustacchi */
1592*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, arg, DW_AT_name, &name)) != 0)
1593*f3e7f55eSRobert Mustacchi return (ret);
1594*f3e7f55eSRobert Mustacchi
1595*f3e7f55eSRobert Mustacchi /*
1596*f3e7f55eSRobert Mustacchi * We have to be careful here: newer GCCs generate DWARF where
1597*f3e7f55eSRobert Mustacchi * an unsigned value will happily pass ctf_dwarf_signed().
1598*f3e7f55eSRobert Mustacchi * Since negative values will fail ctf_dwarf_unsigned(), we try
1599*f3e7f55eSRobert Mustacchi * that first to make sure we get the right value.
1600*f3e7f55eSRobert Mustacchi */
1601*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_unsigned(cup, arg, DW_AT_const_value,
1602*f3e7f55eSRobert Mustacchi &uval)) == 0) {
1603*f3e7f55eSRobert Mustacchi eval = (int)uval;
1604*f3e7f55eSRobert Mustacchi } else if ((ret = ctf_dwarf_signed(cup, arg, DW_AT_const_value,
1605*f3e7f55eSRobert Mustacchi &sval)) == 0) {
1606*f3e7f55eSRobert Mustacchi eval = sval;
1607*f3e7f55eSRobert Mustacchi }
1608*f3e7f55eSRobert Mustacchi
1609*f3e7f55eSRobert Mustacchi if (ret != 0) {
1610*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1611*f3e7f55eSRobert Mustacchi return (ret);
1612*f3e7f55eSRobert Mustacchi
1613*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1614*f3e7f55eSRobert Mustacchi "encountered enumeration without constant value\n");
1615*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1616*f3e7f55eSRobert Mustacchi }
1617*f3e7f55eSRobert Mustacchi
1618*f3e7f55eSRobert Mustacchi ret = ctf_add_enumerator(cup->cu_ctfp, id, name, eval);
1619*f3e7f55eSRobert Mustacchi if (ret == CTF_ERR) {
1620*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1621*f3e7f55eSRobert Mustacchi "failed to add enumarator %s (%d) to %d\n",
1622*f3e7f55eSRobert Mustacchi name, eval, id);
1623*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1624*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1625*f3e7f55eSRobert Mustacchi }
1626*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1627*f3e7f55eSRobert Mustacchi }
1628*f3e7f55eSRobert Mustacchi
1629*f3e7f55eSRobert Mustacchi return (0);
1630*f3e7f55eSRobert Mustacchi }
1631*f3e7f55eSRobert Mustacchi
1632*f3e7f55eSRobert Mustacchi /*
1633*f3e7f55eSRobert Mustacchi * For a function pointer, walk over and process all of its children, unless we
1634*f3e7f55eSRobert Mustacchi * encounter one that's just a declaration. In which case, we error on it.
1635*f3e7f55eSRobert Mustacchi */
1636*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_create_fptr(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int isroot)1637*f3e7f55eSRobert Mustacchi ctf_dwarf_create_fptr(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp, int isroot)
1638*f3e7f55eSRobert Mustacchi {
1639*f3e7f55eSRobert Mustacchi int ret;
1640*f3e7f55eSRobert Mustacchi Dwarf_Bool b;
1641*f3e7f55eSRobert Mustacchi ctf_funcinfo_t fi;
1642*f3e7f55eSRobert Mustacchi Dwarf_Die retdie;
1643*f3e7f55eSRobert Mustacchi ctf_id_t *argv = NULL;
1644*f3e7f55eSRobert Mustacchi
1645*f3e7f55eSRobert Mustacchi bzero(&fi, sizeof (ctf_funcinfo_t));
1646*f3e7f55eSRobert Mustacchi
1647*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_boolean(cup, die, DW_AT_declaration, &b)) != 0) {
1648*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1649*f3e7f55eSRobert Mustacchi return (ret);
1650*f3e7f55eSRobert Mustacchi } else {
1651*f3e7f55eSRobert Mustacchi if (b != 0)
1652*f3e7f55eSRobert Mustacchi return (EPROTOTYPE);
1653*f3e7f55eSRobert Mustacchi }
1654*f3e7f55eSRobert Mustacchi
1655*f3e7f55eSRobert Mustacchi /*
1656*f3e7f55eSRobert Mustacchi * Return type is in DW_AT_type, if none, it returns void.
1657*f3e7f55eSRobert Mustacchi */
1658*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_type, &retdie)) != 0) {
1659*f3e7f55eSRobert Mustacchi if (ret != ENOENT)
1660*f3e7f55eSRobert Mustacchi return (ret);
1661*f3e7f55eSRobert Mustacchi if ((fi.ctc_return = ctf_dwarf_void(cup)) == CTF_ERR)
1662*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1663*f3e7f55eSRobert Mustacchi } else {
1664*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, retdie, &fi.ctc_return,
1665*f3e7f55eSRobert Mustacchi CTF_ADD_NONROOT)) != 0)
1666*f3e7f55eSRobert Mustacchi return (ret);
1667*f3e7f55eSRobert Mustacchi }
1668*f3e7f55eSRobert Mustacchi
1669*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_function_count(cup, die, &fi, B_TRUE)) != 0) {
1670*f3e7f55eSRobert Mustacchi return (ret);
1671*f3e7f55eSRobert Mustacchi }
1672*f3e7f55eSRobert Mustacchi
1673*f3e7f55eSRobert Mustacchi if (fi.ctc_argc != 0) {
1674*f3e7f55eSRobert Mustacchi argv = ctf_alloc(sizeof (ctf_id_t) * fi.ctc_argc);
1675*f3e7f55eSRobert Mustacchi if (argv == NULL)
1676*f3e7f55eSRobert Mustacchi return (ENOMEM);
1677*f3e7f55eSRobert Mustacchi
1678*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_fargs(cup, die, &fi, argv)) != 0) {
1679*f3e7f55eSRobert Mustacchi ctf_free(argv, sizeof (ctf_id_t) * fi.ctc_argc);
1680*f3e7f55eSRobert Mustacchi return (ret);
1681*f3e7f55eSRobert Mustacchi }
1682*f3e7f55eSRobert Mustacchi }
1683*f3e7f55eSRobert Mustacchi
1684*f3e7f55eSRobert Mustacchi if ((*idp = ctf_add_funcptr(cup->cu_ctfp, isroot, &fi, argv)) ==
1685*f3e7f55eSRobert Mustacchi CTF_ERR) {
1686*f3e7f55eSRobert Mustacchi ctf_free(argv, sizeof (ctf_id_t) * fi.ctc_argc);
1687*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1688*f3e7f55eSRobert Mustacchi }
1689*f3e7f55eSRobert Mustacchi
1690*f3e7f55eSRobert Mustacchi ctf_free(argv, sizeof (ctf_id_t) * fi.ctc_argc);
1691*f3e7f55eSRobert Mustacchi return (ctf_dwmap_add(cup, *idp, die, B_FALSE));
1692*f3e7f55eSRobert Mustacchi }
1693*f3e7f55eSRobert Mustacchi
1694*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_type(ctf_cu_t * cup,Dwarf_Die die,ctf_id_t * idp,int isroot)1695*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_type(ctf_cu_t *cup, Dwarf_Die die, ctf_id_t *idp,
1696*f3e7f55eSRobert Mustacchi int isroot)
1697*f3e7f55eSRobert Mustacchi {
1698*f3e7f55eSRobert Mustacchi int ret;
1699*f3e7f55eSRobert Mustacchi Dwarf_Off offset;
1700*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
1701*f3e7f55eSRobert Mustacchi ctf_dwmap_t lookup, *map;
1702*f3e7f55eSRobert Mustacchi ctf_id_t id;
1703*f3e7f55eSRobert Mustacchi
1704*f3e7f55eSRobert Mustacchi if (idp == NULL)
1705*f3e7f55eSRobert Mustacchi idp = &id;
1706*f3e7f55eSRobert Mustacchi
1707*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_offset(cup, die, &offset)) != 0)
1708*f3e7f55eSRobert Mustacchi return (ret);
1709*f3e7f55eSRobert Mustacchi
1710*f3e7f55eSRobert Mustacchi if (offset > cup->cu_maxoff) {
1711*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
1712*f3e7f55eSRobert Mustacchi "die offset %llu beyond maximum for header %llu\n",
1713*f3e7f55eSRobert Mustacchi offset, cup->cu_maxoff);
1714*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
1715*f3e7f55eSRobert Mustacchi }
1716*f3e7f55eSRobert Mustacchi
1717*f3e7f55eSRobert Mustacchi /*
1718*f3e7f55eSRobert Mustacchi * If we've already added an entry for this offset, then we're done.
1719*f3e7f55eSRobert Mustacchi */
1720*f3e7f55eSRobert Mustacchi lookup.cdm_off = offset;
1721*f3e7f55eSRobert Mustacchi if ((map = avl_find(&cup->cu_map, &lookup, NULL)) != NULL) {
1722*f3e7f55eSRobert Mustacchi *idp = map->cdm_id;
1723*f3e7f55eSRobert Mustacchi return (0);
1724*f3e7f55eSRobert Mustacchi }
1725*f3e7f55eSRobert Mustacchi
1726*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, die, &tag)) != 0)
1727*f3e7f55eSRobert Mustacchi return (ret);
1728*f3e7f55eSRobert Mustacchi
1729*f3e7f55eSRobert Mustacchi ret = ENOTSUP;
1730*f3e7f55eSRobert Mustacchi switch (tag) {
1731*f3e7f55eSRobert Mustacchi case DW_TAG_base_type:
1732*f3e7f55eSRobert Mustacchi ctf_dprintf("base\n");
1733*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_base(cup, die, idp, isroot, offset);
1734*f3e7f55eSRobert Mustacchi break;
1735*f3e7f55eSRobert Mustacchi case DW_TAG_array_type:
1736*f3e7f55eSRobert Mustacchi ctf_dprintf("array\n");
1737*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_array(cup, die, idp, isroot);
1738*f3e7f55eSRobert Mustacchi break;
1739*f3e7f55eSRobert Mustacchi case DW_TAG_enumeration_type:
1740*f3e7f55eSRobert Mustacchi ctf_dprintf("enum\n");
1741*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_enum(cup, die, idp, isroot);
1742*f3e7f55eSRobert Mustacchi break;
1743*f3e7f55eSRobert Mustacchi case DW_TAG_pointer_type:
1744*f3e7f55eSRobert Mustacchi ctf_dprintf("pointer\n");
1745*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_reference(cup, die, idp, CTF_K_POINTER,
1746*f3e7f55eSRobert Mustacchi isroot);
1747*f3e7f55eSRobert Mustacchi break;
1748*f3e7f55eSRobert Mustacchi case DW_TAG_structure_type:
1749*f3e7f55eSRobert Mustacchi ctf_dprintf("struct\n");
1750*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_sou(cup, die, idp, CTF_K_STRUCT,
1751*f3e7f55eSRobert Mustacchi isroot);
1752*f3e7f55eSRobert Mustacchi break;
1753*f3e7f55eSRobert Mustacchi case DW_TAG_subroutine_type:
1754*f3e7f55eSRobert Mustacchi ctf_dprintf("fptr\n");
1755*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_fptr(cup, die, idp, isroot);
1756*f3e7f55eSRobert Mustacchi break;
1757*f3e7f55eSRobert Mustacchi case DW_TAG_typedef:
1758*f3e7f55eSRobert Mustacchi ctf_dprintf("typedef\n");
1759*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_reference(cup, die, idp, CTF_K_TYPEDEF,
1760*f3e7f55eSRobert Mustacchi isroot);
1761*f3e7f55eSRobert Mustacchi break;
1762*f3e7f55eSRobert Mustacchi case DW_TAG_union_type:
1763*f3e7f55eSRobert Mustacchi ctf_dprintf("union\n");
1764*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_sou(cup, die, idp, CTF_K_UNION,
1765*f3e7f55eSRobert Mustacchi isroot);
1766*f3e7f55eSRobert Mustacchi break;
1767*f3e7f55eSRobert Mustacchi case DW_TAG_const_type:
1768*f3e7f55eSRobert Mustacchi ctf_dprintf("const\n");
1769*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_reference(cup, die, idp, CTF_K_CONST,
1770*f3e7f55eSRobert Mustacchi isroot);
1771*f3e7f55eSRobert Mustacchi break;
1772*f3e7f55eSRobert Mustacchi case DW_TAG_volatile_type:
1773*f3e7f55eSRobert Mustacchi ctf_dprintf("volatile\n");
1774*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_reference(cup, die, idp, CTF_K_VOLATILE,
1775*f3e7f55eSRobert Mustacchi isroot);
1776*f3e7f55eSRobert Mustacchi break;
1777*f3e7f55eSRobert Mustacchi case DW_TAG_restrict_type:
1778*f3e7f55eSRobert Mustacchi ctf_dprintf("restrict\n");
1779*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_create_reference(cup, die, idp, CTF_K_RESTRICT,
1780*f3e7f55eSRobert Mustacchi isroot);
1781*f3e7f55eSRobert Mustacchi break;
1782*f3e7f55eSRobert Mustacchi default:
1783*f3e7f55eSRobert Mustacchi ctf_dprintf("ignoring tag type %x\n", tag);
1784*f3e7f55eSRobert Mustacchi ret = 0;
1785*f3e7f55eSRobert Mustacchi break;
1786*f3e7f55eSRobert Mustacchi }
1787*f3e7f55eSRobert Mustacchi ctf_dprintf("ctf_dwarf_convert_type tag specific handler returned %d\n",
1788*f3e7f55eSRobert Mustacchi ret);
1789*f3e7f55eSRobert Mustacchi
1790*f3e7f55eSRobert Mustacchi return (ret);
1791*f3e7f55eSRobert Mustacchi }
1792*f3e7f55eSRobert Mustacchi
1793*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_walk_lexical(ctf_cu_t * cup,Dwarf_Die die)1794*f3e7f55eSRobert Mustacchi ctf_dwarf_walk_lexical(ctf_cu_t *cup, Dwarf_Die die)
1795*f3e7f55eSRobert Mustacchi {
1796*f3e7f55eSRobert Mustacchi int ret;
1797*f3e7f55eSRobert Mustacchi Dwarf_Die child;
1798*f3e7f55eSRobert Mustacchi
1799*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0)
1800*f3e7f55eSRobert Mustacchi return (ret);
1801*f3e7f55eSRobert Mustacchi
1802*f3e7f55eSRobert Mustacchi if (child == NULL)
1803*f3e7f55eSRobert Mustacchi return (0);
1804*f3e7f55eSRobert Mustacchi
1805*f3e7f55eSRobert Mustacchi return (ctf_dwarf_convert_die(cup, die));
1806*f3e7f55eSRobert Mustacchi }
1807*f3e7f55eSRobert Mustacchi
1808*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_function_count(ctf_cu_t * cup,Dwarf_Die die,ctf_funcinfo_t * fip,boolean_t fptr)1809*f3e7f55eSRobert Mustacchi ctf_dwarf_function_count(ctf_cu_t *cup, Dwarf_Die die, ctf_funcinfo_t *fip,
1810*f3e7f55eSRobert Mustacchi boolean_t fptr)
1811*f3e7f55eSRobert Mustacchi {
1812*f3e7f55eSRobert Mustacchi int ret;
1813*f3e7f55eSRobert Mustacchi Dwarf_Die child, sib, arg;
1814*f3e7f55eSRobert Mustacchi
1815*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0)
1816*f3e7f55eSRobert Mustacchi return (ret);
1817*f3e7f55eSRobert Mustacchi
1818*f3e7f55eSRobert Mustacchi arg = child;
1819*f3e7f55eSRobert Mustacchi while (arg != NULL) {
1820*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
1821*f3e7f55eSRobert Mustacchi
1822*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, arg, &tag)) != 0)
1823*f3e7f55eSRobert Mustacchi return (ret);
1824*f3e7f55eSRobert Mustacchi
1825*f3e7f55eSRobert Mustacchi /*
1826*f3e7f55eSRobert Mustacchi * We have to check for a varargs type decleration. This will
1827*f3e7f55eSRobert Mustacchi * happen in one of two ways. If we have a function pointer
1828*f3e7f55eSRobert Mustacchi * type, then it'll be done with a tag of type
1829*f3e7f55eSRobert Mustacchi * DW_TAG_unspecified_parameters. However, it only means we have
1830*f3e7f55eSRobert Mustacchi * a variable number of arguments, if we have more than one
1831*f3e7f55eSRobert Mustacchi * argument found so far. Otherwise, when we have a function
1832*f3e7f55eSRobert Mustacchi * type, it instead uses a formal parameter whose name is '...'
1833*f3e7f55eSRobert Mustacchi * to indicate a variable arguments member.
1834*f3e7f55eSRobert Mustacchi *
1835*f3e7f55eSRobert Mustacchi * Also, if we have a function pointer, then we have to expect
1836*f3e7f55eSRobert Mustacchi * that we might not get a name at all.
1837*f3e7f55eSRobert Mustacchi */
1838*f3e7f55eSRobert Mustacchi if (tag == DW_TAG_formal_parameter && fptr == B_FALSE) {
1839*f3e7f55eSRobert Mustacchi char *name;
1840*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name,
1841*f3e7f55eSRobert Mustacchi &name)) != 0)
1842*f3e7f55eSRobert Mustacchi return (ret);
1843*f3e7f55eSRobert Mustacchi if (strcmp(name, DWARF_VARARGS_NAME) == 0)
1844*f3e7f55eSRobert Mustacchi fip->ctc_flags |= CTF_FUNC_VARARG;
1845*f3e7f55eSRobert Mustacchi else
1846*f3e7f55eSRobert Mustacchi fip->ctc_argc++;
1847*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1848*f3e7f55eSRobert Mustacchi } else if (tag == DW_TAG_formal_parameter) {
1849*f3e7f55eSRobert Mustacchi fip->ctc_argc++;
1850*f3e7f55eSRobert Mustacchi } else if (tag == DW_TAG_unspecified_parameters &&
1851*f3e7f55eSRobert Mustacchi fip->ctc_argc > 0) {
1852*f3e7f55eSRobert Mustacchi fip->ctc_flags |= CTF_FUNC_VARARG;
1853*f3e7f55eSRobert Mustacchi }
1854*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, arg, &sib)) != 0)
1855*f3e7f55eSRobert Mustacchi return (ret);
1856*f3e7f55eSRobert Mustacchi arg = sib;
1857*f3e7f55eSRobert Mustacchi }
1858*f3e7f55eSRobert Mustacchi
1859*f3e7f55eSRobert Mustacchi return (0);
1860*f3e7f55eSRobert Mustacchi }
1861*f3e7f55eSRobert Mustacchi
1862*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_fargs(ctf_cu_t * cup,Dwarf_Die die,ctf_funcinfo_t * fip,ctf_id_t * argv)1863*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_fargs(ctf_cu_t *cup, Dwarf_Die die, ctf_funcinfo_t *fip,
1864*f3e7f55eSRobert Mustacchi ctf_id_t *argv)
1865*f3e7f55eSRobert Mustacchi {
1866*f3e7f55eSRobert Mustacchi int ret;
1867*f3e7f55eSRobert Mustacchi int i = 0;
1868*f3e7f55eSRobert Mustacchi Dwarf_Die child, sib, arg;
1869*f3e7f55eSRobert Mustacchi
1870*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, die, &child)) != 0)
1871*f3e7f55eSRobert Mustacchi return (ret);
1872*f3e7f55eSRobert Mustacchi
1873*f3e7f55eSRobert Mustacchi arg = child;
1874*f3e7f55eSRobert Mustacchi while (arg != NULL) {
1875*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
1876*f3e7f55eSRobert Mustacchi
1877*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, arg, &tag)) != 0)
1878*f3e7f55eSRobert Mustacchi return (ret);
1879*f3e7f55eSRobert Mustacchi if (tag == DW_TAG_formal_parameter) {
1880*f3e7f55eSRobert Mustacchi Dwarf_Die tdie;
1881*f3e7f55eSRobert Mustacchi
1882*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, arg, DW_AT_type,
1883*f3e7f55eSRobert Mustacchi &tdie)) != 0)
1884*f3e7f55eSRobert Mustacchi return (ret);
1885*f3e7f55eSRobert Mustacchi
1886*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie, &argv[i],
1887*f3e7f55eSRobert Mustacchi CTF_ADD_ROOT)) != 0)
1888*f3e7f55eSRobert Mustacchi return (ret);
1889*f3e7f55eSRobert Mustacchi i++;
1890*f3e7f55eSRobert Mustacchi
1891*f3e7f55eSRobert Mustacchi /*
1892*f3e7f55eSRobert Mustacchi * Once we hit argc entries, we're done. This ensures we
1893*f3e7f55eSRobert Mustacchi * don't accidentally hit a varargs which should be the
1894*f3e7f55eSRobert Mustacchi * last entry.
1895*f3e7f55eSRobert Mustacchi */
1896*f3e7f55eSRobert Mustacchi if (i == fip->ctc_argc)
1897*f3e7f55eSRobert Mustacchi break;
1898*f3e7f55eSRobert Mustacchi }
1899*f3e7f55eSRobert Mustacchi
1900*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, arg, &sib)) != 0)
1901*f3e7f55eSRobert Mustacchi return (ret);
1902*f3e7f55eSRobert Mustacchi arg = sib;
1903*f3e7f55eSRobert Mustacchi }
1904*f3e7f55eSRobert Mustacchi
1905*f3e7f55eSRobert Mustacchi return (0);
1906*f3e7f55eSRobert Mustacchi }
1907*f3e7f55eSRobert Mustacchi
1908*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_function(ctf_cu_t * cup,Dwarf_Die die)1909*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_function(ctf_cu_t *cup, Dwarf_Die die)
1910*f3e7f55eSRobert Mustacchi {
1911*f3e7f55eSRobert Mustacchi int ret;
1912*f3e7f55eSRobert Mustacchi char *name;
1913*f3e7f55eSRobert Mustacchi ctf_dwfunc_t *cdf;
1914*f3e7f55eSRobert Mustacchi Dwarf_Die tdie;
1915*f3e7f55eSRobert Mustacchi
1916*f3e7f55eSRobert Mustacchi /*
1917*f3e7f55eSRobert Mustacchi * Functions that don't have a name are generally functions that have
1918*f3e7f55eSRobert Mustacchi * been inlined and thus most information about them has been lost. If
1919*f3e7f55eSRobert Mustacchi * we can't get a name, then instead of returning ENOENT, we silently
1920*f3e7f55eSRobert Mustacchi * swallow the error.
1921*f3e7f55eSRobert Mustacchi */
1922*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0) {
1923*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
1924*f3e7f55eSRobert Mustacchi return (0);
1925*f3e7f55eSRobert Mustacchi return (ret);
1926*f3e7f55eSRobert Mustacchi }
1927*f3e7f55eSRobert Mustacchi
1928*f3e7f55eSRobert Mustacchi ctf_dprintf("beginning work on function %s\n", name);
1929*f3e7f55eSRobert Mustacchi if ((cdf = ctf_alloc(sizeof (ctf_dwfunc_t))) == NULL) {
1930*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1931*f3e7f55eSRobert Mustacchi return (ENOMEM);
1932*f3e7f55eSRobert Mustacchi }
1933*f3e7f55eSRobert Mustacchi bzero(cdf, sizeof (ctf_dwfunc_t));
1934*f3e7f55eSRobert Mustacchi cdf->cdf_name = name;
1935*f3e7f55eSRobert Mustacchi
1936*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_type, &tdie)) == 0) {
1937*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie,
1938*f3e7f55eSRobert Mustacchi &(cdf->cdf_fip.ctc_return), CTF_ADD_ROOT)) != 0) {
1939*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1940*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1941*f3e7f55eSRobert Mustacchi return (ret);
1942*f3e7f55eSRobert Mustacchi }
1943*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
1944*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1945*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1946*f3e7f55eSRobert Mustacchi return (ret);
1947*f3e7f55eSRobert Mustacchi } else {
1948*f3e7f55eSRobert Mustacchi if ((cdf->cdf_fip.ctc_return = ctf_dwarf_void(cup)) ==
1949*f3e7f55eSRobert Mustacchi CTF_ERR) {
1950*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1951*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1952*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
1953*f3e7f55eSRobert Mustacchi }
1954*f3e7f55eSRobert Mustacchi }
1955*f3e7f55eSRobert Mustacchi
1956*f3e7f55eSRobert Mustacchi /*
1957*f3e7f55eSRobert Mustacchi * A function has a number of children, some of which may not be ones we
1958*f3e7f55eSRobert Mustacchi * care about. Children that we care about have a type of
1959*f3e7f55eSRobert Mustacchi * DW_TAG_formal_parameter. We're going to do two passes, the first to
1960*f3e7f55eSRobert Mustacchi * count the arguments, the second to process them. Afterwards, we
1961*f3e7f55eSRobert Mustacchi * should be good to go ahead and add this function.
1962*f3e7f55eSRobert Mustacchi *
1963*f3e7f55eSRobert Mustacchi * Note, we already got the return type by going in and grabbing it out
1964*f3e7f55eSRobert Mustacchi * of the DW_AT_type.
1965*f3e7f55eSRobert Mustacchi */
1966*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_function_count(cup, die, &cdf->cdf_fip,
1967*f3e7f55eSRobert Mustacchi B_FALSE)) != 0) {
1968*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1969*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1970*f3e7f55eSRobert Mustacchi return (ret);
1971*f3e7f55eSRobert Mustacchi }
1972*f3e7f55eSRobert Mustacchi
1973*f3e7f55eSRobert Mustacchi ctf_dprintf("beginning to convert function arguments %s\n", name);
1974*f3e7f55eSRobert Mustacchi if (cdf->cdf_fip.ctc_argc != 0) {
1975*f3e7f55eSRobert Mustacchi uint_t argc = cdf->cdf_fip.ctc_argc;
1976*f3e7f55eSRobert Mustacchi cdf->cdf_argv = ctf_alloc(sizeof (ctf_id_t) * argc);
1977*f3e7f55eSRobert Mustacchi if (cdf->cdf_argv == NULL) {
1978*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1979*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1980*f3e7f55eSRobert Mustacchi return (ENOMEM);
1981*f3e7f55eSRobert Mustacchi }
1982*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_fargs(cup, die,
1983*f3e7f55eSRobert Mustacchi &cdf->cdf_fip, cdf->cdf_argv)) != 0) {
1984*f3e7f55eSRobert Mustacchi ctf_free(cdf->cdf_argv, sizeof (ctf_id_t) * argc);
1985*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1986*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1987*f3e7f55eSRobert Mustacchi return (ret);
1988*f3e7f55eSRobert Mustacchi }
1989*f3e7f55eSRobert Mustacchi } else {
1990*f3e7f55eSRobert Mustacchi cdf->cdf_argv = NULL;
1991*f3e7f55eSRobert Mustacchi }
1992*f3e7f55eSRobert Mustacchi
1993*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_isglobal(cup, die, &cdf->cdf_global)) != 0) {
1994*f3e7f55eSRobert Mustacchi ctf_free(cdf->cdf_argv, sizeof (ctf_id_t) *
1995*f3e7f55eSRobert Mustacchi cdf->cdf_fip.ctc_argc);
1996*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
1997*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
1998*f3e7f55eSRobert Mustacchi return (ret);
1999*f3e7f55eSRobert Mustacchi }
2000*f3e7f55eSRobert Mustacchi
2001*f3e7f55eSRobert Mustacchi ctf_list_append(&cup->cu_funcs, cdf);
2002*f3e7f55eSRobert Mustacchi return (ret);
2003*f3e7f55eSRobert Mustacchi }
2004*f3e7f55eSRobert Mustacchi
2005*f3e7f55eSRobert Mustacchi /*
2006*f3e7f55eSRobert Mustacchi * Convert variables, but only if they're not prototypes and have names.
2007*f3e7f55eSRobert Mustacchi */
2008*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_variable(ctf_cu_t * cup,Dwarf_Die die)2009*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_variable(ctf_cu_t *cup, Dwarf_Die die)
2010*f3e7f55eSRobert Mustacchi {
2011*f3e7f55eSRobert Mustacchi int ret;
2012*f3e7f55eSRobert Mustacchi char *name;
2013*f3e7f55eSRobert Mustacchi Dwarf_Bool b;
2014*f3e7f55eSRobert Mustacchi Dwarf_Die tdie;
2015*f3e7f55eSRobert Mustacchi ctf_id_t id;
2016*f3e7f55eSRobert Mustacchi ctf_dwvar_t *cdv;
2017*f3e7f55eSRobert Mustacchi
2018*f3e7f55eSRobert Mustacchi /* Skip "Non-Defining Declarations" */
2019*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_boolean(cup, die, DW_AT_declaration, &b)) == 0) {
2020*f3e7f55eSRobert Mustacchi if (b != 0)
2021*f3e7f55eSRobert Mustacchi return (0);
2022*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
2023*f3e7f55eSRobert Mustacchi return (ret);
2024*f3e7f55eSRobert Mustacchi }
2025*f3e7f55eSRobert Mustacchi
2026*f3e7f55eSRobert Mustacchi /*
2027*f3e7f55eSRobert Mustacchi * If we find a DIE of "Declarations Completing Non-Defining
2028*f3e7f55eSRobert Mustacchi * Declarations", we will use the referenced type's DIE. This isn't
2029*f3e7f55eSRobert Mustacchi * quite correct, e.g. DW_AT_decl_line will be the forward declaration
2030*f3e7f55eSRobert Mustacchi * not this site. It's sufficient for what we need, however: in
2031*f3e7f55eSRobert Mustacchi * particular, we should find DW_AT_external as needed there.
2032*f3e7f55eSRobert Mustacchi */
2033*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_specification,
2034*f3e7f55eSRobert Mustacchi &tdie)) == 0) {
2035*f3e7f55eSRobert Mustacchi Dwarf_Off offset;
2036*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_offset(cup, tdie, &offset)) != 0)
2037*f3e7f55eSRobert Mustacchi return (ret);
2038*f3e7f55eSRobert Mustacchi ctf_dprintf("die 0x%llx DW_AT_specification -> die 0x%llx\n",
2039*f3e7f55eSRobert Mustacchi ctf_die_offset(die), ctf_die_offset(tdie));
2040*f3e7f55eSRobert Mustacchi die = tdie;
2041*f3e7f55eSRobert Mustacchi } else if (ret != ENOENT) {
2042*f3e7f55eSRobert Mustacchi return (ret);
2043*f3e7f55eSRobert Mustacchi }
2044*f3e7f55eSRobert Mustacchi
2045*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_string(cup, die, DW_AT_name, &name)) != 0 &&
2046*f3e7f55eSRobert Mustacchi ret != ENOENT)
2047*f3e7f55eSRobert Mustacchi return (ret);
2048*f3e7f55eSRobert Mustacchi if (ret == ENOENT)
2049*f3e7f55eSRobert Mustacchi return (0);
2050*f3e7f55eSRobert Mustacchi
2051*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_refdie(cup, die, DW_AT_type, &tdie)) != 0) {
2052*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
2053*f3e7f55eSRobert Mustacchi return (ret);
2054*f3e7f55eSRobert Mustacchi }
2055*f3e7f55eSRobert Mustacchi
2056*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_convert_type(cup, tdie, &id,
2057*f3e7f55eSRobert Mustacchi CTF_ADD_ROOT)) != 0)
2058*f3e7f55eSRobert Mustacchi return (ret);
2059*f3e7f55eSRobert Mustacchi
2060*f3e7f55eSRobert Mustacchi if ((cdv = ctf_alloc(sizeof (ctf_dwvar_t))) == NULL) {
2061*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
2062*f3e7f55eSRobert Mustacchi return (ENOMEM);
2063*f3e7f55eSRobert Mustacchi }
2064*f3e7f55eSRobert Mustacchi
2065*f3e7f55eSRobert Mustacchi cdv->cdv_name = name;
2066*f3e7f55eSRobert Mustacchi cdv->cdv_type = id;
2067*f3e7f55eSRobert Mustacchi
2068*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_isglobal(cup, die, &cdv->cdv_global)) != 0) {
2069*f3e7f55eSRobert Mustacchi ctf_free(cdv, sizeof (ctf_dwvar_t));
2070*f3e7f55eSRobert Mustacchi ctf_free(name, strlen(name) + 1);
2071*f3e7f55eSRobert Mustacchi return (ret);
2072*f3e7f55eSRobert Mustacchi }
2073*f3e7f55eSRobert Mustacchi
2074*f3e7f55eSRobert Mustacchi ctf_list_append(&cup->cu_vars, cdv);
2075*f3e7f55eSRobert Mustacchi return (0);
2076*f3e7f55eSRobert Mustacchi }
2077*f3e7f55eSRobert Mustacchi
2078*f3e7f55eSRobert Mustacchi /*
2079*f3e7f55eSRobert Mustacchi * Walk through our set of top-level types and process them.
2080*f3e7f55eSRobert Mustacchi */
2081*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_walk_toplevel(ctf_cu_t * cup,Dwarf_Die die)2082*f3e7f55eSRobert Mustacchi ctf_dwarf_walk_toplevel(ctf_cu_t *cup, Dwarf_Die die)
2083*f3e7f55eSRobert Mustacchi {
2084*f3e7f55eSRobert Mustacchi int ret;
2085*f3e7f55eSRobert Mustacchi Dwarf_Off offset;
2086*f3e7f55eSRobert Mustacchi Dwarf_Half tag;
2087*f3e7f55eSRobert Mustacchi
2088*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_offset(cup, die, &offset)) != 0)
2089*f3e7f55eSRobert Mustacchi return (ret);
2090*f3e7f55eSRobert Mustacchi
2091*f3e7f55eSRobert Mustacchi if (offset > cup->cu_maxoff) {
2092*f3e7f55eSRobert Mustacchi (void) snprintf(cup->cu_errbuf, cup->cu_errlen,
2093*f3e7f55eSRobert Mustacchi "die offset %llu beyond maximum for header %llu\n",
2094*f3e7f55eSRobert Mustacchi offset, cup->cu_maxoff);
2095*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2096*f3e7f55eSRobert Mustacchi }
2097*f3e7f55eSRobert Mustacchi
2098*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_tag(cup, die, &tag)) != 0)
2099*f3e7f55eSRobert Mustacchi return (ret);
2100*f3e7f55eSRobert Mustacchi
2101*f3e7f55eSRobert Mustacchi ret = 0;
2102*f3e7f55eSRobert Mustacchi switch (tag) {
2103*f3e7f55eSRobert Mustacchi case DW_TAG_subprogram:
2104*f3e7f55eSRobert Mustacchi ctf_dprintf("top level func\n");
2105*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_convert_function(cup, die);
2106*f3e7f55eSRobert Mustacchi break;
2107*f3e7f55eSRobert Mustacchi case DW_TAG_variable:
2108*f3e7f55eSRobert Mustacchi ctf_dprintf("top level var\n");
2109*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_convert_variable(cup, die);
2110*f3e7f55eSRobert Mustacchi break;
2111*f3e7f55eSRobert Mustacchi case DW_TAG_lexical_block:
2112*f3e7f55eSRobert Mustacchi ctf_dprintf("top level block\n");
2113*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_walk_lexical(cup, die);
2114*f3e7f55eSRobert Mustacchi break;
2115*f3e7f55eSRobert Mustacchi case DW_TAG_enumeration_type:
2116*f3e7f55eSRobert Mustacchi case DW_TAG_structure_type:
2117*f3e7f55eSRobert Mustacchi case DW_TAG_typedef:
2118*f3e7f55eSRobert Mustacchi case DW_TAG_union_type:
2119*f3e7f55eSRobert Mustacchi ctf_dprintf("top level type\n");
2120*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_convert_type(cup, die, NULL, B_TRUE);
2121*f3e7f55eSRobert Mustacchi break;
2122*f3e7f55eSRobert Mustacchi default:
2123*f3e7f55eSRobert Mustacchi break;
2124*f3e7f55eSRobert Mustacchi }
2125*f3e7f55eSRobert Mustacchi
2126*f3e7f55eSRobert Mustacchi return (ret);
2127*f3e7f55eSRobert Mustacchi }
2128*f3e7f55eSRobert Mustacchi
2129*f3e7f55eSRobert Mustacchi
2130*f3e7f55eSRobert Mustacchi /*
2131*f3e7f55eSRobert Mustacchi * We're given a node. At this node we need to convert it and then proceed to
2132*f3e7f55eSRobert Mustacchi * convert any siblings that are associaed with this die.
2133*f3e7f55eSRobert Mustacchi */
2134*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_die(ctf_cu_t * cup,Dwarf_Die die)2135*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_die(ctf_cu_t *cup, Dwarf_Die die)
2136*f3e7f55eSRobert Mustacchi {
2137*f3e7f55eSRobert Mustacchi while (die != NULL) {
2138*f3e7f55eSRobert Mustacchi int ret;
2139*f3e7f55eSRobert Mustacchi Dwarf_Die sib;
2140*f3e7f55eSRobert Mustacchi
2141*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_walk_toplevel(cup, die)) != 0)
2142*f3e7f55eSRobert Mustacchi return (ret);
2143*f3e7f55eSRobert Mustacchi
2144*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, die, &sib)) != 0)
2145*f3e7f55eSRobert Mustacchi return (ret);
2146*f3e7f55eSRobert Mustacchi die = sib;
2147*f3e7f55eSRobert Mustacchi }
2148*f3e7f55eSRobert Mustacchi return (0);
2149*f3e7f55eSRobert Mustacchi }
2150*f3e7f55eSRobert Mustacchi
2151*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_fixup_die(ctf_cu_t * cup,boolean_t addpass)2152*f3e7f55eSRobert Mustacchi ctf_dwarf_fixup_die(ctf_cu_t *cup, boolean_t addpass)
2153*f3e7f55eSRobert Mustacchi {
2154*f3e7f55eSRobert Mustacchi ctf_dwmap_t *map;
2155*f3e7f55eSRobert Mustacchi
2156*f3e7f55eSRobert Mustacchi for (map = avl_first(&cup->cu_map); map != NULL;
2157*f3e7f55eSRobert Mustacchi map = AVL_NEXT(&cup->cu_map, map)) {
2158*f3e7f55eSRobert Mustacchi int ret;
2159*f3e7f55eSRobert Mustacchi if (map->cdm_fix == B_FALSE)
2160*f3e7f55eSRobert Mustacchi continue;
2161*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_fixup_sou(cup, map->cdm_die, map->cdm_id,
2162*f3e7f55eSRobert Mustacchi addpass)) != 0)
2163*f3e7f55eSRobert Mustacchi return (ret);
2164*f3e7f55eSRobert Mustacchi }
2165*f3e7f55eSRobert Mustacchi
2166*f3e7f55eSRobert Mustacchi return (0);
2167*f3e7f55eSRobert Mustacchi }
2168*f3e7f55eSRobert Mustacchi
2169*f3e7f55eSRobert Mustacchi static ctf_dwfunc_t *
ctf_dwarf_match_func(ctf_cu_t * cup,const char * file,const char * name,int bind)2170*f3e7f55eSRobert Mustacchi ctf_dwarf_match_func(ctf_cu_t *cup, const char *file, const char *name,
2171*f3e7f55eSRobert Mustacchi int bind)
2172*f3e7f55eSRobert Mustacchi {
2173*f3e7f55eSRobert Mustacchi ctf_dwfunc_t *cdf;
2174*f3e7f55eSRobert Mustacchi
2175*f3e7f55eSRobert Mustacchi if (bind == STB_WEAK)
2176*f3e7f55eSRobert Mustacchi return (NULL);
2177*f3e7f55eSRobert Mustacchi
2178*f3e7f55eSRobert Mustacchi /* Nothing we can do if we can't find a name to compare it to. */
2179*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && (file == NULL || cup->cu_name == NULL))
2180*f3e7f55eSRobert Mustacchi return (NULL);
2181*f3e7f55eSRobert Mustacchi
2182*f3e7f55eSRobert Mustacchi for (cdf = ctf_list_next(&cup->cu_funcs); cdf != NULL;
2183*f3e7f55eSRobert Mustacchi cdf = ctf_list_next(cdf)) {
2184*f3e7f55eSRobert Mustacchi if (bind == STB_GLOBAL && cdf->cdf_global == B_FALSE)
2185*f3e7f55eSRobert Mustacchi continue;
2186*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && cdf->cdf_global == B_TRUE)
2187*f3e7f55eSRobert Mustacchi continue;
2188*f3e7f55eSRobert Mustacchi if (strcmp(name, cdf->cdf_name) != 0)
2189*f3e7f55eSRobert Mustacchi continue;
2190*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && strcmp(file, cup->cu_name) != 0)
2191*f3e7f55eSRobert Mustacchi continue;
2192*f3e7f55eSRobert Mustacchi return (cdf);
2193*f3e7f55eSRobert Mustacchi }
2194*f3e7f55eSRobert Mustacchi
2195*f3e7f55eSRobert Mustacchi return (NULL);
2196*f3e7f55eSRobert Mustacchi }
2197*f3e7f55eSRobert Mustacchi static ctf_dwvar_t *
ctf_dwarf_match_var(ctf_cu_t * cup,const char * file,const char * name,int bind)2198*f3e7f55eSRobert Mustacchi ctf_dwarf_match_var(ctf_cu_t *cup, const char *file, const char *name,
2199*f3e7f55eSRobert Mustacchi int bind)
2200*f3e7f55eSRobert Mustacchi {
2201*f3e7f55eSRobert Mustacchi ctf_dwvar_t *cdv;
2202*f3e7f55eSRobert Mustacchi
2203*f3e7f55eSRobert Mustacchi /* Nothing we can do if we can't find a name to compare it to. */
2204*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && (file == NULL || cup->cu_name == NULL))
2205*f3e7f55eSRobert Mustacchi return (NULL);
2206*f3e7f55eSRobert Mustacchi ctf_dprintf("Still considering %s\n", name);
2207*f3e7f55eSRobert Mustacchi
2208*f3e7f55eSRobert Mustacchi for (cdv = ctf_list_next(&cup->cu_vars); cdv != NULL;
2209*f3e7f55eSRobert Mustacchi cdv = ctf_list_next(cdv)) {
2210*f3e7f55eSRobert Mustacchi if (bind == STB_GLOBAL && cdv->cdv_global == B_FALSE)
2211*f3e7f55eSRobert Mustacchi continue;
2212*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && cdv->cdv_global == B_TRUE)
2213*f3e7f55eSRobert Mustacchi continue;
2214*f3e7f55eSRobert Mustacchi if (strcmp(name, cdv->cdv_name) != 0)
2215*f3e7f55eSRobert Mustacchi continue;
2216*f3e7f55eSRobert Mustacchi if (bind == STB_LOCAL && strcmp(file, cup->cu_name) != 0)
2217*f3e7f55eSRobert Mustacchi continue;
2218*f3e7f55eSRobert Mustacchi return (cdv);
2219*f3e7f55eSRobert Mustacchi }
2220*f3e7f55eSRobert Mustacchi
2221*f3e7f55eSRobert Mustacchi return (NULL);
2222*f3e7f55eSRobert Mustacchi }
2223*f3e7f55eSRobert Mustacchi
2224*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_symtab_iter(ctf_cu_t * cup,ctf_dwarf_symtab_f * func,void * arg)2225*f3e7f55eSRobert Mustacchi ctf_dwarf_symtab_iter(ctf_cu_t *cup, ctf_dwarf_symtab_f *func, void *arg)
2226*f3e7f55eSRobert Mustacchi {
2227*f3e7f55eSRobert Mustacchi int ret;
2228*f3e7f55eSRobert Mustacchi ulong_t i;
2229*f3e7f55eSRobert Mustacchi ctf_file_t *fp = cup->cu_ctfp;
2230*f3e7f55eSRobert Mustacchi const char *file = NULL;
2231*f3e7f55eSRobert Mustacchi uintptr_t symbase = (uintptr_t)fp->ctf_symtab.cts_data;
2232*f3e7f55eSRobert Mustacchi uintptr_t strbase = (uintptr_t)fp->ctf_strtab.cts_data;
2233*f3e7f55eSRobert Mustacchi
2234*f3e7f55eSRobert Mustacchi for (i = 0; i < fp->ctf_nsyms; i++) {
2235*f3e7f55eSRobert Mustacchi const char *name;
2236*f3e7f55eSRobert Mustacchi int type;
2237*f3e7f55eSRobert Mustacchi GElf_Sym gsym;
2238*f3e7f55eSRobert Mustacchi const GElf_Sym *gsymp;
2239*f3e7f55eSRobert Mustacchi
2240*f3e7f55eSRobert Mustacchi if (fp->ctf_symtab.cts_entsize == sizeof (Elf32_Sym)) {
2241*f3e7f55eSRobert Mustacchi const Elf32_Sym *symp = (Elf32_Sym *)symbase + i;
2242*f3e7f55eSRobert Mustacchi type = ELF32_ST_TYPE(symp->st_info);
2243*f3e7f55eSRobert Mustacchi if (type == STT_FILE) {
2244*f3e7f55eSRobert Mustacchi file = (char *)(strbase + symp->st_name);
2245*f3e7f55eSRobert Mustacchi continue;
2246*f3e7f55eSRobert Mustacchi }
2247*f3e7f55eSRobert Mustacchi if (type != STT_OBJECT && type != STT_FUNC)
2248*f3e7f55eSRobert Mustacchi continue;
2249*f3e7f55eSRobert Mustacchi if (ctf_sym_valid(strbase, type, symp->st_shndx,
2250*f3e7f55eSRobert Mustacchi symp->st_value, symp->st_name) == B_FALSE)
2251*f3e7f55eSRobert Mustacchi continue;
2252*f3e7f55eSRobert Mustacchi name = (char *)(strbase + symp->st_name);
2253*f3e7f55eSRobert Mustacchi gsym.st_name = symp->st_name;
2254*f3e7f55eSRobert Mustacchi gsym.st_value = symp->st_value;
2255*f3e7f55eSRobert Mustacchi gsym.st_size = symp->st_size;
2256*f3e7f55eSRobert Mustacchi gsym.st_info = symp->st_info;
2257*f3e7f55eSRobert Mustacchi gsym.st_other = symp->st_other;
2258*f3e7f55eSRobert Mustacchi gsym.st_shndx = symp->st_shndx;
2259*f3e7f55eSRobert Mustacchi gsymp = &gsym;
2260*f3e7f55eSRobert Mustacchi } else {
2261*f3e7f55eSRobert Mustacchi const Elf64_Sym *symp = (Elf64_Sym *)symbase + i;
2262*f3e7f55eSRobert Mustacchi type = ELF64_ST_TYPE(symp->st_info);
2263*f3e7f55eSRobert Mustacchi if (type == STT_FILE) {
2264*f3e7f55eSRobert Mustacchi file = (char *)(strbase + symp->st_name);
2265*f3e7f55eSRobert Mustacchi continue;
2266*f3e7f55eSRobert Mustacchi }
2267*f3e7f55eSRobert Mustacchi if (type != STT_OBJECT && type != STT_FUNC)
2268*f3e7f55eSRobert Mustacchi continue;
2269*f3e7f55eSRobert Mustacchi if (ctf_sym_valid(strbase, type, symp->st_shndx,
2270*f3e7f55eSRobert Mustacchi symp->st_value, symp->st_name) == B_FALSE)
2271*f3e7f55eSRobert Mustacchi continue;
2272*f3e7f55eSRobert Mustacchi name = (char *)(strbase + symp->st_name);
2273*f3e7f55eSRobert Mustacchi gsymp = symp;
2274*f3e7f55eSRobert Mustacchi }
2275*f3e7f55eSRobert Mustacchi
2276*f3e7f55eSRobert Mustacchi ret = func(cup, gsymp, i, file, name, arg);
2277*f3e7f55eSRobert Mustacchi if (ret != 0)
2278*f3e7f55eSRobert Mustacchi return (ret);
2279*f3e7f55eSRobert Mustacchi }
2280*f3e7f55eSRobert Mustacchi
2281*f3e7f55eSRobert Mustacchi return (0);
2282*f3e7f55eSRobert Mustacchi }
2283*f3e7f55eSRobert Mustacchi
2284*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_conv_funcvars_cb(ctf_cu_t * cup,const GElf_Sym * symp,ulong_t idx,const char * file,const char * name,void * arg)2285*f3e7f55eSRobert Mustacchi ctf_dwarf_conv_funcvars_cb(ctf_cu_t *cup, const GElf_Sym *symp, ulong_t idx,
2286*f3e7f55eSRobert Mustacchi const char *file, const char *name, void *arg)
2287*f3e7f55eSRobert Mustacchi {
2288*f3e7f55eSRobert Mustacchi int ret, bind, type;
2289*f3e7f55eSRobert Mustacchi
2290*f3e7f55eSRobert Mustacchi bind = GELF_ST_BIND(symp->st_info);
2291*f3e7f55eSRobert Mustacchi type = GELF_ST_TYPE(symp->st_info);
2292*f3e7f55eSRobert Mustacchi
2293*f3e7f55eSRobert Mustacchi /*
2294*f3e7f55eSRobert Mustacchi * Come back to weak symbols in another pass
2295*f3e7f55eSRobert Mustacchi */
2296*f3e7f55eSRobert Mustacchi if (bind == STB_WEAK)
2297*f3e7f55eSRobert Mustacchi return (0);
2298*f3e7f55eSRobert Mustacchi
2299*f3e7f55eSRobert Mustacchi if (type == STT_OBJECT) {
2300*f3e7f55eSRobert Mustacchi ctf_dwvar_t *cdv = ctf_dwarf_match_var(cup, file, name,
2301*f3e7f55eSRobert Mustacchi bind);
2302*f3e7f55eSRobert Mustacchi ctf_dprintf("match for %s (%d): %p\n", name, idx, cdv);
2303*f3e7f55eSRobert Mustacchi if (cdv == NULL)
2304*f3e7f55eSRobert Mustacchi return (0);
2305*f3e7f55eSRobert Mustacchi ret = ctf_add_object(cup->cu_ctfp, idx, cdv->cdv_type);
2306*f3e7f55eSRobert Mustacchi ctf_dprintf("added object %s\n", name);
2307*f3e7f55eSRobert Mustacchi } else {
2308*f3e7f55eSRobert Mustacchi ctf_dwfunc_t *cdf = ctf_dwarf_match_func(cup, file, name,
2309*f3e7f55eSRobert Mustacchi bind);
2310*f3e7f55eSRobert Mustacchi if (cdf == NULL)
2311*f3e7f55eSRobert Mustacchi return (0);
2312*f3e7f55eSRobert Mustacchi ret = ctf_add_function(cup->cu_ctfp, idx, &cdf->cdf_fip,
2313*f3e7f55eSRobert Mustacchi cdf->cdf_argv);
2314*f3e7f55eSRobert Mustacchi }
2315*f3e7f55eSRobert Mustacchi
2316*f3e7f55eSRobert Mustacchi if (ret == CTF_ERR) {
2317*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2318*f3e7f55eSRobert Mustacchi }
2319*f3e7f55eSRobert Mustacchi
2320*f3e7f55eSRobert Mustacchi return (0);
2321*f3e7f55eSRobert Mustacchi }
2322*f3e7f55eSRobert Mustacchi
2323*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_conv_funcvars(ctf_cu_t * cup)2324*f3e7f55eSRobert Mustacchi ctf_dwarf_conv_funcvars(ctf_cu_t *cup)
2325*f3e7f55eSRobert Mustacchi {
2326*f3e7f55eSRobert Mustacchi return (ctf_dwarf_symtab_iter(cup, ctf_dwarf_conv_funcvars_cb, NULL));
2327*f3e7f55eSRobert Mustacchi }
2328*f3e7f55eSRobert Mustacchi
2329*f3e7f55eSRobert Mustacchi /*
2330*f3e7f55eSRobert Mustacchi * If we have a weak symbol, attempt to find the strong symbol it will resolve
2331*f3e7f55eSRobert Mustacchi * to. Note: the code where this actually happens is in sym_process() in
2332*f3e7f55eSRobert Mustacchi * cmd/sgs/libld/common/syms.c
2333*f3e7f55eSRobert Mustacchi *
2334*f3e7f55eSRobert Mustacchi * Finding the matching symbol is unfortunately not trivial. For a symbol to be
2335*f3e7f55eSRobert Mustacchi * a candidate, it must:
2336*f3e7f55eSRobert Mustacchi *
2337*f3e7f55eSRobert Mustacchi * - have the same type (function, object)
2338*f3e7f55eSRobert Mustacchi * - have the same value (address)
2339*f3e7f55eSRobert Mustacchi * - have the same size
2340*f3e7f55eSRobert Mustacchi * - not be another weak symbol
2341*f3e7f55eSRobert Mustacchi * - belong to the same section (checked via section index)
2342*f3e7f55eSRobert Mustacchi *
2343*f3e7f55eSRobert Mustacchi * To perform this check, we first iterate over the symbol table. For each weak
2344*f3e7f55eSRobert Mustacchi * symbol that we encounter, we then do a second walk over the symbol table,
2345*f3e7f55eSRobert Mustacchi * calling ctf_dwarf_conv_check_weak(). If a symbol matches the above, then it's
2346*f3e7f55eSRobert Mustacchi * either a local or global symbol. If we find a global symbol then we go with
2347*f3e7f55eSRobert Mustacchi * it and stop searching for additional matches.
2348*f3e7f55eSRobert Mustacchi *
2349*f3e7f55eSRobert Mustacchi * If instead, we find a local symbol, things are more complicated. The first
2350*f3e7f55eSRobert Mustacchi * thing we do is to try and see if we have file information about both symbols
2351*f3e7f55eSRobert Mustacchi * (STT_FILE). If they both have file information and it matches, then we treat
2352*f3e7f55eSRobert Mustacchi * that as a good match and stop searching for additional matches.
2353*f3e7f55eSRobert Mustacchi *
2354*f3e7f55eSRobert Mustacchi * Otherwise, this means we have a non-matching file and a local symbol. We
2355*f3e7f55eSRobert Mustacchi * treat this as a candidate and if we find a better match (one of the two cases
2356*f3e7f55eSRobert Mustacchi * above), use that instead. There are two different ways this can happen.
2357*f3e7f55eSRobert Mustacchi * Either this is a completely different symbol, or it's a once-global symbol
2358*f3e7f55eSRobert Mustacchi * that was scoped to local via a mapfile. In the former case, curfile is
2359*f3e7f55eSRobert Mustacchi * likely inaccurate since the linker does not preserve the needed curfile in
2360*f3e7f55eSRobert Mustacchi * the order of the symbol table (see the comments about locally scoped symbols
2361*f3e7f55eSRobert Mustacchi * in libld's update_osym()). As we can't tell this case from the former one,
2362*f3e7f55eSRobert Mustacchi * we use this symbol iff no other matching symbol is found.
2363*f3e7f55eSRobert Mustacchi *
2364*f3e7f55eSRobert Mustacchi * What we really need here is a SUNW section containing weak<->strong mappings
2365*f3e7f55eSRobert Mustacchi * that we can consume.
2366*f3e7f55eSRobert Mustacchi */
2367*f3e7f55eSRobert Mustacchi typedef struct ctf_dwarf_weak_arg {
2368*f3e7f55eSRobert Mustacchi const GElf_Sym *cweak_symp;
2369*f3e7f55eSRobert Mustacchi const char *cweak_file;
2370*f3e7f55eSRobert Mustacchi boolean_t cweak_candidate;
2371*f3e7f55eSRobert Mustacchi ulong_t cweak_idx;
2372*f3e7f55eSRobert Mustacchi } ctf_dwarf_weak_arg_t;
2373*f3e7f55eSRobert Mustacchi
2374*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_conv_check_weak(ctf_cu_t * cup,const GElf_Sym * symp,ulong_t idx,const char * file,const char * name,void * arg)2375*f3e7f55eSRobert Mustacchi ctf_dwarf_conv_check_weak(ctf_cu_t *cup, const GElf_Sym *symp,
2376*f3e7f55eSRobert Mustacchi ulong_t idx, const char *file, const char *name, void *arg)
2377*f3e7f55eSRobert Mustacchi {
2378*f3e7f55eSRobert Mustacchi ctf_dwarf_weak_arg_t *cweak = arg;
2379*f3e7f55eSRobert Mustacchi const GElf_Sym *wsymp = cweak->cweak_symp;
2380*f3e7f55eSRobert Mustacchi
2381*f3e7f55eSRobert Mustacchi ctf_dprintf("comparing weak to %s\n", name);
2382*f3e7f55eSRobert Mustacchi
2383*f3e7f55eSRobert Mustacchi if (GELF_ST_BIND(symp->st_info) == STB_WEAK) {
2384*f3e7f55eSRobert Mustacchi return (0);
2385*f3e7f55eSRobert Mustacchi }
2386*f3e7f55eSRobert Mustacchi
2387*f3e7f55eSRobert Mustacchi if (GELF_ST_TYPE(wsymp->st_info) != GELF_ST_TYPE(symp->st_info)) {
2388*f3e7f55eSRobert Mustacchi return (0);
2389*f3e7f55eSRobert Mustacchi }
2390*f3e7f55eSRobert Mustacchi
2391*f3e7f55eSRobert Mustacchi if (wsymp->st_value != symp->st_value) {
2392*f3e7f55eSRobert Mustacchi return (0);
2393*f3e7f55eSRobert Mustacchi }
2394*f3e7f55eSRobert Mustacchi
2395*f3e7f55eSRobert Mustacchi if (wsymp->st_size != symp->st_size) {
2396*f3e7f55eSRobert Mustacchi return (0);
2397*f3e7f55eSRobert Mustacchi }
2398*f3e7f55eSRobert Mustacchi
2399*f3e7f55eSRobert Mustacchi if (wsymp->st_shndx != symp->st_shndx) {
2400*f3e7f55eSRobert Mustacchi return (0);
2401*f3e7f55eSRobert Mustacchi }
2402*f3e7f55eSRobert Mustacchi
2403*f3e7f55eSRobert Mustacchi /*
2404*f3e7f55eSRobert Mustacchi * Check if it's a weak candidate.
2405*f3e7f55eSRobert Mustacchi */
2406*f3e7f55eSRobert Mustacchi if (GELF_ST_BIND(symp->st_info) == STB_LOCAL &&
2407*f3e7f55eSRobert Mustacchi (file == NULL || cweak->cweak_file == NULL ||
2408*f3e7f55eSRobert Mustacchi strcmp(file, cweak->cweak_file) != 0)) {
2409*f3e7f55eSRobert Mustacchi cweak->cweak_candidate = B_TRUE;
2410*f3e7f55eSRobert Mustacchi cweak->cweak_idx = idx;
2411*f3e7f55eSRobert Mustacchi return (0);
2412*f3e7f55eSRobert Mustacchi }
2413*f3e7f55eSRobert Mustacchi
2414*f3e7f55eSRobert Mustacchi /*
2415*f3e7f55eSRobert Mustacchi * Found a match, break.
2416*f3e7f55eSRobert Mustacchi */
2417*f3e7f55eSRobert Mustacchi cweak->cweak_idx = idx;
2418*f3e7f55eSRobert Mustacchi return (1);
2419*f3e7f55eSRobert Mustacchi }
2420*f3e7f55eSRobert Mustacchi
2421*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_duplicate_sym(ctf_cu_t * cup,ulong_t idx,ulong_t matchidx)2422*f3e7f55eSRobert Mustacchi ctf_dwarf_duplicate_sym(ctf_cu_t *cup, ulong_t idx, ulong_t matchidx)
2423*f3e7f55eSRobert Mustacchi {
2424*f3e7f55eSRobert Mustacchi ctf_id_t id = ctf_lookup_by_symbol(cup->cu_ctfp, matchidx);
2425*f3e7f55eSRobert Mustacchi
2426*f3e7f55eSRobert Mustacchi /*
2427*f3e7f55eSRobert Mustacchi * If we matched something that for some reason didn't have type data,
2428*f3e7f55eSRobert Mustacchi * we don't consider that a fatal error and silently swallow it.
2429*f3e7f55eSRobert Mustacchi */
2430*f3e7f55eSRobert Mustacchi if (id == CTF_ERR) {
2431*f3e7f55eSRobert Mustacchi if (ctf_errno(cup->cu_ctfp) == ECTF_NOTYPEDAT)
2432*f3e7f55eSRobert Mustacchi return (0);
2433*f3e7f55eSRobert Mustacchi else
2434*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2435*f3e7f55eSRobert Mustacchi }
2436*f3e7f55eSRobert Mustacchi
2437*f3e7f55eSRobert Mustacchi if (ctf_add_object(cup->cu_ctfp, idx, id) == CTF_ERR)
2438*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2439*f3e7f55eSRobert Mustacchi
2440*f3e7f55eSRobert Mustacchi return (0);
2441*f3e7f55eSRobert Mustacchi }
2442*f3e7f55eSRobert Mustacchi
2443*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_duplicate_func(ctf_cu_t * cup,ulong_t idx,ulong_t matchidx)2444*f3e7f55eSRobert Mustacchi ctf_dwarf_duplicate_func(ctf_cu_t *cup, ulong_t idx, ulong_t matchidx)
2445*f3e7f55eSRobert Mustacchi {
2446*f3e7f55eSRobert Mustacchi int ret;
2447*f3e7f55eSRobert Mustacchi ctf_funcinfo_t fip;
2448*f3e7f55eSRobert Mustacchi ctf_id_t *args = NULL;
2449*f3e7f55eSRobert Mustacchi
2450*f3e7f55eSRobert Mustacchi if (ctf_func_info(cup->cu_ctfp, matchidx, &fip) == CTF_ERR) {
2451*f3e7f55eSRobert Mustacchi if (ctf_errno(cup->cu_ctfp) == ECTF_NOFUNCDAT)
2452*f3e7f55eSRobert Mustacchi return (0);
2453*f3e7f55eSRobert Mustacchi else
2454*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2455*f3e7f55eSRobert Mustacchi }
2456*f3e7f55eSRobert Mustacchi
2457*f3e7f55eSRobert Mustacchi if (fip.ctc_argc != 0) {
2458*f3e7f55eSRobert Mustacchi args = ctf_alloc(sizeof (ctf_id_t) * fip.ctc_argc);
2459*f3e7f55eSRobert Mustacchi if (args == NULL)
2460*f3e7f55eSRobert Mustacchi return (ENOMEM);
2461*f3e7f55eSRobert Mustacchi
2462*f3e7f55eSRobert Mustacchi if (ctf_func_args(cup->cu_ctfp, matchidx, fip.ctc_argc, args) ==
2463*f3e7f55eSRobert Mustacchi CTF_ERR) {
2464*f3e7f55eSRobert Mustacchi ctf_free(args, sizeof (ctf_id_t) * fip.ctc_argc);
2465*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2466*f3e7f55eSRobert Mustacchi }
2467*f3e7f55eSRobert Mustacchi }
2468*f3e7f55eSRobert Mustacchi
2469*f3e7f55eSRobert Mustacchi ret = ctf_add_function(cup->cu_ctfp, idx, &fip, args);
2470*f3e7f55eSRobert Mustacchi if (args != NULL)
2471*f3e7f55eSRobert Mustacchi ctf_free(args, sizeof (ctf_id_t) * fip.ctc_argc);
2472*f3e7f55eSRobert Mustacchi if (ret == CTF_ERR)
2473*f3e7f55eSRobert Mustacchi return (ctf_errno(cup->cu_ctfp));
2474*f3e7f55eSRobert Mustacchi
2475*f3e7f55eSRobert Mustacchi return (0);
2476*f3e7f55eSRobert Mustacchi }
2477*f3e7f55eSRobert Mustacchi
2478*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_conv_weaks_cb(ctf_cu_t * cup,const GElf_Sym * symp,ulong_t idx,const char * file,const char * name,void * arg)2479*f3e7f55eSRobert Mustacchi ctf_dwarf_conv_weaks_cb(ctf_cu_t *cup, const GElf_Sym *symp,
2480*f3e7f55eSRobert Mustacchi ulong_t idx, const char *file, const char *name, void *arg)
2481*f3e7f55eSRobert Mustacchi {
2482*f3e7f55eSRobert Mustacchi int ret, type;
2483*f3e7f55eSRobert Mustacchi ctf_dwarf_weak_arg_t cweak;
2484*f3e7f55eSRobert Mustacchi
2485*f3e7f55eSRobert Mustacchi /*
2486*f3e7f55eSRobert Mustacchi * We only care about weak symbols.
2487*f3e7f55eSRobert Mustacchi */
2488*f3e7f55eSRobert Mustacchi if (GELF_ST_BIND(symp->st_info) != STB_WEAK)
2489*f3e7f55eSRobert Mustacchi return (0);
2490*f3e7f55eSRobert Mustacchi
2491*f3e7f55eSRobert Mustacchi type = GELF_ST_TYPE(symp->st_info);
2492*f3e7f55eSRobert Mustacchi ASSERT(type == STT_OBJECT || type == STT_FUNC);
2493*f3e7f55eSRobert Mustacchi
2494*f3e7f55eSRobert Mustacchi /*
2495*f3e7f55eSRobert Mustacchi * For each weak symbol we encounter, we need to do a second iteration
2496*f3e7f55eSRobert Mustacchi * to try and find a match. We should probably think about other
2497*f3e7f55eSRobert Mustacchi * techniques to try and save us time in the future.
2498*f3e7f55eSRobert Mustacchi */
2499*f3e7f55eSRobert Mustacchi cweak.cweak_symp = symp;
2500*f3e7f55eSRobert Mustacchi cweak.cweak_file = file;
2501*f3e7f55eSRobert Mustacchi cweak.cweak_candidate = B_FALSE;
2502*f3e7f55eSRobert Mustacchi cweak.cweak_idx = 0;
2503*f3e7f55eSRobert Mustacchi
2504*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to find weak equiv for %s\n", name);
2505*f3e7f55eSRobert Mustacchi
2506*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_symtab_iter(cup, ctf_dwarf_conv_check_weak, &cweak);
2507*f3e7f55eSRobert Mustacchi VERIFY(ret == 0 || ret == 1);
2508*f3e7f55eSRobert Mustacchi
2509*f3e7f55eSRobert Mustacchi /*
2510*f3e7f55eSRobert Mustacchi * Nothing was ever found, we're not going to add anything for this
2511*f3e7f55eSRobert Mustacchi * entry.
2512*f3e7f55eSRobert Mustacchi */
2513*f3e7f55eSRobert Mustacchi if (ret == 0 && cweak.cweak_candidate == B_FALSE) {
2514*f3e7f55eSRobert Mustacchi ctf_dprintf("found no weak match for %s\n", name);
2515*f3e7f55eSRobert Mustacchi return (0);
2516*f3e7f55eSRobert Mustacchi }
2517*f3e7f55eSRobert Mustacchi
2518*f3e7f55eSRobert Mustacchi /*
2519*f3e7f55eSRobert Mustacchi * Now, finally go and add the type based on the match.
2520*f3e7f55eSRobert Mustacchi */
2521*f3e7f55eSRobert Mustacchi if (type == STT_OBJECT) {
2522*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_duplicate_sym(cup, idx, cweak.cweak_idx);
2523*f3e7f55eSRobert Mustacchi } else {
2524*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_duplicate_func(cup, idx, cweak.cweak_idx);
2525*f3e7f55eSRobert Mustacchi }
2526*f3e7f55eSRobert Mustacchi
2527*f3e7f55eSRobert Mustacchi return (ret);
2528*f3e7f55eSRobert Mustacchi }
2529*f3e7f55eSRobert Mustacchi
2530*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_conv_weaks(ctf_cu_t * cup)2531*f3e7f55eSRobert Mustacchi ctf_dwarf_conv_weaks(ctf_cu_t *cup)
2532*f3e7f55eSRobert Mustacchi {
2533*f3e7f55eSRobert Mustacchi return (ctf_dwarf_symtab_iter(cup, ctf_dwarf_conv_weaks_cb, NULL));
2534*f3e7f55eSRobert Mustacchi }
2535*f3e7f55eSRobert Mustacchi
2536*f3e7f55eSRobert Mustacchi /* ARGSUSED */
2537*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_convert_one(void * arg,void * unused)2538*f3e7f55eSRobert Mustacchi ctf_dwarf_convert_one(void *arg, void *unused)
2539*f3e7f55eSRobert Mustacchi {
2540*f3e7f55eSRobert Mustacchi int ret;
2541*f3e7f55eSRobert Mustacchi ctf_file_t *dedup;
2542*f3e7f55eSRobert Mustacchi ctf_cu_t *cup = arg;
2543*f3e7f55eSRobert Mustacchi
2544*f3e7f55eSRobert Mustacchi ctf_dprintf("converting die: %s\n", cup->cu_name);
2545*f3e7f55eSRobert Mustacchi ctf_dprintf("max offset: %x\n", cup->cu_maxoff);
2546*f3e7f55eSRobert Mustacchi VERIFY(cup != NULL);
2547*f3e7f55eSRobert Mustacchi
2548*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_convert_die(cup, cup->cu_cu);
2549*f3e7f55eSRobert Mustacchi ctf_dprintf("ctf_dwarf_convert_die (%s) returned %d\n", cup->cu_name,
2550*f3e7f55eSRobert Mustacchi ret);
2551*f3e7f55eSRobert Mustacchi if (ret != 0) {
2552*f3e7f55eSRobert Mustacchi return (ret);
2553*f3e7f55eSRobert Mustacchi }
2554*f3e7f55eSRobert Mustacchi if (ctf_update(cup->cu_ctfp) != 0) {
2555*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, cup->cu_ctfp, 0,
2556*f3e7f55eSRobert Mustacchi "failed to update output ctf container"));
2557*f3e7f55eSRobert Mustacchi }
2558*f3e7f55eSRobert Mustacchi
2559*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_fixup_die(cup, B_FALSE);
2560*f3e7f55eSRobert Mustacchi ctf_dprintf("ctf_dwarf_fixup_die (%s) returned %d\n", cup->cu_name,
2561*f3e7f55eSRobert Mustacchi ret);
2562*f3e7f55eSRobert Mustacchi if (ret != 0) {
2563*f3e7f55eSRobert Mustacchi return (ret);
2564*f3e7f55eSRobert Mustacchi }
2565*f3e7f55eSRobert Mustacchi if (ctf_update(cup->cu_ctfp) != 0) {
2566*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, cup->cu_ctfp, 0,
2567*f3e7f55eSRobert Mustacchi "failed to update output ctf container"));
2568*f3e7f55eSRobert Mustacchi }
2569*f3e7f55eSRobert Mustacchi
2570*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_fixup_die(cup, B_TRUE);
2571*f3e7f55eSRobert Mustacchi ctf_dprintf("ctf_dwarf_fixup_die (%s) returned %d\n", cup->cu_name,
2572*f3e7f55eSRobert Mustacchi ret);
2573*f3e7f55eSRobert Mustacchi if (ret != 0) {
2574*f3e7f55eSRobert Mustacchi return (ret);
2575*f3e7f55eSRobert Mustacchi }
2576*f3e7f55eSRobert Mustacchi if (ctf_update(cup->cu_ctfp) != 0) {
2577*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, cup->cu_ctfp, 0,
2578*f3e7f55eSRobert Mustacchi "failed to update output ctf container"));
2579*f3e7f55eSRobert Mustacchi }
2580*f3e7f55eSRobert Mustacchi
2581*f3e7f55eSRobert Mustacchi
2582*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_conv_funcvars(cup)) != 0) {
2583*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, NULL, ret,
2584*f3e7f55eSRobert Mustacchi "failed to convert strong functions and variables"));
2585*f3e7f55eSRobert Mustacchi }
2586*f3e7f55eSRobert Mustacchi
2587*f3e7f55eSRobert Mustacchi if (ctf_update(cup->cu_ctfp) != 0) {
2588*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, cup->cu_ctfp, 0,
2589*f3e7f55eSRobert Mustacchi "failed to update output ctf container"));
2590*f3e7f55eSRobert Mustacchi }
2591*f3e7f55eSRobert Mustacchi
2592*f3e7f55eSRobert Mustacchi if (cup->cu_doweaks == B_TRUE) {
2593*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_conv_weaks(cup)) != 0) {
2594*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, NULL, ret,
2595*f3e7f55eSRobert Mustacchi "failed to convert weak functions and variables"));
2596*f3e7f55eSRobert Mustacchi }
2597*f3e7f55eSRobert Mustacchi
2598*f3e7f55eSRobert Mustacchi if (ctf_update(cup->cu_ctfp) != 0) {
2599*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, cup->cu_ctfp, 0,
2600*f3e7f55eSRobert Mustacchi "failed to update output ctf container"));
2601*f3e7f55eSRobert Mustacchi }
2602*f3e7f55eSRobert Mustacchi }
2603*f3e7f55eSRobert Mustacchi
2604*f3e7f55eSRobert Mustacchi ctf_phase_dump(cup->cu_ctfp, "pre-dedup");
2605*f3e7f55eSRobert Mustacchi ctf_dprintf("adding inputs for dedup\n");
2606*f3e7f55eSRobert Mustacchi if ((ret = ctf_merge_add(cup->cu_cmh, cup->cu_ctfp)) != 0) {
2607*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, NULL, ret,
2608*f3e7f55eSRobert Mustacchi "failed to add inputs for merge"));
2609*f3e7f55eSRobert Mustacchi }
2610*f3e7f55eSRobert Mustacchi
2611*f3e7f55eSRobert Mustacchi ctf_dprintf("starting merge\n");
2612*f3e7f55eSRobert Mustacchi if ((ret = ctf_merge_dedup(cup->cu_cmh, &dedup)) != 0) {
2613*f3e7f55eSRobert Mustacchi return (ctf_dwarf_error(cup, NULL, ret,
2614*f3e7f55eSRobert Mustacchi "failed to deduplicate die"));
2615*f3e7f55eSRobert Mustacchi }
2616*f3e7f55eSRobert Mustacchi ctf_close(cup->cu_ctfp);
2617*f3e7f55eSRobert Mustacchi cup->cu_ctfp = dedup;
2618*f3e7f55eSRobert Mustacchi
2619*f3e7f55eSRobert Mustacchi return (0);
2620*f3e7f55eSRobert Mustacchi }
2621*f3e7f55eSRobert Mustacchi
2622*f3e7f55eSRobert Mustacchi /*
2623*f3e7f55eSRobert Mustacchi * Note, we expect that if we're returning a ctf_file_t from one of the dies,
2624*f3e7f55eSRobert Mustacchi * say in the single node case, it's been saved and the entry here has been set
2625*f3e7f55eSRobert Mustacchi * to NULL, which ctf_close happily ignores.
2626*f3e7f55eSRobert Mustacchi */
2627*f3e7f55eSRobert Mustacchi static void
ctf_dwarf_free_die(ctf_cu_t * cup)2628*f3e7f55eSRobert Mustacchi ctf_dwarf_free_die(ctf_cu_t *cup)
2629*f3e7f55eSRobert Mustacchi {
2630*f3e7f55eSRobert Mustacchi ctf_dwfunc_t *cdf, *ndf;
2631*f3e7f55eSRobert Mustacchi ctf_dwvar_t *cdv, *ndv;
2632*f3e7f55eSRobert Mustacchi ctf_dwbitf_t *cdb, *ndb;
2633*f3e7f55eSRobert Mustacchi ctf_dwmap_t *map;
2634*f3e7f55eSRobert Mustacchi void *cookie;
2635*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
2636*f3e7f55eSRobert Mustacchi
2637*f3e7f55eSRobert Mustacchi ctf_dprintf("Beginning to free die: %p\n", cup);
2638*f3e7f55eSRobert Mustacchi cup->cu_elf = NULL;
2639*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to free name: %p\n", cup->cu_name);
2640*f3e7f55eSRobert Mustacchi if (cup->cu_name != NULL)
2641*f3e7f55eSRobert Mustacchi ctf_free(cup->cu_name, strlen(cup->cu_name) + 1);
2642*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to free merge handle: %p\n", cup->cu_cmh);
2643*f3e7f55eSRobert Mustacchi if (cup->cu_cmh != NULL) {
2644*f3e7f55eSRobert Mustacchi ctf_merge_fini(cup->cu_cmh);
2645*f3e7f55eSRobert Mustacchi cup->cu_cmh = NULL;
2646*f3e7f55eSRobert Mustacchi }
2647*f3e7f55eSRobert Mustacchi
2648*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to free functions\n");
2649*f3e7f55eSRobert Mustacchi for (cdf = ctf_list_next(&cup->cu_funcs); cdf != NULL; cdf = ndf) {
2650*f3e7f55eSRobert Mustacchi ndf = ctf_list_next(cdf);
2651*f3e7f55eSRobert Mustacchi ctf_free(cdf->cdf_name, strlen(cdf->cdf_name) + 1);
2652*f3e7f55eSRobert Mustacchi if (cdf->cdf_fip.ctc_argc != 0) {
2653*f3e7f55eSRobert Mustacchi ctf_free(cdf->cdf_argv,
2654*f3e7f55eSRobert Mustacchi sizeof (ctf_id_t) * cdf->cdf_fip.ctc_argc);
2655*f3e7f55eSRobert Mustacchi }
2656*f3e7f55eSRobert Mustacchi ctf_free(cdf, sizeof (ctf_dwfunc_t));
2657*f3e7f55eSRobert Mustacchi }
2658*f3e7f55eSRobert Mustacchi
2659*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to free variables\n");
2660*f3e7f55eSRobert Mustacchi for (cdv = ctf_list_next(&cup->cu_vars); cdv != NULL; cdv = ndv) {
2661*f3e7f55eSRobert Mustacchi ndv = ctf_list_next(cdv);
2662*f3e7f55eSRobert Mustacchi ctf_free(cdv->cdv_name, strlen(cdv->cdv_name) + 1);
2663*f3e7f55eSRobert Mustacchi ctf_free(cdv, sizeof (ctf_dwvar_t));
2664*f3e7f55eSRobert Mustacchi }
2665*f3e7f55eSRobert Mustacchi
2666*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to free bitfields\n");
2667*f3e7f55eSRobert Mustacchi for (cdb = ctf_list_next(&cup->cu_bitfields); cdb != NULL; cdb = ndb) {
2668*f3e7f55eSRobert Mustacchi ndb = ctf_list_next(cdb);
2669*f3e7f55eSRobert Mustacchi ctf_free(cdb, sizeof (ctf_dwbitf_t));
2670*f3e7f55eSRobert Mustacchi }
2671*f3e7f55eSRobert Mustacchi
2672*f3e7f55eSRobert Mustacchi ctf_dprintf("Trying to clean up dwarf_t: %p\n", cup->cu_dwarf);
2673*f3e7f55eSRobert Mustacchi (void) dwarf_finish(cup->cu_dwarf, &derr);
2674*f3e7f55eSRobert Mustacchi cup->cu_dwarf = NULL;
2675*f3e7f55eSRobert Mustacchi ctf_close(cup->cu_ctfp);
2676*f3e7f55eSRobert Mustacchi
2677*f3e7f55eSRobert Mustacchi cookie = NULL;
2678*f3e7f55eSRobert Mustacchi while ((map = avl_destroy_nodes(&cup->cu_map, &cookie)) != NULL) {
2679*f3e7f55eSRobert Mustacchi ctf_free(map, sizeof (ctf_dwmap_t));
2680*f3e7f55eSRobert Mustacchi }
2681*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2682*f3e7f55eSRobert Mustacchi cup->cu_errbuf = NULL;
2683*f3e7f55eSRobert Mustacchi }
2684*f3e7f55eSRobert Mustacchi
2685*f3e7f55eSRobert Mustacchi static void
ctf_dwarf_free_dies(ctf_cu_t * cdies,int ndies)2686*f3e7f55eSRobert Mustacchi ctf_dwarf_free_dies(ctf_cu_t *cdies, int ndies)
2687*f3e7f55eSRobert Mustacchi {
2688*f3e7f55eSRobert Mustacchi int i;
2689*f3e7f55eSRobert Mustacchi
2690*f3e7f55eSRobert Mustacchi ctf_dprintf("Beginning to free dies\n");
2691*f3e7f55eSRobert Mustacchi for (i = 0; i < ndies; i++) {
2692*f3e7f55eSRobert Mustacchi ctf_dwarf_free_die(&cdies[i]);
2693*f3e7f55eSRobert Mustacchi }
2694*f3e7f55eSRobert Mustacchi
2695*f3e7f55eSRobert Mustacchi ctf_free(cdies, sizeof (ctf_cu_t) * ndies);
2696*f3e7f55eSRobert Mustacchi }
2697*f3e7f55eSRobert Mustacchi
2698*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_count_dies(Dwarf_Debug dw,Dwarf_Error * derr,int * ndies,char * errbuf,size_t errlen)2699*f3e7f55eSRobert Mustacchi ctf_dwarf_count_dies(Dwarf_Debug dw, Dwarf_Error *derr, int *ndies,
2700*f3e7f55eSRobert Mustacchi char *errbuf, size_t errlen)
2701*f3e7f55eSRobert Mustacchi {
2702*f3e7f55eSRobert Mustacchi int ret;
2703*f3e7f55eSRobert Mustacchi Dwarf_Half vers;
2704*f3e7f55eSRobert Mustacchi Dwarf_Unsigned nexthdr;
2705*f3e7f55eSRobert Mustacchi
2706*f3e7f55eSRobert Mustacchi while ((ret = dwarf_next_cu_header(dw, NULL, &vers, NULL, NULL,
2707*f3e7f55eSRobert Mustacchi &nexthdr, derr)) != DW_DLV_NO_ENTRY) {
2708*f3e7f55eSRobert Mustacchi if (ret != DW_DLV_OK) {
2709*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
2710*f3e7f55eSRobert Mustacchi "file does not contain valid DWARF data: %s\n",
2711*f3e7f55eSRobert Mustacchi dwarf_errmsg(*derr));
2712*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2713*f3e7f55eSRobert Mustacchi }
2714*f3e7f55eSRobert Mustacchi
2715*f3e7f55eSRobert Mustacchi if (vers != DWARF_VERSION_TWO) {
2716*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
2717*f3e7f55eSRobert Mustacchi "unsupported DWARF version: %d\n", vers);
2718*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2719*f3e7f55eSRobert Mustacchi }
2720*f3e7f55eSRobert Mustacchi *ndies = *ndies + 1;
2721*f3e7f55eSRobert Mustacchi }
2722*f3e7f55eSRobert Mustacchi
2723*f3e7f55eSRobert Mustacchi if (*ndies == 0) {
2724*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
2725*f3e7f55eSRobert Mustacchi "file does not contain valid DWARF data: %s\n",
2726*f3e7f55eSRobert Mustacchi dwarf_errmsg(*derr));
2727*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2728*f3e7f55eSRobert Mustacchi }
2729*f3e7f55eSRobert Mustacchi
2730*f3e7f55eSRobert Mustacchi return (0);
2731*f3e7f55eSRobert Mustacchi }
2732*f3e7f55eSRobert Mustacchi
2733*f3e7f55eSRobert Mustacchi static int
ctf_dwarf_init_die(int fd,Elf * elf,ctf_cu_t * cup,int ndie,char * errbuf,size_t errlen)2734*f3e7f55eSRobert Mustacchi ctf_dwarf_init_die(int fd, Elf *elf, ctf_cu_t *cup, int ndie, char *errbuf,
2735*f3e7f55eSRobert Mustacchi size_t errlen)
2736*f3e7f55eSRobert Mustacchi {
2737*f3e7f55eSRobert Mustacchi int ret;
2738*f3e7f55eSRobert Mustacchi Dwarf_Unsigned hdrlen, abboff, nexthdr;
2739*f3e7f55eSRobert Mustacchi Dwarf_Half addrsz;
2740*f3e7f55eSRobert Mustacchi Dwarf_Unsigned offset = 0;
2741*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
2742*f3e7f55eSRobert Mustacchi
2743*f3e7f55eSRobert Mustacchi while ((ret = dwarf_next_cu_header(cup->cu_dwarf, &hdrlen, NULL,
2744*f3e7f55eSRobert Mustacchi &abboff, &addrsz, &nexthdr, &derr)) != DW_DLV_NO_ENTRY) {
2745*f3e7f55eSRobert Mustacchi char *name;
2746*f3e7f55eSRobert Mustacchi Dwarf_Die cu, child;
2747*f3e7f55eSRobert Mustacchi
2748*f3e7f55eSRobert Mustacchi /* Based on the counting above, we should be good to go */
2749*f3e7f55eSRobert Mustacchi VERIFY(ret == DW_DLV_OK);
2750*f3e7f55eSRobert Mustacchi if (ndie > 0) {
2751*f3e7f55eSRobert Mustacchi ndie--;
2752*f3e7f55eSRobert Mustacchi offset = nexthdr;
2753*f3e7f55eSRobert Mustacchi continue;
2754*f3e7f55eSRobert Mustacchi }
2755*f3e7f55eSRobert Mustacchi
2756*f3e7f55eSRobert Mustacchi /*
2757*f3e7f55eSRobert Mustacchi * Compilers are apparently inconsistent. Some emit no DWARF for
2758*f3e7f55eSRobert Mustacchi * empty files and others emit empty compilation unit.
2759*f3e7f55eSRobert Mustacchi */
2760*f3e7f55eSRobert Mustacchi cup->cu_voidtid = CTF_ERR;
2761*f3e7f55eSRobert Mustacchi cup->cu_longtid = CTF_ERR;
2762*f3e7f55eSRobert Mustacchi cup->cu_elf = elf;
2763*f3e7f55eSRobert Mustacchi cup->cu_maxoff = nexthdr - 1;
2764*f3e7f55eSRobert Mustacchi cup->cu_ctfp = ctf_fdcreate(fd, &ret);
2765*f3e7f55eSRobert Mustacchi if (cup->cu_ctfp == NULL) {
2766*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2767*f3e7f55eSRobert Mustacchi return (ret);
2768*f3e7f55eSRobert Mustacchi }
2769*f3e7f55eSRobert Mustacchi avl_create(&cup->cu_map, ctf_dwmap_comp, sizeof (ctf_dwmap_t),
2770*f3e7f55eSRobert Mustacchi offsetof(ctf_dwmap_t, cdm_avl));
2771*f3e7f55eSRobert Mustacchi cup->cu_errbuf = errbuf;
2772*f3e7f55eSRobert Mustacchi cup->cu_errlen = errlen;
2773*f3e7f55eSRobert Mustacchi bzero(&cup->cu_vars, sizeof (ctf_list_t));
2774*f3e7f55eSRobert Mustacchi bzero(&cup->cu_funcs, sizeof (ctf_list_t));
2775*f3e7f55eSRobert Mustacchi bzero(&cup->cu_bitfields, sizeof (ctf_list_t));
2776*f3e7f55eSRobert Mustacchi
2777*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_die_elfenc(elf, cup, errbuf,
2778*f3e7f55eSRobert Mustacchi errlen)) != 0) {
2779*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2780*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2781*f3e7f55eSRobert Mustacchi return (ret);
2782*f3e7f55eSRobert Mustacchi }
2783*f3e7f55eSRobert Mustacchi
2784*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_sib(cup, NULL, &cu)) != 0) {
2785*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2786*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2787*f3e7f55eSRobert Mustacchi return (ret);
2788*f3e7f55eSRobert Mustacchi }
2789*f3e7f55eSRobert Mustacchi if (cu == NULL) {
2790*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
2791*f3e7f55eSRobert Mustacchi "file does not contain DWARF data\n");
2792*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2793*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2794*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2795*f3e7f55eSRobert Mustacchi }
2796*f3e7f55eSRobert Mustacchi
2797*f3e7f55eSRobert Mustacchi if ((ret = ctf_dwarf_child(cup, cu, &child)) != 0) {
2798*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2799*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2800*f3e7f55eSRobert Mustacchi return (ret);
2801*f3e7f55eSRobert Mustacchi }
2802*f3e7f55eSRobert Mustacchi if (child == NULL) {
2803*f3e7f55eSRobert Mustacchi (void) snprintf(errbuf, errlen,
2804*f3e7f55eSRobert Mustacchi "file does not contain DWARF data\n");
2805*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2806*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2807*f3e7f55eSRobert Mustacchi return (ECTF_CONVBKERR);
2808*f3e7f55eSRobert Mustacchi }
2809*f3e7f55eSRobert Mustacchi
2810*f3e7f55eSRobert Mustacchi cup->cu_cuoff = offset;
2811*f3e7f55eSRobert Mustacchi cup->cu_cu = child;
2812*f3e7f55eSRobert Mustacchi
2813*f3e7f55eSRobert Mustacchi if ((cup->cu_cmh = ctf_merge_init(fd, &ret)) == NULL) {
2814*f3e7f55eSRobert Mustacchi avl_destroy(&cup->cu_map);
2815*f3e7f55eSRobert Mustacchi ctf_free(cup, sizeof (ctf_cu_t));
2816*f3e7f55eSRobert Mustacchi return (ret);
2817*f3e7f55eSRobert Mustacchi }
2818*f3e7f55eSRobert Mustacchi
2819*f3e7f55eSRobert Mustacchi if (ctf_dwarf_string(cup, cu, DW_AT_name, &name) == 0) {
2820*f3e7f55eSRobert Mustacchi size_t len = strlen(name) + 1;
2821*f3e7f55eSRobert Mustacchi char *b = basename(name);
2822*f3e7f55eSRobert Mustacchi cup->cu_name = strdup(b);
2823*f3e7f55eSRobert Mustacchi ctf_free(name, len);
2824*f3e7f55eSRobert Mustacchi }
2825*f3e7f55eSRobert Mustacchi break;
2826*f3e7f55eSRobert Mustacchi }
2827*f3e7f55eSRobert Mustacchi
2828*f3e7f55eSRobert Mustacchi return (0);
2829*f3e7f55eSRobert Mustacchi }
2830*f3e7f55eSRobert Mustacchi
2831*f3e7f55eSRobert Mustacchi
2832*f3e7f55eSRobert Mustacchi ctf_conv_status_t
ctf_dwarf_convert(int fd,Elf * elf,uint_t nthrs,int * errp,ctf_file_t ** fpp,char * errmsg,size_t errlen)2833*f3e7f55eSRobert Mustacchi ctf_dwarf_convert(int fd, Elf *elf, uint_t nthrs, int *errp, ctf_file_t **fpp,
2834*f3e7f55eSRobert Mustacchi char *errmsg, size_t errlen)
2835*f3e7f55eSRobert Mustacchi {
2836*f3e7f55eSRobert Mustacchi int err, ret, ndies, i;
2837*f3e7f55eSRobert Mustacchi Dwarf_Debug dw;
2838*f3e7f55eSRobert Mustacchi Dwarf_Error derr;
2839*f3e7f55eSRobert Mustacchi ctf_cu_t *cdies = NULL, *cup;
2840*f3e7f55eSRobert Mustacchi workq_t *wqp = NULL;
2841*f3e7f55eSRobert Mustacchi
2842*f3e7f55eSRobert Mustacchi if (errp == NULL)
2843*f3e7f55eSRobert Mustacchi errp = &err;
2844*f3e7f55eSRobert Mustacchi *errp = 0;
2845*f3e7f55eSRobert Mustacchi *fpp = NULL;
2846*f3e7f55eSRobert Mustacchi
2847*f3e7f55eSRobert Mustacchi ret = dwarf_elf_init(elf, DW_DLC_READ, NULL, NULL, &dw, &derr);
2848*f3e7f55eSRobert Mustacchi if (ret != DW_DLV_OK) {
2849*f3e7f55eSRobert Mustacchi /*
2850*f3e7f55eSRobert Mustacchi * We may want to expect DWARF data here and fail conversion if
2851*f3e7f55eSRobert Mustacchi * it's missing. In this case, if we actually have some amount
2852*f3e7f55eSRobert Mustacchi * of DWARF, but no section, for now, just go ahead and create
2853*f3e7f55eSRobert Mustacchi * an empty CTF file.
2854*f3e7f55eSRobert Mustacchi */
2855*f3e7f55eSRobert Mustacchi if (ret == DW_DLV_NO_ENTRY ||
2856*f3e7f55eSRobert Mustacchi dwarf_errno(derr) == DW_DLE_DEBUG_INFO_NULL) {
2857*f3e7f55eSRobert Mustacchi *fpp = ctf_create(errp);
2858*f3e7f55eSRobert Mustacchi return (*fpp != NULL ? CTF_CONV_SUCCESS :
2859*f3e7f55eSRobert Mustacchi CTF_CONV_ERROR);
2860*f3e7f55eSRobert Mustacchi }
2861*f3e7f55eSRobert Mustacchi (void) snprintf(errmsg, errlen,
2862*f3e7f55eSRobert Mustacchi "failed to initialize DWARF: %s\n",
2863*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
2864*f3e7f55eSRobert Mustacchi *errp = ECTF_CONVBKERR;
2865*f3e7f55eSRobert Mustacchi return (CTF_CONV_ERROR);
2866*f3e7f55eSRobert Mustacchi }
2867*f3e7f55eSRobert Mustacchi
2868*f3e7f55eSRobert Mustacchi /*
2869*f3e7f55eSRobert Mustacchi * Iterate over all of the compilation units and create a ctf_cu_t for
2870*f3e7f55eSRobert Mustacchi * each of them. This is used to determine if we have zero, one, or
2871*f3e7f55eSRobert Mustacchi * multiple dies to convert. If we have zero, that's an error. If
2872*f3e7f55eSRobert Mustacchi * there's only one die, that's the simple case. No merge needed and
2873*f3e7f55eSRobert Mustacchi * only a single Dwarf_Debug as well.
2874*f3e7f55eSRobert Mustacchi */
2875*f3e7f55eSRobert Mustacchi ndies = 0;
2876*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_count_dies(dw, &derr, &ndies, errmsg, errlen);
2877*f3e7f55eSRobert Mustacchi if (ret != 0) {
2878*f3e7f55eSRobert Mustacchi *errp = ret;
2879*f3e7f55eSRobert Mustacchi goto out;
2880*f3e7f55eSRobert Mustacchi }
2881*f3e7f55eSRobert Mustacchi
2882*f3e7f55eSRobert Mustacchi (void) dwarf_finish(dw, &derr);
2883*f3e7f55eSRobert Mustacchi cdies = ctf_alloc(sizeof (ctf_cu_t) * ndies);
2884*f3e7f55eSRobert Mustacchi if (cdies == NULL) {
2885*f3e7f55eSRobert Mustacchi *errp = ENOMEM;
2886*f3e7f55eSRobert Mustacchi return (CTF_CONV_ERROR);
2887*f3e7f55eSRobert Mustacchi }
2888*f3e7f55eSRobert Mustacchi
2889*f3e7f55eSRobert Mustacchi for (i = 0; i < ndies; i++) {
2890*f3e7f55eSRobert Mustacchi cup = &cdies[i];
2891*f3e7f55eSRobert Mustacchi ret = dwarf_elf_init(elf, DW_DLC_READ, NULL, NULL,
2892*f3e7f55eSRobert Mustacchi &cup->cu_dwarf, &derr);
2893*f3e7f55eSRobert Mustacchi if (ret != 0) {
2894*f3e7f55eSRobert Mustacchi ctf_free(cdies, sizeof (ctf_cu_t) * ndies);
2895*f3e7f55eSRobert Mustacchi (void) snprintf(errmsg, errlen,
2896*f3e7f55eSRobert Mustacchi "failed to initialize DWARF: %s\n",
2897*f3e7f55eSRobert Mustacchi dwarf_errmsg(derr));
2898*f3e7f55eSRobert Mustacchi *errp = ECTF_CONVBKERR;
2899*f3e7f55eSRobert Mustacchi return (CTF_CONV_ERROR);
2900*f3e7f55eSRobert Mustacchi }
2901*f3e7f55eSRobert Mustacchi
2902*f3e7f55eSRobert Mustacchi ret = ctf_dwarf_init_die(fd, elf, &cdies[i], i, errmsg, errlen);
2903*f3e7f55eSRobert Mustacchi if (ret != 0) {
2904*f3e7f55eSRobert Mustacchi *errp = ret;
2905*f3e7f55eSRobert Mustacchi goto out;
2906*f3e7f55eSRobert Mustacchi }
2907*f3e7f55eSRobert Mustacchi cup->cu_doweaks = ndies > 1 ? B_FALSE : B_TRUE;
2908*f3e7f55eSRobert Mustacchi }
2909*f3e7f55eSRobert Mustacchi
2910*f3e7f55eSRobert Mustacchi ctf_dprintf("found %d DWARF die(s)\n", ndies);
2911*f3e7f55eSRobert Mustacchi
2912*f3e7f55eSRobert Mustacchi /*
2913*f3e7f55eSRobert Mustacchi * If we only have one compilation unit, there's no reason to use
2914*f3e7f55eSRobert Mustacchi * multiple threads, even if the user requested them. After all, they
2915*f3e7f55eSRobert Mustacchi * just gave us an upper bound.
2916*f3e7f55eSRobert Mustacchi */
2917*f3e7f55eSRobert Mustacchi if (ndies == 1)
2918*f3e7f55eSRobert Mustacchi nthrs = 1;
2919*f3e7f55eSRobert Mustacchi
2920*f3e7f55eSRobert Mustacchi if (workq_init(&wqp, nthrs) == -1) {
2921*f3e7f55eSRobert Mustacchi *errp = errno;
2922*f3e7f55eSRobert Mustacchi goto out;
2923*f3e7f55eSRobert Mustacchi }
2924*f3e7f55eSRobert Mustacchi
2925*f3e7f55eSRobert Mustacchi for (i = 0; i < ndies; i++) {
2926*f3e7f55eSRobert Mustacchi cup = &cdies[i];
2927*f3e7f55eSRobert Mustacchi ctf_dprintf("adding die %s: %p, %x %x\n", cup->cu_name,
2928*f3e7f55eSRobert Mustacchi cup->cu_cu, cup->cu_cuoff, cup->cu_maxoff);
2929*f3e7f55eSRobert Mustacchi if (workq_add(wqp, cup) == -1) {
2930*f3e7f55eSRobert Mustacchi *errp = errno;
2931*f3e7f55eSRobert Mustacchi goto out;
2932*f3e7f55eSRobert Mustacchi }
2933*f3e7f55eSRobert Mustacchi }
2934*f3e7f55eSRobert Mustacchi
2935*f3e7f55eSRobert Mustacchi ret = workq_work(wqp, ctf_dwarf_convert_one, NULL, errp);
2936*f3e7f55eSRobert Mustacchi if (ret == WORKQ_ERROR) {
2937*f3e7f55eSRobert Mustacchi *errp = errno;
2938*f3e7f55eSRobert Mustacchi goto out;
2939*f3e7f55eSRobert Mustacchi } else if (ret == WORKQ_UERROR) {
2940*f3e7f55eSRobert Mustacchi ctf_dprintf("internal convert failed: %s\n",
2941*f3e7f55eSRobert Mustacchi ctf_errmsg(*errp));
2942*f3e7f55eSRobert Mustacchi goto out;
2943*f3e7f55eSRobert Mustacchi }
2944*f3e7f55eSRobert Mustacchi
2945*f3e7f55eSRobert Mustacchi ctf_dprintf("Determining next phase: have %d dies\n", ndies);
2946*f3e7f55eSRobert Mustacchi if (ndies != 1) {
2947*f3e7f55eSRobert Mustacchi ctf_merge_t *cmp;
2948*f3e7f55eSRobert Mustacchi
2949*f3e7f55eSRobert Mustacchi cmp = ctf_merge_init(fd, &ret);
2950*f3e7f55eSRobert Mustacchi if (cmp == NULL) {
2951*f3e7f55eSRobert Mustacchi *errp = ret;
2952*f3e7f55eSRobert Mustacchi goto out;
2953*f3e7f55eSRobert Mustacchi }
2954*f3e7f55eSRobert Mustacchi
2955*f3e7f55eSRobert Mustacchi ctf_dprintf("setting threads\n");
2956*f3e7f55eSRobert Mustacchi if ((ret = ctf_merge_set_nthreads(cmp, nthrs)) != 0) {
2957*f3e7f55eSRobert Mustacchi ctf_merge_fini(cmp);
2958*f3e7f55eSRobert Mustacchi *errp = ret;
2959*f3e7f55eSRobert Mustacchi goto out;
2960*f3e7f55eSRobert Mustacchi }
2961*f3e7f55eSRobert Mustacchi
2962*f3e7f55eSRobert Mustacchi ctf_dprintf("adding dies\n");
2963*f3e7f55eSRobert Mustacchi for (i = 0; i < ndies; i++) {
2964*f3e7f55eSRobert Mustacchi cup = &cdies[i];
2965*f3e7f55eSRobert Mustacchi if ((ret = ctf_merge_add(cmp, cup->cu_ctfp)) != 0) {
2966*f3e7f55eSRobert Mustacchi ctf_merge_fini(cmp);
2967*f3e7f55eSRobert Mustacchi *errp = ret;
2968*f3e7f55eSRobert Mustacchi goto out;
2969*f3e7f55eSRobert Mustacchi }
2970*f3e7f55eSRobert Mustacchi }
2971*f3e7f55eSRobert Mustacchi
2972*f3e7f55eSRobert Mustacchi ctf_dprintf("performing merge\n");
2973*f3e7f55eSRobert Mustacchi ret = ctf_merge_merge(cmp, fpp);
2974*f3e7f55eSRobert Mustacchi if (ret != 0) {
2975*f3e7f55eSRobert Mustacchi ctf_dprintf("failed merge!\n");
2976*f3e7f55eSRobert Mustacchi *fpp = NULL;
2977*f3e7f55eSRobert Mustacchi ctf_merge_fini(cmp);
2978*f3e7f55eSRobert Mustacchi *errp = ret;
2979*f3e7f55eSRobert Mustacchi goto out;
2980*f3e7f55eSRobert Mustacchi }
2981*f3e7f55eSRobert Mustacchi ctf_merge_fini(cmp);
2982*f3e7f55eSRobert Mustacchi *errp = 0;
2983*f3e7f55eSRobert Mustacchi ctf_dprintf("successfully converted!\n");
2984*f3e7f55eSRobert Mustacchi } else {
2985*f3e7f55eSRobert Mustacchi *errp = 0;
2986*f3e7f55eSRobert Mustacchi *fpp = cdies->cu_ctfp;
2987*f3e7f55eSRobert Mustacchi cdies->cu_ctfp = NULL;
2988*f3e7f55eSRobert Mustacchi ctf_dprintf("successfully converted!\n");
2989*f3e7f55eSRobert Mustacchi }
2990*f3e7f55eSRobert Mustacchi
2991*f3e7f55eSRobert Mustacchi out:
2992*f3e7f55eSRobert Mustacchi workq_fini(wqp);
2993*f3e7f55eSRobert Mustacchi ctf_dwarf_free_dies(cdies, ndies);
2994*f3e7f55eSRobert Mustacchi return (*fpp != NULL ? CTF_CONV_SUCCESS : CTF_CONV_ERROR);
2995*f3e7f55eSRobert Mustacchi }
2996