]>
Commit | Line | Data |
---|---|---|
35f5886e | 1 | /* DWARF debugging format support for GDB. |
1ab3bf1b JG |
2 | Copyright (C) 1991, 1992 Free Software Foundation, Inc. |
3 | Written by Fred Fish at Cygnus Support. Portions based on dbxread.c, | |
35f5886e FF |
4 | mipsread.c, coffread.c, and dwarfread.c from a Data General SVR4 gdb port. |
5 | ||
6 | This file is part of GDB. | |
7 | ||
8 | This program is free software; you can redistribute it and/or modify | |
9 | it under the terms of the GNU General Public License as published by | |
10 | the Free Software Foundation; either version 2 of the License, or | |
11 | (at your option) any later version. | |
12 | ||
13 | This program is distributed in the hope that it will be useful, | |
14 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
15 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
16 | GNU General Public License for more details. | |
17 | ||
18 | You should have received a copy of the GNU General Public License | |
19 | along with this program; if not, write to the Free Software | |
20 | Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ | |
21 | ||
22 | /* | |
23 | ||
9745ba07 JK |
24 | FIXME: Do we need to generate dependencies in partial symtabs? |
25 | (Perhaps we don't need to). | |
35f5886e | 26 | |
35f5886e FF |
27 | FIXME: Resolve minor differences between what information we put in the |
28 | partial symbol table and what dbxread puts in. For example, we don't yet | |
29 | put enum constants there. And dbxread seems to invent a lot of typedefs | |
30 | we never see. Use the new printpsym command to see the partial symbol table | |
31 | contents. | |
32 | ||
35f5886e FF |
33 | FIXME: Figure out a better way to tell gdb about the name of the function |
34 | contain the user's entry point (I.E. main()) | |
35 | ||
35f5886e FF |
36 | FIXME: See other FIXME's and "ifdef 0" scattered throughout the code for |
37 | other things to work on, if you get bored. :-) | |
38 | ||
39 | */ | |
4d315a07 | 40 | |
d747e0af | 41 | #include "defs.h" |
35f5886e FF |
42 | #include "bfd.h" |
43 | #include "symtab.h" | |
1ab3bf1b | 44 | #include "gdbtypes.h" |
35f5886e | 45 | #include "symfile.h" |
5e2e79f8 | 46 | #include "objfiles.h" |
791e4513 | 47 | #include <time.h> /* For time_t in libbfd.h. */ |
ddf5d7e8 | 48 | #include <sys/types.h> /* For time_t, if not in time.h. */ |
13b5a7ff | 49 | #include "libbfd.h" /* FIXME Secret Internal BFD stuff (bfd_read) */ |
f5f0679a | 50 | #include "elf/dwarf.h" |
4d315a07 | 51 | #include "buildsym.h" |
2dbde378 | 52 | #include "demangle.h" |
bf229b4e FF |
53 | #include "expression.h" /* Needed for enum exp_opcode in language.h, sigh... */ |
54 | #include "language.h" | |
51b80b00 | 55 | #include "complaints.h" |
35f5886e | 56 | |
d5931d79 JG |
57 | #include <fcntl.h> |
58 | #include <string.h> | |
603900c7 | 59 | #include <sys/types.h> |
51b80b00 | 60 | |
d5931d79 JG |
61 | #ifndef NO_SYS_FILE |
62 | #include <sys/file.h> | |
63 | #endif | |
64 | ||
65 | /* FIXME -- convert this to SEEK_SET a la POSIX, move to config files. */ | |
66 | #ifndef L_SET | |
67 | #define L_SET 0 | |
68 | #endif | |
69 | ||
51b80b00 FF |
70 | /* Some macros to provide DIE info for complaints. */ |
71 | ||
72 | #define DIE_ID (curdie!=NULL ? curdie->die_ref : 0) | |
73 | #define DIE_NAME (curdie!=NULL && curdie->at_name!=NULL) ? curdie->at_name : "" | |
74 | ||
75 | /* Complaints that can be issued during DWARF debug info reading. */ | |
76 | ||
77 | struct complaint no_bfd_get_N = | |
78 | { | |
79 | "DIE @ 0x%x \"%s\", no bfd support for %d byte data object", 0, 0 | |
80 | }; | |
81 | ||
82 | struct complaint malformed_die = | |
83 | { | |
84 | "DIE @ 0x%x \"%s\", malformed DIE, bad length (%d bytes)", 0, 0 | |
85 | }; | |
86 | ||
87 | struct complaint bad_die_ref = | |
88 | { | |
89 | "DIE @ 0x%x \"%s\", reference to DIE (0x%x) outside compilation unit", 0, 0 | |
90 | }; | |
91 | ||
92 | struct complaint unknown_attribute_form = | |
93 | { | |
94 | "DIE @ 0x%x \"%s\", unknown attribute form (0x%x)", 0, 0 | |
95 | }; | |
96 | ||
97 | struct complaint unknown_attribute_length = | |
98 | { | |
99 | "DIE @ 0x%x \"%s\", unknown attribute length, skipped remaining attributes", 0, 0 | |
100 | }; | |
101 | ||
102 | struct complaint unexpected_fund_type = | |
103 | { | |
104 | "DIE @ 0x%x \"%s\", unexpected fundamental type 0x%x", 0, 0 | |
105 | }; | |
106 | ||
107 | struct complaint unknown_type_modifier = | |
108 | { | |
109 | "DIE @ 0x%x \"%s\", unknown type modifier %u", 0, 0 | |
110 | }; | |
111 | ||
112 | struct complaint volatile_ignored = | |
113 | { | |
114 | "DIE @ 0x%x \"%s\", type modifier 'volatile' ignored", 0, 0 | |
115 | }; | |
116 | ||
117 | struct complaint const_ignored = | |
118 | { | |
119 | "DIE @ 0x%x \"%s\", type modifier 'const' ignored", 0, 0 | |
120 | }; | |
121 | ||
122 | struct complaint botched_modified_type = | |
123 | { | |
124 | "DIE @ 0x%x \"%s\", botched modified type decoding (mtype 0x%x)", 0, 0 | |
125 | }; | |
126 | ||
127 | struct complaint op_deref2 = | |
128 | { | |
129 | "DIE @ 0x%x \"%s\", OP_DEREF2 address 0x%x not handled", 0, 0 | |
130 | }; | |
131 | ||
132 | struct complaint op_deref4 = | |
133 | { | |
134 | "DIE @ 0x%x \"%s\", OP_DEREF4 address 0x%x not handled", 0, 0 | |
135 | }; | |
136 | ||
137 | struct complaint basereg_not_handled = | |
138 | { | |
139 | "DIE @ 0x%x \"%s\", BASEREG %d not handled", 0, 0 | |
140 | }; | |
141 | ||
142 | struct complaint dup_user_type_allocation = | |
143 | { | |
144 | "DIE @ 0x%x \"%s\", internal error: duplicate user type allocation", 0, 0 | |
145 | }; | |
146 | ||
147 | struct complaint dup_user_type_definition = | |
148 | { | |
149 | "DIE @ 0x%x \"%s\", internal error: duplicate user type definition", 0, 0 | |
150 | }; | |
151 | ||
152 | struct complaint missing_tag = | |
153 | { | |
154 | "DIE @ 0x%x \"%s\", missing class, structure, or union tag", 0, 0 | |
155 | }; | |
156 | ||
157 | struct complaint bad_array_element_type = | |
158 | { | |
159 | "DIE @ 0x%x \"%s\", bad array element type attribute 0x%x", 0, 0 | |
160 | }; | |
161 | ||
162 | struct complaint subscript_data_items = | |
163 | { | |
164 | "DIE @ 0x%x \"%s\", can't decode subscript data items", 0, 0 | |
165 | }; | |
166 | ||
167 | struct complaint unhandled_array_subscript_format = | |
168 | { | |
169 | "DIE @ 0x%x \"%s\", array subscript format 0x%x not handled yet", 0, 0 | |
170 | }; | |
171 | ||
172 | struct complaint unknown_array_subscript_format = | |
173 | { | |
174 | "DIE @ 0x%x \"%s\", unknown array subscript format %x", 0, 0 | |
175 | }; | |
176 | ||
177 | struct complaint not_row_major = | |
178 | { | |
179 | "DIE @ 0x%x \"%s\", array not row major; not handled correctly", 0, 0 | |
180 | }; | |
35f5886e | 181 | |
13b5a7ff | 182 | typedef unsigned int DIE_REF; /* Reference to a DIE */ |
35f5886e | 183 | |
4d315a07 FF |
184 | #ifndef GCC_PRODUCER |
185 | #define GCC_PRODUCER "GNU C " | |
186 | #endif | |
35f5886e | 187 | |
2dbde378 FF |
188 | #ifndef GPLUS_PRODUCER |
189 | #define GPLUS_PRODUCER "GNU C++ " | |
190 | #endif | |
191 | ||
192 | #ifndef LCC_PRODUCER | |
3dc755fb | 193 | #define LCC_PRODUCER "NCR C/C++" |
2dbde378 FF |
194 | #endif |
195 | ||
93bb6e65 FF |
196 | #ifndef CHILL_PRODUCER |
197 | #define CHILL_PRODUCER "GNU Chill " | |
198 | #endif | |
93bb6e65 | 199 | |
13b5a7ff FF |
200 | /* Flags to target_to_host() that tell whether or not the data object is |
201 | expected to be signed. Used, for example, when fetching a signed | |
202 | integer in the target environment which is used as a signed integer | |
203 | in the host environment, and the two environments have different sized | |
204 | ints. In this case, *somebody* has to sign extend the smaller sized | |
205 | int. */ | |
206 | ||
207 | #define GET_UNSIGNED 0 /* No sign extension required */ | |
208 | #define GET_SIGNED 1 /* Sign extension required */ | |
209 | ||
210 | /* Defines for things which are specified in the document "DWARF Debugging | |
211 | Information Format" published by UNIX International, Programming Languages | |
212 | SIG. These defines are based on revision 1.0.0, Jan 20, 1992. */ | |
213 | ||
214 | #define SIZEOF_DIE_LENGTH 4 | |
215 | #define SIZEOF_DIE_TAG 2 | |
216 | #define SIZEOF_ATTRIBUTE 2 | |
217 | #define SIZEOF_FORMAT_SPECIFIER 1 | |
218 | #define SIZEOF_FMT_FT 2 | |
219 | #define SIZEOF_LINETBL_LENGTH 4 | |
220 | #define SIZEOF_LINETBL_LINENO 4 | |
221 | #define SIZEOF_LINETBL_STMT 2 | |
222 | #define SIZEOF_LINETBL_DELTA 4 | |
223 | #define SIZEOF_LOC_ATOM_CODE 1 | |
224 | ||
225 | #define FORM_FROM_ATTR(attr) ((attr) & 0xF) /* Implicitly specified */ | |
226 | ||
227 | /* Macros that return the sizes of various types of data in the target | |
228 | environment. | |
229 | ||
2d6d969c FF |
230 | FIXME: Currently these are just compile time constants (as they are in |
231 | other parts of gdb as well). They need to be able to get the right size | |
232 | either from the bfd or possibly from the DWARF info. It would be nice if | |
233 | the DWARF producer inserted DIES that describe the fundamental types in | |
234 | the target environment into the DWARF info, similar to the way dbx stabs | |
235 | producers produce information about their fundamental types. */ | |
236 | ||
237 | #define TARGET_FT_POINTER_SIZE(objfile) (TARGET_PTR_BIT / TARGET_CHAR_BIT) | |
238 | #define TARGET_FT_LONG_SIZE(objfile) (TARGET_LONG_BIT / TARGET_CHAR_BIT) | |
95967e73 | 239 | |
768be6e1 FF |
240 | /* The Amiga SVR4 header file <dwarf.h> defines AT_element_list as a |
241 | FORM_BLOCK2, and this is the value emitted by the AT&T compiler. | |
242 | However, the Issue 2 DWARF specification from AT&T defines it as | |
243 | a FORM_BLOCK4, as does the latest specification from UI/PLSIG. | |
244 | For backwards compatibility with the AT&T compiler produced executables | |
245 | we define AT_short_element_list for this variant. */ | |
246 | ||
247 | #define AT_short_element_list (0x00f0|FORM_BLOCK2) | |
248 | ||
249 | /* External variables referenced. */ | |
250 | ||
35f5886e | 251 | extern int info_verbose; /* From main.c; nonzero => verbose */ |
318bf84f | 252 | extern char *warning_pre_print; /* From utils.c */ |
35f5886e FF |
253 | |
254 | /* The DWARF debugging information consists of two major pieces, | |
255 | one is a block of DWARF Information Entries (DIE's) and the other | |
256 | is a line number table. The "struct dieinfo" structure contains | |
257 | the information for a single DIE, the one currently being processed. | |
258 | ||
259 | In order to make it easier to randomly access the attribute fields | |
13b5a7ff | 260 | of the current DIE, which are specifically unordered within the DIE, |
35f5886e FF |
261 | each DIE is scanned and an instance of the "struct dieinfo" |
262 | structure is initialized. | |
263 | ||
264 | Initialization is done in two levels. The first, done by basicdieinfo(), | |
265 | just initializes those fields that are vital to deciding whether or not | |
266 | to use this DIE, how to skip past it, etc. The second, done by the | |
267 | function completedieinfo(), fills in the rest of the information. | |
268 | ||
269 | Attributes which have block forms are not interpreted at the time | |
270 | the DIE is scanned, instead we just save pointers to the start | |
271 | of their value fields. | |
272 | ||
273 | Some fields have a flag <name>_p that is set when the value of the | |
274 | field is valid (I.E. we found a matching attribute in the DIE). Since | |
275 | we may want to test for the presence of some attributes in the DIE, | |
2d6186f4 | 276 | such as AT_low_pc, without restricting the values of the field, |
35f5886e FF |
277 | we need someway to note that we found such an attribute. |
278 | ||
279 | */ | |
280 | ||
281 | typedef char BLOCK; | |
282 | ||
283 | struct dieinfo { | |
13b5a7ff FF |
284 | char * die; /* Pointer to the raw DIE data */ |
285 | unsigned long die_length; /* Length of the raw DIE data */ | |
286 | DIE_REF die_ref; /* Offset of this DIE */ | |
287 | unsigned short die_tag; /* Tag for this DIE */ | |
288 | unsigned long at_padding; | |
289 | unsigned long at_sibling; | |
290 | BLOCK * at_location; | |
291 | char * at_name; | |
292 | unsigned short at_fund_type; | |
293 | BLOCK * at_mod_fund_type; | |
294 | unsigned long at_user_def_type; | |
295 | BLOCK * at_mod_u_d_type; | |
296 | unsigned short at_ordering; | |
297 | BLOCK * at_subscr_data; | |
298 | unsigned long at_byte_size; | |
299 | unsigned short at_bit_offset; | |
300 | unsigned long at_bit_size; | |
301 | BLOCK * at_element_list; | |
302 | unsigned long at_stmt_list; | |
303 | unsigned long at_low_pc; | |
304 | unsigned long at_high_pc; | |
305 | unsigned long at_language; | |
306 | unsigned long at_member; | |
307 | unsigned long at_discr; | |
308 | BLOCK * at_discr_value; | |
13b5a7ff FF |
309 | BLOCK * at_string_length; |
310 | char * at_comp_dir; | |
311 | char * at_producer; | |
13b5a7ff FF |
312 | unsigned long at_start_scope; |
313 | unsigned long at_stride_size; | |
314 | unsigned long at_src_info; | |
315 | char * at_prototyped; | |
316 | unsigned int has_at_low_pc:1; | |
317 | unsigned int has_at_stmt_list:1; | |
50055e94 | 318 | unsigned int has_at_byte_size:1; |
13b5a7ff | 319 | unsigned int short_element_list:1; |
35f5886e FF |
320 | }; |
321 | ||
322 | static int diecount; /* Approximate count of dies for compilation unit */ | |
323 | static struct dieinfo *curdie; /* For warnings and such */ | |
324 | ||
325 | static char *dbbase; /* Base pointer to dwarf info */ | |
4090fe1c | 326 | static int dbsize; /* Size of dwarf info in bytes */ |
35f5886e FF |
327 | static int dbroff; /* Relative offset from start of .debug section */ |
328 | static char *lnbase; /* Base pointer to line section */ | |
329 | static int isreg; /* Kludge to identify register variables */ | |
a1c8d76e JK |
330 | /* Kludge to identify basereg references. Nonzero if we have an offset |
331 | relative to a basereg. */ | |
332 | static int offreg; | |
333 | /* Which base register is it relative to? */ | |
334 | static int basereg; | |
35f5886e | 335 | |
2670f34d | 336 | /* This value is added to each symbol value. FIXME: Generalize to |
3c02636b JK |
337 | the section_offsets structure used by dbxread (once this is done, |
338 | pass the appropriate section number to end_symtab). */ | |
35f5886e FF |
339 | static CORE_ADDR baseaddr; /* Add to each symbol value */ |
340 | ||
2670f34d JG |
341 | /* The section offsets used in the current psymtab or symtab. FIXME, |
342 | only used to pass one value (baseaddr) at the moment. */ | |
343 | static struct section_offsets *base_section_offsets; | |
344 | ||
35f5886e FF |
345 | /* Each partial symbol table entry contains a pointer to private data for the |
346 | read_symtab() function to use when expanding a partial symbol table entry | |
347 | to a full symbol table entry. For DWARF debugging info, this data is | |
348 | contained in the following structure and macros are provided for easy | |
349 | access to the members given a pointer to a partial symbol table entry. | |
350 | ||
351 | dbfoff Always the absolute file offset to the start of the ".debug" | |
352 | section for the file containing the DIE's being accessed. | |
353 | ||
354 | dbroff Relative offset from the start of the ".debug" access to the | |
355 | first DIE to be accessed. When building the partial symbol | |
356 | table, this value will be zero since we are accessing the | |
357 | entire ".debug" section. When expanding a partial symbol | |
358 | table entry, this value will be the offset to the first | |
359 | DIE for the compilation unit containing the symbol that | |
360 | triggers the expansion. | |
361 | ||
362 | dblength The size of the chunk of DIE's being examined, in bytes. | |
363 | ||
364 | lnfoff The absolute file offset to the line table fragment. Ignored | |
365 | when building partial symbol tables, but used when expanding | |
366 | them, and contains the absolute file offset to the fragment | |
367 | of the ".line" section containing the line numbers for the | |
368 | current compilation unit. | |
369 | */ | |
370 | ||
371 | struct dwfinfo { | |
d5931d79 | 372 | file_ptr dbfoff; /* Absolute file offset to start of .debug section */ |
35f5886e FF |
373 | int dbroff; /* Relative offset from start of .debug section */ |
374 | int dblength; /* Size of the chunk of DIE's being examined */ | |
d5931d79 | 375 | file_ptr lnfoff; /* Absolute file offset to line table fragment */ |
35f5886e FF |
376 | }; |
377 | ||
378 | #define DBFOFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->dbfoff) | |
379 | #define DBROFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->dbroff) | |
380 | #define DBLENGTH(p) (((struct dwfinfo *)((p)->read_symtab_private))->dblength) | |
381 | #define LNFOFF(p) (((struct dwfinfo *)((p)->read_symtab_private))->lnfoff) | |
382 | ||
4d315a07 FF |
383 | /* The generic symbol table building routines have separate lists for |
384 | file scope symbols and all all other scopes (local scopes). So | |
385 | we need to select the right one to pass to add_symbol_to_list(). | |
386 | We do it by keeping a pointer to the correct list in list_in_scope. | |
35f5886e | 387 | |
4d315a07 FF |
388 | FIXME: The original dwarf code just treated the file scope as the first |
389 | local scope, and all other local scopes as nested local scopes, and worked | |
390 | fine. Check to see if we really need to distinguish these in buildsym.c */ | |
35f5886e | 391 | |
99140c31 | 392 | struct pending **list_in_scope = &file_symbols; |
35f5886e FF |
393 | |
394 | /* DIES which have user defined types or modified user defined types refer to | |
395 | other DIES for the type information. Thus we need to associate the offset | |
396 | of a DIE for a user defined type with a pointer to the type information. | |
397 | ||
398 | Originally this was done using a simple but expensive algorithm, with an | |
399 | array of unsorted structures, each containing an offset/type-pointer pair. | |
400 | This array was scanned linearly each time a lookup was done. The result | |
401 | was that gdb was spending over half it's startup time munging through this | |
402 | array of pointers looking for a structure that had the right offset member. | |
403 | ||
404 | The second attempt used the same array of structures, but the array was | |
405 | sorted using qsort each time a new offset/type was recorded, and a binary | |
406 | search was used to find the type pointer for a given DIE offset. This was | |
407 | even slower, due to the overhead of sorting the array each time a new | |
408 | offset/type pair was entered. | |
409 | ||
410 | The third attempt uses a fixed size array of type pointers, indexed by a | |
411 | value derived from the DIE offset. Since the minimum DIE size is 4 bytes, | |
412 | we can divide any DIE offset by 4 to obtain a unique index into this fixed | |
413 | size array. Since each element is a 4 byte pointer, it takes exactly as | |
414 | much memory to hold this array as to hold the DWARF info for a given | |
bf229b4e FF |
415 | compilation unit. But it gets freed as soon as we are done with it. |
416 | This has worked well in practice, as a reasonable tradeoff between memory | |
417 | consumption and speed, without having to resort to much more complicated | |
418 | algorithms. */ | |
35f5886e FF |
419 | |
420 | static struct type **utypes; /* Pointer to array of user type pointers */ | |
421 | static int numutypes; /* Max number of user type pointers */ | |
422 | ||
bf229b4e FF |
423 | /* Maintain an array of referenced fundamental types for the current |
424 | compilation unit being read. For DWARF version 1, we have to construct | |
425 | the fundamental types on the fly, since no information about the | |
426 | fundamental types is supplied. Each such fundamental type is created by | |
427 | calling a language dependent routine to create the type, and then a | |
428 | pointer to that type is then placed in the array at the index specified | |
429 | by it's FT_<TYPENAME> value. The array has a fixed size set by the | |
430 | FT_NUM_MEMBERS compile time constant, which is the number of predefined | |
431 | fundamental types gdb knows how to construct. */ | |
432 | ||
433 | static struct type *ftypes[FT_NUM_MEMBERS]; /* Fundamental types */ | |
434 | ||
95ff889e FF |
435 | /* Record the language for the compilation unit which is currently being |
436 | processed. We know it once we have seen the TAG_compile_unit DIE, | |
437 | and we need it while processing the DIE's for that compilation unit. | |
438 | It is eventually saved in the symtab structure, but we don't finalize | |
439 | the symtab struct until we have processed all the DIE's for the | |
bf229b4e FF |
440 | compilation unit. We also need to get and save a pointer to the |
441 | language struct for this language, so we can call the language | |
442 | dependent routines for doing things such as creating fundamental | |
443 | types. */ | |
95ff889e FF |
444 | |
445 | static enum language cu_language; | |
bf229b4e | 446 | static const struct language_defn *cu_language_defn; |
95ff889e | 447 | |
35f5886e | 448 | /* Forward declarations of static functions so we don't have to worry |
1ab3bf1b JG |
449 | about ordering within this file. */ |
450 | ||
13b5a7ff FF |
451 | static int |
452 | attribute_size PARAMS ((unsigned int)); | |
453 | ||
454 | static unsigned long | |
455 | target_to_host PARAMS ((char *, int, int, struct objfile *)); | |
95967e73 | 456 | |
1ab3bf1b JG |
457 | static void |
458 | add_enum_psymbol PARAMS ((struct dieinfo *, struct objfile *)); | |
459 | ||
2dbde378 FF |
460 | static void |
461 | handle_producer PARAMS ((char *)); | |
462 | ||
1ab3bf1b JG |
463 | static void |
464 | read_file_scope PARAMS ((struct dieinfo *, char *, char *, struct objfile *)); | |
35f5886e | 465 | |
58050209 | 466 | static void |
1ab3bf1b | 467 | read_func_scope PARAMS ((struct dieinfo *, char *, char *, struct objfile *)); |
35f5886e FF |
468 | |
469 | static void | |
1ab3bf1b JG |
470 | read_lexical_block_scope PARAMS ((struct dieinfo *, char *, char *, |
471 | struct objfile *)); | |
35f5886e | 472 | |
35f5886e | 473 | static void |
1ab3bf1b | 474 | scan_partial_symbols PARAMS ((char *, char *, struct objfile *)); |
35f5886e | 475 | |
35f5886e | 476 | static void |
d5931d79 JG |
477 | scan_compilation_units PARAMS ((char *, char *, file_ptr, |
478 | file_ptr, struct objfile *)); | |
35f5886e FF |
479 | |
480 | static void | |
1ab3bf1b | 481 | add_partial_symbol PARAMS ((struct dieinfo *, struct objfile *)); |
35f5886e FF |
482 | |
483 | static void | |
1ab3bf1b | 484 | init_psymbol_list PARAMS ((struct objfile *, int)); |
35f5886e FF |
485 | |
486 | static void | |
95967e73 | 487 | basicdieinfo PARAMS ((struct dieinfo *, char *, struct objfile *)); |
35f5886e FF |
488 | |
489 | static void | |
95967e73 | 490 | completedieinfo PARAMS ((struct dieinfo *, struct objfile *)); |
1ab3bf1b JG |
491 | |
492 | static void | |
493 | dwarf_psymtab_to_symtab PARAMS ((struct partial_symtab *)); | |
494 | ||
495 | static void | |
496 | psymtab_to_symtab_1 PARAMS ((struct partial_symtab *)); | |
35f5886e | 497 | |
c701c14c | 498 | static void |
1ab3bf1b | 499 | read_ofile_symtab PARAMS ((struct partial_symtab *)); |
35f5886e FF |
500 | |
501 | static void | |
1ab3bf1b | 502 | process_dies PARAMS ((char *, char *, struct objfile *)); |
35f5886e FF |
503 | |
504 | static void | |
1ab3bf1b JG |
505 | read_structure_scope PARAMS ((struct dieinfo *, char *, char *, |
506 | struct objfile *)); | |
35f5886e FF |
507 | |
508 | static struct type * | |
84ffdec2 | 509 | decode_array_element_type PARAMS ((char *)); |
35f5886e FF |
510 | |
511 | static struct type * | |
85f0a848 | 512 | decode_subscript_data_item PARAMS ((char *, char *)); |
35f5886e FF |
513 | |
514 | static void | |
1ab3bf1b | 515 | dwarf_read_array_type PARAMS ((struct dieinfo *)); |
35f5886e | 516 | |
9e4c1921 | 517 | static void |
1ab3bf1b | 518 | read_tag_pointer_type PARAMS ((struct dieinfo *dip)); |
9e4c1921 | 519 | |
ec16f701 FF |
520 | static void |
521 | read_tag_string_type PARAMS ((struct dieinfo *dip)); | |
522 | ||
35f5886e | 523 | static void |
1ab3bf1b | 524 | read_subroutine_type PARAMS ((struct dieinfo *, char *, char *)); |
35f5886e FF |
525 | |
526 | static void | |
1ab3bf1b | 527 | read_enumeration PARAMS ((struct dieinfo *, char *, char *, struct objfile *)); |
35f5886e FF |
528 | |
529 | static struct type * | |
1ab3bf1b | 530 | struct_type PARAMS ((struct dieinfo *, char *, char *, struct objfile *)); |
35f5886e FF |
531 | |
532 | static struct type * | |
1ab3bf1b | 533 | enum_type PARAMS ((struct dieinfo *, struct objfile *)); |
35f5886e | 534 | |
35f5886e | 535 | static void |
1ab3bf1b | 536 | decode_line_numbers PARAMS ((char *)); |
35f5886e FF |
537 | |
538 | static struct type * | |
1ab3bf1b | 539 | decode_die_type PARAMS ((struct dieinfo *)); |
35f5886e FF |
540 | |
541 | static struct type * | |
1ab3bf1b | 542 | decode_mod_fund_type PARAMS ((char *)); |
35f5886e FF |
543 | |
544 | static struct type * | |
1ab3bf1b | 545 | decode_mod_u_d_type PARAMS ((char *)); |
35f5886e FF |
546 | |
547 | static struct type * | |
1c92ca6f | 548 | decode_modified_type PARAMS ((char *, unsigned int, int)); |
35f5886e FF |
549 | |
550 | static struct type * | |
1ab3bf1b | 551 | decode_fund_type PARAMS ((unsigned int)); |
35f5886e FF |
552 | |
553 | static char * | |
1ab3bf1b | 554 | create_name PARAMS ((char *, struct obstack *)); |
35f5886e | 555 | |
35f5886e | 556 | static struct type * |
13b5a7ff | 557 | lookup_utype PARAMS ((DIE_REF)); |
35f5886e FF |
558 | |
559 | static struct type * | |
13b5a7ff | 560 | alloc_utype PARAMS ((DIE_REF, struct type *)); |
35f5886e FF |
561 | |
562 | static struct symbol * | |
1ab3bf1b | 563 | new_symbol PARAMS ((struct dieinfo *, struct objfile *)); |
35f5886e | 564 | |
95ff889e FF |
565 | static void |
566 | synthesize_typedef PARAMS ((struct dieinfo *, struct objfile *, | |
567 | struct type *)); | |
568 | ||
35f5886e | 569 | static int |
1ab3bf1b | 570 | locval PARAMS ((char *)); |
35f5886e | 571 | |
95ff889e FF |
572 | static void |
573 | set_cu_language PARAMS ((struct dieinfo *)); | |
574 | ||
bf229b4e FF |
575 | static struct type * |
576 | dwarf_fundamental_type PARAMS ((struct objfile *, int)); | |
577 | ||
578 | ||
579 | /* | |
580 | ||
581 | LOCAL FUNCTION | |
582 | ||
583 | dwarf_fundamental_type -- lookup or create a fundamental type | |
584 | ||
585 | SYNOPSIS | |
586 | ||
587 | struct type * | |
588 | dwarf_fundamental_type (struct objfile *objfile, int typeid) | |
589 | ||
590 | DESCRIPTION | |
591 | ||
592 | DWARF version 1 doesn't supply any fundamental type information, | |
593 | so gdb has to construct such types. It has a fixed number of | |
594 | fundamental types that it knows how to construct, which is the | |
595 | union of all types that it knows how to construct for all languages | |
596 | that it knows about. These are enumerated in gdbtypes.h. | |
597 | ||
598 | As an example, assume we find a DIE that references a DWARF | |
599 | fundamental type of FT_integer. We first look in the ftypes | |
600 | array to see if we already have such a type, indexed by the | |
601 | gdb internal value of FT_INTEGER. If so, we simply return a | |
602 | pointer to that type. If not, then we ask an appropriate | |
603 | language dependent routine to create a type FT_INTEGER, using | |
604 | defaults reasonable for the current target machine, and install | |
605 | that type in ftypes for future reference. | |
606 | ||
607 | RETURNS | |
608 | ||
609 | Pointer to a fundamental type. | |
610 | ||
611 | */ | |
612 | ||
613 | static struct type * | |
614 | dwarf_fundamental_type (objfile, typeid) | |
615 | struct objfile *objfile; | |
616 | int typeid; | |
617 | { | |
618 | if (typeid < 0 || typeid >= FT_NUM_MEMBERS) | |
619 | { | |
620 | error ("internal error - invalid fundamental type id %d", typeid); | |
621 | } | |
622 | ||
623 | /* Look for this particular type in the fundamental type vector. If one is | |
624 | not found, create and install one appropriate for the current language | |
625 | and the current target machine. */ | |
626 | ||
627 | if (ftypes[typeid] == NULL) | |
628 | { | |
629 | ftypes[typeid] = cu_language_defn -> la_fund_type(objfile, typeid); | |
630 | } | |
631 | ||
632 | return (ftypes[typeid]); | |
633 | } | |
634 | ||
95ff889e FF |
635 | /* |
636 | ||
637 | LOCAL FUNCTION | |
638 | ||
639 | set_cu_language -- set local copy of language for compilation unit | |
640 | ||
641 | SYNOPSIS | |
642 | ||
643 | void | |
644 | set_cu_language (struct dieinfo *dip) | |
645 | ||
646 | DESCRIPTION | |
647 | ||
648 | Decode the language attribute for a compilation unit DIE and | |
649 | remember what the language was. We use this at various times | |
650 | when processing DIE's for a given compilation unit. | |
651 | ||
652 | RETURNS | |
653 | ||
654 | No return value. | |
655 | ||
656 | */ | |
657 | ||
658 | static void | |
659 | set_cu_language (dip) | |
660 | struct dieinfo *dip; | |
661 | { | |
662 | switch (dip -> at_language) | |
663 | { | |
664 | case LANG_C89: | |
665 | case LANG_C: | |
666 | cu_language = language_c; | |
667 | break; | |
668 | case LANG_C_PLUS_PLUS: | |
669 | cu_language = language_cplus; | |
670 | break; | |
e58de8a2 FF |
671 | case LANG_CHILL: |
672 | cu_language = language_chill; | |
673 | break; | |
674 | case LANG_MODULA2: | |
675 | cu_language = language_m2; | |
676 | break; | |
95ff889e FF |
677 | case LANG_ADA83: |
678 | case LANG_COBOL74: | |
679 | case LANG_COBOL85: | |
680 | case LANG_FORTRAN77: | |
681 | case LANG_FORTRAN90: | |
682 | case LANG_PASCAL83: | |
2e4964ad | 683 | /* We don't know anything special about these yet. */ |
95ff889e FF |
684 | cu_language = language_unknown; |
685 | break; | |
2e4964ad FF |
686 | default: |
687 | /* If no at_language, try to deduce one from the filename */ | |
688 | cu_language = deduce_language_from_filename (dip -> at_name); | |
689 | break; | |
95ff889e | 690 | } |
bf229b4e | 691 | cu_language_defn = language_def (cu_language); |
95ff889e FF |
692 | } |
693 | ||
35f5886e FF |
694 | /* |
695 | ||
696 | GLOBAL FUNCTION | |
697 | ||
698 | dwarf_build_psymtabs -- build partial symtabs from DWARF debug info | |
699 | ||
700 | SYNOPSIS | |
701 | ||
d5931d79 | 702 | void dwarf_build_psymtabs (struct objfile *objfile, |
2670f34d | 703 | struct section_offsets *section_offsets, |
d5931d79 JG |
704 | int mainline, file_ptr dbfoff, unsigned int dbfsize, |
705 | file_ptr lnoffset, unsigned int lnsize) | |
35f5886e FF |
706 | |
707 | DESCRIPTION | |
708 | ||
709 | This function is called upon to build partial symtabs from files | |
710 | containing DIE's (Dwarf Information Entries) and DWARF line numbers. | |
711 | ||
d5931d79 | 712 | It is passed a bfd* containing the DIES |
35f5886e FF |
713 | and line number information, the corresponding filename for that |
714 | file, a base address for relocating the symbols, a flag indicating | |
715 | whether or not this debugging information is from a "main symbol | |
716 | table" rather than a shared library or dynamically linked file, | |
717 | and file offset/size pairs for the DIE information and line number | |
718 | information. | |
719 | ||
720 | RETURNS | |
721 | ||
722 | No return value. | |
723 | ||
724 | */ | |
725 | ||
726 | void | |
d5931d79 JG |
727 | dwarf_build_psymtabs (objfile, section_offsets, mainline, dbfoff, dbfsize, |
728 | lnoffset, lnsize) | |
729 | struct objfile *objfile; | |
2670f34d | 730 | struct section_offsets *section_offsets; |
1ab3bf1b | 731 | int mainline; |
d5931d79 | 732 | file_ptr dbfoff; |
4090fe1c | 733 | unsigned int dbfsize; |
d5931d79 | 734 | file_ptr lnoffset; |
1ab3bf1b | 735 | unsigned int lnsize; |
35f5886e | 736 | { |
d5931d79 | 737 | bfd *abfd = objfile->obfd; |
35f5886e FF |
738 | struct cleanup *back_to; |
739 | ||
95967e73 | 740 | current_objfile = objfile; |
4090fe1c | 741 | dbsize = dbfsize; |
35f5886e FF |
742 | dbbase = xmalloc (dbsize); |
743 | dbroff = 0; | |
d5931d79 JG |
744 | if ((bfd_seek (abfd, dbfoff, L_SET) != 0) || |
745 | (bfd_read (dbbase, dbsize, 1, abfd) != dbsize)) | |
35f5886e FF |
746 | { |
747 | free (dbbase); | |
d5931d79 | 748 | error ("can't read DWARF data from '%s'", bfd_get_filename (abfd)); |
35f5886e FF |
749 | } |
750 | back_to = make_cleanup (free, dbbase); | |
751 | ||
752 | /* If we are reinitializing, or if we have never loaded syms yet, init. | |
753 | Since we have no idea how many DIES we are looking at, we just guess | |
754 | some arbitrary value. */ | |
755 | ||
13b5a7ff FF |
756 | if (mainline || objfile -> global_psymbols.size == 0 || |
757 | objfile -> static_psymbols.size == 0) | |
35f5886e | 758 | { |
1ab3bf1b | 759 | init_psymbol_list (objfile, 1024); |
35f5886e FF |
760 | } |
761 | ||
84ffdec2 | 762 | /* Save the relocation factor where everybody can see it. */ |
f8b76e70 | 763 | |
2670f34d JG |
764 | base_section_offsets = section_offsets; |
765 | baseaddr = ANOFFSET (section_offsets, 0); | |
f8b76e70 | 766 | |
35f5886e FF |
767 | /* Follow the compilation unit sibling chain, building a partial symbol |
768 | table entry for each one. Save enough information about each compilation | |
769 | unit to locate the full DWARF information later. */ | |
770 | ||
d5931d79 | 771 | scan_compilation_units (dbbase, dbbase + dbsize, dbfoff, lnoffset, objfile); |
35f5886e | 772 | |
35f5886e | 773 | do_cleanups (back_to); |
95967e73 | 774 | current_objfile = NULL; |
35f5886e FF |
775 | } |
776 | ||
35f5886e FF |
777 | /* |
778 | ||
35f5886e FF |
779 | LOCAL FUNCTION |
780 | ||
781 | read_lexical_block_scope -- process all dies in a lexical block | |
782 | ||
783 | SYNOPSIS | |
784 | ||
785 | static void read_lexical_block_scope (struct dieinfo *dip, | |
786 | char *thisdie, char *enddie) | |
787 | ||
788 | DESCRIPTION | |
789 | ||
790 | Process all the DIES contained within a lexical block scope. | |
791 | Start a new scope, process the dies, and then close the scope. | |
792 | ||
793 | */ | |
794 | ||
795 | static void | |
1ab3bf1b JG |
796 | read_lexical_block_scope (dip, thisdie, enddie, objfile) |
797 | struct dieinfo *dip; | |
798 | char *thisdie; | |
799 | char *enddie; | |
800 | struct objfile *objfile; | |
35f5886e | 801 | { |
4d315a07 FF |
802 | register struct context_stack *new; |
803 | ||
4ed3a9ea | 804 | push_context (0, dip -> at_low_pc); |
13b5a7ff | 805 | process_dies (thisdie + dip -> die_length, enddie, objfile); |
4d315a07 FF |
806 | new = pop_context (); |
807 | if (local_symbols != NULL) | |
808 | { | |
809 | finish_block (0, &local_symbols, new -> old_blocks, new -> start_addr, | |
1ab3bf1b | 810 | dip -> at_high_pc, objfile); |
4d315a07 FF |
811 | } |
812 | local_symbols = new -> locals; | |
35f5886e FF |
813 | } |
814 | ||
815 | /* | |
816 | ||
817 | LOCAL FUNCTION | |
818 | ||
819 | lookup_utype -- look up a user defined type from die reference | |
820 | ||
821 | SYNOPSIS | |
822 | ||
13b5a7ff | 823 | static type *lookup_utype (DIE_REF die_ref) |
35f5886e FF |
824 | |
825 | DESCRIPTION | |
826 | ||
827 | Given a DIE reference, lookup the user defined type associated with | |
828 | that DIE, if it has been registered already. If not registered, then | |
829 | return NULL. Alloc_utype() can be called to register an empty | |
830 | type for this reference, which will be filled in later when the | |
831 | actual referenced DIE is processed. | |
832 | */ | |
833 | ||
834 | static struct type * | |
13b5a7ff FF |
835 | lookup_utype (die_ref) |
836 | DIE_REF die_ref; | |
35f5886e FF |
837 | { |
838 | struct type *type = NULL; | |
839 | int utypeidx; | |
840 | ||
13b5a7ff | 841 | utypeidx = (die_ref - dbroff) / 4; |
35f5886e FF |
842 | if ((utypeidx < 0) || (utypeidx >= numutypes)) |
843 | { | |
51b80b00 | 844 | complain (&bad_die_ref, DIE_ID, DIE_NAME); |
35f5886e FF |
845 | } |
846 | else | |
847 | { | |
848 | type = *(utypes + utypeidx); | |
849 | } | |
850 | return (type); | |
851 | } | |
852 | ||
853 | ||
854 | /* | |
855 | ||
856 | LOCAL FUNCTION | |
857 | ||
858 | alloc_utype -- add a user defined type for die reference | |
859 | ||
860 | SYNOPSIS | |
861 | ||
13b5a7ff | 862 | static type *alloc_utype (DIE_REF die_ref, struct type *utypep) |
35f5886e FF |
863 | |
864 | DESCRIPTION | |
865 | ||
13b5a7ff | 866 | Given a die reference DIE_REF, and a possible pointer to a user |
35f5886e FF |
867 | defined type UTYPEP, register that this reference has a user |
868 | defined type and either use the specified type in UTYPEP or | |
869 | make a new empty type that will be filled in later. | |
870 | ||
871 | We should only be called after calling lookup_utype() to verify that | |
13b5a7ff | 872 | there is not currently a type registered for DIE_REF. |
35f5886e FF |
873 | */ |
874 | ||
875 | static struct type * | |
13b5a7ff FF |
876 | alloc_utype (die_ref, utypep) |
877 | DIE_REF die_ref; | |
1ab3bf1b | 878 | struct type *utypep; |
35f5886e FF |
879 | { |
880 | struct type **typep; | |
881 | int utypeidx; | |
882 | ||
13b5a7ff | 883 | utypeidx = (die_ref - dbroff) / 4; |
35f5886e FF |
884 | typep = utypes + utypeidx; |
885 | if ((utypeidx < 0) || (utypeidx >= numutypes)) | |
886 | { | |
bf229b4e | 887 | utypep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
51b80b00 | 888 | complain (&bad_die_ref, DIE_ID, DIE_NAME); |
35f5886e FF |
889 | } |
890 | else if (*typep != NULL) | |
891 | { | |
892 | utypep = *typep; | |
51b80b00 | 893 | complain (&dup_user_type_allocation, DIE_ID, DIE_NAME); |
35f5886e FF |
894 | } |
895 | else | |
896 | { | |
897 | if (utypep == NULL) | |
898 | { | |
8050a57b | 899 | utypep = alloc_type (current_objfile); |
35f5886e FF |
900 | } |
901 | *typep = utypep; | |
902 | } | |
903 | return (utypep); | |
904 | } | |
905 | ||
906 | /* | |
907 | ||
908 | LOCAL FUNCTION | |
909 | ||
910 | decode_die_type -- return a type for a specified die | |
911 | ||
912 | SYNOPSIS | |
913 | ||
914 | static struct type *decode_die_type (struct dieinfo *dip) | |
915 | ||
916 | DESCRIPTION | |
917 | ||
918 | Given a pointer to a die information structure DIP, decode the | |
919 | type of the die and return a pointer to the decoded type. All | |
920 | dies without specific types default to type int. | |
921 | */ | |
922 | ||
923 | static struct type * | |
1ab3bf1b JG |
924 | decode_die_type (dip) |
925 | struct dieinfo *dip; | |
35f5886e FF |
926 | { |
927 | struct type *type = NULL; | |
928 | ||
929 | if (dip -> at_fund_type != 0) | |
930 | { | |
931 | type = decode_fund_type (dip -> at_fund_type); | |
932 | } | |
933 | else if (dip -> at_mod_fund_type != NULL) | |
934 | { | |
935 | type = decode_mod_fund_type (dip -> at_mod_fund_type); | |
936 | } | |
937 | else if (dip -> at_user_def_type) | |
938 | { | |
939 | if ((type = lookup_utype (dip -> at_user_def_type)) == NULL) | |
940 | { | |
941 | type = alloc_utype (dip -> at_user_def_type, NULL); | |
942 | } | |
943 | } | |
944 | else if (dip -> at_mod_u_d_type) | |
945 | { | |
946 | type = decode_mod_u_d_type (dip -> at_mod_u_d_type); | |
947 | } | |
948 | else | |
949 | { | |
bf229b4e | 950 | type = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
35f5886e FF |
951 | } |
952 | return (type); | |
953 | } | |
954 | ||
955 | /* | |
956 | ||
957 | LOCAL FUNCTION | |
958 | ||
959 | struct_type -- compute and return the type for a struct or union | |
960 | ||
961 | SYNOPSIS | |
962 | ||
963 | static struct type *struct_type (struct dieinfo *dip, char *thisdie, | |
8b5b6fae | 964 | char *enddie, struct objfile *objfile) |
35f5886e FF |
965 | |
966 | DESCRIPTION | |
967 | ||
968 | Given pointer to a die information structure for a die which | |
715cafcb FF |
969 | defines a union or structure (and MUST define one or the other), |
970 | and pointers to the raw die data that define the range of dies which | |
971 | define the members, compute and return the user defined type for the | |
972 | structure or union. | |
35f5886e FF |
973 | */ |
974 | ||
975 | static struct type * | |
1ab3bf1b JG |
976 | struct_type (dip, thisdie, enddie, objfile) |
977 | struct dieinfo *dip; | |
978 | char *thisdie; | |
979 | char *enddie; | |
980 | struct objfile *objfile; | |
35f5886e FF |
981 | { |
982 | struct type *type; | |
983 | struct nextfield { | |
984 | struct nextfield *next; | |
985 | struct field field; | |
986 | }; | |
987 | struct nextfield *list = NULL; | |
988 | struct nextfield *new; | |
989 | int nfields = 0; | |
990 | int n; | |
35f5886e | 991 | struct dieinfo mbr; |
8b5b6fae | 992 | char *nextdie; |
a8a69e63 | 993 | #if !BITS_BIG_ENDIAN |
50055e94 | 994 | int anonymous_size; |
a8a69e63 | 995 | #endif |
35f5886e | 996 | |
13b5a7ff | 997 | if ((type = lookup_utype (dip -> die_ref)) == NULL) |
35f5886e | 998 | { |
5edf98d7 | 999 | /* No forward references created an empty type, so install one now */ |
13b5a7ff | 1000 | type = alloc_utype (dip -> die_ref, NULL); |
35f5886e | 1001 | } |
a3723a43 | 1002 | INIT_CPLUS_SPECIFIC(type); |
13b5a7ff | 1003 | switch (dip -> die_tag) |
35f5886e | 1004 | { |
95ff889e FF |
1005 | case TAG_class_type: |
1006 | TYPE_CODE (type) = TYPE_CODE_CLASS; | |
95ff889e | 1007 | break; |
715cafcb | 1008 | case TAG_structure_type: |
5edf98d7 | 1009 | TYPE_CODE (type) = TYPE_CODE_STRUCT; |
715cafcb FF |
1010 | break; |
1011 | case TAG_union_type: | |
1012 | TYPE_CODE (type) = TYPE_CODE_UNION; | |
715cafcb FF |
1013 | break; |
1014 | default: | |
1015 | /* Should never happen */ | |
1016 | TYPE_CODE (type) = TYPE_CODE_UNDEF; | |
51b80b00 | 1017 | complain (&missing_tag, DIE_ID, DIE_NAME); |
715cafcb | 1018 | break; |
35f5886e | 1019 | } |
5edf98d7 FF |
1020 | /* Some compilers try to be helpful by inventing "fake" names for |
1021 | anonymous enums, structures, and unions, like "~0fake" or ".0fake". | |
1022 | Thanks, but no thanks... */ | |
715cafcb FF |
1023 | if (dip -> at_name != NULL |
1024 | && *dip -> at_name != '~' | |
1025 | && *dip -> at_name != '.') | |
35f5886e | 1026 | { |
b2bebdb0 JK |
1027 | TYPE_TAG_NAME (type) = obconcat (&objfile -> type_obstack, |
1028 | "", "", dip -> at_name); | |
35f5886e | 1029 | } |
50055e94 FF |
1030 | /* Use whatever size is known. Zero is a valid size. We might however |
1031 | wish to check has_at_byte_size to make sure that some byte size was | |
1032 | given explicitly, but DWARF doesn't specify that explicit sizes of | |
1033 | zero have to present, so complaining about missing sizes should | |
1034 | probably not be the default. */ | |
1035 | TYPE_LENGTH (type) = dip -> at_byte_size; | |
13b5a7ff | 1036 | thisdie += dip -> die_length; |
35f5886e FF |
1037 | while (thisdie < enddie) |
1038 | { | |
95967e73 FF |
1039 | basicdieinfo (&mbr, thisdie, objfile); |
1040 | completedieinfo (&mbr, objfile); | |
13b5a7ff | 1041 | if (mbr.die_length <= SIZEOF_DIE_LENGTH) |
35f5886e FF |
1042 | { |
1043 | break; | |
1044 | } | |
8b5b6fae FF |
1045 | else if (mbr.at_sibling != 0) |
1046 | { | |
1047 | nextdie = dbbase + mbr.at_sibling - dbroff; | |
1048 | } | |
1049 | else | |
1050 | { | |
13b5a7ff | 1051 | nextdie = thisdie + mbr.die_length; |
8b5b6fae | 1052 | } |
13b5a7ff | 1053 | switch (mbr.die_tag) |
35f5886e FF |
1054 | { |
1055 | case TAG_member: | |
1056 | /* Get space to record the next field's data. */ | |
1057 | new = (struct nextfield *) alloca (sizeof (struct nextfield)); | |
1058 | new -> next = list; | |
1059 | list = new; | |
1060 | /* Save the data. */ | |
50e0dc41 FF |
1061 | list -> field.name = |
1062 | obsavestring (mbr.at_name, strlen (mbr.at_name), | |
1063 | &objfile -> type_obstack); | |
35f5886e FF |
1064 | list -> field.type = decode_die_type (&mbr); |
1065 | list -> field.bitpos = 8 * locval (mbr.at_location); | |
4db8e515 FF |
1066 | /* Handle bit fields. */ |
1067 | list -> field.bitsize = mbr.at_bit_size; | |
1068 | #if BITS_BIG_ENDIAN | |
1069 | /* For big endian bits, the at_bit_offset gives the additional | |
1070 | bit offset from the MSB of the containing anonymous object to | |
1071 | the MSB of the field. We don't have to do anything special | |
1072 | since we don't need to know the size of the anonymous object. */ | |
1073 | list -> field.bitpos += mbr.at_bit_offset; | |
1074 | #else | |
1075 | /* For little endian bits, we need to have a non-zero at_bit_size, | |
1076 | so that we know we are in fact dealing with a bitfield. Compute | |
1077 | the bit offset to the MSB of the anonymous object, subtract off | |
1078 | the number of bits from the MSB of the field to the MSB of the | |
1079 | object, and then subtract off the number of bits of the field | |
1080 | itself. The result is the bit offset of the LSB of the field. */ | |
1081 | if (mbr.at_bit_size > 0) | |
1082 | { | |
50055e94 FF |
1083 | if (mbr.has_at_byte_size) |
1084 | { | |
1085 | /* The size of the anonymous object containing the bit field | |
1086 | is explicit, so use the indicated size (in bytes). */ | |
1087 | anonymous_size = mbr.at_byte_size; | |
1088 | } | |
1089 | else | |
1090 | { | |
1091 | /* The size of the anonymous object containing the bit field | |
1092 | matches the size of an object of the bit field's type. | |
1093 | DWARF allows at_byte_size to be left out in such cases, | |
1094 | as a debug information size optimization. */ | |
1095 | anonymous_size = TYPE_LENGTH (list -> field.type); | |
1096 | } | |
4db8e515 | 1097 | list -> field.bitpos += |
50055e94 | 1098 | anonymous_size * 8 - mbr.at_bit_offset - mbr.at_bit_size; |
4db8e515 FF |
1099 | } |
1100 | #endif | |
35f5886e FF |
1101 | nfields++; |
1102 | break; | |
1103 | default: | |
8b5b6fae | 1104 | process_dies (thisdie, nextdie, objfile); |
35f5886e FF |
1105 | break; |
1106 | } | |
8b5b6fae | 1107 | thisdie = nextdie; |
35f5886e | 1108 | } |
5edf98d7 FF |
1109 | /* Now create the vector of fields, and record how big it is. We may |
1110 | not even have any fields, if this DIE was generated due to a reference | |
1111 | to an anonymous structure or union. In this case, TYPE_FLAG_STUB is | |
1112 | set, which clues gdb in to the fact that it needs to search elsewhere | |
1113 | for the full structure definition. */ | |
1114 | if (nfields == 0) | |
35f5886e | 1115 | { |
5edf98d7 FF |
1116 | TYPE_FLAGS (type) |= TYPE_FLAG_STUB; |
1117 | } | |
1118 | else | |
1119 | { | |
1120 | TYPE_NFIELDS (type) = nfields; | |
1121 | TYPE_FIELDS (type) = (struct field *) | |
dac9734e | 1122 | TYPE_ALLOC (type, sizeof (struct field) * nfields); |
5edf98d7 FF |
1123 | /* Copy the saved-up fields into the field vector. */ |
1124 | for (n = nfields; list; list = list -> next) | |
1125 | { | |
1126 | TYPE_FIELD (type, --n) = list -> field; | |
1127 | } | |
1128 | } | |
35f5886e FF |
1129 | return (type); |
1130 | } | |
1131 | ||
1132 | /* | |
1133 | ||
1134 | LOCAL FUNCTION | |
1135 | ||
1136 | read_structure_scope -- process all dies within struct or union | |
1137 | ||
1138 | SYNOPSIS | |
1139 | ||
1140 | static void read_structure_scope (struct dieinfo *dip, | |
8b5b6fae | 1141 | char *thisdie, char *enddie, struct objfile *objfile) |
35f5886e FF |
1142 | |
1143 | DESCRIPTION | |
1144 | ||
1145 | Called when we find the DIE that starts a structure or union | |
1146 | scope (definition) to process all dies that define the members | |
1147 | of the structure or union. DIP is a pointer to the die info | |
1148 | struct for the DIE that names the structure or union. | |
1149 | ||
1150 | NOTES | |
1151 | ||
1152 | Note that we need to call struct_type regardless of whether or not | |
84ce6717 FF |
1153 | the DIE has an at_name attribute, since it might be an anonymous |
1154 | structure or union. This gets the type entered into our set of | |
1155 | user defined types. | |
1156 | ||
1157 | However, if the structure is incomplete (an opaque struct/union) | |
1158 | then suppress creating a symbol table entry for it since gdb only | |
1159 | wants to find the one with the complete definition. Note that if | |
1160 | it is complete, we just call new_symbol, which does it's own | |
1161 | checking about whether the struct/union is anonymous or not (and | |
1162 | suppresses creating a symbol table entry itself). | |
1163 | ||
35f5886e FF |
1164 | */ |
1165 | ||
1166 | static void | |
1ab3bf1b JG |
1167 | read_structure_scope (dip, thisdie, enddie, objfile) |
1168 | struct dieinfo *dip; | |
1169 | char *thisdie; | |
1170 | char *enddie; | |
1171 | struct objfile *objfile; | |
35f5886e FF |
1172 | { |
1173 | struct type *type; | |
1174 | struct symbol *sym; | |
1175 | ||
8b5b6fae | 1176 | type = struct_type (dip, thisdie, enddie, objfile); |
84ce6717 | 1177 | if (!(TYPE_FLAGS (type) & TYPE_FLAG_STUB)) |
35f5886e | 1178 | { |
95ff889e FF |
1179 | sym = new_symbol (dip, objfile); |
1180 | if (sym != NULL) | |
84ce6717 FF |
1181 | { |
1182 | SYMBOL_TYPE (sym) = type; | |
95ff889e FF |
1183 | if (cu_language == language_cplus) |
1184 | { | |
1185 | synthesize_typedef (dip, objfile, type); | |
1186 | } | |
84ce6717 | 1187 | } |
35f5886e FF |
1188 | } |
1189 | } | |
1190 | ||
1191 | /* | |
1192 | ||
1193 | LOCAL FUNCTION | |
1194 | ||
1195 | decode_array_element_type -- decode type of the array elements | |
1196 | ||
1197 | SYNOPSIS | |
1198 | ||
1199 | static struct type *decode_array_element_type (char *scan, char *end) | |
1200 | ||
1201 | DESCRIPTION | |
1202 | ||
1203 | As the last step in decoding the array subscript information for an | |
1204 | array DIE, we need to decode the type of the array elements. We are | |
1205 | passed a pointer to this last part of the subscript information and | |
1206 | must return the appropriate type. If the type attribute is not | |
1207 | recognized, just warn about the problem and return type int. | |
1208 | */ | |
1209 | ||
1210 | static struct type * | |
84ffdec2 | 1211 | decode_array_element_type (scan) |
1ab3bf1b | 1212 | char *scan; |
35f5886e FF |
1213 | { |
1214 | struct type *typep; | |
13b5a7ff FF |
1215 | DIE_REF die_ref; |
1216 | unsigned short attribute; | |
35f5886e | 1217 | unsigned short fundtype; |
13b5a7ff | 1218 | int nbytes; |
35f5886e | 1219 | |
13b5a7ff FF |
1220 | attribute = target_to_host (scan, SIZEOF_ATTRIBUTE, GET_UNSIGNED, |
1221 | current_objfile); | |
1222 | scan += SIZEOF_ATTRIBUTE; | |
1223 | if ((nbytes = attribute_size (attribute)) == -1) | |
1224 | { | |
51b80b00 | 1225 | complain (&bad_array_element_type, DIE_ID, DIE_NAME, attribute); |
bf229b4e | 1226 | typep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
13b5a7ff FF |
1227 | } |
1228 | else | |
1229 | { | |
1230 | switch (attribute) | |
1231 | { | |
1232 | case AT_fund_type: | |
1233 | fundtype = target_to_host (scan, nbytes, GET_UNSIGNED, | |
1234 | current_objfile); | |
1235 | typep = decode_fund_type (fundtype); | |
1236 | break; | |
1237 | case AT_mod_fund_type: | |
1238 | typep = decode_mod_fund_type (scan); | |
1239 | break; | |
1240 | case AT_user_def_type: | |
1241 | die_ref = target_to_host (scan, nbytes, GET_UNSIGNED, | |
1242 | current_objfile); | |
1243 | if ((typep = lookup_utype (die_ref)) == NULL) | |
1244 | { | |
1245 | typep = alloc_utype (die_ref, NULL); | |
1246 | } | |
1247 | break; | |
1248 | case AT_mod_u_d_type: | |
1249 | typep = decode_mod_u_d_type (scan); | |
1250 | break; | |
1251 | default: | |
51b80b00 | 1252 | complain (&bad_array_element_type, DIE_ID, DIE_NAME, attribute); |
bf229b4e | 1253 | typep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
13b5a7ff FF |
1254 | break; |
1255 | } | |
35f5886e FF |
1256 | } |
1257 | return (typep); | |
1258 | } | |
1259 | ||
1260 | /* | |
1261 | ||
1262 | LOCAL FUNCTION | |
1263 | ||
85f0a848 | 1264 | decode_subscript_data_item -- decode array subscript item |
35f5886e FF |
1265 | |
1266 | SYNOPSIS | |
1267 | ||
85f0a848 FF |
1268 | static struct type * |
1269 | decode_subscript_data_item (char *scan, char *end) | |
35f5886e FF |
1270 | |
1271 | DESCRIPTION | |
1272 | ||
1273 | The array subscripts and the data type of the elements of an | |
1274 | array are described by a list of data items, stored as a block | |
1275 | of contiguous bytes. There is a data item describing each array | |
1276 | dimension, and a final data item describing the element type. | |
1277 | The data items are ordered the same as their appearance in the | |
1278 | source (I.E. leftmost dimension first, next to leftmost second, | |
1279 | etc). | |
1280 | ||
85f0a848 FF |
1281 | The data items describing each array dimension consist of four |
1282 | parts: (1) a format specifier, (2) type type of the subscript | |
1283 | index, (3) a description of the low bound of the array dimension, | |
1284 | and (4) a description of the high bound of the array dimension. | |
1285 | ||
1286 | The last data item is the description of the type of each of | |
1287 | the array elements. | |
1288 | ||
35f5886e | 1289 | We are passed a pointer to the start of the block of bytes |
85f0a848 FF |
1290 | containing the remaining data items, and a pointer to the first |
1291 | byte past the data. This function recursively decodes the | |
1292 | remaining data items and returns a type. | |
1293 | ||
1294 | If we somehow fail to decode some data, we complain about it | |
1295 | and return a type "array of int". | |
35f5886e FF |
1296 | |
1297 | BUGS | |
1298 | FIXME: This code only implements the forms currently used | |
1299 | by the AT&T and GNU C compilers. | |
1300 | ||
1301 | The end pointer is supplied for error checking, maybe we should | |
1302 | use it for that... | |
1303 | */ | |
1304 | ||
1305 | static struct type * | |
85f0a848 | 1306 | decode_subscript_data_item (scan, end) |
1ab3bf1b JG |
1307 | char *scan; |
1308 | char *end; | |
35f5886e | 1309 | { |
85f0a848 FF |
1310 | struct type *typep = NULL; /* Array type we are building */ |
1311 | struct type *nexttype; /* Type of each element (may be array) */ | |
1312 | struct type *indextype; /* Type of this index */ | |
a8a69e63 | 1313 | struct type *rangetype; |
13b5a7ff FF |
1314 | unsigned int format; |
1315 | unsigned short fundtype; | |
1316 | unsigned long lowbound; | |
1317 | unsigned long highbound; | |
1318 | int nbytes; | |
35f5886e | 1319 | |
13b5a7ff FF |
1320 | format = target_to_host (scan, SIZEOF_FORMAT_SPECIFIER, GET_UNSIGNED, |
1321 | current_objfile); | |
1322 | scan += SIZEOF_FORMAT_SPECIFIER; | |
35f5886e FF |
1323 | switch (format) |
1324 | { | |
1325 | case FMT_ET: | |
84ffdec2 | 1326 | typep = decode_array_element_type (scan); |
35f5886e FF |
1327 | break; |
1328 | case FMT_FT_C_C: | |
13b5a7ff FF |
1329 | fundtype = target_to_host (scan, SIZEOF_FMT_FT, GET_UNSIGNED, |
1330 | current_objfile); | |
85f0a848 | 1331 | indextype = decode_fund_type (fundtype); |
13b5a7ff | 1332 | scan += SIZEOF_FMT_FT; |
160be0de FF |
1333 | nbytes = TARGET_FT_LONG_SIZE (current_objfile); |
1334 | lowbound = target_to_host (scan, nbytes, GET_UNSIGNED, current_objfile); | |
1335 | scan += nbytes; | |
1336 | highbound = target_to_host (scan, nbytes, GET_UNSIGNED, current_objfile); | |
1337 | scan += nbytes; | |
85f0a848 FF |
1338 | nexttype = decode_subscript_data_item (scan, end); |
1339 | if (nexttype == NULL) | |
35f5886e | 1340 | { |
85f0a848 | 1341 | /* Munged subscript data or other problem, fake it. */ |
51b80b00 | 1342 | complain (&subscript_data_items, DIE_ID, DIE_NAME); |
85f0a848 FF |
1343 | nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
1344 | } | |
a8a69e63 FF |
1345 | rangetype = create_range_type ((struct type *) NULL, indextype, |
1346 | lowbound, highbound); | |
1347 | typep = create_array_type ((struct type *) NULL, nexttype, rangetype); | |
35f5886e FF |
1348 | break; |
1349 | case FMT_FT_C_X: | |
1350 | case FMT_FT_X_C: | |
1351 | case FMT_FT_X_X: | |
1352 | case FMT_UT_C_C: | |
1353 | case FMT_UT_C_X: | |
1354 | case FMT_UT_X_C: | |
1355 | case FMT_UT_X_X: | |
51b80b00 | 1356 | complain (&unhandled_array_subscript_format, DIE_ID, DIE_NAME, format); |
a8a69e63 FF |
1357 | nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
1358 | rangetype = create_range_type ((struct type *) NULL, nexttype, 0, 0); | |
1359 | typep = create_array_type ((struct type *) NULL, nexttype, rangetype); | |
35f5886e FF |
1360 | break; |
1361 | default: | |
51b80b00 | 1362 | complain (&unknown_array_subscript_format, DIE_ID, DIE_NAME, format); |
a8a69e63 FF |
1363 | nexttype = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
1364 | rangetype = create_range_type ((struct type *) NULL, nexttype, 0, 0); | |
1365 | typep = create_array_type ((struct type *) NULL, nexttype, rangetype); | |
35f5886e FF |
1366 | break; |
1367 | } | |
1368 | return (typep); | |
1369 | } | |
1370 | ||
1371 | /* | |
1372 | ||
1373 | LOCAL FUNCTION | |
1374 | ||
4d315a07 | 1375 | dwarf_read_array_type -- read TAG_array_type DIE |
35f5886e FF |
1376 | |
1377 | SYNOPSIS | |
1378 | ||
4d315a07 | 1379 | static void dwarf_read_array_type (struct dieinfo *dip) |
35f5886e FF |
1380 | |
1381 | DESCRIPTION | |
1382 | ||
1383 | Extract all information from a TAG_array_type DIE and add to | |
1384 | the user defined type vector. | |
1385 | */ | |
1386 | ||
1387 | static void | |
1ab3bf1b JG |
1388 | dwarf_read_array_type (dip) |
1389 | struct dieinfo *dip; | |
35f5886e FF |
1390 | { |
1391 | struct type *type; | |
af213624 | 1392 | struct type *utype; |
35f5886e FF |
1393 | char *sub; |
1394 | char *subend; | |
13b5a7ff FF |
1395 | unsigned short blocksz; |
1396 | int nbytes; | |
35f5886e FF |
1397 | |
1398 | if (dip -> at_ordering != ORD_row_major) | |
1399 | { | |
1400 | /* FIXME: Can gdb even handle column major arrays? */ | |
51b80b00 | 1401 | complain (¬_row_major, DIE_ID, DIE_NAME); |
35f5886e FF |
1402 | } |
1403 | if ((sub = dip -> at_subscr_data) != NULL) | |
1404 | { | |
13b5a7ff FF |
1405 | nbytes = attribute_size (AT_subscr_data); |
1406 | blocksz = target_to_host (sub, nbytes, GET_UNSIGNED, current_objfile); | |
1407 | subend = sub + nbytes + blocksz; | |
1408 | sub += nbytes; | |
85f0a848 FF |
1409 | type = decode_subscript_data_item (sub, subend); |
1410 | if ((utype = lookup_utype (dip -> die_ref)) == NULL) | |
35f5886e | 1411 | { |
85f0a848 FF |
1412 | /* Install user defined type that has not been referenced yet. */ |
1413 | alloc_utype (dip -> die_ref, type); | |
1414 | } | |
1415 | else if (TYPE_CODE (utype) == TYPE_CODE_UNDEF) | |
1416 | { | |
1417 | /* Ick! A forward ref has already generated a blank type in our | |
1418 | slot, and this type probably already has things pointing to it | |
1419 | (which is what caused it to be created in the first place). | |
1420 | If it's just a place holder we can plop our fully defined type | |
1421 | on top of it. We can't recover the space allocated for our | |
1422 | new type since it might be on an obstack, but we could reuse | |
1423 | it if we kept a list of them, but it might not be worth it | |
1424 | (FIXME). */ | |
1425 | *utype = *type; | |
35f5886e FF |
1426 | } |
1427 | else | |
1428 | { | |
85f0a848 FF |
1429 | /* Double ick! Not only is a type already in our slot, but |
1430 | someone has decorated it. Complain and leave it alone. */ | |
51b80b00 | 1431 | complain (&dup_user_type_definition, DIE_ID, DIE_NAME); |
35f5886e FF |
1432 | } |
1433 | } | |
1434 | } | |
1435 | ||
1436 | /* | |
1437 | ||
9e4c1921 FF |
1438 | LOCAL FUNCTION |
1439 | ||
1440 | read_tag_pointer_type -- read TAG_pointer_type DIE | |
1441 | ||
1442 | SYNOPSIS | |
1443 | ||
1444 | static void read_tag_pointer_type (struct dieinfo *dip) | |
1445 | ||
1446 | DESCRIPTION | |
1447 | ||
1448 | Extract all information from a TAG_pointer_type DIE and add to | |
1449 | the user defined type vector. | |
1450 | */ | |
1451 | ||
1452 | static void | |
1ab3bf1b JG |
1453 | read_tag_pointer_type (dip) |
1454 | struct dieinfo *dip; | |
9e4c1921 FF |
1455 | { |
1456 | struct type *type; | |
1457 | struct type *utype; | |
9e4c1921 FF |
1458 | |
1459 | type = decode_die_type (dip); | |
13b5a7ff | 1460 | if ((utype = lookup_utype (dip -> die_ref)) == NULL) |
9e4c1921 FF |
1461 | { |
1462 | utype = lookup_pointer_type (type); | |
4ed3a9ea | 1463 | alloc_utype (dip -> die_ref, utype); |
9e4c1921 FF |
1464 | } |
1465 | else | |
1466 | { | |
1467 | TYPE_TARGET_TYPE (utype) = type; | |
1468 | TYPE_POINTER_TYPE (type) = utype; | |
1469 | ||
1470 | /* We assume the machine has only one representation for pointers! */ | |
1471 | /* FIXME: This confuses host<->target data representations, and is a | |
1472 | poor assumption besides. */ | |
1473 | ||
1474 | TYPE_LENGTH (utype) = sizeof (char *); | |
1475 | TYPE_CODE (utype) = TYPE_CODE_PTR; | |
1476 | } | |
1477 | } | |
1478 | ||
1479 | /* | |
1480 | ||
ec16f701 FF |
1481 | LOCAL FUNCTION |
1482 | ||
1483 | read_tag_string_type -- read TAG_string_type DIE | |
1484 | ||
1485 | SYNOPSIS | |
1486 | ||
1487 | static void read_tag_string_type (struct dieinfo *dip) | |
1488 | ||
1489 | DESCRIPTION | |
1490 | ||
1491 | Extract all information from a TAG_string_type DIE and add to | |
1492 | the user defined type vector. It isn't really a user defined | |
1493 | type, but it behaves like one, with other DIE's using an | |
1494 | AT_user_def_type attribute to reference it. | |
1495 | */ | |
1496 | ||
1497 | static void | |
1498 | read_tag_string_type (dip) | |
1499 | struct dieinfo *dip; | |
1500 | { | |
1501 | struct type *utype; | |
1502 | struct type *indextype; | |
1503 | struct type *rangetype; | |
1504 | unsigned long lowbound = 0; | |
1505 | unsigned long highbound; | |
1506 | ||
b6236d6e | 1507 | if (dip -> has_at_byte_size) |
ec16f701 | 1508 | { |
b6236d6e FF |
1509 | /* A fixed bounds string */ |
1510 | highbound = dip -> at_byte_size - 1; | |
ec16f701 FF |
1511 | } |
1512 | else | |
1513 | { | |
b6236d6e FF |
1514 | /* A varying length string. Stub for now. (FIXME) */ |
1515 | highbound = 1; | |
1516 | } | |
1517 | indextype = dwarf_fundamental_type (current_objfile, FT_INTEGER); | |
1518 | rangetype = create_range_type ((struct type *) NULL, indextype, lowbound, | |
1519 | highbound); | |
1520 | ||
1521 | utype = lookup_utype (dip -> die_ref); | |
1522 | if (utype == NULL) | |
1523 | { | |
1524 | /* No type defined, go ahead and create a blank one to use. */ | |
1525 | utype = alloc_utype (dip -> die_ref, (struct type *) NULL); | |
1526 | } | |
1527 | else | |
1528 | { | |
1529 | /* Already a type in our slot due to a forward reference. Make sure it | |
1530 | is a blank one. If not, complain and leave it alone. */ | |
1531 | if (TYPE_CODE (utype) != TYPE_CODE_UNDEF) | |
ec16f701 | 1532 | { |
b6236d6e FF |
1533 | complain (&dup_user_type_definition, DIE_ID, DIE_NAME); |
1534 | return; | |
ec16f701 | 1535 | } |
ec16f701 | 1536 | } |
b6236d6e FF |
1537 | |
1538 | /* Create the string type using the blank type we either found or created. */ | |
1539 | utype = create_string_type (utype, rangetype); | |
ec16f701 FF |
1540 | } |
1541 | ||
1542 | /* | |
1543 | ||
35f5886e FF |
1544 | LOCAL FUNCTION |
1545 | ||
1546 | read_subroutine_type -- process TAG_subroutine_type dies | |
1547 | ||
1548 | SYNOPSIS | |
1549 | ||
1550 | static void read_subroutine_type (struct dieinfo *dip, char thisdie, | |
1551 | char *enddie) | |
1552 | ||
1553 | DESCRIPTION | |
1554 | ||
1555 | Handle DIES due to C code like: | |
1556 | ||
1557 | struct foo { | |
1558 | int (*funcp)(int a, long l); (Generates TAG_subroutine_type DIE) | |
1559 | int b; | |
1560 | }; | |
1561 | ||
1562 | NOTES | |
1563 | ||
1564 | The parameter DIES are currently ignored. See if gdb has a way to | |
1565 | include this info in it's type system, and decode them if so. Is | |
1566 | this what the type structure's "arg_types" field is for? (FIXME) | |
1567 | */ | |
1568 | ||
1569 | static void | |
1ab3bf1b JG |
1570 | read_subroutine_type (dip, thisdie, enddie) |
1571 | struct dieinfo *dip; | |
1572 | char *thisdie; | |
1573 | char *enddie; | |
35f5886e | 1574 | { |
af213624 FF |
1575 | struct type *type; /* Type that this function returns */ |
1576 | struct type *ftype; /* Function that returns above type */ | |
35f5886e | 1577 | |
af213624 FF |
1578 | /* Decode the type that this subroutine returns */ |
1579 | ||
35f5886e | 1580 | type = decode_die_type (dip); |
af213624 FF |
1581 | |
1582 | /* Check to see if we already have a partially constructed user | |
1583 | defined type for this DIE, from a forward reference. */ | |
1584 | ||
13b5a7ff | 1585 | if ((ftype = lookup_utype (dip -> die_ref)) == NULL) |
af213624 FF |
1586 | { |
1587 | /* This is the first reference to one of these types. Make | |
1588 | a new one and place it in the user defined types. */ | |
1589 | ftype = lookup_function_type (type); | |
4ed3a9ea | 1590 | alloc_utype (dip -> die_ref, ftype); |
af213624 | 1591 | } |
85f0a848 | 1592 | else if (TYPE_CODE (ftype) == TYPE_CODE_UNDEF) |
af213624 FF |
1593 | { |
1594 | /* We have an existing partially constructed type, so bash it | |
1595 | into the correct type. */ | |
1596 | TYPE_TARGET_TYPE (ftype) = type; | |
1597 | TYPE_FUNCTION_TYPE (type) = ftype; | |
1598 | TYPE_LENGTH (ftype) = 1; | |
1599 | TYPE_CODE (ftype) = TYPE_CODE_FUNC; | |
1600 | } | |
85f0a848 FF |
1601 | else |
1602 | { | |
51b80b00 | 1603 | complain (&dup_user_type_definition, DIE_ID, DIE_NAME); |
85f0a848 | 1604 | } |
35f5886e FF |
1605 | } |
1606 | ||
1607 | /* | |
1608 | ||
1609 | LOCAL FUNCTION | |
1610 | ||
1611 | read_enumeration -- process dies which define an enumeration | |
1612 | ||
1613 | SYNOPSIS | |
1614 | ||
1615 | static void read_enumeration (struct dieinfo *dip, char *thisdie, | |
1ab3bf1b | 1616 | char *enddie, struct objfile *objfile) |
35f5886e FF |
1617 | |
1618 | DESCRIPTION | |
1619 | ||
1620 | Given a pointer to a die which begins an enumeration, process all | |
1621 | the dies that define the members of the enumeration. | |
1622 | ||
1623 | NOTES | |
1624 | ||
1625 | Note that we need to call enum_type regardless of whether or not we | |
1626 | have a symbol, since we might have an enum without a tag name (thus | |
1627 | no symbol for the tagname). | |
1628 | */ | |
1629 | ||
1630 | static void | |
1ab3bf1b JG |
1631 | read_enumeration (dip, thisdie, enddie, objfile) |
1632 | struct dieinfo *dip; | |
1633 | char *thisdie; | |
1634 | char *enddie; | |
1635 | struct objfile *objfile; | |
35f5886e FF |
1636 | { |
1637 | struct type *type; | |
1638 | struct symbol *sym; | |
1639 | ||
1ab3bf1b | 1640 | type = enum_type (dip, objfile); |
95ff889e FF |
1641 | sym = new_symbol (dip, objfile); |
1642 | if (sym != NULL) | |
35f5886e FF |
1643 | { |
1644 | SYMBOL_TYPE (sym) = type; | |
95ff889e FF |
1645 | if (cu_language == language_cplus) |
1646 | { | |
1647 | synthesize_typedef (dip, objfile, type); | |
1648 | } | |
35f5886e FF |
1649 | } |
1650 | } | |
1651 | ||
1652 | /* | |
1653 | ||
1654 | LOCAL FUNCTION | |
1655 | ||
1656 | enum_type -- decode and return a type for an enumeration | |
1657 | ||
1658 | SYNOPSIS | |
1659 | ||
1ab3bf1b | 1660 | static type *enum_type (struct dieinfo *dip, struct objfile *objfile) |
35f5886e FF |
1661 | |
1662 | DESCRIPTION | |
1663 | ||
1664 | Given a pointer to a die information structure for the die which | |
1665 | starts an enumeration, process all the dies that define the members | |
1666 | of the enumeration and return a type pointer for the enumeration. | |
98618bf7 | 1667 | |
715cafcb FF |
1668 | At the same time, for each member of the enumeration, create a |
1669 | symbol for it with namespace VAR_NAMESPACE and class LOC_CONST, | |
1670 | and give it the type of the enumeration itself. | |
1671 | ||
1672 | NOTES | |
1673 | ||
98618bf7 FF |
1674 | Note that the DWARF specification explicitly mandates that enum |
1675 | constants occur in reverse order from the source program order, | |
1676 | for "consistency" and because this ordering is easier for many | |
1ab3bf1b | 1677 | compilers to generate. (Draft 6, sec 3.8.5, Enumeration type |
715cafcb FF |
1678 | Entries). Because gdb wants to see the enum members in program |
1679 | source order, we have to ensure that the order gets reversed while | |
98618bf7 | 1680 | we are processing them. |
35f5886e FF |
1681 | */ |
1682 | ||
1683 | static struct type * | |
1ab3bf1b JG |
1684 | enum_type (dip, objfile) |
1685 | struct dieinfo *dip; | |
1686 | struct objfile *objfile; | |
35f5886e FF |
1687 | { |
1688 | struct type *type; | |
1689 | struct nextfield { | |
1690 | struct nextfield *next; | |
1691 | struct field field; | |
1692 | }; | |
1693 | struct nextfield *list = NULL; | |
1694 | struct nextfield *new; | |
1695 | int nfields = 0; | |
1696 | int n; | |
35f5886e FF |
1697 | char *scan; |
1698 | char *listend; | |
13b5a7ff | 1699 | unsigned short blocksz; |
715cafcb | 1700 | struct symbol *sym; |
13b5a7ff | 1701 | int nbytes; |
35f5886e | 1702 | |
13b5a7ff | 1703 | if ((type = lookup_utype (dip -> die_ref)) == NULL) |
35f5886e | 1704 | { |
84ce6717 | 1705 | /* No forward references created an empty type, so install one now */ |
13b5a7ff | 1706 | type = alloc_utype (dip -> die_ref, NULL); |
35f5886e FF |
1707 | } |
1708 | TYPE_CODE (type) = TYPE_CODE_ENUM; | |
84ce6717 FF |
1709 | /* Some compilers try to be helpful by inventing "fake" names for |
1710 | anonymous enums, structures, and unions, like "~0fake" or ".0fake". | |
1711 | Thanks, but no thanks... */ | |
715cafcb FF |
1712 | if (dip -> at_name != NULL |
1713 | && *dip -> at_name != '~' | |
1714 | && *dip -> at_name != '.') | |
35f5886e | 1715 | { |
b2bebdb0 JK |
1716 | TYPE_TAG_NAME (type) = obconcat (&objfile -> type_obstack, |
1717 | "", "", dip -> at_name); | |
35f5886e | 1718 | } |
715cafcb | 1719 | if (dip -> at_byte_size != 0) |
35f5886e FF |
1720 | { |
1721 | TYPE_LENGTH (type) = dip -> at_byte_size; | |
35f5886e | 1722 | } |
35f5886e FF |
1723 | if ((scan = dip -> at_element_list) != NULL) |
1724 | { | |
768be6e1 FF |
1725 | if (dip -> short_element_list) |
1726 | { | |
13b5a7ff | 1727 | nbytes = attribute_size (AT_short_element_list); |
768be6e1 FF |
1728 | } |
1729 | else | |
1730 | { | |
13b5a7ff | 1731 | nbytes = attribute_size (AT_element_list); |
768be6e1 | 1732 | } |
13b5a7ff FF |
1733 | blocksz = target_to_host (scan, nbytes, GET_UNSIGNED, objfile); |
1734 | listend = scan + nbytes + blocksz; | |
1735 | scan += nbytes; | |
35f5886e FF |
1736 | while (scan < listend) |
1737 | { | |
1738 | new = (struct nextfield *) alloca (sizeof (struct nextfield)); | |
1739 | new -> next = list; | |
1740 | list = new; | |
1741 | list -> field.type = NULL; | |
1742 | list -> field.bitsize = 0; | |
13b5a7ff FF |
1743 | list -> field.bitpos = |
1744 | target_to_host (scan, TARGET_FT_LONG_SIZE (objfile), GET_SIGNED, | |
1745 | objfile); | |
1746 | scan += TARGET_FT_LONG_SIZE (objfile); | |
50e0dc41 FF |
1747 | list -> field.name = obsavestring (scan, strlen (scan), |
1748 | &objfile -> type_obstack); | |
35f5886e FF |
1749 | scan += strlen (scan) + 1; |
1750 | nfields++; | |
715cafcb | 1751 | /* Handcraft a new symbol for this enum member. */ |
1ab3bf1b | 1752 | sym = (struct symbol *) obstack_alloc (&objfile->symbol_obstack, |
715cafcb | 1753 | sizeof (struct symbol)); |
4ed3a9ea | 1754 | memset (sym, 0, sizeof (struct symbol)); |
13b5a7ff FF |
1755 | SYMBOL_NAME (sym) = create_name (list -> field.name, |
1756 | &objfile->symbol_obstack); | |
7532cf10 | 1757 | SYMBOL_INIT_LANGUAGE_SPECIFIC (sym, cu_language); |
715cafcb FF |
1758 | SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE; |
1759 | SYMBOL_CLASS (sym) = LOC_CONST; | |
1760 | SYMBOL_TYPE (sym) = type; | |
1761 | SYMBOL_VALUE (sym) = list -> field.bitpos; | |
4d315a07 | 1762 | add_symbol_to_list (sym, list_in_scope); |
35f5886e | 1763 | } |
84ce6717 | 1764 | /* Now create the vector of fields, and record how big it is. This is |
0efe20a6 | 1765 | where we reverse the order, by pulling the members off the list in |
84ce6717 FF |
1766 | reverse order from how they were inserted. If we have no fields |
1767 | (this is apparently possible in C++) then skip building a field | |
1768 | vector. */ | |
1769 | if (nfields > 0) | |
1770 | { | |
1771 | TYPE_NFIELDS (type) = nfields; | |
1772 | TYPE_FIELDS (type) = (struct field *) | |
1ab3bf1b | 1773 | obstack_alloc (&objfile->symbol_obstack, sizeof (struct field) * nfields); |
84ce6717 FF |
1774 | /* Copy the saved-up fields into the field vector. */ |
1775 | for (n = 0; (n < nfields) && (list != NULL); list = list -> next) | |
1776 | { | |
1777 | TYPE_FIELD (type, n++) = list -> field; | |
1778 | } | |
1779 | } | |
35f5886e | 1780 | } |
35f5886e FF |
1781 | return (type); |
1782 | } | |
1783 | ||
1784 | /* | |
1785 | ||
1786 | LOCAL FUNCTION | |
1787 | ||
1788 | read_func_scope -- process all dies within a function scope | |
1789 | ||
35f5886e FF |
1790 | DESCRIPTION |
1791 | ||
1792 | Process all dies within a given function scope. We are passed | |
1793 | a die information structure pointer DIP for the die which | |
1794 | starts the function scope, and pointers into the raw die data | |
1795 | that define the dies within the function scope. | |
1796 | ||
1797 | For now, we ignore lexical block scopes within the function. | |
1798 | The problem is that AT&T cc does not define a DWARF lexical | |
1799 | block scope for the function itself, while gcc defines a | |
1800 | lexical block scope for the function. We need to think about | |
1801 | how to handle this difference, or if it is even a problem. | |
1802 | (FIXME) | |
1803 | */ | |
1804 | ||
1805 | static void | |
1ab3bf1b JG |
1806 | read_func_scope (dip, thisdie, enddie, objfile) |
1807 | struct dieinfo *dip; | |
1808 | char *thisdie; | |
1809 | char *enddie; | |
1810 | struct objfile *objfile; | |
35f5886e | 1811 | { |
4d315a07 | 1812 | register struct context_stack *new; |
35f5886e | 1813 | |
5e2e79f8 FF |
1814 | if (objfile -> ei.entry_point >= dip -> at_low_pc && |
1815 | objfile -> ei.entry_point < dip -> at_high_pc) | |
35f5886e | 1816 | { |
5e2e79f8 FF |
1817 | objfile -> ei.entry_func_lowpc = dip -> at_low_pc; |
1818 | objfile -> ei.entry_func_highpc = dip -> at_high_pc; | |
35f5886e | 1819 | } |
4d315a07 | 1820 | if (STREQ (dip -> at_name, "main")) /* FIXME: hardwired name */ |
35f5886e | 1821 | { |
5e2e79f8 FF |
1822 | objfile -> ei.main_func_lowpc = dip -> at_low_pc; |
1823 | objfile -> ei.main_func_highpc = dip -> at_high_pc; | |
35f5886e | 1824 | } |
4d315a07 | 1825 | new = push_context (0, dip -> at_low_pc); |
1ab3bf1b | 1826 | new -> name = new_symbol (dip, objfile); |
4d315a07 | 1827 | list_in_scope = &local_symbols; |
13b5a7ff | 1828 | process_dies (thisdie + dip -> die_length, enddie, objfile); |
4d315a07 FF |
1829 | new = pop_context (); |
1830 | /* Make a block for the local symbols within. */ | |
1831 | finish_block (new -> name, &local_symbols, new -> old_blocks, | |
1ab3bf1b | 1832 | new -> start_addr, dip -> at_high_pc, objfile); |
4d315a07 | 1833 | list_in_scope = &file_symbols; |
35f5886e FF |
1834 | } |
1835 | ||
2dbde378 FF |
1836 | |
1837 | /* | |
1838 | ||
1839 | LOCAL FUNCTION | |
1840 | ||
1841 | handle_producer -- process the AT_producer attribute | |
1842 | ||
1843 | DESCRIPTION | |
1844 | ||
1845 | Perform any operations that depend on finding a particular | |
1846 | AT_producer attribute. | |
1847 | ||
1848 | */ | |
1849 | ||
1850 | static void | |
1851 | handle_producer (producer) | |
1852 | char *producer; | |
1853 | { | |
1854 | ||
1855 | /* If this compilation unit was compiled with g++ or gcc, then set the | |
1856 | processing_gcc_compilation flag. */ | |
1857 | ||
1858 | processing_gcc_compilation = | |
1859 | STREQN (producer, GPLUS_PRODUCER, strlen (GPLUS_PRODUCER)) | |
93bb6e65 | 1860 | || STREQN (producer, CHILL_PRODUCER, strlen (CHILL_PRODUCER)) |
2dbde378 FF |
1861 | || STREQN (producer, GCC_PRODUCER, strlen (GCC_PRODUCER)); |
1862 | ||
1863 | /* Select a demangling style if we can identify the producer and if | |
1864 | the current style is auto. We leave the current style alone if it | |
1865 | is not auto. We also leave the demangling style alone if we find a | |
1866 | gcc (cc1) producer, as opposed to a g++ (cc1plus) producer. */ | |
1867 | ||
3dc755fb | 1868 | if (AUTO_DEMANGLING) |
2dbde378 FF |
1869 | { |
1870 | if (STREQN (producer, GPLUS_PRODUCER, strlen (GPLUS_PRODUCER))) | |
1871 | { | |
1872 | set_demangling_style (GNU_DEMANGLING_STYLE_STRING); | |
1873 | } | |
1874 | else if (STREQN (producer, LCC_PRODUCER, strlen (LCC_PRODUCER))) | |
1875 | { | |
1876 | set_demangling_style (LUCID_DEMANGLING_STYLE_STRING); | |
1877 | } | |
2dbde378 | 1878 | } |
2dbde378 FF |
1879 | } |
1880 | ||
1881 | ||
35f5886e FF |
1882 | /* |
1883 | ||
1884 | LOCAL FUNCTION | |
1885 | ||
1886 | read_file_scope -- process all dies within a file scope | |
1887 | ||
35f5886e FF |
1888 | DESCRIPTION |
1889 | ||
1890 | Process all dies within a given file scope. We are passed a | |
1891 | pointer to the die information structure for the die which | |
1892 | starts the file scope, and pointers into the raw die data which | |
1893 | mark the range of dies within the file scope. | |
1894 | ||
1895 | When the partial symbol table is built, the file offset for the line | |
1896 | number table for each compilation unit is saved in the partial symbol | |
1897 | table entry for that compilation unit. As the symbols for each | |
1898 | compilation unit are read, the line number table is read into memory | |
1899 | and the variable lnbase is set to point to it. Thus all we have to | |
1900 | do is use lnbase to access the line number table for the current | |
1901 | compilation unit. | |
1902 | */ | |
1903 | ||
1904 | static void | |
1ab3bf1b JG |
1905 | read_file_scope (dip, thisdie, enddie, objfile) |
1906 | struct dieinfo *dip; | |
1907 | char *thisdie; | |
1908 | char *enddie; | |
1909 | struct objfile *objfile; | |
35f5886e FF |
1910 | { |
1911 | struct cleanup *back_to; | |
4d315a07 | 1912 | struct symtab *symtab; |
35f5886e | 1913 | |
5e2e79f8 FF |
1914 | if (objfile -> ei.entry_point >= dip -> at_low_pc && |
1915 | objfile -> ei.entry_point < dip -> at_high_pc) | |
35f5886e | 1916 | { |
5e2e79f8 FF |
1917 | objfile -> ei.entry_file_lowpc = dip -> at_low_pc; |
1918 | objfile -> ei.entry_file_highpc = dip -> at_high_pc; | |
35f5886e | 1919 | } |
95ff889e | 1920 | set_cu_language (dip); |
4d315a07 FF |
1921 | if (dip -> at_producer != NULL) |
1922 | { | |
2dbde378 | 1923 | handle_producer (dip -> at_producer); |
4d315a07 | 1924 | } |
35f5886e FF |
1925 | numutypes = (enddie - thisdie) / 4; |
1926 | utypes = (struct type **) xmalloc (numutypes * sizeof (struct type *)); | |
1927 | back_to = make_cleanup (free, utypes); | |
4ed3a9ea | 1928 | memset (utypes, 0, numutypes * sizeof (struct type *)); |
bf229b4e | 1929 | memset (ftypes, 0, FT_NUM_MEMBERS * sizeof (struct type *)); |
d4902ab0 | 1930 | start_symtab (dip -> at_name, dip -> at_comp_dir, dip -> at_low_pc); |
35f5886e | 1931 | decode_line_numbers (lnbase); |
13b5a7ff | 1932 | process_dies (thisdie + dip -> die_length, enddie, objfile); |
3c02636b JK |
1933 | |
1934 | symtab = end_symtab (dip -> at_high_pc, 0, 0, objfile, 0); | |
7b5d9650 | 1935 | if (symtab != NULL) |
4d315a07 | 1936 | { |
95ff889e | 1937 | symtab -> language = cu_language; |
7b5d9650 | 1938 | } |
35f5886e FF |
1939 | do_cleanups (back_to); |
1940 | utypes = NULL; | |
1941 | numutypes = 0; | |
1942 | } | |
1943 | ||
1944 | /* | |
1945 | ||
35f5886e FF |
1946 | LOCAL FUNCTION |
1947 | ||
1948 | process_dies -- process a range of DWARF Information Entries | |
1949 | ||
1950 | SYNOPSIS | |
1951 | ||
8b5b6fae FF |
1952 | static void process_dies (char *thisdie, char *enddie, |
1953 | struct objfile *objfile) | |
35f5886e FF |
1954 | |
1955 | DESCRIPTION | |
1956 | ||
1957 | Process all DIE's in a specified range. May be (and almost | |
1958 | certainly will be) called recursively. | |
1959 | */ | |
1960 | ||
1961 | static void | |
1ab3bf1b JG |
1962 | process_dies (thisdie, enddie, objfile) |
1963 | char *thisdie; | |
1964 | char *enddie; | |
1965 | struct objfile *objfile; | |
35f5886e FF |
1966 | { |
1967 | char *nextdie; | |
1968 | struct dieinfo di; | |
1969 | ||
1970 | while (thisdie < enddie) | |
1971 | { | |
95967e73 | 1972 | basicdieinfo (&di, thisdie, objfile); |
13b5a7ff | 1973 | if (di.die_length < SIZEOF_DIE_LENGTH) |
35f5886e FF |
1974 | { |
1975 | break; | |
1976 | } | |
13b5a7ff | 1977 | else if (di.die_tag == TAG_padding) |
35f5886e | 1978 | { |
13b5a7ff | 1979 | nextdie = thisdie + di.die_length; |
35f5886e FF |
1980 | } |
1981 | else | |
1982 | { | |
95967e73 | 1983 | completedieinfo (&di, objfile); |
35f5886e FF |
1984 | if (di.at_sibling != 0) |
1985 | { | |
1986 | nextdie = dbbase + di.at_sibling - dbroff; | |
1987 | } | |
1988 | else | |
1989 | { | |
13b5a7ff | 1990 | nextdie = thisdie + di.die_length; |
35f5886e | 1991 | } |
13b5a7ff | 1992 | switch (di.die_tag) |
35f5886e FF |
1993 | { |
1994 | case TAG_compile_unit: | |
a048c8f5 | 1995 | read_file_scope (&di, thisdie, nextdie, objfile); |
35f5886e FF |
1996 | break; |
1997 | case TAG_global_subroutine: | |
1998 | case TAG_subroutine: | |
2d6186f4 | 1999 | if (di.has_at_low_pc) |
35f5886e | 2000 | { |
a048c8f5 | 2001 | read_func_scope (&di, thisdie, nextdie, objfile); |
35f5886e FF |
2002 | } |
2003 | break; | |
2004 | case TAG_lexical_block: | |
a048c8f5 | 2005 | read_lexical_block_scope (&di, thisdie, nextdie, objfile); |
35f5886e | 2006 | break; |
95ff889e | 2007 | case TAG_class_type: |
35f5886e FF |
2008 | case TAG_structure_type: |
2009 | case TAG_union_type: | |
8b5b6fae | 2010 | read_structure_scope (&di, thisdie, nextdie, objfile); |
35f5886e FF |
2011 | break; |
2012 | case TAG_enumeration_type: | |
1ab3bf1b | 2013 | read_enumeration (&di, thisdie, nextdie, objfile); |
35f5886e FF |
2014 | break; |
2015 | case TAG_subroutine_type: | |
2016 | read_subroutine_type (&di, thisdie, nextdie); | |
2017 | break; | |
2018 | case TAG_array_type: | |
4d315a07 | 2019 | dwarf_read_array_type (&di); |
35f5886e | 2020 | break; |
9e4c1921 FF |
2021 | case TAG_pointer_type: |
2022 | read_tag_pointer_type (&di); | |
2023 | break; | |
ec16f701 FF |
2024 | case TAG_string_type: |
2025 | read_tag_string_type (&di); | |
2026 | break; | |
35f5886e | 2027 | default: |
4ed3a9ea | 2028 | new_symbol (&di, objfile); |
35f5886e FF |
2029 | break; |
2030 | } | |
2031 | } | |
2032 | thisdie = nextdie; | |
2033 | } | |
2034 | } | |
2035 | ||
2036 | /* | |
2037 | ||
35f5886e FF |
2038 | LOCAL FUNCTION |
2039 | ||
2040 | decode_line_numbers -- decode a line number table fragment | |
2041 | ||
2042 | SYNOPSIS | |
2043 | ||
2044 | static void decode_line_numbers (char *tblscan, char *tblend, | |
2045 | long length, long base, long line, long pc) | |
2046 | ||
2047 | DESCRIPTION | |
2048 | ||
2049 | Translate the DWARF line number information to gdb form. | |
2050 | ||
2051 | The ".line" section contains one or more line number tables, one for | |
2052 | each ".line" section from the objects that were linked. | |
2053 | ||
2054 | The AT_stmt_list attribute for each TAG_source_file entry in the | |
2055 | ".debug" section contains the offset into the ".line" section for the | |
2056 | start of the table for that file. | |
2057 | ||
2058 | The table itself has the following structure: | |
2059 | ||
2060 | <table length><base address><source statement entry> | |
2061 | 4 bytes 4 bytes 10 bytes | |
2062 | ||
2063 | The table length is the total size of the table, including the 4 bytes | |
2064 | for the length information. | |
2065 | ||
2066 | The base address is the address of the first instruction generated | |
2067 | for the source file. | |
2068 | ||
2069 | Each source statement entry has the following structure: | |
2070 | ||
2071 | <line number><statement position><address delta> | |
2072 | 4 bytes 2 bytes 4 bytes | |
2073 | ||
2074 | The line number is relative to the start of the file, starting with | |
2075 | line 1. | |
2076 | ||
2077 | The statement position either -1 (0xFFFF) or the number of characters | |
2078 | from the beginning of the line to the beginning of the statement. | |
2079 | ||
2080 | The address delta is the difference between the base address and | |
2081 | the address of the first instruction for the statement. | |
2082 | ||
2083 | Note that we must copy the bytes from the packed table to our local | |
2084 | variables before attempting to use them, to avoid alignment problems | |
2085 | on some machines, particularly RISC processors. | |
2086 | ||
2087 | BUGS | |
2088 | ||
2089 | Does gdb expect the line numbers to be sorted? They are now by | |
2090 | chance/luck, but are not required to be. (FIXME) | |
2091 | ||
2092 | The line with number 0 is unused, gdb apparently can discover the | |
2093 | span of the last line some other way. How? (FIXME) | |
2094 | */ | |
2095 | ||
2096 | static void | |
1ab3bf1b JG |
2097 | decode_line_numbers (linetable) |
2098 | char *linetable; | |
35f5886e FF |
2099 | { |
2100 | char *tblscan; | |
2101 | char *tblend; | |
13b5a7ff FF |
2102 | unsigned long length; |
2103 | unsigned long base; | |
2104 | unsigned long line; | |
2105 | unsigned long pc; | |
35f5886e FF |
2106 | |
2107 | if (linetable != NULL) | |
2108 | { | |
2109 | tblscan = tblend = linetable; | |
13b5a7ff FF |
2110 | length = target_to_host (tblscan, SIZEOF_LINETBL_LENGTH, GET_UNSIGNED, |
2111 | current_objfile); | |
2112 | tblscan += SIZEOF_LINETBL_LENGTH; | |
35f5886e | 2113 | tblend += length; |
13b5a7ff FF |
2114 | base = target_to_host (tblscan, TARGET_FT_POINTER_SIZE (objfile), |
2115 | GET_UNSIGNED, current_objfile); | |
2116 | tblscan += TARGET_FT_POINTER_SIZE (objfile); | |
35f5886e | 2117 | base += baseaddr; |
35f5886e FF |
2118 | while (tblscan < tblend) |
2119 | { | |
13b5a7ff FF |
2120 | line = target_to_host (tblscan, SIZEOF_LINETBL_LINENO, GET_UNSIGNED, |
2121 | current_objfile); | |
2122 | tblscan += SIZEOF_LINETBL_LINENO + SIZEOF_LINETBL_STMT; | |
2123 | pc = target_to_host (tblscan, SIZEOF_LINETBL_DELTA, GET_UNSIGNED, | |
2124 | current_objfile); | |
2125 | tblscan += SIZEOF_LINETBL_DELTA; | |
35f5886e | 2126 | pc += base; |
13b5a7ff | 2127 | if (line != 0) |
35f5886e | 2128 | { |
4d315a07 | 2129 | record_line (current_subfile, line, pc); |
35f5886e FF |
2130 | } |
2131 | } | |
2132 | } | |
2133 | } | |
2134 | ||
2135 | /* | |
2136 | ||
35f5886e FF |
2137 | LOCAL FUNCTION |
2138 | ||
2139 | locval -- compute the value of a location attribute | |
2140 | ||
2141 | SYNOPSIS | |
2142 | ||
2143 | static int locval (char *loc) | |
2144 | ||
2145 | DESCRIPTION | |
2146 | ||
2147 | Given pointer to a string of bytes that define a location, compute | |
2148 | the location and return the value. | |
2149 | ||
2150 | When computing values involving the current value of the frame pointer, | |
2151 | the value zero is used, which results in a value relative to the frame | |
2152 | pointer, rather than the absolute value. This is what GDB wants | |
2153 | anyway. | |
2154 | ||
2155 | When the result is a register number, the global isreg flag is set, | |
2156 | otherwise it is cleared. This is a kludge until we figure out a better | |
2157 | way to handle the problem. Gdb's design does not mesh well with the | |
2158 | DWARF notion of a location computing interpreter, which is a shame | |
2159 | because the flexibility goes unused. | |
2160 | ||
2161 | NOTES | |
2162 | ||
2163 | Note that stack[0] is unused except as a default error return. | |
2164 | Note that stack overflow is not yet handled. | |
2165 | */ | |
2166 | ||
2167 | static int | |
1ab3bf1b JG |
2168 | locval (loc) |
2169 | char *loc; | |
35f5886e FF |
2170 | { |
2171 | unsigned short nbytes; | |
13b5a7ff FF |
2172 | unsigned short locsize; |
2173 | auto long stack[64]; | |
35f5886e FF |
2174 | int stacki; |
2175 | char *end; | |
13b5a7ff FF |
2176 | int loc_atom_code; |
2177 | int loc_value_size; | |
35f5886e | 2178 | |
13b5a7ff FF |
2179 | nbytes = attribute_size (AT_location); |
2180 | locsize = target_to_host (loc, nbytes, GET_UNSIGNED, current_objfile); | |
2181 | loc += nbytes; | |
2182 | end = loc + locsize; | |
35f5886e FF |
2183 | stacki = 0; |
2184 | stack[stacki] = 0; | |
2185 | isreg = 0; | |
a5bd5ba6 | 2186 | offreg = 0; |
13b5a7ff FF |
2187 | loc_value_size = TARGET_FT_LONG_SIZE (current_objfile); |
2188 | while (loc < end) | |
35f5886e | 2189 | { |
13b5a7ff FF |
2190 | loc_atom_code = target_to_host (loc, SIZEOF_LOC_ATOM_CODE, GET_UNSIGNED, |
2191 | current_objfile); | |
2192 | loc += SIZEOF_LOC_ATOM_CODE; | |
2193 | switch (loc_atom_code) | |
2194 | { | |
2195 | case 0: | |
2196 | /* error */ | |
2197 | loc = end; | |
2198 | break; | |
2199 | case OP_REG: | |
2200 | /* push register (number) */ | |
2201 | stack[++stacki] = target_to_host (loc, loc_value_size, | |
2202 | GET_UNSIGNED, current_objfile); | |
2203 | loc += loc_value_size; | |
2204 | isreg = 1; | |
2205 | break; | |
2206 | case OP_BASEREG: | |
2207 | /* push value of register (number) */ | |
a1c8d76e JK |
2208 | /* Actually, we compute the value as if register has 0, so the |
2209 | value ends up being the offset from that register. */ | |
13b5a7ff | 2210 | offreg = 1; |
a1c8d76e JK |
2211 | basereg = target_to_host (loc, loc_value_size, GET_UNSIGNED, |
2212 | current_objfile); | |
13b5a7ff | 2213 | loc += loc_value_size; |
a1c8d76e | 2214 | stack[++stacki] = 0; |
13b5a7ff FF |
2215 | break; |
2216 | case OP_ADDR: | |
2217 | /* push address (relocated address) */ | |
2218 | stack[++stacki] = target_to_host (loc, loc_value_size, | |
2219 | GET_UNSIGNED, current_objfile); | |
2220 | loc += loc_value_size; | |
2221 | break; | |
2222 | case OP_CONST: | |
2223 | /* push constant (number) FIXME: signed or unsigned! */ | |
2224 | stack[++stacki] = target_to_host (loc, loc_value_size, | |
2225 | GET_SIGNED, current_objfile); | |
2226 | loc += loc_value_size; | |
2227 | break; | |
2228 | case OP_DEREF2: | |
2229 | /* pop, deref and push 2 bytes (as a long) */ | |
51b80b00 | 2230 | complain (&op_deref2, DIE_ID, DIE_NAME, stack[stacki]); |
13b5a7ff FF |
2231 | break; |
2232 | case OP_DEREF4: /* pop, deref and push 4 bytes (as a long) */ | |
51b80b00 | 2233 | complain (&op_deref4, DIE_ID, DIE_NAME, stack[stacki]); |
13b5a7ff FF |
2234 | break; |
2235 | case OP_ADD: /* pop top 2 items, add, push result */ | |
2236 | stack[stacki - 1] += stack[stacki]; | |
2237 | stacki--; | |
2238 | break; | |
2239 | } | |
35f5886e FF |
2240 | } |
2241 | return (stack[stacki]); | |
2242 | } | |
2243 | ||
2244 | /* | |
2245 | ||
2246 | LOCAL FUNCTION | |
2247 | ||
2248 | read_ofile_symtab -- build a full symtab entry from chunk of DIE's | |
2249 | ||
2250 | SYNOPSIS | |
2251 | ||
c701c14c | 2252 | static void read_ofile_symtab (struct partial_symtab *pst) |
35f5886e FF |
2253 | |
2254 | DESCRIPTION | |
2255 | ||
1ab3bf1b JG |
2256 | When expanding a partial symbol table entry to a full symbol table |
2257 | entry, this is the function that gets called to read in the symbols | |
c701c14c FF |
2258 | for the compilation unit. A pointer to the newly constructed symtab, |
2259 | which is now the new first one on the objfile's symtab list, is | |
2260 | stashed in the partial symbol table entry. | |
35f5886e FF |
2261 | */ |
2262 | ||
c701c14c | 2263 | static void |
1ab3bf1b JG |
2264 | read_ofile_symtab (pst) |
2265 | struct partial_symtab *pst; | |
35f5886e FF |
2266 | { |
2267 | struct cleanup *back_to; | |
13b5a7ff | 2268 | unsigned long lnsize; |
d5931d79 | 2269 | file_ptr foffset; |
1ab3bf1b | 2270 | bfd *abfd; |
13b5a7ff | 2271 | char lnsizedata[SIZEOF_LINETBL_LENGTH]; |
1ab3bf1b JG |
2272 | |
2273 | abfd = pst -> objfile -> obfd; | |
2274 | current_objfile = pst -> objfile; | |
2275 | ||
35f5886e FF |
2276 | /* Allocate a buffer for the entire chunk of DIE's for this compilation |
2277 | unit, seek to the location in the file, and read in all the DIE's. */ | |
2278 | ||
2279 | diecount = 0; | |
4090fe1c FF |
2280 | dbsize = DBLENGTH (pst); |
2281 | dbbase = xmalloc (dbsize); | |
35f5886e FF |
2282 | dbroff = DBROFF(pst); |
2283 | foffset = DBFOFF(pst) + dbroff; | |
2670f34d JG |
2284 | base_section_offsets = pst->section_offsets; |
2285 | baseaddr = ANOFFSET (pst->section_offsets, 0); | |
d5931d79 | 2286 | if (bfd_seek (abfd, foffset, L_SET) || |
4090fe1c | 2287 | (bfd_read (dbbase, dbsize, 1, abfd) != dbsize)) |
35f5886e FF |
2288 | { |
2289 | free (dbbase); | |
2290 | error ("can't read DWARF data"); | |
2291 | } | |
2292 | back_to = make_cleanup (free, dbbase); | |
2293 | ||
2294 | /* If there is a line number table associated with this compilation unit | |
13b5a7ff FF |
2295 | then read the size of this fragment in bytes, from the fragment itself. |
2296 | Allocate a buffer for the fragment and read it in for future | |
35f5886e FF |
2297 | processing. */ |
2298 | ||
2299 | lnbase = NULL; | |
2300 | if (LNFOFF (pst)) | |
2301 | { | |
d5931d79 | 2302 | if (bfd_seek (abfd, LNFOFF (pst), L_SET) || |
13b5a7ff FF |
2303 | (bfd_read ((PTR) lnsizedata, sizeof (lnsizedata), 1, abfd) != |
2304 | sizeof (lnsizedata))) | |
35f5886e FF |
2305 | { |
2306 | error ("can't read DWARF line number table size"); | |
2307 | } | |
13b5a7ff FF |
2308 | lnsize = target_to_host (lnsizedata, SIZEOF_LINETBL_LENGTH, |
2309 | GET_UNSIGNED, pst -> objfile); | |
35f5886e | 2310 | lnbase = xmalloc (lnsize); |
d5931d79 | 2311 | if (bfd_seek (abfd, LNFOFF (pst), L_SET) || |
a048c8f5 | 2312 | (bfd_read (lnbase, lnsize, 1, abfd) != lnsize)) |
35f5886e FF |
2313 | { |
2314 | free (lnbase); | |
2315 | error ("can't read DWARF line numbers"); | |
2316 | } | |
2317 | make_cleanup (free, lnbase); | |
2318 | } | |
2319 | ||
4090fe1c | 2320 | process_dies (dbbase, dbbase + dbsize, pst -> objfile); |
35f5886e | 2321 | do_cleanups (back_to); |
1ab3bf1b | 2322 | current_objfile = NULL; |
c701c14c | 2323 | pst -> symtab = pst -> objfile -> symtabs; |
35f5886e FF |
2324 | } |
2325 | ||
2326 | /* | |
2327 | ||
2328 | LOCAL FUNCTION | |
2329 | ||
2330 | psymtab_to_symtab_1 -- do grunt work for building a full symtab entry | |
2331 | ||
2332 | SYNOPSIS | |
2333 | ||
a048c8f5 | 2334 | static void psymtab_to_symtab_1 (struct partial_symtab *pst) |
35f5886e FF |
2335 | |
2336 | DESCRIPTION | |
2337 | ||
2338 | Called once for each partial symbol table entry that needs to be | |
2339 | expanded into a full symbol table entry. | |
2340 | ||
2341 | */ | |
2342 | ||
2343 | static void | |
1ab3bf1b JG |
2344 | psymtab_to_symtab_1 (pst) |
2345 | struct partial_symtab *pst; | |
35f5886e FF |
2346 | { |
2347 | int i; | |
d07734e3 | 2348 | struct cleanup *old_chain; |
35f5886e | 2349 | |
1ab3bf1b | 2350 | if (pst != NULL) |
35f5886e | 2351 | { |
1ab3bf1b | 2352 | if (pst->readin) |
35f5886e | 2353 | { |
318bf84f | 2354 | warning ("psymtab for %s already read in. Shouldn't happen.", |
1ab3bf1b JG |
2355 | pst -> filename); |
2356 | } | |
2357 | else | |
2358 | { | |
2359 | /* Read in all partial symtabs on which this one is dependent */ | |
2360 | for (i = 0; i < pst -> number_of_dependencies; i++) | |
2361 | { | |
2362 | if (!pst -> dependencies[i] -> readin) | |
2363 | { | |
2364 | /* Inform about additional files that need to be read in. */ | |
2365 | if (info_verbose) | |
2366 | { | |
2367 | fputs_filtered (" ", stdout); | |
2368 | wrap_here (""); | |
2369 | fputs_filtered ("and ", stdout); | |
2370 | wrap_here (""); | |
2371 | printf_filtered ("%s...", | |
2372 | pst -> dependencies[i] -> filename); | |
2373 | wrap_here (""); | |
2374 | fflush (stdout); /* Flush output */ | |
2375 | } | |
2376 | psymtab_to_symtab_1 (pst -> dependencies[i]); | |
2377 | } | |
2378 | } | |
2379 | if (DBLENGTH (pst)) /* Otherwise it's a dummy */ | |
2380 | { | |
d07734e3 FF |
2381 | buildsym_init (); |
2382 | old_chain = make_cleanup (really_free_pendings, 0); | |
c701c14c | 2383 | read_ofile_symtab (pst); |
1ab3bf1b JG |
2384 | if (info_verbose) |
2385 | { | |
2386 | printf_filtered ("%d DIE's, sorting...", diecount); | |
2387 | wrap_here (""); | |
2388 | fflush (stdout); | |
2389 | } | |
2390 | sort_symtab_syms (pst -> symtab); | |
d07734e3 | 2391 | do_cleanups (old_chain); |
1ab3bf1b JG |
2392 | } |
2393 | pst -> readin = 1; | |
35f5886e | 2394 | } |
35f5886e | 2395 | } |
35f5886e FF |
2396 | } |
2397 | ||
2398 | /* | |
2399 | ||
2400 | LOCAL FUNCTION | |
2401 | ||
2402 | dwarf_psymtab_to_symtab -- build a full symtab entry from partial one | |
2403 | ||
2404 | SYNOPSIS | |
2405 | ||
2406 | static void dwarf_psymtab_to_symtab (struct partial_symtab *pst) | |
2407 | ||
2408 | DESCRIPTION | |
2409 | ||
2410 | This is the DWARF support entry point for building a full symbol | |
2411 | table entry from a partial symbol table entry. We are passed a | |
2412 | pointer to the partial symbol table entry that needs to be expanded. | |
2413 | ||
2414 | */ | |
2415 | ||
2416 | static void | |
1ab3bf1b JG |
2417 | dwarf_psymtab_to_symtab (pst) |
2418 | struct partial_symtab *pst; | |
35f5886e | 2419 | { |
7d9884b9 | 2420 | |
1ab3bf1b | 2421 | if (pst != NULL) |
35f5886e | 2422 | { |
1ab3bf1b | 2423 | if (pst -> readin) |
35f5886e | 2424 | { |
318bf84f | 2425 | warning ("psymtab for %s already read in. Shouldn't happen.", |
1ab3bf1b | 2426 | pst -> filename); |
35f5886e | 2427 | } |
1ab3bf1b | 2428 | else |
35f5886e | 2429 | { |
1ab3bf1b JG |
2430 | if (DBLENGTH (pst) || pst -> number_of_dependencies) |
2431 | { | |
2432 | /* Print the message now, before starting serious work, to avoid | |
2433 | disconcerting pauses. */ | |
2434 | if (info_verbose) | |
2435 | { | |
2436 | printf_filtered ("Reading in symbols for %s...", | |
2437 | pst -> filename); | |
2438 | fflush (stdout); | |
2439 | } | |
2440 | ||
2441 | psymtab_to_symtab_1 (pst); | |
2442 | ||
2443 | #if 0 /* FIXME: Check to see what dbxread is doing here and see if | |
2444 | we need to do an equivalent or is this something peculiar to | |
2445 | stabs/a.out format. | |
2446 | Match with global symbols. This only needs to be done once, | |
2447 | after all of the symtabs and dependencies have been read in. | |
2448 | */ | |
2449 | scan_file_globals (pst -> objfile); | |
2450 | #endif | |
2451 | ||
2452 | /* Finish up the verbose info message. */ | |
2453 | if (info_verbose) | |
2454 | { | |
2455 | printf_filtered ("done.\n"); | |
2456 | fflush (stdout); | |
2457 | } | |
2458 | } | |
35f5886e FF |
2459 | } |
2460 | } | |
2461 | } | |
2462 | ||
2463 | /* | |
2464 | ||
2465 | LOCAL FUNCTION | |
2466 | ||
2467 | init_psymbol_list -- initialize storage for partial symbols | |
2468 | ||
2469 | SYNOPSIS | |
2470 | ||
1ab3bf1b | 2471 | static void init_psymbol_list (struct objfile *objfile, int total_symbols) |
35f5886e FF |
2472 | |
2473 | DESCRIPTION | |
2474 | ||
2475 | Initializes storage for all of the partial symbols that will be | |
2476 | created by dwarf_build_psymtabs and subsidiaries. | |
2477 | */ | |
2478 | ||
2479 | static void | |
1ab3bf1b JG |
2480 | init_psymbol_list (objfile, total_symbols) |
2481 | struct objfile *objfile; | |
2482 | int total_symbols; | |
35f5886e FF |
2483 | { |
2484 | /* Free any previously allocated psymbol lists. */ | |
2485 | ||
1ab3bf1b | 2486 | if (objfile -> global_psymbols.list) |
35f5886e | 2487 | { |
84ffdec2 | 2488 | mfree (objfile -> md, (PTR)objfile -> global_psymbols.list); |
35f5886e | 2489 | } |
1ab3bf1b | 2490 | if (objfile -> static_psymbols.list) |
35f5886e | 2491 | { |
84ffdec2 | 2492 | mfree (objfile -> md, (PTR)objfile -> static_psymbols.list); |
35f5886e FF |
2493 | } |
2494 | ||
2495 | /* Current best guess is that there are approximately a twentieth | |
2496 | of the total symbols (in a debugging file) are global or static | |
2497 | oriented symbols */ | |
2498 | ||
1ab3bf1b JG |
2499 | objfile -> global_psymbols.size = total_symbols / 10; |
2500 | objfile -> static_psymbols.size = total_symbols / 10; | |
2501 | objfile -> global_psymbols.next = | |
2502 | objfile -> global_psymbols.list = (struct partial_symbol *) | |
318bf84f | 2503 | xmmalloc (objfile -> md, objfile -> global_psymbols.size |
1ab3bf1b JG |
2504 | * sizeof (struct partial_symbol)); |
2505 | objfile -> static_psymbols.next = | |
2506 | objfile -> static_psymbols.list = (struct partial_symbol *) | |
318bf84f | 2507 | xmmalloc (objfile -> md, objfile -> static_psymbols.size |
1ab3bf1b | 2508 | * sizeof (struct partial_symbol)); |
35f5886e FF |
2509 | } |
2510 | ||
35f5886e FF |
2511 | /* |
2512 | ||
715cafcb FF |
2513 | LOCAL FUNCTION |
2514 | ||
2515 | add_enum_psymbol -- add enumeration members to partial symbol table | |
2516 | ||
2517 | DESCRIPTION | |
2518 | ||
2519 | Given pointer to a DIE that is known to be for an enumeration, | |
2520 | extract the symbolic names of the enumeration members and add | |
2521 | partial symbols for them. | |
2522 | */ | |
2523 | ||
2524 | static void | |
1ab3bf1b JG |
2525 | add_enum_psymbol (dip, objfile) |
2526 | struct dieinfo *dip; | |
2527 | struct objfile *objfile; | |
715cafcb FF |
2528 | { |
2529 | char *scan; | |
2530 | char *listend; | |
13b5a7ff FF |
2531 | unsigned short blocksz; |
2532 | int nbytes; | |
715cafcb FF |
2533 | |
2534 | if ((scan = dip -> at_element_list) != NULL) | |
2535 | { | |
2536 | if (dip -> short_element_list) | |
2537 | { | |
13b5a7ff | 2538 | nbytes = attribute_size (AT_short_element_list); |
715cafcb FF |
2539 | } |
2540 | else | |
2541 | { | |
13b5a7ff | 2542 | nbytes = attribute_size (AT_element_list); |
715cafcb | 2543 | } |
13b5a7ff FF |
2544 | blocksz = target_to_host (scan, nbytes, GET_UNSIGNED, objfile); |
2545 | scan += nbytes; | |
2546 | listend = scan + blocksz; | |
715cafcb FF |
2547 | while (scan < listend) |
2548 | { | |
13b5a7ff | 2549 | scan += TARGET_FT_LONG_SIZE (objfile); |
b440b1e9 | 2550 | ADD_PSYMBOL_TO_LIST (scan, strlen (scan), VAR_NAMESPACE, LOC_CONST, |
2e4964ad FF |
2551 | objfile -> static_psymbols, 0, cu_language, |
2552 | objfile); | |
715cafcb FF |
2553 | scan += strlen (scan) + 1; |
2554 | } | |
2555 | } | |
2556 | } | |
2557 | ||
2558 | /* | |
2559 | ||
35f5886e FF |
2560 | LOCAL FUNCTION |
2561 | ||
2562 | add_partial_symbol -- add symbol to partial symbol table | |
2563 | ||
2564 | DESCRIPTION | |
2565 | ||
2566 | Given a DIE, if it is one of the types that we want to | |
2567 | add to a partial symbol table, finish filling in the die info | |
2568 | and then add a partial symbol table entry for it. | |
2569 | ||
95ff889e FF |
2570 | NOTES |
2571 | ||
2572 | The caller must ensure that the DIE has a valid name attribute. | |
35f5886e FF |
2573 | */ |
2574 | ||
2575 | static void | |
1ab3bf1b JG |
2576 | add_partial_symbol (dip, objfile) |
2577 | struct dieinfo *dip; | |
2578 | struct objfile *objfile; | |
35f5886e | 2579 | { |
13b5a7ff | 2580 | switch (dip -> die_tag) |
35f5886e FF |
2581 | { |
2582 | case TAG_global_subroutine: | |
b440b1e9 | 2583 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2584 | VAR_NAMESPACE, LOC_BLOCK, |
2585 | objfile -> global_psymbols, | |
2e4964ad | 2586 | dip -> at_low_pc, cu_language, objfile); |
35f5886e FF |
2587 | break; |
2588 | case TAG_global_variable: | |
b440b1e9 | 2589 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2590 | VAR_NAMESPACE, LOC_STATIC, |
2591 | objfile -> global_psymbols, | |
2e4964ad | 2592 | 0, cu_language, objfile); |
35f5886e FF |
2593 | break; |
2594 | case TAG_subroutine: | |
b440b1e9 | 2595 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2596 | VAR_NAMESPACE, LOC_BLOCK, |
2597 | objfile -> static_psymbols, | |
2e4964ad | 2598 | dip -> at_low_pc, cu_language, objfile); |
35f5886e FF |
2599 | break; |
2600 | case TAG_local_variable: | |
b440b1e9 | 2601 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2602 | VAR_NAMESPACE, LOC_STATIC, |
2603 | objfile -> static_psymbols, | |
2e4964ad | 2604 | 0, cu_language, objfile); |
35f5886e FF |
2605 | break; |
2606 | case TAG_typedef: | |
b440b1e9 | 2607 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2608 | VAR_NAMESPACE, LOC_TYPEDEF, |
2609 | objfile -> static_psymbols, | |
2e4964ad | 2610 | 0, cu_language, objfile); |
35f5886e | 2611 | break; |
95ff889e | 2612 | case TAG_class_type: |
35f5886e FF |
2613 | case TAG_structure_type: |
2614 | case TAG_union_type: | |
95ff889e | 2615 | case TAG_enumeration_type: |
b440b1e9 | 2616 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
1ab3bf1b JG |
2617 | STRUCT_NAMESPACE, LOC_TYPEDEF, |
2618 | objfile -> static_psymbols, | |
2e4964ad | 2619 | 0, cu_language, objfile); |
95ff889e | 2620 | if (cu_language == language_cplus) |
715cafcb | 2621 | { |
95ff889e | 2622 | /* For C++, these implicitly act as typedefs as well. */ |
b440b1e9 | 2623 | ADD_PSYMBOL_TO_LIST (dip -> at_name, strlen (dip -> at_name), |
95ff889e | 2624 | VAR_NAMESPACE, LOC_TYPEDEF, |
1ab3bf1b | 2625 | objfile -> static_psymbols, |
2e4964ad | 2626 | 0, cu_language, objfile); |
715cafcb | 2627 | } |
715cafcb | 2628 | break; |
35f5886e FF |
2629 | } |
2630 | } | |
2631 | ||
2632 | /* | |
2633 | ||
2634 | LOCAL FUNCTION | |
2635 | ||
2636 | scan_partial_symbols -- scan DIE's within a single compilation unit | |
2637 | ||
2638 | DESCRIPTION | |
2639 | ||
2640 | Process the DIE's within a single compilation unit, looking for | |
2641 | interesting DIE's that contribute to the partial symbol table entry | |
a679650f | 2642 | for this compilation unit. |
35f5886e | 2643 | |
2d6186f4 FF |
2644 | NOTES |
2645 | ||
a679650f FF |
2646 | There are some DIE's that may appear both at file scope and within |
2647 | the scope of a function. We are only interested in the ones at file | |
2648 | scope, and the only way to tell them apart is to keep track of the | |
2649 | scope. For example, consider the test case: | |
2650 | ||
2651 | static int i; | |
2652 | main () { int j; } | |
2653 | ||
2654 | for which the relevant DWARF segment has the structure: | |
2655 | ||
2656 | 0x51: | |
2657 | 0x23 global subrtn sibling 0x9b | |
2658 | name main | |
2659 | fund_type FT_integer | |
2660 | low_pc 0x800004cc | |
2661 | high_pc 0x800004d4 | |
2662 | ||
2663 | 0x74: | |
2664 | 0x23 local var sibling 0x97 | |
2665 | name j | |
2666 | fund_type FT_integer | |
2667 | location OP_BASEREG 0xe | |
2668 | OP_CONST 0xfffffffc | |
2669 | OP_ADD | |
2670 | 0x97: | |
2671 | 0x4 | |
2672 | ||
2673 | 0x9b: | |
2674 | 0x1d local var sibling 0xb8 | |
2675 | name i | |
2676 | fund_type FT_integer | |
2677 | location OP_ADDR 0x800025dc | |
2678 | ||
2679 | 0xb8: | |
2680 | 0x4 | |
2681 | ||
2682 | We want to include the symbol 'i' in the partial symbol table, but | |
2683 | not the symbol 'j'. In essence, we want to skip all the dies within | |
2684 | the scope of a TAG_global_subroutine DIE. | |
2685 | ||
715cafcb FF |
2686 | Don't attempt to add anonymous structures or unions since they have |
2687 | no name. Anonymous enumerations however are processed, because we | |
2688 | want to extract their member names (the check for a tag name is | |
2689 | done later). | |
2d6186f4 | 2690 | |
715cafcb FF |
2691 | Also, for variables and subroutines, check that this is the place |
2692 | where the actual definition occurs, rather than just a reference | |
2693 | to an external. | |
35f5886e FF |
2694 | */ |
2695 | ||
2696 | static void | |
1ab3bf1b JG |
2697 | scan_partial_symbols (thisdie, enddie, objfile) |
2698 | char *thisdie; | |
2699 | char *enddie; | |
2700 | struct objfile *objfile; | |
35f5886e FF |
2701 | { |
2702 | char *nextdie; | |
a679650f | 2703 | char *temp; |
35f5886e FF |
2704 | struct dieinfo di; |
2705 | ||
2706 | while (thisdie < enddie) | |
2707 | { | |
95967e73 | 2708 | basicdieinfo (&di, thisdie, objfile); |
13b5a7ff | 2709 | if (di.die_length < SIZEOF_DIE_LENGTH) |
35f5886e FF |
2710 | { |
2711 | break; | |
2712 | } | |
2713 | else | |
2714 | { | |
13b5a7ff | 2715 | nextdie = thisdie + di.die_length; |
715cafcb FF |
2716 | /* To avoid getting complete die information for every die, we |
2717 | only do it (below) for the cases we are interested in. */ | |
13b5a7ff | 2718 | switch (di.die_tag) |
35f5886e FF |
2719 | { |
2720 | case TAG_global_subroutine: | |
35f5886e | 2721 | case TAG_subroutine: |
a679650f FF |
2722 | completedieinfo (&di, objfile); |
2723 | if (di.at_name && (di.has_at_low_pc || di.at_location)) | |
2724 | { | |
2725 | add_partial_symbol (&di, objfile); | |
2726 | /* If there is a sibling attribute, adjust the nextdie | |
2727 | pointer to skip the entire scope of the subroutine. | |
2728 | Apply some sanity checking to make sure we don't | |
2729 | overrun or underrun the range of remaining DIE's */ | |
2730 | if (di.at_sibling != 0) | |
2731 | { | |
2732 | temp = dbbase + di.at_sibling - dbroff; | |
2733 | if ((temp < thisdie) || (temp >= enddie)) | |
2734 | { | |
51b80b00 FF |
2735 | complain (&bad_die_ref, DIE_ID, DIE_NAME, |
2736 | di.at_sibling); | |
a679650f FF |
2737 | } |
2738 | else | |
2739 | { | |
2740 | nextdie = temp; | |
2741 | } | |
2742 | } | |
2743 | } | |
2744 | break; | |
2d6186f4 | 2745 | case TAG_global_variable: |
35f5886e | 2746 | case TAG_local_variable: |
95967e73 | 2747 | completedieinfo (&di, objfile); |
2d6186f4 FF |
2748 | if (di.at_name && (di.has_at_low_pc || di.at_location)) |
2749 | { | |
1ab3bf1b | 2750 | add_partial_symbol (&di, objfile); |
2d6186f4 FF |
2751 | } |
2752 | break; | |
35f5886e | 2753 | case TAG_typedef: |
95ff889e | 2754 | case TAG_class_type: |
35f5886e FF |
2755 | case TAG_structure_type: |
2756 | case TAG_union_type: | |
95967e73 | 2757 | completedieinfo (&di, objfile); |
2d6186f4 | 2758 | if (di.at_name) |
35f5886e | 2759 | { |
1ab3bf1b | 2760 | add_partial_symbol (&di, objfile); |
35f5886e FF |
2761 | } |
2762 | break; | |
715cafcb | 2763 | case TAG_enumeration_type: |
95967e73 | 2764 | completedieinfo (&di, objfile); |
95ff889e FF |
2765 | if (di.at_name) |
2766 | { | |
2767 | add_partial_symbol (&di, objfile); | |
2768 | } | |
2769 | add_enum_psymbol (&di, objfile); | |
715cafcb | 2770 | break; |
35f5886e FF |
2771 | } |
2772 | } | |
2773 | thisdie = nextdie; | |
2774 | } | |
2775 | } | |
2776 | ||
2777 | /* | |
2778 | ||
2779 | LOCAL FUNCTION | |
2780 | ||
2781 | scan_compilation_units -- build a psymtab entry for each compilation | |
2782 | ||
2783 | DESCRIPTION | |
2784 | ||
2785 | This is the top level dwarf parsing routine for building partial | |
2786 | symbol tables. | |
2787 | ||
2788 | It scans from the beginning of the DWARF table looking for the first | |
2789 | TAG_compile_unit DIE, and then follows the sibling chain to locate | |
2790 | each additional TAG_compile_unit DIE. | |
2791 | ||
2792 | For each TAG_compile_unit DIE it creates a partial symtab structure, | |
2793 | calls a subordinate routine to collect all the compilation unit's | |
2794 | global DIE's, file scope DIEs, typedef DIEs, etc, and then links the | |
2795 | new partial symtab structure into the partial symbol table. It also | |
2796 | records the appropriate information in the partial symbol table entry | |
2797 | to allow the chunk of DIE's and line number table for this compilation | |
2798 | unit to be located and re-read later, to generate a complete symbol | |
2799 | table entry for the compilation unit. | |
2800 | ||
2801 | Thus it effectively partitions up a chunk of DIE's for multiple | |
2802 | compilation units into smaller DIE chunks and line number tables, | |
2803 | and associates them with a partial symbol table entry. | |
2804 | ||
2805 | NOTES | |
2806 | ||
2807 | If any compilation unit has no line number table associated with | |
2808 | it for some reason (a missing at_stmt_list attribute, rather than | |
2809 | just one with a value of zero, which is valid) then we ensure that | |
2810 | the recorded file offset is zero so that the routine which later | |
2811 | reads line number table fragments knows that there is no fragment | |
2812 | to read. | |
2813 | ||
2814 | RETURNS | |
2815 | ||
2816 | Returns no value. | |
2817 | ||
2818 | */ | |
2819 | ||
2820 | static void | |
d5931d79 | 2821 | scan_compilation_units (thisdie, enddie, dbfoff, lnoffset, objfile) |
1ab3bf1b JG |
2822 | char *thisdie; |
2823 | char *enddie; | |
d5931d79 JG |
2824 | file_ptr dbfoff; |
2825 | file_ptr lnoffset; | |
1ab3bf1b | 2826 | struct objfile *objfile; |
35f5886e FF |
2827 | { |
2828 | char *nextdie; | |
2829 | struct dieinfo di; | |
2830 | struct partial_symtab *pst; | |
2831 | int culength; | |
2832 | int curoff; | |
d5931d79 | 2833 | file_ptr curlnoffset; |
35f5886e FF |
2834 | |
2835 | while (thisdie < enddie) | |
2836 | { | |
95967e73 | 2837 | basicdieinfo (&di, thisdie, objfile); |
13b5a7ff | 2838 | if (di.die_length < SIZEOF_DIE_LENGTH) |
35f5886e FF |
2839 | { |
2840 | break; | |
2841 | } | |
13b5a7ff | 2842 | else if (di.die_tag != TAG_compile_unit) |
35f5886e | 2843 | { |
13b5a7ff | 2844 | nextdie = thisdie + di.die_length; |
35f5886e FF |
2845 | } |
2846 | else | |
2847 | { | |
95967e73 | 2848 | completedieinfo (&di, objfile); |
95ff889e | 2849 | set_cu_language (&di); |
35f5886e FF |
2850 | if (di.at_sibling != 0) |
2851 | { | |
2852 | nextdie = dbbase + di.at_sibling - dbroff; | |
2853 | } | |
2854 | else | |
2855 | { | |
13b5a7ff | 2856 | nextdie = thisdie + di.die_length; |
35f5886e FF |
2857 | } |
2858 | curoff = thisdie - dbbase; | |
2859 | culength = nextdie - thisdie; | |
2d6186f4 | 2860 | curlnoffset = di.has_at_stmt_list ? lnoffset + di.at_stmt_list : 0; |
1ab3bf1b JG |
2861 | |
2862 | /* First allocate a new partial symbol table structure */ | |
2863 | ||
95ff889e FF |
2864 | pst = start_psymtab_common (objfile, base_section_offsets, |
2865 | di.at_name, di.at_low_pc, | |
1ab3bf1b JG |
2866 | objfile -> global_psymbols.next, |
2867 | objfile -> static_psymbols.next); | |
2868 | ||
2869 | pst -> texthigh = di.at_high_pc; | |
2870 | pst -> read_symtab_private = (char *) | |
2871 | obstack_alloc (&objfile -> psymbol_obstack, | |
2872 | sizeof (struct dwfinfo)); | |
2873 | DBFOFF (pst) = dbfoff; | |
2874 | DBROFF (pst) = curoff; | |
2875 | DBLENGTH (pst) = culength; | |
2876 | LNFOFF (pst) = curlnoffset; | |
2877 | pst -> read_symtab = dwarf_psymtab_to_symtab; | |
2878 | ||
2879 | /* Now look for partial symbols */ | |
2880 | ||
13b5a7ff | 2881 | scan_partial_symbols (thisdie + di.die_length, nextdie, objfile); |
1ab3bf1b JG |
2882 | |
2883 | pst -> n_global_syms = objfile -> global_psymbols.next - | |
2884 | (objfile -> global_psymbols.list + pst -> globals_offset); | |
2885 | pst -> n_static_syms = objfile -> static_psymbols.next - | |
2886 | (objfile -> static_psymbols.list + pst -> statics_offset); | |
2887 | sort_pst_symbols (pst); | |
35f5886e FF |
2888 | /* If there is already a psymtab or symtab for a file of this name, |
2889 | remove it. (If there is a symtab, more drastic things also | |
2890 | happen.) This happens in VxWorks. */ | |
2891 | free_named_symtabs (pst -> filename); | |
35f5886e FF |
2892 | } |
2893 | thisdie = nextdie; | |
2894 | } | |
2895 | } | |
2896 | ||
2897 | /* | |
2898 | ||
2899 | LOCAL FUNCTION | |
2900 | ||
2901 | new_symbol -- make a symbol table entry for a new symbol | |
2902 | ||
2903 | SYNOPSIS | |
2904 | ||
1ab3bf1b JG |
2905 | static struct symbol *new_symbol (struct dieinfo *dip, |
2906 | struct objfile *objfile) | |
35f5886e FF |
2907 | |
2908 | DESCRIPTION | |
2909 | ||
2910 | Given a pointer to a DWARF information entry, figure out if we need | |
2911 | to make a symbol table entry for it, and if so, create a new entry | |
2912 | and return a pointer to it. | |
2913 | */ | |
2914 | ||
2915 | static struct symbol * | |
1ab3bf1b JG |
2916 | new_symbol (dip, objfile) |
2917 | struct dieinfo *dip; | |
2918 | struct objfile *objfile; | |
35f5886e FF |
2919 | { |
2920 | struct symbol *sym = NULL; | |
2921 | ||
2922 | if (dip -> at_name != NULL) | |
2923 | { | |
1ab3bf1b | 2924 | sym = (struct symbol *) obstack_alloc (&objfile -> symbol_obstack, |
35f5886e | 2925 | sizeof (struct symbol)); |
4ed3a9ea | 2926 | memset (sym, 0, sizeof (struct symbol)); |
95ff889e FF |
2927 | SYMBOL_NAME (sym) = create_name (dip -> at_name, |
2928 | &objfile->symbol_obstack); | |
35f5886e FF |
2929 | /* default assumptions */ |
2930 | SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE; | |
2931 | SYMBOL_CLASS (sym) = LOC_STATIC; | |
2932 | SYMBOL_TYPE (sym) = decode_die_type (dip); | |
2e4964ad FF |
2933 | |
2934 | /* If this symbol is from a C++ compilation, then attempt to cache the | |
2935 | demangled form for future reference. This is a typical time versus | |
2936 | space tradeoff, that was decided in favor of time because it sped up | |
2937 | C++ symbol lookups by a factor of about 20. */ | |
2938 | ||
2939 | SYMBOL_LANGUAGE (sym) = cu_language; | |
7532cf10 | 2940 | SYMBOL_INIT_DEMANGLED_NAME (sym, &objfile -> symbol_obstack); |
13b5a7ff | 2941 | switch (dip -> die_tag) |
35f5886e FF |
2942 | { |
2943 | case TAG_label: | |
4d315a07 | 2944 | SYMBOL_VALUE (sym) = dip -> at_low_pc; |
35f5886e FF |
2945 | SYMBOL_CLASS (sym) = LOC_LABEL; |
2946 | break; | |
2947 | case TAG_global_subroutine: | |
2948 | case TAG_subroutine: | |
4d315a07 | 2949 | SYMBOL_VALUE (sym) = dip -> at_low_pc; |
35f5886e FF |
2950 | SYMBOL_TYPE (sym) = lookup_function_type (SYMBOL_TYPE (sym)); |
2951 | SYMBOL_CLASS (sym) = LOC_BLOCK; | |
13b5a7ff | 2952 | if (dip -> die_tag == TAG_global_subroutine) |
35f5886e FF |
2953 | { |
2954 | add_symbol_to_list (sym, &global_symbols); | |
2955 | } | |
2956 | else | |
2957 | { | |
4d315a07 | 2958 | add_symbol_to_list (sym, list_in_scope); |
35f5886e FF |
2959 | } |
2960 | break; | |
2961 | case TAG_global_variable: | |
35f5886e FF |
2962 | if (dip -> at_location != NULL) |
2963 | { | |
2964 | SYMBOL_VALUE (sym) = locval (dip -> at_location); | |
35f5886e FF |
2965 | add_symbol_to_list (sym, &global_symbols); |
2966 | SYMBOL_CLASS (sym) = LOC_STATIC; | |
2967 | SYMBOL_VALUE (sym) += baseaddr; | |
2968 | } | |
a5bd5ba6 FF |
2969 | break; |
2970 | case TAG_local_variable: | |
2971 | if (dip -> at_location != NULL) | |
35f5886e | 2972 | { |
a5bd5ba6 | 2973 | SYMBOL_VALUE (sym) = locval (dip -> at_location); |
4d315a07 | 2974 | add_symbol_to_list (sym, list_in_scope); |
a5bd5ba6 FF |
2975 | if (isreg) |
2976 | { | |
2977 | SYMBOL_CLASS (sym) = LOC_REGISTER; | |
2978 | } | |
2979 | else if (offreg) | |
35f5886e | 2980 | { |
a1c8d76e JK |
2981 | SYMBOL_CLASS (sym) = LOC_BASEREG; |
2982 | SYMBOL_BASEREG (sym) = basereg; | |
35f5886e FF |
2983 | } |
2984 | else | |
2985 | { | |
2986 | SYMBOL_CLASS (sym) = LOC_STATIC; | |
2987 | SYMBOL_VALUE (sym) += baseaddr; | |
2988 | } | |
2989 | } | |
2990 | break; | |
2991 | case TAG_formal_parameter: | |
2992 | if (dip -> at_location != NULL) | |
2993 | { | |
2994 | SYMBOL_VALUE (sym) = locval (dip -> at_location); | |
2995 | } | |
4d315a07 | 2996 | add_symbol_to_list (sym, list_in_scope); |
35f5886e FF |
2997 | if (isreg) |
2998 | { | |
2999 | SYMBOL_CLASS (sym) = LOC_REGPARM; | |
3000 | } | |
a1c8d76e JK |
3001 | else if (offreg) |
3002 | { | |
3003 | SYMBOL_CLASS (sym) = LOC_BASEREG_ARG; | |
3004 | SYMBOL_BASEREG (sym) = basereg; | |
3005 | } | |
35f5886e FF |
3006 | else |
3007 | { | |
3008 | SYMBOL_CLASS (sym) = LOC_ARG; | |
3009 | } | |
3010 | break; | |
3011 | case TAG_unspecified_parameters: | |
3012 | /* From varargs functions; gdb doesn't seem to have any interest in | |
3013 | this information, so just ignore it for now. (FIXME?) */ | |
3014 | break; | |
95ff889e | 3015 | case TAG_class_type: |
35f5886e FF |
3016 | case TAG_structure_type: |
3017 | case TAG_union_type: | |
3018 | case TAG_enumeration_type: | |
3019 | SYMBOL_CLASS (sym) = LOC_TYPEDEF; | |
3020 | SYMBOL_NAMESPACE (sym) = STRUCT_NAMESPACE; | |
4d315a07 | 3021 | add_symbol_to_list (sym, list_in_scope); |
35f5886e FF |
3022 | break; |
3023 | case TAG_typedef: | |
3024 | SYMBOL_CLASS (sym) = LOC_TYPEDEF; | |
3025 | SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE; | |
4d315a07 | 3026 | add_symbol_to_list (sym, list_in_scope); |
35f5886e FF |
3027 | break; |
3028 | default: | |
3029 | /* Not a tag we recognize. Hopefully we aren't processing trash | |
3030 | data, but since we must specifically ignore things we don't | |
3031 | recognize, there is nothing else we should do at this point. */ | |
3032 | break; | |
3033 | } | |
3034 | } | |
3035 | return (sym); | |
3036 | } | |
3037 | ||
3038 | /* | |
3039 | ||
95ff889e FF |
3040 | LOCAL FUNCTION |
3041 | ||
3042 | synthesize_typedef -- make a symbol table entry for a "fake" typedef | |
3043 | ||
3044 | SYNOPSIS | |
3045 | ||
3046 | static void synthesize_typedef (struct dieinfo *dip, | |
3047 | struct objfile *objfile, | |
3048 | struct type *type); | |
3049 | ||
3050 | DESCRIPTION | |
3051 | ||
3052 | Given a pointer to a DWARF information entry, synthesize a typedef | |
3053 | for the name in the DIE, using the specified type. | |
3054 | ||
3055 | This is used for C++ class, structs, unions, and enumerations to | |
3056 | set up the tag name as a type. | |
3057 | ||
3058 | */ | |
3059 | ||
3060 | static void | |
3061 | synthesize_typedef (dip, objfile, type) | |
3062 | struct dieinfo *dip; | |
3063 | struct objfile *objfile; | |
3064 | struct type *type; | |
3065 | { | |
3066 | struct symbol *sym = NULL; | |
3067 | ||
3068 | if (dip -> at_name != NULL) | |
3069 | { | |
3070 | sym = (struct symbol *) | |
3071 | obstack_alloc (&objfile -> symbol_obstack, sizeof (struct symbol)); | |
3072 | memset (sym, 0, sizeof (struct symbol)); | |
3073 | SYMBOL_NAME (sym) = create_name (dip -> at_name, | |
3074 | &objfile->symbol_obstack); | |
7532cf10 | 3075 | SYMBOL_INIT_LANGUAGE_SPECIFIC (sym, cu_language); |
95ff889e FF |
3076 | SYMBOL_TYPE (sym) = type; |
3077 | SYMBOL_CLASS (sym) = LOC_TYPEDEF; | |
3078 | SYMBOL_NAMESPACE (sym) = VAR_NAMESPACE; | |
3079 | add_symbol_to_list (sym, list_in_scope); | |
3080 | } | |
3081 | } | |
3082 | ||
3083 | /* | |
3084 | ||
35f5886e FF |
3085 | LOCAL FUNCTION |
3086 | ||
3087 | decode_mod_fund_type -- decode a modified fundamental type | |
3088 | ||
3089 | SYNOPSIS | |
3090 | ||
3091 | static struct type *decode_mod_fund_type (char *typedata) | |
3092 | ||
3093 | DESCRIPTION | |
3094 | ||
3095 | Decode a block of data containing a modified fundamental | |
3096 | type specification. TYPEDATA is a pointer to the block, | |
13b5a7ff FF |
3097 | which starts with a length containing the size of the rest |
3098 | of the block. At the end of the block is a fundmental type | |
3099 | code value that gives the fundamental type. Everything | |
35f5886e FF |
3100 | in between are type modifiers. |
3101 | ||
3102 | We simply compute the number of modifiers and call the general | |
3103 | function decode_modified_type to do the actual work. | |
3104 | */ | |
3105 | ||
3106 | static struct type * | |
1ab3bf1b JG |
3107 | decode_mod_fund_type (typedata) |
3108 | char *typedata; | |
35f5886e FF |
3109 | { |
3110 | struct type *typep = NULL; | |
3111 | unsigned short modcount; | |
13b5a7ff | 3112 | int nbytes; |
35f5886e FF |
3113 | |
3114 | /* Get the total size of the block, exclusive of the size itself */ | |
13b5a7ff FF |
3115 | |
3116 | nbytes = attribute_size (AT_mod_fund_type); | |
3117 | modcount = target_to_host (typedata, nbytes, GET_UNSIGNED, current_objfile); | |
3118 | typedata += nbytes; | |
3119 | ||
35f5886e | 3120 | /* Deduct the size of the fundamental type bytes at the end of the block. */ |
13b5a7ff FF |
3121 | |
3122 | modcount -= attribute_size (AT_fund_type); | |
3123 | ||
35f5886e | 3124 | /* Now do the actual decoding */ |
13b5a7ff FF |
3125 | |
3126 | typep = decode_modified_type (typedata, modcount, AT_mod_fund_type); | |
35f5886e FF |
3127 | return (typep); |
3128 | } | |
3129 | ||
3130 | /* | |
3131 | ||
3132 | LOCAL FUNCTION | |
3133 | ||
3134 | decode_mod_u_d_type -- decode a modified user defined type | |
3135 | ||
3136 | SYNOPSIS | |
3137 | ||
3138 | static struct type *decode_mod_u_d_type (char *typedata) | |
3139 | ||
3140 | DESCRIPTION | |
3141 | ||
3142 | Decode a block of data containing a modified user defined | |
3143 | type specification. TYPEDATA is a pointer to the block, | |
3144 | which consists of a two byte length, containing the size | |
3145 | of the rest of the block. At the end of the block is a | |
3146 | four byte value that gives a reference to a user defined type. | |
3147 | Everything in between are type modifiers. | |
3148 | ||
3149 | We simply compute the number of modifiers and call the general | |
3150 | function decode_modified_type to do the actual work. | |
3151 | */ | |
3152 | ||
3153 | static struct type * | |
1ab3bf1b JG |
3154 | decode_mod_u_d_type (typedata) |
3155 | char *typedata; | |
35f5886e FF |
3156 | { |
3157 | struct type *typep = NULL; | |
3158 | unsigned short modcount; | |
13b5a7ff | 3159 | int nbytes; |
35f5886e FF |
3160 | |
3161 | /* Get the total size of the block, exclusive of the size itself */ | |
13b5a7ff FF |
3162 | |
3163 | nbytes = attribute_size (AT_mod_u_d_type); | |
3164 | modcount = target_to_host (typedata, nbytes, GET_UNSIGNED, current_objfile); | |
3165 | typedata += nbytes; | |
3166 | ||
35f5886e | 3167 | /* Deduct the size of the reference type bytes at the end of the block. */ |
13b5a7ff FF |
3168 | |
3169 | modcount -= attribute_size (AT_user_def_type); | |
3170 | ||
35f5886e | 3171 | /* Now do the actual decoding */ |
13b5a7ff FF |
3172 | |
3173 | typep = decode_modified_type (typedata, modcount, AT_mod_u_d_type); | |
35f5886e FF |
3174 | return (typep); |
3175 | } | |
3176 | ||
3177 | /* | |
3178 | ||
3179 | LOCAL FUNCTION | |
3180 | ||
3181 | decode_modified_type -- decode modified user or fundamental type | |
3182 | ||
3183 | SYNOPSIS | |
3184 | ||
1c92ca6f | 3185 | static struct type *decode_modified_type (char *modifiers, |
35f5886e FF |
3186 | unsigned short modcount, int mtype) |
3187 | ||
3188 | DESCRIPTION | |
3189 | ||
3190 | Decode a modified type, either a modified fundamental type or | |
3191 | a modified user defined type. MODIFIERS is a pointer to the | |
3192 | block of bytes that define MODCOUNT modifiers. Immediately | |
3193 | following the last modifier is a short containing the fundamental | |
3194 | type or a long containing the reference to the user defined | |
3195 | type. Which one is determined by MTYPE, which is either | |
3196 | AT_mod_fund_type or AT_mod_u_d_type to indicate what modified | |
3197 | type we are generating. | |
3198 | ||
3199 | We call ourself recursively to generate each modified type,` | |
3200 | until MODCOUNT reaches zero, at which point we have consumed | |
3201 | all the modifiers and generate either the fundamental type or | |
3202 | user defined type. When the recursion unwinds, each modifier | |
3203 | is applied in turn to generate the full modified type. | |
3204 | ||
3205 | NOTES | |
3206 | ||
3207 | If we find a modifier that we don't recognize, and it is not one | |
3208 | of those reserved for application specific use, then we issue a | |
3209 | warning and simply ignore the modifier. | |
3210 | ||
3211 | BUGS | |
3212 | ||
3213 | We currently ignore MOD_const and MOD_volatile. (FIXME) | |
3214 | ||
3215 | */ | |
3216 | ||
3217 | static struct type * | |
1ab3bf1b | 3218 | decode_modified_type (modifiers, modcount, mtype) |
1c92ca6f | 3219 | char *modifiers; |
1ab3bf1b JG |
3220 | unsigned int modcount; |
3221 | int mtype; | |
35f5886e FF |
3222 | { |
3223 | struct type *typep = NULL; | |
3224 | unsigned short fundtype; | |
13b5a7ff | 3225 | DIE_REF die_ref; |
1c92ca6f | 3226 | char modifier; |
13b5a7ff | 3227 | int nbytes; |
35f5886e FF |
3228 | |
3229 | if (modcount == 0) | |
3230 | { | |
3231 | switch (mtype) | |
3232 | { | |
3233 | case AT_mod_fund_type: | |
13b5a7ff FF |
3234 | nbytes = attribute_size (AT_fund_type); |
3235 | fundtype = target_to_host (modifiers, nbytes, GET_UNSIGNED, | |
3236 | current_objfile); | |
35f5886e FF |
3237 | typep = decode_fund_type (fundtype); |
3238 | break; | |
3239 | case AT_mod_u_d_type: | |
13b5a7ff FF |
3240 | nbytes = attribute_size (AT_user_def_type); |
3241 | die_ref = target_to_host (modifiers, nbytes, GET_UNSIGNED, | |
3242 | current_objfile); | |
3243 | if ((typep = lookup_utype (die_ref)) == NULL) | |
35f5886e | 3244 | { |
13b5a7ff | 3245 | typep = alloc_utype (die_ref, NULL); |
35f5886e FF |
3246 | } |
3247 | break; | |
3248 | default: | |
51b80b00 | 3249 | complain (&botched_modified_type, DIE_ID, DIE_NAME, mtype); |
bf229b4e | 3250 | typep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
35f5886e FF |
3251 | break; |
3252 | } | |
3253 | } | |
3254 | else | |
3255 | { | |
3256 | modifier = *modifiers++; | |
3257 | typep = decode_modified_type (modifiers, --modcount, mtype); | |
3258 | switch (modifier) | |
3259 | { | |
13b5a7ff FF |
3260 | case MOD_pointer_to: |
3261 | typep = lookup_pointer_type (typep); | |
3262 | break; | |
3263 | case MOD_reference_to: | |
3264 | typep = lookup_reference_type (typep); | |
3265 | break; | |
3266 | case MOD_const: | |
51b80b00 | 3267 | complain (&const_ignored, DIE_ID, DIE_NAME); /* FIXME */ |
13b5a7ff FF |
3268 | break; |
3269 | case MOD_volatile: | |
51b80b00 | 3270 | complain (&volatile_ignored, DIE_ID, DIE_NAME); /* FIXME */ |
13b5a7ff FF |
3271 | break; |
3272 | default: | |
1c92ca6f FF |
3273 | if (!(MOD_lo_user <= (unsigned char) modifier |
3274 | && (unsigned char) modifier <= MOD_hi_user)) | |
13b5a7ff | 3275 | { |
51b80b00 | 3276 | complain (&unknown_type_modifier, DIE_ID, DIE_NAME, modifier); |
13b5a7ff FF |
3277 | } |
3278 | break; | |
35f5886e FF |
3279 | } |
3280 | } | |
3281 | return (typep); | |
3282 | } | |
3283 | ||
3284 | /* | |
3285 | ||
3286 | LOCAL FUNCTION | |
3287 | ||
3288 | decode_fund_type -- translate basic DWARF type to gdb base type | |
3289 | ||
3290 | DESCRIPTION | |
3291 | ||
3292 | Given an integer that is one of the fundamental DWARF types, | |
3293 | translate it to one of the basic internal gdb types and return | |
3294 | a pointer to the appropriate gdb type (a "struct type *"). | |
3295 | ||
3296 | NOTES | |
3297 | ||
85f0a848 FF |
3298 | For robustness, if we are asked to translate a fundamental |
3299 | type that we are unprepared to deal with, we return int so | |
3300 | callers can always depend upon a valid type being returned, | |
3301 | and so gdb may at least do something reasonable by default. | |
3302 | If the type is not in the range of those types defined as | |
3303 | application specific types, we also issue a warning. | |
35f5886e FF |
3304 | */ |
3305 | ||
3306 | static struct type * | |
1ab3bf1b JG |
3307 | decode_fund_type (fundtype) |
3308 | unsigned int fundtype; | |
35f5886e FF |
3309 | { |
3310 | struct type *typep = NULL; | |
3311 | ||
3312 | switch (fundtype) | |
3313 | { | |
3314 | ||
3315 | case FT_void: | |
bf229b4e | 3316 | typep = dwarf_fundamental_type (current_objfile, FT_VOID); |
35f5886e FF |
3317 | break; |
3318 | ||
1ab3bf1b | 3319 | case FT_boolean: /* Was FT_set in AT&T version */ |
bf229b4e | 3320 | typep = dwarf_fundamental_type (current_objfile, FT_BOOLEAN); |
1ab3bf1b JG |
3321 | break; |
3322 | ||
35f5886e | 3323 | case FT_pointer: /* (void *) */ |
bf229b4e | 3324 | typep = dwarf_fundamental_type (current_objfile, FT_VOID); |
1ab3bf1b | 3325 | typep = lookup_pointer_type (typep); |
35f5886e FF |
3326 | break; |
3327 | ||
3328 | case FT_char: | |
bf229b4e | 3329 | typep = dwarf_fundamental_type (current_objfile, FT_CHAR); |
1ab3bf1b JG |
3330 | break; |
3331 | ||
35f5886e | 3332 | case FT_signed_char: |
bf229b4e | 3333 | typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_CHAR); |
1ab3bf1b JG |
3334 | break; |
3335 | ||
3336 | case FT_unsigned_char: | |
bf229b4e | 3337 | typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_CHAR); |
35f5886e FF |
3338 | break; |
3339 | ||
3340 | case FT_short: | |
bf229b4e | 3341 | typep = dwarf_fundamental_type (current_objfile, FT_SHORT); |
1ab3bf1b JG |
3342 | break; |
3343 | ||
35f5886e | 3344 | case FT_signed_short: |
bf229b4e | 3345 | typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_SHORT); |
1ab3bf1b JG |
3346 | break; |
3347 | ||
3348 | case FT_unsigned_short: | |
bf229b4e | 3349 | typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_SHORT); |
35f5886e FF |
3350 | break; |
3351 | ||
3352 | case FT_integer: | |
bf229b4e | 3353 | typep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
1ab3bf1b JG |
3354 | break; |
3355 | ||
35f5886e | 3356 | case FT_signed_integer: |
bf229b4e | 3357 | typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_INTEGER); |
1ab3bf1b JG |
3358 | break; |
3359 | ||
3360 | case FT_unsigned_integer: | |
bf229b4e | 3361 | typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_INTEGER); |
35f5886e FF |
3362 | break; |
3363 | ||
3364 | case FT_long: | |
bf229b4e | 3365 | typep = dwarf_fundamental_type (current_objfile, FT_LONG); |
1ab3bf1b JG |
3366 | break; |
3367 | ||
35f5886e | 3368 | case FT_signed_long: |
bf229b4e | 3369 | typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_LONG); |
35f5886e FF |
3370 | break; |
3371 | ||
1ab3bf1b | 3372 | case FT_unsigned_long: |
bf229b4e | 3373 | typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_LONG); |
35f5886e FF |
3374 | break; |
3375 | ||
1ab3bf1b | 3376 | case FT_long_long: |
bf229b4e | 3377 | typep = dwarf_fundamental_type (current_objfile, FT_LONG_LONG); |
35f5886e | 3378 | break; |
1ab3bf1b JG |
3379 | |
3380 | case FT_signed_long_long: | |
bf229b4e | 3381 | typep = dwarf_fundamental_type (current_objfile, FT_SIGNED_LONG_LONG); |
35f5886e | 3382 | break; |
1ab3bf1b JG |
3383 | |
3384 | case FT_unsigned_long_long: | |
bf229b4e | 3385 | typep = dwarf_fundamental_type (current_objfile, FT_UNSIGNED_LONG_LONG); |
35f5886e | 3386 | break; |
1ab3bf1b JG |
3387 | |
3388 | case FT_float: | |
bf229b4e | 3389 | typep = dwarf_fundamental_type (current_objfile, FT_FLOAT); |
35f5886e FF |
3390 | break; |
3391 | ||
1ab3bf1b | 3392 | case FT_dbl_prec_float: |
bf229b4e | 3393 | typep = dwarf_fundamental_type (current_objfile, FT_DBL_PREC_FLOAT); |
35f5886e FF |
3394 | break; |
3395 | ||
3396 | case FT_ext_prec_float: | |
bf229b4e | 3397 | typep = dwarf_fundamental_type (current_objfile, FT_EXT_PREC_FLOAT); |
35f5886e FF |
3398 | break; |
3399 | ||
3400 | case FT_complex: | |
bf229b4e | 3401 | typep = dwarf_fundamental_type (current_objfile, FT_COMPLEX); |
35f5886e FF |
3402 | break; |
3403 | ||
3404 | case FT_dbl_prec_complex: | |
bf229b4e | 3405 | typep = dwarf_fundamental_type (current_objfile, FT_DBL_PREC_COMPLEX); |
35f5886e FF |
3406 | break; |
3407 | ||
1ab3bf1b | 3408 | case FT_ext_prec_complex: |
bf229b4e | 3409 | typep = dwarf_fundamental_type (current_objfile, FT_EXT_PREC_COMPLEX); |
35f5886e | 3410 | break; |
1ab3bf1b | 3411 | |
35f5886e FF |
3412 | } |
3413 | ||
85f0a848 | 3414 | if (typep == NULL) |
35f5886e | 3415 | { |
85f0a848 FF |
3416 | typep = dwarf_fundamental_type (current_objfile, FT_INTEGER); |
3417 | if (!(FT_lo_user <= fundtype && fundtype <= FT_hi_user)) | |
3418 | { | |
51b80b00 | 3419 | complain (&unexpected_fund_type, DIE_ID, DIE_NAME, fundtype); |
85f0a848 | 3420 | } |
35f5886e FF |
3421 | } |
3422 | ||
3423 | return (typep); | |
3424 | } | |
3425 | ||
3426 | /* | |
3427 | ||
3428 | LOCAL FUNCTION | |
3429 | ||
3430 | create_name -- allocate a fresh copy of a string on an obstack | |
3431 | ||
3432 | DESCRIPTION | |
3433 | ||
3434 | Given a pointer to a string and a pointer to an obstack, allocates | |
3435 | a fresh copy of the string on the specified obstack. | |
3436 | ||
3437 | */ | |
3438 | ||
3439 | static char * | |
1ab3bf1b JG |
3440 | create_name (name, obstackp) |
3441 | char *name; | |
3442 | struct obstack *obstackp; | |
35f5886e FF |
3443 | { |
3444 | int length; | |
3445 | char *newname; | |
3446 | ||
3447 | length = strlen (name) + 1; | |
3448 | newname = (char *) obstack_alloc (obstackp, length); | |
4ed3a9ea | 3449 | strcpy (newname, name); |
35f5886e FF |
3450 | return (newname); |
3451 | } | |
3452 | ||
3453 | /* | |
3454 | ||
3455 | LOCAL FUNCTION | |
3456 | ||
3457 | basicdieinfo -- extract the minimal die info from raw die data | |
3458 | ||
3459 | SYNOPSIS | |
3460 | ||
95967e73 FF |
3461 | void basicdieinfo (char *diep, struct dieinfo *dip, |
3462 | struct objfile *objfile) | |
35f5886e FF |
3463 | |
3464 | DESCRIPTION | |
3465 | ||
3466 | Given a pointer to raw DIE data, and a pointer to an instance of a | |
3467 | die info structure, this function extracts the basic information | |
3468 | from the DIE data required to continue processing this DIE, along | |
3469 | with some bookkeeping information about the DIE. | |
3470 | ||
3471 | The information we absolutely must have includes the DIE tag, | |
3472 | and the DIE length. If we need the sibling reference, then we | |
3473 | will have to call completedieinfo() to process all the remaining | |
3474 | DIE information. | |
3475 | ||
3476 | Note that since there is no guarantee that the data is properly | |
3477 | aligned in memory for the type of access required (indirection | |
95967e73 FF |
3478 | through anything other than a char pointer), and there is no |
3479 | guarantee that it is in the same byte order as the gdb host, | |
3480 | we call a function which deals with both alignment and byte | |
3481 | swapping issues. Possibly inefficient, but quite portable. | |
35f5886e FF |
3482 | |
3483 | We also take care of some other basic things at this point, such | |
3484 | as ensuring that the instance of the die info structure starts | |
3485 | out completely zero'd and that curdie is initialized for use | |
3486 | in error reporting if we have a problem with the current die. | |
3487 | ||
3488 | NOTES | |
3489 | ||
3490 | All DIE's must have at least a valid length, thus the minimum | |
13b5a7ff FF |
3491 | DIE size is SIZEOF_DIE_LENGTH. In order to have a valid tag, the |
3492 | DIE size must be at least SIZEOF_DIE_TAG larger, otherwise they | |
35f5886e FF |
3493 | are forced to be TAG_padding DIES. |
3494 | ||
13b5a7ff FF |
3495 | Padding DIES must be at least SIZEOF_DIE_LENGTH in length, implying |
3496 | that if a padding DIE is used for alignment and the amount needed is | |
3497 | less than SIZEOF_DIE_LENGTH, then the padding DIE has to be big | |
3498 | enough to align to the next alignment boundry. | |
4090fe1c FF |
3499 | |
3500 | We do some basic sanity checking here, such as verifying that the | |
3501 | length of the die would not cause it to overrun the recorded end of | |
3502 | the buffer holding the DIE info. If we find a DIE that is either | |
3503 | too small or too large, we force it's length to zero which should | |
3504 | cause the caller to take appropriate action. | |
35f5886e FF |
3505 | */ |
3506 | ||
3507 | static void | |
95967e73 | 3508 | basicdieinfo (dip, diep, objfile) |
1ab3bf1b JG |
3509 | struct dieinfo *dip; |
3510 | char *diep; | |
95967e73 | 3511 | struct objfile *objfile; |
35f5886e FF |
3512 | { |
3513 | curdie = dip; | |
4ed3a9ea | 3514 | memset (dip, 0, sizeof (struct dieinfo)); |
35f5886e | 3515 | dip -> die = diep; |
13b5a7ff FF |
3516 | dip -> die_ref = dbroff + (diep - dbbase); |
3517 | dip -> die_length = target_to_host (diep, SIZEOF_DIE_LENGTH, GET_UNSIGNED, | |
3518 | objfile); | |
4090fe1c FF |
3519 | if ((dip -> die_length < SIZEOF_DIE_LENGTH) || |
3520 | ((diep + dip -> die_length) > (dbbase + dbsize))) | |
35f5886e | 3521 | { |
51b80b00 | 3522 | complain (&malformed_die, DIE_ID, DIE_NAME, dip -> die_length); |
4090fe1c | 3523 | dip -> die_length = 0; |
35f5886e | 3524 | } |
13b5a7ff | 3525 | else if (dip -> die_length < (SIZEOF_DIE_LENGTH + SIZEOF_DIE_TAG)) |
35f5886e | 3526 | { |
13b5a7ff | 3527 | dip -> die_tag = TAG_padding; |
35f5886e FF |
3528 | } |
3529 | else | |
3530 | { | |
13b5a7ff FF |
3531 | diep += SIZEOF_DIE_LENGTH; |
3532 | dip -> die_tag = target_to_host (diep, SIZEOF_DIE_TAG, GET_UNSIGNED, | |
3533 | objfile); | |
35f5886e FF |
3534 | } |
3535 | } | |
3536 | ||
3537 | /* | |
3538 | ||
3539 | LOCAL FUNCTION | |
3540 | ||
3541 | completedieinfo -- finish reading the information for a given DIE | |
3542 | ||
3543 | SYNOPSIS | |
3544 | ||
95967e73 | 3545 | void completedieinfo (struct dieinfo *dip, struct objfile *objfile) |
35f5886e FF |
3546 | |
3547 | DESCRIPTION | |
3548 | ||
3549 | Given a pointer to an already partially initialized die info structure, | |
3550 | scan the raw DIE data and finish filling in the die info structure | |
3551 | from the various attributes found. | |
3552 | ||
3553 | Note that since there is no guarantee that the data is properly | |
3554 | aligned in memory for the type of access required (indirection | |
95967e73 FF |
3555 | through anything other than a char pointer), and there is no |
3556 | guarantee that it is in the same byte order as the gdb host, | |
3557 | we call a function which deals with both alignment and byte | |
3558 | swapping issues. Possibly inefficient, but quite portable. | |
35f5886e FF |
3559 | |
3560 | NOTES | |
3561 | ||
3562 | Each time we are called, we increment the diecount variable, which | |
3563 | keeps an approximate count of the number of dies processed for | |
3564 | each compilation unit. This information is presented to the user | |
3565 | if the info_verbose flag is set. | |
3566 | ||
3567 | */ | |
3568 | ||
3569 | static void | |
95967e73 | 3570 | completedieinfo (dip, objfile) |
1ab3bf1b | 3571 | struct dieinfo *dip; |
95967e73 | 3572 | struct objfile *objfile; |
35f5886e FF |
3573 | { |
3574 | char *diep; /* Current pointer into raw DIE data */ | |
3575 | char *end; /* Terminate DIE scan here */ | |
3576 | unsigned short attr; /* Current attribute being scanned */ | |
3577 | unsigned short form; /* Form of the attribute */ | |
13b5a7ff | 3578 | int nbytes; /* Size of next field to read */ |
35f5886e FF |
3579 | |
3580 | diecount++; | |
3581 | diep = dip -> die; | |
13b5a7ff FF |
3582 | end = diep + dip -> die_length; |
3583 | diep += SIZEOF_DIE_LENGTH + SIZEOF_DIE_TAG; | |
35f5886e FF |
3584 | while (diep < end) |
3585 | { | |
13b5a7ff FF |
3586 | attr = target_to_host (diep, SIZEOF_ATTRIBUTE, GET_UNSIGNED, objfile); |
3587 | diep += SIZEOF_ATTRIBUTE; | |
3588 | if ((nbytes = attribute_size (attr)) == -1) | |
3589 | { | |
51b80b00 | 3590 | complain (&unknown_attribute_length, DIE_ID, DIE_NAME); |
13b5a7ff FF |
3591 | diep = end; |
3592 | continue; | |
3593 | } | |
35f5886e FF |
3594 | switch (attr) |
3595 | { | |
3596 | case AT_fund_type: | |
13b5a7ff FF |
3597 | dip -> at_fund_type = target_to_host (diep, nbytes, GET_UNSIGNED, |
3598 | objfile); | |
35f5886e FF |
3599 | break; |
3600 | case AT_ordering: | |
13b5a7ff FF |
3601 | dip -> at_ordering = target_to_host (diep, nbytes, GET_UNSIGNED, |
3602 | objfile); | |
35f5886e FF |
3603 | break; |
3604 | case AT_bit_offset: | |
13b5a7ff FF |
3605 | dip -> at_bit_offset = target_to_host (diep, nbytes, GET_UNSIGNED, |
3606 | objfile); | |
35f5886e | 3607 | break; |
35f5886e | 3608 | case AT_sibling: |
13b5a7ff FF |
3609 | dip -> at_sibling = target_to_host (diep, nbytes, GET_UNSIGNED, |
3610 | objfile); | |
35f5886e FF |
3611 | break; |
3612 | case AT_stmt_list: | |
13b5a7ff FF |
3613 | dip -> at_stmt_list = target_to_host (diep, nbytes, GET_UNSIGNED, |
3614 | objfile); | |
2d6186f4 | 3615 | dip -> has_at_stmt_list = 1; |
35f5886e FF |
3616 | break; |
3617 | case AT_low_pc: | |
13b5a7ff FF |
3618 | dip -> at_low_pc = target_to_host (diep, nbytes, GET_UNSIGNED, |
3619 | objfile); | |
4d315a07 | 3620 | dip -> at_low_pc += baseaddr; |
2d6186f4 | 3621 | dip -> has_at_low_pc = 1; |
35f5886e FF |
3622 | break; |
3623 | case AT_high_pc: | |
13b5a7ff FF |
3624 | dip -> at_high_pc = target_to_host (diep, nbytes, GET_UNSIGNED, |
3625 | objfile); | |
4d315a07 | 3626 | dip -> at_high_pc += baseaddr; |
35f5886e FF |
3627 | break; |
3628 | case AT_language: | |
13b5a7ff FF |
3629 | dip -> at_language = target_to_host (diep, nbytes, GET_UNSIGNED, |
3630 | objfile); | |
35f5886e FF |
3631 | break; |
3632 | case AT_user_def_type: | |
13b5a7ff FF |
3633 | dip -> at_user_def_type = target_to_host (diep, nbytes, |
3634 | GET_UNSIGNED, objfile); | |
35f5886e FF |
3635 | break; |
3636 | case AT_byte_size: | |
13b5a7ff FF |
3637 | dip -> at_byte_size = target_to_host (diep, nbytes, GET_UNSIGNED, |
3638 | objfile); | |
50055e94 | 3639 | dip -> has_at_byte_size = 1; |
35f5886e FF |
3640 | break; |
3641 | case AT_bit_size: | |
13b5a7ff FF |
3642 | dip -> at_bit_size = target_to_host (diep, nbytes, GET_UNSIGNED, |
3643 | objfile); | |
35f5886e FF |
3644 | break; |
3645 | case AT_member: | |
13b5a7ff FF |
3646 | dip -> at_member = target_to_host (diep, nbytes, GET_UNSIGNED, |
3647 | objfile); | |
35f5886e FF |
3648 | break; |
3649 | case AT_discr: | |
13b5a7ff FF |
3650 | dip -> at_discr = target_to_host (diep, nbytes, GET_UNSIGNED, |
3651 | objfile); | |
35f5886e | 3652 | break; |
35f5886e FF |
3653 | case AT_location: |
3654 | dip -> at_location = diep; | |
3655 | break; | |
3656 | case AT_mod_fund_type: | |
3657 | dip -> at_mod_fund_type = diep; | |
3658 | break; | |
3659 | case AT_subscr_data: | |
3660 | dip -> at_subscr_data = diep; | |
3661 | break; | |
3662 | case AT_mod_u_d_type: | |
3663 | dip -> at_mod_u_d_type = diep; | |
3664 | break; | |
35f5886e FF |
3665 | case AT_element_list: |
3666 | dip -> at_element_list = diep; | |
768be6e1 FF |
3667 | dip -> short_element_list = 0; |
3668 | break; | |
3669 | case AT_short_element_list: | |
3670 | dip -> at_element_list = diep; | |
3671 | dip -> short_element_list = 1; | |
35f5886e FF |
3672 | break; |
3673 | case AT_discr_value: | |
3674 | dip -> at_discr_value = diep; | |
3675 | break; | |
3676 | case AT_string_length: | |
3677 | dip -> at_string_length = diep; | |
3678 | break; | |
3679 | case AT_name: | |
3680 | dip -> at_name = diep; | |
3681 | break; | |
3682 | case AT_comp_dir: | |
d4902ab0 FF |
3683 | /* For now, ignore any "hostname:" portion, since gdb doesn't |
3684 | know how to deal with it. (FIXME). */ | |
3685 | dip -> at_comp_dir = strrchr (diep, ':'); | |
3686 | if (dip -> at_comp_dir != NULL) | |
3687 | { | |
3688 | dip -> at_comp_dir++; | |
3689 | } | |
3690 | else | |
3691 | { | |
3692 | dip -> at_comp_dir = diep; | |
3693 | } | |
35f5886e FF |
3694 | break; |
3695 | case AT_producer: | |
3696 | dip -> at_producer = diep; | |
3697 | break; | |
35f5886e | 3698 | case AT_start_scope: |
13b5a7ff FF |
3699 | dip -> at_start_scope = target_to_host (diep, nbytes, GET_UNSIGNED, |
3700 | objfile); | |
35f5886e FF |
3701 | break; |
3702 | case AT_stride_size: | |
13b5a7ff FF |
3703 | dip -> at_stride_size = target_to_host (diep, nbytes, GET_UNSIGNED, |
3704 | objfile); | |
35f5886e FF |
3705 | break; |
3706 | case AT_src_info: | |
13b5a7ff FF |
3707 | dip -> at_src_info = target_to_host (diep, nbytes, GET_UNSIGNED, |
3708 | objfile); | |
35f5886e FF |
3709 | break; |
3710 | case AT_prototyped: | |
13b5a7ff | 3711 | dip -> at_prototyped = diep; |
35f5886e | 3712 | break; |
35f5886e FF |
3713 | default: |
3714 | /* Found an attribute that we are unprepared to handle. However | |
3715 | it is specifically one of the design goals of DWARF that | |
3716 | consumers should ignore unknown attributes. As long as the | |
3717 | form is one that we recognize (so we know how to skip it), | |
3718 | we can just ignore the unknown attribute. */ | |
3719 | break; | |
3720 | } | |
13b5a7ff | 3721 | form = FORM_FROM_ATTR (attr); |
35f5886e FF |
3722 | switch (form) |
3723 | { | |
3724 | case FORM_DATA2: | |
13b5a7ff | 3725 | diep += 2; |
35f5886e FF |
3726 | break; |
3727 | case FORM_DATA4: | |
13b5a7ff FF |
3728 | case FORM_REF: |
3729 | diep += 4; | |
35f5886e FF |
3730 | break; |
3731 | case FORM_DATA8: | |
13b5a7ff | 3732 | diep += 8; |
35f5886e FF |
3733 | break; |
3734 | case FORM_ADDR: | |
13b5a7ff | 3735 | diep += TARGET_FT_POINTER_SIZE (objfile); |
35f5886e FF |
3736 | break; |
3737 | case FORM_BLOCK2: | |
13b5a7ff | 3738 | diep += 2 + target_to_host (diep, nbytes, GET_UNSIGNED, objfile); |
35f5886e FF |
3739 | break; |
3740 | case FORM_BLOCK4: | |
13b5a7ff | 3741 | diep += 4 + target_to_host (diep, nbytes, GET_UNSIGNED, objfile); |
35f5886e FF |
3742 | break; |
3743 | case FORM_STRING: | |
3744 | diep += strlen (diep) + 1; | |
3745 | break; | |
3746 | default: | |
51b80b00 | 3747 | complain (&unknown_attribute_form, DIE_ID, DIE_NAME, form); |
35f5886e FF |
3748 | diep = end; |
3749 | break; | |
3750 | } | |
3751 | } | |
3752 | } | |
95967e73 | 3753 | |
13b5a7ff | 3754 | /* |
95967e73 | 3755 | |
13b5a7ff FF |
3756 | LOCAL FUNCTION |
3757 | ||
3758 | target_to_host -- swap in target data to host | |
3759 | ||
3760 | SYNOPSIS | |
3761 | ||
3762 | target_to_host (char *from, int nbytes, int signextend, | |
3763 | struct objfile *objfile) | |
3764 | ||
3765 | DESCRIPTION | |
3766 | ||
3767 | Given pointer to data in target format in FROM, a byte count for | |
3768 | the size of the data in NBYTES, a flag indicating whether or not | |
3769 | the data is signed in SIGNEXTEND, and a pointer to the current | |
3770 | objfile in OBJFILE, convert the data to host format and return | |
3771 | the converted value. | |
3772 | ||
3773 | NOTES | |
3774 | ||
3775 | FIXME: If we read data that is known to be signed, and expect to | |
3776 | use it as signed data, then we need to explicitly sign extend the | |
3777 | result until the bfd library is able to do this for us. | |
3778 | ||
3779 | */ | |
3780 | ||
3781 | static unsigned long | |
3782 | target_to_host (from, nbytes, signextend, objfile) | |
95967e73 FF |
3783 | char *from; |
3784 | int nbytes; | |
13b5a7ff | 3785 | int signextend; /* FIXME: Unused */ |
95967e73 FF |
3786 | struct objfile *objfile; |
3787 | { | |
13b5a7ff | 3788 | unsigned long rtnval; |
95967e73 FF |
3789 | |
3790 | switch (nbytes) | |
3791 | { | |
95967e73 | 3792 | case 8: |
13b5a7ff | 3793 | rtnval = bfd_get_64 (objfile -> obfd, (bfd_byte *) from); |
95967e73 | 3794 | break; |
95967e73 | 3795 | case 4: |
13b5a7ff | 3796 | rtnval = bfd_get_32 (objfile -> obfd, (bfd_byte *) from); |
95967e73 FF |
3797 | break; |
3798 | case 2: | |
13b5a7ff | 3799 | rtnval = bfd_get_16 (objfile -> obfd, (bfd_byte *) from); |
95967e73 FF |
3800 | break; |
3801 | case 1: | |
13b5a7ff | 3802 | rtnval = bfd_get_8 (objfile -> obfd, (bfd_byte *) from); |
95967e73 FF |
3803 | break; |
3804 | default: | |
51b80b00 | 3805 | complain (&no_bfd_get_N, DIE_ID, DIE_NAME, nbytes); |
13b5a7ff | 3806 | rtnval = 0; |
95967e73 FF |
3807 | break; |
3808 | } | |
13b5a7ff | 3809 | return (rtnval); |
95967e73 FF |
3810 | } |
3811 | ||
13b5a7ff FF |
3812 | /* |
3813 | ||
3814 | LOCAL FUNCTION | |
3815 | ||
3816 | attribute_size -- compute size of data for a DWARF attribute | |
3817 | ||
3818 | SYNOPSIS | |
3819 | ||
3820 | static int attribute_size (unsigned int attr) | |
3821 | ||
3822 | DESCRIPTION | |
3823 | ||
3824 | Given a DWARF attribute in ATTR, compute the size of the first | |
3825 | piece of data associated with this attribute and return that | |
3826 | size. | |
3827 | ||
3828 | Returns -1 for unrecognized attributes. | |
3829 | ||
3830 | */ | |
3831 | ||
3832 | static int | |
3833 | attribute_size (attr) | |
3834 | unsigned int attr; | |
3835 | { | |
3836 | int nbytes; /* Size of next data for this attribute */ | |
3837 | unsigned short form; /* Form of the attribute */ | |
3838 | ||
3839 | form = FORM_FROM_ATTR (attr); | |
3840 | switch (form) | |
3841 | { | |
3842 | case FORM_STRING: /* A variable length field is next */ | |
3843 | nbytes = 0; | |
3844 | break; | |
3845 | case FORM_DATA2: /* Next 2 byte field is the data itself */ | |
3846 | case FORM_BLOCK2: /* Next 2 byte field is a block length */ | |
3847 | nbytes = 2; | |
3848 | break; | |
3849 | case FORM_DATA4: /* Next 4 byte field is the data itself */ | |
3850 | case FORM_BLOCK4: /* Next 4 byte field is a block length */ | |
3851 | case FORM_REF: /* Next 4 byte field is a DIE offset */ | |
3852 | nbytes = 4; | |
3853 | break; | |
3854 | case FORM_DATA8: /* Next 8 byte field is the data itself */ | |
3855 | nbytes = 8; | |
3856 | break; | |
3857 | case FORM_ADDR: /* Next field size is target sizeof(void *) */ | |
3858 | nbytes = TARGET_FT_POINTER_SIZE (objfile); | |
3859 | break; | |
3860 | default: | |
51b80b00 | 3861 | complain (&unknown_attribute_form, DIE_ID, DIE_NAME, form); |
13b5a7ff FF |
3862 | nbytes = -1; |
3863 | break; | |
3864 | } | |
3865 | return (nbytes); | |
3866 | } |