| blob | 8ee68e06625829be308390e89b1b7f9278ef54fb |
1 /* Routines to link ECOFF debugging information.
2 Copyright 1993, 1994, 1995, 1996, 1997, 1999, 2000, 2001, 2002, 2003,
3 2004, 2005, 2006, 2007 Free Software Foundation, Inc.
4 Written by Ian Lance Taylor, Cygnus Support, <ian@cygnus.com>.
6 This file is part of BFD, the Binary File Descriptor library.
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.
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.
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., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
34 \f
35 static bfd_boolean ecoff_add_bytes
40 static void ecoff_align_debug
43 static bfd_boolean ecoff_write_symhdr
45 file_ptr where));
46 static int cmp_fdrtab_entry
48 static bfd_boolean mk_fdrtab
51 static long fdrtab_lookup
53 static bfd_boolean lookup_line
56 \f
57 /* Routines to swap auxiliary information in and out. I am assuming
58 that the auxiliary information format is always going to be target
59 independent. */
61 /* Swap in a type information record.
62 BIGEND says whether AUX symbols are big-endian or little-endian; this
63 info comes from the file header record (fh-fBigendian). */
65 void
70 {
75 /* now the fun stuff... */
110 }
112 #ifdef TEST
115 #endif
116 }
118 /* Swap out a type information record.
119 BIGEND says whether AUX symbols are big-endian or little-endian; this
120 info comes from the file header record (fh-fBigendian). */
122 void
127 {
132 /* now the fun stuff... */
167 }
169 #ifdef TEST
172 #endif
173 }
175 /* Swap in a relative symbol record. BIGEND says whether it is in
176 big-endian or little-endian format.*/
178 void
183 {
188 /* now the fun stuff... */
206 }
208 #ifdef TEST
211 #endif
212 }
214 /* Swap out a relative symbol record. BIGEND says whether it is in
215 big-endian or little-endian format.*/
217 void
222 {
227 /* now the fun stuff... */
244 }
246 #ifdef TEST
249 #endif
250 }
251 \f
252 /* The minimum amount of data to allocate. */
253 #define ALLOC_SIZE (4064)
255 /* Add bytes to a buffer. Return success. */
257 static bfd_boolean
262 {
270 else
271 {
275 }
282 }
284 /* We keep a hash table which maps strings to numbers. We use it to
285 map FDR names to indices in the output file, and to map local
286 strings when combining stabs debugging information. */
288 struct string_hash_entry
289 {
291 /* FDR index or string table offset. */
293 /* Next entry in string table. */
295 };
297 struct string_hash_table
298 {
300 };
302 /* Routine to create an entry in a string hash table. */
309 {
312 /* Allocate the structure if it has not already been allocated by a
313 subclass. */
320 /* Call the allocation method of the superclass. */
325 {
326 /* Initialize the local fields. */
329 }
332 }
334 /* Look up an entry in an string hash table. */
336 #define string_hash_lookup(t, string, create, copy) \
337 ((struct string_hash_entry *) \
338 bfd_hash_lookup (&(t)->table, (string), (create), (copy)))
340 /* We can't afford to read in all the debugging information when we do
341 a link. Instead, we build a list of these structures to show how
342 different parts of the input file map to the output file. */
344 struct shuffle
345 {
346 /* The next entry in this linked list. */
348 /* The length of the information. */
350 /* Whether this information comes from a file or not. */
351 bfd_boolean filep;
352 union
353 {
354 struct
355 {
356 /* The BFD the data comes from. */
358 /* The offset within input_bfd. */
359 file_ptr offset;
361 /* The data to be written out. */
362 PTR memory;
364 };
366 /* This structure holds information across calls to
367 bfd_ecoff_debug_accumulate. */
369 struct accumulate
370 {
371 /* The FDR hash table. */
373 /* The strings hash table. */
375 /* Linked lists describing how to shuffle the input debug
376 information into the output file. We keep a pointer to both the
377 head and the tail. */
396 /* The size of the largest file shuffle. */
398 /* An objalloc for debugging information. */
400 };
402 /* Add a file entry to a shuffle list. */
404 static bfd_boolean add_file_shuffle
408 static bfd_boolean
414 file_ptr offset;
416 {
423 {
424 /* Just merge this entry onto the existing one. */
429 }
434 {
437 }
451 }
453 /* Add a memory entry to a shuffle list. */
455 static bfd_boolean add_memory_shuffle
459 static bfd_boolean
466 {
472 {
475 }
486 }
488 /* Initialize the FDR hash table. This returns a handle which is then
489 passed in to bfd_ecoff_debug_accumulate, et. al. */
491 PTR
497 {
530 {
535 /* The first entry in the string table is the empty string. */
537 }
541 {
544 }
547 }
549 /* Free the accumulated debugging information. */
551 void
553 PTR handle;
558 {
569 }
571 /* Accumulate the debugging information from INPUT_BFD into
572 OUTPUT_BFD. The INPUT_DEBUG argument points to some ECOFF
573 debugging information which we want to link into the information
574 pointed to by the OUTPUT_DEBUG argument. OUTPUT_SWAP and
575 INPUT_SWAP point to the swapping information needed. INFO is the
576 linker information structure. HANDLE is returned by
577 bfd_ecoff_debug_init. */
579 bfd_boolean
582 info)
583 PTR handle;
591 {
615 bfd_size_type fdr_add;
617 RFDT i;
625 bfd_size_type amt;
627 /* Use section_adjust to hold the value to add to a symbol in a
628 particular section. */
631 #define SET(name, indx) \
632 sec = bfd_get_section_by_name (input_bfd, name); \
633 if (sec != NULL) \
634 section_adjust[indx] = (sec->output_section->vma \
635 + sec->output_offset \
636 - sec->vma);
643 /* scRdata section may be either .rdata or .rodata. */
650 #undef SET
652 /* Find all the debugging information based on the FDR's. We need
653 to handle them whether they are swapped or not. */
655 {
658 }
659 else
660 {
663 }
673 {
676 }
682 /* Look through the FDR's to see which ones we are going to include
683 in the final output. We do not want duplicate FDR information
684 for header files, because ECOFF debugging is often very large.
685 When we find an FDR with no line information which can be merged,
686 we look it up in a hash table to ensure that we only include it
687 once. We keep a table mapping FDR numbers to the final number
688 they get with the BFD, so that we can refer to it when we write
689 out the external symbols. */
693 {
694 FDR fdr;
698 else
701 /* See if this FDR can be merged with an existing one. */
703 {
708 /* We look up a string formed from the file name and the
709 number of symbols and aux entries. Sometimes an include
710 file will conditionally define a typedef or something
711 based on the order of include files. Using the number of
712 symbols and aux entries as a hash reduces the chance that
713 we will merge symbol information that should not be
714 merged. */
728 {
733 /* Don't copy this FDR. */
735 }
738 }
743 }
748 /* Copy over any existing RFD's. RFD's are only created by the
749 linker, so this will only happen for input files which are the
750 result of a partial link. */
756 {
757 RFDT rfd;
764 }
769 /* Look through the FDR's and copy over all associated debugging
770 information. */
774 {
777 }
783 {
784 FDR fdr;
788 bfd_boolean fgotfilename;
791 {
792 /* We are not copying this FDR. */
794 }
798 else
801 /* FIXME: It is conceivable that this FDR points to the .init or
802 .fini section, in which case this will not do the right
803 thing. */
806 /* Swap in the local symbols, adjust their values, and swap them
807 out again. */
812 {
815 }
817 sz))
823 {
824 SYMR internal_sym;
831 /* Adjust the symbol value if appropriate. */
833 {
837 /* Fall through. */
848 }
850 /* If we are doing a final link, we hash all the strings in
851 the local symbol table together. This reduces the amount
852 of space required by debugging information. We don't do
853 this when performing a relocatable link because it would
854 prevent us from easily merging different FDR's. */
856 {
857 bfd_boolean ffilename;
862 else
865 /* Hash the name into the string table. */
869 else
870 {
877 {
886 }
888 }
891 {
894 }
895 }
899 }
904 /* Copy the information that does not need swapping. */
906 /* FIXME: If we are relaxing, we need to adjust the line
907 numbers. Frankly, forget it. Anybody using stabs debugging
908 information will not use this line number information, and
909 stabs are adjusted correctly. */
911 {
920 }
922 {
931 }
933 {
935 /* When are are hashing strings, we lie about the number of
936 strings attached to each FDR. We need to set cbSs
937 because some versions of dbx apparently use it to decide
938 how much of the string table to read in. */
941 }
943 {
950 }
954 {
955 /* The two BFD's have the same endianness, and we don't have
956 to adjust the PDR addresses, so simply copying the
957 information will suffice. */
960 {
967 }
970 {
977 }
978 }
979 else
980 {
986 /* The two BFD's have different endianness, so we must swap
987 everything in and out. This code would always work, but
988 it would be unnecessarily slow in the normal case. */
997 {
1000 }
1002 sz))
1005 {
1006 PDR pdr;
1010 }
1012 /* Swap over the optimization information. */
1021 {
1024 }
1026 sz))
1029 {
1030 OPTR opt;
1034 }
1035 }
1043 {
1044 /* Point this FDR at the table of RFD's we created. */
1047 }
1048 else
1049 {
1050 /* Point this FDR at the remapped RFD's. */
1052 }
1057 }
1060 }
1062 /* Add a string to the debugging information we are accumulating.
1063 Return the offset from the fdr string base. */
1065 static long ecoff_add_string
1069 static long
1076 {
1079 bfd_size_type ret;
1084 {
1091 }
1092 else
1093 {
1100 {
1109 }
1111 }
1114 }
1116 /* Add debugging information from a non-ECOFF file. */
1118 bfd_boolean
1121 PTR handle;
1127 {
1132 FDR fdr;
1139 PTR external_fdr;
1146 else
1147 {
1148 /* FIXME: What about .init or .fini? */
1150 }
1160 /* Get the local symbols from the input BFD. */
1172 /* Handle the local symbols. Any external symbols are handled
1173 separately. */
1176 {
1177 SYMR internal_sym;
1178 PTR external_sym;
1191 else
1202 {
1205 }
1208 external_sym,
1212 }
1216 /* Leave everything else in the FDR zeroed out. This will cause
1217 the lang field to be langC. The fBigendian field will
1218 indicate little endian format, but it doesn't matter because
1219 it only applies to aux fields and there are none. */
1223 {
1226 }
1229 external_fdr,
1235 }
1237 /* Set up ECOFF debugging information for the external symbols.
1238 FIXME: This is done using a memory buffer, but it should be
1239 probably be changed to use a shuffle structure. The assembler uses
1240 this interface, so that must be changed to do something else. */
1242 bfd_boolean
1244 set_index)
1248 bfd_boolean relocatable;
1251 {
1261 {
1263 EXTR esym;
1267 /* Get the external symbol information. */
1271 /* If we're producing an executable, move common symbols into
1272 bss. */
1274 {
1279 }
1284 {
1285 /* FIXME: gas does not keep the value of a small undefined
1286 symbol in the symbol itself, because of relocation
1287 problems. */
1292 }
1293 else
1304 }
1307 }
1309 /* Add a single external symbol to the debugging information. */
1311 bfd_boolean
1318 {
1329 {
1334 }
1338 {
1347 }
1361 }
1363 /* Align the ECOFF debugging information. */
1365 static void
1370 {
1375 /* Adjust the counts so that structures are aligned. */
1382 {
1386 }
1390 {
1394 }
1398 {
1402 }
1406 {
1411 }
1415 {
1421 }
1422 }
1424 /* Return the size required by the ECOFF debugging information. */
1426 bfd_size_type
1431 {
1432 bfd_size_type tot;
1437 #define ADD(count, size) \
1438 tot += debug->symbolic_header.count * size
1452 #undef ADD
1455 }
1457 /* Write out the ECOFF symbolic header, given the file position it is
1458 going to be placed at. This assumes that the counts are set
1459 correctly. */
1461 static bfd_boolean
1466 file_ptr where;
1467 {
1473 /* Go to the right location in the file. */
1481 /* Fill in the file offsets. */
1482 #define SET(offset, count, size) \
1483 if (symhdr->count == 0) \
1484 symhdr->offset = 0; \
1485 else \
1486 { \
1487 symhdr->offset = where; \
1488 where += symhdr->count * size; \
1489 }
1502 #undef SET
1516 error_return:
1520 }
1522 /* Write out the ECOFF debugging information. This function assumes
1523 that the information (the pointers and counts) in *DEBUG have been
1524 set correctly. WHERE is the position in the file to write the
1525 information to. This function fills in the file offsets in the
1526 symbolic header. */
1528 bfd_boolean
1533 file_ptr where;
1534 {
1540 #define WRITE(ptr, count, size, offset) \
1541 BFD_ASSERT (symhdr->offset == 0 \
1542 || (bfd_vma) bfd_tell (abfd) == symhdr->offset); \
1543 if (bfd_bwrite ((PTR) debug->ptr, (bfd_size_type) size * symhdr->count, abfd)\
1544 != size * symhdr->count) \
1545 return FALSE;
1553 cbAuxOffset);
1559 #undef WRITE
1562 }
1564 /* Write out a shuffle list. */
1566 static bfd_boolean ecoff_write_shuffle
1568 PTR space));
1570 static bfd_boolean
1575 PTR space;
1576 {
1582 {
1584 {
1588 }
1589 else
1590 {
1596 }
1598 }
1601 {
1611 {
1614 }
1616 }
1619 }
1621 /* Write out debugging information using accumulated linker
1622 information. */
1624 bfd_boolean
1626 PTR handle;
1631 file_ptr where;
1632 {
1635 bfd_size_type amt;
1652 /* The string table is written out from the hash table if this is a
1653 final link. */
1655 {
1659 }
1660 else
1661 {
1663 bfd_byte null;
1675 {
1683 }
1686 {
1696 {
1699 }
1701 }
1702 }
1704 /* The external strings and symbol are not converted over to using
1705 shuffles. FIXME: They probably should be. */
1710 {
1721 {
1724 }
1726 }
1744 error_return:
1748 }
1749 \f
1750 /* Handle the find_nearest_line function for both ECOFF and MIPS ELF
1751 files. */
1753 /* Compare FDR entries. This is called via qsort. */
1755 static int
1759 {
1770 }
1772 /* Each file descriptor (FDR) has a memory address, to simplify
1773 looking up an FDR by address, we build a table covering all FDRs
1774 that have a least one procedure descriptor in them. The final
1775 table will be sorted by address so we can look it up via binary
1776 search. */
1778 static bfd_boolean
1784 {
1789 bfd_boolean stabs;
1791 bfd_size_type amt;
1796 /* First, let's see how long the table needs to be. */
1798 {
1802 }
1804 /* Now, create and fill in the table. */
1813 {
1817 /* Check whether this file has stabs debugging information. In
1818 a file with stabs debugging information, the second local
1819 symbol is named @stabs. */
1822 {
1824 SYMR sym;
1832 }
1835 {
1836 /* eraxxon: There are at least two problems with this computation:
1837 1) PDRs do *not* contain offsets but full vma's; and typically the
1838 address of the first PDR is the address of the FDR, which will
1839 make (most) of the results of the original computation 0!
1840 2) Once in a wacky while, the Compaq compiler generated PDR
1841 addresses do not equal the FDR vma, but they (the PDR address)
1842 are still vma's and not offsets. Cf. comments in
1843 'lookup_line'. */
1844 /* The address of the first PDR is the offset of that
1845 procedure relative to the beginning of file FDR. */
1847 }
1848 else
1849 {
1850 /* XXX I don't know about stabs, so this is a guess
1851 (davidm@cs.arizona.edu). */
1853 }
1856 }
1858 /* Finally, the table is sorted in increasing memory-address order.
1859 The table is mostly sorted already, but there are cases (e.g.,
1860 static functions in include files), where this does not hold.
1861 Use "odump -PFv" to verify... */
1866 }
1868 /* Return index of first FDR that covers to OFFSET. */
1870 static long
1873 bfd_vma offset;
1874 {
1885 {
1892 else
1894 }
1896 /* eraxxon: at this point 'offset' is either lower than the lowest entry or
1897 higher than the highest entry. In the former case high = low = mid = 0;
1898 we want to return -1. In the latter case, low = high and mid = low - 1;
1899 we want to return the index of the highest entry. Only in former case
1900 will the following 'catch-all' test be true. */
1903 /* Last entry is catch-all for all higher addresses. */
1907 find_min:
1909 /* eraxxon: There may be multiple FDRs in the table with the
1910 same base_addr; make sure that we are at the first one. */
1915 }
1917 /* Look up a line given an address, storing the information in
1918 LINE_INFO->cache. */
1920 static bfd_boolean
1926 {
1928 bfd_vma offset;
1929 bfd_boolean stabs;
1933 /* eraxxon: note that 'offset' is the full vma, not a section offset. */
1936 /* Build FDR table (sorted by object file's base-address) if we
1937 don't have it already. */
1944 /* Find first FDR for address OFFSET. */
1949 /* eraxxon: 'fdrtab_lookup' doesn't give what we want, at least for Compaq's
1950 C++ compiler 6.2. Consider three FDRs with starting addresses of x, y,
1951 and z, respectively, such that x < y < z. Assume further that
1952 y < 'offset' < z. It is possible at times that the PDR for 'offset' is
1953 associated with FDR x and *not* with FDR y. Erg!!
1955 From a binary dump of my C++ test case 'moo' using Compaq's coffobjanl
1956 (output format has been edited for our purposes):
1958 FDR [2]: (main.C): First instruction: 0x12000207c <x>
1959 PDR [5] for File [2]: LoopTest__Xv <0x1200020a0> (a)
1960 PDR [7] for File [2]: foo__Xv <0x120002168>
1961 FDR [1]: (-1): First instruction: 0x1200020e8 <y>
1962 PDR [3] for File [1]: <0x120001ad0> (b)
1963 FDR [6]: (-1): First instruction: 0x1200026f0 <z>
1965 (a) In the case of PDR5, the vma is such that the first few instructions
1966 of the procedure can be found. But since the size of this procedure is
1967 160b, the vma will soon cross into the 'address space' of FDR1 and no
1968 debugging info will be found. How repugnant!
1970 (b) It is also possible for a PDR to have a *lower* vma than its associated
1971 FDR; see FDR1 and PDR3. Gross!
1973 Since the FDRs that are causing so much havok (in this case) 1) do not
1974 describe actual files (fdr.rss == -1), and 2) contain only compiler
1975 generated routines, I thought a simple fix would be to exclude them from
1976 the FDR table in 'mk_fdrtab'. But, besides not knowing for certain
1977 whether this would be correct, it creates an additional problem. If we
1978 happen to ask for source file info on a compiler generated (procedure)
1979 symbol -- which is still in the symbol table -- the result can be
1980 information from a real procedure! This is because compiler generated
1981 procedures with vma's higher than the last FDR in the fdr table will be
1982 associated with a PDR from this FDR, specifically the PDR with the
1983 highest vma. This wasn't a problem before, because each procedure had a
1984 PDR. (Yes, this problem could be eliminated if we kept the size of the
1985 last PDR around, but things are already getting ugly).
1987 Probably, a better solution would be to have a sorted PDR table. Each
1988 PDR would have a pointer to its FDR so file information could still be
1989 obtained. A FDR table could still be constructed if necessary -- since
1990 it only contains pointers, not much extra memory would be used -- but
1991 the PDR table would be searched to locate debugging info.
1993 There is still at least one remaining issue. Sometimes a FDR can have a
1994 bogus name, but contain PDRs that should belong to another FDR with a
1995 real name. E.g:
1997 FDR [3]: 0000000120001b50 (/home/.../Array.H~alt~deccxx_5E5A62AD)
1998 PDR [a] for File [3]: 0000000120001b50
1999 PDR [b] for File [3]: 0000000120001cf0
2000 PDR [c] for File [3]: 0000000120001dc8
2001 PDR [d] for File [3]: 0000000120001e40
2002 PDR [e] for File [3]: 0000000120001eb8
2003 PDR [f] for File [3]: 0000000120001f4c
2004 FDR [4]: 0000000120001b50 (/home/.../Array.H)
2006 Here, FDR4 has the correct name, but should (seemingly) contain PDRa-f.
2007 The symbol table for PDR4 does contain symbols for PDRa-f, but so does
2008 the symbol table for FDR3. However the former is different; perhaps this
2009 can be detected easily. (I'm not sure at this point.) This problem only
2010 seems to be associated with files with templates. I am assuming the idea
2011 is that there is a 'fake' FDR (with PDRs) for each differently typed set
2012 of templates that must be generated. Currently, FDR4 is completely
2013 excluded from the FDR table in 'mk_fdrtab' because it contains no PDRs.
2015 Since I don't have time to prepare a real fix for this right now, be
2016 prepared for 'A Horrible Hack' to force the inspection of all non-stabs
2017 FDRs. It's coming... */
2020 /* Check whether this file has stabs debugging information. In a
2021 file with stabs debugging information, the second local symbol is
2022 named @stabs. */
2025 {
2027 SYMR sym;
2035 }
2038 {
2039 bfd_size_type external_pdr_size;
2044 PDR pdr;
2048 /* This file uses ECOFF debugging information. Each FDR has a
2049 list of procedure descriptors (PDR). The address in the FDR
2050 is the absolute address of the first procedure. The address
2051 in the first PDR gives the offset of that procedure relative
2052 to the object file's base-address. The addresses in
2053 subsequent PDRs specify each procedure's address relative to
2054 the object file's base-address. To make things more juicy,
2055 whenever the PROF bit in the PDR is set, the real entry point
2056 of the procedure may be 16 bytes below what would normally be
2057 the procedure's entry point. Instead, DEC came up with a
2058 wicked scheme to create profiled libraries "on the fly":
2059 instead of shipping a regular and a profiled version of each
2060 library, they insert 16 bytes of unused space in front of
2061 each procedure and set the "prof" bit in the PDR to indicate
2062 that there is a gap there (this is done automagically by "as"
2063 when option "-pg" is specified). Thus, normally, you link
2064 against such a library and, except for lots of 16 byte gaps
2065 between functions, things will behave as usual. However,
2066 when invoking "ld" with option "-pg", it will fill those gaps
2067 with code that calls mcount(). It then moves the function's
2068 entry point down by 16 bytes, and out pops a binary that has
2069 all functions profiled.
2071 NOTE: Neither FDRs nor PDRs are strictly sorted in memory
2072 order. For example, when including header-files that
2073 define functions, the FDRs follow behind the including
2074 file, even though their code may have been generated at
2075 a lower address. File coff-alpha.c from libbfd
2076 illustrates this (use "odump -PFv" to look at a file's
2077 FDR/PDR). Similarly, PDRs are sometimes out of order
2078 as well. An example of this is OSF/1 v3.0 libc's
2079 malloc.c. I'm not sure why this happens, but it could
2080 be due to optimizations that reorder a function's
2081 position within an object-file.
2083 Strategy:
2085 On the first call to this function, we build a table of FDRs
2086 that is sorted by the base-address of the object-file the FDR
2087 is referring to. Notice that each object-file may contain
2088 code from multiple source files (e.g., due to code defined in
2089 include files). Thus, for any given base-address, there may
2090 be multiple FDRs (but this case is, fortunately, uncommon).
2091 lookup(addr) guarantees to return the first FDR that applies
2092 to address ADDR. Thus, after invoking lookup(), we have a
2093 list of FDRs that may contain the PDR for ADDR. Next, we
2094 walk through the PDRs of these FDRs and locate the one that
2095 is closest to ADDR (i.e., for which the difference between
2096 ADDR and the PDR's entry point is positive and minimal).
2097 Once, the right FDR and PDR are located, we simply walk
2098 through the line-number table to lookup the line-number that
2099 best matches ADDR. Obviously, things could be sped up by
2100 keeping a sorted list of PDRs instead of a sorted list of
2101 FDRs. However, this would increase space requirements
2102 considerably, which is undesirable. */
2105 /* eraxxon: The Horrible Hack: Because of the problems above, set 'i'
2106 to 0 so we look through all FDRs.
2108 Because FDR's without any symbols are assumed to be non-stabs,
2109 searching through all FDRs may cause the following code to try to
2110 read stabs FDRs as ECOFF ones. However, I don't think this will
2111 harm anything. */
2114 /* Search FDR list starting at tab[i] for the PDR that best matches
2115 OFFSET. Normally, the FDR list is only one entry long. */
2117 do
2118 {
2119 /* eraxxon: 'dist' and 'min_dist' can be negative now
2120 because we iterate over every FDR rather than just ones
2121 with a base address less than or equal to 'offset'. */
2132 /* Find PDR that is closest to OFFSET. If pdr.prof is set,
2133 the procedure entry-point *may* be 0x10 below pdr.adr. We
2134 simply pretend that pdr.prof *implies* a lower entry-point.
2135 This is safe because it just means that may identify 4 NOPs
2136 in front of the function as belonging to the function. */
2141 {
2143 {
2146 /* eraxxon: 'dist' can be negative now. Note that
2147 'min_dist' can be negative if 'pdr_hold' below is NULL. */
2149 {
2152 }
2153 }
2154 }
2157 {
2161 }
2162 /* Continue looping until base_addr of next entry is different. */
2163 }
2164 /* eraxxon: We want to iterate over all FDRs.
2165 See previous comment about 'fdrtab_lookup'. */
2171 /* Phew, finally we got something that we can hold onto. */
2175 /* Now we can look for the actual line number. The line numbers
2176 are stored in a very funky format, which I won't try to
2177 describe. The search is bounded by the end of the FDRs line
2178 number entries. */
2181 /* Make offset relative to procedure entry. */
2186 {
2196 {
2201 }
2204 {
2207 }
2209 }
2211 /* If fdr_ptr->rss is -1, then this file does not have full
2212 symbols, at least according to gdb/mipsread.c. */
2214 {
2218 else
2219 {
2220 EXTR proc_ext;
2229 }
2230 }
2231 else
2232 {
2233 SYMR proc_sym;
2247 }
2251 }
2252 else
2253 {
2254 bfd_size_type external_sym_size;
2260 bfd_vma low_func_vma;
2261 bfd_vma low_line_vma;
2262 bfd_boolean past_line;
2263 bfd_boolean past_fn;
2268 /* This file uses stabs debugging information. When gcc is not
2269 optimizing, it will put the line number information before
2270 the function name stabs entry. When gcc is optimizing, it
2271 will put the stabs entry for all the function first, followed
2272 by the line number information. (This appears to happen
2273 because of the two output files used by the -mgpopt switch,
2274 which is implied by -O). This means that we must keep
2275 looking through the symbols until we find both a line number
2276 and a function name which are beyond the address we want. */
2300 {
2301 SYMR sym;
2306 {
2308 {
2313 /* Check the next symbol to see if it is also an
2314 N_SO symbol. */
2316 {
2317 SYMR nextsym;
2324 {
2329 }
2330 }
2334 current_file_name =
2342 {
2344 function_name =
2346 }
2348 }
2349 }
2351 {
2355 {
2359 }
2360 }
2361 }
2366 /* We need to remove the stuff after the colon in the function
2367 name. We also need to put the directory name and the file
2368 name together. */
2371 else
2380 {
2387 }
2390 {
2398 }
2401 {
2404 else
2405 {
2407 main_file_name);
2409 }
2410 }
2411 }
2414 }
2416 /* Do the work of find_nearest_line. */
2418 bfd_boolean
2423 bfd_vma offset;
2430 {
2437 {
2442 {
2445 }
2446 }
2453 }
2454 \f
2455 /* These routines copy symbolic information into a memory buffer.
2457 FIXME: The whole point of the shuffle code is to avoid storing
2458 everything in memory, since the linker is such a memory hog. This
2459 code makes that effort useless. It is only called by the MIPS ELF
2460 code when generating a shared library, so it is not that big a
2461 deal, but it should be fixed eventually. */
2463 /* Collect a shuffle into a memory buffer. */
2465 static bfd_boolean ecoff_collect_shuffle
2468 static bfd_boolean
2472 {
2477 {
2480 else
2481 {
2486 }
2489 }
2492 }
2494 /* Copy PDR information into a memory buffer. */
2496 bfd_boolean
2498 PTR handle;
2500 {
2504 }
2506 /* Copy symbol information into a memory buffer. */
2508 bfd_boolean
2510 PTR handle;
2512 {
2516 }
2518 /* Copy the string table into a memory buffer. */
2520 bfd_boolean
2522 PTR handle;
2524 {
2529 /* The string table is written out from the hash table if this is a
2530 final link. */
2538 {
2545 }
2548 }