gcc/gcc/mips-tdump.c
Jakub Jelinek 0e5997c0ff re PR driver/35420 (--version copyright date vs. 2008)
PR driver/35420
	* gcc.c (process_command): Update copyright notice dates.
	* gcov.c (print_version): Likewise.
	* gcov-dump.c (print_version): Likewise.
	* mips-tfile.c (main): Likewise.
	* mips-tdump.c (main): Likewise.

	* jcf-dump.c (version): Update copyright notice dates.

	* gfortranspec.c (lang_specific_driver): Update copyright notice
	dates.

	* mf-runtime.c (__mf_usage): Update copyright notice dates.

	* gnu/gcj/convert/Convert.java (version): Update copyright notice
	dates.
	* gnu/gcj/tools/gcj_dbtool/Main.java (main): Likewise.

	* gnu/java/rmi/registry/RegistryImpl.java (version): Update
	copyright notice dates.
	* tools/gnu/classpath/tools/orbd/Main.java (run): Likewise.

From-SVN: r132823
2008-03-02 23:50:02 +01:00

1538 lines
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/* Read and manage MIPS symbol tables from object modules.
Copyright (C) 1991, 1994, 1995, 1997, 1998, 1999, 2000, 2001, 2003, 2004,
2006, 2007, 2008 Free Software Foundation, Inc.
Contributed by hartzell@boulder.colorado.edu,
Rewritten by meissner@osf.org.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "version.h"
#ifdef index
#undef index
#endif
#ifndef CROSS_DIRECTORY_STRUCTURE
#include <a.out.h>
#else
#include "mips/a.out.h"
#endif /* CROSS_DIRECTORY_STRUCTURE */
/* Include getopt.h for the sake of getopt_long. */
#include "getopt.h"
#ifndef MIPS_IS_STAB
/* Macros for mips-tfile.c to encapsulate stabs in ECOFF, and for
and mips-tdump.c to print them out. This is used on the Alpha,
which does not include mips.h.
These must match the corresponding definitions in gdb/mipsread.c.
Unfortunately, gcc and gdb do not currently share any directories. */
#define CODE_MASK 0x8F300
#define MIPS_IS_STAB(sym) (((sym)->index & 0xFFF00) == CODE_MASK)
#define MIPS_MARK_STAB(code) ((code)+CODE_MASK)
#define MIPS_UNMARK_STAB(code) ((code)-CODE_MASK)
#endif
#define uchar unsigned char
#define ushort unsigned short
#define uint unsigned int
#define ulong unsigned long
/* Redefinition of storage classes as an enumeration for better
debugging. */
#ifndef stStaParam
#define stStaParam 16 /* Fortran static parameters */
#endif
#ifndef btVoid
#define btVoid 26 /* void basic type */
#endif
typedef enum sc {
sc_Nil = scNil, /* no storage class */
sc_Text = scText, /* text symbol */
sc_Data = scData, /* initialized data symbol */
sc_Bss = scBss, /* un-initialized data symbol */
sc_Register = scRegister, /* value of symbol is register number */
sc_Abs = scAbs, /* value of symbol is absolute */
sc_Undefined = scUndefined, /* who knows? */
sc_CdbLocal = scCdbLocal, /* variable's value is IN se->va.?? */
sc_Bits = scBits, /* this is a bit field */
sc_CdbSystem = scCdbSystem, /* var's value is IN CDB's address space */
sc_RegImage = scRegImage, /* register value saved on stack */
sc_Info = scInfo, /* symbol contains debugger information */
sc_UserStruct = scUserStruct, /* addr in struct user for current process */
sc_SData = scSData, /* load time only small data */
sc_SBss = scSBss, /* load time only small common */
sc_RData = scRData, /* load time only read only data */
sc_Var = scVar, /* Var parameter (fortran,pascal) */
sc_Common = scCommon, /* common variable */
sc_SCommon = scSCommon, /* small common */
sc_VarRegister = scVarRegister, /* Var parameter in a register */
sc_Variant = scVariant, /* Variant record */
sc_SUndefined = scSUndefined, /* small undefined(external) data */
sc_Init = scInit, /* .init section symbol */
sc_Max = scMax /* Max storage class+1 */
} sc_t;
/* Redefinition of symbol type. */
typedef enum st {
st_Nil = stNil, /* Nuthin' special */
st_Global = stGlobal, /* external symbol */
st_Static = stStatic, /* static */
st_Param = stParam, /* procedure argument */
st_Local = stLocal, /* local variable */
st_Label = stLabel, /* label */
st_Proc = stProc, /* " " Procedure */
st_Block = stBlock, /* beginning of block */
st_End = stEnd, /* end (of anything) */
st_Member = stMember, /* member (of anything - struct/union/enum */
st_Typedef = stTypedef, /* type definition */
st_File = stFile, /* file name */
st_RegReloc = stRegReloc, /* register relocation */
st_Forward = stForward, /* forwarding address */
st_StaticProc = stStaticProc, /* load time only static procs */
st_StaParam = stStaParam, /* Fortran static parameters */
st_Constant = stConstant, /* const */
#ifdef stStruct
st_Struct = stStruct, /* struct */
st_Union = stUnion, /* union */
st_Enum = stEnum, /* enum */
#endif
st_Str = stStr, /* string */
st_Number = stNumber, /* pure number (i.e. 4 NOR 2+2) */
st_Expr = stExpr, /* 2+2 vs. 4 */
st_Type = stType, /* post-coercion SER */
st_Max = stMax /* max type+1 */
} st_t;
/* Redefinition of type qualifiers. */
typedef enum tq {
tq_Nil = tqNil, /* bt is what you see */
tq_Ptr = tqPtr, /* pointer */
tq_Proc = tqProc, /* procedure */
tq_Array = tqArray, /* duh */
tq_Far = tqFar, /* longer addressing - 8086/8 land */
tq_Vol = tqVol, /* volatile */
tq_Max = tqMax /* Max type qualifier+1 */
} tq_t;
/* Redefinition of basic types. */
typedef enum bt {
bt_Nil = btNil, /* undefined */
bt_Adr = btAdr, /* address - integer same size as pointer */
bt_Char = btChar, /* character */
bt_UChar = btUChar, /* unsigned character */
bt_Short = btShort, /* short */
bt_UShort = btUShort, /* unsigned short */
bt_Int = btInt, /* int */
bt_UInt = btUInt, /* unsigned int */
bt_Long = btLong, /* long */
bt_ULong = btULong, /* unsigned long */
bt_Float = btFloat, /* float (real) */
bt_Double = btDouble, /* Double (real) */
bt_Struct = btStruct, /* Structure (Record) */
bt_Union = btUnion, /* Union (variant) */
bt_Enum = btEnum, /* Enumerated */
bt_Typedef = btTypedef, /* defined via a typedef, isymRef points */
bt_Range = btRange, /* subrange of int */
bt_Set = btSet, /* pascal sets */
bt_Complex = btComplex, /* fortran complex */
bt_DComplex = btDComplex, /* fortran double complex */
bt_Indirect = btIndirect, /* forward or unnamed typedef */
bt_FixedDec = btFixedDec, /* Fixed Decimal */
bt_FloatDec = btFloatDec, /* Float Decimal */
bt_String = btString, /* Varying Length Character String */
bt_Bit = btBit, /* Aligned Bit String */
bt_Picture = btPicture, /* Picture */
bt_Void = btVoid, /* void */
bt_Max = btMax /* Max basic type+1 */
} bt_t;
/* Redefinition of the language codes. */
typedef enum lang {
lang_C = langC,
lang_Pascal = langPascal,
lang_Fortran = langFortran,
lang_Assembler = langAssembler,
lang_Machine = langMachine,
lang_Nil = langNil,
lang_Ada = langAda,
lang_Pl1 = langPl1,
lang_Cobol = langCobol
} lang_t;
/* Redefinition of the debug level codes. */
typedef enum glevel {
glevel_0 = GLEVEL_0,
glevel_1 = GLEVEL_1,
glevel_2 = GLEVEL_2,
glevel_3 = GLEVEL_3
} glevel_t;
/* Keep track of the active scopes. */
typedef struct scope {
struct scope *prev; /* previous scope */
ulong open_sym; /* symbol opening scope */
sc_t sc; /* storage class */
st_t st; /* symbol type */
} scope_t;
struct filehdr global_hdr; /* a.out header */
int errors = 0; /* # of errors */
int want_aux = 0; /* print aux table */
int want_line = 0; /* print line numbers */
int want_rfd = 0; /* print relative file desc's */
int want_scope = 0; /* print scopes for every symbol */
int tfile = 0; /* no global header file */
int version = 0; /* print version # */
int verbose = 0;
int tfile_fd; /* file descriptor of .T file */
off_t tfile_offset; /* current offset in .T file */
scope_t *cur_scope = 0; /* list of active scopes */
scope_t *free_scope = 0; /* list of freed scopes */
HDRR sym_hdr; /* symbolic header */
char *l_strings; /* local strings */
char *e_strings; /* external strings */
SYMR *l_symbols; /* local symbols */
EXTR *e_symbols; /* external symbols */
LINER *lines; /* line numbers */
DNR *dense_nums; /* dense numbers */
OPTR *opt_symbols; /* optimization symbols */
AUXU *aux_symbols; /* Auxiliary symbols */
char *aux_used; /* map of which aux syms are used */
FDR *file_desc; /* file tables */
ulong *rfile_desc; /* relative file tables */
PDR *proc_desc; /* procedure tables */
/* Forward reference for functions. */
static void *read_seek (void *, size_t, off_t, const char *);
static void read_tfile (void);
static void print_global_hdr (struct filehdr *);
static void print_sym_hdr (HDRR *);
static void print_file_desc (FDR *, int);
static void print_symbol (SYMR *, int, const char *, AUXU *, int, FDR *);
static void print_aux (AUXU, int, int);
static void emit_aggregate (char *, AUXU, AUXU, const char *, FDR *);
static const char *st_to_string (st_t);
static const char *sc_to_string (sc_t);
static const char *glevel_to_string (glevel_t);
static const char *lang_to_string (lang_t);
static const char *type_to_string (AUXU *, int, FDR *);
extern char *optarg;
extern int optind;
extern int opterr;
/* Create a table of debugging stab-codes and corresponding names. */
#define __define_stab(NAME, CODE, STRING) {(int)CODE, STRING},
const struct {const short code; const char string[10];} stab_names[] = {
#include "stab.def"
#undef __define_stab
};
/* Command line options for getopt_long. */
static const struct option options[] =
{
{ "version", 0, 0, 'V' },
{ "verbose", 0, 0, 'v' },
{ 0, 0, 0, 0 }
};
/* Read some bytes at a specified location, and return a pointer.
Read_seek takes a pointer PTR to a buffer or NULL and reads SIZE
bytes from offset OFFSET. In case of errors CONTEXT is used as
error message. */
static void *
read_seek (void *ptr, size_t size, off_t offset, const char *context)
{
long read_size = 0;
if (size == 0) /* nothing to read */
return ptr;
if (!ptr)
ptr = xmalloc (size);
if ((tfile_offset != offset && lseek (tfile_fd, offset, 0) == -1)
|| (read_size = read (tfile_fd, ptr, size)) < 0)
{
perror (context);
exit (1);
}
if (read_size != (long) size)
{
fprintf (stderr, "%s: read %ld bytes, expected %ld bytes\n",
context, read_size, (long) size);
exit (1);
}
tfile_offset = offset + size;
return ptr;
}
/* Convert language code to string format. */
static const char *
lang_to_string (lang_t lang)
{
switch (lang)
{
case langC: return "C";
case langPascal: return "Pascal";
case langFortran: return "Fortran";
case langAssembler: return "Assembler";
case langMachine: return "Machine";
case langNil: return "Nil";
case langAda: return "Ada";
case langPl1: return "Pl1";
case langCobol: return "Cobol";
}
return "Unknown language";
}
/* Convert storage class to string. */
static const char *
sc_to_string (sc_t storage_class)
{
switch(storage_class)
{
case sc_Nil: return "Nil";
case sc_Text: return "Text";
case sc_Data: return "Data";
case sc_Bss: return "Bss";
case sc_Register: return "Register";
case sc_Abs: return "Abs";
case sc_Undefined: return "Undefined";
case sc_CdbLocal: return "CdbLocal";
case sc_Bits: return "Bits";
case sc_CdbSystem: return "CdbSystem";
case sc_RegImage: return "RegImage";
case sc_Info: return "Info";
case sc_UserStruct: return "UserStruct";
case sc_SData: return "SData";
case sc_SBss: return "SBss";
case sc_RData: return "RData";
case sc_Var: return "Var";
case sc_Common: return "Common";
case sc_SCommon: return "SCommon";
case sc_VarRegister: return "VarRegister";
case sc_Variant: return "Variant";
case sc_SUndefined: return "SUndefined";
case sc_Init: return "Init";
case sc_Max: return "Max";
}
return "???";
}
/* Convert symbol type to string. */
static const char *
st_to_string (st_t symbol_type)
{
switch(symbol_type)
{
case st_Nil: return "Nil";
case st_Global: return "Global";
case st_Static: return "Static";
case st_Param: return "Param";
case st_Local: return "Local";
case st_Label: return "Label";
case st_Proc: return "Proc";
case st_Block: return "Block";
case st_End: return "End";
case st_Member: return "Member";
case st_Typedef: return "Typedef";
case st_File: return "File";
case st_RegReloc: return "RegReloc";
case st_Forward: return "Forward";
case st_StaticProc: return "StaticProc";
case st_Constant: return "Constant";
case st_StaParam: return "StaticParam";
#ifdef stStruct
case st_Struct: return "Struct";
case st_Union: return "Union";
case st_Enum: return "Enum";
#endif
case st_Str: return "String";
case st_Number: return "Number";
case st_Expr: return "Expr";
case st_Type: return "Type";
case st_Max: return "Max";
}
return "???";
}
/* Convert debug level to string. */
static const char *
glevel_to_string (glevel_t g_level)
{
switch(g_level)
{
case GLEVEL_0: return "G0";
case GLEVEL_1: return "G1";
case GLEVEL_2: return "G2";
case GLEVEL_3: return "G3";
}
return "??";
}
/* Convert the type information to string format. */
static const char *
type_to_string (AUXU *aux_ptr, int index, FDR *fdp)
{
AUXU u;
struct qual {
tq_t type;
int low_bound;
int high_bound;
int stride;
} qualifiers[7];
bt_t basic_type;
int i;
static char buffer1[1024];
static char buffer2[1024];
char *p1 = buffer1;
char *p2 = buffer2;
char *used_ptr = aux_used + (aux_ptr - aux_symbols);
for (i = 0; i < 7; i++)
{
qualifiers[i].low_bound = 0;
qualifiers[i].high_bound = 0;
qualifiers[i].stride = 0;
}
used_ptr[index] = 1;
u = aux_ptr[index++];
if (u.isym == -1)
return "-1 (no type)";
basic_type = (bt_t) u.ti.bt;
qualifiers[0].type = (tq_t) u.ti.tq0;
qualifiers[1].type = (tq_t) u.ti.tq1;
qualifiers[2].type = (tq_t) u.ti.tq2;
qualifiers[3].type = (tq_t) u.ti.tq3;
qualifiers[4].type = (tq_t) u.ti.tq4;
qualifiers[5].type = (tq_t) u.ti.tq5;
qualifiers[6].type = tq_Nil;
/*
* Go get the basic type.
*/
switch (basic_type)
{
case bt_Nil: /* undefined */
strcpy (p1, "nil");
break;
case bt_Adr: /* address - integer same size as pointer */
strcpy (p1, "address");
break;
case bt_Char: /* character */
strcpy (p1, "char");
break;
case bt_UChar: /* unsigned character */
strcpy (p1, "unsigned char");
break;
case bt_Short: /* short */
strcpy (p1, "short");
break;
case bt_UShort: /* unsigned short */
strcpy (p1, "unsigned short");
break;
case bt_Int: /* int */
strcpy (p1, "int");
break;
case bt_UInt: /* unsigned int */
strcpy (p1, "unsigned int");
break;
case bt_Long: /* long */
strcpy (p1, "long");
break;
case bt_ULong: /* unsigned long */
strcpy (p1, "unsigned long");
break;
case bt_Float: /* float (real) */
strcpy (p1, "float");
break;
case bt_Double: /* Double (real) */
strcpy (p1, "double");
break;
/* Structures add 1-2 aux words:
1st word is [ST_RFDESCAPE, offset] pointer to struct def;
2nd word is file index if 1st word rfd is ST_RFDESCAPE. */
case bt_Struct: /* Structure (Record) */
emit_aggregate (p1, aux_ptr[index], aux_ptr[index+1], "struct", fdp);
used_ptr[index] = 1;
if (aux_ptr[index].rndx.rfd == ST_RFDESCAPE)
used_ptr[++index] = 1;
index++; /* skip aux words */
break;
/* Unions add 1-2 aux words:
1st word is [ST_RFDESCAPE, offset] pointer to union def;
2nd word is file index if 1st word rfd is ST_RFDESCAPE. */
case bt_Union: /* Union */
emit_aggregate (p1, aux_ptr[index], aux_ptr[index+1], "union", fdp);
used_ptr[index] = 1;
if (aux_ptr[index].rndx.rfd == ST_RFDESCAPE)
used_ptr[++index] = 1;
index++; /* skip aux words */
break;
/* Enumerations add 1-2 aux words:
1st word is [ST_RFDESCAPE, offset] pointer to enum def;
2nd word is file index if 1st word rfd is ST_RFDESCAPE. */
case bt_Enum: /* Enumeration */
emit_aggregate (p1, aux_ptr[index], aux_ptr[index+1], "enum", fdp);
used_ptr[index] = 1;
if (aux_ptr[index].rndx.rfd == ST_RFDESCAPE)
used_ptr[++index] = 1;
index++; /* skip aux words */
break;
case bt_Typedef: /* defined via a typedef, isymRef points */
strcpy (p1, "typedef");
break;
case bt_Range: /* subrange of int */
strcpy (p1, "subrange");
break;
case bt_Set: /* pascal sets */
strcpy (p1, "set");
break;
case bt_Complex: /* fortran complex */
strcpy (p1, "complex");
break;
case bt_DComplex: /* fortran double complex */
strcpy (p1, "double complex");
break;
case bt_Indirect: /* forward or unnamed typedef */
strcpy (p1, "forward/unnamed typedef");
break;
case bt_FixedDec: /* Fixed Decimal */
strcpy (p1, "fixed decimal");
break;
case bt_FloatDec: /* Float Decimal */
strcpy (p1, "float decimal");
break;
case bt_String: /* Varying Length Character String */
strcpy (p1, "string");
break;
case bt_Bit: /* Aligned Bit String */
strcpy (p1, "bit");
break;
case bt_Picture: /* Picture */
strcpy (p1, "picture");
break;
case bt_Void: /* Void */
strcpy (p1, "void");
break;
default:
sprintf (p1, "Unknown basic type %d", (int) basic_type);
break;
}
p1 += strlen (buffer1);
/*
* If this is a bitfield, get the bitsize.
*/
if (u.ti.fBitfield)
{
int bitsize;
used_ptr[index] = 1;
bitsize = aux_ptr[index++].width;
sprintf (p1, " : %d", bitsize);
p1 += strlen (buffer1);
}
/*
* Deal with any qualifiers.
*/
if (qualifiers[0].type != tq_Nil)
{
/*
* Snarf up any array bounds in the correct order. Arrays
* store 5 successive words in the aux. table:
* word 0 RNDXR to type of the bounds (i.e., int)
* word 1 Current file descriptor index
* word 2 low bound
* word 3 high bound (or -1 if [])
* word 4 stride size in bits
*/
for (i = 0; i < 7; i++)
{
if (qualifiers[i].type == tq_Array)
{
qualifiers[i].low_bound = aux_ptr[index+2].dnLow;
qualifiers[i].high_bound = aux_ptr[index+3].dnHigh;
qualifiers[i].stride = aux_ptr[index+4].width;
used_ptr[index] = 1;
used_ptr[index+1] = 1;
used_ptr[index+2] = 1;
used_ptr[index+3] = 1;
used_ptr[index+4] = 1;
index += 5;
}
}
/*
* Now print out the qualifiers.
*/
for (i = 0; i < 6; i++)
{
switch (qualifiers[i].type)
{
case tq_Nil:
case tq_Max:
break;
case tq_Ptr:
strcpy (p2, "ptr to ");
p2 += sizeof ("ptr to ")-1;
break;
case tq_Vol:
strcpy (p2, "volatile ");
p2 += sizeof ("volatile ")-1;
break;
case tq_Far:
strcpy (p2, "far ");
p2 += sizeof ("far ")-1;
break;
case tq_Proc:
strcpy (p2, "func. ret. ");
p2 += sizeof ("func. ret. ");
break;
case tq_Array:
{
int first_array = i;
int j;
/* Print array bounds reversed (i.e., in the order the C
programmer writes them). C is such a fun language.... */
while (i < 5 && qualifiers[i+1].type == tq_Array)
i++;
for (j = i; j >= first_array; j--)
{
strcpy (p2, "array [");
p2 += sizeof ("array [")-1;
if (qualifiers[j].low_bound != 0)
sprintf (p2,
"%ld:%ld {%ld bits}",
(long) qualifiers[j].low_bound,
(long) qualifiers[j].high_bound,
(long) qualifiers[j].stride);
else if (qualifiers[j].high_bound != -1)
sprintf (p2,
"%ld {%ld bits}",
(long) (qualifiers[j].high_bound + 1),
(long) (qualifiers[j].stride));
else
sprintf (p2, " {%ld bits}", (long) (qualifiers[j].stride));
p2 += strlen (p2);
strcpy (p2, "] of ");
p2 += sizeof ("] of ")-1;
}
}
break;
}
}
}
strcpy (p2, buffer1);
return buffer2;
}
/* Print out the global file header for object files. */
static void
print_global_hdr (struct filehdr *ptr)
{
char *time = ctime ((time_t *)&ptr->f_timdat);
ushort flags = ptr->f_flags;
printf("Global file header:\n");
printf(" %-*s 0x%x\n", 24, "magic number", (ushort) ptr->f_magic);
printf(" %-*s %d\n", 24, "# sections", (int) ptr->f_nscns);
printf(" %-*s %ld, %s", 24, "timestamp", (long) ptr->f_timdat, time);
printf(" %-*s %ld\n", 24, "symbolic header offset", (long) ptr->f_symptr);
printf(" %-*s %ld\n", 24, "symbolic header size", (long) ptr->f_nsyms);
printf(" %-*s %ld\n", 24, "optional header", (long) ptr->f_opthdr);
printf(" %-*s 0x%x", 24, "flags", (ushort) flags);
if ((flags & F_RELFLG) != 0)
printf (", F_RELFLG");
if ((flags & F_EXEC) != 0)
printf (", F_EXEC");
if ((flags & F_LNNO) != 0)
printf (", F_LNNO");
if ((flags & F_LSYMS) != 0)
printf (", F_LSYMS");
if ((flags & F_MINMAL) != 0)
printf (", F_MINMAL");
if ((flags & F_UPDATE) != 0)
printf (", F_UPDATE");
if ((flags & F_SWABD) != 0)
printf (", F_SWABD");
if ((flags & F_AR16WR) != 0)
printf (", F_AR16WR");
if ((flags & F_AR32WR) != 0)
printf (", F_AR32WR");
if ((flags & F_AR32W) != 0)
printf (", F_AR32W");
if ((flags & F_PATCH) != 0)
printf (", F_PATCH/F_NODF");
printf ("\n\n");
}
/* Print out the symbolic header. */
static void
print_sym_hdr (HDRR *sym_ptr)
{
int width = 20;
printf("Symbolic header, magic number = 0x%04x, vstamp = %d.%d:\n\n",
sym_ptr->magic & 0xffff,
(sym_ptr->vstamp & 0xffff) >> 8,
sym_ptr->vstamp & 0xff);
printf(" %-*s %11s %11s %11s\n", width, "Info", "Offset", "Number", "Bytes");
printf(" %-*s %11s %11s %11s\n", width, "====", "======", "======", "=====\n");
printf(" %-*s %11ld %11ld %11ld [%d]\n", width, "Line numbers",
(long) sym_ptr->cbLineOffset,
(long) sym_ptr->cbLine,
(long) sym_ptr->cbLine,
(int) sym_ptr->ilineMax);
printf(" %-*s %11ld %11ld %11ld\n", width, "Dense numbers",
(long) sym_ptr->cbDnOffset,
(long) sym_ptr->idnMax,
(long) (sym_ptr->idnMax * sizeof (DNR)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Procedures Tables",
(long) sym_ptr->cbPdOffset,
(long) sym_ptr->ipdMax,
(long) (sym_ptr->ipdMax * sizeof (PDR)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Local Symbols",
(long) sym_ptr->cbSymOffset,
(long) sym_ptr->isymMax,
(long) (sym_ptr->isymMax * sizeof (SYMR)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Optimization Symbols",
(long) sym_ptr->cbOptOffset,
(long) sym_ptr->ioptMax,
(long) (sym_ptr->ioptMax * sizeof (OPTR)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Auxiliary Symbols",
(long) sym_ptr->cbAuxOffset,
(long) sym_ptr->iauxMax,
(long) (sym_ptr->iauxMax * sizeof (AUXU)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Local Strings",
(long) sym_ptr->cbSsOffset,
(long) sym_ptr->issMax,
(long) sym_ptr->issMax);
printf(" %-*s %11ld %11ld %11ld\n", width, "External Strings",
(long) sym_ptr->cbSsExtOffset,
(long) sym_ptr->issExtMax,
(long) sym_ptr->issExtMax);
printf(" %-*s %11ld %11ld %11ld\n", width, "File Tables",
(long) sym_ptr->cbFdOffset,
(long) sym_ptr->ifdMax,
(long) (sym_ptr->ifdMax * sizeof (FDR)));
printf(" %-*s %11ld %11ld %11ld\n", width, "Relative Files",
(long) sym_ptr->cbRfdOffset,
(long) sym_ptr->crfd,
(long) (sym_ptr->crfd * sizeof (ulong)));
printf(" %-*s %11ld %11ld %11ld\n", width, "External Symbols",
(long) sym_ptr->cbExtOffset,
(long) sym_ptr->iextMax,
(long) (sym_ptr->iextMax * sizeof (EXTR)));
}
/* Print out a symbol. */
static void
print_symbol (SYMR *sym_ptr, int number, const char *strbase, AUXU *aux_base,
int ifd, FDR *fdp)
{
sc_t storage_class = (sc_t) sym_ptr->sc;
st_t symbol_type = (st_t) sym_ptr->st;
ulong index = sym_ptr->index;
char *used_ptr = aux_used + (aux_base - aux_symbols);
scope_t *scope_ptr;
printf ("\n Symbol# %d: \"%s\"\n", number, sym_ptr->iss + strbase);
if (aux_base != (AUXU *) 0 && index != indexNil)
switch (symbol_type)
{
case st_Nil:
case st_Label:
break;
case st_File:
case st_Block:
printf (" End+1 symbol: %ld\n", index);
if (want_scope)
{
if (free_scope == (scope_t *) 0)
scope_ptr = xmalloc (sizeof (scope_t));
else
{
scope_ptr = free_scope;
free_scope = scope_ptr->prev;
}
scope_ptr->open_sym = number;
scope_ptr->st = symbol_type;
scope_ptr->sc = storage_class;
scope_ptr->prev = cur_scope;
cur_scope = scope_ptr;
}
break;
case st_End:
if (storage_class == sc_Text || storage_class == sc_Info)
printf (" First symbol: %ld\n", index);
else
{
used_ptr[index] = 1;
printf (" First symbol: %ld\n", (long) aux_base[index].isym);
}
if (want_scope)
{
if (cur_scope == (scope_t *) 0)
printf (" Can't pop end scope\n");
else
{
scope_ptr = cur_scope;
cur_scope = scope_ptr->prev;
scope_ptr->prev = free_scope;
free_scope = scope_ptr;
}
}
break;
case st_Proc:
case st_StaticProc:
if (MIPS_IS_STAB(sym_ptr))
;
else if (ifd == -1) /* local symbol */
{
used_ptr[index] = used_ptr[index+1] = 1;
printf (" End+1 symbol: %-7ld Type: %s\n",
(long) aux_base[index].isym,
type_to_string (aux_base, index+1, fdp));
}
else /* global symbol */
printf (" Local symbol: %ld\n", index);
if (want_scope)
{
if (free_scope == (scope_t *) 0)
scope_ptr = xmalloc (sizeof (scope_t));
else
{
scope_ptr = free_scope;
free_scope = scope_ptr->prev;
}
scope_ptr->open_sym = number;
scope_ptr->st = symbol_type;
scope_ptr->sc = storage_class;
scope_ptr->prev = cur_scope;
cur_scope = scope_ptr;
}
break;
#ifdef stStruct
case st_Struct:
case st_Union:
case st_Enum:
printf (" End+1 symbol: %lu\n", index);
break;
#endif
default:
if (!MIPS_IS_STAB (sym_ptr))
{
used_ptr[index] = 1;
printf (" Type: %s\n",
type_to_string (aux_base, index, fdp));
}
break;
}
if (want_scope)
{
printf (" Scopes: ");
if (cur_scope == (scope_t *) 0)
printf (" none\n");
else
{
for (scope_ptr = cur_scope;
scope_ptr != (scope_t *) 0;
scope_ptr = scope_ptr->prev)
{
const char *class;
if (scope_ptr->st == st_Proc || scope_ptr->st == st_StaticProc)
class = "func.";
else if (scope_ptr->st == st_File)
class = "file";
else if (scope_ptr->st == st_Block && scope_ptr->sc == sc_Text)
class = "block";
else if (scope_ptr->st == st_Block && scope_ptr->sc == sc_Info)
class = "type";
else
class = "???";
printf (" %ld [%s]", scope_ptr->open_sym, class);
}
printf ("\n");
}
}
printf (" Value: %-13ld ",
(long)sym_ptr->value);
if (ifd == -1)
printf ("String index: %ld\n", (long)sym_ptr->iss);
else
printf ("String index: %-11ld Ifd: %d\n",
(long)sym_ptr->iss, ifd);
printf (" Symbol type: %-11sStorage class: %-11s",
st_to_string (symbol_type), sc_to_string (storage_class));
if (MIPS_IS_STAB(sym_ptr))
{
int i = ARRAY_SIZE (stab_names);
const char *stab_name = "stab";
short code = MIPS_UNMARK_STAB(sym_ptr->index);
while (--i >= 0)
if (stab_names[i].code == code)
{
stab_name = stab_names[i].string;
break;
}
printf ("Index: 0x%lx (%s)\n", (long)sym_ptr->index, stab_name);
}
else if (sym_ptr->st == stLabel && sym_ptr->index != indexNil)
printf ("Index: %ld (line#)\n", (long)sym_ptr->index);
else
printf ("Index: %ld\n", (long)sym_ptr->index);
}
/* Print out a word from the aux. table in various formats. */
static void
print_aux (AUXU u, int auxi, int used)
{
printf ("\t%s#%-5d %11ld, [%4ld/%7ld], [%2d %1d:%1d %1x:%1x:%1x:%1x:%1x:%1x]\n",
(used) ? " " : "* ",
auxi,
(long) u.isym,
(long) u.rndx.rfd,
(long) u.rndx.index,
u.ti.bt,
u.ti.fBitfield,
u.ti.continued,
u.ti.tq0,
u.ti.tq1,
u.ti.tq2,
u.ti.tq3,
u.ti.tq4,
u.ti.tq5);
}
/* Write aggregate information to a string. */
static void
emit_aggregate (char *string, AUXU u, AUXU u2, const char *which, FDR *fdp)
{
unsigned int ifd = u.rndx.rfd;
unsigned int index = u.rndx.index;
const char *name;
if (ifd == ST_RFDESCAPE)
ifd = u2.isym;
/* An ifd of -1 is an opaque type. An escaped index of 0 is a
struct return type of a procedure compiled without -g. */
if (ifd == 0xffffffff
|| (u.rndx.rfd == ST_RFDESCAPE && index == 0))
name = "<undefined>";
else if (index == indexNil)
name = "<no name>";
else
{
if (fdp == 0 || sym_hdr.crfd == 0)
fdp = &file_desc[ifd];
else
fdp = &file_desc[rfile_desc[fdp->rfdBase + ifd]];
name = &l_strings[fdp->issBase + l_symbols[index + fdp->isymBase].iss];
}
sprintf (string,
"%s %s { ifd = %u, index = %u }",
which, name, ifd, index);
}
/* Print out information about a file descriptor, and the symbols,
procedures, and line numbers within it. */
static void
print_file_desc (FDR *fdp, int number)
{
char *str_base;
AUXU *aux_base;
int symi, pdi;
int width = 20;
char *used_base;
str_base = l_strings + fdp->issBase;
aux_base = aux_symbols + fdp->iauxBase;
used_base = aux_used + (aux_base - aux_symbols);
printf ("\nFile #%d, \"%s\"\n\n",
number,
fdp->rss != issNil ? str_base + fdp->rss : "<unknown>");
printf (" Name index = %-10ld Readin = %s\n",
(long) fdp->rss, (fdp->fReadin) ? "Yes" : "No");
printf (" Merge = %-10s Endian = %s\n",
(fdp->fMerge) ? "Yes" : "No",
(fdp->fBigendian) ? "BIG" : "LITTLE");
printf (" Debug level = %-10s Language = %s\n",
glevel_to_string (fdp->glevel),
lang_to_string((lang_t) fdp->lang));
printf (" Adr = 0x%08lx\n\n", (long) fdp->adr);
printf(" %-*s %11s %11s %11s %11s\n", width, "Info", "Start", "Number", "Size", "Offset");
printf(" %-*s %11s %11s %11s %11s\n", width, "====", "=====", "======", "====", "======");
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Local strings",
(ulong) fdp->issBase,
(ulong) fdp->cbSs,
(ulong) fdp->cbSs,
(ulong) (fdp->issBase + sym_hdr.cbSsOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Local symbols",
(ulong) fdp->isymBase,
(ulong) fdp->csym,
(ulong) (fdp->csym * sizeof (SYMR)),
(ulong) (fdp->isymBase * sizeof (SYMR) + sym_hdr.cbSymOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Line numbers",
(ulong) fdp->cbLineOffset,
(ulong) fdp->cline,
(ulong) fdp->cbLine,
(ulong) (fdp->cbLineOffset + sym_hdr.cbLineOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Optimization symbols",
(ulong) fdp->ioptBase,
(ulong) fdp->copt,
(ulong) (fdp->copt * sizeof (OPTR)),
(ulong) (fdp->ioptBase * sizeof (OPTR) + sym_hdr.cbOptOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Procedures",
(ulong) fdp->ipdFirst,
(ulong) fdp->cpd,
(ulong) (fdp->cpd * sizeof (PDR)),
(ulong) (fdp->ipdFirst * sizeof (PDR) + sym_hdr.cbPdOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Auxiliary symbols",
(ulong) fdp->iauxBase,
(ulong) fdp->caux,
(ulong) (fdp->caux * sizeof (AUXU)),
(ulong) (fdp->iauxBase * sizeof(AUXU) + sym_hdr.cbAuxOffset));
printf(" %-*s %11lu %11lu %11lu %11lu\n",
width, "Relative Files",
(ulong) fdp->rfdBase,
(ulong) fdp->crfd,
(ulong) (fdp->crfd * sizeof (ulong)),
(ulong) (fdp->rfdBase * sizeof(ulong) + sym_hdr.cbRfdOffset));
if (want_scope && cur_scope != (scope_t *) 0)
printf ("\n Warning scope does not start at 0!\n");
/*
* print the info about the symbol table.
*/
printf ("\n There are %lu local symbols, starting at %lu\n",
(ulong) fdp->csym,
(ulong) (fdp->isymBase + sym_hdr.cbSymOffset));
for(symi = fdp->isymBase; symi < (fdp->csym + fdp->isymBase); symi++)
print_symbol (&l_symbols[symi],
symi - fdp->isymBase,
str_base,
aux_base,
-1,
fdp);
if (want_scope && cur_scope != (scope_t *) 0)
printf ("\n Warning scope does not end at 0!\n");
/*
* print the aux. table if desired.
*/
if (want_aux && fdp->caux != 0)
{
int auxi;
printf ("\n There are %lu auxiliary table entries, starting at %lu.\n\n",
(ulong) fdp->caux,
(ulong) (fdp->iauxBase + sym_hdr.cbAuxOffset));
for (auxi = fdp->iauxBase; auxi < (fdp->caux + fdp->iauxBase); auxi++)
print_aux (aux_base[auxi], auxi, used_base[auxi]);
}
/*
* print the relative file descriptors.
*/
if (want_rfd && fdp->crfd != 0)
{
ulong *rfd_ptr, i;
printf ("\n There are %lu relative file descriptors, starting at %lu.\n",
(ulong) fdp->crfd,
(ulong) fdp->rfdBase);
rfd_ptr = rfile_desc + fdp->rfdBase;
for (i = 0; i < (ulong) fdp->crfd; i++)
{
printf ("\t#%-5ld %11ld, 0x%08lx\n", i, *rfd_ptr, *rfd_ptr);
rfd_ptr++;
}
}
/*
* do the procedure descriptors.
*/
printf ("\n There are %lu procedure descriptor entries, ", (ulong) fdp->cpd);
printf ("starting at %lu.\n", (ulong) fdp->ipdFirst);
for (pdi = fdp->ipdFirst; pdi < (fdp->cpd + fdp->ipdFirst); pdi++)
{
PDR *proc_ptr = &proc_desc[pdi];
printf ("\n\tProcedure descriptor %d:\n", (pdi - fdp->ipdFirst));
if (l_symbols != 0)
printf ("\t Name index = %-11ld Name = \"%s\"\n",
(long) l_symbols[proc_ptr->isym + fdp->isymBase].iss,
l_symbols[proc_ptr->isym + fdp->isymBase].iss + str_base);
printf ("\t .mask 0x%08lx,%-9ld .fmask 0x%08lx,%ld\n",
(long) proc_ptr->regmask,
(long) proc_ptr->regoffset,
(long) proc_ptr->fregmask,
(long) proc_ptr->fregoffset);
printf ("\t .frame $%d,%ld,$%d\n",
(int) proc_ptr->framereg,
(long) proc_ptr->frameoffset,
(int) proc_ptr->pcreg);
printf ("\t Opt. start = %-11ld Symbols start = %ld\n",
(long) proc_ptr->iopt,
(long) proc_ptr->isym);
printf ("\t First line # = %-11ld Last line # = %ld\n",
(long) proc_ptr->lnLow,
(long) proc_ptr->lnHigh);
printf ("\t Line Offset = %-11ld Address = 0x%08lx\n",
(long) proc_ptr->cbLineOffset,
(long) proc_ptr->adr);
/*
* print the line number entries.
*/
if (want_line && fdp->cline != 0)
{
int delta, count;
long cur_line = proc_ptr->lnLow;
uchar *line_ptr = (((uchar *)lines) + proc_ptr->cbLineOffset
+ fdp->cbLineOffset);
uchar *line_end;
if (pdi == fdp->cpd + fdp->ipdFirst - 1) /* last procedure */
line_end = ((uchar *)lines) + fdp->cbLine + fdp->cbLineOffset;
else /* not last proc. */
line_end = (((uchar *)lines) + proc_desc[pdi+1].cbLineOffset
+ fdp->cbLineOffset);
printf ("\n\tThere are %lu bytes holding line numbers, starting at %lu.\n",
(ulong) (line_end - line_ptr),
(ulong) (fdp->ilineBase + sym_hdr.cbLineOffset));
while (line_ptr < line_end)
{ /* sign extend nibble */
delta = ((*line_ptr >> 4) ^ 0x8) - 0x8;
count = (*line_ptr & 0xf) + 1;
if (delta != -8)
line_ptr++;
else
{
delta = (((line_ptr[1]) & 0xff) << 8) + ((line_ptr[2]) & 0xff);
delta = (delta ^ 0x8000) - 0x8000;
line_ptr += 3;
}
cur_line += delta;
printf ("\t Line %11ld, delta %5d, count %2d\n",
cur_line,
delta,
count);
}
}
}
}
/* Read in the portions of the .T file that we will print out. */
static void
read_tfile (void)
{
short magic;
off_t sym_hdr_offset = 0;
read_seek (&magic, sizeof (magic), 0, "Magic number");
if (!tfile)
{
/* Print out the global header, since this is not a T-file. */
read_seek (&global_hdr, sizeof (global_hdr), 0, "Global file header");
print_global_hdr (&global_hdr);
if (global_hdr.f_symptr == 0)
{
printf ("No symbolic header, Goodbye!\n");
exit (1);
}
sym_hdr_offset = global_hdr.f_symptr;
}
read_seek (&sym_hdr, sizeof (sym_hdr), sym_hdr_offset, "Symbolic header");
print_sym_hdr (&sym_hdr);
lines = read_seek (NULL, sym_hdr.cbLine, sym_hdr.cbLineOffset,
"Line numbers");
dense_nums = read_seek (NULL, sym_hdr.idnMax * sizeof (DNR),
sym_hdr.cbDnOffset, "Dense numbers");
proc_desc = read_seek (NULL, sym_hdr.ipdMax * sizeof (PDR),
sym_hdr.cbPdOffset, "Procedure tables");
l_symbols = read_seek (NULL, sym_hdr.isymMax * sizeof (SYMR),
sym_hdr.cbSymOffset, "Local symbols");
opt_symbols = read_seek (NULL, sym_hdr.ioptMax * sizeof (OPTR),
sym_hdr.cbOptOffset, "Optimization symbols");
aux_symbols = read_seek (NULL, sym_hdr.iauxMax * sizeof (AUXU),
sym_hdr.cbAuxOffset, "Auxiliary symbols");
if (sym_hdr.iauxMax > 0)
aux_used = xcalloc (sym_hdr.iauxMax, 1);
l_strings = read_seek (NULL, sym_hdr.issMax,
sym_hdr.cbSsOffset, "Local string table");
e_strings = read_seek (NULL, sym_hdr.issExtMax,
sym_hdr.cbSsExtOffset, "External string table");
file_desc = read_seek (NULL, sym_hdr.ifdMax * sizeof (FDR),
sym_hdr.cbFdOffset, "File tables");
rfile_desc = read_seek (NULL, sym_hdr.crfd * sizeof (ulong),
sym_hdr.cbRfdOffset, "Relative file tables");
e_symbols = read_seek (NULL, sym_hdr.iextMax * sizeof (EXTR),
sym_hdr.cbExtOffset, "External symbols");
}
extern int main (int, char **);
int
main (int argc, char **argv)
{
int i, opt;
/*
* Process arguments
*/
while ((opt = getopt_long (argc, argv, "alrsvt", options, NULL)) != -1)
switch (opt)
{
default: errors++; break;
case 'a': want_aux++; break; /* print aux table */
case 'l': want_line++; break; /* print line numbers */
case 'r': want_rfd++; break; /* print relative fd's */
case 's': want_scope++; break; /* print scope info */
case 'v': verbose++; break; /* print version # */
case 'V': version++; break; /* print version # */
case 't': tfile++; break; /* this is a tfile (without header),
and not a .o */
}
if (version)
{
printf ("mips-tdump %s%s\n", pkgversion_string, version_string);
fputs ("Copyright (C) 2008 Free Software Foundation, Inc.\n", stdout);
fputs ("This is free software; see the source for copying conditions. There is NO\n\
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.\n\n",
stdout);
exit (0);
}
if (optind != argc - 1)
errors++;
if (verbose || errors)
{
fprintf (stderr, "mips-tdump (GCC) %s", version_string);
#ifdef TARGET_VERSION
TARGET_VERSION;
#endif
fputc ('\n', stderr);
}
if (errors)
{
fprintf (stderr, "Calling Sequence:\n");
fprintf (stderr, "\t%s [-alrst] <object-or-T-file>\n", argv[0]);
fprintf (stderr, "\n");
fprintf (stderr, "switches:\n");
fprintf (stderr, "\t-a Print out auxiliary table.\n");
fprintf (stderr, "\t-l Print out line numbers.\n");
fprintf (stderr, "\t-r Print out relative file descriptors.\n");
fprintf (stderr, "\t-s Print out the current scopes for an item.\n");
fprintf (stderr, "\t-t Assume there is no global header (ie, a T-file).\n");
fprintf (stderr, "\t-v Print program version.\n");
return 1;
}
/*
* Open and process the input file.
*/
tfile_fd = open (argv[optind], O_RDONLY);
if (tfile_fd < 0)
{
perror (argv[optind]);
return 1;
}
read_tfile ();
/*
* Print any global aux words if any.
*/
if (want_aux)
{
long last_aux_in_use;
if (sym_hdr.ifdMax != 0 && file_desc[0].iauxBase != 0)
{
printf ("\nGlobal auxiliary entries before first file:\n");
for (i = 0; i < file_desc[0].iauxBase; i++)
print_aux (aux_symbols[i], 0, aux_used[i]);
}
if (sym_hdr.ifdMax == 0)
last_aux_in_use = 0;
else
last_aux_in_use
= (file_desc[sym_hdr.ifdMax-1].iauxBase
+ file_desc[sym_hdr.ifdMax-1].caux - 1);
if (last_aux_in_use < sym_hdr.iauxMax-1)
{
printf ("\nGlobal auxiliary entries after last file:\n");
for (i = last_aux_in_use; i < sym_hdr.iauxMax; i++)
print_aux (aux_symbols[i], i - last_aux_in_use, aux_used[i]);
}
}
/*
* Print the information for each file.
*/
for (i = 0; i < sym_hdr.ifdMax; i++)
print_file_desc (&file_desc[i], i);
/*
* Print the external symbols.
*/
want_scope = 0; /* scope info is meaning for extern symbols */
printf ("\nThere are %lu external symbols, starting at %lu\n",
(ulong) sym_hdr.iextMax,
(ulong) sym_hdr.cbExtOffset);
for(i = 0; i < sym_hdr.iextMax; i++)
print_symbol (&e_symbols[i].asym, i, e_strings,
aux_symbols + file_desc[e_symbols[i].ifd].iauxBase,
e_symbols[i].ifd,
&file_desc[e_symbols[i].ifd]);
/*
* Print unused aux symbols now.
*/
if (want_aux)
{
int first_time = 1;
for (i = 0; i < sym_hdr.iauxMax; i++)
{
if (! aux_used[i])
{
if (first_time)
{
printf ("\nThe following auxiliary table entries were unused:\n\n");
first_time = 0;
}
printf (" #%-5d %11ld 0x%08lx %s\n",
i,
(long) aux_symbols[i].isym,
(long) aux_symbols[i].isym,
type_to_string (aux_symbols, i, (FDR *) 0));
}
}
}
return 0;
}