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[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [bfd/] [vms-misc.c] - Rev 174
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/* vms-misc.c -- BFD back-end for VMS/VAX (openVMS/VAX) and EVAX (openVMS/Alpha) files. Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. Miscellaneous functions. Written by Klaus K"ampf (kkaempf@rmi.de) This program 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 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #if __STDC__ #include <stdarg.h> #endif #include "sysdep.h" #include "bfd.h" #include "bfdlink.h" #include "libbfd.h" #include "safe-ctype.h" #ifdef VMS #define __NEW_STARLET #include <rms.h> #include <unixlib.h> #include <gen64def.h> #include <starlet.h> #define RME$C_SETRFM 0x00000001 #include <unistd.h> #endif #include <time.h> #include "vms.h" #include "vms/emh.h" #if VMS_DEBUG /* Debug functions. */ /* Debug function for all vms extensions evaluates environment variable VMS_DEBUG for a numerical value on the first call all error levels below this value are printed: Levels: 1 toplevel bfd calls (functions from the bfd vector) 2 functions called by bfd calls ... 9 almost everything Level is also indentation level. Indentation is performed if level > 0. */ void _bfd_vms_debug (int level, char *format, ...) { static int min_level = -1; static FILE *output = NULL; char *eptr; va_list args; int abslvl = (level > 0) ? level : - level; if (min_level == -1) { if ((eptr = getenv ("VMS_DEBUG")) != NULL) { min_level = atoi (eptr); output = stderr; } else min_level = 0; } if (output == NULL) return; if (abslvl > min_level) return; while (--level > 0) fprintf (output, " "); va_start (args, format); vfprintf (output, format, args); fflush (output); va_end (args); } /* A debug function hex dump 'size' bytes starting at 'ptr'. */ void _bfd_hexdump (int level, unsigned char *ptr, int size, int offset) { unsigned char *lptr = ptr; int count = 0; long start = offset; while (size-- > 0) { if ((count % 16) == 0) vms_debug (level, "%08lx:", start); vms_debug (-level, " %02x", *ptr++); count++; start++; if (size == 0) { while ((count % 16) != 0) { vms_debug (-level, " "); count++; } } if ((count % 16) == 0) { vms_debug (-level, " "); while (lptr < ptr) { vms_debug (-level, "%c", (*lptr < 32) ? '.' : *lptr); lptr++; } vms_debug (-level, "\n"); } } if ((count % 16) != 0) vms_debug (-level, "\n"); } #endif /* Copy sized string (string with fixed size) to new allocated area size is string size (size of record) */ char * _bfd_vms_save_sized_string (unsigned char *str, int size) { char *newstr = bfd_malloc ((bfd_size_type) size + 1); if (newstr == NULL) return NULL; memcpy (newstr, (char *) str, (size_t) size); newstr[size] = 0; return newstr; } /* Copy counted string (string with size at first byte) to new allocated area ptr points to size byte on entry */ char * _bfd_vms_save_counted_string (unsigned char *ptr) { int len = *ptr++; return _bfd_vms_save_sized_string (ptr, len); } /* Object output routines. */ /* Begin new record. Write 2 bytes rectype and 2 bytes record length. */ void _bfd_vms_output_begin (struct vms_rec_wr *recwr, int rectype) { vms_debug2 ((6, "_bfd_vms_output_begin (type %d)\n", rectype)); /* Record must have been closed. */ BFD_ASSERT (recwr->size == 0); _bfd_vms_output_short (recwr, (unsigned int) rectype); /* Placeholder for length. */ _bfd_vms_output_short (recwr, 0); } /* Begin new sub-record. Write 2 bytes rectype, and 2 bytes record length. */ void _bfd_vms_output_begin_subrec (struct vms_rec_wr *recwr, int rectype) { vms_debug2 ((6, "_bfd_vms_output_begin_subrec (type %d)\n", rectype)); /* Subrecord must have been closed. */ BFD_ASSERT (recwr->subrec_offset == 0); /* Save start of subrecord offset. */ recwr->subrec_offset = recwr->size; /* Subrecord type. */ _bfd_vms_output_short (recwr, (unsigned int) rectype); /* Placeholder for length. */ _bfd_vms_output_short (recwr, 0); } /* Set record/subrecord alignment. */ void _bfd_vms_output_alignment (struct vms_rec_wr *recwr, int alignto) { vms_debug2 ((6, "_bfd_vms_output_alignment (%d)\n", alignto)); recwr->align = alignto; } /* Align the size of the current record (whose length is LENGTH). Warning: this obviously changes the record (and the possible subrecord) length. */ static void _bfd_vms_output_align (struct vms_rec_wr *recwr, unsigned int length) { unsigned int real_size = recwr->size; unsigned int aligncount; /* Pad with 0 if alignment is required. */ aligncount = (recwr->align - (length % recwr->align)) % recwr->align; vms_debug2 ((6, "align: adding %d bytes\n", aligncount)); while (aligncount-- > 0) recwr->buf[real_size++] = 0; recwr->size = real_size; } /* Ends current sub-record. Set length field. */ void _bfd_vms_output_end_subrec (struct vms_rec_wr *recwr) { int real_size = recwr->size; int length; /* Subrecord must be open. */ BFD_ASSERT (recwr->subrec_offset != 0); length = real_size - recwr->subrec_offset; if (length == 0) return; _bfd_vms_output_align (recwr, length); /* Put length to buffer. */ bfd_putl16 ((bfd_vma) (recwr->size - recwr->subrec_offset), recwr->buf + recwr->subrec_offset + 2); /* Close the subrecord. */ recwr->subrec_offset = 0; } /* Ends current record (and write it). */ void _bfd_vms_output_end (bfd *abfd, struct vms_rec_wr *recwr) { vms_debug2 ((6, "_bfd_vms_output_end (size %u)\n", recwr->size)); /* Subrecord must have been closed. */ BFD_ASSERT (recwr->subrec_offset == 0); if (recwr->size == 0) return; _bfd_vms_output_align (recwr, recwr->size); /* Write the length word. */ bfd_putl16 ((bfd_vma) recwr->size, recwr->buf + 2); /* File is open in undefined (UDF) format on VMS, but ultimately will be converted to variable length (VAR) format. VAR format has a length word first which must be explicitly output in UDF format. */ /* So, first the length word. */ bfd_bwrite (recwr->buf + 2, 2, abfd); /* Align. */ if (recwr->size & 1) recwr->buf[recwr->size++] = 0; /* Then the record. */ bfd_bwrite (recwr->buf, (size_t) recwr->size, abfd); recwr->size = 0; } /* Check remaining buffer size. Return what's left. */ int _bfd_vms_output_check (struct vms_rec_wr *recwr, int size) { vms_debug2 ((6, "_bfd_vms_output_check (%d)\n", size)); return (MAX_OUTREC_SIZE - (recwr->size + size + MIN_OUTREC_LUFT)); } /* Output byte (8 bit) value. */ void _bfd_vms_output_byte (struct vms_rec_wr *recwr, unsigned int value) { vms_debug2 ((6, "_bfd_vms_output_byte (%02x)\n", value)); *(recwr->buf + recwr->size) = value; recwr->size += 1; } /* Output short (16 bit) value. */ void _bfd_vms_output_short (struct vms_rec_wr *recwr, unsigned int value) { vms_debug2 ((6, "_bfd_vms_output_short (%04x)\n", value)); bfd_putl16 ((bfd_vma) value & 0xffff, recwr->buf + recwr->size); recwr->size += 2; } /* Output long (32 bit) value. */ void _bfd_vms_output_long (struct vms_rec_wr *recwr, unsigned long value) { vms_debug2 ((6, "_bfd_vms_output_long (%08lx)\n", value)); bfd_putl32 ((bfd_vma) value, recwr->buf + recwr->size); recwr->size += 4; } /* Output quad (64 bit) value. */ void _bfd_vms_output_quad (struct vms_rec_wr *recwr, bfd_vma value) { vms_debug2 ((6, "_bfd_vms_output_quad (%08lx)\n", (unsigned long)value)); bfd_putl64 (value, recwr->buf + recwr->size); recwr->size += 8; } /* Output c-string as counted string. */ void _bfd_vms_output_counted (struct vms_rec_wr *recwr, const char *value) { int len; vms_debug2 ((6, "_bfd_vms_output_counted (%s)\n", value)); len = strlen (value); if (len == 0) { (*_bfd_error_handler) (_("_bfd_vms_output_counted called with zero bytes")); return; } if (len > 255) { (*_bfd_error_handler) (_("_bfd_vms_output_counted called with too many bytes")); return; } _bfd_vms_output_byte (recwr, (unsigned int) len & 0xff); _bfd_vms_output_dump (recwr, (const unsigned char *)value, len); } /* Output character area. */ void _bfd_vms_output_dump (struct vms_rec_wr *recwr, const unsigned char *data, int len) { vms_debug2 ((6, "_bfd_vms_output_dump (%d)\n", len)); if (len == 0) return; memcpy (recwr->buf + recwr->size, data, (size_t) len); recwr->size += len; } /* Output count bytes of value. */ void _bfd_vms_output_fill (struct vms_rec_wr *recwr, int value, int count) { vms_debug2 ((6, "_bfd_vms_output_fill (val %02x times %d)\n", value, count)); if (count == 0) return; memset (recwr->buf + recwr->size, value, (size_t) count); recwr->size += count; } #ifdef VMS /* Convert the file to variable record length format. This is done using undocumented system call sys$modify(). Pure VMS version. */ static void vms_convert_to_var (char * vms_filename) { struct FAB fab = cc$rms_fab; fab.fab$l_fna = vms_filename; fab.fab$b_fns = strlen (vms_filename); fab.fab$b_fac = FAB$M_PUT; fab.fab$l_fop = FAB$M_ESC; fab.fab$l_ctx = RME$C_SETRFM; sys$open (&fab); fab.fab$b_rfm = FAB$C_VAR; sys$modify (&fab); sys$close (&fab); } static int vms_convert_to_var_1 (char *filename, int type) { if (type != DECC$K_FILE) return FALSE; vms_convert_to_var (filename); return TRUE; } /* Convert the file to variable record length format. This is done using undocumented system call sys$modify(). Unix filename version. */ int _bfd_vms_convert_to_var_unix_filename (const char *unix_filename) { if (decc$to_vms (unix_filename, &vms_convert_to_var_1, 0, 1) != 1) return FALSE; return TRUE; } #endif /* VMS */ /* Manufacture a VMS like time on a unix based system. stolen from obj-vms.c. */ unsigned char * get_vms_time_string (void) { static unsigned char tbuf[18]; #ifndef VMS char *pnt; time_t timeb; time (& timeb); pnt = ctime (&timeb); pnt[3] = 0; pnt[7] = 0; pnt[10] = 0; pnt[16] = 0; pnt[24] = 0; sprintf ((char *) tbuf, "%2s-%3s-%s %s", pnt + 8, pnt + 4, pnt + 20, pnt + 11); #else struct { int Size; unsigned char *Ptr; } Descriptor; Descriptor.Size = 17; Descriptor.Ptr = tbuf; SYS$ASCTIM (0, &Descriptor, 0, 0); #endif /* not VMS */ vms_debug2 ((6, "vmstimestring:'%s'\n", tbuf)); return tbuf; } /* Create module name from filename (ie, extract the basename and convert it in upper cases). Works on both VMS and UNIX pathes. The result has to be free(). */ char * vms_get_module_name (const char *filename, bfd_boolean upcase) { char *fname, *fptr; const char *fout; /* Strip VMS path. */ fout = strrchr (filename, ']'); if (fout == NULL) fout = strchr (filename, ':'); if (fout != NULL) fout++; else fout = filename; /* Strip UNIX path. */ fptr = strrchr (fout, '/'); if (fptr != NULL) fout = fptr + 1; fname = strdup (fout); /* Strip suffix. */ fptr = strrchr (fname, '.'); if (fptr != 0) *fptr = 0; /* Convert to upper case and truncate at 31 characters. (VMS object file format restricts module name length to 31). */ fptr = fname; for (fptr = fname; *fptr != 0; fptr++) { if (*fptr == ';' || (fptr - fname) >= 31) { *fptr = 0; break; } if (upcase) *fptr = TOUPPER (*fptr); } return fname; } /* Compared to usual UNIX time_t, VMS time has less limits: - 64 bit (63 bits in fact as the MSB must be 0) - 100ns granularity - epoch is Nov 17, 1858. Here has the constants and the routines used to convert VMS from/to UNIX time. The conversion routines don't assume 64 bits arithmetic. Here we assume that the definition of time_t is the UNIX one, ie integer type, expressing seconds since the epoch. */ /* UNIX time granularity for VMS, ie 1s / 100ns. */ #define VMS_TIME_FACTOR 10000000 /* Number of seconds since VMS epoch of the UNIX epoch. */ #define VMS_TIME_OFFSET 3506716800U /* Convert a VMS time to a unix time. */ time_t vms_time_to_time_t (unsigned int hi, unsigned int lo) { unsigned int tmp; unsigned int rlo; int i; time_t res; /* First convert to seconds. */ tmp = hi % VMS_TIME_FACTOR; hi = hi / VMS_TIME_FACTOR; rlo = 0; for (i = 0; i < 4; i++) { tmp = (tmp << 8) | (lo >> 24); lo <<= 8; rlo = (rlo << 8) | (tmp / VMS_TIME_FACTOR); tmp %= VMS_TIME_FACTOR; } lo = rlo; /* Return 0 in case of overflow. */ if (hi > 1 || (hi == 1 && lo >= VMS_TIME_OFFSET)) return 0; /* Return 0 in case of underflow. */ if (hi == 0 && lo < VMS_TIME_OFFSET) return 0; res = lo - VMS_TIME_OFFSET; if (res <= 0) return 0; return res; } /* Convert a time_t to a VMS time. */ void vms_time_t_to_vms_time (time_t ut, unsigned int *hi, unsigned int *lo) { unsigned short val[4]; unsigned short tmp[4]; unsigned int carry; int i; /* Put into val. */ val[0] = ut & 0xffff; val[1] = (ut >> 16) & 0xffff; val[2] = sizeof (ut) > 4 ? (ut >> 32) & 0xffff : 0; val[3] = sizeof (ut) > 4 ? (ut >> 48) & 0xffff : 0; /* Add offset. */ tmp[0] = VMS_TIME_OFFSET & 0xffff; tmp[1] = VMS_TIME_OFFSET >> 16; tmp[2] = 0; tmp[3] = 0; carry = 0; for (i = 0; i < 4; i++) { carry += tmp[i] + val[i]; val[i] = carry & 0xffff; carry = carry >> 16; } /* Multiply by factor, well first by 10000 and then by 1000. */ carry = 0; for (i = 0; i < 4; i++) { carry += val[i] * 10000; val[i] = carry & 0xffff; carry = carry >> 16; } carry = 0; for (i = 0; i < 4; i++) { carry += val[i] * 1000; val[i] = carry & 0xffff; carry = carry >> 16; } /* Write the result. */ *lo = val[0] | (val[1] << 16); *hi = val[2] | (val[3] << 16); } /* Convert a raw (stored in a buffer) VMS time to a unix time. */ time_t vms_rawtime_to_time_t (unsigned char *buf) { unsigned int hi = bfd_getl32 (buf + 4); unsigned int lo = bfd_getl32 (buf + 0); return vms_time_to_time_t (hi, lo); } void vms_get_time (unsigned int *hi, unsigned int *lo) { #ifdef VMS struct _generic_64 t; sys$gettim (&t); *lo = t.gen64$q_quadword; *hi = t.gen64$q_quadword >> 32; #else time_t t; time (&t); vms_time_t_to_vms_time (t, hi, lo); #endif } /* Get the current time into a raw buffer BUF. */ void vms_raw_get_time (unsigned char *buf) { unsigned int hi, lo; vms_get_time (&hi, &lo); bfd_putl32 (lo, buf + 0); bfd_putl32 (hi, buf + 4); }
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