/* sim_fio.c: simulator file I/O library Copyright (c) 1993-2008, Robert M Supnik Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of Robert M Supnik shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from Robert M Supnik. 03-Jun-11 MP Simplified VMS 64b support and made more portable 02-Feb-11 MP Added sim_fsize_ex and sim_fsize_name_ex returning t_addr Added export of sim_buf_copy_swapped and sim_buf_swap_data 28-Jun-07 RMS Added VMS IA64 support (from Norm Lastovica) 10-Jul-06 RMS Fixed linux conditionalization (from Chaskiel Grundman) 15-May-06 RMS Added sim_fsize_name 21-Apr-06 RMS Added FreeBSD large file support (from Mark Martinec) 19-Nov-05 RMS Added OS/X large file support (from Peter Schorn) 16-Aug-05 RMS Fixed C++ declaration and cast problems 17-Jul-04 RMS Fixed bug in optimized sim_fread (reported by Scott Bailey) 26-May-04 RMS Optimized sim_fread (suggested by John Dundas) 02-Jan-04 RMS Split out from SCP This library includes: sim_finit - initialize package sim_fopen - open file sim_fread - endian independent read (formerly fxread) sim_write - endian independent write (formerly fxwrite) sim_fseek - extended (>32b) seek (formerly fseek_ext) sim_fsize - get file size sim_fsize_name - get file size of named file sim_fsize_ex - get file size as a t_addr sim_fsize_name_ex - get file size as a t_addr of named file sim_buf_copy_swapped - copy data swapping elements along the way sim_buf_swap_data - swap data elements inplace in buffer sim_fopen and sim_fseek are OS-dependent. The other routines are not. sim_fsize is always a 32b routine (it is used only with small capacity random access devices like fixed head disks and DECtapes). */ #include "sim_defs.h" int32 sim_end = 1; /* 1 = little */ /* OS-independent, endian independent binary I/O package For consistency, all binary data read and written by the simulator is stored in little endian data order. That is, in a multi-byte data item, the bytes are written out right to left, low order byte to high order byte. On a big endian host, data is read and written from high byte to low byte. Consequently, data written on a little endian system must be byte reversed to be usable on a big endian system, and vice versa. These routines are analogs of the standard C runtime routines fread and fwrite. If the host is little endian, or the data items are size char, then the calls are passed directly to fread or fwrite. Otherwise, these routines perform the necessary byte swaps. Sim_fread swaps in place, sim_fwrite uses an intermediate buffer. */ int32 sim_finit (void) { union {int32 i; char c[sizeof (int32)]; } end_test; end_test.i = 1; /* test endian-ness */ sim_end = end_test.c[0]; return sim_end; } void sim_buf_swap_data (void *bptr, size_t size, size_t count) { uint32 j; int32 k; unsigned char by, *sptr, *dptr; if (sim_end || (count == 0) || (size == sizeof (char))) return; for (j = 0, dptr = sptr = (unsigned char *) bptr; /* loop on items */ j < count; j++) { for (k = (int32)(size - 1); k >= (((int32) size + 1) / 2); k--) { by = *sptr; /* swap end-for-end */ *sptr++ = *(dptr + k); *(dptr + k) = by; } sptr = dptr = dptr + size; /* next item */ } } size_t sim_fread (void *bptr, size_t size, size_t count, FILE *fptr) { size_t c; if ((size == 0) || (count == 0)) /* check arguments */ return 0; c = fread (bptr, size, count, fptr); /* read buffer */ if (sim_end || (size == sizeof (char)) || (c == 0)) /* le, byte, or err? */ return c; /* done */ sim_buf_swap_data (bptr, size, count); return c; } void sim_buf_copy_swapped (void *dbuf, void *sbuf, size_t size, size_t count) { size_t j; int32 k; unsigned char *sptr = (unsigned char *)sbuf; unsigned char *dptr = (unsigned char *)dbuf; if (sim_end || (size == sizeof (char))) { memcpy (dptr, sptr, size * count); return; } for (j = 0; j < count; j++) { /* loop on items */ for (k = (int32)(size - 1); k >= 0; k--) *(dptr + k) = *sptr++; dptr = dptr + size; } } size_t sim_fwrite (void *bptr, size_t size, size_t count, FILE *fptr) { size_t c, nelem, nbuf, lcnt, total; int32 i; unsigned char *sptr; unsigned char *sim_flip; if ((size == 0) || (count == 0)) /* check arguments */ return 0; if (sim_end || (size == sizeof (char))) /* le or byte? */ return fwrite (bptr, size, count, fptr); /* done */ sim_flip = (unsigned char *)malloc(FLIP_SIZE); nelem = FLIP_SIZE / size; /* elements in buffer */ nbuf = count / nelem; /* number buffers */ lcnt = count % nelem; /* count in last buf */ if (lcnt) nbuf = nbuf + 1; else lcnt = nelem; total = 0; sptr = (unsigned char *) bptr; /* init input ptr */ for (i = (int32)nbuf; i > 0; i--) { /* loop on buffers */ c = (i == 1)? lcnt: nelem; sim_buf_copy_swapped (sim_flip, sptr, size, c); sptr = sptr + size * count; c = fwrite (sim_flip, size, c, fptr); if (c == 0) { free(sim_flip); return total; } total = total + c; } free(sim_flip); return total; } /* Forward Declaration */ static t_addr _sim_ftell (FILE *st); /* Get file size */ t_addr sim_fsize_ex (FILE *fp) { t_addr pos, sz; if (fp == NULL) return 0; pos = _sim_ftell (fp); sim_fseek (fp, 0, SEEK_END); sz = _sim_ftell (fp); sim_fseek (fp, pos, SEEK_SET); return sz; } t_addr sim_fsize_name_ex (char *fname) { FILE *fp; t_addr sz; if ((fp = sim_fopen (fname, "rb")) == NULL) return 0; sz = sim_fsize_ex (fp); fclose (fp); return sz; } uint32 sim_fsize_name (char *fname) { return (uint32)(sim_fsize_name_ex (fname)); } uint32 sim_fsize (FILE *fp) { return (uint32)(sim_fsize_ex (fp)); } /* OS-dependent routines */ /* Optimized file open */ FILE *sim_fopen (const char *file, const char *mode) { #if defined (VMS) return fopen (file, mode, "ALQ=32", "DEQ=4096", "MBF=6", "MBC=127", "FOP=cbt,tef", "ROP=rah,wbh", "CTX=stm"); #elif defined (USE_INT64) && defined (USE_ADDR64) && defined (__linux) return fopen64 (file, mode); #else return fopen (file, mode); #endif } /* Long seek */ #if defined (USE_INT64) && defined (USE_ADDR64) /* 64b VMS */ #if (defined (__ALPHA) || defined (__ia64)) && defined (VMS) && (__DECC_VER >= 60590001) #define _SIM_IO_FSEEK_EXT_ 1 int sim_fseek (FILE *st, t_addr offset, int whence) { return fseeko (st, (off_t)offset, whence); } static t_addr _sim_ftell (FILE *st) { return (t_addr)(ftello (st)); } #endif /* Alpha UNIX - natively 64b */ #if defined (__ALPHA) && defined (__unix__) /* Alpha UNIX */ #define _SIM_IO_FSEEK_EXT_ 1 int sim_fseek (FILE *st, t_addr offset, int whence) { return fseek (st, offset, whence); } static t_addr _sim_ftell (FILE *st) { return (t_addr)(ftell (st)); } #endif /* Windows */ #if defined (_WIN32) #define _SIM_IO_FSEEK_EXT_ 1 #include int sim_fseek (FILE *st, t_addr offset, int whence) { fpos_t fileaddr; struct _stati64 statb; switch (whence) { case SEEK_SET: fileaddr = offset; break; case SEEK_END: if (_fstati64 (_fileno (st), &statb)) return (-1); fileaddr = statb.st_size + offset; break; case SEEK_CUR: if (fgetpos (st, &fileaddr)) return (-1); fileaddr = fileaddr + offset; break; default: errno = EINVAL; return (-1); } return fsetpos (st, &fileaddr); } static t_addr _sim_ftell (FILE *st) { fpos_t fileaddr; if (fgetpos (st, &fileaddr)) return (-1); return (t_addr)fileaddr; } #endif /* end Windows */ /* Linux */ #if defined (__linux) #define _SIM_IO_FSEEK_EXT_ 1 int sim_fseek (FILE *st, t_addr xpos, int origin) { return fseeko64 (st, xpos, origin); } static t_addr _sim_ftell (FILE *st) { return (t_addr)(ftello64 (st)); } #endif /* end Linux with LFS */ /* Apple OS/X */ #if defined (__APPLE__) || defined (__FreeBSD__) #define _SIM_IO_FSEEK_EXT_ 1 int sim_fseek (FILE *st, t_addr xpos, int origin) { return fseeko (st, xpos, origin); } static t_addr _sim_ftell (FILE *st) { return (t_addr)(ftello (st)); } #endif /* end Apple OS/X */ #endif /* end 64b seek defs */ /* Default: no OS-specific routine has been defined */ #if !defined (_SIM_IO_FSEEK_EXT_) #define _SIM_IO_FSEEK_EXT_ 0 int sim_fseek (FILE *st, t_addr xpos, int origin) { return fseek (st, (int32) xpos, origin); } static t_addr _sim_ftell (FILE *st) { return (t_addr)(ftell (st)); } #endif uint32 sim_taddr_64 = _SIM_IO_FSEEK_EXT_;