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nest-open-source / nest-learning-thermostat / 5.0 / boost / 317601cb979f96545d0e892ce7cfdf59f676ee0a / . / boost_1_45_0 / tools / build / v2 / engine / src / filent.c
blob: 0bef792b9c9c81bdb4128e615aec607713604d79 [file] [log] [blame]
/*
* Copyright 1993, 1995 Christopher Seiwald.
*
* This file is part of Jam - see jam.c for Copyright information.
*/
/* This file is ALSO:
* Copyright 2001-2004 David Abrahams.
* Copyright 2005 Rene Rivera.
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
*/
# include "jam.h"
# include "filesys.h"
# include "pathsys.h"
# include "strings.h"
# include "newstr.h"
# ifdef OS_NT
# ifdef __BORLANDC__
# if __BORLANDC__ < 0x550
# include <dir.h>
# include <dos.h>
# endif
# undef FILENAME /* cpp namespace collision */
# define _finddata_t ffblk
# endif
# include <io.h>
# include <sys/stat.h>
# include <ctype.h>
/*
* filent.c - scan directories and archives on NT
*
* External routines:
*
* file_dirscan() - scan a directory for files
* file_time() - get timestamp of file, if not done by file_dirscan()
* file_archscan() - scan an archive for files
*
* File_dirscan() and file_archscan() call back a caller provided function
* for each file found. A flag to this callback function lets file_dirscan()
* and file_archscan() indicate that a timestamp is being provided with the
* file. If file_dirscan() or file_archscan() do not provide the file's
* timestamp, interested parties may later call file_time().
*
* 07/10/95 (taylor) Findfirst() returns the first file on NT.
* 05/03/96 (seiwald) split apart into pathnt.c
*/
/*
* file_dirscan() - scan a directory for files
*/
void file_dirscan( char * dir, scanback func, void * closure )
{
PROFILE_ENTER( FILE_DIRSCAN );
file_info_t * d = 0;
dir = short_path_to_long_path( dir );
/* First enter directory itself */
d = file_query( dir );
if ( !d || !d->is_dir )
{
PROFILE_EXIT( FILE_DIRSCAN );
return;
}
if ( !d->files )
{
PATHNAME f;
string filespec[ 1 ];
string filename[ 1 ];
long handle;
int ret;
struct _finddata_t finfo[ 1 ];
LIST * files = L0;
int d_length = strlen( d->name );
memset( (char *)&f, '\0', sizeof( f ) );
f.f_dir.ptr = d->name;
f.f_dir.len = d_length;
/* Now enter contents of directory */
/* Prepare file search specification for the findfirst() API. */
if ( d_length == 0 )
string_copy( filespec, ".\\*" );
else
{
/*
* We can not simply assume the given folder name will never include
* its trailing path separator or otherwise we would not support the
* Windows root folder specified without its drive letter, i.e. '\'.
*/
char trailingChar = d->name[ d_length - 1 ] ;
string_copy( filespec, d->name );
if ( ( trailingChar != '\\' ) && ( trailingChar != '/' ) )
string_append( filespec, "\\" );
string_append( filespec, "*" );
}
if ( DEBUG_BINDSCAN )
printf( "scan directory %s\n", dir );
#if defined(__BORLANDC__) && __BORLANDC__ < 0x550
if ( ret = findfirst( filespec->value, finfo, FA_NORMAL | FA_DIREC ) )
{
string_free( filespec );
PROFILE_EXIT( FILE_DIRSCAN );
return;
}
string_new ( filename );
while ( !ret )
{
file_info_t * ff = 0;
f.f_base.ptr = finfo->ff_name;
f.f_base.len = strlen( finfo->ff_name );
string_truncate( filename, 0 );
path_build( &f, filename );
files = list_new( files, newstr(filename->value) );
ff = file_info( filename->value );
ff->is_file = finfo->ff_attrib & FA_DIREC ? 0 : 1;
ff->is_dir = finfo->ff_attrib & FA_DIREC ? 1 : 0;
ff->size = finfo->ff_fsize;
ff->time = (finfo->ff_ftime << 16) | finfo->ff_ftime;
ret = findnext( finfo );
}
# else
handle = _findfirst( filespec->value, finfo );
if ( ret = ( handle < 0L ) )
{
string_free( filespec );
PROFILE_EXIT( FILE_DIRSCAN );
return;
}
string_new( filename );
while ( !ret )
{
file_info_t * ff = 0;
f.f_base.ptr = finfo->name;
f.f_base.len = strlen( finfo->name );
string_truncate( filename, 0 );
path_build( &f, filename, 0 );
files = list_new( files, newstr( filename->value ) );
ff = file_info( filename->value );
ff->is_file = finfo->attrib & _A_SUBDIR ? 0 : 1;
ff->is_dir = finfo->attrib & _A_SUBDIR ? 1 : 0;
ff->size = finfo->size;
ff->time = finfo->time_write;
ret = _findnext( handle, finfo );
}
_findclose( handle );
# endif
string_free( filename );
string_free( filespec );
d->files = files;
}
/* Special case \ or d:\ : enter it */
{
unsigned long len = strlen(d->name);
if ( len == 1 && d->name[0] == '\\' )
(*func)( closure, d->name, 1 /* stat()'ed */, d->time );
else if ( len == 3 && d->name[1] == ':' )
(*func)( closure, d->name, 1 /* stat()'ed */, d->time );
}
/* Now enter contents of directory */
if ( d->files )
{
LIST * files = d->files;
while ( files )
{
file_info_t * ff = file_info( files->string );
(*func)( closure, ff->name, 1 /* stat()'ed */, ff->time );
files = list_next( files );
}
}
PROFILE_EXIT( FILE_DIRSCAN );
}
file_info_t * file_query( char * filename )
{
file_info_t * ff = file_info( filename );
if ( ! ff->time )
{
struct stat statbuf;
if ( stat( *filename ? filename : ".", &statbuf ) < 0 )
return 0;
ff->is_file = statbuf.st_mode & S_IFREG ? 1 : 0;
ff->is_dir = statbuf.st_mode & S_IFDIR ? 1 : 0;
ff->size = statbuf.st_size;
ff->time = statbuf.st_mtime ? statbuf.st_mtime : 1;
}
return ff;
}
/*
* file_time() - get timestamp of file, if not done by file_dirscan()
*/
int
file_time(
char *filename,
time_t *time )
{
file_info_t * ff = file_query( filename );
if ( !ff ) return -1;
*time = ff->time;
return 0;
}
int file_is_file(char* filename)
{
file_info_t * ff = file_query( filename );
if ( !ff ) return -1;
return ff->is_file;
}
/*
* file_archscan() - scan an archive for files
*/
/* Straight from SunOS */
#define ARMAG "!<arch>\n"
#define SARMAG 8
#define ARFMAG "`\n"
struct ar_hdr {
char ar_name[16];
char ar_date[12];
char ar_uid[6];
char ar_gid[6];
char ar_mode[8];
char ar_size[10];
char ar_fmag[2];
};
# define SARFMAG 2
# define SARHDR sizeof( struct ar_hdr )
void
file_archscan(
char *archive,
scanback func,
void *closure )
{
struct ar_hdr ar_hdr;
char *string_table = 0;
char buf[ MAXJPATH ];
long offset;
int fd;
if ( ( fd = open( archive, O_RDONLY | O_BINARY, 0 ) ) < 0 )
return;
if ( read( fd, buf, SARMAG ) != SARMAG ||
strncmp( ARMAG, buf, SARMAG ) )
{
close( fd );
return;
}
offset = SARMAG;
if ( DEBUG_BINDSCAN )
printf( "scan archive %s\n", archive );
while ( ( read( fd, &ar_hdr, SARHDR ) == SARHDR ) &&
!memcmp( ar_hdr.ar_fmag, ARFMAG, SARFMAG ) )
{
long lar_date;
long lar_size;
char *name = 0;
char *endname;
char *c;
sscanf( ar_hdr.ar_date, "%ld", &lar_date );
sscanf( ar_hdr.ar_size, "%ld", &lar_size );
lar_size = ( lar_size + 1 ) & ~1;
if (ar_hdr.ar_name[0] == '/' && ar_hdr.ar_name[1] == '/' )
{
/* this is the "string table" entry of the symbol table,
** which holds strings of filenames that are longer than
** 15 characters (ie. don't fit into a ar_name
*/
string_table = BJAM_MALLOC_ATOMIC(lar_size+1);
if (read(fd, string_table, lar_size) != lar_size)
printf("error reading string table\n");
string_table[lar_size] = '\0';
offset += SARHDR + lar_size;
continue;
}
else if (ar_hdr.ar_name[0] == '/' && ar_hdr.ar_name[1] != ' ')
{
/* Long filenames are recognized by "/nnnn" where nnnn is
** the offset of the string in the string table represented
** in ASCII decimals.
*/
name = string_table + atoi( ar_hdr.ar_name + 1 );
for ( endname = name; *endname && *endname != '\n'; ++endname) {}
}
else
{
/* normal name */
name = ar_hdr.ar_name;
endname = name + sizeof( ar_hdr.ar_name );
}
/* strip trailing white-space, slashes, and backslashes */
while ( endname-- > name )
if ( !isspace(*endname) && ( *endname != '\\' ) && ( *endname != '/' ) )
break;
*++endname = 0;
/* strip leading directory names, an NT specialty */
if ( c = strrchr( name, '/' ) )
name = c + 1;
if ( c = strrchr( name, '\\' ) )
name = c + 1;
sprintf( buf, "%s(%.*s)", archive, endname - name, name );
(*func)( closure, buf, 1 /* time valid */, (time_t)lar_date );
offset += SARHDR + lar_size;
lseek( fd, offset, 0 );
}
close( fd );
}
# endif /* NT */