/*
- * $Id: nad.c,v 1.11 2002-04-29 01:52:50 morgana Exp $
*/
#ifdef HAVE_CONFIG_H
#include <stdio.h>
#include <string.h>
#include <dirent.h>
-#ifdef HAVE_FCNTL_H
#include <fcntl.h>
-#endif /* HAVE_FCNTL_H */
#include <atalk/adouble.h>
+#include <atalk/util.h>
+#include <atalk/volinfo.h>
#include <netatalk/endian.h>
#include "megatron.h"
#include "nad.h"
+static struct volinfo vol;
static char hexdig[] = "0123456789abcdef";
static char mtou_buf[MAXPATHLEN + 1], utom_buf[MAXPATHLEN + 1];
-static char *mtoupathcap( mpath )
- char *mpath;
+static char *mtoupathcap(char *mpath)
{
char *m, *u, *umax;
int i = 0;
#define hextoint( c ) ( isdigit( c ) ? c - '0' : c + 10 - 'a' )
#define islxdigit(x) (!isupper(x)&&isxdigit(x))
-static char *utompathcap( upath )
- char *upath;
+static char *utompathcap( char *upath)
{
char *m, *u;
int h;
return utom_buf;
}
+
+static char *utompathiconv(char *upath)
+{
+ char *m, *u;
+ u_int16_t flags = CONV_IGNORE | CONV_UNESCAPEHEX;
+ size_t outlen;
+ static char mpath[MAXPATHLEN +2]; /* for convert_charset dest_len parameter +2 */
+
+ m = mpath;
+ outlen = strlen(upath);
+
+#if 0
+ if (vol->v_casefold & AFPVOL_UTOMUPPER)
+ flags |= CONV_TOUPPER;
+ else if (vol->v_casefold & AFPVOL_UTOMLOWER)
+ flags |= CONV_TOLOWER;
+#endif
+
+ u = upath;
+
+ /* convert charsets */
+ if ((size_t)-1 == ( outlen = convert_charset ( vol.v_volcharset, vol.v_maccharset, vol.v_maccharset, u, outlen, mpath, MAXPATHLEN, &flags)) ) {
+ fprintf( stderr, "Conversion from %s to %s for %s failed.", vol.v_volcodepage, vol.v_maccodepage, u);
+ goto utompath_error;
+ }
+
+ if (flags & CONV_REQMANGLE)
+ goto utompath_error;
+
+ return(m);
+
+utompath_error:
+ return(utompathcap( upath ));
+}
+
+static char *mtoupathiconv(char *mpath)
+{
+ char *m, *u;
+ size_t inplen;
+ size_t outlen;
+ u_int16_t flags = 0;
+ static char upath[MAXPATHLEN +2]; /* for convert_charset dest_len parameter +2 */
+
+ if ( *mpath == '\0' ) {
+ return( "." );
+ }
+
+ /* set conversion flags */
+ if (!(vol.v_flags & AFPVOL_NOHEX))
+ flags |= CONV_ESCAPEHEX;
+ if (!(vol.v_flags & AFPVOL_USEDOTS))
+ flags |= CONV_ESCAPEDOTS;
+
+#if 0
+ if ((vol->v_casefold & AFPVOL_MTOUUPPER))
+ flags |= CONV_TOUPPER;
+ else if ((vol->v_casefold & AFPVOL_MTOULOWER))
+ flags |= CONV_TOLOWER;
+#endif
+
+ m = mpath;
+ u = upath;
+
+ inplen = strlen(m);
+ outlen = MAXPATHLEN;
+
+ if ((size_t)-1 == (outlen = convert_charset ( vol.v_maccharset, vol.v_volcharset, vol.v_maccharset, m, inplen, u, outlen, &flags)) ) {
+ fprintf (stderr, "conversion from %s to %s for %s failed.", vol.v_maccodepage, vol.v_volcodepage, mpath);
+ return(mtoupathcap( upath ));
+ }
+
+ return( upath );
+}
+
+
char * (*_mtoupath) ( char *mpath) = mtoupathcap;
char * (*_utompath) ( char *upath) = utompathcap;
int hexfork[ NUMFORKS ];
#endif /* HEXOUTPUT */
-struct nad_file_data {
+static struct nad_file_data {
char macname[ MAXPATHLEN + 1 ];
char adpath[ 2 ][ MAXPATHLEN + 1];
int offset[ NUMFORKS ];
struct adouble ad;
} nad;
-int nad_open( path, openflags, fh, options )
- char *path;
- int openflags, options;
- struct FHeader *fh;
+static void initvol(char *path)
+{
+ if (!loadvolinfo(path, &vol)) {
+ vol_load_charsets(&vol);
+ ad_init(&nad.ad, vol.v_adouble, 0);
+ _mtoupath = mtoupathiconv;
+ _utompath = utompathiconv;
+ }
+ else
+ ad_init(&nad.ad, 0, 0);
+}
+
+
+int nad_open( char *path, int openflags, struct FHeader *fh, int options)
{
struct stat st;
int fork;
*/
select_charset( options);
memset(&nad.ad, 0, sizeof(nad.ad));
+
if ( openflags == O_RDONLY ) {
+ initvol(path);
strcpy( nad.adpath[0], path );
strcpy( nad.adpath[1],
- ad_path( nad.adpath[0], ADFLAGS_DF|ADFLAGS_HF ));
+ nad.ad.ad_ops->ad_path( nad.adpath[0], ADFLAGS_HF ));
for ( fork = 0 ; fork < NUMFORKS ; fork++ ) {
if ( stat( nad.adpath[ fork ], &st ) < 0 ) {
if ( errno == ENOENT ) {
return( nad_header_read( fh ));
} else {
+ initvol (".");
strcpy( nad.macname, fh->name );
strcpy( nad.adpath[0], mtoupath( nad.macname ));
strcpy( nad.adpath[1],
- ad_path( nad.adpath[0], ADFLAGS_DF|ADFLAGS_HF ));
+ nad.ad.ad_ops->ad_path( nad.adpath[0], ADFLAGS_HF ));
#if DEBUG
fprintf(stderr, "%s\n", nad.macname);
fprintf(stderr, "%s is adpath[0]\n", nad.adpath[0]);
}
}
-int nad_header_read( fh )
- struct FHeader *fh;
+int nad_header_read(struct FHeader *fh)
{
u_int32_t temptime;
struct stat st;
+ char *p;
+#if 0
memcpy( nad.macname, ad_entry( &nad.ad, ADEID_NAME ),
ad_getentrylen( &nad.ad, ADEID_NAME ));
nad.macname[ ad_getentrylen( &nad.ad, ADEID_NAME ) ] = '\0';
strcpy( fh->name, nad.macname );
+#endif
/* just in case there's nothing in macname */
- if (*fh->name == '\0')
+ if (*fh->name == '\0') {
+ if ( NULL == (p = strrchr(nad.adpath[DATA], '/')) )
+ p = nad.adpath[DATA];
+ else p++;
+#if 0
strcpy(fh->name, utompath(nad.adpath[DATA]));
+#endif
+ strcpy(fh->name, utompath(p));
+ }
if ( stat( nad.adpath[ DATA ], &st ) < 0 ) {
perror( "stat of datafork failed" );
}
-int nad_header_write( fh )
- struct FHeader *fh;
+int nad_header_write(struct FHeader *fh)
{
u_int32_t temptime;
#endif /* HEXOUTPUT */
nad.offset[ DATA ] = nad.offset[ RESOURCE ] = 0;
- ad_flush( &nad.ad, ADFLAGS_DF|ADFLAGS_HF );
+ ad_flush( &nad.ad );
return( 0 );
}
-int forkeid[] = { ADEID_DFORK, ADEID_RFORK };
+static int forkeid[] = { ADEID_DFORK, ADEID_RFORK };
-int nad_read( fork, forkbuf, bufc )
- int fork;
- char *forkbuf;
- int bufc;
+ssize_t nad_read(int fork, char *forkbuf, size_t bufc)
{
- int cc = 0;
+ ssize_t cc = 0;
#if DEBUG
fprintf( stderr, "Entering nad_read\n" );
return( cc );
}
-int nad_write( fork, forkbuf, bufc )
- int fork;
- char *forkbuf;
- int bufc;
+ssize_t nad_write(int fork, char *forkbuf, size_t bufc)
{
char *buf_ptr;
- int writelen;
- int cc = 0;
+ size_t writelen;
+ ssize_t cc = 0;
#if DEBUG
fprintf( stderr, "Entering nad_write\n" );
return( bufc );
}
-int nad_close( status )
-int status;
+int nad_close(int status)
{
int rv;
if ( status == KEEP ) {
- if (( rv = ad_flush( &nad.ad, ADFLAGS_DF|ADFLAGS_HF )) < 0 ) {
+ if (( rv = ad_flush( &nad.ad )) < 0 ) {
fprintf( stderr, "nad_close rv for flush %d\n", rv );
return( rv );
}