CloverBootloader/FileSystems/VBoxFsDxe/fsw_iso9660.c
2019-09-03 12:58:42 +03:00

704 lines
26 KiB
C

/* $Id: fsw_iso9660.c 33540 2010-10-28 09:27:05Z vboxsync $ */
/** @file
* fsw_iso9660.c - ISO9660 file system driver code.
*
* Current limitations:
* - Files must be in one extent (i.e. Level 2)
* - No Joliet or Rock Ridge extensions
* - No interleaving
* - inode number generation strategy fails on volumes > 2 GB
* - No blocksizes != 2048
* - No High Sierra or anything else != 'CD001'
* - No volume sets with directories pointing at other volumes
* - No extended attribute records
*/
/*
* Copyright (C) 2010 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*/
/*-
* This code is based on:
*
* Copyright (c) 2006 Christoph Pfisterer
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the
* distribution.
*
* * Neither the name of Christoph Pfisterer nor the names of the
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "fsw_iso9660.h"
#include <Protocol/MsgLog.h>
#ifndef DEBUG_ISO
#define DEBUG_ISO 1
#endif
#if DEBUG_ISO == 2
#define DBG(...) AsciiPrint(__VA_ARGS__)
#elif DEBUG_ISO == 1
#define DBG(...) BootLog(__VA_ARGS__)
#else
#define DBG(...)
#endif
//#define MsgLog(x...) if(msgCursor){AsciiSPrint(msgCursor, BOOTER_LOG_SIZE, x); while(*msgCursor){msgCursor++;}}
extern CHAR8 *msgCursor;
extern MESSAGE_LOG_PROTOCOL *Msg;
// functions
static fsw_status_t fsw_iso9660_volume_mount(struct fsw_iso9660_volume *vol);
static void fsw_iso9660_volume_free(struct fsw_iso9660_volume *vol);
static fsw_status_t fsw_iso9660_volume_stat(struct fsw_iso9660_volume *vol, struct fsw_volume_stat *sb);
static fsw_status_t fsw_iso9660_dnode_fill(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno);
static void fsw_iso9660_dnode_free(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno);
static fsw_status_t fsw_iso9660_dnode_stat(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_dnode_stat_str *sb);
static fsw_status_t fsw_iso9660_get_extent(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_extent *extent);
static fsw_status_t fsw_iso9660_dir_lookup(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_string *lookup_name, struct fsw_iso9660_dnode **child_dno);
static fsw_status_t fsw_iso9660_dir_read(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_shandle *shand, struct fsw_iso9660_dnode **child_dno);
static fsw_status_t fsw_iso9660_read_dirrec(struct fsw_iso9660_volume *vol, struct fsw_shandle *shand, struct iso9660_dirrec_buffer *dirrec_buffer);
static fsw_status_t fsw_iso9660_readlink(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_string *link);
static fsw_status_t rr_find_sp(struct iso9660_dirrec *dirrec, struct fsw_rock_ridge_susp_sp **psp);
static fsw_status_t rr_find_nm(struct fsw_iso9660_volume *vol, struct iso9660_dirrec *dirrec, int off, struct fsw_string *str);
static fsw_status_t rr_read_ce(struct fsw_iso9660_volume *vol, union fsw_rock_ridge_susp_ce *ce, fsw_u8 *begin);
//static void dump_dirrec(struct iso9660_dirrec *dirrec);
//
// Dispatch Table
//
struct fsw_fstype_table FSW_FSTYPE_TABLE_NAME(iso9660) = {
{ FSW_STRING_TYPE_ISO88591, 4, 4, "iso9660" },
sizeof(struct fsw_iso9660_volume),
sizeof(struct fsw_iso9660_dnode),
fsw_iso9660_volume_mount,
fsw_iso9660_volume_free,
fsw_iso9660_volume_stat,
fsw_iso9660_dnode_fill,
fsw_iso9660_dnode_free,
fsw_iso9660_dnode_stat,
fsw_iso9660_get_extent,
fsw_iso9660_dir_lookup,
fsw_iso9660_dir_read,
fsw_iso9660_readlink,
};
static fsw_status_t rr_find_sp(struct iso9660_dirrec *dirrec, struct fsw_rock_ridge_susp_sp **psp)
{
fsw_u8 *r;
int off = 0;
struct fsw_rock_ridge_susp_sp *sp;
r = (fsw_u8 *)((fsw_u8 *)dirrec + sizeof(*dirrec) + dirrec->file_identifier_length);
off = (int)(r - (fsw_u8 *)dirrec);
while(off < dirrec->dirrec_length)
{
if (*r == 'S')
{
sp = (struct fsw_rock_ridge_susp_sp *)r;
if( sp->e.sig[0] == 'S'
&& sp->e.sig[1] == 'P'
&& sp->magic[0] == 0xbe
&& sp->magic[1] == 0xef)
{
*psp = sp;
return FSW_SUCCESS;
}
}
r++;
off = (int)(r - (fsw_u8 *)dirrec);
}
*psp = NULL;
return FSW_NOT_FOUND;
}
static fsw_status_t rr_find_nm(struct fsw_iso9660_volume *vol, struct iso9660_dirrec *dirrec, int off, struct fsw_string *str)
{
fsw_u8 *r, *begin;
int fCe = 0;
struct fsw_rock_ridge_susp_nm *nm;
int limit = dirrec->dirrec_length;
begin = (fsw_u8 *)dirrec;
r = (fsw_u8 *)dirrec + off;
str->data = NULL;
str->len = 0;
str->size = 0;
str->type = 0;
while(off < limit)
{
if (r[0] == 'C' && r[1] == 'E' && r[2] == 28)
{
int rc;
int ce_off;
union fsw_rock_ridge_susp_ce *ce;
if (fCe == 0)
fsw_alloc_zero(ISO9660_BLOCKSIZE, (void *)&begin);
fCe = 1;
// DEBUG((DEBUG_WARN, "%a:%d we found CE before NM or its continuation\n", __FILE__, __LINE__));
ce = (union fsw_rock_ridge_susp_ce *)r;
limit = ISOINT(ce->X.len);
ce_off = ISOINT(ce->X.offset);
rc = rr_read_ce(vol, ce, begin);
if (rc != FSW_SUCCESS)
{
fsw_free(begin);
return rc;
}
begin += ce_off;
r = begin;
}
if (r[0] == 'N' && r[1] == 'M')
{
nm = (struct fsw_rock_ridge_susp_nm *)r;
if( nm->e.sig[0] == 'N'
&& nm->e.sig[1] == 'M')
{
int len = 0;
fsw_u8 *tmp = NULL;
if (nm->flags & RR_NM_CURR)
{
fsw_memdup(&str->data, ".", 1);
str->len = 1;
goto done;
}
if (nm->flags & RR_NM_PARE)
{
fsw_memdup(&str->data, "..", 2);
str->len = 2;
goto done;
}
len = nm->e.len - sizeof(struct fsw_rock_ridge_susp_nm) + 1;
fsw_alloc_zero(str->len + len, (void **)&tmp);
if (str->data != NULL)
{
fsw_memcpy(tmp, str->data, str->len);
fsw_free(str->data);
}
// DEBUG((DEBUG_INFO, "dst:%p src:%p len:%d\n", tmp + str->len, &nm->name[0], len));
fsw_memcpy(tmp + str->len, &nm->name[0], len);
str->data = tmp;
str->len += len;
if ((nm->flags & RR_NM_CONT) == 0) //; -- as nms42 noted
goto done;
}
}
r++;
off = (int)(r - (fsw_u8 *)begin);
}
if(fCe == 1)
fsw_free(begin);
return FSW_NOT_FOUND;
done:
str->type = FSW_STRING_TYPE_ISO88591;
str->size = str->len;
if(fCe == 1)
fsw_free(begin);
return FSW_SUCCESS;
}
static fsw_status_t rr_read_ce(struct fsw_iso9660_volume *vol, union fsw_rock_ridge_susp_ce *ce, fsw_u8 *begin)
{
int rc;
// int i;
// fsw_u8 *r = begin + ISOINT(ce->X.offset);
// int len = ISOINT(ce->X.len);
rc = vol->g.host_table->read_block(&vol->g, ISOINT(ce->X.block_loc), begin);
if (rc != FSW_SUCCESS)
return rc;
/* for (i = 0; i < len; ++i)
{
DEBUG((DEBUG_INFO, "%d: (%d:%x)%c ", i, r[i], r[i], r[i]));
}*/
return FSW_SUCCESS;
}
/*
static void dump_dirrec(struct iso9660_dirrec *dirrec)
{
int i;
fsw_u8 *r = (fsw_u8 *)dirrec + dirrec->file_identifier_length;
int len = dirrec->dirrec_length;
for (i = dirrec->file_identifier_length; i < len; ++i)
{
DEBUG((DEBUG_INFO, "%d: (%d:%x)%c ", i, r[i], r[i], r[i]));
}
}*/
/**
* Mount an ISO9660 volume. Reads the superblock and constructs the
* root directory dnode.
*/
static fsw_status_t fsw_iso9660_volume_mount(struct fsw_iso9660_volume *vol)
{
fsw_status_t status;
void *buffer;
fsw_u32 blockno;
struct iso9660_volume_descriptor *voldesc;
struct iso9660_primary_volume_descriptor *pvoldesc;
fsw_u32 voldesc_type;
int i;
struct fsw_string s;
// struct iso9660_dirrec rootdir;
struct iso9660_dirrec *rootdir_p;
int sua_pos;
char *sig;
// int skip;
struct fsw_rock_ridge_susp_entry *entry;
// read through the Volume Descriptor Set
fsw_set_blocksize(vol, ISO9660_BLOCKSIZE, ISO9660_BLOCKSIZE);
blockno = ISO9660_SUPERBLOCK_BLOCKNO;
do {
DBG("iso9660: check blockno=%d\n", blockno);
status = fsw_block_get(vol, blockno, 0, &buffer);
if (status)
return status;
voldesc = (struct iso9660_volume_descriptor *)buffer;
voldesc_type = voldesc->volume_descriptor_type;
if (fsw_memeq(voldesc->standard_identifier, "CD001", 5)) {
// descriptor follows ISO 9660 standard
if (voldesc_type == 1 && voldesc->volume_descriptor_version == 1) {
// suitable Primary Volume Descriptor found
DBG("iso9660: suitable Primary Volume Descriptor found\n");
if (vol->primary_voldesc) {
fsw_free(vol->primary_voldesc);
vol->primary_voldesc = NULL;
}
status = fsw_memdup((void **)&vol->primary_voldesc, voldesc, ISO9660_BLOCKSIZE);
}
} else if (!fsw_memeq(voldesc->standard_identifier, "CD", 2)) {
// completely alien standard identifier, stop reading
voldesc_type = 255;
}
fsw_block_release(vol, blockno, buffer);
blockno++;
} while (!status && voldesc_type != 255);
if (status)
return status;
// get information from Primary Volume Descriptor
if (vol->primary_voldesc == NULL)
return FSW_UNSUPPORTED;
pvoldesc = vol->primary_voldesc;
if (ISOINT(pvoldesc->logical_block_size) != 2048)
return FSW_UNSUPPORTED;
// get volume name
for (i = 32; i > 0; i--)
if (pvoldesc->volume_identifier[i-1] != ' ')
break;
s.type = FSW_STRING_TYPE_ISO88591;
s.size = s.len = i;
s.data = pvoldesc->volume_identifier;
status = fsw_strdup_coerce(&vol->g.label, vol->g.host_string_type, &s);
if (status)
return status;
// setup the root dnode
status = fsw_dnode_create_root(vol, ISO9660_SUPERBLOCK_BLOCKNO << ISO9660_BLOCKSIZE_BITS, &vol->g.root);
if (status)
return status;
fsw_memcpy(&vol->g.root->dirrec, &pvoldesc->root_directory, sizeof(struct iso9660_dirrec));
if ( pvoldesc->escape[0] == 0x25
&& pvoldesc->escape[1] == 0x2f
&& ( pvoldesc->escape[2] == 0x40
|| pvoldesc->escape[2] == 0x43
|| pvoldesc->escape[2] == 0x45))
{
// FSW_MSG_DEBUG((FSW_MSGSTR("fsw_iso9660_volume_mount: success (joliet!!!)\n")));
// DBG("fsw_iso9660_volume_mount: success (joliet!!!)\n");
vol->fJoliet = 1;
}
//rootdir = pvoldesc->root_directory;
rootdir_p = &pvoldesc->root_directory;
// fsw_memcpy(&rootdir, &pvoldesc->root_directory, sizeof(struct iso9660_dirrec));
sua_pos = (sizeof(struct iso9660_dirrec)) + rootdir_p->file_identifier_length + (rootdir_p->file_identifier_length % 2) - 2;
//int sua_size = rootdir.dirrec_length - rootdir.file_identifier_length;
//FSW_MSG_DEBUG((FSW_MSGSTR("fsw_iso9660_volume_mount: success (SUA(pos:%x, sz:%d)!!!)\n"), sua_pos, sua_size));
#if 1
/*status = */fsw_block_get(vol, ISOINT(rootdir_p->extent_location), 0, &buffer);
sig = (char *)buffer + sua_pos;
// skip = 0;
entry = (struct fsw_rock_ridge_susp_entry *)sig;
if ( entry->sig[0] == 'S'
&& entry->sig[1] == 'P') {
struct fsw_rock_ridge_susp_sp *sp = (struct fsw_rock_ridge_susp_sp *)entry;
if (sp->magic[0] == 0xbe && sp->magic[1] == 0xef) {
vol->fRockRidge = 1;
} else {
// FSW_MSG_DEBUG((FSW_MSGSTR("fsw_iso9660_volume_mount: SP magic isn't valid\n")));
DBG("fsw_iso9660_volume_mount: SP magic isn't valid\n");
}
// skip = sp->skip;
}
#endif
// release volume descriptors
fsw_free(vol->primary_voldesc);
vol->primary_voldesc = NULL;
// FSW_MSG_DEBUG((FSW_MSGSTR("fsw_iso9660_volume_mount: success\n")));
DBG("fsw_iso9660_volume_mount: success\n");
return FSW_SUCCESS;
}
/**
* Free the volume data structure. Called by the core after an unmount or after
* an unsuccessful mount to release the memory used by the file system type specific
* part of the volume structure.
*/
static void fsw_iso9660_volume_free(struct fsw_iso9660_volume *vol)
{
if (vol->primary_voldesc)
fsw_free(vol->primary_voldesc);
}
/**
* Get in-depth information on a volume.
*/
static fsw_status_t fsw_iso9660_volume_stat(struct fsw_iso9660_volume *vol, struct fsw_volume_stat *sb)
{
sb->total_bytes = 0; //(fsw_u64)vol->sb->s_blocks_count * vol->g.log_blocksize;
sb->free_bytes = 0;
return FSW_SUCCESS;
}
/**
* Get full information on a dnode from disk. This function is called by the core
* whenever it needs to access fields in the dnode structure that may not
* be filled immediately upon creation of the dnode. In the case of iso9660, we
* delay fetching of the inode structure until dnode_fill is called. The size and
* type fields are invalid until this function has been called.
*/
static fsw_status_t fsw_iso9660_dnode_fill(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno)
{
// get info from the directory record
dno->g.size = ISOINT(dno->dirrec.data_length);
if (dno->dirrec.file_flags & 0x02)
dno->g.type = FSW_DNODE_TYPE_DIR;
else
dno->g.type = FSW_DNODE_TYPE_FILE;
return FSW_SUCCESS;
}
/**
* Free the dnode data structure. Called by the core when deallocating a dnode
* structure to release the memory used by the file system type specific part
* of the dnode structure.
*/
static void fsw_iso9660_dnode_free(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno)
{
}
/**
* Get in-depth information on a dnode. The core makes sure that fsw_iso9660_dnode_fill
* has been called on the dnode before this function is called. Note that some
* data is not directly stored into the structure, but passed to a host-specific
* callback that converts it to the host-specific format.
*/
static fsw_status_t fsw_iso9660_dnode_stat(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_dnode_stat_str *sb)
{
sb->used_bytes = (dno->g.size + (ISO9660_BLOCKSIZE-1)) & ~(ISO9660_BLOCKSIZE-1);
/*
sb->store_time_posix(sb, FSW_DNODE_STAT_CTIME, dno->raw->i_ctime);
sb->store_time_posix(sb, FSW_DNODE_STAT_ATIME, dno->raw->i_atime);
sb->store_time_posix(sb, FSW_DNODE_STAT_MTIME, dno->raw->i_mtime);
sb->store_attr_posix(sb, dno->raw->i_mode);
*/
return FSW_SUCCESS;
}
/**
* Retrieve file data mapping information. This function is called by the core when
* fsw_shandle_read needs to know where on the disk the required piece of the file's
* data can be found. The core makes sure that fsw_iso9660_dnode_fill has been called
* on the dnode before. Our task here is to get the physical disk block number for
* the requested logical block number.
*/
static fsw_status_t fsw_iso9660_get_extent(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_extent *extent)
{
// Preconditions: The caller has checked that the requested logical block
// is within the file's size. The dnode has complete information, i.e.
// fsw_iso9660_dnode_read_info was called successfully on it.
extent->type = FSW_EXTENT_TYPE_PHYSBLOCK;
extent->phys_start = ISOINT(dno->dirrec.extent_location);
extent->log_start = 0;
extent->log_count = (ISOINT(dno->dirrec.data_length) + (ISO9660_BLOCKSIZE-1)) >> ISO9660_BLOCKSIZE_BITS;
return FSW_SUCCESS;
}
/**
* Lookup a directory's child dnode by name. This function is called on a directory
* to retrieve the directory entry with the given name. A dnode is constructed for
* this entry and returned. The core makes sure that fsw_iso9660_dnode_fill has been called
* and the dnode is actually a directory.
*/
static fsw_status_t fsw_iso9660_dir_lookup(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_string *lookup_name, struct fsw_iso9660_dnode **child_dno_out)
{
fsw_status_t status;
struct fsw_shandle shand;
struct iso9660_dirrec_buffer dirrec_buffer;
struct iso9660_dirrec *dirrec = &dirrec_buffer.dirrec;
// Preconditions: The caller has checked that dno is a directory node.
// setup handle to read the directory
status = fsw_shandle_open(dno, &shand);
if (status)
return status;
// scan the directory for the file
while (1) {
// read next entry
status = fsw_iso9660_read_dirrec(vol, &shand, &dirrec_buffer);
if (status)
goto errorexit;
if (dirrec->dirrec_length == 0) {
// end of directory reached
status = FSW_NOT_FOUND;
goto errorexit;
}
// skip . and ..
if (dirrec->file_identifier_length == 1 &&
(dirrec->file_identifier[0] == 0 || dirrec->file_identifier[0] == 1))
continue;
// compare name
if (fsw_streq(lookup_name, &dirrec_buffer.name)) // TODO: compare case-insensitively
break;
}
// setup a dnode for the child item
status = fsw_dnode_create(dno, dirrec_buffer.ino, FSW_DNODE_TYPE_UNKNOWN, &dirrec_buffer.name, child_dno_out);
if (status == FSW_SUCCESS)
fsw_memcpy(&(*child_dno_out)->dirrec, dirrec, sizeof(struct iso9660_dirrec));
errorexit:
fsw_shandle_close(&shand);
return status;
}
/**
* Get the next directory entry when reading a directory. This function is called during
* directory iteration to retrieve the next directory entry. A dnode is constructed for
* the entry and returned. The core makes sure that fsw_iso9660_dnode_fill has been called
* and the dnode is actually a directory. The shandle provided by the caller is used to
* record the position in the directory between calls.
*/
static fsw_status_t fsw_iso9660_dir_read(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_shandle *shand, struct fsw_iso9660_dnode **child_dno_out)
{
fsw_status_t status;
struct iso9660_dirrec_buffer dirrec_buffer;
struct iso9660_dirrec *dirrec = &dirrec_buffer.dirrec;
// Preconditions: The caller has checked that dno is a directory node. The caller
// has opened a storage handle to the directory's storage and keeps it around between
// calls.
/* (vasily) directory nodes are 4096 bytes that is two logical blocks so read dir operation
* should read both blocks.
*/
while (1) {
// read next entry
if (shand->pos >= dno->g.size)
return FSW_NOT_FOUND; // end of directory
status = fsw_iso9660_read_dirrec(vol, shand, &dirrec_buffer);
if (status)
return status;
if (dirrec->dirrec_length == 0)
{
// try the next block
shand->pos =(shand->pos & ~(vol->g.log_blocksize - 1)) + vol->g.log_blocksize;
continue;
}
// skip . and ..
if (dirrec->file_identifier_length == 1 &&
(dirrec->file_identifier[0] == 0 || dirrec->file_identifier[0] == 1))
continue;
break;
}
// setup a dnode for the child item
status = fsw_dnode_create(dno, dirrec_buffer.ino, FSW_DNODE_TYPE_UNKNOWN, &dirrec_buffer.name, child_dno_out);
if (status == FSW_SUCCESS)
fsw_memcpy(&(*child_dno_out)->dirrec, dirrec, sizeof(struct iso9660_dirrec));
return status;
}
/**
* Read a directory entry from the directory's raw data. This internal function is used
* to read a raw iso9660 directory entry into memory. The shandle's position pointer is adjusted
* to point to the next entry.
*/
static fsw_status_t fsw_iso9660_read_dirrec(struct fsw_iso9660_volume *vol, struct fsw_shandle *shand, struct iso9660_dirrec_buffer *dirrec_buffer)
{
fsw_status_t status;
fsw_u32 i, buffer_size, remaining_size, name_len;
struct fsw_rock_ridge_susp_sp *sp = NULL;
struct iso9660_dirrec *dirrec = &dirrec_buffer->dirrec;
int sp_off;
int rc;
dirrec_buffer->ino = (ISOINT(((struct fsw_iso9660_dnode *)shand->dnode)->dirrec.extent_location)
<< ISO9660_BLOCKSIZE_BITS)
+ (fsw_u32)shand->pos;
// read fixed size part of directory record
buffer_size = 33;
status = fsw_shandle_read(shand, &buffer_size, dirrec);
if (status)
{
// DEBUG((DEBUG_INFO, "%a:%d \n", __FILE__, __LINE__));
return status;
}
if (buffer_size < 33 || dirrec->dirrec_length == 0) {
// end of directory reached
fsw_u8 *r;
r = (fsw_u8 *)dirrec;
// DEBUG((DEBUG_INFO, "%a:%d bs:%d dl:%d\n", __FILE__, __LINE__, buffer_size, dirrec->dirrec_length));
for(i = 0; i < buffer_size; ++i)
{
DEBUG((DEBUG_INFO, "r[%d]:%c", i, r[i]));
}
dirrec->dirrec_length = 0;
return FSW_SUCCESS;
}
if (dirrec->dirrec_length < 33 ||
dirrec->dirrec_length < 33 + dirrec->file_identifier_length)
return FSW_VOLUME_CORRUPTED;
// DEBUG((DEBUG_INFO, "%a:%d, dirrec_length: %d\n", __FILE__, __LINE__, dirrec->dirrec_length));
// read variable size part of directory record
buffer_size = remaining_size = dirrec->dirrec_length - 33;
status = fsw_shandle_read(shand, &buffer_size, dirrec->file_identifier);
if (status)
return status;
if (buffer_size < remaining_size)
return FSW_VOLUME_CORRUPTED;
// dump_dirrec(dirrec);
if (vol->fRockRidge) {
sp_off = sizeof(*dirrec) + dirrec->file_identifier_length;
rc = rr_find_sp(dirrec, &sp);
if ( rc == FSW_SUCCESS
&& sp != NULL) {
sp_off = (int)((fsw_u8 *)&sp[1] - (fsw_u8*)dirrec + sp->skip);
}
rc = rr_find_nm(vol, dirrec, sp_off, &dirrec_buffer->name);
if (rc == FSW_SUCCESS)
return FSW_SUCCESS;
}
// setup name
name_len = dirrec->file_identifier_length;
for (i = name_len - 1; i > 0; i--) {
if (dirrec->file_identifier[i] == ';') {
name_len = i; // cut the ISO9660 version number off
break;
}
}
if (name_len > 0 && dirrec->file_identifier[name_len-1] == '.')
name_len--; // also cut the extension separator if the extension is empty
dirrec_buffer->name.type = FSW_STRING_TYPE_ISO88591;
dirrec_buffer->name.len = dirrec_buffer->name.size = name_len;
dirrec_buffer->name.data = dirrec->file_identifier;
// DEBUG((DEBUG_INFO, "%a:%d: dirrec_buffer->name.data:%a\n", __FILE__, __LINE__, dirrec_buffer->name.data));
return FSW_SUCCESS;
}
/**
* Get the target path of a symbolic link. This function is called when a symbolic
* link needs to be resolved. The core makes sure that the fsw_iso9660_dnode_fill has been
* called on the dnode and that it really is a symlink.
*
* For iso9660, the target path can be stored inline in the inode structure (in the space
* otherwise occupied by the block pointers) or in the inode's data. There is no flag
* indicating this, only the number of blocks entry (i_blocks) can be used as an
* indication. The check used here comes from the Linux kernel.
*/
static fsw_status_t fsw_iso9660_readlink(struct fsw_iso9660_volume *vol, struct fsw_iso9660_dnode *dno,
struct fsw_string *link_target)
{
fsw_status_t status;
if (dno->g.size > FSW_PATH_MAX)
return FSW_VOLUME_CORRUPTED;
status = fsw_dnode_readlink_data(dno, link_target);
return status;
}
// EOF