/***************************************************************************
fileio.c
File access functions.
****************************************************************************
Copyright Aaron Giles
All rights reserved.
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 'MAME' nor the names of its contributors may be
used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY AARON GILES ''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 AARON GILES 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 "emu.h"
#include "unzip.h"
#include "un7z.h"
#include "fileio.h"
const UINT32 OPEN_FLAG_HAS_CRC = 0x10000;
//**************************************************************************
// PATH ITERATOR
//**************************************************************************
//-------------------------------------------------
// path_iterator - constructor
//-------------------------------------------------
path_iterator::path_iterator(const char *rawsearchpath)
: m_base(rawsearchpath),
m_current(m_base),
m_index(0)
{
}
//-------------------------------------------------
// path_iterator_get_next - get the next entry
// in a multipath sequence
//-------------------------------------------------
bool path_iterator::next(astring &buffer, const char *name)
{
// if none left, return FALSE to indicate we are done
if (m_index != 0 && *m_current == 0)
return false;
// copy up to the next semicolon
const char *semi = strchr(m_current, ';');
if (semi == NULL)
semi = m_current + strlen(m_current);
buffer.cpy(m_current, semi - m_current);
m_current = (*semi == 0) ? semi : semi + 1;
// append the name if we have one
if (name != NULL)
{
// compute the full pathname
if (buffer.len() > 0)
buffer.cat(PATH_SEPARATOR);
buffer.cat(name);
}
// bump the index and return TRUE
m_index++;
return true;
}
//**************************************************************************
// FILE ENUMERATOR
//**************************************************************************
//-------------------------------------------------
// file_enumerator - constructor
//-------------------------------------------------
file_enumerator::file_enumerator(const char *searchpath)
: m_iterator(searchpath),
m_curdir(NULL),
m_buflen(0)
{
}
//-------------------------------------------------
// ~file_enumerator - destructor
//-------------------------------------------------
file_enumerator::~file_enumerator()
{
// close anything open
if (m_curdir != NULL)
osd_closedir(m_curdir);
}
//-------------------------------------------------
// next - return information about the next file
// in the search path
//-------------------------------------------------
const osd_directory_entry *file_enumerator::next()
{
// loop over potentially empty directories
while (1)
{
// if no open directory, get the next path
while (m_curdir == NULL)
{
// if we fail to get anything more, we're done
if (!m_iterator.next(m_pathbuffer))
return NULL;
// open the path
m_curdir = osd_opendir(m_pathbuffer);
}
// get the next entry from the current directory
const osd_directory_entry *result = osd_readdir(m_curdir);
if (result != NULL)
return result;
// we're done; close this directory
osd_closedir(m_curdir);
m_curdir = NULL;
}
}
//**************************************************************************
// EMU FILE
//**************************************************************************
//-------------------------------------------------
// emu_file - constructor
//-------------------------------------------------
emu_file::emu_file(UINT32 openflags)
: m_file(NULL),
m_iterator(""),
m_crc(0),
m_openflags(openflags),
m_zipfile(NULL),
m_zipdata(NULL),
m_ziplength(0),
m__7zfile(NULL),
m__7zdata(NULL),
m__7zlength(0),
m_remove_on_close(false)
{
// sanity check the open flags
if ((m_openflags & OPEN_FLAG_HAS_CRC) && (m_openflags & OPEN_FLAG_WRITE))
throw emu_fatalerror("Attempted to open a file for write with OPEN_FLAG_HAS_CRC");
}
emu_file::emu_file(const char *searchpath, UINT32 openflags)
: m_file(NULL),
m_iterator(searchpath),
m_crc(0),
m_openflags(openflags),
m_zipfile(NULL),
m_zipdata(NULL),
m_ziplength(0),
m__7zfile(NULL),
m__7zdata(NULL),
m__7zlength(0),
m_remove_on_close(false)
{
// sanity check the open flags
if ((m_openflags & OPEN_FLAG_HAS_CRC) && (m_openflags & OPEN_FLAG_WRITE))
throw emu_fatalerror("Attempted to open a file for write with OPEN_FLAG_HAS_CRC");
}
//-------------------------------------------------
// ~emu_file - destructor
//-------------------------------------------------
emu_file::~emu_file()
{
// close in the standard way
close();
}
//-------------------------------------------------
// operator core_file - automatically convert
// ourselves to a core_file pointer
//-------------------------------------------------
emu_file::operator core_file *()
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return NULL;
// return the core file
return m_file;
}
emu_file::operator core_file &()
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
throw emu_fatalerror("operator core_file & used on invalid file");
// return the core file
return *m_file;
}
//-------------------------------------------------
// hash - returns the hash for a file
//-------------------------------------------------
hash_collection &emu_file::hashes(const char *types)
{
// determine the hashes we already have
astring already_have;
m_hashes.hash_types(already_have);
// determine which hashes we need
astring needed;
for (const char *scan = types; *scan != 0; scan++)
if (already_have.chr(0, *scan) == -1)
needed.cat(*scan);
// if we need nothing, skip it
if (!needed)
return m_hashes;
// load the ZIP file if needed
if (compressed_file_ready())
return m_hashes;
if (m_file == NULL)
return m_hashes;
// if we have ZIP data, just hash that directly
if (m__7zdata != NULL)
{
m_hashes.compute(m__7zdata, m__7zlength, needed);
return m_hashes;
}
if (m_zipdata != NULL)
{
m_hashes.compute(m_zipdata, m_ziplength, needed);
return m_hashes;
}
// read the data if we can
const UINT8 *filedata = (const UINT8 *)core_fbuffer(m_file);
if (filedata == NULL)
return m_hashes;
// compute the hash
m_hashes.compute(filedata, core_fsize(m_file), needed);
return m_hashes;
}
//-------------------------------------------------
// open - open a file by searching paths
//-------------------------------------------------
file_error emu_file::open(const char *name)
{
// remember the filename and CRC info
m_filename = name;
m_crc = 0;
m_openflags &= ~OPEN_FLAG_HAS_CRC;
// reset the iterator and open_next
m_iterator.reset();
return open_next();
}
file_error emu_file::open(const char *name1, const char *name2)
{
// concatenate the strings and do a standard open
astring name(name1, name2);
return open(name);
}
file_error emu_file::open(const char *name1, const char *name2, const char *name3)
{
// concatenate the strings and do a standard open
astring name(name1, name2, name3);
return open(name);
}
file_error emu_file::open(const char *name1, const char *name2, const char *name3, const char *name4)
{
// concatenate the strings and do a standard open
astring name(name1, name2, name3, name4);
return open(name);
}
file_error emu_file::open(const char *name, UINT32 crc)
{
// remember the filename and CRC info
m_filename = name;
m_crc = crc;
m_openflags |= OPEN_FLAG_HAS_CRC;
// reset the iterator and open_next
m_iterator.reset();
return open_next();
}
file_error emu_file::open(const char *name1, const char *name2, UINT32 crc)
{
// concatenate the strings and do a standard open
astring name(name1, name2);
return open(name, crc);
}
file_error emu_file::open(const char *name1, const char *name2, const char *name3, UINT32 crc)
{
// concatenate the strings and do a standard open
astring name(name1, name2, name3);
return open(name, crc);
}
file_error emu_file::open(const char *name1, const char *name2, const char *name3, const char *name4, UINT32 crc)
{
// concatenate the strings and do a standard open
astring name(name1, name2, name3, name4);
return open(name, crc);
}
//-------------------------------------------------
// open_next - open the next file that matches
// the filename by iterating over paths
//-------------------------------------------------
file_error emu_file::open_next()
{
// if we're open from a previous attempt, close up now
if (m_file != NULL)
close();
// loop over paths
file_error filerr = FILERR_NOT_FOUND;
while (m_iterator.next(m_fullpath, m_filename))
{
// attempt to open the file directly
filerr = core_fopen(m_fullpath, m_openflags, &m_file);
if (filerr == FILERR_NONE)
break;
// if we're opening for read-only we have other options
if ((m_openflags & (OPEN_FLAG_READ | OPEN_FLAG_WRITE)) == OPEN_FLAG_READ)
{
astring tempfullpath = m_fullpath;
filerr = attempt__7zped();
if (filerr == FILERR_NONE)
break;
m_fullpath = tempfullpath;
filerr = attempt_zipped();
if (filerr == FILERR_NONE)
break;
}
}
return filerr;
}
//-------------------------------------------------
// open_ram - open a "file" which is actually
// just an array of data in RAM
//-------------------------------------------------
file_error emu_file::open_ram(const void *data, UINT32 length)
{
// set a fake filename and CRC
m_filename = "RAM";
m_crc = 0;
// use the core_file's built-in RAM support
return core_fopen_ram(data, length, m_openflags, &m_file);
}
//-------------------------------------------------
// close - close a file and free all data; also
// remove the file if requested
//-------------------------------------------------
void emu_file::close()
{
// close files and free memory
if (m__7zfile != NULL)
_7z_file_close(m__7zfile);
m__7zfile = NULL;
if (m_zipfile != NULL)
zip_file_close(m_zipfile);
m_zipfile = NULL;
if (m_file != NULL)
core_fclose(m_file);
m_file = NULL;
if (m__7zdata != NULL)
global_free(m__7zdata);
m__7zdata = NULL;
if (m_zipdata != NULL)
global_free(m_zipdata);
m_zipdata = NULL;
if (m_remove_on_close)
osd_rmfile(m_fullpath);
m_remove_on_close = false;
// reset our hashes and path as well
m_hashes.reset();
m_fullpath.reset();
}
//-------------------------------------------------
// compress - enable/disable streaming file
// compression via zlib; level is 0 to disable
// compression, or up to 9 for max compression
//-------------------------------------------------
file_error emu_file::compress(int level)
{
return core_fcompress(m_file, level);
}
//-------------------------------------------------
// compressed_file_ready - ensure our zip is ready
// loading if needed
//-------------------------------------------------
bool emu_file::compressed_file_ready(void)
{
// load the ZIP file now if we haven't yet
if (m__7zfile != NULL && load__7zped_file() != FILERR_NONE)
return true;
if (m_zipfile != NULL && load_zipped_file() != FILERR_NONE)
return true;
return false;
}
//-------------------------------------------------
// seek - seek within a file
//-------------------------------------------------
int emu_file::seek(INT64 offset, int whence)
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return 1;
// seek if we can
if (m_file != NULL)
return core_fseek(m_file, offset, whence);
return 1;
}
//-------------------------------------------------
// tell - return the current file position
//-------------------------------------------------
UINT64 emu_file::tell()
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return 0;
// tell if we can
if (m_file != NULL)
return core_ftell(m_file);
return 0;
}
//-------------------------------------------------
// eof - return true if we're at the end of file
//-------------------------------------------------
bool emu_file::eof()
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return 0;
// return EOF if we can
if (m_file != NULL)
return core_feof(m_file);
return 0;
}
//-------------------------------------------------
// size - returns the size of a file
//-------------------------------------------------
UINT64 emu_file::size()
{
// use the ZIP length if present
if (m__7zfile != NULL)
return m__7zlength;
if (m_zipfile != NULL)
return m_ziplength;
// return length if we can
if (m_file != NULL)
return core_fsize(m_file);
return 0;
}
//-------------------------------------------------
// read - read from a file
//-------------------------------------------------
UINT32 emu_file::read(void *buffer, UINT32 length)
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return 0;
// read the data if we can
if (m_file != NULL)
return core_fread(m_file, buffer, length);
return 0;
}
//-------------------------------------------------
// getc - read a character from a file
//-------------------------------------------------
int emu_file::getc()
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return EOF;
// read the data if we can
if (m_file != NULL)
return core_fgetc(m_file);
return EOF;
}
//-------------------------------------------------
// ungetc - put back a character read from a file
//-------------------------------------------------
int emu_file::ungetc(int c)
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return 1;
// read the data if we can
if (m_file != NULL)
return core_ungetc(c, m_file);
return 1;
}
//-------------------------------------------------
// gets - read a line from a text file
//-------------------------------------------------
char *emu_file::gets(char *s, int n)
{
// load the ZIP file now if we haven't yet
if (compressed_file_ready())
return NULL;
// read the data if we can
if (m_file != NULL)
return core_fgets(s, n, m_file);
return NULL;
}
//-------------------------------------------------
// write - write to a file
//-------------------------------------------------
UINT32 emu_file::write(const void *buffer, UINT32 length)
{
// write the data if we can
if (m_file != NULL)
return core_fwrite(m_file, buffer, length);
return 0;
}
//-------------------------------------------------
// puts - write a line to a text file
//-------------------------------------------------
int emu_file::puts(const char *s)
{
// write the data if we can
if (m_file != NULL)
return core_fputs(m_file, s);
return 0;
}
//-------------------------------------------------
// printf - vfprintf to a text file
//-------------------------------------------------
int CLIB_DECL emu_file::printf(const char *fmt, ...)
{
int rc;
va_list va;
va_start(va, fmt);
rc = vprintf(fmt, va);
va_end(va);
return rc;
}
//-------------------------------------------------
// mame_vfprintf - vfprintf to a text file
//-------------------------------------------------
int emu_file::vprintf(const char *fmt, va_list va)
{
// write the data if we can
return (m_file != NULL) ? core_vfprintf(m_file, fmt, va) : 0;
}
//-------------------------------------------------
// attempt_zipped - attempt to open a ZIPped file
//-------------------------------------------------
file_error emu_file::attempt_zipped()
{
astring filename;
// loop over directory parts up to the start of filename
while (1)
{
// find the final path separator
int dirsep = m_fullpath.rchr(0, PATH_SEPARATOR[0]);
if (dirsep == -1)
return FILERR_NOT_FOUND;
// insert the part from the right of the separator into the head of the filename
if (filename.len() > 0)
filename.ins(0, "/");
filename.inssubstr(0, m_fullpath, dirsep + 1, -1);
// remove this part of the filename and append a .zip extension
m_fullpath.substr(0, dirsep).cat(".zip");
// attempt to open the ZIP file
zip_file *zip;
zip_error ziperr = zip_file_open(m_fullpath, &zip);
// chop the .zip back off the filename before continuing
m_fullpath.substr(0, dirsep);
// if we failed to open this file, continue scanning
if (ziperr != ZIPERR_NONE)
continue;
// see if we can find a file with the right name and (if available) crc
const zip_file_header *header;
for (header = zip_file_first_file(zip); header != NULL; header = zip_file_next_file(zip))
if (zip_filename_match(*header, filename) && (!(m_openflags & OPEN_FLAG_HAS_CRC) || header->crc == m_crc))
break;
// if that failed, look for a file with the right crc, but the wrong filename
if (header == NULL && (m_openflags & OPEN_FLAG_HAS_CRC))
for (header = zip_file_first_file(zip); header != NULL; header = zip_file_next_file(zip))
if (header->crc == m_crc && !zip_header_is_path(*header))
break;
// if that failed, look for a file with the right name; reporting a bad checksum
// is more helpful and less confusing than reporting "rom not found"
if (header == NULL)
for (header = zip_file_first_file(zip); header != NULL; header = zip_file_next_file(zip))
if (zip_filename_match(*header, filename))
break;
// if we got it, read the data
if (header != NULL)
{
m_zipfile = zip;
m_ziplength = header->uncompressed_length;
// build a hash with just the CRC
m_hashes.reset();
m_hashes.add_crc(header->crc);
return (m_openflags & OPEN_FLAG_NO_PRELOAD) ? FILERR_NONE : load_zipped_file();
}
// close up the ZIP file and try the next level
zip_file_close(zip);
}
}
//-------------------------------------------------
// load_zipped_file - load a ZIPped file
//-------------------------------------------------
file_error emu_file::load_zipped_file()
{
assert(m_file == NULL);
assert(m_zipdata == NULL);
assert(m_zipfile != NULL);
// allocate some memory
m_zipdata = global_alloc_array(UINT8, m_ziplength);
// read the data into our buffer and return
zip_error ziperr = zip_file_decompress(m_zipfile, m_zipdata, m_ziplength);
if (ziperr != ZIPERR_NONE)
{
global_free(m_zipdata);
m_zipdata = NULL;
return FILERR_FAILURE;
}
// convert to RAM file
file_error filerr = core_fopen_ram(m_zipdata, m_ziplength, m_openflags, &m_file);
if (filerr != FILERR_NONE)
{
global_free(m_zipdata);
m_zipdata = NULL;
return FILERR_FAILURE;
}
// close out the ZIP file
zip_file_close(m_zipfile);
m_zipfile = NULL;
return FILERR_NONE;
}
//-------------------------------------------------
// zip_filename_match - compare zip filename
// to expected filename, ignoring any directory
//-------------------------------------------------
bool emu_file::zip_filename_match(const zip_file_header &header, const astring &filename)
{
const char *zipfile = header.filename + header.filename_length - filename.len();
return (zipfile >= header.filename && filename.icmp(zipfile) == 0 && (zipfile == header.filename || zipfile[-1] == '/'));
}
//-------------------------------------------------
// zip_header_is_path - check whether filename
// in header is a path
//-------------------------------------------------
bool emu_file::zip_header_is_path(const zip_file_header &header)
{
const char *zipfile = header.filename + header.filename_length - 1;
return (zipfile >= header.filename && zipfile[0] == '/');
}
//-------------------------------------------------
// attempt__7zped - attempt to open a .7z file
//-------------------------------------------------
file_error emu_file::attempt__7zped()
{
astring filename;
// loop over directory parts up to the start of filename
while (1)
{
// find the final path separator
int dirsep = m_fullpath.rchr(0, PATH_SEPARATOR[0]);
if (dirsep == -1)
return FILERR_NOT_FOUND;
// insert the part from the right of the separator into the head of the filename
if (filename.len() > 0)
filename.ins(0, "/");
filename.inssubstr(0, m_fullpath, dirsep + 1, -1);
// remove this part of the filename and append a .7z extension
m_fullpath.substr(0, dirsep).cat(".7z");
// attempt to open the _7Z file
_7z_file *_7z;
_7z_error _7zerr = _7z_file_open(m_fullpath, &_7z);
// chop the ._7z back off the filename before continuing
m_fullpath.substr(0, dirsep);
// if we failed to open this file, continue scanning
if (_7zerr != _7ZERR_NONE)
continue;
int fileno = -1;
// see if we can find a file with the right name and (if available) crc
if (m_openflags & OPEN_FLAG_HAS_CRC) fileno = _7z_search_crc_match(_7z, m_crc, filename.cstr(), filename.len(), true, true);
// if that failed, look for a file with the right crc, but the wrong filename
if (fileno==-1)
if (m_openflags & OPEN_FLAG_HAS_CRC) fileno = _7z_search_crc_match(_7z, m_crc, filename.cstr(), filename.len(), true, false);
// if that failed, look for a file with the right name; reporting a bad checksum
// is more helpful and less confusing than reporting "rom not found"
if (fileno==-1)
fileno = _7z_search_crc_match(_7z, m_crc, filename.cstr(), filename.len(), false, true);
if (fileno != -1)
{
m__7zfile = _7z;
m__7zlength = _7z->uncompressed_length;
// build a hash with just the CRC
m_hashes.reset();
m_hashes.add_crc(_7z->crc);
return (m_openflags & OPEN_FLAG_NO_PRELOAD) ? FILERR_NONE : load__7zped_file();
}
// close up the _7Z file and try the next level
_7z_file_close(_7z);
}
}
//-------------------------------------------------
// load__7zped_file - load a _7Zped file
//-------------------------------------------------
file_error emu_file::load__7zped_file()
{
assert(m_file == NULL);
assert(m__7zdata == NULL);
assert(m__7zfile != NULL);
// allocate some memory
m__7zdata = global_alloc_array(UINT8, m__7zlength);
// read the data into our buffer and return
_7z_error _7zerr = _7z_file_decompress(m__7zfile, m__7zdata, m__7zlength);
if (_7zerr != _7ZERR_NONE)
{
global_free(m__7zdata);
m__7zdata = NULL;
return FILERR_FAILURE;
}
// convert to RAM file
file_error filerr = core_fopen_ram(m__7zdata, m__7zlength, m_openflags, &m_file);
if (filerr != FILERR_NONE)
{
global_free(m__7zdata);
m__7zdata = NULL;
return FILERR_FAILURE;
}
// close out the _7Z file
_7z_file_close(m__7zfile);
m__7zfile = NULL;
return FILERR_NONE;
}