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// license:BSD-3-Clause
// copyright-holders:Nathan Woods, Raphael Nabet, Miodrag Milanovic
/*********************************************************************

    Code to interface the image code with harddisk core.

    Raphael Nabet 2003

    Update: 23-Feb-2004 - Unlike floppy disks, for which we support
    myriad formats on many systems, it is my intention for MESS to
    standardize on the CHD file format for hard drives so I made a few
    changes to support this

*********************************************************************/

#include "emu.h"
#include "harddriv.h"

#include "emuopts.h"
#include "harddisk.h"
#include "romload.h"


OPTION_GUIDE_START(hd_option_guide)
	OPTION_INT('C', "cylinders",        "Cylinders")
	OPTION_INT('H', "heads",            "Heads")
	OPTION_INT('S', "sectors",          "Sectors")
	OPTION_INT('L', "sectorlength",     "Sector Bytes")
	OPTION_INT('K', "hunksize",         "Hunk Bytes")
OPTION_GUIDE_END

static char const *const hd_option_spec =
	"C1-[512]-1024;H1/2/[4]/8;S1-[16]-64;L128/256/[512]/1024;K512/1024/2048/[4096]";


// device type definition
DEFINE_DEVICE_TYPE(HARDDISK, harddisk_image_device, "harddisk_image", "Harddisk")

//-------------------------------------------------
//  harddisk_image_device - constructor
//-------------------------------------------------

harddisk_image_device::harddisk_image_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock)
	: harddisk_image_device(mconfig, HARDDISK, tag, owner, clock)
{
}

//-------------------------------------------------
//  harddisk_image_device - constructor for subclasses
//-------------------------------------------------
harddisk_image_device::harddisk_image_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock)
	: device_t(mconfig, type, tag, owner, clock),
		device_image_interface(mconfig, *this),
		m_chd(nullptr),
		m_hard_disk_handle(nullptr),
		m_device_image_load(load_delegate()),
		m_device_image_unload(unload_delegate()),
		m_interface(nullptr)
{
}

//-------------------------------------------------
//  harddisk_image_device - destructor
//-------------------------------------------------

harddisk_image_device::~harddisk_image_device()
{
}

//-------------------------------------------------
//  device_config_complete - perform any
//  operations now that the configuration is
//  complete
//-------------------------------------------------

void harddisk_image_device::device_config_complete()
{
	add_format("chd", "CHD Hard drive", "chd,hd,hdv,2mg,hdi", hd_option_spec);
}

const util::option_guide &harddisk_image_device::create_option_guide() const
{
	return hd_option_guide;
}

//-------------------------------------------------
//  device_start - device-specific startup
//-------------------------------------------------

void harddisk_image_device::device_start()
{
	m_chd = nullptr;

	// try to locate the CHD from a DISK_REGION
	chd_file *handle = machine().rom_load().get_disk_handle(tag());
	if (handle != nullptr)
	{
		m_hard_disk_handle = hard_disk_open(handle);
	}
	else
	{
		m_hard_disk_handle = nullptr;
	}
}

void harddisk_image_device::device_stop()
{
	if (m_hard_disk_handle != nullptr)
	{
		hard_disk_close(m_hard_disk_handle);
		m_hard_disk_handle = nullptr;
	}
}

image_init_result harddisk_image_device::call_load()
{
	image_init_result our_result;

	our_result = internal_load_hd();

	/* Check if there is an image_load callback defined */
	if (!m_device_image_load.isnull())
	{
		/* Let the override do some additional work/checks */
		our_result = m_device_image_load(*this);
	}
	return our_result;

}

image_init_result harddisk_image_device::call_create(int create_format, util::option_resolution *create_args)
{
	int err;
	uint32_t sectorsize, hunksize;
	uint32_t cylinders, heads, sectors, totalsectors;

	assert_always(create_args != nullptr, "Expected create_args to not be nullptr");
	cylinders   = create_args->lookup_int('C');
	heads       = create_args->lookup_int('H');
	sectors     = create_args->lookup_int('S');
	sectorsize  = create_args->lookup_int('L');
	hunksize    = create_args->lookup_int('K');

	totalsectors = cylinders * heads * sectors;

	/* create the CHD file */
	chd_codec_type compression[4] = { CHD_CODEC_NONE };
	err = m_origchd.create(image_core_file(), (uint64_t)totalsectors * (uint64_t)sectorsize, hunksize, sectorsize, compression);
	if (err != CHDERR_NONE)
		goto error;

	/* if we created the image and hence, have metadata to set, set the metadata */
	err = m_origchd.write_metadata(HARD_DISK_METADATA_TAG, 0, string_format(HARD_DISK_METADATA_FORMAT, cylinders, heads, sectors, sectorsize));
	m_origchd.close();

	if (err != CHDERR_NONE)
		goto error;

	return internal_load_hd();

error:
	return image_init_result::FAIL;
}

void harddisk_image_device::call_unload()
{
	/* Check if there is an image_unload callback defined */
	if ( !m_device_image_unload.isnull() )
	{
		m_device_image_unload(*this);
	}

	if (m_hard_disk_handle != nullptr)
	{
		hard_disk_close(m_hard_disk_handle);
		m_hard_disk_handle = nullptr;
	}

	if (m_chd)
	{
		m_origchd.close();
		m_diffchd.close();
	}
	m_chd = nullptr;
}

/*-------------------------------------------------
    open_disk_diff - open a DISK diff file
-------------------------------------------------*/

static chd_error open_disk_diff(emu_options &options, const char *name, chd_file &source, chd_file &diff_chd)
{
	std::string fname = std::string(name).append(".dif");

	/* try to open the diff */
	//printf("Opening differencing image file: %s\n", fname.c_str());
	emu_file diff_file(options.diff_directory(), OPEN_FLAG_READ | OPEN_FLAG_WRITE);
	osd_file::error filerr = diff_file.open(fname.c_str());
	if (filerr == osd_file::error::NONE)
	{
		std::string fullpath(diff_file.fullpath());
		diff_file.close();

		//printf("Opening differencing image file: %s\n", fullpath.c_str());
		return diff_chd.open(fullpath.c_str(), true, &source);
	}

	/* didn't work; try creating it instead */
	//printf("Creating differencing image: %s\n", fname.c_str());
	diff_file.set_openflags(OPEN_FLAG_READ | OPEN_FLAG_WRITE | OPEN_FLAG_CREATE | OPEN_FLAG_CREATE_PATHS);
	filerr = diff_file.open(fname.c_str());
	if (filerr == osd_file::error::NONE)
	{
		std::string fullpath(diff_file.fullpath());
		diff_file.close();

		/* create the CHD */
		//printf("Creating differencing image file: %s\n", fupointllpath.c_str());
		chd_codec_type compression[4] = { CHD_CODEC_NONE };
		chd_error err = diff_chd.create(fullpath.c_str(), source.logical_bytes(), source.hunk_bytes(), compression, source);
		if (err != CHDERR_NONE)
			return err;

		return diff_chd.clone_all_metadata(source);
	}

	return CHDERR_FILE_NOT_FOUND;
}

image_init_result harddisk_image_device::internal_load_hd()
{
	chd_error err = CHDERR_NONE;
	m_chd = nullptr;
	uint8_t header[64];

	if (m_hard_disk_handle != nullptr)
	{
		hard_disk_close(m_hard_disk_handle);
		m_hard_disk_handle = nullptr;
	}

	/* open the CHD file */
	if (loaded_through_softlist())
	{
		m_chd = machine().rom_load().get_disk_handle(device().subtag("harddriv").c_str());
	}
	else
	{
		fseek(0, SEEK_SET);
		fread(header, 64);
		fseek(0, SEEK_SET);

		if (!memcmp("MComprHD", header, 8))
		{
			err = m_origchd.open(image_core_file(), true);

			if (err == CHDERR_NONE)
			{
				m_chd = &m_origchd;
			}
			else if (err == CHDERR_FILE_NOT_WRITEABLE)
			{
				err = m_origchd.open(image_core_file(), false);
				if (err == CHDERR_NONE)
				{
					err = open_disk_diff(device().machine().options(), basename_noext(), m_origchd, m_diffchd);
					if (err == CHDERR_NONE)
					{
						m_chd = &m_diffchd;
					}
				}
			}
		}
	}

	if (m_chd != nullptr)
	{
		/* open the hard disk file */
		m_hard_disk_handle = hard_disk_open(m_chd);
		if (m_hard_disk_handle != nullptr)
			return image_init_result::PASS;
	}
	else
	{
		if (is_open())
		{
			uint32_t skip = 0;

			// check for 2MG format
			if (!memcmp(header, "2IMG", 4))
			{
				skip = header[0x18] | (header[0x19] << 8) | (header[0x1a] << 16) | (header[0x1b] << 24);
				osd_printf_verbose("harddriv: detected 2MG, creator is %c%c%c%c, data at %08x\n", header[4], header[5], header[6], header[7], skip);
			}
			// check for HDI format
			else if (is_filetype("hdi"))
			{
				skip = header[0x8] | (header[0x9] << 8) | (header[0xa] << 16) | (header[0xb] << 24);
				uint32_t data_size = header[0xc] | (header[0xd] << 8) | (header[0xe] << 16) | (header[0xf] << 24);
				if (data_size == image_core_file().size() - skip)
				{
					osd_printf_verbose("harddriv: detected Anex86 HDI, data at %08x\n", skip);
				}
				else
				{
					skip = 0;
				}
			}

			m_hard_disk_handle = hard_disk_open(image_core_file(), skip);
			if (m_hard_disk_handle != nullptr)
				return image_init_result::PASS;
		}

		return image_init_result::FAIL;
	}

	/* if we had an error, close out the CHD */
	m_origchd.close();
	m_diffchd.close();
	m_chd = nullptr;
	seterror(IMAGE_ERROR_UNSPECIFIED, chd_file::error_string(err));

	return image_init_result::FAIL;
}

/*************************************
 *
 *  Get the CHD file (from the src/chd.c core)
 *  after an image has been opened with the hd core
 *
 *************************************/

chd_file *harddisk_image_device::get_chd_file()
{
	chd_file *result = nullptr;
	hard_disk_file *hd_file = get_hard_disk_file();
	if (hd_file)
		result = hard_disk_get_chd(hd_file);
	return result;
}