/**

 * $Id$

 * mem.c is responsible for creating and maintaining the overall system memory

 * map, as visible from the SH4 processor. 

 *

 * Copyright (c) 2005 Nathan Keynes.

 *

 * This program is free software; you can redistribute it and/or modify

 * it under the terms of the GNU General Public License as published by

 * the Free Software Foundation; either version 2 of the License, or

 * (at your option) any later version.

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 */

#define MODULE mem_module

#include <sys/types.h>

#include <sys/mman.h>

#include <sys/stat.h>

#include <glib/gstrfuncs.h>

#include <assert.h>

#include <stdint.h>

#include <stdlib.h>

#include <stdio.h>

#include <unistd.h>

#include <fcntl.h>

#include <errno.h>

#include <string.h>

#include <zlib.h>

#include "dream.h"

#include "mem.h"

#include "mmio.h"

#include "dreamcast.h"

sh4ptr_t *page_map = NULL;

int mem_load(FILE *f);

void mem_save(FILE *f);

struct dreamcast_module mem_module =

    { "MEM", mem_init, mem_reset, NULL, NULL, NULL, mem_save, mem_load };

struct mem_region mem_rgn[MAX_MEM_REGIONS];

struct mmio_region *io_rgn[MAX_IO_REGIONS];

struct mmio_region *P4_io[4096];

uintptr_t num_io_rgns = 0, num_mem_rgns = 0;

void *mem_alloc_pages( int n )

{

    void *mem = mmap( NULL, n * 4096,

                      PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0 );

    if( mem == MAP_FAILED ) {

        ERROR( "Memory allocation failure! (%s)", strerror(errno) );

        return NULL;

    }

    return mem;

}

void mem_init( void )

{

    page_map = mmap( NULL, sizeof(sh4ptr_t) * PAGE_TABLE_ENTRIES,

                     PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0 );

    if( page_map == MAP_FAILED ) {

        ERROR( "Unable to allocate page map! (%s)", strerror(errno) );

        page_map = NULL;

        return;

    }

    memset( page_map, 0, sizeof(sh4ptr_t) * PAGE_TABLE_ENTRIES );

}

void mem_reset( void )

{

    /* Restore all mmio registers to their initial settings */

    int i, j;

    for( i=1; i<num_io_rgns; i++ ) {

        for( j=0; io_rgn[i]->ports[j].id != NULL; j++ ) {

            if( io_rgn[i]->ports[j].def_val != UNDEFINED &&

                io_rgn[i]->ports[j].def_val != *io_rgn[i]->ports[j].val ) {

                io_rgn[i]->io_write( io_rgn[i]->ports[j].offset,

                                    io_rgn[i]->ports[j].def_val );

            }

        }

    }

}

void mem_save( FILE *f ) 

{

    int i;

    uint32_t len;

    /* All memory regions */

    fwrite( &num_mem_rgns, sizeof(num_mem_rgns), 1, f );

    for( i=0; i<num_mem_rgns; i++ ) {

	fwrite_string( mem_rgn[i].name, f );

	fwrite( &mem_rgn[i].base, sizeof(uint32_t), 1, f );

	fwrite( &mem_rgn[i].flags, sizeof(uint32_t), 1, f );

	fwrite( &mem_rgn[i].size, sizeof(uint32_t), 1, f );

	if( mem_rgn[i].flags != MEM_FLAG_ROM )

	    fwrite_gzip( mem_rgn[i].mem, mem_rgn[i].size, 1, f );

    }

    /* All MMIO regions */

    fwrite( &num_io_rgns, sizeof(num_io_rgns), 1, f );

    for( i=0; i<num_io_rgns; i++ ) {

	fwrite_string( io_rgn[i]->id, f );

	fwrite( &io_rgn[i]->base, sizeof( uint32_t ), 1, f );

	len = 4096;

	fwrite( &len, sizeof(len), 1, f );

	fwrite_gzip( io_rgn[i]->mem, len, 1, f );

    }

}

int mem_load( FILE *f )

{

    char tmp[64];

    uint32_t len;

    uint32_t base, size;

    uint32_t flags;

    int i;

    /* All memory regions */

    fread( &len, sizeof(len), 1, f );

    if( len != num_mem_rgns )

	return -1;

    for( i=0; i<len; i++ ) {

	fread_string( tmp, sizeof(tmp), f );

	fread( &base, sizeof(base), 1, f );

	fread( &flags, sizeof(flags), 1, f );

	fread( &size, sizeof(size), 1, f );

	if( strcmp( mem_rgn[i].name, tmp ) != 0 ||

	    base != mem_rgn[i].base ||

	    flags != mem_rgn[i].flags ||

	    size != mem_rgn[i].size ) {

	    ERROR( "Bad memory region %d %s", i, tmp );

	    return -1;

	}

	if( flags != MEM_FLAG_ROM )

	    fread_gzip( mem_rgn[i].mem, size, 1, f );

    }

    /* All MMIO regions */

    fread( &len, sizeof(len), 1, f );

    if( len != num_io_rgns ) 

	return -1;

    for( i=0; i<len; i++ ) {

	fread_string( tmp, sizeof(tmp), f );

	fread( &base, sizeof(base), 1, f );

	fread( &size, sizeof(size), 1, f );

	if( strcmp( io_rgn[i]->id, tmp ) != 0 ||

	    base != io_rgn[i]->base ||

	    size != 4096 ) {

	    ERROR( "Bad MMIO region %d %s", i, tmp );

	    return -1;

	}

	fread_gzip( io_rgn[i]->mem, size, 1, f );

    }

    return 0;

}

int mem_save_block( const gchar *file, uint32_t start, uint32_t length )

{

    sh4ptr_t region;

    int len = 4096, total = 0;

    uint32_t addr = start;

    FILE *f = fopen(file,"w");

    if( f == NULL )

	return errno;

    while( total < length ) {

	region = mem_get_region(addr);

	len = 4096 - (addr & 0x0FFF);

	if( len > (length-total) ) 

	    len = (length-total);

	if( fwrite( region, len, 1, f ) != 1 ) {

	    ERROR( "Unexpected error: %d %d", len, errno );

	    break;

	}

	addr += len;

	total += len;

    }

    fclose( f );

    INFO( "Loaded %d of %d bytes to %08X", total, length, start );

    return 0;

}

int mem_load_block( const gchar *file, uint32_t start, uint32_t length )

{

    sh4ptr_t region;

    int len = 4096, total = 0;

    uint32_t addr = start;

    struct stat st;

    FILE *f = fopen(file,"r");

    if( f == NULL ) {

	WARN( "Unable to load file '%s': %s", file, strerror(errno) );

	return -1;

    }

    fstat( fileno(f), &st );

    if( length == 0 || length == -1 || length > st.st_size )

	length = st.st_size;

    while( total < length ) {

	region = mem_get_region(addr);

	len = 4096 - (addr & 0x0FFF);

	if( len > (length-total) ) 

	    len = (length-total);

	if( fread( region, len, 1, f ) != 1 ) {

	    ERROR( "Unexpected error: %d %d", len, errno );

	    break;

	}

	addr += len;

	total += len;

    }

    fclose( f );

    INFO( "Loaded %d of %d bytes to %08X", total, length, start );

    return 0;

}

struct mem_region *mem_map_region( void *mem, uint32_t base, uint32_t size,

                                   const char *name, int flags, uint32_t repeat_offset,

				   uint32_t repeat_until )

{

    int i;

    mem_rgn[num_mem_rgns].base = base;

    mem_rgn[num_mem_rgns].size = size;

    mem_rgn[num_mem_rgns].flags = flags;

    mem_rgn[num_mem_rgns].name = name;

    mem_rgn[num_mem_rgns].mem = mem;

    num_mem_rgns++;

    do {

	for( i=0; i<size>>PAGE_BITS; i++ )

	    page_map[(base>>PAGE_BITS)+i] = mem + (i<<PAGE_BITS);

	base += repeat_offset;	

    } while( base <= repeat_until );

    return &mem_rgn[num_mem_rgns-1];

}

void *mem_create_ram_region( uint32_t base, uint32_t size, const char *name )

{

    return mem_create_repeating_ram_region( base, size, name, size, base );

}

void *mem_create_repeating_ram_region( uint32_t base, uint32_t size, const char *name,

				       uint32_t repeat_offset, uint32_t repeat_until )

{

    char *mem;

    assert( (base&0xFFFFF000) == base ); /* must be page aligned */

    assert( (size&0x00000FFF) == 0 );

    assert( num_mem_rgns < MAX_MEM_REGIONS );

    assert( page_map != NULL );

    mem = mem_alloc_pages( size>>PAGE_BITS );

    mem_map_region( mem, base, size, name, MEM_FLAG_RAM, repeat_offset, repeat_until );

    return mem;

}

gboolean mem_load_rom( const gchar *file, uint32_t base, uint32_t size, uint32_t crc,

		       const gchar *region_name )

{

    sh4ptr_t mem;

    uint32_t calc_crc;

    int status;

    mem = mem_get_region(base);

    if( mem == NULL ) {

	mem = mmap( NULL, size, PROT_WRITE|PROT_READ, MAP_ANON|MAP_PRIVATE, -1, 0 );

	if( mem == MAP_FAILED ) {

	    ERROR( "Unable to allocate ROM memory: %s (%s)", file, strerror(errno) );

	    return FALSE;

	}

	mem_map_region( mem, base, size, region_name, MEM_FLAG_ROM, size, base );

    } else {

	mprotect( mem, size, PROT_READ|PROT_WRITE );

    }

    status = mem_load_block( file, base, size );

    mprotect( mem, size, PROT_READ );

    if( status == 0 ) {

	/* CRC check only if we loaded something */

	calc_crc = crc32(0L, (sh4ptr_t)mem, size);

	if( calc_crc != crc ) {

	    WARN( "Bios CRC Mismatch in %s: %08X (expected %08X)",

		  file, calc_crc, crc);

	}

	return TRUE;

    }

    return FALSE;

}

sh4ptr_t mem_get_region_by_name( const char *name )

{

    int i;

    for( i=0; i<num_mem_rgns; i++ ) {

        if( strcmp( mem_rgn[i].name, name ) == 0 )

            return mem_rgn[i].mem;

    }

    return NULL;

}

void register_io_region( struct mmio_region *io )

{

    int i;

    assert(io);

    io->mem = mem_alloc_pages(2);

    io->save_mem = io->mem + PAGE_SIZE;

    io->index = (struct mmio_port **)malloc(1024*sizeof(struct mmio_port *));

    io->trace_flag = 0;

    memset( io->index, 0, 1024*sizeof(struct mmio_port *) );

    for( i=0; io->ports[i].id != NULL; i++ ) {

        io->ports[i].val = (uint32_t *)(io->mem + io->ports[i].offset);

        *io->ports[i].val = io->ports[i].def_val;

        io->index[io->ports[i].offset>>2] = &io->ports[i];

    }

    memcpy( io->save_mem, io->mem, PAGE_SIZE );

    if( (io->base & 0xFF000000) == 0xFF000000 ) {

        /* P4 area (on-chip I/O channels */

        P4_io[(io->base&0x1FFFFFFF)>>19] = io;

    } else {

        page_map[io->base>>12] = (sh4ptr_t )num_io_rgns;

    }

    io_rgn[num_io_rgns] = io;

    num_io_rgns++;

}

void register_io_regions( struct mmio_region **io )

{

    while( *io ) register_io_region( *io++ );

}

int mem_has_page( uint32_t addr )

{

    sh4ptr_t page = page_map[ (addr & 0x1FFFFFFF) >> 12 ];

    return page != NULL;

}

sh4ptr_t mem_get_page( uint32_t addr )

{

    sh4ptr_t page = page_map[ (addr & 0x1FFFFFFF) >> 12 ];

    return page;

}

sh4ptr_t mem_get_region( uint32_t addr )

{

    sh4ptr_t page = page_map[ (addr & 0x1FFFFFFF) >> 12 ];

    if( ((uintptr_t)page) < MAX_IO_REGIONS ) { /* IO Region */

        return NULL;

    } else {

        return page+(addr&0xFFF);

    }

}

struct mmio_region *mem_get_io_region( uint32_t addr )

{

    if( addr > 0xFF000000 ) {

	return P4_io[(addr&0x00FFFFFF)>>12];

    }

    sh4ptr_t page = page_map[(addr&0x1FFFFFFF)>>12];

    if( ((uintptr_t)page) < MAX_IO_REGIONS ) {

	return io_rgn[(uintptr_t)page];

    } else {

	return NULL;

    }

}

struct mmio_region *mem_get_io_region_by_name( const gchar *name )

{

    int i;

    for( i=0; i<num_io_rgns; i++ ) {

	if( strcasecmp(io_rgn[i]->id, name) == 0 ) {

	    return io_rgn[i];

	}

    }

    return NULL;

}

void mem_set_trace( const gchar *tracelist, gboolean flag )

{

    if( tracelist != NULL ) {

	gchar ** tracev = g_strsplit_set( tracelist, ",:; \t\r\n", 0 );

	int i;

	for( i=0; tracev[i] != NULL; i++ ) {

	    // Special case "all" - trace everything

	    if( strcasecmp(tracev[i], "all") == 0 ) {

		int j;

		for( j=0; j<num_io_rgns; j++ ) {

		    io_rgn[j]->trace_flag = flag ? 1 : 0;

		}

		break;

	    }

	    struct mmio_region *region = mem_get_io_region_by_name( tracev[i] );

	    if( region == NULL ) {

		WARN( "Unknown IO region '%s'", tracev[i] );

	    } else {

		region->trace_flag = flag ? 1 : 0;

	    }

	}

	g_strfreev( tracev );

    }

}