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[/] [ao486/] [trunk/] [bochsDevs/] [memory/] [memory.h] - Rev 5
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///////////////////////////////////////////////////////////////////////// // $Id: memory.h 11556 2012-12-02 19:59:23Z vruppert $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001-2009 The Bochs Project // // I/O memory handlers API Copyright (C) 2003 by Frank Cornelis // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA // ///////////////////////////////////////////////////////////////////////// #ifndef BX_MEM_H # define BX_MEM_H 1 #if BX_USE_MEM_SMF // if static member functions on, then there is only one memory # define BX_MEM_SMF static # define BX_MEM_THIS BX_MEM(0)-> #else # define BX_MEM_SMF # define BX_MEM_THIS this-> #endif class BX_CPU_C; // 512K BIOS ROM @0xfff80000 #define BIOSROMSZ ((Bit32u)(1 << 21)) // 2M BIOS ROM @0xffe00000, must be a power of 2 #define EXROMSIZE (0x20000) // ROMs 0xc0000-0xdffff (area 0xe0000-0xfffff=bios mapped) #define BIOS_MASK (BIOSROMSZ-1) #define EXROM_MASK (EXROMSIZE-1) #define BIOS_MAP_LAST128K(addr) (((addr) | 0xfff00000) & BIOS_MASK) enum memory_area_t { BX_MEM_AREA_C0000 = 0, BX_MEM_AREA_C4000, BX_MEM_AREA_C8000, BX_MEM_AREA_CC000, BX_MEM_AREA_D0000, BX_MEM_AREA_D4000, BX_MEM_AREA_D8000, BX_MEM_AREA_DC000, BX_MEM_AREA_E0000, BX_MEM_AREA_E4000, BX_MEM_AREA_E8000, BX_MEM_AREA_EC000, BX_MEM_AREA_F0000 }; typedef bx_bool (*memory_handler_t)(bx_phy_address addr, unsigned len, void *data, void *param); // return a pointer to 4K region containing <addr> or NULL if direct access is not allowed // same format as getHostMemAddr method typedef Bit8u* (*memory_direct_access_handler_t)(bx_phy_address addr, unsigned rw, void *param); struct memory_handler_struct { struct memory_handler_struct *next; void *param; bx_phy_address begin; bx_phy_address end; Bit16u bitmap; memory_handler_t read_handler; memory_handler_t write_handler; memory_direct_access_handler_t da_handler; }; #define SMRAM_CODE 1 #define SMRAM_DATA 2 class BOCHSAPI BX_MEM_C : public logfunctions { private: struct memory_handler_struct **memory_handlers; bx_bool pci_enabled; bx_bool bios_write_enabled; bx_bool smram_available; bx_bool smram_enable; bx_bool smram_restricted; Bit64u len, allocated; // could be > 4G Bit8u *actual_vector; Bit8u *vector; // aligned correctly Bit8u **blocks; Bit8u *rom; // 512k BIOS rom space + 128k expansion rom space Bit8u *bogus; // 4k for unexisting memory bx_bool rom_present[65]; bx_bool memory_type[13][2]; Bit32u used_blocks; #if BX_LARGE_RAMFILE static Bit8u * const swapped_out; // NULL; // (NULL - sizeof(Bit8u)); Bit32u next_swapout_idx; FILE *overflow_file; BX_MEM_SMF void read_block(Bit32u block); #endif public: BX_MEM_C(); ~BX_MEM_C(); BX_MEM_SMF Bit8u* get_vector(bx_phy_address addr); BX_MEM_SMF void init_memory(Bit64u guest, Bit64u host); BX_MEM_SMF void cleanup_memory(void); BX_MEM_SMF void enable_smram(bx_bool enable, bx_bool restricted); BX_MEM_SMF void disable_smram(void); BX_MEM_SMF bx_bool is_smram_accessible(void); BX_MEM_SMF void set_bios_write(bx_bool enabled); BX_MEM_SMF void set_memory_type(memory_area_t area, bx_bool rw, bx_bool dram); BX_MEM_SMF Bit8u* getHostMemAddr(BX_CPU_C *cpu, bx_phy_address addr, unsigned rw); // Note: accesses should always be contained within a single page BX_MEM_SMF void readPhysicalPage(BX_CPU_C *cpu, bx_phy_address addr, unsigned len, void *data); BX_MEM_SMF void writePhysicalPage(BX_CPU_C *cpu, bx_phy_address addr, unsigned len, void *data); BX_MEM_SMF void dmaReadPhysicalPage(bx_phy_address addr, unsigned len, Bit8u *data); BX_MEM_SMF void dmaWritePhysicalPage(bx_phy_address addr, unsigned len, Bit8u *data); BX_MEM_SMF void load_ROM(const char *path, bx_phy_address romaddress, Bit8u type); BX_MEM_SMF void load_RAM(const char *path, bx_phy_address romaddress, Bit8u type); #if (BX_DEBUGGER || BX_DISASM || BX_GDBSTUB) BX_MEM_SMF bx_bool dbg_fetch_mem(BX_CPU_C *cpu, bx_phy_address addr, unsigned len, Bit8u *buf); #endif #if (BX_DEBUGGER || BX_GDBSTUB) BX_MEM_SMF bx_bool dbg_set_mem(bx_phy_address addr, unsigned len, Bit8u *buf); BX_MEM_SMF bx_bool dbg_crc32(bx_phy_address addr1, bx_phy_address addr2, Bit32u *crc); #endif BX_MEM_SMF bx_bool registerMemoryHandlers(void *param, memory_handler_t read_handler, memory_handler_t write_handler, memory_direct_access_handler_t da_handler, bx_phy_address begin_addr, bx_phy_address end_addr); BX_MEM_SMF BX_CPP_INLINE bx_bool registerMemoryHandlers(void *param, memory_handler_t read_handler, memory_handler_t write_handler, bx_phy_address begin_addr, bx_phy_address end_addr) { return registerMemoryHandlers(param, read_handler, write_handler, NULL, begin_addr, end_addr); } BX_MEM_SMF bx_bool unregisterMemoryHandlers(void *param, bx_phy_address begin_addr, bx_phy_address end_addr); BX_MEM_SMF Bit64u get_memory_len(void); BX_MEM_SMF void allocate_block(Bit32u index); BX_MEM_SMF Bit8u* alloc_vector_aligned(Bit32u bytes, Bit32u alignment); #if BX_SUPPORT_MONITOR_MWAIT BX_MEM_SMF bx_bool is_monitor(bx_phy_address begin_addr, unsigned len); BX_MEM_SMF void check_monitor(bx_phy_address addr, unsigned len); #endif void register_state(void); friend void ramfile_save_handler(void *devptr, FILE *fp); friend Bit64s memory_param_save_handler(void *devptr, bx_param_c *param); friend void memory_param_restore_handler(void *devptr, bx_param_c *param, Bit64s val); }; BOCHSAPI extern BX_MEM_C bx_mem; // must be power of two #define BX_MEM_BLOCK_LEN (1024*1024) /* 1M blocks */ /* BX_CPP_INLINE Bit8u* BX_MEM_C::get_vector(bx_phy_address addr) { return (BX_MEM_THIS vector + addr); } */ BX_CPP_INLINE Bit8u* BX_MEM_C::get_vector(bx_phy_address addr) { Bit32u block = (Bit32u)(addr / BX_MEM_BLOCK_LEN); #if (BX_LARGE_RAMFILE) if (!BX_MEM_THIS blocks[block] || (BX_MEM_THIS blocks[block] == BX_MEM_THIS swapped_out)) #else if (!BX_MEM_THIS blocks[block]) #endif allocate_block(block); return BX_MEM_THIS blocks[block] + (Bit32u)(addr & (BX_MEM_BLOCK_LEN-1)); } BX_CPP_INLINE Bit64u BX_MEM_C::get_memory_len(void) { return (BX_MEM_THIS len); } #endif
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